ABI testing symbols

Documents interfaces that are felt to be stable, as the main development of this interface has been completed.

The interface can be changed to add new features, but the current interface will not break by doing this, unless grave errors or security problems are found in them.

Userspace programs can start to rely on these interfaces, but they must be aware of changes that can occur before these interfaces move to be marked stable.

Programs that use these interfaces are strongly encouraged to add their name to the description of these interfaces, so that the kernel developers can easily notify them if any changes occur.

.../XXXXXXX.ipa/endpoint_id/

.../XXXXXXX.ipa/endpoint_id/

Defined on file sysfs-devices-platform-soc-ipa

The .../XXXXXXX.ipa/endpoint_id/ directory contains attributes that define IDs associated with IPA endpoints. The “rx” or “tx” in an endpoint name is from the perspective of the AP. An endpoint ID is a small unsigned integer.

.../XXXXXXX.ipa/endpoint_id/modem_rx

.../XXXXXXX.ipa/endpoint_id/modem_rx

Defined on file sysfs-devices-platform-soc-ipa

The .../XXXXXXX.ipa/endpoint_id/modem_rx file contains the ID of the AP endpoint on which packets originating from the embedded modem are received.

.../XXXXXXX.ipa/endpoint_id/modem_tx

.../XXXXXXX.ipa/endpoint_id/modem_tx

Defined on file sysfs-devices-platform-soc-ipa

The .../XXXXXXX.ipa/endpoint_id/modem_tx file contains the ID of the AP endpoint on which packets destined for the embedded modem are sent.

.../XXXXXXX.ipa/endpoint_id/monitor_rx

.../XXXXXXX.ipa/endpoint_id/monitor_rx

Defined on file sysfs-devices-platform-soc-ipa

The .../XXXXXXX.ipa/endpoint_id/monitor_rx file contains the ID of the AP endpoint on which IPA “monitor” data is received. The monitor endpoint supplies replicas of packets that enter the IPA hardware for processing. Each replicated packet is preceded by a fixed-size “ODL” header (see .../XXXXXXX.ipa/feature/monitor, above). Large packets are truncated, to reduce the bandwidth required to provide the monitor function.

.../XXXXXXX.ipa/feature/

.../XXXXXXX.ipa/feature/

Defined on file sysfs-devices-platform-soc-ipa

The .../XXXXXXX.ipa/feature/ directory contains a set of attributes describing features implemented by the IPA hardware.

.../XXXXXXX.ipa/feature/rx_offload

.../XXXXXXX.ipa/feature/rx_offload

Defined on file sysfs-devices-platform-soc-ipa

The .../XXXXXXX.ipa/feature/rx_offload file contains a string indicating the type of receive checksum offload that is supported by the hardware. The possible values are “MAPv4” or “MAPv5”.

.../XXXXXXX.ipa/feature/tx_offload

.../XXXXXXX.ipa/feature/tx_offload

Defined on file sysfs-devices-platform-soc-ipa

The .../XXXXXXX.ipa/feature/tx_offload file contains a string indicating the type of transmit checksum offload that is supported by the hardware. The possible values are “MAPv4” or “MAPv5”.

.../XXXXXXX.ipa/modem/

.../XXXXXXX.ipa/modem/

Defined on file sysfs-devices-platform-soc-ipa

The .../XXXXXXX.ipa/modem/ directory contains attributes describing properties of the modem embedded in the SoC.

.../XXXXXXX.ipa/modem/rx_endpoint_id

.../XXXXXXX.ipa/modem/rx_endpoint_id

Defined on file sysfs-devices-platform-soc-ipa

The .../XXXXXXX.ipa/modem/rx_endpoint_id file duplicates the value found in .../XXXXXXX.ipa/endpoint_id/modem_rx.

.../XXXXXXX.ipa/modem/tx_endpoint_id

.../XXXXXXX.ipa/modem/tx_endpoint_id

Defined on file sysfs-devices-platform-soc-ipa

The .../XXXXXXX.ipa/modem/tx_endpoint_id file duplicates the value found in .../XXXXXXX.ipa/endpoint_id/modem_tx.

.../XXXXXXX.ipa/version

.../XXXXXXX.ipa/version

Defined on file sysfs-devices-platform-soc-ipa

The .../XXXXXXX.ipa/version file contains the IPA hardware version, as a period-separated set of two or three integers (e.g., “3.5.1” or “4.2”).

Symbols under /config/acpi

/config/acpi

Defined on file configfs-acpi

This represents the ACPI subsystem entry point directory. It contains sub-groups corresponding to ACPI configurable options.

/config/acpi/table

Defined on file configfs-acpi

This group contains the configuration for user defined ACPI tables. The attributes of a user define table are:

aml
  • a binary attribute that the user can use to fill in the ACPI aml definitions. Once the aml data is written to this file and the file is closed the table will be loaded and ACPI devices will be enumerated. To check if the operation is successful the user must check the error code for close(). If the operation is successful, subsequent writes to this attribute will fail.

The rest of the attributes are read-only and are valid only after the table has been loaded by filling the aml entry:

signature
  • ASCII table signature

length
  • length of table in bytes, including the header

revision
  • ACPI Specification minor version number

oem_id
  • ASCII OEM identification

oem_table_id
  • ASCII OEM table identification

oem_revision
  • OEM revision number

asl_compiler_id
  • ASCII ASL compiler vendor ID

asl_compiler_revision
  • ASL compiler version

Symbols under /config/iio

/config/iio

Defined on file configfs-iio

This represents Industrial IO configuration entry point directory. It contains sub-groups corresponding to IIO objects.

/config/iio/devices

Defined on file configfs-iio

Industrial IO software devices directory.

/config/iio/devices/dummy

Defined on file configfs-iio

Dummy IIO devices directory. Creating a directory here will result in creating a dummy IIO device in the IIO subsystem.

/config/iio/triggers

Defined on file configfs-iio

Industrial IO software triggers directory.

/config/iio/triggers/hrtimers

Defined on file configfs-iio

High resolution timers directory. Creating a directory here will result in creating a hrtimer trigger in the IIO subsystem.

Symbols under /config/pcie-gadget

/config/pcie-gadget

Defined on file configfs-spear-pcie-gadget

Interface is used to configure selected dual mode PCIe controller as device and then program its various registers to configure it as a particular device type. This interfaces can be used to show spear’s PCIe device capability.

Nodes are only visible when configfs is mounted. To mount configfs in /config directory use:

# mount -t configfs none /config/

For nth PCIe Device Controller /config/pcie-gadget.n/:

link

used to enable ltssm and read its status.

int_type

used to configure and read type of supported interrupt

no_of_msi

used to configure number of MSI vector needed and to read no of MSI granted.

inta

write 1 to assert INTA and 0 to de-assert.

send_msi

write MSI vector to be sent.

vendor_id

used to write and read vendor id (hex)

device_id

used to write and read device id (hex)

bar0_size

used to write and read bar0_size

bar0_address

used to write and read bar0 mapped area in hex.

bar0_rw_offset

used to write and read offset of bar0 where bar0_data will be written or read.

bar0_data

used to write and read data at bar0_rw_offset.

Symbols under /config/rdma_cm

/config/rdma_cm

Defined on file configfs-rdma_cm

Interface is used to configure RDMA-cable HCAs in respect to RDMA-CM attributes.

Attributes are visible only when configfs is mounted. To mount configfs in /config directory use: # mount -t configfs none /config/

In order to set parameters related to a specific HCA, a directory for this HCA has to be created: mkdir -p /config/rdma_cm/<hca>

/config/rdma_cm/<hca>/ports/<port-num>/default_roce_mode

Defined on file configfs-rdma_cm

RDMA-CM based connections from HCA <hca> at port <port-num> will be initiated with this RoCE type as default. The possible RoCE types are either “IB/RoCE v1” or “RoCE v2”. This parameter has RW access.

/config/rdma_cm/<hca>/ports/<port-num>/default_roce_tos

Defined on file configfs-rdma_cm

RDMA-CM QPs from HCA <hca> at port <port-num> will be created with this TOS as default. This can be overridden by using the rdma_set_option API. The possible RoCE TOS values are 0-255.

Symbols under /config/stp-policy

/config/stp-policy

Defined on file configfs-stp-policy

This group contains policies mandating Master/Channel allocation for software sources wishing to send trace data over an STM device.

/config/stp-policy/<device>.<policy>

Defined on file configfs-stp-policy

This group is the root of a policy; its name is a concatenation of an stm device name to which this policy applies and an arbitrary string. If <device> part doesn’t match an existing stm device, mkdir will fail with ENODEV; if that device already has a policy assigned to it, mkdir will fail with EBUSY.

/config/stp-policy/<device>.<policy>/<node>

Defined on file configfs-stp-policy

Policy node is a string identifier that software clients will use to request a master/channel to be allocated and assigned to them.

/config/stp-policy/<device>.<policy>/<node>/channels

Defined on file configfs-stp-policy

Range of channels from which to allocate for users of this node. Write two numbers: the first channel and the last channel number.

/config/stp-policy/<device>.<policy>/<node>/masters

Defined on file configfs-stp-policy

Range of masters from which to allocate for users of this node. Write two numbers: the first master and the last master number.

/config/stp-policy/<device>.<policy>/device

Defined on file configfs-stp-policy

STM device to which this policy applies, read only. Same as the <device> component of its parent directory.

/config/stp-policy/<device>:p_sys-t.<policy>/<node>/clocksync_interval

Defined on file configfs-stp-policy-p_sys-t

Time interval in milliseconds. Send a CLOCKSYNC packet if this many milliseconds have passed since the previous CLOCKSYNC packet from this source. Zero is the default and stands for “never send the CLOCKSYNC”. It makes sense to use this option with sources that generate constant and/or periodic data, like stm_heartbeat.

/config/stp-policy/<device>:p_sys-t.<policy>/<node>/do_len

Defined on file configfs-stp-policy-p_sys-t

Include payload length in the MIPI SyS-T header, boolean. If enabled, the SyS-T protocol encoder will include payload length in each packet’s metadata. This is normally redundant if the underlying transport protocol supports marking message boundaries (which STP does), so this is off by default.

/config/stp-policy/<device>:p_sys-t.<policy>/<node>/ts_interval

Defined on file configfs-stp-policy-p_sys-t

Time interval in milliseconds. Include a timestamp in the MIPI SyS-T packet metadata, if this many milliseconds have passed since the previous packet from this source. Zero is the default and stands for “never send the timestamp”.

/config/stp-policy/<device>:p_sys-t.<policy>/<node>/uuid

Defined on file configfs-stp-policy-p_sys-t

UUID source identifier string, RW. Default value is randomly generated at the mkdir <node> time. Data coming from trace sources that use this <node> will be tagged with this UUID in the MIPI SyS-T packet stream, to allow the decoder to discern between different sources within the same master/channel range, and identify the higher level decoders that may be needed for each source.

Symbols under /config/usb-gadget

/config/usb-gadget

Defined on file configfs-usb-gadget

This group contains sub-groups corresponding to created USB gadgets.

/config/usb-gadget/gadget

Defined on file configfs-usb-gadget

The attributes of a gadget:

UDC

bind a gadget to UDC/unbind a gadget; write UDC’s name found in /sys/class/udc/* to bind a gadget, empty string “” to unbind.

max_speed

maximum speed the driver supports. Valid names are super-speed-plus, super-speed, high-speed, full-speed, and low-speed.

bDeviceClass

USB device class code

bDeviceSubClass

USB device subclass code

bDeviceProtocol

USB device protocol code

bMaxPacketSize0

maximum endpoint 0 packet size

bcdDevice

bcd device release number

bcdUSB

bcd USB specification version number

idProduct

product ID

idVendor

vendor ID

/config/usb-gadget/gadget/configs

Defined on file configfs-usb-gadget

This group contains a USB gadget’s configurations

/config/usb-gadget/gadget/configs/config

Defined on file configfs-usb-gadget

The attributes of a configuration:

bmAttributes

configuration characteristics

MaxPower

maximum power consumption from the bus

/config/usb-gadget/gadget/configs/config/strings

Defined on file configfs-usb-gadget

This group contains subdirectories for language-specific strings for this configuration.

/config/usb-gadget/gadget/configs/config/strings/language

Defined on file configfs-usb-gadget

The attributes:

configuration

configuration description

/config/usb-gadget/gadget/functions

Defined on file configfs-usb-gadget

This group contains functions available to this USB gadget.

/config/usb-gadget/gadget/functions/<func>.<inst>/interface.<n>

Defined on file configfs-usb-gadget

This group contains “Feature Descriptors” specific for one gadget’s USB interface or one interface group described by an IAD.

The attributes:

compatible_id

8-byte string for “Compatible ID”

sub_compatible_id

8-byte string for “Sub Compatible ID”

/config/usb-gadget/gadget/functions/<func>.<inst>/interface.<n>/<property>

Defined on file configfs-usb-gadget

This group contains “Extended Property Descriptors” specific for one gadget’s USB interface or one interface group described by an IAD.

The attributes:

type

value 1..7 for interpreting the data

  • 1: unicode string

  • 2: unicode string with environment variable

  • 3: binary

  • 4: little-endian 32-bit

  • 5: big-endian 32-bit

  • 6: unicode string with a symbolic link

  • 7: multiple unicode strings

data

blob of data to be interpreted depending on type

/config/usb-gadget/gadget/functions/Loopback.name

Defined on file configfs-usb-gadget-loopback

The attributes:

qlen

depth of loopback queue

buflen

buffer length

/config/usb-gadget/gadget/functions/SourceSink.name

Defined on file configfs-usb-gadget-sourcesink

The attributes:

pattern

0 (all zeros), 1 (mod63), 2 (none)

isoc_interval

1..16

isoc_maxpacket

0 - 1023 (fs), 0 - 1024 (hs/ss)

isoc_mult

0..2 (hs/ss only)

isoc_maxburst

0..15 (ss only)

buflen

buffer length

bulk_qlen

depth of queue for bulk

iso_qlen

depth of queue for iso

/config/usb-gadget/gadget/functions/acm.name

Defined on file configfs-usb-gadget-acm

This item contains just one readonly attribute: port_num. It contains the port number of the /dev/ttyGS<n> device associated with acm function’s instance “name”.

/config/usb-gadget/gadget/functions/acm.name/protocol

Defined on file configfs-usb-gadget-acm

Reported bInterfaceProtocol for the ACM device. For legacy reasons, this defaults to 1 (USB_CDC_ACM_PROTO_AT_V25TER).

/config/usb-gadget/gadget/functions/ecm.name

Defined on file configfs-usb-gadget-ecm

The attributes:

ifname
  • network device interface name associated with this function instance

qmult
  • queue length multiplier for high and super speed

host_addr
  • MAC address of host’s end of this Ethernet over USB link

dev_addr
  • MAC address of device’s end of this Ethernet over USB link

/config/usb-gadget/gadget/functions/eem.name

Defined on file configfs-usb-gadget-eem

The attributes:

ifname

network device interface name associated with this function instance

qmult

queue length multiplier for high and super speed

host_addr

MAC address of host’s end of this Ethernet over USB link

dev_addr

MAC address of device’s end of this Ethernet over USB link

/config/usb-gadget/gadget/functions/ffs.name

Defined on file configfs-usb-gadget-ffs

The purpose of this directory is to create and remove it.

A corresponding USB function instance is created/removed.

All attributes are read only:

ready

1 if the function is ready to be used, E.G. if userspace has written descriptors and strings to ep0, so the gadget can be enabled - 0 otherwise.

All other parameters are set through FunctionFS.

/config/usb-gadget/gadget/functions/geth.name

Defined on file configfs-usb-gadget-subset

The attributes:

ifname

network device interface name associated with this function instance

qmult

queue length multiplier for high and super speed

host_addr

MAC address of host’s end of this Ethernet over USB link

dev_addr

MAC address of device’s end of this Ethernet over USB link

/config/usb-gadget/gadget/functions/gser.name

Defined on file configfs-usb-gadget-serial

This item contains just one readonly attribute: port_num. It contains the port number of the /dev/ttyGS<n> device associated with gser function’s instance “name”.

/config/usb-gadget/gadget/functions/hid.name

Defined on file configfs-usb-gadget-hid

The attributes:

protocol

HID protocol to use

report_desc

blob corresponding to HID report descriptors except the data passed through /dev/hidg<N>

report_length

HID report length

subclass

HID device subclass to use

/config/usb-gadget/gadget/functions/mass_storage.name

Defined on file configfs-usb-gadget-mass-storage

The attributes:

stall

Set to permit function to halt bulk endpoints. Disabled on some USB devices known not to work correctly. You should set it to true.

num_buffers

Number of pipeline buffers. Valid numbers are 2..4. Available only if CONFIG_USB_GADGET_DEBUG_FILES is set.

/config/usb-gadget/gadget/functions/mass_storage.name/lun.name

Defined on file configfs-usb-gadget-mass-storage

The attributes:

file

The path to the backing file for the LUN. Required if LUN is not marked as removable.

ro

Flag specifying access to the LUN shall be read-only. This is implied if CD-ROM emulation is enabled as well as when it was impossible to open “filename” in R/W mode.

removable

Flag specifying that LUN shall be indicated as being removable.

cdrom

Flag specifying that LUN shall be reported as being a CD-ROM.

nofua

Flag specifying that FUA flag in SCSI WRITE(10,12)

forced_eject

This write-only file is useful only when the function is active. It causes the backing file to be forcibly detached from the LUN, regardless of whether the host has allowed it. Any non-zero number of bytes written will result in ejection.

/config/usb-gadget/gadget/functions/midi.name

Defined on file configfs-usb-gadget-midi

The attributes:

index

index value for the USB MIDI adapter

id

ID string for the USB MIDI adapter

buflen

MIDI buffer length

qlen

USB read request queue length

in_ports

number of MIDI input ports

out_ports

number of MIDI output ports

/config/usb-gadget/gadget/functions/midi2.name

Defined on file configfs-usb-gadget-midi2

The attributes:

process_ump

Flag to process UMP Stream messages (0 or 1)

static_block

Flag for static blocks (0 or 1)

iface_name

MIDI interface name string

/config/usb-gadget/gadget/functions/midi2.name/ep.number

Defined on file configfs-usb-gadget-midi2

This group contains a UMP Endpoint configuration. A new Endpoint starts from 0, and can be up to 3.

The attributes:

protocol_caps

MIDI protocol capabilities (1, 2 or 3 for both)

protocol

Default MIDI protocol (1 or 2)

ep_name

UMP Endpoint name string

product_id

Product ID string

manufacturer

Manufacture ID (24 bit)

family

Device family ID (16 bit)

model

Device model ID (16 bit)

sw_revision

Software Revision (32 bit)

/config/usb-gadget/gadget/functions/midi2.name/ep.number/block.number

Defined on file configfs-usb-gadget-midi2

This group contains a UMP Function Block configuration. A new block starts from 0, and can be up to 31.

The attributes:

name

Function Block name string

direction

1: input, 2: output, 3: bidirectional

first_group

The first UMP Group number (0-15)

num_groups

The number of groups in this FB (1-16)

midi1_first_group

The first UMP Group number for MIDI 1.0 (0-15)

midi1_num_groups

The number of groups for MIDI 1.0 (0-16)

ui_hint

0: unknown, 1: receiver, 2: sender, 3: both

midi_ci_verison

Supported MIDI-CI version number (8 bit)

is_midi1

Legacy MIDI 1.0 device (0, 1 or 2)

sysex8_streams

Max number of SysEx8 streams (8 bit)

active

Active FB flag (0 or 1)

/config/usb-gadget/gadget/functions/ncm.name

Defined on file configfs-usb-gadget-ncm

The attributes:

ifname - network device interface name associated with

this function instance

qmult - queue length multiplier for high and

super speed

host_addr - MAC address of host’s end of this

Ethernet over USB link

dev_addr - MAC address of device’s end of this

Ethernet over USB link

/config/usb-gadget/gadget/functions/obex.name

Defined on file configfs-usb-gadget-obex

This item contains just one readonly attribute: port_num. It contains the port number of the /dev/ttyGS<n> device associated with obex function’s instance “name”.

/config/usb-gadget/gadget/functions/phonet.name

Defined on file configfs-usb-gadget-phonet

This item contains just one readonly attribute: ifname. It contains the network interface name assigned during network device registration.

/config/usb-gadget/gadget/functions/printer.name

Defined on file configfs-usb-gadget-printer

The attributes:

pnp_string

Data to be passed to the host in pnp string

q_len

Number of requests per endpoint

/config/usb-gadget/gadget/functions/rndis.name

Defined on file configfs-usb-gadget-rndis

The attributes:

ifname

network device interface name associated with this function instance

qmult

queue length multiplier for high and super speed

host_addr

MAC address of host’s end of this Ethernet over USB link

dev_addr

MAC address of device’s end of this Ethernet over USB link

class

USB interface class, default is 02 (hex)

subclass

USB interface subclass, default is 06 (hex)

protocol

USB interface protocol, default is 00 (hex)

/config/usb-gadget/gadget/functions/tcm.name

Defined on file configfs-usb-gadget-tcm

There are no attributes because all the configuration is performed in the “target” subsystem of configfs.

/config/usb-gadget/gadget/functions/uac1.name

Defined on file configfs-usb-gadget-uac1

The attributes:

c_chmask

capture channel mask

c_srate

list of capture sampling rates (comma-separated)

c_ssize

capture sample size (bytes)

c_mute_present

capture mute control enable

c_volume_present

capture volume control enable

c_volume_min

capture volume control min value (in 1/256 dB)

c_volume_max

capture volume control max value (in 1/256 dB)

c_volume_res

capture volume control resolution (in 1/256 dB)

p_chmask

playback channel mask

p_srate

list of playback sampling rates (comma-separated)

p_ssize

playback sample size (bytes)

p_mute_present

playback mute control enable

p_volume_present

playback volume control enable

p_volume_min

playback volume control min value (in 1/256 dB)

p_volume_max

playback volume control max value (in 1/256 dB)

p_volume_res

playback volume control resolution (in 1/256 dB)

req_number

the number of pre-allocated requests for both capture and playback

function_name

name of the interface

p_it_name

playback input terminal name

p_it_ch_name

playback channels name

p_ot_name

playback output terminal name

p_fu_vol_name

playback mute/volume functional unit name

c_it_name

capture input terminal name

c_it_ch_name

capture channels name

c_ot_name

capture output terminal name

c_fu_vol_name

capture mute/volume functional unit name

/config/usb-gadget/gadget/functions/uac1_legacy.name

Defined on file configfs-usb-gadget-uac1_legacy

The attributes:

audio_buf_size - audio buffer size fn_cap - capture pcm device file name fn_cntl - control device file name fn_play - playback pcm device file name req_buf_size - ISO OUT endpoint request buffer size req_count - ISO OUT endpoint request count

/config/usb-gadget/gadget/functions/uac2.name

Defined on file configfs-usb-gadget-uac2

The attributes:

c_chmask

capture channel mask

c_srate

list of capture sampling rates (comma-separated)

c_ssize

capture sample size (bytes)

c_hs_bint

capture bInterval for HS/SS (1-4: fixed, 0: auto)

c_sync

capture synchronization type (async/adaptive)

c_mute_present

capture mute control enable

c_volume_present

capture volume control enable

c_volume_min

capture volume control min value (in 1/256 dB)

c_volume_max

capture volume control max value (in 1/256 dB)

c_volume_res

capture volume control resolution (in 1/256 dB)

fb_max

maximum extra bandwidth in async mode

p_chmask

playback channel mask

p_srate

list of playback sampling rates (comma-separated)

p_ssize

playback sample size (bytes)

p_hs_bint

playback bInterval for HS/SS (1-4: fixed, 0: auto)

p_mute_present

playback mute control enable

p_volume_present

playback volume control enable

p_volume_min

playback volume control min value (in 1/256 dB)

p_volume_max

playback volume control max value (in 1/256 dB)

p_volume_res

playback volume control resolution (in 1/256 dB)

req_number

the number of pre-allocated requests for both capture and playback

function_name

name of the interface

if_ctrl_name

topology control name

clksrc_in_name

input clock name

clksrc_out_name

output clock name

p_it_name

playback input terminal name

p_it_ch_name

playback input first channel name

p_ot_name

playback output terminal name

p_fu_vol_name

playback mute/volume function unit name

c_it_name

capture input terminal name

c_it_ch_name

capture input first channel name

c_ot_name

capture output terminal name

c_fu_vol_name

capture mute/volume functional unit name

c_terminal_type

code of the capture terminal type

p_terminal_type

code of the playback terminal type

/config/usb-gadget/gadget/functions/uvc.name

Defined on file configfs-usb-gadget-uvc

UVC function directory

streaming_maxburst

0..15 (ss only)

streaming_maxpacket

1..1023 (fs), 1..3072 (hs/ss)

streaming_interval

1..16

function_name

string [32]

/config/usb-gadget/gadget/functions/uvc.name/control

Defined on file configfs-usb-gadget-uvc

Control descriptors

All attributes read only except enable_interrupt_ep:

bInterfaceNumber

USB interface number for this streaming interface

enable_interrupt_ep

flag to enable the interrupt endpoint for the VC interface

/config/usb-gadget/gadget/functions/uvc.name/control/class

Defined on file configfs-usb-gadget-uvc

Class descriptors

/config/usb-gadget/gadget/functions/uvc.name/control/class/fs

Defined on file configfs-usb-gadget-uvc

Full speed control class descriptors

/config/usb-gadget/gadget/functions/uvc.name/control/class/ss

Defined on file configfs-usb-gadget-uvc

Super speed control class descriptors

/config/usb-gadget/gadget/functions/uvc.name/control/extensions

Defined on file configfs-usb-gadget-uvc

Extension unit descriptors

/config/usb-gadget/gadget/functions/uvc.name/control/extensions/name

Defined on file configfs-usb-gadget-uvc

Extension Unit (XU) Descriptor

bLength, bUnitID and iExtension are read-only. All others are read-write.

bLength

size of the descriptor in bytes

bUnitID

non-zero ID of this unit

guidExtensionCode

Vendor-specific code identifying the XU

bNumControls

number of controls in this XU

bNrInPins

number of input pins for this unit

baSourceID

list of the IDs of the units or terminals to which this XU is connected

bControlSize

size of the bmControls field in bytes

bmControls

list of bitmaps detailing which vendor specific controls are supported

iExtension

index of a string descriptor that describes this extension unit

/config/usb-gadget/gadget/functions/uvc.name/control/header

Defined on file configfs-usb-gadget-uvc

Control header descriptors

/config/usb-gadget/gadget/functions/uvc.name/control/header/name

Defined on file configfs-usb-gadget-uvc

Specific control header descriptors

dwClockFrequency bcdUVC

/config/usb-gadget/gadget/functions/uvc.name/control/processing

Defined on file configfs-usb-gadget-uvc

Processing unit descriptors

/config/usb-gadget/gadget/functions/uvc.name/control/processing/default

Defined on file configfs-usb-gadget-uvc

Default processing unit descriptors

All attributes read only except bmControls, which is read/write:

iProcessing

index of string descriptor

bmControls

bitmap specifying which controls are supported for the video stream

wMaxMultiplier

maximum digital magnification x100

bSourceID

id of the terminal to which this unit is connected

bUnitID

a non-zero id of this unit

/config/usb-gadget/gadget/functions/uvc.name/control/terminal

Defined on file configfs-usb-gadget-uvc

Terminal descriptors

/config/usb-gadget/gadget/functions/uvc.name/control/terminal/camera

Defined on file configfs-usb-gadget-uvc

Camera terminal descriptors

/config/usb-gadget/gadget/functions/uvc.name/control/terminal/camera/default

Defined on file configfs-usb-gadget-uvc

Default camera terminal descriptors

All attributes read only except bmControls, which is read/write:

bmControls

bitmap specifying which controls are supported for the video stream

wOcularFocalLength

the value of Locular

wObjectiveFocalLengthMax

the value of Lmin

wObjectiveFocalLengthMin

the value of Lmax

iTerminal

index of string descriptor

bAssocTerminal

id of the output terminal to which this terminal is connected

wTerminalType

terminal type

bTerminalID

a non-zero id of this terminal

/config/usb-gadget/gadget/functions/uvc.name/control/terminal/output

Defined on file configfs-usb-gadget-uvc

Output terminal descriptors

/config/usb-gadget/gadget/functions/uvc.name/control/terminal/output/default

Defined on file configfs-usb-gadget-uvc

Default output terminal descriptors

All attributes read only except bSourceID:

iTerminal

index of string descriptor

bSourceID

id of the terminal to which this terminal is connected

bAssocTerminal

id of the input terminal to which this output terminal is associated

wTerminalType

terminal type

bTerminalID

a non-zero id of this terminal

/config/usb-gadget/gadget/functions/uvc.name/streaming

Defined on file configfs-usb-gadget-uvc

Streaming descriptors

All attributes read only:

bInterfaceNumber

USB interface number for this streaming interface

/config/usb-gadget/gadget/functions/uvc.name/streaming/class

Defined on file configfs-usb-gadget-uvc

Streaming class descriptors

/config/usb-gadget/gadget/functions/uvc.name/streaming/class/fs

Defined on file configfs-usb-gadget-uvc

Full speed streaming class descriptors

/config/usb-gadget/gadget/functions/uvc.name/streaming/class/hs

Defined on file configfs-usb-gadget-uvc

High speed streaming class descriptors

/config/usb-gadget/gadget/functions/uvc.name/streaming/class/ss

Defined on file configfs-usb-gadget-uvc

Super speed streaming class descriptors

/config/usb-gadget/gadget/functions/uvc.name/streaming/color_matching

Defined on file configfs-usb-gadget-uvc

Color matching descriptors

/config/usb-gadget/gadget/functions/uvc.name/streaming/color_matching/default

Defined on file configfs-usb-gadget-uvc

Default color matching descriptors

All attributes read/write:

bMatrixCoefficients

matrix used to compute luma and chroma values from the color primaries

bTransferCharacteristics

optoelectronic transfer characteristic of the source picture, also called the gamma function

bColorPrimaries

color primaries and the reference white

/config/usb-gadget/gadget/functions/uvc.name/streaming/color_matching/name

Defined on file configfs-usb-gadget-uvc

Additional color matching descriptors

All attributes read/write:

bMatrixCoefficients

matrix used to compute luma and chroma values from the color primaries

bTransferCharacteristics

optoelectronic transfer characteristic of the source picture, also called the gamma function

bColorPrimaries

color primaries and the reference white

/config/usb-gadget/gadget/functions/uvc.name/streaming/header

Defined on file configfs-usb-gadget-uvc

Streaming header descriptors

/config/usb-gadget/gadget/functions/uvc.name/streaming/header/name

Defined on file configfs-usb-gadget-uvc

Specific streaming header descriptors

All attributes read only:

bTriggerUsage

how the host software will respond to a hardware trigger interrupt event

bTriggerSupport

flag specifying if hardware triggering is supported

bStillCaptureMethod

method of still image capture supported

bTerminalLink

id of the output terminal to which the video endpoint of this interface is connected

bmInfo

capabilities of this video streaming interface

/config/usb-gadget/gadget/functions/uvc.name/streaming/mjpeg

Defined on file configfs-usb-gadget-uvc

MJPEG format descriptors

/config/usb-gadget/gadget/functions/uvc.name/streaming/mjpeg/name

Defined on file configfs-usb-gadget-uvc

Specific MJPEG format descriptors

All attributes read only, except bmaControls and bDefaultFrameIndex:

bFormatIndex

unique id for this format descriptor; only defined after parent header is linked into the streaming class; read-only

bmaControls

this format’s data for bmaControls in the streaming header

bmInterlaceFlags

specifies interlace information, read-only

bAspectRatioY

the X dimension of the picture aspect ratio, read-only

bAspectRatioX

the Y dimension of the picture aspect ratio, read-only

bmFlags

characteristics of this format, read-only

bDefaultFrameIndex

optimum frame index for this stream

/config/usb-gadget/gadget/functions/uvc.name/streaming/mjpeg/name/name

Defined on file configfs-usb-gadget-uvc

Specific MJPEG frame descriptors

bFrameIndex

unique id for this framedescriptor; only defined after parent format is linked into the streaming header; read-only

dwFrameInterval

indicates how frame interval can be programmed; a number of values separated by newline can be specified

dwDefaultFrameInterval

the frame interval the device would like to use as default

dwMaxVideoFrameBufferSize

the maximum number of bytes the compressor will produce for a video frame or still image

dwMaxBitRate

the maximum bit rate at the shortest frame interval in bps

dwMinBitRate

the minimum bit rate at the longest frame interval in bps

wHeight

height of decoded bitmap frame in px

wWidth

width of decoded bitmam frame in px

bmCapabilities

still image support, fixed frame-rate support

/config/usb-gadget/gadget/functions/uvc.name/streaming/uncompressed

Defined on file configfs-usb-gadget-uvc

Uncompressed format descriptors

/config/usb-gadget/gadget/functions/uvc.name/streaming/uncompressed/name

Defined on file configfs-usb-gadget-uvc

Specific uncompressed format descriptors

bFormatIndex

unique id for this format descriptor; only defined after parent header is linked into the streaming class; read-only

bmaControls

this format’s data for bmaControls in the streaming header

bmInterlaceFlags

specifies interlace information, read-only

bAspectRatioY

the X dimension of the picture aspect ratio, read-only

bAspectRatioX

the Y dimension of the picture aspect ratio, read-only

bDefaultFrameIndex

optimum frame index for this stream

bBitsPerPixel

number of bits per pixel used to specify color in the decoded video frame

guidFormat

globally unique id used to identify stream-encoding format

/config/usb-gadget/gadget/functions/uvc.name/streaming/uncompressed/name/name

Defined on file configfs-usb-gadget-uvc

Specific uncompressed frame descriptors

bFrameIndex

unique id for this framedescriptor; only defined after parent format is linked into the streaming header; read-only

dwFrameInterval

indicates how frame interval can be programmed; a number of values separated by newline can be specified

dwDefaultFrameInterval

the frame interval the device would like to use as default

dwMaxVideoFrameBufferSize

the maximum number of bytes the compressor will produce for a video frame or still image

dwMaxBitRate

the maximum bit rate at the shortest frame interval in bps

dwMinBitRate

the minimum bit rate at the longest frame interval in bps

wHeight

height of decoded bitmap frame in px

wWidth

width of decoded bitmam frame in px

bmCapabilities

still image support, fixed frame-rate support

/config/usb-gadget/gadget/os_desc

Defined on file configfs-usb-gadget

This group contains “OS String” extension handling attributes.

use

flag turning “OS Descriptors” support on/off

b_vendor_code

one-byte value used for custom per-device and per-interface requests

qw_sign

an identifier to be reported as “OS String” proper

/config/usb-gadget/gadget/strings

Defined on file configfs-usb-gadget

This group contains subdirectories for language-specific strings for this gadget.

/config/usb-gadget/gadget/strings/language

Defined on file configfs-usb-gadget

The attributes:

serialnumber

gadget’s serial number (string)

product

gadget’s product description

manufacturer

gadget’s manufacturer description

/config/usb-gadget/gadget/webusb

Defined on file configfs-usb-gadget

This group contains “WebUSB” extension handling attributes.

use

flag turning “WebUSB” support on/off

bcdVersion

bcd WebUSB specification version number

bVendorCode

one-byte value used for custom per-device

landingPage

UTF-8 encoded URL of the device’s landing page

Symbols under /dev/gpiochip

/dev/gpiochip[0-9]+

Defined on file gpio-cdev

The character device files /dev/gpiochip* are the interface between GPIO chips and userspace.

The ioctl(2)-based ABI is defined in [include/uapi]<linux/gpio.h> and documented in GPIO Character Device Userspace API.

The following file operations are supported:

open(2)

Currently the only useful flags are O_RDWR.

ioctl(2)

Initiate various actions.

See GPIO Character Device Userspace API for a description of all ioctls.

close(2)

Stops and free up the I/O contexts that was associated with the file descriptor.

Users: TBD

Symbols under /dev/kmsg

/dev/kmsg

Defined on file dev-kmsg

The /dev/kmsg character device node provides userspace access to the kernel’s printk buffer.

Injecting messages:

Every write() to the opened device node places a log entry in the kernel’s printk buffer.

The logged line can be prefixed with a <N> syslog prefix, which carries the syslog priority and facility. The single decimal prefix number is composed of the 3 lowest bits being the syslog priority and the next 8 bits the syslog facility number.

If no prefix is given, the priority number is the default kernel log priority and the facility number is set to LOG_USER (1). It is not possible to inject messages from userspace with the facility number LOG_KERN (0), to make sure that the origin of the messages can always be reliably determined.

Accessing the buffer:

Every read() from the opened device node receives one record of the kernel’s printk buffer.

The first read() directly following an open() always returns first message in the buffer; there is no kernel-internal persistent state; many readers can concurrently open the device and read from it, without affecting other readers.

Every read() will receive the next available record. If no more records are available read() will block, or if O_NONBLOCK is used -EAGAIN returned.

Messages in the record ring buffer get overwritten as whole, there are never partial messages received by read().

In case messages get overwritten in the circular buffer while the device is kept open, the next read() will return -EPIPE, and the seek position be updated to the next available record. Subsequent reads() will return available records again.

Unlike the classic syslog() interface, the 64 bit record sequence numbers allow to calculate the amount of lost messages, in case the buffer gets overwritten. And they allow to reconnect to the buffer and reconstruct the read position if needed, without limiting the interface to a single reader.

The device supports seek with the following parameters:

SEEK_SET, 0

seek to the first entry in the buffer

SEEK_END, 0

seek after the last entry in the buffer

SEEK_DATA, 0

seek after the last record available at the time the last SYSLOG_ACTION_CLEAR was issued.

Other seek operations or offsets are not supported because of the special behavior this device has. The device allows to read or write only whole variable length messages (records) that are stored in a ring buffer.

Because of the non-standard behavior also the error values are non-standard. -ESPIPE is returned for non-zero offset. -EINVAL is returned for other operations, e.g. SEEK_CUR. This behavior and values are historical and could not be modified without the risk of breaking userspace.

The output format consists of a prefix carrying the syslog prefix including priority and facility, the 64 bit message sequence number and the monotonic timestamp in microseconds, and a flag field. All fields are separated by a ‘,’.

Future extensions might add more comma separated values before the terminating ‘;’. Unknown fields and values should be gracefully ignored.

The human readable text string starts directly after the ‘;’ and is terminated by a ‘n’. Untrusted values derived from hardware or other facilities are printed, therefore all non-printable characters and ‘' itself in the log message are escaped by “x00” C-style hex encoding.

A line starting with ‘ ‘, is a continuation line, adding key/value pairs to the log message, which provide the machine readable context of the message, for reliable processing in userspace.

Example:

7,160,424069,-;pci_root PNP0A03:00: host bridge window [io  0x0000-0x0cf7] (ignored)
 SUBSYSTEM=acpi
 DEVICE=+acpi:PNP0A03:00
6,339,5140900,-;NET: Registered protocol family 10
30,340,5690716,-;udevd[80]: starting version 181

The DEVICE= key uniquely identifies devices the following way:

b12:8

block dev_t

c127:3

char dev_t

n8

netdev ifindex

+sound:card0

subsystem:devname

The flags field carries ‘-’ by default. A ‘c’ indicates a fragment of a line. Note, that these hints about continuation lines are not necessarily correct, and the stream could be interleaved with unrelated messages, but merging the lines in the output usually produces better human readable results. A similar logic is used internally when messages are printed to the console, /proc/kmsg or the syslog() syscall.

By default, kernel tries to avoid fragments by concatenating when it can and fragments are rare; however, when extended console support is enabled, the in-kernel concatenation is disabled and /dev/kmsg output will contain more fragments. If the log consumer performs concatenation, the end result should be the same. In the future, the in-kernel concatenation may be removed entirely and /dev/kmsg users are recommended to implement fragment handling.

Users: dmesg(1), userspace kernel log consumers

Symbols under /dev/rtcX

/dev/rtcX

Defined on file rtc-cdev

The ioctl interface to drivers for real-time clocks (RTCs). Following actions are supported:

  • RTC_RD_TIME, RTC_SET_TIME: Read or set the RTC time. Time format is a Gregorian calendar date and 24 hour wall clock time.

  • RTC_AIE_ON, RTC_AIE_OFF: Enable or disable the alarm interrupt for RTCs that support alarms

  • RTC_ALM_READ, RTC_ALM_SET: Read or set the alarm time for RTCs that support alarms. Can be set upto 24 hours in the future. Requires a separate RTC_AIE_ON call to enable the alarm interrupt. (Prefer to use RTC_WKALM_*)

  • RTC_WKALM_RD, RTC_WKALM_SET: For RTCs that support a more powerful interface, which can issue alarms beyond 24 hours and enable IRQs in the same request.

  • RTC_PIE_ON, RTC_PIE_OFF: Enable or disable the periodic interrupt for RTCs that support periodic interrupts.

  • RTC_UIE_ON, RTC_UIE_OFF: Enable or disable the update interrupt for RTCs that support it.

  • RTC_IRQP_READ, RTC_IRQP_SET: Read or set the frequency for periodic interrupts for RTCs that support periodic interrupts. Requires a separate RTC_PIE_ON call to enable the periodic interrupts.

  • RTC_VL_READ: Read the voltage inputs status of the RTC when supported. The value is a bit field of RTC_VL_*, giving the status of the main and backup voltages.

  • RTC_VL_CLEAR: Clear the voltage status of the RTC. Some RTCs need user interaction when the backup power provider is replaced or charged to be able to clear the status.

The ioctl() calls supported by the older /dev/rtc interface are also supported by the newer RTC class framework. However, because the chips and systems are not standardized, some PC/AT functionality might not be provided. And in the same way, some newer features -- including those enabled by ACPI -- are exposed by the RTC class framework, but can’t be supported by the older driver.

Symbols under /dev/wmi

/dev/wmi/dell-smbios

Defined on file dell-smbios-wmi

Perform SMBIOS calls on supported Dell machines. through the Dell ACPI-WMI interface.

IOCTL’s and buffer formats are defined in: <uapi/linux/wmi.h>

  1. To perform an SMBIOS call from userspace, you’ll need to first determine the minimum size of the calling interface buffer for your machine. Platforms that contain larger buffers can return larger objects from the system firmware. Commonly this size is either 4k or 32k.

    To determine the size of the buffer read() a u64 dword from the WMI character device /dev/wmi/dell-smbios.

  2. After you’ve determined the minimum size of the calling interface buffer, you can allocate a structure that represents the structure documented above.

  3. In the ‘length’ object store the size of the buffer you determined above and allocated.

  4. In this buffer object, prepare as necessary for the SMBIOS call you’re interested in. Typically SMBIOS buffers have “class”, “select”, and “input” defined to values that coincide with the data you are interested in. Documenting class/select/input values is outside of the scope of this documentation. Check with the libsmbios project for further documentation on these values.

  1. Run the call by using ioctl() as described in the header.

  2. The output will be returned in the buffer object.

  3. Be sure to free up your allocated object.

Symbols under /kvd

/kvd/

Defined on file devlink-resource-mlxsw

The main database in the Spectrum device is a centralized KVD database used for many of the tables used to configure the chip including L2 FDB, L3 LPM, ECMP and more. The KVD is divided into two sections, the first is hash-based table and the second is a linear access table. The division between the linear and hash-based sections is static and require reload before the changes take effect.

Symbols under /kvd/hash_double

/kvd/hash_double

Defined on file devlink-resource-mlxsw

The hash based section of the KVD is managed by the switch device. Used in case the key is larger than 64 bit.

Symbols under /kvd/hash_single

/kvd/hash_single

Defined on file devlink-resource-mlxsw

The hash based section of the KVD is managed by the switch device. Used in case the key size is smaller or equal to 64bit.

Symbols under /kvd/linear

/kvd/linear

Defined on file devlink-resource-mlxsw

The linear section of the KVD is managed by software as a flat memory accessed using an index.

Symbols under /proc

/proc/*/attr/current

Defined on file procfs-attr-current

The current security information used by a Linux security module (LSM) that is active on the system. The details of permissions required to read from this interface and hence obtain the security state of the task identified is LSM dependent. A process cannot write to this interface unless it refers to itself. The other details of permissions required to write to this interface and hence change the security state of the task identified are LSM dependent. The format of the data used by this interface is LSM dependent. SELinux, Smack and AppArmor provide this interface.

Users: SELinux user-space Smack user-space AppArmor user-space

/proc/*/attr/exec

Defined on file procfs-attr-exec

The security information to be used on the process by a Linux security module (LSM) active on the system after a subsequent exec() call. The details of permissions required to read from this interface and hence obtain the security state of the task identified is LSM dependent. A process cannot write to this interface unless it refers to itself. The other details of permissions required to write to this interface and hence change the security state of the task identified are LSM dependent. The format of the data used by this interface is LSM dependent. SELinux and AppArmor provide this interface.

Users: SELinux user-space AppArmor user-space

/proc/*/attr/prev

Defined on file procfs-attr-prev

The security information used on the process by a Linux security module (LSM) active on the system prior to the most recent exec() call. The details of permissions required to read from this interface is LSM dependent. A process cannot write to this interface unless it refers to itself. The other details of permissions required to write to this interface are LSM dependent. The format of the data used by this interface is LSM dependent. SELinux and AppArmor provide this interface.

Users: SELinux user-space AppArmor user-space

Symbols under /proc/diskstats

/proc/diskstats

Defined on file procfs-diskstats

The /proc/diskstats file displays the I/O statistics of block devices. Each line contains the following 14 fields:

1

major number

2

minor number

3

device name

4

reads completed successfully

5

reads merged

6

sectors read

7

time spent reading (ms)

8

writes completed

9

writes merged

10

sectors written

11

time spent writing (ms)

12

I/Os currently in progress

13

time spent doing I/Os (ms)

14

weighted time spent doing I/Os (ms)

Kernel 4.18+ appends four more fields for discard tracking putting the total at 18:

15

discards completed successfully

16

discards merged

17

sectors discarded

18

time spent discarding

Kernel 5.5+ appends two more fields for flush requests:

19

flush requests completed successfully

20

time spent flushing

For more details refer to I/O statistics fields

Symbols under /proc/pid

/proc/pid/smaps_rollup

Defined on file procfs-smaps_rollup

This file provides pre-summed memory information for a process. The format is almost identical to /proc/pid/smaps, except instead of an entry for each VMA in a process, smaps_rollup has a single entry (tagged “[rollup]”) for which each field is the sum of the corresponding fields from all the maps in /proc/pid/smaps. Additionally, the fields Pss_Anon, Pss_File and Pss_Shmem are not present in /proc/pid/smaps. These fields represent the sum of the Pss field of each type (anon, file, shmem). For more details, see The /proc Filesystem and the procfs man page.

Typical output looks like this:

00100000-ff709000 ---p 00000000 00:00 0          [rollup]
Size:               1192 kB
KernelPageSize:        4 kB
MMUPageSize:           4 kB
Rss:                 884 kB
Pss:                 385 kB
Pss_Dirty:            68 kB
Pss_Anon:            301 kB
Pss_File:             80 kB
Pss_Shmem:             4 kB
Shared_Clean:        696 kB
Shared_Dirty:          0 kB
Private_Clean:       120 kB
Private_Dirty:        68 kB
Referenced:          884 kB
Anonymous:            68 kB
LazyFree:              0 kB
AnonHugePages:         0 kB
ShmemPmdMapped:        0 kB
Shared_Hugetlb:        0 kB
Private_Hugetlb:       0 kB
Swap:                  0 kB
SwapPss:               0 kB
Locked:              385 kB

Symbols under /sys

/sys/.../<device>/<UUID>/

Defined on file sysfs-bus-vfio-mdev

This directory represents device directory of mediated device. It contains all the attributes related to mediated device.

/sys/.../<device>/<UUID>/mdev_type

Defined on file sysfs-bus-vfio-mdev

This is symbolic link pointing to supported type, <type-id> directory of which this mediated device is created.

/sys/.../<device>/<UUID>/remove

Defined on file sysfs-bus-vfio-mdev

Writing ‘1’ to this file destroys the mediated device. The vendor driver can fail the remove() callback if that device is active and the vendor driver doesn’t support hot unplug. Example:

# echo 1 > /sys/bus/mdev/devices/<UUID>/remove

/sys/.../<device>/mdev_supported_types/

Defined on file sysfs-bus-vfio-mdev

This directory contains list of directories of currently supported mediated device types and their details for <device>. Supported type attributes are defined by the vendor driver who registers with Mediated device framework. Each supported type is a directory whose name is created by adding the device driver string as a prefix to the string provided by the vendor driver.

/sys/.../<device>/mdev_supported_types/<type-id>/

Defined on file sysfs-bus-vfio-mdev

This directory gives details of supported type, like name, description, available_instances, device_api etc. ‘device_api’ and ‘available_instances’ are mandatory attributes to be provided by vendor driver. ‘name’, ‘description’ and other vendor driver specific attributes are optional.

/sys/.../<device>/vfio-dev/vfioX/

Defined on file sysfs-devices-vfio-dev

This directory is created when the device is bound to a vfio driver. The layout under this directory matches what exists for a standard ‘struct device’. ‘X’ is a unique index marking this device in vfio.

/sys/.../events/illuminance_threshY_falling_value

/sys/.../events/illuminance_threshY_raising_value

Defined on file sysfs-bus-iio-light-lm3533-als

Specifies the value of threshold that the device is comparing against for the events enabled by in_illuminance0_thresh_either_en (0..255), where Y in 0..3.

Note that threshY_falling must be less than or equal to threshY_raising.

These thresholds correspond to the eight zone-boundary registers (boundaryY_{low,high}) and define the five light zones.

/sys/.../events/in_accel_gesture_doubletap_tap2_min_delay

Defined on file sysfs-bus-iio

Specifies the minimum quiet time in seconds between the two taps of a double tap.

/sys/.../events/in_accel_gesture_doubletap_tap2_min_delay_available

Defined on file sysfs-bus-iio

Lists all available delay values between two taps in the double tap. Units in seconds.

/sys/.../events/in_accel_gesture_singletap_en

/sys/.../events/in_accel_gesture_doubletap_en

Defined on file sysfs-bus-iio

Device generates an event on a single or double tap.

/sys/.../events/in_accel_gesture_singletap_reset_timeout

/sys/.../events/in_accel_gesture_doubletap_reset_timeout

Defined on file sysfs-bus-iio

Specifies the timeout value in seconds for the tap detector to not to look for another tap event after the event as occurred. Basically the minimum quiet time between the two single-tap’s or two double-tap’s.

/sys/.../events/in_accel_gesture_singletap_value

/sys/.../events/in_accel_gesture_doubletap_value

Defined on file sysfs-bus-iio

Specifies the threshold value that the device is comparing against to generate the tap gesture event. The lower threshold value increases the sensitivity of tap detection. Units and the exact meaning of value are device-specific.

/sys/.../events/in_accel_gesture_tap_maxtomin_time

Defined on file sysfs-bus-iio

Specifies the maximum time difference allowed between upper and lower peak of tap to consider it as the valid tap event. Units in seconds.

/sys/.../events/in_accel_gesture_tap_maxtomin_time_available

Defined on file sysfs-bus-iio

Lists all available time values between upper peak to lower peak. Units in seconds.

/sys/.../events/in_accel_gesture_tap_reset_timeout_available

Defined on file sysfs-bus-iio

Lists all available tap reset timeout values. Units in seconds.

/sys/.../events/in_accel_gesture_tap_value_available

Defined on file sysfs-bus-iio

Lists all available threshold values which can be used to modify the sensitivity of the tap detection.

/sys/.../events/in_accel_gesture_tap_wait_dur

Defined on file sysfs-bus-iio

Timeout value in seconds for tap gesture confirmation.

/sys/.../events/in_accel_gesture_tap_wait_dur_available

Defined on file sysfs-bus-iio

List of available timeout value for tap gesture confirmation.

/sys/.../events/in_accel_gesture_tap_wait_timeout

Defined on file sysfs-bus-iio

Enable tap gesture confirmation with timeout.

/sys/.../events/in_accel_raw_mag_value

/sys/.../events/in_accel_x_raw_mag_rising_value

/sys/.../events/in_accel_y_raw_mag_rising_value

/sys/.../events/in_accel_z_raw_mag_rising_value

Defined on file sysfs-bus-iio

The value to which the magnitude of the channel is compared. If number or direction is not specified, applies to all channels of this type.

/sys/.../events/in_accel_scale

/sys/.../events/in_accel_peak_scale

/sys/.../events/in_anglvel_scale

/sys/.../events/in_magn_scale

/sys/.../events/in_rot_from_north_magnetic_scale

/sys/.../events/in_rot_from_north_true_scale

/sys/.../events/in_voltage_scale

/sys/.../events/in_voltage_supply_scale

/sys/.../events/in_temp_scale

/sys/.../events/in_illuminance_scale

/sys/.../events/in_proximity_scale

Defined on file sysfs-bus-iio

Specifies the conversion factor from the standard units to device specific units used to set the event trigger threshold.

/sys/.../events/in_accel_thresh_rising_high_pass_filter_3db

/sys/.../events/in_anglvel_thresh_rising_high_pass_filter_3db

/sys/.../events/in_magn_thresh_rising_high_pass_filter_3db

Defined on file sysfs-bus-iio

If a high pass filter can be applied to the event generation this property gives its 3db frequency in Hz. A value of zero disables the filter.

/sys/.../events/in_accel_thresh_rising_low_pass_filter_3db

/sys/.../events/in_anglvel_thresh_rising_low_pass_filter_3db

/sys/.../events/in_magn_thresh_rising_low_pass_filter_3db

Defined on file sysfs-bus-iio

If a low pass filter can be applied to the event generation this property gives its 3db frequency in Hz. A value of zero disables the filter.

/sys/.../events/in_accel_thresh_rising_value

/sys/.../events/in_accel_thresh_falling_value

/sys/.../events/in_accel_x_raw_thresh_rising_value

/sys/.../events/in_accel_x_raw_thresh_falling_value

/sys/.../events/in_accel_y_raw_thresh_rising_value

/sys/.../events/in_accel_y_raw_thresh_falling_value

/sys/.../events/in_accel_z_raw_thresh_rising_value

/sys/.../events/in_accel_z_raw_thresh_falling_value

/sys/.../events/in_anglvel_x_raw_thresh_rising_value

/sys/.../events/in_anglvel_x_raw_thresh_falling_value

/sys/.../events/in_anglvel_y_raw_thresh_rising_value

/sys/.../events/in_anglvel_y_raw_thresh_falling_value

/sys/.../events/in_anglvel_z_raw_thresh_rising_value

/sys/.../events/in_anglvel_z_raw_thresh_falling_value

/sys/.../events/in_magn_x_raw_thresh_rising_value

/sys/.../events/in_magn_x_raw_thresh_falling_value

/sys/.../events/in_magn_y_raw_thresh_rising_value

/sys/.../events/in_magn_y_raw_thresh_falling_value

/sys/.../events/in_magn_z_raw_thresh_rising_value

/sys/.../events/in_magn_z_raw_thresh_falling_value

/sys/.../events/in_rot_from_north_magnetic_raw_thresh_rising_value

/sys/.../events/in_rot_from_north_magnetic_raw_thresh_falling_value

/sys/.../events/in_rot_from_north_true_raw_thresh_rising_value

/sys/.../events/in_rot_from_north_true_raw_thresh_falling_value

/sys/.../events/in_rot_from_north_magnetic_tilt_comp_raw_thresh_rising_value

/sys/.../events/in_rot_from_north_magnetic_tilt_comp_raw_thresh_falling_value

/sys/.../events/in_rot_from_north_true_tilt_comp_raw_thresh_rising_value

/sys/.../events/in_rot_from_north_true_tilt_comp_raw_thresh_falling_value

/sys/.../events/in_voltageY_supply_raw_thresh_rising_value

/sys/.../events/in_voltageY_supply_raw_thresh_falling_value

/sys/.../events/in_voltageY_raw_thresh_rising_value

/sys/.../events/in_voltageY_raw_thresh_falling_value

/sys/.../events/in_tempY_raw_thresh_rising_value

/sys/.../events/in_tempY_raw_thresh_falling_value

/sys/.../events/in_illuminance0_thresh_falling_value

/sys/.../events/in_illuminance0_thresh_rising_value

/sys/.../events/in_proximity0_thresh_falling_value

/sys/.../events/in_proximity0_thresh_rising_value

/sys/.../events/in_illuminance_thresh_rising_value

/sys/.../events/in_illuminance_thresh_falling_value

/sys/.../events/in_capacitanceY_thresh_rising_value

/sys/.../events/in_capacitanceY_thresh_falling_value

/sys/.../events/in_capacitanceY_thresh_adaptive_rising_value

/sys/.../events/in_capacitanceY_thresh_falling_rising_value

Defined on file sysfs-bus-iio

Specifies the value of threshold that the device is comparing against for the events enabled by <type>Y[_name]_thresh[_rising|falling]_en.

If separate attributes exist for the two directions, but direction is not specified for this attribute, then a single threshold value applies to both directions.

The raw or input element of the name indicates whether the value is in raw device units or in processed units (as _raw and _input do on sysfs direct channel read attributes).

/sys/.../events/in_accel_x_raw_roc_rising_value

/sys/.../events/in_accel_x_raw_roc_falling_value

/sys/.../events/in_accel_y_raw_roc_rising_value

/sys/.../events/in_accel_y_raw_roc_falling_value

/sys/.../events/in_accel_z_raw_roc_rising_value

/sys/.../events/in_accel_z_raw_roc_falling_value

/sys/.../events/in_anglvel_x_raw_roc_rising_value

/sys/.../events/in_anglvel_x_raw_roc_falling_value

/sys/.../events/in_anglvel_y_raw_roc_rising_value

/sys/.../events/in_anglvel_y_raw_roc_falling_value

/sys/.../events/in_anglvel_z_raw_roc_rising_value

/sys/.../events/in_anglvel_z_raw_roc_falling_value

/sys/.../events/in_magn_x_raw_roc_rising_value

/sys/.../events/in_magn_x_raw_roc_falling_value

/sys/.../events/in_magn_y_raw_roc_rising_value

/sys/.../events/in_magn_y_raw_roc_falling_value

/sys/.../events/in_magn_z_raw_roc_rising_value

/sys/.../events/in_magn_z_raw_roc_falling_value

/sys/.../events/in_rot_from_north_magnetic_raw_roc_rising_value

/sys/.../events/in_rot_from_north_magnetic_raw_roc_falling_value

/sys/.../events/in_rot_from_north_true_raw_roc_rising_value

/sys/.../events/in_rot_from_north_true_raw_roc_falling_value

/sys/.../events/in_rot_from_north_magnetic_tilt_comp_raw_roc_rising_value

/sys/.../events/in_rot_from_north_magnetic_tilt_comp_raw_roc_falling_value

/sys/.../events/in_rot_from_north_true_tilt_comp_raw_roc_rising_value

/sys/.../events/in_rot_from_north_true_tilt_comp_raw_roc_falling_value

/sys/.../events/in_voltageY_supply_raw_roc_rising_value

/sys/.../events/in_voltageY_supply_raw_roc_falling_value

/sys/.../events/in_voltageY_raw_roc_rising_value

/sys/.../events/in_voltageY_raw_roc_falling_value

/sys/.../events/in_tempY_raw_roc_rising_value

/sys/.../events/in_tempY_raw_roc_falling_value

Defined on file sysfs-bus-iio

Specifies the value of rate of change threshold that the device is comparing against for the events enabled by <type>[Y][_name]_roc[_rising|falling]_en.

If separate attributes exist for the two directions, but direction is not specified for this attribute, then a single threshold value applies to both directions. The raw or input element of the name indicates whether the value is in raw device units or in processed units (as _raw and _input do on sysfs direct channel read attributes).

/sys/.../events/in_accel_x_thresh_rising_hysteresis

/sys/.../events/in_accel_x_thresh_falling_hysteresis

/sys/.../events/in_accel_x_thresh_either_hysteresis

/sys/.../events/in_accel_y_thresh_rising_hysteresis

/sys/.../events/in_accel_y_thresh_falling_hysteresis

/sys/.../events/in_accel_y_thresh_either_hysteresis

/sys/.../events/in_accel_z_thresh_rising_hysteresis

/sys/.../events/in_accel_z_thresh_falling_hysteresis

/sys/.../events/in_accel_z_thresh_either_hysteresis

/sys/.../events/in_anglvel_x_thresh_rising_hysteresis

/sys/.../events/in_anglvel_x_thresh_falling_hysteresis

/sys/.../events/in_anglvel_x_thresh_either_hysteresis

/sys/.../events/in_anglvel_y_thresh_rising_hysteresis

/sys/.../events/in_anglvel_y_thresh_falling_hysteresis

/sys/.../events/in_anglvel_y_thresh_either_hysteresis

/sys/.../events/in_anglvel_z_thresh_rising_hysteresis

/sys/.../events/in_anglvel_z_thresh_falling_hysteresis

/sys/.../events/in_anglvel_z_thresh_either_hysteresis

/sys/.../events/in_magn_x_thresh_rising_hysteresis

/sys/.../events/in_magn_x_thresh_falling_hysteresis

/sys/.../events/in_magn_x_thresh_either_hysteresis

/sys/.../events/in_magn_y_thresh_rising_hysteresis

/sys/.../events/in_magn_y_thresh_falling_hysteresis

/sys/.../events/in_magn_y_thresh_either_hysteresis

/sys/.../events/in_magn_z_thresh_rising_hysteresis

/sys/.../events/in_magn_z_thresh_falling_hysteresis

/sys/.../events/in_magn_z_thresh_either_hysteresis

/sys/.../events/in_rot_from_north_magnetic_thresh_rising_hysteresis

/sys/.../events/in_rot_from_north_magnetic_thresh_falling_hysteresis

/sys/.../events/in_rot_from_north_magnetic_thresh_either_hysteresis

/sys/.../events/in_rot_from_north_true_thresh_rising_hysteresis

/sys/.../events/in_rot_from_north_true_thresh_falling_hysteresis

/sys/.../events/in_rot_from_north_true_thresh_either_hysteresis

/sys/.../events/in_rot_from_north_magnetic_tilt_comp_thresh_rising_hysteresis

/sys/.../events/in_rot_from_north_magnetic_tilt_comp_thresh_falling_hysteresis

/sys/.../events/in_rot_from_north_magnetic_tilt_comp_thresh_either_hysteresis

/sys/.../events/in_rot_from_north_true_tilt_comp_thresh_rising_hysteresis

/sys/.../events/in_rot_from_north_true_tilt_comp_thresh_falling_hysteresis

/sys/.../events/in_rot_from_north_true_tilt_comp_thresh_either_hysteresis

/sys/.../events/in_voltageY_thresh_rising_hysteresis

/sys/.../events/in_voltageY_thresh_falling_hysteresis

/sys/.../events/in_voltageY_thresh_either_hysteresis

/sys/.../events/in_tempY_thresh_rising_hysteresis

/sys/.../events/in_tempY_thresh_falling_hysteresis

/sys/.../events/in_tempY_thresh_either_hysteresis

/sys/.../events/in_illuminance0_thresh_falling_hysteresis

/sys/.../events/in_illuminance0_thresh_rising_hysteresis

/sys/.../events/in_illuminance0_thresh_either_hysteresis

/sys/.../events/in_proximity0_thresh_falling_hysteresis

/sys/.../events/in_proximity0_thresh_rising_hysteresis

/sys/.../events/in_proximity0_thresh_either_hysteresis

Defined on file sysfs-bus-iio

Specifies the hysteresis of threshold that the device is comparing against for the events enabled by <type>Y[_name]_thresh[_(rising|falling)]_hysteresis. If separate attributes exist for the two directions, but direction is not specified for this attribute, then a single hysteresis value applies to both directions.

For falling events the hysteresis is added to the _value attribute for this event to get the upper threshold for when the event goes back to normal, for rising events the hysteresis is subtracted from the _value attribute. E.g. if in_voltage0_raw_thresh_rising_value is set to 1200 and in_voltage0_raw_thresh_rising_hysteresis is set to 50. The event will get activated once in_voltage0_raw goes above 1200 and will become deactivated again once the value falls below 1150.

/sys/.../events/in_accel_x_thresh_rising_period

/sys/.../events/in_accel_x_thresh_falling_period

/sys/.../events/in_accel_x_roc_rising_period

/sys/.../events/in_accel_x_roc_falling_period

/sys/.../events/in_accel_y_thresh_rising_period

/sys/.../events/in_accel_y_thresh_falling_period

/sys/.../events/in_accel_y_roc_rising_period

/sys/.../events/in_accel_y_roc_falling_period

/sys/.../events/in_accel_z_thresh_rising_period

/sys/.../events/in_accel_z_thresh_falling_period

/sys/.../events/in_accel_z_roc_rising_period

/sys/.../events/in_accel_z_roc_falling_period

/sys/.../events/in_anglvel_x_thresh_rising_period

/sys/.../events/in_anglvel_x_thresh_falling_period

/sys/.../events/in_anglvel_x_roc_rising_period

/sys/.../events/in_anglvel_x_roc_falling_period

/sys/.../events/in_anglvel_y_thresh_rising_period

/sys/.../events/in_anglvel_y_thresh_falling_period

/sys/.../events/in_anglvel_y_roc_rising_period

/sys/.../events/in_anglvel_y_roc_falling_period

/sys/.../events/in_anglvel_z_thresh_rising_period

/sys/.../events/in_anglvel_z_thresh_falling_period

/sys/.../events/in_anglvel_z_roc_rising_period

/sys/.../events/in_anglvel_z_roc_falling_period

/sys/.../events/in_magn_x_thresh_rising_period

/sys/.../events/in_magn_x_thresh_falling_period

/sys/.../events/in_magn_x_roc_rising_period

/sys/.../events/in_magn_x_roc_falling_period

/sys/.../events/in_magn_y_thresh_rising_period

/sys/.../events/in_magn_y_thresh_falling_period

/sys/.../events/in_magn_y_roc_rising_period

/sys/.../events/in_magn_y_roc_falling_period

/sys/.../events/in_magn_z_thresh_rising_period

/sys/.../events/in_magn_z_thresh_falling_period

/sys/.../events/in_magn_z_roc_rising_period

/sys/.../events/in_magn_z_roc_falling_period

/sys/.../events/in_rot_from_north_magnetic_thresh_rising_period

/sys/.../events/in_rot_from_north_magnetic_thresh_falling_period

/sys/.../events/in_rot_from_north_magnetic_roc_rising_period

/sys/.../events/in_rot_from_north_magnetic_roc_falling_period

/sys/.../events/in_rot_from_north_true_thresh_rising_period

/sys/.../events/in_rot_from_north_true_thresh_falling_period

/sys/.../events/in_rot_from_north_true_roc_rising_period

/sys/.../events/in_rot_from_north_true_roc_falling_period

/sys/.../events/in_rot_from_north_magnetic_tilt_comp_thresh_rising_period

/sys/.../events/in_rot_from_north_magnetic_tilt_comp_thresh_falling_period

/sys/.../events/in_rot_from_north_magnetic_tilt_comp_roc_rising_period

/sys/.../events/in_rot_from_north_magnetic_tilt_comp_roc_falling_period

/sys/.../events/in_rot_from_north_true_tilt_comp_thresh_rising_period

/sys/.../events/in_rot_from_north_true_tilt_comp_thresh_falling_period

/sys/.../events/in_rot_from_north_true_tilt_comp_roc_rising_period

/sys/.../events/in_rot_from_north_true_tilt_comp_roc_falling_period

/sys/.../events/in_voltageY_supply_thresh_rising_period

/sys/.../events/in_voltageY_supply_thresh_falling_period

/sys/.../events/in_voltageY_supply_roc_rising_period

/sys/.../events/in_voltageY_supply_roc_falling_period

/sys/.../events/in_voltageY_thresh_rising_period

/sys/.../events/in_voltageY_thresh_falling_period

/sys/.../events/in_voltageY_roc_rising_period

/sys/.../events/in_voltageY_roc_falling_period

/sys/.../events/in_tempY_thresh_rising_period

/sys/.../events/in_tempY_thresh_falling_period

/sys/.../events/in_tempY_roc_rising_period

/sys/.../events/in_tempY_roc_falling_period

/sys/.../events/in_accel_x&y&z_mag_falling_period

/sys/.../events/in_intensity0_thresh_period

/sys/.../events/in_proximity0_thresh_period

/sys/.../events/in_activity_still_thresh_rising_period

/sys/.../events/in_activity_still_thresh_falling_period

/sys/.../events/in_activity_walking_thresh_rising_period

/sys/.../events/in_activity_walking_thresh_falling_period

/sys/.../events/in_activity_jogging_thresh_rising_period

/sys/.../events/in_activity_jogging_thresh_falling_period

/sys/.../events/in_activity_running_thresh_rising_period

/sys/.../events/in_activity_running_thresh_falling_period

/sys/.../events/in_illuminance_thresh_either_period

Defined on file sysfs-bus-iio

Period of time (in seconds) for which the condition must be met before an event is generated. If direction is not specified then this period applies to both directions.

/sys/.../events/in_activity_still_thresh_rising_en

/sys/.../events/in_activity_still_thresh_falling_en

/sys/.../events/in_activity_walking_thresh_rising_en

/sys/.../events/in_activity_walking_thresh_falling_en

/sys/.../events/in_activity_jogging_thresh_rising_en

/sys/.../events/in_activity_jogging_thresh_falling_en

/sys/.../events/in_activity_running_thresh_rising_en

/sys/.../events/in_activity_running_thresh_falling_en

Defined on file sysfs-bus-iio

Enables or disables activity events. Depending on direction an event is generated when sensor ENTERS or LEAVES a given state.

/sys/.../events/in_activity_still_thresh_rising_value

/sys/.../events/in_activity_still_thresh_falling_value

/sys/.../events/in_activity_walking_thresh_rising_value

/sys/.../events/in_activity_walking_thresh_falling_value

/sys/.../events/in_activity_jogging_thresh_rising_value

/sys/.../events/in_activity_jogging_thresh_falling_value

/sys/.../events/in_activity_running_thresh_rising_value

/sys/.../events/in_activity_running_thresh_falling_value

Defined on file sysfs-bus-iio

Confidence value (in units as percentage) to be used for deciding when an event should be generated. E.g for running: If the confidence value reported by the sensor is greater than in_activity_running_thresh_rising_value then the sensor ENTERS running state. Conversely, if the confidence value reported by the sensor is lower than in_activity_running_thresh_falling_value then the sensor is LEAVING running state.

/sys/.../events/in_capacitanceY_adaptive_thresh_rising_en

/sys/.../events/in_capacitanceY_adaptive_thresh_falling_en

Defined on file sysfs-bus-iio

Adaptive thresholds are similar to normal fixed thresholds but the value is expressed as an offset from a value which provides a low frequency approximation of the channel itself. Thus these detect if a rapid change occurs in the specified direction which crosses tracking value + offset. Tracking value calculation is devices specific.

/sys/.../events/in_illuminance0_threshY_hysteresis

Defined on file sysfs-bus-iio-light-lm3533-als

Get the hysteresis for thresholds Y, that is, threshY_hysteresis = threshY_raising - threshY_falling

/sys/.../events/in_illuminance0_thresh_either_en

Defined on file sysfs-bus-iio-light-lm3533-als

Event generated when channel passes one of the four thresholds in each direction (rising|falling) and a zone change occurs. The corresponding light zone can be read from in_illuminance0_zone.

/sys/.../events/in_proximity_thresh_either_runningcount

Defined on file sysfs-bus-iio

Number of conditions that must occur, during a running period, before an event is generated.

/sys/.../events/in_proximity_thresh_either_runningperiod

Defined on file sysfs-bus-iio

A running period of time (in seconds) for which in_proximity_thresh_either_runningcount amount of conditions must occur before an event is generated. If direction is not specified then this period applies to both directions.

/sys/.../events/in_steps_change_en

Defined on file sysfs-bus-iio

Event generated when channel passes a threshold on the absolute change in value. E.g. for steps: a step change event is generated each time the user takes N steps, where N is set using in_steps_change_value.

/sys/.../events/in_steps_change_value

Defined on file sysfs-bus-iio

Specifies the value of change threshold that the device is comparing against for the events enabled by <type>[Y][_name]_roc[_rising|falling|]_en. E.g. for steps: if set to 3, a step change event will be generated every 3 steps.

/sys/.../iio:deviceX/bufferY/in_accel_type

/sys/.../iio:deviceX/bufferY/in_deltaangl_type

/sys/.../iio:deviceX/bufferY/in_deltavelocity_type

/sys/.../iio:deviceX/bufferY/in_anglvel_type

/sys/.../iio:deviceX/bufferY/in_magn_type

/sys/.../iio:deviceX/bufferY/in_incli_type

/sys/.../iio:deviceX/bufferY/in_voltageY_type

/sys/.../iio:deviceX/bufferY/in_voltage_type

/sys/.../iio:deviceX/bufferY/in_voltageY_supply_type

/sys/.../iio:deviceX/bufferY/in_voltageY_i_type

/sys/.../iio:deviceX/bufferY/in_voltageY_q_type

/sys/.../iio:deviceX/bufferY/in_voltage_i_type

/sys/.../iio:deviceX/bufferY/in_voltage_q_type

/sys/.../iio:deviceX/bufferY/in_timestamp_type

/sys/.../iio:deviceX/bufferY/in_pressureY_type

/sys/.../iio:deviceX/bufferY/in_pressure_type

/sys/.../iio:deviceX/bufferY/in_rot_quaternion_type

/sys/.../iio:deviceX/bufferY/in_proximity_type

Defined on file sysfs-bus-iio

Description of the scan element data storage within the buffer and hence the form in which it is read from user-space. Form is [be|le]:[s|u]bits/storagebits[>>shift]. be or le specifies big or little endian. s or u specifies if signed (2’s complement) or unsigned. bits is the number of bits of data and storagebits is the space (after padding) that it occupies in the buffer. shift if specified, is the shift that needs to be applied prior to masking out unused bits. Some devices put their data in the middle of the transferred elements with additional information on both sides. Note that some devices will have additional information in the unused bits so to get a clean value, the bits value must be used to mask the buffer output value appropriately. The storagebits value also specifies the data alignment. So s48/64>>2 will be a signed 48 bit integer stored in a 64 bit location aligned to a 64 bit boundary. To obtain the clean value, shift right 2 and apply a mask to zero the top 16 bits of the result. For other storage combinations this attribute will be extended appropriately.

/sys/.../iio:deviceX/bufferY/in_accel_x_en

/sys/.../iio:deviceX/bufferY/in_accel_y_en

/sys/.../iio:deviceX/bufferY/in_accel_z_en

/sys/.../iio:deviceX/bufferY/in_deltaangl_x_en

/sys/.../iio:deviceX/bufferY/in_deltaangl_y_en

/sys/.../iio:deviceX/bufferY/in_deltaangl_z_en

/sys/.../iio:deviceX/bufferY/in_deltavelocity_x_en

/sys/.../iio:deviceX/bufferY/in_deltavelocity_y_en

/sys/.../iio:deviceX/bufferY/in_deltavelocity_z_en

/sys/.../iio:deviceX/bufferY/in_anglvel_x_en

/sys/.../iio:deviceX/bufferY/in_anglvel_y_en

/sys/.../iio:deviceX/bufferY/in_anglvel_z_en

/sys/.../iio:deviceX/bufferY/in_magn_x_en

/sys/.../iio:deviceX/bufferY/in_magn_y_en

/sys/.../iio:deviceX/bufferY/in_magn_z_en

/sys/.../iio:deviceX/bufferY/in_rot_from_north_magnetic_en

/sys/.../iio:deviceX/bufferY/in_rot_from_north_true_en

/sys/.../iio:deviceX/bufferY/in_rot_from_north_magnetic_tilt_comp_en

/sys/.../iio:deviceX/bufferY/in_rot_from_north_true_tilt_comp_en

/sys/.../iio:deviceX/bufferY/in_timestamp_en

/sys/.../iio:deviceX/bufferY/in_voltageY_supply_en

/sys/.../iio:deviceX/bufferY/in_voltageY_en

/sys/.../iio:deviceX/bufferY/in_voltageY-voltageZ_en

/sys/.../iio:deviceX/bufferY/in_voltageY_i_en

/sys/.../iio:deviceX/bufferY/in_voltageY_q_en

/sys/.../iio:deviceX/bufferY/in_voltage_i_en

/sys/.../iio:deviceX/bufferY/in_voltage_q_en

/sys/.../iio:deviceX/bufferY/in_incli_x_en

/sys/.../iio:deviceX/bufferY/in_incli_y_en

/sys/.../iio:deviceX/bufferY/in_pressureY_en

/sys/.../iio:deviceX/bufferY/in_pressure_en

/sys/.../iio:deviceX/bufferY/in_rot_quaternion_en

/sys/.../iio:deviceX/bufferY/in_proximity_en

Defined on file sysfs-bus-iio

Scan element control for triggered data capture.

/sys/.../iio:deviceX/bufferY/in_voltageY_index

/sys/.../iio:deviceX/bufferY/in_voltageY_supply_index

/sys/.../iio:deviceX/bufferY/in_voltageY_i_index

/sys/.../iio:deviceX/bufferY/in_voltageY_q_index

/sys/.../iio:deviceX/bufferY/in_voltage_i_index

/sys/.../iio:deviceX/bufferY/in_voltage_q_index

/sys/.../iio:deviceX/bufferY/in_accel_x_index

/sys/.../iio:deviceX/bufferY/in_accel_y_index

/sys/.../iio:deviceX/bufferY/in_accel_z_index

/sys/.../iio:deviceX/bufferY/in_deltaangl_x_index

/sys/.../iio:deviceX/bufferY/in_deltaangl_y_index

/sys/.../iio:deviceX/bufferY/in_deltaangl_z_index

/sys/.../iio:deviceX/bufferY/in_deltavelocity_x_index

/sys/.../iio:deviceX/bufferY/in_deltavelocity_y_index

/sys/.../iio:deviceX/bufferY/in_deltavelocity_z_index

/sys/.../iio:deviceX/bufferY/in_anglvel_x_index

/sys/.../iio:deviceX/bufferY/in_anglvel_y_index

/sys/.../iio:deviceX/bufferY/in_anglvel_z_index

/sys/.../iio:deviceX/bufferY/in_magn_x_index

/sys/.../iio:deviceX/bufferY/in_magn_y_index

/sys/.../iio:deviceX/bufferY/in_magn_z_index

/sys/.../iio:deviceX/bufferY/in_rot_from_north_magnetic_index

/sys/.../iio:deviceX/bufferY/in_rot_from_north_true_index

/sys/.../iio:deviceX/bufferY/in_rot_from_north_magnetic_tilt_comp_index

/sys/.../iio:deviceX/bufferY/in_rot_from_north_true_tilt_comp_index

/sys/.../iio:deviceX/bufferY/in_incli_x_index

/sys/.../iio:deviceX/bufferY/in_incli_y_index

/sys/.../iio:deviceX/bufferY/in_timestamp_index

/sys/.../iio:deviceX/bufferY/in_pressureY_index

/sys/.../iio:deviceX/bufferY/in_pressure_index

/sys/.../iio:deviceX/bufferY/in_rot_quaternion_index

/sys/.../iio:deviceX/bufferY/in_proximity_index

Defined on file sysfs-bus-iio

A single positive integer specifying the position of this scan element in the buffer. Note these are not dependent on what is enabled and may not be contiguous. Thus for user-space to establish the full layout these must be used in conjunction with all _en attributes to establish which channels are present, and the relevant _type attributes to establish the data storage format.

/sys/.../iio:deviceX/events/in_accel_mag_en

/sys/.../iio:deviceX/events/in_accel_mag_rising_en

/sys/.../iio:deviceX/events/in_accel_mag_falling_en

/sys/.../iio:deviceX/events/in_accel_x_mag_en

/sys/.../iio:deviceX/events/in_accel_x_mag_rising_en

/sys/.../iio:deviceX/events/in_accel_x_mag_falling_en

/sys/.../iio:deviceX/events/in_accel_y_mag_en

/sys/.../iio:deviceX/events/in_accel_y_mag_rising_en

/sys/.../iio:deviceX/events/in_accel_y_mag_falling_en

/sys/.../iio:deviceX/events/in_accel_z_mag_en

/sys/.../iio:deviceX/events/in_accel_z_mag_rising_en

/sys/.../iio:deviceX/events/in_accel_z_mag_falling_en

/sys/.../iio:deviceX/events/in_accel_x&y&z_mag_rising_en

/sys/.../iio:deviceX/events/in_accel_x&y&z_mag_falling_en

Defined on file sysfs-bus-iio

Similar to in_accel_x_thresh[_rising|_falling]_en, but here the magnitude of the channel is compared to the threshold, not its signed value.

/sys/.../iio:deviceX/events/in_accel_mag_referenced_en

/sys/.../iio:deviceX/events/in_accel_mag_referenced_rising_en

/sys/.../iio:deviceX/events/in_accel_mag_referenced_falling_en

/sys/.../iio:deviceX/events/in_accel_y_mag_referenced_en

/sys/.../iio:deviceX/events/in_accel_y_mag_referenced_rising_en

/sys/.../iio:deviceX/events/in_accel_y_mag_referenced_falling_en

Defined on file sysfs-bus-iio

Similar to in_accel_mag[_y][_rising|_falling]_en, but the event value is relative to a reference magnitude. The reference magnitude includes the graviational acceleration.

/sys/.../iio:deviceX/events/in_accel_mag_referenced_value

/sys/.../iio:deviceX/events/in_accel_mag_referenced_rising_value

/sys/.../iio:deviceX/events/in_accel_mag_referenced_falling_value

/sys/.../iio:deviceX/events/in_accel_y_mag_referenced_value

/sys/.../iio:deviceX/events/in_accel_y_mag_referenced_rising_value

/sys/.../iio:deviceX/events/in_accel_y_mag_referenced_falling_value

Defined on file sysfs-bus-iio

The value to which the reference magnitude of the channel is compared. If the axis is not specified, it applies to all channels of this type.

/sys/.../iio:deviceX/events/in_accel_x_roc_rising_en

/sys/.../iio:deviceX/events/in_accel_x_roc_falling_en

/sys/.../iio:deviceX/events/in_accel_y_roc_rising_en

/sys/.../iio:deviceX/events/in_accel_y_roc_falling_en

/sys/.../iio:deviceX/events/in_accel_z_roc_rising_en

/sys/.../iio:deviceX/events/in_accel_z_roc_falling_en

/sys/.../iio:deviceX/events/in_anglvel_x_roc_rising_en

/sys/.../iio:deviceX/events/in_anglvel_x_roc_falling_en

/sys/.../iio:deviceX/events/in_anglvel_y_roc_rising_en

/sys/.../iio:deviceX/events/in_anglvel_y_roc_falling_en

/sys/.../iio:deviceX/events/in_anglvel_z_roc_rising_en

/sys/.../iio:deviceX/events/in_anglvel_z_roc_falling_en

/sys/.../iio:deviceX/events/in_magn_x_roc_rising_en

/sys/.../iio:deviceX/events/in_magn_x_roc_falling_en

/sys/.../iio:deviceX/events/in_magn_y_roc_rising_en

/sys/.../iio:deviceX/events/in_magn_y_roc_falling_en

/sys/.../iio:deviceX/events/in_magn_z_roc_rising_en

/sys/.../iio:deviceX/events/in_magn_z_roc_falling_en

/sys/.../iio:deviceX/events/in_rot_from_north_magnetic_roc_rising_en

/sys/.../iio:deviceX/events/in_rot_from_north_magnetic_roc_falling_en

/sys/.../iio:deviceX/events/in_rot_from_north_true_roc_rising_en

/sys/.../iio:deviceX/events/in_rot_from_north_true_roc_falling_en

/sys/.../iio:deviceX/events/in_rot_from_north_magnetic_tilt_comp_roc_rising_en

/sys/.../iio:deviceX/events/in_rot_from_north_magnetic_tilt_comp_roc_falling_en

/sys/.../iio:deviceX/events/in_rot_from_north_true_tilt_comp_roc_rising_en

/sys/.../iio:deviceX/events/in_rot_from_north_true_tilt_comp_roc_falling_en

/sys/.../iio:deviceX/events/in_voltageY_supply_roc_rising_en

/sys/.../iio:deviceX/events/in_voltageY_supply_roc_falling_en

/sys/.../iio:deviceX/events/in_voltageY_roc_rising_en

/sys/.../iio:deviceX/events/in_voltageY_roc_falling_en

/sys/.../iio:deviceX/events/in_tempY_roc_rising_en

/sys/.../iio:deviceX/events/in_tempY_roc_falling_en

Defined on file sysfs-bus-iio

Event generated when channel passes a threshold on the rate of change (1st differential) in the specified (_rising|_falling) direction. If the direction is not specified, then either the device will report an event which ever direction a single threshold value is passed in (e.g. <type>[Y][_name]_<raw|input>_roc_value) or <type>[Y][_name]_<raw|input>_roc_rising_value and <type>[Y][_name]_<raw|input>_roc_falling_value may take different values, but the device can only enable both rate of change thresholds or neither.

Note the driver will assume the last p events requested are to be enabled where p is however many it supports (which may vary depending on the exact set requested. So if you want to be sure you have set what you think you have, check the contents of these attributes after everything is configured. Drivers may have to buffer any parameters so that they are consistent when a given event type is enabled a future point (and not those for whatever event was previously enabled).

/sys/.../iio:deviceX/events/in_accel_x_thresh_rising_en

/sys/.../iio:deviceX/events/in_accel_x_thresh_falling_en

/sys/.../iio:deviceX/events/in_accel_y_thresh_rising_en

/sys/.../iio:deviceX/events/in_accel_y_thresh_falling_en

/sys/.../iio:deviceX/events/in_accel_z_thresh_rising_en

/sys/.../iio:deviceX/events/in_accel_z_thresh_falling_en

/sys/.../iio:deviceX/events/in_anglvel_x_thresh_rising_en

/sys/.../iio:deviceX/events/in_anglvel_x_thresh_falling_en

/sys/.../iio:deviceX/events/in_anglvel_y_thresh_rising_en

/sys/.../iio:deviceX/events/in_anglvel_y_thresh_falling_en

/sys/.../iio:deviceX/events/in_anglvel_z_thresh_rising_en

/sys/.../iio:deviceX/events/in_anglvel_z_thresh_falling_en

/sys/.../iio:deviceX/events/in_magn_x_thresh_rising_en

/sys/.../iio:deviceX/events/in_magn_x_thresh_falling_en

/sys/.../iio:deviceX/events/in_magn_y_thresh_rising_en

/sys/.../iio:deviceX/events/in_magn_y_thresh_falling_en

/sys/.../iio:deviceX/events/in_magn_z_thresh_rising_en

/sys/.../iio:deviceX/events/in_magn_z_thresh_falling_en

/sys/.../iio:deviceX/events/in_rot_from_north_magnetic_thresh_rising_en

/sys/.../iio:deviceX/events/in_rot_from_north_magnetic_thresh_falling_en

/sys/.../iio:deviceX/events/in_rot_from_north_true_thresh_rising_en

/sys/.../iio:deviceX/events/in_rot_from_north_true_thresh_falling_en

/sys/.../iio:deviceX/events/in_rot_from_north_magnetic_tilt_comp_thresh_rising_en

/sys/.../iio:deviceX/events/in_rot_from_north_magnetic_tilt_comp_thresh_falling_en

/sys/.../iio:deviceX/events/in_rot_from_north_true_tilt_comp_thresh_rising_en

/sys/.../iio:deviceX/events/in_rot_from_north_true_tilt_comp_thresh_falling_en

/sys/.../iio:deviceX/events/in_voltageY_supply_thresh_rising_en

/sys/.../iio:deviceX/events/in_voltageY_supply_thresh_falling_en

/sys/.../iio:deviceX/events/in_voltageY_thresh_rising_en

/sys/.../iio:deviceX/events/in_voltageY_thresh_falling_en

/sys/.../iio:deviceX/events/in_voltageY_thresh_either_en

/sys/.../iio:deviceX/events/in_tempY_thresh_rising_en

/sys/.../iio:deviceX/events/in_tempY_thresh_falling_en

/sys/.../iio:deviceX/events/in_capacitanceY_thresh_rising_en

/sys/.../iio:deviceX/events/in_capacitanceY_thresh_falling_en

Defined on file sysfs-bus-iio

Event generated when channel passes a threshold in the specified (_rising|_falling) direction. If the direction is not specified, then either the device will report an event which ever direction a single threshold value is passed in (e.g. <type>[Y][_name]_<raw|input>_thresh_value) or <type>[Y][_name]_<raw|input>_thresh_rising_value and <type>[Y][_name]_<raw|input>_thresh_falling_value may take different values, but the device can only enable both thresholds or neither.

Note the driver will assume the last p events requested are to be enabled where p is how many it supports (which may vary depending on the exact set requested. So if you want to be sure you have set what you think you have, check the contents of these attributes after everything is configured. Drivers may have to buffer any parameters so that they are consistent when a given event type is enabled at a future point (and not those for whatever event was previously enabled).

/sys/.../iio:deviceX/in_accelX_power_mode

Defined on file sysfs-bus-iio

Specifies the chip power mode. low_noise: reduce noise level from ADC, low_power: enable low current consumption. For a list of available output power modes read in_accel_power_mode_available.

/sys/.../iio:deviceX/in_activity_still_input

/sys/.../iio:deviceX/in_activity_walking_input

/sys/.../iio:deviceX/in_activity_jogging_input

/sys/.../iio:deviceX/in_activity_running_input

Defined on file sysfs-bus-iio

This attribute is used to read the confidence for an activity expressed in units as percentage.

/sys/.../iio:deviceX/in_anglvel_z_quadrature_correction_raw

Defined on file sysfs-bus-iio

This attribute is used to read the amount of quadrature error present in the device at a given time.

/sys/.../iio:deviceX/in_capacitableY_calibbias_calibration

/sys/.../iio:deviceX/in_capacitableY_calibscale_calibration

Defined on file sysfs-bus-iio-cdc-ad7746

Write 1 to trigger a calibration of the calibbias or calibscale. For calibscale, a full scale capacitance should be connected to the capacitance input and a calibscale_calibration then started. For calibbias see the device datasheet section on “capacitive system offset calibration”.

/sys/.../iio:deviceX/in_capacitanceY-capacitanceZ_raw

Defined on file sysfs-bus-iio

Raw differential capacitance measurement equivalent to channel Y - channel Z where these channel numbers apply to the physically equivalent inputs when non differential readings are separately available. In differential only parts, then all that is required is a consistent labeling. Units after application of scale and offset are nanofarads.

/sys/.../iio:deviceX/in_capacitanceY-capacitanceZ_zeropoint

Defined on file sysfs-bus-iio

For differential channels, this an offset that is applied equally to both inputs. As the reading is of the difference between the two inputs, this should not be applied to the _raw reading by userspace (unlike _offset) and unlike calibbias it does not affect the differential value measured because the effect of _zeropoint cancels out across the two inputs that make up the differential pair. It’s purpose is to bring the individual signals, before the differential is measured, within the measurement range of the device. The naming is chosen because if the separate inputs that make the differential pair are drawn on a graph in their _raw units, this is the value that the zero point on the measurement axis represents. It is expressed with the same scaling as _raw.

/sys/.../iio:deviceX/in_distance_input

/sys/.../iio:deviceX/in_distance_raw

Defined on file sysfs-bus-iio

This attribute is used to read the measured distance to an object or the distance covered by the user since the last reboot while activated. Units after application of scale are meters.

/sys/.../iio:deviceX/in_energy_en

/sys/.../iio:deviceX/in_distance_en

/sys/.../iio:deviceX/in_velocity_sqrt(x^2+y^2+z^2)_en

/sys/.../iio:deviceX/in_steps_en

Defined on file sysfs-bus-iio

Activates a device feature that runs in firmware/hardware. E.g. for steps: the pedometer saves power while not used; when activated, it will count the steps taken by the user in firmware and export them through in_steps_input.

/sys/.../iio:deviceX/in_energy_input

/sys/.../iio:deviceX/in_energy_raw

Defined on file sysfs-bus-iio

This attribute is used to read the energy value reported by the device (e.g.: human activity sensors report energy burnt by the user). Units after application of scale are Joules.

/sys/.../iio:deviceX/in_illuminance_input

/sys/.../iio:deviceX/in_illuminance_raw

/sys/.../iio:deviceX/in_illuminanceY_input

/sys/.../iio:deviceX/in_illuminanceY_raw

/sys/.../iio:deviceX/in_illuminanceY_mean_raw

/sys/.../iio:deviceX/in_illuminance_ir_raw

/sys/.../iio:deviceX/in_illuminance_clear_raw

Defined on file sysfs-bus-iio

Illuminance measurement, units after application of scale and offset are lux.

/sys/.../iio:deviceX/in_intensityY_raw

/sys/.../iio:deviceX/in_intensityY_ir_raw

/sys/.../iio:deviceX/in_intensityY_both_raw

/sys/.../iio:deviceX/in_intensityY_uv_raw

/sys/.../iio:deviceX/in_intensityY_uva_raw

/sys/.../iio:deviceX/in_intensityY_uvb_raw

/sys/.../iio:deviceX/in_intensityY_duv_raw

Defined on file sysfs-bus-iio

Unit-less light intensity. Modifiers both and ir indicate that measurements contain visible and infrared light components or just infrared light, respectively. Modifier uv indicates that measurements contain ultraviolet light components. Modifiers uva, uvb and duv indicate that measurements contain A, B or deep (C) ultraviolet light components respectively.

/sys/.../iio:deviceX/in_intensity_integration_time

/sys/.../iio:deviceX/in_intensity_red_integration_time

/sys/.../iio:deviceX/in_intensity_green_integration_time

/sys/.../iio:deviceX/in_intensity_blue_integration_time

/sys/.../iio:deviceX/in_intensity_clear_integration_time

/sys/.../iio:deviceX/in_illuminance_integration_time

Defined on file sysfs-bus-iio

This attribute is used to get/set the integration time in seconds. If shared across all channels of a given type, <type>_integration_time is used.

/sys/.../iio:deviceX/in_proximity_raw

/sys/.../iio:deviceX/in_proximity_input

/sys/.../iio:deviceX/in_proximityY_raw

Defined on file sysfs-bus-iio

Proximity measurement indicating that some object is near the sensor, usually by observing reflectivity of infrared or ultrasound emitted.

Often these sensors are unit less and as such conversion to SI units is not possible. Higher proximity measurements indicate closer objects, and vice versa. Units after application of scale and offset are meters.

/sys/.../iio:deviceX/in_shunt_resistor

/sys/.../iio:deviceX/in_current_shunt_resistor

/sys/.../iio:deviceX/in_power_shunt_resistor

Defined on file sysfs-bus-iio

The value of current sense resistor in Ohms.

/sys/.../iio:deviceX/in_steps_debounce_count

Defined on file sysfs-bus-iio

Specifies the number of steps that must occur within in_steps_filter_debounce_time for the pedometer to decide the consumer is making steps.

/sys/.../iio:deviceX/in_steps_debounce_time

Defined on file sysfs-bus-iio

Specifies number of seconds in which we compute the steps that occur in order to decide if the consumer is making steps.

/sys/.../iio:deviceX/in_steps_input

Defined on file sysfs-bus-iio

This attribute is used to read the number of steps taken by the user since the last reboot while activated.

/sys/.../iio:deviceX/in_uvindex_input

Defined on file sysfs-bus-iio

UV light intensity index measuring the human skin’s response to different wavelength of sunlight weighted according to the standardised CIE Erythemal Action Spectrum. UV index values range from 0 (low) to >=11 (extreme).

/sys/.../iio:deviceX/in_velocity_sqrt(x^2+y^2+z^2)_input

/sys/.../iio:deviceX/in_velocity_sqrt(x^2+y^2+z^2)_raw

Defined on file sysfs-bus-iio

This attribute is used to read the current speed value of the user (which is the norm or magnitude of the velocity vector). Units after application of scale are m/s.

/sys/.../iio:deviceX/in_velocity_sqrt(x^2+y^2+z^2)_integration_time

Defined on file sysfs-bus-iio

Number of seconds in which to compute speed.

/sys/.../iio:deviceX/out_voltageY_powerdown_mode_available

/sys/.../iio:deviceX/out_voltage_powerdown_mode_available

/sys/.../iio:deviceX/out_altvoltageY_powerdown_mode_available

/sys/.../iio:deviceX/out_altvoltage_powerdown_mode_available

Defined on file sysfs-bus-iio

Lists all available output power down modes. If Y is not present the mode is shared across all outputs.

/sys/.../iio:deviceX/scan_elements/in_accel_type_available

Defined on file sysfs-bus-iio

If the type parameter can take one of a small set of values, this attribute lists them.

/sys/.../in_accel_filter_high_pass_3db_frequency

/sys/.../in_anglvel_filter_high_pass_3db_frequency

/sys/.../in_magn_filter_high_pass_3db_frequency

Defined on file sysfs-bus-iio

If a known or controllable high pass filter is applied to the underlying data channel, then this parameter gives the 3dB frequency of the filter in Hz.

/sys/.../in_accel_filter_low_pass_3db_frequency

/sys/.../in_magn_filter_low_pass_3db_frequency

/sys/.../in_anglvel_filter_low_pass_3db_frequency

Defined on file sysfs-bus-iio

If a known or controllable low pass filter is applied to the underlying data channel, then this parameter gives the 3dB frequency of the filter in Hz.

/sys/.../in_capacitanceY_adaptive_thresh_rising_timeout

/sys/.../in_capacitanceY_adaptive_thresh_falling_timeout

Defined on file sysfs-bus-iio

When adaptive thresholds are used, the tracking signal may adjust too slowly to step changes in the raw signal. Thus these specify the time in seconds for which the difference between the slow tracking signal and the raw signal is allowed to remain out-of-range before a reset event occurs in which the tracking signal is made equal to the raw signal, allowing slow tracking to resume and the adaptive threshold event detection to function as expected.

/sys/.../mdev_supported_types/<type-id>/available_instances

Defined on file sysfs-bus-vfio-mdev

Reading this attribute will show the number of mediated devices of type <type-id> that can be created. This is a readonly file.

Users:

Userspace applications interested in creating mediated device of that type. Userspace application should check the number of available instances could be created before creating mediated device of this type.

/sys/.../mdev_supported_types/<type-id>/create

Defined on file sysfs-bus-vfio-mdev

Writing UUID to this file will create mediated device of type <type-id> for parent device <device>. This is a write-only file. For example:

# echo "83b8f4f2-509f-382f-3c1e-e6bfe0fa1001" >       \
     /sys/devices/foo/mdev_supported_types/foo-1/create

/sys/.../mdev_supported_types/<type-id>/description

Defined on file sysfs-bus-vfio-mdev

Reading this attribute will show description of the type of mediated device that will get created of type <type-id>. This is optional attribute. For example: “2 heads, 512M FB, 2560x1600 maximum resolution”

Users:

Userspace applications interested in knowing the details of a particular <type-id> that can help in understanding the features provided by that type of mediated device.

/sys/.../mdev_supported_types/<type-id>/device_api

Defined on file sysfs-bus-vfio-mdev

Reading this attribute will show VFIO device API supported by this type. For example, “vfio-pci” for a PCI device, “vfio-platform” for platform device.

/sys/.../mdev_supported_types/<type-id>/devices/

Defined on file sysfs-bus-vfio-mdev

This directory contains symbolic links pointing to mdev devices sysfs entries which are created of this <type-id>.

/sys/.../mdev_supported_types/<type-id>/name

Defined on file sysfs-bus-vfio-mdev

Reading this attribute will show human readable name of the mediated device that will get created of type <type-id>. This is optional attribute. For example: “Grid M60-0Q”

Users:

Userspace applications interested in knowing the name of a particular <type-id> that can help in understanding the type of mediated device.

/sys/.../uevent

Defined on file sysfs-uevent

Enable passing additional variables for synthetic uevents that are generated by writing /sys/.../uevent file.

Recognized extended format is:

ACTION [UUID [KEY=VALUE ...]

The ACTION is compulsory - it is the name of the uevent action (add, change, remove). There is no change compared to previous functionality here. The rest of the extended format is optional.

You need to pass UUID first before any KEY=VALUE pairs. The UUID must be in xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx format where ‘x’ is a hex digit. The UUID is considered to be a transaction identifier so it’s possible to use the same UUID value for one or more synthetic uevents in which case we logically group these uevents together for any userspace listeners. The UUID value appears in uevent as SYNTH_UUID=xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx environment variable.

If UUID is not passed in, the generated synthetic uevent gains SYNTH_UUID=0 environment variable automatically.

The KEY=VALUE pairs can contain alphanumeric characters only.

It’s possible to define zero or more pairs - each pair is then delimited by a space character ‘ ‘. Each pair appears in synthetic uevent as SYNTH_ARG_KEY=VALUE. That means the KEY name gains SYNTH_ARG_ prefix to avoid possible collisions with existing variables.

Example of valid sequence written to the uevent file:

add fe4d7c9d-b8c6-4a70-9ef1-3d8a58d18eed A=1 B=abc

This generates synthetic uevent including these variables:

ACTION=add
SYNTH_ARG_A=1
SYNTH_ARG_B=abc
SYNTH_UUID=fe4d7c9d-b8c6-4a70-9ef1-3d8a58d18eed

Users:

udev, userspace tools generating synthetic uevents

Symbols under /sys/block

/sys/block/*/device/cdl_enable

Defined on file sysfs-block-device

(RW) For a device supporting the command duration limits feature, write to the file to turn on or off the feature. By default this feature is turned off. Writing “1” to this file enables the use of command duration limits for read and write commands in the kernel and turns on the feature on the device. Writing “0” disables the feature.

/sys/block/*/device/cdl_supported

Defined on file sysfs-block-device

(RO) Indicates if the device supports the command duration limits feature found in some ATA and SCSI devices.

/sys/block/*/device/ncq_prio_enable

Defined on file sysfs-block-device

(RW) Write to the file to turn on or off the SATA NCQ (native command queueing) priority support. By default this feature is turned off. If the device does not support the SATA NCQ priority feature, writing “1” to this file results in an error (see ncq_prio_supported).

/sys/block/*/device/ncq_prio_supported

Defined on file sysfs-block-device

(RO) Indicates if the device supports the SATA NCQ (native command queueing) priority feature.

/sys/block/*/device/sas_ncq_prio_enable

Defined on file sysfs-block-device

(RW) This is the equivalent of the ncq_prio_enable attribute file for SATA devices connected to a SAS host-bus-adapter (HBA) implementing support for the SATA NCQ priority feature. This file does not exist if the HBA driver does not implement support for the SATA NCQ priority feature, regardless of the device support for this feature (see sas_ncq_prio_supported).

/sys/block/*/device/sas_ncq_prio_supported

Defined on file sysfs-block-device

(RO) This is the equivalent of the ncq_prio_supported attribute file for SATA devices connected to a SAS host-bus-adapter (HBA) implementing support for the SATA NCQ priority feature. This file does not exist if the HBA driver does not implement support for the SATA NCQ priority feature, regardless of the device support for this feature.

/sys/block/*/device/sw_activity

Defined on file sysfs-block-device

(RW) Used by drivers which support software controlled activity LEDs.

It has the following valid values:

0

OFF - the LED is not activated on activity

1

BLINK_ON - the LED blinks on every 10ms when activity is detected.

2

BLINK_OFF - the LED is on when idle, and blinks off every 10ms when activity is detected.

Note that the user must turn sw_activity OFF it they wish to control the activity LED via the em_message file.

/sys/block/*/device/unload_heads

Defined on file sysfs-block-device

(RW) Hard disk shock protection

Writing an integer value to this file will take the heads of the respective drive off the platter and block all I/O operations for the specified number of milliseconds.

  • If the device does not support the unload heads feature, access is denied with -EOPNOTSUPP.

  • The maximal value accepted for a timeout is 30000 milliseconds.

  • A previously set timeout can be cancelled and disk can resume normal operation immediately by specifying a timeout of 0.

  • Some hard drives only comply with an earlier version of the ATA standard, but support the unload feature nonetheless. There is no safe way Linux can detect these devices, so this is not enabled by default. If it is known that your device does support the unload feature, then you can tell the kernel to enable it by writing -1. It can be disabled again by writing -2.

  • Values below -2 are rejected with -EINVAL

For more information, see Hard disk shock protection

/sys/block/<device>/iosched/target_latency

Defined on file sysfs-cfq-target-latency

The /sys/block/<device>/iosched/target_latency only exists when the user sets cfq to /sys/block/<device>/scheduler. It contains an estimated latency time for the cfq. cfq will use it to calculate the time slice used for every task.

/sys/block/<disk>/bcache/btree_cache_size

Defined on file sysfs-block-bcache

Number of btree buckets/nodes that are currently cached in memory; cache dynamically grows and shrinks in response to memory pressure from the rest of the system.

/sys/block/<disk>/bcache/btree_written

Defined on file sysfs-block-bcache

For a cache, sum of all btree writes in human readable units.

/sys/block/<disk>/bcache/bucket_size

Defined on file sysfs-block-bcache

For a cache, bucket size in human readable units, as set at cache creation time; should match the erase block size of the SSD for optimal performance.

/sys/block/<disk>/bcache/bypassed

Defined on file sysfs-block-bcache

Sum of all reads and writes that have bypassed the cache (due to the sequential cutoff). Expressed as bytes in human readable units.

/sys/block/<disk>/bcache/cache

Defined on file sysfs-block-bcache

For a backing device that has cache, a symlink to the bcache/ dir of that cache.

/sys/block/<disk>/bcache/cache_hit_ratio

Defined on file sysfs-block-bcache

For backing devices: cache hits as a percentage.

/sys/block/<disk>/bcache/cache_hits

Defined on file sysfs-block-bcache

For backing devices: integer number of full cache hits, counted per bio. A partial cache hit counts as a miss.

/sys/block/<disk>/bcache/cache_misses

Defined on file sysfs-block-bcache

For backing devices: integer number of cache misses.

/sys/block/<disk>/bcache/clear_stats

Defined on file sysfs-block-bcache

Writing to this file resets all the statistics for the device.

/sys/block/<disk>/bcache/discard

Defined on file sysfs-block-bcache

For a cache, a boolean allowing discard/TRIM to be turned off or back on if the device supports it.

/sys/block/<disk>/bcache/nbuckets

Defined on file sysfs-block-bcache

For a cache, the number of usable buckets.

/sys/block/<disk>/bcache/sequential_cutoff

Defined on file sysfs-block-bcache

For backing devices: Threshold past which sequential IO will skip the cache. Read and written as bytes in human readable units (i.e. echo 10M > sequntial_cutoff).

/sys/block/<disk>/bcache/synchronous

Defined on file sysfs-block-bcache

For a cache, a boolean that allows synchronous mode to be switched on and off. In synchronous mode all writes are ordered such that the cache can reliably recover from unclean shutdown; if disabled bcache will not generally wait for writes to complete but if the cache is not shut down cleanly all data will be discarded from the cache. Should not be turned off with writeback caching enabled.

/sys/block/<disk>/bcache/tree_depth

Defined on file sysfs-block-bcache

For a cache, height of the btree excluding leaf nodes (i.e. a one node tree will have a depth of 0).

/sys/block/<disk>/bcache/unregister

Defined on file sysfs-block-bcache

A write to this file causes the backing device or cache to be unregistered. If a backing device had dirty data in the cache, writeback mode is automatically disabled and all dirty data is flushed before the device is unregistered. Caches unregister all associated backing devices before unregistering themselves.

/sys/block/<disk>/bcache/writeback

Defined on file sysfs-block-bcache

For backing devices: When on, writeback caching is enabled and writes will be buffered in the cache. When off, caching is in writethrough mode; reads and writes will be added to the cache but no write buffering will take place.

/sys/block/<disk>/bcache/writeback_delay

Defined on file sysfs-block-bcache

For backing devices: In writeback mode, when dirty data is written to the cache and the cache held no dirty data for that backing device, writeback from cache to backing device starts after this delay, expressed as an integer number of seconds.

/sys/block/<disk>/bcache/writeback_percent

Defined on file sysfs-block-bcache

For backing devices: If nonzero, writeback from cache to backing device only takes place when more than this percentage of the cache is used, allowing more write coalescing to take place and reducing total number of writes sent to the backing device. Integer between 0 and 40.

/sys/block/<disk>/bcache/writeback_running

Defined on file sysfs-block-bcache

For backing devices: when off, dirty data will not be written from the cache to the backing device. The cache will still be used to buffer writes until it is mostly full, at which point writes transparently revert to writethrough mode. Intended only for benchmarking/testing.

/sys/block/<disk>/bcache/written

Defined on file sysfs-block-bcache

For a cache, total amount of data in human readable units written to the cache, excluding all metadata.

/sys/block/dm-<num>/dm/name

Defined on file sysfs-block-dm

Device-mapper device name. Read-only string containing mapped device name.

Users: util-linux, device-mapper udev rules

/sys/block/dm-<num>/dm/rq_based_seq_io_merge_deadline

Defined on file sysfs-block-dm

Allow control over how long a request that is a reasonable merge candidate can be queued on the request queue. The resolution of this deadline is in microseconds (ranging from 1 to 100000 usecs). Setting this attribute to 0 (the default) will disable request-based DM’s merge heuristic and associated extra accounting. This attribute is not applicable to bio-based DM devices so it will only ever report 0 for them.

/sys/block/dm-<num>/dm/suspended

Defined on file sysfs-block-dm

Device-mapper device suspend state. Contains the value 1 while the device is suspended. Otherwise it contains 0. Read-only attribute.

Users: util-linux, device-mapper udev rules

/sys/block/dm-<num>/dm/use_blk_mq

Defined on file sysfs-block-dm

Request-based Device-mapper blk-mq I/O path mode. Contains the value 1 if the device is using blk-mq. Otherwise it contains 0. Read-only attribute.

/sys/block/dm-<num>/dm/uuid

Defined on file sysfs-block-dm

Device-mapper device UUID. Read-only string containing DM-UUID or empty string if DM-UUID is not set.

Users: util-linux, device-mapper udev rules

/sys/block/etherd*/firmware-version

Defined on file sysfs-block-aoe

(RO) Version of the firmware in the target.

/sys/block/etherd*/mac

Defined on file sysfs-block-aoe

(RO) The ethernet address of the remote Ata over Ethernet (AoE) device.

/sys/block/etherd*/netif

Defined on file sysfs-block-aoe

(RO) The names of the network interfaces on the localhost (comma separated) through which we are communicating with the remote AoE device.

/sys/block/etherd*/payload

Defined on file sysfs-block-aoe

(RO) The amount of user data transferred (in bytes) inside each AoE command on the network, network headers excluded.

/sys/block/etherd*/state

Defined on file sysfs-block-aoe

(RO) Device status. The state attribute is “up” when the device is ready for I/O and “down” if detected but unusable. The “down,closewait” state shows that the device is still open and cannot come up again until it has been closed. The “up,kickme” state means that the driver wants to send more commands to the target but found out there were already the max number of commands waiting for a response. It will retry again after being kicked by the periodic timer handler routine.

/sys/block/loopX/loop/autoclear

Defined on file sysfs-block-loop

(RO) Shows if the device is in autoclear mode or not ( “1” or “0”). Autoclear (if set) indicates that the loopback device will self-distruct after last close.

/sys/block/loopX/loop/backing_file

Defined on file sysfs-block-loop

(RO) The path of the backing file that the loop device maps its data blocks to.

/sys/block/loopX/loop/dio

Defined on file sysfs-block-loop

(RO) Shows if direct IO is being used to access backing file or not (“1 or “0”).

/sys/block/loopX/loop/offset

Defined on file sysfs-block-loop

(RO) Start offset (in bytes).

/sys/block/loopX/loop/partscan

Defined on file sysfs-block-loop

(RO) Shows if automatic partition scanning is enabled for the device or not (“1” or “0”). This can be requested individually per loop device during its setup by setting LO_FLAGS_PARTSCAN in in the ioctl request. By default, no partition tables are scanned.

/sys/block/loopX/loop/sizelimit

Defined on file sysfs-block-loop

(RO) The size (in bytes) that the block device maps, starting from the offset.

/sys/block/rnbd<N>/rnbd/access_mode

Defined on file sysfs-block-rnbd

Contains the device access mode: ro, rw or migration.

/sys/block/rnbd<N>/rnbd/mapping_path

Defined on file sysfs-block-rnbd

Contains the path that was passed as “device_path” to the map_device operation.

/sys/block/rnbd<N>/rnbd/nr_poll_queues

Defined on file sysfs-block-rnbd

Contains the number of poll-mode queues

/sys/block/rnbd<N>/rnbd/remap_device

Defined on file sysfs-block-rnbd

Remap the disconnected device if the session is not destroyed yet.

/sys/block/rnbd<N>/rnbd/resize

Defined on file sysfs-block-rnbd

Write the number of sectors to change the size of the disk.

/sys/block/rnbd<N>/rnbd/session

Defined on file sysfs-block-rnbd

RNBD uses RTRS session to transport the data between client and server. The entry “session” contains the name of the session, that was used to establish the RTRS session. It’s the same name that was passed as server parameter to the map_device entry.

/sys/block/rnbd<N>/rnbd/state

Defined on file sysfs-block-rnbd

The file contains the current state of the block device. The state file returns “open” when the device is successfully mapped from the server and accepting I/O requests. When the connection to the server gets disconnected in case of an error (e.g. link failure), the state file returns “closed” and all I/O requests submitted to it will fail with -EIO.

/sys/block/rnbd<N>/rnbd/unmap_device

Defined on file sysfs-block-rnbd

To unmap a volume, “normal” or “force” has to be written to: /sys/block/rnbd<N>/rnbd/unmap_device

When “normal” is used, the operation will fail with EBUSY if any process is using the device. When “force” is used, the device is also unmapped when device is in use. All I/Os that are in progress will fail.

Example:

# echo "normal" > /sys/block/rnbd0/rnbd/unmap_device

/sys/block/rssd*/status

Defined on file sysfs-block-rssd

This is a read-only file. Indicates the status of the device.

/sys/block/zram<id>/algorithm_params

Defined on file sysfs-block-zram

The algorithm_params file is write-only and is used to setup compression algorithm parameters.

/sys/block/zram<id>/backing_dev

Defined on file sysfs-block-zram

The backing_dev file is read-write and set up backing device for zram to write incompressible pages. For using, user should enable CONFIG_ZRAM_WRITEBACK.

/sys/block/zram<id>/bd_stat

Defined on file sysfs-block-zram

The bd_stat file is read-only and represents backing device’s statistics (bd_count, bd_reads, bd_writes) in a format similar to block layer statistics file format.

/sys/block/zram<id>/comp_algorithm

Defined on file sysfs-block-zram

The comp_algorithm file is read-write and lets to show available and selected compression algorithms, change compression algorithm selection.

/sys/block/zram<id>/compact

Defined on file sysfs-block-zram

The compact file is write-only and trigger compaction for allocator zrm uses. The allocator moves some objects so that it could free fragment space.

/sys/block/zram<id>/debug_stat

Defined on file sysfs-block-zram

The debug_stat file is read-only and represents various device’s debugging info useful for kernel developers. Its format is not documented intentionally and may change anytime without any notice.

/sys/block/zram<id>/disksize

Defined on file sysfs-block-zram

The disksize file is read-write and specifies the disk size which represents the limit on the uncompressed worth of data that can be stored in this disk. Unit: bytes

/sys/block/zram<id>/idle

Defined on file sysfs-block-zram

idle file is write-only and mark zram slot as idle. If system has mounted debugfs, user can see which slots are idle via /sys/kernel/debug/zram/zram<id>/block_state

/sys/block/zram<id>/initstate

Defined on file sysfs-block-zram

The initstate file is read-only and shows the initialization state of the device.

/sys/block/zram<id>/io_stat

Defined on file sysfs-block-zram

The io_stat file is read-only and accumulates device’s I/O statistics not accounted by block layer. For example, failed_reads, failed_writes, etc. File format is similar to block layer statistics file format.

/sys/block/zram<id>/max_comp_streams

Defined on file sysfs-block-zram

The max_comp_streams file is read-write and specifies the number of backend’s zcomp_strm compression streams (number of concurrent compress operations).

/sys/block/zram<id>/mem_limit

Defined on file sysfs-block-zram

The mem_limit file is write-only and specifies the maximum amount of memory ZRAM can use to store the compressed data. The limit could be changed in run time and “0” means disable the limit. No limit is the initial state. Unit: bytes

/sys/block/zram<id>/mem_used_max

Defined on file sysfs-block-zram

The mem_used_max file is write-only and is used to reset the counter of maximum memory zram have consumed to store compressed data. For resetting the value, you should write “0”. Otherwise, you could see -EINVAL. Unit: bytes

/sys/block/zram<id>/mm_stat

Defined on file sysfs-block-zram

The mm_stat file is read-only and represents device’s mm statistics (orig_data_size, compr_data_size, etc.) in a format similar to block layer statistics file format.

/sys/block/zram<id>/recomp_algorithm

Defined on file sysfs-block-zram

The recomp_algorithm file is read-write and allows to set or show secondary compression algorithms.

/sys/block/zram<id>/recompress

Defined on file sysfs-block-zram

The recompress file is write-only and triggers re-compression with secondary compression algorithms.

/sys/block/zram<id>/reset

Defined on file sysfs-block-zram

The reset file is write-only and allows resetting the device. The reset operation frees all the memory associated with this device.

/sys/block/zram<id>/writeback

Defined on file sysfs-block-zram

The writeback file is write-only and trigger idle and/or huge page writeback to backing device.

/sys/block/zram<id>/writeback_limit

Defined on file sysfs-block-zram

The writeback_limit file is read-write and specifies the maximum amount of writeback ZRAM can do. The limit could be changed in run time.

/sys/block/zram<id>/writeback_limit_enable

Defined on file sysfs-block-zram

The writeback_limit_enable file is read-write and specifies eanbe of writeback_limit feature. “1” means eable the feature. No limit “0” is the initial state.

Symbols under /sys/bus

/sys/bus/*/drivers/ufshcd/*/auto_hibern8

Defined on file sysfs-driver-ufs

This file contains the auto-hibernate idle timer setting of a UFS host controller. A value of ‘0’ means auto-hibernate is not enabled. Otherwise the value is the number of microseconds of idle time before the UFS host controller will autonomously put the link into hibernate state. That will save power at the expense of increased latency. Note that the hardware supports 10-bit values with a power-of-ten multiplier which allows a maximum value of 102300000. Refer to the UFS Host Controller Interface specification for more details.

/sys/bus/.../drivers/intel-m10-bmc/.../bmc_version

Defined on file sysfs-driver-intel-m10-bmc

Read only. Returns the hardware build version of Intel MAX10 BMC chip. Format: “0x%x”.

/sys/bus/.../drivers/intel-m10-bmc/.../bmcfw_version

Defined on file sysfs-driver-intel-m10-bmc

Read only. Returns the firmware version of Intel MAX10 BMC chip. Format: “0x%x”.

/sys/bus/.../drivers/intel-m10-bmc/.../mac_address

Defined on file sysfs-driver-intel-m10-bmc

Read only. Returns the first MAC address in a block of sequential MAC addresses assigned to the board that is managed by the Intel MAX10 BMC. It is stored in FLASH storage and is mirrored in the MAX10 BMC register space. Format: “%02x:%02x:%02x:%02x:%02x:%02x”.

/sys/bus/.../drivers/intel-m10-bmc/.../mac_count

Defined on file sysfs-driver-intel-m10-bmc

Read only. Returns the number of sequential MAC addresses assigned to the board managed by the Intel MAX10 BMC. This value is stored in FLASH and is mirrored in the MAX10 BMC register space. Format: “%u”.

/sys/bus/acpi/devices/.../adr

Defined on file sysfs-bus-acpi

This attribute contains the output of the device object’s _ADR control method, which is present for ACPI device objects representing devices having standard enumeration algorithms, such as PCI.

/sys/bus/acpi/devices/.../description

Defined on file sysfs-bus-acpi

This attribute contains the output of the device object’s _STR control method, if present.

/sys/bus/acpi/devices/.../eject

Defined on file sysfs-bus-acpi

Writing 1 to this attribute will trigger hot removal of this device object. This file exists for every device object that has _EJ0 method.

/sys/bus/acpi/devices/.../hid

Defined on file sysfs-bus-acpi

This attribute indicates the hardware ID (_HID) of the device object. For example, PNP0103. This file is present for device objects having the _HID control method.

/sys/bus/acpi/devices/.../hrv

Defined on file sysfs-bus-acpi

(RO) Allows users to read the hardware version of non-PCI hardware, if the _HRV control method is present. It is mostly useful for non-PCI devices because lspci can list the hardware version for PCI devices.

/sys/bus/acpi/devices/.../modalias

Defined on file sysfs-bus-acpi

This attribute indicates the PNP IDs of the device object. That is acpi:HHHHHHHH:[CCCCCCC:]. Where each HHHHHHHH or CCCCCCCC contains device object’s PNPID (_HID or _CID).

/sys/bus/acpi/devices/.../path

Defined on file sysfs-bus-acpi

This attribute indicates the full path of ACPI namespace object associated with the device object. For example, _SB_.PCI0.

This file is not present for device objects representing fixed ACPI hardware features (like power and sleep buttons).

/sys/bus/acpi/devices/.../status

Defined on file sysfs-bus-acpi

(RO) Returns the ACPI device status: enabled, disabled or functioning or present, if the method _STA is present.

The return value is a decimal integer representing the device’s status bitmap:

Bit [0]

Set if the device is present.

Bit [1]

Set if the device is enabled and decoding its resources.

Bit [2]

Set if the device should be shown in the UI.

Bit [3]

Set if the device is functioning properly (cleared if device failed its diagnostics).

Bit [4]

Set if the battery is present.

Bits [31:5]

Reserved (must be cleared)

If bit [0] is clear, then bit 1 must also be clear (a device that is not present cannot be enabled).

Bit 0 can be clear (not present) with bit [3] set (device is functional). This case is used to indicate a valid device for which no device driver should be loaded.

More special cases are covered in the ACPI specification.

/sys/bus/acpi/devices/.../uid

Defined on file sysfs-bus-acpi

This attribute contains the output of the device object’s _UID control method, if present.

/sys/bus/acpi/intel-rapid-start/wakeup_events

Defined on file sysfs-driver-intel-rapid-start

An integer representing a set of wakeup events as follows: 1: Wake to enter hibernation when the wakeup timer expires 2: Wake to enter hibernation when the battery reaches a critical level

These values are ORed together. For example, a value of 3 indicates that the system will wake to enter hibernation when either the wakeup timer expires or the battery reaches a critical level.

/sys/bus/acpi/intel-rapid-start/wakeup_time

Defined on file sysfs-driver-intel-rapid-start

An integer representing the length of time the system will remain asleep before waking up to enter hibernation. This value is in minutes.

/sys/bus/amba/devices/.../driver_override

Defined on file sysfs-bus-amba

This file allows the driver for a device to be specified which will override standard OF, ACPI, ID table, and name matching. When specified, only a driver with a name matching the value written to driver_override will have an opportunity to bind to the device. The override is specified by writing a string to the driver_override file (echo vfio-amba > driver_override) and may be cleared with an empty string (echo > driver_override). This returns the device to standard matching rules binding. Writing to driver_override does not automatically unbind the device from its current driver or make any attempt to automatically load the specified driver. If no driver with a matching name is currently loaded in the kernel, the device will not bind to any driver. This also allows devices to opt-out of driver binding using a driver_override name such as “none”. Only a single driver may be specified in the override, there is no support for parsing delimiters.

/sys/bus/auxiliary/devices/.../irqs/

Defined on file sysfs-bus-auxiliary

The /sys/devices/.../irqs directory contains a variable set of files, with each file is named as irq number similar to PCI PF or VF’s irq number located in msi_irqs directory. These irq files are added and removed dynamically when an IRQ is requested and freed respectively for the PCI SF.

/sys/bus/auxiliary/devices/intel_vsec.sdsi.X

Defined on file sysfs-driver-intel_sdsi

This directory contains interface files for accessing Intel On Demand (formerly Software Defined Silicon or SDSi) features on a CPU. X represents the socket instance (though not the socket ID). The socket ID is determined by reading the registers file and decoding it per the specification.

Some files communicate with On Demand hardware through a mailbox. Should the operation fail, one of the following error codes may be returned:

Error Code

Cause

EIO

General mailbox failure. Log may indicate cause.

EBUSY

Mailbox is owned by another agent.

EPERM

On Demand capability is not enabled in hardware.

EPROTO

Failure in mailbox protocol detected by driver. See log for details.

EOVERFLOW

For provision commands, the size of the data exceeds what may be written.

ESPIPE

Seeking is not allowed.

ETIMEDOUT

Failure to complete mailbox transaction in time.

/sys/bus/auxiliary/devices/intel_vsec.sdsi.X/guid

Defined on file sysfs-driver-intel_sdsi

(RO) The GUID for the registers file. The GUID identifies the layout of the registers file in this directory. Information about the register layouts for a particular GUID is available at http://github.com/intel/intel-sdsi

/sys/bus/auxiliary/devices/intel_vsec.sdsi.X/meter_certificate

Defined on file sysfs-driver-intel_sdsi

(RO) Used to read back the current meter certificate for the CPU from Intel On Demand hardware. The meter certificate contains utilization metrics of On Demand enabled features. Mailbox command.

/sys/bus/auxiliary/devices/intel_vsec.sdsi.X/provision_akc

Defined on file sysfs-driver-intel_sdsi

(WO) Used to write an Authentication Key Certificate (AKC) to the On Demand NVRAM for the CPU. The AKC is used to authenticate a Capability Activation Payload. Mailbox command.

/sys/bus/auxiliary/devices/intel_vsec.sdsi.X/provision_cap

Defined on file sysfs-driver-intel_sdsi

(WO) Used to write a Capability Activation Payload (CAP) to the On Demand NVRAM for the CPU. CAPs are used to activate a given CPU feature. A CAP is validated by On Demand hardware using a previously provisioned AKC file. Upon successful authentication, the CPU configuration is updated. A cold reboot is required to fully activate the feature. Mailbox command.

/sys/bus/auxiliary/devices/intel_vsec.sdsi.X/registers

Defined on file sysfs-driver-intel_sdsi

(RO) Contains information needed by applications to provision a CPU and monitor status information. The layout of this file is determined by the GUID in this directory. Information about the layout for a particular GUID is available at http://github.com/intel/intel-sdsi

/sys/bus/auxiliary/devices/intel_vsec.sdsi.X/state_certificate

Defined on file sysfs-driver-intel_sdsi

(RO) Used to read back the current state certificate for the CPU from On Demand hardware. The state certificate contains information about the current licenses on the CPU. Mailbox command.

/sys/bus/bcma/devices/.../class

Defined on file sysfs-bus-bcma

Each BCMA core is identified by few fields, including class it belongs to. See include/linux/bcma/bcma.h for possible values.

/sys/bus/bcma/devices/.../id

Defined on file sysfs-bus-bcma

There are a few types of BCMA cores, they can be identified by id field.

/sys/bus/bcma/devices/.../manuf

Defined on file sysfs-bus-bcma

Each BCMA core has its manufacturer id. See include/linux/bcma/bcma.h for possible values.

/sys/bus/bcma/devices/.../rev

Defined on file sysfs-bus-bcma

BCMA cores of the same type can still slightly differ depending on their revision. Use it for detailed programming.

/sys/bus/cdx/devices/.../class

Defined on file sysfs-bus-cdx

This file contains the class of the CDX device, in hexadecimal. Class is 24 bit identifier specifies the functionality of the device.

/sys/bus/cdx/devices/.../device

Defined on file sysfs-bus-cdx

Device ID for this CDX device, in hexadecimal. Device ID is 16 bit identifier to identify a device type within the range of a device manufacturer. Combination of Vendor ID and Device ID identifies a device.

/sys/bus/cdx/devices/.../enable

Defined on file sysfs-bus-cdx

CDX bus should be disabled before updating the devices in FPGA. Writing n/0/off will attempt to disable the CDX bus and. writing y/1/on will attempt to enable the CDX bus. Reading this file gives the current state of the bus, 1 for enabled and 0 for disabled.

For example:

# echo 1 > /sys/bus/cdx/.../enable

/sys/bus/cdx/devices/.../modalias

Defined on file sysfs-bus-cdx

This attribute indicates the CDX ID of the device. That is in the format: cdx:vXXXXdXXXXsvXXXXsdXXXXcXXXXXX, where:

  • vXXXX contains the vendor ID;

  • dXXXX contains the device ID;

  • svXXXX contains the subsystem vendor ID;

  • sdXXXX contains the subsystem device ID;

  • cXXXXXX contains the device class.

/sys/bus/cdx/devices/.../remove

Defined on file sysfs-bus-cdx

Writing y/1/on to this file removes the corresponding device from the CDX bus. If the device is to be reconfigured reconfigured in the Hardware, the device can be removed, so that the device driver does not access the device while it is being reconfigured.

For example:

# echo 1 > /sys/bus/cdx/devices/.../remove

/sys/bus/cdx/devices/.../reset

Defined on file sysfs-bus-cdx

Writing y/1/on to this file resets the CDX device or all devices on the bus. On resetting the device, the corresponding driver is notified twice, once before the device is being reset, and again after the reset has been complete.

For example:

# echo 1 > /sys/bus/cdx/.../reset

/sys/bus/cdx/devices/.../resource<N>

Defined on file sysfs-bus-cdx

The resource binary file contains the content of the memory regions. These files can be m’maped from userspace.

/sys/bus/cdx/devices/.../revision

Defined on file sysfs-bus-cdx

This file contains the revision field of the CDX device, in hexadecimal. Revision is 8 bit revision identifier of the device.

/sys/bus/cdx/devices/.../subsystem_device

Defined on file sysfs-bus-cdx

Subsystem Device ID for this CDX device, in hexadecimal Subsystem Device ID is 16 bit identifier specific to the card manufacturer.

/sys/bus/cdx/devices/.../subsystem_vendor

Defined on file sysfs-bus-cdx

Subsystem Vendor ID for this CDX device, in hexadecimal. Subsystem Vendor ID is 16 bit identifier specific to the card manufacturer.

/sys/bus/cdx/devices/.../vendor

Defined on file sysfs-bus-cdx

Vendor ID for this CDX device, in hexadecimal. Vendor ID is 16 bit identifier which is specific to the device manufacturer. Combination of Vendor ID and Device ID identifies a device.

/sys/bus/cdx/rescan

Defined on file sysfs-bus-cdx

Writing y/1/on to this file will cause rescan of the bus and devices on the CDX bus. Any new devices are scanned and added to the list of Linux devices and any devices removed are also deleted from Linux.

For example:

# echo 1 > /sys/bus/cdx/rescan

/sys/bus/coreboot

Defined on file sysfs-bus-coreboot

The coreboot bus provides a variety of virtual devices used to access data structures created by the Coreboot BIOS.

/sys/bus/coreboot/devices/cbmem-<id>

Defined on file sysfs-bus-coreboot

CBMEM is a downwards-growing memory region created by Coreboot, and contains tagged data structures to be shared with payloads in the boot process and the OS. Each CBMEM entry is given a directory in /sys/bus/coreboot/devices based on its id. A list of ids known to Coreboot can be found in the coreboot source tree at src/commonlib/bsd/include/commonlib/bsd/cbmem_id.h.

/sys/bus/coreboot/devices/cbmem-<id>/address

Defined on file sysfs-bus-coreboot

This is the physical memory address that the CBMEM entry’s data begins at, in hexadecimal (e.g., 0x76ffe000).

/sys/bus/coreboot/devices/cbmem-<id>/mem

Defined on file sysfs-bus-coreboot

A file exposing read/write access to the entry’s data. Note that this file does not support mmap(), as coreboot does not guarantee that the data will be page-aligned.

The mode of this file is 0600. While there shouldn’t be anything security-sensitive contained in CBMEM, read access requires root privileges given this is exposing a small subset of physical memory.

/sys/bus/coreboot/devices/cbmem-<id>/size

Defined on file sysfs-bus-coreboot

This is the size of the CBMEM entry’s data, in hexadecimal (e.g., 0x1234).

/sys/bus/coresight/devices/<cti-name>/channels/chan_clear

Defined on file sysfs-bus-coresight-devices-cti

(Write) Deactivate a single channel.

/sys/bus/coresight/devices/<cti-name>/channels/chan_free

Defined on file sysfs-bus-coresight-devices-cti

(Read) show channels with no attached trigger signals.

/sys/bus/coresight/devices/<cti-name>/channels/chan_gate_disable

Defined on file sysfs-bus-coresight-devices-cti

(Write) Disable CTIGATE for single channel.

/sys/bus/coresight/devices/<cti-name>/channels/chan_gate_enable

Defined on file sysfs-bus-coresight-devices-cti

(RW) Enable CTIGATE for single channel (Write) or list enabled channels through the gate (R).

/sys/bus/coresight/devices/<cti-name>/channels/chan_inuse

Defined on file sysfs-bus-coresight-devices-cti

(Read) show channels with at least one attached trigger signal.

/sys/bus/coresight/devices/<cti-name>/channels/chan_pulse

Defined on file sysfs-bus-coresight-devices-cti

(Write) Pulse a single channel - activate for a single clock cycle.

/sys/bus/coresight/devices/<cti-name>/channels/chan_set

Defined on file sysfs-bus-coresight-devices-cti

(Write) Activate a single channel.

/sys/bus/coresight/devices/<cti-name>/channels/chan_xtrigs_in

Defined on file sysfs-bus-coresight-devices-cti

(Read) Read to see input triggers connected to selected view channel.

/sys/bus/coresight/devices/<cti-name>/channels/chan_xtrigs_out

Defined on file sysfs-bus-coresight-devices-cti

(Read) Read to see output triggers connected to selected view channel.

/sys/bus/coresight/devices/<cti-name>/channels/chan_xtrigs_reset

Defined on file sysfs-bus-coresight-devices-cti

(Write) Clear all channel / trigger programming.

/sys/bus/coresight/devices/<cti-name>/channels/chan_xtrigs_sel

Defined on file sysfs-bus-coresight-devices-cti

(RW) Write channel number to select a channel to view, read to see selected channel number.

/sys/bus/coresight/devices/<cti-name>/channels/trig_filter_enable

Defined on file sysfs-bus-coresight-devices-cti

(RW) Enable or disable trigger output signal filtering.

/sys/bus/coresight/devices/<cti-name>/channels/trigin_attach

Defined on file sysfs-bus-coresight-devices-cti

(Write) Attach a CTI input trigger to a CTM channel.

/sys/bus/coresight/devices/<cti-name>/channels/trigin_detach

Defined on file sysfs-bus-coresight-devices-cti

(Write) Detach a CTI input trigger from a CTM channel.

/sys/bus/coresight/devices/<cti-name>/channels/trigout_attach

Defined on file sysfs-bus-coresight-devices-cti

(Write) Attach a CTI output trigger to a CTM channel.

/sys/bus/coresight/devices/<cti-name>/channels/trigout_detach

Defined on file sysfs-bus-coresight-devices-cti

(Write) Detach a CTI output trigger from a CTM channel.

/sys/bus/coresight/devices/<cti-name>/channels/trigout_filtered

Defined on file sysfs-bus-coresight-devices-cti

(Read) List of output triggers filtered across all connections.

/sys/bus/coresight/devices/<cti-name>/ctmid

Defined on file sysfs-bus-coresight-devices-cti

(Read) Display the associated CTM ID

/sys/bus/coresight/devices/<cti-name>/enable

Defined on file sysfs-bus-coresight-devices-cti

(RW) Enable/Disable the CTI hardware.

/sys/bus/coresight/devices/<cti-name>/nr_trigger_cons

Defined on file sysfs-bus-coresight-devices-cti

(Read) Number of devices connected to triggers on this CTI

/sys/bus/coresight/devices/<cti-name>/powered

Defined on file sysfs-bus-coresight-devices-cti

(Read) Indicate if the CTI hardware is powered.

/sys/bus/coresight/devices/<cti-name>/regs/appclear

Defined on file sysfs-bus-coresight-devices-cti

(Write) Write APPCLEAR register to deactivate channel.

/sys/bus/coresight/devices/<cti-name>/regs/apppulse

Defined on file sysfs-bus-coresight-devices-cti

(Write) Write APPPULSE to pulse a channel active for one clock cycle.

/sys/bus/coresight/devices/<cti-name>/regs/appset

Defined on file sysfs-bus-coresight-devices-cti

(RW) Set CTIAPPSET register to activate channel. Read back to determine current value of register.

/sys/bus/coresight/devices/<cti-name>/regs/asicctl

Defined on file sysfs-bus-coresight-devices-cti

(RW) Read or write ASICCTL register.

/sys/bus/coresight/devices/<cti-name>/regs/chinstatus

Defined on file sysfs-bus-coresight-devices-cti

(Read) Read current status of channel inputs.

/sys/bus/coresight/devices/<cti-name>/regs/choutstatus

Defined on file sysfs-bus-coresight-devices-cti

(Read) read current status of channel outputs.

/sys/bus/coresight/devices/<cti-name>/regs/gate

Defined on file sysfs-bus-coresight-devices-cti

(RW) Read or write CTIGATE register.

/sys/bus/coresight/devices/<cti-name>/regs/inen

Defined on file sysfs-bus-coresight-devices-cti

(RW) Read or write the CTIINEN register selected by inout_sel.

/sys/bus/coresight/devices/<cti-name>/regs/inout_sel

Defined on file sysfs-bus-coresight-devices-cti

(RW) Select the index for inen and outen registers.

/sys/bus/coresight/devices/<cti-name>/regs/intack

Defined on file sysfs-bus-coresight-devices-cti

(Write) Write the INTACK register.

/sys/bus/coresight/devices/<cti-name>/regs/outen

Defined on file sysfs-bus-coresight-devices-cti

(RW) Read or write the CTIOUTEN register selected by inout_sel.

/sys/bus/coresight/devices/<cti-name>/regs/triginstatus

Defined on file sysfs-bus-coresight-devices-cti

(Read) read current status of input trigger signals

/sys/bus/coresight/devices/<cti-name>/regs/trigoutstatus

Defined on file sysfs-bus-coresight-devices-cti

(Read) read current status of output trigger signals.

/sys/bus/coresight/devices/<cti-name>/triggers<N>/in_signals

Defined on file sysfs-bus-coresight-devices-cti

(Read) Input trigger signals from connected device <N>

/sys/bus/coresight/devices/<cti-name>/triggers<N>/in_types

Defined on file sysfs-bus-coresight-devices-cti

(Read) Functional types for the input trigger signals from connected device <N>

/sys/bus/coresight/devices/<cti-name>/triggers<N>/name

Defined on file sysfs-bus-coresight-devices-cti

(Read) Name of connected device <N>

/sys/bus/coresight/devices/<cti-name>/triggers<N>/out_signals

Defined on file sysfs-bus-coresight-devices-cti

(Read) Output trigger signals to connected device <N>

/sys/bus/coresight/devices/<cti-name>/triggers<N>/out_types

Defined on file sysfs-bus-coresight-devices-cti

(Read) Functional types for the output trigger signals to connected device <N>

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/addr_acctype

Defined on file sysfs-bus-coresight-devices-etm3x

(RW) Used in conjunction with @addr_idx. Specifies characteristics about the address comparator being configure, for example the access type, the kind of instruction to trace, processor context ID to trigger on, etc. Individual fields in the access type register may vary on the version of the trace entity.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/addr_idx

Defined on file sysfs-bus-coresight-devices-etm3x

Select which address comparator or pair (of comparators) to work with.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/addr_range

Defined on file sysfs-bus-coresight-devices-etm3x

(RW) Used in conjunction with @addr_idx. Specifies the range of addresses to trigger on. Inclusion or exclusion is specified in the corresponding access type register.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/addr_single

Defined on file sysfs-bus-coresight-devices-etm3x

(RW) Used in conjunction with @addr_idx. Specifies the single address to trigger on, highly influenced by the configuration options of the corresponding access type register.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/addr_start

Defined on file sysfs-bus-coresight-devices-etm3x

(RW) Used in conjunction with @addr_idx. Specifies the single address to start tracing on, highly influenced by the configuration options of the corresponding access type register.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/addr_stop

Defined on file sysfs-bus-coresight-devices-etm3x

(RW) Used in conjunction with @addr_idx. Specifies the single address to stop tracing on, highly influenced by the configuration options of the corresponding access type register.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/cntr_event

Defined on file sysfs-bus-coresight-devices-etm3x

(RW) Used in conjunction with cntr_idx, give access to the counter event register.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/cntr_idx

Defined on file sysfs-bus-coresight-devices-etm3x

(RW) Specifies the counter to work on.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/cntr_rld_event

Defined on file sysfs-bus-coresight-devices-etm3x

(RW) Used in conjunction with cntr_idx, give access to the counter reload event register.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/cntr_rld_val

Defined on file sysfs-bus-coresight-devices-etm3x

(RW) Used in conjunction with cntr_idx, give access to the counter reload value register.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/cntr_val

Defined on file sysfs-bus-coresight-devices-etm3x

(RW) Used in conjunction with cntr_idx, give access to the counter value register.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/cpu

Defined on file sysfs-bus-coresight-devices-etm3x

(RO) Holds the cpu number this tracer is affined to.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/ctxid_idx

Defined on file sysfs-bus-coresight-devices-etm3x

(RW) Specifies the index of the context ID register to be selected.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/ctxid_mask

Defined on file sysfs-bus-coresight-devices-etm3x

(RW) Mask to apply to all the context ID comparator.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/ctxid_pid

Defined on file sysfs-bus-coresight-devices-etm3x

(RW) Used with the ctxid_idx, specify with context ID to trigger on.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/curr_seq_state

Defined on file sysfs-bus-coresight-devices-etm3x

(Read) Holds the current state of the sequencer.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/enable_event

Defined on file sysfs-bus-coresight-devices-etm3x

(RW) Defines which event triggers a trace.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/enable_source

Defined on file sysfs-bus-coresight-devices-etm3x

(RW) Enable/disable tracing on this specific trace entiry. Enabling a source implies the source has been configured properly and a sink has been identidifed for it. The path of coresight components linking the source to the sink is configured and managed automatically by the coresight framework.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/etmsr

Defined on file sysfs-bus-coresight-devices-etm3x

(RW) Gives access to the ETM status register, which holds programming information and status on certains events.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/fifofull_level

Defined on file sysfs-bus-coresight-devices-etm3x

(RW) Number of byte left in the fifo before considering it full. Depending on the tracer’s version, can also hold threshold for data suppression.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/mgmt/etmccer

Defined on file sysfs-bus-coresight-devices-etm3x

(RO) Print the content of the ETM Configuration Code Extension register (0x1e8). The value is read directly from the HW.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/mgmt/etmccr

Defined on file sysfs-bus-coresight-devices-etm3x

(RO) Print the content of the ETM Configuration Code register (0x004). The value is read directly from the HW.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/mgmt/etmcr

Defined on file sysfs-bus-coresight-devices-etm3x

(RO) Print the content of the ETM Main Control register (0x000). The value is read directly from the HW.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/mgmt/etmidr

Defined on file sysfs-bus-coresight-devices-etm3x

(RO) Print the content of the ETM ID register (0x1e4). The value is read directly from the HW.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/mgmt/etmscr

Defined on file sysfs-bus-coresight-devices-etm3x

(RO) Print the content of the ETM System Configuration register (0x014). The value is read directly from the HW.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/mgmt/etmtecr1

Defined on file sysfs-bus-coresight-devices-etm3x

(RO) Print the content of the ETM Enable Control #1 register (0x024). The value is read directly from the HW.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/mgmt/etmtecr2

Defined on file sysfs-bus-coresight-devices-etm3x

(RO) Print the content of the ETM Enable Control #2 register (0x01c). The value is read directly from the HW.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/mgmt/etmteevr

Defined on file sysfs-bus-coresight-devices-etm3x

(RO) Print the content of the ETM Trace Enable Event register (0x020). The value is read directly from the HW.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/mgmt/etmtraceidr

Defined on file sysfs-bus-coresight-devices-etm3x

(RO) Print the content of the ETM Trace ID register (0x200). The value is read directly from the HW.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/mgmt/etmtsscr

Defined on file sysfs-bus-coresight-devices-etm3x

(RO) Print the content of the ETM Trace Start/Stop Control register (0x018). The value is read directly from the HW.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/mode

Defined on file sysfs-bus-coresight-devices-etm3x

(RW) Interface with the driver’s ‘mode’ field, controlling various aspect of the trace entity such as time stamping, context ID size and cycle accurate tracing. Driver specific and bound to change depending on the driver.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/nr_addr_cmp

Defined on file sysfs-bus-coresight-devices-etm3x

(Read) Provides the number of address comparators pairs accessible on a trace unit, as specified by bit 3:0 of register ETMCCR.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/nr_cntr

Defined on file sysfs-bus-coresight-devices-etm3x

(Read) Provides the number of counters accessible on a trace unit, as specified by bit 15:13 of register ETMCCR.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/nr_ctxid_cmp

Defined on file sysfs-bus-coresight-devices-etm3x

(Read) Provides the number of context ID comparator available on a trace unit, as specified by bit 25:24 of register ETMCCR.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/reset

Defined on file sysfs-bus-coresight-devices-etm3x

(Write) Cancels all configuration on a trace unit and set it back to its boot configuration.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/seq_12_event

Defined on file sysfs-bus-coresight-devices-etm3x

(RW) Defines the event that causes the sequencer to transition from state 1 to state 2.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/seq_13_event

Defined on file sysfs-bus-coresight-devices-etm3x

(RW) Defines the event that causes the sequencer to transition from state 1 to state 3.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/seq_21_event

Defined on file sysfs-bus-coresight-devices-etm3x

(RW) Defines the event that causes the sequencer to transition from state 2 to state 1.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/seq_23_event

Defined on file sysfs-bus-coresight-devices-etm3x

(RW) Defines the event that causes the sequencer to transition from state 2 to state 3.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/seq_31_event

Defined on file sysfs-bus-coresight-devices-etm3x

(RW) Defines the event that causes the sequencer to transition from state 3 to state 1.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/seq_32_event

Defined on file sysfs-bus-coresight-devices-etm3x

(RW) Defines the event that causes the sequencer to transition from state 3 to state 2.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/sync_freq

Defined on file sysfs-bus-coresight-devices-etm3x

(RW) Holds the trace synchronization frequency value - must be programmed with the various implementation behavior in mind.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/timestamp_event

Defined on file sysfs-bus-coresight-devices-etm3x

(RW) Defines an event that requests the insertion of a timestamp into the trace stream.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/traceid

Defined on file sysfs-bus-coresight-devices-etm3x

(RO) Holds the trace ID that will appear in the trace stream coming from this trace entity.

/sys/bus/coresight/devices/<memory_map>.[etm|ptm]/trigger_event

Defined on file sysfs-bus-coresight-devices-etm3x

(RW) Define the event that controls the trigger.

/sys/bus/coresight/devices/<memory_map>.etb/enable_sink

Defined on file sysfs-bus-coresight-devices-etb10

(RW) Add/remove a sink from a trace path. There can be multiple source for a single sink.

ex:

echo 1 > /sys/bus/coresight/devices/20010000.etb/enable_sink

/sys/bus/coresight/devices/<memory_map>.etb/mgmt/ctl

Defined on file sysfs-bus-coresight-devices-etb10

(Read) Shows the value held by the ETB Control register. The value is read directly from HW register CTL, 0x020.

/sys/bus/coresight/devices/<memory_map>.etb/mgmt/ffcr

Defined on file sysfs-bus-coresight-devices-etb10

(Read) Shows the value held by the ETB Formatter and Flush Control register. The value is read directly from HW register FFCR, 0x304.

/sys/bus/coresight/devices/<memory_map>.etb/mgmt/ffsr

Defined on file sysfs-bus-coresight-devices-etb10

(Read) Shows the value held by the ETB Formatter and Flush Status register. The value is read directly from HW register FFSR, 0x300.

/sys/bus/coresight/devices/<memory_map>.etb/mgmt/rdp

Defined on file sysfs-bus-coresight-devices-etb10

(Read) Defines the depth, in words, of the trace RAM in powers of 2. The value is read directly from HW register RDP, 0x004.

/sys/bus/coresight/devices/<memory_map>.etb/mgmt/rrp

Defined on file sysfs-bus-coresight-devices-etb10

(Read) Shows the value held by the ETB RAM Read Pointer register that is used to read entries from the Trace RAM over the APB interface. The value is read directly from HW register RRP, 0x014.

/sys/bus/coresight/devices/<memory_map>.etb/mgmt/rwp

Defined on file sysfs-bus-coresight-devices-etb10

(Read) Shows the value held by the ETB RAM Write Pointer register that is used to sets the write pointer to write entries from the CoreSight bus into the Trace RAM. The value is read directly from HW register RWP, 0x018.

/sys/bus/coresight/devices/<memory_map>.etb/mgmt/sts

Defined on file sysfs-bus-coresight-devices-etb10

(Read) Shows the value held by the ETB status register. The value is read directly from HW register STS, 0x00C.

/sys/bus/coresight/devices/<memory_map>.etb/mgmt/trg

Defined on file sysfs-bus-coresight-devices-etb10

(Read) Similar to “trigger_cntr” above except that this value is read directly from HW register TRG, 0x01C.

/sys/bus/coresight/devices/<memory_map>.etb/trigger_cntr

Defined on file sysfs-bus-coresight-devices-etb10

(RW) Disables write access to the Trace RAM by stopping the formatter after a defined number of words have been stored following the trigger event. The number of 32-bit words written into the Trace RAM following the trigger event is equal to the value stored in this register+1 (from ARM ETB-TRM).

/sys/bus/coresight/devices/<memory_map>.funnel/funnel_ctrl

Defined on file sysfs-bus-coresight-devices-funnel

(RW) Enables the slave ports and defines the hold time of the slave ports.

/sys/bus/coresight/devices/<memory_map>.funnel/priority

Defined on file sysfs-bus-coresight-devices-funnel

(RW) Defines input port priority order.

/sys/bus/coresight/devices/<memory_map>.stm/enable_source

Defined on file sysfs-bus-coresight-devices-stm

(RW) Enable/disable tracing on this specific trace macrocell. Enabling the trace macrocell implies it has been configured properly and a sink has been identified for it. The path of coresight components linking the source to the sink is configured and managed automatically by the coresight framework.

/sys/bus/coresight/devices/<memory_map>.stm/hwevent_enable

Defined on file sysfs-bus-coresight-devices-stm

(RW) Provides access to the HW event enable register, used in conjunction with HW event bank select register.

/sys/bus/coresight/devices/<memory_map>.stm/hwevent_select

Defined on file sysfs-bus-coresight-devices-stm

(RW) Gives access to the HW event block select register (STMHEBSR) in order to configure up to 256 channels. Used in conjunction with “hwevent_enable” register as described above.

/sys/bus/coresight/devices/<memory_map>.stm/port_enable

Defined on file sysfs-bus-coresight-devices-stm

(RW) Provides access to the stimulus port enable register (STMSPER). Used in conjunction with “port_select” described below.

/sys/bus/coresight/devices/<memory_map>.stm/port_select

Defined on file sysfs-bus-coresight-devices-stm

(RW) Used to determine which bank of stimulus port bit in register STMSPER (see above) apply to.

/sys/bus/coresight/devices/<memory_map>.stm/status

Defined on file sysfs-bus-coresight-devices-stm

(Read) List various control and status registers. The specific layout and content is driver specific.

/sys/bus/coresight/devices/<memory_map>.stm/traceid

Defined on file sysfs-bus-coresight-devices-stm

(RW) Holds the trace ID that will appear in the trace stream coming from this trace entity.

/sys/bus/coresight/devices/<memory_map>.tmc/buf_mode_preferred

Defined on file sysfs-bus-coresight-devices-tmc

(RW) Current Coresight TMC-ETR buffer mode selected. But user could only provide a mode which is supported for a given ETR device. This file is available only for TMC ETR devices.

/sys/bus/coresight/devices/<memory_map>.tmc/buf_modes_available

Defined on file sysfs-bus-coresight-devices-tmc

(Read) Shows all supported Coresight TMC-ETR buffer modes available for the users to configure explicitly. This file is available only for TMC ETR devices.

/sys/bus/coresight/devices/<memory_map>.tmc/buffer_size

Defined on file sysfs-bus-coresight-devices-tmc

(RW) Size of the trace buffer for TMC-ETR when used in SYSFS mode. Writable only for TMC-ETR configurations. The value should be aligned to the kernel pagesize.

/sys/bus/coresight/devices/<memory_map>.tmc/mgmt/ctl

Defined on file sysfs-bus-coresight-devices-tmc

(Read) Shows the value held by the TMC Control register. The value is read directly from HW register CTL, 0x020.

/sys/bus/coresight/devices/<memory_map>.tmc/mgmt/devid

Defined on file sysfs-bus-coresight-devices-tmc

(Read) Indicates the capabilities of the Coresight TMC. The value is read directly from the DEVID register, 0xFC8,

/sys/bus/coresight/devices/<memory_map>.tmc/mgmt/ffcr

Defined on file sysfs-bus-coresight-devices-tmc

(Read) Shows the value held by the TMC Formatter and Flush Control register. The value is read directly from HW register FFCR, 0x304.

/sys/bus/coresight/devices/<memory_map>.tmc/mgmt/ffsr

Defined on file sysfs-bus-coresight-devices-tmc

(Read) Shows the value held by the TMC Formatter and Flush Status register. The value is read directly from HW register FFSR, 0x300.

/sys/bus/coresight/devices/<memory_map>.tmc/mgmt/mode

Defined on file sysfs-bus-coresight-devices-tmc

(Read) Shows the value held by the TMC Mode register, which indicate the mode the device has been configured to enact. The The value is read directly from the MODE register, 0x028.

/sys/bus/coresight/devices/<memory_map>.tmc/mgmt/rrp

Defined on file sysfs-bus-coresight-devices-tmc

(Read) Shows the value held by the TMC RAM Read Pointer register that is used to read entries from the Trace RAM over the APB interface. The value is read directly from HW register RRP, 0x014.

/sys/bus/coresight/devices/<memory_map>.tmc/mgmt/rsz

Defined on file sysfs-bus-coresight-devices-tmc

(Read) Defines the size, in 32-bit words, of the local RAM buffer. The value is read directly from HW register RSZ, 0x004.

/sys/bus/coresight/devices/<memory_map>.tmc/mgmt/rwp

Defined on file sysfs-bus-coresight-devices-tmc

(Read) Shows the value held by the TMC RAM Write Pointer register that is used to sets the write pointer to write entries from the CoreSight bus into the Trace RAM. The value is read directly from HW register RWP, 0x018.

/sys/bus/coresight/devices/<memory_map>.tmc/mgmt/sts

Defined on file sysfs-bus-coresight-devices-tmc

(Read) Shows the value held by the TMC status register. The value is read directly from HW register STS, 0x00C.

/sys/bus/coresight/devices/<memory_map>.tmc/mgmt/trg

Defined on file sysfs-bus-coresight-devices-tmc

(Read) Similar to “trigger_cntr” above except that this value is read directly from HW register TRG, 0x01C.

/sys/bus/coresight/devices/<memory_map>.tmc/trigger_cntr

Defined on file sysfs-bus-coresight-devices-tmc

(RW) Disables write access to the Trace RAM by stopping the formatter after a defined number of words have been stored following the trigger event. Additional interface for this driver are expected to be added as it matures.

/sys/bus/coresight/devices/<tpdm-name>/cmb_mode

Defined on file sysfs-bus-coresight-devices-tpdm

(Write) Set the data collection mode of CMB tpdm. Continuous change creates CMB data set elements on every CMBCLK edge. Trace-on-change creates CMB data set elements only when a new data set element differs in value from the previous element in a CMB data set.

Accepts only one of the 2 values - 0 or 1. 0 : Continuous CMB collection mode. 1 : Trace-on-change CMB collection mode.

/sys/bus/coresight/devices/<tpdm-name>/cmb_msr/msr[0:31]

Defined on file sysfs-bus-coresight-devices-tpdm

(RW) Set/Get the MSR(mux select register) for the CMB subunit TPDM.

/sys/bus/coresight/devices/<tpdm-name>/cmb_patt/enable_ts

Defined on file sysfs-bus-coresight-devices-tpdm

(Write) Set the pattern timestamp of CMB tpdm. Read the pattern timestamp of CMB tpdm.

Accepts only one of the 2 values - 0 or 1. 0 : Disable CMB pattern timestamp. 1 : Enable CMB pattern timestamp.

/sys/bus/coresight/devices/<tpdm-name>/cmb_trig_patt/xpmr[0:1]

Defined on file sysfs-bus-coresight-devices-tpdm

(RW) Set/Get the mask of the trigger pattern for the CMB subunit TPDM.

/sys/bus/coresight/devices/<tpdm-name>/cmb_trig_patt/xpr[0:1]

Defined on file sysfs-bus-coresight-devices-tpdm

(RW) Set/Get the value of the trigger pattern for the CMB subunit TPDM.

/sys/bus/coresight/devices/<tpdm-name>/cmb_trig_ts

Defined on file sysfs-bus-coresight-devices-tpdm

(RW) Set/Get the trigger timestamp of the CMB for tpdm.

Accepts only one of the 2 values - 0 or 1. 0 : Set the CMB trigger type to false 1 : Set the CMB trigger type to true

/sys/bus/coresight/devices/<tpdm-name>/cmb_ts_all

Defined on file sysfs-bus-coresight-devices-tpdm

(RW) Read or write the status of timestamp upon all interface. Only value 0 and 1 can be written to this node. Set this node to 1 to request timestamp to all trace packet. Accepts only one of the 2 values - 0 or 1. 0 : Disable the timestamp of all trace packets. 1 : Enable the timestamp of all trace packets.

/sys/bus/coresight/devices/<tpdm-name>/dsb_edge/ctrl_idx

Defined on file sysfs-bus-coresight-devices-tpdm

(RW) Set/Get the index number of the edge detection for the DSB subunit TPDM. Since there are at most 256 edge detections, this value ranges from 0 to 255.

/sys/bus/coresight/devices/<tpdm-name>/dsb_edge/ctrl_mask

Defined on file sysfs-bus-coresight-devices-tpdm

Write a data to mask the edge detection corresponding to the index number. Before writing data to this sysfs file, “ctrl_idx” should be written first to configure the index number of the edge detection which needs to be masked.

Accepts only one of the 2 values - 0 or 1.

/sys/bus/coresight/devices/<tpdm-name>/dsb_edge/ctrl_val

Defined on file sysfs-bus-coresight-devices-tpdm

Write a data to control the edge detection corresponding to the index number. Before writing data to this sysfs file, “ctrl_idx” should be written first to configure the index number of the edge detection which needs to be controlled.

Accepts only one of the following values. 0 - Rising edge detection 1 - Falling edge detection 2 - Rising and falling edge detection (toggle detection)

/sys/bus/coresight/devices/<tpdm-name>/dsb_edge/edcmr[0:7]

Defined on file sysfs-bus-coresight-devices-tpdm

Read a set of the edge control mask of the DSB in TPDM.

/sys/bus/coresight/devices/<tpdm-name>/dsb_edge/edcr[0:15]

Defined on file sysfs-bus-coresight-devices-tpdm

Read a set of the edge control value of the DSB in TPDM.

/sys/bus/coresight/devices/<tpdm-name>/dsb_mode

Defined on file sysfs-bus-coresight-devices-tpdm

(RW) Set/Get the programming mode of the DSB for tpdm.

Accepts the value needs to be greater than 0. What data bits do is listed below. Bit[0:1] : Test mode control bit for choosing the inputs. Bit[3] : Set to 0 for low performance mode. Set to 1 for high performance mode. Bit[4:8] : Select byte lane for high performance mode.

/sys/bus/coresight/devices/<tpdm-name>/dsb_msr/msr[0:31]

Defined on file sysfs-bus-coresight-devices-tpdm

(RW) Set/Get the MSR(mux select register) for the DSB subunit TPDM.

/sys/bus/coresight/devices/<tpdm-name>/dsb_patt/enable_ts

Defined on file sysfs-bus-coresight-devices-tpdm

(Write) Set the pattern timestamp of DSB tpdm. Read the pattern timestamp of DSB tpdm.

Accepts only one of the 2 values - 0 or 1. 0 : Disable DSB pattern timestamp. 1 : Enable DSB pattern timestamp.

/sys/bus/coresight/devices/<tpdm-name>/dsb_patt/set_type

Defined on file sysfs-bus-coresight-devices-tpdm

(Write) Set the pattern type of DSB tpdm. Read the pattern type of DSB tpdm.

Accepts only one of the 2 values - 0 or 1. 0 : Set the DSB pattern type to value. 1 : Set the DSB pattern type to toggle.

/sys/bus/coresight/devices/<tpdm-name>/dsb_patt/tpmr[0:1]

Defined on file sysfs-bus-coresight-devices-tpdm

(RW) Set/Get the mask of the pattern for the CMB subunit TPDM.

/sys/bus/coresight/devices/<tpdm-name>/dsb_patt/tpmr[0:7]

Defined on file sysfs-bus-coresight-devices-tpdm

(RW) Set/Get the mask of the pattern for the DSB subunit TPDM.

/sys/bus/coresight/devices/<tpdm-name>/dsb_patt/tpr[0:1]

Defined on file sysfs-bus-coresight-devices-tpdm

(RW) Set/Get the value of the pattern for the CMB subunit TPDM.

/sys/bus/coresight/devices/<tpdm-name>/dsb_patt/tpr[0:7]

Defined on file sysfs-bus-coresight-devices-tpdm

(RW) Set/Get the value of the pattern for the DSB subunit TPDM.

/sys/bus/coresight/devices/<tpdm-name>/dsb_trig_patt/xpmr[0:7]

Defined on file sysfs-bus-coresight-devices-tpdm

(RW) Set/Get the mask of the trigger pattern for the DSB subunit TPDM.

/sys/bus/coresight/devices/<tpdm-name>/dsb_trig_patt/xpr[0:7]

Defined on file sysfs-bus-coresight-devices-tpdm

(RW) Set/Get the value of the trigger pattern for the DSB subunit TPDM.

/sys/bus/coresight/devices/<tpdm-name>/dsb_trig_ts

Defined on file sysfs-bus-coresight-devices-tpdm

(RW) Set/Get the trigger timestamp of the DSB for tpdm.

Accepts only one of the 2 values - 0 or 1. 0 : Set the DSB trigger type to false 1 : Set the DSB trigger type to true

/sys/bus/coresight/devices/<tpdm-name>/dsb_trig_type

Defined on file sysfs-bus-coresight-devices-tpdm

(RW) Set/Get the trigger type of the DSB for tpdm.

Accepts only one of the 2 values - 0 or 1. 0 : Set the DSB trigger type to false 1 : Set the DSB trigger type to true

/sys/bus/coresight/devices/<tpdm-name>/integration_test

Defined on file sysfs-bus-coresight-devices-tpdm

(Write) Run integration test for tpdm. Integration test will generate test data for tpdm. It can help to make sure that the trace path is enabled and the link configurations are fine.

Accepts only one of the 2 values - 1 or 2. 1 : Generate 64 bits data 2 : Generate 32 bits data

/sys/bus/coresight/devices/<tpdm-name>/reset_dataset

Defined on file sysfs-bus-coresight-devices-tpdm

(Write) Reset the dataset of the tpdm.

Accepts only one value - 1. 1 : Reset the dataset of the tpdm

/sys/bus/coresight/devices/etm<N>/addr_cmp_view

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Print the current settings for the selected address comparator.

/sys/bus/coresight/devices/etm<N>/addr_exlevel_s_ns

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) Set the Exception Level matching bits for secure and non-secure exception levels.

/sys/bus/coresight/devices/etm<N>/addr_idx

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) Select which address comparator or pair (of comparators) to work with.

/sys/bus/coresight/devices/etm<N>/addr_instdatatype

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) Controls what type of comparison the trace unit performs.

/sys/bus/coresight/devices/etm<N>/addr_range

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) Used to setup address range comparator values.

/sys/bus/coresight/devices/etm<N>/addr_single

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) Used to setup single address comparator values.

/sys/bus/coresight/devices/etm<N>/bb_ctrl

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) Controls which regions in the memory map are enabled to use branch broadcasting.

/sys/bus/coresight/devices/etm<N>/cntr_ctrl

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) Controls the operation of the selected counter.

/sys/bus/coresight/devices/etm<N>/cntr_idx

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) Select which counter unit to work with.

/sys/bus/coresight/devices/etm<N>/cntr_val

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) This sets or returns the current count value of the specific counter.

/sys/bus/coresight/devices/etm<N>/cntrldvr

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) This sets or returns the reload count value of the specific counter.

/sys/bus/coresight/devices/etm<N>/cpu

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) The CPU this tracing entity is associated with.

/sys/bus/coresight/devices/etm<N>/ctxid_idx

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) Select which context ID comparator to work with.

/sys/bus/coresight/devices/etm<N>/ctxid_masks

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) Mask for all 8 context ID comparator value registers (if implemented).

/sys/bus/coresight/devices/etm<N>/ctxid_pid

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) Get/Set the context ID comparator value to trigger on.

/sys/bus/coresight/devices/etm<N>/cyc_threshold

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) Sets the threshold value for cycle counting.

/sys/bus/coresight/devices/etm<N>/enable_source

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) Enable/disable tracing on this specific trace entiry. Enabling a source implies the source has been configured properly and a sink has been identidifed for it. The path of coresight components linking the source to the sink is configured and managed automatically by the coresight framework.

/sys/bus/coresight/devices/etm<N>/event

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) Controls the tracing of arbitrary events from bank 0 to 3.

/sys/bus/coresight/devices/etm<N>/event_instren

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) Controls the behavior of the events in bank 0 to 3.

/sys/bus/coresight/devices/etm<N>/event_ts

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) Controls the insertion of global timestamps in the trace streams.

/sys/bus/coresight/devices/etm<N>/event_vinst

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) Controls instruction trace filtering.

/sys/bus/coresight/devices/etm<N>/mgmt/trcauthstatus

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Print the content of the Authentication Status Register (0xFB8). The value is taken directly from the HW.

/sys/bus/coresight/devices/etm<N>/mgmt/trcconfig

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Print the content of the trace configuration register (0x010) as currently set by SW.

/sys/bus/coresight/devices/etm<N>/mgmt/trcdevarch

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Print the content of the Device Architecture Register (offset 0xFBC). The value is taken directly read from the HW.

/sys/bus/coresight/devices/etm<N>/mgmt/trcdevid

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Print the content of the Device ID Register (0xFC8). The value is taken directly from the HW.

/sys/bus/coresight/devices/etm<N>/mgmt/trcdevtype

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Print the content of the Device Type Register (0xFCC). The value is taken directly from the HW.

/sys/bus/coresight/devices/etm<N>/mgmt/trclsr

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Print the content of the SW Lock Status Register (0xFB4). The value is taken directly from the HW.

/sys/bus/coresight/devices/etm<N>/mgmt/trcoslsr

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Print the content of the OS Lock Status Register (0x304). The value it taken directly from the HW.

/sys/bus/coresight/devices/etm<N>/mgmt/trcpdcr

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Print the content of the Power Down Control Register (0x310). The value is taken directly from the HW.

/sys/bus/coresight/devices/etm<N>/mgmt/trcpdsr

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Print the content of the Power Down Status Register (0x314). The value is taken directly from the HW.

/sys/bus/coresight/devices/etm<N>/mgmt/trcpidr0

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Print the content of the Peripheral ID0 Register (0xFE0). The value is taken directly from the HW.

/sys/bus/coresight/devices/etm<N>/mgmt/trcpidr1

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Print the content of the Peripheral ID1 Register (0xFE4). The value is taken directly from the HW.

/sys/bus/coresight/devices/etm<N>/mgmt/trcpidr2

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Print the content of the Peripheral ID2 Register (0xFE8). The value is taken directly from the HW.

/sys/bus/coresight/devices/etm<N>/mgmt/trcpidr3

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Print the content of the Peripheral ID3 Register (0xFEC). The value is taken directly from the HW.

/sys/bus/coresight/devices/etm<N>/mgmt/trctraceid

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Print the content of the trace ID register (0x040).

/sys/bus/coresight/devices/etm<N>/mode

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) Controls various modes supported by this ETM, for example P0 instruction tracing, branch broadcast, cycle counting and context ID tracing.

/sys/bus/coresight/devices/etm<N>/nr_addr_cmp

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Indicates the number of address comparator pairs that are available for tracing.

/sys/bus/coresight/devices/etm<N>/nr_cntr

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Indicates the number of counters that are available for tracing.

/sys/bus/coresight/devices/etm<N>/nr_ext_inp

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Indicates how many external inputs are implemented.

/sys/bus/coresight/devices/etm<N>/nr_pe_cmp

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Indicates the number of PE comparator inputs that are available for tracing.

/sys/bus/coresight/devices/etm<N>/nr_resource

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Indicates the number of resource selection pairs that are available for tracing.

/sys/bus/coresight/devices/etm<N>/nr_ss_cmp

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Indicates the number of single-shot comparator controls that are available for tracing.

/sys/bus/coresight/devices/etm<N>/nrseqstate

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Indicates the number of sequencer states that are implemented.

/sys/bus/coresight/devices/etm<N>/ns_exlevel_vinst

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) In non-secure state, each bit controls whether instruction tracing is enabled for the corresponding exception level.

/sys/bus/coresight/devices/etm<N>/numcidc

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Indicates the number of Context ID comparators that are available for tracing.

/sys/bus/coresight/devices/etm<N>/numvmidc

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Indicates the number of VMID comparators that are available for tracing.

/sys/bus/coresight/devices/etm<N>/pe

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) Controls which PE to trace.

/sys/bus/coresight/devices/etm<N>/res_ctrl

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) Controls the selection of the resources in the trace unit.

/sys/bus/coresight/devices/etm<N>/res_idx

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) Select which resource selection unit to work with.

/sys/bus/coresight/devices/etm<N>/reset

Defined on file sysfs-bus-coresight-devices-etm4x

(Write) Cancels all configuration on a trace unit and set it back to its boot configuration.

/sys/bus/coresight/devices/etm<N>/s_exlevel_vinst

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) In Secure state, each bit controls whether instruction tracing is enabled for the corresponding exception level.

/sys/bus/coresight/devices/etm<N>/seq_event

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) Moves the sequencer state to a specific state.

/sys/bus/coresight/devices/etm<N>/seq_idx

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) Select which sequensor.

/sys/bus/coresight/devices/etm<N>/seq_reset_event

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) Moves the sequencer to state 0 when a programmed event occurs.

/sys/bus/coresight/devices/etm<N>/seq_state

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) Use this to set, or read, the sequencer state.

/sys/bus/coresight/devices/etm<N>/sshot_ctrl

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) Access the selected single shot control register.

/sys/bus/coresight/devices/etm<N>/sshot_idx

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) Select the single shot control register to access.

/sys/bus/coresight/devices/etm<N>/sshot_pe_ctrl

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) Access the selected single show PE comparator control register.

/sys/bus/coresight/devices/etm<N>/sshot_status

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Print the current value of the selected single shot status register.

/sys/bus/coresight/devices/etm<N>/syncfreq

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) Controls how often trace synchronization requests occur.

/sys/bus/coresight/devices/etm<N>/trcidr/trcidr0

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Returns the tracing capabilities of the trace unit (0x1E0). The value is taken directly from the HW.

/sys/bus/coresight/devices/etm<N>/trcidr/trcidr1

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Returns the tracing capabilities of the trace unit (0x1E4). The value is taken directly from the HW.

/sys/bus/coresight/devices/etm<N>/trcidr/trcidr10

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Returns the number of P1 right-hand keys that the trace unit can use (0x188). The value is taken directly from the HW.

/sys/bus/coresight/devices/etm<N>/trcidr/trcidr11

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Returns the number of special P1 right-hand keys that the trace unit can use (0x18C). The value is taken directly from the HW.

/sys/bus/coresight/devices/etm<N>/trcidr/trcidr12

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Returns the number of conditional P1 right-hand keys that the trace unit can use (0x190). The value is taken directly from the HW.

/sys/bus/coresight/devices/etm<N>/trcidr/trcidr13

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Returns the number of special conditional P1 right-hand keys that the trace unit can use (0x194). The value is taken directly from the HW.

/sys/bus/coresight/devices/etm<N>/trcidr/trcidr2

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Returns the maximum size of the data value, data address, VMID, context ID and instruction address in the trace unit (0x1E8). The value is taken directly from the HW.

/sys/bus/coresight/devices/etm<N>/trcidr/trcidr3

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Returns the value associated with various resources available to the trace unit. See the Trace Macrocell architecture specification for more details (0x1E8). The value is taken directly from the HW.

/sys/bus/coresight/devices/etm<N>/trcidr/trcidr4

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Returns how many resources the trace unit supports (0x1F0). The value is taken directly from the HW.

/sys/bus/coresight/devices/etm<N>/trcidr/trcidr5

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Returns how many resources the trace unit supports (0x1F4). The value is taken directly from the HW.

/sys/bus/coresight/devices/etm<N>/trcidr/trcidr8

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Returns the maximum speculation depth of the instruction trace stream. (0x180). The value is taken directly from the HW.

/sys/bus/coresight/devices/etm<N>/trcidr/trcidr9

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) Returns the number of P0 right-hand keys that the trace unit can use (0x184). The value is taken directly from the HW.

/sys/bus/coresight/devices/etm<N>/ts_source

Defined on file sysfs-bus-coresight-devices-etm4x

(Read) When FEAT_TRF is implemented, value of TRFCR_ELx.TS used for trace session. Otherwise -1 indicates an unknown time source. Check trcidr0.tssize to see if a global timestamp is available.

/sys/bus/coresight/devices/etm<N>/vinst_pe_cmp_start_stop

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) Access the start stop control register for PE input comparators.

/sys/bus/coresight/devices/etm<N>/vmid_idx

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) Select which virtual machine ID comparator to work with.

/sys/bus/coresight/devices/etm<N>/vmid_masks

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) Mask for all 8 virtual machine ID comparator value registers (if implemented).

/sys/bus/coresight/devices/etm<N>/vmid_val

Defined on file sysfs-bus-coresight-devices-etm4x

(RW) Get/Set the virtual machine ID comparator value to trigger on.

/sys/bus/coresight/devices/trbe<cpu>/align

Defined on file sysfs-bus-coresight-devices-trbe

(Read) Shows the TRBE write pointer alignment. This value is fetched from the TRBIDR register.

/sys/bus/coresight/devices/trbe<cpu>/flag

Defined on file sysfs-bus-coresight-devices-trbe

(Read) Shows if TRBE updates in the memory are with access and dirty flag updates as well. This value is fetched from the TRBIDR register.

/sys/bus/coresight/devices/ultra_smb<N>/enable_sink

Defined on file sysfs-bus-coresight-devices-ultra_smb

(RW) Add/remove a SMB device from a trace path. There can be multiple sources for a single SMB device.

/sys/bus/coresight/devices/ultra_smb<N>/mgmt/buf_size

Defined on file sysfs-bus-coresight-devices-ultra_smb

(RO) Shows the buffer size of each UltraSoc SMB device.

/sys/bus/coresight/devices/ultra_smb<N>/mgmt/buf_status

Defined on file sysfs-bus-coresight-devices-ultra_smb

(RO) Shows the value of UltraSoc SMB status register. BIT(0) is zero means buffer is empty.

/sys/bus/coresight/devices/ultra_smb<N>/mgmt/read_pos

Defined on file sysfs-bus-coresight-devices-ultra_smb

(RO) Shows the value of UltraSoc SMB Read Pointer register.

/sys/bus/coresight/devices/ultra_smb<N>/mgmt/write_pos

Defined on file sysfs-bus-coresight-devices-ultra_smb

(RO) Shows the value of UltraSoc SMB Write Pointer register.

/sys/bus/counter/devices/counterX/cascade_counts_enable

Defined on file sysfs-bus-counter

Indicates the cascading of Counts on Counter X.

Valid attribute values are boolean.

/sys/bus/counter/devices/counterX/cascade_counts_enable_component_id

/sys/bus/counter/devices/counterX/external_input_phase_clock_select_component_id

/sys/bus/counter/devices/counterX/countY/capture_component_id

/sys/bus/counter/devices/counterX/countY/ceiling_component_id

/sys/bus/counter/devices/counterX/countY/floor_component_id

/sys/bus/counter/devices/counterX/countY/count_mode_component_id

/sys/bus/counter/devices/counterX/countY/direction_component_id

/sys/bus/counter/devices/counterX/countY/enable_component_id

/sys/bus/counter/devices/counterX/countY/error_noise_component_id

/sys/bus/counter/devices/counterX/countY/prescaler_component_id

/sys/bus/counter/devices/counterX/countY/preset_component_id

/sys/bus/counter/devices/counterX/countY/preset_enable_component_id

/sys/bus/counter/devices/counterX/countY/signalZ_action_component_id

/sys/bus/counter/devices/counterX/countY/num_overflows_component_id

/sys/bus/counter/devices/counterX/signalY/cable_fault_component_id

/sys/bus/counter/devices/counterX/signalY/cable_fault_enable_component_id

/sys/bus/counter/devices/counterX/signalY/filter_clock_prescaler_component_id

/sys/bus/counter/devices/counterX/signalY/index_polarity_component_id

/sys/bus/counter/devices/counterX/signalY/polarity_component_id

/sys/bus/counter/devices/counterX/signalY/synchronous_mode_component_id

/sys/bus/counter/devices/counterX/signalY/frequency_component_id

Defined on file sysfs-bus-counter

Read-only attribute that indicates the component ID of the respective extension or Synapse.

/sys/bus/counter/devices/counterX/countY/capture

Defined on file sysfs-bus-counter

Historical capture of the Count Y count data.

/sys/bus/counter/devices/counterX/countY/ceiling

Defined on file sysfs-bus-counter

Count value ceiling for Count Y. This is the upper limit for the respective counter.

/sys/bus/counter/devices/counterX/countY/count

Defined on file sysfs-bus-counter

Count data of Count Y represented as a string.

/sys/bus/counter/devices/counterX/countY/count_mode

Defined on file sysfs-bus-counter

Count mode for channel Y. The ceiling and floor values for Count Y are used by the count mode where required. The following count modes are available:

normal:

Counting is continuous in either direction.

range limit:

An upper or lower limit is set, mimicking limit switches in the mechanical counterpart. The upper limit is set to the Count Y ceiling value, while the lower limit is set to the Count Y floor value. The counter freezes at count = ceiling when counting up, and at count = floor when counting down. At either of these limits, the counting is resumed only when the count direction is reversed.

non-recycle:

The counter is disabled whenever a counter overflow or underflow takes place. The counter is re-enabled when a new count value is loaded to the counter via a preset operation or direct write.

modulo-n:

A count value boundary is set between the Count Y floor value and the Count Y ceiling value. The counter is reset to the Count Y floor value at count = ceiling when counting up, while the counter is set to the Count Y ceiling value at count = floor when counting down; the counter does not freeze at the boundary points, but counts continuously throughout.

interrupt on terminal count:

The output signal is initially low, and will remain low until the counter reaches zero. The output signal then goes high and remains high until a new preset value is set.

hardware retriggerable one-shot:

The output signal is initially high. The output signal will go low by a trigger input signal, and will remain low until the counter reaches zero. The output will then go high and remain high until the next trigger. A trigger results in loading the counter to the preset value and setting the output signal low, thus starting the one-shot pulse.

rate generator:

The output signal is initially high. When the counter has decremented to 1, the output signal goes low for one clock pulse. The output signal then goes high again, the counter is reloaded to the preset value, and the process repeats in a periodic manner as such.

square wave mode:

The output signal is initially high.

If the initial count is even, the counter is decremented by two on succeeding clock pulses. When the count expires, the output signal changes value and the counter is reloaded to the preset value. The process repeats in periodic manner as such.

If the initial count is odd, the initial count minus one (an even number) is loaded and then is decremented by two on succeeding clock pulses. One clock pulse after the count expires, the output signal goes low and the counter is reloaded to the preset value minus one. Succeeding clock pulses decrement the count by two. When the count expires, the output goes high again and the counter is reloaded to the preset value minus one. The process repeats in a periodic manner as such.

software triggered strobe:

The output signal is initially high. When the count expires, the output will go low for one clock pulse and then go high again. The counting sequence is “triggered” by setting the preset value.

hardware triggered strobe:

The output signal is initially high. Counting is started by a trigger input signal. When the count expires, the output signal will go low for one clock pulse and then go high again. A trigger results in loading the counter to the preset value.

/sys/bus/counter/devices/counterX/countY/count_mode_available

/sys/bus/counter/devices/counterX/countY/error_noise_available

/sys/bus/counter/devices/counterX/countY/function_available

/sys/bus/counter/devices/counterX/countY/prescaler_available

/sys/bus/counter/devices/counterX/countY/signalZ_action_available

Defined on file sysfs-bus-counter

Discrete set of available values for the respective Count Y configuration are listed in this file. Values are delimited by newline characters.

/sys/bus/counter/devices/counterX/countY/direction

Defined on file sysfs-bus-counter

Read-only attribute that indicates the count direction of Count Y. Two count directions are available: forward and backward.

Some counter devices are able to determine the direction of their counting. For example, quadrature encoding counters can determine the direction of movement by evaluating the leading phase of the respective A and B quadrature encoding signals. This attribute exposes such count directions.

/sys/bus/counter/devices/counterX/countY/enable

Defined on file sysfs-bus-counter

Whether channel Y counter is enabled. Valid attribute values are boolean.

This attribute is intended to serve as a pause/unpause mechanism for Count Y. Suppose a counter device is used to count the total movement of a conveyor belt: this attribute allows an operator to temporarily pause the counter, service the conveyor belt, and then finally unpause the counter to continue where it had left off.

/sys/bus/counter/devices/counterX/countY/error_noise

Defined on file sysfs-bus-counter

Read-only attribute that indicates whether excessive noise is present at the channel Y counter inputs.

/sys/bus/counter/devices/counterX/countY/floor

Defined on file sysfs-bus-counter

Count value floor for Count Y. This is the lower limit for the respective counter.

/sys/bus/counter/devices/counterX/countY/function

Defined on file sysfs-bus-counter

Count function mode of Count Y; count function evaluation is triggered by conditions specified by the Count Y signalZ_action attributes. The following count functions are available:

increase:

Accumulated count is incremented.

decrease:

Accumulated count is decremented.

pulse-direction:

Rising edges on signal A updates the respective count. The input level of signal B determines direction.

quadrature x1 a:

If direction is forward, rising edges on quadrature pair signal A updates the respective count; if the direction is backward, falling edges on quadrature pair signal A updates the respective count. Quadrature encoding determines the direction.

quadrature x1 b:

If direction is forward, rising edges on quadrature pair signal B updates the respective count; if the direction is backward, falling edges on quadrature pair signal B updates the respective count. Quadrature encoding determines the direction.

quadrature x2 a:

Any state transition on quadrature pair signal A updates the respective count. Quadrature encoding determines the direction.

quadrature x2 b:

Any state transition on quadrature pair signal B updates the respective count. Quadrature encoding determines the direction.

quadrature x4:

Any state transition on either quadrature pair signals updates the respective count. Quadrature encoding determines the direction.

/sys/bus/counter/devices/counterX/countY/name

Defined on file sysfs-bus-counter

Read-only attribute that indicates the device-specific name of Count Y. If possible, this should match the name of the respective channel as it appears in the device datasheet.

/sys/bus/counter/devices/counterX/countY/num_overflows

Defined on file sysfs-bus-counter

This attribute indicates the number of overflows of count Y.

/sys/bus/counter/devices/counterX/countY/prescaler

Defined on file sysfs-bus-counter

Configure the prescaler value associated with Count Y. On the FlexTimer, the counter clock source passes through a prescaler (i.e. a counter). This acts like a clock divider.

/sys/bus/counter/devices/counterX/countY/preset

Defined on file sysfs-bus-counter

If the counter device supports preset registers -- registers used to load counter channels to a set count upon device-defined preset operation trigger events -- the preset count for channel Y is provided by this attribute.

/sys/bus/counter/devices/counterX/countY/preset_enable

Defined on file sysfs-bus-counter

Whether channel Y counter preset operation is enabled. Valid attribute values are boolean.

/sys/bus/counter/devices/counterX/countY/signalZ_action

Defined on file sysfs-bus-counter

Action mode of Count Y for Signal Z. This attribute indicates the condition of Signal Z that triggers the count function evaluation for Count Y. The following action modes are available:

none:

Signal does not trigger the count function. In Pulse-Direction count function mode, this Signal is evaluated as Direction.

rising edge:

Low state transitions to high state.

falling edge:

High state transitions to low state.

both edges:

Any state transition.

/sys/bus/counter/devices/counterX/countY/spike_filter_ns

Defined on file sysfs-bus-counter

If the counter device supports programmable spike filter this attribute indicates the value in nanoseconds where noise pulses shorter or equal to configured value are ignored. Value 0 means filter is disabled.

/sys/bus/counter/devices/counterX/events_queue_size

Defined on file sysfs-bus-counter

Size of the Counter events queue in number of struct counter_event data structures. The number of elements will be rounded-up to a power of 2.

/sys/bus/counter/devices/counterX/external_input_phase_clock_select

Defined on file sysfs-bus-counter

Selects the external clock pin for phase counting mode of Counter X.

MTCLKA-MTCLKB:

MTCLKA and MTCLKB pins are selected for the external phase clock.

MTCLKC-MTCLKD:

MTCLKC and MTCLKD pins are selected for the external phase clock.

/sys/bus/counter/devices/counterX/external_input_phase_clock_select_available

Defined on file sysfs-bus-counter

Discrete set of available values for the respective device configuration are listed in this file.

/sys/bus/counter/devices/counterX/name

Defined on file sysfs-bus-counter

Read-only attribute that indicates the device-specific name of the Counter. This should match the name of the device as it appears in its respective datasheet.

/sys/bus/counter/devices/counterX/num_counts

Defined on file sysfs-bus-counter

Read-only attribute that indicates the total number of Counts belonging to the Counter.

/sys/bus/counter/devices/counterX/num_signals

Defined on file sysfs-bus-counter

Read-only attribute that indicates the total number of Signals belonging to the Counter.

/sys/bus/counter/devices/counterX/signalY/cable_fault

Defined on file sysfs-bus-counter

Read-only attribute that indicates whether a differential encoder cable fault (not connected or loose wires) is detected for the respective channel of Signal Y. Valid attribute values are boolean. Detection must first be enabled via the corresponding cable_fault_enable attribute.

/sys/bus/counter/devices/counterX/signalY/cable_fault_enable

Defined on file sysfs-bus-counter

Whether detection of differential encoder cable faults for the respective channel of Signal Y is enabled. Valid attribute values are boolean.

/sys/bus/counter/devices/counterX/signalY/filter_clock_prescaler

Defined on file sysfs-bus-counter

Filter clock factor for input Signal Y. This prescaler value affects the inputs of both quadrature pair signals.

/sys/bus/counter/devices/counterX/signalY/frequency

Defined on file sysfs-bus-counter

Read-only attribute that indicates the signal Y frequency, in Hz.

/sys/bus/counter/devices/counterX/signalY/index_polarity

Defined on file sysfs-bus-counter

Active level of index input Signal Y; irrelevant in non-synchronous load mode.

/sys/bus/counter/devices/counterX/signalY/index_polarity_available

/sys/bus/counter/devices/counterX/signalY/synchronous_mode_available

Defined on file sysfs-bus-counter

Discrete set of available values for the respective Signal Y configuration are listed in this file.

/sys/bus/counter/devices/counterX/signalY/name

Defined on file sysfs-bus-counter

Read-only attribute that indicates the device-specific name of Signal Y. If possible, this should match the name of the respective signal as it appears in the device datasheet.

/sys/bus/counter/devices/counterX/signalY/polarity

Defined on file sysfs-bus-counter

Active level of Signal Y. The following polarity values are available:

positive:

Signal high state considered active level (rising edge).

negative:

Signal low state considered active level (falling edge).

/sys/bus/counter/devices/counterX/signalY/signal

Defined on file sysfs-bus-counter

Signal level state of Signal Y. The following signal level states are available:

low:

Low level state.

high:

High level state.

/sys/bus/counter/devices/counterX/signalY/synchronous_mode

Defined on file sysfs-bus-counter

Configure the counter associated with Signal Y for non-synchronous or synchronous load mode. Synchronous load mode cannot be selected in non-quadrature (Pulse-Direction) clock mode.

non-synchronous:

A logic low level is the active level at this index input. The index function (as enabled via preset_enable) is performed directly on the active level of the index input.

synchronous:

Intended for interfacing with encoder Index output in quadrature clock mode. The active level is configured via index_polarity. The index function (as enabled via preset_enable) is performed synchronously with the quadrature clock on the active level of the index input.

/sys/bus/css/devices/.../driver_override

Defined on file sysfs-bus-css

This file allows the driver for a device to be specified. When specified, only a driver with a name matching the value written to driver_override will have an opportunity to bind to the device. The override is specified by writing a string to the driver_override file (echo vfio-ccw > driver_override) and may be cleared with an empty string (echo > driver_override). This returns the device to standard matching rules binding. Writing to driver_override does not automatically unbind the device from its current driver or make any attempt to automatically load the specified driver. If no driver with a matching name is currently loaded in the kernel, the device will not bind to any driver. This also allows devices to opt-out of driver binding using a driver_override name such as “none”. Only a single driver may be specified in the override, there is no support for parsing delimiters.

Note that unlike the mechanism of the same name for pci, this file does not allow to override basic matching rules. I.e., the driver must still match the subchannel type of the device.

/sys/bus/css/devices/.../modalias

Defined on file sysfs-bus-css

Contains the module alias as reported with uevents. It is of the format css:t<type> and present for all subchannel types.

/sys/bus/css/devices/.../type

Defined on file sysfs-bus-css

Contains the subchannel type, as reported by the hardware. This attribute is present for all subchannel types.

/sys/bus/css/drivers/io_subchannel/.../chpids

Defined on file sysfs-bus-css

Contains the ids of the channel paths used by this subchannel, as reported by the channel subsystem during subchannel recognition.

Note: This is an I/O-subchannel specific attribute.

Users: s390-tools, HAL

/sys/bus/css/drivers/io_subchannel/.../pimpampom

Defined on file sysfs-bus-css

Contains the PIM/PAM/POM values, as reported by the channel subsystem when last queried by the common I/O layer (this implies that this attribute is not necessarily in sync with the values current in the channel subsystem).

Note: This is an I/O-subchannel specific attribute.

Users: s390-tools, HAL

/sys/bus/cxl/devices/*/devtype

Defined on file sysfs-bus-cxl

(RO) CXL device objects export the devtype attribute which mirrors the same value communicated in the DEVTYPE environment variable for uevents for devices on the “cxl” bus.

/sys/bus/cxl/devices/*/modalias

Defined on file sysfs-bus-cxl

(RO) CXL device objects export the modalias attribute which mirrors the same value communicated in the MODALIAS environment variable for uevents for devices on the “cxl” bus.

/sys/bus/cxl/devices/decoderX.Y

Defined on file sysfs-bus-cxl

(RO) CXL decoder objects are enumerated from either a platform firmware description, or a CXL HDM decoder register set in a PCIe device (see CXL 2.0 section 8.2.5.12 CXL HDM Decoder Capability Structure). The ‘X’ in decoderX.Y represents the cxl_port container of this decoder, and ‘Y’ represents the instance id of a given decoder resource.

/sys/bus/cxl/devices/decoderX.Y/cap_{pmem,ram,type2,type3}

Defined on file sysfs-bus-cxl

(RO) When a CXL decoder is of devtype “cxl_decoder_root”, it represents a fixed memory window identified by platform firmware. A fixed window may only support a subset of memory types. The ‘cap_*’ attributes indicate whether persistent memory, volatile memory, accelerator memory, and / or expander memory may be mapped behind this decoder’s memory window.

/sys/bus/cxl/devices/decoderX.Y/create_{pmem,ram}_region

Defined on file sysfs-bus-cxl

(RW) Write a string in the form ‘regionZ’ to start the process of defining a new persistent, or volatile memory region (interleave-set) within the decode range bounded by root decoder ‘decoderX.Y’. The value written must match the current value returned from reading this attribute. An atomic compare exchange operation is done on write to assign the requested id to a region and allocate the region-id for the next creation attempt. EBUSY is returned if the region name written does not match the current cached value.

/sys/bus/cxl/devices/decoderX.Y/delete_region

Defined on file sysfs-bus-cxl

(WO) Write a string in the form ‘regionZ’ to delete that region, provided it is currently idle / not bound to a driver.

/sys/bus/cxl/devices/decoderX.Y/dpa_resource

Defined on file sysfs-bus-cxl

(RO) When a CXL decoder is of devtype “cxl_decoder_endpoint”, and its ‘dpa_size’ attribute is non-zero, this attribute indicates the device physical address (DPA) base address of the allocation.

/sys/bus/cxl/devices/decoderX.Y/dpa_size

Defined on file sysfs-bus-cxl

(RW) When a CXL decoder is of devtype “cxl_decoder_endpoint” it translates from a host physical address range, to a device local address range. The range, base address plus length in bytes, of DPA allocated to this decoder is conveyed in these 2 attributes. Allocations can be mutated as long as the decoder is in the disabled state. A write to ‘dpa_size’ releases the previous DPA allocation and then attempts to allocate from the free capacity in the device partition referred to by ‘decoderX.Y/mode’. Allocate and free requests can only be performed on the highest instance number disabled decoder with non-zero size. I.e. allocations are enforced to occur in increasing ‘decoderX.Y/id’ order and frees are enforced to occur in decreasing ‘decoderX.Y/id’ order.

/sys/bus/cxl/devices/decoderX.Y/interleave_granularity

Defined on file sysfs-bus-cxl

(RO) The number of consecutive bytes of host physical address space this decoder claims at address N before the decode rotates to the next target in the interleave at address N + interleave_granularity (assuming N is aligned to interleave_granularity).

/sys/bus/cxl/devices/decoderX.Y/interleave_ways

Defined on file sysfs-bus-cxl

(RO) The number of targets across which this decoder’s host physical address (HPA) memory range is interleaved. The device maps every Nth block of HPA (of size == ‘interleave_granularity’) to consecutive DPA addresses. The decoder’s position in the interleave is determined by the device’s (endpoint or switch) switch ancestry. For root decoders their interleave is specified by platform firmware and they only specify a downstream target order for host bridges.

/sys/bus/cxl/devices/decoderX.Y/locked

Defined on file sysfs-bus-cxl

(RO) CXL HDM decoders have the capability to lock the configuration until the next device reset. For decoders of devtype “cxl_decoder_root” there is no standard facility to unlock them. For decoders of devtype “cxl_decoder_switch” a secondary bus reset, of the PCIe bridge that provides the bus for this decoders uport, unlocks / resets the decoder.

/sys/bus/cxl/devices/decoderX.Y/mode

Defined on file sysfs-bus-cxl

(RW) When a CXL decoder is of devtype “cxl_decoder_endpoint” it translates from a host physical address range, to a device local address range. Device-local address ranges are further split into a ‘ram’ (volatile memory) range and ‘pmem’ (persistent memory) range. The ‘mode’ attribute emits one of ‘ram’, ‘pmem’, ‘mixed’, or ‘none’. The ‘mixed’ indication is for error cases when a decoder straddles the volatile/persistent partition boundary, and ‘none’ indicates the decoder is not actively decoding, or no DPA allocation policy has been set.

‘mode’ can be written, when the decoder is in the ‘disabled’ state, with either ‘ram’ or ‘pmem’ to set the boundaries for the next allocation.

/sys/bus/cxl/devices/decoderX.Y/qos_class

Defined on file sysfs-bus-cxl

(RO) For CXL host platforms that support “QoS Telemmetry” this root-decoder-only attribute conveys a platform specific cookie that identifies a QoS performance class for the CXL Window. This class-id can be compared against a similar “qos_class” published for each memory-type that an endpoint supports. While it is not required that endpoints map their local memory-class to a matching platform class, mismatches are not recommended and there are platform specific side-effects that may result.

/sys/bus/cxl/devices/decoderX.Y/target_list

Defined on file sysfs-bus-cxl

(RO) Display a comma separated list of the current decoder target configuration. The list is ordered by the current configured interleave order of the decoder’s dport instances. Each entry in the list is a dport id.

/sys/bus/cxl/devices/decoderX.Y/target_type

Defined on file sysfs-bus-cxl

(RO) When a CXL decoder is of devtype “cxl_decoder_switch”, it can optionally decode either accelerator memory (type-2) or expander memory (type-3). The ‘target_type’ attribute indicates the current setting which may dynamically change based on what memory regions are activated in this decode hierarchy.

/sys/bus/cxl/devices/decoderX.Y/{start,size}

Defined on file sysfs-bus-cxl

(RO) The ‘start’ and ‘size’ attributes together convey the physical address base and number of bytes mapped in the decoder’s decode window. For decoders of devtype “cxl_decoder_root” the address range is fixed. For decoders of devtype “cxl_decoder_switch” the address is bounded by the decode range of the cxl_port ancestor of the decoder’s cxl_port, and dynamically updates based on the active memory regions in that address space.

/sys/bus/cxl/devices/endpointX/CDAT

Defined on file sysfs-bus-cxl

(RO) If this sysfs entry is not present no DOE mailbox was found to support CDAT data. If it is present and the length of the data is 0 reading the CDAT data failed. Otherwise the CDAT data is reported.

/sys/bus/cxl/devices/memX/firmware/

Defined on file sysfs-bus-cxl

(RW) Firmware uploader mechanism. The different files under this directory can be used to upload and activate new firmware for CXL devices. The interfaces under this are documented in sysfs-class-firmware.

/sys/bus/cxl/devices/memX/firmware_version

Defined on file sysfs-bus-cxl

(RO) “FW Revision” string as reported by the Identify Memory Device Output Payload in the CXL-2.0 specification.

/sys/bus/cxl/devices/memX/numa_node

Defined on file sysfs-bus-cxl

(RO) If NUMA is enabled and the platform has affinitized the host PCI device for this memory device, emit the CPU node affinity for this device.

/sys/bus/cxl/devices/memX/pmem/qos_class

Defined on file sysfs-bus-cxl

(RO) For CXL host platforms that support “QoS Telemmetry” this attribute conveys a comma delimited list of platform specific cookies that identifies a QoS performance class for the persistent partition of the CXL mem device. These class-ids can be compared against a similar “qos_class” published for a root decoder. While it is not required that the endpoints map their local memory-class to a matching platform class, mismatches are not recommended and there are platform specific performance related side-effects that may result. First class-id is displayed.

/sys/bus/cxl/devices/memX/pmem/size

Defined on file sysfs-bus-cxl

(RO) “Persistent Only Capacity” as bytes. Represents the identically named field in the Identify Memory Device Output Payload in the CXL-2.0 specification.

/sys/bus/cxl/devices/memX/ram/qos_class

Defined on file sysfs-bus-cxl

(RO) For CXL host platforms that support “QoS Telemmetry” this attribute conveys a comma delimited list of platform specific cookies that identifies a QoS performance class for the volatile partition of the CXL mem device. These class-ids can be compared against a similar “qos_class” published for a root decoder. While it is not required that the endpoints map their local memory-class to a matching platform class, mismatches are not recommended and there are platform specific performance related side-effects that may result. First class-id is displayed.

/sys/bus/cxl/devices/memX/ram/size

Defined on file sysfs-bus-cxl

(RO) “Volatile Only Capacity” as bytes. Represents the identically named field in the Identify Memory Device Output Payload in the CXL-2.0 specification.

/sys/bus/cxl/devices/memX/security/sanitize

Defined on file sysfs-bus-cxl

(WO) Write a boolean ‘true’ string value to this attribute to sanitize the device to securely re-purpose or decommission it. This is done by ensuring that all user data and meta-data, whether it resides in persistent capacity, volatile capacity, or the LSA, is made permanently unavailable by whatever means is appropriate for the media type. This functionality requires the device to be disabled, that is, not actively decoding any HPA ranges. This permits avoiding explicit global CPU cache management, relying instead for it to be done when a region transitions between software programmed and hardware committed states. If this file is not present, then there is no hardware support for the operation.

What /sys/bus/cxl/devices/memX/security/erase (WO) Write a boolean ‘true’ string value to this attribute to secure erase user data by changing the media encryption keys for all user data areas of the device. This functionality requires the device to be disabled, that is, not actively decoding any HPA ranges. This permits avoiding explicit global CPU cache management, relying instead for it to be done when a region transitions between software programmed and hardware committed states. If this file is not present, then there is no hardware support for the operation.

/sys/bus/cxl/devices/memX/security/state

Defined on file sysfs-bus-cxl

(RO) Reading this file will display the CXL security state for that device. Such states can be: ‘disabled’, ‘sanitize’, when a sanitization is currently underway; or those available only for persistent memory: ‘locked’, ‘unlocked’ or ‘frozen’. This sysfs entry is select/poll capable from userspace to notify upon completion of a sanitize operation.

/sys/bus/cxl/devices/memX/serial

Defined on file sysfs-bus-cxl

(RO) 64-bit serial number per the PCIe Device Serial Number capability. Mandatory for CXL devices, see CXL 2.0 8.1.12.2 Memory Device PCIe Capabilities and Extended Capabilities.

/sys/bus/cxl/devices/memX/trigger_poison_list

Defined on file sysfs-bus-cxl

(WO) When a boolean ‘true’ is written to this attribute the memdev driver retrieves the poison list from the device. The list consists of addresses that are poisoned, or would result in poison if accessed, and the source of the poison. This attribute is only visible for devices supporting the capability. The retrieved errors are logged as kernel events when cxl_poison event tracing is enabled.

/sys/bus/cxl/devices/portX/decoders_committed

Defined on file sysfs-bus-cxl

(RO) A memory device is considered active when any of its decoders are in the “committed” state (See CXL 3.0 8.2.4.19.7 CXL HDM Decoder n Control Register). Hotplug and destructive operations like “sanitize” are blocked while device is actively decoding a Host Physical Address range. Note that this number may be elevated without any regionX objects active or even enumerated, as this may be due to decoders established by platform firwmare or a previous kernel (kexec).

/sys/bus/cxl/devices/portX/dportY

Defined on file sysfs-bus-cxl

(RO) CXL port objects are enumerated from either a platform firmware device (ACPI0017 and ACPI0016) or PCIe switch upstream port with CXL component registers. The ‘dportY’ symlink identifies one or more downstream ports that the upstream port may target in its decode of CXL memory resources. The ‘Y’ integer reflects the hardware port unique-id used in the hardware decoder target list.

/sys/bus/cxl/devices/portX/uport

Defined on file sysfs-bus-cxl

(RO) CXL port objects are enumerated from either a platform firmware device (ACPI0017 and ACPI0016) or PCIe switch upstream port with CXL component registers. The ‘uport’ symlink connects the CXL portX object to the device that published the CXL port capability.

/sys/bus/cxl/devices/regionZ/accessY/read_bandwidth

Defined on file sysfs-bus-cxl

(RO) The aggregated read or write bandwidth of the region. The number is the accumulated read or write bandwidth of all CXL memory devices that contributes to the region in MB/s. It is identical data that should appear in /sys/devices/system/node/nodeX/accessY/initiators/read_bandwidth or /sys/devices/system/node/nodeX/accessY/initiators/write_bandwidth. See stable/sysfs-devices-node. access0 provides the number to the closest initiator and access1 provides the number to the closest CPU.

/sys/bus/cxl/devices/regionZ/accessY/read_latency

Defined on file sysfs-bus-cxl

(RO) The read or write latency of the region. The number is the worst read or write latency of all CXL memory devices that contributes to the region in nanoseconds. It is identical data that should appear in /sys/devices/system/node/nodeX/accessY/initiators/read_latency or /sys/devices/system/node/nodeX/accessY/initiators/write_latency. See stable/sysfs-devices-node. access0 provides the number to the closest initiator and access1 provides the number to the closest CPU.

/sys/bus/cxl/devices/regionZ/commit

Defined on file sysfs-bus-cxl

(RW) Write a boolean ‘true’ string value to this attribute to trigger the region to transition from the software programmed state to the actively decoding in hardware state. The commit operation in addition to validating that the region is in proper configured state, validates that the decoders are being committed in spec mandated order (last committed decoder id + 1), and checks that the hardware accepts the commit request. Reading this value indicates whether the region is committed or not.

/sys/bus/cxl/devices/regionZ/interleave_granularity

Defined on file sysfs-bus-cxl

(RW) Set the number of consecutive bytes each device in the interleave set will claim. The possible interleave granularity values are determined by the CXL spec and the participating devices.

/sys/bus/cxl/devices/regionZ/interleave_ways

Defined on file sysfs-bus-cxl

(RW) Configures the number of devices participating in the region is set by writing this value. Each device will provide 1/interleave_ways of storage for the region.

/sys/bus/cxl/devices/regionZ/mode

Defined on file sysfs-bus-cxl

(RO) The mode of a region is established at region creation time and dictates the mode of the endpoint decoder that comprise the region. For more details on the possible modes see /sys/bus/cxl/devices/decoderX.Y/mode

/sys/bus/cxl/devices/regionZ/resource

Defined on file sysfs-bus-cxl

(RO) A region is a contiguous partition of a CXL root decoder address space. Region capacity is allocated by writing to the size attribute, the resulting physical address space determined by the driver is reflected here. It is therefore not useful to read this before writing a value to the size attribute.

/sys/bus/cxl/devices/regionZ/size

Defined on file sysfs-bus-cxl

(RW) System physical address space to be consumed by the region. When written trigger the driver to allocate space out of the parent root decoder’s address space. When read the size of the address space is reported and should match the span of the region’s resource attribute. Size shall be set after the interleave configuration parameters. Once set it cannot be changed, only freed by writing 0. The kernel makes no guarantees that data is maintained over an address space freeing event, and there is no guarantee that a free followed by an allocate results in the same address being allocated.

/sys/bus/cxl/devices/regionZ/target[0..N]

Defined on file sysfs-bus-cxl

(RW) Write an endpoint decoder object name to ‘targetX’ where X is the intended position of the endpoint device in the region interleave and N is the ‘interleave_ways’ setting for the region. ENXIO is returned if the write results in an impossible to map decode scenario, like the endpoint is unreachable at that position relative to the root decoder interleave. EBUSY is returned if the position in the region is already occupied, or if the region is not in a state to accept interleave configuration changes. EINVAL is returned if the object name is not an endpoint decoder. Once all positions have been successfully written a final validation for decode conflicts is performed before activating the region.

/sys/bus/cxl/devices/regionZ/uuid

Defined on file sysfs-bus-cxl

(RW) Write a unique identifier for the region. This field must be set for persistent regions and it must not conflict with the UUID of another region. For volatile ram regions this attribute is a read-only empty string.

/sys/bus/cxl/devices/{port,endpoint}X/parent_dport

Defined on file sysfs-bus-cxl

(RO) CXL port objects are instantiated for each upstream port in a CXL/PCIe switch, and for each endpoint to map the corresponding memory device into the CXL port hierarchy. When a descendant CXL port (switch or endpoint) is enumerated it is useful to know which ‘dport’ object in the parent CXL port routes to this descendant. The ‘parent_dport’ symlink points to the device representing the downstream port of a CXL switch that routes to {port,endpoint}X.

/sys/bus/cxl/flush

Defined on file sysfs-bus-cxl

(WO) If userspace manually unbinds a port the kernel schedules all descendant memdevs for unbind. Writing ‘1’ to this attribute flushes that work.

/sys/bus/dax/devices/daxX.Y/align

Defined on file sysfs-bus-dax

(RW) Provides a way to specify an alignment for a dax device. Values allowed are constrained by the physical address ranges that back the dax device, and also by arch requirements.

/sys/bus/dax/devices/daxX.Y/mapping

Defined on file sysfs-bus-dax

(WO) Provides a way to allocate a mapping range under a dax device. Specified in the format <start>-<end>.

/sys/bus/dax/devices/daxX.Y/mapping[0..N]/start

/sys/bus/dax/devices/daxX.Y/mapping[0..N]/end

/sys/bus/dax/devices/daxX.Y/mapping[0..N]/page_offset

Defined on file sysfs-bus-dax

(RO) A dax device may have multiple constituent discontiguous address ranges. These are represented by the different ‘mappingX’ subdirectories. The ‘start’ attribute indicates the start physical address for the given range. The ‘end’ attribute indicates the end physical address for the given range. The ‘page_offset’ attribute indicates the offset of the current range in the dax device.

/sys/bus/dax/devices/daxX.Y/memmap_on_memory

Defined on file sysfs-bus-dax

(RW) Control the memmap_on_memory setting if the dax device were to be hotplugged as system memory. This determines whether the ‘altmap’ for the hotplugged memory will be placed on the device being hotplugged (memmap_on_memory=1) or if it will be placed on regular memory (memmap_on_memory=0). This attribute must be set before the device is handed over to the ‘kmem’ driver (i.e. hotplugged into system-ram). Additionally, this depends on CONFIG_MHP_MEMMAP_ON_MEMORY, and a globally enabled memmap_on_memory parameter for memory_hotplug. This is typically set on the kernel command line - memory_hotplug.memmap_on_memory set to ‘true’ or ‘force’.”

/sys/bus/dax/devices/daxX.Y/numa_node

Defined on file sysfs-bus-dax

(RO) If NUMA is enabled and the platform has affinitized the backing device for this dax device, emit the CPU node affinity for this device.

/sys/bus/dax/devices/daxX.Y/resource

Defined on file sysfs-bus-dax

(RO) The resource attribute indicates the starting physical address of a dax device. In case of a device with multiple constituent ranges, it indicates the starting address of the first range.

/sys/bus/dax/devices/daxX.Y/size

Defined on file sysfs-bus-dax

(RW) The size attribute indicates the total size of a dax device. For creating subdivided dax devices, or for resizing an existing device, the new size can be written to this as part of the reconfiguration process.

/sys/bus/dax/devices/daxX.Y/target_node

Defined on file sysfs-bus-dax

(RO) The target-node attribute is the Linux numa-node that a device-dax instance may create when it is online. Prior to being online the device’s ‘numa_node’ property reflects the closest online cpu node which is the typical expectation of a device ‘numa_node’. Once it is online it becomes its own distinct numa node.

/sys/bus/dfl/devices/dfl_dev.X/feature_id

Defined on file sysfs-bus-dfl

Read-only. It returns feature identifier local to its DFL FIU type.

Format: 0x%x

/sys/bus/dfl/devices/dfl_dev.X/fec_mode

Defined on file sysfs-bus-dfl-devices-n3000-nios

Read-only. Returns the FEC mode of the 25G links of the ethernet retimers configured by Nios firmware. “rs” for Reed Solomon FEC, “kr” for Fire Code FEC, “no” for NO FEC. “not supported” if the FEC mode setting is not supported, this happens when the Nios firmware version major < 3, or no link is configured to 25G. Format: string

/sys/bus/dfl/devices/dfl_dev.X/infX_cal_fail

Defined on file sysfs-bus-dfl-devices-emif

Read-only. It indicates if the calibration failed on this memory interface. “1” for calibration failure, “0” for OK. Format: %u

/sys/bus/dfl/devices/dfl_dev.X/infX_clear

Defined on file sysfs-bus-dfl-devices-emif

Write-only. Writing “1” to this file will zero out all memory data in this memory interface. Writing of other values is invalid. Format: %u

/sys/bus/dfl/devices/dfl_dev.X/infX_init_done

Defined on file sysfs-bus-dfl-devices-emif

Read-only. It indicates if the initialization completed on this memory interface. “1” for initialization complete, “0” for not yet. Format: %u

/sys/bus/dfl/devices/dfl_dev.X/nios_fw_version

Defined on file sysfs-bus-dfl-devices-n3000-nios

Read-only. Returns the version of the Nios firmware in the FPGA. Its format is “major.minor.patch”. Format: %x.%x.%x

/sys/bus/dfl/devices/dfl_dev.X/retimer_A_mode

Defined on file sysfs-bus-dfl-devices-n3000-nios

Read-only. Returns the enumeration value of the working mode of the retimer A configured by the Nios firmware. The value is read out from shared registers filled by the Nios firmware. Now the values could be:

  • “0”: Reset

  • “1”: 4x10G

  • “2”: 4x25G

  • “3”: 2x25G

  • “4”: 2x25G+2x10G

  • “5”: 1x25G

If the Nios firmware is updated in future to support more retimer modes, more enumeration value is expected. Format: 0x%x

/sys/bus/dfl/devices/dfl_dev.X/retimer_B_mode

Defined on file sysfs-bus-dfl-devices-n3000-nios

Read-only. Returns the enumeration value of the working mode of the retimer B configured by the Nios firmware. The value format is the same as retimer_A_mode.

/sys/bus/dfl/devices/dfl_dev.X/type

Defined on file sysfs-bus-dfl

Read-only. It returns type of DFL FIU of the device. Now DFL supports 2 FIU types, 0 for FME, 1 for PORT.

Format: 0x%x

/sys/bus/drivers/corsair/<dev>/current_profile

Defined on file sysfs-driver-hid-corsair

Get/set the current selected profile. Values are from 1 to 3.

/sys/bus/drivers/corsair/<dev>/macro_mode

Defined on file sysfs-driver-hid-corsair

Get/set the current playback mode. “SW” for software mode where G-keys triggers their regular key codes. “HW” for hardware playback mode where the G-keys play their macro from the on-board memory.

/sys/bus/event_source/devices/<dev>/caps

Defined on file sysfs-bus-event_source-devices-caps

Attribute group to describe the capabilities exposed for a particular pmu. Each attribute of this group can expose information specific to a PMU, say pmu_name, so that userspace can understand some of the feature which the platform specific PMU supports.

One of the example available capability in supported platform like Intel is pmu_name, which exposes underlying CPU name known to the PMU driver.

Example output in powerpc: grep . /sys/bus/event_source/devices/cpu/caps/* /sys/bus/event_source/devices/cpu/caps/pmu_name:POWER9

The “branch_counter_nr” in the supported platform exposes the maximum number of counters which can be shown in the u64 counters of PERF_SAMPLE_BRANCH_COUNTERS, while the “branch_counter_width” exposes the width of each counter. Both of them can be used by the perf tool to parse the logged counters in each branch.

/sys/bus/event_source/devices/<dev>/format

Defined on file sysfs-bus-event_source-devices-format

Attribute group to describe the magic bits that go into perf_event_attr::config[012] for a particular pmu. Each attribute of this group defines the ‘hardware’ bitmask we want to export, so that userspace can deal with sane name/value pairs.

Userspace must be prepared for the possibility that attributes define overlapping bit ranges. For example:

attr1 = 'config:0-23'
attr2 = 'config:0-7'
attr3 = 'config:12-35'

Example: ‘config1:1,6-10,44’ Defines contents of attribute that occupies bits 1,6-10,44 of perf_event_attr::config1.

/sys/bus/event_source/devices/<pmu>/events/<event>

Defined on file sysfs-bus-event_source-devices-events

Per-pmu performance monitoring events specific to the running system

Each file (except for some of those with a ‘.’ in them, ‘.unit’ and ‘.scale’) in the ‘events’ directory describes a single performance monitoring event supported by the <pmu>. The name of the file is the name of the event.

As performance monitoring event names are case insensitive in the perf tool, the perf tool only looks for lower or upper case event names in sysfs to avoid scanning the directory. It is therefore required the name of the event here is either lower or upper case.

File contents:

<term>[=<value>][,<term>[=<value>]]...

Where <term> is one of the terms listed under /sys/bus/event_source/devices/<pmu>/format/ and <value> is a number is base-16 format with a ‘0x’ prefix (lowercase only). If a <term> is specified alone (without an assigned value), it is implied that 0x1 is assigned to that <term>.

Examples (each of these lines would be in a separate file):

event=0x2abc event=0x423,inv,cmask=0x3 domain=0x1,offset=0x8,starting_index=0xffff domain=0x1,offset=0x8,core=?

Each of the assignments indicates a value to be assigned to a particular set of bits (as defined by the format file corresponding to the <term>) in the perf_event structure passed to the perf_open syscall.

In the case of the last example, a value replacing “?” would need to be provided by the user selecting the particular event. This is referred to as “event parameterization”. Event parameters have the format ‘param=?’.

/sys/bus/event_source/devices/<pmu>/events/<event>.scale

Defined on file sysfs-bus-event_source-devices-events

Perf event scaling factors

A string representing a floating point value expressed in scientific notation to be multiplied by the event count received from the kernel to match the unit specified in the <event>.unit file.

Example:

2.3283064365386962890625e-10

This is provided to avoid performing floating point arithmetic in the kernel.

/sys/bus/event_source/devices/<pmu>/events/<event>.unit

Defined on file sysfs-bus-event_source-devices-events

Perf event units

A string specifying the English plural numerical unit that <event> (once multiplied by <event>.scale) represents.

Example:

Joules

/sys/bus/event_source/devices/dfl_fmeX/cpumask

Defined on file sysfs-bus-event_source-devices-dfl_fme

Read-only. This file always returns cpu which the PMU is bound for access to all fme pmu performance monitoring events.

/sys/bus/event_source/devices/dfl_fmeX/events

Defined on file sysfs-bus-event_source-devices-dfl_fme

Read-only. Attribute group to describe performance monitoring events specific to fme. Each attribute in this group describes a single performance monitoring event supported by this fme pmu. The name of the file is the name of the event. (See ABI/testing/sysfs-bus-event_source-devices-events).

All supported performance monitoring events are listed below.

Basic events (evtype=0x00):

clock = "event=0x00,evtype=0x00,portid=0xff"

Cache events (evtype=0x01):

cache_read_hit      = "event=0x00,evtype=0x01,portid=0xff"
cache_read_miss     = "event=0x01,evtype=0x01,portid=0xff"
cache_write_hit     = "event=0x02,evtype=0x01,portid=0xff"
cache_write_miss    = "event=0x03,evtype=0x01,portid=0xff"
cache_hold_request  = "event=0x05,evtype=0x01,portid=0xff"
cache_data_write_port_contention =
                      "event=0x06,evtype=0x01,portid=0xff"
cache_tag_write_port_contention =
                      "event=0x07,evtype=0x01,portid=0xff"
cache_tx_req_stall  = "event=0x08,evtype=0x01,portid=0xff"
cache_rx_req_stall  = "event=0x09,evtype=0x01,portid=0xff"
cache_eviction      = "event=0x0a,evtype=0x01,portid=0xff"

Fabric events (evtype=0x02):

fab_pcie0_read       = "event=0x00,evtype=0x02,portid=0xff"
fab_pcie0_write      = "event=0x01,evtype=0x02,portid=0xff"
fab_pcie1_read       = "event=0x02,evtype=0x02,portid=0xff"
fab_pcie1_write      = "event=0x03,evtype=0x02,portid=0xff"
fab_upi_read         = "event=0x04,evtype=0x02,portid=0xff"
fab_upi_write        = "event=0x05,evtype=0x02,portid=0xff"
fab_mmio_read        = "event=0x06,evtype=0x02,portid=0xff"
fab_mmio_write       = "event=0x07,evtype=0x02,portid=0xff"
fab_port_pcie0_read  = "event=0x00,evtype=0x02,portid=?"
fab_port_pcie0_write = "event=0x01,evtype=0x02,portid=?"
fab_port_pcie1_read  = "event=0x02,evtype=0x02,portid=?"
fab_port_pcie1_write = "event=0x03,evtype=0x02,portid=?"
fab_port_upi_read    = "event=0x04,evtype=0x02,portid=?"
fab_port_upi_write   = "event=0x05,evtype=0x02,portid=?"
fab_port_mmio_read   = "event=0x06,evtype=0x02,portid=?"
fab_port_mmio_write  = "event=0x07,evtype=0x02,portid=?"

VTD events (evtype=0x03):

vtd_port_read_transaction  = "event=0x00,evtype=0x03,portid=?"
vtd_port_write_transaction = "event=0x01,evtype=0x03,portid=?"
vtd_port_devtlb_read_hit   = "event=0x02,evtype=0x03,portid=?"
vtd_port_devtlb_write_hit  = "event=0x03,evtype=0x03,portid=?"
vtd_port_devtlb_4k_fill    = "event=0x04,evtype=0x03,portid=?"
vtd_port_devtlb_2m_fill    = "event=0x05,evtype=0x03,portid=?"
vtd_port_devtlb_1g_fill    = "event=0x06,evtype=0x03,portid=?"

VTD SIP events (evtype=0x04):

vtd_sip_iotlb_4k_hit  = "event=0x00,evtype=0x04,portid=0xff"
vtd_sip_iotlb_2m_hit  = "event=0x01,evtype=0x04,portid=0xff"
vtd_sip_iotlb_1g_hit  = "event=0x02,evtype=0x04,portid=0xff"
vtd_sip_slpwc_l3_hit  = "event=0x03,evtype=0x04,portid=0xff"
vtd_sip_slpwc_l4_hit  = "event=0x04,evtype=0x04,portid=0xff"
vtd_sip_rcc_hit       = "event=0x05,evtype=0x04,portid=0xff"
vtd_sip_iotlb_4k_miss = "event=0x06,evtype=0x04,portid=0xff"
vtd_sip_iotlb_2m_miss = "event=0x07,evtype=0x04,portid=0xff"
vtd_sip_iotlb_1g_miss = "event=0x08,evtype=0x04,portid=0xff"
vtd_sip_slpwc_l3_miss = "event=0x09,evtype=0x04,portid=0xff"
vtd_sip_slpwc_l4_miss = "event=0x0a,evtype=0x04,portid=0xff"
vtd_sip_rcc_miss      = "event=0x0b,evtype=0x04,portid=0xff"

/sys/bus/event_source/devices/dfl_fmeX/format

Defined on file sysfs-bus-event_source-devices-dfl_fme

Read-only. Attribute group to describe the magic bits that go into perf_event_attr.config for a particular pmu. (See ABI/testing/sysfs-bus-event_source-devices-format).

Each attribute under this group defines a bit range of the perf_event_attr.config. All supported attributes are listed below:

event  = "config:0-11"  - event ID
evtype = "config:12-15" - event type
portid = "config:16-23" - event source

For example:

fab_mmio_read = "event=0x06,evtype=0x02,portid=0xff"

It shows this fab_mmio_read is a fabric type (0x02) event with 0x06 local event id for overall monitoring (portid=0xff).

/sys/bus/event_source/devices/dmar*/cpumask

Defined on file sysfs-bus-event_source-devices-iommu

Read-only. This file always returns the CPU to which the IOMMU pmu is bound for access to all IOMMU pmu performance monitoring events.

/sys/bus/event_source/devices/dmar*/format

Defined on file sysfs-bus-event_source-devices-iommu

Read-only. Attribute group to describe the magic bits that go into perf_event_attr.config, perf_event_attr.config1 or perf_event_attr.config2 for the IOMMU pmu. (See also ABI/testing/sysfs-bus-event_source-devices-format).

Each attribute in this group defines a bit range in perf_event_attr.config, perf_event_attr.config1, or perf_event_attr.config2. All supported attributes are listed below (See the VT-d Spec 4.0 for possible attribute values):

event               = "config:0-27"   - event ID
event_group         = "config:28-31"  - event group ID

filter_requester_en = "config1:0"     - Enable Requester ID filter
filter_domain_en    = "config1:1"     - Enable Domain ID filter
filter_pasid_en     = "config1:2"     - Enable PASID filter
filter_ats_en       = "config1:3"     - Enable Address Type filter
filter_page_table_en= "config1:4"     - Enable Page Table Level filter
filter_requester_id = "config1:16-31" - Requester ID filter
filter_domain       = "config1:32-47" - Domain ID filter
filter_pasid        = "config2:0-21"  - PASID filter
filter_ats          = "config2:24-28" - Address Type filter
filter_page_table   = "config2:32-36" - Page Table Level filter

/sys/bus/event_source/devices/dsa*/cpumask

Defined on file sysfs-bus-event_source-devices-dsa

Read-only. This file always returns the cpu to which the IDXD DSA pmu is bound for access to all dsa pmu performance monitoring events.

/sys/bus/event_source/devices/dsa*/format

Defined on file sysfs-bus-event_source-devices-dsa

Read-only. Attribute group to describe the magic bits that go into perf_event_attr.config or perf_event_attr.config1 for the IDXD DSA pmu. (See also ABI/testing/sysfs-bus-event_source-devices-format).

Each attribute in this group defines a bit range in perf_event_attr.config or perf_event_attr.config1. All supported attributes are listed below (See the IDXD DSA Spec for possible attribute values):

event_category = "config:0-3"    - event category
event          = "config:4-31"   - event ID

filter_wq      = "config1:0-31"  - workqueue filter
filter_tc      = "config1:32-39" - traffic class filter
filter_pgsz    = "config1:40-43" - page size filter
filter_sz      = "config1:44-51" - transfer size filter
filter_eng     = "config1:52-59" - engine filter

/sys/bus/event_source/devices/hisi_ptt<sicl_id>_<core_id>/tune

Defined on file sysfs-bus-event_source-devices-hisi_ptt

This directory contains files for tuning the PCIe link parameters(events). Each file is named after the event of the PCIe link.

See HiSilicon PCIe Tune and Trace device for more information.

/sys/bus/event_source/devices/hisi_ptt<sicl_id>_<core_id>/tune/qos_tx_cpl

Defined on file sysfs-bus-event_source-devices-hisi_ptt

(RW) Controls the weight of Tx completion TLPs, which influence the proportion of outbound completion TLPs on the PCIe link. The available tune data is [0, 1, 2]. Writing a negative value will return an error, and out of range values will be converted to 2. The value indicates a probable level of the event.

/sys/bus/event_source/devices/hisi_ptt<sicl_id>_<core_id>/tune/qos_tx_np

Defined on file sysfs-bus-event_source-devices-hisi_ptt

(RW) Controls the weight of Tx non-posted TLPs, which influence the proportion of outbound non-posted TLPs on the PCIe link. The available tune data is [0, 1, 2]. Writing a negative value will return an error, and out of range values will be converted to 2. The value indicates a probable level of the event.

/sys/bus/event_source/devices/hisi_ptt<sicl_id>_<core_id>/tune/qos_tx_p

Defined on file sysfs-bus-event_source-devices-hisi_ptt

(RW) Controls the weight of Tx posted TLPs, which influence the proportion of outbound posted TLPs on the PCIe link. The available tune data is [0, 1, 2]. Writing a negative value will return an error, and out of range values will be converted to 2. The value indicates a probable level of the event.

/sys/bus/event_source/devices/hisi_ptt<sicl_id>_<core_id>/tune/rx_alloc_buf_level

Defined on file sysfs-bus-event_source-devices-hisi_ptt

(RW) Control the allocated buffer watermark for inbound packets. The packets will be stored in the buffer first and then transmitted either when the watermark reached or when timed out. The available tune data is [0, 1, 2]. Writing a negative value will return an error, and out of range values will be converted to 2. The value indicates a probable level of the event.

/sys/bus/event_source/devices/hisi_ptt<sicl_id>_<core_id>/tune/tx_alloc_buf_level

Defined on file sysfs-bus-event_source-devices-hisi_ptt

(RW) Control the allocated buffer watermark of outbound packets. The packets will be stored in the buffer first and then transmitted either when the watermark reached or when timed out. The available tune data is [0, 1, 2]. Writing a negative value will return an error, and out of range values will be converted to 2. The value indicates a probable level of the event.

/sys/bus/event_source/devices/hv_24x7/event_descs/<event-name>

Defined on file sysfs-bus-event_source-devices-hv_24x7

Provides the description of a particular event as provided by the firmware. If firmware does not provide a description, no file will be created.

Note that the event-name lacks the domain suffix appended for events in the events/ dir.

/sys/bus/event_source/devices/hv_24x7/event_long_descs/<event-name>

Defined on file sysfs-bus-event_source-devices-hv_24x7

Provides the “long” description of a particular event as provided by the firmware. If firmware does not provide a description, no file will be created.

Note that the event-name lacks the domain suffix appended for events in the events/ dir.

/sys/bus/event_source/devices/hv_24x7/format

Defined on file sysfs-bus-event_source-devices-hv_24x7

Read-only. Attribute group to describe the magic bits that go into perf_event_attr.config for a particular pmu. (See ABI/testing/sysfs-bus-event_source-devices-format).

Each attribute under this group defines a bit range of the perf_event_attr.config. All supported attributes are listed below:

chip = "config:16-31"
core  = "config:16-31"
domain = "config:0-3"
lpar = "config:0-15"
offset = "config:32-63"
vcpu = "config:16-31"

For example:

PM_PB_CYC =  "domain=1,offset=0x80,chip=?,lpar=0x0"

In this event, ‘?’ after chip specifies that this value will be provided by user while running this event.

/sys/bus/event_source/devices/hv_24x7/interface/catalog

Defined on file sysfs-bus-event_source-devices-hv_24x7

Provides access to the binary “24x7 catalog” provided by the hypervisor on POWER7 and 8 systems. This catalog lists events available from the powerpc “hv_24x7” pmu. Its format is documented here: https://raw.githubusercontent.com/jmesmon/catalog-24x7/master/hv-24x7-catalog.h

/sys/bus/event_source/devices/hv_24x7/interface/catalog_length

Defined on file sysfs-bus-event_source-devices-hv_24x7

A number equal to the length in bytes of the catalog. This is also extractable from the provided binary “catalog” sysfs entry.

/sys/bus/event_source/devices/hv_24x7/interface/catalog_version

Defined on file sysfs-bus-event_source-devices-hv_24x7

Exposes the “version” field of the 24x7 catalog. This is also extractable from the provided binary “catalog” sysfs entry.

/sys/bus/event_source/devices/hv_gpci/format

Defined on file sysfs-bus-event_source-devices-hv_gpci

Read-only. Attribute group to describe the magic bits that go into perf_event_attr.config for a particular pmu. (See ABI/testing/sysfs-bus-event_source-devices-format).

Each attribute under this group defines a bit range of the perf_event_attr.config. All supported attributes are listed below:

counter_info_version  = "config:16-23"
length  = "config:24-31"
partition_id  = "config:32-63"
request = "config:0-31"
sibling_part_id = "config:32-63"
hw_chip_id = "config:32-63"
offset = "config:32-63"
phys_processor_idx = "config:32-63"
secondary_index = "config:0-15"
starting_index = "config:32-63"

For example:

processor_core_utilization_instructions_completed = "request=0x94,
                      phys_processor_idx=?,counter_info_version=0x8,
                      length=8,offset=0x18"

In this event, ‘?’ after phys_processor_idx specifies this value this value will be provided by user while running this event.

/sys/bus/event_source/devices/hv_gpci/interface/collect_privileged

Defined on file sysfs-bus-event_source-devices-hv_gpci

‘0’ if the hypervisor is configured to forbid access to event counters being accumulated by other guests and to physical domain event counters.

‘1’ if that access is allowed.

/sys/bus/event_source/devices/hv_gpci/interface/expanded

Defined on file sysfs-bus-event_source-devices-hv_gpci

0 or 1. Indicates whether we have access to “EXPANDED” events (listed in arch/powerpc/perf/hv-gpci.h).

/sys/bus/event_source/devices/hv_gpci/interface/ga

Defined on file sysfs-bus-event_source-devices-hv_gpci

0 or 1. Indicates whether we have access to “GA” events (listed in arch/powerpc/perf/hv-gpci.h).

/sys/bus/event_source/devices/hv_gpci/interface/kernel_version

Defined on file sysfs-bus-event_source-devices-hv_gpci

A number indicating the latest version of the gpci interface that the kernel is aware of.

/sys/bus/event_source/devices/hv_gpci/interface/lab

Defined on file sysfs-bus-event_source-devices-hv_gpci

0 or 1. Indicates whether we have access to “LAB” events (listed in arch/powerpc/perf/hv-gpci.h).

/sys/bus/event_source/devices/hv_gpci/interface/version

Defined on file sysfs-bus-event_source-devices-hv_gpci

A number indicating the version of the gpci interface that the hypervisor reports supporting.

/sys/bus/event_source/devices/nmemX/cpumask

Defined on file sysfs-bus-nvdimm

(RO) This sysfs file exposes the cpumask which is designated to to retrieve nvdimm pmu event counter data.

/sys/bus/event_source/devices/nmemX/events

Defined on file sysfs-bus-nvdimm

(RO) Attribute group to describe performance monitoring events for the nvdimm memory device. Each attribute in this group describes a single performance monitoring event supported by this nvdimm pmu. The name of the file is the name of the event. (See ABI/testing/sysfs-bus-event_source-devices-events). A listing of the events supported by a given nvdimm provider type can be found in Documentation/driver-api/nvdimm/$provider.

/sys/bus/event_source/devices/nmemX/format

Defined on file sysfs-bus-nvdimm

(RO) Attribute group to describe the magic bits that go into perf_event_attr.config for a particular pmu. (See ABI/testing/sysfs-bus-event_source-devices-format).

Each attribute under this group defines a bit range of the perf_event_attr.config. Supported attribute is listed below:

event  = "config:0-4"  - event ID

For example:

ctl_res_cnt = "event=0x1"

/sys/bus/event_source/devices/uncore_*/alias

Defined on file sysfs-bus-event_source-devices-uncore

Read-only. An attribute to describe the alias name of the uncore PMU if an alias exists on some platforms. The ‘perf(1)’ tool should treat both names the same. They both can be used to access the uncore PMU.

Example:

$ cat /sys/devices/uncore_cha_2/alias uncore_type_0_2

/sys/bus/fcoe/

Defined on file sysfs-bus-fcoe

The FCoE bus. Attributes in this directory are control interfaces.

Attributes:

ctlr_create:

‘FCoE Controller’ instance creation interface. Writing an <ifname> to this file will allocate and populate sysfs with a fcoe_ctlr_device (ctlr_X). The user can then configure any per-port settings and finally write to the fcoe_ctlr_device’s ‘start’ attribute to begin the kernel’s discovery and login process.

ctlr_destroy:

‘FCoE Controller’ instance removal interface. Writing a fcoe_ctlr_device’s sysfs name to this file will log the fcoe_ctlr_device out of the fabric or otherwise connected FCoE devices. It will also free all kernel memory allocated for this fcoe_ctlr_device and any structures associated with it, this includes the scsi_host.

/sys/bus/fcoe/devices/ctlr_X

Defined on file sysfs-bus-fcoe

‘FCoE Controller’ instances on the fcoe bus. The FCoE Controller now has a three stage creation process. 1) Write interface name to ctlr_create 2) Configure the FCoE Controller (ctlr_X) 3) Enable the FCoE Controller to begin discovery and login. The FCoE Controller is destroyed by writing its name, i.e. ctlr_X to the ctlr_delete file.

Attributes:

fcf_dev_loss_tmo:

Device loss timeout period (see below). Changing this value will change the dev_loss_tmo for all FCFs discovered by this controller.

mode:

Display or change the FCoE Controller’s mode. Possible modes are ‘Fabric’ and ‘VN2VN’. If a FCoE Controller is started in ‘Fabric’ mode then FIP FCF discovery is initiated and ultimately a fabric login is attempted. If a FCoE Controller is started in ‘VN2VN’ mode then FIP VN2VN discovery and login is performed. A FCoE Controller only supports one mode at a time.

enabled:

Whether an FCoE controller is enabled or disabled. 0 if disabled, 1 if enabled. Writing either 0 or 1 to this file will enable or disable the FCoE controller.

lesb/link_fail:

Link Error Status Block (LESB) link failure count.

lesb/vlink_fail:

Link Error Status Block (LESB) virtual link failure count.

lesb/miss_fka:

Link Error Status Block (LESB) missed FCoE Initialization Protocol (FIP) Keep-Alives (FKA).

lesb/symb_err:

Link Error Status Block (LESB) symbolic error count.

lesb/err_block:

Link Error Status Block (LESB) block error count.

lesb/fcs_error:

Link Error Status Block (LESB) Fibre Channel Services error count.

Notes: ctlr_X (global increment starting at 0)

/sys/bus/fcoe/devices/fcf_X

Defined on file sysfs-bus-fcoe

‘FCoE FCF’ instances on the fcoe bus. A FCF is a Fibre Channel Forwarder, which is a FCoE switch that can accept FCoE (Ethernet) packets, unpack them, and forward the embedded Fibre Channel frames into a FC fabric. It can also take outbound FC frames and pack them in Ethernet packets to be sent to their destination on the Ethernet segment.

Attributes:

fabric_name:

Identifies the fabric that the FCF services.

switch_name:

Identifies the FCF.

priority:

The switch’s priority amongst other FCFs on the same fabric.

selected:

1 indicates that the switch has been selected for use; 0 indicates that the switch will not be used.

fc_map:

The Fibre Channel MAP

vfid:

The Virtual Fabric ID

mac:

The FCF’s MAC address

fka_period:

The FIP Keep-Alive period

fabric_state: The internal kernel state

  • “Unknown” - Initialization value

  • “Disconnected” - No link to the FCF/fabric

  • “Connected” - Host is connected to the FCF

  • “Deleted” - FCF is being removed from the system

dev_loss_tmo: The device loss timeout period for this FCF.

Notes: A device loss infrastructure similar to the FC Transport’s

is present in fcoe_sysfs. It is nice to have so that a link flapping adapter doesn’t continually advance the count used to identify the discovered FCF. FCFs will exist in a “Disconnected” state until either the timer expires and the FCF becomes “Deleted” or the FCF is rediscovered and becomes “Connected.”

Users: The first user of this interface will be the fcoeadm application, which is commonly packaged in the fcoe-utils package.

/sys/bus/fsi/devices/XX.XX.00:06/sbefifoX/timeout

Defined on file sysfs-bus-fsi-devices-sbefifo

Indicates whether or not this SBE device has experienced a timeout; i.e. the SBE did not respond within the time allotted by the driver. A value of 1 indicates that a timeout has occurred and no transfers have completed since the timeout. A value of 0 indicates that no timeout has occurred, or if one has, more recent transfers have completed successfully.

/sys/bus/fsl-mc/drivers/.../bind

Defined on file sysfs-bus-fsl-mc

Writing a device location to this file will cause the driver to attempt to bind to the device found at this location. The format for the location is Object.Id and is the same as found in /sys/bus/fsl-mc/devices/.

For example:

# echo dpni.2 > /sys/bus/fsl-mc/drivers/fsl_dpaa2_eth/bind

/sys/bus/fsl-mc/drivers/.../unbind

Defined on file sysfs-bus-fsl-mc

Writing a device location to this file will cause the driver to attempt to unbind from the device found at this location. The format for the location is Object.Id and is the same as found in /sys/bus/fsl-mc/devices/.

For example:

# echo dpni.2 > /sys/bus/fsl-mc/drivers/fsl_dpaa2_eth/unbind

/sys/bus/hid/devices/<bus>:<vid>:<pid>.<n>/speed

Defined on file sysfs-driver-wacom

The /sys/bus/hid/devices/<bus>:<vid>:<pid>.<n>/speed file controls reporting speed of Wacom bluetooth tablet. Reading from this file returns 1 if tablet reports in high speed mode or 0 otherwise. Writing to this file one of these values switches reporting speed.

/sys/bus/hid/devices/<bus>:<vid>:<pid>.<n>/wacom_led/button<n>_rawimg

Defined on file sysfs-driver-wacom

When writing a 1024 byte raw image in Wacom Intuos 4 interleaving format to the file, the image shows up on Button N of the device. The image is a 64x32 pixel 4-bit gray image. The 1024 byte binary is split up into 16x 64 byte chunks. Each 64 byte chunk encodes the image data for two consecutive lines on the display. The low nibble of each byte contains the first line, and the high nibble contains the second line. When the Wacom Intuos 4 is connected over Bluetooth, the image has to contain 256 bytes (64x32 px 1 bit colour). The format is also scrambled, like in the USB mode, and it can be summarized by converting:

76543210 into GECA6420.
HGFEDCBA      HFDB7531

/sys/bus/hid/devices/<bus>:<vid>:<pid>.<n>/wacom_led/buttons_luminance

Defined on file sysfs-driver-wacom

Writing to this file sets the overall luminance level (0..15) of all eight button OLED displays.

/sys/bus/hid/devices/<bus>:<vid>:<pid>.<n>/wacom_led/led

Defined on file sysfs-driver-wacom

Attribute group for control of the status LEDs and the OLEDs. This attribute group is only available for Intuos 4 M, L, and XL (with LEDs and OLEDs), Intuos 4 WL, Intuos 5 (LEDs only), Intuos Pro (LEDs only) and Cintiq 21UX2 and Cintiq 24HD (LEDs only). Therefore its presence implicitly signifies the presence of said LEDs and OLEDs on the tablet device.

/sys/bus/hid/devices/<bus>:<vid>:<pid>.<n>/wacom_led/status0_luminance

Defined on file sysfs-driver-wacom

<obsoleted by the LED class API now exported by the driver> Writing to this file sets the status LED luminance (1..127) when the stylus does not touch the tablet surface, and no button is pressed on the stylus. This luminance level is normally lower than the level when a button is pressed.

/sys/bus/hid/devices/<bus>:<vid>:<pid>.<n>/wacom_led/status1_luminance

Defined on file sysfs-driver-wacom

<obsoleted by the LED class API now exported by the driver> Writing to this file sets the status LED luminance (1..127) when the stylus touches the tablet surface, or any button is pressed on the stylus.

/sys/bus/hid/devices/<bus>:<vid>:<pid>.<n>/wacom_led/status_led0_select

Defined on file sysfs-driver-wacom

<obsoleted by the LED class API now exported by the driver> Writing to this file sets which one of the four (for Intuos 4 and Intuos 5) or of the right four (for Cintiq 21UX2 and Cintiq 24HD) status LEDs is active (0..3). The other three LEDs on the same side are always inactive.

/sys/bus/hid/devices/<bus>:<vid>:<pid>.<n>/wacom_led/status_led1_select

Defined on file sysfs-driver-wacom

<obsoleted by the LED class API now exported by the driver> Writing to this file sets which one of the left four (for Cintiq 21UX2 and Cintiq 24HD) status LEDs is active (0..3). The other three LEDs on the left are always inactive.

/sys/bus/hid/devices/<bus>:<vid>:<pid>.<n>/wacom_remote/<serial_number>/remote_mode

Defined on file sysfs-driver-wacom

<obsoleted by the LED class API now exported by the driver> Reading from this file reports the mode status of the remote as indicated by the LED lights on the device. If no reports have been received from the paired device, reading from this file will report ‘-1’. The mode is read-only and cannot be set through the driver.

/sys/bus/hid/devices/<bus>:<vid>:<pid>.<n>/wacom_remote/unpair_remote

Defined on file sysfs-driver-wacom

Writing the character sequence ‘*’ followed by a newline to this file will delete all of the current pairings on the device. Other character sequences are reserved. This file is write only.

/sys/bus/hid/drivers/logitech-hidpp-device/<dev>/builtin_power_supply

Defined on file sysfs-driver-hid-logitech-hidpp

Presence of this file indicates that HID++ driver is capable of handling battery properties in the kernel. This way, upower can add a udev rule to decide whether or not it should use the internal unifying support or the generic kernel one.

/sys/bus/hid/drivers/logitech-hidpp-device/<dev>/range

Defined on file sysfs-driver-hid-logitech-hidpp

(RW) This attribute controls the amount of ‘turn’ permitted in Logitech G920 wheel. Reading from the file shows the current range of the steering wheel. Writing a value within the min and max boundary sets the range of the wheel.

/sys/bus/hid/drivers/logitech/<dev>/alternate_modes

Defined on file sysfs-driver-hid-logitech-lg4ff

Displays a set of alternate modes supported by a wheel. Each mode is listed as follows:

Tag: Mode Name

Currently active mode is marked with an asterisk. List also contains an abstract item “native” which always denotes the native mode of the wheel. Echoing the mode tag switches the wheel into the corresponding mode. Depending on the exact model of the wheel not all listed modes might always be selectable. If a wheel cannot be switched into the desired mode, -EINVAL is returned accompanied with an explanatory message in the kernel log. This entry is not created for devices that have only one mode.

Currently supported mode switches:

Driving Force Pro:

DF-EX --> DFP

G25:

DF-EX --> DFP --> G25

G27:

DF-EX <*> DFP <-> G25 <-> G27
DF-EX <*--------> G25 <-> G27
DF-EX <*----------------> G27

G29:

DF-EX <*> DFP <-> G25 <-> G27 <-> G29
DF-EX <*--------> G25 <-> G27 <-> G29
DF-EX <*----------------> G27 <-> G29
DF-EX <*------------------------> G29

DFGT:

DF-EX <*> DFP <-> DFGT
DF-EX <*--------> DFGT
  • hid_logitech module must be loaded with lg4ff_no_autoswitch=1 parameter set in order for the switch to DF-EX mode to work.

/sys/bus/hid/drivers/logitech/<dev>/combine_pedals

Defined on file sysfs-driver-hid-logitech-lg4ff

Controls whether a combined value of accelerator and brake is reported on the Y axis of the controller. Useful for older games which can do not work with separate accelerator/brake axis. Off (‘0’) by default, enabled by setting ‘1’.

/sys/bus/hid/drivers/logitech/<dev>/range

Defined on file sysfs-driver-hid-logitech-lg4ff

Display minimum, maximum and current range of the steering wheel. Writing a value within min and max boundaries sets the range of the wheel.

/sys/bus/hid/drivers/logitech/<dev>/real_id

Defined on file sysfs-driver-hid-logitech-lg4ff

Displays the real model of the wheel regardless of any alternate mode the wheel might be switched to. It is a read-only value. This entry is not created for devices that have only one mode.

/sys/bus/hid/drivers/ntrig/<dev>/activate_slack

Defined on file sysfs-driver-hid-ntrig

(RW) Number of contact frames ignored before acknowledging the start of activity (activating touch).

/sys/bus/hid/drivers/ntrig/<dev>/activation_width

/sys/bus/hid/drivers/ntrig/<dev>/activation_height

Defined on file sysfs-driver-hid-ntrig

Threholds to override activation slack.

activation_width

(RW) Width threshold to immediately start processing touch events.

activation_height

(RW) Height threshold to immediately start processing touch events.

/sys/bus/hid/drivers/ntrig/<dev>/decativate_slack

Defined on file sysfs-driver-hid-ntrig

(RW) Number of empty (no contact) frames ignored before acknowledging the end of activity (deactivating touch).

When the last finger is removed from the device, it sends a number of empty frames. By holding off on deactivation for a few frames false erroneous disconnects can be tolerated, where the sensor may mistakenly not detect a finger that is still present.

/sys/bus/hid/drivers/ntrig/<dev>/min_width

/sys/bus/hid/drivers/ntrig/<dev>/min_height

Defined on file sysfs-driver-hid-ntrig

Minimum size contact accepted.

min_width

(RW) Minimum touch contact width to decide activation and activity.

min_height

(RW) Minimum touch contact height to decide activation and activity.

/sys/bus/hid/drivers/ntrig/<dev>/sensor_logical_width

/sys/bus/hid/drivers/ntrig/<dev>/sensor_logical_height

Defined on file sysfs-driver-hid-ntrig

(RO) The range for positions reported during activity.

/sys/bus/hid/drivers/ntrig/<dev>/sensor_physical_width

/sys/bus/hid/drivers/ntrig/<dev>/sensor_physical_height

Defined on file sysfs-driver-hid-ntrig

(RO) These are internal ranges not used for normal events but useful for tuning.

/sys/bus/hid/drivers/prodikeys/.../channel

Defined on file sysfs-driver-hid-prodikeys

Allows control (via software) the midi channel to which that the pc-midi keyboard will output.midi data. Range: 0..15 Type: Read/write

/sys/bus/hid/drivers/prodikeys/.../octave

Defined on file sysfs-driver-hid-prodikeys

Controls the octave shift modifier in the pc-midi driver. The octave can be shifted via software up/down 2 octaves. 0 means the no ocatve shift. Range: -2..2 (minus 2 to plus 2) Type: Read/Write

/sys/bus/hid/drivers/prodikeys/.../sustain

Defined on file sysfs-driver-hid-prodikeys

Allows control (via software) the sustain duration of a note held by the pc-midi driver. 0 means sustain mode is disabled. Range: 0..5000 (milliseconds) Type: Read/write

/sys/bus/hid/drivers/wiimote/<dev>/bboard_calib

Defined on file sysfs-driver-hid-wiimote

This attribute is only provided if the device was detected as a balance board. It provides a single line with 3 calibration values for all 4 sensors. The values are separated by colons and are each 2 bytes long (encoded as 4 digit hexadecimal value). First, 0kg values for all 4 sensors are written, followed by the 17kg values for all 4 sensors and last the 34kg values for all 4 sensors.

Calibration data is already applied by the kernel to all input values but may be used by user-space to perform other transformations.

/sys/bus/hid/drivers/wiimote/<dev>/devtype

Defined on file sysfs-driver-hid-wiimote

While a device is initialized by the wiimote driver, we perform a device detection and signal a “change” uevent after it is done. This file shows the detected device type. “pending” means that the detection is still ongoing, “unknown” means, that the device couldn’t be detected or loaded. “generic” means, that the device couldn’t be detected but supports basic Wii Remote features and can be used. Other strings for each device-type are available and may be added if new device-specific detections are added. Currently supported are:

gen10:

First Wii Remote generation

gen20:

Second Wii Remote Plus generation (builtin MP)

balanceboard:

Wii Balance Board

/sys/bus/hid/drivers/wiimote/<dev>/extension

Defined on file sysfs-driver-hid-wiimote

This file contains the currently connected and initialized extensions. It can be one of: none, motionp, nunchuck, classic, motionp+nunchuck, motionp+classic motionp is the official Nintendo Motion+ extension, nunchuck is the official Nintendo Nunchuck extension and classic is the Nintendo Classic Controller extension. The motionp extension can be combined with the other two.

Starting with kernel-version 3.11 Motion Plus hotplugging is supported and if detected, it’s no longer reported as static extension. You will get uevent notifications for the motion-plus device then.

/sys/bus/hid/drivers/wiimote/<dev>/led1

/sys/bus/hid/drivers/wiimote/<dev>/led2

/sys/bus/hid/drivers/wiimote/<dev>/led3

/sys/bus/hid/drivers/wiimote/<dev>/led4

Defined on file sysfs-driver-hid-wiimote

Make it possible to set/get current led state. Reading from it returns 0 if led is off and 1 if it is on. Writing 0 to it disables the led, writing 1 enables it.

/sys/bus/hid/drivers/wiimote/<dev>/pro_calib

Defined on file sysfs-driver-hid-wiimote

This attribute is only provided if the device was detected as a pro-controller. It provides a single line with 4 calibration values for all 4 analog sticks. Format is: “x1:y1 x2:y2”. Data is prefixed with a +/-. Each value is a signed 16bit number. Data is encoded as decimal numbers and specifies the offsets of the analog sticks of the pro-controller.

Calibration data is already applied by the kernel to all input values but may be used by user-space to perform other transformations.

Calibration data is detected by the kernel during device setup. You can write “scann” into this file to re-trigger calibration. You can also write data directly in the form “x1:y1 x2:y2” to set the calibration values manually.

/sys/bus/hsi

Defined on file sysfs-bus-hsi

High Speed Synchronous Serial Interface (HSI) is a serial interface mainly used for connecting application engines (APE) with cellular modem engines (CMT) in cellular handsets. The bus will be populated with devices (hsi_clients) representing the protocols available in the system. Bus drivers implement those protocols.

/sys/bus/hsi/devices/.../modalias

Defined on file sysfs-bus-hsi

Stores the same MODALIAS value emitted by uevent Format: hsi:<hsi_client device name>

/sys/bus/i2c/.../idle_state

Defined on file sysfs-bus-i2c-devices-pca954x

Value that exists only for mux devices that can be written to control the behaviour of the multiplexer on idle. Possible values:

-2

disconnect on idle, i.e. deselect the last used channel, which is useful when there is a device with an address that conflicts with another device on another mux on the same parent bus.

-1

leave the mux as-is, which is the most optimal setting in terms of I2C operations and is the default mode.

0..<nchans>

set the mux to a predetermined channel, which is useful if there is one channel that is used almost always, and you want to reduce the latency for normal operations after rare transactions on other channels

/sys/bus/i2c/devices/.../bd9571mwv-regulator.*.auto/backup_mode

Defined on file sysfs-driver-bd9571mwv-regulator

Read/write the current state of DDR Backup Mode, which controls if DDR power rails will be kept powered during system suspend. (“on”/”1” = enabled, “off”/”0” = disabled). Two types of power switches (or control signals) can be used:

  1. With a momentary power switch (or pulse signal), DDR Backup Mode is enabled by default when available, as the PMIC will be configured only during system suspend.

  2. With a toggle power switch (or level signal), the following steps must be followed exactly:

    1. Configure PMIC for backup mode, to change the role of the accessory power switch from a power switch to a wake-up switch,

    2. Switch accessory power switch off, to prepare for system suspend, which is a manual step not controlled by software,

    3. Suspend system,

    4. Switch accessory power switch on, to resume the system.

    DDR Backup Mode must be explicitly enabled by the user, to invoke step 1.

See also Documentation/devicetree/bindings/mfd/rohm,bd9571mwv.yaml.

Users: User space applications for embedded boards equipped with a BD9571MWV PMIC.

/sys/bus/i2c/devices/.../calibration

Defined on file sysfs-bus-i2c-devices-hm6352

Sets the calibration on or off (1 = on, 0 = off). See the chip data sheet.

/sys/bus/i2c/devices/.../device

Defined on file sysfs-bus-i2c-devices-fsa9480

show what device is attached

NONE

no device

USB

USB device is attached

UART

UART is attached

CHARGER

Charger is attached

JIG

JIG is attached

/sys/bus/i2c/devices/.../heading0_input

Defined on file sysfs-bus-i2c-devices-hm6352

Reports the current heading from the compass as a floating point value in degrees.

/sys/bus/i2c/devices/.../output_hvled[n]

Defined on file sysfs-bus-i2c-devices-lm3533

Set the controlling backlight device for high-voltage current sink HVLED[n] (n = 1, 2) (0, 1).

/sys/bus/i2c/devices/.../output_lvled[n]

Defined on file sysfs-bus-i2c-devices-lm3533

Set the controlling led device for low-voltage current sink LVLED[n] (n = 1..5) (0..3).

/sys/bus/i2c/devices/.../power_state

Defined on file sysfs-bus-i2c-devices-hm6352

Sets the power state of the device. 0 sets the device into sleep mode, 1 wakes it up.

/sys/bus/i2c/devices/.../switch

Defined on file sysfs-bus-i2c-devices-fsa9480

show or set the state of manual switch

VAUDIO

switch to VAUDIO path

UART

switch to UART path

AUDIO

switch to AUDIO path

DHOST

switch to DHOST path

AUTO

switch automatically by device

/sys/bus/i2c/devices/.../trickle_charge_bypass

Defined on file sysfs-bus-i2c-devices-bq32k

Attribute for enable/disable the trickle charge bypass The trickle_charge_bypass attribute allows the userspace to enable/disable the Trickle charge FET bypass.

/sys/bus/i2c/devices/<mcu_device>/board_revision

Defined on file sysfs-bus-i2c-devices-turris-omnia-mcu

(RO) Contains board revision number.

Only available if board information is burned in the MCU (older revisions have board information burned in the ATSHA204-A chip).

Format: %u.

/sys/bus/i2c/devices/<mcu_device>/first_mac_address

Defined on file sysfs-bus-i2c-devices-turris-omnia-mcu

(RO) Contains device first MAC address. Each Turris Omnia is allocated 3 MAC addresses. The two additional addresses are computed from the first one by incrementing it.

Only available if board information is burned in the MCU (older revisions have board information burned in the ATSHA204-A chip).

Format: %pM.

/sys/bus/i2c/devices/<mcu_device>/front_button_mode

Defined on file sysfs-bus-i2c-devices-turris-omnia-mcu

(RW) The front button on the Turris Omnia router can be configured either to change the intensity of all the LEDs on the front panel, or to send the press event to the CPU as an interrupt.

This file switches between these two modes:
  • mcu makes the button press event be handled by the MCU to change the LEDs panel intensity.

  • cpu makes the button press event be handled by the CPU.

Format: %s.

/sys/bus/i2c/devices/<mcu_device>/front_button_poweron

Defined on file sysfs-bus-i2c-devices-turris-omnia-mcu

(RW) Newer versions of the microcontroller firmware of the Turris Omnia router support powering off the router into true low power mode. The router can be powered on by pressing the front button.

This file configures whether front button power on is enabled.

This file is present only if the power off feature is supported by the firmware.

Format: %i.

/sys/bus/i2c/devices/<mcu_device>/fw_features

Defined on file sysfs-bus-i2c-devices-turris-omnia-mcu

(RO) Newer versions of the microcontroller firmware report the features they support. These can be read from this file. If the MCU firmware is too old, this file reads 0x0.

Format: 0x%x.

/sys/bus/i2c/devices/<mcu_device>/fw_version_hash_application

Defined on file sysfs-bus-i2c-devices-turris-omnia-mcu

(RO) Contains the version hash (commit hash) of the application part of the microcontroller firmware.

Format: %s.

/sys/bus/i2c/devices/<mcu_device>/fw_version_hash_bootloader

Defined on file sysfs-bus-i2c-devices-turris-omnia-mcu

(RO) Contains the version hash (commit hash) of the bootloader part of the microcontroller firmware.

Format: %s.

/sys/bus/i2c/devices/<mcu_device>/mcu_type

Defined on file sysfs-bus-i2c-devices-turris-omnia-mcu

(RO) Contains the microcontroller type (STM32, GD32, MKL).

Format: %s.

/sys/bus/i2c/devices/<mcu_device>/reset_selector

Defined on file sysfs-bus-i2c-devices-turris-omnia-mcu

(RO) Contains the selected factory reset level, determined by how long the rear reset button was held by the user during board reset.

Format: %i.

/sys/bus/i2c/devices/<mcu_device>/serial_number

Defined on file sysfs-bus-i2c-devices-turris-omnia-mcu

(RO) Contains the 64-bit board serial number in hexadecimal format.

Only available if board information is burned in the MCU (older revisions have board information burned in the ATSHA204-A chip).

Format: %016X.

/sys/bus/i2c/devices/xxx/fw_version

Defined on file sysfs-driver-input-exc3000

Reports the firmware version provided by the touchscreen, for example “00_T6” on a EXC80H60

Access: Read

Valid values: Represented as string

/sys/bus/i2c/devices/xxx/model

Defined on file sysfs-driver-input-exc3000

Reports the model identification provided by the touchscreen, for example “Orion_1320” on a EXC80H60

Access: Read

Valid values: Represented as string

/sys/bus/i2c/devices/xxx/type

Defined on file sysfs-driver-input-exc3000

Reports the type identification provided by the touchscreen, for example “PCAP82H80 Series”

Access: Read

Valid values: Represented as string

/sys/bus/i2c/drivers/ucsi_ccg/.../do_flash

Defined on file sysfs-driver-ucsi-ccg

Tell the driver for Cypress CCGx Type-C controller to attempt firmware upgrade by writing [Yy1] to the file.

/sys/bus/i3c/devices/<bus-id>-<device-pid>

Defined on file sysfs-bus-i3c

These directories are just symbolic links to /sys/bus/i3c/devices/i3c-<bus-id>/<bus-id>-<device-pid>.

/sys/bus/i3c/devices/i3c-<bus-id>

Defined on file sysfs-bus-i3c

An I3C bus. This directory will contain one sub-directory per I3C device present on the bus.

/sys/bus/i3c/devices/i3c-<bus-id>/<bus-id>-<device-pid>

Defined on file sysfs-bus-i3c

An I3C device present on I3C bus identified by <bus-id>. Note that all devices are represented including the master driving the bus.

/sys/bus/i3c/devices/i3c-<bus-id>/<bus-id>-<device-pid>/bcr

Defined on file sysfs-bus-i3c

BCR stands for Bus Characteristics Register and express the device capabilities in term of speed, maximum read/write length, etc. See the I3C specification for more details.

/sys/bus/i3c/devices/i3c-<bus-id>/<bus-id>-<device-pid>/dcr

Defined on file sysfs-bus-i3c

DCR stands for Device Characteristics Register and express the device capabilities in term of exposed features. See the I3C specification for more details.

/sys/bus/i3c/devices/i3c-<bus-id>/<bus-id>-<device-pid>/dynamic_address

Defined on file sysfs-bus-i3c

Dynamic address assigned to device <bus-id>-<device-pid>. This address may change if the bus is re-initialized.

/sys/bus/i3c/devices/i3c-<bus-id>/<bus-id>-<device-pid>/hdrcap

Defined on file sysfs-bus-i3c

Expose the HDR (High Data Rate) capabilities of a device. Returns a list of supported HDR mode, each element is separated by space. Modes can be “hdr-ddr”, “hdr-tsp” and “hdr-tsl”.

See the I3C specification for more details about these HDR modes.

/sys/bus/i3c/devices/i3c-<bus-id>/<bus-id>-<device-pid>/pid

Defined on file sysfs-bus-i3c

PID stands for Provisioned ID and is used to uniquely identify a device on a bus. This PID contains information about the vendor, the part and an instance ID so that several devices of the same type can be connected on the same bus. See the I3C specification for more details.

/sys/bus/i3c/devices/i3c-<bus-id>/bcr

Defined on file sysfs-bus-i3c

BCR stands for Bus Characteristics Register and express the device capabilities in term of speed, maximum read/write length, etc. See the I3C specification for more details. This entry describes the BCR of the master controller driving the bus.

/sys/bus/i3c/devices/i3c-<bus-id>/current_master

Defined on file sysfs-bus-i3c

Expose the master that owns the bus (<bus-id>-<master-pid>) at the time this file is read. Note that bus ownership can change overtime, so there’s no guarantee that when the read() call returns, the value returned is still valid.

/sys/bus/i3c/devices/i3c-<bus-id>/dcr

Defined on file sysfs-bus-i3c

DCR stands for Device Characteristics Register and express the device capabilities in term of exposed features. See the I3C specification for more details. This entry describes the DCR of the master controller driving the bus.

/sys/bus/i3c/devices/i3c-<bus-id>/dynamic_address

Defined on file sysfs-bus-i3c

Dynamic address assigned to the master controller. This address may change if the bus is re-initialized.

/sys/bus/i3c/devices/i3c-<bus-id>/hdrcap

Defined on file sysfs-bus-i3c

Expose the HDR (High Data Rate) capabilities of a device. Returns a list of supported HDR mode, each element is separated by space. Modes can be “hdr-ddr”, “hdr-tsp” and “hdr-tsl”. See the I3C specification for more details about these HDR modes.

This entry describes the HDRCAP of the master controller driving the bus.

/sys/bus/i3c/devices/i3c-<bus-id>/hotjoin

Defined on file sysfs-bus-i3c

I3C’s Hot-Join mechanism allows an I3C Device to inform the Active Controller that a newly-joined Target is present on the I3C Bus and is ready to receive a Dynamic Address, in order to become fully functional on the Bus. Hot-Join is used when the Target is mounted on the same I3C bus and remains depowered until needed or until the Target is physically inserted into the I3C bus

This entry allows to enable or disable Hot-join of the Current Controller driving the bus.

/sys/bus/i3c/devices/i3c-<bus-id>/i2c_scl_frequency

Defined on file sysfs-bus-i3c

The frequency (expressed in Hz) of the SCL signal when operating in I2C mode.

/sys/bus/i3c/devices/i3c-<bus-id>/i3c_scl_frequency

Defined on file sysfs-bus-i3c

The frequency (expressed in Hz) of the SCL signal when operating in I3C SDR mode.

/sys/bus/i3c/devices/i3c-<bus-id>/mode

Defined on file sysfs-bus-i3c

I3C bus mode. Can be “pure”, “mixed-fast” or “mixed-slow”. See the I3C specification for a detailed description of what each of these modes implies.

/sys/bus/i3c/devices/i3c-<bus-id>/pid

Defined on file sysfs-bus-i3c

PID stands for Provisioned ID and is used to uniquely identify a device on a bus. This PID contains information about the vendor, the part and an instance ID so that several devices of the same type can be connected on the same bus. See the I3C specification for more details. This entry describes the PID of the master controller driving the bus.

/sys/bus/iio/devices/device[n]/in_illuminance0_calibrate

Defined on file sysfs-bus-iio-light-tsl2772

Causes an internal calibration of the als gain trim value which is later used in calculating illuminance in lux.

/sys/bus/iio/devices/device[n]/in_illuminance_calibrate

Defined on file sysfs-bus-iio-light-tsl2583

This property causes an internal calibration of the als gain trim value which is later used in calculating illuminance in lux.

/sys/bus/iio/devices/device[n]/in_illuminance_input_target

Defined on file sysfs-bus-iio-light-tsl2583

This property is the known externally illuminance (in lux). It is used in the process of calibrating the device accuracy.

/sys/bus/iio/devices/device[n]/in_illuminance_lux_table

Defined on file sysfs-bus-iio-light-tsl2583

This property gets/sets the table of coefficients used in calculating illuminance in lux.

/sys/bus/iio/devices/device[n]/in_proximity0_calibrate

Defined on file sysfs-bus-iio-light-tsl2772

Causes a recalculation and adjustment to the proximity_thresh_rising_value.

/sys/bus/iio/devices/iio:device*/buffer/hwfifo_timeout

Defined on file sysfs-bus-iio

A read/write property to provide capability to delay reporting of samples till a timeout is reached. This allows host processors to sleep, while the sensor is storing samples in its internal fifo. The maximum timeout in seconds can be specified by setting hwfifo_timeout.The current delay can be read by reading hwfifo_timeout. A value of 0 means that there is no timeout.

/sys/bus/iio/devices/iio:deviceX

Defined on file sysfs-bus-iio

Hardware chip or device accessed by one communication port. Corresponds to a grouping of sensor channels. X is the IIO index of the device.

/sys/bus/iio/devices/iio:deviceX/ac_excitation_en

Defined on file sysfs-bus-iio-adc-ad7192

This attribute, if available, is used to enable the AC excitation mode found on some converters. In ac excitation mode, the polarity of the excitation voltage is reversed on alternate cycles, to eliminate DC errors.

/sys/bus/iio/devices/iio:deviceX/auto_zeroing_mux_enable

Defined on file sysfs-bus-iio-adc-mcp3564

This attribute is used to enable the analog input multiplexer auto-zeroing algorithm (the input multiplexer and the ADC include an offset cancellation algorithm that cancels the offset contribution of the ADC). When the offset cancellation algorithm is enabled, ADC takes two conversions, one with the differential input as VIN+/VIN-, one with VIN+/VIN- inverted. In this case the conversion time is multiplied by two compared to the default case where the algorithm is disabled. This technique allows the cancellation of the ADC offset error and the achievement of ultra-low offset without any digital calibration. The resulting offset is the residue of the difference between the two conversions, which is on the order of magnitude of the noise floor. This offset is effectively canceled at every conversion, so the residual offset error temperature drift is extremely low. Write ‘1’ to enable it, write ‘0’ to disable it.

/sys/bus/iio/devices/iio:deviceX/auto_zeroing_ref_enable

Defined on file sysfs-bus-iio-adc-mcp3564

This attribute is used to enable the chopping algorithm for the internal voltage reference buffer. This setting has no effect when external voltage reference is selected. Internal voltage reference buffer injects a certain quantity of 1/f noise into the system that can be modulated with the incoming input signals and can limit the SNR performance at higher Oversampling Ratio values (over 256). To overcome this limitation, the buffer includes an auto-zeroing algorithm that greatly reduces (cancels out) the 1/f noise and cancels the offset value of the reference buffer. As a result, the SNR of the system is not affected by this 1/f noise component of the reference buffer, even at maximum oversampling ratio values. Write ‘1’ to enable it, write ‘0’ to disable it.

/sys/bus/iio/devices/iio:deviceX/battery_low

Defined on file sysfs-bus-iio-meas-spec

Reading returns either ‘1’ or ‘0’. ‘1’ means that the battery level supplied to sensor is below 2.25V. This ABI is available for tsys02d, htu21, ms8607

/sys/bus/iio/devices/iio:deviceX/boost_current_gain

Defined on file sysfs-bus-iio-adc-mcp3564

This attribute is used to set the gain of the biasing current circuit of the Delta-Sigma modulator. The different BOOST settings are applied to the entire modulator circuit, including the voltage reference buffers.

/sys/bus/iio/devices/iio:deviceX/boost_current_gain_available

Defined on file sysfs-bus-iio-adc-mcp3564

Reading returns a list with the possible gain values for the current biasing circuit of the Delta-Sigma modulator.

/sys/bus/iio/devices/iio:deviceX/bridge_switch_en

Defined on file sysfs-bus-iio-adc-ad7192

This attribute, if available, is used to close or open the bridge power down switch found on some converters. In bridge applications, such as strain gauges and load cells, the bridge itself consumes the majority of the current in the system. To minimize the current consumption of the system, the bridge can be disconnected (when it is not being used using the bridge_switch_en attribute.

/sys/bus/iio/devices/iio:deviceX/buffer

Defined on file sysfs-bus-iio

Directory of attributes relating to the buffer for the device.

/sys/bus/iio/devices/iio:deviceX/buffer/hwfifo_enabled

Defined on file sysfs-bus-iio

A read-only boolean value that indicates if the hardware fifo is currently enabled or disabled. If the device does not have a hardware fifo this entry is not present. The hardware fifo is enabled when the buffer is enabled if the current hardware fifo watermark level is set and other current device settings allows it (e.g. if a trigger is set that samples data differently that the hardware fifo does then hardware fifo will not enabled).

If the hardware fifo is enabled and the level of the hardware fifo reaches the hardware fifo watermark level the device will flush its hardware fifo to the device buffer. Doing a non blocking read on the device when no samples are present in the device buffer will also force a flush.

When the hardware fifo is enabled there is no need to use a trigger to use buffer mode since the watermark settings guarantees that the hardware fifo is flushed to the device buffer.

/sys/bus/iio/devices/iio:deviceX/buffer/hwfifo_watermark

Defined on file sysfs-bus-iio

Read-only entry that contains a single integer specifying the current watermark level for the hardware fifo. If the device does not have a hardware fifo this entry is not present. The watermark level for the hardware fifo is set by the driver based on the value set by the user in buffer/watermark but taking into account hardware limitations (e.g. most hardware buffers are limited to 32-64 samples, some hardware buffers watermarks are fixed or have minimum levels). A value of 0 means that the hardware watermark is unset.

/sys/bus/iio/devices/iio:deviceX/buffer/hwfifo_watermark_available

Defined on file sysfs-bus-iio

A list of positive integers specifying the available watermark levels for the hardware fifo. This entry is optional and if it is not present it means that all the values between hwfifo_watermark_min and hwfifo_watermark_max are supported.

If the user sets buffer/watermark to a value greater than hwfifo_watermak_min but not equal to any of the values in this list, the driver will chose an appropriate value for the hardware fifo watermark level.

/sys/bus/iio/devices/iio:deviceX/buffer/hwfifo_watermark_max

Defined on file sysfs-bus-iio

A single positive integer specifying the maximum watermark level for the hardware fifo of this device. If the device does not have a hardware fifo this entry is not present.

If the user sets buffer/watermark to a value greater than this one, then the hardware watermark will be capped at this value.

/sys/bus/iio/devices/iio:deviceX/buffer/hwfifo_watermark_min

Defined on file sysfs-bus-iio

A single positive integer specifying the minimum watermark level for the hardware fifo of this device. If the device does not have a hardware fifo this entry is not present.

If the user sets buffer/watermark to a value less than this one, then the hardware watermark will remain unset.

/sys/bus/iio/devices/iio:deviceX/buffer/length_align_bytes

Defined on file sysfs-bus-iio-dma-buffer

DMA buffers tend to have a alignment requirement for the buffers. If this alignment requirement is not met samples might be dropped from the buffer.

This property reports the alignment requirements in bytes. This means that the buffer size in bytes needs to be a integer multiple of the number reported by this file.

The alignment requirements in number of sample sets will depend on the enabled channels and the bytes per channel. This means that the alignment requirement in samples sets might change depending on which and how many channels are enabled. Whereas the alignment requirement reported in bytes by this property will remain static and does not depend on which channels are enabled.

/sys/bus/iio/devices/iio:deviceX/bufferY

Defined on file sysfs-bus-iio

Directory containing interfaces for elements that will be captured for a single triggered sample set in the buffer.

Since kernel 5.11 the scan_elements attributes are merged into the bufferY directory, to be configurable per buffer.

/sys/bus/iio/devices/iio:deviceX/bufferY/data_available

Defined on file sysfs-bus-iio

A read-only value indicating the bytes of data available in the buffer. In the case of an output buffer, this indicates the amount of empty space available to write data to. In the case of an input buffer, this indicates the amount of data available for reading.

/sys/bus/iio/devices/iio:deviceX/bufferY/enable

Defined on file sysfs-bus-iio

Actually start the buffer capture up. Will start trigger if first device and appropriate.

Note that it might be impossible to configure other attributes, (e.g.: events, scale, sampling rate) if they impact the currently active buffer capture session.

/sys/bus/iio/devices/iio:deviceX/bufferY/length

Defined on file sysfs-bus-iio

Number of scans contained by the buffer.

/sys/bus/iio/devices/iio:deviceX/bufferY/watermark

Defined on file sysfs-bus-iio

A single positive integer specifying the maximum number of scan elements to wait for.

Poll will block until the watermark is reached.

Blocking read will wait until the minimum between the requested read amount or the low water mark is available.

Non-blocking read will retrieve the available samples from the buffer even if there are less samples then watermark level. This allows the application to block on poll with a timeout and read the available samples after the timeout expires and thus have a maximum delay guarantee.

/sys/bus/iio/devices/iio:deviceX/calibrate

Defined on file sysfs-bus-iio-cros-ec

Writing ‘1’ will perform a FOC (Fast Online Calibration). The corresponding calibration offsets can be read from *_calibbias entries.

/sys/bus/iio/devices/iio:deviceX/calibration_auto_enable

Defined on file sysfs-bus-iio

Some sensors have the ability to apply auto calibration at runtime. For example, it may be necessary to compensate for contaminant build-up in a measurement chamber or optical element deterioration that would otherwise lead to sensor drift.

Writing 1 or 0 to this attribute will respectively activate or deactivate this auto calibration function.

Upon reading, the current status is returned.

/sys/bus/iio/devices/iio:deviceX/calibration_data

Defined on file sysfs-bus-iio-bno055

Reports the binary calibration data blob for the IMU sensors.

/sys/bus/iio/devices/iio:deviceX/calibration_forced_value

Defined on file sysfs-bus-iio

Some sensors have the ability to apply a manual calibration using a known measurement value, perhaps obtained from an external reference device.

Writing a value to this function will force such a calibration change. For the scd30 the value should be from the range [400 1 2000].

Note for the scd30 that a valid value may only be obtained once it is has been written. Until then any read back of this value should be ignored. As for the scd4x an error will be returned immediately if the manual calibration has failed.

/sys/bus/iio/devices/iio:deviceX/calibration_forced_value_available

Defined on file sysfs-bus-iio

Available range for the forced calibration value, expressed as:

  • a range specified as “[min step max]”

/sys/bus/iio/devices/iio:deviceX/cleaning_period

Defined on file sysfs-bus-iio-sps30

Sensor is capable of triggering self cleaning periodically. Period can be changed by writing a new value here. Upon reading the current one is returned. Units are seconds.

Writing 0 disables periodical self cleaning entirely.

/sys/bus/iio/devices/iio:deviceX/cleaning_period_available

Defined on file sysfs-bus-iio-sps30

The range of available values in seconds represented as the minimum value, the step and the maximum value, all enclosed in square brackets.

/sys/bus/iio/devices/iio:deviceX/current_timestamp_clock

Defined on file sysfs-bus-iio

String identifying current posix clock used to timestamp buffered samples and events for device X.

/sys/bus/iio/devices/iio:deviceX/error_status

Defined on file sysfs-bus-iio-chemical-sunrise-co2

Reading returns the current chip error status.

/sys/bus/iio/devices/iio:deviceX/error_status_available

Defined on file sysfs-bus-iio-chemical-sunrise-co2

Reading returns the list of possible chip error status. Available options are: - ‘error_fatal’: Analog front-end initialization error - ‘error_i2c’: Read/write to non-existing register - ‘error_algorithm’: Corrupted parameters - ‘error_calibration’: Calibration has failed - ‘error_self_diagnostic’: Internal interface failure - ‘error_out_of_range’: Measured concentration out of scale - ‘error_memory’: Error during memory operations - ‘error_no_measurement’: Cleared at first measurement - ‘error_low_voltage’: Sensor regulated voltage too low - ‘error_measurement_timeout’: Unable to complete measurement

/sys/bus/iio/devices/iio:deviceX/events

Defined on file sysfs-bus-iio

Configuration of which hardware generated events are passed up to user-space.

/sys/bus/iio/devices/iio:deviceX/events/in_altvoltage0_mag_rising_reset_max

Defined on file sysfs-bus-iio-resolver-ad2s1210

Reading returns the current Degradation of Signal Reset Maximum Threshold value in millivolts. Writing sets the value.

/sys/bus/iio/devices/iio:deviceX/events/in_altvoltage0_mag_rising_reset_max_available

Defined on file sysfs-bus-iio-resolver-ad2s1210

Reading returns the allowable voltage range for in_altvoltage0_mag_rising_reset_max.

/sys/bus/iio/devices/iio:deviceX/events/in_altvoltage0_mag_rising_reset_min

Defined on file sysfs-bus-iio-resolver-ad2s1210

Reading returns the current Degradation of Signal Reset Minimum Threshold value in millivolts. Writing sets the value.

/sys/bus/iio/devices/iio:deviceX/events/in_altvoltage0_mag_rising_reset_min_available

Defined on file sysfs-bus-iio-resolver-ad2s1210

Reading returns the allowable voltage range for in_altvoltage0_mag_rising_reset_min.

/sys/bus/iio/devices/iio:deviceX/events/in_altvoltageY_mag_either_label

/sys/bus/iio/devices/iio:deviceX/events/in_altvoltageY_mag_rising_label

/sys/bus/iio/devices/iio:deviceX/events/in_altvoltageY_thresh_falling_label

/sys/bus/iio/devices/iio:deviceX/events/in_altvoltageY_thresh_rising_label

/sys/bus/iio/devices/iio:deviceX/events/in_anglvelY_mag_rising_label

/sys/bus/iio/devices/iio:deviceX/events/in_anglY_thresh_rising_label

/sys/bus/iio/devices/iio:deviceX/events/in_phaseY_mag_rising_label

Defined on file sysfs-bus-iio

Optional symbolic label to a device channel event. If a label is defined for this event add that to the event specific attributes. This is useful for userspace to be able to better identify an individual event.

/sys/bus/iio/devices/iio:deviceX/events/in_illuminance_period_available

Defined on file sysfs-bus-iio

List of valid periods (in seconds) for which the light intensity must be above the threshold level before interrupt is asserted.

/sys/bus/iio/devices/iio:deviceX/events/in_voltageY_thresh_falling_value

Defined on file sysfs-bus-iio-adc-hi8435

Channel Y low voltage threshold. If sensor input voltage goes lower then this value then the threshold falling event is pushed. Depending on in_voltageY_sensing_mode the low voltage threshold is separately set for “GND-Open” and “Supply-Open” modes. Channels 0..31 have common low threshold values, but could have different sensing_modes.

The low voltage threshold range is between 2..21V. Hysteresis between low and high thresholds can not be lower then 2 and can not be odd.

If falling threshold results hysteresis to odd value then rising threshold is automatically subtracted by one.

/sys/bus/iio/devices/iio:deviceX/events/in_voltageY_thresh_rising_value

Defined on file sysfs-bus-iio-adc-hi8435

Channel Y high voltage threshold. If sensor input voltage goes higher then this value then the threshold rising event is pushed. Depending on in_voltageY_sensing_mode the high voltage threshold is separately set for “GND-Open” and “Supply-Open” modes.

Channels 0..31 have common high threshold values, but could have different sensing_modes.

The high voltage threshold range is between 3..22V. Hysteresis between low and high thresholds can not be lower then 2 and can not be odd.

If rising threshold results hysteresis to odd value then falling threshold is automatically appended by one.

/sys/bus/iio/devices/iio:deviceX/fault_oc

Defined on file sysfs-bus-iio-thermocouple

Open-circuit fault. The detection of open-circuit faults, such as those caused by broken thermocouple wires. Reading returns ‘1’ if fault, ‘0’ otherwise.

/sys/bus/iio/devices/iio:deviceX/fault_ovuv

Defined on file sysfs-bus-iio-thermocouple

Overvoltage or Undervoltage Input Fault. The internal circuitry is protected from excessive voltages applied to the thermocouple cables. The device can also detect if such a condition occurs.

Reading returns ‘1’ if input voltage is negative or greater than VDD, otherwise ‘0’.

/sys/bus/iio/devices/iio:deviceX/filter_mode

Defined on file sysfs-bus-iio-filter-admv8818

This attribute configures the filter mode. Reading returns the actual mode.

/sys/bus/iio/devices/iio:deviceX/filter_mode_available

Defined on file sysfs-bus-iio-filter-admv8818

Reading this returns the valid values that can be written to the filter_mode attribute:

  • auto -> Adjust bandpass filter to track changes in input clock rate.

  • manual -> disable/unregister the clock rate notifier / input clock tracking.

  • bypass -> bypass low pass filter, high pass filter and disable/unregister

    the clock rate notifier

/sys/bus/iio/devices/iio:deviceX/fusion_enable

Defined on file sysfs-bus-iio-bno055

Can be 1 or 0. Enables/disables the “sensor fusion” (a.k.a. NDOF) HW function.

/sys/bus/iio/devices/iio:deviceX/heater_enable

Defined on file sysfs-bus-iio

‘1’ (enable) or ‘0’ (disable) specifying the enable of heater function. Same reading values apply.

This ABI is especially applicable for humidity sensors to heatup the device and get rid of any condensation in some humidity environment

/sys/bus/iio/devices/iio:deviceX/id

Defined on file sysfs-bus-iio-cros-ec

This attribute is exposed by the CrOS EC sensors driver and represents the sensor ID as exposed by the EC. This ID is used by the Android sensor service hardware abstraction layer (sensor HAL) through the Android container on ChromeOS.

/sys/bus/iio/devices/iio:deviceX/in_X_mean_raw

Defined on file sysfs-bus-iio

Averaged raw measurement from channel X. The number of values used for averaging is device specific. The converting rules for normal raw values also applies to the averaged raw values.

/sys/bus/iio/devices/iio:deviceX/in_accel_calibbias_available

/sys/bus/iio/devices/iio:deviceX/in_anglvel_calibbias_available

/sys/bus/iio/devices/iio:deviceX/in_temp_calibbias_available

/sys/bus/iio/devices/iio:deviceX/in_proximity_calibbias_available

/sys/bus/iio/devices/iio:deviceX/in_voltageY_calibbias_available

/sys/bus/iio/devices/iio:deviceX/out_voltageY_calibbias_available

Defined on file sysfs-bus-iio

Available values of calibbias. Maybe expressed as either of:

  • a small discrete set of values like “0 2 4 6 8”

  • a range specified as “[min step max]”

/sys/bus/iio/devices/iio:deviceX/in_accel_calibration_auto_status

Defined on file sysfs-bus-iio-bno055

Reports the autocalibration status for the accelerometer sensor. Can be 0 (calibration non even enabled) or 1 to 5 where the greater the number, the better the calibration status.

/sys/bus/iio/devices/iio:deviceX/in_accel_linear_x_raw

/sys/bus/iio/devices/iio:deviceX/in_accel_linear_y_raw

/sys/bus/iio/devices/iio:deviceX/in_accel_linear_z_raw

Defined on file sysfs-bus-iio

As per in_accel_X_raw attributes, but minus the acceleration due to gravity.

/sys/bus/iio/devices/iio:deviceX/in_accel_offset

/sys/bus/iio/devices/iio:deviceX/in_accel_x_offset

/sys/bus/iio/devices/iio:deviceX/in_accel_y_offset

/sys/bus/iio/devices/iio:deviceX/in_accel_z_offset

/sys/bus/iio/devices/iio:deviceX/in_voltageY_offset

/sys/bus/iio/devices/iio:deviceX/in_voltage_offset

/sys/bus/iio/devices/iio:deviceX/in_voltageY_i_offset

/sys/bus/iio/devices/iio:deviceX/in_voltageY_q_offset

/sys/bus/iio/devices/iio:deviceX/in_voltage_q_offset

/sys/bus/iio/devices/iio:deviceX/in_voltage_i_offset

/sys/bus/iio/devices/iio:deviceX/in_currentY_offset

/sys/bus/iio/devices/iio:deviceX/in_current_offset

/sys/bus/iio/devices/iio:deviceX/in_currentY_i_offset

/sys/bus/iio/devices/iio:deviceX/in_currentY_q_offset

/sys/bus/iio/devices/iio:deviceX/in_current_q_offset

/sys/bus/iio/devices/iio:deviceX/in_current_i_offset

/sys/bus/iio/devices/iio:deviceX/in_tempY_offset

/sys/bus/iio/devices/iio:deviceX/in_temp_offset

/sys/bus/iio/devices/iio:deviceX/in_pressureY_offset

/sys/bus/iio/devices/iio:deviceX/in_pressure_offset

/sys/bus/iio/devices/iio:deviceX/in_humidityrelative_offset

/sys/bus/iio/devices/iio:deviceX/in_magn_offset

/sys/bus/iio/devices/iio:deviceX/in_rot_offset

/sys/bus/iio/devices/iio:deviceX/in_angl_offset

/sys/bus/iio/devices/iio:deviceX/in_capacitanceX_offset

Defined on file sysfs-bus-iio

If known for a device, offset to be added to <type>[Y]_raw prior to scaling by <type>[Y]_scale in order to obtain value in the <type> units as specified in <type>[Y]_raw documentation. Not present if the offset is always 0 or unknown. If Y or axis <x|y|z> is not present, then the offset applies to all in channels of <type>. May be writable if a variable offset can be applied on the device. Note that this is different to calibbias which is for devices (or drivers) that apply offsets to compensate for variation between different instances of the part, typically adjusted by using some hardware supported calibration procedure. Calibbias is applied internally, offset is applied in userspace to the _raw output.

/sys/bus/iio/devices/iio:deviceX/in_accel_power_mode

Defined on file sysfs-bus-iio-inv_icm42600

Accelerometer power mode. Setting this attribute will set the requested power mode to use if the ODR support it. If ODR support only 1 mode, power mode will be enforced. Reading this attribute will return the current accelerometer power mode if the sensor is on, or the requested value if the sensor is off. The value between real and requested value can be different for ODR supporting only 1 mode.

/sys/bus/iio/devices/iio:deviceX/in_accel_power_mode_available

Defined on file sysfs-bus-iio-inv_icm42600

List of available accelerometer power modes that can be set in in_accel_power_mode attribute.

/sys/bus/iio/devices/iio:deviceX/in_accel_raw_range

Defined on file sysfs-bus-iio-bno055

Raw (unscaled) range for acceleration readings. Unit after application of scale is m/s^2. Note that this doesn’t affects the scale (which should be used when changing the maximum and minimum readable value affects also the reading scaling factor).

/sys/bus/iio/devices/iio:deviceX/in_accel_raw_range_available

Defined on file sysfs-bus-iio-bno055

List of allowed values for in_accel_raw_range attribute

/sys/bus/iio/devices/iio:deviceX/in_accel_scale_available

/sys/.../iio:deviceX/in_anglvel_scale_available

/sys/.../iio:deviceX/in_magn_scale_available

/sys/.../iio:deviceX/in_illuminance_scale_available

/sys/.../iio:deviceX/in_intensity_scale_available

/sys/.../iio:deviceX/in_proximity_scale_available

/sys/.../iio:deviceX/in_voltageX_scale_available

/sys/.../iio:deviceX/in_voltage-voltage_scale_available

/sys/.../iio:deviceX/out_voltageX_scale_available

/sys/.../iio:deviceX/out_altvoltageX_scale_available

/sys/.../iio:deviceX/in_capacitance_scale_available

/sys/.../iio:deviceX/in_pressure_scale_available

/sys/.../iio:deviceX/in_pressureY_scale_available

Defined on file sysfs-bus-iio

If a discrete set of scale values is available, they are listed in this attribute. Unlike illumination, multiplying intensity by intensity_scale does not yield value with any standardized unit.

/sys/bus/iio/devices/iio:deviceX/in_accel_x_calibbias

/sys/bus/iio/devices/iio:deviceX/in_accel_y_calibbias

/sys/bus/iio/devices/iio:deviceX/in_accel_z_calibbias

/sys/bus/iio/devices/iio:deviceX/in_altvoltageY_i_calibbias

/sys/bus/iio/devices/iio:deviceX/in_altvoltageY_q_calibbias

/sys/bus/iio/devices/iio:deviceX/in_anglvel_x_calibbias

/sys/bus/iio/devices/iio:deviceX/in_anglvel_y_calibbias

/sys/bus/iio/devices/iio:deviceX/in_anglvel_z_calibbias

/sys/bus/iio/devices/iio:deviceX/in_capacitance_calibbias

/sys/bus/iio/devices/iio:deviceX/in_illuminance_calibbias

/sys/bus/iio/devices/iio:deviceX/in_illuminance0_calibbias

/sys/bus/iio/devices/iio:deviceX/in_intensityY_calibbias

/sys/bus/iio/devices/iio:deviceX/in_magn_x_calibbias

/sys/bus/iio/devices/iio:deviceX/in_magn_y_calibbias

/sys/bus/iio/devices/iio:deviceX/in_magn_z_calibbias

/sys/bus/iio/devices/iio:deviceX/in_pressure_calibbias

/sys/bus/iio/devices/iio:deviceX/in_pressureY_calibbias

/sys/bus/iio/devices/iio:deviceX/in_proximity_calibbias

/sys/bus/iio/devices/iio:deviceX/in_proximity0_calibbias

/sys/bus/iio/devices/iio:deviceX/in_resistance_calibbias

/sys/bus/iio/devices/iio:deviceX/in_temp_calibbias

/sys/bus/iio/devices/iio:deviceX/in_voltageY_calibbias

/sys/bus/iio/devices/iio:deviceX/out_currentY_calibbias

/sys/bus/iio/devices/iio:deviceX/out_voltageY_calibbias

Defined on file sysfs-bus-iio

Hardware applied calibration offset (assumed to fix production inaccuracies). icm42600: For this device values are real physical offsets expressed in SI units (m/s^2 for accelerometers and rad/s for gyroscope)/

/sys/bus/iio/devices/iio:deviceX/in_accel_x_calibscale

/sys/bus/iio/devices/iio:deviceX/in_accel_y_calibscale

/sys/bus/iio/devices/iio:deviceX/in_accel_z_calibscale

/sys/bus/iio/devices/iio:deviceX/in_altvoltage_calibscale

/sys/bus/iio/devices/iio:deviceX/in_anglvel_x_calibscale

/sys/bus/iio/devices/iio:deviceX/in_anglvel_y_calibscale

/sys/bus/iio/devices/iio:deviceX/in_anglvel_z_calibscale

/sys/bus/iio/devices/iio:deviceX/in_capacitance_calibscale

/sys/bus/iio/devices/iio:deviceX/in_illuminance_calibscale

/sys/bus/iio/devices/iio:deviceX/in_illuminance0_calibscale

/sys/bus/iio/devices/iio:deviceX/in_intensity_both_calibscale

/sys/bus/iio/devices/iio:deviceX/in_intensity_calibscale

/sys/bus/iio/devices/iio:deviceX/in_intensity_ir_calibscale

/sys/bus/iio/devices/iio:deviceX/in_magn_x_calibscale

/sys/bus/iio/devices/iio:deviceX/in_magn_y_calibscale

/sys/bus/iio/devices/iio:deviceX/in_magn_z_calibscale

/sys/bus/iio/devices/iio:deviceX/in_pressure_calibscale

/sys/bus/iio/devices/iio:deviceX/in_pressureY_calibscale

/sys/bus/iio/devices/iio:deviceX/in_proximity0_calibscale

/sys/bus/iio/devices/iio:deviceX/in_voltage_calibscale

/sys/bus/iio/devices/iio:deviceX/in_voltage_i_calibscale

/sys/bus/iio/devices/iio:deviceX/in_voltage_q_calibscale

/sys/bus/iio/devices/iio:deviceX/in_voltageY_calibscale

/sys/bus/iio/devices/iio:deviceX/in_voltageY_i_calibscale

/sys/bus/iio/devices/iio:deviceX/in_voltageY_q_calibscale

/sys/bus/iio/devices/iio:deviceX/in_voltageY_supply_calibscale

/sys/bus/iio/devices/iio:deviceX/out_currentY_calibscale

/sys/bus/iio/devices/iio:deviceX/out_voltageY_calibscale

Defined on file sysfs-bus-iio

Hardware applied calibration scale factor (assumed to fix production inaccuracies). If shared across all channels, <type>_calibscale is used.

/sys/bus/iio/devices/iio:deviceX/in_accel_x_peak_raw

/sys/bus/iio/devices/iio:deviceX/in_accel_y_peak_raw

/sys/bus/iio/devices/iio:deviceX/in_accel_z_peak_raw

/sys/bus/iio/devices/iio:deviceX/in_humidityrelative_peak_raw

/sys/bus/iio/devices/iio:deviceX/in_temp_peak_raw

Defined on file sysfs-bus-iio

Highest value since some reset condition. These attributes allow access to this and are otherwise the direct equivalent of the <type>Y[_name]_raw attributes.

/sys/bus/iio/devices/iio:deviceX/in_accel_x_raw

/sys/bus/iio/devices/iio:deviceX/in_accel_y_raw

/sys/bus/iio/devices/iio:deviceX/in_accel_z_raw

Defined on file sysfs-bus-iio

Acceleration in direction x, y or z (may be arbitrarily assigned but should match other such assignments on device). Has all of the equivalent parameters as per voltageY. Units after application of scale and offset are m/s^2.

/sys/bus/iio/devices/iio:deviceX/in_accel_xyz_squared_peak_raw

Defined on file sysfs-bus-iio

A computed peak value based on the sum squared magnitude of the underlying value in the specified directions.

/sys/bus/iio/devices/iio:deviceX/in_activity_calibgender_available

/sys/bus/iio/devices/iio:deviceX/in_energy_calibgender_available

/sys/bus/iio/devices/iio:deviceX/in_distance_calibgender_available

/sys/bus/iio/devices/iio:deviceX/in_velocity_calibgender_available

Defined on file sysfs-bus-iio

Lists all available gender values (e.g.: male, female).

/sys/bus/iio/devices/iio:deviceX/in_activity_calibgender

/sys/bus/iio/devices/iio:deviceX/in_energy_calibgender

/sys/bus/iio/devices/iio:deviceX/in_distance_calibgender

/sys/bus/iio/devices/iio:deviceX/in_velocity_calibgender

Defined on file sysfs-bus-iio

Gender of the user (e.g.: male, female) used by some pedometers to compute the stride length, distance, speed and activity type.

/sys/bus/iio/devices/iio:deviceX/in_activity_calibheight

/sys/bus/iio/devices/iio:deviceX/in_energy_calibheight

/sys/bus/iio/devices/iio:deviceX/in_distance_calibheight

/sys/bus/iio/devices/iio:deviceX/in_velocity_calibheight

Defined on file sysfs-bus-iio

Height of the user (in meters) used by some pedometers to compute the stride length, distance, speed and activity type.

/sys/bus/iio/devices/iio:deviceX/in_allow_async_readout

Defined on file sysfs-bus-iio-ina2xx-adc

By default (value ‘0’), the capture thread checks for the Conversion Ready Flag to being set prior to committing a new value to the sample buffer. This synchronizes the in-chip conversion rate with the in-driver readout rate at the cost of an additional register read.

Writing ‘1’ will remove the polling for the Conversion Ready Flags to save the additional i2c transaction, which will improve the bandwidth available for reading data. However, samples can be occasionally skipped or repeated, depending on the beat between the capture and conversion rates.

/sys/bus/iio/devices/iio:deviceX/in_altvoltage0-1_i_calibphase

Defined on file sysfs-bus-iio-frequency-admv1013

Read/write unscaled value for the Local Oscillatior path quadrature I phase shift.

/sys/bus/iio/devices/iio:deviceX/in_altvoltage0-1_q_calibphase

Defined on file sysfs-bus-iio-frequency-admv1013

Read/write unscaled value for the Local Oscillatior path quadrature Q phase shift.

/sys/bus/iio/devices/iio:deviceX/in_altvoltage0_i_calibbias

Defined on file sysfs-bus-iio-frequency-admv1013

Read/write value for the Local Oscillatior Feedthrough Offset Calibration I Positive side.

/sys/bus/iio/devices/iio:deviceX/in_altvoltage0_i_calibscale_coarse

Defined on file sysfs-bus-iio-frequency-admv1014

Read/write value for the digital attenuator gain (IF_I) with coarse steps.

/sys/bus/iio/devices/iio:deviceX/in_altvoltage0_i_calibscale_fine

Defined on file sysfs-bus-iio-frequency-admv1014

Read/write value for the digital attenuator gain (IF_I) with fine steps.

/sys/bus/iio/devices/iio:deviceX/in_altvoltage0_q_calibbias

Defined on file sysfs-bus-iio-frequency-admv1013

Read/write value for the Local Oscillatior Feedthrough Offset Calibration Q Positive side.

/sys/bus/iio/devices/iio:deviceX/in_altvoltage0_q_calibscale_coarse

Defined on file sysfs-bus-iio-frequency-admv1014

Read/write value for the digital attenuator gain (IF_Q) with coarse steps.

/sys/bus/iio/devices/iio:deviceX/in_altvoltage0_q_calibscale_fine

Defined on file sysfs-bus-iio-frequency-admv1014

Read/write value for the digital attenuator gain (IF_Q) with fine steps.

/sys/bus/iio/devices/iio:deviceX/in_altvoltage1_i_calibbias

Defined on file sysfs-bus-iio-frequency-admv1013

Read/write raw value for the Local Oscillatior Feedthrough Offset Calibration I Negative side.

/sys/bus/iio/devices/iio:deviceX/in_altvoltage1_q_calibbias

Defined on file sysfs-bus-iio-frequency-admv1013

Read/write raw value for the Local Oscillatior Feedthrough Offset Calibration Q Negative side.

/sys/bus/iio/devices/iio:deviceX/in_altvoltageY_compare_interval

Defined on file sysfs-bus-iio-adc-envelope-detector

Number of milliseconds to wait for the comparator in each step of the binary search for the input peak level. Needs to relate to the frequency of the input signal.

/sys/bus/iio/devices/iio:deviceX/in_altvoltageY_invert

Defined on file sysfs-bus-iio-adc-envelope-detector

The DAC is used to find the peak level of an alternating voltage input signal by a binary search using the output of a comparator wired to an interrupt pin. Like so:

                      _
                     | \
input +------>-------|+ \
                     |   \
       .-------.     |    }---.
       |       |     |   /    |
       |    dac|-->--|- /     |
       |       |     |_/      |
       |       |              |
       |       |              |
       |    irq|------<-------'
       |       |
       '-------'

The boolean invert attribute (0/1) should be set when the input signal is centered around the maximum value of the dac instead of zero. The envelope detector will search from below in this case and will also invert the result.

The edge/level of the interrupt is also switched to its opposite value.

/sys/bus/iio/devices/iio:deviceX/in_anglY_label

Defined on file sysfs-bus-iio

Optional symbolic label for channel Y. For Intel hid hinge sensor, the label values are: hinge, keyboard, screen. It means the three channels each correspond respectively to hinge angle, keyboard angle, and screen angle.

/sys/bus/iio/devices/iio:deviceX/in_angl_raw

/sys/bus/iio/devices/iio:deviceX/in_anglY_raw

Defined on file sysfs-bus-iio

Angle of rotation. Units after application of scale and offset are radians.

/sys/bus/iio/devices/iio:deviceX/in_anglvel_raw_range

Defined on file sysfs-bus-iio-bno055

Range for angular velocity readings in radians per second. Note that this does not affects the scale (which should be used when changing the maximum and minimum readable value affects also the reading scaling factor).

/sys/bus/iio/devices/iio:deviceX/in_anglvel_raw_range_available

Defined on file sysfs-bus-iio-bno055

List of allowed values for in_anglvel_raw_range attribute

/sys/bus/iio/devices/iio:deviceX/in_anglvel_x_raw

/sys/bus/iio/devices/iio:deviceX/in_anglvel_y_raw

/sys/bus/iio/devices/iio:deviceX/in_anglvel_z_raw

Defined on file sysfs-bus-iio

Angular velocity about axis x, y or z (may be arbitrarily assigned). Has all the equivalent parameters as per voltageY. Units after application of scale and offset are radians per second.

/sys/bus/iio/devices/iio:deviceX/in_capacitanceY_raw

Defined on file sysfs-bus-iio

Raw capacitance measurement from channel Y. Units after application of scale and offset are nanofarads.

/sys/bus/iio/devices/iio:deviceX/in_chromaticity_x_raw

/sys/bus/iio/devices/iio:deviceX/in_chromaticity_y_raw

Defined on file sysfs-bus-iio

The x and y light color coordinate on the CIE 1931 chromaticity diagram.

/sys/bus/iio/devices/iio:deviceX/in_colortemp_raw

Defined on file sysfs-bus-iio

Represents light color temperature, which measures light color temperature in Kelvin.

/sys/bus/iio/devices/iio:deviceX/in_concentration_VOC_short_raw

Defined on file sysfs-bus-iio-chemical-vz89x

Get the raw calibration VOC value from the sensor. This value has little application outside of calibration.

/sys/bus/iio/devices/iio:deviceX/in_concentration_co2_calibration_background

Defined on file sysfs-bus-iio-chemical-sunrise-co2

Writing ‘1’ triggers a ‘Background’ calibration cycle.

/sys/bus/iio/devices/iio:deviceX/in_concentration_co2_calibration_factory

Defined on file sysfs-bus-iio-chemical-sunrise-co2

Writing ‘1’ triggers a ‘Factory’ calibration cycle.

/sys/bus/iio/devices/iio:deviceX/in_concentration_raw

/sys/bus/iio/devices/iio:deviceX/in_concentrationX_raw

/sys/bus/iio/devices/iio:deviceX/in_concentration_co2_raw

/sys/bus/iio/devices/iio:deviceX/in_concentrationX_co2_raw

/sys/bus/iio/devices/iio:deviceX/in_concentration_ethanol_raw

/sys/bus/iio/devices/iio:deviceX/in_concentrationX_ethanol_raw

/sys/bus/iio/devices/iio:deviceX/in_concentration_h2_raw

/sys/bus/iio/devices/iio:deviceX/in_concentrationX_h2_raw

/sys/bus/iio/devices/iio:deviceX/in_concentration_o2_raw

/sys/bus/iio/devices/iio:deviceX/in_concentrationX_o2_raw

/sys/bus/iio/devices/iio:deviceX/in_concentration_voc_raw

/sys/bus/iio/devices/iio:deviceX/in_concentrationX_voc_raw

Defined on file sysfs-bus-iio

Raw (unscaled no offset etc.) reading of a substance. Units after application of scale and offset are percents.

/sys/bus/iio/devices/iio:deviceX/in_conversion_mode

Defined on file sysfs-bus-iio-vf610

Specifies the hardware conversion mode used. The three available modes are “normal”, “high-speed” and “low-power”, where the last is the default mode.

/sys/bus/iio/devices/iio:deviceX/in_count0_enable_mode

Defined on file sysfs-bus-iio-timer-stm32

Configure the device counter enable modes, in all case counting direction is set by in_count0_count_direction attribute and the counter is clocked by the internal clock.

always:

Counter is always ON.

gated:

Counting is enabled when connected trigger signal level is high else counting is disabled.

triggered:

Counting is enabled on rising edge of the connected trigger, and remains enabled for the duration of this selected mode.

/sys/bus/iio/devices/iio:deviceX/in_count0_preset

Defined on file sysfs-bus-iio-timer-stm32

Reading returns the current preset value. Writing sets the preset value. When counting up the counter starts from 0 and fires an event when reach preset value. When counting down the counter start from preset value and fire event when reach 0.

/sys/bus/iio/devices/iio:deviceX/in_count0_trigger_mode

Defined on file sysfs-bus-iio-timer-stm32

Configure the device counter trigger mode counting direction is set by in_count0_count_direction attribute and the counter is clocked by the connected trigger rising edges.

/sys/bus/iio/devices/iio:deviceX/in_countY_count_direction

Defined on file sysfs-bus-iio

This interface is deprecated; please use the Counter subsystem.

Raw counter device counters direction for channel Y.

/sys/bus/iio/devices/iio:deviceX/in_countY_raw

Defined on file sysfs-bus-iio

This interface is deprecated; please use the Counter subsystem.

Raw counter device counts from channel Y. For quadrature counters, multiplication by an available [Y]_scale results in the counts of a single quadrature signal phase from channel Y.

/sys/bus/iio/devices/iio:deviceX/in_count_count_direction_available

Defined on file sysfs-bus-iio

This interface is deprecated; please use the Counter subsystem.

A list of possible counting directions which are:

  • “up” : counter device is increasing.

  • “down”: counter device is decreasing.

/sys/bus/iio/devices/iio:deviceX/in_count_enable_mode_available

Defined on file sysfs-bus-iio-timer-stm32

Reading returns the list possible enable modes.

/sys/bus/iio/devices/iio:deviceX/in_count_trigger_mode_available

Defined on file sysfs-bus-iio-timer-stm32

Reading returns the list possible trigger modes.

/sys/bus/iio/devices/iio:deviceX/in_current5_raw

Defined on file sysfs-bus-iio-adc-mt6360

Indicated MT6360 IBUS ADC Calculating with scale and offset returns voltage in uA

/sys/bus/iio/devices/iio:deviceX/in_current6_raw

Defined on file sysfs-bus-iio-adc-mt6360

Indicated MT6360 IBAT ADC Calculating with scale and offset returns voltage in uA

/sys/bus/iio/devices/iio:deviceX/in_current7_raw

Defined on file sysfs-bus-iio-adc-mt6360

Indicated MT6360 CHG_VDDP ADC Calculating with scale and offset returns voltage in uV

/sys/bus/iio/devices/iio:deviceX/in_currentX_raw

/sys/bus/iio/devices/iio:deviceX/in_currentX_i_raw

/sys/bus/iio/devices/iio:deviceX/in_currentX_q_raw

Defined on file sysfs-bus-iio

Raw current measurement from channel X. Units are in milliamps after application of scale and offset. If no offset or scale is present, output should be considered as processed with the unit in milliamps.

Channels with ‘i’ and ‘q’ modifiers always exist in pairs and both channels refer to the same signal. The ‘i’ channel contains the in-phase component of the signal while the ‘q’ channel contains the quadrature component.

/sys/bus/iio/devices/iio:deviceX/in_currentY_raw

/sys/bus/iio/devices/iio:deviceX/in_currentY_supply_raw

Defined on file sysfs-bus-iio

Raw (unscaled no bias removal etc.) current measurement from channel Y. In special cases where the channel does not correspond to externally available input one of the named versions may be used. The number must always be specified and unique to allow association with event codes. Units after application of scale and offset are milliamps.

/sys/bus/iio/devices/iio:deviceX/in_deltaangl_x_raw

/sys/bus/iio/devices/iio:deviceX/in_deltaangl_y_raw

/sys/bus/iio/devices/iio:deviceX/in_deltaangl_z_raw

Defined on file sysfs-bus-iio

Angular displacement between two consecutive samples on x, y or z (may be arbitrarily assigned but should match other such assignments on device). In order to compute the total angular displacement during a desired period of time, the application should sum-up the delta angle samples acquired during that time. Units after application of scale and offset are radians.

/sys/bus/iio/devices/iio:deviceX/in_deltavelocity_x_raw

/sys/bus/iio/devices/iio:deviceX/in_deltavelocity_y_raw

/sys/bus/iio/devices/iio:deviceX/in_deltavelocity_z_raw

Defined on file sysfs-bus-iio

The linear velocity change between two consecutive samples on x, y or z (may be arbitrarily assigned but should match other such assignments on device). In order to compute the total linear velocity change during a desired period of time, the application should sum-up the delta velocity samples acquired during that time. Units after application of scale and offset are meters per second.

/sys/bus/iio/devices/iio:deviceX/in_electricalconductivity_raw

Defined on file sysfs-bus-iio

Raw (unscaled no offset etc.) electric conductivity reading. Units after application of scale and offset are siemens per meter.

/sys/bus/iio/devices/iio:deviceX/in_energy_calibweight

Defined on file sysfs-bus-iio

Weight of the user (in kg). It is needed by some pedometers to compute the calories burnt by the user.

/sys/bus/iio/devices/iio:deviceX/in_filter_notch_center_frequency

Defined on file sysfs-bus-iio

Center frequency in Hz for a notch filter. Used i.e. for line noise suppression.

/sys/bus/iio/devices/iio:deviceX/in_gravity_x_raw

/sys/bus/iio/devices/iio:deviceX/in_gravity_y_raw

/sys/bus/iio/devices/iio:deviceX/in_gravity_z_raw

Defined on file sysfs-bus-iio

Gravity in direction x, y or z (may be arbitrarily assigned but should match other such assignments on device). Units after application of scale and offset are m/s^2.

/sys/bus/iio/devices/iio:deviceX/in_gyro_calibration_auto_status

Defined on file sysfs-bus-iio-bno055

Reports the autocalibration status for the gyroscope sensor. Can be 0 (calibration non even enabled) or 1 to 5 where the greater the number, the better the calibration status.

/sys/bus/iio/devices/iio:deviceX/in_gyro_matrix

/sys/bus/iio/devices/iio:deviceX/in_accel_matrix

/sys/bus/iio/devices/iio:deviceX/in_magn_matrix

Defined on file sysfs-bus-iio-mpu6050

This is mounting matrix for motion sensors. Mounting matrix is a 3x3 unitary matrix. A typical mounting matrix would look like [0, 1, 0; 1, 0, 0; 0, 0, -1]. Using this information, it would be easy to tell the relative positions among sensors as well as their positions relative to the board that holds these sensors. Identity matrix [1, 0, 0; 0, 1, 0; 0, 0, 1] means sensor chip and device are perfectly aligned with each other. All axes are exactly the same.

/sys/bus/iio/devices/iio:deviceX/in_humidityrelative_input

Defined on file sysfs-bus-iio

Scaled humidity measurement in milli percent.

/sys/bus/iio/devices/iio:deviceX/in_humidityrelative_raw

Defined on file sysfs-bus-iio

Raw humidity measurement of air. Units after application of scale and offset are milli percent.

/sys/bus/iio/devices/iio:deviceX/in_humidityrelative_trough_raw

/sys/bus/iio/devices/iio:deviceX/in_temp_trough_raw

Defined on file sysfs-bus-iio

Lowest value since some reset condition. These attributes allow access to this and are otherwise the direct equivalent of the <type>Y[_name]_raw attributes.

/sys/bus/iio/devices/iio:deviceX/in_illuminance0_zone

Defined on file sysfs-bus-iio-light-lm3533-als

Get the current light zone (0..4) as defined by the in_illuminance0_threshY_{falling,rising} thresholds.

/sys/bus/iio/devices/iio:deviceX/in_illuminanceY_calibscale_available

/sys/bus/iio/devices/iio:deviceX/in_intensityY_calibscale_available

/sys/bus/iio/devices/iio:deviceX/in_proximityY_calibscale_available

/sys/bus/iio/devices/iio:deviceX/in_voltageY_calibscale_available

Defined on file sysfs-bus-iio

Available values of calibscale. Maybe expressed as either of:

  • a small discrete set of values like “1 8 16”

  • a range specified as “[min step max]”

If shared across all channels, <type>_calibscale_available is used.

/sys/bus/iio/devices/iio:deviceX/in_illuminance_hysteresis_relative

/sys/bus/iio/devices/iio:deviceX/in_intensity_hysteresis_relative

Defined on file sysfs-bus-iio

Specify the percent for light sensor relative to the channel absolute value that a data field should change before an event is generated. Units are a percentage of the prior reading.

/sys/bus/iio/devices/iio:deviceX/in_incli_x_raw

/sys/bus/iio/devices/iio:deviceX/in_incli_y_raw

/sys/bus/iio/devices/iio:deviceX/in_incli_z_raw

Defined on file sysfs-bus-iio

Inclination raw reading about axis x, y or z (may be arbitrarily assigned). Data converted by application of offset and scale to degrees.

/sys/bus/iio/devices/iio:deviceX/in_indexY_raw

Defined on file sysfs-bus-iio

This interface is deprecated; please use the Counter subsystem.

Raw counter device index value from channel Y. This attribute provides an absolute positional reference (e.g. a pulse once per revolution) which may be used to home positional systems as required.

/sys/bus/iio/devices/iio:deviceX/in_intensityY_offset

Defined on file sysfs-bus-iio-health-afe440x

Get and set the offset cancellation DAC setting for these stages. The values are expressed in 5-bit sign-magnitude.

/sys/bus/iio/devices/iio:deviceX/in_intensityY_raw

Defined on file sysfs-bus-iio-health-afe440x

Get measured values from the ADC for these stages. Y is the specific stage number corresponding to datasheet stage names as follows:

1

LED2

2

ALED2/LED3

3

LED1

4

ALED1/LED4

Note that channels 5 and 6 represent LED2-ALED2 and LED1-ALED1 respectively which simply helper channels containing the calculated difference in the value of stage 1 - 2 and 3 - 4. The values are expressed in 24-bit twos complement. The LED current for the stage is controlled via out_currentY_raw.

/sys/bus/iio/devices/iio:deviceX/in_intensityY_resistance

/sys/bus/iio/devices/iio:deviceX/in_intensityY_capacitance

Defined on file sysfs-bus-iio-health-afe440x

Get and set the resistance and the capacitance settings for the Transimpedance Amplifier during the associated stage.

/sys/bus/iio/devices/iio:deviceX/in_intensity_hardwaregain_available

Defined on file sysfs-bus-iio

Lists all available hardware applied gain factors. Shared across all channels.

/sys/bus/iio/devices/iio:deviceX/in_intensity_ir_large_raw

Defined on file sysfs-bus-iio-light-si1133

Unit-less infrared intensity. The intensity is measured from 4 dark photodiodes. “large” indicate the surface area capturing infrared.

/sys/bus/iio/devices/iio:deviceX/in_intensity_ir_small_raw

Defined on file sysfs-bus-iio-light-si1133

Unit-less infrared intensity. The intensity is measured from 1 dark photodiode. “small” indicate the surface area capturing infrared.

/sys/bus/iio/devices/iio:deviceX/in_intensity_large_raw

Defined on file sysfs-bus-iio-light-si1133

Unit-less light intensity with more diodes.

/sys/bus/iio/devices/iio:deviceX/in_intensity_x_raw

/sys/bus/iio/devices/iio:deviceX/in_intensity_y_raw

/sys/bus/iio/devices/iio:deviceX/in_intensity_z_raw

Defined on file sysfs-bus-iio

Unscaled light intensity according to CIE 1931/DIN 5033 color space. Units after application of scale are nano nanowatts per square meter.

/sys/bus/iio/devices/iio:deviceX/in_magn_calibration_auto_status

Defined on file sysfs-bus-iio-bno055

Reports the autocalibration status for the magnetometer sensor. Can be 0 (calibration non even enabled) or 1 to 5 where the greater the number, the better the calibration status.

/sys/bus/iio/devices/iio:deviceX/in_magn_calibration_fast_enable

Defined on file sysfs-bus-iio-bno055

Can be 1 or 0. Enables/disables the “Fast Magnetometer Calibration” HW function.

/sys/bus/iio/devices/iio:deviceX/in_magn_x_oversampling_ratio

/sys/bus/iio/devices/iio:deviceX/in_magn_y_oversampling_ratio

/sys/bus/iio/devices/iio:deviceX/in_magn_z_oversampling_ratio

Defined on file sysfs-bus-iio

Hardware applied number of measurements for acquiring one data point. The HW will do <type>[_name]_oversampling_ratio measurements and return the average value as output data. Each value resulted from <type>[_name]_oversampling_ratio measurements is considered as one sample for <type>[_name]_sampling_frequency.

/sys/bus/iio/devices/iio:deviceX/in_magn_x_raw

/sys/bus/iio/devices/iio:deviceX/in_magn_y_raw

/sys/bus/iio/devices/iio:deviceX/in_magn_z_raw

Defined on file sysfs-bus-iio

Magnetic field along axis x, y or z (may be arbitrarily assigned). Data converted by application of offset then scale to Gauss.

/sys/bus/iio/devices/iio:deviceX/in_massconcentration_pm1_input

/sys/bus/iio/devices/iio:deviceX/in_massconcentrationY_pm1_input

/sys/bus/iio/devices/iio:deviceX/in_massconcentration_pm2p5_input

/sys/bus/iio/devices/iio:deviceX/in_massconcentrationY_pm2p5_input

/sys/bus/iio/devices/iio:deviceX/in_massconcentration_pm4_input

/sys/bus/iio/devices/iio:deviceX/in_massconcentrationY_pm4_input

/sys/bus/iio/devices/iio:deviceX/in_massconcentration_pm10_input

/sys/bus/iio/devices/iio:deviceX/in_massconcentrationY_pm10_input

Defined on file sysfs-bus-iio

Mass concentration reading of particulate matter in ug / m3. pmX consists of particles with aerodynamic diameter less or equal to X micrometers.

/sys/bus/iio/devices/iio:deviceX/in_ph_raw

Defined on file sysfs-bus-iio

Raw (unscaled no offset etc.) pH reading of a substance as a negative base-10 logarithm of hydrodium ions in a litre of water.

/sys/bus/iio/devices/iio:deviceX/in_phaseY_raw

Defined on file sysfs-bus-iio

Raw (unscaled) phase difference reading from channel Y. Units after application of scale and offset are radians.

/sys/bus/iio/devices/iio:deviceX/in_positionrelative_x_raw

/sys/bus/iio/devices/iio:deviceX/in_positionrelative_y_raw

Defined on file sysfs-bus-iio

Relative position in direction x or y on a pad (may be arbitrarily assigned but should match other such assignments on device). Units after application of scale and offset are milli percents from the pad’s size in both directions. Should be calibrated by the consumer.

/sys/bus/iio/devices/iio:deviceX/in_powerY_raw

Defined on file sysfs-bus-iio

Raw (unscaled no bias removal etc.) power measurement from channel Y. The number must always be specified and unique to allow association with event codes. Units after application of scale and offset are milliwatts.

/sys/bus/iio/devices/iio:deviceX/in_pressureY_input

/sys/bus/iio/devices/iio:deviceX/in_pressure_input

Defined on file sysfs-bus-iio

Scaled pressure measurement from channel Y, in kilopascal.

/sys/bus/iio/devices/iio:deviceX/in_pressureY_raw

/sys/bus/iio/devices/iio:deviceX/in_pressure_raw

Defined on file sysfs-bus-iio

Raw pressure measurement from channel Y. Units after application of scale and offset are kilopascal.

/sys/bus/iio/devices/iio:deviceX/in_proximity0_agc_gain

/sys/bus/iio/devices/iio:deviceX/in_proximity0_agc_gain_bias

Defined on file sysfs-bus-iio-isl29501

This sensor has an automatic gain control (agc) loop which sets the analog signal levels at an optimum level by controlling programmable gain amplifiers. The criteria for optimal gain is determined by the sensor.

Return the actual gain value as an integer in [0; 65536] range when read from.

The agc gain read when measuring crosstalk shall be written into in_proximity0_agc_gain_bias.

/sys/bus/iio/devices/iio:deviceX/in_proximity0_calib_phase_temp_a

/sys/bus/iio/devices/iio:deviceX/in_proximity0_calib_phase_temp_b

/sys/bus/iio/devices/iio:deviceX/in_proximity0_calib_phase_light_a

/sys/bus/iio/devices/iio:deviceX/in_proximity0_calib_phase_light_b

Defined on file sysfs-bus-iio-isl29501

The sensor is able to perform correction of distance measurements due to changing temperature and ambient light conditions. It can be programmed to correct for a second order error polynomial.

Phase data has to be collected when temperature and ambient light are modulated independently.

Then a least squares curve fit to a second order polynomial has to be generated from the data. The resultant curves have the form ax^2 + bx + c.

From those two curves, a and b coefficients shall be stored in in_proximity0_calib_phase_temp_a and in_proximity0_calib_phase_temp_b for temperature and in in_proximity0_calib_phase_light_a and in_proximity0_calib_phase_light_b for ambient light.

Those values must be integer in [0; 8355840] range.

Finally, the c constant is set by the sensor internally.

The value stored in sensor is displayed when read from.

/sys/bus/iio/devices/iio:deviceX/in_proximity3_comb_raw

Defined on file sysfs-bus-iio-sx9310

Proximity measurement indicating that some object is near the combined sensor. The combined sensor presents proximity measurements constructed by hardware by combining measurements taken from a given set of physical sensors.

/sys/bus/iio/devices/iio:deviceX/in_proximity<id>_setup

Defined on file sysfs-bus-iio-sx9324

SX9324 has 3 inputs, CS0, CS1 and CS2. Hardware layout defines if the input is

  • not connected (HZ),

  • grounded (GD),

  • connected to an antenna where it can act as a base (DS - data shield), or measured input (MI).

The sensor rotates measurement across 4 phases (PH0, PH1, PH2, PH3), where the inputs are configured and then measured.

By default, during the first phase, [PH0], CS0 is measured, while CS1 and CS2 are used as shields. cat in_proximity0_setup returns “MI,DS,DS”. [PH1], CS1 is measured, CS0 and CS2 are shield: cat in_proximity1_setup returns “DS,MI,DS”. [PH2], CS2 is measured, CS0 and CS1 are shield: cat in_proximity1_setup returns “DS,DS,MI”. [PH3], CS1 and CS2 are measured (combo mode): cat in_proximity1_setup returns “DS,MI,MI”.

Note, these are the chip default. Hardware layout will most likely dictate different output. The entry is read-only.

/sys/bus/iio/devices/iio:deviceX/in_proximity_input

Defined on file sysfs-bus-iio-proximity-as3935

Get the current distance in meters of storm (1km steps) 1000-40000 = distance in meters

What /sys/bus/iio/devices/iio:deviceX/noise_level_tripped When 1 the noise level is over the trip level and not reporting valid data

/sys/bus/iio/devices/iio:deviceX/in_proximity_nearlevel

Defined on file sysfs-bus-iio-proximity

Near level for proximity sensors. This is a single integer value that tells user space when an object should be considered close to the device. If the value read from the sensor is above or equal to the value in this file an object should typically be considered near.

/sys/bus/iio/devices/iio:deviceX/in_resistance_raw

/sys/bus/iio/devices/iio:deviceX/in_resistanceX_raw

/sys/bus/iio/devices/iio:deviceX/out_resistance_raw

/sys/bus/iio/devices/iio:deviceX/out_resistanceX_raw

Defined on file sysfs-bus-iio

Raw (unscaled no offset etc.) resistance reading. Units after application of scale and offset are ohms.

/sys/bus/iio/devices/iio:deviceX/in_rot_from_north_magnetic_tilt_comp_raw

/sys/bus/iio/devices/iio:deviceX/in_rot_from_north_true_tilt_comp_raw

/sys/bus/iio/devices/iio:deviceX/in_rot_from_north_magnetic_raw

/sys/bus/iio/devices/iio:deviceX/in_rot_from_north_true_raw

Defined on file sysfs-bus-iio

Raw value of rotation from true/magnetic north measured with or without compensation from tilt sensors.

/sys/bus/iio/devices/iio:deviceX/in_rot_quaternion_raw

Defined on file sysfs-bus-iio

Raw value of quaternion components using a format x y z w. Here x, y, and z component represents the axis about which a rotation will occur and w component represents the amount of rotation.

/sys/bus/iio/devices/iio:deviceX/in_rot_yaw_raw

/sys/bus/iio/devices/iio:deviceX/in_rot_pitch_raw

/sys/bus/iio/devices/iio:deviceX/in_rot_roll_raw

Defined on file sysfs-bus-iio

Raw (unscaled) euler angles readings. Units after application of scale are deg.

/sys/bus/iio/devices/iio:deviceX/in_shunt_resistorY

Defined on file sysfs-bus-iio-adc-pac1934

The value of the shunt resistor may be known only at runtime and set by a client application. This attribute allows to set its value in micro-ohms. X is the IIO index of the device. Y is the channel number. The value is used to calculate current, power and accumulated energy.

/sys/bus/iio/devices/iio:deviceX/in_temp8_raw

Defined on file sysfs-bus-iio-adc-mt6360

Indicated MT6360 IC junction temperature Calculating with scale and offset returns temperature in degree

/sys/bus/iio/devices/iio:deviceX/in_tempY_input

/sys/bus/iio/devices/iio:deviceX/in_temp_input

Defined on file sysfs-bus-iio

Scaled temperature measurement in milli degrees Celsius.

/sys/bus/iio/devices/iio:deviceX/in_temp_calibemissivity

/sys/bus/iio/devices/iio:deviceX/in_tempX_calibemissivity

/sys/bus/iio/devices/iio:deviceX/in_temp_object_calibemissivity

/sys/bus/iio/devices/iio:deviceX/in_tempX_object_calibemissivity

Defined on file sysfs-bus-iio

The emissivity ratio of the surface in the field of view of the contactless temperature sensor. Emissivity varies from 0 to 1, with 1 being the emissivity of a black body.

/sys/bus/iio/devices/iio:deviceX/in_temp_object_calibambient

/sys/bus/iio/devices/iio:deviceX/in_tempX_object_calibambient

Defined on file sysfs-bus-iio

Calibrated ambient temperature for object temperature calculation in milli degrees Celsius.

/sys/bus/iio/devices/iio:deviceX/in_temp_raw

/sys/bus/iio/devices/iio:deviceX/in_tempX_raw

/sys/bus/iio/devices/iio:deviceX/in_temp_x_raw

/sys/bus/iio/devices/iio:deviceX/in_temp_y_raw

/sys/bus/iio/devices/iio:deviceX/in_temp_ambient_raw

/sys/bus/iio/devices/iio:deviceX/in_temp_object_raw

Defined on file sysfs-bus-iio

Raw (unscaled no bias removal etc.) temperature measurement. If an axis is specified it generally means that the temperature sensor is associated with one part of a compound device (e.g. a gyroscope axis). The ambient and object modifiers distinguish between ambient (reference) and distant temperature for contact- less measurements. Units after application of scale and offset are milli degrees Celsius.

/sys/bus/iio/devices/iio:deviceX/in_temp_thermocouple_type

Defined on file sysfs-bus-iio

One of the following thermocouple types: B, E, J, K, N, R, S, T.

/sys/bus/iio/devices/iio:deviceX/in_voltage-voltage_filter_mode_available

Defined on file sysfs-bus-iio-adc-ad4130

Reading returns a list with the possible filter modes.

  • “sinc4” - Sinc 4. Excellent noise performance. Long 1st conversion time. No natural 50/60Hz rejection.

  • “sinc4+sinc1” - Sinc4 + averaging by 8. Low 1st conversion time.

  • “sinc3” - Sinc3. Moderate 1st conversion time. Good noise performance.

  • “sinc3+rej60” - Sinc3 + 60Hz rejection. At a sampling frequency of 50Hz, achieves simultaneous 50Hz and 60Hz rejection.

  • “sinc3+sinc1” - Sinc3 + averaging by 8. Low 1st conversion time. Best used with a sampling frequency of at least 216.19Hz.

  • “sinc3+pf1” - Sinc3 + Post Filter 1. 53dB rejection @ 50Hz, 58dB rejection @ 60Hz.

  • “sinc3+pf2” - Sinc3 + Post Filter 2. 70dB rejection @ 50Hz, 70dB rejection @ 60Hz.

  • “sinc3+pf3” - Sinc3 + Post Filter 3. 99dB rejection @ 50Hz, 103dB rejection @ 60Hz.

  • “sinc3+pf4” - Sinc3 + Post Filter 4. 103dB rejection @ 50Hz, 109dB rejection @ 60Hz.

/sys/bus/iio/devices/iio:deviceX/in_voltage0_raw

Defined on file sysfs-bus-iio-adc-mt6360

Indicated MT6360 USBID ADC which connected to connector ID pin. Calculating with scale and offset returns voltage in uV

/sys/bus/iio/devices/iio:deviceX/in_voltage10_raw

Defined on file sysfs-bus-iio-adc-mt6360

Indicated MT6360 TS ADC Calculating with scale and offset returns voltage in uV

/sys/bus/iio/devices/iio:deviceX/in_voltage1_raw

Defined on file sysfs-bus-iio-adc-mt6360

Indicated MT6360 VBUS ADC with lower accuracy(+-75mA) higher measure range(1~22mV) Calculating with scale and offset returns voltage in uV

/sys/bus/iio/devices/iio:deviceX/in_voltage2-voltage2_shorted_raw

Defined on file sysfs-bus-iio-adc-ad7192

Measure voltage from AIN2 pin connected to AIN(+) and AIN(-) shorted.

/sys/bus/iio/devices/iio:deviceX/in_voltage2_raw

Defined on file sysfs-bus-iio-adc-mt6360

Indicated MT6360 VBUS ADC with higher accuracy(+-30mA) lower measure range(1~9.76V) Calculating with scale and offset returns voltage in uV

/sys/bus/iio/devices/iio:deviceX/in_voltage3_raw

Defined on file sysfs-bus-iio-adc-mt6360

Indicated MT6360 VSYS ADC Calculating with scale and offset returns voltage in uV

/sys/bus/iio/devices/iio:deviceX/in_voltage4_raw

Defined on file sysfs-bus-iio-adc-mt6360

Indicated MT6360 VBAT ADC Calculating with scale and offset returns voltage in uV

/sys/bus/iio/devices/iio:deviceX/in_voltage9_raw

Defined on file sysfs-bus-iio-adc-mt6360

Indicated MT6360 VREF_TS ADC Calculating with scale and offset returns voltage in uV

/sys/bus/iio/devices/iio:deviceX/in_voltageX_sampling_frequency

/sys/bus/iio/devices/iio:deviceX/in_powerY_sampling_frequency

/sys/bus/iio/devices/iio:deviceX/in_currentZ_sampling_frequency

Defined on file sysfs-bus-iio

Some devices have separate controls of sampling frequency for individual channels. If multiple channels are enabled in a scan, then the sampling_frequency of the scan may be computed from the per channel sampling frequencies.

/sys/bus/iio/devices/iio:deviceX/in_voltageY-voltageZ_balance_switch_en

Defined on file sysfs-bus-iio-adc-ad7280a

Used to enable an output for balancing cells for time controlled via in_voltage_Y-voltageZ_balance_switch_timer.

/sys/bus/iio/devices/iio:deviceX/in_voltageY-voltageZ_balance_switch_timer

Defined on file sysfs-bus-iio-adc-ad7280a

Time in seconds for which balance switch will be turned on. Multiple of 71.5 seconds.

/sys/bus/iio/devices/iio:deviceX/in_voltageY-voltageZ_filter_mode

Defined on file sysfs-bus-iio-adc-ad4130

Set the filter mode of the differential channel. When the filter mode changes, the in_voltageY-voltageZ_sampling_frequency and in_voltageY-voltageZ_sampling_frequency_available attributes might also change to accommodate the new filter mode. If the current sampling frequency is out of range for the new filter mode, the sampling frequency will be changed to the closest valid one.

/sys/bus/iio/devices/iio:deviceX/in_voltageY-voltageZ_raw

Defined on file sysfs-bus-iio

Raw (unscaled) differential voltage measurement equivalent to channel Y - channel Z where these channel numbers apply to the physically equivalent inputs when non differential readings are separately available. In differential only parts, then all that is required is a consistent labeling. Units after application of scale and offset are millivolts.

/sys/bus/iio/devices/iio:deviceX/in_voltageY_dither_enable

Defined on file sysfs-bus-iio-dac-ad5766

Dither enable. Write 1 to enable dither or 0 to disable it.

/sys/bus/iio/devices/iio:deviceX/in_voltageY_dither_invert

Defined on file sysfs-bus-iio-dac-ad5766

Inverts the dither applied to the selected DAC channel. Dither is not inverted by default. Write “1” to invert dither.

/sys/bus/iio/devices/iio:deviceX/in_voltageY_dither_scale

Defined on file sysfs-bus-iio-dac-ad5766

Scales the dither before it is applied to the selected channel.

/sys/bus/iio/devices/iio:deviceX/in_voltageY_dither_scale_available

Defined on file sysfs-bus-iio-dac-ad5766

Returns possible scalings available for the current channel.

/sys/bus/iio/devices/iio:deviceX/in_voltageY_dither_source

Defined on file sysfs-bus-iio-dac-ad5766

Selects dither source applied to the selected channel. Write “0” to select N0 source, write “1” to select N1 source.

/sys/bus/iio/devices/iio:deviceX/in_voltageY_label

/sys/bus/iio/devices/iio:deviceX/out_voltageY_label

Defined on file sysfs-bus-iio

Optional symbolic label to a device channel. If a label is defined for this channel add that to the channel specific attributes. This is useful for userspace to be able to better identify an individual channel.

/sys/bus/iio/devices/iio:deviceX/in_voltageY_raw

/sys/bus/iio/devices/iio:deviceX/in_voltageY_supply_raw

/sys/bus/iio/devices/iio:deviceX/in_voltageY_i_raw

/sys/bus/iio/devices/iio:deviceX/in_voltageY_q_raw

Defined on file sysfs-bus-iio

Raw (unscaled no bias removal etc.) voltage measurement from channel Y. In special cases where the channel does not correspond to externally available input one of the named versions may be used. The number must always be specified and unique to allow association with event codes. Units after application of scale and offset are millivolts.

Channels with ‘i’ and ‘q’ modifiers always exist in pairs and both channels refer to the same signal. The ‘i’ channel contains the in-phase component of the signal while the ‘q’ channel contains the quadrature component.

/sys/bus/iio/devices/iio:deviceX/in_voltageY_scale

/sys/bus/iio/devices/iio:deviceX/in_voltageY_i_scale

/sys/bus/iio/devices/iio:deviceX/in_voltageY_q_scale

/sys/bus/iio/devices/iio:deviceX/in_voltageY_supply_scale

/sys/bus/iio/devices/iio:deviceX/in_voltage_scale

/sys/bus/iio/devices/iio:deviceX/in_voltage_i_scale

/sys/bus/iio/devices/iio:deviceX/in_voltage_q_scale

/sys/bus/iio/devices/iio:deviceX/in_voltage-voltage_scale

/sys/bus/iio/devices/iio:deviceX/out_voltageY_scale

/sys/bus/iio/devices/iio:deviceX/out_altvoltageY_scale

/sys/bus/iio/devices/iio:deviceX/in_currentY_scale

/sys/bus/iio/devices/iio:deviceX/in_currentY_supply_scale

/sys/bus/iio/devices/iio:deviceX/in_current_scale

/sys/bus/iio/devices/iio:deviceX/in_currentY_i_scale

/sys/bus/iio/devices/iio:deviceX/in_currentY_q_scale

/sys/bus/iio/devices/iio:deviceX/in_current_i_scale

/sys/bus/iio/devices/iio:deviceX/in_current_q_scale

/sys/bus/iio/devices/iio:deviceX/in_accel_scale

/sys/bus/iio/devices/iio:deviceX/in_accel_peak_scale

/sys/bus/iio/devices/iio:deviceX/in_anglvel_scale

/sys/bus/iio/devices/iio:deviceX/in_energy_scale

/sys/bus/iio/devices/iio:deviceX/in_distance_scale

/sys/bus/iio/devices/iio:deviceX/in_magn_scale

/sys/bus/iio/devices/iio:deviceX/in_magn_x_scale

/sys/bus/iio/devices/iio:deviceX/in_magn_y_scale

/sys/bus/iio/devices/iio:deviceX/in_magn_z_scale

/sys/bus/iio/devices/iio:deviceX/in_rot_from_north_magnetic_scale

/sys/bus/iio/devices/iio:deviceX/in_rot_from_north_true_scale

/sys/bus/iio/devices/iio:deviceX/in_rot_from_north_magnetic_tilt_comp_scale

/sys/bus/iio/devices/iio:deviceX/in_rot_from_north_true_tilt_comp_scale

/sys/bus/iio/devices/iio:deviceX/in_pressureY_scale

/sys/bus/iio/devices/iio:deviceX/in_pressure_scale

/sys/bus/iio/devices/iio:deviceX/in_humidityrelative_scale

/sys/bus/iio/devices/iio:deviceX/in_velocity_sqrt(x^2+y^2+z^2)_scale

/sys/bus/iio/devices/iio:deviceX/in_illuminance_scale

/sys/bus/iio/devices/iio:deviceX/in_countY_scale

/sys/bus/iio/devices/iio:deviceX/in_deltaangl_scale

/sys/bus/iio/devices/iio:deviceX/in_deltavelocity_scale

/sys/bus/iio/devices/iio:deviceX/in_angl_scale

/sys/bus/iio/devices/iio:deviceX/in_intensity_x_scale

/sys/bus/iio/devices/iio:deviceX/in_intensity_y_scale

/sys/bus/iio/devices/iio:deviceX/in_intensity_z_scale

/sys/bus/iio/devices/iio:deviceX/in_concentration_co2_scale

Defined on file sysfs-bus-iio

If known for a device, scale to be applied to <type>Y[_name]_raw post addition of <type>[Y][_name]_offset in order to obtain the measured value in <type> units as specified in <type>[Y][_name]_raw documentation. If shared across all in channels then Y and <x|y|z> are not present and the value is called <type>[Y][_name]_scale. The peak modifier means this value is applied to <type>Y[_name]_peak_raw values.

/sys/bus/iio/devices/iio:deviceX/in_voltageY_sensing_mode

Defined on file sysfs-bus-iio-adc-hi8435

Program sensor type for threshold detector inputs. Could be either “GND-Open” or “Supply-Open” mode. Y is a threshold detector input channel. Channels 0..7, 8..15, 16..23 and 24..31 has common sensor types.

/sys/bus/iio/devices/iio:deviceX/in_voltage_filterY_notch_center

Defined on file sysfs-bus-iio-adc-max11410

Center frequency of the notch filter in Hz.

/sys/bus/iio/devices/iio:deviceX/in_voltage_filterY_notch_en

Defined on file sysfs-bus-iio-adc-max11410

Enable or disable a notch filter.

/sys/bus/iio/devices/iio:deviceX/in_voltage_spi_clk_freq

Defined on file sysfs-bus-iio-dfsdm-adc-stm32

For audio purpose only.

Used by audio driver to set/get the spi input frequency.

This is mandatory if DFSDM is slave on SPI bus, to provide information on the SPI clock frequency during runtime Notice that the SPI frequency should be a multiple of sample frequency to ensure the precision.

if DFSDM input is SPI master:

Reading SPI clkout frequency, error on writing

If DFSDM input is SPI Slave:

Reading returns value previously set. Writing value before starting conversions.

/sys/bus/iio/devices/iio:deviceX/in_voltagex_sys_calibration

Defined on file sysfs-bus-iio-adc-ad7192

Initiates the system calibration procedure. This is done on a single channel at a time. Write ‘1’ to start the calibration.

/sys/bus/iio/devices/iio:deviceX/in_voltagex_sys_calibration_mode

Defined on file sysfs-bus-iio-adc-ad7192

Sets up the calibration mode used in the system calibration procedure. Reading returns the current calibration mode. Writing sets the system calibration mode.

/sys/bus/iio/devices/iio:deviceX/in_voltagex_sys_calibration_mode_available

Defined on file sysfs-bus-iio-adc-ad7192

Reading returns a list with the possible calibration modes. There are two available options: “zero_scale” - calibrate to zero scale “full_scale” - calibrate to full scale

/sys/bus/iio/devices/iio:deviceX/label

Defined on file sysfs-bus-iio

Optional symbolic label for a device. This is useful for userspace to be able to better identify an individual device.

The contents of the label are free-form, but there are some standardized uses:

For proximity sensors which give the proximity (of a person) to a certain wlan or wwan antenna the following standardized labels are used:

  • “proximity-wifi”

  • “proximity-lte”

  • “proximity-wifi-lte”

  • “proximity-wifi-left”

  • “proximity-wifi-right”

These are used to indicate to userspace that these proximity sensors may be used to tune transmit power to ensure that Specific Absorption Rate (SAR) limits are honored. The “-left” and “-right” labels are for devices with multiple antennas.

In some laptops/tablets the standardized proximity sensor labels instead indicate proximity to a specific part of the device:

  • “proximity-palmrest” indicates proximity to the keyboard’s palmrest

  • “proximity-palmrest-left” indicates proximity to the left part of the palmrest

  • “proximity-palmrest-right” indicates proximity to the right part of the palmrest

  • “proximity-lap” indicates the device is being used on someone’s lap

Note “proximity-lap” is special in that its value may be calculated by firmware from other sensor readings, rather then being a raw sensor reading.

For accelerometers used in 2-in-1s with 360° (yoga-style) hinges, which have an accelerometer in both their base and their display, the following standardized labels are used:

  • “accel-base”

  • “accel-display”

For devices where an accelerometer is housed in the swivel camera subassembly (for AR application), the following standardized label is used:

  • “accel-camera”

/sys/bus/iio/devices/iio:deviceX/location

Defined on file sysfs-bus-iio-cros-ec

This attribute returns a string with the physical location where the motion sensor is placed. For example, in a laptop a motion sensor can be located on the base or on the lid. Current valid values are ‘base’ and ‘lid’.

/sys/bus/iio/devices/iio:deviceX/meas_conf

/sys/bus/iio/devices/iio:deviceX/meas_conf_available

Defined on file sysfs-bus-iio-magnetometer-hmc5843

Current configuration and available configurations for the bias current.

normal

Normal measurement configurations (default)

positivebias

Positive bias configuration

negativebias

Negative bias configuration

disabled

Only available on HMC5983. Disables magnetic sensor and enables temperature sensor.

Note:

The effect of this configuration may vary according to the device. For exact documentation check the device’s datasheet.

/sys/bus/iio/devices/iio:deviceX/mount_matrix

/sys/bus/iio/devices/iio:deviceX/in_mount_matrix

/sys/bus/iio/devices/iio:deviceX/out_mount_matrix

/sys/bus/iio/devices/iio:deviceX/in_anglvel_mount_matrix

/sys/bus/iio/devices/iio:deviceX/in_accel_mount_matrix

Defined on file sysfs-bus-iio

Mounting matrix for IIO sensors. This is a rotation matrix which informs userspace about sensor chip’s placement relative to the main hardware it is mounted on.

Main hardware placement is defined according to the local reference frame related to the physical quantity the sensor measures.

Given that the rotation matrix is defined in a board specific way (platform data and / or device-tree), the main hardware reference frame definition is left to the implementor’s choice (see below for a magnetometer example).

Applications should apply this rotation matrix to samples so that when main hardware reference frame is aligned onto local reference frame, then sensor chip reference frame is also perfectly aligned with it.

Matrix is a 3x3 unitary matrix and typically looks like [0, 1, 0; 1, 0, 0; 0, 0, -1]. Identity matrix [1, 0, 0; 0, 1, 0; 0, 0, 1] means sensor chip and main hardware are perfectly aligned with each other.

For example, a mounting matrix for a magnetometer sensor informs userspace about sensor chip’s ORIENTATION relative to the main hardware.

More specifically, main hardware orientation is defined with respect to the LOCAL EARTH GEOMAGNETIC REFERENCE FRAME where :

  • Y is in the ground plane and positive towards magnetic North ;

  • X is in the ground plane, perpendicular to the North axis and positive towards the East ;

  • Z is perpendicular to the ground plane and positive upwards.

An implementor might consider that for a hand-held device, a ‘natural’ orientation would be ‘front facing camera at the top’. The main hardware reference frame could then be described as :

  • Y is in the plane of the screen and is positive towards the top of the screen ;

  • X is in the plane of the screen, perpendicular to Y axis, and positive towards the right hand side of the screen ;

  • Z is perpendicular to the screen plane and positive out of the screen.

Another example for a quadrotor UAV might be :

  • Y is in the plane of the propellers and positive towards the front-view camera;

  • X is in the plane of the propellers, perpendicular to Y axis, and positive towards the starboard side of the UAV ;

  • Z is perpendicular to propellers plane and positive upwards.

/sys/bus/iio/devices/iio:deviceX/name

Defined on file sysfs-bus-iio

Description of the physical chip / device for device X. Typically a part number.

/sys/bus/iio/devices/iio:deviceX/out_altvoltageY_frequency

Defined on file sysfs-bus-iio

Output frequency for channel Y in Hz. The number must always be specified and unique if the output corresponds to a single channel. Some drivers have additional constraints: ADF4371 has an integrated VCO with fundamendal output frequency ranging from 4000000000 Hz 8000000000 Hz.

out_altvoltage0_frequency:

A divide by 1, 2, 4, 8, 16, 32 or circuit generates frequencies from 62500000 Hz to 8000000000 Hz.

out_altvoltage1_frequency:

This channel duplicates the channel 0 frequency

out_altvoltage2_frequency:

A frequency doubler generates frequencies from 8000000000 Hz to 16000000000 Hz.

out_altvoltage3_frequency:

A frequency quadrupler generates frequencies from 16000000000 Hz to 32000000000 Hz.

Note: writes to one of the channels will affect the frequency of all the other channels, since it involves changing the VCO fundamental output frequency.

/sys/bus/iio/devices/iio:deviceX/out_altvoltageY_frequency_increment

Defined on file sysfs-bus-iio-impedance-analyzer-ad5933

Frequency increment in Hz (step size) between consecutive frequency points along the sweep.

/sys/bus/iio/devices/iio:deviceX/out_altvoltageY_frequency_points

Defined on file sysfs-bus-iio-impedance-analyzer-ad5933

Number of frequency points (steps) in the frequency sweep. This value, in conjunction with the out_altvoltageY_frequency_start and the out_altvoltageY_frequency_increment, determines the frequency sweep range for the sweep operation.

/sys/bus/iio/devices/iio:deviceX/out_altvoltageY_frequency_resolution

Defined on file sysfs-bus-iio-frequency-adf4350

Stores channel Y frequency resolution/channel spacing in Hz. The value given directly influences the MODULUS used by the fractional-N PLL. It is assumed that the algorithm that is used to compute the various dividers, is able to generate proper values for multiples of channel spacing.

/sys/bus/iio/devices/iio:deviceX/out_altvoltageY_frequency_start

Defined on file sysfs-bus-iio-impedance-analyzer-ad5933

Frequency sweep start frequency in Hz.

/sys/bus/iio/devices/iio:deviceX/out_altvoltageY_name

Defined on file sysfs-bus-iio-frequency-adf4371

Reading returns the datasheet name for channel Y:

out_altvoltage0_name: RF8x
out_altvoltage1_name: RFAUX8x
out_altvoltage2_name: RF16x
out_altvoltage3_name: RF32x

/sys/bus/iio/devices/iio:deviceX/out_altvoltageY_phase

Defined on file sysfs-bus-iio

Phase in radians of one frequency/clock output Y (out_altvoltageY) relative to another frequency/clock output (out_altvoltageZ) of the device X. The number must always be specified and unique if the output corresponds to a single channel.

/sys/bus/iio/devices/iio:deviceX/out_altvoltageY_refin_frequency

Defined on file sysfs-bus-iio-frequency-adf4350

Sets channel Y REFin frequency in Hz. In some clock chained applications, the reference frequency used by the PLL may change during runtime. This attribute allows the user to adjust the reference frequency accordingly. The value written has no effect until out_altvoltageY_frequency is updated. Consider to use out_altvoltageY_powerdown to power down the PLL and its RFOut buffers during REFin changes.

/sys/bus/iio/devices/iio:deviceX/out_altvoltageY_settling_cycles

Defined on file sysfs-bus-iio-impedance-analyzer-ad5933

Number of output excitation cycles (settling time cycles) that are allowed to pass through the unknown impedance, after each frequency increment, and before the ADC is triggered to perform a conversion sequence of the response signal.

/sys/bus/iio/devices/iio:deviceX/out_conversion_mode

Defined on file sysfs-bus-iio-vf610

Specifies the hardware conversion mode used within DAC. The two available modes are “high-power” and “low-power”, where “low-power” mode is the default mode.

/sys/bus/iio/devices/iio:deviceX/out_currentY_currentZ_raw

Defined on file sysfs-bus-iio-light-lm3533-als

Set the output current for channel out_currentY when in zone Z (0..255), where Y in 0..2 and Z in 0..4.

These values correspond to the ALS-mapper target registers for ALS-mapper Y + 1.

Note that out_currentY_raw provides the current for the current zone.

/sys/bus/iio/devices/iio:deviceX/out_currentY_raw

Defined on file sysfs-bus-iio

Set/get output current for channel Y. Units after application of scale and offset are milliamps. For some devices current channels are used to specify current supplied to elements used in taking a measurement of a different type. E.g. LED currents.

/sys/bus/iio/devices/iio:deviceX/out_currentY_rawN

Defined on file sysfs-bus-iio-dac

This attribute has the same meaning as out_currentY_raw. It is specific to toggle enabled channels and refers to the DAC output code in INPUT_N (_rawN), where N is the integer value of the symbol. The same scale and offset as in out_currentY_raw applies.

/sys/bus/iio/devices/iio:deviceX/out_currentY_symbol

Defined on file sysfs-bus-iio-dac

Performs a SW switch to a predefined output symbol. This attribute is specific to toggle enabled channels and allows switching between multiple predefined symbols. Each symbol corresponds to a different output, denoted as out_currentY_rawN, where N is the integer value of the symbol. Writing an integer value N will select out_currentY_rawN.

/sys/bus/iio/devices/iio:deviceX/out_currentY_toggle_en

Defined on file sysfs-bus-iio-dac

Toggle enable. Write 1 to enable toggle or 0 to disable it. This is useful when one wants to change the DAC output codes. For autonomous toggling, the way it should be done is:

  • disable toggle operation;

  • change out_currentY_rawN, where N is the integer value of the symbol;

  • enable toggle operation.

/sys/bus/iio/devices/iio:deviceX/out_current_heater_raw

/sys/bus/iio/devices/iio:deviceX/out_current_heater_raw_available

Defined on file sysfs-bus-iio-humidity

Controls the heater device within the humidity sensor to get rid of excess condensation.

In some devices, this is just a switch in which case 0 = OFF, and 1 = ON.

/sys/bus/iio/devices/iio:deviceX/out_humidityrelative_raw

Defined on file sysfs-bus-iio-chemical-sgp40

Set the relative humidity. This value is sent to the sensor for humidity compensation. Default value: 50000 (50 % relative humidity)

/sys/bus/iio/devices/iio:deviceX/out_resistance_raw_available

Defined on file sysfs-bus-iio-potentiometer-mcp4531

The range of available values represented as the minimum value, the step and the maximum value, all enclosed in square brackets. Example: [0 1 256]

/sys/bus/iio/devices/iio:deviceX/out_temp_raw

Defined on file sysfs-bus-iio-chemical-sgp40

Set the temperature. This value is sent to the sensor for temperature compensation. Default value: 25000 (25 °C)

/sys/bus/iio/devices/iio:deviceX/out_voltageY&Z_raw

/sys/bus/iio/devices/iio:deviceX/out_altvoltageY&Z_raw

Defined on file sysfs-bus-iio

Raw (unscaled, no bias etc.) output voltage for an aggregate of channel Y, channel Z, etc. This interface is available in cases where a single output sets the value for multiple channels simultaneously.

/sys/bus/iio/devices/iio:deviceX/out_voltageY_dither_en

Defined on file sysfs-bus-iio-dac-ltc2688

Dither enable. Write 1 to enable dither or 0 to disable it. This is useful for changing the dither parameters. They way it should be done is:

  • disable dither operation;

  • change dither parameters (eg: frequency, phase...);

  • enabled dither operation

/sys/bus/iio/devices/iio:deviceX/out_voltageY_dither_frequency

Defined on file sysfs-bus-iio-dac-ltc2688

Sets the dither signal frequency. Units are in Hz.

/sys/bus/iio/devices/iio:deviceX/out_voltageY_dither_frequency_available

Defined on file sysfs-bus-iio-dac-ltc2688

Returns the available values for the dither frequency.

/sys/bus/iio/devices/iio:deviceX/out_voltageY_dither_offset

Defined on file sysfs-bus-iio-dac-ltc2688

Offset applied to out_voltageY_dither_raw. Read only attribute always set to 0.

/sys/bus/iio/devices/iio:deviceX/out_voltageY_dither_phase

Defined on file sysfs-bus-iio-dac-ltc2688

Sets the dither signal phase. Units are in Radians.

/sys/bus/iio/devices/iio:deviceX/out_voltageY_dither_phase_available

Defined on file sysfs-bus-iio-dac-ltc2688

Returns the available values for the dither phase.

/sys/bus/iio/devices/iio:deviceX/out_voltageY_dither_raw

Defined on file sysfs-bus-iio-dac-ltc2688

This raw, unscaled value refers to the dither signal amplitude. The same scale as in out_voltageY_raw applies. However, the offset might be different as it’s always 0 for this attribute.

/sys/bus/iio/devices/iio:deviceX/out_voltageY_dither_raw_available

Defined on file sysfs-bus-iio-dac-ltc2688

Available range for dither raw amplitude values.

/sys/bus/iio/devices/iio:deviceX/out_voltageY_hardwaregain

/sys/bus/iio/devices/iio:deviceX/in_intensity_hardwaregain

/sys/bus/iio/devices/iio:deviceX/in_intensity_red_hardwaregain

/sys/bus/iio/devices/iio:deviceX/in_intensity_green_hardwaregain

/sys/bus/iio/devices/iio:deviceX/in_intensity_blue_hardwaregain

/sys/bus/iio/devices/iio:deviceX/in_intensity_clear_hardwaregain

Defined on file sysfs-bus-iio

Hardware applied gain factor. If shared across all channels, <type>_hardwaregain is used.

/sys/bus/iio/devices/iio:deviceX/out_voltageY_operating_mode

Defined on file sysfs-bus-iio-ad9739a

DAC operating mode. One of the following modes can be selected:

  • normal: This is DAC normal mode.

  • mixed-mode: In this mode the output is effectively chopped at

    the DAC sample rate. This has the effect of reducing the power of the fundamental signal while increasing the power of the images centered around the DAC sample rate, thus improving the output power of these images.

/sys/bus/iio/devices/iio:deviceX/out_voltageY_operating_mode_available

Defined on file sysfs-bus-iio-ad9739a

Available operating modes.

/sys/bus/iio/devices/iio:deviceX/out_voltageY_powerdown_mode

/sys/bus/iio/devices/iio:deviceX/out_voltage_powerdown_mode

/sys/bus/iio/devices/iio:deviceX/out_altvoltageY_powerdown_mode

/sys/bus/iio/devices/iio:deviceX/out_altvoltage_powerdown_mode

Defined on file sysfs-bus-iio

Specifies the output powerdown mode. DAC output stage is disconnected from the amplifier and 1kohm_to_gnd: connected to ground via an 1kOhm resistor, 2.5kohm_to_gnd: connected to ground via a 2.5kOhm resistor, 6kohm_to_gnd: connected to ground via a 6kOhm resistor, 20kohm_to_gnd: connected to ground via a 20kOhm resistor, 42kohm_to_gnd: connected to ground via a 42kOhm resistor, 90kohm_to_gnd: connected to ground via a 90kOhm resistor, 100kohm_to_gnd: connected to ground via an 100kOhm resistor, 125kohm_to_gnd: connected to ground via an 125kOhm resistor, 500kohm_to_gnd: connected to ground via a 500kOhm resistor, 640kohm_to_gnd: connected to ground via a 640kOhm resistor, three_state: left floating. For a list of available output power down options read outX_powerdown_mode_available. If Y is not present the mode is shared across all outputs.

/sys/bus/iio/devices/iio:deviceX/out_voltageY_powerdown

/sys/bus/iio/devices/iio:deviceX/out_voltage_powerdown

/sys/bus/iio/devices/iio:deviceX/out_altvoltageY_powerdown

/sys/bus/iio/devices/iio:deviceX/out_altvoltage_powerdown

Defined on file sysfs-bus-iio

Writing 1 causes output Y to enter the power down mode specified by the corresponding outY_powerdown_mode. DAC output stage is disconnected from the amplifier. Clearing returns to normal operation. Y may be suppressed if all outputs are controlled together.

/sys/bus/iio/devices/iio:deviceX/out_voltageY_rawN

Defined on file sysfs-bus-iio-dac

This attribute has the same meaning as out_currentY_raw. It is specific to toggle enabled channels and refers to the DAC output code in INPUT_N (_rawN), where N is the integer value of the symbol. The same scale and offset as in out_currentY_raw applies.

/sys/bus/iio/devices/iio:deviceX/out_voltageY_raw_available

Defined on file sysfs-bus-iio-dac-dpot-dac

The range of available values represented as the minimum value, the step and the maximum value, all enclosed in square brackets. Example: [0 1 256]

/sys/bus/iio/devices/iio:deviceX/out_voltageY_raw

/sys/bus/iio/devices/iio:deviceX/out_altvoltageY_raw

Defined on file sysfs-bus-iio

Raw (unscaled, no bias etc.) output voltage for channel Y. The number must always be specified and unique if the output corresponds to a single channel. While DAC like devices typically use out_voltage, a continuous frequency generating device, such as a DDS or PLL should use out_altvoltage.

/sys/bus/iio/devices/iio:deviceX/out_voltageY_symbol

Defined on file sysfs-bus-iio-dac

Performs a SW switch to a predefined output symbol. This attribute is specific to toggle enabled channels and allows switching between multiple predefined symbols. Each symbol corresponds to a different output, denoted as out_voltageY_rawN, where N is the integer value of the symbol. Writing an integer value N will select out_voltageY_rawN.

/sys/bus/iio/devices/iio:deviceX/out_voltageY_toggle_en

Defined on file sysfs-bus-iio-dac

Toggle enable. Write 1 to enable toggle or 0 to disable it. This is useful when one wants to change the DAC output codes. For autonomous toggling, the way it should be done is:

  • disable toggle operation;

  • change out_voltageY_rawN, where N is the integer value of the symbol;

  • enable toggle operation.

/sys/bus/iio/devices/iio:deviceX/oversampling_ratio

Defined on file sysfs-bus-iio

Hardware dependent ADC oversampling. Controls the sampling ratio of the digital filter if available.

/sys/bus/iio/devices/iio:deviceX/oversampling_ratio_available

Defined on file sysfs-bus-iio

Hardware dependent values supported by the oversampling filter.

/sys/bus/iio/devices/iio:deviceX/pll2_feedback_clk_present

/sys/bus/iio/devices/iio:deviceX/pll2_reference_clk_present

/sys/bus/iio/devices/iio:deviceX/pll1_reference_clk_a_present

/sys/bus/iio/devices/iio:deviceX/pll1_reference_clk_b_present

/sys/bus/iio/devices/iio:deviceX/pll1_reference_clk_test_present

/sys/bus/iio/devices/iio:deviceX/vcxo_clk_present

Defined on file sysfs-bus-iio-frequency-ad9523

Reading returns either ‘1’ or ‘0’.

‘1’ means that the clock in question is present.

‘0’ means that the clock is missing.

/sys/bus/iio/devices/iio:deviceX/pllY_locked

Defined on file sysfs-bus-iio-frequency-ad9523

Reading returns either ‘1’ or ‘0’. ‘1’ means that the pllY is locked.

/sys/bus/iio/devices/iio:deviceX/proximity_on_chip_ambient_infrared_suppression

Defined on file sysfs-bus-iio-light-isl29018

From ISL29018 Data Sheet (FN6619.4, Oct 8, 2012) regarding the infrared suppression:

Scheme 0, makes full n (4, 8, 12, 16) bits (unsigned) proximity detection. The range of Scheme 0 proximity count is from 0 to 2^n. Logic 1 of this bit, Scheme 1, makes n-1 (3, 7, 11, 15) bits (2’s complementary) proximity_less_ambient detection. The range of Scheme 1 proximity count is from -2^(n-1) to 2^(n-1). The sign bit is extended for resolutions less than 16. While Scheme 0 has wider dynamic range, Scheme 1 proximity detection is less affected by the ambient IR noise variation.

0

Sensing IR from LED and ambient

1

Sensing IR from LED with ambient IR rejection

/sys/bus/iio/devices/iio:deviceX/sampling_frequency_available

/sys/bus/iio/devices/iio:deviceX/in_intensity_sampling_frequency_available

/sys/bus/iio/devices/iio:deviceX/in_proximity_sampling_frequency_available

/sys/.../iio:deviceX/buffer/sampling_frequency_available

/sys/bus/iio/devices/triggerX/sampling_frequency_available

Defined on file sysfs-bus-iio

When the internal sampling clock can only take a specific set of frequencies, we can specify the available values with:

  • a small discrete set of values like “0 2 4 6 8”

  • a range with minimum, step and maximum frequencies like “[min step max]”

/sys/bus/iio/devices/iio:deviceX/sampling_frequency

/sys/bus/iio/devices/iio:deviceX/in_intensity_sampling_frequency

/sys/bus/iio/devices/iio:deviceX/buffer/sampling_frequency

/sys/bus/iio/devices/triggerX/sampling_frequency

Defined on file sysfs-bus-iio

Some devices have internal clocks. This parameter sets the resulting sampling frequency. In many devices this parameter has an effect on input filters etc. rather than simply controlling when the input is sampled. As this affects data ready triggers, hardware buffers and the sysfs direct access interfaces, it may be found in any of the relevant directories. If it affects all of the above then it is to be found in the base device directory.

The stm32-timer-trigger has the additional characteristic that a sampling_frequency of 0 is defined to stop sampling.

/sys/bus/iio/devices/iio:deviceX/sensor_max_range

Defined on file sysfs-bus-iio-distance-srf08

Show or set the maximum range between the sensor and the first object echoed in meters. Default value is 6.020. This setting limits the time the driver is waiting for a echo.

Showing the range of available values is represented as the minimum value, the step and the maximum value, all enclosed in square brackets.

Example:

[0.043 0.043 11.008]

/sys/bus/iio/devices/iio:deviceX/sensor_sensitivity

Defined on file sysfs-bus-iio-proximity

Proximity sensors sometimes have a controllable amplifier on the signal from which time of flight measurements are taken. The appropriate values to take is dependent on both the sensor and its operating environment: * as3935 (0-31 range) 18 = indoors (default) 14 = outdoors

/sys/bus/iio/devices/iio:deviceX/serialnumber

Defined on file sysfs-bus-iio

An example format is 16-bytes, 2-digits-per-byte, HEX-string representing the sensor unique ID number.

/sys/bus/iio/devices/iio:deviceX/start_cleaning

Defined on file sysfs-bus-iio-sps30

Writing 1 starts sensor self cleaning. Internal fan accelerates to its maximum speed and keeps spinning for about 10 seconds in order to blow out accumulated dust.

/sys/bus/iio/devices/iio:deviceX/store_eeprom

Defined on file sysfs-bus-iio

Writing ‘1’ stores the current device configuration into on-chip EEPROM. After power-up or chip reset the device will automatically load the saved configuration.

/sys/bus/iio/devices/iio:deviceX/sync_dividers

Defined on file sysfs-bus-iio-frequency-ad9523

Writing ‘1’ triggers the clock distribution synchronization functionality. All dividers are reset and the channels start with their predefined phase offsets (out_altvoltageY_phase). Writing this file has the effect as driving the external /SYNC pin low.

/sys/bus/iio/devices/iio:deviceX/sys_calibration_auto_status

Defined on file sysfs-bus-iio-bno055

Reports the status for the IMU overall autocalibration. Can be 0 (calibration non even enabled) or 1 to 5 where the greater the number, the better the calibration status.

/sys/bus/iio/devices/iio:deviceX/trigger/current_trigger

Defined on file sysfs-bus-iio

The name of the trigger source being used, as per string given in /sys/class/iio/triggerY/name.

/sys/bus/iio/devices/iio_sysfs_trigger/add_trigger

Defined on file sysfs-bus-iio-trigger-sysfs

This attribute is provided by the iio-trig-sysfs stand-alone driver and it is used to activate the creation of a new trigger. In order to achieve this, one should write a positive integer into the associated file, which will serve as the id of the trigger. If the trigger with the specified id is already present in the system, an invalid argument message will be returned.

/sys/bus/iio/devices/iio_sysfs_trigger/remove_trigger

Defined on file sysfs-bus-iio-trigger-sysfs

This attribute is used to unregister and delete a previously created trigger from the list of available triggers. In order to achieve this, one should write a positive integer into the associated file, representing the id of the trigger that needs to be removed. If the trigger can’t be found, an invalid argument message will be returned to the user.

/sys/bus/iio/devices/triggerX

Defined on file sysfs-bus-iio

An event driven driver of data capture to an in kernel buffer. May be provided by a device driver that also has an IIO device based on hardware generated events (e.g. data ready) or provided by a separate driver for other hardware (e.g. periodic timer, GPIO or high resolution timer).

Contains trigger type specific elements. These do not generalize well and hence are not documented in this file. X is the IIO index of the trigger.

/sys/bus/iio/devices/triggerX/master_mode

Defined on file sysfs-bus-iio-timer-stm32

Reading returns the current master modes. Writing set the master mode

/sys/bus/iio/devices/triggerX/master_mode_available

Defined on file sysfs-bus-iio-timer-stm32

Reading returns the list possible master modes which are:

  • “reset”

    The UG bit from the TIMx_EGR register is used as trigger output (TRGO).

  • “enable”

    The Counter Enable signal CNT_EN is used as trigger output.

  • “update”

    The update event is selected as trigger output. For instance a master timer can then be used as a prescaler for a slave timer.

  • “compare_pulse”

    The trigger output send a positive pulse when the CC1IF flag is to be set.

  • “OC1REF”

    OC1REF signal is used as trigger output.

  • “OC2REF”

    OC2REF signal is used as trigger output.

  • “OC3REF”

    OC3REF signal is used as trigger output.

  • “OC4REF”

    OC4REF signal is used as trigger output.

Additional modes (on TRGO2 only):

  • “OC5REF”

    OC5REF signal is used as trigger output.

  • “OC6REF”

    OC6REF signal is used as trigger output.

  • “compare_pulse_OC4REF”:

    OC4REF rising or falling edges generate pulses.

  • “compare_pulse_OC6REF”:

    OC6REF rising or falling edges generate pulses.

  • “compare_pulse_OC4REF_r_or_OC6REF_r”:

    OC4REF or OC6REF rising edges generate pulses.

  • “compare_pulse_OC4REF_r_or_OC6REF_f”:

    OC4REF rising or OC6REF falling edges generate pulses.

  • “compare_pulse_OC5REF_r_or_OC6REF_r”:

    OC5REF or OC6REF rising edges generate pulses.

  • “compare_pulse_OC5REF_r_or_OC6REF_f”:

    OC5REF rising or OC6REF falling edges generate pulses.

+-----------+   +-------------+            +---------+
| Prescaler +-> | Counter     |        +-> | Master  | TRGO(2)
+-----------+   +--+--------+-+        |-> | Control +-->
                   |        |          ||  +---------+
                +--v--------+-+ OCxREF ||  +---------+
                | Chx compare +----------> | Output  | ChX
                +-----------+-+         |  | Control +-->
                      .     |           |  +---------+
                      .     |           |    .
                +-----------v-+ OC6REF  |    .
                | Ch6 compare +---------+>
                +-------------+

Example with: “compare_pulse_OC4REF_r_or_OC6REF_r”:

                X
              X   X
            X .   . X
          X   .   .   X
        X     .   .     X
count X .     .   .     . X
        .     .   .     .
        .     .   .     .
        +---------------+
OC4REF  |     .   .     |
      +-+     .   .     +-+
        .     +---+     .
OC6REF  .     |   |     .
      +-------+   +-------+
        +-+   +-+
TRGO2   | |   | |
      +-+ +---+ +---------+

/sys/bus/iio/devices/triggerX/name

Defined on file sysfs-bus-iio-trigger-sysfs

The name attribute holds a description string for the current trigger. In order to associate the trigger with an IIO device one should write this name string to /sys/bus/iio/devices/iio:deviceY/trigger/current_trigger.

/sys/bus/iio/devices/triggerX/name = "adxl372-devX-peak"

Defined on file sysfs-bus-iio-accel-adxl372

The adxl372 accelerometer kernel module provides an additional trigger, which sets the device in a mode in which it will record only the peak acceleration sensed over the set period of time in the events sysfs.

/sys/bus/iio/devices/triggerX/name = "bmc150_accel-any-motion-devX"

Defined on file sysfs-bus-iio-accel-bmc150

The BMC150 accelerometer kernel module provides an additional trigger, which sets driver in a mode, where data is pushed to the buffer only when there is any motion.

/sys/bus/iio/devices/triggerX/name = "bmg160-any-motion-devX"

Defined on file sysfs-bus-iio-gyro-bmg160

The BMG160 gyro kernel module provides an additional trigger, which sets driver in a mode, where data is pushed to the buffer only when there is any motion.

/sys/bus/iio/devices/triggerX/trigger_now

Defined on file sysfs-bus-iio-trigger-sysfs

This file is provided by the iio-trig-sysfs stand-alone trigger driver. Writing this file with any value triggers an event driven driver, associated with this trigger, to capture data into an in kernel buffer. This approach can be valuable during automated testing or in situations, where other trigger methods are not applicable. For example no RTC or spare GPIOs. X is the IIO index of the trigger.

/sys/bus/iio/devices/triggerX/trigger_polarity

Defined on file sysfs-bus-iio-adc-stm32

The STM32 ADC can be configured to use external trigger sources (e.g. timers, pwm or exti gpio). Then, it can be tuned to start conversions on external trigger by either:

  • “rising-edge”

  • “falling-edge”

  • “both-edges”.

Reading returns current trigger polarity.

Writing value before enabling conversions sets trigger polarity.

/sys/bus/iio/devices/triggerX/trigger_polarity_available

Defined on file sysfs-bus-iio-adc-stm32

List all available trigger_polarity settings.

/sys/bus/intel_th/devices/<intel_th_id>-<device><id>/active

Defined on file sysfs-bus-intel_th-output-devices

(RW) Writes of 1 or 0 enable or disable trace output to this output device. Reads return current status. Requires that the correstponding output port driver be loaded.

/sys/bus/intel_th/devices/<intel_th_id>-gth/masters/*

Defined on file sysfs-bus-intel_th-devices-gth

(RW) Configure output ports for STP masters. Writing -1 disables a master; any

/sys/bus/intel_th/devices/<intel_th_id>-gth/outputs/[0-7]_drop

Defined on file sysfs-bus-intel_th-devices-gth

(RW) Data retention policy setting: keep (0) or drop (1) incoming data while output port is in reset.

/sys/bus/intel_th/devices/<intel_th_id>-gth/outputs/[0-7]_flush

Defined on file sysfs-bus-intel_th-devices-gth

(RW) Force flush data from byte packing buffer for the output port.

/sys/bus/intel_th/devices/<intel_th_id>-gth/outputs/[0-7]_null

Defined on file sysfs-bus-intel_th-devices-gth

(RW) STP NULL packet generation: enabled (1) or disabled (0).

/sys/bus/intel_th/devices/<intel_th_id>-gth/outputs/[0-7]_port

Defined on file sysfs-bus-intel_th-devices-gth

(RO) Output port type:

0

not present,

1

MSU (Memory Storage Unit)

2

CTP (Common Trace Port)

4

PTI (MIPI PTI).

/sys/bus/intel_th/devices/<intel_th_id>-gth/outputs/[0-7]_reset

Defined on file sysfs-bus-intel_th-devices-gth

(RO) Output port is in reset (1).

/sys/bus/intel_th/devices/<intel_th_id>-gth/outputs/[0-7]_smcfreq

Defined on file sysfs-bus-intel_th-devices-gth

(RW) STP sync packet frequency for the port. Specifies the number of clocks between mainenance packets.

/sys/bus/intel_th/devices/<intel_th_id>-msc<msc-id>/mode

Defined on file sysfs-bus-intel_th-devices-msc

(RW) Configure MSC operating mode:

  • “single”, for contiguous buffer mode (high-order alloc);

  • “multi”, for multiblock mode;

  • “ExI”, for DCI handler mode;

  • “debug”, for debug mode;

  • any of the currently loaded buffer sinks.

If operating mode changes, existing buffer is deallocated, provided there are no active users and tracing is not enabled, otherwise the write will fail.

/sys/bus/intel_th/devices/<intel_th_id>-msc<msc-id>/nr_pages

Defined on file sysfs-bus-intel_th-devices-msc

(RW) Configure MSC buffer size for “single” or “multi” modes.

In single mode, this is a single number of pages, has to be power of 2. In multiblock mode, this is a comma-separated list of numbers of pages for each window to be allocated. Number of windows is not limited.

Writing to this file deallocates existing buffer (provided there are no active users and tracing is not enabled) and then allocates a new one.

/sys/bus/intel_th/devices/<intel_th_id>-msc<msc-id>/port

Defined on file sysfs-bus-intel_th-output-devices

(RO) Port number, corresponding to this output device on the switch (GTH) or “unassigned” if the corresponding output port driver is not loaded.

/sys/bus/intel_th/devices/<intel_th_id>-msc<msc-id>/stop_on_full

Defined on file sysfs-bus-intel_th-devices-msc

(RW) Configure whether trace stops when the last available window becomes full (1/y/Y) or wraps around and continues until the next window becomes available again (0/n/N).

/sys/bus/intel_th/devices/<intel_th_id>-msc<msc-id>/win_switch

Defined on file sysfs-bus-intel_th-devices-msc

(RW) Trigger window switch for the MSC’s buffer, in multi-window mode. In “multi” mode, accepts writes of “1”, thereby triggering a window switch for the buffer. Returns an error in any other operating mode or attempts to write something other than “1”.

/sys/bus/intel_th/devices/<intel_th_id>-msc<msc-id>/wrap

Defined on file sysfs-bus-intel_th-devices-msc

(RW) Configure MSC buffer wrapping. 1 == wrapping enabled.

/sys/bus/intel_th/devices/<intel_th_id>-pti/clock_divider

Defined on file sysfs-bus-intel_th-devices-pti

(RW) Configure PTI port clock divider:
  • 0: Intel TH clock rate,

  • 1: 1/2 Intel TH clock rate,

  • 2: 1/4 Intel TH clock rate,

  • 3: 1/8 Intel TH clock rate.

/sys/bus/intel_th/devices/<intel_th_id>-pti/freerunning_clock

Defined on file sysfs-bus-intel_th-devices-pti

(RW) 0: PTI trace clock acts as a strobe which only toggles when there is trace data to send. 1: PTI trace clock is a free-running clock.

/sys/bus/intel_th/devices/<intel_th_id>-pti/mode

Defined on file sysfs-bus-intel_th-devices-pti

(RW) Configure PTI output width. Currently supported values are 4, 8, 12, 16.

/sys/bus/mcb/devices/mcb:X

Defined on file sysfs-bus-mcb

Hardware chip or device hosting the MEN chameleon bus

/sys/bus/mcb/devices/mcb:X/minor

Defined on file sysfs-bus-mcb

The FPGA’s minor number

/sys/bus/mcb/devices/mcb:X/model

Defined on file sysfs-bus-mcb

The FPGA’s model number

/sys/bus/mcb/devices/mcb:X/name

Defined on file sysfs-bus-mcb

The FPGA’s name

/sys/bus/mcb/devices/mcb:X/revision

Defined on file sysfs-bus-mcb

The FPGA’s revision number

/sys/bus/mdio_bus/devices/.../statistics/errors_<addr>

/sys/class/mdio_bus/.../statistics/errors_<addr>

Defined on file sysfs-bus-mdio

Total number of transfer errors for this MDIO bus address.

/sys/bus/mdio_bus/devices/.../statistics/errors

/sys/class/mdio_bus/.../statistics/errors

Defined on file sysfs-bus-mdio

Total number of transfer errors for this MDIO bus.

/sys/bus/mdio_bus/devices/.../statistics/reads_<addr>

/sys/class/mdio_bus/.../statistics/reads_<addr>

Defined on file sysfs-bus-mdio

Total number of read transactions for this MDIO bus address.

/sys/bus/mdio_bus/devices/.../statistics/reads

/sys/class/mdio_bus/.../statistics/reads

Defined on file sysfs-bus-mdio

Total number of read transactions for this MDIO bus.

/sys/bus/mdio_bus/devices/.../statistics/transfers_<addr>

/sys/class/mdio_bus/.../statistics/transfers_<addr>

Defined on file sysfs-bus-mdio

Total number of transfers for this MDIO bus address.

/sys/bus/mdio_bus/devices/.../statistics/transfers

/sys/class/mdio_bus/.../transfers

Defined on file sysfs-bus-mdio

Total number of transfers for this MDIO bus.

/sys/bus/mdio_bus/devices/.../statistics/writes_<addr>

/sys/class/mdio_bus/.../statistics/writes_<addr>

Defined on file sysfs-bus-mdio

Total number of write transactions for this MDIO bus address.

/sys/bus/mdio_bus/devices/.../statistics/writes

/sys/class/mdio_bus/.../statistics/writes

Defined on file sysfs-bus-mdio

Total number of write transactions for this MDIO bus.

/sys/bus/mdio_bus/devices/.../statistics/

/sys/class/mdio_bus/.../statistics/

Defined on file sysfs-bus-mdio

This folder contains statistics about global and per MDIO bus address statistics.

/sys/bus/media/devices/.../model

Defined on file sysfs-bus-media

Contains the device model name in UTF-8. The device version is is not be appended to the model name.

/sys/bus/mei/devices/.../fixed

Defined on file sysfs-bus-mei

Stores mei client fixed address, if any Format: %d

/sys/bus/mei/devices/.../max_conn

Defined on file sysfs-bus-mei

Stores mei client maximum number of connections Format: %d

/sys/bus/mei/devices/.../max_len

Defined on file sysfs-bus-mei

Stores mei client maximum message length Format: %d

/sys/bus/mei/devices/.../modalias

Defined on file sysfs-bus-mei

Stores the same MODALIAS value emitted by uevent Format: mei:<mei device name>:<device uuid>:<protocol version>

/sys/bus/mei/devices/.../name

Defined on file sysfs-bus-mei

Stores mei client device name Format: string

/sys/bus/mei/devices/.../uuid

Defined on file sysfs-bus-mei

Stores mei client device uuid Format: xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx

/sys/bus/mei/devices/.../version

Defined on file sysfs-bus-mei

Stores mei client protocol version Format: %d

/sys/bus/mei/devices/.../vtag

Defined on file sysfs-bus-mei

Stores mei client vtag support status Format: %d

/sys/bus/mmc/devices/.../rev

Defined on file sysfs-bus-mmc

Extended CSD revision number

/sys/bus/most/devices/<dev>/<channel>/

Defined on file sysfs-bus-most

For every channel of the device a directory is created, whose name is dictated by the HDM. This enables an application to collect information about the channel’s capabilities and configure it.

/sys/bus/most/devices/<dev>/<channel>/available_datatypes

Defined on file sysfs-bus-most

Indicates the data types the channel can transport.

/sys/bus/most/devices/<dev>/<channel>/available_directions

Defined on file sysfs-bus-most

Indicates the directions the channel is capable of.

/sys/bus/most/devices/<dev>/<channel>/channel_starving

Defined on file sysfs-bus-most

Indicates whether channel ran out of buffers.

/sys/bus/most/devices/<dev>/<channel>/number_of_packet_buffers

Defined on file sysfs-bus-most

Indicates the number of packet buffers the channel can handle.

/sys/bus/most/devices/<dev>/<channel>/number_of_stream_buffers

Defined on file sysfs-bus-most

Indicates the number of streaming buffers the channel can handle.

/sys/bus/most/devices/<dev>/<channel>/set_buffer_size

Defined on file sysfs-bus-most

This is to read back the configured buffer size of the channel.

/sys/bus/most/devices/<dev>/<channel>/set_datatype

Defined on file sysfs-bus-most

This is to read back the configured data type of the channel. The following strings will be accepted:

'control',
'async',
'sync',
'isoc_avp'

/sys/bus/most/devices/<dev>/<channel>/set_direction

Defined on file sysfs-bus-most

This is to read back the configured direction of the channel. The following strings will be accepted:

'tx',
'rx'

/sys/bus/most/devices/<dev>/<channel>/set_number_of_buffers

Defined on file sysfs-bus-most

This is to read back the configured number of buffers of the channel.

/sys/bus/most/devices/<dev>/<channel>/set_packets_per_xact

Defined on file sysfs-bus-most

This is to read back the configured number of packets per transaction of the channel. This is only applicable when connected via USB.

/sys/bus/most/devices/<dev>/<channel>/set_subbuffer_size

Defined on file sysfs-bus-most

This is to read back the configured subbuffer size of the channel.

/sys/bus/most/devices/<dev>/<channel>/size_of_packet_buffer

Defined on file sysfs-bus-most

Indicates the size of a packet buffer the channel can handle.

/sys/bus/most/devices/<dev>/<channel>/size_of_stream_buffer

Defined on file sysfs-bus-most

Indicates the size of a streaming buffer the channel can handle.

/sys/bus/most/devices/<dev>/dci

Defined on file sysfs-bus-most

If the network interface controller is attached via USB, a dci directory is created that allows applications to read and write the controller’s DCI registers.

/sys/bus/most/devices/<dev>/dci/arb_address

Defined on file sysfs-bus-most

This is used to set an arbitrary DCI register address an application wants to read from or write to.

/sys/bus/most/devices/<dev>/dci/arb_value

Defined on file sysfs-bus-most

This is used to read and write the DCI register whose address is stored in arb_address.

/sys/bus/most/devices/<dev>/dci/mep_eui48_hi

Defined on file sysfs-bus-most

This is used to check and configure the MAC address.

/sys/bus/most/devices/<dev>/dci/mep_eui48_lo

Defined on file sysfs-bus-most

This is used to check and configure the MAC address.

/sys/bus/most/devices/<dev>/dci/mep_eui48_mi

Defined on file sysfs-bus-most

This is used to check and configure the MAC address.

/sys/bus/most/devices/<dev>/dci/mep_filter

Defined on file sysfs-bus-most

This is used to check and configure the MEP filter address.

/sys/bus/most/devices/<dev>/dci/mep_hash0

Defined on file sysfs-bus-most

This is used to check and configure the MEP hash table.

/sys/bus/most/devices/<dev>/dci/mep_hash1

Defined on file sysfs-bus-most

This is used to check and configure the MEP hash table.

/sys/bus/most/devices/<dev>/dci/mep_hash2

Defined on file sysfs-bus-most

This is used to check and configure the MEP hash table.

/sys/bus/most/devices/<dev>/dci/mep_hash3

Defined on file sysfs-bus-most

This is used to check and configure the MEP hash table.

/sys/bus/most/devices/<dev>/dci/ni_state

Defined on file sysfs-bus-most

Indicates the current network interface state.

/sys/bus/most/devices/<dev>/dci/node_address

Defined on file sysfs-bus-most

Indicates the current node address.

/sys/bus/most/devices/<dev>/dci/node_position

Defined on file sysfs-bus-most

Indicates the current node position.

/sys/bus/most/devices/<dev>/dci/packet_bandwidth

Defined on file sysfs-bus-most

Indicates the configured packet bandwidth.

/sys/bus/most/devices/<dev>/dci/sync_ep

Defined on file sysfs-bus-most

Triggers the controller’s synchronization process for a certain endpoint.

/sys/bus/most/devices/<dev>/description

Defined on file sysfs-bus-most

Provides information about the physical location of the device. Hardware attached via USB, for instance, might return <1-1.1:1.0>

/sys/bus/most/devices/<dev>/interface

Defined on file sysfs-bus-most

Indicates the type of peripheral interface the device uses.

/sys/bus/most/drivers/most_core/components

Defined on file sysfs-bus-most

This is used to retrieve a list of registered components.

Defined on file sysfs-bus-most

This is used to retrieve a list of established links.

/sys/bus/moxtet/devices/moxtet-<name>.<addr>/module_description

Defined on file sysfs-bus-moxtet-devices

(Read) Moxtet module description. Format: string

/sys/bus/moxtet/devices/moxtet-<name>.<addr>/module_id

Defined on file sysfs-bus-moxtet-devices

(Read) Moxtet module ID. Format: %x

/sys/bus/moxtet/devices/moxtet-<name>.<addr>/module_name

Defined on file sysfs-bus-moxtet-devices

(Read) Moxtet module name. Format: string

/sys/bus/nd/devices/ndbusX/nfit/dsm_mask

Defined on file sysfs-bus-nfit

(RO) The bitmask indicates the supported bus specific control functions. See the section named ‘NVDIMM Root Device _DSMs’ in the ACPI specification.

/sys/bus/nd/devices/ndbusX/nfit/firmware_activate_noidle

Defined on file sysfs-bus-nfit

(RW) The Intel platform implementation of firmware activate support exposes an option let the platform force idle devices in the system over the activation event, or trust that the OS will do it. The safe default is to let the platform force idle devices since the kernel is already in a suspend state, and on the chance that a driver does not properly quiesce bus-mastering after a suspend callback the platform will handle it. However, the activation might abort if, for example, platform firmware determines that the activation time exceeds the max PCI-E completion timeout. Since the platform does not know whether the OS is running the activation from a suspend context it aborts, but if the system owner trusts driver suspend callback to be sufficient then ‘firmware_activation_noidle’ can be enabled to bypass the activation abort.

/sys/bus/nd/devices/ndbusX/nfit/hw_error_scrub

Defined on file sysfs-bus-nfit

(RW) Provides a way to toggle the behavior between just adding the address (cache line) where the MCE happened to the poison list and doing a full scrub. The former (selective insertion of the address) is done unconditionally.

This attribute can have the following values written to it:

‘0’: Switch to the default mode where an exception will only insert the address of the memory error into the poison and badblocks lists. ‘1’: Enable a full scrub to happen if an exception for a memory error is received.

/sys/bus/nd/devices/ndbusX/nfit/revision

Defined on file sysfs-bus-nfit

(RO) ACPI NFIT table revision number.

/sys/bus/nd/devices/ndbusX/nfit/scrub

Defined on file sysfs-bus-nfit

(RW) This shows the number of full Address Range Scrubs (ARS) that have been completed since driver load time. Userspace can wait on this using select/poll etc. A ‘+’ at the end indicates an ARS is in progress

Writing a value of 1 triggers an ARS scan.

/sys/bus/nd/devices/nmemX/cxl/id

Defined on file sysfs-bus-nvdimm

(RO) Show the id (serial) of the device. This is CXL specific.

/sys/bus/nd/devices/nmemX/cxl/provider

Defined on file sysfs-bus-nvdimm

(RO) Shows the CXL bridge device that ties to a CXL memory device to this NVDIMM device. I.e. the parent of the device returned is a /sys/bus/cxl/devices/memX instance.

/sys/bus/nd/devices/nmemX/nfit/device

Defined on file sysfs-bus-nfit

(RO) Device id for the NVDIMM, assigned by the module vendor.

/sys/bus/nd/devices/nmemX/nfit/dsm_mask

Defined on file sysfs-bus-nfit

(RO) The bitmask indicates the supported device specific control functions relative to the NVDIMM command family supported by the device

/sys/bus/nd/devices/nmemX/nfit/family

Defined on file sysfs-bus-nfit

(RO) Displays the NVDIMM family command sets. Values 0, 1, 2 and 3 correspond to NVDIMM_FAMILY_INTEL, NVDIMM_FAMILY_HPE1, NVDIMM_FAMILY_HPE2 and NVDIMM_FAMILY_MSFT respectively.

See the specifications for these command families here: http://pmem.io/documents/NVDIMM_DSM_Interface-V1.6.pdf https://github.com/HewlettPackard/hpe-nvm/blob/master/Documentation/ https://msdn.microsoft.com/library/windows/hardware/mt604741

/sys/bus/nd/devices/nmemX/nfit/flags

Defined on file sysfs-bus-nfit

(RO) The flags in the NFIT memory device sub-structure indicate the state of the data on the nvdimm relative to its energy source or last “flush to persistence”.

The attribute is a translation of the ‘NVDIMM State Flags’ field in section 5.2.25.3 ‘NVDIMM Region Mapping’ Structure of the ACPI specification 6.2.

The health states are “save_fail”, “restore_fail”, “flush_fail”, “not_armed”, “smart_event”, “map_fail” and “smart_notify”.

/sys/bus/nd/devices/nmemX/nfit/format

/sys/bus/nd/devices/nmemX/nfit/format1

/sys/bus/nd/devices/nmemX/nfit/formats

Defined on file sysfs-bus-nfit

(RO) The interface codes indicate support for persistent memory mapped directly into system physical address space and / or a block aperture access mechanism to the NVDIMM media. The ‘formats’ attribute displays the number of supported interfaces.

This layout is compatible with existing libndctl binaries that only expect one code per-dimm as they will ignore nmemX/nfit/formats and nmemX/nfit/formatN.

/sys/bus/nd/devices/nmemX/nfit/handle

Defined on file sysfs-bus-nfit

(RO) The address (given by the _ADR object) of the device on its parent bus of the NVDIMM device containing the NVDIMM region.

/sys/bus/nd/devices/nmemX/nfit/id

Defined on file sysfs-bus-nfit

(RO) ACPI specification 6.2 section 5.2.25.9, defines an identifier for an NVDIMM, which reflects the id attribute.

/sys/bus/nd/devices/nmemX/nfit/phys_id

Defined on file sysfs-bus-nfit

(RO) Handle (i.e., instance number) for the SMBIOS (system management BIOS) Memory Device structure describing the NVDIMM containing the NVDIMM region.

/sys/bus/nd/devices/nmemX/nfit/rev_id

Defined on file sysfs-bus-nfit

(RO) Revision of the NVDIMM, assigned by the module vendor.

/sys/bus/nd/devices/nmemX/nfit/serial

Defined on file sysfs-bus-nfit

(RO) Serial number of the NVDIMM (non-volatile dual in-line memory module), assigned by the module vendor.

/sys/bus/nd/devices/nmemX/nfit/subsystem_device

Defined on file sysfs-bus-nfit

(RO) Sub-system device id for the NVDIMM non-volatile memory subsystem controller, assigned by the non-volatile memory subsystem controller vendor.

/sys/bus/nd/devices/nmemX/nfit/subsystem_rev_id

Defined on file sysfs-bus-nfit

(RO) Sub-system revision id of the NVDIMM non-volatile memory subsystem controller, assigned by the non-volatile memory subsystem controller vendor.

/sys/bus/nd/devices/nmemX/nfit/subsystem_vendor

Defined on file sysfs-bus-nfit

(RO) Sub-system vendor id of the NVDIMM non-volatile memory subsystem controller.

/sys/bus/nd/devices/nmemX/nfit/vendor

Defined on file sysfs-bus-nfit

(RO) Vendor id of the NVDIMM.

/sys/bus/nd/devices/nmemX/papr/flags

Defined on file sysfs-bus-papr-pmem

(RO) Report flags indicating various states of a papr-pmem NVDIMM device. Each flag maps to a one or more bits set in the dimm-health-bitmap retrieved in response to H_SCM_HEALTH hcall. The details of the bit flags returned in response to this hcall is available at ‘Hypercall Op-codes (hcalls)’ . Below are the flags reported in this sysfs file:

  • “not_armed”

    Indicates that NVDIMM contents will not survive a power cycle.

  • “flush_fail”

    Indicates that NVDIMM contents couldn’t be flushed during last shut-down event.

  • “restore_fail”

    Indicates that NVDIMM contents couldn’t be restored during NVDIMM initialization.

  • “encrypted”

    NVDIMM contents are encrypted.

  • “smart_notify”

    There is health event for the NVDIMM.

  • “scrubbed”

    Indicating that contents of the NVDIMM have been scrubbed.

  • “locked”

    Indicating that NVDIMM contents can’t be modified until next power cycle.

/sys/bus/nd/devices/nmemX/papr/health_bitmap_inject

Defined on file sysfs-bus-papr-pmem

(RO) Reports the health bitmap inject bitmap that is applied to bitmap received from PowerVM via the H_SCM_HEALTH. This is used to forcibly set specific bits returned from Hcall. These is then used to simulate various health or shutdown states for an nvdimm and are set by user-space tools like ndctl by issuing a PAPR DSM.

/sys/bus/nd/devices/nmemX/papr/perf_stats

Defined on file sysfs-bus-papr-pmem

(RO) Report various performance stats related to papr-scm NVDIMM device. This attribute is only available for NVDIMM devices that support reporting NVDIMM performance stats. Each stat is reported on a new line with each line composed of a stat-identifier followed by it value. Below are currently known dimm performance stats which are reported:

  • “CtlResCt” : Controller Reset Count

  • “CtlResTm” : Controller Reset Elapsed Time

  • “PonSecs “ : Power-on Seconds

  • “MemLife “ : Life Remaining

  • “CritRscU” : Critical Resource Utilization

  • “HostLCnt” : Host Load Count

  • “HostSCnt” : Host Store Count

  • “HostSDur” : Host Store Duration

  • “HostLDur” : Host Load Duration

  • “MedRCnt “ : Media Read Count

  • “MedWCnt “ : Media Write Count

  • “MedRDur “ : Media Read Duration

  • “MedWDur “ : Media Write Duration

  • “CchRHCnt” : Cache Read Hit Count

  • “CchWHCnt” : Cache Write Hit Count

  • “FastWCnt” : Fast Write Count

/sys/bus/nd/devices/regionX/nfit/range_index

Defined on file sysfs-bus-nfit

(RO) A unique number provided by the BIOS to identify an address range. Used by NVDIMM Region Mapping Structure to uniquely refer to this structure. Value of 0 is reserved and not used as an index.

/sys/bus/nvmem/devices/.../cells/<cell-name>

Defined on file sysfs-nvmem-cells

The “cells” folder contains one file per cell exposed by the NVMEM device. The name of the file is: “<name>@<byte>,<bit>”, with <name> being the cell name and <where> its location in the NVMEM device, in hexadecimal bytes and bits (without the ‘0x’ prefix, to mimic device tree node names). The length of the file is the size of the cell (when known). The content of the file is the binary content of the cell (may sometimes be ASCII, likely without trailing character). Note: This file is only present if CONFIG_NVMEM_SYSFS is enabled.

Example:

hexdump -C /sys/bus/nvmem/devices/1-00563/cells/product-name@d,0
00000000  54 4e 34 38 4d 2d 50 2d  44 4e         |TN48M-P-DN|
0000000a

/sys/bus/pci/devices/.../acpi_index

Defined on file sysfs-bus-pci

Reading this attribute will provide the firmware given instance (ACPI _DSM instance number) of the PCI device. The attribute will be created only if the firmware has given an instance number to the PCI device. ACPI _DSM instance number will be given priority if the system firmware provides SMBIOS type 41 device type instance also.

Users:

Userspace applications interested in knowing the firmware assigned instance number of the PCI device that can help in understanding the firmware intended order of the PCI device.

/sys/bus/pci/devices/.../d3cold_allowed

Defined on file sysfs-bus-pci

d3cold_allowed is bit to control whether the corresponding PCI device can be put into D3Cold state. If it is cleared, the device will never be put into D3Cold state. If it is set, the device may be put into D3Cold state if other requirements are satisfied too. Reading this attribute will show the current value of d3cold_allowed bit. Writing this attribute will set the value of d3cold_allowed bit.

Defined on file sysfs-bus-pci

This symbolic link appears when hardware supports the SR-IOV capability and the Physical Function driver has enabled it, and this device has vendor specific dependencies with others. The symbolic link points to the PCI device sysfs entry of Physical Function this device depends on.

/sys/bus/pci/devices/.../driver_override

Defined on file sysfs-bus-pci

This file allows the driver for a device to be specified which will override standard static and dynamic ID matching. When specified, only a driver with a name matching the value written to driver_override will have an opportunity to bind to the device. The override is specified by writing a string to the driver_override file (echo pci-stub > driver_override) and may be cleared with an empty string (echo > driver_override). This returns the device to standard matching rules binding. Writing to driver_override does not automatically unbind the device from its current driver or make any attempt to automatically load the specified driver. If no driver with a matching name is currently loaded in the kernel, the device will not bind to any driver. This also allows devices to opt-out of driver binding using a driver_override name such as “none”. Only a single driver may be specified in the override, there is no support for parsing delimiters.

/sys/bus/pci/devices/.../index

Defined on file sysfs-bus-pci

Reading this attribute will provide the firmware given instance number of the PCI device. Depending on the platform this can be for example the SMBIOS type 41 device type instance or the user-defined ID (UID) on s390. The attribute will be created only if the firmware has given an instance number to the PCI device and that number is guaranteed to uniquely identify the device in the system.

Users:

Userspace applications interested in knowing the firmware assigned device type instance of the PCI device that can help in understanding the firmware intended order of the PCI device.

/sys/bus/pci/devices/.../irq

Defined on file sysfs-bus-pci

If a driver has enabled MSI (not MSI-X), “irq” contains the IRQ of the first MSI vector. Otherwise “irq” contains the IRQ of the legacy INTx interrupt.

“irq” being set to 0 indicates that the device isn’t capable of generating legacy INTx interrupts.

/sys/bus/pci/devices/.../label

Defined on file sysfs-bus-pci

Reading this attribute will provide the firmware given name (SMBIOS type 41 string or ACPI _DSM string) of the PCI device. The attribute will be created only if the firmware has given a name to the PCI device. ACPI _DSM string name will be given priority if the system firmware provides SMBIOS type 41 string also.

Users:

Userspace applications interested in knowing the firmware assigned name of the PCI device.

/sys/bus/pci/devices/.../leds/*:enclosure:*/brightness

/sys/class/leds/*:enclosure:*/brightness

Defined on file sysfs-bus-pci

LED indications on PCIe storage enclosures which are controlled through the NPEM interface (Native PCIe Enclosure Management, PCIe r6.1 sec 6.28) are accessible as led class devices, both below /sys/class/leds and below NPEM-capable PCI devices.

Although these led class devices could be manipulated manually, in practice they are typically manipulated automatically by an application such as ledmon(8).

The name of a led class device is as follows: <bdf>:enclosure:<indication> where:

  • <bdf> is the domain, bus, device and function number (e.g. 10000:02:05.0)

  • <indication> is a short description of the LED indication

Valid indications per PCIe r6.1 table 6-27 are:

  • ok (drive is functioning normally)

  • locate (drive is being identified by an admin)

  • fail (drive is not functioning properly)

  • rebuild (drive is part of an array that is rebuilding)

  • pfa (drive is predicted to fail soon)

  • hotspare (drive is marked to be used as a replacement)

  • ica (drive is part of an array that is degraded)

  • ifa (drive is part of an array that is failed)

  • idt (drive is not the right type for the connector)

  • disabled (drive is disabled, removal is safe)

  • specific0 to specific7 (enclosure-specific indications)

Broadly, the indications fall into one of these categories:

  • to signify drive state (ok, locate, fail, idt, disabled)

  • to signify drive role or state in a software RAID array (rebuild, pfa, hotspare, ica, ifa)

  • to signify any other role or state (specific0 to specific7)

Mandatory indications per PCIe r6.1 sec 7.9.19.2 comprise: ok, locate, fail, rebuild. All others are optional. A led class device is only visible if the corresponding indication is supported by the device.

To manipulate the indications, write 0 (LED_OFF) or 1 (LED_ON) to the “brightness” file. Note that manipulating an indication may implicitly manipulate other indications at the vendor’s discretion. E.g. when the user lights up the “ok” indication, the vendor may choose to automatically turn off the “fail” indication. The current state of an indication can be retrieved by reading its “brightness” file.

The PCIe Base Specification allows vendors leeway to choose different colors or blinking patterns for the indications, but they typically follow the IBPI standard. E.g. the “locate” indication is usually presented as one or two LEDs blinking at 4 Hz frequency: https://en.wikipedia.org/wiki/International_Blinking_Pattern_Interpretation

PCI Firmware Specification r3.3 sec 4.7 defines a DSM interface to facilitate shared access by operating system and platform firmware to a device’s NPEM registers. The kernel will use this DSM interface where available, instead of accessing NPEM registers directly. The DSM interface does not support the enclosure-specific indications “specific0” to “specific7”, hence the corresponding led class devices are unavailable if the DSM interface is used.

Defined on file sysfs-bus-pci

If ASPM is supported for an endpoint, these files can be used to disable or enable the individual power management states. Write y/1/on to enable, n/0/off to disable.

/sys/bus/pci/devices/.../modalias

Defined on file sysfs-bus-pci

This attribute indicates the PCI ID of the device object.

That is in the format: pci:vXXXXXXXXdXXXXXXXXsvXXXXXXXXsdXXXXXXXXbcXXscXXiXX, where:

  • vXXXXXXXX contains the vendor ID;

  • dXXXXXXXX contains the device ID;

  • svXXXXXXXX contains the sub-vendor ID;

  • sdXXXXXXXX contains the subsystem device ID;

  • bcXX contains the device class;

  • scXX contains the device subclass;

  • iXX contains the device class programming interface.

/sys/bus/pci/devices/.../msi_bus

Defined on file sysfs-bus-pci

Writing a zero value to this attribute disallows MSI and MSI-X for any future drivers of the device. If the device is a bridge, MSI and MSI-X will be disallowed for future drivers of all child devices under the bridge. Drivers must be reloaded for the new setting to take effect.

/sys/bus/pci/devices/.../msi_irqs/

Defined on file sysfs-bus-pci

The /sys/devices/.../msi_irqs directory contains a variable set of files, with each file being named after a corresponding msi irq vector allocated to that device.

/sys/bus/pci/devices/.../msi_irqs/<N>

Defined on file sysfs-bus-pci

This attribute indicates the mode that the irq vector named by the file is in (msi vs. msix)

/sys/bus/pci/devices/.../numa_node

Defined on file sysfs-bus-pci

This file contains the NUMA node to which the PCI device is attached, or -1 if the node is unknown. The initial value comes from an ACPI _PXM method or a similar firmware source. If that is missing or incorrect, this file can be written to override the node. In that case, please report a firmware bug to the system vendor. Writing to this file taints the kernel with TAINT_FIRMWARE_WORKAROUND, which reduces the supportability of your system.

/sys/bus/pci/devices/.../p2pmem/allocate

Defined on file sysfs-bus-pci

This file allows mapping p2pmem into userspace. For each mmap() call on this file, the kernel will allocate a chunk of Peer-to-Peer memory for use in Peer-to-Peer transactions. This memory can be used in O_DIRECT calls to NVMe backed files for Peer-to-Peer copies.

/sys/bus/pci/devices/.../p2pmem/available

Defined on file sysfs-bus-pci

If the device has any Peer-to-Peer memory registered, this file contains the amount of memory that has not been allocated (in decimal).

/sys/bus/pci/devices/.../p2pmem/published

Defined on file sysfs-bus-pci

If the device has any Peer-to-Peer memory registered, this file contains a ‘1’ if the memory has been published for use outside the driver that owns the device.

/sys/bus/pci/devices/.../p2pmem/size

Defined on file sysfs-bus-pci

If the device has any Peer-to-Peer memory registered, this file contains the total amount of memory that the device provides (in decimal).

/sys/bus/pci/devices/.../pci_bus/.../rescan

Defined on file sysfs-bus-pci

Writing a non-zero value to this attribute will force a rescan of the bus and all child buses, and re-discover devices removed earlier from this part of the device tree.

/sys/bus/pci/devices/.../physfn

Defined on file sysfs-bus-pci

This symbolic link appears when a device is a Virtual Function. The symbolic link points to the PCI device sysfs entry of the Physical Function this device associates with.

/sys/bus/pci/devices/.../power_state

Defined on file sysfs-bus-pci

This file contains the current PCI power state of the device. The value comes from the PCI kernel device state and can be one of: “unknown”, “error”, “D0”, D1”, “D2”, “D3hot”, “D3cold”. The file is read only.

/sys/bus/pci/devices/.../remove

Defined on file sysfs-bus-pci

Writing a non-zero value to this attribute will hot-remove the PCI device and any of its children.

/sys/bus/pci/devices/.../rescan

Defined on file sysfs-bus-pci

Writing a non-zero value to this attribute will force a rescan of the device’s parent bus and all child buses, and re-discover devices removed earlier from this part of the device tree.

/sys/bus/pci/devices/.../reset

Defined on file sysfs-bus-pci

Some devices allow an individual function to be reset without affecting other functions in the same device. For devices that have this support, a file named reset will be present in sysfs. Writing 1 to this file will perform reset.

/sys/bus/pci/devices/.../reset_method

Defined on file sysfs-bus-pci

Some devices allow an individual function to be reset without affecting other functions in the same slot.

For devices that have this support, a file named reset_method is present in sysfs. Reading this file gives names of the supported and enabled reset methods and their ordering. Writing a space-separated list of names of reset methods sets the reset methods and ordering to be used when resetting the device. Writing an empty string disables the ability to reset the device. Writing “default” enables all supported reset methods in the default ordering.

/sys/bus/pci/devices/.../resourceN_resize

Defined on file sysfs-bus-pci

These files provide an interface to PCIe Resizable BAR support. A file is created for each BAR resource (N) supported by the PCIe Resizable BAR extended capability of the device. Reading each file exposes the bitmap of available resource sizes:

# cat resource1_resize 00000000000001c0

The bitmap represents supported resource sizes for the BAR, where bit0 = 1MB, bit1 = 2MB, bit2 = 4MB, etc. In the above example the device supports 64MB, 128MB, and 256MB BAR sizes.

When writing the file, the user provides the bit position of the desired resource size, for example:

# echo 7 > resource1_resize

This indicates to set the size value corresponding to bit 7, 128MB. The resulting size is 2 ^ (bit# + 20). This definition matches the PCIe specification of this capability.

In order to make use of resource resizing, all PCI drivers must be unbound from the device and peer devices under the same parent bridge may need to be soft removed. In the case of VGA devices, writing a resize value will remove low level console drivers from the device. Raw users of pci-sysfs resourceN attributes must be terminated prior to resizing. Success of the resizing operation is not guaranteed.

/sys/bus/pci/devices/.../revision

Defined on file sysfs-bus-pci

This file contains the revision field of the PCI device. The value comes from device config space. The file is read only.

/sys/bus/pci/devices/.../sriov_drivers_autoprobe

Defined on file sysfs-bus-pci

This file is associated with the PF of a device that supports SR-IOV. It determines whether newly-enabled VFs are immediately bound to a driver. It initially contains 1, which means the kernel automatically binds VFs to a compatible driver immediately after they are enabled. If an application writes 0 to the file before enabling VFs, the kernel will not bind VFs to a driver.

A typical use case is to write 0 to this file, then enable VFs, then assign the newly-created VFs to virtual machines. Note that changing this file does not affect already- enabled VFs. In this scenario, the user must first disable the VFs, write 0 to sriov_drivers_autoprobe, then re-enable the VFs.

This is similar to /sys/bus/pci/drivers_autoprobe, but affects only the VFs associated with a specific PF.

/sys/bus/pci/devices/.../sriov_numvfs

Defined on file sysfs-bus-pci

This file appears when a physical PCIe device supports SR-IOV. Userspace applications can read and write to this file to determine and control the enablement or disablement of Virtual Functions (VFs) on the physical function (PF). A read of this file will return the number of VFs that are enabled on this PF. A number written to this file will enable the specified number of VFs. A userspace application would typically read the file and check that the value is zero, and then write the number of VFs that should be enabled on the PF; the value written should be less than or equal to the value in the sriov_totalvfs file. A userspace application wanting to disable the VFs would write a zero to this file. The core ensures that valid values are written to this file, and returns errors when values are not valid. For example, writing a 2 to this file when sriov_numvfs is not 0 and not 2 already will return an error. Writing a 10 when the value of sriov_totalvfs is 8 will return an error.

/sys/bus/pci/devices/.../sriov_totalvfs

Defined on file sysfs-bus-pci

This file appears when a physical PCIe device supports SR-IOV. Userspace applications can read this file to determine the maximum number of Virtual Functions (VFs) a PCIe physical function (PF) can support. Typically, this is the value reported in the PF’s SR-IOV extended capability structure’s TotalVFs element. Drivers have the ability at probe time to reduce the value read from this file via the pci_sriov_set_totalvfs() function.

/sys/bus/pci/devices/.../sriov_vf_msix_count

Defined on file sysfs-bus-pci

This file is associated with a SR-IOV virtual function (VF). It allows configuration of the number of MSI-X vectors for the VF. This allows devices that have a global pool of MSI-X vectors to optimally divide them between VFs based on VF usage.

The values accepted are:
  • > 0 - this number will be reported as the Table Size in the

    VF’s MSI-X capability

  • < 0 - not valid

  • = 0 - will reset to the device default value

The file is writable if the PF is bound to a driver that implements ->sriov_set_msix_vec_count().

/sys/bus/pci/devices/.../sriov_vf_total_msix

Defined on file sysfs-bus-pci

This file is associated with a SR-IOV physical function (PF). It contains the total number of MSI-X vectors available for assignment to all virtual functions (VFs) associated with PF. The value will be zero if the device doesn’t support this functionality. For supported devices, the value will be constant and won’t be changed after MSI-X vectors assignment.

/sys/bus/pci/devices/.../virtfn<N>

Defined on file sysfs-bus-pci

This symbolic link appears when hardware supports the SR-IOV capability and the Physical Function driver has enabled it. The symbolic link points to the PCI device sysfs entry of the Virtual Function whose index is N (0...MaxVFs-1).

/sys/bus/pci/devices/.../vpd

Defined on file sysfs-bus-pci

A file named vpd in a device directory will be a binary file containing the Vital Product Data for the device. It should follow the VPD format defined in PCI Specification 2.1 or 2.2, but users should consider that some devices may have incorrectly formatted data. If the underlying VPD has a writable section then the corresponding section of this file will be writable.

/sys/bus/pci/devices/<BDF>/anti_rollback_status

Defined on file sysfs-driver-ccp

The /sys/bus/pci/devices/<BDF>/anti_rollback_status file reports whether the PSP is enforcing rollback protection. Possible values: 0: Not enforcing 1: Enforcing

/sys/bus/pci/devices/<BDF>/bootloader_version

Defined on file sysfs-driver-ccp

The /sys/bus/pci/devices/<BDF>/bootloader_version file reports the firmware version of the AMD AGESA bootloader.

/sys/bus/pci/devices/<BDF>/debug_lock_on

Defined on file sysfs-driver-ccp

The /sys/bus/pci/devices/<BDF>/debug_lock_on reports whether the AMD CPU or APU has been unlocked for debugging. Possible values: 0: Not locked 1: Locked

/sys/bus/pci/devices/<BDF>/fused_part

Defined on file sysfs-driver-ccp

The /sys/bus/pci/devices/<BDF>/fused_part file reports whether the CPU or APU has been fused to prevent tampering. 0: Not fused 1: Fused

/sys/bus/pci/devices/<BDF>/hsp_tpm_available

Defined on file sysfs-driver-ccp

The /sys/bus/pci/devices/<BDF>/hsp_tpm_available file reports whether the HSP TPM has been activated. Possible values: 0: Not activated or present 1: Activated

/sys/bus/pci/devices/<BDF>/qat/auto_reset

Defined on file sysfs-driver-qat

(RW) Reports the current state of the autoreset feature for a QAT device

Write to the attribute to enable or disable device auto reset.

Device auto reset is disabled by default.

The values are:

  • 1/Yy/on: auto reset enabled. If the device encounters an unrecoverable error, it will be reset automatically.

  • 0/Nn/off: auto reset disabled. If the device encounters an unrecoverable error, it will not be reset.

This attribute is only available for qat_4xxx devices.

/sys/bus/pci/devices/<BDF>/qat/cfg_services

Defined on file sysfs-driver-qat

(RW) Reports the current configuration of the QAT device. Write to the file to change the configured services.

The values are:

  • sym;asym: the device is configured for running crypto services

  • asym;sym: identical to sym;asym

  • dc: the device is configured for running compression services

  • dcc: identical to dc but enables the dc chaining feature, hash then compression. If this is not required chose dc

  • sym: the device is configured for running symmetric crypto services

  • asym: the device is configured for running asymmetric crypto services

  • asym;dc: the device is configured for running asymmetric crypto services and compression services

  • dc;asym: identical to asym;dc

  • sym;dc: the device is configured for running symmetric crypto services and compression services

  • dc;sym: identical to sym;dc

It is possible to set the configuration only if the device is in the down state (see /sys/bus/pci/devices/<BDF>/qat/state)

The following example shows how to change the configuration of a device configured for running crypto services in order to run data compression:

# cat /sys/bus/pci/devices/<BDF>/qat/state
up
# cat /sys/bus/pci/devices/<BDF>/qat/cfg_services
sym;asym
# echo down > /sys/bus/pci/devices/<BDF>/qat/state
# echo dc > /sys/bus/pci/devices/<BDF>/qat/cfg_services
# echo up > /sys/bus/pci/devices/<BDF>/qat/state
# cat /sys/bus/pci/devices/<BDF>/qat/cfg_services
dc

This attribute is only available for qat_4xxx devices.

/sys/bus/pci/devices/<BDF>/qat/num_rps

Defined on file sysfs-driver-qat

(RO) Returns the number of ring pairs that a single device has.

Example usage:

# cat /sys/bus/pci/devices/<BDF>/qat/num_rps
64

This attribute is only available for qat_4xxx devices.

/sys/bus/pci/devices/<BDF>/qat/pm_idle_enabled

Defined on file sysfs-driver-qat

(RW) This configuration option provides a way to force the device into remaining in the MAX power state. If idle support is enabled the device will transition to the MIN power state when idle, otherwise will stay in the MAX power state. Write to the file to enable or disable idle support.

The values are:

  • 0: idle support is disabled

  • 1: idle support is enabled

Default value is 1.

It is possible to set the pm_idle_enabled value only if the device is in the down state (see /sys/bus/pci/devices/<BDF>/qat/state)

The following example shows how to change the pm_idle_enabled of a device:

# cat /sys/bus/pci/devices/<BDF>/qat/state
up
# cat /sys/bus/pci/devices/<BDF>/qat/pm_idle_enabled
1
# echo down > /sys/bus/pci/devices/<BDF>/qat/state
# echo 0 > /sys/bus/pci/devices/<BDF>/qat/pm_idle_enabled
# echo up > /sys/bus/pci/devices/<BDF>/qat/state
# cat /sys/bus/pci/devices/<BDF>/qat/pm_idle_enabled
0

This attribute is only available for qat_4xxx devices.

/sys/bus/pci/devices/<BDF>/qat/rp2srv

Defined on file sysfs-driver-qat

(RW) This attribute provides a way for a user to query a specific ring pair for the type of service that it is currently configured for.

When written to, the value is cached and used to perform the read operation. Allowed values are in the range 0 to N-1, where N is the max number of ring pairs supported by a device. This can be queried using the attribute qat/num_rps.

A read returns the service associated to the ring pair queried.

The values are:

  • dc: the ring pair is configured for running compression services

  • sym: the ring pair is configured for running symmetric crypto services

  • asym: the ring pair is configured for running asymmetric crypto services

Example usage:

# echo 1 > /sys/bus/pci/devices/<BDF>/qat/rp2srv
# cat /sys/bus/pci/devices/<BDF>/qat/rp2srv
sym

This attribute is only available for qat_4xxx devices.

/sys/bus/pci/devices/<BDF>/qat/state

Defined on file sysfs-driver-qat

(RW) Reports the current state of the QAT device. Write to the file to start or stop the device.

The values are:

  • up: the device is up and running

  • down: the device is down

It is possible to transition the device from up to down only if the device is up and vice versa.

This attribute is only available for qat_4xxx devices.

/sys/bus/pci/devices/<BDF>/qat_ras/errors_correctable

Defined on file sysfs-driver-qat_ras

(RO) Reports the number of correctable errors detected by the device.

This attribute is only available for qat_4xxx devices.

/sys/bus/pci/devices/<BDF>/qat_ras/errors_fatal

Defined on file sysfs-driver-qat_ras

(RO) Reports the number of fatal errors detected by the device.

This attribute is only available for qat_4xxx devices.

/sys/bus/pci/devices/<BDF>/qat_ras/errors_nonfatal

Defined on file sysfs-driver-qat_ras

(RO) Reports the number of non fatal errors detected by the device.

This attribute is only available for qat_4xxx devices.

/sys/bus/pci/devices/<BDF>/qat_ras/reset_error_counters

Defined on file sysfs-driver-qat_ras

(WO) Write to resets all error counters of a device.

The following example reports how to reset the counters:

# echo 1 > /sys/bus/pci/devices/<BDF>/qat_ras/reset_error_counters
# cat /sys/bus/pci/devices/<BDF>/qat_ras/errors_correctable
0
# cat /sys/bus/pci/devices/<BDF>/qat_ras/errors_nonfatal
0
# cat /sys/bus/pci/devices/<BDF>/qat_ras/errors_fatal
0

This attribute is only available for qat_4xxx devices.

/sys/bus/pci/devices/<BDF>/qat_rl/cap_rem

Defined on file sysfs-driver-qat_rl

(RW) This file will return the remaining capability for a particular service/sla. This is the remaining value that a new SLA can be set to or a current SLA can be increased with.

Example usage:

# echo "asym" > /sys/bus/pci/devices/<BDF>/qat_rl/cap_rem
# cat /sys/bus/pci/devices/<BDF>/qat_rl/cap_rem
250
# echo 250 > /sys/bus/pci/devices/<BDF>/qat_rl/cir
# echo "add" > /sys/bus/pci/devices/<BDF>/qat_rl/sla_op
# cat /sys/bus/pci/devices/<BDF>/qat_rl/cap_rem
0

This attribute is only available for qat_4xxx devices.

/sys/bus/pci/devices/<BDF>/qat_rl/cir

Defined on file sysfs-driver-qat_rl

(RW) Committed information rate (CIR). Rate guaranteed to be achieved by a particular SLA. The value is expressed in permille scale, i.e. 1000 refers to the maximum device throughput for a selected service.

After sending a “get” to sla_op, this will be populated with the CIR for that queried SLA. Write to this file before sending an “add/update” sla_op, to set the SLA to the specified value.

Applicability in sla_op:

  • WRITE: add and update operations

  • READ: get operation

Example usage:

## Write
# echo 500 > /sys/bus/pci/devices/<BDF>/qat_rl/cir
# echo "add" /sys/bus/pci/devices/<BDF>/qat_rl/sla_op

## Read
# echo 4 > /sys/bus/pci/devices/<BDF>/qat_rl/id
# echo "get" > /sys/bus/pci/devices/<BDF>/qat_rl/sla_op
# cat /sys/bus/pci/devices/<BDF>/qat_rl/cir
500

This attribute is only available for qat_4xxx devices.

/sys/bus/pci/devices/<BDF>/qat_rl/id

Defined on file sysfs-driver-qat_rl

(RW) If written to, the value is used to retrieve a particular SLA and operate on it. This is valid only for the following operations: update, rm, and get. A read of this attribute is only guaranteed to have correct data after creation of an SLA.

Applicability in sla_op:

  • WRITE: rm and update operations

  • READ: add and get operations

Example usage:

## Read
## Set attributes e.g. cir, pir, srv, etc
# echo "add" > /sys/bus/pci/devices/<BDF>/qat_rl/sla_op
# cat /sys/bus/pci/devices/<BDF>/qat_rl/id
4

## Write
# echo 7 > /sys/bus/pci/devices/<BDF>/qat_rl/id
# echo "get" > /sys/bus/pci/devices/<BDF>/qat_rl/sla_op
# cat /sys/bus/pci/devices/<BDF>/qat_rl/rp
0x5  ## ring pair ID 0 and ring pair ID 2

This attribute is only available for qat_4xxx devices.

/sys/bus/pci/devices/<BDF>/qat_rl/pir

Defined on file sysfs-driver-qat_rl

(RW) Peak information rate (PIR). The maximum rate that can be achieved by that particular SLA. An SLA can reach a value between CIR and PIR when the device is not fully utilized by requests from other users (assigned to different SLAs).

After sending a “get” to sla_op, this will be populated with the PIR for that queried SLA. Write to this file before sending an “add/update” sla_op, to set the SLA to the specified value.

Applicability in sla_op:

  • WRITE: add and update operations

  • READ: get operation

Example usage:

## Write
# echo 750 > /sys/bus/pci/devices/<BDF>/qat_rl/pir
# echo "add" > /sys/bus/pci/devices/<BDF>/qat_rl/sla_op

## Read
# echo 4 > /sys/bus/pci/devices/<BDF>/qat_rl/id
# echo "get" > /sys/bus/pci/devices/<BDF>/qat_rl/sla_op
# cat /sys/bus/pci/devices/<BDF>/qat_rl/pir
750

This attribute is only available for qat_4xxx devices.

/sys/bus/pci/devices/<BDF>/qat_rl/rp

Defined on file sysfs-driver-qat_rl

(RW) When read, reports the current assigned ring pairs for the queried SLA. When wrote to, configures the ring pairs associated to a new SLA.

The value is a 64-bit bit mask and is written/displayed in hex. Each bit of this mask represents a single ring pair i.e., bit 1 == ring pair id 0; bit 3 == ring pair id 2.

Selected ring pairs must to be assigned to a single service, i.e. the one provided with the srv attribute. The service assigned to a certain ring pair can be checked by querying the attribute qat/rp2srv.

The maximum number of ring pairs is 4 per SLA.

Applicability in sla_op:

  • WRITE: add operation

  • READ: get operation

Example usage:

## Read
# echo 4 > /sys/bus/pci/devices/<BDF>/qat_rl/id
# cat /sys/bus/pci/devices/<BDF>/qat_rl/rp
0x5

## Write
# echo 0x5 > /sys/bus/pci/devices/<BDF>/qat_rl/rp

This attribute is only available for qat_4xxx devices.

/sys/bus/pci/devices/<BDF>/qat_rl/sla_op

Defined on file sysfs-driver-qat_rl

(WO) This attribute is used to perform an operation on an SLA. The supported operations are: add, update, rm, rm_all, and get.

Input values must be filled through the associated attribute in this group before a write to this file. If the operation completes successfully, the associated attributes will be updated. The associated attributes are: cir, pir, srv, rp, and id.

Supported operations:

  • add: Creates a new SLA with the provided inputs from user.
    • Inputs: cir, pir, srv, and rp

    • Output: id

  • get: Returns the configuration of the specified SLA in id attribute
    • Inputs: id

    • Outputs: cir, pir, srv, and rp

  • update: Updates the SLA with new values set in the following attributes
    • Inputs: id, cir, and pir

  • rm: Removes the specified SLA in the id attribute.
    • Inputs: id

  • rm_all: Removes all the configured SLAs.
    • Inputs: None

This attribute is only available for qat_4xxx devices.

/sys/bus/pci/devices/<BDF>/qat_rl/srv

Defined on file sysfs-driver-qat_rl

(RW) Service (SRV). Represents the service (sym, asym, dc) associated to an SLA. Can be written to or queried to set/show the SRV type for an SLA. The SRV attribute is used to specify the SRV type before adding an SLA. After an SLA is configured, reports the service associated to that SLA.

Applicability in sla_op:

  • WRITE: add and update operations

  • READ: get operation

Example usage:

## Write
# echo "dc" > /sys/bus/pci/devices/<BDF>/qat_rl/srv
# echo "add" > /sys/bus/pci/devices/<BDF>/qat_rl/sla_op
# cat /sys/bus/pci/devices/<BDF>/qat_rl/id
4

## Read
# echo 4 > /sys/bus/pci/devices/<BDF>/qat_rl/id
# echo "get" > /sys/bus/pci/devices/<BDF>/qat_rl/sla_op
# cat /sys/bus/pci/devices/<BDF>/qat_rl/srv
dc

This attribute is only available for qat_4xxx devices.

/sys/bus/pci/devices/<BDF>/rom_armor_enforced

Defined on file sysfs-driver-ccp

The /sys/bus/pci/devices/<BDF>/rom_armor_enforced file reports whether RomArmor SPI protection is enforced. Possible values: 0: Not enforced 1: Enforced

/sys/bus/pci/devices/<BDF>/rpmc_production_enabled

Defined on file sysfs-driver-ccp

The /sys/bus/pci/devices/<BDF>/rpmc_production_enabled file reports whether Replay Protected Monotonic Counter support has been enabled. Possible values: 0: Not enabled 1: Enabled

/sys/bus/pci/devices/<BDF>/rpmc_spirom_available

Defined on file sysfs-driver-ccp

The /sys/bus/pci/devices/<BDF>/rpmc_spirom_available file reports whether an Replay Protected Monotonic Counter supported SPI is installed on the system. Possible values: 0: Not present 1: Present

/sys/bus/pci/devices/<BDF>/tee_version

Defined on file sysfs-driver-ccp

The /sys/bus/pci/devices/<BDF>/tee_version file reports the firmware version of the AMD Trusted Execution Environment (TEE).

/sys/bus/pci/devices/<BDF>/tsme_status

Defined on file sysfs-driver-ccp

The /sys/bus/pci/devices/<BDF>/tsme_status file reports the status of transparent secure memory encryption on AMD systems. Possible values: 0: Not active 1: Active

/sys/bus/pci/devices/<dev>/aer_dev_correctable

Defined on file sysfs-bus-pci-devices-aer_stats

List of correctable errors seen and reported by this PCI device using ERR_COR. Note that since multiple errors may be reported using a single ERR_COR message, thus TOTAL_ERR_COR at the end of the file may not match the actual total of all the errors in the file. Sample output:

localhost /sys/devices/pci0000:00/0000:00:1c.0 # cat aer_dev_correctable
Receiver Error 2
Bad TLP 0
Bad DLLP 0
RELAY_NUM Rollover 0
Replay Timer Timeout 0
Advisory Non-Fatal 0
Corrected Internal Error 0
Header Log Overflow 0
TOTAL_ERR_COR 2

/sys/bus/pci/devices/<dev>/aer_dev_fatal

Defined on file sysfs-bus-pci-devices-aer_stats

List of uncorrectable fatal errors seen and reported by this PCI device using ERR_FATAL. Note that since multiple errors may be reported using a single ERR_FATAL message, thus TOTAL_ERR_FATAL at the end of the file may not match the actual total of all the errors in the file. Sample output:

localhost /sys/devices/pci0000:00/0000:00:1c.0 # cat aer_dev_fatal
Undefined 0
Data Link Protocol 0
Surprise Down Error 0
Poisoned TLP 0
Flow Control Protocol 0
Completion Timeout 0
Completer Abort 0
Unexpected Completion 0
Receiver Overflow 0
Malformed TLP 0
ECRC 0
Unsupported Request 0
ACS Violation 0
Uncorrectable Internal Error 0
MC Blocked TLP 0
AtomicOp Egress Blocked 0
TLP Prefix Blocked Error 0
TOTAL_ERR_FATAL 0

/sys/bus/pci/devices/<dev>/aer_dev_nonfatal

Defined on file sysfs-bus-pci-devices-aer_stats

List of uncorrectable nonfatal errors seen and reported by this PCI device using ERR_NONFATAL. Note that since multiple errors may be reported using a single ERR_FATAL message, thus TOTAL_ERR_NONFATAL at the end of the file may not match the actual total of all the errors in the file. Sample output:

localhost /sys/devices/pci0000:00/0000:00:1c.0 # cat aer_dev_nonfatal
Undefined 0
Data Link Protocol 0
Surprise Down Error 0
Poisoned TLP 0
Flow Control Protocol 0
Completion Timeout 0
Completer Abort 0
Unexpected Completion 0
Receiver Overflow 0
Malformed TLP 0
ECRC 0
Unsupported Request 0
ACS Violation 0
Uncorrectable Internal Error 0
MC Blocked TLP 0
AtomicOp Egress Blocked 0
TLP Prefix Blocked Error 0
TOTAL_ERR_NONFATAL 0

PCIe Rootport AER statistics

These attributes show up under only the rootports (or root complex event collectors) that are AER capable. These indicate the number of error messages as “reported to” the rootport. Please note that the rootports also transmit (internally) the ERR_* messages for errors seen by the internal rootport PCI device, so these counters include them and are thus cumulative of all the error messages on the PCI hierarchy originating at that root port.

/sys/bus/pci/devices/<dev>/aer_rootport_total_err_cor

Defined on file sysfs-bus-pci-devices-aer_stats

Total number of ERR_COR messages reported to rootport.

/sys/bus/pci/devices/<dev>/aer_rootport_total_err_fatal

Defined on file sysfs-bus-pci-devices-aer_stats

Total number of ERR_FATAL messages reported to rootport.

/sys/bus/pci/devices/<dev>/aer_rootport_total_err_nonfatal

Defined on file sysfs-bus-pci-devices-aer_stats

Total number of ERR_NONFATAL messages reported to rootport.

/sys/bus/pci/devices/<dev>/ccissX/cXdY/block:cciss!cXdY

Defined on file sysfs-bus-pci-devices-cciss

A symbolic link to /sys/block/cciss!cXdY

/sys/bus/pci/devices/<dev>/ccissX/cXdY/lunid

Defined on file sysfs-bus-pci-devices-cciss

Displays the 8-byte LUN ID used to address logical drive Y of controller X.

/sys/bus/pci/devices/<dev>/ccissX/cXdY/model

Defined on file sysfs-bus-pci-devices-cciss

Displays the SCSI INQUIRY page 0 model for logical drive Y of controller X.

/sys/bus/pci/devices/<dev>/ccissX/cXdY/raid_level

Defined on file sysfs-bus-pci-devices-cciss

Displays the RAID level of logical drive Y of controller X.

/sys/bus/pci/devices/<dev>/ccissX/cXdY/rev

Defined on file sysfs-bus-pci-devices-cciss

Displays the SCSI INQUIRY page 0 revision for logical drive Y of controller X.

/sys/bus/pci/devices/<dev>/ccissX/cXdY/unique_id

Defined on file sysfs-bus-pci-devices-cciss

Displays the SCSI INQUIRY page 83 serial number for logical drive Y of controller X.

/sys/bus/pci/devices/<dev>/ccissX/cXdY/usage_count

Defined on file sysfs-bus-pci-devices-cciss

Displays the usage count (number of opens) of logical drive Y of controller X.

/sys/bus/pci/devices/<dev>/ccissX/cXdY/vendor

Defined on file sysfs-bus-pci-devices-cciss

Displays the SCSI INQUIRY page 0 vendor for logical drive Y of controller X.

/sys/bus/pci/devices/<dev>/ccissX/rescan

Defined on file sysfs-bus-pci-devices-cciss

Kicks of a rescan of the controller to discover logical drive topology changes.

/sys/bus/pci/devices/<dev>/ccissX/resettable

Defined on file sysfs-bus-pci-devices-cciss

Value of 1 indicates the controller can honor the reset_devices kernel parameter. Value of 0 indicates reset_devices cannot be honored. This is to allow, for example, kexec tools to be able to warn the user if they designate an unresettable device as a dump device, as kdump requires resetting the device in order to work reliably.

/sys/bus/pci/devices/<dev>/ccissX/transport_mode

Defined on file sysfs-bus-pci-devices-cciss

Value of “simple” indicates that the controller has been placed in “simple mode”. Value of “performant” indicates that the controller has been placed in “performant mode”.

/sys/bus/pci/drivers/.../bind

/sys/devices/pciX/.../bind

Defined on file sysfs-bus-pci

Writing a device location to this file will cause the driver to attempt to bind to the device found at this location. This is useful for overriding default bindings. The format for the location is: DDDD:BB:DD.F. That is Domain:Bus:Device.Function and is the same as found in /sys/bus/pci/devices/. For example:

# echo 0000:00:19.0 > /sys/bus/pci/drivers/foo/bind

(Note: kernels before 2.6.28 may require echo -n).

/sys/bus/pci/drivers/.../new_id

/sys/devices/pciX/.../new_id

Defined on file sysfs-bus-pci

Writing a device ID to this file will attempt to dynamically add a new device ID to a PCI device driver. This may allow the driver to support more hardware than was included in the driver’s static device ID support table at compile time. The format for the device ID is: VVVV DDDD SVVV SDDD CCCC MMMM PPPP. That is Vendor ID, Device ID, Subsystem Vendor ID, Subsystem Device ID, Class, Class Mask, and Private Driver Data. The Vendor ID and Device ID fields are required, the rest are optional. Upon successfully adding an ID, the driver will probe for the device and attempt to bind to it. For example:

# echo "8086 10f5" > /sys/bus/pci/drivers/foo/new_id

/sys/bus/pci/drivers/.../remove_id

/sys/devices/pciX/.../remove_id

Defined on file sysfs-bus-pci

Writing a device ID to this file will remove an ID that was dynamically added via the new_id sysfs entry. The format for the device ID is: VVVV DDDD SVVV SDDD CCCC MMMM. That is Vendor ID, Device ID, Subsystem Vendor ID, Subsystem Device ID, Class, and Class Mask. The Vendor ID and Device ID fields are required, the rest are optional. After successfully removing an ID, the driver will no longer support the device. This is useful to ensure auto probing won’t match the driver to the device. For example:

# echo "8086 10f5" > /sys/bus/pci/drivers/foo/remove_id

/sys/bus/pci/drivers/.../unbind

/sys/devices/pciX/.../unbind

Defined on file sysfs-bus-pci

Writing a device location to this file will cause the driver to attempt to unbind from the device found at this location. This may be useful when overriding default bindings. The format for the location is: DDDD:BB:DD.F. That is Domain:Bus:Device.Function and is the same as found in /sys/bus/pci/devices/. For example:

# echo 0000:00:19.0 > /sys/bus/pci/drivers/foo/unbind

(Note: kernels before 2.6.28 may require echo -n).

/sys/bus/pci/drivers/altera-cvp/chkcfg

Defined on file sysfs-driver-altera-cvp

Contains either 1 or 0 and controls if configuration error checking in altera-cvp driver is turned on or off.

/sys/bus/pci/drivers/ehci_hcd/.../companion

Defined on file sysfs-bus-pci-drivers-ehci_hcd

PCI-based EHCI USB controllers (i.e., high-speed USB-2.0 controllers) are often implemented along with a set of “companion” full/low-speed USB-1.1 controllers. When a high-speed device is plugged in, the connection is routed to the EHCI controller; when a full- or low-speed device is plugged in, the connection is routed to the companion controller.

Sometimes you want to force a high-speed device to connect at full speed, which can be accomplished by forcing the connection to be routed to the companion controller. That’s what this file does. Writing a port number to the file causes connections on that port to be routed to the companion controller, and writing the negative of a port number returns the port to normal operation.

For example: To force the high-speed device attached to port 4 on bus 2 to run at full speed:

echo 4 >/sys/bus/usb/devices/usb2/../companion

To return the port to high-speed operation:

echo -4 >/sys/bus/usb/devices/usb2/../companion

Reading the file gives the list of ports currently forced to the companion controller.

Note: Some EHCI controllers do not have companions; they may contain an internal “transaction translator” or they may be attached directly to a “rate-matching hub”. This mechanism will not work with such controllers. Also, it cannot be used to force a port on a high-speed hub to connect at full speed.

Note: When this file was first added, it appeared in a different sysfs directory. The location given above is correct for 2.6.35 (and probably several earlier kernel versions as well).

/sys/bus/pci/drivers/i915/.../hwmon/hwmon<i>/curr1_crit

Defined on file sysfs-driver-intel-i915-hwmon

RW. Card reactive critical (I1) power limit in milliamperes.

Card reactive critical (I1) power limit in milliamperes is exposed for server products. The power controller will throttle the operating frequency if the power averaged over a window exceeds this limit.

Only supported for particular Intel i915 graphics platforms.

/sys/bus/pci/drivers/i915/.../hwmon/hwmon<i>/energy1_input

Defined on file sysfs-driver-intel-i915-hwmon

RO. Energy input of device or gt in microjoules.

For i915 device level hwmon devices (name “i915”) this reflects energy input for the entire device. For gt level hwmon devices (name “i915_gtN”) this reflects energy input for the gt.

Only supported for particular Intel i915 graphics platforms.

/sys/bus/pci/drivers/i915/.../hwmon/hwmon<i>/fan1_input

Defined on file sysfs-driver-intel-i915-hwmon

RO. Fan speed of device in RPM.

Only supported for particular Intel i915 graphics platforms.

/sys/bus/pci/drivers/i915/.../hwmon/hwmon<i>/in0_input

Defined on file sysfs-driver-intel-i915-hwmon

RO. Current Voltage in millivolt.

Only supported for particular Intel i915 graphics platforms.

/sys/bus/pci/drivers/i915/.../hwmon/hwmon<i>/power1_crit

Defined on file sysfs-driver-intel-i915-hwmon

RW. Card reactive critical (I1) power limit in microwatts.

Card reactive critical (I1) power limit in microwatts is exposed for client products. The power controller will throttle the operating frequency if the power averaged over a window exceeds this limit.

Only supported for particular Intel i915 graphics platforms.

/sys/bus/pci/drivers/i915/.../hwmon/hwmon<i>/power1_max

Defined on file sysfs-driver-intel-i915-hwmon

RW. Card reactive sustained (PL1/Tau) power limit in microwatts.

The power controller will throttle the operating frequency if the power averaged over a window (typically seconds) exceeds this limit. A read value of 0 means that the PL1 power limit is disabled, writing 0 disables the limit. Writing values > 0 will enable the power limit.

Only supported for particular Intel i915 graphics platforms.

/sys/bus/pci/drivers/i915/.../hwmon/hwmon<i>/power1_max_interval

Defined on file sysfs-driver-intel-i915-hwmon

RW. Sustained power limit interval (Tau in PL1/Tau) in milliseconds over which sustained power is averaged.

Only supported for particular Intel i915 graphics platforms.

/sys/bus/pci/drivers/i915/.../hwmon/hwmon<i>/power1_rated_max

Defined on file sysfs-driver-intel-i915-hwmon

RO. Card default power limit (default TDP setting).

Only supported for particular Intel i915 graphics platforms.

/sys/bus/pci/drivers/janz-cmodio/.../modulbus_number

Defined on file sysfs-bus-pci-drivers-janz-cmodio

Value representing the HEX switch S2 of the janz carrier board CMOD-IO or CAN-PCI2

Read-only: value of the configuration switch (0..15)

/sys/bus/pci/drivers/pciback/allow_interrupt_control

Defined on file sysfs-driver-pciback

List of devices which can have interrupt control flag (INTx, MSI, MSI-X) set by a connected guest. It is meant to be set only when the guest is a stubdomain hosting device model (qemu) and the actual device is assigned to a HVM. It is not safe (similar to permissive attribute) to set for a devices assigned to a PV guest. The device is automatically removed from this list when the connected pcifront terminates.

/sys/bus/pci/drivers/pciback/quirks

Defined on file sysfs-driver-pciback

If the permissive attribute is set, then writing a string in the format of DDDD:BB:DD.F-REG:SIZE:MASK will allow the guest to write and read from the PCI device. That is Domain:Bus: Device.Function-Register:Size:Mask (Domain is optional). For example:

#echo 00:19.0-E0:2:FF > /sys/bus/pci/drivers/pciback/quirks

will allow the guest to read and write to the configuration register 0x0E.

/sys/bus/pci/drivers/xe/.../hwmon/hwmon<i>/curr2_crit

Defined on file sysfs-driver-intel-xe-hwmon

RW. Package reactive critical (I1) power limit in milliamperes.

Package reactive critical (I1) power limit in milliamperes is exposed for server products. The power controller will throttle the operating frequency if the power averaged over a window exceeds this limit.

/sys/bus/pci/drivers/xe/.../hwmon/hwmon<i>/energy1_input

Defined on file sysfs-driver-intel-xe-hwmon

RO. Card energy input of device in microjoules.

Only supported for particular Intel Xe graphics platforms.

/sys/bus/pci/drivers/xe/.../hwmon/hwmon<i>/energy2_input

Defined on file sysfs-driver-intel-xe-hwmon

RO. Package energy input of device in microjoules.

Only supported for particular Intel Xe graphics platforms.

/sys/bus/pci/drivers/xe/.../hwmon/hwmon<i>/in1_input

Defined on file sysfs-driver-intel-xe-hwmon

RO. Package current voltage in millivolt.

Only supported for particular Intel Xe graphics platforms.

/sys/bus/pci/drivers/xe/.../hwmon/hwmon<i>/power1_max

Defined on file sysfs-driver-intel-xe-hwmon

RW. Card reactive sustained (PL1) power limit in microwatts.

The power controller will throttle the operating frequency if the power averaged over a window (typically seconds) exceeds this limit. A read value of 0 means that the PL1 power limit is disabled, writing 0 disables the limit. Writing values > 0 and <= TDP will enable the power limit.

Only supported for particular Intel Xe graphics platforms.

/sys/bus/pci/drivers/xe/.../hwmon/hwmon<i>/power1_max_interval

Defined on file sysfs-driver-intel-xe-hwmon

RW. Card sustained power limit interval (Tau in PL1/Tau) in milliseconds over which sustained power is averaged.

Only supported for particular Intel Xe graphics platforms.

/sys/bus/pci/drivers/xe/.../hwmon/hwmon<i>/power1_rated_max

Defined on file sysfs-driver-intel-xe-hwmon

RO. Card default power limit (default TDP setting).

Only supported for particular Intel Xe graphics platforms.

/sys/bus/pci/drivers/xe/.../hwmon/hwmon<i>/power2_crit

Defined on file sysfs-driver-intel-xe-hwmon

RW. Package reactive critical (I1) power limit in microwatts.

Package reactive critical (I1) power limit in microwatts is exposed for client products. The power controller will throttle the operating frequency if the power averaged over a window exceeds this limit.

Only supported for particular Intel Xe graphics platforms.

/sys/bus/pci/drivers/xe/.../hwmon/hwmon<i>/power2_max

Defined on file sysfs-driver-intel-xe-hwmon

RW. Package reactive sustained (PL1) power limit in microwatts.

The power controller will throttle the operating frequency if the power averaged over a window (typically seconds) exceeds this limit. A read value of 0 means that the PL1 power limit is disabled, writing 0 disables the limit. Writing values > 0 and <= TDP will enable the power limit.

Only supported for particular Intel Xe graphics platforms.

/sys/bus/pci/drivers/xe/.../hwmon/hwmon<i>/power2_max_interval

Defined on file sysfs-driver-intel-xe-hwmon

RW. Package sustained power limit interval (Tau in PL1/Tau) in milliseconds over which sustained power is averaged.

Only supported for particular Intel Xe graphics platforms.

/sys/bus/pci/drivers/xe/.../hwmon/hwmon<i>/power2_rated_max

Defined on file sysfs-driver-intel-xe-hwmon

RO. Package default power limit (default TDP setting).

Only supported for particular Intel Xe graphics platforms.

/sys/bus/pci/drivers/xhci_hcd/.../dbc

Defined on file sysfs-bus-pci-drivers-xhci_hcd

xHCI compatible USB host controllers (i.e. super-speed USB3 controllers) are often implemented with the Debug Capability (DbC). It can present a debug device which is fully compliant with the USB framework and provides the equivalent of a very high performance full-duplex serial link for debug purpose.

The DbC debug device shares a root port with xHCI host. When the DbC is enabled, the root port will be assigned to the Debug Capability. Otherwise, it will be assigned to xHCI.

Writing “enable” to this attribute will enable the DbC functionality and the shared root port will be assigned to the DbC device. Writing “disable” to this attribute will disable the DbC functionality and the shared root port will roll back to the xHCI.

Reading this attribute gives the state of the DbC. It can be one of the following states: disabled, enabled, initialized, connected, configured and stalled.

/sys/bus/pci/drivers/xhci_hcd/.../dbc_bInterfaceProtocol

Defined on file sysfs-bus-pci-drivers-xhci_hcd

This attribute lets us change the bInterfaceProtocol field presented in the USB Interface descriptor by the xhci debug device. Value can only be changed while debug capability (DbC) is in disabled state to prevent USB descriptor change while connected to a USB host. The default value is 1 (GNU Remote Debug command). Other permissible value is 0 which is for vendor defined debug target.

/sys/bus/pci/drivers/xhci_hcd/.../dbc_bcdDevice

Defined on file sysfs-bus-pci-drivers-xhci_hcd

This dbc_bcdDevice attribute lets us change the bcdDevice field presented in the USB device descriptor by this xhci debug device. Value can only be changed while debug capability (DbC) is in disabled state to prevent USB device descriptor change while connected to a USB host. The default value is 0x0010. (device rev 0.10) It can be any 16-bit integer.

/sys/bus/pci/drivers/xhci_hcd/.../dbc_idProduct

Defined on file sysfs-bus-pci-drivers-xhci_hcd

This dbc_idProduct attribute lets us change the idProduct field presented in the USB device descriptor by this xhci debug device. Value can only be changed while debug capability (DbC) is in disabled state to prevent USB device descriptor change while connected to a USB host. The default value is 0x0010. It can be any 16-bit integer.

/sys/bus/pci/drivers/xhci_hcd/.../dbc_idVendor

Defined on file sysfs-bus-pci-drivers-xhci_hcd

This dbc_idVendor attribute lets us change the idVendor field presented in the USB device descriptor by this xhci debug device. Value can only be changed while debug capability (DbC) is in disabled state to prevent USB device descriptor change while connected to a USB host. The default value is 0x1d6b (Linux Foundation). It can be any 16-bit integer.

/sys/bus/pci/drivers/xhci_hcd/.../dbc_poll_interval_ms

Defined on file sysfs-bus-pci-drivers-xhci_hcd

This attribute adjust the polling interval used to check for DbC events. Unit is milliseconds. Accepted values range from 0 up to 5000. The default value is 64 ms. This polling interval is used while DbC is enabled but has no active data transfers.

/sys/bus/pci/rescan

Defined on file sysfs-bus-pci

Writing a non-zero value to this attribute will force a rescan of all PCI buses in the system, and re-discover previously removed devices.

/sys/bus/pci/slots/.../module

Defined on file sysfs-bus-pci

This symbolic link points to the PCI hotplug controller driver module that manages the hotplug slot.

/sys/bus/peci/devices/<controller_id>-<device_addr>/remove

Defined on file sysfs-bus-peci

Writing a non-zero value to this attribute will remove the PECI device and any of its children.

/sys/bus/peci/rescan

Defined on file sysfs-bus-peci

Writing a non-zero value to this attribute will initiate scan for PECI devices on all PECI controllers in the system.

/sys/bus/platform/devices/*/frequency

Defined on file sysfs-platform-brcmstb-memc

DDR PHY frequency in Hz.

/sys/bus/platform/devices/*/srpd

Defined on file sysfs-platform-brcmstb-memc

Self Refresh Power Down (SRPD) inactivity timeout counted in internal DDR controller clock cycles. Possible values range from 0 (disable inactivity timeout) to 65535 (0xffff).

/sys/bus/platform/devices/*twl4030-usb/vbus

Defined on file sysfs-platform-twl4030-usb

Read-only status reporting if VBUS (approx 5V) is being supplied by the USB bus.

Possible values: “on”, “off”.

Changes are notified via select/poll.

/sys/bus/platform/devices/.../driver_override

Defined on file sysfs-bus-platform

This file allows the driver for a device to be specified which will override standard OF, ACPI, ID table, and name matching. When specified, only a driver with a name matching the value written to driver_override will have an opportunity to bind to the device. The override is specified by writing a string to the driver_override file (echo vfio-platform > driver_override) and may be cleared with an empty string (echo > driver_override). This returns the device to standard matching rules binding. Writing to driver_override does not automatically unbind the device from its current driver or make any attempt to automatically load the specified driver. If no driver with a matching name is currently loaded in the kernel, the device will not bind to any driver. This also allows devices to opt-out of driver binding using a driver_override name such as “none”. Only a single driver may be specified in the override, there is no support for parsing delimiters.

/sys/bus/platform/devices/.../modalias

Defined on file sysfs-bus-platform

Same as MODALIAS in the uevent at device creation.

A platform device that it is exposed via devicetree uses:

  • of:N`of node name`T`type`

Other platform devices use, instead:

  • platform:driver name

/sys/bus/platform/devices/.../msi_irqs/

Defined on file sysfs-bus-platform

The /sys/devices/.../msi_irqs directory contains a variable set of files, with each file being named after a corresponding msi irq vector allocated to that device.

/sys/bus/platform/devices/.../msi_irqs/<N>

Defined on file sysfs-bus-platform

This attribute will show “msi” if <N> is a valid msi irq

/sys/bus/platform/devices/.../numa_node

Defined on file sysfs-bus-platform

This file contains the NUMA node to which the platform device is attached. It won’t be visible if the node is unknown. The value comes from an ACPI _PXM method or a similar firmware source. Initial users for this file would be devices like arm smmu which are populated by arm64 acpi_iort.

/sys/bus/platform/devices/../cfam_reset

Defined on file sysfs-bus-fsi

Provides a means of resetting the cfam that is attached to the FSI device.

/sys/bus/platform/devices/../fsi-master/fsi0/break

Defined on file sysfs-bus-fsi

Sends an FSI BREAK command on a master’s communication link to any connected slaves. A BREAK resets connected device’s logic and preps it to receive further commands from the master.

/sys/bus/platform/devices/../fsi-master/fsi0/rescan

Defined on file sysfs-bus-fsi

Initiates a FSI master scan for all connected slave devices on its links.

/sys/bus/platform/devices/../fsi-master/fsi0/slave@00:00/raw

Defined on file sysfs-bus-fsi

Provides a means of reading/writing a 32 bit value from/to a specified FSI bus address.

/sys/bus/platform/devices/../fsi-master/fsi0/slave@00:00/term

Defined on file sysfs-bus-fsi

Sends an FSI terminate command from the master to its connected slave. A terminate resets the slave’s state machines that control access to the internally connected engines. In addition the slave freezes its internal error register for debugging purposes. This command is also needed to abort any ongoing operation in case of an expired ‘Master Time Out’ timer.

/sys/bus/platform/devices/<dev>/always_powered_in_suspend

Defined on file sysfs-bus-platform-onboard-usb-dev

(RW) Controls whether the USB hub remains always powered during system suspend or not. This attribute is not available for non-hub devices.

/sys/bus/platform/devices/ACPI000E:00/ac_alarm

Defined on file sysfs-devices-platform-ACPI-TAD

(RW) The AC alarm timer value.

Reads return the current AC alarm timer value in seconds or “disabled”, if the AC alarm is not set to wake up the system.

Write a new AC alarm timer value in seconds or “disabled” to it to set the AC alarm timer or to disable it, respectively.

If the AC alarm timer is set through this attribute and it expires, it will immediately wake up the system from the S3 sleep state (and from S4/S5 too if supported) until its status is explicitly cleared via the ac_status attribute.

/sys/bus/platform/devices/ACPI000E:00/ac_policy

Defined on file sysfs-devices-platform-ACPI-TAD

(RW) The AC alarm expired timer wake policy (see ACPI 6.2, Section 9.18 for details).

Reads return the current expired timer wake delay for the AC alarm timer or “never”, if the policy is to discard AC timer wakeups if the system is on DC power.

Write a new expired timer wake delay for the AC alarm timer in seconds or “never” to it to set the expired timer wake delay for the AC alarm timer or to set its expired wake policy to discard wakeups if the system is on DC power, respectively.

/sys/bus/platform/devices/ACPI000E:00/ac_status

Defined on file sysfs-devices-platform-ACPI-TAD

(RW) The AC alarm status.

Reads return a hexadecimal bitmask representing the AC alarm timer status with the following meaning of bits (see ACPI 6.2, Section 9.18.5):

Bit(0):

The timer has expired if set.

Bit(1):

The timer has woken up the system from a sleep state (S3 or S4/S5 if supported) if set.

The other bits are reserved.

Reads also cause the AC alarm timer status to be reset.

Another way to reset the status of the AC alarm timer is to write (the number) 0 to this file.

If the status return value indicates that the timer has expired, it will immediately wake up the system from the S3 sleep state (and from S4/S5 too if supported) until its status is explicitly cleared through this attribute.

/sys/bus/platform/devices/ACPI000E:00/caps

Defined on file sysfs-devices-platform-ACPI-TAD

(RO) Hexadecimal bitmask of the TAD attributes are reported by the platform firmware (see ACPI 6.2, section 9.18.2):

BIT(0):

AC wakeup implemented if set

BIT(1):

DC wakeup implemented if set

BIT(2):

Get/set real time features implemented if set

BIT(3):

Real time accuracy in milliseconds if set

BIT(4):

Correct status reported for wakeups from S4/S5 if set

BIT(5):

The AC timer wakes up from S4 if set

BIT(6):

The AC timer wakes up from S5 if set

BIT(7):

The DC timer wakes up from S4 if set

BIT(8):

The DC timer wakes up from S5 if set

The other bits are reserved.

/sys/bus/platform/devices/ACPI000E:00/dc_alarm

Defined on file sysfs-devices-platform-ACPI-TAD

(RW,optional) The DC alarm timer value.

This attribute is only present if the TAD supports a separate DC timer.

It is analogous to the ac_alarm attribute.

/sys/bus/platform/devices/ACPI000E:00/dc_policy

Defined on file sysfs-devices-platform-ACPI-TAD

(RW,optional) The DC alarm expired timer wake policy.

This attribute is only present if the TAD supports a separate DC timer.

It is analogous to the ac_policy attribute.

/sys/bus/platform/devices/ACPI000E:00/dc_status

Defined on file sysfs-devices-platform-ACPI-TAD

(RW,optional) The DC alarm status.

This attribute is only present if the TAD supports a separate DC timer.

It is analogous to the ac_status attribute.

/sys/bus/platform/devices/GGL0001:*/BINF.2

Defined on file sysfs-driver-chromeos-acpi

Returns active EC firmware of current boot (boolean).

0

Read only (recovery) firmware.

1

Rewritable firmware.

/sys/bus/platform/devices/GGL0001:*/BINF.3

Defined on file sysfs-driver-chromeos-acpi

Returns main firmware type for current boot (integer).

0

Recovery.

1

Normal.

2

Developer.

3

Netboot (factory installation only).

/sys/bus/platform/devices/GGL0001:*/CHSW

Defined on file sysfs-driver-chromeos-acpi

Returns switch position for Chrome OS specific hardware switches when the firmware is booted (integer).

0

No changes.

2

Recovery button was pressed.

4

Recovery button was pressed (EC firmware).

32

Developer switch was enabled.

512

Firmware write protection was disabled.

/sys/bus/platform/devices/GGL0001:*/FMAP

Defined on file sysfs-driver-chromeos-acpi

Returns physical memory address of the start of the main processor firmware flashmap.

/sys/bus/platform/devices/GGL0001:*/FRID

Defined on file sysfs-driver-chromeos-acpi

Returns firmware version for the read-only portion of the main processor firmware.

/sys/bus/platform/devices/GGL0001:*/FWID

Defined on file sysfs-driver-chromeos-acpi

Returns firmware version for the rewritable portion of the main processor firmware.

/sys/bus/platform/devices/GGL0001:*/GPIO.X/GPIO.0

Defined on file sysfs-driver-chromeos-acpi

Returns type of the GPIO signal for the Chrome OS specific GPIO assignments (integer).

1

Recovery button.

2

Developer mode switch.

3

Firmware write protection switch.

256 to 511

Debug header GPIO 0 to GPIO 255.

/sys/bus/platform/devices/GGL0001:*/GPIO.X/GPIO.1

Defined on file sysfs-driver-chromeos-acpi

Returns signal attributes of the GPIO signal (integer bitfield).

0

Signal is active low.

1

Signal is active high.

/sys/bus/platform/devices/GGL0001:*/GPIO.X/GPIO.2

Defined on file sysfs-driver-chromeos-acpi

Returns the GPIO number on the specified GPIO controller.

/sys/bus/platform/devices/GGL0001:*/GPIO.X/GPIO.3

Defined on file sysfs-driver-chromeos-acpi

Returns name of the GPIO controller.

/sys/bus/platform/devices/GGL0001:*/HWID

Defined on file sysfs-driver-chromeos-acpi

Returns hardware ID for the Chromebook.

/sys/bus/platform/devices/GGL0001:*/MECK

Defined on file sysfs-driver-chromeos-acpi

Returns the SHA-1 or SHA-256 hash that is read out of the Management Engine extended registers during boot. The hash is exported via ACPI so the OS can verify that the Management Engine firmware has not changed. If Management Engine is not present, or if the firmware was unable to read the extended registers, this buffer size can be zero.

/sys/bus/platform/devices/GGL0001:*/VBNV.0

Defined on file sysfs-driver-chromeos-acpi

Returns offset in CMOS bank 0 of the verified boot non-volatile storage block, counting from the first writable CMOS byte (that is, ‘offset = 0’ is the byte following the 14 bytes of clock data).

/sys/bus/platform/devices/GGL0001:*/VBNV.1

Defined on file sysfs-driver-chromeos-acpi

Return the size in bytes of the verified boot non-volatile storage block.

/sys/bus/platform/devices/GGL0001:*/VDAT

Defined on file sysfs-driver-chromeos-acpi

Returns the verified boot data block shared between the firmware verification step and the kernel verification step (hex dump).

/sys/bus/platform/devices/GOOG000C\:00/boot_on_ac

Defined on file sysfs-platform-wilco-ec

Boot on AC is a policy which makes the device boot from S5 when AC power is connected. This is useful for users who want to run their device headless or with a dock.

Input should be parseable by kstrtou8() to 0 or 1.

/sys/bus/platform/devices/GOOG000C\:00/build_date

Defined on file sysfs-platform-wilco-ec

Display Wilco Embedded Controller firmware build date. Output will a MM/DD/YY string.

/sys/bus/platform/devices/GOOG000C\:00/build_revision

Defined on file sysfs-platform-wilco-ec

Display Wilco Embedded Controller build revision. Output will a version string be similar to the example below: d2592cae0

/sys/bus/platform/devices/GOOG000C\:00/model_number

Defined on file sysfs-platform-wilco-ec

Display Wilco Embedded Controller model number. Output will a version string be similar to the example below: 08B6

/sys/bus/platform/devices/GOOG000C\:00/usb_charge

Defined on file sysfs-platform-wilco-ec

Control the USB PowerShare Policy. USB PowerShare is a policy which affects charging via the special USB PowerShare port (marked with a small lightning bolt or battery icon) when in low power states:

  • In S0, the port will always provide power.

  • In S0ix, if usb_charge is enabled, then power will be supplied to the port when on AC or if battery is > 50%. Else no power is supplied.

  • In S5, if usb_charge is enabled, then power will be supplied to the port when on AC. Else no power is supplied.

Input should be either “0” or “1”.

/sys/bus/platform/devices/GOOG000C\:00/version

Defined on file sysfs-platform-wilco-ec

Display Wilco Embedded Controller firmware version. The format of the string is x.y.z. Where x is major, y is minor and z is the build number. For example: 95.00.06

/sys/bus/platform/devices/INT3407:00/dptf_power/adapter_rating_mw

Defined on file sysfs-platform-dptf

(RO) Adapter rating in milliwatts (the maximum Adapter power). Must be 0 if no AC Adaptor is plugged in.

/sys/bus/platform/devices/INT3407:00/dptf_power/battery_steady_power

Defined on file sysfs-platform-dptf

(RO) The maximum sustained power for battery in milliwatts.

/sys/bus/platform/devices/INT3407:00/dptf_power/charger_type

Defined on file sysfs-platform-dptf

(RO) The charger type - Traditional, Hybrid or NVDC.

/sys/bus/platform/devices/INT3407:00/dptf_power/max_platform_power_mw

Defined on file sysfs-platform-dptf

(RO) Maximum platform power that can be supported by the battery in milliwatts.

/sys/bus/platform/devices/INT3407:00/dptf_power/platform_power_source

Defined on file sysfs-platform-dptf

(RO) Display the platform power source

bits[3:0]

Current power source - 0x00 = DC - 0x01 = AC - 0x02 = USB - 0x03 = Wireless Charger

bits[7:4]

Power source sequence number

/sys/bus/platform/devices/INT3407:00/dptf_power/prochot_confirm

Defined on file sysfs-platform-dptf

(WO) Confirm embedded controller about a prochot notification.

/sys/bus/platform/devices/INT3407:00/dptf_power/rest_of_platform_power_mw

Defined on file sysfs-platform-dptf

(RO) Shows the rest (outside of SoC) of worst-case platform power.

/sys/bus/platform/devices/INT3532:00/dptf_battery/current_discharge_capbility_ma

Defined on file sysfs-platform-dptf

(RO) The battery discharge current capability obtained from battery fuel gauge in milli Amps.

/sys/bus/platform/devices/INT3532:00/dptf_battery/high_freq_impedance_mohm

Defined on file sysfs-platform-dptf

(RO) The high frequency impedance value that can be obtained from battery fuel gauge in milli Ohms.

/sys/bus/platform/devices/INT3532:00/dptf_battery/max_platform_power_mw

Defined on file sysfs-platform-dptf

(RO) The maximum platform power that can be supported by the battery in milli watts.

/sys/bus/platform/devices/INT3532:00/dptf_battery/max_steady_state_power_mw

Defined on file sysfs-platform-dptf

(RO) The maximum sustained power for battery in milli watts.

/sys/bus/platform/devices/INT3532:00/dptf_battery/no_load_voltage_mv

Defined on file sysfs-platform-dptf

(RO) The no-load voltage that can be obtained from battery fuel gauge in milli volts.

/sys/bus/platform/devices/INTC1045:00/pch_fivr_switch_frequency/fivr_switching_fault_status

Defined on file sysfs-platform-dptf

(RO) Read the FIVR switching frequency control fault status.

/sys/bus/platform/devices/INTC1045:00/pch_fivr_switch_frequency/fivr_switching_freq_mhz

Defined on file sysfs-platform-dptf

(RO) Get the FIVR switching control frequency in MHz.

/sys/bus/platform/devices/INTC1045:00/pch_fivr_switch_frequency/freq_mhz_high_clock

Defined on file sysfs-platform-dptf

(RW) The PCH FIVR (Fully Integrated Voltage Regulator) switching frequency in MHz, when FIVR clock is 38.4MHz.

/sys/bus/platform/devices/INTC1045:00/pch_fivr_switch_frequency/freq_mhz_low_clock

Defined on file sysfs-platform-dptf

(RW) The PCH FIVR (Fully Integrated Voltage Regulator) switching frequency in MHz, when FIVR clock is 19.2MHz or 24MHz.

/sys/bus/platform/devices/INTC1045:00/pch_fivr_switch_frequency/ssc_clock_info

Defined on file sysfs-platform-dptf

(RO) Presents SSC (spread spectrum clock) information for EMI (Electro magnetic interference) control. This is a bit mask.

Bits

Description

[7:0]

Sets clock spectrum spread percentage: 0x00=0.2% , 0x3F=10% 1 LSB = 0.1% increase in spread (for settings 0x01 thru 0x1C) 1 LSB = 0.2% increase in spread (for settings 0x1E thru 0x3F)

[8]

When set to 1, enables spread spectrum clock

[9]

0: Triangle mode. FFC frequency walks around the Fcenter in a linear fashion 1: Random walk mode. FFC frequency changes randomly within the SSC (Spread spectrum clock) range

[10]

0: No white noise. 1: Add white noise to spread waveform

[11]

When 1, future writes are ignored.

/sys/bus/platform/devices/INTC1092:00/intc_data

Defined on file sysfs-driver-intc_sar

This sysfs entry is used to retrieve Dynamic SAR information emitted/maintained by a BIOS that supports Dynamic SAR.

The retrieved information is in the order given below: - device_mode - bandtable_index - antennatable_index - sartable_index

The above information is sent as integer values separated by a single space. This information can then be pushed to a WWAN modem that uses this to control the transmit signal level using the Band/Antenna/SAR table index information. These parameters are derived/decided by aggregating device-mode like laptop/tablet/clamshell etc. and the proximity-sensor data available to the embedded controller on given host. The regulatory mode configured on Dynamic SAR driver also influences these values.

The userspace applications can poll for changes to this file using POLLPRI event on file-descriptor (fd) obtained by opening this sysfs entry. Application can then read this information from the sysfs node and consume the given information.

/sys/bus/platform/devices/INTC1092:00/intc_reg

Defined on file sysfs-driver-intc_sar

Specific Absorption Rate (SAR) regulatory mode is typically derived based on information like mcc (Mobile Country Code) and mnc (Mobile Network Code) that is available for the currently attached LTE network. A userspace application is required to set the current SAR regulatory mode on the Dynamic SAR driver using this sysfs node. Such an application can also read back using this sysfs node, the currently configured regulatory mode value from the Dynamic SAR driver.

Acceptable regulatory modes are:

0

FCC

1

CE

2

ISED

  • The regulatory mode value has one of the above values.

  • The default regulatory mode used in the driver is 0.

/sys/bus/platform/devices/MLNXBF04:00/bootfifo

Defined on file sysfs-platform-mellanox-bootctl

The file used to access the BlueField boot fifo.

/sys/bus/platform/devices/MLNXBF04:00/lifecycle_state

Defined on file sysfs-platform-mellanox-bootctl

The Life-cycle state of the SoC, which could be one of the following values.

Production

Production state and can be updated to secure

GA Secured

Secure chip and not able to change state

GA Non-Secured

Non-Secure chip and not able to change state

RMA

Return Merchandise Authorization

/sys/bus/platform/devices/MLNXBF04:00/mfg_lock

Defined on file sysfs-platform-mellanox-bootctl

The “mfg_lock” sysfs attribute is write-only. A successful write to this attribute will latch the board-level attributes into EEPROM, making them read-only.

/sys/bus/platform/devices/MLNXBF04:00/modl

Defined on file sysfs-platform-mellanox-bootctl

The “modl” sysfs attribute holds the board’s model number. This value is provided on a board-level label.

/sys/bus/platform/devices/MLNXBF04:00/oob_mac

Defined on file sysfs-platform-mellanox-bootctl

The “oob_mac” sysfs attribute holds the MAC address for the out-of-band 1Gbps Ethernet port. This MAC address is provided on a board-level label.

/sys/bus/platform/devices/MLNXBF04:00/opn

Defined on file sysfs-platform-mellanox-bootctl

The “opn” sysfs attribute holds the board’s part number. This value is provided on a board-level label.

/sys/bus/platform/devices/MLNXBF04:00/post_reset_wdog

Defined on file sysfs-platform-mellanox-bootctl

The watchdog setting in seconds for the next booting. It’s used to reboot the chip and recover it to the old state if the new boot partition fails.

/sys/bus/platform/devices/MLNXBF04:00/reset_action

Defined on file sysfs-platform-mellanox-bootctl

The source of the boot stream for the next reset. It could be one of the following values:

external

boot from external source (USB or PCIe)

emmc

boot from the onchip eMMC

emmc_legacy

boot from the onchip eMMC in legacy (slow) mode

/sys/bus/platform/devices/MLNXBF04:00/rev

Defined on file sysfs-platform-mellanox-bootctl

The “rev” sysfs attribute holds the board’s revision. This value is provided on a board-level label.

/sys/bus/platform/devices/MLNXBF04:00/rsh_log

Defined on file sysfs-platform-mellanox-bootctl

The file used to write BlueField boot log with the format “[INFO|WARN|ERR|ASSERT ]<msg>”. Log level ‘INFO’ is used by default if not specified.

/sys/bus/platform/devices/MLNXBF04:00/second_reset_action

Defined on file sysfs-platform-mellanox-bootctl

Update the source of the boot stream after next reset. It could be one of the following values and will be applied after next reset.

external

boot from external source (USB or PCIe)

emmc

boot from the onchip eMMC

emmc_legacy

boot from the onchip eMMC in legacy (slow) mode

swap_emmc

swap the primary / secondary boot partition

none

cancel the action

/sys/bus/platform/devices/MLNXBF04:00/secure_boot_fuse_state

Defined on file sysfs-platform-mellanox-bootctl

The state of eFuse versions with the following values.

InUse

burnt, valid and currently in use

Used

burnt and valid

Free

not burnt and free to use

Skipped

not burnt but not free (skipped)

Wasted

burnt and invalid

Invalid

not burnt but marked as valid (error state).

/sys/bus/platform/devices/MLNXBF04:00/sku

Defined on file sysfs-platform-mellanox-bootctl

The “sku” sysfs attribute holds the board’s SKU number. This value is provided on a board-level label.

/sys/bus/platform/devices/MLNXBF04:00/sn

Defined on file sysfs-platform-mellanox-bootctl

The “sn” sysfs attribute holds the board’s serial number. This value is provided on a board-level label.

/sys/bus/platform/devices/MLNXBF04:00/uuid

Defined on file sysfs-platform-mellanox-bootctl

The “uuid” sysfs attribute holds the board’s UUID. This value is provided by the manufacturing team.

/sys/bus/platform/devices/VPC2004:*/camera_power

Defined on file sysfs-platform-ideapad-laptop

Control the power of camera module. 1 means on, 0 means off.

/sys/bus/platform/devices/VPC2004:*/conservation_mode

Defined on file sysfs-platform-ideapad-laptop

Controls whether the conservation mode is enabled or not. This feature limits the maximum battery charge percentage to around 50-60% in order to prolong the lifetime of the battery.

/sys/bus/platform/devices/VPC2004:*/fan_mode

Defined on file sysfs-platform-ideapad-laptop

Change fan mode There are four available modes:

  • 0 -> Super Silent Mode

  • 1 -> Standard Mode

  • 2 -> Dust Cleaning

  • 4 -> Efficient Thermal Dissipation Mode

/sys/bus/platform/devices/VPC2004:*/fn_lock

Defined on file sysfs-platform-ideapad-laptop

Control fn-lock mode.

  • 1 -> Switched On

  • 0 -> Switched Off

For example:

# echo "0" >  \
/sys/bus/pci/devices/0000:00:1f.0/PNP0C09:00/VPC2004:00/fn_lock

/sys/bus/platform/devices/VPC2004:*/touchpad

Defined on file sysfs-platform-ideapad-laptop

Control touchpad mode.
  • 1 -> Switched On

  • 0 -> Switched Off

/sys/bus/platform/devices/VPC2004:*/usb_charging

Defined on file sysfs-platform-ideapad-laptop

Controls whether the “always on USB charging” feature is enabled or not. This feature enables charging USB devices even if the computer is not turned on.

/sys/bus/platform/devices/[..]/fsi-master-gpio/external_mode

Defined on file sysfs-driver-fsi-master-gpio

Controls access arbitration for GPIO-based FSI master. A value of 0 (the default) sets normal mode, where the driver performs FSI bus transactions, 1 sets external mode, where the FSI bus is driven externally (for example, by a debug device).

/sys/bus/platform/devices/ci_hdrc.0/inputs/a_bus_drop

Defined on file sysfs-platform-chipidea-usb-otg

Can be set and read The a_bus_drop(A-device bus drop) input is 1 when the application running on the A-device wants to power down the bus, and is 0 otherwise, When a_bus_drop is 1, then the a_bus_req shall be 0.

Valid values are “1” and “0”.

Reading: returns 1 if the bus is off(vbus is turned off) by

A-device, otherwise 0.

/sys/bus/platform/devices/ci_hdrc.0/inputs/a_bus_req

Defined on file sysfs-platform-chipidea-usb-otg

Can be set and read. Set a_bus_req(A-device bus request) input to be 1 if the application running on the A-device wants to use the bus, and to be 0 when the application no longer wants to use the bus(or wants to work as peripheral). a_bus_req can also be set to 1 by kernel in response to remote wakeup signaling from the B-device, the A-device should decide to resume the bus.

Valid values are “1” and “0”.

Reading: returns 1 if the application running on the A-device is using the bus as host role, otherwise 0.

/sys/bus/platform/devices/ci_hdrc.0/inputs/a_clr_err

Defined on file sysfs-platform-chipidea-usb-otg

Only can be set. The a_clr_err(A-device Vbus error clear) input is used to clear vbus error, then A-device will power down the bus.

Valid value is “1”

/sys/bus/platform/devices/ci_hdrc.0/inputs/b_bus_req

Defined on file sysfs-platform-chipidea-usb-otg

Can be set and read. The b_bus_req(B-device bus request) input is 1 during the time that the application running on the B-device wants to use the bus as host, and is 0 when the application no longer wants to work as host and decides to switch back to be peripheral.

Valid values are “1” and “0”.

Reading: returns if the application running on the B device is using the bus as host role, otherwise 0.

/sys/bus/platform/devices/ci_hdrc.0/role

Defined on file sysfs-platform-chipidea-usb2

When read, it returns string “gadget” or “host”, indicating the current controller role.

It will do role switch when “gadget” or “host” is written to it. Only controller at dual-role configuration supports writing.

/sys/bus/platform/devices/dfl-fme.0/bitstream_id

Defined on file sysfs-platform-dfl-fme

Read-only. It returns Bitstream (static FPGA region) identifier number, which includes the detailed version and other information of this static FPGA region.

/sys/bus/platform/devices/dfl-fme.0/bitstream_metadata

Defined on file sysfs-platform-dfl-fme

Read-only. It returns Bitstream (static FPGA region) meta data, which includes the synthesis date, seed and other information of this static FPGA region.

/sys/bus/platform/devices/dfl-fme.0/cache_size

Defined on file sysfs-platform-dfl-fme

Read-only. It returns cache size of this FPGA device.

/sys/bus/platform/devices/dfl-fme.0/errors/catfatal_errors

Defined on file sysfs-platform-dfl-fme

Read-only. It returns catastrophic and fatal errors detected.

/sys/bus/platform/devices/dfl-fme.0/errors/first_error

Defined on file sysfs-platform-dfl-fme

Read-only. Read this file to get the first error detected by hardware.

/sys/bus/platform/devices/dfl-fme.0/errors/fme_errors

Defined on file sysfs-platform-dfl-fme

Read-Write. Read this file to get errors detected on FME. Write this file to clear errors logged in fme_errors. Write fails with -EINVAL if input parsing fails or input error code doesn’t match.

/sys/bus/platform/devices/dfl-fme.0/errors/inject_errors

Defined on file sysfs-platform-dfl-fme

Read-Write. Read this file to check errors injected. Write this file to inject errors for testing purpose. Write fails with -EINVAL if input parsing fails or input inject error code isn’t supported.

/sys/bus/platform/devices/dfl-fme.0/errors/next_error

Defined on file sysfs-platform-dfl-fme

Read-only. Read this file to get the second error detected by hardware.

/sys/bus/platform/devices/dfl-fme.0/errors/nonfatal_errors

Defined on file sysfs-platform-dfl-fme

Read-only. It returns non-fatal errors detected.

/sys/bus/platform/devices/dfl-fme.0/errors/pcie0_errors

Defined on file sysfs-platform-dfl-fme

Read-Write. Read this file for errors detected on pcie0 link. Write this file to clear errors logged in pcie0_errors. Write fails with -EINVAL if input parsing fails or input error code doesn’t match.

/sys/bus/platform/devices/dfl-fme.0/errors/pcie1_errors

Defined on file sysfs-platform-dfl-fme

Read-Write. Read this file for errors detected on pcie1 link. Write this file to clear errors logged in pcie1_errors. Write fails with -EINVAL if input parsing fails or input error code doesn’t match.

/sys/bus/platform/devices/dfl-fme.0/fabric_version

Defined on file sysfs-platform-dfl-fme

Read-only. It returns fabric version of this FPGA device. Userspace applications need this information to select best data channels per different fabric design.

/sys/bus/platform/devices/dfl-fme.0/hwmon/hwmonX/name

Defined on file sysfs-platform-dfl-fme

Read-Only. Read this file to get the name of hwmon device, it supports values:

‘dfl_fme_thermal’

thermal hwmon device name

‘dfl_fme_power’

power hwmon device name

/sys/bus/platform/devices/dfl-fme.0/hwmon/hwmonX/power1_crit

Defined on file sysfs-platform-dfl-fme

Read-Write. Read this file to get current hardware power threshold2 in uW. If power consumption rises at or above this threshold, hardware starts 90% throttling. Write this file to set current hardware power threshold2 in uW. As hardware only accepts values in Watts, so input value will be round down per Watts (< 1 watts part will be discarded) and clamped within the range from 0 to 127 Watts. Write fails with -EINVAL if input parsing fails.

/sys/bus/platform/devices/dfl-fme.0/hwmon/hwmonX/power1_crit_alarm

Defined on file sysfs-platform-dfl-fme

Read-only. It returns 1 if power consumption is currently at or above hardware threshold2 (see ‘power1_crit’), otherwise 0.

/sys/bus/platform/devices/dfl-fme.0/hwmon/hwmonX/power1_fpga_limit

Defined on file sysfs-platform-dfl-fme

Read-Only. It returns power limit for FPGA in uW.

/sys/bus/platform/devices/dfl-fme.0/hwmon/hwmonX/power1_input

Defined on file sysfs-platform-dfl-fme

Read-Only. It returns current FPGA power consumption in uW.

/sys/bus/platform/devices/dfl-fme.0/hwmon/hwmonX/power1_ltr

Defined on file sysfs-platform-dfl-fme

Read-only. Read this file to get current Latency Tolerance Reporting (ltr) value. It returns 1 if all Accelerated Function Units (AFUs) can tolerate latency >= 40us for memory access or 0 if any AFU is latency sensitive (< 40us).

/sys/bus/platform/devices/dfl-fme.0/hwmon/hwmonX/power1_max

Defined on file sysfs-platform-dfl-fme

Read-Write. Read this file to get current hardware power threshold1 in uW. If power consumption rises at or above this threshold, hardware starts 50% throttling. Write this file to set current hardware power threshold1 in uW. As hardware only accepts values in Watts, so input value will be round down per Watts (< 1 watts part will be discarded) and clamped within the range from 0 to 127 Watts. Write fails with -EINVAL if input parsing fails.

/sys/bus/platform/devices/dfl-fme.0/hwmon/hwmonX/power1_max_alarm

Defined on file sysfs-platform-dfl-fme

Read-only. It returns 1 if power consumption is currently at or above hardware threshold1 (see ‘power1_max’), otherwise 0.

/sys/bus/platform/devices/dfl-fme.0/hwmon/hwmonX/power1_xeon_limit

Defined on file sysfs-platform-dfl-fme

Read-Only. It returns power limit for XEON in uW.

/sys/bus/platform/devices/dfl-fme.0/hwmon/hwmonX/temp1_crit

Defined on file sysfs-platform-dfl-fme

Read-Only. It returns hardware threshold2 temperature in millidegrees Celsius. If temperature rises at or above this threshold, hardware starts 100% throttling.

/sys/bus/platform/devices/dfl-fme.0/hwmon/hwmonX/temp1_crit_alarm

Defined on file sysfs-platform-dfl-fme

Read-only. It returns 1 if temperature is currently at or above hardware threshold2 (see ‘temp1_crit’), otherwise 0.

/sys/bus/platform/devices/dfl-fme.0/hwmon/hwmonX/temp1_emergency

Defined on file sysfs-platform-dfl-fme

Read-Only. It returns hardware trip threshold temperature in millidegrees Celsius. If temperature rises at or above this threshold, a fatal event will be triggered to board management controller (BMC) to shutdown FPGA.

/sys/bus/platform/devices/dfl-fme.0/hwmon/hwmonX/temp1_input

Defined on file sysfs-platform-dfl-fme

Read-Only. It returns FPGA device temperature in millidegrees Celsius.

/sys/bus/platform/devices/dfl-fme.0/hwmon/hwmonX/temp1_max

Defined on file sysfs-platform-dfl-fme

Read-Only. It returns hardware threshold1 temperature in millidegrees Celsius. If temperature rises at or above this threshold, hardware starts 50% or 90% throttling (see ‘temp1_max_policy’).

/sys/bus/platform/devices/dfl-fme.0/hwmon/hwmonX/temp1_max_alarm

Defined on file sysfs-platform-dfl-fme

Read-only. It returns 1 if temperature is currently at or above hardware threshold1 (see ‘temp1_max’), otherwise 0.

/sys/bus/platform/devices/dfl-fme.0/hwmon/hwmonX/temp1_max_policy

Defined on file sysfs-platform-dfl-fme

Read-Only. Read this file to get the policy of hardware threshold1 (see ‘temp1_max’). It only supports two values (policies):

0

AP2 state (90% throttling)

1

AP1 state (50% throttling)

/sys/bus/platform/devices/dfl-fme.0/ports_num

Defined on file sysfs-platform-dfl-fme

Read-only. One DFL FPGA device may have more than 1 port/Accelerator Function Unit (AFU). It returns the number of ports on the FPGA device when read it.

/sys/bus/platform/devices/dfl-fme.0/socket_id

Defined on file sysfs-platform-dfl-fme

Read-only. It returns socket_id to indicate which socket this FPGA belongs to, only valid for integrated solution. User only needs this information, in case standard numa node can’t provide correct information.

/sys/bus/platform/devices/dfl-port.0/afu_id

Defined on file sysfs-platform-dfl-port

Read-only. User can program different PR bitstreams to FPGA Accelerator Function Unit (AFU) for different functions. It returns uuid which could be used to identify which PR bitstream is programmed in this AFU.

/sys/bus/platform/devices/dfl-port.0/ap1_event

Defined on file sysfs-platform-dfl-port

Read-write. Read this file for AP1 (AFU Power State 1) event. It’s used to indicate transient AP1 state. Write 1 to this file to clear AP1 event.

/sys/bus/platform/devices/dfl-port.0/ap2_event

Defined on file sysfs-platform-dfl-port

Read-write. Read this file for AP2 (AFU Power State 2) event. It’s used to indicate transient AP2 state. Write 1 to this file to clear AP2 event.

/sys/bus/platform/devices/dfl-port.0/errors/errors

Defined on file sysfs-platform-dfl-port

Read-Write. Read this file to get errors detected on port and Accelerated Function Unit (AFU). Write error code to this file to clear errors. Write fails with -EINVAL if input parsing fails or input error code doesn’t match. Write fails with -EBUSY or -ETIMEDOUT if error can’t be cleared as hardware in low power state (-EBUSY) or not respoding (-ETIMEDOUT).

/sys/bus/platform/devices/dfl-port.0/errors/first_error

Defined on file sysfs-platform-dfl-port

Read-only. Read this file to get the first error detected by hardware.

/sys/bus/platform/devices/dfl-port.0/errors/first_malformed_req

Defined on file sysfs-platform-dfl-port

Read-only. Read this file to get the first malformed request captured by hardware.

/sys/bus/platform/devices/dfl-port.0/id

Defined on file sysfs-platform-dfl-port

Read-only. It returns id of this port. One DFL FPGA device may have more than one port. Userspace could use this id to distinguish different ports under same FPGA device.

/sys/bus/platform/devices/dfl-port.0/ltr

Defined on file sysfs-platform-dfl-port

Read-write. Read or set AFU latency tolerance reporting value. Set ltr to 1 if the AFU can tolerate latency >= 40us or set it to 0 if it is latency sensitive.

/sys/bus/platform/devices/dfl-port.0/power_state

Defined on file sysfs-platform-dfl-port

Read-only. It reports the APx (AFU Power) state, different APx means different throttling level. When reading this file, it returns “0” - Normal / “1” - AP1 / “2” - AP2 / “6” - AP6.

/sys/bus/platform/devices/dfl-port.0/userclk_freqcmd

Defined on file sysfs-platform-dfl-port

Write-only. User writes command to this interface to set userclock to AFU.

/sys/bus/platform/devices/dfl-port.0/userclk_freqcntrcmd

Defined on file sysfs-platform-dfl-port

Write-only. User writes command to this interface to set userclock counter.

/sys/bus/platform/devices/dfl-port.0/userclk_freqcntrsts

Defined on file sysfs-platform-dfl-port

Read-only. Read this file to get the status of issued command to userclck_freqcntrcmd.

/sys/bus/platform/devices/dfl-port.0/userclk_freqsts

Defined on file sysfs-platform-dfl-port

Read-only. Read this file to get the status of issued command to userclck_freqcmd.

/sys/bus/platform/devices/occ-hwmon.X/ffdc

Defined on file sysfs-bus-platform-devices-occ-hwmon

Contains the First Failure Data Capture from the SBEFIFO hardware, if there is any from a previous transfer. Otherwise, the file is empty. The data is cleared when it’s been completely read by a user. As the name suggests, only the data from the first error is saved, until it’s cleared upon read. The OCC hwmon driver, running on a Baseboard Management Controller (BMC), communicates with POWER9 and up processors over the Self-Boot Engine (SBE) FIFO. In many error conditions, the SBEFIFO will return error data indicating the type of error and system state, etc.

/sys/bus/platform/devices/smpro-errmon.*/[error|warn]_[smpro|pmpro]

Defined on file sysfs-bus-platform-devices-ampere-smpro

(RO) Contains the internal firmware error/warning printed as hex format.

The detail of each sysfs entries is as below:

Error

Sysfs entry

Description

SMpro error

/sys/bus/platform/devices/smpro-errmon.*/error_smpro

system has SMpro error

SMpro warning

/sys/bus/platform/devices/smpro-errmon.*/warn_smpro

system has SMpro warning

PMpro error

/sys/bus/platform/devices/smpro-errmon.*/error_pmpro

system has PMpro error

PMpro warning

/sys/bus/platform/devices/smpro-errmon.*/warn_pmpro

system has PMpro warning

For details, see section 5.10 RAS Internal Error Register Definitions, Altra Family Soc BMC Interface Specification.

/sys/bus/platform/devices/smpro-errmon.*/error_[core|mem|pcie|other]_[ce|ue]

Defined on file sysfs-bus-platform-devices-ampere-smpro

(RO) Contains the 48-byte Ampere (Vendor-Specific) Error Record printed in hex format according to the table below:

Offset

Field

Size (byte)

Description

00

Error Type

1

See the table below for details

01

Subtype

1

See the table below for details

02

Instance

2

See the table below for details

04

Error status

4

See ARM RAS specification for details

08

Error Address

8

See ARM RAS specification for details

16

Error Misc 0

8

See ARM RAS specification for details

24

Error Misc 1

8

See ARM RAS specification for details

32

Error Misc 2

8

See ARM RAS specification for details

40

Error Misc 3

8

See ARM RAS specification for details

The table below defines the value of error types, their subtype, subcomponent and instance:

Error Group

Error Type

Sub type

Sub component

Instance

CPM (core)

0

0

Snoop-Logic

CPM #

CPM (core)

0

2

Armv8 Core 1

CPM #

MCU (mem)

1

1

ERR1

MCU # | SLOT << 11

MCU (mem)

1

2

ERR2

MCU # | SLOT << 11

MCU (mem)

1

3

ERR3

MCU #

MCU (mem)

1

4

ERR4

MCU #

MCU (mem)

1

5

ERR5

MCU #

MCU (mem)

1

6

ERR6

MCU #

MCU (mem)

1

7

Link Error

MCU #

Mesh (other)

2

0

Cross Point

X | (Y << 5) | NS <<11

Mesh (other)

2

1

Home Node(IO)

X | (Y << 5) | NS <<11

Mesh (other)

2

2

Home Node(Mem)

X | (Y << 5) | NS <<11 | device<<12

Mesh (other)

2

4

CCIX Node

X | (Y << 5) | NS <<11

2P Link (other)

3

0

N/A

Altra 2P Link #

GIC (other)

5

0

ERR0

0

GIC (other)

5

1

ERR1

0

GIC (other)

5

2

ERR2

0

GIC (other)

5

3

ERR3

0

GIC (other)

5

4

ERR4

0

GIC (other)

5

5

ERR5

0

GIC (other)

5

6

ERR6

0

GIC (other)

5

7

ERR7

0

GIC (other)

5

8

ERR8

0

GIC (other)

5

9

ERR9

0

GIC (other)

5

10

ERR10

0

GIC (other)

5

11

ERR11

0

GIC (other)

5

12

ERR12

0

GIC (other)

5

13-21

ERR13

RC # + 1

SMMU (other)

6

TCU

100

RC #

SMMU (other)

6

TBU0

0

RC #

SMMU (other)

6

TBU1

1

RC #

SMMU (other)

6

TBU2

2

RC #

SMMU (other)

6

TBU3

3

RC #

SMMU (other)

6

TBU4

4

RC #

SMMU (other)

6

TBU5

5

RC #

SMMU (other)

6

TBU6

6

RC #

SMMU (other)

6

TBU7

7

RC #

SMMU (other)

6

TBU8

8

RC #

SMMU (other)

6

TBU9

9

RC #

PCIe AER (pcie)

7

Root

0

RC #

PCIe AER (pcie)

7

Device

1

RC #

PCIe RC (pcie)

8

RCA HB

0

RC #

PCIe RC (pcie)

8

RCB HB

1

RC #

PCIe RC (pcie)

8

RASDP

8

RC #

OCM (other)

9

ERR0

0

0

OCM (other)

9

ERR1

1

0

OCM (other)

9

ERR2

2

0

SMpro (other)

10

ERR0

0

0

SMpro (other)

10

ERR1

1

0

SMpro (other)

10

MPA_ERR

2

0

PMpro (other)

11

ERR0

0

0

PMpro (other)

11

ERR1

1

0

PMpro (other)

11

MPA_ERR

2

0

Example:

# cat error_other_ue
880807001e004010401040101500000001004010401040100c0000000000000000000000000000000000000000000000

The detail of each sysfs entries is as below:

Error

Sysfs entry

Description (when triggered)

Core’s CE

/sys/bus/platform/devices/smpro-errmon.*/error_core_ce

Core has CE error

Core’s UE

/sys/bus/platform/devices/smpro-errmon.*/error_core_ue

Core has UE error

Memory’s CE

/sys/bus/platform/devices/smpro-errmon.*/error_mem_ce

Memory has CE error

Memory’s UE

/sys/bus/platform/devices/smpro-errmon.*/error_mem_ue

Memory has UE error

PCIe’s CE

/sys/bus/platform/devices/smpro-errmon.*/error_pcie_ce

any PCIe controller has CE error

PCIe’s UE

/sys/bus/platform/devices/smpro-errmon.*/error_pcie_ue

any PCIe controller has UE error

Other’s CE

/sys/bus/platform/devices/smpro-errmon.*/error_other_ce

any other CE error

Other’s UE

/sys/bus/platform/devices/smpro-errmon.*/error_other_ue

any other UE error

UE: Uncorrect-able Error CE: Correct-able Error

For details, see section 3.3 Ampere (Vendor-Specific) Error Record Formats, Altra Family RAS Supplement.

/sys/bus/platform/devices/smpro-errmon.*/event_[vrd_warn_fault|vrd_hot|dimm_hot|dimm_2x_refresh]

Defined on file sysfs-bus-platform-devices-ampere-smpro

(RO) Contains the detail information in case of VRD/DIMM warning/hot events in hex format as below:

AAAA

where:

  • AAAA: The event detail information data

The detail of each sysfs entries is as below:

Event

Sysfs entry

Description

VRD HOT

/sys/bus/platform/devices/smpro-errmon.*/event_vrd_hot

VRD Hot

VR Warn/Fault

/sys/bus/platform/devices/smpro-errmon.*/event_vrd_warn_fault

VR Warning or Fault

DIMM HOT

/sys/bus/platform/devices/smpro-errmon.*/event_dimm_hot

DIMM Hot

DIMM 2X REFRESH RATE

/sys/bus/platform/devices/smpro-errmon.*/event_dimm_2x_refresh

DIMM 2x refresh rate event in high temp

For more details, see section 5.7 GPI Status Registers and 5.9 Memory Error Register Definitions, Altra Family Soc BMC Interface Specification.

/sys/bus/platform/devices/smpro-errmon.*/event_dimm[0-15]_syndrome

Defined on file sysfs-bus-platform-devices-ampere-smpro

(RO) The sysfs returns the 2-byte DIMM failure syndrome data for slot 0-15 if it failed to initialize.

For more details, see section 5.11 Boot Stage Register Definitions, Altra Family Soc BMC Interface Specification.

/sys/bus/platform/devices/smpro-errmon.*/overflow_[core|mem|pcie|other]_[ce|ue]

Defined on file sysfs-bus-platform-devices-ampere-smpro

(RO) Return the overflow status of each type HW error reported:

  • 0 : No overflow

  • 1 : There is an overflow and the oldest HW errors are dropped

The detail of each sysfs entries is as below:

Overflow

Sysfs entry

Description

Core’s CE

/sys/bus/platform/devices/smpro-errmon.*/overflow_core_ce

Core CE error overflow

Core’s UE

/sys/bus/platform/devices/smpro-errmon.*/overflow_core_ue

Core UE error overflow

Memory’s CE

/sys/bus/platform/devices/smpro-errmon.*/overflow_mem_ce

Memory CE error overflow

Memory’s UE

/sys/bus/platform/devices/smpro-errmon.*/overflow_mem_ue

Memory UE error overflow

PCIe’s CE

/sys/bus/platform/devices/smpro-errmon.*/overflow_pcie_ce

any PCIe controller CE error overflow

PCIe’s UE

/sys/bus/platform/devices/smpro-errmon.*/overflow_pcie_ue

any PCIe controller UE error overflow

Other’s CE

/sys/bus/platform/devices/smpro-errmon.*/overflow_other_ce

any other CE error overflow

Other’s UE

/sys/bus/platform/devices/smpro-errmon.*/overflow_other_ue

other UE error overflow

where:

  • UE: Uncorrect-able Error

  • CE: Correct-able Error

/sys/bus/platform/devices/smpro-misc*/soc_power_limit

Defined on file sysfs-bus-platform-devices-ampere-smpro

(RW) Contains the desired SoC power limit in Watt. Writes to this sysfs set the desired SoC power limit (W). Reads from this register return the current SoC power limit (W). The value ranges:

  • Minimum: 120 W

  • Maximum: Socket TDP power

/sys/bus/platform/devices/smpro-misc.*/boot_progress

Defined on file sysfs-bus-platform-devices-ampere-smpro

(RO) Contains the boot stages information in hex as format below:

AABBCCCCCCCC

where:

  • AA : The boot stages

    • 00: SMpro firmware booting

    • 01: PMpro firmware booting

    • 02: ATF BL1 firmware booting

    • 03: DDR initialization

    • 04: DDR training report status

    • 05: ATF BL2 firmware booting

    • 06: ATF BL31 firmware booting

    • 07: ATF BL32 firmware booting

    • 08: UEFI firmware booting

    • 09: OS booting

  • BB : Boot status

    • 00: Not started

    • 01: Started

    • 02: Completed without error

    • 03: Failed.

  • CCCCCCCC: Boot status information defined for each boot stages

For details, see section 5.11 Boot Stage Register Definitions and section 6. Processor Boot Progress Codes, Altra Family Soc BMC Interface Specification.

/sys/bus/platform/devices/tahvo-usb/otg_mode

Defined on file sysfs-platform-tahvo-usb

Set or read the current OTG mode. Valid values are “host” and “peripheral”.

Reading: returns the current mode.

/sys/bus/platform/devices/tahvo-usb/vbus

Defined on file sysfs-platform-tahvo-usb

Read the current VBUS state.

Reading: returns “on” or “off”.

/sys/bus/platform/drivers/amd_pmc/*/smu_fw_version

Defined on file sysfs-amd-pmc

Reading this file reports the version of the firmware loaded to System Management Unit (SMU) contained in AMD CPUs and APUs.

/sys/bus/platform/drivers/amd_pmc/*/smu_program

Defined on file sysfs-amd-pmc

Reading this file reports the program corresponding to the SMU firmware version. The program field is used to disambiguate two APU/CPU models that can share the same firmware binary.

/sys/bus/platform/drivers/aspeed-uart-routing/\*/io\*

Defined on file sysfs-driver-aspeed-uart-routing

Selects the RX source of IOx serial port. The current selection will be marked by brackets “[]”.

Users: OpenBMC. Proposed changes should be mailed to openbmc@lists.ozlabs.org

/sys/bus/platform/drivers/aspeed-uart-routing/\*/uart\*

Defined on file sysfs-driver-aspeed-uart-routing

Selects the RX source of the UARTx device.

When read, each file shows the list of available options with currently selected option marked by brackets “[]”. The list of available options depends on the selected file.

e.g. cat /sys/bus/platform/drivers/aspeed-uart-routing/*.uart_routing/uart1 [io1] io2 io3 io4 uart2 uart3 uart4 io6

In this case, UART1 gets its input from IO1 (physical serial port 1).

Users: OpenBMC. Proposed changes should be mailed to openbmc@lists.ozlabs.org

/sys/bus/platform/drivers/intel-m10bmc-sec-update/.../security/bmc_canceled_csks

Defined on file sysfs-driver-intel-m10-bmc-sec-update

Read only. Returns a list of indices for canceled code signing keys for the BMC. The standard bitmap list format is used (e.g. “1,2-6,9”).

/sys/bus/platform/drivers/intel-m10bmc-sec-update/.../security/bmc_root_entry_hash

Defined on file sysfs-driver-intel-m10-bmc-sec-update

Read only. Returns the root entry hash for the BMC image if one is programmed, else it returns the string: “hash not programmed”. This file is only visible if the underlying device supports it. Format: string.

/sys/bus/platform/drivers/intel-m10bmc-sec-update/.../security/flash_count

Defined on file sysfs-driver-intel-m10-bmc-sec-update

Read only. Returns number of times the secure update staging area has been flashed. Format: “%u”.

/sys/bus/platform/drivers/intel-m10bmc-sec-update/.../security/pr_canceled_csks

Defined on file sysfs-driver-intel-m10-bmc-sec-update

Read only. Returns a list of indices for canceled code signing keys for the partial reconfiguration region. The standard bitmap list format is used (e.g. “1,2-6,9”).

/sys/bus/platform/drivers/intel-m10bmc-sec-update/.../security/pr_root_entry_hash

Defined on file sysfs-driver-intel-m10-bmc-sec-update

Read only. Returns the root entry hash for the partial reconfiguration region if one is programmed, else it returns the string: “hash not programmed”. This file is only visible if the underlying device supports it. Format: string.

/sys/bus/platform/drivers/intel-m10bmc-sec-update/.../security/sr_canceled_csks

Defined on file sysfs-driver-intel-m10-bmc-sec-update

Read only. Returns a list of indices for canceled code signing keys for the static region. The standard bitmap list format is used (e.g. “1,2-6,9”).

/sys/bus/platform/drivers/intel-m10bmc-sec-update/.../security/sr_root_entry_hash

Defined on file sysfs-driver-intel-m10-bmc-sec-update

Read only. Returns the root entry hash for the static region if one is programmed, else it returns the string: “hash not programmed”. This file is only visible if the underlying device supports it. Format: string.

/sys/bus/platform/drivers/panfrost/.../profiling

Defined on file sysfs-driver-panfrost-profiling

Get/set drm fdinfo’s engine and cycles profiling status. Valid values are: 0: Don’t enable fdinfo job profiling sources. 1: Enable fdinfo job profiling sources, this enables both the GPU’s timestamp and cycle counter registers.

/sys/bus/platform/drivers/qcom_eud/.../enable

Defined on file sysfs-driver-eud

The Enable/Disable sysfs interface for Embedded USB Debugger(EUD). This enables and disables the EUD based on a 1 or a 0 value. By enabling EUD, the user is able to activate the mini-usb hub of EUD for debug and trace capabilities.

/sys/bus/platform/drivers/ufshcd/*/attributes/active_icc_level

/sys/bus/platform/devices/*.ufs/attributes/active_icc_level

Defined on file sysfs-driver-ufs

This file provides the active icc level UFS device attribute. The full information about the attribute could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/attributes/bkops_status

/sys/bus/platform/devices/*.ufs/attributes/bkops_status

Defined on file sysfs-driver-ufs

This file provides the background operations status UFS device attribute. The full information about the attribute could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/attributes/boot_lun_enabled

/sys/bus/platform/devices/*.ufs/attributes/boot_lun_enabled

Defined on file sysfs-driver-ufs

This file provides the boot lun enabled UFS device attribute. The full information about the attribute could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/attributes/configuration_descriptor_lock

/sys/bus/platform/devices/*.ufs/attributes/configuration_descriptor_lock

Defined on file sysfs-driver-ufs

This file shows whether the configuration descriptor is locked. The full information about the attribute could be found at UFS specifications 2.1. The file is read only.

/sys/bus/platform/drivers/ufshcd/*/attributes/current_power_mode

/sys/bus/platform/devices/*.ufs/attributes/current_power_mode

Defined on file sysfs-driver-ufs

This file provides the current power mode UFS device attribute. The full information about the attribute could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/attributes/exception_event_control

/sys/bus/platform/devices/*.ufs/attributes/exception_event_control

Defined on file sysfs-driver-ufs

This file provides the exception event control UFS device attribute. The full information about the attribute could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/attributes/exception_event_status

/sys/bus/platform/devices/*.ufs/attributes/exception_event_status

Defined on file sysfs-driver-ufs

This file provides the exception event status UFS device attribute. The full information about the attribute could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/attributes/ffu_status

/sys/bus/platform/devices/*.ufs/attributes/ffu_status

Defined on file sysfs-driver-ufs

This file provides the ffu status UFS device attribute. The full information about the attribute could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/attributes/max_data_in_size

/sys/bus/platform/devices/*.ufs/attributes/max_data_in_size

Defined on file sysfs-driver-ufs

This file shows the maximum data size in a DATA IN UPIU. The full information about the attribute could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/attributes/max_data_out_size

/sys/bus/platform/devices/*.ufs/attributes/max_data_out_size

Defined on file sysfs-driver-ufs

This file shows the maximum number of bytes that can be requested with a READY TO TRANSFER UPIU. The full information about the attribute could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/attributes/max_number_of_rtt

/sys/bus/platform/devices/*.ufs/attributes/max_number_of_rtt

Defined on file sysfs-driver-ufs

This file provides the maximum current number of outstanding RTTs in device that is allowed. bMaxNumOfRTT is a read-write persistent attribute and is equal to two after device manufacturing. It shall not be set to a value greater than bDeviceRTTCap value, and it may be set only when the hw queues are empty.

The file is read write.

/sys/bus/platform/drivers/ufshcd/*/attributes/ooo_data_enabled

/sys/bus/platform/devices/*.ufs/attributes/ooo_data_enabled

Defined on file sysfs-driver-ufs

This file provides the out of order data transfer enabled UFS device attribute. The full information about the attribute could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/attributes/psa_data_size

/sys/bus/platform/devices/*.ufs/attributes/psa_data_size

Defined on file sysfs-driver-ufs

This file shows the amount of data that the host plans to load to all logical units in pre-soldering state. The full information about the attribute could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/attributes/psa_state

/sys/bus/platform/devices/*.ufs/attributes/psa_state

Defined on file sysfs-driver-ufs

This file show the PSA feature status. The full information about the attribute could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/attributes/purge_status

/sys/bus/platform/devices/*.ufs/attributes/purge_status

Defined on file sysfs-driver-ufs

This file provides the purge operation status UFS device attribute. The full information about the attribute could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/attributes/reference_clock_frequency

/sys/bus/platform/devices/*.ufs/attributes/reference_clock_frequency

Defined on file sysfs-driver-ufs

This file provides the reference clock frequency UFS device attribute. The full information about the attribute could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/attributes/wb_avail_buf

/sys/bus/platform/devices/*.ufs/attributes/wb_avail_buf

Defined on file sysfs-driver-ufs

This entry shows the amount of unused WriteBooster buffer available.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/attributes/wb_cur_buf

/sys/bus/platform/devices/*.ufs/attributes/wb_cur_buf

Defined on file sysfs-driver-ufs

This entry shows the amount of unused current buffer.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/attributes/wb_flush_status

/sys/bus/platform/devices/*.ufs/attributes/wb_flush_status

Defined on file sysfs-driver-ufs

This entry shows the flush operation status.

00h

idle

01h

Flush operation in progress

02h

Flush operation stopped prematurely.

03h

Flush operation completed successfully

04h

Flush operation general failure

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/attributes/wb_life_time_est

/sys/bus/platform/devices/*.ufs/attributes/wb_life_time_est

Defined on file sysfs-driver-ufs

This entry shows an indication of the WriteBooster Buffer lifetime based on the amount of performed program/erase cycles

01h

0% - 10% WriteBooster Buffer life time used

...

0Ah

90% - 100% WriteBooster Buffer life time used

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/capabilities/clock_scaling

/sys/bus/platform/devices/*.ufs/capabilities/clock_scaling

Defined on file sysfs-driver-ufs

Indicates status of clock scaling.

0

Clock scaling is not supported.

1

Clock scaling is supported.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/capabilities/write_booster

/sys/bus/platform/devices/*.ufs/capabilities/write_booster

Defined on file sysfs-driver-ufs

Indicates status of Write Booster.

0

Write Booster can not be enabled.

1

Write Booster can be enabled.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/capabilities/

/sys/bus/platform/devices/*.ufs/capabilities/

Defined on file sysfs-driver-ufs

The group represents the effective capabilities of the host-device pair. i.e. the capabilities which are enabled in the driver for the specific host controller, supported by the host controller and are supported and/or have compatible configuration on the device side.

/sys/bus/platform/drivers/ufshcd/*/device_descriptor/bkops_termination_latency

/sys/bus/platform/devices/*.ufs/device_descriptor/bkops_termination_latency

Defined on file sysfs-driver-ufs

This file shows the background operations termination latency. This is one of the UFS device descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/device_descriptor/boot_enable

/sys/bus/platform/devices/*.ufs/device_descriptor/boot_enable

Defined on file sysfs-driver-ufs

This file shows value that indicates whether the device is enabled for boot. This is one of the UFS device descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/device_descriptor/descriptor_access_enable

/sys/bus/platform/devices/*.ufs/device_descriptor/descriptor_access_enable

Defined on file sysfs-driver-ufs

This file shows value that indicates whether the device descriptor could be read after partial initialization phase of the boot sequence. This is one of the UFS device descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/device_descriptor/device_class

/sys/bus/platform/devices/*.ufs/device_descriptor/device_class

Defined on file sysfs-driver-ufs

This file shows the device class. This is one of the UFS device descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/device_descriptor/device_sub_class

/sys/bus/platform/devices/*.ufs/device_descriptor/device_sub_class

Defined on file sysfs-driver-ufs

This file shows the UFS storage subclass. This is one of the UFS device descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/device_descriptor/device_type

/sys/bus/platform/devices/*.ufs/device_descriptor/device_type

Defined on file sysfs-driver-ufs

This file shows the device type. This is one of the UFS device descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/device_descriptor/device_version

/sys/bus/platform/devices/*.ufs/device_descriptor/device_version

Defined on file sysfs-driver-ufs

This file shows the device version. This is one of the UFS device descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/device_descriptor/ffu_timeout

/sys/bus/platform/devices/*.ufs/device_descriptor/ffu_timeout

Defined on file sysfs-driver-ufs

This file shows the FFU timeout. This is one of the UFS device descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/device_descriptor/high_priority_lun

/sys/bus/platform/devices/*.ufs/device_descriptor/high_priority_lun

Defined on file sysfs-driver-ufs

This file shows the high priority lun. This is one of the UFS device descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/device_descriptor/initial_active_icc_level

/sys/bus/platform/devices/*.ufs/device_descriptor/initial_active_icc_level

Defined on file sysfs-driver-ufs

This file shows the initial active ICC level. This is one of the UFS device descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/device_descriptor/initial_power_mode

/sys/bus/platform/devices/*.ufs/device_descriptor/initial_power_mode

Defined on file sysfs-driver-ufs

This file shows value that defines the power mode after device initialization or hardware reset. This is one of the UFS device descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/device_descriptor/manufacturer_id

/sys/bus/platform/devices/*.ufs/device_descriptor/manufacturer_id

Defined on file sysfs-driver-ufs

This file shows the manufacturer ID. This is one of the UFS device descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/device_descriptor/manufacturing_date

/sys/bus/platform/devices/*.ufs/device_descriptor/manufacturing_date

Defined on file sysfs-driver-ufs

This file shows the manufacturing date in BCD format. This is one of the UFS device descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/device_descriptor/number_of_luns

/sys/bus/platform/devices/*.ufs/device_descriptor/number_of_luns

Defined on file sysfs-driver-ufs

This file shows number of logical units. This is one of the UFS device descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/device_descriptor/number_of_secure_wpa

/sys/bus/platform/devices/*.ufs/device_descriptor/number_of_secure_wpa

Defined on file sysfs-driver-ufs

This file shows number of secure write protect areas supported by the device. This is one of the UFS device descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/device_descriptor/number_of_wluns

/sys/bus/platform/devices/*.ufs/device_descriptor/number_of_wluns

Defined on file sysfs-driver-ufs

This file shows number of well known logical units. This is one of the UFS device descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/device_descriptor/protocol

/sys/bus/platform/devices/*.ufs/device_descriptor/protocol

Defined on file sysfs-driver-ufs

This file shows the protocol supported by an UFS device. This is one of the UFS device descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/device_descriptor/psa_max_data_size

/sys/bus/platform/devices/*.ufs/device_descriptor/psa_max_data_size

Defined on file sysfs-driver-ufs

This file shows the maximum amount of data that may be written during the pre-soldering phase of the PSA flow. This is one of the UFS device descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/device_descriptor/psa_state_timeout

/sys/bus/platform/devices/*.ufs/device_descriptor/psa_state_timeout

Defined on file sysfs-driver-ufs

This file shows the command maximum timeout for a change in PSA state. This is one of the UFS device descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/device_descriptor/queue_depth

/sys/bus/platform/devices/*.ufs/device_descriptor/queue_depth

Defined on file sysfs-driver-ufs

This file shows the device queue depth. This is one of the UFS device descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/device_descriptor/rtc_update

/sys/bus/platform/devices/*.ufs/device_descriptor/rtc_update

Defined on file sysfs-driver-ufs

This file shows the frequency and method of the realtime clock update. This is one of the UFS device descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/device_descriptor/rtt_capability

/sys/bus/platform/devices/*.ufs/device_descriptor/rtt_capability

Defined on file sysfs-driver-ufs

This file shows the maximum number of outstanding RTTs supported by the device. This is one of the UFS device descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/device_descriptor/secure_removal_type

/sys/bus/platform/devices/*.ufs/device_descriptor/secure_removal_type

Defined on file sysfs-driver-ufs

This file shows the secure removal type. This is one of the UFS device descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/device_descriptor/specification_version

/sys/bus/platform/devices/*.ufs/device_descriptor/specification_version

Defined on file sysfs-driver-ufs

This file shows the specification version. This is one of the UFS device descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/device_descriptor/support_security_lun

/sys/bus/platform/devices/*.ufs/device_descriptor/support_security_lun

Defined on file sysfs-driver-ufs

This file shows whether the security lun is supported. This is one of the UFS device descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/device_descriptor/ufs_features

/sys/bus/platform/devices/*.ufs/device_descriptor/ufs_features

Defined on file sysfs-driver-ufs

This file shows which features are supported by the device. This is one of the UFS device descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/device_descriptor/wb_presv_us_en

/sys/bus/platform/devices/*.ufs/device_descriptor/wb_presv_us_en

Defined on file sysfs-driver-ufs

This entry shows if preserve user-space was configured

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/device_descriptor/wb_shared_alloc_units

/sys/bus/platform/devices/*.ufs/device_descriptor/wb_shared_alloc_units

Defined on file sysfs-driver-ufs

This entry shows the shared allocated units of WB buffer

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/device_descriptor/wb_type

/sys/bus/platform/devices/*.ufs/device_descriptor/wb_type

Defined on file sysfs-driver-ufs

This entry shows the configured WB type. 0x1 for shared buffer mode. 0x0 for dedicated buffer mode.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/enable_wb_buf_flush

/sys/bus/platform/devices/*.ufs/enable_wb_buf_flush

Defined on file sysfs-driver-ufs

This entry shows the status of WriteBooster buffer flushing and it can be used to enable or disable the flushing. If flushing is enabled, the device executes the flush operation when the command queue is empty.

/sys/bus/platform/drivers/ufshcd/*/flags/bkops_enable

/sys/bus/platform/devices/*.ufs/flags/bkops_enable

Defined on file sysfs-driver-ufs

This file shows whether the device background operations are enabled. The full information about the flag could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/flags/busy_rtc

/sys/bus/platform/devices/*.ufs/flags/busy_rtc

Defined on file sysfs-driver-ufs

This file shows whether the device is executing internal operation related to real time clock. The full information about the flag could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/flags/device_init

/sys/bus/platform/devices/*.ufs/flags/device_init

Defined on file sysfs-driver-ufs

This file shows the device init status. The full information about the flag could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/flags/disable_fw_update

/sys/bus/platform/devices/*.ufs/flags/disable_fw_update

Defined on file sysfs-driver-ufs

This file shows whether the device FW update is permanently disabled. The full information about the flag could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/flags/life_span_mode_enable

/sys/bus/platform/devices/*.ufs/flags/life_span_mode_enable

Defined on file sysfs-driver-ufs

This file shows whether the device life span mode is enabled. The full information about the flag could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/flags/permanent_wpe

/sys/bus/platform/devices/*.ufs/flags/permanent_wpe

Defined on file sysfs-driver-ufs

This file shows whether permanent write protection is enabled. The full information about the flag could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/flags/phy_resource_removal

/sys/bus/platform/devices/*.ufs/flags/phy_resource_removal

Defined on file sysfs-driver-ufs

This file shows whether physical resource removal is enable. The full information about the flag could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/flags/power_on_wpe

/sys/bus/platform/devices/*.ufs/flags/power_on_wpe

Defined on file sysfs-driver-ufs

This file shows whether write protection is enabled on all logical units configured as power on write protected. The full information about the flag could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/flags/wb_enable

/sys/bus/platform/devices/*.ufs/flags/wb_enable

Defined on file sysfs-driver-ufs

This entry shows the status of WriteBooster.

0

WriteBooster is not enabled.

1

WriteBooster is enabled

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/flags/wb_flush_during_h8

/sys/bus/platform/devices/*.ufs/flags/wb_flush_during_h8

Defined on file sysfs-driver-ufs

Flush WriteBooster Buffer during hibernate state.

0

Device is not allowed to flush the WriteBooster Buffer during link hibernate state.

1

Device is allowed to flush the WriteBooster Buffer during link hibernate state.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/flags/wb_flush_en

/sys/bus/platform/devices/*.ufs/flags/wb_flush_en

Defined on file sysfs-driver-ufs

This entry shows if flush is enabled.

0

Flush operation is not performed.

1

Flush operation is performed.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/geometry_descriptor/*_memory_capacity_adjustment_factor

/sys/bus/platform/devices/*.ufs/geometry_descriptor/*_memory_capacity_adjustment_factor

Defined on file sysfs-driver-ufs

This file shows the memory capacity adjustment factor for different memory types (system code, non persistent, enhanced type 1-4). This is one of the UFS geometry descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/geometry_descriptor/*_memory_max_alloc_units

/sys/bus/platform/devices/*.ufs/geometry_descriptor/*_memory_max_alloc_units

Defined on file sysfs-driver-ufs

This file shows the maximum number of allocation units for different memory types (system code, non persistent, enhanced type 1-4). This is one of the UFS geometry descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/geometry_descriptor/allocation_unit_size

/sys/bus/platform/devices/*.ufs/geometry_descriptor/allocation_unit_size

Defined on file sysfs-driver-ufs

This file shows the allocation unit size. This is one of the UFS geometry descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/geometry_descriptor/data_ordering

/sys/bus/platform/devices/*.ufs/geometry_descriptor/data_ordering

Defined on file sysfs-driver-ufs

This file shows support for out-of-order data transfer. This is one of the UFS geometry descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/geometry_descriptor/dyn_capacity_resource_policy

/sys/bus/platform/devices/*.ufs/geometry_descriptor/dyn_capacity_resource_policy

Defined on file sysfs-driver-ufs

This file shows the dynamic capacity resource policy. This is one of the UFS geometry descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/geometry_descriptor/max_in_buffer_size

/sys/bus/platform/devices/*.ufs/geometry_descriptor/max_in_buffer_size

Defined on file sysfs-driver-ufs

This file shows the maximum data-in buffer size. This is one of the UFS geometry descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/geometry_descriptor/max_number_of_contexts

/sys/bus/platform/devices/*.ufs/geometry_descriptor/max_number_of_contexts

Defined on file sysfs-driver-ufs

This file shows maximum available number of contexts which are supported by the device. This is one of the UFS geometry descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/geometry_descriptor/max_number_of_luns

/sys/bus/platform/devices/*.ufs/geometry_descriptor/max_number_of_luns

Defined on file sysfs-driver-ufs

This file shows the maximum number of logical units supported by the UFS device. This is one of the UFS geometry descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/geometry_descriptor/max_out_buffer_size

/sys/bus/platform/devices/*.ufs/geometry_descriptor/max_out_buffer_size

Defined on file sysfs-driver-ufs

This file shows the maximum data-out buffer size. This is one of the UFS geometry descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/geometry_descriptor/memory_types

/sys/bus/platform/devices/*.ufs/geometry_descriptor/memory_types

Defined on file sysfs-driver-ufs

This file shows supported memory types. This is one of the UFS geometry descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/geometry_descriptor/min_addressable_block_size

/sys/bus/platform/devices/*.ufs/geometry_descriptor/min_addressable_block_size

Defined on file sysfs-driver-ufs

This file shows the minimum addressable block size. This is one of the UFS geometry descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/geometry_descriptor/optimal_read_block_size

/sys/bus/platform/devices/*.ufs/geometry_descriptor/optimal_read_block_size

Defined on file sysfs-driver-ufs

This file shows the optimal read block size. This is one of the UFS geometry descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/geometry_descriptor/optimal_write_block_size

/sys/bus/platform/devices/*.ufs/geometry_descriptor/optimal_write_block_size

Defined on file sysfs-driver-ufs

This file shows the optimal write block size. This is one of the UFS geometry descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/geometry_descriptor/raw_device_capacity

/sys/bus/platform/devices/*.ufs/geometry_descriptor/raw_device_capacity

Defined on file sysfs-driver-ufs

This file shows the total memory quantity available to the user to configure the device logical units. This is one of the UFS geometry descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/geometry_descriptor/rpmb_rw_size

/sys/bus/platform/devices/*.ufs/geometry_descriptor/rpmb_rw_size

Defined on file sysfs-driver-ufs

This file shows the maximum number of RPMB frames allowed in Security Protocol In/Out. This is one of the UFS geometry descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/geometry_descriptor/secure_removal_types

/sys/bus/platform/devices/*.ufs/geometry_descriptor/secure_removal_types

Defined on file sysfs-driver-ufs

This file shows supported secure removal types. This is one of the UFS geometry descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/geometry_descriptor/segment_size

/sys/bus/platform/devices/*.ufs/geometry_descriptor/segment_size

Defined on file sysfs-driver-ufs

This file shows the segment size. This is one of the UFS geometry descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/geometry_descriptor/sys_data_tag_resource_size

/sys/bus/platform/devices/*.ufs/geometry_descriptor/sys_data_tag_resource_size

Defined on file sysfs-driver-ufs

This file shows maximum storage area size allocated by the device to handle system data by the tagging mechanism. This is one of the UFS geometry descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/geometry_descriptor/sys_data_tag_unit_size

/sys/bus/platform/devices/*.ufs/geometry_descriptor/sys_data_tag_unit_size

Defined on file sysfs-driver-ufs

This file shows system data tag unit size. This is one of the UFS geometry descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/geometry_descriptor/wb_buff_cap_adj

/sys/bus/platform/devices/*.ufs/geometry_descriptor/wb_buff_cap_adj

Defined on file sysfs-driver-ufs

This entry shows the total user-space decrease in shared buffer mode. The value of this parameter is 3 for TLC NAND when SLC mode is used as WriteBooster Buffer. 2 for MLC NAND.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/geometry_descriptor/wb_max_alloc_units

/sys/bus/platform/devices/*.ufs/geometry_descriptor/wb_max_alloc_units

Defined on file sysfs-driver-ufs

This entry shows the Maximum total WriteBooster Buffer size which is supported by the entire device.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/geometry_descriptor/wb_max_wb_luns

/sys/bus/platform/devices/*.ufs/geometry_descriptor/wb_max_wb_luns

Defined on file sysfs-driver-ufs

This entry shows the maximum number of luns that can support WriteBooster.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/geometry_descriptor/wb_sup_red_type

/sys/bus/platform/devices/*.ufs/geometry_descriptor/wb_sup_red_type

Defined on file sysfs-driver-ufs

The supportability of user space reduction mode and preserve user space mode. 00h: WriteBooster Buffer can be configured only in user space reduction type. 01h: WriteBooster Buffer can be configured only in preserve user space type. 02h: Device can be configured in either user space reduction type or preserve user space type.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/geometry_descriptor/wb_sup_wb_type

/sys/bus/platform/devices/*.ufs/geometry_descriptor/wb_sup_wb_type

Defined on file sysfs-driver-ufs

The supportability of WriteBooster Buffer type.

00h

LU based WriteBooster Buffer configuration

01h

Single shared WriteBooster Buffer configuration

02h

Supporting both LU based WriteBooster. Buffer and Single shared WriteBooster Buffer configuration

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/health_descriptor/eol_info

/sys/bus/platform/devices/*.ufs/health_descriptor/eol_info

Defined on file sysfs-driver-ufs

This file shows preend of life information. This is one of the UFS health descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/health_descriptor/life_time_estimation_a

/sys/bus/platform/devices/*.ufs/health_descriptor/life_time_estimation_a

Defined on file sysfs-driver-ufs

This file shows indication of the device life time (method a). This is one of the UFS health descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/health_descriptor/life_time_estimation_b

/sys/bus/platform/devices/*.ufs/health_descriptor/life_time_estimation_b

Defined on file sysfs-driver-ufs

This file shows indication of the device life time (method b). This is one of the UFS health descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/interconnect_descriptor/mphy_version

/sys/bus/platform/devices/*.ufs/interconnect_descriptor/mphy_version

Defined on file sysfs-driver-ufs

This file shows the MIPI M-PHY version number in BCD format. This is one of the UFS interconnect descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/interconnect_descriptor/unipro_version

/sys/bus/platform/devices/*.ufs/interconnect_descriptor/unipro_version

Defined on file sysfs-driver-ufs

This file shows the MIPI UniPro version number in BCD format. This is one of the UFS interconnect descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/monitor/monitor_chunk_size

/sys/bus/platform/devices/*.ufs/monitor/monitor_chunk_size

Defined on file sysfs-driver-ufs

This file tells the monitor to focus on requests transferring data of specific chunk size (in Bytes). 0 means any chunk size. It can only be changed when monitor is disabled.

/sys/bus/platform/drivers/ufshcd/*/monitor/monitor_enable

/sys/bus/platform/devices/*.ufs/monitor/monitor_enable

Defined on file sysfs-driver-ufs

This file shows the status of performance monitor enablement and it can be used to start/stop the monitor. When the monitor is stopped, the performance data collected is also cleared.

/sys/bus/platform/drivers/ufshcd/*/monitor/read_nr_requests

/sys/bus/platform/devices/*.ufs/monitor/read_nr_requests

Defined on file sysfs-driver-ufs

This file shows how many read requests have been sent after monitor gets started.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/monitor/read_req_latency_avg

/sys/bus/platform/devices/*.ufs/monitor/read_req_latency_avg

Defined on file sysfs-driver-ufs

This file shows the average latency (in micro seconds) of read requests after monitor gets started.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/monitor/read_req_latency_max

/sys/bus/platform/devices/*.ufs/monitor/read_req_latency_max

Defined on file sysfs-driver-ufs

This file shows the maximum latency (in micro seconds) of read requests after monitor gets started.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/monitor/read_req_latency_min

/sys/bus/platform/devices/*.ufs/monitor/read_req_latency_min

Defined on file sysfs-driver-ufs

This file shows the minimum latency (in micro seconds) of read requests after monitor gets started.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/monitor/read_req_latency_sum

/sys/bus/platform/devices/*.ufs/monitor/read_req_latency_sum

Defined on file sysfs-driver-ufs

This file shows the total latency (in micro seconds) of read requests sent after monitor gets started.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/monitor/read_total_busy

/sys/bus/platform/devices/*.ufs/monitor/read_total_busy

Defined on file sysfs-driver-ufs

This file shows how long (in micro seconds) has been spent sending data from device to host after monitor gets started.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/monitor/read_total_sectors

/sys/bus/platform/devices/*.ufs/monitor/read_total_sectors

Defined on file sysfs-driver-ufs

This file shows how many sectors (in 512 Bytes) have been sent from device to host after monitor gets started.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/monitor/write_nr_requests

/sys/bus/platform/devices/*.ufs/monitor/write_nr_requests

Defined on file sysfs-driver-ufs

This file shows how many write requests have been sent after monitor gets started.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/monitor/write_req_latency_avg

/sys/bus/platform/devices/*.ufs/monitor/write_req_latency_avg

Defined on file sysfs-driver-ufs

This file shows the average latency (in micro seconds) of write requests after monitor gets started.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/monitor/write_req_latency_max

/sys/bus/platform/devices/*.ufs/monitor/write_req_latency_max

Defined on file sysfs-driver-ufs

This file shows the maximum latency (in micro seconds) of write requests after monitor gets started.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/monitor/write_req_latency_min

/sys/bus/platform/devices/*.ufs/monitor/write_req_latency_min

Defined on file sysfs-driver-ufs

This file shows the minimum latency (in micro seconds) of write requests after monitor gets started.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/monitor/write_req_latency_sum

/sys/bus/platform/devices/*.ufs/monitor/write_req_latency_sum

Defined on file sysfs-driver-ufs

This file shows the total latency (in micro seconds) of write requests after monitor gets started.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/monitor/write_total_busy

/sys/bus/platform/devices/*.ufs/monitor/write_total_busy

Defined on file sysfs-driver-ufs

This file shows how long (in micro seconds) has been spent sending data from host to device after monitor gets started.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/monitor/write_total_sectors

/sys/bus/platform/devices/*.ufs/monitor/write_total_sectors

Defined on file sysfs-driver-ufs

This file shows how many sectors (in 512 Bytes) have been sent from host to device after monitor gets started.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/power_descriptor/active_icc_levels_vcc*

/sys/bus/platform/devices/*.ufs/power_descriptor/active_icc_levels_vcc*

Defined on file sysfs-driver-ufs

This file shows maximum VCC, VCCQ and VCCQ2 value for active ICC levels from 0 to 15. This is one of the UFS power descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/power_info/dev_pm

/sys/bus/platform/devices/*.ufs/power_info/dev_pm

Defined on file sysfs-driver-ufs

This file shows the UFS device power mode.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/power_info/gear

/sys/bus/platform/devices/*.ufs/power_info/gear

Defined on file sysfs-driver-ufs

This file shows the gear of UFS link.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/power_info/lane

/sys/bus/platform/devices/*.ufs/power_info/lane

Defined on file sysfs-driver-ufs

This file shows how many lanes are enabled on the UFS link, i.e., an output 2 means UFS link is operating with 2 lanes.

The file is read only.

Defined on file sysfs-driver-ufs

This file shows the state of UFS link.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/power_info/mode

/sys/bus/platform/devices/*.ufs/power_info/mode

Defined on file sysfs-driver-ufs

This file shows the PA power mode of UFS.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/power_info/rate

/sys/bus/platform/devices/*.ufs/power_info/rate

Defined on file sysfs-driver-ufs

This file shows the speed rate of UFS link.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/rpm_lvl

/sys/bus/platform/devices/*.ufs/rpm_lvl

Defined on file sysfs-driver-ufs

This entry could be used to set or show the UFS device runtime power management level. The current driver implementation supports 7 levels with next target states:

0

UFS device will stay active, UIC link will stay active

1

UFS device will stay active, UIC link will hibernate

2

UFS device will be moved to sleep, UIC link will stay active

3

UFS device will be moved to sleep, UIC link will hibernate

4

UFS device will be powered off, UIC link will hibernate

5

UFS device will be powered off, UIC link will be powered off

6

UFS device will be moved to deep sleep, UIC link will be powered off. Note, deep sleep might not be supported in which case this value will not be accepted

/sys/bus/platform/drivers/ufshcd/*/rpm_target_dev_state

/sys/bus/platform/devices/*.ufs/rpm_target_dev_state

Defined on file sysfs-driver-ufs

This entry shows the target power mode of an UFS device for the chosen runtime power management level.

The file is read only.

Defined on file sysfs-driver-ufs

This entry shows the target state of an UFS UIC link for the chosen runtime power management level.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/rtc_update_ms

/sys/bus/platform/devices/*.ufs/rtc_update_ms

Defined on file sysfs-driver-ufs

rtc_update_ms indicates how often the host should synchronize or update the UFS RTC. If set to 0, this will disable UFS RTC periodic update.

/sys/bus/platform/drivers/ufshcd/*/spm_lvl

/sys/bus/platform/devices/*.ufs/spm_lvl

Defined on file sysfs-driver-ufs

This entry could be used to set or show the UFS device system power management level. The current driver implementation supports 7 levels with next target states:

0

UFS device will stay active, UIC link will stay active

1

UFS device will stay active, UIC link will hibernate

2

UFS device will be moved to sleep, UIC link will stay active

3

UFS device will be moved to sleep, UIC link will hibernate

4

UFS device will be powered off, UIC link will hibernate

5

UFS device will be powered off, UIC link will be powered off

6

UFS device will be moved to deep sleep, UIC link will be powered off. Note, deep sleep might not be supported in which case this value will not be accepted

/sys/bus/platform/drivers/ufshcd/*/spm_target_dev_state

/sys/bus/platform/devices/*.ufs/spm_target_dev_state

Defined on file sysfs-driver-ufs

This entry shows the target power mode of an UFS device for the chosen system power management level.

The file is read only.

Defined on file sysfs-driver-ufs

This entry shows the target state of an UFS UIC link for the chosen system power management level.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/string_descriptors/manufacturer_name

/sys/bus/platform/devices/*.ufs/string_descriptors/manufacturer_name

Defined on file sysfs-driver-ufs

This file contains a device manufacturer name string. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/string_descriptors/oem_id

/sys/bus/platform/devices/*.ufs/string_descriptors/oem_id

Defined on file sysfs-driver-ufs

This file contains a OEM ID string. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/string_descriptors/product_name

/sys/bus/platform/devices/*.ufs/string_descriptors/product_name

Defined on file sysfs-driver-ufs

This file contains a product name string. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/string_descriptors/product_revision

/sys/bus/platform/devices/*.ufs/string_descriptors/product_revision

Defined on file sysfs-driver-ufs

This file contains a product revision string. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/string_descriptors/serial_number

/sys/bus/platform/devices/*.ufs/string_descriptors/serial_number

Defined on file sysfs-driver-ufs

This file contains a device serial number string. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/bus/platform/drivers/ufshcd/*/wb_flush_threshold

/sys/bus/platform/devices/*.ufs/wb_flush_threshold

Defined on file sysfs-driver-ufs

wb_flush_threshold represents the threshold for flushing WriteBooster buffer, whose value expressed in unit of 10% granularity, such as ‘1’ representing 10%, ‘2’ representing 20%, and so on. If avail_wb_buff < wb_flush_threshold, it indicates that WriteBooster buffer needs to be flushed, otherwise it is not necessary.

/sys/bus/platform/drivers/ufshcd/*/wb_on

/sys/bus/platform/devices/*.ufs/wb_on

Defined on file sysfs-driver-ufs

This node is used to set or display whether UFS WriteBooster is enabled. Echo 0 to this file to disable UFS WriteBooster or 1 to enable it. The WriteBooster is enabled after power-on/reset, however, it will be disabled/enable while CLK scaling down/up (if the platform supports UFSHCD_CAP_CLK_SCALING). For a platform that doesn’t support UFSHCD_CAP_CLK_SCALING, we can disable/enable WriteBooster through this sysfs node.

/sys/bus/platform/drivers/zynqmp_fpga_manager/firmware:zynqmp-firmware:pcap/status

Defined on file sysfs-driver-zynqmp-fpga

(RO) Read fpga status. Read returns a hexadecimal value that tells the current status of the FPGA device. Each bit position in the status value is described Below(see ug570 chapter 9). https://docs.xilinx.com/v/u/en-US/ug570-ultrascale-configuration

BIT(0)

0: No CRC error 1: CRC error

BIT(1)

0: Decryptor security not set 1: Decryptor security set

BIT(2)

0: MMCMs/PLLs are not locked 1: MMCMs/PLLs are locked

BIT(3)

0: DCI not matched 1: DCI matched

BIT(4)

0: Start-up sequence has not finished 1: Start-up sequence has finished

BIT(5)

0: All I/Os are placed in High-Z state 1: All I/Os behave as configured

BIT(6)

0: Flip-flops and block RAM are write disabled 1: Flip-flops and block RAM are write enabled

BIT(7)

0: GHIGH_B_STATUS asserted 1: GHIGH_B_STATUS deasserted

BIT(8) to BIT(10)

Status of the mode pins

BIT(11)

0: Initialization has not finished 1: Initialization finished

BIT(12)

Value on INIT_B_PIN pin

BIT(13)

0: Signal not released 1: Signal released

BIT(14)

Value on DONE_PIN pin.

BIT(15)

0: No IDCODE_ERROR 1: IDCODE_ERROR

BIT(16)

0: No SECURITY_ERROR 1: SECURITY_ERROR

BIT(17)

System Monitor over-temperature if set

BIT(18) to BIT(20)

Start-up state machine (0 to 7) Phase 0 = 000 Phase 1 = 001 Phase 2 = 011 Phase 3 = 010 Phase 4 = 110 Phase 5 = 111 Phase 6 = 101 Phase 7 = 100

BIT(25) to BIT(26)

Indicates the detected bus width 00 = x1 01 = x8 10 = x16 11 = x32

The other bits are reserved.

/sys/bus/rapidio/devices/<nn>:<d>:<iiii>

Defined on file sysfs-bus-rapidio

For each RapidIO device, the RapidIO subsystem creates files in an individual subdirectory with the following name format of device_name “nn:d:iiii”, where:

nn

two-digit hexadecimal ID of RapidIO network where the device resides

d

device type: ‘e’ - for endpoint or ‘s’ - for switch

iiii

four-digit device destID for endpoints, or switchID for switches

For example, below is a list of device directories that represents a typical RapidIO network with one switch, one host, and two agent endpoints, as it is seen by the enumerating host (with destID = 1):

/sys/bus/rapidio/devices/00:e:0000
/sys/bus/rapidio/devices/00:e:0002
/sys/bus/rapidio/devices/00:s:0001
NOTE:

An enumerating or discovering endpoint does not create a sysfs entry for itself, this is why an endpoint with destID=1 is not shown in the list.

Attributes Common for All RapidIO Devices

/sys/bus/rapidio/devices/<nn>:<d>:<iiii>/asm_did

Defined on file sysfs-bus-rapidio

(RO) returns identifier for the assembly containing the device

/sys/bus/rapidio/devices/<nn>:<d>:<iiii>/asm_rev

Defined on file sysfs-bus-rapidio

(RO) returns revision level of the assembly containing the device

/sys/bus/rapidio/devices/<nn>:<d>:<iiii>/asm_vid

Defined on file sysfs-bus-rapidio

(RO) returns vendor identifier of the assembly containing the device

/sys/bus/rapidio/devices/<nn>:<d>:<iiii>/config

Defined on file sysfs-bus-rapidio

(RW) Binary attribute to read from and write to the device configuration registers using the RapidIO maintenance transactions. This attribute is similar in behaviour to the “config” attribute of PCI devices and provides an access to the RapidIO device registers using standard file read and write operations.

RapidIO Switch Device Attributes

RapidIO switches have additional attributes in sysfs. RapidIO subsystem supports common and device-specific sysfs attributes for switches. Because switches are integrated into the RapidIO subsystem, it offers a method to create device-specific sysfs attributes by specifying a callback function that may be set by the switch initialization routine during enumeration or discovery process.

/sys/bus/rapidio/devices/<nn>:<d>:<iiii>/destid

Defined on file sysfs-bus-rapidio

(RO) returns device destination ID assigned by the enumeration routine

/sys/bus/rapidio/devices/<nn>:<d>:<iiii>/device_rev

Defined on file sysfs-bus-rapidio

(RO) returns the device revision level

/sys/bus/rapidio/devices/<nn>:<d>:<iiii>/did

Defined on file sysfs-bus-rapidio

(RO) returns the device identifier

/sys/bus/rapidio/devices/<nn>:<d>:<iiii>/lprev

Defined on file sysfs-bus-rapidio

(RO) returns name of previous device (switch) on the path to the device that that owns this attribute

/sys/bus/rapidio/devices/<nn>:<d>:<iiii>/modalias

Defined on file sysfs-bus-rapidio

(RO) returns the device modalias

/sys/bus/rapidio/devices/<nn>:<d>:<iiii>/vid

Defined on file sysfs-bus-rapidio

(RO) returns the device vendor identifier

/sys/bus/rapidio/devices/<nn>:<s>:<iiii>/destid

Defined on file sysfs-bus-rapidio

(RO) device destination ID of the associated device that defines a route to the switch

/sys/bus/rapidio/devices/<nn>:<s>:<iiii>/errlog

Defined on file sysfs-bus-rapidio

(RO) reads contents of device error log until it is empty.

RapidIO Bus Attributes

/sys/bus/rapidio/devices/<nn>:<s>:<iiii>/hopcount

Defined on file sysfs-bus-rapidio

(RO) number of hops on the path to the switch

/sys/bus/rapidio/devices/<nn>:<s>:<iiii>/lnext

Defined on file sysfs-bus-rapidio

(RO) returns names of devices linked to the switch except one of a device linked to the ingress port (reported as “lprev”). This is an array names with number of lines equal to number of ports in switch. If a switch port has no attached device, returns “null” instead of a device name.

Device-specific Switch Attributes

IDT_GEN2-

/sys/bus/rapidio/devices/<nn>:<s>:<iiii>/routes

Defined on file sysfs-bus-rapidio

(RO) reports switch routing information in “destID port” format. This attribute reports only valid routing table entries, one line for each entry.

/sys/bus/rapidio/scan

Defined on file sysfs-bus-rapidio

(WO) Allows to trigger enumeration discovery process from user space. To initiate an enumeration or discovery process on specific mport device, a user needs to write mport_ID (not RapidIO destination ID) into this file. The mport_ID is a sequential number (0 ... RIO_MAX_MPORTS) assigned to the mport device. For example, for a machine with a single RapidIO controller, mport_ID for that controller always will be 0. To initiate RapidIO enumeration/discovery on all available mports a user must write ‘-1’ (or RIO_MPORT_ANY) into this attribute file.

/sys/bus/rbd/add

Defined on file sysfs-bus-rbd

(WO) Add rbd block device.

Usage: <mon ip addr> <options> <pool name> <rbd image name> [<snap name>]

Example:

$ echo "192.168.0.1 name=admin rbd foo" > /sys/bus/rbd/add

The snapshot name can be “-” or omitted to map the image read/write. A <dev-id> will be assigned for any registered block device. If snapshot is used, it will be mapped read-only.

/sys/bus/rbd/add_single_major

Defined on file sysfs-bus-rbd

(WO) Available only if rbd module is inserted with single_major parameter set to true.

Usage is the same as for /sys/bus/rbd/add. If present, this should be used instead of the latter: any attempts to use /sys/bus/rbd/add if /sys/bus/rbd/add_single_major is available will fail for backwards compatibility reasons.

/sys/bus/rbd/devices/<dev-id>/image_id

/sys/bus/rbd/devices/<dev-id>/features

Defined on file sysfs-bus-rbd

image_id

(RO) The unique id for the rbd image. (For rbd image format 1 this is empty.)

features

(RO) A hexadecimal encoding of the feature bits for this image.

/sys/bus/rbd/devices/<dev-id>/minor

Defined on file sysfs-bus-rbd

(RO) The block device minor number.

/sys/bus/rbd/devices/<dev-id>/parent

Defined on file sysfs-bus-rbd

(RO) Information identifying the chain of parent images in a layered rbd image. Entries are separated by empty lines.

/sys/bus/rbd/devices/<dev-id>/pool_id

Defined on file sysfs-bus-rbd

(RO) The unique identifier for the rbd image’s pool. This is a permanent attribute of the pool. A pool’s id will never change.

/sys/bus/rbd/devices/<dev-id>/size

/sys/bus/rbd/devices/<dev-id>/major

/sys/bus/rbd/devices/<dev-id>/client_id

/sys/bus/rbd/devices/<dev-id>/pool

/sys/bus/rbd/devices/<dev-id>/name

/sys/bus/rbd/devices/<dev-id>/refresh

/sys/bus/rbd/devices/<dev-id>/current_snap

Defined on file sysfs-bus-rbd

size

(RO) The size (in bytes) of the mapped block device.

major

(RO) The block device major number.

client_id

(RO) The ceph unique client id that was assigned for this specific session.

pool

(RO) The name of the storage pool where this rbd image resides. An rbd image name is unique within its pool.

name

(RO) The name of the rbd image.

refresh

(WO) Writing to this file will reread the image header data and set all relevant data structures accordingly.

current_snap

(RO) The current snapshot for which the device is mapped.

/sys/bus/rbd/devices/<dev-id>/snap_id

/sys/bus/rbd/devices/<dev-id>/config_info

/sys/bus/rbd/devices/<dev-id>/cluster_fsid

/sys/bus/rbd/devices/<dev-id>/client_addr

Defined on file sysfs-bus-rbd

snap_id

(RO) The current snapshot’s id.

config_info

(RO) The string written into /sys/bus/rbd/add{,_single_major}.

cluster_fsid

(RO) The ceph cluster UUID.

client_addr

(RO) The ceph unique client entity_addr_t (address + nonce). The format is <address>:<port>/<nonce>: ‘1.2.3.4:1234/5678’ or ‘[1:2:3:4:5:6:7:8]:1234/5678’.

/sys/bus/rbd/remove

Defined on file sysfs-bus-rbd

(WO) Remove rbd block device.

Usage: <dev-id> [force]

Example:

$ echo 2 > /sys/bus/rbd/remove

Optional “force” argument which when passed will wait for running requests and then unmap the image. Requests sent to the driver after initiating the removal will be failed. (August 2016, since 4.9.)

/sys/bus/rbd/remove_single_major

Defined on file sysfs-bus-rbd

(WO) Available only if rbd module is inserted with single_major parameter set to true.

Usage is the same as for /sys/bus/rbd/remove. If present, this should be used instead of the latter: any attempts to use /sys/bus/rbd/remove if /sys/bus/rbd/remove_single_major is available will fail for backwards compatibility reasons.

/sys/bus/rbd/supported_features

Defined on file sysfs-bus-rbd

(RO) Displays the features supported by the rbd module so that userspace can generate meaningful error messages and spell out unsupported features that need to be disabled.

/sys/bus/rpmsg/devices/.../announce

Defined on file sysfs-bus-rpmsg

Every rpmsg device is a communication channel with a remote processor. Channels are identified by a textual name (see /sys/bus/rpmsg/devices/.../name above) and have a local (“source”) rpmsg address, and remote (“destination”) rpmsg address.

A channel is first created when an entity, whether local or remote, starts listening on it for messages (and is thus called an rpmsg server).

When that happens, a “name service” announcement is sent to the other processor, in order to let it know about the creation of the channel (this way remote clients know they can start sending messages).

This sysfs entry tells us whether the channel is a local server channel that is announced (values are either true or false).

/sys/bus/rpmsg/devices/.../driver_override

Defined on file sysfs-bus-rpmsg

Every rpmsg device is a communication channel with a remote processor. Channels are identified by a textual name (see /sys/bus/rpmsg/devices/.../name above) and have a local (“source”) rpmsg address, and remote (“destination”) rpmsg address.

The listening entity (or client) which communicates with a remote processor is referred as rpmsg driver. The rpmsg device and rpmsg driver are matched based on rpmsg device name and rpmsg driver ID table.

This sysfs entry allows the rpmsg driver for a rpmsg device to be specified which will override standard OF, ID table and name matching.

/sys/bus/rpmsg/devices/.../dst

Defined on file sysfs-bus-rpmsg

Every rpmsg device is a communication channel with a remote processor. Channels have a local (“source”) rpmsg address, and remote (“destination”) rpmsg address. When an entity starts listening on one end of a channel, it assigns it with a unique rpmsg address (a 32 bits integer). This way when inbound messages arrive to this address, the rpmsg core dispatches them to the listening entity.

This sysfs entry contains the dst (remote) rpmsg address of this channel. If it contains 0xffffffff, then an address wasn’t assigned (can happen if the kernel driver that is attached to this channel is exposing a service to the remote processor. This make it a local rpmsg server, and it is listening for inbound messages that may be sent from any remote rpmsg client; it is not bound to a single remote entity).

/sys/bus/rpmsg/devices/.../name

Defined on file sysfs-bus-rpmsg

Every rpmsg device is a communication channel with a remote processor. Channels are identified with a (textual) name, which is maximum 32 bytes long (defined as RPMSG_NAME_SIZE in rpmsg.h).

This sysfs entry contains the name of this channel.

/sys/bus/rpmsg/devices/.../src

Defined on file sysfs-bus-rpmsg

Every rpmsg device is a communication channel with a remote processor. Channels have a local (“source”) rpmsg address, and remote (“destination”) rpmsg address. When an entity starts listening on one end of a channel, it assigns it with a unique rpmsg address (a 32 bits integer). This way when inbound messages arrive to this address, the rpmsg core dispatches them to the listening entity (a kernel driver).

This sysfs entry contains the src (local) rpmsg address of this channel. If it contains 0xffffffff, then an address wasn’t assigned (can happen if no driver exists for this channel).

/sys/bus/scsi/drivers/st/debug_flag

Defined on file sysfs-driver-st

This file allows you to turn debug output from the st driver off if you write a ‘0’ to the file or on if you write a ‘1’. Note that debug output requires that the module be compiled with the #define DEBUG set to a non-zero value (this is the default). If DEBUG is set to 0 then this file will not appear in sysfs as its presence is conditional upon debug output support being compiled into the module.

/sys/bus/siox/devices/siox-X-Y/connected

Defined on file sysfs-bus-siox

Read-only value. “0” means the Yth device on siox bus X isn’t “connected” i.e. communication with it is not ensured. “1” signals a working connection.

/sys/bus/siox/devices/siox-X-Y/inbytes

Defined on file sysfs-bus-siox

Read-only value reporting the inbytes value provided to siox-X/device_add

/sys/bus/siox/devices/siox-X-Y/outbytes

Defined on file sysfs-bus-siox

Read-only value reporting the outbytes value provided to siox-X/device_add.

/sys/bus/siox/devices/siox-X-Y/status_errors

Defined on file sysfs-bus-siox

Counts the number of time intervals when the read status byte doesn’t yield the expected value.

/sys/bus/siox/devices/siox-X-Y/type

Defined on file sysfs-bus-siox

Read-only value reporting the type value provided to siox-X/device_add.

/sys/bus/siox/devices/siox-X-Y/watchdog

Defined on file sysfs-bus-siox

Read-only value reporting if the watchdog of the siox device is active. “0” means the watchdog is not active and the device is expected to be operational. “1” means the watchdog keeps the device in reset.

/sys/bus/siox/devices/siox-X-Y/watchdog_errors

Defined on file sysfs-bus-siox

Read-only value reporting the number to time intervals when the watchdog was active.

/sys/bus/siox/devices/siox-X/active

Defined on file sysfs-bus-siox

On reading represents the current state of the bus. If it contains a “0” the bus is stopped and connected devices are expected to not do anything because their watchdog triggered. When the file contains a “1” the bus is operated and periodically does a push-pull cycle to write and read data from the connected devices.

When writing a “0” or “1” the bus moves to the described state.

/sys/bus/siox/devices/siox-X/device_add

Defined on file sysfs-bus-siox

Write-only file. Write

<type> <inbytes> <outbytes> <statustype>

to add a new device dynamically. <type> is the name that is used to match to a driver (similar to the platform bus). <inbytes> and <outbytes> define the length of the input and output shift register in bytes respectively.

<statustype> defines the 4 bit device type that is check to identify connection problems.

The new device is added to the end of the existing chain.

/sys/bus/siox/devices/siox-X/device_remove

Defined on file sysfs-bus-siox

Write-only file. A single write removes the last device in the siox chain.

/sys/bus/siox/devices/siox-X/poll_interval_ns

Defined on file sysfs-bus-siox

Defines the interval between two poll cycles in nano seconds. Note this is rounded to jiffies on writing. On reading the current value is returned.

/sys/bus/soc

Defined on file sysfs-devices-soc

The /sys/bus/soc/ directory contains the usual sub-folders expected under most buses. /sys/bus/soc/devices is of particular interest, as it contains a symlink for each SoC device found on the system. Each symlink points back into the aforementioned /sys/devices/socX devices.

/sys/bus/soundwire/devices/sdw-master-<N>/revision

Defined on file sysfs-bus-soundwire-master

SoundWire Master-N DisCo properties. These properties are defined by MIPI DisCo Specification for SoundWire. They define various properties of the Master and are used by the bus to configure the Master. clk_stop_modes is a bitmask for simplifications and combines the clock-stop-mode0 and clock-stop-mode1 properties.

/sys/bus/soundwire/devices/sdw:.../dev-properties/mipi_revision

Defined on file sysfs-bus-soundwire-slave

SoundWire Slave DisCo properties. These properties are defined by MIPI DisCo Specification for SoundWire. They define various properties of the SoundWire Slave and are used by the bus to configure the Slave

/sys/bus/soundwire/devices/sdw:.../dp0/max_word

Defined on file sysfs-bus-soundwire-slave

SoundWire Slave Data Port-0 DisCo properties. These properties are defined by MIPI DisCo Specification for the SoundWire. They define various properties of the Data port 0 are used by the bus to configure the Data Port 0.

/sys/bus/soundwire/devices/sdw:.../dp<N>_src/max_word

Defined on file sysfs-bus-soundwire-slave

SoundWire Slave Data Source/Sink Port-N DisCo properties. These properties are defined by MIPI DisCo Specification for SoundWire. They define various properties of the Source/Sink Data port N and are used by the bus to configure the Data Port N.

/sys/bus/soundwire/devices/sdw:.../status

Defined on file sysfs-bus-soundwire-slave

SoundWire Slave status

These properties report the Slave status, e.g. if it is UNATTACHED or not, and in the latter case show the device_number. This status information is useful to detect devices exposed by platform firmware but not physically present on the bus, and conversely devices not exposed in platform firmware but enumerated.

/sys/bus/spi/<dev>/reset

Defined on file sysfs-driver-ge-achc

This file represents the microcontroller’s reset line. 1 means the reset line is asserted, 0 means it’s not asserted. The file is read and writable.

/sys/bus/spi/<dev>/update_firmware

Defined on file sysfs-driver-ge-achc

Write 1 to this file to update the ACHC microcontroller firmware via the EzPort interface. For this the kernel will load “achc.bin” via the firmware API (so usually from /lib/firmware). The write will block until the FW has either been flashed successfully or an error occurred.

/sys/bus/spi/devices/.../spi-nor/jedec_id

Defined on file sysfs-bus-spi-devices-spi-nor

(RO) The JEDEC ID of the SPI NOR flash as reported by the flash device.

The attribute is not present if the flash doesn’t support the “Read JEDEC ID” command (9Fh). This is the case for non-JEDEC compliant flashes.

/sys/bus/spi/devices/.../spi-nor/manufacturer

Defined on file sysfs-bus-spi-devices-spi-nor

(RO) Manufacturer of the SPI NOR flash.

The attribute is not present if the flash device isn’t known to the kernel and is only probed by its SFDP tables.

/sys/bus/spi/devices/.../spi-nor/partname

Defined on file sysfs-bus-spi-devices-spi-nor

(RO) Part name of the SPI NOR flash.

The attribute is optional. User space should not rely on it to be present or even correct. Instead, user space should read the jedec_id attribute.

/sys/bus/spi/devices/.../spi-nor/sfdp

Defined on file sysfs-bus-spi-devices-spi-nor

(RO) This attribute is only present if the SPI NOR flash device supports the “Read SFDP” command (5Ah).

If present, it contains the complete SFDP (serial flash discoverable parameters) binary data of the flash.

/sys/bus/surface_aggregator/devices/01:0e:01:00:01/state

Defined on file sysfs-bus-surface_aggregator-tabletsw

This attribute returns a string with the current type-cover or device posture, as indicated by the embedded controller. Currently returned posture states are:

  • “disconnected”: The type-cover has been disconnected.

  • “closed”: The type-cover has been folded closed and lies on top of the display.

  • “laptop”: The type-cover is open and in laptop-mode, i.e., ready for normal use.

  • “folded-canvas”: The type-cover has been folded back part-ways, but does not lie flush with the back side of the device. In general, this means that the kick-stand is used and extended atop of the cover.

  • “folded-back”: The type cover has been fully folded back and lies flush with the back side of the device.

  • “<unknown>”: The current state is unknown to the driver, for example due to newer as-of-yet unsupported hardware.

New states may be introduced with new hardware. Users therefore must not rely on this list of states being exhaustive and gracefully handle unknown states.

/sys/bus/surface_aggregator/devices/01:26:01:00:01/state

Defined on file sysfs-bus-surface_aggregator-tabletsw

This attribute returns a string with the current device posture, as indicated by the embedded controller. Currently returned posture states are:

  • “closed”: The lid of the device is closed.

  • “laptop”: The lid of the device is opened and the device operates as a normal laptop.

  • “slate”: The screen covers the keyboard or has been flipped back and the device operates mainly based on touch input.

  • “tablet”: The device operates as tablet and exclusively relies on touch input (or external peripherals).

  • “<unknown>”: The current state is unknown to the driver, for example due to newer as-of-yet unsupported hardware.

New states may be introduced with new hardware. Users therefore must not rely on this list of states being exhaustive and gracefully handle unknown states.

/sys/bus/tee/devices/optee-ta-<uuid>/

Defined on file sysfs-bus-optee-devices

OP-TEE bus provides reference to registered drivers under this directory. The <uuid> matches Trusted Application (TA) driver and corresponding TA in secure OS. Drivers are free to create needed API under optee-ta-<uuid> directory.

/sys/bus/tee/devices/optee-ta-<uuid>/need_supplicant

Defined on file sysfs-bus-optee-devices

Allows to distinguish whether an OP-TEE based TA/device requires user-space tee-supplicant to function properly or not. This attribute will be present for devices which depend on tee-supplicant to be running.

/sys/bus/thunderbolt/devices/.../authorized

Defined on file sysfs-bus-thunderbolt

This attribute is used to authorize Thunderbolt devices after they have been connected. If the device is not authorized, no PCIe devices are available to the system.

Contents of this attribute will be 0 when the device is not yet authorized.

Possible values are supported:

0

The device will be de-authorized (only supported if deauthorization attribute under domain contains 1)

1

The device will be authorized and connected

When key attribute contains 32 byte hex string the possible values are:

0

The device will be de-authorized (only supported if deauthorization attribute under domain contains 1)

1

The 32 byte hex string is added to the device NVM and the device is authorized.

2

Send a challenge based on the 32 byte hex string. If the challenge response from device is valid, the device is authorized. In case of failure errno will be ENOKEY if the device did not contain a key at all, and EKEYREJECTED if the challenge response did not match.

/sys/bus/thunderbolt/devices/.../boot

Defined on file sysfs-bus-thunderbolt

This attribute contains 1 if Thunderbolt device was already authorized on boot and 0 otherwise.

/sys/bus/thunderbolt/devices/.../device

Defined on file sysfs-bus-thunderbolt

This attribute contains id of this device extracted from the device DROM.

/sys/bus/thunderbolt/devices/.../device_name

Defined on file sysfs-bus-thunderbolt

This attribute contains name of this device extracted from the device DROM.

/sys/bus/thunderbolt/devices/.../domainX/boot_acl

Defined on file sysfs-bus-thunderbolt

Holds a comma separated list of device unique_ids that are allowed to be connected automatically during system startup (e.g boot devices). The list always contains maximum supported number of unique_ids where unused entries are empty. This allows the userspace software to determine how many entries the controller supports. If there are multiple controllers, each controller has its own ACL list and size may be different between the controllers.

System BIOS may have an option “Preboot ACL” or similar that needs to be selected before this list is taken into consideration.

Software always updates a full list in each write.

If a device is authorized automatically during boot its boot attribute is set to 1.

/sys/bus/thunderbolt/devices/.../domainX/deauthorization

Defined on file sysfs-bus-thunderbolt

This attribute tells whether the system supports de-authorization of devices. Value of 1 means user can de-authorize PCIe tunnel by writing 0 to authorized attribute under each device.

/sys/bus/thunderbolt/devices/.../domainX/iommu_dma_protection

Defined on file sysfs-bus-thunderbolt

This attribute tells whether the system uses IOMMU for DMA protection. Value of 1 means IOMMU is used 0 means it is not (DMA protection is solely based on Thunderbolt security levels).

/sys/bus/thunderbolt/devices/.../domainX/security

Defined on file sysfs-bus-thunderbolt

This attribute holds current Thunderbolt security level set by the system BIOS. Possible values are:

none

All devices are automatically authorized

user

Devices are only authorized based on writing appropriate value to the authorized attribute

secure

Require devices that support secure connect at minimum. User needs to authorize each device.

dponly

Automatically tunnel Display port (and USB). No PCIe tunnels are created.

usbonly

Automatically tunnel USB controller of the connected Thunderbolt dock (and Display Port). All PCIe links downstream of the dock are removed.

nopcie

USB4 system where PCIe tunneling is disabled from the BIOS.

/sys/bus/thunderbolt/devices/.../generation

Defined on file sysfs-bus-thunderbolt

This attribute contains the generation of the Thunderbolt controller associated with the device. It will contain 4 for USB4.

/sys/bus/thunderbolt/devices/.../key

Defined on file sysfs-bus-thunderbolt

When a devices supports Thunderbolt secure connect it will have this attribute. Writing 32 byte hex string changes authorization to use the secure connection method instead. Writing an empty string clears the key and regular connection method can be used again.

/sys/bus/thunderbolt/devices/.../maxhopid

Defined on file sysfs-bus-thunderbolt

Only set for XDomains. The maximum HopID the other host supports as its input HopID.

/sys/bus/thunderbolt/devices/.../nvm_authenticate

Defined on file sysfs-bus-thunderbolt

When new NVM image is written to the non-active NVM area (through non_activeX NVMem device), the authentication procedure is started by writing to this file. If everything goes well, the device is restarted with the new NVM firmware. If the image verification fails an error code is returned instead.

This file will accept writing values “1”, “2” or “3”.

  • Writing “1” will flush the image to the storage area and authenticate the image in one action.

  • Writing “2” will run some basic validation on the image and flush it to the storage area.

  • Writing “3” will authenticate the image that is currently written in the storage area. This is only supported with USB4 devices and retimers.

When read holds status of the last authentication operation if an error occurred during the process. This is directly the status value from the DMA configuration based mailbox before the device is power cycled. Writing 0 here clears the status.

/sys/bus/thunderbolt/devices/.../nvm_authenticate_on_disconnect

Defined on file sysfs-bus-thunderbolt

For supported devices, automatically authenticate the new Thunderbolt image when the device is disconnected from the host system.

This file will accept writing values “1” or “2”

  • Writing “1” will flush the image to the storage area and prepare the device for authentication on disconnect.

  • Writing “2” will run some basic validation on the image and flush it to the storage area.

/sys/bus/thunderbolt/devices/.../nvm_version

Defined on file sysfs-bus-thunderbolt

If the device has upgradeable firmware the version number is available here. Format: %x.%x, major.minor. If the device is in safe mode reading the file returns -ENODATA instead as the NVM version is not available.

/sys/bus/thunderbolt/devices/.../rx_lanes

Defined on file sysfs-bus-thunderbolt

This attribute reports number of RX lanes the device is using simultaneously through its upstream port.

/sys/bus/thunderbolt/devices/.../rx_speed

Defined on file sysfs-bus-thunderbolt

This attribute reports the device RX speed per lane. All RX lanes run at the same speed.

/sys/bus/thunderbolt/devices/.../tx_lanes

Defined on file sysfs-bus-thunderbolt

This attribute reports number of TX lanes the device is using simultaneously through its upstream port.

/sys/bus/thunderbolt/devices/.../tx_speed

Defined on file sysfs-bus-thunderbolt

This attribute reports the TX speed per lane. All TX lanes run at the same speed.

/sys/bus/thunderbolt/devices/.../unique_id

Defined on file sysfs-bus-thunderbolt

This attribute contains unique_id string of this device. This is either read from hardware registers (UUID on newer hardware) or based on UID from the device DROM. Can be used to uniquely identify particular device.

/sys/bus/thunderbolt/devices/.../vendor

Defined on file sysfs-bus-thunderbolt

This attribute contains vendor id of this device extracted from the device DROM.

/sys/bus/thunderbolt/devices/.../vendor_name

Defined on file sysfs-bus-thunderbolt

This attribute contains vendor name of this device extracted from the device DROM.

/sys/bus/thunderbolt/devices/<device>:<port>.<index>/device

Defined on file sysfs-bus-thunderbolt

Retimer device identifier read from the hardware.

/sys/bus/thunderbolt/devices/<device>:<port>.<index>/nvm_authenticate

Defined on file sysfs-bus-thunderbolt

When new NVM image is written to the non-active NVM area (through non_activeX NVMem device), the authentication procedure is started by writing 1 to this file. If everything goes well, the device is restarted with the new NVM firmware. If the image verification fails an error code is returned instead.

When read holds status of the last authentication operation if an error occurred during the process. Format: %x.

/sys/bus/thunderbolt/devices/<device>:<port>.<index>/nvm_version

Defined on file sysfs-bus-thunderbolt

Holds retimer NVM version number. Format: %x.%x, major.minor.

/sys/bus/thunderbolt/devices/<device>:<port>.<index>/vendor

Defined on file sysfs-bus-thunderbolt

Retimer vendor identifier read from the hardware.

/sys/bus/thunderbolt/devices/<xdomain>.<service>/key

Defined on file sysfs-bus-thunderbolt

This contains name of the property directory the XDomain service exposes. This entry describes the protocol in question. Following directories are already reserved by the Apple XDomain specification:

network

IP/ethernet over Thunderbolt

targetdm

Target disk mode protocol over Thunderbolt

extdisp

External display mode protocol over Thunderbolt

/sys/bus/thunderbolt/devices/<xdomain>.<service>/modalias

Defined on file sysfs-bus-thunderbolt

Stores the same MODALIAS value emitted by uevent for the XDomain service. Format: tbtsvc:kSpNvNrN

/sys/bus/thunderbolt/devices/<xdomain>.<service>/prtcid

Defined on file sysfs-bus-thunderbolt

This contains XDomain protocol identifier the XDomain service supports.

/sys/bus/thunderbolt/devices/<xdomain>.<service>/prtcrevs

Defined on file sysfs-bus-thunderbolt

This contains XDomain software version the XDomain service supports.

/sys/bus/thunderbolt/devices/<xdomain>.<service>/prtcstns

Defined on file sysfs-bus-thunderbolt

This contains XDomain service specific settings as bitmask. Format: %x

/sys/bus/thunderbolt/devices/<xdomain>.<service>/prtcvers

Defined on file sysfs-bus-thunderbolt

This contains XDomain protocol version the XDomain service supports.

/sys/bus/thunderbolt/devices/usb4_portX/connector

Defined on file sysfs-bus-thunderbolt

Symlink to the USB Type-C connector. This link is only created when USB Type-C Connector Class is enabled, and only if the system firmware is capable of describing the connection between a port and its connector.

Defined on file sysfs-bus-thunderbolt

Returns the current link mode. Possible values are “usb4”, “tbt” and “none”.

/sys/bus/thunderbolt/devices/usb4_portX/offline

Defined on file sysfs-bus-thunderbolt

Writing 1 to this attribute puts the USB4 port into offline mode. Only allowed when there is nothing connected to the port (link attribute returns “none”). Once the port is in offline mode it does not receive any hotplug events. This is used to update NVM firmware of on-board retimers. Writing 0 puts the port back to online mode.

This attribute is only visible if the platform supports powering on retimers when there is no cable connected.

/sys/bus/thunderbolt/devices/usb4_portX/rescan

Defined on file sysfs-bus-thunderbolt

When the USB4 port is in offline mode writing 1 to this attribute forces rescan of the sideband for on-board retimers. Each retimer appear under the USB4 port as if the USB4 link was up. These retimers act in the same way as if the cable was connected so upgrading their NVM firmware can be done the usual way.

/sys/bus/typec/devices/.../active

Defined on file sysfs-bus-typec

Shows if the mode is active or not. The attribute can be used for entering/exiting the mode. Entering/exiting modes is supported as synchronous operation so write(2) to the attribute does not return until the enter/exit mode operation has finished. The attribute is notified when the mode is entered/exited so poll(2) on the attribute wakes up. Entering/exiting a mode will also generate uevent KOBJ_CHANGE.

Valid values are boolean.

/sys/bus/typec/devices/.../description

Defined on file sysfs-bus-typec

Shows description of the mode. The description is optional for the drivers, just like with the Billboard Devices.

/sys/bus/typec/devices/.../displayport/configuration

Defined on file sysfs-driver-typec-displayport

Shows the current DisplayPort configuration for the connector. Valid values are USB, source and sink. Source means DisplayPort source, and sink means DisplayPort sink.

All supported configurations are listed as space separated list with the active one wrapped in square brackets.

Source example:

USB [source] sink

The configuration can be changed by writing to the file

Note. USB configuration does not equal to Exit Mode. It is separate configuration defined in VESA DisplayPort Alt Mode on USB Type-C Standard. Functionally it equals to the situation where the mode has been exited (to exit the mode, see testing/sysfs-bus-typec, and use file /sys/bus/typec/devices/.../active).

/sys/bus/typec/devices/.../displayport/hpd

Defined on file sysfs-driver-typec-displayport

VESA DisplayPort Alt Mode on USB Type-C Standard defines how HotPlugDetect(HPD) shall be supported on the USB-C connector when operating in DisplayPort Alt Mode. This is a read only node which reflects the current state of HPD.

Valid values:
  • 1: when HPD’s logical state is high (HPD_High) as defined

    by VESA DisplayPort Alt Mode on USB Type-C Standard.

  • 0 when HPD’s logical state is low (HPD_Low) as defined by

    VESA DisplayPort Alt Mode on USB Type-C Standard.

/sys/bus/typec/devices/.../displayport/pin_assignment

Defined on file sysfs-driver-typec-displayport

VESA DisplayPort Alt Mode on USB Type-C Standard defines six different pin assignments for USB Type-C connector that are labeled A, B, C, D, E, and F. The supported pin assignments are listed as space separated list with the active one wrapped in square brackets.

Example:

C [D]

Pin assignment can be changed by writing to the file. It is possible to set pin assignment before configuration has been set, but the assignment will not be active before the connector is actually configured.

Note. As of VESA DisplayPort Alt Mode on USB Type-C Standard version 1.0b, pin assignments A, B, and F are deprecated. Only pin assignment D can now carry simultaneously one channel of USB SuperSpeed protocol. From user perspective pin assignments C and E are equal, where all channels on the connector are used for carrying DisplayPort protocol (allowing higher resolutions).

/sys/bus/typec/devices/.../mode

Defined on file sysfs-bus-typec

The index number of the mode returned by Discover Modes USB Power Delivery command. Depending on the alternate mode, the mode index may be significant.

With some alternate modes (SVIDs), the mode index is assigned for specific functionality in the specification for that alternate mode.

With other alternate modes, the mode index values are not assigned, and can not be therefore used for identification. When the mode index is not assigned, identifying the alternate mode must be done with either mode VDO or the description.

/sys/bus/typec/devices/.../svid

Defined on file sysfs-bus-typec

The Standard or Vendor ID (SVID) assigned by USB-IF for this alternate mode.

/sys/bus/typec/devices/.../vdo

Defined on file sysfs-bus-typec

Shows the VDO in hexadecimal returned by Discover Modes command for this mode.

/sys/bus/usb-serial/drivers/.../new_id

Defined on file sysfs-bus-usb

For serial USB drivers, this attribute appears under the extra bus folder “usb-serial” in sysfs; apart from that difference, all descriptions from the entry “/sys/bus/usb/drivers/.../new_id” apply.

/sys/bus/usb/.../decimals

Defined on file sysfs-bus-usb-devices-usbsevseg

Controls the decimal places on the device. To set the nth decimal place, give this field the value of 10 ** n. Assume this field has the value k and has 1 or more decimal places set, to set the mth place (where m is not already set), change this fields value to k + 10 ** m.

/sys/bus/usb/.../mode_msb

/sys/bus/usb/.../mode_lsb

Defined on file sysfs-bus-usb-devices-usbsevseg

Controls the devices display mode. For a 6 character display the values are

MSB 0x06; LSB 0x3F, and

for an 8 character display the values are

MSB 0x08; LSB 0xFF.

/sys/bus/usb/.../powered

Defined on file sysfs-bus-usb-devices-usbsevseg

Controls whether the device’s display will powered. A value of 0 is off and a non-zero value is on.

/sys/bus/usb/.../text

Defined on file sysfs-bus-usb-devices-usbsevseg

The text (or data) for the device to display

/sys/bus/usb/.../textmode

Defined on file sysfs-bus-usb-devices-usbsevseg

Controls the way the device interprets its text buffer. raw: each character controls its segment manually hex: each character is between 0-15 ascii: each character is between ‘0’-‘9’ and ‘A’-‘F’.

/sys/bus/usb/device/.../authorized

Defined on file sysfs-bus-usb

Authorized devices are available for use by device drivers, non-authorized one are not. By default, wired USB devices are authorized.

/sys/bus/usb/devices/.../<hub_interface>/port<X>

Defined on file sysfs-bus-usb

The /sys/bus/usb/devices/.../<hub_interface>/port<X> is usb port device’s sysfs directory.

/sys/bus/usb/devices/.../<hub_interface>/port<X>/connect_type

Defined on file sysfs-bus-usb

Some platforms provide usb port connect types through ACPI. This attribute is to expose these information to user space. The file will read “hotplug”, “hardwired” and “not used” if the information is available, and “unknown” otherwise.

/sys/bus/usb/devices/.../<hub_interface>/port<X>/connector

Defined on file sysfs-bus-usb

Link to the USB Type-C connector when available. This link is only created when USB Type-C Connector Class is enabled, and only if the system firmware is capable of describing the connection between a port and its connector.

/sys/bus/usb/devices/.../<hub_interface>/port<X>/disable

Defined on file sysfs-bus-usb

This file controls the state of a USB port, including Vbus power output (but only on hubs that support power switching -- most hubs don’t support it). If a port is disabled, the port is unusable: Devices attached to the port will not be detected, initialized, or enumerated.

/sys/bus/usb/devices/.../<hub_interface>/port<X>/early_stop

Defined on file sysfs-bus-usb

Some USB hosts have some watchdog mechanisms so that the device may enter ramdump if it takes a long time during port initialization. This attribute allows each port just has two attempts so that the port initialization will be failed quickly. In addition, if a port which is marked with early_stop has failed to initialize, it will ignore all future connections until this attribute is clear.

/sys/bus/usb/devices/.../<hub_interface>/port<X>/location

Defined on file sysfs-bus-usb

Some platforms provide usb port physical location through firmware. This is used by the kernel to pair up logical ports mapping to the same physical connector. The attribute exposes the raw location value as a hex integer.

/sys/bus/usb/devices/.../<hub_interface>/port<X>/over_current_count

Defined on file sysfs-bus-usb

Most hubs are able to detect over-current situations on their ports and report them to the kernel. This attribute is to expose the number of over-current situation occurred on a specific port to user space. This file will contain an unsigned 32 bit value which wraps to 0 after its maximum is reached. This file supports poll() for monitoring changes to this value in user space.

Any time this value changes the corresponding hub device will send a udev event with the following attributes:

OVER_CURRENT_PORT=/sys/bus/usb/devices/.../<hub_interface>/port<X>
OVER_CURRENT_COUNT=[current value of this sysfs attribute]

/sys/bus/usb/devices/.../<hub_interface>/port<X>/quirks

Defined on file sysfs-bus-usb

In some cases, we care about time-to-active for devices connected on a specific port (e.g. non-standard USB port like pogo pins), where the device to be connected is known in advance, and behaves well according to the specification. This attribute is a bit-field that controls the behavior of a specific port:

  • Bit 0 of this field selects the “old” enumeration scheme, as it is considerably faster (it only causes one USB reset instead of 2).

    The old enumeration scheme can also be selected globally using /sys/module/usbcore/parameters/old_scheme_first, but it is often not desirable as the new scheme was introduced to increase compatibility with more devices.

  • Bit 1 reduces TRSTRCY to the 10 ms that are required by the USB 2.0 specification, instead of the 50 ms that are normally used to help make enumeration work better on some high speed devices.

/sys/bus/usb/devices/.../<hub_interface>/port<X>/state

Defined on file sysfs-bus-usb

Indicates current state of the USB device attached to the port. Valid states are: ‘not-attached’, ‘attached’, ‘powered’, ‘reconnecting’, ‘unauthenticated’, ‘default’, ‘addressed’, ‘configured’, and ‘suspended’. This file supports poll() to monitor the state change from user space.

/sys/bus/usb/devices/.../<hub_interface>/port<X>/usb3_lpm_permit

Defined on file sysfs-bus-usb

Some USB3.0 devices are not friendly to USB3 LPM. usb3_lpm_permit attribute allows enabling/disabling usb3 lpm of a port. It takes effect both before and after a usb device is enumerated. Supported values are “0” if both u1 and u2 are NOT permitted, “u1” if only u1 is permitted, “u2” if only u2 is permitted, “u1_u2” if both u1 and u2 are permitted.

/sys/bus/usb/devices/.../enable_compliance

Defined on file sysfs-bus-usb-lvstest

Write to this node to set the port to compliance mode to test with Link Layer Validation device. It is needed for TD.7.34.

/sys/bus/usb/devices/.../get_dev_desc

Defined on file sysfs-bus-usb-lvstest

Write to this node to issue “Get Device Descriptor” for Link Layer Validation device. It is needed for TD.7.06.

/sys/bus/usb/devices/.../hot_reset

Defined on file sysfs-bus-usb-lvstest

Write to this node to issue “Reset” for Link Layer Validation device. It is needed for TD.7.29, TD.7.31, TD.7.34 and TD.7.35.

/sys/bus/usb/devices/.../ltm_capable

Defined on file sysfs-bus-usb

USB 3.0 devices may optionally support Latency Tolerance Messaging (LTM). They indicate their support by setting a bit in the bmAttributes field of their SuperSpeed BOS descriptors. If that bit is set for the device, ltm_capable will read “yes”. If the device doesn’t support LTM, the file will read “no”. The file will be present for all speeds of USB devices, and will always read “no” for USB 1.1 and USB 2.0 devices.

/sys/bus/usb/devices/.../power/usb2_hardware_lpm

Defined on file sysfs-bus-usb

If CONFIG_PM is set and a USB 2.0 lpm-capable device is plugged in to a xHCI host which support link PM, it will perform a LPM test; if the test is passed and host supports USB2 hardware LPM (xHCI 1.0 feature), USB2 hardware LPM will be enabled for the device and the USB device directory will contain a file named power/usb2_hardware_lpm. The file holds a string value (enable or disable) indicating whether or not USB2 hardware LPM is enabled for the device. Developer can write y/Y/1 or n/N/0 to the file to enable/disable the feature.

/sys/bus/usb/devices/.../power/usb2_lpm_besl

Defined on file sysfs-bus-usb

USB 2.0 devices that support hardware link power management (LPM) L1 sleep state now use a best effort service latency value (BESL) to indicate the best effort to resumption of service to the device after the initiation of the resume event. If the device does not have a preferred besl value then the host can select one instead. This usb2_lpm_besl attribute allows to tune the host selected besl value in order to tune power saving and service latency.

Supported values are 0 - 15. More information on how besl values map to microseconds can be found in USB 2.0 ECN Errata for Link Power Management, section 4.10)

/sys/bus/usb/devices/.../power/usb2_lpm_l1_timeout

Defined on file sysfs-bus-usb

USB 2.0 devices may support hardware link power management (LPM) L1 sleep state. The usb2_lpm_l1_timeout attribute allows tuning the timeout for L1 inactivity timer (LPM timer), e.g. needed inactivity time before host requests the device to go to L1 sleep. Useful for power management tuning. Supported values are 0 - 65535 microseconds.

/sys/bus/usb/devices/.../power/usb3_hardware_lpm_u1

Defined on file sysfs-bus-usb

If CONFIG_PM is set and a USB 3.0 lpm-capable device is plugged in to a xHCI host which supports link PM, it will check if U1 and U2 exit latencies have been set in the BOS descriptor; if the check is passed and the host supports USB3 hardware LPM, USB3 hardware LPM will be enabled for the device and the USB device directory will contain two files named power/usb3_hardware_lpm_u1 and power/usb3_hardware_lpm_u2. These files hold a string value (enable or disable) indicating whether or not USB3 hardware LPM U1 or U2 is enabled for the device.

/sys/bus/usb/devices/.../rx_lanes

Defined on file sysfs-bus-usb

Number of rx lanes the device is using. USB 3.2 adds Dual-lane support, 2 rx and 2 tx lanes over Type-C. Inter-Chip SSIC devices support asymmetric lanes up to 4 lanes per direction. Devices before USB 3.2 are single lane (rx_lanes = 1)

/sys/bus/usb/devices/.../tx_lanes

Defined on file sysfs-bus-usb

Number of tx lanes the device is using. USB 3.2 adds Dual-lane support, 2 rx and 2 tx -lanes over Type-C. Inter-Chip SSIC devices support asymmetric lanes up to 4 lanes per direction. Devices before USB 3.2 are single lane (tx_lanes = 1)

/sys/bus/usb/devices/.../typec

Defined on file sysfs-bus-usb

Symlink to the USB Type-C partner device. USB Type-C partner represents the component that communicates over the Configuration Channel (CC signal on USB Type-C connectors and cables) with the local port.

/sys/bus/usb/devices/.../u1_timeout

Defined on file sysfs-bus-usb-lvstest

Set “U1 timeout” for the downstream port where Link Layer Validation device is connected. Timeout value must be between 0 and 127. It is needed for TD.7.18, TD.7.19, TD.7.20 and TD.7.21.

/sys/bus/usb/devices/.../u2_timeout

Defined on file sysfs-bus-usb-lvstest

Set “U2 timeout” for the downstream port where Link Layer Validation device is connected. Timeout value must be between 0 and 127. It is needed for TD.7.18, TD.7.19, TD.7.20 and TD.7.21.

/sys/bus/usb/devices/.../u3_entry

Defined on file sysfs-bus-usb-lvstest

Write to this node to issue “U3 entry” for Link Layer Validation device. It is needed for TD.7.35 and TD.7.36.

/sys/bus/usb/devices/.../u3_exit

Defined on file sysfs-bus-usb-lvstest

Write to this node to issue “U3 exit” for Link Layer Validation device. It is needed for TD.7.36.

/sys/bus/usb/devices/.../warm_reset

Defined on file sysfs-bus-usb-lvstest

Write to this node to issue “Warm Reset” for Link Layer Validation device. It may be needed to properly reset an xHCI 1.1 host port if compliance mode needed to be explicitly enabled.

/sys/bus/usb/devices/<INTERFACE>/authorized

Defined on file sysfs-bus-usb

This allows to authorize (1) or deauthorize (0) individual interfaces instead a whole device in contrast to the device authorization. If a deauthorized interface will be authorized so the driver probing must be triggered manually by writing INTERFACE to /sys/bus/usb/drivers_probe This allows to avoid side-effects with drivers that need multiple interfaces.

A deauthorized interface cannot be probed or claimed.

/sys/bus/usb/devices/<INTERFACE>/wireless_status

Defined on file sysfs-bus-usb

Some USB devices use a USB receiver dongle to communicate wirelessly with their device using proprietary protocols. This attribute allows user-space to know whether the device is connected to its receiver dongle, and, for example, consider the device to be absent when choosing whether to show the device’s battery, show a headset in a list of outputs, or show an on-screen keyboard if the only wireless keyboard is turned off. This attribute is not to be used to replace protocol specific statuses available in WWAN, WLAN/Wi-Fi, Bluetooth, etc. If the device does not use a receiver dongle with a wireless device, then this attribute will not exist.

/sys/bus/usb/devices/<busnum>-<devnum>:<config num>.<interface num>/<hid-bus>:<vendor-id>:<product-id>.<num>/country

/sys/class/bluetooth/hci<addr>/<hid-bus>:<vendor-id>:<product-id>.<num>/country

/sys/class/hidraw/hidraw<num>/device/country

Defined on file sysfs-driver-hid

When read, this file returns the hex integer value in ASCII of the device’s HID country code (e.g. 21 for US). This file cannot be written.

/sys/bus/usb/devices/<busnum>-<devnum>:<config num>.<interface num>/<hid-bus>:<vendor-id>:<product-id>.<num>/dragging

Defined on file sysfs-driver-hid-lenovo

If this setting is enabled, it is possible to do dragging by pressing the trackpoint. This requires press_to_select to be enabled.

Values are 0 or 1.

Applies to Thinkpad USB Keyboard with TrackPoint.

/sys/bus/usb/devices/<busnum>-<devnum>:<config num>.<interface num>/<hid-bus>:<vendor-id>:<product-id>.<num>/fb_update_rate

Defined on file sysfs-driver-hid-picolcd

Make it possible to adjust defio refresh rate.

Reading: returns list of available refresh rates (expressed in Hz), the active refresh rate being enclosed in brackets (‘[’ and ‘]’)

Writing: accepts new refresh rate expressed in integer Hz within permitted rates.

Note: As device can barely do 2 complete refreshes a second it only makes sense to adjust this value if only one or two tiles get changed and it’s not appropriate to expect the application to flush its tiny changes explicitly at higher than default rate.

/sys/bus/usb/devices/<busnum>-<devnum>:<config num>.<interface num>/<hid-bus>:<vendor-id>:<product-id>.<num>/fn_lock

Defined on file sysfs-driver-hid-lenovo

This setting controls whether Fn Lock is enabled on the keyboard (i.e. if F1 is Mute or F1)

Values are 0 or 1

Applies to ThinkPad Compact (USB|Bluetooth) Keyboard with TrackPoint.

/sys/bus/usb/devices/<busnum>-<devnum>:<config num>.<interface num>/<hid-bus>:<vendor-id>:<product-id>.<num>/kone/roccatkone<minor>/actual_dpi

Defined on file sysfs-driver-hid-roccat-kone

It is possible to switch the dpi setting of the mouse with the press of a button.

When read, this file returns the raw number of the actual dpi setting reported by the mouse. This number has to be further processed to receive the real dpi value:

VALUE

DPI

1

800

2

1200

3

1600

4

2000

5

2400

6

3200

This file is readonly.

Users: http://roccat.sourceforge.net

/sys/bus/usb/devices/<busnum>-<devnum>:<config num>.<interface num>/<hid-bus>:<vendor-id>:<product-id>.<num>/kone/roccatkone<minor>/actual_profile

Defined on file sysfs-driver-hid-roccat-kone

When read, this file returns the number of the actual profile.

This file is readonly.

Users: http://roccat.sourceforge.net

/sys/bus/usb/devices/<busnum>-<devnum>:<config num>.<interface num>/<hid-bus>:<vendor-id>:<product-id>.<num>/kone/roccatkone<minor>/firmware_version

Defined on file sysfs-driver-hid-roccat-kone

When read, this file returns the raw integer version number of the firmware reported by the mouse. Using the integer value eases further usage in other programs. To receive the real version number the decimal point has to be shifted 2 positions to the left. E.g. a returned value of 138 means 1.38

This file is readonly.

Users: http://roccat.sourceforge.net

/sys/bus/usb/devices/<busnum>-<devnum>:<config num>.<interface num>/<hid-bus>:<vendor-id>:<product-id>.<num>/kone/roccatkone<minor>/profile[1-5]

Defined on file sysfs-driver-hid-roccat-kone

The mouse can store 5 profiles which can be switched by the press of a button. A profile holds information like button mappings, sensitivity, the colors of the 5 leds and light effects.

When read, these files return the respective profile. The returned data is 975 bytes in size.

When written, this file lets one write the respective profile data back to the mouse. The data has to be 975 bytes long.

The mouse will reject invalid data, whereas the profile number stored in the profile doesn’t need to fit the number of the store.

Users: http://roccat.sourceforge.net

/sys/bus/usb/devices/<busnum>-<devnum>:<config num>.<interface num>/<hid-bus>:<vendor-id>:<product-id>.<num>/kone/roccatkone<minor>/settings

Defined on file sysfs-driver-hid-roccat-kone

When read, this file returns the settings stored in the mouse. The size of the data is 36 bytes and holds information like the startup_profile, tcu state and calibration_data.

When written, this file lets write settings back to the mouse. The data has to be 36 bytes long. The mouse will reject invalid data.

Users: http://roccat.sourceforge.net

/sys/bus/usb/devices/<busnum>-<devnum>:<config num>.<interface num>/<hid-bus>:<vendor-id>:<product-id>.<num>/kone/roccatkone<minor>/startup_profile

Defined on file sysfs-driver-hid-roccat-kone

The integer value of this attribute ranges from 1 to 5.

When read, this attribute returns the number of the profile that’s active when the mouse is powered on.

When written, this file sets the number of the startup profile and the mouse activates this profile immediately.

Users: http://roccat.sourceforge.net

/sys/bus/usb/devices/<busnum>-<devnum>:<config num>.<interface num>/<hid-bus>:<vendor-id>:<product-id>.<num>/kone/roccatkone<minor>/tcu

Defined on file sysfs-driver-hid-roccat-kone

The mouse has a “Tracking Control Unit” which lets the user calibrate the laser power to fit the mousepad surface. When read, this file returns the current state of the TCU, where 0 means off and 1 means on.

Writing 0 in this file will switch the TCU off.

Writing 1 in this file will start the calibration which takes around 6 seconds to complete and activates the TCU.

Users: http://roccat.sourceforge.net

/sys/bus/usb/devices/<busnum>-<devnum>:<config num>.<interface num>/<hid-bus>:<vendor-id>:<product-id>.<num>/kone/roccatkone<minor>/weight

Defined on file sysfs-driver-hid-roccat-kone

The mouse can be equipped with one of four supplied weights ranging from 5 to 20 grams which are recognized by the mouse and its value can be read out. When read, this file returns the raw value returned by the mouse which eases further processing in other software.

The values map to the weights as follows:

VALUE

WEIGHT

0

none

1

5g

2

10g

3

15g

4

20g

This file is readonly.

Users: http://roccat.sourceforge.net

/sys/bus/usb/devices/<busnum>-<devnum>:<config num>.<interface num>/<hid-bus>:<vendor-id>:<product-id>.<num>/operation_mode

Defined on file sysfs-driver-hid-picolcd

Make it possible to switch the PicoLCD device between LCD (firmware) and bootloader (flasher) operation modes.

Reading: returns list of available modes, the active mode being enclosed in brackets (‘[’ and ‘]’)

Writing: causes operation mode switch. Permitted values are the non-active mode names listed when read.

Note: when switching mode the current PicoLCD HID device gets disconnected and reconnects after above delay (see attribute operation_mode_delay for its value).

/sys/bus/usb/devices/<busnum>-<devnum>:<config num>.<interface num>/<hid-bus>:<vendor-id>:<product-id>.<num>/operation_mode_delay

Defined on file sysfs-driver-hid-picolcd

Delay PicoLCD waits before restarting in new mode when operation_mode has changed.

Reading/Writing: It is expressed in ms and permitted range is 0..30000ms.

/sys/bus/usb/devices/<busnum>-<devnum>:<config num>.<interface num>/<hid-bus>:<vendor-id>:<product-id>.<num>/press_speed

Defined on file sysfs-driver-hid-lenovo

This setting controls how fast the trackpoint needs to be pressed to generate a mouse click if press_to_select is enabled.

Values are decimal integers from 1 (slowest) to 255 (fastest).

Applies to Thinkpad USB Keyboard with TrackPoint.

/sys/bus/usb/devices/<busnum>-<devnum>:<config num>.<interface num>/<hid-bus>:<vendor-id>:<product-id>.<num>/press_to_select

Defined on file sysfs-driver-hid-lenovo

This controls if mouse clicks should be generated if the trackpoint is quickly pressed. How fast this press has to be is being controlled by press_speed.

Values are 0 or 1.

Applies to Thinkpad USB Keyboard with TrackPoint.

/sys/bus/usb/devices/<busnum>-<devnum>:<config num>.<interface num>/<hid-bus>:<vendor-id>:<product-id>.<num>/quirks

Defined on file sysfs-driver-hid-multitouch

The integer value of this attribute corresponds to the quirks actually in place to handle the device’s protocol. When read, this attribute returns the current settings (see MT_QUIRKS_* in hid-multitouch.c). When written this attribute change on the fly the quirks, then the protocol to handle the device.

/sys/bus/usb/devices/<busnum>-<devnum>:<config num>.<interface num>/<hid-bus>:<vendor-id>:<product-id>.<num>/release_to_select

Defined on file sysfs-driver-hid-lenovo

For details regarding this setting please refer to http://www.pc.ibm.com/ww/healthycomputing/trkpntb.html Values are 0 or 1. Applies to Thinkpad USB Keyboard with TrackPoint.

/sys/bus/usb/devices/<busnum>-<devnum>:<config num>.<interface num>/<hid-bus>:<vendor-id>:<product-id>.<num>/report_descriptor

/sys/class/bluetooth/hci<addr>/<hid-bus>:<vendor-id>:<product-id>.<num>/report_descriptor

/sys/class/hidraw/hidraw<num>/device/report_descriptor

Defined on file sysfs-driver-hid

When read, this file returns the device’s raw binary HID report descriptor. This file cannot be written.

Users: HIDAPI library (http://www.signal11.us/oss/hidapi)

/sys/bus/usb/devices/<busnum>-<devnum>:<config num>.<interface num>/<hid-bus>:<vendor-id>:<product-id>.<num>/select_right

Defined on file sysfs-driver-hid-lenovo

This setting controls if the mouse click events generated by pressing the trackpoint (if press_to_select is enabled) generate a left or right mouse button click.

Values are 0 or 1.

Applies to Thinkpad USB Keyboard with TrackPoint.

/sys/bus/usb/devices/<busnum>-<devnum>:<config num>.<interface num>/<hid-bus>:<vendor-id>:<product-id>.<num>/sensitivity

Defined on file sysfs-driver-hid-lenovo

This file contains the trackpoint sensitivity. Values are decimal integers from 1 (lowest sensitivity) to 255 (highest sensitivity). Applies to Thinkpad USB Keyboard with TrackPoint.

/sys/bus/usb/devices/usbX/avoid_reset_quirk

Defined on file sysfs-bus-usb

Most devices have this set to zero.

If the value is 1, enable a USB quirk that prevents this device to use reset.

(read/write)

/sys/bus/usb/devices/usbX/bAlternateSetting

Defined on file sysfs-bus-usb

The current interface alternate setting number, in decimal.

See USB specs for its meaning.

/sys/bus/usb/devices/usbX/bConfigurationValue

Defined on file sysfs-bus-usb

While a USB device typically have just one configuration setting, some devices support multiple configurations.

This value shows the current configuration, in decimal.

Changing its value will change the device’s configuration to another setting.

The number of configurations supported by a device is at:

See USB specs for its meaning.

/sys/bus/usb/devices/usbX/bDeviceClass

Defined on file sysfs-bus-usb

Class code of the device, in hexadecimal.

See USB specs for its meaning.

/sys/bus/usb/devices/usbX/bDeviceProtocol

Defined on file sysfs-bus-usb

Protocol code of the device, in hexadecimal.

See USB specs for its meaning.

/sys/bus/usb/devices/usbX/bDeviceSubClass

Defined on file sysfs-bus-usb

Subclass code of the device, in hexadecimal.

See USB specs for its meaning.

/sys/bus/usb/devices/usbX/bInterfaceClass

Defined on file sysfs-bus-usb

Class code of the interface, in hexadecimal.

See USB specs for its meaning.

/sys/bus/usb/devices/usbX/bInterfaceNumber

Defined on file sysfs-bus-usb

Interface number, in hexadecimal.

See USB specs for its meaning.

/sys/bus/usb/devices/usbX/bInterfaceProtocol

Defined on file sysfs-bus-usb

Protocol code of the interface, in hexadecimal.

See USB specs for its meaning.

/sys/bus/usb/devices/usbX/bInterfaceSubClass

Defined on file sysfs-bus-usb

Subclass code of the interface, in hexadecimal.

See USB specs for its meaning.

/sys/bus/usb/devices/usbX/bMaxPacketSize0

Defined on file sysfs-bus-usb

Maximum endpoint 0 packet size, in decimal.

See USB specs for its meaning.

/sys/bus/usb/devices/usbX/bMaxPower

Defined on file sysfs-bus-usb

Maximum power consumption of the active configuration of the device, in miliamperes.

/sys/bus/usb/devices/usbX/bNumConfigurations

Defined on file sysfs-bus-usb

Number of the possible configurations of the device, in decimal. The current configuration is controlled via:

See USB specs for its meaning.

/sys/bus/usb/devices/usbX/bNumEndpoints

Defined on file sysfs-bus-usb

Number of endpoints used on this interface, in hexadecimal.

See USB specs for its meaning.

/sys/bus/usb/devices/usbX/bNumInterfaces

Defined on file sysfs-bus-usb

Number of interfaces on this device, in decimal.

/sys/bus/usb/devices/usbX/bcdDevice

Defined on file sysfs-bus-usb

The device’s release number, in hexadecimal.

See USB specs for its meaning.

/sys/bus/usb/devices/usbX/bmAttributes

Defined on file sysfs-bus-usb

Attributes of the current configuration, in hexadecimal.

See USB specs for its meaning.

/sys/bus/usb/devices/usbX/bos_descriptors

Defined on file sysfs-bus-usb

Binary file containing the cached binary device object store (BOS) of the device. This consists of the BOS descriptor followed by the set of device capability descriptors. All descriptors read from this file are in bus-endian format. Note that the kernel will not request the BOS from a device if its bcdUSB is less than 0x0201.

/sys/bus/usb/devices/usbX/busnum

Defined on file sysfs-bus-usb

Number of the bus.

/sys/bus/usb/devices/usbX/configuration

Defined on file sysfs-bus-usb

Contents of the string descriptor associated with the current configuration. It may include the firmware version of a device and/or its serial number.

/sys/bus/usb/devices/usbX/descriptors

Defined on file sysfs-bus-usb

Contains the interface descriptors, in binary.

/sys/bus/usb/devices/usbX/devnum

Defined on file sysfs-bus-usb

USB interface device number, in decimal.

/sys/bus/usb/devices/usbX/devpath

Defined on file sysfs-bus-usb

String containing the USB interface device path.

/sys/bus/usb/devices/usbX/devspec

Defined on file sysfs-bus-usb

Displays the Device Tree Open Firmware node of the interface.

/sys/bus/usb/devices/usbX/ep_<N>/bEndpointAddress

Defined on file sysfs-bus-usb

The address of the endpoint described by this descriptor, in hexadecimal. The endpoint direction on this bitmapped field is also shown at:

See USB specs for its meaning.

/sys/bus/usb/devices/usbX/ep_<N>/bInterval

Defined on file sysfs-bus-usb

The interval of the endpoint as described on its descriptor, in hexadecimal. The actual interval depends on the version of the USB. Also shown in time units at /sys/bus/usb/devices/usbX/ep_<N>/interval.

/sys/bus/usb/devices/usbX/ep_<N>/bLength

Defined on file sysfs-bus-usb

Number of bytes of the endpoint descriptor, in hexadecimal.

/sys/bus/usb/devices/usbX/ep_<N>/bmAttributes

Defined on file sysfs-bus-usb

Attributes which apply to the endpoint as described on its descriptor, in hexadecimal. The endpoint type on this bitmapped field is also shown at:

See USB specs for its meaning.

/sys/bus/usb/devices/usbX/ep_<N>/direction

Defined on file sysfs-bus-usb

Direction of the endpoint. Can be:

  • both (on control endpoints)

  • in

  • out

/sys/bus/usb/devices/usbX/ep_<N>/interval

Defined on file sysfs-bus-usb

Interval for polling endpoint for data transfers, in milisseconds or microseconds.

/sys/bus/usb/devices/usbX/ep_<N>/type

Defined on file sysfs-bus-usb

Descriptor type. Can be:

  • Control

  • Isoc

  • Bulk

  • Interrupt

  • unknown

/sys/bus/usb/devices/usbX/ep_<N>/wMaxPacketSize

Defined on file sysfs-bus-usb

Maximum packet size this endpoint is capable of sending or receiving, in hexadecimal.

/sys/bus/usb/devices/usbX/idProduct

Defined on file sysfs-bus-usb

Product ID, in hexadecimal.

/sys/bus/usb/devices/usbX/idVendor

Defined on file sysfs-bus-usb

Vendor ID, in hexadecimal.

/sys/bus/usb/devices/usbX/interface_authorized_default

Defined on file sysfs-bus-usb

This is used as value that determines if interfaces would be authorized by default. The value can be 1 or 0. It’s by default 1.

/sys/bus/usb/devices/usbX/manufacturer

Defined on file sysfs-bus-usb

Vendor specific string containing the name of the manufacturer of the device.

/sys/bus/usb/devices/usbX/maxchild

Defined on file sysfs-bus-usb

Number of ports of an USB hub

/sys/bus/usb/devices/usbX/persist

Defined on file sysfs-bus-usb

Keeps the device even if it gets disconnected.

/sys/bus/usb/devices/usbX/power/active_duration

Defined on file sysfs-bus-usb

The total time the device has not been suspended.

/sys/bus/usb/devices/usbX/power/autosuspend

Defined on file sysfs-bus-usb

Time in milliseconds for the device to autosuspend. If the value is negative, then autosuspend is prevented.

(read/write)

/sys/bus/usb/devices/usbX/power/connected_duration

Defined on file sysfs-bus-usb

The total time (in msec) that the device has been connected.

/sys/bus/usb/devices/usbX/power/level

Defined on file sysfs-bus-usb

DESCRIPTION MISSING for /sys/bus/usb/devices/usbX/power/level

/sys/bus/usb/devices/usbX/product

Defined on file sysfs-bus-usb

Vendor specific string containing the name of the device’s product.

/sys/bus/usb/devices/usbX/speed

Defined on file sysfs-bus-usb

Shows the device’s max speed, according to the USB version, in Mbps. Can be:

Unknown

speed unknown

1.5

Low speed

15

Full speed

480

High Speed

5000

Super Speed

10000

Super Speed+

20000

Super Speed+ Gen 2x2

/sys/bus/usb/devices/usbX/supports_autosuspend

Defined on file sysfs-bus-usb

Returns 1 if the device doesn’t support autosuspend. Otherwise, returns 0.

/sys/bus/usb/devices/usbX/urbnum

Defined on file sysfs-bus-usb

Number of URBs submitted for the whole device.

/sys/bus/usb/devices/usbX/version

Defined on file sysfs-bus-usb

String containing the USB device version, as encoded at the BCD descriptor.

/sys/bus/usb/drivers/.../new_id

Defined on file sysfs-bus-usb

Writing a device ID to this file will attempt to dynamically add a new device ID to a USB device driver. This may allow the driver to support more hardware than was included in the driver’s static device ID support table at compile time. The format for the device ID is: idVendor idProduct bInterfaceClass RefIdVendor RefIdProduct The vendor ID and device ID fields are required, the rest is optional. The Ref* tuple can be used to tell the driver to use the same driver_data for the new device as it is used for the reference device. Upon successfully adding an ID, the driver will probe for the device and attempt to bind to it. For example:

# echo "8086 10f5" > /sys/bus/usb/drivers/foo/new_id

Here add a new device (0458:7045) using driver_data from an already supported device (0458:704c):

# echo "0458 7045 0 0458 704c" > /sys/bus/usb/drivers/foo/new_id

Reading from this file will list all dynamically added device IDs in the same format, with one entry per line. For example:

# cat /sys/bus/usb/drivers/foo/new_id
8086 10f5
dead beef 06
f00d cafe

The list will be truncated at PAGE_SIZE bytes due to sysfs restrictions.

/sys/bus/usb/drivers/.../remove_id

Defined on file sysfs-bus-usb

Writing a device ID to this file will remove an ID that was dynamically added via the new_id sysfs entry. The format for the device ID is: idVendor idProduct. After successfully removing an ID, the driver will no longer support the device. This is useful to ensure auto probing won’t match the driver to the device. For example: # echo “046d c315” > /sys/bus/usb/drivers/foo/remove_id

Reading from this file will list the dynamically added device IDs, exactly like reading from the entry “/sys/bus/usb/drivers/.../new_id”

/sys/bus/vdpa/devices/.../driver_override

Defined on file sysfs-bus-vdpa

This file allows the driver for a device to be specified. When specified, only a driver with a name matching the value written to driver_override will have an opportunity to bind to the device. The override is specified by writing a string to the driver_override file (echo vhost-vdpa > driver_override) and may be cleared with an empty string (echo > driver_override). This returns the device to standard matching rules binding. Writing to driver_override does not automatically unbind the device from its current driver or make any attempt to automatically load the specified driver. If no driver with a matching name is currently loaded in the kernel, the device will not bind to any driver. This also allows devices to opt-out of driver binding using a driver_override name such as “none”. Only a single driver may be specified in the override, there is no support for parsing delimiters.

/sys/bus/vdpa/driver_probe

Defined on file sysfs-bus-vdpa

Writing a device name to this file will cause the kernel binds devices to a compatible driver.

This can be useful when /sys/bus/vdpa/drivers_autoprobe is disabled.

/sys/bus/vdpa/drivers/.../bind

Defined on file sysfs-bus-vdpa

Writing a device name to this file will cause the driver to attempt to bind to the device. This is useful for overriding default bindings.

/sys/bus/vdpa/drivers/.../unbind

Defined on file sysfs-bus-vdpa

Writing a device name to this file will cause the driver to attempt to unbind from the device. This may be useful when overriding default bindings.

/sys/bus/vdpa/drivers_autoprobe

Defined on file sysfs-bus-vdpa

This file determines whether new devices are immediately bound to a driver after the creation. It initially contains 1, which means the kernel automatically binds devices to a compatible driver immediately after they are created.

Writing “0” to this file disable this feature, any other string enable it.

/sys/bus/vmbus/devices/.../driver_override

Defined on file sysfs-bus-vmbus

This file allows the driver for a device to be specified which will override standard static and dynamic ID matching. When specified, only a driver with a name matching the value written to driver_override will have an opportunity to bind to the device. The override is specified by writing a string to the driver_override file (echo uio_hv_generic > driver_override) and may be cleared with an empty string (echo > driver_override). This returns the device to standard matching rules binding. Writing to driver_override does not automatically unbind the device from its current driver or make any attempt to automatically load the specified driver. If no driver with a matching name is currently loaded in the kernel, the device will not bind to any driver. This also allows devices to opt-out of driver binding using a driver_override name such as “none”. Only a single driver may be specified in the override, there is no support for parsing delimiters.

/sys/bus/w1/devices/.../alarms

Defined on file sysfs-driver-w1_therm

(RW) read or write TH and TL (Temperature High an Low) alarms. Values shall be space separated and in the device range (typical -55 degC to 125 degC), if not values will be trimmed to device min/max capabilities. Values are integer as they are stored in a 8bit register in the device. Lowest value is automatically put to TL. Once set, alarms could be search at master level, refer to Introduction to the 1-wire (w1) subsystem for detailed information

Users: any user space application which wants to communicate with w1_term device

/sys/bus/w1/devices/.../conv_time

Defined on file sysfs-driver-w1_therm

(RW) Get, set, or measure a temperature conversion time. The setting remains active until a resolution change. Then it is reset to default (datasheet) conversion time for a new resolution.

read:

Actual conversion time in milliseconds.

write:
  • ‘0’:

    Set the default conversion time from the datasheet.

  • ‘1’:

    Measure and set the conversion time. Make a single temperature conversion, measure an actual value. Increase it by 20% for temperature range. A new conversion time can be obtained by reading this same attribute.

  • other positive value:

    Set the conversion time in milliseconds.

Users: An application using the w1_term device

/sys/bus/w1/devices/.../eeprom_cmd

Defined on file sysfs-driver-w1_therm

(WO) writing that file will either trigger a save of the device data to its embedded EEPROM, either restore data embedded in device EEPROM. Be aware that devices support limited EEPROM writing cycles (typical 50k)

  • ‘save’: save device RAM to EEPROM

  • ‘restore’: restore EEPROM data in device RAM

Users: any user space application which wants to communicate with w1_term device

/sys/bus/w1/devices/.../ext_power

Defined on file sysfs-driver-w1_therm

(RO) return the power status by asking the device

  • ‘0’: device parasite powered

  • ‘1’: device externally powered

  • ‘-xx’: xx is kernel error when reading power status

Users: any user space application which wants to communicate with w1_term device

/sys/bus/w1/devices/.../features

Defined on file sysfs-driver-w1_therm

(RW) Control optional driver settings. Bit masks to read/write (bitwise OR):

1

Enable check for conversion success. If byte 6 of scratchpad memory is 0xC after conversion, and temperature reads 85.00 (powerup value) or 127.94 (insufficient power) - return a conversion error.

2

Enable poll for conversion completion. Generate read cycles after the conversion start and wait for 1’s. In parasite power mode this feature is not available.

read:

Currently selected features.

write:

Select features.

Users: An application using the w1_term device

/sys/bus/w1/devices/.../resolution

Defined on file sysfs-driver-w1_therm

(RW) get or set the device resolution (on supported devices, if not, this entry is not present). Note that the resolution will be changed only in device RAM, so it will be cleared when power is lost. Trigger a ‘save’ to EEPROM command to keep values after power-on. Read or write are :

  • ‘9..14’: device resolution in bit or resolution to set in bit

  • ‘-xx’: xx is kernel error when reading the resolution

  • Anything else: do nothing

Some DS18B20 clones are fixed in 12-bit resolution, so the actual resolution is read back from the chip and verified. Error is reported if the results differ.

Users: any user space application which wants to communicate with w1_term device

/sys/bus/w1/devices/.../temperature

Defined on file sysfs-driver-w1_therm

(RO) return the temperature in 1/1000 degC.

  • If a bulk read has been triggered, it will directly return the temperature computed when the bulk read occurred, if available. If not yet available, nothing is returned (a debug kernel message is sent), you should retry later on.

  • If no bulk read has been triggered, it will trigger a conversion and send the result. Note that the conversion duration depend on the resolution (if device support this feature). It takes 94ms in 9bits resolution, 750ms for 12bits.

Users: any user space application which wants to communicate with w1_term device

/sys/bus/w1/devices/.../w1_slave

Defined on file sysfs-driver-w1_therm

(RW) return the temperature in 1/1000 degC. read: return 2 lines with the hexa output data sent on the bus, return the CRC check and temperature in 1/1000 degC write:

  • ‘0’ : save the 2 or 3 bytes to the device EEPROM (i.e. TH, TL and config register)

  • ‘9..14’ : set the device resolution in RAM (if supported)

  • Anything else: do nothing

refer to Kernel driver w1_therm for detailed information.

Users: any user space application which wants to communicate with w1_term device

/sys/bus/w1/devices/19-<id>/speed

Defined on file sysfs-driver-w1_ds28e17

When written, this file sets the I2C speed on the connected DS28E17 chip. When read, it reads the current setting from the DS28E17 chip.

Valid values: 100, 400, 900 [kBaud].

Default 100, can be set by w1_ds28e17.speed= module parameter.

Users: w1_ds28e17 driver

/sys/bus/w1/devices/19-<id>/stretch

Defined on file sysfs-driver-w1_ds28e17

When written, this file sets the multiplier used to calculate the busy timeout for I2C operations on the connected DS28E17 chip. When read, returns the current setting. Valid values: 1 to 9.

Default 1, can be set by w1_ds28e17.stretch= module parameter.

Users: w1_ds28e17 driver

/sys/bus/w1/devices/w1_bus_masterXX/therm_bulk_read

Defined on file sysfs-driver-w1_therm

(RW) trigger a bulk read conversion. read the status

read:
  • ‘-1’:

    conversion in progress on at least 1 sensor

  • ‘1’ :

    conversion complete but at least one sensor value has not been read yet

  • ‘0’ :

    no bulk operation. Reading temperature will trigger a conversion on each device

write:

‘trigger’: trigger a bulk read on all supporting devices on the bus

Note that if a bulk read is sent but one sensor is not read immediately, the next access to temperature on this device will return the temperature measured at the time of issue of the bulk read command (not the current temperature).

Users: any user space application which wants to communicate with w1_term device

/sys/bus/wmi/devices/.../driver_override

Defined on file sysfs-bus-wmi

This file allows the driver for a device to be specified which will override standard ID table matching. When specified, only a driver with a name matching the value written to driver_override will have an opportunity to bind to the device. The override is specified by writing a string to the driver_override file (echo wmi-event-dummy > driver_override). The override may be cleared with an empty string (echo > driver_override) which returns the device to standard matching rules binding. Writing to driver_override does not automatically unbind the device from its current driver or make any attempt to automatically load the specified driver. If no driver with a matching name is currently loaded in the kernel, the device will not bind to any driver. This also allows devices to opt-out of driver binding using a driver_override name such as “none”. Only a single driver may be specified in the override, there is no support for parsing delimiters.

/sys/bus/wmi/devices/.../expensive

Defined on file sysfs-bus-wmi

This file contains a boolean flag signaling if interacting with the given WMI device will consume significant CPU resources. The WMI driver core will take care of enabling/disabling such WMI devices.

/sys/bus/wmi/devices/.../guid

Defined on file sysfs-bus-wmi

This file contains the GUID used to match WMI devices to compatible WMI drivers. This GUID is not necessarily unique inside a given machine, it is solely used to identify the interface exposed by a given WMI device.

/sys/bus/wmi/devices/.../instance_count

Defined on file sysfs-bus-wmi

This file contains the number of WMI object instances being present on a given WMI device. It contains a non-negative number.

/sys/bus/wmi/devices/.../modalias

Defined on file sysfs-bus-wmi

This file contains the MODALIAS value emitted by uevent for a given WMI device.

Format: wmi:XXXXXXXX-XXXX-XXXX-XXXX-XXXXXXXXXXXX.

/sys/bus/wmi/devices/.../notify_id

Defined on file sysfs-bus-wmi

This file contains the WMI notify ID used internally to map ACPI events to WMI event devices. It contains two ASCII letters.

/sys/bus/wmi/devices/.../object_id

Defined on file sysfs-bus-wmi

This file contains the WMI object ID used internally to construct the ACPI method names used by non-event WMI devices. It contains two ASCII letters.

/sys/bus/wmi/devices/.../setable

Defined on file sysfs-bus-wmi

This file contains a boolean flags signaling the data block aassociated with the given WMI device is writable. If the given WMI device is not associated with a data block, then this file will not exist.

/sys/bus/wmi/devices/44FADEB1-B204-40F2-8581-394BBDC1B651/firmware_update_request

Defined on file sysfs-platform-intel-wmi-sbl-fw-update

Allow user space entities to trigger update of Slim Bootloader (SBL). This attribute normally has a value of 0 and userspace can signal SBL to update firmware, on next reboot, by writing a value of 1. There are two available states:

  • 0 -> Skip firmware update while rebooting

  • 1 -> Attempt firmware update on next reboot

/sys/bus/wmi/devices/6932965F-1671-4CEB-B988-D3AB0A901919/dell_privacy_current_state

Defined on file sysfs-platform-dell-privacy-wmi

Allow user space to check current dell privacy device state. Describes the Device State class exposed by BIOS which can be consumed by various applications interested in knowing the Privacy feature capabilities

Attributes:
Microphone:

Identifies the local microphone can be muted by hardware, no applications is available to capture system mic sound

Camera Shutter:

Identifies camera shutter controlled by hardware, which is a micromechanical shutter assembly that is built onto the camera module to block capturing images from outside the laptop

Values:
muted:

Identifies the privacy device is turned off and cannot send stream to OS applications

unmuted:

Identifies the privacy device is turned on, audio or camera driver can get stream from mic and camera module to OS applications

For example to check all supported current privacy device states:

# cat /sys/bus/wmi/drivers/dell-privacy/6932965F-1671-4CEB-B988-D3AB0A901919/dell_privacy_current_state
[Microphone] [unmuted]
[Camera Shutter] [unmuted]

/sys/bus/wmi/devices/6932965F-1671-4CEB-B988-D3AB0A901919/dell_privacy_supported_type

Defined on file sysfs-platform-dell-privacy-wmi

Display which dell hardware level privacy devices are supported “Dell Privacy” is a set of HW, FW, and SW features to enhance Dell’s commitment to platform privacy for MIC, Camera, and ePrivacy screens. The supported hardware privacy devices are:

Attributes:
Microphone Mute:

Identifies the local microphone can be muted by hardware, no applications is available to capture system mic sound

Camera Shutter:

Identifies camera shutter controlled by hardware, which is a micromechanical shutter assembly that is built onto the camera module to block capturing images from outside the laptop

Values:

supported:

The privacy device is supported by this system

unsupported:

The privacy device is not supported on this system

For example to check which privacy devices are supported:

# cat /sys/bus/wmi/drivers/dell-privacy/6932965F-1671-4CEB-B988-D3AB0A901919/dell_privacy_supported_type
[Microphone Mute] [supported]
[Camera Shutter] [supported]
[ePrivacy Screen] [unsupported]

Symbols under /sys/class

/sys/class/

Defined on file sysfs-class

The /sys/class directory will consist of a group of subdirectories describing individual classes of devices in the kernel. The individual directories will consist of either subdirectories, or symlinks to other directories.

All programs that use this directory tree must be able to handle both subdirectories or symlinks in order to work properly.

Users:

udev <linux-hotplug-devel@lists.sourceforge.net>

/sys/class/accel/accel<n>/device/armcp_kernel_ver

Defined on file sysfs-driver-habanalabs

Version of the Linux kernel running on the device’s CPU. Will be DEPRECATED in Linux kernel version 5.10, and be replaced with cpucp_kernel_ver

/sys/class/accel/accel<n>/device/armcp_ver

Defined on file sysfs-driver-habanalabs

Version of the application running on the device’s CPU Will be DEPRECATED in Linux kernel version 5.10, and be replaced with cpucp_ver

/sys/class/accel/accel<n>/device/clk_cur_freq_mhz

Defined on file sysfs-driver-habanalabs

Displays the current frequency, in MHz, of the device clock. This property is valid only for the Gaudi ASIC family

/sys/class/accel/accel<n>/device/clk_max_freq_mhz

Defined on file sysfs-driver-habanalabs

Allows the user to set the maximum clock frequency, in MHz. The device clock might be set to lower value than the maximum. The user should read the clk_cur_freq_mhz to see the actual frequency value of the device clock. This property is valid only for the Gaudi ASIC family

/sys/class/accel/accel<n>/device/cpld_ver

Defined on file sysfs-driver-habanalabs

Version of the Device’s CPLD F/W

/sys/class/accel/accel<n>/device/cpucp_kernel_ver

Defined on file sysfs-driver-habanalabs

Version of the Linux kernel running on the device’s CPU

/sys/class/accel/accel<n>/device/cpucp_ver

Defined on file sysfs-driver-habanalabs

Version of the application running on the device’s CPU

/sys/class/accel/accel<n>/device/device_type

Defined on file sysfs-driver-habanalabs

Displays the code name of the device according to its type. The supported values are: “GOYA”

/sys/class/accel/accel<n>/device/eeprom

Defined on file sysfs-driver-habanalabs

A binary file attribute that contains the contents of the on-board EEPROM

/sys/class/accel/accel<n>/device/fuse_ver

Defined on file sysfs-driver-habanalabs

Displays the device’s version from the eFuse

/sys/class/accel/accel<n>/device/fw_os_ver

Defined on file sysfs-driver-habanalabs

Version of the firmware OS running on the device’s CPU

/sys/class/accel/accel<n>/device/hard_reset

Defined on file sysfs-driver-habanalabs

Interface to trigger a hard-reset operation for the device. Hard-reset will reset ALL internal components of the device except for the PCI interface and the internal PLLs

/sys/class/accel/accel<n>/device/hard_reset_cnt

Defined on file sysfs-driver-habanalabs

Displays how many times the device have undergone a hard-reset operation since the driver was loaded

/sys/class/accel/accel<n>/device/high_pll

Defined on file sysfs-driver-habanalabs

Allows the user to set the maximum clock frequency for MME, TPC and IC when the power management profile is set to “automatic”. This property is valid only for the Goya ASIC family

/sys/class/accel/accel<n>/device/ic_clk

Defined on file sysfs-driver-habanalabs

Allows the user to set the maximum clock frequency, in Hz, of the Interconnect fabric. Writes to this parameter affect the device only when the power management profile is set to “manual” mode. The device IC clock might be set to lower value than the maximum. The user should read the ic_clk_curr to see the actual frequency value of the IC. This property is valid only for the Goya ASIC family

/sys/class/accel/accel<n>/device/ic_clk_curr

Defined on file sysfs-driver-habanalabs

Displays the current clock frequency, in Hz, of the Interconnect fabric. This property is valid only for the Goya ASIC family

/sys/class/accel/accel<n>/device/infineon_ver

Defined on file sysfs-driver-habanalabs

Version of the Device’s power supply F/W code. Relevant only to GOYA and GAUDI

/sys/class/accel/accel<n>/device/max_power

Defined on file sysfs-driver-habanalabs

Allows the user to set the maximum power consumption of the device in milliwatts.

/sys/class/accel/accel<n>/device/mme_clk

Defined on file sysfs-driver-habanalabs

Allows the user to set the maximum clock frequency, in Hz, of the MME compute engine. Writes to this parameter affect the device only when the power management profile is set to “manual” mode. The device MME clock might be set to lower value than the maximum. The user should read the mme_clk_curr to see the actual frequency value of the MME. This property is valid only for the Goya ASIC family

/sys/class/accel/accel<n>/device/mme_clk_curr

Defined on file sysfs-driver-habanalabs

Displays the current clock frequency, in Hz, of the MME compute engine. This property is valid only for the Goya ASIC family

/sys/class/accel/accel<n>/device/module_id

Defined on file sysfs-driver-habanalabs

Displays the device’s module id

/sys/class/accel/accel<n>/device/parent_device

Defined on file sysfs-driver-habanalabs

Displays the name of the parent device of the accel device

/sys/class/accel/accel<n>/device/pci_addr

Defined on file sysfs-driver-habanalabs

Displays the PCI address of the device. This is needed so the user would be able to open a device based on its PCI address

/sys/class/accel/accel<n>/device/pm_mng_profile

Defined on file sysfs-driver-habanalabs

Power management profile. Values are “auto”, “manual”. In “auto” mode, the driver will set the maximum clock frequency to a high value when a user-space process opens the device’s file (unless it was already opened by another process). The driver will set the max clock frequency to a low value when there are no user processes that are opened on the device’s file. In “manual” mode, the user sets the maximum clock frequency by writing to ic_clk, mme_clk and tpc_clk. This property is valid only for the Goya ASIC family

/sys/class/accel/accel<n>/device/preboot_btl_ver

Defined on file sysfs-driver-habanalabs

Version of the device’s preboot F/W code

/sys/class/accel/accel<n>/device/security_enabled

Defined on file sysfs-driver-habanalabs

Displays the device’s security status

/sys/class/accel/accel<n>/device/soft_reset

Defined on file sysfs-driver-habanalabs

Interface to trigger a soft-reset operation for the device. Soft-reset will reset only the compute and DMA engines of the device

/sys/class/accel/accel<n>/device/soft_reset_cnt

Defined on file sysfs-driver-habanalabs

Displays how many times the device have undergone a soft-reset operation since the driver was loaded

/sys/class/accel/accel<n>/device/status

Defined on file sysfs-driver-habanalabs

Status of the card:

  • “operational” - Device is available for work.

  • “in reset” - Device is going through reset, will be available shortly.

  • “disabled” - Device is not usable.

  • “needs reset” - Device is not usable until a hard reset is initiated.

  • “in device creation” - Device is not available yet, as it is still initializing.

  • “in reset after device release” - Device is going through a compute-reset which is executed after a device release (relevant for Gaudi2 only).

/sys/class/accel/accel<n>/device/thermal_ver

Defined on file sysfs-driver-habanalabs

Version of the Device’s thermal daemon

/sys/class/accel/accel<n>/device/tpc_clk

Defined on file sysfs-driver-habanalabs

Allows the user to set the maximum clock frequency, in Hz, of the TPC compute engines. Writes to this parameter affect the device only when the power management profile is set to “manual” mode. The device TPC clock might be set to lower value than the maximum. The user should read the tpc_clk_curr to see the actual frequency value of the TPC. This property is valid only for Goya ASIC family

/sys/class/accel/accel<n>/device/tpc_clk_curr

Defined on file sysfs-driver-habanalabs

Displays the current clock frequency, in Hz, of the TPC compute engines. This property is valid only for the Goya ASIC family

/sys/class/accel/accel<n>/device/uboot_ver

Defined on file sysfs-driver-habanalabs

Version of the u-boot running on the device’s CPU

/sys/class/accel/accel<n>/device/vrm_ver

Defined on file sysfs-driver-habanalabs

Version of the Device’s Voltage Regulator Monitor F/W code. N/A to GOYA and GAUDI

/sys/class/ata_*

Defined on file sysfs-ata

Provide a place in sysfs for storing the ATA topology of the system. This allows retrieving various information about ATA objects.

Files under /sys/class/ata_port

For each port, a directory ataX is created where X is the ata_port_id of the port. The device parent is the ata host device.

/sys/class/ata_device/devX[.Y].Z/spdn_cnt

/sys/class/ata_device/devX[.Y].Z/gscr

/sys/class/ata_device/devX[.Y].Z/ering

/sys/class/ata_device/devX[.Y].Z/id

/sys/class/ata_device/devX[.Y].Z/pio_mode

/sys/class/ata_device/devX[.Y].Z/xfer_mode

/sys/class/ata_device/devX[.Y].Z/dma_mode

/sys/class/ata_device/devX[.Y].Z/class

Defined on file sysfs-ata

spdn_cnt: (RO) Number of times libata decided to lower the

speed of link due to errors.

gscr: (RO) Cached result of the dump of PM GSCR

register. Valid registers are:

0: SATA_PMP_GSCR_PROD_ID, 1: SATA_PMP_GSCR_REV, 2: SATA_PMP_GSCR_PORT_INFO, 32: SATA_PMP_GSCR_ERROR, 33: SATA_PMP_GSCR_ERROR_EN, 64: SATA_PMP_GSCR_FEAT, 96: SATA_PMP_GSCR_FEAT_EN, 130: SATA_PMP_GSCR_SII_GPIO

Only valid if the device is a PM.

ering: (RO) Formatted output of the error ring of the

device.

id: (RO) Cached result of IDENTIFY command, as

described in ATA8 7.16 and 7.17. Only valid if the device is not a PM.

pio_mode: (RO) PIO transfer mode used by the device.

Mostly used by PATA devices.

xfer_mode: (RO) Current transfer mode. Mostly used by

PATA devices.

dma_mode: (RO) DMA transfer mode used by the device.

Mostly used by PATA devices.

class: (RO) Device class. Can be “ata” for disk,

“atapi” for packet device, “pmp” for PM, or “none” if no device was found behind the link.

/sys/class/ata_device/devX[.Y].Z/trim

Defined on file sysfs-ata

(RO) Shows the DSM TRIM mode currently used by the device. Valid values are:

unsupported: Drive does not support DSM TRIM

unqueued: Drive supports unqueued DSM TRIM only

queued: Drive supports queued DSM TRIM

forced_unqueued: Drive’s queued DSM support is known to

be buggy and only unqueued TRIM commands are sent

Defined on file sysfs-ata

hw_sata_spd_limit: (RO) Maximum speed supported by the

connected SATA device.

sata_spd_limit: (RO) Maximum speed imposed by libata.

sata_spd: (RO) Current speed of the link

eg. 1.5, 3 Gbps etc.

Files under /sys/class/ata_device

Behind each link, up to two ata devices are created. The name of the directory is devX[.Y].Z where: - X is ata_port_id of the port where the device is connected, - Y the port of the PM if any, and - Z the device id: for PATA, there is usually 2 devices [0,1], only 1 for SATA.

Defined on file sysfs-ata

nr_pmp_links: (RO) If a SATA Port Multiplier (PM) is

connected, the number of links behind it.

idle_irq: (RO) Number of IRQ received by the port while

idle [some ata HBA only].

/sys/class/ata_port/ataX/port_no

Defined on file sysfs-ata

(RO) Host local port number. While registering host controller, port numbers are tracked based upon number of ports available on the controller. This attribute is needed by udev for composing persistent links in /dev/disk/by-path.

Files under /sys/class/ata_link

Behind each port, there is a ata_link. If there is a SATA PM in the topology, 15 ata_link objects are created.

If a link is behind a port, the directory name is linkX, where X is ata_port_id of the port. If a link is behind a PM, its name is linkX.Y where X is ata_port_id of the parent port and Y the PM port.

/sys/class/backlight/<backlight>/<ambient light zone>_dim

Defined on file sysfs-class-backlight

Control the dim brightness for <ambient light zone> on this <backlight>. Values are between 0 and 127, typically set to 0. Full off when the backlight is disabled. This file will also show the dim brightness level stored for this <ambient light zone>.

The <ambient light zone> is device-driver specific:

For ADP5520 and ADP5501, <ambient light zone> can be:

Ambient

sysfs entry

light zone

daylight

/sys/class/backlight/<backlight>/daylight_dim

office

/sys/class/backlight/<backlight>/office_dim

dark

/sys/class/backlight/<backlight>/dark_dim

For ADP8860, <ambient light zone> can be:

Ambient

sysfs entry

light zone

l1_daylight

/sys/class/backlight/<backlight>/l1_daylight_dim

l2_office

/sys/class/backlight/<backlight>/l2_office_dim

l3_dark

/sys/class/backlight/<backlight>/l3_dark_dim

For ADP8870, <ambient light zone> can be:

Ambient

sysfs entry

light zone

l1_daylight

/sys/class/backlight/<backlight>/l1_daylight_dim

l2_bright

/sys/class/backlight/<backlight>/l2_bright_dim

l3_office

/sys/class/backlight/<backlight>/l3_office_dim

l4_indoor

/sys/class/backlight/<backlight>/l4_indoor_dim

l5_dark

/sys/class/backlight/<backlight>/l5_dark_dim

See also: /sys/class/backlight/<backlight>/ambient_light_zone.

/sys/class/backlight/<backlight>/<ambient light zone>_max

Defined on file sysfs-class-backlight

Control the maximum brightness for <ambient light zone> on this <backlight>. Values are between 0 and 127. This file will also show the brightness level stored for this <ambient light zone>.

The <ambient light zone> is device-driver specific:

For ADP5520 and ADP5501, <ambient light zone> can be:

Ambient

sysfs entry

light zone

daylight

/sys/class/backlight/<backlight>/daylight_max

office

/sys/class/backlight/<backlight>/office_max

dark

/sys/class/backlight/<backlight>/dark_max

For ADP8860, <ambient light zone> can be:

Ambient

sysfs entry

light zone

l1_daylight

/sys/class/backlight/<backlight>/l1_daylight_max

l2_office

/sys/class/backlight/<backlight>/l2_office_max

l3_dark

/sys/class/backlight/<backlight>/l3_dark_max

For ADP8870, <ambient light zone> can be:

Ambient

sysfs entry

light zone

l1_daylight

/sys/class/backlight/<backlight>/l1_daylight_max

l2_bright

/sys/class/backlight/<backlight>/l2_bright_max

l3_office

/sys/class/backlight/<backlight>/l3_office_max

l4_indoor

/sys/class/backlight/<backlight>/l4_indoor_max

l5_dark

/sys/class/backlight/<backlight>/l5_dark_max

See also: /sys/class/backlight/<backlight>/ambient_light_zone.

/sys/class/backlight/<backlight>/als_channel

Defined on file sysfs-class-backlight-driver-lm3533

Get the ALS output channel used as input in ALS-current-control mode (0, 1), where:

0

out_current0 (backlight 0)

1

out_current1 (backlight 1)

/sys/class/backlight/<backlight>/als_en

Defined on file sysfs-class-backlight-driver-lm3533

Enable ALS-current-control mode (0, 1).

/sys/class/backlight/<backlight>/ambient_light_level

Defined on file sysfs-class-backlight

(RO) Get conversion value of the light sensor.

The value is automatically updated every 80 ms when the light sensor is enabled.

The value range is device-driver specific:

For ADP8870:

It returns integer between 0 (dark) and 8000 (max ambient brightness).

For ADP8860:

It returns a 13-bits integer.

/sys/class/backlight/<backlight>/ambient_light_zone

Defined on file sysfs-class-backlight

(RW) Read or write the specific brightness level at which the backlight operates.

The value meaning is device-driver specific:

For ADP8860:

0

Off: Backlight set to 0 mA

1

Level 1: daylight

2

Level 2: bright

3

Level 3: dark

For ADP8870:

0

Off: Backlight set to 0 mA

1

Level 1: daylight

2

Level 2: bright

3

Level 3: office

4

Level 4: indoor

5

Level 5: dark

Writing 0 returns to normal/automatic ambient light level operation.

It can be enabled by writing the value stored in /sys/class/backlight/<backlight>/max_brightness to /sys/class/backlight/<backlight>/brightness.

/sys/class/backlight/<backlight>/bled_mode

Defined on file sysfs-class-backlight-lm3639

(WO) Write to the backlight mapping mode. The backlight current can be mapped for either exponential (value “0”) or linear mapping modes (default).

/sys/class/backlight/<backlight>/id

Defined on file sysfs-class-backlight-driver-lm3533

Get the id of this backlight (0, 1).

/sys/class/backlight/<backlight>/linear

Defined on file sysfs-class-backlight-driver-lm3533

Set the brightness-mapping mode (0, 1), where:

0

exponential mode

1

linear mode

/sys/class/backlight/<backlight>/pwm

Defined on file sysfs-class-backlight-driver-lm3533

Set the PWM-input control mask (5 bits), where:

bit 5

PWM-input enabled in Zone 4

bit 4

PWM-input enabled in Zone 3

bit 3

PWM-input enabled in Zone 2

bit 2

PWM-input enabled in Zone 1

bit 1

PWM-input enabled in Zone 0

bit 0

PWM-input enabled

/sys/class/backlight/<backlight>/scale

Defined on file sysfs-class-backlight

Description of the scale of the brightness curve.

The human eye senses brightness approximately logarithmically, hence linear changes in brightness are perceived as being non-linear. To achieve a linear perception of brightness changes controls like sliders need to apply a logarithmic mapping for backlights with a linear brightness curve.

Possible values of the attribute are:

unknown

The scale of the brightness curve is unknown.

linear

The brightness changes linearly with each step. Brightness controls should apply a logarithmic mapping for a linear perception.

non-linear

The brightness changes non-linearly with each step. Brightness controls should use a linear mapping for a linear perception.

/sys/class/bdi/<bdi>/

Defined on file sysfs-class-bdi

Provide a place in sysfs for the backing_dev_info object. This allows setting and retrieving various BDI specific variables.

The <bdi> identifier can be either of the following:

MAJOR:MINOR

Device number for block devices, or value of st_dev on non-block filesystems which provide their own BDI, such as NFS and FUSE.

MAJOR:MINOR-fuseblk

Value of st_dev on fuseblk filesystems.

default

The default backing dev, used for non-block device backed filesystems which do not provide their own BDI.

/sys/class/bdi/<bdi>/max_bytes

Defined on file sysfs-class-bdi

Allows limiting a particular device to use not more than the given ‘max_bytes’ of the write-back cache. This is useful in situations where we want to avoid one device taking all or most of the write-back cache. For example in case of an NFS mount that is prone to get stuck, a FUSE mount which cannot be trusted to play fair, or a nbd device.

(read-write)

/sys/class/bdi/<bdi>/max_ratio

Defined on file sysfs-class-bdi

Allows limiting a particular device to use not more than the given percentage of the write-back cache. This is useful in situations where we want to avoid one device taking all or most of the write-back cache. For example in case of an NFS mount that is prone to get stuck, or a FUSE mount which cannot be trusted to play fair.

(read-write)

/sys/class/bdi/<bdi>/max_ratio_fine

Defined on file sysfs-class-bdi

Allows limiting a particular device to use not more than the given value of the write-back cache. The value is given as part of 1 million. This is useful in situations where we want to avoid one device taking all or most of the write-back cache. For example in case of an NFS mount that is prone to get stuck, or a FUSE mount which cannot be trusted to play fair.

(read-write)

/sys/class/bdi/<bdi>/min_bytes

Defined on file sysfs-class-bdi

Under normal circumstances each device is given a part of the total write-back cache that relates to its current average writeout speed in relation to the other devices.

The ‘min_bytes’ parameter allows assigning a minimum percentage of the write-back cache to a particular device expressed in bytes. For example, this is useful for providing a minimum QoS.

(read-write)

/sys/class/bdi/<bdi>/min_ratio

Defined on file sysfs-class-bdi

Under normal circumstances each device is given a part of the total write-back cache that relates to its current average writeout speed in relation to the other devices.

The ‘min_ratio’ parameter allows assigning a minimum percentage of the write-back cache to a particular device. For example, this is useful for providing a minimum QoS.

(read-write)

/sys/class/bdi/<bdi>/min_ratio_fine

Defined on file sysfs-class-bdi

Under normal circumstances each device is given a part of the total write-back cache that relates to its current average writeout speed in relation to the other devices.

The ‘min_ratio_fine’ parameter allows assigning a minimum reserve of the write-back cache to a particular device. The value is expressed as part of 1 million. For example, this is useful for providing a minimum QoS.

(read-write)

/sys/class/bdi/<bdi>/read_ahead_kb

Defined on file sysfs-class-bdi

Size of the read-ahead window in kilobytes

(read-write)

/sys/class/bdi/<bdi>/stable_pages_required

Defined on file sysfs-class-bdi

If set, the backing device requires that all pages comprising a write request must not be changed until writeout is complete.

(read-only)

/sys/class/bdi/<bdi>/strict_limit

Defined on file sysfs-class-bdi

Forces per-BDI checks for the share of given device in the write-back cache even before the global background dirty limit is reached. This is useful in situations where the global limit is much higher than affordable for given relatively slow (or untrusted) device. Turning strictlimit on has no visible effect if max_ratio is equal to 100%.

(read-write)

/sys/class/bsr/bsr*/bsr_length

Defined on file sysfs-class-bsr

(RO) The length of memory region that can be mapped in bytes.

/sys/class/bsr/bsr*/bsr_size

Defined on file sysfs-class-bsr

(RO) Size of the barrier-synchronization register (BSR) register in bytes.

/sys/class/bsr/bsr*/bsr_stride

Defined on file sysfs-class-bsr

(RO) The stride or the interval at which the allocated BSR bytes repeat within the mapping.

/sys/class/c2port/

Defined on file sysfs-c2port

The /sys/class/c2port/ directory will contain files and directories that will provide a unified interface to the C2 port interface.

/sys/class/c2port/c2portX

Defined on file sysfs-c2port

The /sys/class/c2port/c2portX/ directory is related to X-th C2 port into the system. Each directory will contain files to manage and control its C2 port.

/sys/class/c2port/c2portX/access

Defined on file sysfs-c2port

The /sys/class/c2port/c2portX/access file enable the access to the C2 port from the system. No commands can be sent till this entry is set to 0.

/sys/class/c2port/c2portX/dev_id

Defined on file sysfs-c2port

The /sys/class/c2port/c2portX/dev_id file show the device ID of the connected micro.

/sys/class/c2port/c2portX/flash_access

Defined on file sysfs-c2port

The /sys/class/c2port/c2portX/flash_access file enable the access to the on-board flash of the connected micro. No commands can be sent till this entry is set to 0.

/sys/class/c2port/c2portX/flash_block_size

Defined on file sysfs-c2port

The /sys/class/c2port/c2portX/flash_block_size file show the on-board flash block size of the connected micro.

/sys/class/c2port/c2portX/flash_blocks_num

Defined on file sysfs-c2port

The /sys/class/c2port/c2portX/flash_blocks_num file show the on-board flash blocks number of the connected micro.

/sys/class/c2port/c2portX/flash_data

Defined on file sysfs-c2port

The /sys/class/c2port/c2portX/flash_data file export the content of the on-board flash of the connected micro.

/sys/class/c2port/c2portX/flash_erase

Defined on file sysfs-c2port

The /sys/class/c2port/c2portX/flash_erase file execute the “erase” command on the on-board flash of the connected micro.

/sys/class/c2port/c2portX/reset

Defined on file sysfs-c2port

The /sys/class/c2port/c2portX/reset file execute a “reset” command on the connected micro.

/sys/class/c2port/c2portX/rev_id

Defined on file sysfs-c2port

The /sys/class/c2port/c2portX/rev_id file show the revision ID of the connected micro.

/sys/class/chromeos/<ec-device-name>/flashinfo

Defined on file sysfs-class-chromeos

Show the EC flash information.

/sys/class/chromeos/<ec-device-name>/kb_wake_angle

Defined on file sysfs-class-chromeos

Control the keyboard wake lid angle. Values are between 0 and 360. This file will also show the keyboard wake lid angle by querying the hardware.

/sys/class/chromeos/<ec-device-name>/lightbar/brightness

Defined on file sysfs-class-chromeos-driver-cros-ec-lightbar

Writing to this file adjusts the overall brightness of the lightbar, separate from any color intensity. The valid range is 0 (off) to 255 (maximum brightness).

/sys/class/chromeos/<ec-device-name>/lightbar/interval_msec

Defined on file sysfs-class-chromeos-driver-cros-ec-lightbar

The lightbar is controlled by an embedded controller (EC), which also manages the keyboard, battery charging, fans, and other system hardware. To prevent unprivileged users from interfering with the other EC functions, the rate at which the lightbar control files can be read or written is limited.

Reading this file will return the number of milliseconds that must elapse between accessing any of the lightbar functions through this interface. Going faster will simply block until the necessary interval has lapsed. The interval applies uniformly to all accesses of any kind by any user.

/sys/class/chromeos/<ec-device-name>/lightbar/led_rgb

Defined on file sysfs-class-chromeos-driver-cros-ec-lightbar

This allows you to control each LED segment. If the lightbar is already running one of the automatic sequences, you probably won’t see anything change because your color setting will be almost immediately replaced. To get useful results, you should stop the lightbar sequence first.

The values written to this file are sets of four integers, indicating LED, RED, GREEN, BLUE. The LED number is 0 to 3 to select a single segment, or 4 to set all four segments to the same value at once. The RED, GREEN, and BLUE numbers should be in the range 0 (off) to 255 (maximum). You can update more than one segment at a time by writing more than one set of four integers.

/sys/class/chromeos/<ec-device-name>/lightbar/program

Defined on file sysfs-class-chromeos-driver-cros-ec-lightbar

This allows you to upload and run custom lightbar sequences.

/sys/class/chromeos/<ec-device-name>/lightbar/sequence

Defined on file sysfs-class-chromeos-driver-cros-ec-lightbar

The Pixel lightbar has a number of built-in sequences that it displays under various conditions, such as at power on, shut down, or while running. Reading from this file displays the current sequence that the lightbar is displaying. Writing to this file allows you to change the sequence.

/sys/class/chromeos/<ec-device-name>/lightbar/userspace_control

Defined on file sysfs-class-chromeos-driver-cros-ec-lightbar

This allows you to take the control of the lightbar. This prevents the kernel from going through its normal sequences.

/sys/class/chromeos/<ec-device-name>/lightbar/version

Defined on file sysfs-class-chromeos-driver-cros-ec-lightbar

Show the information about the lightbar version.

/sys/class/chromeos/<ec-device-name>/reboot

Defined on file sysfs-class-chromeos

Tell the EC to reboot in various ways. Options are:

  • “cancel”: Cancel a pending reboot.

  • “ro”: Jump to RO without rebooting.

  • “rw”: Jump to RW without rebooting.

  • “cold”: Cold reboot.

  • “disable-jump”: Disable jump until next reboot.

  • “hibernate”: Hibernate the EC.

  • “at-shutdown”: Reboot after an AP shutdown.

/sys/class/chromeos/<ec-device-name>/vbc/vboot_context

Defined on file sysfs-class-chromeos-driver-cros-ec-vbc

Read/write the verified boot context data included on a small nvram space on some EC implementations.

/sys/class/chromeos/<ec-device-name>/version

Defined on file sysfs-class-chromeos

Show the information about the EC software and hardware.

/sys/class/cxl/<afu>/afu_err_buf

Defined on file sysfs-class-cxl

read only AFU Error Buffer contents. The contents of this file are application specific and depends on the AFU being used. Applications interacting with the AFU can use this attribute to know about the current error condition and take appropriate action like logging the event etc.

/sys/class/cxl/<afu>/api_version

Defined on file sysfs-class-cxl

read only Decimal value of the current version of the kernel/user API.

Users: https://github.com/ibm-capi/libcxl

/sys/class/cxl/<afu>/api_version_compatible

Defined on file sysfs-class-cxl

read only Decimal value of the lowest version of the userspace API this kernel supports.

Users: https://github.com/ibm-capi/libcxl AFU configuration records (eg. /sys/class/cxl/afu0.0/cr0): An AFU may optionally export one or more PCIe like configuration records, known as AFU configuration records, which will show up here (if present).

/sys/class/cxl/<afu>/cr<config num>/class

Defined on file sysfs-class-cxl

read only Hexadecimal value of the class code found in this AFU configuration record.

Users: https://github.com/ibm-capi/libcxl

/sys/class/cxl/<afu>/cr<config num>/config

Defined on file sysfs-class-cxl

read only This binary file provides raw access to the AFU configuration record. The format is expected to match the either the standard or extended configuration space defined by the PCIe specification.

Users: https://github.com/ibm-capi/libcxl Master contexts (eg. /sys/class/cxl/afu0.0m)

/sys/class/cxl/<afu>/cr<config num>/device

Defined on file sysfs-class-cxl

read only Hexadecimal value of the device ID found in this AFU configuration record.

Users: https://github.com/ibm-capi/libcxl

/sys/class/cxl/<afu>/cr<config num>/vendor

Defined on file sysfs-class-cxl

read only Hexadecimal value of the vendor ID found in this AFU configuration record.

Users: https://github.com/ibm-capi/libcxl

/sys/class/cxl/<afu>/irqs_max

Defined on file sysfs-class-cxl

read/write Decimal value of maximum number of interrupts that can be requested by userspace. The default on probe is the maximum that hardware can support (eg. 2037). Write values will limit userspace applications to that many userspace interrupts. Must be >= irqs_min.

Users: https://github.com/ibm-capi/libcxl

/sys/class/cxl/<afu>/irqs_min

Defined on file sysfs-class-cxl

read only Decimal value of the minimum number of interrupts that userspace must request on a CXL_START_WORK ioctl. Userspace may omit the num_interrupts field in the START_WORK IOCTL to get this minimum automatically.

Users: https://github.com/ibm-capi/libcxl

/sys/class/cxl/<afu>/mmio_size

Defined on file sysfs-class-cxl

read only Decimal value of the size of the MMIO space that may be mmapped by userspace.

Users: https://github.com/ibm-capi/libcxl

/sys/class/cxl/<afu>/mode

Defined on file sysfs-class-cxl

read/write The current mode the AFU is using. Will be one of the modes given in modes_supported. Writing will change the mode provided that no user contexts are attached.

Users: https://github.com/ibm-capi/libcxl

/sys/class/cxl/<afu>/modes_supported

Defined on file sysfs-class-cxl

read only List of the modes this AFU supports. One per line. Valid entries are: “dedicated_process” and “afu_directed”

Users: https://github.com/ibm-capi/libcxl

/sys/class/cxl/<afu>/prefault_mode

Defined on file sysfs-class-cxl

read/write Set the mode for prefaulting in segments into the segment table when performing the START_WORK ioctl. Only applicable when running under hashed page table mmu. Possible values:

none

No prefaulting (default)

work_element_descriptor

Treat the work element descriptor as an effective address and prefault what it points to.

all

all segments process calling START_WORK maps.

Users: https://github.com/ibm-capi/libcxl

/sys/class/cxl/<afu>/reset

Defined on file sysfs-class-cxl

write only Writing 1 here will reset the AFU provided there are not contexts active on the AFU.

Users: https://github.com/ibm-capi/libcxl

/sys/class/cxl/<afu>m/mmio_size

Defined on file sysfs-class-cxl

read only Decimal value of the size of the MMIO space that may be mmapped by userspace. This includes all slave contexts space also.

Users: https://github.com/ibm-capi/libcxl

/sys/class/cxl/<afu>m/pp_mmio_len

Defined on file sysfs-class-cxl

read only Decimal value of the Per Process MMIO space length.

Users: https://github.com/ibm-capi/libcxl

/sys/class/cxl/<afu>m/pp_mmio_off

Defined on file sysfs-class-cxl

read only (not in a guest) Decimal value of the Per Process MMIO space offset.

Users: https://github.com/ibm-capi/libcxl Card info (eg. /sys/class/cxl/card0)

/sys/class/cxl/<card>/base_image

Defined on file sysfs-class-cxl

read only (not in a guest) Identifies the revision level of the base image for devices that support loadable PSLs. For FPGAs this field identifies the image contained in the on-adapter flash which is loaded during the initial program load.

Users: https://github.com/ibm-capi/libcxl

/sys/class/cxl/<card>/caia_version

Defined on file sysfs-class-cxl

read only Identifies the CAIA Version the card implements.

Users: https://github.com/ibm-capi/libcxl

/sys/class/cxl/<card>/image_loaded

Defined on file sysfs-class-cxl

read only (not in a guest) Will return “user” or “factory” depending on the image loaded onto the card.

Users: https://github.com/ibm-capi/libcxl

/sys/class/cxl/<card>/load_image_on_perst

Defined on file sysfs-class-cxl

read/write (not in a guest) Valid entries are “none”, “user”, and “factory”. “none” means PERST will not cause image to be loaded to the card. A power cycle is required to load the image. “none” could be useful for debugging because the trace arrays are preserved.

“user” and “factory” means PERST will cause either the user or user or factory image to be loaded. Default is to reload on PERST whichever image the card has loaded.

Users: https://github.com/ibm-capi/libcxl

/sys/class/cxl/<card>/perst_reloads_same_image

Defined on file sysfs-class-cxl

read/write (not in a guest) Trust that when an image is reloaded via PERST, it will not have changed.

0

don’t trust, the image may be different (default)

1

trust that the image will not change.

Users: https://github.com/ibm-capi/libcxl

/sys/class/cxl/<card>/psl_revision

Defined on file sysfs-class-cxl

read only Identifies the revision level of the PSL.

Users: https://github.com/ibm-capi/libcxl

/sys/class/cxl/<card>/psl_timebase_synced

Defined on file sysfs-class-cxl

read only Returns 1 if the psl timebase register is synchronized with the core timebase register, 0 otherwise.

Users: https://github.com/ibm-capi/libcxl

/sys/class/cxl/<card>/reset

Defined on file sysfs-class-cxl

write only Writing 1 will issue a PERST to card provided there are no contexts active on any one of the card AFUs. This may cause the card to reload the FPGA depending on load_image_on_perst. Writing -1 will do a force PERST irrespective of any active contexts on the card AFUs.

Users: https://github.com/ibm-capi/libcxl

/sys/class/cxl/<card>/tunneled_ops_supported

Defined on file sysfs-class-cxl

read only Returns 1 if tunneled operations are supported in capi mode, 0 otherwise.

Users: https://github.com/ibm-capi/libcxl

/sys/class/devfreq-event/event<x>/

Defined on file sysfs-class-devfreq-event

Provide a place in sysfs for the devfreq-event objects. This allows accessing various devfreq-event specific variables. The name of devfreq-event object denoted as ‘event<x>’ which includes the unique number of ‘x’ for each devfreq-event object.

/sys/class/devfreq-event/event<x>/enable_count

Defined on file sysfs-class-devfreq-event

The /sys/class/devfreq-event/event<x>/enable_count attribute contains the reference count to enable the devfreq-event object. If the device is enabled, the value of attribute is greater than zero.

/sys/class/devfreq-event/event<x>/name

Defined on file sysfs-class-devfreq-event

The /sys/class/devfreq-event/event<x>/name attribute contains the name of the devfreq-event object. This attribute is read-only.

/sys/class/devfreq/.../

Defined on file sysfs-class-devfreq

Provide a place in sysfs for the devfreq objects. This allows accessing various devfreq specific variables. The name of devfreq object denoted as ... is same as the name of device using devfreq.

/sys/class/devfreq/.../available_frequencies

Defined on file sysfs-class-devfreq

The /sys/class/devfreq/.../available_frequencies shows the available frequencies of the corresponding devfreq object. This is a snapshot of available frequencies and not limited by the min/max frequency restrictions.

/sys/class/devfreq/.../available_governors

Defined on file sysfs-class-devfreq

The /sys/class/devfreq/.../available_governors shows currently available governors in the system.

/sys/class/devfreq/.../cur_freq

Defined on file sysfs-class-devfreq

The /sys/class/devfreq/.../cur_freq shows the current frequency of the corresponding devfreq object. Same as target_freq when get_cur_freq() is not implemented by devfreq driver.

/sys/class/devfreq/.../governor

Defined on file sysfs-class-devfreq

The /sys/class/devfreq/.../governor show or set the name of the governor used by the corresponding devfreq object.

/sys/class/devfreq/.../max_freq

Defined on file sysfs-class-devfreq

The /sys/class/devfreq/.../max_freq shows and stores the maximum frequency requested by users. It is 0 if the user does not care. max_freq overrides the frequency requested by governors and min_freq. The max_freq overrides min_freq because max_freq may be used to throttle devices to avoid overheating.

/sys/class/devfreq/.../min_freq

Defined on file sysfs-class-devfreq

The /sys/class/devfreq/.../min_freq shows and stores the minimum frequency requested by users. It is 0 if the user does not care. min_freq overrides the frequency requested by governors.

/sys/class/devfreq/.../name

Defined on file sysfs-class-devfreq

The /sys/class/devfreq/.../name shows the name of device of the corresponding devfreq object.

/sys/class/devfreq/.../polling_interval

Defined on file sysfs-class-devfreq

The /sys/class/devfreq/.../polling_interval shows and sets the requested polling interval of the corresponding devfreq object. The values are represented in ms. If the value is less than 1 jiffy, it is considered to be 0, which means no polling. This value is meaningless if the governor is not polling.

A list of governors that support the node: - simple_ondmenad - tegra_actmon

/sys/class/devfreq/.../target_freq

Defined on file sysfs-class-devfreq

The /sys/class/devfreq/.../target_freq shows the next governor predicted target frequency of the corresponding devfreq object.

/sys/class/devfreq/.../timer

Defined on file sysfs-class-devfreq

This ABI shows and stores the kind of work timer by users. This work timer is used by devfreq workqueue in order to monitor the device status such as utilization. The user can change the work timer on runtime according to their demand as following:

echo deferrable > /sys/class/devfreq/.../timer
echo delayed > /sys/class/devfreq/.../timer

A list of governors that support the node: - simple_ondemand

/sys/class/devfreq/.../trans_stat

Defined on file sysfs-class-devfreq

This ABI shows or clears the statistics of devfreq behavior on a specific device. It shows the time spent in each state and the number of transitions between states. In order to activate this ABI, the devfreq target device driver should provide the list of available frequencies with its profile. If need to reset the statistics of devfreq behavior on a specific device, enter 0(zero) to ‘trans_stat’ as following:

echo 0 > /sys/class/devfreq/.../trans_stat

If the transition table is bigger than PAGE_SIZE, reading this will return an -EFBIG error.

/sys/class/devfreq/.../userspace/set_freq

Defined on file sysfs-class-devfreq

The /sys/class/devfreq/.../userspace/set_freq shows and sets the requested frequency for the devfreq object if userspace governor is in effect.

A list of governors that support the node: - userspace

Defined on file sysfs-class-devlink

Provide a place in sysfs for the device link objects in the kernel at any given time. The name of a device link directory, denoted as ... above, is of the form <supplier>--<consumer> where <supplier> is the supplier bus:device name and <consumer> is the consumer bus:device name.

Defined on file sysfs-class-devlink

This file indicates if the device link will ever be automatically removed by the driver core when the consumer and supplier devices themselves are still present.

This will be one of the following strings:

  • ‘consumer unbind’

  • ‘supplier unbind’

  • ‘never’

‘consumer unbind’ means the device link will be removed when the consumer’s driver is unbound from the consumer device.

‘supplier unbind’ means the device link will be removed when the supplier’s driver is unbound from the supplier device.

‘never’ means the device link will not be automatically removed when as long as the supplier and consumer devices themselves are still present.

Defined on file sysfs-class-devlink

This file is a symlink to the consumer device’s sysfs directory.

Defined on file sysfs-class-devlink

This file indicates if the device link has any impact on the runtime power management behavior of the consumer and supplier devices. For example: Making sure the supplier doesn’t enter runtime suspend while the consumer is active.

This will be one of the following strings:

‘0’

Does not affect runtime power management

‘1’

Affects runtime power management

Defined on file sysfs-class-devlink

This file indicates the status of the device link. The status of a device link is affected by whether the supplier and consumer devices have been bound to their corresponding drivers. The status of a device link also affects the binding and unbinding of the supplier and consumer devices with their drivers and also affects whether the software state of the supplier device is synced with the hardware state of the supplier device after boot up. See also: sysfs-devices-state_synced.

This will be one of the following strings:

  • ‘not tracked’

  • ‘dormant’

  • ‘available’

  • ‘consumer probing’

  • ‘active’

  • ‘supplier unbinding’

  • ‘unknown’

‘not tracked’ means this device link does not track the status and has no impact on the binding, unbinding and syncing the hardware and software device state.

‘dormant’ means the supplier and the consumer devices have not bound to their driver.

‘available’ means the supplier has bound to its driver and is available to supply resources to the consumer device.

‘consumer probing’ means the consumer device is currently trying to bind to its driver.

‘active’ means the supplier and consumer devices have both bound successfully to their drivers.

‘supplier unbinding’ means the supplier devices is currently in the process of unbinding from its driver.

‘unknown’ means the state of the device link is not any of the above. If this is ever the value, there’s a bug in the kernel.

Defined on file sysfs-class-devlink

This file is a symlink to the supplier device’s sysfs directory.

Defined on file sysfs-class-devlink

This file indicates if the device link is limited to only affecting the syncing of the hardware and software state of the supplier device.

This will be one of the following strings:

‘0’

‘1’

Affects runtime power management

‘0’ means the device link can affect other device behaviors like binding/unbinding, suspend/resume, runtime power management, etc.

‘1’ means the device link will only affect the syncing of hardware and software state of the supplier device after boot up and doesn’t not affect other behaviors of the devices.

/sys/class/extcon/.../

Defined on file sysfs-class-extcon

Provide a place in sysfs for the extcon objects. This allows accessing extcon specific variables. The name of extcon object denoted as ... is the name given with extcon_dev_register.

One extcon device denotes a single external connector port. An external connector may have multiple cables attached simultaneously. Many of docks, cradles, and accessory cables have such capability. For example, the 30-pin port of Nuri board (/arch/arm/mach-exynos) may have both HDMI and Charger attached, or analog audio, video, and USB cables attached simultaneously.

If there are cables mutually exclusive with each other, such binary relations may be expressed with extcon_dev’s mutually_exclusive array.

/sys/class/extcon/.../cable.X/name

Defined on file sysfs-class-extcon

The /sys/class/extcon/.../cable.X/name shows the name of cable “X” (integer between 0 and 31) of an extcon device.

/sys/class/extcon/.../cable.X/state

Defined on file sysfs-class-extcon

The /sys/class/extcon/.../cable.X/state shows and stores the state of cable “X” (integer between 0 and 31) of an extcon device. The state value is either 0 (detached) or 1 (attached).

/sys/class/extcon/.../mutually_exclusive/..

Defined on file sysfs-class-extcon

Shows the relations of mutually exclusiveness. For example, if the mutually_exclusive array of extcon device is {0x3, 0x5, 0xC, 0x0}, then the output is:

# ls mutually_exclusive/
0x3
0x5
0xc
#

Note that mutually_exclusive is a sub-directory of the extcon device and the file names under the mutually_exclusive directory show the mutually-exclusive sets, not the contents of the files.

/sys/class/extcon/.../name

Defined on file sysfs-class-extcon

The /sys/class/extcon/.../name shows the name of the extcon object. If the extcon object has an optional callback “show_name” defined, the callback will provide the name with this sysfs node.

/sys/class/extcon/.../state

Defined on file sysfs-class-extcon

The /sys/class/extcon/.../state shows and stores the cable attach/detach information of the corresponding extcon object. If the extcon object has an optional callback “show_state” defined, the showing function is overridden with the optional callback.

If the default callback for showing function is used, the format is like this:

# cat state
USB_OTG=1
HDMI=0
TA=1
EAR_JACK=0
#

In this example, the extcon device has USB_OTG and TA cables attached and HDMI and EAR_JACK cables detached.

In order to update the state of an extcon device, enter a hex state number starting with 0x:

# echo 0xHEX > state

This updates the whole state of the extcon device. Inputs of all the methods are required to meet the mutually_exclusive conditions if they exist.

It is recommended to use this “global” state interface if you need to set the value atomically. The later state interface associated with each cable cannot update multiple cable states of an extcon device simultaneously.

/sys/class/fc/fc_udev_device/appid_store

Defined on file sysfs-class-fc

This interface allows an admin to set an FC application identifier in the blkcg associated with a cgroup id. The identifier is typically a UUID that is associated with an application or logical entity such as a virtual machine or container group. The application or logical entity utilizes a block device via the cgroup id. FC adapter drivers may query the identifier and tag FC traffic based on the identifier. FC host and FC fabric entities can utilize the application id and FC traffic tag to identify traffic sources.

The interface expects a string “<cgroupid>:<appid>” where: <cgroupid> is inode of the cgroup in hexadecimal <appid> is user provided string upto 128 characters in length.

If an appid_store is done for a cgroup id that already has an appid set, the new value will override the previous value.

If an admin wants to remove an FC application identifier from a cgroup, an appid_store should be done with the following string: “<cgroupid>:”

/sys/class/fc_host/hostX/statistics/fpin_cn_yyy

Defined on file sysfs-class-fc_host

These files contain the number of congestion notification events recorded by the F_Port, reported using fabric performance impact notification (FPIN) event.

/sys/class/fc_host/hostX/statistics/fpin_dn_yyy

Defined on file sysfs-class-fc_host

These files contain the number of delivery related errors recorded by the F_Port/Nx_Port, reported using fabric performance impact notification (FPIN) event.

/sys/class/fc_host/hostX/statistics/fpin_li_yyy

Defined on file sysfs-class-fc_host

These files contain the number of link integrity error events recorded by the F_Port/Nx_Port, reported using fabric performance impact notification (FPIN) event.

/sys/class/fc_remote_ports/rport-X:Y-Z/statistics/fpin_cn_yyy

Defined on file sysfs-class-fc_remote_ports

These files contain the number of congestion notification events recorded by the F_Port/Nx_Port, reported using fabric performance impact notification (FPIN) event.

/sys/class/fc_remote_ports/rport-X:Y-Z/statistics/fpin_dn_yyy

Defined on file sysfs-class-fc_remote_ports

These files contain the number of delivery related errors recorded by the F_Port/Nx_Port, reported using fabric performance impact notification (FPIN) event.

/sys/class/fc_remote_ports/rport-X:Y-Z/statistics/fpin_li_yyy

Defined on file sysfs-class-fc_remote_ports

These files contain the number of link integrity error events recorded by the F_Port/Nx_Port, reported using fabric performance impact notification (FPIN) event.

/sys/class/firmware-attributes/*/attributes/*/

Defined on file sysfs-class-firmware-attributes

A sysfs interface for systems management software to enable configuration capability on supported systems. This directory exposes interfaces for interacting with configuration options.

Unless otherwise specified in an attribute description all attributes are optional and will accept UTF-8 input.

type:

A file that can be read to obtain the type of attribute. This attribute is mandatory.

The following are known types:

  • enumeration: a set of pre-defined valid values

  • integer: a range of numerical values

  • string

HP specific types

  • ordered-list - a set of ordered list valid values

All attribute types support the following values:

current_value:

A file that can be read to obtain the current value of the <attr>.

This file can also be written to in order to update the value of a <attr>

This attribute is mandatory.

default_value:

A file that can be read to obtain the default value of the <attr>

display_name:

A file that can be read to obtain a user friendly description of the at <attr>

display_name_language_code:

A file that can be read to obtain the IETF language tag corresponding to the “display_name” of the <attr>

“enumeration”-type specific properties:

possible_values:

A file that can be read to obtain the possible values of the <attr>. Values are separated using semi-colon (;).

“integer”-type specific properties:

min_value:

A file that can be read to obtain the lower bound value of the <attr>

max_value:

A file that can be read to obtain the upper bound value of the <attr>

scalar_increment:

A file that can be read to obtain the scalar value used for increments of current_value this attribute accepts.

“string”-type specific properties:

max_length:

A file that can be read to obtain the maximum length value of the <attr>

min_length:

A file that can be read to obtain the minimum length value of the <attr>

Dell specific class extensions

On Dell systems the following additional attributes are available:

dell_modifier:

A file that can be read to obtain attribute-level dependency rule. It says an attribute X will become read-only or suppressed, if/if-not attribute Y is configured.

modifier rules can be in following format:

[ReadOnlyIf:<attribute>=<value>]
[ReadOnlyIfNot:<attribute>=<value>]
[SuppressIf:<attribute>=<value>]
[SuppressIfNot:<attribute>=<value>]

For example:

AutoOnFri/dell_modifier has value,
        [SuppressIfNot:AutoOn=SelectDays]

This means AutoOnFri will be suppressed in BIOS setup if AutoOn attribute is not “SelectDays” and its value will not be effective through sysfs until this rule is met.

Enumeration attributes also support the following:

dell_value_modifier:

A file that can be read to obtain value-level dependency. This file is similar to dell_modifier but here, an attribute’s current value will be forcefully changed based dependent attributes value.

dell_value_modifier rules can be in following format:

<value>[ForceIf:<attribute>=<value>]
<value>[ForceIfNot:<attribute>=<value>]

For example:

LegacyOrom/dell_value_modifier has value:
        Disabled[ForceIf:SecureBoot=Enabled]

This means LegacyOrom’s current value will be forced to “Disabled” in BIOS setup if SecureBoot is Enabled and its value will not be effective through sysfs until this rule is met.

HP specific class extensions

On HP systems the following additional attributes are available:

“ordered-list”-type specific properties:

elements:

A file that can be read to obtain the possible list of values of the <attr>. Values are separated using semi-colon (;) and listed according to their priority. An element listed first has the highest priority. Writing the list in a different order to current_value alters the priority order for the particular attribute.

/sys/class/firmware-attributes/*/attributes/Sure_Start/audit_log_entries

Defined on file sysfs-class-firmware-attributes

‘audit_log_entries’ is a read-only file that returns the events in the log.

Audit log entry format

Byte 0-15: Requested Audit Log entry (Each Audit log is 16 bytes) Byte 16-127: Unused

/sys/class/firmware-attributes/*/attributes/Sure_Start/audit_log_entry_count

Defined on file sysfs-class-firmware-attributes

‘audit_log_entry_count’ is a read-only file that returns the number of existing audit log events available to be read. Values are separated using comma. (,)

[No of entries],[log entry size],[Max number of entries supported]

log entry size identifies audit log size for the current BIOS version. The current size is 16 bytes but it can be up to 128 bytes long in future BIOS versions.

/sys/class/firmware-attributes/*/attributes/debug_cmd

Defined on file sysfs-class-firmware-attributes

This write only attribute can be used to send debug commands to the BIOS. This should only be used when recommended by the BIOS vendor. Vendors may use it to enable extra debug attributes or BIOS features for testing purposes.

Note that any changes to this attribute requires a reboot for changes to take effect.

HP specific class extensions - Secure Platform Manager (SPM)

/sys/class/firmware-attributes/*/attributes/pending_reboot

Defined on file sysfs-class-firmware-attributes

A read-only attribute reads 1 if a reboot is necessary to apply pending BIOS attribute changes. Also, an uevent_KOBJ_CHANGE is generated when it changes to 1.

0

All BIOS attributes setting are current

1

A reboot is necessary to get pending BIOS attribute changes applied

Note, userspace applications need to follow below steps for efficient BIOS management,

  1. Check if admin password is set. If yes, follow session method for password management as briefed under authentication section above.

  2. Before setting any attribute, check if it has any modifiers or value_modifiers. If yes, incorporate them and then modify attribute.

Drivers may emit a CHANGE uevent when this value changes and userspace may check it again.

/sys/class/firmware-attributes/*/attributes/reset_bios

Defined on file sysfs-class-firmware-attributes

This attribute can be used to reset the BIOS Configuration. Specifically, it tells which type of reset BIOS configuration is being requested on the host.

Reading from it returns a list of supported options encoded as:

  • ‘builtinsafe’ (Built in safe configuration profile)

  • ‘lastknowngood’ (Last known good saved configuration profile)

  • ‘factory’ (Default factory settings configuration profile)

  • ‘custom’ (Custom saved configuration profile)

The currently selected option is printed in square brackets as shown below:

# echo "factory" > /sys/class/firmware-attributes/*/device/attributes/reset_bios
# cat /sys/class/firmware-attributes/*/device/attributes/reset_bios
builtinsafe lastknowngood [factory] custom

Note that any changes to this attribute requires a reboot for changes to take effect.

/sys/class/firmware-attributes/*/attributes/save_settings

Defined on file sysfs-class-firmware-attributes

On Lenovo platforms there is a limitation in the number of times an attribute can be saved. This is an architectural limitation and it limits the number of attributes that can be modified to 48. A solution for this is instead of the attribute being saved after every modification, to allow a user to bulk set the attributes, and then trigger a final save. This allows unlimited attributes.

Read the attribute to check what save mode is enabled (single or bulk). E.g: # cat /sys/class/firmware-attributes/thinklmi/attributes/save_settings single

Write the attribute with ‘bulk’ to enable bulk save mode. Write the attribute with ‘single’ to enable saving, after every attribute set. The default setting is single mode. E.g: # echo bulk > /sys/class/firmware-attributes/thinklmi/attributes/save_settings

When in bulk mode write ‘save’ to trigger a save of all currently modified attributes. Note, once a save has been triggered, in bulk mode, attributes can no longer be set and will return a permissions error. This is to prevent users hitting the 48+ save limitation (which requires entering the BIOS to clear the error condition) E.g: # echo save > /sys/class/firmware-attributes/thinklmi/attributes/save_settings

/sys/class/firmware-attributes/*/authentication/

Defined on file sysfs-class-firmware-attributes

Devices support various authentication mechanisms which can be exposed as a separate configuration object.

For example a “BIOS Admin” password and “System” Password can be set, reset or cleared using these attributes.

  • An “Admin” password is used for preventing modification to the BIOS settings.

  • A “System” password is required to boot a machine.

Change in any of these two authentication methods will also generate an uevent KOBJ_CHANGE.

is_enabled:

A file that can be read to obtain a 0/1 flag to see if <attr> authentication is enabled. This attribute is mandatory.

role:

The type of authentication used. This attribute is mandatory.

Known types:
bios-admin:

Representing BIOS administrator password

power-on:

Representing a password required to use the system

system-mgmt:

Representing System Management password. See Lenovo extensions section for details

HDD:

Representing HDD password See Lenovo extensions section for details

NVMe:

Representing NVMe password See Lenovo extensions section for details

mechanism:

The means of authentication. This attribute is mandatory. Only supported type currently is “password”.

max_password_length:

A file that can be read to obtain the maximum length of the Password

min_password_length:

A file that can be read to obtain the minimum length of the Password

current_password:

A write only value used for privileged access such as setting attributes when a system or admin password is set or resetting to a new password

This attribute is mandatory when mechanism == “password”.

new_password:

A write only value that when used in tandem with current_password will reset a system or admin password.

Note, password management is session specific. If Admin password is set, same password must be written into current_password file (required for password-validation) and must be cleared once the session is over. For example:

echo "password" > current_password
echo "disabled" > TouchScreen/current_value
echo "" > current_password

Drivers may emit a CHANGE uevent when a password is set or unset userspace may check it again.

On Dell, Lenovo and HP systems, if Admin password is set, then all BIOS attributes require password validation. On Lenovo systems if you change the Admin password the new password is not active until the next boot.

Lenovo specific class extensions

On Lenovo systems the following additional settings are available:

role: system-mgmt This gives the same authority as the bios-admin password to control

security related features. The authorities allocated can be set via the BIOS menu SMP Access Control Policy

role: HDD & NVMe This password is used to unlock access to the drive at boot. Note see

‘level’ and ‘index’ extensions below.

lenovo_encoding:

The encoding method that is used. This can be either “ascii” or “scancode”. Default is set to “ascii”

lenovo_kbdlang:

The keyboard language method that is used. This is generally a two char code (e.g. “us”, “fr”, “gr”) and may vary per platform. Default is set to “us”

level:

Available for HDD and NVMe authentication to set ‘user’ or ‘master’ privilege level. If only the user password is configured then this should be used to unlock the drive at boot. If both master and user passwords are set then either can be used. If a master password is set a user password is required. This attribute defaults to ‘user’ level

index:

Used with HDD and NVME authentication to set the drive index that is being referenced (e.g hdd1, hdd2 etc) This attribute defaults to device 1.

certificate, signature, save_signature:

These attributes are used for certificate based authentication. This is used in conjunction with a signing server as an alternative to password based authentication. The user writes to the attribute(s) with a BASE64 encoded string obtained from the signing server. The attributes can be displayed to check the stored value.

Some usage examples:

Installing a certificate to enable feature:

echo "supervisor password" > authentication/Admin/current_password
echo "signed certificate" > authentication/Admin/certificate

Updating the installed certificate:

echo "signature" > authentication/Admin/signature
echo "signed certificate" > authentication/Admin/certificate

Removing the installed certificate:

echo "signature" > authentication/Admin/signature
echo "" > authentication/Admin/certificate

Changing a BIOS setting:

echo "signature" > authentication/Admin/signature
echo "save signature" > authentication/Admin/save_signature
echo Enable > attribute/PasswordBeep/current_value

You cannot enable certificate authentication if a supervisor password has not been set. Clearing the certificate results in no bios-admin authentication method being configured allowing anyone to make changes. After any of these operations the system must reboot for the changes to take effect.

certificate_thumbprint:

Read only attribute used to display the MD5, SHA1 and SHA256 thumbprints for the certificate installed in the BIOS.

certificate_to_password:

Write only attribute used to switch from certificate based authentication back to password based. Usage:

echo "signature" > authentication/Admin/signature
echo "password" > authentication/Admin/certificate_to_password

HP specific class extensions

On HP systems the following additional settings are available:

role: enhanced-bios-auth:

This role is specific to Secure Platform Management (SPM) attribute. It requires configuring an endorsement (kek) and signing certificate (sk).

/sys/class/firmware-attributes/*/authentication/SPM/kek

Defined on file sysfs-class-firmware-attributes

‘kek’ Key-Encryption-Key is a write-only file that can be used to configure the RSA public key that will be used by the BIOS to verify signatures when setting the signing key. When written, the bytes should correspond to the KEK certificate (x509 .DER format containing an OU). The size of the certificate must be less than or equal to 4095 bytes.

/sys/class/firmware-attributes/*/authentication/SPM/sk

Defined on file sysfs-class-firmware-attributes

‘sk’ Signature Key is a write-only file that can be used to configure the RSA public key that will be used by the BIOS to verify signatures when configuring BIOS settings and security features. When written, the bytes should correspond to the modulus of the public key. The exponent is assumed to be 0x10001.

/sys/class/firmware-attributes/*/authentication/SPM/status

Defined on file sysfs-class-firmware-attributes

‘status’ is a read-only file that returns ASCII text in JSON format reporting the status information.

“State”: “not provisioned | provisioned | provisioning in progress”, “Version”: “Major.Minor”, “Nonce”: <16-bit unsigned number display in base 10>, “FeaturesInUse”: <16-bit unsigned number display in base 10>, “EndorsementKeyMod”: “<256 bytes in base64>”, “SigningKeyMod”: “<256 bytes in base64>”

/sys/class/firmware/.../cancel

Defined on file sysfs-class-firmware

Write-only. For firmware uploads, write a “1” to this file to request that the transfer of firmware data to the lower-level device be canceled. This request will be rejected (EBUSY) if the update cannot be canceled (e.g. a FLASH write is in progress) or (ENODEV) if there is no firmware update in progress.

/sys/class/firmware/.../data

Defined on file sysfs-class-firmware

The data sysfs file is used for firmware-fallback and for firmware uploads. Cat a firmware image to this sysfs file after you echo 1 to the loading sysfs file. When the firmware image write is complete, echo 0 to the loading sysfs file. This sequence will signal the completion of the firmware write and signal the lower-level driver that the firmware data is available.

/sys/class/firmware/.../error

Defined on file sysfs-class-firmware

Read-only. Returns a string describing a failed firmware upload. This string will be in the form of <STATUS>:<ERROR>, where <STATUS> will be one of the status strings described for the status sysfs file and <ERROR> will be one of the following: “hw-error”, “timeout”, “user-abort”, “device-busy”, “invalid-file-size”, “read-write-error”, “flash-wearout”. The error sysfs file is only meaningful when the current firmware upload status is “idle”. If this file is read while a firmware transfer is in progress, then the read will fail with EBUSY.

/sys/class/firmware/.../loading

Defined on file sysfs-class-firmware

The loading sysfs file is used for both firmware-fallback and for firmware uploads. Echo 1 onto the loading file to indicate you are writing a firmware file to the data sysfs node. Echo -1 onto this file to abort the data write or echo 0 onto this file to indicate that the write is complete. For firmware uploads, the zero value also triggers the transfer of the firmware data to the lower-level device driver.

/sys/class/firmware/.../remaining_size

Defined on file sysfs-class-firmware

Read-only. For firmware upload, this file contains the size of the firmware data that remains to be transferred to the lower-level device driver. The size value is initialized to the full size of the firmware image that was previously written to the data sysfs file. This value is periodically updated during the “transferring” phase of the firmware upload. Format: “%u”.

/sys/class/firmware/.../status

Defined on file sysfs-class-firmware

Read-only. Returns a string describing the current status of a firmware upload. The string will be one of the following: idle, “receiving”, “preparing”, “transferring”, “programming”.

/sys/class/firmware/.../timeout

Defined on file sysfs-class-firmware

This file supports the timeout mechanism for firmware fallback. This file has no affect on firmware uploads. For more information on timeouts please see the documentation for firmware fallback.

/sys/class/fpga_bridge/<bridge>/name

Defined on file sysfs-class-fpga-bridge

Name of low level FPGA bridge driver.

/sys/class/fpga_bridge/<bridge>/state

Defined on file sysfs-class-fpga-bridge

Show bridge state as “enabled” or “disabled”

/sys/class/fpga_manager/<fpga>/name

Defined on file sysfs-class-fpga-manager

Name of low level fpga manager driver.

/sys/class/fpga_manager/<fpga>/state

Defined on file sysfs-class-fpga-manager

Read fpga manager state as a string. The intent is to provide enough detail that if something goes wrong during FPGA programming (something that the driver can’t fix) then userspace can know, i.e. if the firmware request fails, that could be due to not being able to find the firmware file.

This is a superset of FPGA states and fpga manager driver states. The fpga manager driver is walking through these steps to get the FPGA into a known operating state. It’s a sequence, though some steps may get skipped. Valid FPGA states will vary by manufacturer; this is a superset.

  • unknown = can’t determine state

  • power off = FPGA power is off

  • power up = FPGA reports power is up

  • reset = FPGA held in reset state

  • firmware request = firmware class request in progress

  • firmware request error = firmware request failed

  • write init = preparing FPGA for programming

  • write init error = Error while preparing FPGA for programming

  • write = FPGA ready to receive image data

  • write error = Error while programming

  • write complete = Doing post programming steps

  • write complete error = Error while doing post programming

  • operating = FPGA is programmed and operating

/sys/class/fpga_manager/<fpga>/status

Defined on file sysfs-class-fpga-manager

Read fpga manager status as a string. If FPGA programming operation fails, it could be caused by crc error or incompatible bitstream image. The intent of this interface is to provide more detailed information for FPGA programming errors to userspace. This is a list of strings for the supported status.

  • reconfig operation error - invalid operations detected by

    reconfiguration hardware. e.g. start reconfiguration with errors not cleared

  • reconfig CRC error - CRC error detected by

    reconfiguration hardware.

  • reconfig incompatible image - reconfiguration image is

    incompatible with hardware

  • reconfig IP protocol error - protocol errors detected by

    reconfiguration hardware

  • reconfig fifo overflow error - FIFO overflow detected by

    reconfiguration hardware

/sys/class/fpga_region/<region>/compat_id

Defined on file sysfs-class-fpga-region

FPGA region id for compatibility check, e.g. compatibility of the FPGA reconfiguration hardware and image. This value is defined or calculated by the layer that is creating the FPGA region. This interface returns the compat_id value or just error code -ENOENT in case compat_id is not used.

/sys/class/genwqe/genwqe<n>_card/appid

Defined on file sysfs-driver-genwqe

Identifies the currently active card application e.g. ‘GZIP’ for compression/decompression.

/sys/class/genwqe/genwqe<n>_card/base_clock

Defined on file sysfs-driver-genwqe

Base clock frequency of the card.

/sys/class/genwqe/genwqe<n>_card/curr_bitstream

Defined on file sysfs-driver-genwqe

Currently active bitstream. 1 is default, 0 is backup.

/sys/class/genwqe/genwqe<n>_card/device/sriov_numvfs

Defined on file sysfs-driver-genwqe

Enable VFs (1..15):

sudo sh -c 'echo 15 > \
  /sys/bus/pci/devices/0000\:1b\:00.0/sriov_numvfs'

Disable VFs:

Write a 0 into the same sysfs entry.

/sys/class/genwqe/genwqe<n>_card/freerunning_timer

Defined on file sysfs-driver-genwqe

Interface to read the cards free running timer. Used for performance and utilization measurements.

/sys/class/genwqe/genwqe<n>_card/next_bitstream

Defined on file sysfs-driver-genwqe

Interface to set the next bitstream to be used.

/sys/class/genwqe/genwqe<n>_card/queue_working_time

Defined on file sysfs-driver-genwqe

Interface to read queue working time. Used for performance and utilization measurements.

/sys/class/genwqe/genwqe<n>_card/reload_bitstream

Defined on file sysfs-driver-genwqe

Interface to trigger a PCIe card reset to reload the bitstream.

sudo sh -c 'echo 1 > \
  /sys/class/genwqe/genwqe0_card/reload_bitstream'

If successfully, the card will come back with the bitstream set on ‘next_bitstream’.

/sys/class/genwqe/genwqe<n>_card/state

Defined on file sysfs-driver-genwqe

State of the card: “unused”, “used”, “error”.

/sys/class/genwqe/genwqe<n>_card/tempsens

Defined on file sysfs-driver-genwqe

Interface to read the cards temperature sense register.

/sys/class/genwqe/genwqe<n>_card/type

Defined on file sysfs-driver-genwqe

Type of the card e.g. ‘GenWQE5-A7’.

/sys/class/genwqe/genwqe<n>_card/version

Defined on file sysfs-driver-genwqe

Unique bitstream identification e.g. ‘0000000330336283.00000000475a4950’.

/sys/class/gnss/gnss<N>/type

Defined on file sysfs-class-gnss

The GNSS receiver type. The currently identified types reflect the protocol(s) supported by the receiver:

“NMEA”

NMEA 0183

“SiRF”

SiRF Binary

“UBX”

UBX

Note that also non-“NMEA” type receivers typically support a subset of NMEA 0183 with vendor extensions (e.g. to allow switching to a vendor protocol).

/sys/class/hwmon/hwmonX/cpuY_vid

Defined on file sysfs-class-hwmon

CPU core reference voltage.

Unit: millivolt

RO

Not always correct.

/sys/class/hwmon/hwmonX/currY_average

Defined on file sysfs-class-hwmon

Average current use

Unit: milliampere

RO

/sys/class/hwmon/hwmonX/currY_crit

Defined on file sysfs-class-hwmon

Current critical high value.

Unit: milliampere

RW

/sys/class/hwmon/hwmonX/currY_enable

Defined on file sysfs-class-hwmon

Enable or disable the sensors.

When disabled the sensor read will return -ENODATA.

  • 1: Enable

  • 0: Disable

RW

/sys/class/hwmon/hwmonX/currY_highest

Defined on file sysfs-class-hwmon

Historical maximum current Unit: milliampere RO

/sys/class/hwmon/hwmonX/currY_input

Defined on file sysfs-class-hwmon

Current input value

Unit: milliampere

RO

/sys/class/hwmon/hwmonX/currY_lcrit

Defined on file sysfs-class-hwmon

Current critical low value

Unit: milliampere

RW

/sys/class/hwmon/hwmonX/currY_lowest

Defined on file sysfs-class-hwmon

Historical minimum current

Unit: milliampere

RO

/sys/class/hwmon/hwmonX/currY_max

Defined on file sysfs-class-hwmon

Current max value

Unit: milliampere

RW

/sys/class/hwmon/hwmonX/currY_min

Defined on file sysfs-class-hwmon

Current min value.

Unit: milliampere

RW

/sys/class/hwmon/hwmonX/currY_rated_max

Defined on file sysfs-class-hwmon

Maximum rated current.

Unit: milliampere

RO

/sys/class/hwmon/hwmonX/currY_rated_min

Defined on file sysfs-class-hwmon

Minimum rated current.

Unit: milliampere

RO

/sys/class/hwmon/hwmonX/currY_reset_history

Defined on file sysfs-class-hwmon

Reset currX_lowest and currX_highest

WO

/sys/class/hwmon/hwmonX/curr_reset_history

Defined on file sysfs-class-hwmon

Reset currX_lowest and currX_highest for all sensors

WO

/sys/class/hwmon/hwmonX/device/pec

Defined on file sysfs-class-hwmon

PEC support on I2C devices

  • 0, off, n: disable

  • 1, on, y: enable

RW

/sys/class/hwmon/hwmonX/energyY_enable

Defined on file sysfs-class-hwmon

Enable or disable the sensors.

When disabled the sensor read will return -ENODATA.

  • 1: Enable

  • 0: Disable

RW

/sys/class/hwmon/hwmonX/energyY_input

Defined on file sysfs-class-hwmon

Cumulative energy use

Unit: microJoule

RO

/sys/class/hwmon/hwmonX/fanY_div

Defined on file sysfs-class-hwmon

Fan divisor.

Integer value in powers of two (1, 2, 4, 8, 16, 32, 64, 128).

RW

Some chips only support values 1, 2, 4 and 8. Note that this is actually an internal clock divisor, which affects the measurable speed range, not the read value.

/sys/class/hwmon/hwmonX/fanY_enable

Defined on file sysfs-class-hwmon

Enable or disable the sensors.

When disabled the sensor read will return -ENODATA.

  • 1: Enable

  • 0: Disable

RW

/sys/class/hwmon/hwmonX/fanY_fault

Defined on file sysfs-class-hwmon

Reports if a fan has reported failure.

  • 1: Failed

  • 0: Ok

RO

/sys/class/hwmon/hwmonX/fanY_input

Defined on file sysfs-class-hwmon

Fan input value.

Unit: revolution/min (RPM)

RO

/sys/class/hwmon/hwmonX/fanY_label

Defined on file sysfs-class-hwmon

Suggested fan channel label.

Text string

Should only be created if the driver has hints about what this fan channel is being used for, and user-space doesn’t. In all other cases, the label is provided by user-space.

RO

/sys/class/hwmon/hwmonX/fanY_max

Defined on file sysfs-class-hwmon

Fan maximum value

Unit: revolution/min (RPM)

Only rarely supported by the hardware. RW

/sys/class/hwmon/hwmonX/fanY_min

Defined on file sysfs-class-hwmon

Fan minimum value

Unit: revolution/min (RPM)

RW

/sys/class/hwmon/hwmonX/fanY_pulses

Defined on file sysfs-class-hwmon

Number of tachometer pulses per fan revolution.

Integer value, typically between 1 and 4.

RW

This value is a characteristic of the fan connected to the device’s input, so it has to be set in accordance with the fan model.

Should only be created if the chip has a register to configure the number of pulses. In the absence of such a register (and thus attribute) the value assumed by all devices is 2 pulses per fan revolution.

/sys/class/hwmon/hwmonX/fanY_target

Defined on file sysfs-class-hwmon

Desired fan speed

Unit: revolution/min (RPM)

RW

Only makes sense if the chip supports closed-loop fan speed control based on the measured fan speed.

/sys/class/hwmon/hwmonX/humidityY_alarm

Defined on file sysfs-class-hwmon

Humidity limit detection

  • 0: OK

  • 1: Humidity limit has been reached

RO

/sys/class/hwmon/hwmonX/humidityY_enable

Defined on file sysfs-class-hwmon

Enable or disable the sensors

When disabled the sensor read will return -ENODATA.

  • 1: Enable

  • 0: Disable

RW

/sys/class/hwmon/hwmonX/humidityY_fault

Defined on file sysfs-class-hwmon

Reports a humidity sensor failure.

  • 1: Failed

  • 0: Ok

RO

/sys/class/hwmon/hwmonX/humidityY_input

Defined on file sysfs-class-hwmon

Humidity

Unit: milli-percent (per cent mille, pcm)

RO

/sys/class/hwmon/hwmonX/humidityY_label

Defined on file sysfs-class-hwmon

Suggested humidity channel label.

Text string

Should only be created if the driver has hints about what this humidity channel is being used for, and user-space doesn’t. In all other cases, the label is provided by user-space.

RO

/sys/class/hwmon/hwmonX/humidityY_max

Defined on file sysfs-class-hwmon

Humidity max value.

Unit: milli-percent (per cent mille, pcm)

RW

/sys/class/hwmon/hwmonX/humidityY_max_alarm

Defined on file sysfs-class-hwmon

Maximum humidity detection

  • 0: OK

  • 1: Maximum humidity detected

RO

/sys/class/hwmon/hwmonX/humidityY_max_hyst

Defined on file sysfs-class-hwmon

Humidity hysteresis value for max limit.

Unit: milli-percent (per cent mille, pcm)

Must be reported as an absolute humidity, NOT a delta from the max value.

RW

/sys/class/hwmon/hwmonX/humidityY_min

Defined on file sysfs-class-hwmon

Humidity min value.

Unit: milli-percent (per cent mille, pcm)

RW

/sys/class/hwmon/hwmonX/humidityY_min_alarm

Defined on file sysfs-class-hwmon

Minimum humidity detection

  • 0: OK

  • 1: Minimum humidity detected

RO

/sys/class/hwmon/hwmonX/humidityY_min_hyst

Defined on file sysfs-class-hwmon

Humidity hysteresis value for min limit.

Unit: milli-percent (per cent mille, pcm)

Must be reported as an absolute humidity, NOT a delta from the min value.

RW

/sys/class/hwmon/hwmonX/humidityY_rated_max

Defined on file sysfs-class-hwmon

Maximum rated humidity.

Unit: milli-percent (per cent mille, pcm)

RO

/sys/class/hwmon/hwmonX/humidityY_rated_min

Defined on file sysfs-class-hwmon

Minimum rated humidity.

Unit: milli-percent (per cent mille, pcm)

RO

/sys/class/hwmon/hwmonX/inY_average

Defined on file sysfs-class-hwmon

Average voltage

Unit: millivolt

RO

/sys/class/hwmon/hwmonX/inY_crit

Defined on file sysfs-class-hwmon

Voltage critical max value.

Unit: millivolt

RW

If voltage reaches or exceeds this limit, the system may take drastic action such as power down or reset. At the very least, it should report a fault.

/sys/class/hwmon/hwmonX/inY_enable

Defined on file sysfs-class-hwmon

Enable or disable the sensors.

When disabled the sensor read will return -ENODATA.

  • 1: Enable

  • 0: Disable

RW

/sys/class/hwmon/hwmonX/inY_fault

Defined on file sysfs-class-hwmon

Reports a voltage hard failure (eg: shorted component)

  • 1: Failed

  • 0: Ok

RO

/sys/class/hwmon/hwmonX/inY_highest

Defined on file sysfs-class-hwmon

Historical maximum voltage

Unit: millivolt

RO

/sys/class/hwmon/hwmonX/inY_input

Defined on file sysfs-class-hwmon

Voltage input value.

Unit: millivolt

RO

Voltage measured on the chip pin.

Actual voltage depends on the scaling resistors on the motherboard, as recommended in the chip datasheet.

This varies by chip and by motherboard. Because of this variation, values are generally NOT scaled by the chip driver, and must be done by the application. However, some drivers (notably lm87 and via686a) do scale, because of internal resistors built into a chip. These drivers will output the actual voltage. Rule of thumb: drivers should report the voltage values at the “pins” of the chip.

/sys/class/hwmon/hwmonX/inY_label

Defined on file sysfs-class-hwmon

Suggested voltage channel label.

Text string

Should only be created if the driver has hints about what this voltage channel is being used for, and user-space doesn’t. In all other cases, the label is provided by user-space.

RO

/sys/class/hwmon/hwmonX/inY_lcrit

Defined on file sysfs-class-hwmon

Voltage critical min value.

Unit: millivolt

RW

If voltage drops to or below this limit, the system may take drastic action such as power down or reset. At the very least, it should report a fault.

/sys/class/hwmon/hwmonX/inY_lowest

Defined on file sysfs-class-hwmon

Historical minimum voltage

Unit: millivolt

RO

/sys/class/hwmon/hwmonX/inY_max

Defined on file sysfs-class-hwmon

Voltage max value.

Unit: millivolt

RW

/sys/class/hwmon/hwmonX/inY_min

Defined on file sysfs-class-hwmon

Voltage min value.

Unit: millivolt

RW

/sys/class/hwmon/hwmonX/inY_rated_max

Defined on file sysfs-class-hwmon

Maximum rated voltage.

Unit: millivolt

RO

/sys/class/hwmon/hwmonX/inY_rated_min

Defined on file sysfs-class-hwmon

Minimum rated voltage.

Unit: millivolt

RO

/sys/class/hwmon/hwmonX/inY_reset_history

Defined on file sysfs-class-hwmon

Reset inX_lowest and inX_highest

WO

/sys/class/hwmon/hwmonX/in_reset_history

Defined on file sysfs-class-hwmon

Reset inX_lowest and inX_highest for all sensors

WO

/sys/class/hwmon/hwmonX/intrusionY_alarm

Defined on file sysfs-class-hwmon

Chassis intrusion detection

  • 0: OK

  • 1: intrusion detected

RW

Contrary to regular alarm flags which clear themselves automatically when read, this one sticks until cleared by the user. This is done by writing 0 to the file. Writing other values is unsupported.

/sys/class/hwmon/hwmonX/intrusionY_beep

Defined on file sysfs-class-hwmon

Chassis intrusion beep

  • 0: disable

  • 1: enable

RW

/sys/class/hwmon/hwmonX/label

Defined on file sysfs-class-hwmon

A descriptive label that allows to uniquely identify a device within the system. The contents of the label are free-form.

RO

/sys/class/hwmon/hwmonX/name

Defined on file sysfs-class-hwmon

The chip name. This should be a short, lowercase string, not containing whitespace, dashes, or the wildcard character ‘*’. This attribute represents the chip name. It is the only mandatory attribute. I2C devices get this attribute created automatically.

RO

/sys/class/hwmon/hwmonX/powerY_accuracy

Defined on file sysfs-class-hwmon

Accuracy of the power meter.

Unit: Percent

RO

/sys/class/hwmon/hwmonX/powerY_average

Defined on file sysfs-class-hwmon

Average power use

Unit: microWatt

RO

/sys/class/hwmon/hwmonX/powerY_average_highest

Defined on file sysfs-class-hwmon

Historical average maximum power use

Unit: microWatt

RO

/sys/class/hwmon/hwmonX/powerY_average_interval

Defined on file sysfs-class-hwmon

Power use averaging interval. A poll notification is sent to this file if the hardware changes the averaging interval.

Unit: milliseconds

RW

/sys/class/hwmon/hwmonX/powerY_average_interval_max

Defined on file sysfs-class-hwmon

Maximum power use averaging interval

Unit: milliseconds

RO

/sys/class/hwmon/hwmonX/powerY_average_interval_min

Defined on file sysfs-class-hwmon

Minimum power use averaging interval

Unit: milliseconds

RO

/sys/class/hwmon/hwmonX/powerY_average_lowest

Defined on file sysfs-class-hwmon

Historical average minimum power use

Unit: microWatt

RO

/sys/class/hwmon/hwmonX/powerY_average_max

Defined on file sysfs-class-hwmon

A poll notification is sent to powerY_average when power use rises above this value.

Unit: microWatt

RW

/sys/class/hwmon/hwmonX/powerY_average_min

Defined on file sysfs-class-hwmon

A poll notification is sent to powerY_average when power use sinks below this value.

Unit: microWatt

RW

/sys/class/hwmon/hwmonX/powerY_cap

Defined on file sysfs-class-hwmon

If power use rises above this limit, the system should take action to reduce power use. A poll notification is sent to this file if the cap is changed by the hardware. The *_cap files only appear if the cap is known to be enforced by hardware.

Unit: microWatt

RW

/sys/class/hwmon/hwmonX/powerY_cap_hyst

Defined on file sysfs-class-hwmon

Margin of hysteresis built around capping and notification.

Unit: microWatt

RW

/sys/class/hwmon/hwmonX/powerY_cap_max

Defined on file sysfs-class-hwmon

Maximum cap that can be set.

Unit: microWatt

RO

/sys/class/hwmon/hwmonX/powerY_cap_min

Defined on file sysfs-class-hwmon

Minimum cap that can be set.

Unit: microWatt

RO

/sys/class/hwmon/hwmonX/powerY_crit

Defined on file sysfs-class-hwmon

Critical maximum power.

If power rises to or above this limit, the system is expected take drastic action to reduce power consumption, such as a system shutdown or a forced powerdown of some devices.

Unit: microWatt

RW

/sys/class/hwmon/hwmonX/powerY_enable

Defined on file sysfs-class-hwmon

Enable or disable the sensors.

When disabled the sensor read will return -ENODATA.

  • 1: Enable

  • 0: Disable

RW

/sys/class/hwmon/hwmonX/powerY_input

Defined on file sysfs-class-hwmon

Instantaneous power use

Unit: microWatt

RO

/sys/class/hwmon/hwmonX/powerY_input_highest

Defined on file sysfs-class-hwmon

Historical maximum power use

Unit: microWatt

RO

/sys/class/hwmon/hwmonX/powerY_input_lowest

Defined on file sysfs-class-hwmon

Historical minimum power use

Unit: microWatt

RO

/sys/class/hwmon/hwmonX/powerY_max

Defined on file sysfs-class-hwmon

Maximum power.

Unit: microWatt

RW

/sys/class/hwmon/hwmonX/powerY_rated_max

Defined on file sysfs-class-hwmon

Maximum rated power.

Unit: microWatt

RO

/sys/class/hwmon/hwmonX/powerY_rated_min

Defined on file sysfs-class-hwmon

Minimum rated power.

Unit: microWatt

RO

/sys/class/hwmon/hwmonX/powerY_reset_history

Defined on file sysfs-class-hwmon

Reset input_highest, input_lowest, average_highest and average_lowest.

WO

/sys/class/hwmon/hwmonX/pwmY

Defined on file sysfs-class-hwmon

Pulse width modulation fan control.

Integer value in the range 0 to 255

RW

255 is max or 100%.

/sys/class/hwmon/hwmonX/pwmY_auto_channels_temp

Defined on file sysfs-class-hwmon

Select which temperature channels affect this PWM output in auto mode.

Bitfield, 1 is temp1, 2 is temp2, 4 is temp3 etc... Which values are possible depend on the chip used.

RW

/sys/class/hwmon/hwmonX/pwmY_auto_pointZ_pwm

/sys/class/hwmon/hwmonX/pwmY_auto_pointZ_temp

/sys/class/hwmon/hwmonX/pwmY_auto_pointZ_temp_hyst

Defined on file sysfs-class-hwmon

Define the PWM vs temperature curve.

Number of trip points is chip-dependent. Use this for chips which associate trip points to PWM output channels.

RW

/sys/class/hwmon/hwmonX/pwmY_enable

Defined on file sysfs-class-hwmon

Fan speed control method:

  • 0: no fan speed control (i.e. fan at full speed)

  • 1: manual fan speed control enabled (using pwmY)

  • 2+: automatic fan speed control enabled

Check individual chip documentation files for automatic mode details.

RW

/sys/class/hwmon/hwmonX/pwmY_freq

Defined on file sysfs-class-hwmon

Base PWM frequency in Hz.

Only possibly available when pwmN_mode is PWM, but not always present even then.

RW

/sys/class/hwmon/hwmonX/pwmY_mode

Defined on file sysfs-class-hwmon

  • 0: DC mode (direct current)

  • 1: PWM mode (pulse-width modulation)

RW

/sys/class/hwmon/hwmonX/tempY_auto_pointZ_pwm

/sys/class/hwmon/hwmonX/tempY_auto_pointZ_temp

/sys/class/hwmon/hwmonX/tempY_auto_pointZ_temp_hyst

Defined on file sysfs-class-hwmon

Define the PWM vs temperature curve.

Number of trip points is chip-dependent. Use this for chips which associate trip points to temperature channels.

RW

/sys/class/hwmon/hwmonX/tempY_crit

Defined on file sysfs-class-hwmon

Temperature critical max value, typically greater than corresponding temp_max values.

Unit: millidegree Celsius

RW

/sys/class/hwmon/hwmonX/tempY_crit_alarm

Defined on file sysfs-class-hwmon

Critical high temperature alarm flag.

  • 0: OK

  • 1: temperature has reached tempY_crit

RO

/sys/class/hwmon/hwmonX/tempY_crit_hyst

Defined on file sysfs-class-hwmon

Temperature hysteresis value for critical limit.

Unit: millidegree Celsius

Must be reported as an absolute temperature, NOT a delta from the critical value.

RW

/sys/class/hwmon/hwmonX/tempY_emergency

Defined on file sysfs-class-hwmon

Temperature emergency max value, for chips supporting more than two upper temperature limits. Must be equal or greater than corresponding temp_crit values.

Unit: millidegree Celsius

RW

/sys/class/hwmon/hwmonX/tempY_emergency_alarm

Defined on file sysfs-class-hwmon

Emergency high temperature alarm flag.

  • 0: OK

  • 1: temperature has reached tempY_emergency

RO

/sys/class/hwmon/hwmonX/tempY_emergency_hyst

Defined on file sysfs-class-hwmon

Temperature hysteresis value for emergency limit.

Unit: millidegree Celsius

Must be reported as an absolute temperature, NOT a delta from the emergency value.

RW

/sys/class/hwmon/hwmonX/tempY_enable

Defined on file sysfs-class-hwmon

Enable or disable the sensors.

When disabled the sensor read will return -ENODATA.

  • 1: Enable

  • 0: Disable

RW

/sys/class/hwmon/hwmonX/tempY_highest

Defined on file sysfs-class-hwmon

Historical maximum temperature

Unit: millidegree Celsius

RO

/sys/class/hwmon/hwmonX/tempY_input

Defined on file sysfs-class-hwmon

Temperature input value.

Unit: millidegree Celsius

RO

/sys/class/hwmon/hwmonX/tempY_label

Defined on file sysfs-class-hwmon

Suggested temperature channel label.

Text string

Should only be created if the driver has hints about what this temperature channel is being used for, and user-space doesn’t. In all other cases, the label is provided by user-space.

RO

/sys/class/hwmon/hwmonX/tempY_lcrit

Defined on file sysfs-class-hwmon

Temperature critical min value, typically lower than corresponding temp_min values.

Unit: millidegree Celsius

RW

/sys/class/hwmon/hwmonX/tempY_lcrit_hyst

Defined on file sysfs-class-hwmon

Temperature hysteresis value for critical min limit.

Unit: millidegree Celsius

Must be reported as an absolute temperature, NOT a delta from the critical min value.

RW

/sys/class/hwmon/hwmonX/tempY_lowest

Defined on file sysfs-class-hwmon

Historical minimum temperature

Unit: millidegree Celsius

RO

/sys/class/hwmon/hwmonX/tempY_max

Defined on file sysfs-class-hwmon

Temperature max value.

Unit: millidegree Celsius (or millivolt, see below)

RW

/sys/class/hwmon/hwmonX/tempY_max_alarm

Defined on file sysfs-class-hwmon

Maximum temperature alarm flag.

  • 0: OK

  • 1: temperature has reached tempY_max

RO

/sys/class/hwmon/hwmonX/tempY_max_hyst

Defined on file sysfs-class-hwmon

Temperature hysteresis value for max limit.

Unit: millidegree Celsius

Must be reported as an absolute temperature, NOT a delta from the max value.

RW

/sys/class/hwmon/hwmonX/tempY_min

Defined on file sysfs-class-hwmon

Temperature min value.

Unit: millidegree Celsius

RW

/sys/class/hwmon/hwmonX/tempY_min_alarm

Defined on file sysfs-class-hwmon

Minimum temperature alarm flag.

  • 0: OK

  • 1: temperature has reached tempY_min

RO

/sys/class/hwmon/hwmonX/tempY_min_hyst

Defined on file sysfs-class-hwmon

Temperature hysteresis value for min limit. Unit: millidegree Celsius

Must be reported as an absolute temperature, NOT a delta from the min value.

RW

/sys/class/hwmon/hwmonX/tempY_offset

Defined on file sysfs-class-hwmon

Temperature offset which is added to the temperature reading by the chip.

Unit: millidegree Celsius

Read/Write value.

/sys/class/hwmon/hwmonX/tempY_rated_max

Defined on file sysfs-class-hwmon

Maximum rated temperature.

Unit: millidegree Celsius

RO

/sys/class/hwmon/hwmonX/tempY_rated_min

Defined on file sysfs-class-hwmon

Minimum rated temperature.

Unit: millidegree Celsius

RO

/sys/class/hwmon/hwmonX/tempY_reset_history

Defined on file sysfs-class-hwmon

Reset temp_lowest and temp_highest

WO

/sys/class/hwmon/hwmonX/tempY_type

Defined on file sysfs-class-hwmon

Sensor type selection.

Integers 1 to 6

RW

  • 1: CPU embedded diode

  • 2: 3904 transistor

  • 3: thermal diode

  • 4: thermistor

  • 5: AMD AMDSI

  • 6: Intel PECI

Not all types are supported by all chips

/sys/class/hwmon/hwmonX/temp_reset_history

Defined on file sysfs-class-hwmon

Reset temp_lowest and temp_highest for all sensors

WO

/sys/class/hwmon/hwmonX/update_interval

Defined on file sysfs-class-hwmon

The interval at which the chip will update readings. Unit: millisecond

RW

Some devices have a variable update rate or interval. This attribute can be used to change it to the desired value.

/sys/class/hwmon/hwmonX/vrm

Defined on file sysfs-class-hwmon

Voltage Regulator Module version number.

RW (but changing it should no more be necessary)

Originally the VRM standard version multiplied by 10, but now an arbitrary number, as not all standards have a version number.

Affects the way the driver calculates the CPU core reference voltage from the vid pins.

/sys/class/input/input(x)/device/function_row_physmap

Defined on file sysfs-driver-input-cros-ec-keyb

A space separated list of scancodes for the top row keys, ordered by the physical positions of the keys, from left to right.

/sys/class/input/input(x)/device/shutdown

Defined on file sysfs-driver-input-axp-pek

Shutdown time in us. Board is powered off if the button is pressed for more than <shutdown_time>

/sys/class/input/input(x)/device/startup

Defined on file sysfs-driver-input-axp-pek

Startup time in us. Board is powered on if the button is pressed for more than <startup_time>

/sys/class/intel_pmt/

Defined on file sysfs-class-intel_pmt

The intel_pmt/ class directory contains information for devices that expose hardware telemetry using Intel Platform Monitoring Technology (PMT)

/sys/class/intel_pmt/crashlog<x>

Defined on file sysfs-class-intel_pmt

The crashlog<x> directory contains files for configuring an instance of a PMT crashlog device that can perform crash data recording. Each crashlog<x> device has an associated crashlog file. This file can be opened and mapped or read to access the resulting crashlog buffer. The register layout for the buffer can be determined from an XML file of specified GUID for the parent device.

/sys/class/intel_pmt/crashlog<x>/crashlog

Defined on file sysfs-class-intel_pmt

(RO) The crashlog buffer for this crashlog device. This file may be mapped or read to obtain the data.

/sys/class/intel_pmt/crashlog<x>/enable

Defined on file sysfs-class-intel_pmt

(RW) Boolean value controlling if the crashlog functionality is enabled for the crashlog device.

/sys/class/intel_pmt/crashlog<x>/guid

Defined on file sysfs-class-intel_pmt

(RO) The GUID for this crashlog device. The GUID identifies the version of the XML file for the parent device that should be used to determine the register layout.

/sys/class/intel_pmt/crashlog<x>/offset

Defined on file sysfs-class-intel_pmt

(RO) The offset of the buffer in bytes that corresponds to the mapping for the crashlog device.

/sys/class/intel_pmt/crashlog<x>/size

Defined on file sysfs-class-intel_pmt

(RO) The length of the result buffer in bytes that corresponds to the size for the crashlog buffer.

/sys/class/intel_pmt/crashlog<x>/trigger

Defined on file sysfs-class-intel_pmt

(RW) Boolean value controlling the triggering of the crashlog device node. When read it provides data on if the crashlog has been triggered. When written to it can be used to either clear the current trigger by writing false, or to trigger a new event if the trigger is not currently set.

/sys/class/intel_pmt/telem<x>

Defined on file sysfs-class-intel_pmt

The telem<x> directory contains files describing an instance of a PMT telemetry device that exposes hardware telemetry. Each telem<x> directory has an associated telem file. This file may be opened and mapped or read to access the telemetry space of the device. The register layout of the telemetry space is determined from an XML file that matches the PCI device id and GUID for the device.

/sys/class/intel_pmt/telem<x>/guid

Defined on file sysfs-class-intel_pmt

(RO) The GUID for this telemetry device. The GUID identifies the version of the XML file for the parent device that is to be used to get the register layout.

/sys/class/intel_pmt/telem<x>/offset

Defined on file sysfs-class-intel_pmt

(RO) The offset of telemetry region in bytes that corresponds to the mapping for the telem file.

/sys/class/intel_pmt/telem<x>/size

Defined on file sysfs-class-intel_pmt

(RO) The size of telemetry region in bytes that corresponds to the mapping size for the telem file.

/sys/class/intel_pmt/telem<x>/telem

Defined on file sysfs-class-intel_pmt

(RO) The telemetry data for this telemetry device. This file may be mapped or read to obtain the data.

/sys/class/iommu/<iommu>/amd-iommu/cap

Defined on file sysfs-class-iommu-amd-iommu

IOMMU capability header as documented in the AMD IOMMU specification. Format: %x

/sys/class/iommu/<iommu>/amd-iommu/features

Defined on file sysfs-class-iommu-amd-iommu

Extended features of the IOMMU. Format: %llx

/sys/class/iommu/<iommu>/devices/

Defined on file sysfs-class-iommu

IOMMU drivers are able to link devices managed by a given IOMMU here to allow association of IOMMU to device.

/sys/class/iommu/<iommu>/intel-iommu/address

Defined on file sysfs-class-iommu-intel-iommu

Physical address of the VT-d DRHD for this IOMMU. Format: %llx. This allows association of a sysfs intel-iommu with a DMAR DRHD table entry.

/sys/class/iommu/<iommu>/intel-iommu/cap

Defined on file sysfs-class-iommu-intel-iommu

The cached hardware capability register value of this DRHD unit. Format: %llx.

/sys/class/iommu/<iommu>/intel-iommu/ecap

Defined on file sysfs-class-iommu-intel-iommu

The cached hardware extended capability register value of this DRHD unit. Format: %llx.

/sys/class/iommu/<iommu>/intel-iommu/version

Defined on file sysfs-class-iommu-intel-iommu

The architecture version as reported from the VT-d VER_REG. Format: %d:%d, major:minor

/sys/class/lcd/<lcd>/contrast

Defined on file sysfs-class-lcd

Current contrast of this LCD device. Value is between 0 and /sys/class/lcd/<lcd>/max_contrast.

/sys/class/lcd/<lcd>/lcd_power

Defined on file sysfs-class-lcd

Control LCD power, values are FB_BLANK_* from fb.h
  • FB_BLANK_UNBLANK (0) : power on.

  • FB_BLANK_POWERDOWN (4) : power off

/sys/class/lcd/<lcd>/max_contrast

Defined on file sysfs-class-lcd

Maximum contrast for this LCD device.

/sys/class/leds/<led>/als_channel

Defined on file sysfs-class-led-driver-lm3533

Set the ALS output channel to use as input in ALS-current-control mode (1, 2), where:

1

out_current1

2

out_current2

/sys/class/leds/<led>/als_en

Defined on file sysfs-class-led-driver-lm3533

Enable ALS-current-control mode (0, 1).

/sys/class/leds/<led>/brightness

Defined on file sysfs-class-led

Set the brightness of the LED.

Most LEDs don’t have hardware brightness support, so will just be turned on for non-zero brightness settings.

Note

For multicolor LEDs, writing to this file will update all LEDs within the group to a calculated percentage of what each color LED intensity is set to.

The percentage is calculated for each grouped LED via the equation below:

led_brightness = brightness * multi_intensity/max_brightness

For additional details please refer to Multicolor LED handling under Linux.

The value is between 0 and /sys/class/leds/<led>/max_brightness.

Writing 0 to this file clears active trigger.

Writing non-zero to this file while trigger is active changes the top brightness trigger is going to use.

/sys/class/leds/<led>/brightness_hw_changed

Defined on file sysfs-class-led

Last hardware set brightness level for this LED. Some LEDs may be changed autonomously by hardware/firmware. Only LEDs where this happens and the driver can detect this, will have this file.

This file supports poll() to detect when the hardware changes the brightness.

Reading this file will return the last brightness level set by the hardware, this may be different from the current brightness. Reading this file when no hw brightness change event has happened will return an ENODATA error.

/sys/class/leds/<led>/delay_off

Defined on file sysfs-class-led-trigger-oneshot

Specifies for how many milliseconds the LED has to stay at LED_OFF brightness after it has been armed. Defaults to 100 ms.

/sys/class/leds/<led>/delay_on

Defined on file sysfs-class-led-trigger-oneshot

Specifies for how many milliseconds the LED has to stay at LED_FULL brightness after it has been armed. Defaults to 100 ms.

/sys/class/leds/<led>/device/brightness

Defined on file sysfs-class-led-driver-turris-omnia

(RW) On the front panel of the Turris Omnia router there is also a button which can be used to control the intensity of all the LEDs at once, so that if they are too bright, user can dim them.

The microcontroller cycles between 8 levels of this global brightness (from 100% to 0%), but this setting can have any integer value between 0 and 100. It is therefore convenient to be able to change this setting from software.

Format: %i

/sys/class/leds/<led>/device/gamma_correction

Defined on file sysfs-class-led-driver-turris-omnia

(RW) Newer versions of the microcontroller firmware of the Turris Omnia router support gamma correction for the RGB LEDs. This feature can be enabled/disabled by writing to this file.

If the feature is not supported because the MCU firmware is too old, the file always reads as 0, and writing to the file results in the EOPNOTSUPP error.

Format: %i

/sys/class/leds/<led>/device_name

Defined on file sysfs-class-led-trigger-netdev

Specifies the network device name to monitor.

/sys/class/leds/<led>/dim

Defined on file sysfs-class-led-driver-aw200xx

64-level DIM current. If you write a negative value or “auto”, the dim will be calculated according to the brightness.

/sys/class/leds/<led>/falltime

/sys/class/leds/<led>/risetime

Defined on file sysfs-class-led-driver-lm3533

Set the pattern generator fall and rise times (0..7), where:

0

2048 us

1

262 ms

2

524 ms

3

1.049 s

4

2.097 s

5

4.194 s

6

8.389 s

7

16.78 s

/sys/class/leds/<led>/flash_brightness

Defined on file sysfs-class-led-flash

read/write Set the brightness of this LED in the flash strobe mode, in microamperes. The file is created only for the flash LED devices that support setting flash brightness.

The value is between 0 and /sys/class/leds/<led>/max_flash_brightness.

/sys/class/leds/<led>/flash_fault

Defined on file sysfs-class-led-flash

read only Space separated list of flash faults that may have occurred. Flash faults are re-read after strobing the flash. Possible flash faults:

  • led-over-voltage

    flash controller voltage to the flash LED has exceeded the limit specific to the flash controller

  • flash-timeout-exceeded

    the flash strobe was still on when the timeout set by the user has expired; not all flash controllers may set this in all such conditions

  • controller-over-temperature

    the flash controller has overheated

  • controller-short-circuit

    the short circuit protection of the flash controller has been triggered

  • led-power-supply-over-current

    current in the LED power supply has exceeded the limit specific to the flash controller

  • indicator-led-fault

    the flash controller has detected a short or open circuit condition on the indicator LED

  • led-under-voltage

    flash controller voltage to the flash LED has been below the minimum limit specific to the flash

  • controller-under-voltage

    the input voltage of the flash controller is below the limit under which strobing the flash at full current will not be possible; the condition persists until this flag is no longer set

  • led-over-temperature

    the temperature of the LED has exceeded its allowed upper limit

/sys/class/leds/<led>/flash_strobe

Defined on file sysfs-class-led-flash

read/write Flash strobe state. When written with 1 it triggers flash strobe and when written with 0 it turns the flash off.

On read 1 means that flash is currently strobing and 0 means that flash is off.

/sys/class/leds/<led>/flash_timeout

Defined on file sysfs-class-led-flash

read/write Hardware timeout for flash, in microseconds. The flash strobe is stopped after this period of time has passed from the start of the strobe. The file is created only for the flash LED devices that support setting flash timeout.

/sys/class/leds/<led>/full_duplex

Defined on file sysfs-class-led-trigger-netdev

Signal the link full duplex state of the named network device.

If set to 0 (default), the LED’s normal state is off.

If set to 1, the LED’s normal state reflects the link full duplex state of the named network device. Setting this value also immediately changes the LED state.

/sys/class/leds/<led>/gt683r/mode

Defined on file sysfs-class-leds-gt683r

Set the mode of LEDs. You should notice that changing the mode of one LED will update the mode of its two sibling devices as well. Possible values are:

0

normal

1

audio

2

breathing

Normal: LEDs are fully on when enabled Audio: LEDs brightness depends on sound level Breathing: LEDs brightness varies at human breathing rate

/sys/class/leds/<led>/half_duplex

Defined on file sysfs-class-led-trigger-netdev

Signal the link half duplex state of the named network device.

If set to 0 (default), the LED’s normal state is off.

If set to 1, the LED’s normal state reflects the link half duplex state of the named network device. Setting this value also immediately changes the LED state.

/sys/class/leds/<led>/hr_pattern

Defined on file sysfs-class-led-trigger-pattern

Specify a software pattern for the LED, that supports altering the brightness for the specified duration with one software timer. It can do gradual dimming and step change of brightness.

Unlike the /sys/class/leds/<led>/pattern, this attribute runs a pattern on high-resolution timer (hrtimer).

/sys/class/leds/<led>/hw_pattern

Defined on file sysfs-class-led-trigger-pattern

Specify a hardware pattern for the LED, for LED hardware that supports autonomously controlling brightness over time, according to some preprogrammed hardware patterns. It deactivates any active software pattern.

Since different LED hardware can have different semantics of hardware patterns, each driver is expected to provide its own description for the hardware patterns in their documentation file at Documentation/leds/.

/sys/class/leds/<led>/id

Defined on file sysfs-class-led-driver-lm3533

Get the id of this led (0..3).

/sys/class/leds/<led>/interval

Defined on file sysfs-class-led-trigger-netdev

Specifies the duration of the LED blink in milliseconds. Defaults to 50 ms.

When offloaded is true, the interval value MUST be set to the default value and cannot be changed. Trying to set any value in this specific mode will return an EINVAL error.

/sys/class/leds/<led>/invert

Defined on file sysfs-class-led-trigger-oneshot

Reverse the blink logic. If set to 0 (default) blink on for delay_on ms, then blink off for delay_off ms, leaving the LED normally off. If set to 1, blink off for delay_off ms, then blink on for delay_on ms, leaving the LED normally on. Setting this value also immediately changes the LED state.

/sys/class/leds/<led>/inverted

Defined on file sysfs-class-led

Invert the LED on/off state. This parameter is specific to gpio and backlight triggers. In case of the backlight trigger, it is useful when driving a LED which is intended to indicate a device in a standby like state.

/sys/class/leds/<led>/linear

Defined on file sysfs-class-led-driver-lm3533

Set the brightness-mapping mode (0, 1), where:

0

exponential mode

1

linear mode

Defined on file sysfs-class-led-trigger-netdev

Signal the link state of the named network device.

If set to 0 (default), the LED’s normal state is off.

If set to 1, the LED’s normal state reflects the link state of the named network device. Setting this value also immediately changes the LED state.

Defined on file sysfs-class-led-trigger-netdev

Signal the link speed state of 10Mbps of the named network device.

If set to 0 (default), the LED’s normal state is off.

If set to 1, the LED’s normal state reflects the link state speed of 10MBps of the named network device. Setting this value also immediately changes the LED state.

Present only if the named network device supports 10Mbps link speed.

Defined on file sysfs-class-led-trigger-netdev

Signal the link speed state of 100Mbps of the named network device.

If set to 0 (default), the LED’s normal state is off.

If set to 1, the LED’s normal state reflects the link state speed of 100Mbps of the named network device. Setting this value also immediately changes the LED state.

Present only if the named network device supports 100Mbps link speed.

Defined on file sysfs-class-led-trigger-netdev

Signal the link speed state of 1000Mbps of the named network device.

If set to 0 (default), the LED’s normal state is off.

If set to 1, the LED’s normal state reflects the link state speed of 1000Mbps of the named network device. Setting this value also immediately changes the LED state.

Present only if the named network device supports 1000Mbps link speed.

Defined on file sysfs-class-led-trigger-netdev

Signal the link speed state of 10000Mbps of the named network device.

If set to 0 (default), the LED’s normal state is off.

If set to 1, the LED’s normal state reflects the link state speed of 10000Mbps of the named network device. Setting this value also immediately changes the LED state.

Present only if the named network device supports 10000Mbps link speed.

Defined on file sysfs-class-led-trigger-netdev

Signal the link speed state of 2500Mbps of the named network device.

If set to 0 (default), the LED’s normal state is off.

If set to 1, the LED’s normal state reflects the link state speed of 2500Mbps of the named network device. Setting this value also immediately changes the LED state.

Present only if the named network device supports 2500Mbps link speed.

Defined on file sysfs-class-led-trigger-netdev

Signal the link speed state of 5000Mbps of the named network device.

If set to 0 (default), the LED’s normal state is off.

If set to 1, the LED’s normal state reflects the link state speed of 5000Mbps of the named network device. Setting this value also immediately changes the LED state.

Present only if the named network device supports 5000Mbps link speed.

/sys/class/leds/<led>/max_brightness

Defined on file sysfs-class-led

Maximum brightness level for this LED, default is 255 (LED_FULL).

If the LED does not support different brightness levels, this should be 1.

/sys/class/leds/<led>/max_flash_brightness

Defined on file sysfs-class-led-flash

read only Maximum brightness level for this LED in the flash strobe mode, in microamperes.

/sys/class/leds/<led>/max_flash_timeout

Defined on file sysfs-class-led-flash

read only Maximum flash timeout for this LED, in microseconds.

/sys/class/leds/<led>/multi_index

Defined on file sysfs-class-led-multicolor

read The multi_index array, when read, will output the LED colors as an array of strings as they are indexed in the multi_intensity file.

For additional details please refer to Multicolor LED handling under Linux.

/sys/class/leds/<led>/multi_intensity

Defined on file sysfs-class-led-multicolor

read/write This file contains array of integers. Order of components is described by the multi_index array. The maximum intensity should not exceed /sys/class/leds/<led>/max_brightness.

For additional details please refer to Multicolor LED handling under Linux.

/sys/class/leds/<led>/offloaded

Defined on file sysfs-class-led-trigger-netdev

Communicate whether the LED trigger modes are offloaded to hardware or whether software fallback is used.

If 0, the LED is using software fallback to blink.

If 1, the LED blinking in requested mode is offloaded to hardware.

/sys/class/leds/<led>/pattern

Defined on file sysfs-class-led-trigger-pattern

Specify a software pattern for the LED, that supports altering the brightness for the specified duration with one software timer. It can do gradual dimming and step change of brightness.

The pattern is given by a series of tuples, of brightness and duration (ms).

The exact format is described in: Documentation/devicetree/bindings/leds/leds-trigger-pattern.txt

/sys/class/leds/<led>/ports/<port>

Defined on file sysfs-class-led-trigger-usbport

Every dir entry represents a single USB port that can be selected for the USB port trigger. Selecting ports makes trigger observing them for any connected devices and lighting on LED if there are any.

Echoing “1” value selects USB port. Echoing “0” unselects it. Current state can be also read.

/sys/class/leds/<led>/pwm

Defined on file sysfs-class-led-driver-lm3533

Set the PWM-input control mask (5 bits), where:

bit 5

PWM-input enabled in Zone 4

bit 4

PWM-input enabled in Zone 3

bit 3

PWM-input enabled in Zone 2

bit 2

PWM-input enabled in Zone 1

bit 1

PWM-input enabled in Zone 0

bit 0

PWM-input enabled

/sys/class/leds/<led>/repeat

Defined on file sysfs-class-led-trigger-pattern

Specify a pattern repeat number. -1 means repeat indefinitely, other negative numbers and number 0 are invalid.

This file will always return the originally written repeat number.

It should be noticed that some leds, like EL15203000 may only support indefinitely patterns, so they always store -1.

/sys/class/leds/<led>/rx

Defined on file sysfs-class-led-trigger-netdev

Signal reception of data on the named network device.

If set to 0 (default), the LED will not blink on reception.

If set to 1, the LED will blink for the milliseconds specified in interval to signal reception.

When offloaded is true, the blink interval is controlled by hardware and won’t reflect the value set in interval.

/sys/class/leds/<led>/shot

Defined on file sysfs-class-led-trigger-oneshot

Write any non-empty string to signal an events, this starts a blink sequence if not already running.

/sys/class/leds/<led>/trigger

Defined on file sysfs-class-led

Set the trigger for this LED. A trigger is a kernel based source of LED events.

You can change triggers in a similar manner to the way an IO scheduler is chosen. Trigger specific parameters can appear in /sys/class/leds/<led> once a given trigger is selected. For their documentation see sysfs-class-led-trigger-*.

/sys/class/leds/<led>/tx

Defined on file sysfs-class-led-trigger-netdev

Signal transmission of data on the named network device.

If set to 0 (default), the LED will not blink on transmission.

If set to 1, the LED will blink for the milliseconds specified in interval to signal transmission.

When offloaded is true, the blink interval is controlled by hardware and won’t reflect the value set in interval.

/sys/class/leds/<tty_led>/cts

Defined on file sysfs-class-led-trigger-tty

CTS = Clear To Send DCE is ready to accept data from the DTE. If the line state is detected, the LED is switched on. If set to 0 (default), the LED will not evaluate CTS. If set to 1, the LED will evaluate CTS.

/sys/class/leds/<tty_led>/dcd

Defined on file sysfs-class-led-trigger-tty

DCD = Data Carrier Detect DTE is receiving a carrier from the DCE. If the line state is detected, the LED is switched on. If set to 0 (default), the LED will not evaluate CAR (DCD). If set to 1, the LED will evaluate CAR (DCD).

/sys/class/leds/<tty_led>/dsr

Defined on file sysfs-class-led-trigger-tty

DSR = Data Set Ready DCE is ready to receive and send data. If the line state is detected, the LED is switched on. If set to 0 (default), the LED will not evaluate DSR. If set to 1, the LED will evaluate DSR.

/sys/class/leds/<tty_led>/rng

Defined on file sysfs-class-led-trigger-tty

RNG = Ring Indicator DCE has detected an incoming ring signal on the telephone line. If the line state is detected, the LED is switched on. If set to 0 (default), the LED will not evaluate RNG. If set to 1, the LED will evaluate RNG.

/sys/class/leds/<tty_led>/rx

Defined on file sysfs-class-led-trigger-tty

Signal reception (rx) of data on the named tty device. If set to 0, the LED will not blink on reception. If set to 1 (default), the LED will blink on reception.

/sys/class/leds/<tty_led>/ttyname

Defined on file sysfs-class-led-trigger-tty

Specifies the tty device name of the triggering tty

/sys/class/leds/<tty_led>/tx

Defined on file sysfs-class-led-trigger-tty

Signal transmission (tx) of data on the named tty device. If set to 0, the LED will not blink on transmission. If set to 1 (default), the LED will blink on transmission.

/sys/class/leds/SRWS1::<serial>::RPM1

/sys/class/leds/SRWS1::<serial>::RPM2

/sys/class/leds/SRWS1::<serial>::RPM3

/sys/class/leds/SRWS1::<serial>::RPM4

/sys/class/leds/SRWS1::<serial>::RPM5

/sys/class/leds/SRWS1::<serial>::RPM6

/sys/class/leds/SRWS1::<serial>::RPM7

/sys/class/leds/SRWS1::<serial>::RPM8

/sys/class/leds/SRWS1::<serial>::RPM9

/sys/class/leds/SRWS1::<serial>::RPM10

/sys/class/leds/SRWS1::<serial>::RPM11

/sys/class/leds/SRWS1::<serial>::RPM12

/sys/class/leds/SRWS1::<serial>::RPM13

/sys/class/leds/SRWS1::<serial>::RPM14

/sys/class/leds/SRWS1::<serial>::RPM15

/sys/class/leds/SRWS1::<serial>::RPMALL

Defined on file sysfs-driver-hid-srws1

Provides a control for turning on/off the LEDs which form an RPM meter on the front of the controller

/sys/class/leds/dell::kbd_backlight/als_enabled

Defined on file sysfs-platform-dell-laptop

This file allows to control the automatic keyboard illumination mode on some systems that have an ambient light sensor. Write 1 to this file to enable the auto mode, 0 to disable it.

/sys/class/leds/dell::kbd_backlight/als_setting

Defined on file sysfs-platform-dell-laptop

This file allows to specify the on/off threshold value, as reported by the ambient light sensor.

/sys/class/leds/dell::kbd_backlight/start_triggers

Defined on file sysfs-platform-dell-laptop

This file allows to control the input triggers that turn on the keyboard backlight illumination that is disabled because of inactivity. Read the file to see the triggers available. The ones enabled are preceded by ‘+’, those disabled by ‘-‘.

To enable a trigger, write its name preceded by ‘+’ to this file. To disable a trigger, write its name preceded by ‘-’ instead.

For example, to enable the keyboard as trigger run:

echo +keyboard > /sys/class/leds/dell::kbd_backlight/start_triggers

To disable it:

echo -keyboard > /sys/class/leds/dell::kbd_backlight/start_triggers

Note that not all the available triggers can be configured.

/sys/class/leds/dell::kbd_backlight/stop_timeout

Defined on file sysfs-platform-dell-laptop

This file allows to specify the interval after which the keyboard illumination is disabled because of inactivity. The timeouts are expressed in seconds, minutes, hours and days, for which the symbols are ‘s’, ‘m’, ‘h’ and ‘d’ respectively.

To configure the timeout, write to this file a value along with any the above units. If no unit is specified, the value is assumed to be expressed in seconds.

For example, to set the timeout to 10 minutes run:

echo 10m > /sys/class/leds/dell::kbd_backlight/stop_timeout

Note that when this file is read, the returned value might be expressed in a different unit than the one used when the timeout was set.

Also note that only some timeouts are supported and that some systems might fall back to a specific timeout in case an invalid timeout is written to this file.

/sys/class/mdio_bus/<bus>/<device>/attached_dev

Defined on file sysfs-class-net-phydev

Symbolic link to the network device this PHY device is attached to.

/sys/class/mdio_bus/<bus>/<device>/phy_dev_flags

Defined on file sysfs-class-net-phydev

32-bit hexadecimal number representing a bit mask of the configuration bits passed from the consumer of the PHY (Ethernet MAC, switch, etc.) to the PHY driver. The flags are only used internally by the kernel and their placement are not meant to be stable across kernel versions. This is intended for facilitating the debugging of PHY drivers.

/sys/class/mdio_bus/<bus>/<device>/phy_has_fixups

Defined on file sysfs-class-net-phydev

This attribute contains the boolean value whether a given PHY device has had any “fixup” workaround running on it, encoded as a boolean. This information is provided to help troubleshooting PHY configurations.

/sys/class/mdio_bus/<bus>/<device>/phy_id

Defined on file sysfs-class-net-phydev

This attribute contains the 32-bit PHY Identifier as reported by the device during bus enumeration, encoded in hexadecimal. This ID is used to match the device with the appropriate driver.

/sys/class/mdio_bus/<bus>/<device>/phy_interface

Defined on file sysfs-class-net-phydev

This attribute contains the PHY interface as configured by the Ethernet driver during bus enumeration, encoded in string. This interface mode is used to configure the Ethernet MAC with the appropriate mode for its data lines to the PHY hardware.

Possible values are:

<empty> (not available), mii, gmii, sgmii, tbi, rev-mii, rmii, rgmii, rgmii-id, rgmii-rxid, rgmii-txid, rtbi, smii xgmii, moca, qsgmii, trgmii, 1000base-x, 2500base-x, rxaui, xaui, 10gbase-kr, unknown

/sys/class/mdio_bus/<bus>/<device>/phy_standalone

Defined on file sysfs-class-net-phydev

Boolean value indicating whether the PHY device is used in standalone mode, without a net_device associated, by PHYLINK. Attribute created only when this is the case.

/sys/class/mei/

Defined on file sysfs-class-mei

The mei/ class sub-directory belongs to mei device class

/sys/class/mei/mei<N>/

Defined on file sysfs-class-mei

The /sys/class/mei/meiN directory is created for each probed mei device

/sys/class/mei/mei<N>/dev_state

Defined on file sysfs-class-mei

Display the ME device state.

The device state can have following values: INITIALIZING INIT_CLIENTS ENABLED RESETTING DISABLED POWER_DOWN POWER_UP

/sys/class/mei/mei<N>/fw_status

Defined on file sysfs-class-mei

Display fw status registers content

The ME FW writes its status information into fw status registers for BIOS and OS to monitor fw health.

The register contains running state, power management state, error codes, and others. The way the registers are decoded depends on PCH or SoC generation. Also number of registers varies between 1 and 6 depending on generation.

/sys/class/mei/mei<N>/fw_ver

Defined on file sysfs-class-mei

Display the ME firmware version.

The version of the platform ME firmware is in format: <platform>:<major>.<minor>.<milestone>.<build_no>. There can be up to three such blocks for different FW components.

/sys/class/mei/mei<N>/hbm_ver

Defined on file sysfs-class-mei

Display the negotiated HBM protocol version.

The HBM protocol version negotiated between the driver and the device.

/sys/class/mei/mei<N>/hbm_ver_drv

Defined on file sysfs-class-mei

Display the driver HBM protocol version.

The HBM protocol version supported by the driver.

/sys/class/mei/mei<N>/kind

Defined on file sysfs-class-mei

Display kind of the device

Generic devices are marked as “mei” while special purpose have their own names. Available options: - mei: generic mei device. - itouch: itouch (ipts) mei device.

/sys/class/mei/mei<N>/trc

Defined on file sysfs-class-mei

Display trc status register content

The ME FW writes Glitch Detection HW (TRC) status information into trc status register for BIOS and OS to monitor fw health.

/sys/class/mei/mei<N>/tx_queue_limit

Defined on file sysfs-class-mei

Configure tx queue limit

Set maximal number of pending writes per opened session.

/sys/class/mic/

Defined on file sysfs-class-mic

The mic class directory belongs to Intel MIC devices and provides information per MIC device. An Intel MIC device is a PCIe form factor add-in Coprocessor card based on the Intel Many Integrated Core (MIC) architecture that runs a Linux OS.

/sys/class/mic/mic<X>

Defined on file sysfs-class-mic

The directories /sys/class/mic/mic0, /sys/class/mic/mic1 etc., represent MIC devices (0,1,..etc). Each directory has information specific to that MIC device.

/sys/class/mic/mic<X>/bootmode

Defined on file sysfs-class-mic

When read, this sysfs entry provides the current bootmode for the card. This sysfs entry can be written with the following valid strings: a) linux - Boot a Linux image. b) flash - Boot an image for flash updates.

/sys/class/mic/mic<X>/cmdline

Defined on file sysfs-class-mic

An Intel MIC device runs a Linux OS during its operation. Before booting this card OS, it is possible to pass kernel command line options to configure various features in it, similar to self-bootable machines. When read, this entry provides information about the current kernel command line options set to boot the card OS. This entry can be written to change the existing kernel command line options. Typically, the user would want to read the current command line options, append new ones or modify existing ones and then write the whole kernel command line back to this entry.

/sys/class/mic/mic<X>/family

Defined on file sysfs-class-mic

Provides information about the Coprocessor family for an Intel MIC device. For example - “x100”

/sys/class/mic/mic<X>/firmware

Defined on file sysfs-class-mic

When read, this sysfs entry provides the path name under /lib/firmware/ where the firmware image to be booted on the card can be found. The entry can be written to change the firmware image location under /lib/firmware/.

/sys/class/mic/mic<X>/heartbeat_enable

Defined on file sysfs-class-mic

The MIC drivers detect and inform user space about card crashes via a heartbeat mechanism (see the description of shutdown_status above). User space can turn off this notification by setting heartbeat_enable to 0 and enable it by setting this entry to 1. If this notification is disabled it is the responsibility of user space to detect card crashes via alternative means such as a network ping. This setting is enabled by default.

/sys/class/mic/mic<X>/log_buf_addr

Defined on file sysfs-class-mic

An Intel MIC device runs a Linux OS during its operation. For debugging purpose and early kernel boot messages, the user can access the card OS log buffer via debugfs. When read, this entry provides the kernel virtual address of the buffer where the card OS log buffer can be read. This entry is written by the host configuration daemon to set the log buffer address. The correct log buffer address to be written can be found in the System.map file of the card OS.

/sys/class/mic/mic<X>/log_buf_len

Defined on file sysfs-class-mic

An Intel MIC device runs a Linux OS during its operation. For debugging purpose and early kernel boot messages, the user can access the card OS log buffer via debugfs. When read, this entry provides the kernel virtual address where the card OS log buffer length can be read. This entry is written by host configuration daemon to set the log buffer length address. The correct log buffer length address to be written can be found in the System.map file of the card OS.

/sys/class/mic/mic<X>/ramdisk

Defined on file sysfs-class-mic

When read, this sysfs entry provides the path name under /lib/firmware/ where the ramdisk image to be used during card OS boot can be found. The entry can be written to change the ramdisk image location under /lib/firmware/.

/sys/class/mic/mic<X>/shutdown_status

Defined on file sysfs-class-mic

An Intel MIC device runs a Linux OS during its operation. This OS can shutdown because of various reasons. When read, this entry provides the status on why the card OS was shutdown. Possible values are:

“nop”

shutdown status is not applicable, when the card OS is “online”

“crashed”

Shutdown because of a HW or SW crash.

“halted”

Shutdown because of a halt command.

“poweroff”

Shutdown because of a poweroff command.

“restart”

Shutdown because of a restart command.

/sys/class/mic/mic<X>/state

Defined on file sysfs-class-mic

When read, this entry provides the current state of an Intel MIC device in the context of the card OS. Possible values that will be read are:

“ready”

The MIC device is ready to boot the card OS. On reading this entry after an OSPM resume, a “boot” has to be written to this entry if the card was previously shutdown during OSPM suspend.

“booting”

The MIC device has initiated booting a card OS.

“online”

The MIC device has completed boot and is online

“shutting_down”

The card OS is shutting down.

“resetting”

A reset has been initiated for the MIC device

“reset_failed”

The MIC device has failed to reset.

When written, this sysfs entry triggers different state change operations depending upon the current state of the card OS. Acceptable values are:

“boot”

Boot the card OS image specified by the combination of firmware, ramdisk, cmdline and bootmode sysfs entries.

“reset”

Initiates device reset.

“shutdown”

Initiates card OS shutdown.

/sys/class/mic/mic<X>/stepping

Defined on file sysfs-class-mic

Provides information about the silicon stepping for an Intel MIC device. For example - “A0” or “B0”

/sys/class/misc/drivers/dw-xdata-pcie.<device>/write

Defined on file sysfs-driver-xdata

Allows the user to enable the PCIe traffic generator which will create write TLPs frames - from the Root Complex to the Endpoint direction or to disable the PCIe traffic generator in all directions.

Write y/1/on to enable, n/0/off to disable

Usage e.g.

echo 1 > /sys/class/misc/dw-xdata-pcie.<device>/write

or

echo 0 > /sys/class/misc/dw-xdata-pcie.<device>/write

The user can read the current PCIe link throughput generated through this generator in MB/s.

Usage e.g.

cat /sys/class/misc/dw-xdata-pcie.<device>/write 204

The file is read and write.

/sys/class/misc/dw-xdata-pcie.<device>/read

Defined on file sysfs-driver-xdata

Allows the user to enable the PCIe traffic generator which will create read TLPs frames - from the Endpoint to the Root Complex direction or to disable the PCIe traffic generator in all directions.

Write y/1/on to enable, n/0/off to disable

Usage e.g.

echo 1 > /sys/class/misc/dw-xdata-pcie.<device>/read

or

echo 0 > /sys/class/misc/dw-xdata-pcie.<device>/read

The user can read the current PCIe link throughput generated through this generator in MB/s.

Usage e.g.

cat /sys/class/misc/dw-xdata-pcie.<device>/read 199

The file is read and write.

/sys/class/mtd/

Defined on file sysfs-class-mtd

The mtd/ class subdirectory belongs to the MTD subsystem (MTD core).

/sys/class/mtd/mtdX/

Defined on file sysfs-class-mtd

The /sys/class/mtd/mtd{0,1,2,3,...} directories correspond to each /dev/mtdX character device. These may represent physical/simulated flash devices, partitions on a flash device, or concatenated flash devices.

/sys/class/mtd/mtdX/bad_blocks

Defined on file sysfs-class-mtd

The number of blocks marked as bad, if any, in this partition.

/sys/class/mtd/mtdX/bbt_blocks

Defined on file sysfs-class-mtd

The number of blocks that are marked as reserved, if any, in this partition. These are typically used to store the in-flash bad block table (BBT).

/sys/class/mtd/mtdX/bitflip_threshold

Defined on file sysfs-class-mtd

This allows the user to examine and adjust the criteria by which mtd returns -EUCLEAN from mtd_read() and mtd_read_oob(). If the maximum number of bit errors that were corrected on any single region comprising an ecc step (as reported by the driver) equals or exceeds this value, -EUCLEAN is returned. Otherwise, absent an error, 0 is returned. Higher layers (e.g., UBI) use this return code as an indication that an erase block may be degrading and should be scrutinized as a candidate for being marked as bad.

The initial value may be specified by the flash device driver. If not, then the default value is ecc_strength.

The introduction of this feature brings a subtle change to the meaning of the -EUCLEAN return code. Previously, it was interpreted to mean simply “one or more bit errors were corrected”. Its new interpretation can be phrased as “a dangerously high number of bit errors were corrected on one or more regions comprising an ecc step”. The precise definition of “dangerously high” can be adjusted by the user with bitflip_threshold. Users are discouraged from doing this, however, unless they know what they are doing and have intimate knowledge of the properties of their device. Broadly speaking, bitflip_threshold should be low enough to detect genuine erase block degradation, but high enough to avoid the consequences of a persistent return value of -EUCLEAN on devices where sticky bitflips occur. Note that if bitflip_threshold exceeds ecc_strength, -EUCLEAN is never returned by the read operations. Conversely, if bitflip_threshold is zero, -EUCLEAN is always returned, absent a hard error.

This is generally applicable only to NAND flash devices with ECC capability. It is ignored on devices lacking ECC capability; i.e., devices for which ecc_strength is zero.

/sys/class/mtd/mtdX/corrected_bits

Defined on file sysfs-class-mtd

The number of bits that have been corrected by means of the device’s ECC.

It will always be a non-negative integer. In the case of devices lacking any ECC capability, it is 0.

/sys/class/mtd/mtdX/dev

Defined on file sysfs-class-mtd

Major and minor numbers of the character device corresponding to this MTD device (in <major>:<minor> format). This is the read-write device so <minor> will be even.

/sys/class/mtd/mtdX/ecc_failures

Defined on file sysfs-class-mtd

The number of failures reported by this device’s ECC. Typically, these failures are associated with failed read operations.

It will always be a non-negative integer. In the case of devices lacking any ECC capability, it is 0.

/sys/class/mtd/mtdX/ecc_step_size

Defined on file sysfs-class-mtd

The size of a single region covered by ECC, known as the ECC step. Devices may have several equally sized ECC steps within each writesize region.

It will always be a non-negative integer. In the case of devices lacking any ECC capability, it is 0.

/sys/class/mtd/mtdX/ecc_strength

Defined on file sysfs-class-mtd

Maximum number of bit errors that the device is capable of correcting within each region covering an ECC step (see ecc_step_size). This will always be a non-negative integer.

In the case of devices lacking any ECC capability, it is 0.

/sys/class/mtd/mtdX/erasesize

Defined on file sysfs-class-mtd

“Major” erase size for the device. If numeraseregions is zero, this is the eraseblock size for the entire device. Otherwise, the MEMGETREGIONCOUNT/MEMGETREGIONINFO ioctls can be used to determine the actual eraseblock layout.

/sys/class/mtd/mtdX/flags

Defined on file sysfs-class-mtd

A hexadecimal value representing the device flags, ORed together:

0x0400: MTD_WRITEABLE - device is writable 0x0800: MTD_BIT_WRITEABLE - single bits can be flipped 0x1000: MTD_NO_ERASE - no erase necessary 0x2000: MTD_POWERUP_LOCK - always locked after reset

/sys/class/mtd/mtdX/name

Defined on file sysfs-class-mtd

A human-readable ASCII name for the device or partition. This will match the name in /proc/mtd .

/sys/class/mtd/mtdX/numeraseregions

Defined on file sysfs-class-mtd

For devices that have variable eraseblock sizes, this provides the total number of erase regions. Otherwise, it will read back as zero.

/sys/class/mtd/mtdX/offset

Defined on file sysfs-class-mtd

For a partition, the offset of that partition from the start of the parent (another partition or a flash device) in bytes. This attribute is absent on flash devices, so it can be used to distinguish them from partitions.

/sys/class/mtd/mtdX/oobavail

Defined on file sysfs-class-mtd

Number of bytes available for a client to place data into the out of band area.

/sys/class/mtd/mtdX/oobsize

Defined on file sysfs-class-mtd

Number of OOB bytes per page.

/sys/class/mtd/mtdX/size

Defined on file sysfs-class-mtd

Total size of the device/partition, in bytes.

/sys/class/mtd/mtdX/type

Defined on file sysfs-class-mtd

One of the following ASCII strings, representing the device type:

absent, ram, rom, nor, nand, mlc-nand, dataflash, ubi, unknown

/sys/class/mtd/mtdX/writesize

Defined on file sysfs-class-mtd

Minimal writable flash unit size. This will always be a positive integer.

In the case of NOR flash it is 1 (even though individual bits can be cleared).

In the case of NAND flash it is one NAND page (or a half page, or a quarter page).

In the case of ECC NOR, it is the ECC block size.

/sys/class/mtd/mtdXro/

Defined on file sysfs-class-mtd

These directories provide the corresponding read-only device nodes for /sys/class/mtd/mtdX/ .

/sys/class/mtd/mtdXro/dev

Defined on file sysfs-class-mtd

Major and minor numbers of the character device corresponding to the read-only variant of the MTD device (in <major>:<minor> format). In this case <minor> will be odd.

/sys/class/mux/

Defined on file sysfs-class-mux

The mux/ class sub-directory belongs to the Generic MUX Framework and provides a sysfs interface for using MUX controllers.

/sys/class/mux/muxchip<N>/

Defined on file sysfs-class-mux

A /sys/class/mux/muxchipN directory is created for each probed MUX chip where N is a simple enumeration.

/sys/class/net/<bridge iface>/bridge/group_fwd_mask

Defined on file sysfs-class-net

Bitmask to allow forwarding of link local frames with address 01-80-C2-00-00-0X on a bridge device. Only values that set bits not matching BR_GROUPFWD_RESTRICTED in net/bridge/br_private.h allowed. Default value 0 does not forward any link local frames.

Restricted bits:

0

01-80-C2-00-00-00 Bridge Group Address used for STP

1

01-80-C2-00-00-01 (MAC Control) 802.3 used for MAC PAUSE

2

01-80-C2-00-00-02 (Link Aggregation) 802.3ad

Any values not setting these bits can be used. Take special care when forwarding control frames e.g. 802.1X-PAE or LLDP.

/sys/class/net/<iface>/addr_assign_type

Defined on file sysfs-class-net

Indicates the address assignment type. Possible values are:

0

permanent address

1

randomly generated

2

stolen from another device

3

set using dev_set_mac_address

/sys/class/net/<iface>/addr_len

Defined on file sysfs-class-net

Indicates the hardware address size in bytes. Values vary based on the lower-level protocol used by the interface (Ethernet, FDDI, ATM, IEEE 802.15.4...). See include/uapi/linux/if_*.h for actual values.

/sys/class/net/<iface>/address

Defined on file sysfs-class-net

Hardware address currently assigned to this interface. Format is a string, e.g: 00:11:22:33:44:55 for an Ethernet MAC address.

/sys/class/net/<iface>/broadcast

Defined on file sysfs-class-net

Hardware broadcast address for this interface. Format is a string, e.g: ff:ff:ff:ff:ff:ff for an Ethernet broadcast MAC address.

/sys/class/net/<iface>/carrier

Defined on file sysfs-class-net

Indicates the current physical link state of the interface. Possible values are:

0

physical link is down

1

physical link is up

Note: some special devices, e.g: bonding and team drivers will allow this attribute to be written to force a link state for operating correctly and designating another fallback interface.

/sys/class/net/<iface>/carrier_changes

Defined on file sysfs-class-net

32-bit unsigned integer counting the number of times the link has seen a change from UP to DOWN and vice versa

/sys/class/net/<iface>/carrier_down_count

Defined on file sysfs-class-net

32-bit unsigned integer counting the number of times the link has been down

/sys/class/net/<iface>/carrier_up_count

Defined on file sysfs-class-net

32-bit unsigned integer counting the number of times the link has been up

/sys/class/net/<iface>/cdc_ncm/bmNtbFormatsSupported

Defined on file sysfs-class-net-cdc_ncm

  • Bit 0: 16-bit NTB supported (set to 1)

  • Bit 1: 32-bit NTB supported

  • Bits 2 – 15: reserved (reset to zero; must be ignored by host)

/sys/class/net/<iface>/cdc_ncm/dwNtbInMaxSize

Defined on file sysfs-class-net-cdc_ncm

IN NTB Maximum Size in bytes

/sys/class/net/<iface>/cdc_ncm/dwNtbOutMaxSize

Defined on file sysfs-class-net-cdc_ncm

OUT NTB Maximum Size

/sys/class/net/<iface>/cdc_ncm/min_tx_pkt

Defined on file sysfs-class-net-cdc_ncm

The driver will pad NCM Transfer Blocks (NTBs) longer than this to tx_max, allowing the device to receive tx_max sized frames with no terminating short packet. NTBs shorter than this limit are transmitted as-is, without any padding, and are terminated with a short USB packet.

Padding to tx_max allows the driver to transmit NTBs back-to-back without any interleaving short USB packets. This reduces the number of short packet interrupts in the device, and represents a tradeoff between USB bus bandwidth and device DMA optimization.

Set to 0 to pad all frames. Set greater than tx_max to disable all padding.

/sys/class/net/<iface>/cdc_ncm/ndp_to_end

Defined on file sysfs-class-net-cdc_ncm

Boolean attribute showing the status of the “NDP to end” quirk. Defaults to ‘N’, except for devices already known to need it enabled.

The “NDP to end” quirk makes the driver place the NDP (the packet index table) after the payload. The NCM specification does not mandate this, but some devices are known to be more restrictive. Write ‘Y’ to this attribute for temporary testing of a suspect device failing to work with the default driver settings.

A device entry should be added to the driver if this quirk is found to be required.

/sys/class/net/<iface>/cdc_ncm/rx_max

Defined on file sysfs-class-net-cdc_ncm

The maximum NTB size for RX. Cannot exceed the maximum value supported by the device. Must allow at least one max sized datagram plus headers.

The actual limits are device dependent. See dwNtbInMaxSize.

Note: Some devices will silently ignore changes to this value, resulting in oversized NTBs and corresponding framing errors.

/sys/class/net/<iface>/cdc_ncm/tx_max

Defined on file sysfs-class-net-cdc_ncm

The maximum NTB size for TX. Cannot exceed the maximum value supported by the device. Must allow at least one max sized datagram plus headers.

The actual limits are device dependent. See dwNtbOutMaxSize.

/sys/class/net/<iface>/cdc_ncm/tx_timer_usecs

Defined on file sysfs-class-net-cdc_ncm

Datagram aggregation timeout in µs. The driver will wait up to 3 times this timeout for more datagrams to aggregate before transmitting an NTB frame.

Valid range: 5 to 4000000

Set to 0 to disable aggregation.

The following read-only attributes all represent fields of the structure defined in section 6.2.1 “GetNtbParameters” of “Universal Serial Bus Communications Class Subclass Specifications for Network Control Model Devices” (CDC NCM), Revision 1.0 (Errata 1), November 24, 2010 from USB Implementers Forum, Inc. The descriptions are quoted from table 6-3 of CDC NCM: “NTB Parameter Structure”.

/sys/class/net/<iface>/cdc_ncm/wNdpInAlignment

Defined on file sysfs-class-net-cdc_ncm

NDP alignment modulus for NTBs on the IN pipe. Shall be a power of 2, and shall be at least 4.

/sys/class/net/<iface>/cdc_ncm/wNdpInDivisor

Defined on file sysfs-class-net-cdc_ncm

Divisor used for IN NTB Datagram payload alignment

/sys/class/net/<iface>/cdc_ncm/wNdpInPayloadRemainder

Defined on file sysfs-class-net-cdc_ncm

Remainder used to align input datagram payload within the NTB: (Payload Offset) mod (wNdpInDivisor) = wNdpInPayloadRemainder

/sys/class/net/<iface>/cdc_ncm/wNdpOutAlignment

Defined on file sysfs-class-net-cdc_ncm

NDP alignment modulus for use in NTBs on the OUT pipe. Shall be a power of 2, and shall be at least 4.

/sys/class/net/<iface>/cdc_ncm/wNdpOutDivisor

Defined on file sysfs-class-net-cdc_ncm

OUT NTB Datagram alignment modulus

/sys/class/net/<iface>/cdc_ncm/wNdpOutPayloadRemainder

Defined on file sysfs-class-net-cdc_ncm

Remainder used to align output datagram payload offsets within the NTB: Padding, shall be transmitted as zero by function, and ignored by host. (Payload Offset) mod (wNdpOutDivisor) = wNdpOutPayloadRemainder

/sys/class/net/<iface>/cdc_ncm/wNtbOutMaxDatagrams

Defined on file sysfs-class-net-cdc_ncm

Maximum number of datagrams that the host may pack into a single OUT NTB. Zero means that the device imposes no limit.

/sys/class/net/<iface>/dev_id

Defined on file sysfs-class-net

Indicates the device unique identifier. Format is an hexadecimal value. This is used to disambiguate interfaces which might be stacked (e.g: VLAN interfaces) but still have the same MAC address as their parent device.

/sys/class/net/<iface>/dev_port

Defined on file sysfs-class-net

Indicates the port number of this network device, formatted as a decimal value. Some NICs have multiple independent ports on the same PCI bus, device and function. This attribute allows userspace to distinguish the respective interfaces.

Note: some device drivers started to use ‘dev_id’ for this purpose since long before 3.15 and have not adopted the new attribute ever since. To query the port number, some tools look exclusively at ‘dev_port’, while others only consult ‘dev_id’. If a network device has multiple client adapter ports as described in the previous paragraph and does not set this attribute to its port number, it’s a kernel bug.

/sys/class/net/<iface>/dormant

Defined on file sysfs-class-net

Indicates whether the interface is in dormant state. Possible values are: 0: interface is not dormant 1: interface is dormant

This attribute can be used by supplicant software to signal that the device is not usable unless some supplicant-based authentication is performed (e.g: 802.1x). ‘link_mode’ attribute will also reflect the dormant state.

/sys/class/net/<iface>/dsa/tagging

Defined on file sysfs-class-net-dsa

On read, this file returns a string indicating the type of tagging protocol used by the DSA network devices that are attached to this master interface. On write, this file changes the tagging protocol of the attached DSA switches, if this operation is supported by the driver. Changing the tagging protocol must be done with the DSA interfaces and the master interface all administratively down. See the “name” field of each registered struct dsa_device_ops for a list of valid values.

/sys/class/net/<iface>/duplex

Defined on file sysfs-class-net

Indicates the interface latest or current duplex value. Possible values are:

half

half duplex

full

full duplex

Note: This attribute is only valid for interfaces that implement the ethtool get_link_ksettings method (mostly Ethernet).

/sys/class/net/<iface>/flags

Defined on file sysfs-class-net

Indicates the interface flags as a bitmask in hexadecimal. See include/uapi/linux/if.h for a list of all possible values and the flags semantics.

/sys/class/net/<iface>/fwinfo

Defined on file sysfs-class-net-janz-ican3

Firmware stamp of ican3 module Read-only: 32 byte string identification of the ICAN3 module (known values: “JANZ-ICAN3 ICANOS 1.xx”, “JANZ-ICAN3 CAL/CANopen 1.xx”)

/sys/class/net/<iface>/grcan/enable0

Defined on file sysfs-class-net-grcan

Hardware configuration of physical interface 0. This file reads and writes the “Enable 0” bit of the configuration register. Possible values: 0 or 1. See the GRCAN chapter of the GRLIB IP core library documentation for details. The default value is 0 or set by the module parameter grcan.enable0 and can be read at /sys/module/grcan/parameters/enable0.

/sys/class/net/<iface>/grcan/enable1

Defined on file sysfs-class-net-grcan

Hardware configuration of physical interface 1. This file reads and writes the “Enable 1” bit of the configuration register. Possible values: 0 or 1. See the GRCAN chapter of the GRLIB IP core library documentation for details. The default value is 0 or set by the module parameter grcan.enable1 and can be read at /sys/module/grcan/parameters/enable1.

/sys/class/net/<iface>/grcan/select

Defined on file sysfs-class-net-grcan

Configuration of which physical interface to be used. Possible values: 0 or 1. See the GRCAN chapter of the GRLIB IP core library documentation for details. The default value is 0 or is set by the module parameter grcan.select and can be read at /sys/module/grcan/parameters/select.

/sys/class/net/<iface>/ifalias

Defined on file sysfs-class-net

Indicates/stores an interface alias name as a string. This can be used for system management purposes.

/sys/class/net/<iface>/ifindex

Defined on file sysfs-class-net

Indicates the system-wide interface unique index identifier as a decimal number. This attribute is used for mapping an interface identifier to an interface name. It is used throughout the networking stack for specifying the interface specific requests/events.

Defined on file sysfs-class-net

Indicates the system-wide interface unique index identifier a the interface is linked to. Format is decimal. This attribute is used to resolve interfaces chaining, linking and stacking. Physical interfaces have the same ‘ifindex’ and ‘iflink’ values.

Defined on file sysfs-class-net

Indicates the interface link mode, as a decimal number. This attribute should be used in conjunction with ‘dormant’ attribute to determine the interface usability. Possible values:

0

default link mode

1

dormant link mode

/sys/class/net/<iface>/mtu

Defined on file sysfs-class-net

Indicates the interface currently configured MTU value, in bytes, and in decimal format. Specific values depends on the lower-level interface protocol used. Ethernet devices will show a ‘mtu’ attribute value of 1500 unless changed.

/sys/class/net/<iface>/name_assign_type

Defined on file sysfs-class-net

Indicates the name assignment type. Possible values are:

1

enumerated by the kernel, possibly in an unpredictable way

2

predictably named by the kernel

3

named by userspace

4

renamed

/sys/class/net/<iface>/netdev_group

Defined on file sysfs-class-net

Indicates the interface network device group, as a decimal integer. Default value is 0 which corresponds to the initial network devices group. The group can be changed to affect routing decisions (see: net/ipv4/fib_rules and net/ipv6/fib6_rules.c).

/sys/class/net/<iface>/operstate

Defined on file sysfs-class-net

Indicates the interface RFC2863 operational state as a string.

Possible values are:

“unknown”, “notpresent”, “down”, “lowerlayerdown”, “testing”, “dormant”, “up”.

/sys/class/net/<iface>/peak_usb/can_channel_id

Defined on file sysfs-class-net-peak_usb

PEAK PCAN-USB devices support user-configurable CAN channel identifiers. Contrary to a USB serial number, these identifiers are writable and can be set per CAN interface. This means that if a USB device exports multiple CAN interfaces, each of them can be assigned a unique channel ID. This attribute provides read-only access to the currently configured value of the channel identifier. Depending on the device type, the identifier has a length of 8 or 32 bit. The value read from this attribute is always an 8 digit 32 bit hexadecimal value in big endian format. If the device only supports an 8 bit identifier, the upper 24 bit of the value are set to zero.

/sys/class/net/<iface>/phydev

Defined on file sysfs-class-net

Symbolic link to the PHY device this network device is attached to.

/sys/class/net/<iface>/phys_port_id

Defined on file sysfs-class-net

Indicates the interface unique physical port identifier within the NIC, as a string.

/sys/class/net/<iface>/phys_port_name

Defined on file sysfs-class-net

Indicates the interface physical port name within the NIC, as a string.

/sys/class/net/<iface>/phys_switch_id

Defined on file sysfs-class-net

Indicates the unique physical switch identifier of a switch this port belongs to, as a string.

/sys/class/net/<iface>/qmi/add_mux

Defined on file sysfs-class-net-qmi

Unsigned integer.

Write a number ranging from 1 to 254 to add a qmap mux based network device, supported by recent Qualcomm based modems.

The network device will be called qmimux.

Userspace is in charge of managing the qmux network device activation and data stream setup on the modem side by using the proper QMI protocol requests.

/sys/class/net/<iface>/qmi/del_mux

Defined on file sysfs-class-net-qmi

Unsigned integer.

Write a number ranging from 1 to 254 to delete a previously created qmap mux based network device.

/sys/class/net/<iface>/qmi/pass_through

Defined on file sysfs-class-net-qmi

Boolean. Default: ‘N’

Set this to ‘Y’ to enable ‘pass-through’ mode, allowing packets in MAP format to be passed on to the stack.

Normally the rmnet driver (CONFIG_RMNET) is then used to process and demultiplex these packets.

‘Pass-through’ mode can be enabled when the device is in ‘raw-ip’ mode only.

/sys/class/net/<iface>/qmi/raw_ip

Defined on file sysfs-class-net-qmi

Boolean. Default: ‘N’

Set this to ‘Y’ to change the network device link framing from ‘802.3’ to ‘raw-ip’.

The netdev will change to reflect the link framing mode. The netdev is an ordinary ethernet device in ‘802.3’ mode, and the driver expects to exchange frames with an ethernet header over the USB link. The netdev is a headerless p-t-p device in ‘raw-ip’ mode, and the driver expects to echange IPv4 or IPv6 packets without any L2 header over the USB link.

Userspace is in full control of firmware configuration through the delegation of the QMI protocol. Userspace is responsible for coordination of driver and firmware link framing mode, changing this setting to ‘Y’ if the firmware is configured for ‘raw-ip’ mode.

/sys/class/net/<iface>/queues/rx-<queue>/rps_cpus

Defined on file sysfs-class-net-queues

Mask of the CPU(s) currently enabled to participate into the Receive Packet Steering packet processing flow for this network device queue. Possible values depend on the number of available CPU(s) in the system.

/sys/class/net/<iface>/queues/rx-<queue>/rps_flow_cnt

Defined on file sysfs-class-net-queues

Number of Receive Packet Steering flows being currently processed by this particular network device receive queue.

/sys/class/net/<iface>/queues/tx-<queue>/byte_queue_limits/hold_time

Defined on file sysfs-class-net-queues

Indicates the hold time in milliseconds to measure the slack of this particular network device transmit queue. Default value is 1000.

/sys/class/net/<iface>/queues/tx-<queue>/byte_queue_limits/inflight

Defined on file sysfs-class-net-queues

Indicates the number of bytes (objects) in flight on this network device transmit queue.

/sys/class/net/<iface>/queues/tx-<queue>/byte_queue_limits/limit

Defined on file sysfs-class-net-queues

Indicates the current limit of bytes allowed to be queued on this network device transmit queue. This value is clamped to be within the bounds defined by limit_max and limit_min.

/sys/class/net/<iface>/queues/tx-<queue>/byte_queue_limits/limit_max

Defined on file sysfs-class-net-queues

Indicates the absolute maximum limit of bytes allowed to be queued on this network device transmit queue. See include/linux/dynamic_queue_limits.h for the default value.

/sys/class/net/<iface>/queues/tx-<queue>/byte_queue_limits/limit_min

Defined on file sysfs-class-net-queues

Indicates the absolute minimum limit of bytes allowed to be queued on this network device transmit queue. Default value is 0.

/sys/class/net/<iface>/queues/tx-<queue>/byte_queue_limits/stall_cnt

Defined on file sysfs-class-net-queues

Number of detected Tx completion stalls.

/sys/class/net/<iface>/queues/tx-<queue>/byte_queue_limits/stall_max

Defined on file sysfs-class-net-queues

Longest detected Tx completion stall. Write 0 to clear.

/sys/class/net/<iface>/queues/tx-<queue>/byte_queue_limits/stall_thrs

Defined on file sysfs-class-net-queues

Tx completion stall detection threshold in ms. Kernel will guarantee to detect all stalls longer than this threshold but may also detect stalls longer than half of the threshold.

/sys/class/net/<iface>/queues/tx-<queue>/tx_maxrate

Defined on file sysfs-class-net-queues

A Mbps max-rate set for the queue, a value of zero means disabled, default is disabled.

/sys/class/net/<iface>/queues/tx-<queue>/tx_timeout

Defined on file sysfs-class-net-queues

Indicates the number of transmit timeout events seen by this network interface transmit queue.

/sys/class/net/<iface>/queues/tx-<queue>/xps_cpus

Defined on file sysfs-class-net-queues

Mask of the CPU(s) currently enabled to participate into the Transmit Packet Steering packet processing flow for this network device transmit queue. Possible values depend on the number of available CPU(s) in the system.

/sys/class/net/<iface>/queues/tx-<queue>/xps_rxqs

Defined on file sysfs-class-net-queues

Mask of the receive queue(s) currently enabled to participate into the Transmit Packet Steering packet processing flow for this network device transmit queue. Possible values depend on the number of available receive queue(s) in the network device. Default is disabled.

/sys/class/net/<iface>/speed

Defined on file sysfs-class-net

Indicates the interface latest or current speed value. Value is an integer representing the link speed in Mbits/sec.

Note: this attribute is only valid for interfaces that implement the ethtool get_link_ksettings method (mostly Ethernet).

/sys/class/net/<iface>/statistics/collisions

Defined on file sysfs-class-net-statistics

Indicates the number of collisions seen by this network device. This value might not be relevant with all MAC layers.

/sys/class/net/<iface>/statistics/multicast

Defined on file sysfs-class-net-statistics

Indicates the number of multicast packets received by this network device.

/sys/class/net/<iface>/statistics/rx_bytes

Defined on file sysfs-class-net-statistics

Indicates the number of bytes received by this network device. See the network driver for the exact meaning of when this value is incremented.

/sys/class/net/<iface>/statistics/rx_compressed

Defined on file sysfs-class-net-statistics

Indicates the number of compressed packets received by this network device. This value might only be relevant for interfaces that support packet compression (e.g: PPP).

/sys/class/net/<iface>/statistics/rx_crc_errors

Defined on file sysfs-class-net-statistics

Indicates the number of packets received with a CRC (FCS) error by this network device. Note that the specific meaning might depend on the MAC layer used by the interface.

/sys/class/net/<iface>/statistics/rx_dropped

Defined on file sysfs-class-net-statistics

Indicates the number of packets received by the network device but dropped, that are not forwarded to the upper layers for packet processing. See the network driver for the exact meaning of this value.

/sys/class/net/<iface>/statistics/rx_errors

Defined on file sysfs-class-net-statistics

Indicates the number of receive errors on this network device. See the network driver for the exact meaning of this value.

/sys/class/net/<iface>/statistics/rx_fifo_errors

Defined on file sysfs-class-net-statistics

Indicates the number of receive FIFO errors seen by this network device. See the network driver for the exact meaning of this value.

/sys/class/net/<iface>/statistics/rx_frame_errors

Defined on file sysfs-class-net-statistics

Indicates the number of received frames with error, such as alignment errors. Note that the specific meaning depends on on the MAC layer protocol used. See the network driver for the exact meaning of this value.

/sys/class/net/<iface>/statistics/rx_length_errors

Defined on file sysfs-class-net-statistics

Indicates the number of received error packet with a length error, oversized or undersized. See the network driver for the exact meaning of this value.

/sys/class/net/<iface>/statistics/rx_missed_errors

Defined on file sysfs-class-net-statistics

Indicates the number of received packets that have been missed due to lack of capacity in the receive side. See the network driver for the exact meaning of this value.

/sys/class/net/<iface>/statistics/rx_nohandler

Defined on file sysfs-class-net-statistics

Indicates the number of received packets that were dropped on an inactive device by the network core.

/sys/class/net/<iface>/statistics/rx_over_errors

Defined on file sysfs-class-net-statistics

Indicates the number of received packets that are oversized compared to what the network device is configured to accept (e.g: larger than MTU). See the network driver for the exact meaning of this value.

/sys/class/net/<iface>/statistics/rx_packets

Defined on file sysfs-class-net-statistics

Indicates the total number of good packets received by this network device.

/sys/class/net/<iface>/statistics/tx_aborted_errors

Defined on file sysfs-class-net-statistics

Indicates the number of packets that have been aborted during transmission by a network device (e.g: because of a medium collision). See the network driver for the exact meaning of this value.

/sys/class/net/<iface>/statistics/tx_bytes

Defined on file sysfs-class-net-statistics

Indicates the number of bytes transmitted by a network device. See the network driver for the exact meaning of this value, in particular whether this accounts for all successfully transmitted packets or all packets that have been queued for transmission.

/sys/class/net/<iface>/statistics/tx_carrier_errors

Defined on file sysfs-class-net-statistics

Indicates the number of packets that could not be transmitted because of carrier errors (e.g: physical link down). See the network driver for the exact meaning of this value.

/sys/class/net/<iface>/statistics/tx_compressed

Defined on file sysfs-class-net-statistics

Indicates the number of transmitted compressed packets. Note this might only be relevant for devices that support compression (e.g: PPP).

/sys/class/net/<iface>/statistics/tx_dropped

Defined on file sysfs-class-net-statistics

Indicates the number of packets dropped during transmission. See the driver for the exact reasons as to why the packets were dropped.

/sys/class/net/<iface>/statistics/tx_errors

Defined on file sysfs-class-net-statistics

Indicates the number of packets in error during transmission by a network device. See the driver for the exact reasons as to why the packets were dropped.

/sys/class/net/<iface>/statistics/tx_fifo_errors

Defined on file sysfs-class-net-statistics

Indicates the number of packets having caused a transmit FIFO error. See the driver for the exact reasons as to why the packets were dropped.

/sys/class/net/<iface>/statistics/tx_heartbeat_errors

Defined on file sysfs-class-net-statistics

Indicates the number of packets transmitted that have been reported as heartbeat errors. See the driver for the exact reasons as to why the packets were dropped.

/sys/class/net/<iface>/statistics/tx_packets

Defined on file sysfs-class-net-statistics

Indicates the number of packets transmitted by a network device. See the driver for whether this reports the number of all attempted or successful transmissions.

/sys/class/net/<iface>/statistics/tx_window_errors

Defined on file sysfs-class-net-statistics

Indicates the number of packets not successfully transmitted due to a window collision. The specific meaning depends on the MAC layer used. On Ethernet this is usually used to report late collisions errors.

/sys/class/net/<iface>/termination

Defined on file sysfs-class-net-janz-ican3

Value representing the can bus termination

Default: 1 (termination active) Reading: get actual termination state Writing: set actual termination state (0=no termination, 1=termination active)

/sys/class/net/<iface>/testing

Defined on file sysfs-class-net

Indicates whether the interface is under test. Possible values are:

0

interface is not being tested

1

interface is being tested

When an interface is under test, it cannot be expected to pass packets as normal.

/sys/class/net/<iface>/threaded

Defined on file sysfs-class-net

Boolean value to control the threaded mode per device. User could set this value to enable/disable threaded mode for all napi belonging to this device, without the need to do device up/down.

Possible values: == ================================== 0 threaded mode disabled for this dev 1 threaded mode enabled for this dev == ==================================

/sys/class/net/<iface>/tx_queue_len

Defined on file sysfs-class-net

Indicates the interface transmit queue len in number of packets, as an integer value. Value depend on the type of interface, Ethernet network adapters have a default value of 1000 unless configured otherwise

/sys/class/net/<iface>/type

Defined on file sysfs-class-net

Indicates the interface protocol type as a decimal value. See include/uapi/linux/if_arp.h for all possible values.

/sys/class/net/<qmimux iface>/qmap/mux_id

Defined on file sysfs-class-net-qmi

Unsigned integer

Indicates the mux id associated to the qmimux network interface during its creation.

/sys/class/ocxl/<afu name>/afu_version

Defined on file sysfs-class-ocxl

read only Version of the AFU, in the format <major>:<minor> Reflects what is read in the configuration space of the AFU

/sys/class/ocxl/<afu name>/contexts

Defined on file sysfs-class-ocxl

read only Number of contexts for the AFU, in the format <n>/<max> where:

n

number of currently active contexts, for debug

max

maximum number of contexts supported by the AFU

/sys/class/ocxl/<afu name>/global_mmio_area

Defined on file sysfs-class-ocxl

read/write Give access the global mmio area for the AFU

/sys/class/ocxl/<afu name>/global_mmio_size

Defined on file sysfs-class-ocxl

read only Size of the global mmio area, as defined in the configuration space of the AFU

/sys/class/ocxl/<afu name>/pp_mmio_size

Defined on file sysfs-class-ocxl

read only Size of the per-process mmio area, as defined in the configuration space of the AFU

/sys/class/ocxl/<afu name>/reload_on_reset

Defined on file sysfs-class-ocxl

read/write Control whether the FPGA is reloaded on a link reset. Enabled through a vendor-specific logic block on the FPGA.

0

Do not reload FPGA image from flash

1

Reload FPGA image from flash

unavailable

The device does not support this capability

/sys/class/pktcdvd/add

/sys/class/pktcdvd/remove

/sys/class/pktcdvd/device_map

Defined on file sysfs-class-pktcdvd

add

(WO) Write a block device id (major:minor) to create a new pktcdvd device and map it to the block device.

remove

(WO) Write the pktcdvd device id (major:minor) to remove the pktcdvd device.

device_map

(RO) Shows the device mapping in format: pktcdvd[0-7] <pktdevid> <blkdevid>

/sys/class/pktcdvd/pktcdvd[0-7]/dev

/sys/class/pktcdvd/pktcdvd[0-7]/uevent

Defined on file sysfs-class-pktcdvd

dev: (RO) Device id

uevent: (WO) To send a uevent

/sys/class/pktcdvd/pktcdvd[0-7]/stat/packets_started

/sys/class/pktcdvd/pktcdvd[0-7]/stat/packets_finished

/sys/class/pktcdvd/pktcdvd[0-7]/stat/kb_written

/sys/class/pktcdvd/pktcdvd[0-7]/stat/kb_read

/sys/class/pktcdvd/pktcdvd[0-7]/stat/kb_read_gather

/sys/class/pktcdvd/pktcdvd[0-7]/stat/reset

Defined on file sysfs-class-pktcdvd

packets_started: (RO) Number of started packets.

packets_finished: (RO) Number of finished packets.

kb_written: (RO) kBytes written.

kb_read: (RO) kBytes read.

kb_read_gather: (RO) kBytes read to fill write packets.

reset: (WO) Write any value to it to reset

pktcdvd device statistic values, like bytes read/written.

/sys/class/pktcdvd/pktcdvd[0-7]/write_queue/size

/sys/class/pktcdvd/pktcdvd[0-7]/write_queue/congestion_off

/sys/class/pktcdvd/pktcdvd[0-7]/write_queue/congestion_on

Defined on file sysfs-class-pktcdvd

size

(RO) Contains the size of the bio write queue.

congestion_off

(RW) If bio write queue size is below this mark, accept new bio requests from the block layer.

congestion_on

(RW) If bio write queue size is higher as this mark, do no longer accept bio write requests from the block layer and wait till the pktcdvd device has processed enough bio’s so that bio write queue size is below congestion off mark. A value of <= 0 disables congestion control.

Example:

To use the pktcdvd sysfs interface directly, you can do:

# create a new pktcdvd device mapped to /dev/hdc
echo "22:0" >/sys/class/pktcdvd/add
cat /sys/class/pktcdvd/device_map
# assuming device pktcdvd0 was created, look at stat's
cat /sys/class/pktcdvd/pktcdvd0/stat/kb_written
# print the device id of the mapped block device
fgrep pktcdvd0 /sys/class/pktcdvd/device_map
# remove device, using pktcdvd0 device id   253:0
echo "253:0" >/sys/class/pktcdvd/remove

/sys/class/power/ds2760-battery.*/charge_full

Defined on file sysfs-class-power

This file is writeable and can be used to set the assumed battery ‘full level’. As batteries age, this value has to be amended over time.

/sys/class/power/ds2760-battery.*/charge_now

Defined on file sysfs-class-power

This file is writeable and can be used to set the current coloumb counter value inside the battery monitor chip. This is needed for unavoidable corrections of aging batteries. A userspace daemon can monitor the battery charging logic and once the counter drops out of considerable bounds, take appropriate action.

/sys/class/power_supply/<battery_name>/eppid

Defined on file sysfs-platform-dell-wmi-ddv

Reports the Dell ePPID (electronic Piece Part Identification) of the ACPI battery.

See Dell DDV WMI interface driver (dell-wmi-ddv) for details.

/sys/class/power_supply/<supply_name>/alarm

Defined on file sysfs-class-power-surface

Battery trip point. When the remaining battery capacity crosses this value in either direction, the system will be notified and if necessary woken.

Set to zero to clear/disable.

Access: Read, Write

Valid values: In micro-Wh or micro-Ah, depending on the power unit of the battery

/sys/class/power_supply/<supply_name>/capacity

Defined on file sysfs-class-power

Fine grain representation of battery capacity.

Access: Read

Valid values: 0 - 100 (percent)

/sys/class/power_supply/<supply_name>/capacity_alert_max

Defined on file sysfs-class-power

Maximum battery capacity trip-wire value where the supply will notify user-space of the event. This is normally used for the battery discharging scenario where user-space needs to know the battery has dropped to an upper level so it can take appropriate action (e.g. warning user that battery level is low).

Access: Read, Write

Valid values: 0 - 100 (percent)

/sys/class/power_supply/<supply_name>/capacity_alert_min

Defined on file sysfs-class-power

Minimum battery capacity trip-wire value where the supply will notify user-space of the event. This is normally used for the battery discharging scenario where user-space needs to know the battery has dropped to a lower level so it can take appropriate action (e.g. warning user that battery level is critically low).

Access: Read, Write

Valid values: 0 - 100 (percent)

/sys/class/power_supply/<supply_name>/capacity_error_margin

Defined on file sysfs-class-power

Battery capacity measurement becomes unreliable without recalibration. This values provides the maximum error margin expected to exist by the fuel gauge in percent. Values close to 0% will be returned after (re-)calibration has happened. Over time the error margin will increase. 100% means, that the capacity related values are basically completely useless.

Access: Read

Valid values: 0 - 100 (percent)

/sys/class/power_supply/<supply_name>/capacity_level

Defined on file sysfs-class-power

Coarse representation of battery capacity.

Access: Read

Valid values:

“Unknown”, “Critical”, “Low”, “Normal”, “High”, “Full”

/sys/class/power_supply/<supply_name>/charge_behaviour

Defined on file sysfs-class-power

Represents the charging behaviour.

Access: Read, Write

Valid values:

auto:

Charge normally, respect thresholds

inhibit-charge:

Do not charge while AC is attached

force-discharge:

Force discharge while AC is attached

/sys/class/power_supply/<supply_name>/charge_control_end_threshold

Defined on file sysfs-class-power

Represents a battery percentage level, above which charging will stop. Not all hardware is capable of setting this to an arbitrary percentage. Drivers will round written values to the nearest supported value. Reading back the value will show the actual threshold set by the driver.

Access: Read, Write

Valid values: 0 - 100 (percent)

/sys/class/power_supply/<supply_name>/charge_control_limit

Defined on file sysfs-class-power

Maximum allowable charging current. Used for charge rate throttling for thermal cooling or improving battery health.

Access: Read, Write

Valid values: Represented in microamps

/sys/class/power_supply/<supply_name>/charge_control_limit_max

Defined on file sysfs-class-power

Maximum legal value for the charge_control_limit property.

Access: Read

Valid values: Represented in microamps

/sys/class/power_supply/<supply_name>/charge_control_start_threshold

Defined on file sysfs-class-power

Represents a battery percentage level, below which charging will begin.

Access: Read, Write Valid values: 0 - 100 (percent)

/sys/class/power_supply/<supply_name>/charge_term_current

Defined on file sysfs-class-power

Reports the charging current value which is used to determine when the battery is considered full and charging should end.

Access: Read

Valid values: Represented in microamps

/sys/class/power_supply/<supply_name>/charge_type

Defined on file sysfs-class-power

Select the charging algorithm to use for a battery.

Standard:

Fully charge the battery at a moderate rate.

Fast:

Quickly charge the battery using fast-charge technology. This is typically harder on the battery than standard charging and may lower its lifespan.

Trickle:

Users who primarily operate the system while plugged into an external power source can extend battery life with this mode. Vendor tooling may call this “Primarily AC Use”.

Adaptive:

Automatically optimize battery charge rate based on typical usage pattern.

Custom:

Use the charge_control_* properties to determine when to start and stop charging. Advanced users can use this to drastically extend battery life.

Long Life:

The charger reduces its charging rate in order to prolong the battery health.

Bypass:

The charger bypasses the charging path around the integrated converter allowing for a “smart” wall adaptor to perform the power conversion externally.

Access: Read, Write

Valid values:

“Unknown”, “N/A”, “Trickle”, “Fast”, “Standard”, “Adaptive”, “Custom”, “Long Life”, “Bypass”

/sys/class/power_supply/<supply_name>/current_avg

Defined on file sysfs-class-power

Battery:

Reports an average IBAT current reading for the battery, over a fixed period. Normally devices will provide a fixed interval in which they average readings to smooth out the reported value.

USB:

Reports an average IBUS current reading over a fixed period. Normally devices will provide a fixed interval in which they average readings to smooth out the reported value.

Access: Read

Valid values: Represented in microamps. Negative values are used for discharging batteries, positive values for charging batteries and for USB IBUS current.

/sys/class/power_supply/<supply_name>/current_max

Defined on file sysfs-class-power

Battery:

Reports the maximum IBAT current allowed into the battery.

USB:

Reports the maximum IBUS current the supply can support.

Access: Read Valid values: Represented in microamps

/sys/class/power_supply/<supply_name>/current_now

Defined on file sysfs-class-power

Battery:

Reports an instant, single IBAT current reading for the battery. This value is not averaged/smoothed.

Access: Read

USB:

Reports the IBUS current supplied now. This value is generally read-only reporting, unless the ‘online’ state of the supply is set to be programmable, in which case this value can be set within the reported min/max range.

Access: Read, Write

Valid values: Represented in microamps. Negative values are used for discharging batteries, positive values for charging batteries and for USB IBUS current.

/sys/class/power_supply/<supply_name>/cycle_count

Defined on file sysfs-class-power

Reports the number of full charge + discharge cycles the battery has undergone.

Access: Read

Valid values:

Integer > 0: representing full cycles Integer = 0: cycle_count info is not available

USB Properties

/sys/class/power_supply/<supply_name>/health

Defined on file sysfs-class-power

Reports the health of the battery or battery side of charger functionality.

Access: Read

Valid values:

“Unknown”, “Good”, “Overheat”, “Dead”, “Over voltage”, “Unspecified failure”, “Cold”, “Watchdog timer expire”, “Safety timer expire”, “Over current”, “Calibration required”, “Warm”, “Cool”, “Hot”, “No battery”

/sys/class/power_supply/<supply_name>/input_current_limit

Defined on file sysfs-class-power

Details the incoming IBUS current limit currently set in the supply. Normally this is configured based on the type of connection made (e.g. A configured SDP should output a maximum of 500mA so the input current limit is set to the same value). Use preferably input_power_limit, and for problems that can be solved using power limit use input_current_limit.

Access: Read, Write

Valid values: Represented in microamps

/sys/class/power_supply/<supply_name>/input_power_limit

Defined on file sysfs-class-power

This entry configures the incoming power limit currently set in the supply. Normally this is configured based on system-level knowledge or user input. Use preferably this feature to limit the incoming power and use current/voltage limit only for problems that can be solved using power limit.

Access: Read, Write

Valid values: Represented in microwatts

/sys/class/power_supply/<supply_name>/input_voltage_limit

Defined on file sysfs-class-power

This entry configures the incoming VBUS voltage limit currently set in the supply. Normally this is configured based on system-level knowledge or user input (e.g. This is part of the Pixel C’s thermal management strategy to effectively limit the input power to 5V when the screen is on to meet Google’s skin temperature targets). Note that this feature should not be used for safety critical things. Use preferably input_power_limit, and for problems that can be solved using power limit use input_voltage_limit.

Access: Read, Write

Valid values: Represented in microvolts

/sys/class/power_supply/<supply_name>/manufacture_day

Defined on file sysfs-class-power

Reports the day of month when the device has been manufactured.

Access: Read Valid values: 1-31

/sys/class/power_supply/<supply_name>/manufacture_month

Defined on file sysfs-class-power

Reports the month when the device has been manufactured.

Access: Read

Valid values: 1-12

/sys/class/power_supply/<supply_name>/manufacture_year

Defined on file sysfs-class-power

Reports the year (following Gregorian calendar) when the device has been manufactured.

Access: Read

Valid values: Reported as integer

/sys/class/power_supply/<supply_name>/manufacturer

Defined on file sysfs-class-power

Reports the name of the device manufacturer.

Access: Read Valid values: Represented as string

/sys/class/power_supply/<supply_name>/model_name

Defined on file sysfs-class-power

Reports the name of the device model.

Access: Read Valid values: Represented as string

/sys/class/power_supply/<supply_name>/online

Defined on file sysfs-class-power

Indicates if VBUS is present for the supply. When the supply is online, and the supply allows it, then it’s possible to switch between online states (e.g. Fixed -> Programmable for a PD_PPS USB supply so voltage and current can be controlled).

Access: Read, Write

Valid values:

0:

Offline

1:

Online Fixed - Fixed Voltage Supply

2:

Online Programmable - Programmable Voltage Supply

/sys/class/power_supply/<supply_name>/precharge_current

Defined on file sysfs-class-power

Reports the charging current applied during pre-charging phase for a battery charge cycle.

Access: Read

Valid values: Represented in microamps

/sys/class/power_supply/<supply_name>/present

Defined on file sysfs-class-power

Reports whether a battery is present or not in the system. If the property does not exist, the battery is considered to be present.

Access: Read

Valid values:

0:

Absent

1:

Present

/sys/class/power_supply/<supply_name>/serial_number

Defined on file sysfs-class-power

Reports the serial number of the device.

Access: Read Valid values: Represented as string

/sys/class/power_supply/<supply_name>/status

Defined on file sysfs-class-power

Represents the charging status of the battery. Normally this is read-only reporting although for some supplies this can be used to enable/disable charging to the battery.

Access: Read, Write

Valid values:

“Unknown”, “Charging”, “Discharging”, “Not charging”, “Full”

/sys/class/power_supply/<supply_name>/technology

Defined on file sysfs-class-power

Describes the battery technology supported by the supply.

Access: Read

Valid values:

“Unknown”, “NiMH”, “Li-ion”, “Li-poly”, “LiFe”, “NiCd”, “LiMn”

/sys/class/power_supply/<supply_name>/temp

Defined on file sysfs-class-power

Battery:

Reports the current TBAT battery temperature reading.

USB:

Reports the current supply temperature reading. This would normally be the internal temperature of the device itself (e.g TJUNC temperature of an IC)

Access: Read

Valid values: Represented in 1/10 Degrees Celsius

/sys/class/power_supply/<supply_name>/temp_alert_max

Defined on file sysfs-class-power

Battery:

Maximum TBAT temperature trip-wire value where the supply will notify user-space of the event.

USB:

Maximum supply temperature trip-wire value where the supply will notify user-space of the event.

This is normally used for the charging scenario where user-space needs to know if the temperature has crossed an upper threshold so it can take appropriate action (e.g. warning user that the temperature is critically high, and charging has stopped).

Access: Read

Valid values: Represented in 1/10 Degrees Celsius

/sys/class/power_supply/<supply_name>/temp_alert_min

Defined on file sysfs-class-power

Battery:

Minimum TBAT temperature trip-wire value where the supply will notify user-space of the event.

USB:

Minimum supply temperature trip-wire value where the supply will notify user-space of the event.

This is normally used for the charging scenario where user-space needs to know if the temperature has crossed a lower threshold so it can take appropriate action (e.g. warning user that temperature level is high, and charging current has been reduced accordingly to remedy the situation).

Access: Read

Valid values: Represented in 1/10 Degrees Celsius

/sys/class/power_supply/<supply_name>/temp_max

Defined on file sysfs-class-power

Battery:

Reports the maximum allowed TBAT battery temperature for charging.

USB:

Reports the maximum allowed supply temperature for operation.

Access: Read

Valid values: Represented in 1/10 Degrees Celsius

/sys/class/power_supply/<supply_name>/temp_min

Defined on file sysfs-class-power

Battery:

Reports the minimum allowed TBAT battery temperature for charging.

USB:

Reports the minimum allowed supply temperature for operation.

Access: Read

Valid values: Represented in 1/10 Degrees Celsius

/sys/class/power_supply/<supply_name>/type

Defined on file sysfs-class-power

Describes the main type of the supply.

Access: Read Valid values: “Battery”, “UPS”, “Mains”, “USB”, “Wireless”

Battery and USB properties

/sys/class/power_supply/<supply_name>/usb_type

Defined on file sysfs-class-power

Reports what type of USB connection is currently active for the supply, for example it can show if USB-PD capable source is attached.

Access: For power-supplies which consume USB power such as battery charger chips, this indicates the type of the connected USB power source and is Read-Only.

For power-supplies which act as a USB power-source such as e.g. the UCS1002 USB Port Power Controller this is writable.

Valid values:

“Unknown”, “SDP”, “DCP”, “CDP”, “ACA”, “C”, “PD”, “PD_DRP”, “PD_PPS”, “BrickID”

Device Specific Properties

/sys/class/power_supply/<supply_name>/voltage_avg

Defined on file sysfs-class-power

Reports an average VBAT voltage reading for the battery, over a fixed period. Normally devices will provide a fixed interval in which they average readings to smooth out the reported value.

Access: Read

Valid values: Represented in microvolts

/sys/class/power_supply/<supply_name>/voltage_max

Defined on file sysfs-class-power

Battery:

Reports the maximum safe VBAT voltage permitted for the battery, during charging.

USB:

Reports the maximum VBUS voltage the supply can support.

Access: Read

Valid values: Represented in microvolts

/sys/class/power_supply/<supply_name>/voltage_min

Defined on file sysfs-class-power

Battery:

Reports the minimum safe VBAT voltage permitted for the battery, during discharging.

USB:

Reports the minimum VBUS voltage the supply can support.

Access: Read

Valid values: Represented in microvolts

/sys/class/power_supply/<supply_name>/voltage_now

Defined on file sysfs-class-power

Battery:

Reports an instant, single VBAT voltage reading for the battery. This value is not averaged/smoothed.

Access: Read

USB:

Reports the VBUS voltage supplied now. This value is generally read-only reporting, unless the ‘online’ state of the supply is set to be programmable, in which case this value can be set within the reported min/max range.

Access: Read, Write

Valid values: Represented in microvolts

Battery Properties

/sys/class/power_supply/bq24257-charger/high_impedance_enable

Defined on file sysfs-class-power

This entry allows enabling the high-impedance mode of bq24257-type charger devices. If enabled, it places the charger IC into low power standby mode with the switch mode controller disabled. When disabled, the charger operates normally. See device datasheet for details.

Valid values:

  • 1: enabled

  • 0: disabled

/sys/class/power_supply/bq24257-charger/in_dpm_voltage

Defined on file sysfs-class-power

This entry configures the input dynamic power path management voltage of bq24257-type charger devices. Once the supply drops to the configured voltage, the input current limit is reduced down to prevent the further drop of the supply. When the IC enters this mode, the charge current is lower than the set value. See device datasheet for details.

Valid values:

  • 4200000, 4280000, 4360000, 4440000, 4520000, 4600000, 4680000, 4760000 (all uV)

/sys/class/power_supply/bq24257-charger/ovp_voltage

Defined on file sysfs-class-power

This entry configures the overvoltage protection feature of bq24257- type charger devices. This feature protects the device and other components against damage from overvoltage on the input supply. See device datasheet for details.

Valid values:

  • 6000000, 6500000, 7000000, 8000000, 9000000, 9500000, 10000000, 10500000 (all uV)

/sys/class/power_supply/bq24257-charger/sysoff_enable

Defined on file sysfs-class-power

This entry allows enabling the sysoff mode of bq24257-type charger devices. If enabled and the input is removed, the internal battery FET is turned off in order to reduce the leakage from the BAT pin to less than 1uA. Note that on some devices/systems this disconnects the battery from the system. See device datasheet for details.

Valid values:

  • 1: enabled

  • 0: disabled

/sys/class/power_supply/ltc4162-l/arm_ship_mode

Defined on file sysfs-class-power-ltc4162l

The charger will normally drain the battery while inactive, typically drawing about 54 microamps. Write a “1” to this property to arm a special “ship” mode that extends shelf life by reducing the leakage to about 2.8 microamps. The chip will remain in this mode (and no longer respond to I2C commands) until some external power-supply is attached raising the input voltage above 1V. It will then automatically revert to “0”. Writing a “0” to the property cancels the “ship” mode request. The ship mode, when armed, activates once the input voltage drops below 1V.

Access: Read, Write

Valid values: 0 (disable) or 1 (enable)

/sys/class/power_supply/ltc4162-l/charge_status

Defined on file sysfs-class-power-ltc4162l

Detailed charge status information as reported by the chip.

Access: Read

Valid values:

ilim_reg_active thermal_reg_active vin_uvcl_active iin_limit_active constant_current constant_voltage charger_off

/sys/class/power_supply/ltc4162-l/force_telemetry

Defined on file sysfs-class-power-ltc4162l

To save battery current, the measurement system is disabled if the battery is the only source of power. This affects all voltage, current and temperature measurements. Write a “1” to this to keep performing telemetry once every few seconds, even when running on battery (as reported by the online property, which is “1” when external power is available and “0” when the system runs on battery).

Access: Read, Write

Valid values: 0 (disabled) or 1 (enabled)

/sys/class/power_supply/ltc4162-l/ibat

Defined on file sysfs-class-power-ltc4162l

Battery input current as measured by the charger. Negative value means that the battery is discharging.

Access: Read

Valid values: Signed value in microamps

/sys/class/power_supply/ltc4162-l/vbat

Defined on file sysfs-class-power-ltc4162l

Battery voltage as measured by the charger.

Access: Read

Valid values: In microvolts

/sys/class/power_supply/ltc4162-l/vbat_avg

Defined on file sysfs-class-power-ltc4162l

Battery voltage, averaged over time, as measured by the charger.

Access: Read

Valid values: In microvolts

/sys/class/power_supply/max14577-charger/device/fast_charge_timer

Defined on file sysfs-class-power

This entry shows and sets the maximum time the max14577 charger operates in fast-charge mode. When the timer expires the device will terminate fast-charge mode (charging current will drop to 0 A) and will trigger interrupt.

Valid values:

  • 5, 6 or 7 (hours),

  • 0: disabled.

/sys/class/power_supply/max77693-charger/device/fast_charge_timer

Defined on file sysfs-class-power

This entry shows and sets the maximum time the max77693 charger operates in fast-charge mode. When the timer expires the device will terminate fast-charge mode (charging current will drop to 0 A) and will trigger interrupt.

Valid values:

  • 4 - 16 (hours), step by 2 (rounded down)

  • 0: disabled.

/sys/class/power_supply/max77693-charger/device/top_off_threshold_current

Defined on file sysfs-class-power

This entry shows and sets the charging current threshold for entering top-off charging mode. When charging current in fast charge mode drops below this value, the charger will trigger interrupt and start top-off charging mode.

Valid values:

  • 100000 - 200000 (microamps), step by 25000 (rounded down)

  • 200000 - 350000 (microamps), step by 50000 (rounded down)

  • 0: disabled.

/sys/class/power_supply/max77693-charger/device/top_off_timer

Defined on file sysfs-class-power

This entry shows and sets the maximum time the max77693 charger operates in top-off charge mode. When the timer expires the device will terminate top-off charge mode (charging current will drop to 0 A) and will trigger interrupt.

Valid values:

  • 0 - 70 (minutes), step by 10 (rounded down)

/sys/class/power_supply/mp2629_battery/batt_impedance_compen

Defined on file sysfs-class-power-mp2629

Represents a battery impedance compensation to accelerate charging.

Access: Read, Write

Valid values: Represented in milli-ohms. Valid range is [0, 140].

/sys/class/power_supply/rt9467-*/sysoff_enable

Defined on file sysfs-class-power-rt9467

This entry allows enabling the sysoff mode of rt9467 charger devices. If enabled and the input is removed, the internal battery FET is turned off to reduce the leakage from the BAT pin. See device datasheet for details. It’s commonly used when the product enter shipping stage. After entering shipping mode, only ‘VBUS’ or ‘Power key” pressed can make it leave this mode. ‘Disable’ also can help to leave it, but it’s more like to abort the action before the device really enter shipping mode.

Access: Read, Write Valid values: - 1: enabled - 0: disabled

/sys/class/power_supply/rt9471-*/port_detect_enable

Defined on file sysfs-class-power-rt9471

This entry allows enabling the USB BC12 port detect function of rt9471 charger devices. If enabled and VBUS is inserted, device will start to do the BC12 port detect and report the usb port type when port detect is done. See datasheet for details. Normally controlled when TypeC/USBPD port integrated.

Access: Read, Write Valid values: - 1: enabled - 0: disabled

/sys/class/power_supply/rt9471-*/sysoff_enable

Defined on file sysfs-class-power-rt9471

This entry allows enabling the sysoff mode of rt9471 charger devices. If enabled and the input is removed, the internal battery FET is turned off to reduce the leakage from the BAT pin. See device datasheet for details. It’s commonly used when the product enter shipping stage. After entering shipping mode, only ‘VBUS’ or ‘Power key” pressed can make it leave this mode. ‘Disable’ also can help to leave it, but it’s more like to abort the action before the device really enter shipping mode.

Access: Read, Write Valid values: - 1: enabled - 0: disabled

/sys/class/power_supply/twl4030_ac/mode

Defined on file sysfs-class-power-twl4030

Changing mode for ‘ac’ port. Writing to this can disable charging.

Possible values are:

“auto”

draw power as appropriate for detected power source and battery status.

“off”

do not draw any power.

/sys/class/power_supply/twl4030_usb/mode

Defined on file sysfs-class-power-twl4030

Changing mode for USB port. Writing to this can disable charging.

Possible values are:

“auto”

draw power as appropriate for detected power source and battery status.

“off”

do not draw any power.

“continuous”

activate mode described as “linear” in TWL data sheets. This uses whatever current is available and doesn’t switch off when voltage drops.

This is useful for unstable power sources such as bicycle dynamo, but care should be taken that battery is not over-charged.

/sys/class/power_supply/wilco-charger/charge_control_end_threshold

Defined on file sysfs-class-power-wilco

Used when charge_type=”Custom”, as described above. Measured in percentages. The valid range is [55, 100].

/sys/class/power_supply/wilco-charger/charge_control_start_threshold

Defined on file sysfs-class-power-wilco

Used when charge_type=”Custom”, as described above. Measured in percentages. The valid range is [50, 95].

/sys/class/power_supply/wilco-charger/charge_type

Defined on file sysfs-class-power-wilco

What charging algorithm to use:

Standard:

Fully charges battery at a standard rate.

Adaptive:

Battery settings adaptively optimized based on typical battery usage pattern.

Fast:

Battery charges over a shorter period.

Trickle:

Extends battery lifespan, intended for users who primarily use their Chromebook while connected to AC.

Custom:

A low and high threshold percentage is specified. Charging begins when level drops below charge_control_start_threshold, and ceases when level is above charge_control_end_threshold.

Long Life:

Customized charge rate for last longer battery life. On Wilco device this mode is pre-configured in the factory through EC’s private PID. Switching to a different mode will be denied by Wilco EC when Long Life mode is enabled.

/sys/class/powercap/

Defined on file sysfs-class-powercap

The powercap/ class sub directory belongs to the power cap subsystem. Refer to Power Capping Framework for details.

/sys/class/powercap/.../<power zone>/constraint_X_max_time_window_us

Defined on file sysfs-class-powercap

Maximum allowed time window in micro seconds for this constraint. Here “X” can have values from 0 to max integer.

/sys/class/powercap/.../<power zone>/constraint_X_min_time_window_us

Defined on file sysfs-class-powercap

Minimum allowed time window in micro seconds for this constraint. Here “X” can have values from 0 to max integer.

/sys/class/powercap/.../<power zone>/constraint_X_name

Defined on file sysfs-class-powercap

Each power zone can define one or more constraints. Each constraint can have an optional name. Here “X” can have values from 0 to max integer.

/sys/class/powercap/.../<power zone>/constraint_X_power_limit_uw

Defined on file sysfs-class-powercap

Power limit in micro-watts should be applicable for the time window specified by “constraint_X_time_window_us”. Here “X” can have values from 0 to max integer.

/sys/class/powercap/.../<power zone>/constraint_X_time_window_us

Defined on file sysfs-class-powercap

Time window in micro seconds. This is used along with constraint_X_power_limit_uw to define a power constraint. Here “X” can have values from 0 to max integer.

/sys/class/powercap/.../<power zone>/enabled

Defined on file sysfs-class-powercap

This allows to enable/disable power capping at power zone level. This applies to current power zone and its children.

/sys/class/powercap/.../<power zone>/energy_uj

Defined on file sysfs-class-powercap

Current energy counter in micro-joules. Write “0” to reset. If the counter can not be reset, then this attribute is read-only.

/sys/class/powercap/.../<power zone>/max_energy_range_uj

Defined on file sysfs-class-powercap

Range of the above energy counter in micro-joules.

/sys/class/powercap/.../<power zone>/max_power_range_uw

Defined on file sysfs-class-powercap

Range of the above power value in micro-watts.

/sys/class/powercap/.../<power zone>/name

Defined on file sysfs-class-powercap

Specifies the name of this power zone.

/sys/class/powercap/.../<power zone>/power_uw

Defined on file sysfs-class-powercap

Current power in micro-watts.

/sys/class/powercap/<control type>

Defined on file sysfs-class-powercap

A <control type> is a unique name under /sys/class/powercap. Here <control type> determines how the power is going to be controlled. A <control type> can contain multiple power zones.

/sys/class/powercap/<control type>/.../constraint_X_max_power_uw

Defined on file sysfs-class-powercap

Maximum allowed power in micro watts for this constraint. Here “X” can have values from 0 to max integer.

/sys/class/powercap/<control type>/.../constraint_X_min_power_uw

Defined on file sysfs-class-powercap

Minimum allowed power in micro watts for this constraint. Here “X” can have values from 0 to max integer.

/sys/class/powercap/<control type>/<power zone>

Defined on file sysfs-class-powercap

A power zone is a single or a collection of devices, which can be independently monitored and controlled. A power zone sysfs entry is qualified with the name of the <control type>. E.g. intel-rapl:0:1:1.

/sys/class/powercap/<control type>/<power zone>/<child power zone>

Defined on file sysfs-class-powercap

Power zones may be organized in a hierarchy in which child power zones provide monitoring and control for a subset of devices under the parent. For example, if there is a parent power zone for a whole CPU package, each CPU core in it can be a child power zone.

/sys/class/powercap/<control type>/enabled

Defined on file sysfs-class-powercap

This allows to enable/disable power capping for a “control type”. This status affects every power zone using this “control_type.

/sys/class/pps/

Defined on file sysfs-pps

The /sys/class/pps/ directory will contain files and directories that will provide a unified interface to the PPS sources.

/sys/class/pps/ppsX/

Defined on file sysfs-pps

The /sys/class/pps/ppsX/ directory is related to X-th PPS source into the system. Each directory will contain files to manage and control its PPS source.

/sys/class/pps/ppsX/assert

Defined on file sysfs-pps

The /sys/class/pps/ppsX/assert file reports the assert events and the assert sequence number of the X-th source in the form:

<secs>.<nsec>#<sequence>

If the source has no assert events the content of this file is empty.

/sys/class/pps/ppsX/clear

Defined on file sysfs-pps

The /sys/class/pps/ppsX/clear file reports the clear events and the clear sequence number of the X-th source in the form:

<secs>.<nsec>#<sequence>

If the source has no clear events the content of this file is empty.

/sys/class/pps/ppsX/echo

Defined on file sysfs-pps

The /sys/class/pps/ppsX/echo file reports if the X-th does or does not support an “echo” function.

/sys/class/pps/ppsX/mode

Defined on file sysfs-pps

The /sys/class/pps/ppsX/mode file reports the functioning mode of the X-th source in hexadecimal encoding.

Please, refer to linux/include/linux/pps.h for further info.

/sys/class/pps/ppsX/name

Defined on file sysfs-pps

The /sys/class/pps/ppsX/name file reports the name of the X-th source.

/sys/class/pps/ppsX/path

Defined on file sysfs-pps

The /sys/class/pps/ppsX/path file reports the path name of the device connected with the X-th source.

If the source is not connected with any device the content of this file is empty.

/sys/class/ptp/

Defined on file sysfs-ptp

This directory contains files and directories providing a standardized interface to the ancillary features of PTP hardware clocks.

/sys/class/ptp/ptp<N>/

Defined on file sysfs-ptp

This directory contains the attributes of the Nth PTP hardware clock registered into the PTP class driver subsystem.

/sys/class/ptp/ptp<N>/clock_name

Defined on file sysfs-ptp

This file contains the name of the PTP hardware clock as a human readable string. The purpose of this attribute is to provide the user with a “friendly name” and to help distinguish PHY based devices from MAC based ones. The string does not necessarily have to be any kind of unique id.

/sys/class/ptp/ptp<N>/extts_enable

Defined on file sysfs-ptp

This write-only file enables or disables external timestamps. To enable external timestamps, write the channel index followed by a “1” into the file. To disable external timestamps, write the channel index followed by a “0” into the file.

/sys/class/ptp/ptp<N>/fifo

Defined on file sysfs-ptp

This file provides timestamps on external events, in the form of three integers: channel index, seconds, and nanoseconds.

/sys/class/ptp/ptp<N>/max_adjustment

Defined on file sysfs-ptp

This file contains the PTP hardware clock’s maximum frequency adjustment value (a positive integer) in parts per billion.

/sys/class/ptp/ptp<N>/max_vclocks

Defined on file sysfs-ptp

This file contains the maximum number of ptp vclocks. Write integer to re-configure it.

/sys/class/ptp/ptp<N>/n_alarms

Defined on file sysfs-ptp

This file contains the number of periodic or one shot alarms offer by the PTP hardware clock.

/sys/class/ptp/ptp<N>/n_external_timestamps

Defined on file sysfs-ptp

This file contains the number of external timestamp channels offered by the PTP hardware clock.

/sys/class/ptp/ptp<N>/n_periodic_outputs

Defined on file sysfs-ptp

This file contains the number of programmable periodic output channels offered by the PTP hardware clock.

/sys/class/ptp/ptp<N>/n_pins

Defined on file sysfs-ptp

This file contains the number of programmable pins offered by the PTP hardware clock.

/sys/class/ptp/ptp<N>/n_vclocks

Defined on file sysfs-ptp

This file contains the number of virtual PTP clocks in use. By default, the value is 0 meaning that only the physical clock is in use. Setting the value creates the corresponding number of virtual clocks and causes the physical clock to become free running. Setting the value back to 0 deletes the virtual clocks and switches the physical clock back to normal, adjustable operation.

/sys/class/ptp/ptp<N>/period

Defined on file sysfs-ptp

This write-only file enables or disables periodic outputs. To enable a periodic output, write five integers into the file: channel index, start time seconds, start time nanoseconds, period seconds, and period nanoseconds. To disable a periodic output, set all the seconds and nanoseconds values to zero.

/sys/class/ptp/ptp<N>/pins

Defined on file sysfs-ptp

This directory contains one file for each programmable pin offered by the PTP hardware clock. The file name is the hardware dependent pin name. Reading from this file produces two numbers, the assigned function (see the PTP_PF_ enumeration values in linux/ptp_clock.h) and the channel number. The function and channel assignment may be changed by two writing numbers into the file.

/sys/class/ptp/ptp<N>/pps_available

Defined on file sysfs-ptp

This file indicates whether the PTP hardware clock supports a Pulse Per Second to the host CPU. Reading “1” means that the PPS is supported, while “0” means not supported.

/sys/class/ptp/ptp<N>/pps_enable

Defined on file sysfs-ptp

This write-only file enables or disables delivery of PPS events to the Linux PPS subsystem. To enable PPS events, write a “1” into the file. To disable events, write a “0” into the file.

/sys/class/pwm/

Defined on file sysfs-class-pwm

The pwm/ class sub-directory belongs to the Generic PWM Framework and provides a sysfs interface for using PWM channels.

/sys/class/pwm/pwmchip<N>/

Defined on file sysfs-class-pwm

A /sys/class/pwm/pwmchipN directory is created for each probed PWM controller/chip where N is the base of the PWM chip.

/sys/class/pwm/pwmchip<N>/export

Defined on file sysfs-class-pwm

Exports a PWM channel from the PWM chip for sysfs control. Value is between 0 and /sys/class/pwm/pwmchipN/npwm - 1.

/sys/class/pwm/pwmchip<N>/npwm

Defined on file sysfs-class-pwm

The number of PWM channels supported by the PWM chip.

/sys/class/pwm/pwmchip<N>/pwmX

Defined on file sysfs-class-pwm

A /sys/class/pwm/pwmchipN/pwmX directory is created for each exported PWM channel where X is the exported PWM channel number.

/sys/class/pwm/pwmchip<N>/pwmX/capture

Defined on file sysfs-class-pwm

Capture information about a PWM signal. The output format is a pair unsigned integers (period and duty cycle), separated by a single space.

/sys/class/pwm/pwmchip<N>/pwmX/duty_cycle

Defined on file sysfs-class-pwm

Sets the PWM signal duty cycle in nanoseconds.

/sys/class/pwm/pwmchip<N>/pwmX/enable

Defined on file sysfs-class-pwm

Enable/disable the PWM signal. 0 is disabled 1 is enabled

/sys/class/pwm/pwmchip<N>/pwmX/period

Defined on file sysfs-class-pwm

Sets the PWM signal period in nanoseconds.

/sys/class/pwm/pwmchip<N>/pwmX/polarity

Defined on file sysfs-class-pwm

Sets the output polarity of the PWM signal to “normal” or “inversed”.

/sys/class/pwm/pwmchip<N>/unexport

Defined on file sysfs-class-pwm

Unexports a PWM channel.

/sys/class/rapidio_port

Defined on file sysfs-class-rapidio

On-chip RapidIO controllers and PCIe-to-RapidIO bridges (referenced as “Master Port” or “mport”) are presented in sysfs as the special class of devices: “rapidio_port”. The /sys/class/rapidio_port subdirectory contains individual subdirectories named as “rapidioN” where N = mport ID registered with RapidIO subsystem.

NOTE: An mport ID is not a RapidIO destination ID assigned to a given local mport device.

/sys/class/rapidio_port/rapidio<N>/port_destid

Defined on file sysfs-class-rapidio

(RO) reports RapidIO destination ID assigned to the given RapidIO mport device. If value 0xFFFFFFFF is returned this means that no valid destination ID have been assigned to the mport (yet). Normally, before enumeration/discovery have been executed only fabric enumerating mports have a valid destination ID assigned to them using “hdid=...” rapidio module parameter.

After enumeration or discovery was performed for a given mport device, the corresponding subdirectory will also contain subdirectories for each child RapidIO device connected to the mport.

The example below shows mport device subdirectory with several child RapidIO devices attached to it:

[rio@rapidio ~]$ ls /sys/class/rapidio_port/rapidio0/ -l
total 0
drwxr-xr-x 3 root root    0 Feb 11 15:10 00:e:0001
drwxr-xr-x 3 root root    0 Feb 11 15:10 00:e:0004
drwxr-xr-x 3 root root    0 Feb 11 15:10 00:e:0007
drwxr-xr-x 3 root root    0 Feb 11 15:10 00:s:0002
drwxr-xr-x 3 root root    0 Feb 11 15:10 00:s:0003
drwxr-xr-x 3 root root    0 Feb 11 15:10 00:s:0005
lrwxrwxrwx 1 root root    0 Feb 11 15:11 device -> ../../../0000:01:00.0
-r--r--r-- 1 root root 4096 Feb 11 15:11 port_destid
drwxr-xr-x 2 root root    0 Feb 11 15:11 power
lrwxrwxrwx 1 root root    0 Feb 11 15:04 subsystem -> ../../../../../../class/rapidio_port
-r--r--r-- 1 root root 4096 Feb 11 15:11 sys_size
-rw-r--r-- 1 root root 4096 Feb 11 15:04 uevent

/sys/class/rapidio_port/rapidio<N>/sys_size

Defined on file sysfs-class-rapidio

(RO) reports RapidIO common transport system size:

0 = small (8-bit destination ID, max. 256 devices),

1 = large (16-bit destination ID, max. 65536 devices).

/sys/class/rc/

Defined on file sysfs-class-rc

The rc/ class sub-directory belongs to the Remote Controller core and provides a sysfs interface for configuring infrared remote controller receivers.

/sys/class/rc/rc<N>/

Defined on file sysfs-class-rc

A /sys/class/rc/rcN directory is created for each remote control receiver device where N is the number of the receiver.

/sys/class/rc/rc<N>/filter

Defined on file sysfs-class-rc

Sets the scancode filter expected value.

Use in combination with /sys/class/rc/rcN/filter_mask to set the expected value of the bits set in the filter mask. If the hardware supports it then scancodes which do not match the filter will be ignored. Otherwise the write will fail with an error.

This value may be reset to 0 if the current protocol is altered.

/sys/class/rc/rc<N>/filter_mask

Defined on file sysfs-class-rc

Sets the scancode filter mask of bits to compare. Use in combination with /sys/class/rc/rcN/filter to set the bits of the scancode which should be compared against the expected value. A value of 0 disables the filter to allow all valid scancodes to be processed.

If the hardware supports it then scancodes which do not match the filter will be ignored. Otherwise the write will fail with an error.

This value may be reset to 0 if the current protocol is altered.

/sys/class/rc/rc<N>/protocols

Defined on file sysfs-class-rc

Reading this file returns a list of available protocols, something like:

"rc5 [rc6] nec jvc [sony]"

Enabled protocols are shown in [] brackets.

Writing “+proto” will add a protocol to the list of enabled protocols.

Writing “-proto” will remove a protocol from the list of enabled protocols.

Writing “proto” will enable only “proto”.

Writing “none” will disable all protocols.

Write fails with EINVAL if an invalid protocol combination or unknown protocol name is used.

/sys/class/rc/rc<N>/wakeup_data

Defined on file sysfs-class-rc-nuvoton

Reading this file returns the stored CIR wakeup sequence. It starts with a pulse, followed by a space, pulse etc. All values are in microseconds. The same format can be used to store a wakeup sequence in the Nuvoton chip by writing to this file.

Note: Some systems reset the stored wakeup sequence to a factory default on each boot. On such systems store the wakeup sequence in a file and set it on boot using e.g. a udev rule.

/sys/class/rc/rc<N>/wakeup_filter

Defined on file sysfs-class-rc

Sets the scancode wakeup filter expected value.

Use in combination with /sys/class/rc/rcN/wakeup_filter_mask to set the expected value of the bits set in the wakeup filter mask to trigger a system wake event.

If the hardware supports it and wakeup_filter_mask is not 0 then scancodes which match the filter will wake the system from e.g. suspend to RAM or power off.

Otherwise the write will fail with an error.

This value may be reset to 0 if the wakeup protocol is altered.

/sys/class/rc/rc<N>/wakeup_filter_mask

Defined on file sysfs-class-rc

Sets the scancode wakeup filter mask of bits to compare.

Use in combination with /sys/class/rc/rcN/wakeup_filter to set the bits of the scancode which should be compared against the expected value to trigger a system wake event.

If the hardware supports it and wakeup_filter_mask is not 0 then scancodes which match the filter will wake the system from e.g. suspend to RAM or power off.

Otherwise the write will fail with an error.

This value may be reset to 0 if the wakeup protocol is altered.

/sys/class/rc/rc<N>/wakeup_protocols

Defined on file sysfs-class-rc

Reading this file returns a list of available protocols to use for the wakeup filter, something like:

"rc-5 nec nec-x rc-6-0 rc-6-6a-24 [rc-6-6a-32] rc-6-mce"

Note that protocol variants are listed, so “nec”, “sony”, “rc-5”, “rc-6” have their different bit length encodings listed if available.

The enabled wakeup protocol is shown in [] brackets.

Only one protocol can be selected at a time.

Writing “proto” will use “proto” for wakeup events.

Writing “none” will disable wakeup.

Write fails with EINVAL if an invalid protocol combination or unknown protocol name is used, or if wakeup is not supported by the hardware.

/sys/class/regulator/.../bypass

Defined on file sysfs-class-regulator

Some regulator directories will contain a field called bypass. This indicates if the device is in bypass mode.

This will be one of the following strings:

  • ‘enabled’

  • ‘disabled’

  • ‘unknown’

‘enabled’ means the regulator is in bypass mode.

‘disabled’ means that the regulator is regulating.

‘unknown’ means software cannot determine the state, or the reported state is invalid.

/sys/class/regulator/.../fail

Defined on file sysfs-class-regulator

Some regulator directories will contain a field called fail. This indicates if the device reports an output failure (1) or not (0).

/sys/class/regulator/.../max_microamps

Defined on file sysfs-class-regulator

Some regulator directories will contain a field called max_microamps. This holds the maximum safe working regulator output current limit setting for this domain measured in microamps, for regulators which support current constraints.

NOTE: this will return the string ‘constraint not defined’ if the power domain has no max microamps constraint defined by platform code.

/sys/class/regulator/.../max_microvolts

Defined on file sysfs-class-regulator

Some regulator directories will contain a field called max_microvolts. This holds the maximum safe working regulator output voltage setting for this domain measured in microvolts, for regulators which support voltage constraints.

NOTE: this will return the string ‘constraint not defined’ if the power domain has no max microvolts constraint defined by platform code.

/sys/class/regulator/.../microamps

Defined on file sysfs-class-regulator

Some regulator directories will contain a field called microamps. This holds the regulator output current limit setting measured in microamps (i.e. E-6 Amps), for regulators which can report the control input for a current limit.

NOTE: This value should not be used to determine the regulator output current level as this value is the same regardless of whether the regulator is enabled or disabled.

/sys/class/regulator/.../microvolts

Defined on file sysfs-class-regulator

Some regulator directories will contain a field called microvolts. This holds the regulator output voltage setting measured in microvolts (i.e. E-6 Volts), for regulators which can report the control input for voltage.

NOTE: This value should not be used to determine the regulator output voltage level as this value is the same regardless of whether the regulator is enabled or disabled.

/sys/class/regulator/.../min_microamps

Defined on file sysfs-class-regulator

Some regulator directories will contain a field called min_microamps. This holds the minimum safe working regulator output current limit setting for this domain measured in microamps, for regulators which support current constraints.

NOTE: this will return the string ‘constraint not defined’ if the power domain has no min microamps constraint defined by platform code.

/sys/class/regulator/.../min_microvolts

Defined on file sysfs-class-regulator

Some regulator directories will contain a field called min_microvolts. This holds the minimum safe working regulator output voltage setting for this domain measured in microvolts, for regulators which support voltage constraints.

NOTE: this will return the string ‘constraint not defined’ if the power domain has no min microvolts constraint defined by platform code.

/sys/class/regulator/.../name

Defined on file sysfs-class-regulator

Each regulator directory will contain a field called name. This holds a string identifying the regulator for display purposes.

NOTE: this will be empty if no suitable name is provided by platform or regulator drivers.

/sys/class/regulator/.../num_users

Defined on file sysfs-class-regulator

Each regulator directory will contain a field called num_users. This holds the number of consumer devices that have called regulator_enable() on this regulator.

/sys/class/regulator/.../opmode

Defined on file sysfs-class-regulator

Some regulator directories will contain a field called opmode. This holds the current regulator operating mode, for regulators which can report that control input value.

The opmode value can be one of the following strings:

  • ‘fast’

  • ‘normal’

  • ‘idle’

  • ‘standby’

  • ‘unknown’

The modes are described in include/linux/regulator/consumer.h

NOTE: This value should not be used to determine the regulator output operating mode as this value is the same regardless of whether the regulator is enabled or disabled. A “status” attribute may be available to determine the actual mode.

/sys/class/regulator/.../over_current

Defined on file sysfs-class-regulator

Some regulator directories will contain a field called over_current. This indicates if the device reports an over-current fault (1) or not (0).

/sys/class/regulator/.../over_current_warn

Defined on file sysfs-class-regulator

Some regulator directories will contain a field called over_current_warn. This indicates if the device reports an over-current warning (1) or not (0).

/sys/class/regulator/.../over_temp

Defined on file sysfs-class-regulator

Some regulator directories will contain a field called over_temp. This indicates if the device reports an over-temperature fault (1) or not (0).

/sys/class/regulator/.../over_temp_warn

Defined on file sysfs-class-regulator

Some regulator directories will contain a field called over_temp_warn. This indicates if the device reports an over-temperature warning (1) or not (0).

/sys/class/regulator/.../over_voltage_warn

Defined on file sysfs-class-regulator

Some regulator directories will contain a field called over_voltage_warn. This indicates if the device reports an over-voltage warning (1) or not (0).

/sys/class/regulator/.../parent

Defined on file sysfs-class-regulator

Some regulator directories will contain a link called parent. This points to the parent or supply regulator if one exists.

/sys/class/regulator/.../regulation_out

Defined on file sysfs-class-regulator

Some regulator directories will contain a field called regulation_out. This indicates if the device reports an out-of-regulation fault (1) or not (0).

/sys/class/regulator/.../requested_microamps

Defined on file sysfs-class-regulator

Some regulator directories will contain a field called requested_microamps. This holds the total requested load current in microamps for this regulator from all its consumer devices.

/sys/class/regulator/.../state

Defined on file sysfs-class-regulator

Some regulator directories will contain a field called state. This reports the regulator enable control, for regulators which can report that input value.

This will be one of the following strings:

‘enabled’ ‘disabled’ ‘unknown’

‘enabled’ means the regulator output is ON and is supplying power to the system (assuming no error prevents it).

‘disabled’ means the regulator output is OFF and is not supplying power to the system (unless some non-Linux control has enabled it).

‘unknown’ means software cannot determine the state, or the reported state is invalid.

NOTE: this field can be used in conjunction with microvolts or microamps to determine configured regulator output levels.

/sys/class/regulator/.../status

Defined on file sysfs-class-regulator

Some regulator directories will contain a field called “status”. This reports the current regulator status, for regulators which can report that output value.

This will be one of the following strings:

  • off

  • on

  • error

  • fast

  • normal

  • idle

  • standby

“off” means the regulator is not supplying power to the system.

“on” means the regulator is supplying power to the system, and the regulator can’t report a detailed operation mode.

“error” indicates an out-of-regulation status such as being disabled due to thermal shutdown, or voltage being unstable because of problems with the input power supply.

“fast”, “normal”, “idle”, and “standby” are all detailed regulator operation modes (described elsewhere). They imply “on”, but provide more detail.

Note that regulator status is a function of many inputs, not limited to control inputs from Linux. For example, the actual load presented may trigger “error” status; or a regulator may be enabled by another user, even though Linux did not enable it.

/sys/class/regulator/.../suspend_disk_microvolts

Defined on file sysfs-class-regulator

Some regulator directories will contain a field called suspend_disk_microvolts. This holds the regulator output voltage setting for this domain measured in microvolts when the system is suspended to disk, for voltage regulators implementing suspend voltage configuration constraints.

/sys/class/regulator/.../suspend_disk_mode

Defined on file sysfs-class-regulator

Some regulator directories will contain a field called suspend_disk_mode. This holds the regulator operating mode setting for this domain when the system is suspended to disk, for regulators implementing suspend mode configuration constraints.

/sys/class/regulator/.../suspend_disk_state

Defined on file sysfs-class-regulator

Some regulator directories will contain a field called suspend_disk_state. This holds the regulator operating state when suspended to disk, for regulators implementing suspend configuration constraints.

This will be one of the same strings reported by the “state” attribute.

/sys/class/regulator/.../suspend_mem_microvolts

Defined on file sysfs-class-regulator

Some regulator directories will contain a field called suspend_mem_microvolts. This holds the regulator output voltage setting for this domain measured in microvolts when the system is suspended to memory, for voltage regulators implementing suspend voltage configuration constraints.

/sys/class/regulator/.../suspend_mem_mode

Defined on file sysfs-class-regulator

Some regulator directories will contain a field called suspend_mem_mode. This holds the regulator operating mode setting for this domain when the system is suspended to memory, for regulators implementing suspend mode configuration constraints.

/sys/class/regulator/.../suspend_mem_state

Defined on file sysfs-class-regulator

Some regulator directories will contain a field called suspend_mem_state. This holds the regulator operating state when suspended to memory, for regulators implementing suspend configuration constraints.

This will be one of the same strings reported by the “state” attribute.

/sys/class/regulator/.../suspend_standby_microvolts

Defined on file sysfs-class-regulator

Some regulator directories will contain a field called suspend_standby_microvolts. This holds the regulator output voltage setting for this domain measured in microvolts when the system is suspended to standby, for voltage regulators implementing suspend voltage configuration constraints.

/sys/class/regulator/.../suspend_standby_mode

Defined on file sysfs-class-regulator

Some regulator directories will contain a field called suspend_standby_mode. This holds the regulator operating mode setting for this domain when the system is suspended to standby, for regulators implementing suspend mode configuration constraints.

/sys/class/regulator/.../suspend_standby_state

Defined on file sysfs-class-regulator

Some regulator directories will contain a field called suspend_standby_state. This holds the regulator operating state when suspended to standby, for regulators implementing suspend configuration constraints.

This will be one of the same strings reported by the “state” attribute.

/sys/class/regulator/.../type

Defined on file sysfs-class-regulator

Each regulator directory will contain a field called type. This holds the regulator type.

This will be one of the following strings:

  • ‘voltage’

  • ‘current’

  • ‘unknown’

‘voltage’ means the regulator output voltage can be controlled by software.

‘current’ means the regulator output current limit can be controlled by software.

‘unknown’ means software cannot control either voltage or current limit.

/sys/class/regulator/.../under_voltage

Defined on file sysfs-class-regulator

Some regulator directories will contain a field called under_voltage. This indicates if the device reports an under-voltage fault (1) or not (0).

/sys/class/regulator/.../under_voltage_warn

Defined on file sysfs-class-regulator

Some regulator directories will contain a field called under_voltage_warn. This indicates if the device reports an under-voltage warning (1) or not (0).

/sys/class/remoteproc/.../coredump

Defined on file sysfs-class-remoteproc

Remote processor coredump configuration

Reports the coredump configuration of the remote processor, which will be one of:

“disabled” “enabled” “inline”

“disabled” means no dump will be collected.

“enabled” means when the remote processor’s coredump is collected it will be copied to a separate buffer and that buffer is exposed to userspace.

“inline” means when the remote processor’s coredump is collected userspace will directly read from the remote processor’s device memory. Extra buffer will not be used to copy the dump. Also recovery process will not proceed until all data is read by userspace.

/sys/class/remoteproc/.../firmware

Defined on file sysfs-class-remoteproc

Remote processor firmware

Reports the name of the firmware currently loaded to the remote processor.

To change the running firmware, ensure the remote processor is stopped (using /sys/class/remoteproc/.../state) and write a new filename.

/sys/class/remoteproc/.../name

Defined on file sysfs-class-remoteproc

Remote processor name

Reports the name of the remote processor. This can be used by userspace in exactly identifying a remote processor and ease up the usage in modifying the ‘firmware’ or ‘state’ files.

/sys/class/remoteproc/.../recovery

Defined on file sysfs-class-remoteproc

Remote processor recovery mechanism

Reports the recovery mechanism of the remote processor, which will be one of:

“enabled” “disabled”

“enabled” means, the remote processor will be automatically recovered whenever it crashes. Moreover, if the remote processor crashes while recovery is disabled, it will be automatically recovered too as soon as recovery is enabled.

“disabled” means, a remote processor will remain in a crashed state if it crashes. This is useful for debugging purposes; without it, debugging a crash is substantially harder.

/sys/class/remoteproc/.../state

Defined on file sysfs-class-remoteproc

Remote processor state

Reports the state of the remote processor, which will be one of:

  • “offline”

  • “suspended”

  • “running”

  • “crashed”

  • “invalid”

“offline” means the remote processor is powered off.

“suspended” means that the remote processor is suspended and must be woken to receive messages.

“running” is the normal state of an available remote processor

“crashed” indicates that a problem/crash has been detected on the remote processor.

“invalid” is returned if the remote processor is in an unknown state.

Writing this file controls the state of the remote processor. The following states can be written:

  • “start”

  • “stop”

Writing “start” will attempt to start the processor running the firmware indicated by, or written to, /sys/class/remoteproc/.../firmware. The remote processor should transition to “running” state.

Writing “stop” will attempt to halt the remote processor and return it to the “offline” state.

/sys/class/rnbd-client

Defined on file sysfs-class-rnbd-client

Provide information about RNBD-client. All sysfs files that are not read-only provide the usage information on read:

Example:

# cat /sys/class/rnbd-client/ctl/map_device

> Usage: echo "sessname=<name of the rtrs session> path=<[srcaddr,]dstaddr>
> [path=<[srcaddr,]dstaddr>] device_path=<full path on remote side>
> [access_mode=<ro|rw|migration>] > map_device
>
> addr ::= [ ip:<ipv4> | ip:<ipv6> | gid:<gid> ]

/sys/class/rnbd-client/ctl/devices/

Defined on file sysfs-class-rnbd-client

For each device mapped on the client a new symbolic link is created as /sys/class/rnbd-client/ctl/devices/<device_id>@<session_name>, which points to the block device created by rnbd (/sys/block/rnbd<N>/). The <device_id> of each device is created as follows:

  • If the ‘device_path’ provided during mapping contains slashes (“/”), they are replaced by exclamation mark (“!”) and used as as the <device_id>. Otherwise, the <device_id> will be the same as the “device_path” provided.

/sys/class/rnbd-client/ctl/map_device

Defined on file sysfs-class-rnbd-client

Expected format is the following:

sessname=<name of the rtrs session>
path=<[srcaddr,]dstaddr> [path=<[srcaddr,]dstaddr> ...]
device_path=<full path on remote side>
[access_mode=<ro|rw|migration>]

Where:

sessname:

accepts a string not bigger than 256 chars, which identifies a given session on the client and on the server. I.e. “clt_hostname-srv_hostname” could be a natural choice.

path:

describes a connection between the client and the server by specifying destination and, when required, the source address. The addresses are to be provided in the following format:

ip:<IPv6>
ip:<IPv4>
gid:<GID>

for example:

path=ip:10.0.0.66

The single addr is treated as the destination. The connection will be established to this server from any client IP address.

path=ip:10.0.0.66,ip:10.0.1.66

First addr is the source address and the second is the destination.

If multiple “path=” options are specified multiple connection will be established and data will be sent according to the selected multipath policy (see RTRS mp_policy sysfs entry description).

device_path:

Path to the block device on the server side. Path is specified relative to the directory on server side configured in the ‘dev_search_path’ module parameter of the rnbd_server. The rnbd_server prepends the <device_path> received from client with <dev_search_path> and tries to open the <dev_search_path>/<device_path> block device. On success, a /dev/rnbd<N> device file, a /sys/block/rnbd<N>/ directory and an entry in /sys/class/rnbd-client/ctl/devices will be created.

If ‘dev_search_path’ contains ‘%SESSNAME%’, then each session can have different devices namespace, e.g. server was configured with the following parameter “dev_search_path=/run/rnbd-devs/%SESSNAME%”, client has this string “sessname=blya device_path=sda”, then server will try to open: /run/rnbd-devs/blya/sda.

access_mode:

the access_mode parameter specifies if the device is to be mapped as “ro” read-only or “rw” read-write. The server allows a device to be exported in rw mode only once. The “migration” access mode has to be specified if a second mapping in read-write mode is desired.

By default “rw” is used.

nr_poll_queues

specifies the number of poll-mode queues. If the IO has HIPRI flag, the block-layer will send the IO via the poll-mode queue. For fast network and device the polling is faster than interrupt-base IO handling because it saves time for context switching, switching to another process, handling the interrupt and switching back to the issuing process.

Set -1 if you want to set it as the number of CPUs By default rnbd client creates only irq-mode queues.

NOTICE: MUST make a unique session for a device using the poll-mode queues.

Exit Codes:

If the device is already mapped it will fail with EEXIST. If the input has an invalid format it will return EINVAL. If the device path cannot be found on the server, it will fail with ENOENT.

Finding device file after mapping

After mapping, the device file can be found by: o The symlink /sys/class/rnbd-client/ctl/devices/<device_id>@<session_name> points to /sys/block/<dev-name>. The last part of the symlink destination is the same as the device name. By extracting the last part of the path the path to the device /dev/<dev-name> can be build.

  • /dev/block/$(cat /sys/class/rnbd-client/ctl/devices/<device_id>@<session_name>/dev)

How to find the <device_id> of the device is described on the next section.

/sys/class/rnbd-server

Defined on file sysfs-class-rnbd-server

provide information about RNBD-server.

/sys/class/rnbd-server/ctl/

Defined on file sysfs-class-rnbd-server

When a client maps a device, a directory entry with the name of the block device is created under /sys/class/rnbd-server/ctl/devices/.

/sys/class/rnbd-server/ctl/devices/<device_name>/block_dev

Defined on file sysfs-class-rnbd-server

Is a symlink to the sysfs entry of the exported device.

Example: block_dev -> ../../../../class/block/ram0

/sys/class/rnbd-server/ctl/devices/<device_name>/sessions/

Defined on file sysfs-class-rnbd-server

For each client a particular device is exported to, following directory will be created:

/sys/class/rnbd-server/ctl/devices/<device_name>/sessions/<session-name>/

When the device is unmapped by that client, the directory will be removed.

/sys/class/rnbd-server/ctl/devices/<device_name>/sessions/<session-name>/access_mode

Defined on file sysfs-class-rnbd-server

Contains the device access mode: ro, rw or migration.

/sys/class/rnbd-server/ctl/devices/<device_name>/sessions/<session-name>/force_close

Defined on file sysfs-class-rnbd-server

Write “1” to the file to close the device on server side. Please note that the client side device will not be closed, read or write to the device will get -ENOTCONN.

/sys/class/rnbd-server/ctl/devices/<device_name>/sessions/<session-name>/mapping_path

Defined on file sysfs-class-rnbd-server

Contains the relative device path provided by the user during mapping.

/sys/class/rnbd-server/ctl/devices/<device_name>/sessions/<session-name>/read_only

Defined on file sysfs-class-rnbd-server

Contains ‘1’ if device is mapped read-only, otherwise ‘0’.

/sys/class/rtc/

Defined on file sysfs-class-rtc

The rtc/ class subdirectory belongs to the RTC subsystem.

/sys/class/rtc/rtc0/device/rtc_calibration

Defined on file sysfs-class-rtc-rtc0-device-rtc_calibration

Attribute for calibrating ST-Ericsson AB8500 Real Time Clock The rtc_calibration attribute allows the userspace to calibrate the AB8500.s 32KHz Real Time Clock. Every 60 seconds the AB8500 will correct the RTC’s value by adding to it the value of this attribute.

The range of the attribute is -127 to +127 in units of 30.5 micro-seconds (half-parts-per-million of the 32KHz clock)

Users: The /vendor/st-ericsson/base_utilities/core/rtc_calibration daemon uses this interface.

/sys/class/rtc/rtcX/

Defined on file sysfs-class-rtc

The /sys/class/rtc/rtc{0,1,2,3,...} directories correspond to each RTC device.

/sys/class/rtc/rtcX/date

Defined on file sysfs-class-rtc

(RO) RTC-provided date in YYYY-MM-DD format

/sys/class/rtc/rtcX/hctosys

Defined on file sysfs-class-rtc

(RO) 1 if the RTC provided the system time at boot via the CONFIG_RTC_HCTOSYS kernel option, 0 otherwise

/sys/class/rtc/rtcX/max_user_freq

Defined on file sysfs-class-rtc

(RW) The maximum interrupt rate an unprivileged user may request from this RTC.

/sys/class/rtc/rtcX/name

Defined on file sysfs-class-rtc

(RO) The name of the RTC corresponding to this sysfs directory

/sys/class/rtc/rtcX/offset

Defined on file sysfs-class-rtc

(RW) The amount which the rtc clock has been adjusted in firmware. Visible only if the driver supports clock offset adjustment. The unit is parts per billion, i.e. The number of clock ticks which are added to or removed from the rtc’s base clock per billion ticks. A positive value makes a day pass more slowly, longer, and a negative value makes a day pass more quickly.

/sys/class/rtc/rtcX/range

Defined on file sysfs-class-rtc

Valid time range for the RTC, as seconds from epoch, formatted as [min, max]

/sys/class/rtc/rtcX/since_epoch

Defined on file sysfs-class-rtc

(RO) RTC-provided time as the number of seconds since the epoch

/sys/class/rtc/rtcX/time

Defined on file sysfs-class-rtc

(RO) RTC-provided time in 24-hour notation (hh:mm:ss)

/sys/class/rtc/rtcX/wakealarm

Defined on file sysfs-class-rtc

(RW) The time at which the clock will generate a system wakeup event. This is a one shot wakeup event, so must be reset after wake if a daily wakeup is required. Format is seconds since the epoch by default, or if there’s a leading +, seconds in the future, or if there is a leading +=, seconds ahead of the current alarm.

/sys/class/rtrs-client

Defined on file sysfs-class-rtrs-client

When a user of RTRS API creates a new session, a directory entry with the name of that session is created under /sys/class/rtrs-client/<session-name>/

/sys/class/rtrs-client/<session-name>/add_path

Defined on file sysfs-class-rtrs-client

RW, adds a new path (connection) to an existing session. Expected format is the following:

<[source addr,]destination addr>
*addr ::= [ ip:<ipv4|ipv6> | gid:<gid> ]

/sys/class/rtrs-client/<session-name>/max_reconnect_attempts

Defined on file sysfs-class-rtrs-client

Maximum number reconnect attempts the client should make before giving up after connection breaks unexpectedly.

/sys/class/rtrs-client/<session-name>/mp_policy

Defined on file sysfs-class-rtrs-client

Multipath policy specifies which path should be selected on each IO:

round-robin (0):

select path in per CPU round-robin manner.

min-inflight (1):

select path with minimum inflights.

min-latency (2):

select path with minimum latency.

/sys/class/rtrs-client/<session-name>/paths/

Defined on file sysfs-class-rtrs-client

Each path belonging to a given session is listed here by its source and destination address. When a new path is added to a session by writing to the “add_path” entry, a directory <src@dst> is created.

/sys/class/rtrs-client/<session-name>/paths/<src@dst>/cur_latency

Defined on file sysfs-class-rtrs-client

RO, Contains the latency time calculated by the heart-beat messages. Whenever the client sends heart-beat message, it checks the time gap between sending the heart-beat message and receiving the ACK. This value can be changed regularly.

/sys/class/rtrs-client/<session-name>/paths/<src@dst>/disconnect

Defined on file sysfs-class-rtrs-client

Write “1” to the file in order to disconnect the path. Operation blocks until RTRS path is disconnected.

/sys/class/rtrs-client/<session-name>/paths/<src@dst>/dst_addr

Defined on file sysfs-class-rtrs-client

RO, Contains the destination address of the path

/sys/class/rtrs-client/<session-name>/paths/<src@dst>/hca_name

Defined on file sysfs-class-rtrs-client

RO, Contains the name of HCA the connection established on.

/sys/class/rtrs-client/<session-name>/paths/<src@dst>/hca_port

Defined on file sysfs-class-rtrs-client

RO, Contains the port number of active port traffic is going through.

/sys/class/rtrs-client/<session-name>/paths/<src@dst>/reconnect

Defined on file sysfs-class-rtrs-client

Write “1” to the file in order to reconnect the path. Operation is blocking and returns 0 if reconnect was successful.

/sys/class/rtrs-client/<session-name>/paths/<src@dst>/remove_path

Defined on file sysfs-class-rtrs-client

Write “1” to the file in order to disconnected and remove the path from the session. Operation blocks until the path is disconnected and removed from the session.

/sys/class/rtrs-client/<session-name>/paths/<src@dst>/src_addr

Defined on file sysfs-class-rtrs-client

RO, Contains the source address of the path

/sys/class/rtrs-client/<session-name>/paths/<src@dst>/state

Defined on file sysfs-class-rtrs-client

RO, Contains “connected” if the session is connected to the peer and fully functional. Otherwise the file contains “disconnected”

/sys/class/rtrs-client/<session-name>/paths/<src@dst>/stats/cpu_migration

Defined on file sysfs-class-rtrs-client

RTRS expects that each HCA IRQ is pinned to a separate CPU. If it’s not the case, the processing of an I/O response could be processed on a different CPU than where it was originally submitted. This file shows how many interrupts where generated on a non expected CPU.

“from:”

is the CPU on which the IRQ was expected, but not generated.

“to:”

is the CPU on which the IRQ was generated, but not expected.

/sys/class/rtrs-client/<session-name>/paths/<src@dst>/stats/rdma

Defined on file sysfs-class-rtrs-client

Contains statistics regarding rdma operations and inflight operations. The output consists of 6 values:

<read-count> <read-total-size> <write-count> \
<write-total-size> <inflights> <failovered>

/sys/class/rtrs-client/<session-name>/paths/<src@dst>/stats/reconnects

Defined on file sysfs-class-rtrs-client

Contains 2 unsigned int values, the first one records number of successful reconnects in the path lifetime, the second one records number of failed reconnects in the path lifetime.

/sys/class/rtrs-client/<session-name>/paths/<src@dst>/stats/reset_all

Defined on file sysfs-class-rtrs-client

RW, Read will return usage help, write 0 will clear all the statistics.

/sys/class/rtrs-server

Defined on file sysfs-class-rtrs-server

When a user of RTRS API creates a new session on a client side, a directory entry with the name of that session is created in here.

/sys/class/rtrs-server/<session-name>/paths/

Defined on file sysfs-class-rtrs-server

When new path is created by writing to “add_path” entry on client side, a directory entry named as <source address>@<destination address> is created on server.

/sys/class/rtrs-server/<session-name>/paths/<src@dst>/disconnect

Defined on file sysfs-class-rtrs-server

When “1” is written to the file, the RTRS session is being disconnected. Operations is non-blocking and returns control immediately to the caller.

/sys/class/rtrs-server/<session-name>/paths/<src@dst>/dst_addr

Defined on file sysfs-class-rtrs-server

RO, Contains the destination address of the path

/sys/class/rtrs-server/<session-name>/paths/<src@dst>/hca_name

Defined on file sysfs-class-rtrs-server

RO, Contains the name of HCA the connection established on.

/sys/class/rtrs-server/<session-name>/paths/<src@dst>/hca_port

Defined on file sysfs-class-rtrs-server

RO, Contains the port number of active port traffic is going through.

/sys/class/rtrs-server/<session-name>/paths/<src@dst>/src_addr

Defined on file sysfs-class-rtrs-server

RO, Contains the source address of the path

/sys/class/rtrs-server/<session-name>/paths/<src@dst>/stats/rdma

Defined on file sysfs-class-rtrs-server

Contains statistics regarding rdma operations and inflight operations. The output consists of 5 values: <read-count> <read-total-size> <write-count> <write-total-size> <inflights>

/sys/class/scsi_device/*/device/dyn_cap_needed

Defined on file sysfs-driver-ufs

This file shows the amount of physical memory needed to be removed from the physical memory resources pool of the particular logical unit. The full information about the attribute could be found at UFS specifications 2.1.

The file is read only.

/sys/class/scsi_device/*/device/unit_descriptor/boot_lun_id

Defined on file sysfs-driver-ufs

This file shows boot LUN information. This is one of the UFS unit descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/class/scsi_device/*/device/unit_descriptor/context_capabilities

Defined on file sysfs-driver-ufs

This file shows the context capabilities. This is one of the UFS unit descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/class/scsi_device/*/device/unit_descriptor/data_reliability

Defined on file sysfs-driver-ufs

This file defines the device behavior when a power failure occurs during a write operation. This is one of the UFS unit descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/class/scsi_device/*/device/unit_descriptor/erase_block_size

Defined on file sysfs-driver-ufs

This file shows the erase block size. This is one of the UFS unit descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/class/scsi_device/*/device/unit_descriptor/large_unit_granularity

Defined on file sysfs-driver-ufs

This file shows the granularity of the LUN. This is one of the UFS unit descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/class/scsi_device/*/device/unit_descriptor/logical_block_count

Defined on file sysfs-driver-ufs

This file shows total number of addressable logical blocks. This is one of the UFS unit descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/class/scsi_device/*/device/unit_descriptor/logical_block_size

Defined on file sysfs-driver-ufs

This file shows the size of addressable logical blocks (calculated as an exponent with base 2). This is one of the UFS unit descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/class/scsi_device/*/device/unit_descriptor/lun_memory_type

Defined on file sysfs-driver-ufs

This file shows LUN memory type. This is one of the UFS unit descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/class/scsi_device/*/device/unit_descriptor/lun_queue_depth

Defined on file sysfs-driver-ufs

This file shows LUN queue depth. This is one of the UFS unit descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/class/scsi_device/*/device/unit_descriptor/lun_write_protect

Defined on file sysfs-driver-ufs

This file shows LUN write protection status. This is one of the UFS unit descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/class/scsi_device/*/device/unit_descriptor/physical_memory_resourse_count

Defined on file sysfs-driver-ufs

This file shows the total physical memory resources. This is one of the UFS unit descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/class/scsi_device/*/device/unit_descriptor/provisioning_type

Defined on file sysfs-driver-ufs

This file shows the thin provisioning type. This is one of the UFS unit descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/class/scsi_device/*/device/unit_descriptor/psa_sensitive

Defined on file sysfs-driver-ufs

This file shows PSA sensitivity. This is one of the UFS unit descriptor parameters. The full information about the descriptor could be found at UFS specifications 2.1.

The file is read only.

/sys/class/scsi_device/*/device/unit_descriptor/wb_buf_alloc_units

Defined on file sysfs-driver-ufs

This entry shows the configured size of WriteBooster buffer. 0400h corresponds to 4GB.

The file is read only.

/sys/class/scsi_host/hostX/acciopath_status

Defined on file sysfs-class-scsi_host

This file contains the current status of the “SSD Smart Path” feature of HP Smart Array RAID controllers using the hpsa driver. SSD Smart Path, when enabled permits the driver to send i/o requests directly to physical devices that are part of a logical drive, bypassing the controllers firmware RAID stack for a performance advantage when possible. A value of ‘1’ indicates the feature is enabled, and the controller may use the direct i/o path to physical devices. A value of zero means the feature is disabled and the controller may not use the direct i/o path to physical devices. This setting is controller wide, affecting all configured logical drives on the controller. This file is readable and writable.

/sys/class/scsi_host/hostX/ahci_host_version

Defined on file sysfs-class-scsi_host

(RO) Display the version of the AHCI spec implemented by the host.

/sys/class/scsi_host/hostX/ahci_port_cmd

/sys/class/scsi_host/hostX/ahci_host_caps

/sys/class/scsi_host/hostX/ahci_host_cap2

Defined on file sysfs-class-scsi_host

[to be documented]

/sys/class/scsi_host/hostX/em_buffer

Defined on file sysfs-class-scsi_host

(RW) Allows access to AHCI EM (enclosure management) buffer directly if the host supports EM.

For eg. the AHCI driver supports SGPIO EM messages but the SATA/AHCI specs do not define the SGPIO message format of the EM buffer. Different hardware(HW) vendors may have different definitions. With the em_buffer attribute, this issue can be solved by allowing HW vendors to provide userland drivers and tools for their SGPIO initiators.

/sys/class/scsi_host/hostX/em_message_supported

Defined on file sysfs-class-scsi_host

(RO) Displays supported enclosure management message types.

/sys/class/scsi_host/hostX/em_message

/sys/class/scsi_host/hostX/em_message_type

Defined on file sysfs-class-scsi_host

em_message: (RW) Enclosure management support. For the LED protocol, writes and reads correspond to the LED message format as defined in the AHCI spec.

The user must turn sw_activity (under /sys/block/*/device/) OFF it they wish to control the activity LED via the em_message file.

em_message_type: (RO) Displays the current enclosure management protocol that is being used by the driver (for eg. LED, SAF-TE, SES-2, SGPIO etc).

/sys/class/scsi_host/hostX/isci_id

Defined on file sysfs-class-scsi_host

This file contains the enumerated host ID for the Intel SCU controller. The Intel(R) C600 Series Chipset SATA/SAS Storage Control Unit embeds up to two 4-port controllers in a single PCI device. The controllers are enumerated in order which usually means the lowest number scsi_host corresponds with the first controller, but this association is not guaranteed. The ‘isci_id’ attribute unambiguously identifies the controller index: ‘0’ for the first controller, ‘1’ for the second.

Defined on file sysfs-class-scsi_host

(RW) This parameter allows the user to read and set the link (interface) power management.

There are four possible options:

min_power: Tell the controller to try to make the link use the least possible power when possible. This may sacrifice some performance due to increased latency when coming out of lower power states.

max_performance: Generally, this means no power management. Tell the controller to have performance be a priority over power management.

medium_power: Tell the controller to enter a lower power state when possible, but do not enter the lowest power state, thus improving latency over min_power setting.

med_power_with_dipm: Identical to the existing medium_power setting except that it enables dipm (device initiated power management) on top, which makes it match the Windows IRST (Intel Rapid Storage Technology) driver settings. This setting is also close to min_power, except that:

  1. It does not use host-initiated slumber mode, but it does allow device-initiated slumber

  2. It does not enable low power device sleep mode (DevSlp).

/sys/class/scsi_tape/*/stats/in_flight

Defined on file sysfs-class-scsi_tape

Show the number of I/Os currently in-flight between the st module and the SCSI mid-layer.

/sys/class/scsi_tape/*/stats/io_ns

Defined on file sysfs-class-scsi_tape

Shows the total amount of time spent waiting for all I/O to and from the tape drive to complete. This includes all reads, writes, and other SCSI commands issued to the tape drive. An example of other SCSI commands would be tape movement such as a rewind when a rewind tape device is closed. This item is measured in nanoseconds.

To determine the amount of time spent waiting for other I/O to complete subtract read_ns and write_ns from this value.

/sys/class/scsi_tape/*/stats/other_cnt

Defined on file sysfs-class-scsi_tape

The number of I/O requests issued to the tape drive other than SCSI read/write requests.

/sys/class/scsi_tape/*/stats/read_byte_cnt

Defined on file sysfs-class-scsi_tape

Shows the total number of bytes requested from the tape drive. This value is presented in bytes because tape drives support variable length block sizes.

/sys/class/scsi_tape/*/stats/read_cnt

Defined on file sysfs-class-scsi_tape

Shows the total number of read requests issued to the tape drive.

/sys/class/scsi_tape/*/stats/read_ns

Defined on file sysfs-class-scsi_tape

Shows the total amount of time in nanoseconds waiting for read I/O requests to complete.

/sys/class/scsi_tape/*/stats/resid_cnt

Defined on file sysfs-class-scsi_tape

Shows the number of times we found that a residual >0 was found when the SCSI midlayer indicated that there was an error. For reads this may be a case of someone issuing reads greater than the block size.

/sys/class/scsi_tape/*/stats/write_byte_cnt

Defined on file sysfs-class-scsi_tape

Shows the total number of bytes written to the tape drive. This value is presented in bytes because tape drives support variable length block sizes.

/sys/class/scsi_tape/*/stats/write_cnt

Defined on file sysfs-class-scsi_tape

Shows the total number of write requests issued to the tape drive.

/sys/class/scsi_tape/*/stats/write_ms

Defined on file sysfs-class-scsi_tape

Shows the total amount of time in nanoseconds waiting for write I/O requests to complete.

/sys/class/spi_master/spi<bus>/spi<bus>.<dev>/fram

Defined on file sysfs-class-spi-eeprom

Contains the FRAM binary data. Same as EEPROM, just another file name to indicate that it employs ferroelectric process. It performs write operations at bus speed - no write delays.

/sys/class/spi_master/spi<bus>/spi<bus>.<dev>/sernum

Defined on file sysfs-class-spi-eeprom

Contains the serial number of the Cypress FRAM (FM25VN) if it is present. It will be displayed as a 8 byte hex string, as read from the device.

This is a read-only attribute.

/sys/class/stm/<stm>/channels

Defined on file sysfs-class-stm

Shows the number of channels per master on this STM device.

/sys/class/stm/<stm>/hw_override

Defined on file sysfs-class-stm

Reads as 0 if master numbers in the STP stream produced by this stm device will match the master numbers assigned by the software or 1 if the stm hardware overrides software assigned masters.

/sys/class/stm/<stm>/masters

Defined on file sysfs-class-stm

Shows first and last available to software master numbers on this STM device.

Defined on file sysfs-class-stm_source

stm_source device linkage to stm device, where its tracing data is directed. Reads return an existing connection or “<none>” if this stm_source is not connected to any stm device yet. Write an existing (registered) stm device’s name here to connect that device. If a device is already connected to this stm_source, it will first be disconnected.

/sys/class/switchtec

Defined on file sysfs-class-switchtec

The switchtec class subsystem folder. Each registered switchtec driver is represented by a switchtecX subfolder (X being an integer >= 0).

/sys/class/switchtec/switchtec[0-9]+/component_id

Defined on file sysfs-class-switchtec

Component identifier as stored in the hardware (eg. PM8543) (read only) Values: arbitrary string.

/sys/class/switchtec/switchtec[0-9]+/component_revision

Defined on file sysfs-class-switchtec

Component revision stored in the hardware (read only) Values: integer.

/sys/class/switchtec/switchtec[0-9]+/component_vendor

Defined on file sysfs-class-switchtec

Component vendor as stored in the hardware (eg. MICROSEM) (read only) Values: arbitrary string.

/sys/class/switchtec/switchtec[0-9]+/device_version

Defined on file sysfs-class-switchtec

Device version as stored in the hardware (read only) Values: integer.

/sys/class/switchtec/switchtec[0-9]+/fw_version

Defined on file sysfs-class-switchtec

Currently running firmware version (read only) Values: integer (in hexadecimal).

/sys/class/switchtec/switchtec[0-9]+/partition

Defined on file sysfs-class-switchtec

Partition number for this device in the switch (read only) Values: integer.

/sys/class/switchtec/switchtec[0-9]+/partition_count

Defined on file sysfs-class-switchtec

Total number of partitions in the switch (read only) Values: integer.

/sys/class/switchtec/switchtec[0-9]+/product_id

Defined on file sysfs-class-switchtec

Product identifier as stored in the hardware (eg. PSX 48XG3) (read only) Values: arbitrary string.

/sys/class/switchtec/switchtec[0-9]+/product_revision

Defined on file sysfs-class-switchtec

Product revision stored in the hardware (eg. RevB) (read only) Values: arbitrary string.

/sys/class/switchtec/switchtec[0-9]+/product_vendor

Defined on file sysfs-class-switchtec

Product vendor as stored in the hardware (eg. MICROSEM) (read only) Values: arbitrary string.

/sys/class/tee/tee{,priv}X/rpmb_routing_model

Defined on file sysfs-class-tee

RPMB frames can be routed to the RPMB device via the user-space daemon tee-supplicant or the RPMB subsystem in the kernel. The value “user” means that the driver will route the RPMB frames via user space. Conversely, “kernel” means that the frames are routed via the RPMB subsystem without assistance from tee-supplicant. It should be assumed that RPMB frames are routed via user space if the variable is absent. The primary purpose of this variable is to let systemd know whether tee-supplicant is needed in the early boot with initramfs.

/sys/class/thermal/cooling_deviceX/cur_state

Defined on file sysfs-class-thermal

The current cooling state of this cooling device. The value can any integer numbers between 0 and max_state:

  • cur_state == 0 means no cooling

  • cur_state == max_state means the maximum cooling.

RW, Required

/sys/class/thermal/cooling_deviceX/max_state

Defined on file sysfs-class-thermal

The maximum permissible cooling state of this cooling device.

RO, Required

/sys/class/thermal/cooling_deviceX/stats/reset

Defined on file sysfs-class-thermal

Writing any value resets the cooling device’s statistics.

WO, Required

/sys/class/thermal/cooling_deviceX/stats/time_in_state_ms:

Defined on file sysfs-class-thermal

The amount of time spent by the cooling device in various cooling states. The output will have “<state> <time>” pair in each line, which will mean this cooling device spent <time> msec of time at <state>.

Output will have one line for each of the supported states.

RO, Required

/sys/class/thermal/cooling_deviceX/stats/total_trans

Defined on file sysfs-class-thermal

A single positive value showing the total number of times the state of a cooling device is changed.

RO, Required

/sys/class/thermal/cooling_deviceX/stats/trans_table

Defined on file sysfs-class-thermal

This gives fine grained information about all the cooling state transitions. The cat output here is a two dimensional matrix, where an entry <i,j> (row i, column j) represents the number of transitions from State_i to State_j. If the transition table is bigger than PAGE_SIZE, reading this will return an -EFBIG error.

RO, Required

/sys/class/thermal/cooling_deviceX/type

Defined on file sysfs-class-thermal

String which represents the type of device, e.g:

  • for generic ACPI: should be “Fan”, “Processor” or “LCD”

  • for memory controller device on intel_menlow platform: should be “Memory controller”.

RO, Required

/sys/class/thermal/thermal_zoneX/available_policies

Defined on file sysfs-class-thermal

Available thermal governors which can be used for a particular zone.

RO, Required

/sys/class/thermal/thermal_zoneX/cdevY

Defined on file sysfs-class-thermal

Sysfs link to the thermal cooling device node where the sys I/F for cooling device throttling control represents.

RO, Optional

/sys/class/thermal/thermal_zoneX/cdevY_trip_point

Defined on file sysfs-class-thermal

The trip point in this thermal zone which cdev[0-*] is associated with; -1 means the cooling device is not associated with any trip point.

RO, Optional

/sys/class/thermal/thermal_zoneX/cdevY_weight

Defined on file sysfs-class-thermal

The influence of cdev[0-*] in this thermal zone. This value is relative to the rest of cooling devices in the thermal zone. For example, if a cooling device has a weight double than that of other, it’s twice as effective in cooling the thermal zone.

RW, Optional

/sys/class/thermal/thermal_zoneX/emul_temp

Defined on file sysfs-class-thermal

Interface to set the emulated temperature method in thermal zone (sensor). After setting this temperature, the thermal zone may pass this temperature to platform emulation function if registered or cache it locally. This is useful in debugging different temperature threshold and its associated cooling action. This is write only node and writing 0 on this node should disable emulation.

Unit: millidegree Celsius

WO, Optional

WARNING:

Be careful while enabling this option on production systems, because userland can easily disable the thermal policy by simply flooding this sysfs node with low temperature values.

/sys/class/thermal/thermal_zoneX/integral_cutoff

Defined on file sysfs-class-thermal

Temperature offset from the desired temperature trip point above which the integral term of the power allocator governor’s PID controller starts accumulating errors. For example, if integral_cutoff is 0, then the integral term only accumulates error when temperature is above the desired temperature trip point. For more information see Power allocator governor tunables

Unit: millidegree Celsius

RW, Optional

/sys/class/thermal/thermal_zoneX/k_d

Defined on file sysfs-class-thermal

The derivative term of the power allocator governor’s PID controller. For more information see Power allocator governor tunables

RW, Optional

/sys/class/thermal/thermal_zoneX/k_i

Defined on file sysfs-class-thermal

The integral term of the power allocator governor’s PID controller. This term allows the PID controller to compensate for long term drift. For more information see Power allocator governor tunables

RW, Optional

/sys/class/thermal/thermal_zoneX/k_po

Defined on file sysfs-class-thermal

The proportional term of the power allocator governor’s PID controller during temperature overshoot. Temperature overshoot is when the current temperature is above the “desired temperature” trip point. For more information see Power allocator governor tunables

RW, Optional

/sys/class/thermal/thermal_zoneX/k_pu

Defined on file sysfs-class-thermal

The proportional term of the power allocator governor’s PID controller during temperature undershoot. Temperature undershoot is when the current temperature is below the “desired temperature” trip point. For more information see Power allocator governor tunables

RW, Optional

/sys/class/thermal/thermal_zoneX/mode

Defined on file sysfs-class-thermal

One of the predefined values in [enabled, disabled]. This file gives information about the algorithm that is currently managing the thermal zone. It can be either default kernel based algorithm or user space application.

enabled

enable Kernel Thermal management.

disabled

Preventing kernel thermal zone driver actions upon trip points so that user application can take full charge of the thermal management.

RW, Optional

/sys/class/thermal/thermal_zoneX/offset

Defined on file sysfs-class-thermal

The offset constant used in a linear extrapolation model to determine a hotspot temperature based off the sensor’s raw readings. It is up to the device driver to determine the usage of these values.

RW, Optional

/sys/class/thermal/thermal_zoneX/policy

Defined on file sysfs-class-thermal

One of the various thermal governors used for a particular zone.

RW, Required

/sys/class/thermal/thermal_zoneX/slope

Defined on file sysfs-class-thermal

The slope constant used in a linear extrapolation model to determine a hotspot temperature based off the sensor’s raw readings. It is up to the device driver to determine the usage of these values.

RW, Optional

/sys/class/thermal/thermal_zoneX/sustainable_power

Defined on file sysfs-class-thermal

An estimate of the sustained power that can be dissipated by the thermal zone. Used by the power allocator governor. For more information see Power allocator governor tunables

Unit: milliwatts

RW, Optional

/sys/class/thermal/thermal_zoneX/temp

Defined on file sysfs-class-thermal

Current temperature as reported by thermal zone (sensor).

Unit: millidegree Celsius

RO, Required

/sys/class/thermal/thermal_zoneX/trip_point_Y_hyst

Defined on file sysfs-class-thermal

The hysteresis value for a trip point, represented as an integer.

Unit: Celsius

RW, Optional

/sys/class/thermal/thermal_zoneX/trip_point_Y_temp

Defined on file sysfs-class-thermal

The temperature above which trip point will be fired.

Unit: millidegree Celsius

RO, Optional

/sys/class/thermal/thermal_zoneX/trip_point_Y_type

Defined on file sysfs-class-thermal

Strings which indicate the type of the trip point.

E.g. it can be one of critical, hot, passive, active[0-*] for ACPI thermal zone.

RO, Optional

/sys/class/thermal/thermal_zoneX/type

Defined on file sysfs-class-thermal

Strings which represent the thermal zone type. This is given by thermal zone driver as part of registration. E.g: “acpitz” indicates it’s an ACPI thermal device. In order to keep it consistent with hwmon sys attribute; this should be a short, lowercase string, not containing spaces nor dashes.

RO, Required

/sys/class/timecard/

Defined on file sysfs-timecard

This directory contains files and directories providing a standardized interface to the ancillary features of the OpenCompute timecard.

/sys/class/timecard/ocpN/

Defined on file sysfs-timecard

This directory contains the attributes of the Nth timecard registered.

/sys/class/timecard/ocpN/available_clock_sources

Defined on file sysfs-timecard

(RO) The list of available time sources that the PHC uses for clock adjustments.

NONE

no adjustments

PPS

adjustments come from the PPS1 selector (default)

TOD

adjustments from the GNSS/TOD module

IRIG

adjustments from external IRIG-B signal

DCF

adjustments from external DCF signal

/sys/class/timecard/ocpN/available_sma_inputs

Defined on file sysfs-timecard

(RO) Set of available destinations (sinks) for a SMA input signal.

10Mhz

signal is used as the 10Mhz reference clock

PPS1

signal is sent to the PPS1 selector

PPS2

signal is sent to the PPS2 selector

TS1

signal is sent to timestamper 1

TS2

signal is sent to timestamper 2

TS3

signal is sent to timestamper 3

TS4

signal is sent to timestamper 4

IRIG

signal is sent to the IRIG-B module

DCF

signal is sent to the DCF module

FREQ1

signal is sent to frequency counter 1

FREQ2

signal is sent to frequency counter 2

FREQ3

signal is sent to frequency counter 3

FREQ4

signal is sent to frequency counter 4

None

signal input is disabled

/sys/class/timecard/ocpN/available_sma_outputs

Defined on file sysfs-timecard

(RO) Set of available sources for a SMA output signal.

10Mhz

output is from the 10Mhz reference clock

PHC

output PPS is from the PHC clock

MAC

output PPS is from the Miniature Atomic Clock

GNSS1

output PPS is from the first GNSS module

GNSS2

output PPS is from the second GNSS module

IRIG

output is from the PHC, in IRIG-B format

DCF

output is from the PHC, in DCF format

GEN1

output is from frequency generator 1

GEN2

output is from frequency generator 2

GEN3

output is from frequency generator 3

GEN4

output is from frequency generator 4

GND

output is GND

VCC

output is VCC

/sys/class/timecard/ocpN/clock_source

Defined on file sysfs-timecard

(RW) Contains the current synchronization source used by the PHC. May be changed by writing one of the listed values from the available_clock_sources attribute set.

/sys/class/timecard/ocpN/clock_status_drift

Defined on file sysfs-timecard

(RO) Contains the current drift value used by the firmware for internal disciplining of the atomic clock.

/sys/class/timecard/ocpN/clock_status_offset

Defined on file sysfs-timecard

(RO) Contains the current offset value used by the firmware for internal disciplining of the atomic clock.

/sys/class/timecard/ocpN/freqX

Defined on file sysfs-timecard

(RO) Optional directory containing the sysfs nodes for frequency counter <X>.

/sys/class/timecard/ocpN/freqX/frequency

Defined on file sysfs-timecard

(RO) Contains the measured frequency over the specified measurement period.

/sys/class/timecard/ocpN/freqX/seconds

Defined on file sysfs-timecard

(RW) Specifies the number of seconds from 0-255 that the frequency should be measured over. Write 0 to disable.

/sys/class/timecard/ocpN/genX

Defined on file sysfs-timecard

(RO) Optional directory containing the sysfs nodes for frequency generator <X>.

/sys/class/timecard/ocpN/genX/duty

Defined on file sysfs-timecard

(RO) Specifies the signal duty cycle as a percentage from 1-99.

/sys/class/timecard/ocpN/genX/period

Defined on file sysfs-timecard

(RO) Specifies the signal period in nanoseconds.

/sys/class/timecard/ocpN/genX/phase

Defined on file sysfs-timecard

(RO) Specifies the signal phase offset in nanoseconds.

/sys/class/timecard/ocpN/genX/polarity

Defined on file sysfs-timecard

(RO) Specifies the signal polarity, either 1 or 0.

/sys/class/timecard/ocpN/genX/running

Defined on file sysfs-timecard

(RO) Either 0 or 1, showing if the signal generator is running.

/sys/class/timecard/ocpN/genX/signal

Defined on file sysfs-timecard

(RW) Used to start the signal generator, and summarize the current status.

The signal generator may be started by writing the signal period, followed by the optional signal values. If the optional values are not provided, they default to the current settings, which may be obtained from the other sysfs nodes.

period [duty [phase [polarity]]]

echo 500000000 > signal # 1/2 second period echo 1000000 40 100 > signal echo 0 > signal # turn off generator

Period and phase are specified in nanoseconds. Duty cycle is a percentage from 1-99. Polarity is 1 or 0.

Reading this node will return:

period duty phase polarity start_time

/sys/class/timecard/ocpN/genX/start

Defined on file sysfs-timecard

(RO) Shows the time in <sec>.<nsec> that the signal generator started running.

/sys/class/timecard/ocpN/gnss_sync

Defined on file sysfs-timecard

(RO) Indicates whether a valid GNSS signal is received, or when the signal was lost.

/sys/class/timecard/ocpN/i2c

Defined on file sysfs-timecard

This optional attribute links to the associated i2c device.

/sys/class/timecard/ocpN/irig_b_mode

Defined on file sysfs-timecard

(RW) An integer from 0-7 indicating the timecode format of the IRIG-B output signal: B00<n>

/sys/class/timecard/ocpN/pps

Defined on file sysfs-timecard

This optional attribute links to the associated PPS device.

/sys/class/timecard/ocpN/ptp

Defined on file sysfs-timecard

This attribute links to the associated PTP device.

/sys/class/timecard/ocpN/serialnum

Defined on file sysfs-timecard

(RO) Provides the serial number of the timecard.

/sys/class/timecard/ocpN/sma1

/sys/class/timecard/ocpN/sma2

/sys/class/timecard/ocpN/sma3

/sys/class/timecard/ocpN/sma4

Defined on file sysfs-timecard

(RW) These attributes specify the direction of the signal on the associated SMA connectors, and also the signal sink or source.

The display format of the attribute is a space separated list of signals, prefixed by the input/output direction.

The signal direction may be changed (if supported) by prefixing the signal list with either “in:” or “out:”. If neither prefix is present, then the direction is unchanged.

The output signal may be changed by writing one of the listed values from the available_sma_outputs attribute set.

The input destinations may be changed by writing multiple values from the available_sma_inputs attribute set, separated by spaces. If there are duplicated input destinations between connectors, the lowest numbered SMA connector is given priority.

Note that not all input combinations may make sense.

The 10Mhz reference clock input is currently only valid on SMA1 and may not be combined with other destination sinks.

/sys/class/timecard/ocpN/tod_correction

Defined on file sysfs-timecard

(RW) The incoming GNSS signal is in UTC time, and the NMEA format messages do not provide a TAI offset. This sets the correction value for the incoming time.

If UBX_LS is enabled, this should be 0, and the offset is taken from the UBX-NAV-TIMELS message.

/sys/class/timecard/ocpN/ts_window_adjust

Defined on file sysfs-timecard

(RW) When retrieving the PHC with the PTP SYS_OFFSET_EXTENDED ioctl, a system timestamp is made before and after the PHC time is retrieved. The midpoint between the two system timestamps is usually taken to be the SYS time associated with the PHC time. This estimate may be wrong, as it depends on PCI latencies, and when the PHC time was latched

The attribute value reduces the end timestamp by the given number of nanoseconds, so the computed midpoint matches the retrieved PHC time.

The initial value is set based on measured PCI latency and the estimated point where the FPGA latches the PHC time. This value may be changed by writing an unsigned integer.

/sys/class/timecard/ocpN/tty

Defined on file sysfs-timecard

(RO) Directory containing the sysfs nodes for TTY attributes

/sys/class/timecard/ocpN/tty/ttyGNSS

/sys/class/timecard/ocpN/tty/ttyGNSS2

Defined on file sysfs-timecard

(RO) These optional attributes contain names of the TTY serial ports associated with the GNSS devices.

/sys/class/timecard/ocpN/tty/ttyMAC

Defined on file sysfs-timecard

(RO) This optional attribute contains name of the TTY serial port associated with the Miniature Atomic Clock.

/sys/class/timecard/ocpN/tty/ttyNMEA

Defined on file sysfs-timecard

(RO) This optional attribute contains name of the TTY serial port which outputs the PHC time in NMEA ZDA format.

/sys/class/timecard/ocpN/utc_tai_offset

Defined on file sysfs-timecard

(RW) The DCF and IRIG output signals are in UTC, while the TimeCard operates on TAI. This attribute allows setting the offset in seconds, which is added to the TAI timebase for these formats.

The offset may be changed by writing an unsigned integer.

/sys/class/tpm/tpmX/ppi/

Defined on file sysfs-driver-ppi

This folder includes the attributes related with PPI (Physical Presence Interface). Only if TPM is supported by BIOS, this folder makes sense. The folder path can be got by command ‘find /sys/ -name ‘pcrs’’. For the detail information of PPI, please refer to the PPI specification from

http://www.trustedcomputinggroup.org/

In Linux 4.2 ppi was moved to the character device directory. A symlink from tpmX/device/ppi to tpmX/ppi to provide backwards compatibility.

/sys/class/tpm/tpmX/ppi/request

Defined on file sysfs-driver-ppi

This attribute shows the request for an operation to be executed in the pre-OS environment. It is the only input from the OS to the pre-OS environment. The request should be an integer value range from 1 to 160, and 0 means no request. This file can be read and written.

/sys/class/tpm/tpmX/ppi/response

Defined on file sysfs-driver-ppi

This attribute shows the response to the most recent operation request it acted upon. The format is “<request> <response num> : <response description>”. This file is readonly.

/sys/class/tpm/tpmX/ppi/tcg_operations

Defined on file sysfs-driver-ppi

This attribute shows whether it is allowed to request an operation to be executed in the pre-OS environment by the BIOS for the requests defined by TCG, i.e. requests from 1 to 22. The format is “<request> <status num>: <status description>”. This attribute is only supported by PPI version 1.2+. This file is readonly.

/sys/class/tpm/tpmX/ppi/transition_action

Defined on file sysfs-driver-ppi

This attribute shows the platform-specific action that should take place in order to transition to the BIOS for execution of a requested operation. The format is “<action num>: <action description>”. This file is readonly.

/sys/class/tpm/tpmX/ppi/version

Defined on file sysfs-driver-ppi

This attribute shows the version of the PPI supported by the platform. This file is readonly.

/sys/class/tpm/tpmX/ppi/vs_operations

Defined on file sysfs-driver-ppi

This attribute shows whether it is allowed to request an operation to be executed in the pre-OS environment by the BIOS for the verdor specific requests, i.e. requests from 128 to 255. The format is same with tcg_operations. This attribute is also only supported by PPI version 1.2+. This file is readonly.

/sys/class/tty/console/active

Defined on file sysfs-tty

Shows the list of currently configured console devices, like ‘tty1 ttyS0’. The last entry in the file is the active device connected to /dev/console. The file supports poll() to detect virtual console switches.

/sys/class/tty/tty<x>/active

Defined on file sysfs-tty

Shows the currently active virtual console device, like ‘tty1’. The file supports poll() to detect virtual console switches.

/sys/class/tty/ttyS<x>/close_delay

Defined on file sysfs-tty

Show the closing delay time for this port in centiseconds.

These sysfs values expose the TIOCGSERIAL interface via sysfs rather than via ioctls.

/sys/class/tty/ttyS<x>/closing_wait

Defined on file sysfs-tty

Show the close wait time for this port in centiseconds.

Waiting forever is represented as 0. If waiting on close is disabled then the value is 65535.

These sysfs values expose the TIOCGSERIAL interface via sysfs rather than via ioctls.

/sys/class/tty/ttyS<x>/console

Defined on file sysfs-tty

Allows user to detach or attach back the given device as kernel console. It shows and accepts a boolean variable.

/sys/class/tty/ttyS<x>/custom_divisor

Defined on file sysfs-tty

Show the custom divisor if any that is set on this port.

These sysfs values expose the TIOCGSERIAL interface via sysfs rather than via ioctls.

/sys/class/tty/ttyS<x>/flags

Defined on file sysfs-tty

Show the tty port status flags for this port.

These sysfs values expose the TIOCGSERIAL interface via sysfs rather than via ioctls.

/sys/class/tty/ttyS<x>/io_type

Defined on file sysfs-tty

Show the I/O type that is to be used with the iomem base address.

These sysfs values expose the TIOCGSERIAL interface via sysfs rather than via ioctls.

/sys/class/tty/ttyS<x>/iomem_base

Defined on file sysfs-tty

The I/O memory base for this port.

These sysfs values expose the TIOCGSERIAL interface via sysfs rather than via ioctls.

/sys/class/tty/ttyS<x>/iomem_reg_shift

Defined on file sysfs-tty

Show the register shift indicating the spacing to be used for accesses on this iomem address.

These sysfs values expose the TIOCGSERIAL interface via sysfs rather than via ioctls.

/sys/class/tty/ttyS<x>/irq

Defined on file sysfs-tty

Shows the current primary interrupt for this port.

These sysfs values expose the TIOCGSERIAL interface via sysfs rather than via ioctls.

/sys/class/tty/ttyS<x>/line

Defined on file sysfs-tty

Shows the current tty line number for this port.

These sysfs values expose the TIOCGSERIAL interface via sysfs rather than via ioctls.

/sys/class/tty/ttyS<x>/port

Defined on file sysfs-tty

Shows the current tty port I/O address for this port.

These sysfs values expose the TIOCGSERIAL interface via sysfs rather than via ioctls.

/sys/class/tty/ttyS<x>/rx_trig_bytes

Defined on file sysfs-tty

Shows current RX interrupt trigger bytes or sets the user specified value to change it for the FIFO buffer. Users can show or set this value regardless of opening the serial device file or not.

The RX trigger can be set one of four kinds of values for UART serials. When users input a meaning less value to this I/F, the RX trigger is changed to the nearest lower value for the device specification. For example, when user sets 7bytes on 16550A, which has 1/4/8/14 bytes trigger, the RX trigger is automatically changed to 4 bytes.

/sys/class/tty/ttyS<x>/type

Defined on file sysfs-tty

Shows the current tty type for this port.

These sysfs values expose the TIOCGSERIAL interface via sysfs rather than via ioctls.

/sys/class/tty/ttyS<x>/uartclk

Defined on file sysfs-tty

Shows the current uartclk value associated with the UART port in serial_core, that is bound to TTY like ttyS0. uartclk = 16 * baud_base

These sysfs values expose the TIOCGSERIAL interface via sysfs rather than via ioctls.

/sys/class/tty/ttyS<x>/xmit_fifo_size

Defined on file sysfs-tty

Show the transmit FIFO size for this port.

These sysfs values expose the TIOCGSERIAL interface via sysfs rather than via ioctls.

/sys/class/typec/<port>-<plug>/number_of_alternate_modes

Defined on file sysfs-class-typec

Shows the number of alternate modes which are advertised by the plug associated with a particular cable during Power Delivery discovery. This file remains hidden until a value greater than or equal to 0 is set by Type C port driver.

USB Type-C partner/cable Power Delivery Identity objects

NOTE: The following attributes will be applicable to both partner (e.g /sys/class/typec/port0-partner/) and cable (e.g /sys/class/typec/port0-cable/) devices. Consequently, the example file paths below are prefixed with “/sys/class/typec/<port>-{partner|cable}/” to reflect this.

/sys/class/typec/<port>-cable/plug_type

Defined on file sysfs-class-typec

Shows type of the plug on the cable:

  • type-a - Standard A

  • type-b - Standard B

  • type-c

  • captive

/sys/class/typec/<port>-cable/type

Defined on file sysfs-class-typec

USB Power Delivery Specification defines a set of product types for the cables. This file will show the product type of the cable if it is known. If the product type of the cable is not visible to the device driver, this file will not exist.

When the cable product type is detected, uvevent is also raised with PRODUCT_TYPE showing the product type of the cable.

Valid values:

undefined

active

Active Cable

passive

Passive Cable

/sys/class/typec/<port>-partner/accessory_mode

Defined on file sysfs-class-typec

Shows the Accessory Mode name when the partner is an Accessory. The Accessory Modes are defined in USB Type-C Specification.

/sys/class/typec/<port>-partner/identity/

Defined on file sysfs-class-typec

This directory appears only if the port device driver is capable of showing the result of Discover Identity USB power delivery command. That will not always be possible even when USB power delivery is supported, for example when USB power delivery communication for the port is mostly handled in firmware. If the directory exists, it will have an attribute file for every VDO in Discover Identity command result.

USB Type-C cable devices (eg. /sys/class/typec/port0-cable/)

Note: Electronically Marked Cables will have a device also for one cable plug (eg. /sys/class/typec/port0-plug0). If the cable is active and has also SOP Double Prime controller (USB Power Deliver specification ch. 2.4) it will have second device also for the other plug. Both plugs may have alternate modes as described in USB Type-C and USB Power Delivery specifications.

/sys/class/typec/<port>-partner/number_of_alternate_modes

Defined on file sysfs-class-typec

Shows the number of alternate modes which are advertised by the partner during Power Delivery discovery. This file remains hidden until a value greater than or equal to 0 is set by Type C port driver.

/sys/class/typec/<port>-partner/supports_usb_power_delivery

Defined on file sysfs-class-typec

Shows if the partner supports USB Power Delivery communication: Valid values: yes, no

/sys/class/typec/<port>-partner/type

Defined on file sysfs-class-typec

USB Power Delivery Specification defines a set of product types for the partner devices. This file will show the product type of the partner if it is known. Dual-role capable partners will have both UFP and DFP product types defined, but only one that matches the current role will be active at the time. If the product type of the partner is not visible to the device driver, this file will not exist.

When the partner product type is detected, or changed with role swap, uvevent is also raised that contains PRODUCT_TYPE=<product type> (for example PRODUCT_TYPE=hub).

Valid values:

UFP / device role ====================== ========================== undefined - hub PDUSB Hub peripheral PDUSB Peripheral psd Power Bank ama Alternate Mode Adapter ====================== ==========================

DFP / host role ====================== ========================== undefined - hub PDUSB Hub host PDUSB Host power_brick Power Brick amc Alternate Mode Controller ====================== ==========================

/sys/class/typec/<port>-{partner|cable}/identity/

Defined on file sysfs-class-typec

This directory appears only if the port device driver is capable of showing the result of Discover Identity USB power delivery command. That will not always be possible even when USB power delivery is supported, for example when USB power delivery communication for the port is mostly handled in firmware. If the directory exists, it will have an attribute file for every VDO in Discover Identity command result.

/sys/class/typec/<port>-{partner|cable}/identity/cert_stat

Defined on file sysfs-class-typec

Cert Stat VDO part of Discover Identity command result. The value will show 0 until Discover Identity command result becomes available. The value can be polled.

/sys/class/typec/<port>-{partner|cable}/identity/id_header

Defined on file sysfs-class-typec

ID Header VDO part of Discover Identity command result. The value will show 0 until Discover Identity command result becomes available. The value can be polled.

/sys/class/typec/<port>-{partner|cable}/identity/product

Defined on file sysfs-class-typec

Product VDO part of Discover Identity command result. The value will show 0 until Discover Identity command result becomes available. The value can be polled.

/sys/class/typec/<port>-{partner|cable}/identity/product_type_vdo1

Defined on file sysfs-class-typec

1st Product Type VDO of Discover Identity command result. The value will show 0 until Discover Identity command result becomes available and a valid Product Type VDO is returned.

/sys/class/typec/<port>-{partner|cable}/identity/product_type_vdo2

Defined on file sysfs-class-typec

2nd Product Type VDO of Discover Identity command result. The value will show 0 until Discover Identity command result becomes available and a valid Product Type VDO is returned.

/sys/class/typec/<port>-{partner|cable}/identity/product_type_vdo3

Defined on file sysfs-class-typec

3rd Product Type VDO of Discover Identity command result. The value will show 0 until Discover Identity command result becomes available and a valid Product Type VDO is returned.

USB Type-C port alternate mode devices.

/sys/class/typec/<port>-{partner|cable}/usb_power_delivery_revision

Defined on file sysfs-class-typec

Revision number of the supported USB Power Delivery specification of the port partner or cable, or 0.0 when USB Power Delivery is not supported.

Example values: - “2.0”: USB Power Delivery Release 2.0 - “3.0”: USB Power Delivery Release 3.0 - “3.1”: USB Power Delivery Release 3.1

/sys/class/typec/<port>/<alt mode>/supported_roles

Defined on file sysfs-class-typec

Space separated list of the supported roles.

Valid values: source, sink

/sys/class/typec/<port>/data_role

Defined on file sysfs-class-typec

The supported USB data roles. This attribute can be used for requesting data role swapping on the port. Swapping is supported as synchronous operation, so write(2) to the attribute will not return until the operation has finished. The attribute is notified about role changes so that poll(2) on the attribute wakes up. Change on the role will also generate uevent KOBJ_CHANGE on the port. The current role is show in brackets, for example “[host] device” when DRP port is in host mode.

Valid values: host, device

/sys/class/typec/<port>/orientation

Defined on file sysfs-class-typec

Indicates the active orientation of the Type-C connector. Valid values: - “normal”: CC1 orientation - “reverse”: CC2 orientation - “unknown”: Orientation cannot be determined.

/sys/class/typec/<port>/port_type

Defined on file sysfs-class-typec

Indicates the type of the port. This attribute can be used for requesting a change in the port type. Port type change is supported as a synchronous operation, so write(2) to the attribute will not return until the operation has finished.

Valid values:

source

(The port will behave as source only DFP port)

sink

(The port will behave as sink only UFP port)

dual

(The port will behave as dual-role-data and dual-role-power port)

/sys/class/typec/<port>/power_operation_mode

Defined on file sysfs-class-typec

Shows the current power operational mode the port is in. The power operation mode means current level for VBUS. In case USB Power Delivery communication is used for negotiating the levels, power operation mode should show “usb_power_delivery”.

Valid values:

  • default

  • 1.5A

  • 3.0A

  • usb_power_delivery

/sys/class/typec/<port>/power_role

Defined on file sysfs-class-typec

The supported power roles. This attribute can be used to request power role swap on the port. Swapping is supported as synchronous operation, so write(2) to the attribute will not return until the operation has finished. The attribute is notified about role changes so that poll(2) on the attribute wakes up. Change on the role will also generate uevent KOBJ_CHANGE. The current role is show in brackets, for example “[source] sink” when in source mode.

Valid values: source, sink

/sys/class/typec/<port>/preferred_role

Defined on file sysfs-class-typec

The user space can notify the driver about the preferred role. It should be handled as enabling of Try.SRC or Try.SNK, as defined in USB Type-C specification, in the port drivers. By default the preferred role should come from the platform.

Valid values: source, sink, none (to remove preference)

/sys/class/typec/<port>/select_usb_power_delivery

Defined on file sysfs-class-typec

Lists the USB Power Delivery Capabilities that the port can advertise to the partner. The currently used capabilities are in brackets. Selection happens by writing to the file.

USB Type-C partner devices (eg. /sys/class/typec/port0-partner/)

/sys/class/typec/<port>/supported_accessory_modes

Defined on file sysfs-class-typec

Space separated list of accessory modes, defined in the USB Type-C specification, the port supports.

/sys/class/typec/<port>/usb_power_delivery_revision

Defined on file sysfs-class-typec

Revision number of the supported USB Power Delivery specification, or 0.0 when USB Power Delivery is not supported.

Example values: - “2.0”: USB Power Delivery Release 2.0 - “3.0”: USB Power Delivery Release 3.0 - “3.1”: USB Power Delivery Release 3.1

/sys/class/typec/<port>/usb_typec_revision

Defined on file sysfs-class-typec

Revision number of the supported USB Type-C specification.

/sys/class/typec/<port>/vconn_source

Defined on file sysfs-class-typec

Shows is the port VCONN Source. This attribute can be used to request VCONN swap to change the VCONN Source during connection when both the port and the partner support USB Power Delivery. Swapping is supported as synchronous operation, so write(2) to the attribute will not return until the operation has finished. The attribute is notified about VCONN source changes so that poll(2) on the attribute wakes up. Change on VCONN source also generates uevent KOBJ_CHANGE.

Valid values:

  • “no” when the port is not the VCONN Source

  • “yes” when the port is the VCONN Source

/sys/class/uacce/<dev_name>/algorithms

Defined on file sysfs-driver-uacce

Algorithms supported by this accelerator, separated by new line. Can be any string and up to userspace to parse.

/sys/class/uacce/<dev_name>/api

Defined on file sysfs-driver-uacce

Api of the device Can be any string and up to userspace to parse. Application use the api to match the correct driver

/sys/class/uacce/<dev_name>/available_instances

Defined on file sysfs-driver-uacce

Available instances left of the device Return -ENODEV if uacce_ops get_available_instances is not provided

/sys/class/uacce/<dev_name>/flags

Defined on file sysfs-driver-uacce

Attributes of the device, see UACCE_DEV_xxx flag defined in uacce.h

/sys/class/uacce/<dev_name>/isolate

Defined on file sysfs-driver-uacce

(R) A sysfs node that read the device isolated state. The value 1 means the device is unavailable. The 0 means the device is available.

/sys/class/uacce/<dev_name>/isolate_strategy

Defined on file sysfs-driver-uacce

(RW) A sysfs node that configure the error threshold for the hardware isolation strategy. This size is a configured integer value, which is the number of threshold for hardware errors occurred in one hour. The default is 0. 0 means never isolate the device. The maximum value is 65535. You can write a number of threshold based on your hardware.

/sys/class/uacce/<dev_name>/region_dus_size

Defined on file sysfs-driver-uacce

Size (bytes) of dus region queue file

/sys/class/uacce/<dev_name>/region_mmio_size

Defined on file sysfs-driver-uacce

Size (bytes) of mmio region queue file

/sys/class/udc/udc.name/device/gadget/video4linux/video.name/function_name

Defined on file configfs-usb-gadget-uvc

UVC configfs function instance name

/sys/class/usb_power_delivery

Defined on file sysfs-class-usb_power_delivery

Directory for USB Power Delivery devices.

/sys/class/usb_power_delivery/.../<capability>/1:fixed_supply/dual_role_data

Defined on file sysfs-class-usb_power_delivery

This file shows the value of the Dual-Role Data bit in vSafe5V Fixed Supply Object. Dual role data means ability act as both USB host and USB device.

/sys/class/usb_power_delivery/.../<capability>/1:fixed_supply/dual_role_power

Defined on file sysfs-class-usb_power_delivery

This file contains boolean value that tells does the device support both source and sink power roles.

/sys/class/usb_power_delivery/.../<capability>/1:fixed_supply/unchunked_extended_messages_supported

Defined on file sysfs-class-usb_power_delivery

This file shows the value of the Unchunked Extended Messages Supported bit in vSafe5V Fixed Supply Object.

/sys/class/usb_power_delivery/.../<capability>/1:fixed_supply/unconstrained_power

Defined on file sysfs-class-usb_power_delivery

This file shows the value of the Unconstrained Power bit in vSafe5V Fixed Supply Object. The bit is set when an external source of power, powerful enough to power the entire system on its own, is available for the device.

/sys/class/usb_power_delivery/.../<capability>/1:fixed_supply/usb_communication_capable

Defined on file sysfs-class-usb_power_delivery

This file shows the value of the USB Communication Capable bit in vSafe5V Fixed Supply Object.

/sys/class/usb_power_delivery/.../<capability>/<position>:battery

Defined on file sysfs-class-usb_power_delivery

Battery PDO.

/sys/class/usb_power_delivery/.../<capability>/<position>:battery/maximum_voltage

Defined on file sysfs-class-usb_power_delivery

Maximum Voltage in millivolts.

/sys/class/usb_power_delivery/.../<capability>/<position>:battery/minimum_voltage

Defined on file sysfs-class-usb_power_delivery

Minimum Voltage in millivolts.

/sys/class/usb_power_delivery/.../<capability>/<position>:fixed_supply

Defined on file sysfs-class-usb_power_delivery

Devices containing the attributes (the bit fields) defined for Fixed Supplies.

The device “1:fixed_supply” is special. USB Power Delivery Specification dictates that the first PDO (at object position 1), and the only mandatory PDO, is always the vSafe5V Fixed Supply Object. vSafe5V Object has additional fields defined for it that the other Fixed Supply Objects do not have and that are related to the USB capabilities rather than power capabilities.

/sys/class/usb_power_delivery/.../<capability>/<position>:fixed_supply/voltage

Defined on file sysfs-class-usb_power_delivery

The voltage the supply supports in millivolts.

/sys/class/usb_power_delivery/.../<capability>/<position>:programmable_supply

Defined on file sysfs-class-usb_power_delivery

Programmable Power Supply (PPS) Augmented PDO (APDO).

/sys/class/usb_power_delivery/.../<capability>/<position>:programmable_supply/maximum_current

Defined on file sysfs-class-usb_power_delivery

Maximum Current in milliamperes.

/sys/class/usb_power_delivery/.../<capability>/<position>:programmable_supply/maximum_voltage

Defined on file sysfs-class-usb_power_delivery

Maximum Voltage in millivolts.

/sys/class/usb_power_delivery/.../<capability>/<position>:programmable_supply/minimum_voltage

Defined on file sysfs-class-usb_power_delivery

Minimum Voltage in millivolts.

/sys/class/usb_power_delivery/.../<capability>/<position>:variable_supply

Defined on file sysfs-class-usb_power_delivery

Variable Power Supply PDO.

/sys/class/usb_power_delivery/.../<capability>/<position>:variable_supply/maximum_voltage

Defined on file sysfs-class-usb_power_delivery

Maximum Voltage in millivolts.

/sys/class/usb_power_delivery/.../<capability>/<position>:variable_supply/minimum_voltage

Defined on file sysfs-class-usb_power_delivery

Minimum Voltage in millivolts.

/sys/class/usb_power_delivery/.../revision

Defined on file sysfs-class-usb_power_delivery

File showing the USB Power Delivery Specification Revision used in communication.

/sys/class/usb_power_delivery/.../sink-capabilities

Defined on file sysfs-class-usb_power_delivery

The sink capability message “Sink_Capabilities” contains a set of Power Data Objects (PDO) just like with source capabilities, but instead of describing the power capabilities, these objects describe the power requirements.

The order of the objects in the sink capability message is the same as with the source capabilities message.

Fixed Supplies

/sys/class/usb_power_delivery/.../sink-capabilities/1:fixed_supply/higher_capability

Defined on file sysfs-class-usb_power_delivery

This file shows the value of the Higher capability bit in vsafe5V Fixed Supply Object. If the bit is set, then the sink needs more than vsafe5V(eg. 12 V) to provide full functionality. Valid values: 0, 1

/sys/class/usb_power_delivery/.../sink-capabilities/<position>:battery/operational_power

Defined on file sysfs-class-usb_power_delivery

The operational power that the sink requires at the given voltage range.

Standard Power Range (SPR) Programmable Power Supplies

/sys/class/usb_power_delivery/.../sink-capabilities/<position>:fixed_supply/fast_role_swap_current

Defined on file sysfs-class-usb_power_delivery

This file contains the value of the “Fast Role Swap USB Type-C Current” field that tells the current level the sink requires after a Fast Role Swap. 0 - Fast Swap not supported” 1 - Default USB Power” 2 - 1.5A@5V” 3 - 3.0A@5V

Variable Supplies

/sys/class/usb_power_delivery/.../sink-capabilities/<position>:fixed_supply/operational_current

Defined on file sysfs-class-usb_power_delivery

Operational current of the sink in milliamperes.

/sys/class/usb_power_delivery/.../sink-capabilities/<position>:variable_supply/operational_current

Defined on file sysfs-class-usb_power_delivery

The operational current in milliamperes that the sink requires at the given Voltage range.

Battery Supplies

/sys/class/usb_power_delivery/.../source-capabilities

Defined on file sysfs-class-usb_power_delivery

The source capabilities message “Source_Capabilities” contains a set of Power Data Objects (PDO), each representing a type of power supply. The order of the PDO objects is defined in the USB Power Delivery Specification. Each PDO - power supply - will have its own device, and the PDO device name will start with the object position number as the first character followed by the power supply type name (“:” as delimiter).

/sys/class/usb_power_delivery/.../source_capabilities/<position>:<type>

/sys/class/usb_power_delivery/.../source-capabilities/1:fixed_supply/usb_suspend_supported

Defined on file sysfs-class-usb_power_delivery

This file shows the value of the USB Suspend Supported bit in vSafe5V Fixed Supply Object. If the bit is set then the device will follow the USB 2.0 and USB 3.2 rules for suspend and resume.

/sys/class/usb_power_delivery/.../source-capabilities/<position>:battery/maximum_power

Defined on file sysfs-class-usb_power_delivery

Maximum allowable Power in milliwatts.

/sys/class/usb_power_delivery/.../source-capabilities/<position>:fixed_supply/maximum_current

Defined on file sysfs-class-usb_power_delivery

Maximum current of the fixed source supply in milliamperes.

/sys/class/usb_power_delivery/.../source-capabilities/<position>:fixed_supply/peak_current

Defined on file sysfs-class-usb_power_delivery

This file shows the value of the Fixed Power Source Peak Current Capability field.

/sys/class/usb_power_delivery/.../source-capabilities/<position>:programmable_supply/pps_power_limited

Defined on file sysfs-class-usb_power_delivery

The PPS Power Limited bit indicates whether or not the source supply will exceed the rated output power if requested.

/sys/class/usb_power_delivery/.../source-capabilities/<position>:variable_supply/maximum_current

Defined on file sysfs-class-usb_power_delivery

The maximum current in milliamperes that the source can supply at the given Voltage range.

/sys/class/usb_power_delivery/.../version

Defined on file sysfs-class-usb_power_delivery

This is an optional attribute file showing the version of the specific revision of the USB Power Delivery Specification. In most cases the specification version is not known and the file is not available.

/sys/class/usb_role/

Defined on file sysfs-class-usb_role

Place in sysfs for USB Role Switches. USB Role Switch is a device that can select the data role (host or device) for USB port.

/sys/class/usb_role/<switch>/connector

Defined on file sysfs-class-usb_role

Optional symlink to the USB Type-C connector.

/sys/class/usb_role/<switch>/role

Defined on file sysfs-class-usb_role

The current role of the switch. This attribute can be used for requesting role swapping with non-USB Type-C ports. With USB Type-C ports, the ABI defined for USB Type-C connector class must be used.

Valid values: - none - host - device

/sys/class/vduse/

Defined on file sysfs-class-vduse

The vduse/ class sub-directory belongs to the VDUSE framework and provides a sysfs interface for configuring VDUSE devices.

/sys/class/vduse/<device-name>/

Defined on file sysfs-class-vduse

This directory entry is created when a VDUSE device is created via the control device.

/sys/class/vduse/<device-name>/msg_timeout

Defined on file sysfs-class-vduse

(RW) The timeout (in seconds) for waiting for the control message’s response from userspace. Default value is 30s. Writing a ‘0’ to the file means to disable the timeout.

/sys/class/vduse/control/

Defined on file sysfs-class-vduse

This directory entry is created for the control device of VDUSE framework.

/sys/class/wakeup/

Defined on file sysfs-class-wakeup

The /sys/class/wakeup/ directory contains pointers to all wakeup sources in the kernel at that moment in time.

/sys/class/wakeup/.../active_count

Defined on file sysfs-class-wakeup

This file contains the number of times the wakeup source was activated.

/sys/class/wakeup/.../active_time_ms

Defined on file sysfs-class-wakeup

This file contains the amount of time the wakeup source has been continuously active, in milliseconds. If the wakeup source is not active, this file contains ‘0’.

/sys/class/wakeup/.../event_count

Defined on file sysfs-class-wakeup

This file contains the number of signaled wakeup events associated with the wakeup source.

/sys/class/wakeup/.../expire_count

Defined on file sysfs-class-wakeup

This file contains the number of times the wakeup source’s timeout has expired.

/sys/class/wakeup/.../last_change_ms

Defined on file sysfs-class-wakeup

This file contains the monotonic clock time when the wakeup source was touched last time, in milliseconds.

/sys/class/wakeup/.../max_time_ms

Defined on file sysfs-class-wakeup

This file contains the maximum amount of time this wakeup source has been continuously active, in milliseconds.

/sys/class/wakeup/.../name

Defined on file sysfs-class-wakeup

This file contains the name of the wakeup source.

/sys/class/wakeup/.../prevent_suspend_time_ms

Defined on file sysfs-class-wakeup

The file contains the total amount of time this wakeup source has been preventing autosleep, in milliseconds.

/sys/class/wakeup/.../total_time_ms

Defined on file sysfs-class-wakeup

This file contains the total amount of time this wakeup source has been active, in milliseconds.

/sys/class/wakeup/.../wakeup_count

Defined on file sysfs-class-wakeup

This file contains the number of times the wakeup source might abort suspend.

/sys/class/watchdog/watchdog1/access_cs0

Defined on file sysfs-class-watchdog

It is a read/write file. This attribute exists only if the system has booted from the alternate flash chip due to expiration of a watchdog timer of AST2400/AST2500 when alternate boot function was enabled with ‘aspeed,alt-boot’ devicetree option for that watchdog or with an appropriate h/w strapping (for WDT2 only).

At alternate flash the ‘access_cs0’ sysfs node provides:

ast2400:

a way to get access to the primary SPI flash chip at CS0 after booting from the alternate chip at CS1.

ast2500:

a way to restore the normal address mapping from (CS0->CS1, CS1->CS0) to (CS0->CS0, CS1->CS1).

Clearing the boot code selection and timeout counter also resets to the initial state the chip select line mapping. When the SoC is in normal mapping state (i.e. booted from CS0), clearing those bits does nothing for both versions of the SoC. For alternate boot mode (booted from CS1 due to wdt2 expiration) the behavior differs as described above.

This option can be used with wdt2 (watchdog1) only.

When read, the current status of the boot code selection is shown. When written with any non-zero value, it clears the boot code selection and the timeout counter, which results in chipselect reset for AST2400/AST2500.

/sys/class/watchdog/watchdogn/bootstatus

Defined on file sysfs-class-watchdog

It is a read only file. It contains status of the watchdog device at boot. It is equivalent to WDIOC_GETBOOTSTATUS of ioctl interface.

/sys/class/watchdog/watchdogn/fw_version

Defined on file sysfs-class-watchdog

It is a read only file. It contains firmware version of watchdog device.

/sys/class/watchdog/watchdogn/identity

Defined on file sysfs-class-watchdog

It is a read only file. It contains identity string of watchdog device.

/sys/class/watchdog/watchdogn/nowayout

Defined on file sysfs-class-watchdog

It is a read/write file. While reading, it gives ‘1’ if the device has the nowayout feature set, otherwise it gives ‘0’. Writing a ‘1’ to the file enables the nowayout feature. Once set, the nowayout feature cannot be disabled, so writing a ‘0’ either has no effect (if the feature was already disabled) or results in a permission error.

/sys/class/watchdog/watchdogn/options

Defined on file sysfs-class-watchdog

It is a read only file. It contains options of watchdog device.

/sys/class/watchdog/watchdogn/pretimeout

Defined on file sysfs-class-watchdog

It is a read only file. It specifies the time in seconds before timeout when the pretimeout interrupt is delivered. Pretimeout is an optional feature.

/sys/class/watchdog/watchdogn/pretimeout_avaialable_governors

Defined on file sysfs-class-watchdog

It is a read only file. It shows the pretimeout governors available for this watchdog.

/sys/class/watchdog/watchdogn/pretimeout_governor

Defined on file sysfs-class-watchdog

It is a read/write file. When read, the currently assigned pretimeout governor is returned. When written, it sets the pretimeout governor.

/sys/class/watchdog/watchdogn/state

Defined on file sysfs-class-watchdog

It is a read only file. It gives active/inactive status of watchdog device.

/sys/class/watchdog/watchdogn/status

Defined on file sysfs-class-watchdog

It is a read only file. It contains watchdog device’s internal status bits. It is equivalent to WDIOC_GETSTATUS of ioctl interface.

/sys/class/watchdog/watchdogn/timeleft

Defined on file sysfs-class-watchdog

It is a read only file. It contains value of time left for reset generation. It is equivalent to WDIOC_GETTIMELEFT of ioctl interface.

/sys/class/watchdog/watchdogn/timeout

Defined on file sysfs-class-watchdog

It is a read only file. It is read to know about current value of timeout programmed.

/sys/class/zram-control/

Defined on file sysfs-class-zram

The zram-control/ class sub-directory belongs to zram device class

/sys/class/zram-control/hot_add

Defined on file sysfs-class-zram

RO attribute. Read operation will cause zram to add a new device and return its device id back to user (so one can use /dev/zram<id>), or error code.

/sys/class/zram-control/hot_remove

Defined on file sysfs-class-zram

WO attribute. Remove a specific /dev/zramX device, where X is a device_id provided by user.

Symbols under /sys/dev

/sys/dev

Defined on file sysfs-dev

The /sys/dev tree provides a method to look up the sysfs path for a device using the information returned from stat(2). There are two directories, ‘block’ and ‘char’, beneath /sys/dev containing symbolic links with names of the form “<major>:<minor>”. These links point to the corresponding sysfs path for the given device.

Example:

$ readlink /sys/dev/block/8:32
../../block/sdc

Entries in /sys/dev/char and /sys/dev/block will be dynamically created and destroyed as devices enter and leave the system.

Users: mdadm <linux-raid@vger.kernel.org>

Symbols under /sys/devices

/sys/devices

Defined on file sysfs-devices

The /sys/devices tree contains a snapshot of the internal state of the kernel device tree. Devices will be added and removed dynamically as the machine runs, and between different kernel versions, the layout of the devices within this tree will change.

Please do not rely on the format of this tree because of this. If a program wishes to find different things in the tree, please use the /sys/class structure and rely on the symlinks there to point to the proper location within the /sys/devices tree of the individual devices. Or rely on the uevent messages to notify programs of devices being added and removed from this tree to find the location of those devices.

Note that sometimes not all devices along the directory chain will have emitted uevent messages, so userspace programs must be able to handle such occurrences.

Users:

udev <linux-hotplug-devel@lists.sourceforge.net>

/sys/devices/*/<our-device>/fuse

Defined on file sysfs-driver-tegra-fuse

read-only access to the efuses on Tegra20, Tegra30, Tegra114 and Tegra124 SoC’s from NVIDIA. The efuses contain write once data programmed at the factory. The data is laid out in 32bit words in LSB first format. Each bit represents a single value as decoded from the fuse registers. Bits order/assignment exactly matches the HW registers, including any unused bits.

Users: any user space application which wants to read the efuses on Tegra SoC’s

/sys/devices/*/<our-device>/nvmem

Defined on file sysfs-driver-jz4780-efuse

read-only access to the efuse on the Ingenic JZ4780 SoC The SoC has a one time programmable 8K efuse that is split into segments. The driver supports read only. The segments are:

0x000

64 bit

Random Number

0x008

128 bit

Ingenic Chip ID

0x018

128 bit

Customer ID

0x028

3520 bit

Reserved

0x1E0

8 bit

Protect Segment

0x1E1

2296 bit

HDMI Key

0x300

2048 bit

Security boot key

Users: any user space application which wants to read the Chip and Customer ID

/sys/devices/*/xenbus/event_channels

Defined on file sysfs-devices-xenbus

Number of Xen event channels associated with a kernel based paravirtualized device frontend or backend.

/sys/devices/*/xenbus/events

Defined on file sysfs-devices-xenbus

Total number of Xen events received for a Xen pv device frontend or backend.

/sys/devices/*/xenbus/jiffies_eoi_delayed

Defined on file sysfs-devices-xenbus

Summed up time in jiffies the EOI of an interrupt for a Xen pv device has been delayed in order to avoid stalls due to event storms. This value rising is a first sign for a rogue other end of the pv device.

/sys/devices/*/xenbus/spurious_events

Defined on file sysfs-devices-xenbus

Number of events received for a Xen pv device which did not require any action. Too many spurious events in a row will trigger delayed EOI processing.

/sys/devices/*/xenbus/spurious_threshold

Defined on file sysfs-devices-xenbus

Controls the tolerated number of subsequent spurious events before delayed EOI processing is triggered for a Xen pv device. Default is 1. This can be modified in case the other end of the pv device is issuing spurious events on a regular basis and is known not to be malicious on purpose. Raising the value for such cases can improve pv device performance.

/sys/devices/.../consumer:<consumer>

Defined on file sysfs-devices-consumer

The /sys/devices/.../consumer:<consumer> are symlinks to device links where this device is the supplier. <consumer> denotes the name of the consumer in that device link and is of the form bus:device name. There can be zero or more of these symlinks for a given device.

/sys/devices/.../coredump

Defined on file sysfs-devices-coredump

The /sys/devices/.../coredump attribute is only present when the device is bound to a driver, which provides the .coredump() callback. The attribute is write only. Anything written to this file will trigger the .coredump() callback.

Available when CONFIG_DEV_COREDUMP is enabled.

/sys/devices/.../firmware_node/

Defined on file sysfs-devices-firmware_node

The /sys/devices/.../firmware_node directory contains attributes allowing the user space to check and modify some firmware related properties of given device.

/sys/devices/.../firmware_node/description

Defined on file sysfs-devices-firmware_node

The /sys/devices/.../firmware/description attribute contains a string that describes the device as provided by the _STR method in the ACPI namespace. This attribute is read-only. If the device does not have an _STR method associated with it in the ACPI namespace, this attribute is not present.

/sys/devices/.../iommu

Defined on file sysfs-class-iommu

IOMMU drivers are able to link the IOMMU for a given device here to allow association of device to IOMMU.

/sys/devices/.../lpss_ltr/

Defined on file sysfs-devices-lpss_ltr

The /sys/devices/.../lpss_ltr/ directory is only present for devices included into the Intel Lynxpoint Low Power Subsystem (LPSS). If present, it contains attributes containing the LTR mode and the values of LTR registers of the device.

/sys/devices/.../lpss_ltr/auto_ltr

Defined on file sysfs-devices-lpss_ltr

The /sys/devices/.../lpss_ltr/auto_ltr attribute contains the current value of the device’s AUTO_LTR register (raw) represented as an 8-digit hexadecimal number.

This attribute is read-only. If the device’s runtime PM status is not “active”, attempts to read from this attribute cause -EAGAIN to be returned.

/sys/devices/.../lpss_ltr/ltr_mode

Defined on file sysfs-devices-lpss_ltr

The /sys/devices/.../lpss_ltr/ltr_mode attribute contains an integer number (0 or 1) indicating whether or not the devices’ LTR functionality is working in the software mode (1).

This attribute is read-only. If the device’s runtime PM status is not “active”, attempts to read from this attribute cause -EAGAIN to be returned.

/sys/devices/.../lpss_ltr/sw_ltr

Defined on file sysfs-devices-lpss_ltr

The /sys/devices/.../lpss_ltr/auto_ltr attribute contains the current value of the device’s SW_LTR register (raw) represented as an 8-digit hexadecimal number.

This attribute is read-only. If the device’s runtime PM status is not “active”, attempts to read from this attribute cause -EAGAIN to be returned.

/sys/devices/.../mmc_host/mmcX/mmcX:XXXX/enhanced_area_offset

Defined on file sysfs-devices-mmc

Enhanced area is a new feature defined in eMMC4.4 standard. eMMC4.4 or later card can support such feature. This kind of area can help to improve the card performance. If the feature is enabled, this attribute will indicate the start address of enhanced data area. If not, this attribute will be -EINVAL. Unit Byte. Format decimal.

/sys/devices/.../mmc_host/mmcX/mmcX:XXXX/enhanced_area_size

Defined on file sysfs-devices-mmc

Enhanced area is a new feature defined in eMMC4.4 standard. eMMC4.4 or later card can support such feature. This kind of area can help to improve the card performance. If the feature is enabled, this attribute will indicate the size of enhanced data area. If not, this attribute will be -EINVAL. Unit KByte. Format decimal.

/sys/devices/.../online

Defined on file sysfs-devices-online

The /sys/devices/.../online attribute is only present for devices whose bus types provide .online() and .offline() callbacks. The number read from it (0 or 1) reflects the value of the device’s ‘offline’ field. If that number is 1 and ‘0’ (or ‘n’, or ‘N’) is written to this file, the device bus type’s .offline() callback is executed for the device and (if successful) its ‘offline’ field is updated accordingly. In turn, if that number is 0 and ‘1’ (or ‘y’, or ‘Y’) is written to this file, the device bus type’s .online() callback is executed for the device and (if successful) its ‘offline’ field is updated as appropriate.

After a successful execution of the bus type’s .offline() callback the device cannot be used for any purpose until either it is removed (i.e. device_del() is called for it), or its bus type’s .online() is executed successfully.

/sys/devices/.../physical_location

Defined on file sysfs-devices-physical_location

This directory contains information on physical location of the device connection point with respect to the system’s housing.

/sys/devices/.../physical_location/dock

Defined on file sysfs-devices-physical_location

“Yes” if the device connection point resides in a docking station or a port replicator. “No” otherwise.

/sys/devices/.../physical_location/horizontal_position

Defined on file sysfs-devices-physical_location

Describes horizontal position of the device connection point on the panel surface.

/sys/devices/.../physical_location/lid

Defined on file sysfs-devices-physical_location

“Yes” if the device connection point resides on the lid of laptop system. “No” otherwise.

/sys/devices/.../physical_location/panel

Defined on file sysfs-devices-physical_location

Describes which panel surface of the system’s housing the device connection point resides on.

/sys/devices/.../physical_location/vertical_position

Defined on file sysfs-devices-physical_location

Describes vertical position of the device connection point on the panel surface.

/sys/devices/.../power/

Defined on file sysfs-devices-power

The /sys/devices/.../power directory contains attributes allowing the user space to check and modify some power management related properties of given device.

/sys/devices/.../power/async

Defined on file sysfs-devices-power

The /sys/devices/.../async attribute allows the user space to enable or diasble the device’s suspend and resume callbacks to be executed asynchronously (ie. in separate threads, in parallel with the main suspend/resume thread) during system-wide power transitions (eg. suspend to RAM, hibernation).

All devices have one of the following two values for the power/async file:

  • “enabledn” to permit the asynchronous suspend/resume;

  • “disabledn” to forbid it;

The value of this attribute may be changed by writing either “enabled”, or “disabled” to it.

It generally is unsafe to permit the asynchronous suspend/resume of a device unless it is certain that all of the PM dependencies of the device are known to the PM core. However, for some devices this attribute is set to “enabled” by bus type code or device drivers and in that cases it should be safe to leave the default value.

/sys/devices/.../power/autosuspend_delay_ms

Defined on file sysfs-devices-power

The /sys/devices/.../power/autosuspend_delay_ms attribute contains the autosuspend delay value (in milliseconds). Some drivers do not want their device to suspend as soon as it becomes idle at run time; they want the device to remain inactive for a certain minimum period of time first. That period is called the autosuspend delay. Negative values will prevent the device from being suspended at run time (similar to writing “on” to the power/control attribute). Values >= 1000 will cause the autosuspend timer expiration to be rounded up to the nearest second.

Not all drivers support this attribute. If it isn’t supported, attempts to read or write it will yield I/O errors.

/sys/devices/.../power/control

Defined on file sysfs-devices-power

The /sys/devices/.../power/control attribute allows the user space to control the run-time power management of the device.

All devices have one of the following two values for the power/control file:

  • “auton” to allow the device to be power managed at run time;

  • “onn” to prevent the device from being power managed;

The default for all devices is “auto”, which means that they may be subject to automatic power management, depending on their drivers. Changing this attribute to “on” prevents the driver from power managing the device at run time. Doing that while the device is suspended causes it to be woken up.

/sys/devices/.../power/pm_qos_latency_tolerance_us

Defined on file sysfs-devices-power

The /sys/devices/.../power/pm_qos_latency_tolerance_us attribute contains the PM QoS active state latency tolerance limit for the given device in microseconds. That is the maximum memory access latency the device can suffer without any visible adverse effects on user space functionality. If that value is the string “any”, the latency does not matter to user space at all, but hardware should not be allowed to set the latency tolerance for the device automatically.

Reading “auto” from this file means that the maximum memory access latency for the device may be determined automatically by the hardware as needed. Writing “auto” to it allows the hardware to be switched to this mode if there are no other latency tolerance requirements from the kernel side.

This attribute is only present if the feature controlled by it is supported by the hardware.

This attribute has no effect on runtime suspend and resume of devices and on system-wide suspend/resume and hibernation.

/sys/devices/.../power/pm_qos_no_power_off

Defined on file sysfs-devices-power

The /sys/devices/.../power/pm_qos_no_power_off attribute is used for manipulating the PM QoS “no power off” flag. If set, this flag indicates to the kernel that power should not be removed entirely from the device.

Not all drivers support this attribute. If it isn’t supported, it is not present.

This attribute has no effect on system-wide suspend/resume and hibernation.

/sys/devices/.../power/pm_qos_resume_latency_us

Defined on file sysfs-devices-power

The /sys/devices/.../power/pm_qos_resume_latency_us attribute contains the PM QoS resume latency limit for the given device, which is the maximum allowed time it can take to resume the device, after it has been suspended at run time, from a resume request to the moment the device will be ready to process I/O, in microseconds. If it is equal to 0, however, this means that the PM QoS resume latency may be arbitrary and the special value “n/a” means that user space cannot accept any resume latency at all for the given device.

Not all drivers support this attribute. If it isn’t supported, it is not present.

This attribute has no effect on system-wide suspend/resume and hibernation.

/sys/devices/.../power/runtime_active_kids

Defined on file sysfs-devices-power

Reports the runtime PM children usage count of a device, or 0 if the children will be ignored.

/sys/devices/.../power/runtime_active_time

Defined on file sysfs-devices-power

Reports the total time that the device has been active. Used for runtime PM statistics.

/sys/devices/.../power/runtime_enabled

Defined on file sysfs-devices-power

Is runtime PM enabled for this device? States are “enabled”, “disabled”, “forbidden” or a combination of the latter two.

/sys/devices/.../power/runtime_status

Defined on file sysfs-devices-power

The /sys/devices/.../power/runtime_status attribute contains the current runtime PM status of the device, which may be “suspended”, “suspending”, “resuming”, “active”, “error” (fatal error), or “unsupported” (runtime PM is disabled).

/sys/devices/.../power/runtime_suspended_time

Defined on file sysfs-devices-power

Reports total time that the device has been suspended. Used for runtime PM statistics.

/sys/devices/.../power/runtime_usage

Defined on file sysfs-devices-power

Reports the runtime PM usage count of a device.

/sys/devices/.../power/wakeup

Defined on file sysfs-devices-power

The /sys/devices/.../power/wakeup attribute allows the user space to check if the device is enabled to wake up the system from sleep states, such as the memory sleep state (suspend to RAM) and hibernation (suspend to disk), and to enable or disable it to do that as desired.

Some devices support “wakeup” events, which are hardware signals used to activate the system from a sleep state. Such devices have one of the following two values for the sysfs power/wakeup file:

  • “enabledn” to issue the events;

  • “disabledn” not to do so;

In that cases the user space can change the setting represented by the contents of this file by writing either “enabled”, or “disabled” to it.

For the devices that are not capable of generating system wakeup events this file is not present. In that case the device cannot be enabled to wake up the system from sleep states.

/sys/devices/.../power/wakeup_abort_count

Defined on file sysfs-devices-power

The /sys/devices/.../wakeup_abort_count attribute contains the number of times the processing of a wakeup event associated with the device might have aborted system transition into a sleep state in progress. This attribute is read-only. If the device is not capable to wake up the system from sleep states, this attribute is not present. If the device is not enabled to wake up the system from sleep states, this attribute is empty.

/sys/devices/.../power/wakeup_active

Defined on file sysfs-devices-power

The /sys/devices/.../wakeup_active attribute contains either 1, or 0, depending on whether or not a wakeup event associated with the device is being processed (1). This attribute is read-only. If the device is not capable to wake up the system from sleep states, this attribute is not present. If the device is not enabled to wake up the system from sleep states, this attribute is empty.

/sys/devices/.../power/wakeup_active_count

Defined on file sysfs-devices-power

The /sys/devices/.../wakeup_active_count attribute contains the number of times the processing of wakeup events associated with the device was completed (at the kernel level). This attribute is read-only. If the device is not capable to wake up the system from sleep states, this attribute is not present. If the device is not enabled to wake up the system from sleep states, this attribute is empty.

/sys/devices/.../power/wakeup_count

Defined on file sysfs-devices-power

The /sys/devices/.../wakeup_count attribute contains the number of signaled wakeup events associated with the device. This attribute is read-only. If the device is not capable to wake up the system from sleep states, this attribute is not present. If the device is not enabled to wake up the system from sleep states, this attribute is empty.

/sys/devices/.../power/wakeup_expire_count

Defined on file sysfs-devices-power

The /sys/devices/.../wakeup_expire_count attribute contains the number of times a wakeup event associated with the device has been reported with a timeout that expired. This attribute is read-only. If the device is not capable to wake up the system from sleep states, this attribute is not present. If the device is not enabled to wake up the system from sleep states, this attribute is empty.

/sys/devices/.../power/wakeup_last_time_ms

Defined on file sysfs-devices-power

The /sys/devices/.../wakeup_last_time_ms attribute contains the value of the monotonic clock corresponding to the time of signaling the last wakeup event associated with the device, in milliseconds. This attribute is read-only. If the device is not enabled to wake up the system from sleep states, this attribute is not present. If the device is not enabled to wake up the system from sleep states, this attribute is empty.

/sys/devices/.../power/wakeup_max_time_ms

Defined on file sysfs-devices-power

The /sys/devices/.../wakeup_max_time_ms attribute contains the maximum time of processing a single wakeup event associated with the device, in milliseconds. This attribute is read-only. If the device is not capable to wake up the system from sleep states, this attribute is not present. If the device is not enabled to wake up the system from sleep states, this attribute is empty.

/sys/devices/.../power/wakeup_prevent_sleep_time_ms

Defined on file sysfs-devices-power

The /sys/devices/.../wakeup_prevent_sleep_time_ms attribute contains the total time the device has been preventing opportunistic transitions to sleep states from occurring. This attribute is read-only. If the device is not capable to wake up the system from sleep states, this attribute is not present. If the device is not enabled to wake up the system from sleep states, this attribute is empty.

/sys/devices/.../power/wakeup_total_time_ms

Defined on file sysfs-devices-power

The /sys/devices/.../wakeup_total_time_ms attribute contains the total time of processing wakeup events associated with the device, in milliseconds. This attribute is read-only. If the device is not capable to wake up the system from sleep states, this attribute is not present. If the device is not enabled to wake up the system from sleep states, this attribute is empty.

/sys/devices/.../power_resources_D0/

Defined on file sysfs-devices-power_resources_D0

The /sys/devices/.../power_resources_D0/ directory is only present for device objects representing ACPI device nodes that use ACPI power resources for power management.

If present, it contains symbolic links to device directories representing ACPI power resources that need to be turned on for the given device node to be in ACPI power state D0. The names of the links are the same as the names of the directories they point to.

/sys/devices/.../power_resources_D1/

Defined on file sysfs-devices-power_resources_D1

The /sys/devices/.../power_resources_D1/ directory is only present for device objects representing ACPI device nodes that use ACPI power resources for power management and support ACPI power state D1.

If present, it contains symbolic links to device directories representing ACPI power resources that need to be turned on for the given device node to be in ACPI power state D1. The names of the links are the same as the names of the directories they point to.

/sys/devices/.../power_resources_D2/

Defined on file sysfs-devices-power_resources_D2

The /sys/devices/.../power_resources_D2/ directory is only present for device objects representing ACPI device nodes that use ACPI power resources for power management and support ACPI power state D2.

If present, it contains symbolic links to device directories representing ACPI power resources that need to be turned on for the given device node to be in ACPI power state D2. The names of the links are the same as the names of the directories they point to.

/sys/devices/.../power_resources_D3hot/

Defined on file sysfs-devices-power_resources_D3hot

The /sys/devices/.../power_resources_D3hot/ directory is only present for device objects representing ACPI device nodes that use ACPI power resources for power management and support ACPI power state D3hot.

If present, it contains symbolic links to device directories representing ACPI power resources that need to be turned on for the given device node to be in ACPI power state D3hot. The names of the links are the same as the names of the directories they point to.

/sys/devices/.../power_resources_wakeup/

Defined on file sysfs-devices-power_resources_wakeup

The /sys/devices/.../power_resources_wakeup/ directory is only present for device objects representing ACPI device nodes that require ACPI power resources for wakeup signaling.

If present, it contains symbolic links to device directories representing ACPI power resources that need to be turned on for the given device node to be able to signal wakeup. The names of the links are the same as the names of the directories they point to.

/sys/devices/.../power_state

Defined on file sysfs-devices-power_state

The /sys/devices/.../power_state attribute is only present for device objects representing ACPI device nodes that provide power management methods.

If present, it contains a string representing the current ACPI power state of the given device node. Its possible values, “D0”, “D1”, “D2”, “D3hot”, and “D3cold”, reflect the power state names defined by the ACPI specification (ACPI 4 and above).

If the device node uses shared ACPI power resources, this state determines a list of power resources required not to be turned off. However, some power resources needed by the device node in higher-power (lower-number) states may also be ON because of some other devices using them at the moment.

This attribute is read-only.

/sys/devices/.../real_power_state

Defined on file sysfs-devices-real_power_state

The /sys/devices/.../real_power_state attribute is only present for device objects representing ACPI device nodes that provide power management methods and use ACPI power resources for power management.

If present, it contains a string representing the real ACPI power state of the given device node as returned by the _PSC control method or inferred from the configuration of power resources. Its possible values, “D0”, “D1”, “D2”, “D3hot”, and “D3cold”, reflect the power state names defined by the ACPI specification (ACPI 4 and above).

In some situations the value of this attribute may be different from the value of the /sys/devices/.../power_state attribute for the same device object. If that happens, some shared power resources used by the device node are only ON because of some other devices using them at the moment.

This attribute is read-only.

/sys/devices/.../removable

Defined on file sysfs-devices-removable

Information about whether a given device can be removed from the platform by the user. This is determined by its subsystem in a bus / platform-specific way. This attribute is only present for devices that can support determining such information:

“removable”

device can be removed from the platform by the user

“fixed”

device is fixed to the platform / cannot be removed by the user.

“unknown”

The information is unavailable / cannot be deduced.

Currently this is only supported by USB (which infers the information from a combination of hub descriptor bits and platform-specific data such as ACPI) and PCI (which gets this from ACPI / device tree).

/sys/devices/.../resource_in_use

Defined on file sysfs-devices-resource_in_use

The /sys/devices/.../resource_in_use attribute is only present for device objects representing ACPI power resources.

If present, it contains a number (0 or 1) representing the current status of the given power resource (0 means that the resource is not in use and therefore it has been turned off).

This attribute is read-only.

/sys/devices/.../software_node/

Defined on file sysfs-devices-software_node

This directory contains the details about the device that are assigned in kernel (i.e. software), as opposed to the firmware_node directory which contains the details that are assigned for the device in firmware. The main attributes in the directory will show the properties the device has, and the relationship it has to some of the other devices.

/sys/devices/.../state_synced

Defined on file sysfs-devices-state_synced

The /sys/devices/.../state_synced attribute is only present for devices whose bus types or driver provides the .sync_state() callback. The number read from it (0 or 1) reflects the value of the device’s ‘state_synced’ field. A value of 0 means the .sync_state() callback hasn’t been called yet. A value of 1 means the .sync_state() callback has been called.

Generally, if a device has sync_state() support and has some of the resources it provides enabled at the time the kernel starts (Eg: enabled by hardware reset or bootloader or anything that run before the kernel starts), then it’ll keep those resources enabled and in a state that’s compatible with the state they were in at the start of the kernel. The device will stop doing this only when the sync_state() callback has been called -- which happens only when all its consumer devices are registered and have probed successfully. Resources that were left disabled at the time the kernel starts are not affected or limited in any way by sync_state() callbacks.

Writing “1” to this file will force a call to the device’s sync_state() function if it hasn’t been called already. The sync_state() call happens independent of the state of the consumer devices.

/sys/devices/.../sun

Defined on file sysfs-devices-sun

The file contains a Slot-unique ID which provided by the _SUN method in the ACPI namespace. The value is written in Advanced Configuration and Power Interface Specification as follows:

“The _SUN value is required to be unique among the slots of the same type. It is also recommended that this number match the slot number printed on the physical slot whenever possible.”

So reading the sysfs file, we can identify a physical position of the slot in the system.

/sys/devices/.../supplier:<supplier>

Defined on file sysfs-devices-supplier

The /sys/devices/.../supplier:<supplier> are symlinks to device links where this device is the consumer. <supplier> denotes the name of the supplier in that device link and is of the form bus:device name. There can be zero or more of these symlinks for a given device.

/sys/devices/.../waiting_for_supplier

Defined on file sysfs-devices-waiting_for_supplier

The /sys/devices/.../waiting_for_supplier attribute is only present when fw_devlink kernel command line option is enabled and is set to something stricter than “permissive”. It is removed once a device probes successfully (because the information is no longer relevant). The number read from it (0 or 1) reflects whether the device is waiting for one or more suppliers to be added and then linked to using device links before the device can probe.

A value of 0 means the device is not waiting for any suppliers to be added before it can probe. A value of 1 means the device is waiting for one or more suppliers to be added before it can probe.

/sys/devices/../../gisb_arb_timeout

Defined on file sysfs-platform-brcmstb-gisb-arb

Returns the currently configured raw timeout value of the Broadcom Set Top Box internal GISB bus arbiter. Minimum value is 1, and maximum value is 0xffffffff.

/sys/devices/LNXSYSTM:00/LNXSYBUS:00/TOS620A:00/protection_level

Defined on file sysfs-driver-toshiba_haps

This file controls the built-in accelerometer protection level, valid values are:

  • 0 -> Disabled

  • 1 -> Low

  • 2 -> Medium

  • 3 -> High

The default potection value is set to 2 (Medium).

Users: KToshiba

/sys/devices/LNXSYSTM:00/LNXSYBUS:00/TOS620A:00/reset_protection

Defined on file sysfs-driver-toshiba_haps

This file turns off the built-in accelerometer for a few seconds and then restore normal operation. Accepting 1 as the only parameter.

/sys/devices/LNXSYSTM:00/LNXSYBUS:00/TOS{1900,620{0,7,8}}:00/available_kbd_modes

Defined on file sysfs-driver-toshiba_acpi

This file shows the supported keyboard backlight modes the system supports, which can be:

  • 0x1 -> FN-Z

  • 0x2 -> AUTO (also called TIMER)

  • 0x8 -> ON

  • 0x10 -> OFF

Note that not all keyboard types support the listed modes. See the entry named “available_kbd_modes”

Users: KToshiba

/sys/devices/LNXSYSTM:00/LNXSYBUS:00/TOS{1900,620{0,7,8}}:00/cooling_method

Defined on file sysfs-driver-toshiba_acpi

This file controls the Cooling Method feature. Reading this file prints two values, the first is the actual cooling method and the second is the maximum cooling method supported. When the maximum cooling method is ONE, valid values are:

  • 0 -> Maximum Performance

  • 1 -> Battery Optimized

When the maximum cooling method is TWO, valid values are:

  • 0 -> Maximum Performance

  • 1 -> Performance

  • 2 -> Battery Optimized

Users: KToshiba

/sys/devices/LNXSYSTM:00/LNXSYBUS:00/TOS{1900,620{0,7,8}}:00/fan

Defined on file sysfs-driver-toshiba_acpi

This file controls the state of the internal fan, valid values are:

  • 0 -> OFF

  • 1 -> ON

/sys/devices/LNXSYSTM:00/LNXSYBUS:00/TOS{1900,620{0,7,8}}:00/kbd_backlight_mode

Defined on file sysfs-driver-toshiba_acpi

This file controls the keyboard backlight operation mode, valid values are:

  • 0x1 -> FN-Z

  • 0x2 -> AUTO (also called TIMER)

  • 0x8 -> ON

  • 0x10 -> OFF

Note that from kernel 3.16 onwards this file accepts all listed parameters, kernel 3.15 only accepts the first two (FN-Z and AUTO). Also note that toggling this value on type 1 devices, requires a reboot for changes to take effect.

Users: KToshiba

/sys/devices/LNXSYSTM:00/LNXSYBUS:00/TOS{1900,620{0,7,8}}:00/kbd_backlight_timeout

Defined on file sysfs-driver-toshiba_acpi

This file controls the timeout of the keyboard backlight whenever the operation mode is set to AUTO (or TIMER), valid values range from 0-60. Note that the kernel 3.15 only had support for the first keyboard type, the kernel 3.16 added support for the second type and the range accepted for type 2 is 1-60. See the entry named “kbd_type”

Users: KToshiba

/sys/devices/LNXSYSTM:00/LNXSYBUS:00/TOS{1900,620{0,7,8}}:00/kbd_function_keys

Defined on file sysfs-driver-toshiba_acpi

This file controls the Special Functions (hotkeys) operation mode, valid values are:

  • 0 -> Normal Operation

  • 1 -> Special Functions

In the “Normal Operation” mode, the F{1-12} keys are as usual and the hotkeys are accessed via FN-F{1-12}. In the “Special Functions” mode, the F{1-12} keys trigger the hotkey and the F{1-12} keys are accessed via FN-F{1-12}. Note that toggling this value requires a reboot for changes to take effect.

Users: KToshiba

/sys/devices/LNXSYSTM:00/LNXSYBUS:00/TOS{1900,620{0,7,8}}:00/kbd_type

Defined on file sysfs-driver-toshiba_acpi

This file shows the current keyboard backlight type, which can be:

  • 1 -> Type 1, supporting modes FN-Z and AUTO

  • 2 -> Type 2, supporting modes TIMER, ON and OFF

Users: KToshiba

/sys/devices/LNXSYSTM:00/LNXSYBUS:00/TOS{1900,620{0,7,8}}:00/panel_power_on

Defined on file sysfs-driver-toshiba_acpi

This file controls whether the laptop should turn ON whenever the LID is opened, valid values are:

  • 0 -> Disabled

  • 1 -> Enabled

Note that toggling this value requires a reboot for changes to take effect.

Users: KToshiba

/sys/devices/LNXSYSTM:00/LNXSYBUS:00/TOS{1900,620{0,7,8}}:00/position

Defined on file sysfs-driver-toshiba_acpi

This file shows the absolute position of the built-in accelereometer.

/sys/devices/LNXSYSTM:00/LNXSYBUS:00/TOS{1900,620{0,7,8}}:00/sleep_functions_on_battery

Defined on file sysfs-driver-toshiba_acpi

This file controls the USB Sleep Functions under battery, and set the level at which point they will be disabled, accepted values can be:

  • 0 -> Disabled

  • 1-100 -> Battery level to disable sleep functions

Currently it prints two values, the first one indicates if the feature is enabled or disabled, while the second one shows the current battery level set. Note that when the value is set to disabled, the sleep function will only work when connected to power.

Users: KToshiba

/sys/devices/LNXSYSTM:00/LNXSYBUS:00/TOS{1900,620{0,7,8}}:00/touchpad

Defined on file sysfs-driver-toshiba_acpi

This files controls the status of the touchpad and pointing stick (if available), valid values are:

  • 0 -> OFF

  • 1 -> ON

Users: KToshiba

/sys/devices/LNXSYSTM:00/LNXSYBUS:00/TOS{1900,620{0,7,8}}:00/usb_rapid_charge

Defined on file sysfs-driver-toshiba_acpi

This file controls the USB Rapid Charge state, which can be:

  • 0 -> Disabled

  • 1 -> Enabled

Note that toggling this value requires a reboot for changes to take effect.

Users: KToshiba

/sys/devices/LNXSYSTM:00/LNXSYBUS:00/TOS{1900,620{0,7,8}}:00/usb_sleep_charge

Defined on file sysfs-driver-toshiba_acpi

This file controls the USB Sleep & Charge charging mode, which can be:

  • 0 -> Disabled (0x00)

  • 1 -> Alternate (0x09)

  • 2 -> Auto (0x21)

  • 3 -> Typical (0x11)

Note that from kernel 4.1 onwards this file accepts all listed values, kernel 4.0 only supports the first three. Note that this feature only works when connected to power, if you want to use it under battery, see the entry named “sleep_functions_on_battery”

Users: KToshiba

/sys/devices/LNXSYSTM:00/LNXSYBUS:00/TOS{1900,620{0,7,8}}:00/usb_sleep_music

Defined on file sysfs-driver-toshiba_acpi

This file controls the Sleep & Music state, which values can be:

  • 0 -> Disabled

  • 1 -> Enabled

Note that this feature only works when connected to power, if you want to use it under battery, see the entry named “sleep_functions_on_battery”

Users: KToshiba

/sys/devices/LNXSYSTM:00/LNXSYBUS:00/TOS{1900,620{0,7,8}}:00/usb_three

Defined on file sysfs-driver-toshiba_acpi

This file controls the USB 3 functionality, valid values are:

  • 0 -> Disabled (Acts as a regular USB 2)

  • 1 -> Enabled (Full USB 3 functionality)

Note that toggling this value requires a reboot for changes to take effect.

Users: KToshiba

/sys/devices/LNXSYSTM:00/LNXSYBUS:00/TOS{1900,620{0,7,8}}:00/version

Defined on file sysfs-driver-toshiba_acpi

This file shows the current version of the driver

Users: KToshiba

/sys/devices/cpu/events/

Defined on file sysfs-bus-event_source-devices-events

Generic performance monitoring events

A collection of performance monitoring events that may be supported by many/most CPUs. These events can be monitored using the ‘perf(1)’ tool.

The contents of each file would look like:

event=0xNNNN

where ‘N’ is a hex digit and the number ‘0xNNNN’ shows the “raw code” for the perf event identified by the file’s “basename”.

/sys/devices/hisi_ptt<sicl_id>_<core_id>/requester_filters

Defined on file sysfs-bus-event_source-devices-hisi_ptt

This directory contains the files providing the PCIe Requester filters information used for PTT trace. Each file is named after the supported Endpoint device name <domain>:<bus>:<device>.<function>.

See the description of the “filter” in HiSilicon PCIe Tune and Trace device for more information.

/sys/devices/hisi_ptt<sicl_id>_<core_id>/requester_filters/<bdf>

Defined on file sysfs-bus-event_source-devices-hisi_ptt

(Read) Indicates the filter value of this Requester filter, which can be used to control the TLP headers to trace by the PTT trace.

/sys/devices/hisi_ptt<sicl_id>_<core_id>/requester_filters/multiselect

Defined on file sysfs-bus-event_source-devices-hisi_ptt

(Read) Indicates if this kind of filter can be selected at the same time as others filters, or must be used on it’s own. 1 indicates the former case and 0 indicates the latter.

/sys/devices/hisi_ptt<sicl_id>_<core_id>/root_port_filters

Defined on file sysfs-bus-event_source-devices-hisi_ptt

This directory contains the files providing the PCIe Root Port filters information used for PTT trace. Each file is named after the supported Root Port device name <domain>:<bus>:<device>.<function>.

See the description of the “filter” in HiSilicon PCIe Tune and Trace device for more information.

/sys/devices/hisi_ptt<sicl_id>_<core_id>/root_port_filters/<bdf>

Defined on file sysfs-bus-event_source-devices-hisi_ptt

(Read) Indicates the filter value of this Root Port filter, which can be used to control the TLP headers to trace by the PTT trace.

/sys/devices/hisi_ptt<sicl_id>_<core_id>/root_port_filters/multiselect

Defined on file sysfs-bus-event_source-devices-hisi_ptt

(Read) Indicates if this kind of filter can be selected at the same time as others filters, or must be used on it’s own. 1 indicates the former case and 0 indicates the latter.

/sys/devices/hv_24x7/cpumask

Defined on file sysfs-bus-event_source-devices-hv_24x7

read only This sysfs file exposes the cpumask which is designated to make HCALLs to retrieve hv-24x7 pmu event counter data.

/sys/devices/hv_24x7/interface/chipspersocket

Defined on file sysfs-bus-event_source-devices-hv_24x7

read only This sysfs interface exposes the number of chips per socket present in the system.

/sys/devices/hv_24x7/interface/coresperchip

Defined on file sysfs-bus-event_source-devices-hv_24x7

read only This sysfs interface exposes the number of cores per chip present in the system.

/sys/devices/hv_24x7/interface/sockets

Defined on file sysfs-bus-event_source-devices-hv_24x7

read only This sysfs interface exposes the number of sockets present in the system.

/sys/devices/hv_gpci/cpumask

Defined on file sysfs-bus-event_source-devices-hv_gpci

read only This sysfs file exposes the cpumask which is designated to make HCALLs to retrieve hv-gpci pmu event counter data.

/sys/devices/hv_gpci/interface/affinity_domain_via_domain

Defined on file sysfs-bus-event_source-devices-hv_gpci

admin read only This sysfs file exposes the system topology information by making HCALL H_GET_PERF_COUNTER_INFO. The HCALL is made with counter request value AFFINITY_DOMAIN_INFORMATION_BY_DOMAIN(0xB0).

  • This sysfs file will be created only for power10 and above platforms.

  • User needs root privileges to read data from this sysfs file.

  • This sysfs file will be created, only when the HCALL returns “H_SUCCESS”, “H_AUTHORITY” or “H_PARAMETER” as the return type.

    HCALL with return error type “H_AUTHORITY” can be resolved during runtime by setting “Enable Performance Information Collection” option.

  • The end user reading this sysfs file must decode the content as per underlying platform/firmware.

Possible error codes while reading this sysfs file:

  • “-EPERM”Partition is not permitted to retrieve performance information,

    required to set “Enable Performance Information Collection” option.

  • “-EIO”Can’t retrieve system information because of invalid buffer length/invalid address

    or because of some hardware error. Refer to getPerfCountInfo documentation for more information.

  • “-EFBIG” : System information exceeds PAGE_SIZE.

/sys/devices/hv_gpci/interface/affinity_domain_via_partition

Defined on file sysfs-bus-event_source-devices-hv_gpci

admin read only This sysfs file exposes the system topology information by making HCALL H_GET_PERF_COUNTER_INFO. The HCALL is made with counter request value AFFINITY_DOMAIN_INFORMATION_BY_PARTITION(0xB1).

  • This sysfs file will be created only for power10 and above platforms.

  • User needs root privileges to read data from this sysfs file.

  • This sysfs file will be created, only when the HCALL returns “H_SUCCESS”, “H_AUTHORITY” or “H_PARAMETER” as the return type.

    HCALL with return error type “H_AUTHORITY” can be resolved during runtime by setting “Enable Performance Information Collection” option.

  • The end user reading this sysfs file must decode the content as per underlying platform/firmware.

Possible error codes while reading this sysfs file:

  • “-EPERM”Partition is not permitted to retrieve performance information,

    required to set “Enable Performance Information Collection” option.

  • “-EIO”Can’t retrieve system information because of invalid buffer length/invalid address

    or because of some hardware error. Refer to getPerfCountInfo documentation for more information.

  • “-EFBIG” : System information exceeds PAGE_SIZE.

/sys/devices/hv_gpci/interface/affinity_domain_via_virtual_processor

Defined on file sysfs-bus-event_source-devices-hv_gpci

admin read only This sysfs file exposes the system topology information by making HCALL H_GET_PERF_COUNTER_INFO. The HCALL is made with counter request value AFFINITY_DOMAIN_INFORMATION_BY_VIRTUAL_PROCESSOR(0xA0).

  • This sysfs file will be created only for power10 and above platforms.

  • User needs root privileges to read data from this sysfs file.

  • This sysfs file will be created, only when the HCALL returns “H_SUCCESS”, “H_AUTHORITY” or “H_PARAMETER” as the return type.

    HCALL with return error type “H_AUTHORITY” can be resolved during runtime by setting “Enable Performance Information Collection” option.

  • The end user reading this sysfs file must decode the content as per underlying platform/firmware.

Possible error codes while reading this sysfs file:

  • “-EPERM”Partition is not permitted to retrieve performance information,

    required to set “Enable Performance Information Collection” option.

  • “-EIO”Can’t retrieve system information because of invalid buffer length/invalid address

    or because of some hardware error. Refer to getPerfCountInfo documentation for more information.

  • “-EFBIG” : System information exceeds PAGE_SIZE.

/sys/devices/hv_gpci/interface/processor_bus_topology

Defined on file sysfs-bus-event_source-devices-hv_gpci

admin read only This sysfs file exposes the system topology information by making HCALL H_GET_PERF_COUNTER_INFO. The HCALL is made with counter request value PROCESSOR_BUS_TOPOLOGY(0xD0).

  • This sysfs file will be created only for power10 and above platforms.

  • User needs root privileges to read data from this sysfs file.

  • This sysfs file will be created, only when the HCALL returns “H_SUCCESS”, “H_AUTHORITY” or “H_PARAMETER” as the return type.

    HCALL with return error type “H_AUTHORITY” can be resolved during runtime by setting “Enable Performance Information Collection” option.

  • The end user reading this sysfs file must decode the content as per underlying platform/firmware.

Possible error codes while reading this sysfs file:

  • “-EPERM”Partition is not permitted to retrieve performance information,

    required to set “Enable Performance Information Collection” option.

  • “-EIO”Can’t retrieve system information because of invalid buffer length/invalid address

    or because of some hardware error. Refer to getPerfCountInfo documentation for more information.

  • “-EFBIG” : System information exceeds PAGE_SIZE.

/sys/devices/hv_gpci/interface/processor_config

Defined on file sysfs-bus-event_source-devices-hv_gpci

admin read only This sysfs file exposes the system topology information by making HCALL H_GET_PERF_COUNTER_INFO. The HCALL is made with counter request value PROCESSOR_CONFIG(0x90).

  • This sysfs file will be created only for power10 and above platforms.

  • User needs root privileges to read data from this sysfs file.

  • This sysfs file will be created, only when the HCALL returns “H_SUCCESS”, “H_AUTHORITY” or “H_PARAMETER” as the return type.

    HCALL with return error type “H_AUTHORITY” can be resolved during runtime by setting “Enable Performance Information Collection” option.

  • The end user reading this sysfs file must decode the content as per underlying platform/firmware.

Possible error codes while reading this sysfs file:

  • “-EPERM”Partition is not permitted to retrieve performance information,

    required to set “Enable Performance Information Collection” option.

  • “-EIO”Can’t retrieve system information because of invalid buffer length/invalid address

    or because of some hardware error. Refer to getPerfCountInfo documentation for more information.

  • “-EFBIG” : System information exceeds PAGE_SIZE.

/sys/devices/pci0000:00/*/QEMU0001:00/capability for MMIO

Defined on file sysfs-bus-pci-devices-pvpanic

Read-only attribute. Capabilities of pvpanic device which are supported by QEMU.

Format: %x.

Detailed bit definition refers to section <Bit Definition> from pvpanic device specification: https://git.qemu.org/?p=qemu.git;a=blob_plain;f=docs/specs/pvpanic.txt

/sys/devices/pci0000:00/*/QEMU0001:00/events

Defined on file sysfs-bus-pci-devices-pvpanic

RW attribute. Set/get which features in-use. This attribute is used to enable/disable feature(s) of pvpanic device. Notice that this value should be a subset of capability.

Format: %x.

Also refer to pvpanic device specification.

/sys/devices/pci0000:00/<dev>/avs/fw_version

Defined on file sysfs-bus-pci-devices-avs

Version of AudioDSP firmware ASoC avs driver is communicating with.

Format: %d.%d.%d.%d, type:major:minor:build.

/sys/devices/pci0000:00/<dev>/fw_info

Defined on file sysfs-bus-pci-devices-catpt

Detailed AudioDSP firmware build information including build hash and log-providers hash. This information is obtained during initial handshake with firmware. Format: %s.

/sys/devices/pci0000:00/<dev>/fw_version

Defined on file sysfs-bus-pci-devices-catpt

Version of AudioDSP firmware ASoC catpt driver is communicating with.

Format: %d.%d.%d.%d, type:major:minor:build.

/sys/devices/platform/*/cnqf_enable

Defined on file sysfs-amd-pmf

Reading this file tells if the AMD Platform Management(PMF) Cool n Quiet Framework(CnQF) feature is enabled or not.

This feature is not enabled by default and gets only turned on if OEM BIOS passes a “flag” to PMF ACPI function (index 11 or 12) or in case the user writes “on”.

To turn off CnQF user can write “off” to the sysfs node. Note: Systems that support auto mode will not have this sysfs file available.

/sys/devices/platform/.../power_on_reason

Defined on file sysfs-platform-power-on-reason

Shows system power on reason. The following strings/reasons can be read (the list can be extended): “regular power-up”, “RTC wakeup”, “watchdog timeout”, “software reset”, “reset button action”, “CPU clock failure”, “crystal oscillator failure”, “brown-out reset”, “unknown reason”.

The file is read only.

/sys/devices/platform/.../ufshci_capabilities/man_id

Defined on file sysfs-driver-ufs

Host Capabilities register group: manufacturer ID register. Symbol - HCMID. This file shows the UFSHCD manufacturer id. The Manufacturer ID is defined by JEDEC in JEDEC-JEP106. The file is read only.

/sys/devices/platform/.../ufshci_capabilities/product_id

Defined on file sysfs-driver-ufs

Host Capabilities register group: product ID register. Symbol - HCPID. This file shows the UFSHCD product id. The content of this register is vendor specific. The file is read only.

/sys/devices/platform/.../ufshci_capabilities/version

Defined on file sysfs-driver-ufs

Host Capabilities register group: UFS version register. Symbol - VER. This file shows the UFSHCD version. Example: Version 3.12 would be represented as 0000_0312h. The file is read only.

/sys/devices/platform/8086<x>:00/firmware_version

Defined on file sysfs-platform-sst-atom

LPE Firmware version for SST driver on all atom platforms (BYT/CHT/Merrifield/BSW). If the FW has never been loaded it will display:

"FW not yet loaded"

If FW has been loaded it will display:

"v01.aa.bb.cc"

aa: Major version is reflecting SoC version:

0d:

BYT FW

0b:

BSW FW

07:

Merrifield FW

bb: Minor version

cc: Build version

/sys/devices/platform/<i2c-demux-name>/available_masters

Defined on file sysfs-platform-i2c-demux-pinctrl

Reading the file will give you a list of masters which can be selected for a demultiplexed bus. The format is “<index>:<name>”. Example from a Renesas Lager board:

0:/i2c@e6500000 1:/i2c@e6508000

/sys/devices/platform/<i2c-demux-name>/current_master

Defined on file sysfs-platform-i2c-demux-pinctrl

This file selects/shows the active I2C master for a demultiplexed bus. It uses the <index> value from the file ‘available_masters’.

/sys/devices/platform/<phy-name>/role

Defined on file sysfs-platform-phy-rcar-gen3-usb2

This file can be read and write. The file can show/change the phy mode for role swap of usb.

Write the following strings to change the mode:

  • “host” - switching mode from peripheral to host.

  • “peripheral” - switching mode from host to peripheral.

Read the file, then it shows the following strings:

  • “host” - The mode is host now.

  • “peripheral” - The mode is peripheral now.

/sys/devices/platform/<platform>/available_mini_led_mode

Defined on file sysfs-platform-asus-wmi

List the available mini-led modes.

/sys/devices/platform/<platform>/boot_sound

Defined on file sysfs-platform-asus-wmi

Set if the BIOS POST sound is played on boot.
  • 0 - False,

  • 1 - True

/sys/devices/platform/<platform>/camera

Defined on file sysfs-platform-asus-wmi

Control the camera. 1 means on, 0 means off.

/sys/devices/platform/<platform>/cardr

Defined on file sysfs-platform-asus-wmi

Control the card reader. 1 means on, 0 means off.

/sys/devices/platform/<platform>/charge_mode

Defined on file sysfs-platform-asus-wmi

Get the current charging mode being used:
  • 1 - Barrel connected charger,

  • 2 - USB-C charging

  • 3 - Both connected, barrel used for charging

/sys/devices/platform/<platform>/cpufv

Defined on file sysfs-platform-asus-wmi

Change CPU clock configuration (write-only). There are three available clock configuration:

  • 0 -> Super Performance Mode

  • 1 -> High Performance Mode

  • 2 -> Power Saving Mode

/sys/devices/platform/<platform>/dgpu_disable

Defined on file sysfs-platform-asus-wmi

Disable discrete GPU:
  • 0 - Enable dGPU,

  • 1 - Disable dGPU

/sys/devices/platform/<platform>/egpu_connected

Defined on file sysfs-platform-asus-wmi

Show if the egpu (XG Mobile) is correctly connected:
  • 0 - False,

  • 1 - True

/sys/devices/platform/<platform>/egpu_enable

Defined on file sysfs-platform-asus-wmi

Enable the external GPU paired with ROG X-Flow laptops. Toggling this setting will also trigger ACPI to disable the dGPU:

  • 0 - Disable,

  • 1 - Enable

/sys/devices/platform/<platform>/etr3

Defined on file sysfs-platform-intel-pmc

The file exposes “Extended Test Mode Register 3” global reset bits. The bits are used during an Intel platform manufacturing process to indicate that consequent reset of the platform is a “global reset”. This type of reset is required in order for manufacturing configurations to take effect.

Display global reset setting bits for PMC.

  • bit 31 - global reset is locked

  • bit 20 - global reset is set

Writing bit 20 value to the etr3 will induce a platform “global reset” upon consequent platform reset, in case the register is not locked. The “global reset bit” should be locked on a production system and the file is in read-only mode.

/sys/devices/platform/<platform>/fan_boost_mode

Defined on file sysfs-platform-asus-wmi

Fan boost mode:
  • 0 - normal,

  • 1 - overboost,

  • 2 - silent

/sys/devices/platform/<platform>/force_power

Defined on file sysfs-platform-intel-wmi-thunderbolt

Modify the platform force power state, influencing Thunderbolt controllers to turn on or off when no devices are connected (write-only) There are two available states:

  • 0 -> Force power disabled

  • 1 -> Force power enabled

/sys/devices/platform/<platform>/gpu_mux_mode

Defined on file sysfs-platform-asus-wmi

Switch the GPU hardware MUX mode. Laptops with this feature can can be toggled to boot with only the dGPU (discrete mode) or in standard Optimus/Hybrid mode. On switch a reboot is required:

  • 0 - Discrete GPU,

  • 1 - Optimus/Hybrid,

/sys/devices/platform/<platform>/lid_resume

Defined on file sysfs-platform-asus-wmi

Resume on lid open. 1 means on, 0 means off.

/sys/devices/platform/<platform>/mcu_powersave

Defined on file sysfs-platform-asus-wmi

Set if the MCU can go in to low-power mode on system sleep
  • 0 - False,

  • 1 - True

/sys/devices/platform/<platform>/mini_led_mode

Defined on file sysfs-platform-asus-wmi

Change the mini-LED mode:
  • 0 - Single-zone,

  • 1 - Multi-zone

  • 2 - Multi-zone strong (available on newer generation mini-led)

/sys/devices/platform/<platform>/nv_dynamic_boost

Defined on file sysfs-platform-asus-wmi

Set the dynamic boost limit of the Nvidia dGPU:
  • min=5, max=25

/sys/devices/platform/<platform>/nv_temp_target

Defined on file sysfs-platform-asus-wmi

Set the target temperature limit of the Nvidia dGPU:
  • min=75, max=87

/sys/devices/platform/<platform>/panel_od

Defined on file sysfs-platform-asus-wmi

Enable an LCD response-time boost to reduce or remove ghosting:
  • 0 - Disable,

  • 1 - Enable

/sys/devices/platform/<platform>/ppt_apu_sppt

Defined on file sysfs-platform-asus-wmi

Set the APU SPPT limit. Shown on full AMD systems only:
  • min=5, max=130

/sys/devices/platform/<platform>/ppt_fppt

Defined on file sysfs-platform-asus-wmi

Set the Fast Package Power Tracking Limit of CPU. AMD+Nvidia only:
  • min=5, max=250

/sys/devices/platform/<platform>/ppt_pl1_spl

Defined on file sysfs-platform-asus-wmi

Set the Package Power Target total of CPU: PL1 on Intel, SPL on AMD. Shown on Intel+Nvidia or AMD+Nvidia based systems:

  • min=5, max=250

/sys/devices/platform/<platform>/ppt_pl2_sppt

Defined on file sysfs-platform-asus-wmi

Set the Slow Package Power Tracking Limit of CPU: PL2 on Intel, SPPT, on AMD. Shown on Intel+Nvidia or AMD+Nvidia based systems:

  • min=5, max=250

/sys/devices/platform/<platform>/ppt_platform_sppt

Defined on file sysfs-platform-asus-wmi

Set the platform SPPT limit. Shown on full AMD systems only:
  • min=5, max=130

/sys/devices/platform/<platform>/throttle_thermal_policy

Defined on file sysfs-platform-asus-wmi

Throttle thermal policy mode:
  • 0 - default,

  • 1 - overboost,

  • 2 - silent

/sys/devices/platform/<platform>/tokens/*

Defined on file sysfs-platform-dell-smbios

A read-only description of Dell platform tokens available on the machine.

Each token attribute is available as a pair of sysfs attributes readable by a process with CAP_SYS_ADMIN.

For example the token ID “5” would be available as the following attributes:

  • 0005_location

  • 0005_value

Tokens will vary from machine to machine, and only tokens available on that machine will be displayed.

/sys/devices/platform/<platform>/touchpad

Defined on file sysfs-platform-asus-wmi

Control the card touchpad. 1 means on, 0 means off.

/sys/devices/platform/<renesas_usb3's name>/role

Defined on file sysfs-platform-renesas_usb3

This file can be read and write. The file can show/change the drd mode of usb.

Write the following string to change the mode:

  • “host” - switching mode from peripheral to host.

  • “peripheral” - switching mode from host to peripheral.

Read the file, then it shows the following strings:

  • “host” - The mode is host now.

  • “peripheral” - The mode is peripheral now.

/sys/devices/platform/HISI04Bx:00/chipX/all_linked

/sys/devices/platform/HISI04Bx:00/chipX/linked_full_lane

/sys/devices/platform/HISI04Bx:00/chipX/crc_err_cnt

Defined on file sysfs-devices-platform-kunpeng_hccs

The /sys/devices/platform/HISI04Bx:00/chipX/ directory contains read-only attributes exposing some summarization information of all HCCS ports under a specified chip. The X in ‘chipX’ indicates the Xth chip on platform.

There are following attributes in this directory:

all_linked:

(RO)

if all enabled ports on this chip are linked (bool).

linked_full_lane:

(RO)

if all linked ports on this chip are full lane (bool).

crc_err_cnt:

(RO)

total CRC err count for all ports on this chip.

/sys/devices/platform/HISI04Bx:00/chipX/dieY/all_linked

/sys/devices/platform/HISI04Bx:00/chipX/dieY/linked_full_lane

/sys/devices/platform/HISI04Bx:00/chipX/dieY/crc_err_cnt

Defined on file sysfs-devices-platform-kunpeng_hccs

The /sys/devices/platform/HISI04Bx:00/chipX/dieY/ directory contains read-only attributes exposing some summarization information of all HCCS ports under a specified die. The Y in ‘dieY’ indicates the hardware id of the die on chip who has chip id X.

There are following attributes in this directory:

all_linked:

(RO)

if all enabled ports on this die are linked (bool).

linked_full_lane:

(RO)

if all linked ports on this die are full lane (bool).

crc_err_cnt:

(RO)

total CRC err count for all ports on this die.

/sys/devices/platform/HISI04Bx:00/chipX/dieY/hccsN/type

/sys/devices/platform/HISI04Bx:00/chipX/dieY/hccsN/lane_mode

/sys/devices/platform/HISI04Bx:00/chipX/dieY/hccsN/enable

/sys/devices/platform/HISI04Bx:00/chipX/dieY/hccsN/cur_lane_num

/sys/devices/platform/HISI04Bx:00/chipX/dieY/hccsN/link_fsm

/sys/devices/platform/HISI04Bx:00/chipX/dieY/hccsN/lane_mask

/sys/devices/platform/HISI04Bx:00/chipX/dieY/hccsN/crc_err_cnt

Defined on file sysfs-devices-platform-kunpeng_hccs

The /sys/devices/platform/HISI04Bx/chipX/dieX/hccsN/ directory contains read-only attributes exposing information about a HCCS port. The N value in ‘hccsN’ indicates this port id. The X in ‘chipX’ indicates the ID of the chip to which the HCCS port belongs. For example, X ranges from to ‘n - 1’ if the chip number on platform is n. The Y in ‘dieY’ indicates the hardware id of the die to which the hccs port belongs. Note: type, lane_mode and enable are fixed attributes on running platform.

The HCCS port have the following attributes:

type:

(RO)

port type (string), e.g. HCCS-v1 -> H32

lane_mode:

(RO)

the lane mode of this port (string), e.g. x8

enable:

(RO)

indicate if this port is enabled (bool).

cur_lane_num:

(RO)

current lane number of this port.

link_fsm:

(RO)

link finite state machine of this port.

lane_mask:

(RO)

current lane mask of this port, every bit indicates a lane.

crc_err_cnt:

(RO)

CRC err count on this port.

/sys/devices/platform/_UDC_/gadget/gadget-lunX/nofua

Defined on file sysfs-devices-platform-_UDC_-gadget

Show or set the reaction on the FUA (Force Unit Access) bit in the SCSI WRITE(10,12) commands when a gadget in USB Mass Storage mode.

Possible values are:

  • 1 -> ignore the FUA flag

  • 0 -> obey the FUA flag

/sys/devices/platform/_UDC_/gadget/suspended

Defined on file sysfs-devices-platform-_UDC_-gadget

Show the suspend state of an USB composite gadget.

  • 1 -> suspended

  • 0 -> resumed

(_UDC_ is the name of the USB Device Controller driver)

/sys/devices/platform/amba_pl/<dev>/dis_block_break

Defined on file sysfs-driver-xilinx-tmr-manager

Write any value to it, This control file enables the break signal. This file is write only. Example: # echo <any value> > /sys/devices/platform/amba_pl/44a10000.tmr_manager/dis_block_break

/sys/devices/platform/amba_pl/<dev>/errcnt

Defined on file sysfs-driver-xilinx-tmr-manager

This control file provides the fault detection count. This file cannot be written. Example: # cat /sys/devices/platform/amba_pl/44a10000.tmr_manager/errcnt 1

/sys/devices/platform/asus_laptop/bluetooth

Defined on file sysfs-platform-asus-laptop

Control the bluetooth device. 1 means on, 0 means off. This may control the led, the device or both.

Users: Lapsus

/sys/devices/platform/asus_laptop/display

Defined on file sysfs-platform-asus-laptop

This file allows display switching. The value is composed by 4 bits and defined as follow:

4321
|||`- LCD
||`-- CRT
|`--- TV
`---- DVI
Ex:
  • 0 (0000b) means no display

  • 3 (0011b) CRT+LCD.

/sys/devices/platform/asus_laptop/gps

Defined on file sysfs-platform-asus-laptop

Control the gps device. 1 means on, 0 means off.

Users: Lapsus

/sys/devices/platform/asus_laptop/ledd

Defined on file sysfs-platform-asus-laptop

Some models like the W1N have a LED display that can be used to display several items of information. To control the LED display, use the following:

echo 0x0T000DDD > /sys/devices/platform/asus_laptop/

where T control the 3 letters display, and DDD the 3 digits display. The DDD table can be found in Asus Laptop Extras

/sys/devices/platform/asus_laptop/wimax

Defined on file sysfs-platform-asus-laptop

Control the wimax device. 1 means on, 0 means off.

/sys/devices/platform/asus_laptop/wlan

Defined on file sysfs-platform-asus-laptop

Control the wlan device. 1 means on, 0 means off. This may control the led, the device or both.

Users: Lapsus

/sys/devices/platform/asus_laptop/wwan

Defined on file sysfs-platform-asus-laptop

Control the wwan (3G) device. 1 means on, 0 means off.

/sys/devices/platform/at91_can/net/<iface>/mb0_id

Defined on file sysfs-platform-at91

Value representing the can_id of mailbox 0.

Default: 0x7ff (standard frame)

Due to a chip bug (errata 50.2.6.3 & 50.3.5.3 in “AT91SAM9263 Preliminary 6249H-ATARM-27-Jul-09”) the contents of mailbox 0 may be send under certain conditions (even if disabled or in rx mode).

The workaround in the errata suggests not to use the mailbox and load it with an unused identifier.

In order to use an extended can_id add the CAN_EFF_FLAG (0x80000000U) to the can_id. Example:

  • standard id 0x7ff:

    echo 0x7ff      > /sys/class/net/can0/mb0_id
    
  • extended id 0x1fffffff:

    echo 0x9fffffff > /sys/class/net/can0/mb0_id
    

/sys/devices/platform/dmi-ipmi-ssif.*/hosed

/sys/devices/platform/dmi-ipmi-ssif.*/alerts

/sys/devices/platform/dmi-ipmi-ssif.*/sent_messages

/sys/devices/platform/dmi-ipmi-ssif.*/sent_messages_parts

/sys/devices/platform/dmi-ipmi-ssif.*/received_messages

/sys/devices/platform/dmi-ipmi-ssif.*/received_message_parts

/sys/devices/platform/dmi-ipmi-ssif.*/events

/sys/devices/platform/dmi-ipmi-ssif.*/watchdog_pretimeouts

/sys/devices/platform/dmi-ipmi-ssif.*/flag_fetches

/sys/devices/platform/dmi-ipmi-ssif.*/send_retries

/sys/devices/platform/dmi-ipmi-ssif.*/receive_retries

/sys/devices/platform/dmi-ipmi-ssif.*/send_errors

/sys/devices/platform/dmi-ipmi-ssif.*/receive_errors

Defined on file sysfs-devices-platform-ipmi

hosed

(RO) Number of times the hardware didn’t follow the state machine.

alerts

(RO) Number of alerts received.

sent_messages

(RO) Number of total messages sent.

sent_message_parts

(RO) Number of message parts sent. Messages may be broken into parts if they are long.

received_messages

(RO) Number of message responses received.

received_message_parts

(RO) Number of message fragments received.

events

(RO) Number of received events.

watchdog_pretimeouts

(RO) Number of watchdog pretimeouts.

flag_fetches

(RO) Number of times a flag fetch was requested.

send_retries

(RO) Number of time a message was retried.

receive_retries

(RO) Number of times the receive of a message was retried.

send_errors

(RO) Number of times the send of a message failed.

receive_errors

(RO) Number of errors in receiving messages.

/sys/devices/platform/dmi-ipmi-ssif.*/type

Defined on file sysfs-devices-platform-ipmi

(RO) Shows the IMPI device interface type - “ssif” here.

/sys/devices/platform/docg3/f[0-3]_dps[01]_is_keylocked

Defined on file sysfs-devices-platform-docg3

Show whether the floor (0 to 4), protection area (0 or 1) is keylocked. Each docg3 chip (or floor) has 2 protection areas, which can cover any part of it, block aligned, called DPS. The protection has information embedded whether it blocks reads, writes or both. The result is:

  • 0 -> the DPS is not keylocked

  • 1 -> the DPS is keylocked

Users: None identified so far.

/sys/devices/platform/docg3/f[0-3]_dps[01]_protection_key

Defined on file sysfs-devices-platform-docg3

Enter the protection key for the floor (0 to 4), protection area (0 or 1). Each docg3 chip (or floor) has 2 protection areas, which can cover any part of it, block aligned, called DPS. The protection has information embedded whether it blocks reads, writes or both. The protection key is a string of 8 bytes (value 0-255). Entering the correct value toggle the lock, and can be observed through f[0-3]_dps[01]_is_keylocked. Possible values are:

  • 8 bytes

Typical values are:

  • “00000000”

  • “12345678”

Users: None identified so far.

/sys/devices/platform/dock.<N>/docked

Defined on file sysfs-devices-platform-dock

(RO) Value 1 or 0 indicates whether the software believes the laptop is docked in a docking station.

/sys/devices/platform/dock.<N>/flags

Defined on file sysfs-devices-platform-dock

(RO) Show dock station flags, useful for checking if undock request has been made by the user (from the immediate_undock option).

/sys/devices/platform/dock.<N>/type

Defined on file sysfs-devices-platform-dock

(RO) Display the dock station type- dock_station, ata_bay or battery_bay.

/sys/devices/platform/dock.<N>/uid

Defined on file sysfs-devices-platform-dock

(RO) Displays the docking station the laptop is docked to.

/sys/devices/platform/dock.<N>/undock

Defined on file sysfs-devices-platform-dock

(WO) Writing to this file causes the software to initiate an undock request to the firmware.

/sys/devices/platform/eeepc/available_cpufv

Defined on file sysfs-platform-eeepc-laptop

List available cpufv modes.

/sys/devices/platform/eeepc/camera

Defined on file sysfs-platform-eeepc-laptop

Control the camera. 1 means on, 0 means off.

/sys/devices/platform/eeepc/cardr

Defined on file sysfs-platform-eeepc-laptop

Control the card reader. 1 means on, 0 means off.

/sys/devices/platform/eeepc/cpufv

Defined on file sysfs-platform-eeepc-laptop

Change CPU clock configuration. On the Eee PC 1000H there are three available clock configuration:

  • 0 -> Super Performance Mode

  • 1 -> High Performance Mode

  • 2 -> Power Saving Mode

On Eee PC 701 there is only 2 available clock configurations. Available configuration are listed in available_cpufv file. Reading this file will show the raw hexadecimal value which is defined as follow:

| 8 bit | 8 bit |
    |       `---- Current mode
    `------------ Availables modes

For example, 0x301 means: mode 1 selected, 3 available modes.

/sys/devices/platform/eeepc/disp

Defined on file sysfs-platform-eeepc-laptop

This file allows display switching.

  • 1 = LCD

  • 2 = CRT

  • 3 = LCD+CRT

If you run X11, you should use xrandr instead.

/sys/devices/platform/hidma-*/chid

Defined on file sysfs-platform-hidma

Contains the ID of the channel within the HIDMA instance. It is used to associate a given HIDMA channel with the priority and weight calls in the management interface.

/sys/devices/platform/hidma-mgmt*/chanops/chan*/priority

Defined on file sysfs-platform-hidma-mgmt

Contains either 0 or 1 and indicates if the DMA channel is a low priority (0) or high priority (1) channel.

/sys/devices/platform/hidma-mgmt*/chanops/chan*/weight

Defined on file sysfs-platform-hidma-mgmt

Contains 0..15 and indicates the weight of the channel among equal priority channels during round robin scheduling.

/sys/devices/platform/hidma-mgmt*/chreset_timeout_cycles

Defined on file sysfs-platform-hidma-mgmt

Contains the platform specific cycle value to wait after a reset command is issued. If the value is chosen too short, then the HW will issue a reset failure interrupt. The value is platform specific and should not be changed without consultance.

/sys/devices/platform/hidma-mgmt*/dma_channels

Defined on file sysfs-platform-hidma-mgmt

Contains the number of dma channels supported by one instance of HIDMA hardware. The value may change from chip to chip.

/sys/devices/platform/hidma-mgmt*/hw_version_major

Defined on file sysfs-platform-hidma-mgmt

Version number major for the hardware.

/sys/devices/platform/hidma-mgmt*/hw_version_minor

Defined on file sysfs-platform-hidma-mgmt

Version number minor for the hardware.

/sys/devices/platform/hidma-mgmt*/max_rd_xactions

Defined on file sysfs-platform-hidma-mgmt

Contains a value between 0 and 31. Maximum number of read transactions that can be issued back to back. Choosing a higher number gives better performance but can also cause performance reduction to other peripherals sharing the same bus.

/sys/devices/platform/hidma-mgmt*/max_read_request

Defined on file sysfs-platform-hidma-mgmt

Size of each read request. The value needs to be a power of two and can be between 128 and 1024.

/sys/devices/platform/hidma-mgmt*/max_wr_xactions

Defined on file sysfs-platform-hidma-mgmt

Contains a value between 0 and 31. Maximum number of write transactions that can be issued back to back. Choosing a higher number gives better performance but can also cause performance reduction to other peripherals sharing the same bus.

/sys/devices/platform/hidma-mgmt*/max_write_request

Defined on file sysfs-platform-hidma-mgmt

Size of each write request. The value needs to be a power of two and can be between 128 and 1024.

/sys/devices/platform/i8042/.../draghys

Defined on file sysfs-devices-platform-trackpoint

(RW) The drag hysteresis controls how hard it is to drag with z-axis pressed.

/sys/devices/platform/i8042/.../drift_time

Defined on file sysfs-devices-platform-trackpoint

(RW) This parameter controls the period of time to test for a ‘hands off’ condition (i.e. when no force is applied) before a drift (noise) calibration occurs.

IBM Trackpoints have a feature to compensate for drift by recalibrating themselves periodically. By default, if for 0.5 seconds there is no change in position, it’s used as the new zero. This duration is too low. Often, the calibration happens when the trackpoint is in fact being used.

/sys/devices/platform/i8042/.../ext_dev

Defined on file sysfs-devices-platform-trackpoint

(RW) Disable (0) or enable (1) external pointing device.

/sys/devices/platform/i8042/.../intertia

Defined on file sysfs-devices-platform-trackpoint

(RW) Negative inertia factor. High values cause the cursor to snap backward when the trackpoint is released.

/sys/devices/platform/i8042/.../jenks

Defined on file sysfs-devices-platform-trackpoint

(RW) Minimum curvature in degrees required to generate a double click without a release.

/sys/devices/platform/i8042/.../mindrag

Defined on file sysfs-devices-platform-trackpoint

(RW) Minimum amount of force needed to trigger dragging.

/sys/devices/platform/i8042/.../press_to_select

Defined on file sysfs-devices-platform-trackpoint

(RW) Writing a value of 1 to this file will enable the Press to Select functions like tapping the control stick to simulate a left click, and writing 0 will disable it.

/sys/devices/platform/i8042/.../reach

Defined on file sysfs-devices-platform-trackpoint

(RW) Backup range for z-axis press.

/sys/devices/platform/i8042/.../sensitivity

Defined on file sysfs-devices-platform-trackpoint

(RW) Trackpoint sensitivity.

/sys/devices/platform/i8042/.../skipback

Defined on file sysfs-devices-platform-trackpoint

(RW) When the skipback bit is set, backup cursor movement during releases from drags will be suppressed. The default value for this bit is 0.

/sys/devices/platform/i8042/.../speed

Defined on file sysfs-devices-platform-trackpoint

(RW) Speed of the trackpoint cursor.

/sys/devices/platform/i8042/.../thresh

Defined on file sysfs-devices-platform-trackpoint

(RW) Minimum value for z-axis force required to trigger a press or release, relative to the running average.

/sys/devices/platform/i8042/.../upthresh

Defined on file sysfs-devices-platform-trackpoint

(RW) The offset from the running average required to generate a select (click) on z-axis on release.

/sys/devices/platform/i8042/.../ztime

Defined on file sysfs-devices-platform-trackpoint

(RW) This attribute determines how sharp a press has to be in order to be recognized.

/sys/devices/platform/ipmi_bmc.*/additional_device_support

Defined on file sysfs-devices-platform-ipmi

(RO) Lists the IPMI ‘logical device’ commands and functions that the controller supports that are in addition to the mandatory IPM and Application commands.

/sys/devices/platform/ipmi_bmc.*/aux_firmware_revision

Defined on file sysfs-devices-platform-ipmi

(RO) Holds additional information about the firmware revision, such as boot block or internal data structure version numbers. The meanings of the numbers are specific to the vendor identified by Manufacturer ID.

/sys/devices/platform/ipmi_bmc.*/device_id

Defined on file sysfs-devices-platform-ipmi

(RO) Device id is specified by the manufacturer identified by the Manufacturer ID field. This field allows controller specific software to identify the unique application command, OEM fields, and functionality that are provided by the controller

/sys/devices/platform/ipmi_bmc.*/firmware_revision

Defined on file sysfs-devices-platform-ipmi

(RO) The major and minor revision of the firmware.

/sys/devices/platform/ipmi_bmc.*/guid

Defined on file sysfs-devices-platform-ipmi

(RO) A GUID (Globally Unique ID), also referred to as a UUID (Universally Unique Identifier), for the management controller, as described in section 20.8 ‘Get Device GUID Command’ of the IPMI specification v2.0.

/sys/devices/platform/ipmi_bmc.*/ipmi_version

Defined on file sysfs-devices-platform-ipmi

(RO) Displays the IPMI Command Specification Version.

/sys/devices/platform/ipmi_bmc.*/manufacturer_id

Defined on file sysfs-devices-platform-ipmi

(RO) Identifies the manufacturer responsible for the specification of functionality of the vendor (OEM)-specific commands, codes, and interfaces used in the controller.

/sys/devices/platform/ipmi_bmc.*/product_id

Defined on file sysfs-devices-platform-ipmi

(RO) Displays a number that identifies a particular system, module, add-in card, or board set. The number is specified according to the manufacturer given by Manufacturer ID.

For detailed definitions of the above attributes, refer to section 20.1 ‘Get Device ID Command’ of the IPMI specification v2.0.

/sys/devices/platform/ipmi_bmc.*/provides_device_sdrs

Defined on file sysfs-devices-platform-ipmi

(RO) Indicates whether device provides device sensor data records (1) or not (0).

/sys/devices/platform/ipmi_bmc.*/revision

Defined on file sysfs-devices-platform-ipmi

(RO) Device revision. Useful for identifying if significant hardware changes have been made to the implementation of the management controller.

/sys/devices/platform/ipmi_si.*/idles

/sys/devices/platform/ipmi_si.*/watchdog_pretimeouts

/sys/devices/platform/ipmi_si.*/complete_transactions

/sys/devices/platform/ipmi_si.*/events

/sys/devices/platform/ipmi_si.*/interrupts

/sys/devices/platform/ipmi_si.*/hosed_count

/sys/devices/platform/ipmi_si.*/long_timeouts

/sys/devices/platform/ipmi_si.*/flag_fetches

/sys/devices/platform/ipmi_si.*/attentions

/sys/devices/platform/ipmi_si.*/incoming_messages

/sys/devices/platform/ipmi_si.*/short_timeouts

Defined on file sysfs-devices-platform-ipmi

idles

(RO) Number of times the interface was idle while being polled.

watchdog_pretimeouts

(RO) Number of watchdog pretimeouts.

complete_transactions

(RO) Number of completed messages.

events

(RO) Number of IPMI events received from the hardware.

interrupts

(RO) Number of interrupts the driver handled.

hosed_count

(RO) Number of times the hardware didn’t follow the state machine.

long_timeouts

(RO) Number of times the driver requested a timer while nothing was in progress.

flag_fetches

(RO) Number of times the driver requested flags from the hardware.

attentions

(RO) Number of time the driver got an ATTN from the hardware.

incoming_messages

(RO) Number of asynchronous messages received.

short_timeouts

(RO) Number of times the driver requested a timer while an operation was in progress.

/sys/devices/platform/ipmi_si.*/interrupts_enabled

Defined on file sysfs-devices-platform-ipmi

(RO) Indicates whether interrupts are enabled or not. The driver disables interrupts when it gets into a situation where it cannot handle messages due to lack of memory. Once that situation clears up, it will re-enable interrupts.

/sys/devices/platform/ipmi_si.*/params

Defined on file sysfs-devices-platform-ipmi

[to be documented]

/sys/devices/platform/ipmi_si.*/type

Defined on file sysfs-devices-platform-ipmi

(RO) The device interface for IPMI “kcs”, “smic”, “bt” or “invalid”

/sys/devices/platform/kim/baud_rate

Defined on file sysfs-platform-kim

The maximum reliable baud-rate the host can support. Different platforms tend to have different high-speed UART configurations, so the baud-rate needs to be set locally and also sent across to the WL128x via a HCI-VS command. The entry is read and made use by the user-space daemon when the ldisc install is requested.

/sys/devices/platform/kim/dev_name

Defined on file sysfs-platform-kim

Name of the UART device at which the WL128x chip is connected. example: “/dev/ttyS0”.

The device name flows down to architecture specific board initialization file from the ATAGS bootloader firmware. The name exposed is read from the user-space daemon and opens the device when install is requested.

/sys/devices/platform/kim/flow_cntrl

Defined on file sysfs-platform-kim

The WL128x makes use of flow control mechanism, and this entry most often should be 1, the host’s UART is required to have the capability of flow-control, or else this entry can be made use of for exceptions.

/sys/devices/platform/kim/install

Defined on file sysfs-platform-kim

When one of the protocols Bluetooth, FM or GPS wants to make use of the shared UART transport, it registers to the shared transport driver, which will signal the user-space for opening, configuring baud and install line discipline via this sysfs entry. This entry would be polled upon by the user-space daemon managing the UART, and is notified about the change by the sysfs_notify. The value would be ‘1’ when UART needs to be opened/ldisc installed, and would be ‘0’ when UART is no more required and needs to be closed.

/sys/devices/platform/lg-laptop/battery_care_limit

Defined on file sysfs-platform-lg-laptop

Deprecated use /sys/class/power_supply/CMB0/charge_control_end_threshold Maximal battery charge level. Accepted values are 80 or 100.

/sys/devices/platform/lg-laptop/fan_mode

Defined on file sysfs-platform-lg-laptop

Control fan mode. 1 for performance mode, 0 for silent mode.

/sys/devices/platform/lg-laptop/fn_lock

Defined on file sysfs-platform-lg-laptop

Control FN lock mode. 1 means on, 0 means off.

/sys/devices/platform/lg-laptop/reader_mode

Defined on file sysfs-platform-lg-laptop

Control reader mode. 1 means on, 0 means off.

/sys/devices/platform/lg-laptop/usb_charge

Defined on file sysfs-platform-lg-laptop

Control USB port charging when device is turned off. 1 means on, 0 means off.

/sys/devices/platform/msi-laptop-pf/auto_brightness

Defined on file sysfs-platform-msi-laptop

Enable automatic brightness control: contains either 0 or 1. If set to 1 the hardware adjusts the screen brightness automatically when the power cord is plugged/unplugged.

/sys/devices/platform/msi-laptop-pf/auto_fan

Defined on file sysfs-platform-msi-laptop

Contains either 0 or 1 and indicates if fan speed is controlled automatically (1) or fan runs at maximal speed (0). Can be toggled in software.

/sys/devices/platform/msi-laptop-pf/bluetooth

Defined on file sysfs-platform-msi-laptop

Bluetooth subsystem enabled: contains either 0 or 1. Please note that this file is constantly 0 if no Bluetooth hardware is available.

/sys/devices/platform/msi-laptop-pf/eco_mode

Defined on file sysfs-platform-msi-laptop

Contains either 0 or 1 and indicates if ECO mode is turned on. In ECO mode power LED is green and userspace should do some powersaving actions. ECO mode is available only on battery power. ECO mode can only be toggled by pressing Fn+F10.

/sys/devices/platform/msi-laptop-pf/lcd_level

Defined on file sysfs-platform-msi-laptop

Screen brightness: contains a single integer in the range 0..8.

/sys/devices/platform/msi-laptop-pf/touchpad

Defined on file sysfs-platform-msi-laptop

Contains either 0 or 1 and indicates if touchpad is turned on. Touchpad state can only be toggled by pressing Fn+F3.

/sys/devices/platform/msi-laptop-pf/turbo_cooldown

Defined on file sysfs-platform-msi-laptop

Contains value in range 0..3:
  • 0 -> Turbo mode is off

  • 1 -> Turbo mode is on, cannot be turned off yet

  • 2 -> Turbo mode is off, cannot be turned on yet

  • 3 -> Turbo mode is on

/sys/devices/platform/msi-laptop-pf/turbo_mode

Defined on file sysfs-platform-msi-laptop

Contains either 0 or 1 and indicates if turbo mode is turned on. In turbo mode power LED is orange and processor is overclocked. Turbo mode is available only if charging. It is only possible to toggle turbo mode state by pressing Fn+F10, and there is a few seconds cooldown between subsequent toggles. If user presses Fn+F10 too frequent, turbo mode state is not changed.

/sys/devices/platform/msi-laptop-pf/wlan

Defined on file sysfs-platform-msi-laptop

WLAN subsystem enabled: contains either 0 or 1.

/sys/devices/platform/samsung/battery_life_extender

Defined on file sysfs-driver-samsung-laptop

Max battery charge level can be modified, battery cycle life can be extended by reducing the max battery charge level.

  • 0 means normal battery mode (100% charge)

  • 1 means battery life extender mode (80% charge)

/sys/devices/platform/samsung/lid_handling

Defined on file sysfs-driver-samsung-laptop

Some Samsung laptops handle lid closing quicker and only handle lid opening with this mode enabled. 1 means enabled, 0 means disabled.

/sys/devices/platform/samsung/performance_level

Defined on file sysfs-driver-samsung-laptop

Some Samsung laptops have different “performance levels” that can be modified by a function key, and by this sysfs file. These values don’t always make a whole lot of sense, but some users like to modify them to keep their fans quiet at all costs. Reading from this file will show the current performance level. Writing to the file can change this value.

Valid options:
  • “silent”

  • “normal”

  • “overclock”

Note that not all laptops support all of these options. Specifically, not all support the “overclock” option, and it’s still unknown if this value even changes anything, other than making the user feel a bit better.

/sys/devices/platform/samsung/usb_charge

Defined on file sysfs-driver-samsung-laptop

Use your USB ports to charge devices, even when your laptop is powered off. 1 means enabled, 0 means disabled.

/sys/devices/platform/sh_mobile_lcdc_fb.[0-3]/graphics/fb[0-9]/ovl_alpha

Defined on file sysfs-devices-platform-sh_mobile_lcdc_fb

This file is only available on fb[0-9] devices corresponding to overlay planes.

Stores the alpha blending value for the overlay. Values range from 0 (transparent) to 255 (opaque). The value is ignored if the mode is not set to Alpha Blending.

/sys/devices/platform/sh_mobile_lcdc_fb.[0-3]/graphics/fb[0-9]/ovl_mode

Defined on file sysfs-devices-platform-sh_mobile_lcdc_fb

This file is only available on fb[0-9] devices corresponding to overlay planes.

Selects the composition mode for the overlay. Possible values are:

  • 0 - Alpha Blending

  • 1 - ROP3

/sys/devices/platform/sh_mobile_lcdc_fb.[0-3]/graphics/fb[0-9]/ovl_position

Defined on file sysfs-devices-platform-sh_mobile_lcdc_fb

This file is only available on fb[0-9] devices corresponding to overlay planes.

Stores the x,y overlay position on the display in pixels. The position format is [0-9]+,[0-9]+.

/sys/devices/platform/sh_mobile_lcdc_fb.[0-3]/graphics/fb[0-9]/ovl_rop3

Defined on file sysfs-devices-platform-sh_mobile_lcdc_fb

This file is only available on fb[0-9] devices corresponding to overlay planes.

Stores the raster operation (ROP3) for the overlay. Values range from 0 to 255. The value is ignored if the mode is not set to ROP3.

/sys/devices/platform/silicom-platform/efuse_status

Defined on file sysfs-platform-silicom

This file is read only. It returns the current OTP status:

0 - not programmed. 1 - programmed.

/sys/devices/platform/silicom-platform/power_cycle

Defined on file sysfs-platform-silicom

This file allow user to power cycle the platform. Default value is 0; when set to 1, it powers down the platform, waits 5 seconds, then powers on the device. It returns to default value after power cycle.

0 - default value.

/sys/devices/platform/silicom-platform/uc_version

Defined on file sysfs-platform-silicom

This file allows to read microcontroller firmware version of current platform.

/sys/devices/platform/soc@X/XXXXXXX.ipa/

Defined on file sysfs-devices-platform-soc-ipa

The /sys/devices/platform/soc@X/XXXXXXX.ipa/ directory contains read-only attributes exposing information about an IPA device. The X values could vary, but are typically “soc@0/1e40000.ipa”.

/sys/devices/platform/stratix10-rsu.0/current_image

Defined on file sysfs-devices-platform-stratix10-rsu

(RO) the address in flash of currently running image.

/sys/devices/platform/stratix10-rsu.0/dcmf0

Defined on file sysfs-devices-platform-stratix10-rsu

(RO) Decision firmware copy 0 version information.

/sys/devices/platform/stratix10-rsu.0/dcmf1

Defined on file sysfs-devices-platform-stratix10-rsu

(RO) Decision firmware copy 1 version information.

/sys/devices/platform/stratix10-rsu.0/dcmf2

Defined on file sysfs-devices-platform-stratix10-rsu

(RO) Decision firmware copy 2 version information.

/sys/devices/platform/stratix10-rsu.0/dcmf3

Defined on file sysfs-devices-platform-stratix10-rsu

(RO) Decision firmware copy 3 version information.

/sys/devices/platform/stratix10-rsu.0/error_details

Defined on file sysfs-devices-platform-stratix10-rsu

(RO) error code.

/sys/devices/platform/stratix10-rsu.0/error_location

Defined on file sysfs-devices-platform-stratix10-rsu

(RO) the error offset inside the image that failed.

/sys/devices/platform/stratix10-rsu.0/fail_image

Defined on file sysfs-devices-platform-stratix10-rsu

(RO) the address in flash of failed image.

/sys/devices/platform/stratix10-rsu.0/max_retry

Defined on file sysfs-devices-platform-stratix10-rsu

(RO) max retry parameter is stored in the firmware decision IO section, as a byte located at offset 0x18c.

/sys/devices/platform/stratix10-rsu.0/notify

Defined on file sysfs-devices-platform-stratix10-rsu

(WO) client to notify firmware with different actions.

b[15:0]

inform firmware the current software execution stage.

0

the first stage bootloader didn’t run or didn’t reach the point of launching second stage bootloader.

1

failed in second bootloader or didn’t get to the point of launching the operating system.

2

both first and second stage bootloader ran and the operating system launch was attempted.

b[16]

1

firmware to reset current image retry counter.

0

no action.

b[17]

1

firmware to clear RSU log

0

no action.

b[18]

this is negative logic

1

no action

0

firmware record the notify code defined in b[15:0].

/sys/devices/platform/stratix10-rsu.0/reboot_image

Defined on file sysfs-devices-platform-stratix10-rsu

(WO) the address in flash of image to be loaded on next reboot command.

/sys/devices/platform/stratix10-rsu.0/retry_counter

Defined on file sysfs-devices-platform-stratix10-rsu

(RO) the current image’s retry counter, which is used by user to know how many times the images is still allowed to reload itself before giving up and starting RSU fail-over flow.

/sys/devices/platform/stratix10-rsu.0/state

Defined on file sysfs-devices-platform-stratix10-rsu

(RO) the state of RSU system. The state field has two parts: major error code in upper 16 bits and minor error code in lower 16 bits.

b[15:0]

Currently used only when major error is 0xF006 (CPU watchdog timeout), in which case the minor error code is the value reported by CPU to firmware through the RSU notify command before the watchdog timeout occurs.

b[31:16]

0xF001 bitstream error 0xF002 hardware access failure 0xF003 bitstream corruption 0xF004 internal error 0xF005 device error 0xF006 CPU watchdog timeout 0xF007 internal unknown error

/sys/devices/platform/stratix10-rsu.0/version

Defined on file sysfs-devices-platform-stratix10-rsu

(RO) the version number of RSU firmware. 19.3 or late version includes information about the firmware which reported the error.

pre 19.3:
b[31:0]

0x0 version number

19.3 or late:
b[15:0]

0x1 version number

b[31:16]

0x0 no error 0x0DCF Decision CMF error 0x0ACF Application CMF error

/sys/devices/platform/ts5500/adc

Defined on file sysfs-platform-ts5500

Indicates the presence of an A/D Converter. If it is present, it will display “1”, otherwise “0”.

/sys/devices/platform/ts5500/ereset

Defined on file sysfs-platform-ts5500

Indicates the presence of an external reset. If it is present, it will display “1”, otherwise “0”.

/sys/devices/platform/ts5500/id

Defined on file sysfs-platform-ts5500

Product ID of the TS board. TS-5500 ID is 0x60.

/sys/devices/platform/ts5500/jumpers

Defined on file sysfs-platform-ts5500

Bitfield showing the jumpers’ state. If a jumper is present, the corresponding bit is set. For instance, 0x0e means jumpers 2, 3 and 4 are set.

/sys/devices/platform/ts5500/name

Defined on file sysfs-platform-ts5500

Model name of the TS board, e.g. “TS-5500”.

/sys/devices/platform/ts5500/rs485

Defined on file sysfs-platform-ts5500

Indicates the presence of the RS485 option. If it is present, it will display “1”, otherwise “0”.

/sys/devices/platform/ts5500/sram

Defined on file sysfs-platform-ts5500

Indicates the presence of the SRAM option. If it is present, it will display “1”, otherwise “0”.

/sys/devices/platform/usbip-vudc.%d/dev_desc

Defined on file sysfs-platform-usbip-vudc

This file allows to read device descriptor of gadget driver which is currently bound to this controller. It is possible to read this file only if gadget driver is bound, otherwise error is returned.

/sys/devices/platform/usbip-vudc.%d/usbip_sockfd

Defined on file sysfs-platform-usbip-vudc

This file allows to export usb device to connection peer. It is done by writing to this file socket fd (as a string for example “8”) associated with a connection to remote peer who would like to use this device. It is possible to close the connection by writing -1 instead of socked fd.

/sys/devices/platform/usbip-vudc.%d/usbip_status

Defined on file sysfs-platform-usbip-vudc

Current status of the device. Allowed values:

1

Device is available and can be exported

2

Device is currently exported

3

Fatal error occurred during communication with peer

/sys/devices/socX

Defined on file sysfs-devices-soc

The /sys/devices/ directory contains a sub-directory for each System-on-Chip (SoC) device on a running platform. Information regarding each SoC can be obtained by reading sysfs files. This functionality is only available if implemented by the platform.

The directory created for each SoC will also house information about devices which are commonly contained in /sys/devices/platform. It has been agreed that if an SoC device exists, its supported devices would be better suited to appear as children of that SoC.

/sys/devices/socX/family

Defined on file sysfs-devices-soc

Read-only attribute common to all SoCs. Contains SoC family name (e.g. DB8500).

On many of ARM based silicon with SMCCC v1.2+ compliant firmware this will contain the JEDEC JEP106 manufacturer’s identification code. The format is “jep106:XXYY” where XX is identity code and YY is continuation code.

This manufacturer’s identification code is defined by one or more eight (8) bit fields, each consisting of seven (7) data bits plus one (1) odd parity bit. It is a single field, limiting the possible number of vendors to 126. To expand the maximum number of identification codes, a continuation scheme has been defined.

The specified mechanism is that an identity code of 0x7F represents the “continuation code” and implies the presence of an additional identity code field, and this mechanism may be extended to multiple continuation codes followed by the manufacturer’s identity code.

For example, ARM has identity code 0x7F 0x7F 0x7F 0x7F 0x3B, which is code 0x3B on the fifth ‘page’. This is shortened as JEP106 identity code of 0x3B and a continuation code of 0x4 to represent the four continuation codes preceding the identity code.

/sys/devices/socX/machine

Defined on file sysfs-devices-soc

Read-only attribute common to all SoCs. Contains the SoC machine name (e.g. Ux500).

/sys/devices/socX/process

Defined on file sysfs-devices-soc

Read-only attribute supported ST-Ericsson’s silicon. Contains the the process by which the silicon chip was manufactured.

/sys/devices/socX/revision

Defined on file sysfs-devices-soc

Read-only attribute supported by most SoCs. Contains the SoC’s manufacturing revision number.

/sys/devices/socX/serial_number

Defined on file sysfs-devices-soc

Read-only attribute supported by most SoCs. Contains the SoC’s serial number, if available.

/sys/devices/socX/soc_id

Defined on file sysfs-devices-soc

Read-only attribute supported by most SoCs. In the case of ST-Ericsson’s chips this contains the SoC serial number.

On many of ARM based silicon with SMCCC v1.2+ compliant firmware this will contain the SOC ID appended to the family attribute to ensure there is no conflict in this namespace across various vendors. The format is “jep106:XXYY:ZZZZ” where XX is identity code, YY is continuation code and ZZZZ is the SOC ID.

/sys/devices/system/cpu/

Defined on file sysfs-devices-system-cpu

A collection of both global and individual CPU attributes

Individual CPU attributes are contained in subdirectories named by the kernel’s logical CPU number, e.g.:

/sys/devices/system/cpu/cpuX/

/sys/devices/system/cpu/aarch32_el0

Defined on file sysfs-devices-system-cpu

Identifies the subset of CPUs in the system that can execute AArch32 (32-bit ARM) applications. If present, the same format as /sys/devices/system/cpu/{offline,online,possible,present} is used. If absent, then all or none of the CPUs can execute AArch32 applications and execve() will behave accordingly.

/sys/devices/system/cpu/cpu*/cache/index*/<set_of_attributes_mentioned_below>

Defined on file sysfs-devices-system-cpu

Parameters for the CPU cache attributes

allocation_policy:
  • WriteAllocate:

    allocate a memory location to a cache line on a cache miss because of a write

  • ReadAllocate:

    allocate a memory location to a cache line on a cache miss because of a read

  • ReadWriteAllocate:

    both writeallocate and readallocate

coherency_line_size:

the minimum amount of data in bytes that gets transferred from memory to cache

level:

the cache hierarchy in the multi-level cache configuration

number_of_sets:

total number of sets in the cache, a set is a collection of cache lines with the same cache index

physical_line_partition:

number of physical cache line per cache tag

shared_cpu_list:

the list of logical cpus sharing the cache

shared_cpu_map:

logical cpu mask containing the list of cpus sharing the cache

size:

the total cache size in kB

type:
  • Instruction: cache that only holds instructions

  • Data: cache that only caches data

  • Unified: cache that holds both data and instructions

ways_of_associativity:

degree of freedom in placing a particular block of memory in the cache

write_policy:
  • WriteThrough:

    data is written to both the cache line and to the block in the lower-level memory

  • WriteBack:

    data is written only to the cache line and the modified cache line is written to main memory only when it is replaced

/sys/devices/system/cpu/cpu*/cache/index*/id

Defined on file sysfs-devices-system-cpu

Cache id

The id provides a unique number for a specific instance of a cache of a particular type. E.g. there may be a level 3 unified cache on each socket in a server and we may assign them ids 0, 1, 2, ...

Note that id value can be non-contiguous. E.g. level 1 caches typically exist per core, but there may not be a power of two cores on a socket, so these caches may be numbered 0, 1, 2, 3, 4, 5, 8, 9, 10, ...

/sys/devices/system/cpu/cpu*/cache/index3/cache_disable_{0,1}

Defined on file sysfs-devices-system-cpu

Disable L3 cache indices

These files exist in every CPU’s cache/index3 directory. Each cache_disable_{0,1} file corresponds to one disable slot which can be used to disable a cache index. Reading from these files on a processor with this functionality will return the currently disabled index for that node. There is one L3 structure per node, or per internal node on MCM machines. Writing a valid index to one of these files will cause the specified cache index to be disabled.

All AMD processors with L3 caches provide this functionality. For details, see BKDGs at https://www.amd.com/en/support/tech-docs?keyword=bios+kernel

/sys/devices/system/cpu/cpuX/cpu_capacity

Defined on file sysfs-devices-system-cpu

information about CPUs heterogeneity.

cpu_capacity: capacity of cpuX.

/sys/devices/system/cpu/cpuX/cpufreq/*

Defined on file sysfs-devices-system-cpu

Discover and change clock speed of CPUs

Clock scaling allows you to change the clock speed of the CPUs on the fly. This is a nice method to save battery power, because the lower the clock speed, the less power the CPU consumes.

There are many knobs to tweak in this directory.

See files in Documentation/cpu-freq/ for more information.

/sys/devices/system/cpu/cpuX/cpufreq/freqdomain_cpus

Defined on file sysfs-devices-system-cpu

Discover CPUs in the same CPU frequency coordination domain

freqdomain_cpus is the list of CPUs (online+offline) that share the same clock/freq domain (possibly at the hardware level). That information may be hidden from the cpufreq core and the value of related_cpus may be different from freqdomain_cpus. This attribute is useful for user space DVFS controllers to get better power/performance results for platforms using acpi-cpufreq.

This file is only present if the acpi-cpufreq or the cppc-cpufreq drivers are in use.

/sys/devices/system/cpu/cpuX/cpufreq/throttle_stats

Defined on file sysfs-devices-system-cpu

POWERNV CPUFreq driver’s frequency throttle stats directory and attributes

‘cpuX/cpufreq/throttle_stats’ directory contains the CPU frequency throttle stat attributes for the chip. The throttle stats of a cpu is common across all the cpus belonging to a chip. Below are the throttle attributes exported in the ‘throttle_stats’ directory:

  • turbo_stat : This file gives the total number of times the max frequency is throttled to lower frequency in turbo (at and above nominal frequency) range of frequencies.

  • sub_turbo_stat : This file gives the total number of times the max frequency is throttled to lower frequency in sub-turbo(below nominal frequency) range of frequencies.

  • unthrottle : This file gives the total number of times the max frequency is unthrottled after being throttled.

  • powercap : This file gives the total number of times the max frequency is throttled due to ‘Power Capping’.

  • overtemp : This file gives the total number of times the max frequency is throttled due to ‘CPU Over Temperature’.

  • supply_fault : This file gives the total number of times the max frequency is throttled due to ‘Power Supply Failure’.

  • overcurrent : This file gives the total number of times the max frequency is throttled due to ‘Overcurrent’.

  • occ_reset : This file gives the total number of times the max frequency is throttled due to ‘OCC Reset’.

The sysfs attributes representing different throttle reasons like powercap, overtemp, supply_fault, overcurrent and occ_reset map to the reasons provided by OCC firmware for throttling the frequency.

/sys/devices/system/cpu/cpuX/cpuidle/state<N>/default_status

Defined on file sysfs-devices-system-cpu

(RO) The default status of this state, “enabled” or “disabled”.

/sys/devices/system/cpu/cpuX/cpuidle/state<N>/desc

Defined on file sysfs-devices-system-cpu

(RO) A small description about the idle state (string).

/sys/devices/system/cpu/cpuX/cpuidle/state<N>/disable

Defined on file sysfs-devices-system-cpu

(RW) Option to disable this idle state (bool). The behavior and the effect of the disable variable depends on the implementation of a particular governor. In the ladder governor, for example, it is not coherent, i.e. if one is disabling a light state, then all deeper states are disabled as well, but the disable variable does not reflect it. Likewise, if one enables a deep state but a lighter state still is disabled, then this has no effect.

/sys/devices/system/cpu/cpuX/cpuidle/state<N>/name

Defined on file sysfs-devices-system-cpu

The directory /sys/devices/system/cpu/cpuX/cpuidle contains per logical CPU specific cpuidle information for each online cpu X. The processor idle states which are available for use have the following attributes:

name:

(RO)

Name of the idle state (string).

latency:

(RO)

The latency to exit out of this idle state (in microseconds).

power:

(RO)

The power consumed while in this idle state (in milliwatts).

time:

(RO)

The total time spent in this idle state (in microseconds).

usage:

(RO)

Number of times this state was entered (a count).

above:

(RO)

Number of times this state was entered, but the observed CPU idle duration was too short for it (a count).

below:

(RO)

Number of times this state was entered, but the observed CPU idle duration was too long for it (a count).

/sys/devices/system/cpu/cpuX/cpuidle/state<N>/residency

Defined on file sysfs-devices-system-cpu

(RO) Display the target residency i.e. the minimum amount of time (in microseconds) this cpu should spend in this idle state to make the transition worth the effort.

/sys/devices/system/cpu/cpuX/cpuidle/state<N>/s2idle/

Defined on file sysfs-devices-system-cpu

Idle state usage statistics related to suspend-to-idle.

This attribute group is only present for states that can be used in suspend-to-idle with suspended timekeeping.

/sys/devices/system/cpu/cpuX/cpuidle/state<N>/s2idle/time

Defined on file sysfs-devices-system-cpu

Total time spent by the CPU in suspend-to-idle (with scheduler tick suspended) after requesting this state.

/sys/devices/system/cpu/cpuX/cpuidle/state<N>/s2idle/usage

Defined on file sysfs-devices-system-cpu

Total number of times this state has been requested by the CPU while entering suspend-to-idle.

/sys/devices/system/cpu/cpuX/crash_notes

Defined on file sysfs-devices-system-cpu

address and size of the percpu note.

crash_notes: the physical address of the memory that holds the note of cpuX.

crash_notes_size: size of the note of cpuX.

/sys/devices/system/cpu/cpuX/idle_purr

Defined on file sysfs-devices-system-cpu

PURR ticks for cpuX when it was idle.

This sysfs interface exposes the number of PURR ticks for cpuX when it was idle.

/sys/devices/system/cpu/cpuX/idle_spurr

Defined on file sysfs-devices-system-cpu

SPURR ticks for cpuX when it was idle.

This sysfs interface exposes the number of SPURR ticks for cpuX when it was idle.

/sys/devices/system/cpu/cpuX/mte_tcf_preferred

Defined on file sysfs-devices-system-cpu

Preferred MTE tag checking mode

When a user program specifies more than one MTE tag checking mode, this sysfs node is used to specify which mode should be preferred when scheduling a task on that CPU. Possible values:

“sync”

Prefer synchronous mode

“asymm”

Prefer asymmetric mode

“async”

Prefer asynchronous mode

See also: Memory Tagging Extension (MTE) in AArch64 Linux

/sys/devices/system/cpu/cpuX/node

Defined on file sysfs-devices-system-cpu

Discover NUMA node a CPU belongs to

When CONFIG_NUMA is enabled, a symbolic link that points to the corresponding NUMA node directory.

For example, the following symlink is created for cpu42 in NUMA node 2:

/sys/devices/system/cpu/cpu42/node2 -> ../../node/node2

/sys/devices/system/cpu/cpuX/power/energy_perf_bias

Defined on file sysfs-devices-system-cpu

Intel Energy and Performance Bias Hint (EPB)

EPB for the given CPU in a sliding scale 0 - 15, where a value of 0 corresponds to a hint preference for highest performance and a value of 15 corresponds to the maximum energy savings.

In order to change the EPB value for the CPU, write either a number in the 0 - 15 sliding scale above, or one of the strings: “performance”, “balance-performance”, “normal”, “balance-power”, “power” (that represent values reflected by their meaning), to this attribute.

This attribute is present for all online CPUs supporting the Intel EPB feature.

/sys/devices/system/cpu/cpuX/purr

Defined on file sysfs-devices-system-cpu

PURR ticks for this CPU since the system boot.

The Processor Utilization Resources Register (PURR) is a 64-bit counter which provides an estimate of the resources used by the CPU thread. The contents of this register increases monotonically. This sysfs interface exposes the number of PURR ticks for cpuX.

/sys/devices/system/cpu/cpuX/regs/

Defined on file sysfs-devices-system-cpu

AArch64 CPU registers

‘identification’ directory exposes the CPU ID registers for identifying model and revision of the CPU and SMCU.

/sys/devices/system/cpu/cpuX/spurr

Defined on file sysfs-devices-system-cpu

SPURR ticks for this CPU since the system boot.

The Scaled Processor Utilization Resources Register (SPURR) is a 64-bit counter that provides a frequency invariant estimate of the resources used by the CPU thread. The contents of this register increases monotonically. This sysfs interface exposes the number of SPURR ticks for cpuX.

/sys/devices/system/cpu/cpuX/topology/core_siblings

Defined on file sysfs-devices-system-cpu

CPU topology files that describe a logical CPU’s relationship to other cores and threads in the same physical package.

One cpuX directory is created per logical CPU in the system, e.g. /sys/devices/system/cpu/cpu42/.

Briefly, the files above are:

core_siblings: internal kernel map of cpuX’s hardware threads within the same physical_package_id.

core_siblings_list: human-readable list of the logical CPU numbers within the same physical_package_id as cpuX.

physical_package_id: physical package id of cpuX. Typically corresponds to a physical socket number, but the actual value is architecture and platform dependent.

thread_siblings: internal kernel map of cpuX’s hardware threads within the same core as cpuX

thread_siblings_list: human-readable list of cpuX’s hardware threads within the same core as cpuX

ppin: human-readable Protected Processor Identification Number of the socket the cpu# belongs to. There should be one per physical_package_id. File is readable only to admin.

See How CPU topology info is exported via sysfs for more information.

/sys/devices/system/cpu/cpufreq/boost

Defined on file sysfs-devices-system-cpu

Processor frequency boosting control

This switch controls the boost setting for the whole system. Boosting allows the CPU and the firmware to run at a frequency beyond its nominal limit.

More details can be found in CPU Performance Scaling

/sys/devices/system/cpu/cpufreq/policyX/throttle_stats

Defined on file sysfs-devices-system-cpu

POWERNV CPUFreq driver’s frequency throttle stats directory and attributes

‘policyX/throttle_stats’ directory and all the attributes are same as the /sys/devices/system/cpu/cpuX/cpufreq/throttle_stats directory and attributes which give the frequency throttle information of the chip.

/sys/devices/system/cpu/cpuidle/available_governors

Defined on file sysfs-devices-system-cpu

Discover cpuidle policy and mechanism

Various CPUs today support multiple idle levels that are differentiated by varying exit latencies and power consumption during idle.

Idle policy (governor) is differentiated from idle mechanism (driver).

available_governors: (RO) displays a space separated list of available governors.

current_driver: (RO) displays current idle mechanism.

current_governor: (RW) displays current idle policy. Users can switch the governor at runtime by writing to this file.

current_governor_ro: (RO) displays current idle policy.

See CPU Idle Time Management and CPU Idle Time Management for more information.

/sys/devices/system/cpu/crash_hotplug

Defined on file sysfs-devices-system-cpu

(RO) indicates whether or not the kernel updates relevant kexec segments on memory hot un/plug and/or on/offline events, avoiding the need to reload kdump kernel.

/sys/devices/system/cpu/enabled

Defined on file sysfs-devices-system-cpu

(RO) the list of CPUs that can be brought online.

/sys/devices/system/cpu/intel_pstate/max_perf_pct

Defined on file sysfs-devices-system-cpu

Parameters for the Intel P-state driver

Logic for selecting the current P-state in Intel Sandybridge+ processors. The three knobs control limits for the P-state that will be requested by the driver.

max_perf_pct: limits the maximum P state that will be requested by the driver stated as a percentage of the available performance.

min_perf_pct: limits the minimum P state that will be requested by the driver stated as a percentage of the available performance.

no_turbo: limits the driver to selecting P states below the turbo frequency range.

More details can be found in intel_pstate CPU Performance Scaling Driver

/sys/devices/system/cpu/isolated

Defined on file sysfs-devices-system-cpu

(RO) the list of CPUs that are isolated and don’t participate in load balancing. These CPUs are set by boot parameter “isolcpus=”.

/sys/devices/system/cpu/kernel_max

Defined on file sysfs-devices-system-cpu

CPU topology files that describe kernel limits related to hotplug. Briefly:

kernel_max: the maximum cpu index allowed by the kernel configuration.

offline: cpus that are not online because they have been HOTPLUGGED off or exceed the limit of cpus allowed by the kernel configuration (kernel_max above).

online: cpus that are online and being scheduled.

possible: cpus that have been allocated resources and can be brought online if they are present.

present: cpus that have been identified as being present in the system.

See How CPU topology info is exported via sysfs for more information.

/sys/devices/system/cpu/nohz_full

Defined on file sysfs-devices-system-cpu

(RO) the list of CPUs that are in nohz_full mode. These CPUs are set by boot parameter “nohz_full=”.

/sys/devices/system/cpu/probe

Defined on file sysfs-devices-system-cpu

Dynamic addition and removal of CPU’s. This is not hotplug removal, this is meant complete removal/addition of the CPU from the system.

probe: writes to this file will dynamically add a CPU to the system. Information written to the file to add CPU’s is architecture specific.

release: writes to this file dynamically remove a CPU from the system. Information written to the file to remove CPU’s is architecture specific.

/sys/devices/system/cpu/sev

Defined on file sysfs-devices-system-cpu

Secure Encrypted Virtualization (SEV) information

This directory is only present when running as an SEV-SNP guest.

vmpl: Reports the Virtual Machine Privilege Level (VMPL) at which

the SEV-SNP guest is running.

/sys/devices/system/cpu/smt

Defined on file sysfs-devices-system-cpu

Control Symmetric Multi Threading (SMT)

active: Tells whether SMT is active (enabled and siblings online)

control: Read/write interface to control SMT. Possible

values:

“on”

SMT is enabled

“off”

SMT is disabled

“<N>”

SMT is enabled with N threads per core.

“forceoff”

SMT is force disabled. Cannot be changed.

“notsupported”

SMT is not supported by the CPU

“notimplemented”

SMT runtime toggling is not implemented for the architecture

If control status is “forceoff” or “notsupported” writes are rejected. Note that enabling SMT on PowerPC skips offline cores.

/sys/devices/system/cpu/svm

Defined on file sysfs-devices-system-cpu

Secure Virtual Machine

If 1, it means the system is using the Protected Execution Facility in POWER9 and newer processors. i.e., it is a Secure Virtual Machine.

/sys/devices/system/cpu/umwait_control

Defined on file sysfs-devices-system-cpu

Umwait control

enable_c02: Read/write interface to control umwait C0.2 state
Read returns C0.2 state status:

0: C0.2 is disabled 1: C0.2 is enabled

Write ‘y’ or ‘1’ or ‘on’ to enable C0.2 state. Write ‘n’ or ‘0’ or ‘off’ to disable C0.2 state.

The interface is case insensitive.

max_time: Read/write interface to control umwait maximum time

in TSC-quanta that the CPU can reside in either C0.1 or C0.2 state. The time is an unsigned 32-bit number. Note that a value of zero means there is no limit. Low order two bits must be zero.

/sys/devices/system/cpu/vulnerabilities

Defined on file sysfs-devices-system-cpu

Information about CPU vulnerabilities

The files are named after the code names of CPU vulnerabilities. The output of those files reflects the state of the CPUs in the system. Possible output values:

“Not affected”

CPU is not affected by the vulnerability

“Vulnerable”

CPU is affected and no mitigation in effect

“Mitigation: $M”

CPU is affected and mitigation $M is in effect

See also: Hardware vulnerabilities

/sys/devices/system/edac/mc/mc*/(dimm|rank)*/dimm_ce_count

Defined on file sysfs-devices-edac

This attribute file displays the total count of correctable errors that have occurred on this DIMM. This count is very important to examine. CEs provide early indications that a DIMM is beginning to fail. This count field should be monitored for non-zero values and report such information to the system administrator.

/sys/devices/system/edac/mc/mc*/(dimm|rank)*/dimm_dev_type

Defined on file sysfs-devices-edac

This attribute file will display what type of DRAM device is being utilized on this DIMM (x1, x2, x4, x8, ...).

/sys/devices/system/edac/mc/mc*/(dimm|rank)*/dimm_edac_mode

Defined on file sysfs-devices-edac

This attribute file will display what type of Error detection and correction is being utilized. For example: S4ECD4ED would mean a Chipkill with x4 DRAM.

/sys/devices/system/edac/mc/mc*/(dimm|rank)*/dimm_label

Defined on file sysfs-devices-edac

This control file allows this DIMM to have a label assigned to it. With this label in the module, when errors occur the output can provide the DIMM label in the system log. This becomes vital for panic events to isolate the cause of the UE event. DIMM Labels must be assigned after booting, with information that correctly identifies the physical slot with its silk screen label. This information is currently very motherboard specific and determination of this information must occur in userland at this time.

/sys/devices/system/edac/mc/mc*/(dimm|rank)*/dimm_location

Defined on file sysfs-devices-edac

This attribute file will display the location (csrow/channel, branch/channel/slot or channel/slot) of the dimm or rank.

/sys/devices/system/edac/mc/mc*/(dimm|rank)*/dimm_mem_type

Defined on file sysfs-devices-edac

This attribute file will display what type of memory is currently on this csrow. Normally, either buffered or unbuffered memory (for example, Unbuffered-DDR3).

/sys/devices/system/edac/mc/mc*/(dimm|rank)*/dimm_ue_count

Defined on file sysfs-devices-edac

This attribute file displays the total count of uncorrectable errors that have occurred on this DIMM. If panic_on_ue is set, this counter will not have a chance to increment, since EDAC will panic the system

/sys/devices/system/edac/mc/mc*/(dimm|rank)*/size

Defined on file sysfs-devices-edac

This attribute file will display the size of dimm or rank. For dimm*/size, this is the size, in MB of the DIMM memory stick. For rank*/size, this is the size, in MB for one rank of the DIMM memory stick. On single rank memories (1R), this is also the total size of the dimm. On dual rank (2R) memories, this is half the size of the total DIMM memories.

/sys/devices/system/edac/mc/mc*/ce_count

Defined on file sysfs-devices-edac

This attribute file displays the total count of correctable errors that have occurred on this memory controller. This count is very important to examine. CEs provide early indications that a DIMM is beginning to fail. This count field should be monitored for non-zero values and report such information to the system administrator.

/sys/devices/system/edac/mc/mc*/ce_noinfo_count

Defined on file sysfs-devices-edac

This attribute file displays the number of CEs that have occurred on this memory controller wherewith no information as to which DIMM slot is having errors. Memory is handicapped, but operational, yet no information is available to indicate which slot the failing memory is in. This count field should be also be monitored for non-zero values.

/sys/devices/system/edac/mc/mc*/max_location

Defined on file sysfs-devices-edac

This attribute file displays the information about the last available memory slot in this memory controller. It is used by userspace tools in order to display the memory filling layout.

/sys/devices/system/edac/mc/mc*/mc_name

Defined on file sysfs-devices-edac

This attribute file displays the type of memory controller that is being utilized.

/sys/devices/system/edac/mc/mc*/reset_counters

Defined on file sysfs-devices-edac

This write-only control file will zero all the statistical counters for UE and CE errors on the given memory controller. Zeroing the counters will also reset the timer indicating how long since the last counter were reset. This is useful for computing errors/time. Since the counters are always reset at driver initialization time, no module/kernel parameter is available.

/sys/devices/system/edac/mc/mc*/sdram_scrub_rate

Defined on file sysfs-devices-edac

Read/Write attribute file that controls memory scrubbing. The scrubbing rate used by the memory controller is set by writing a minimum bandwidth in bytes/sec to the attribute file. The rate will be translated to an internal value that gives at least the specified rate. Reading the file will return the actual scrubbing rate employed. If configuration fails or memory scrubbing is not implemented, the value of the attribute file will be -1.

/sys/devices/system/edac/mc/mc*/seconds_since_reset

Defined on file sysfs-devices-edac

This attribute file displays how many seconds have elapsed since the last counter reset. This can be used with the error counters to measure error rates.

/sys/devices/system/edac/mc/mc*/size_mb

Defined on file sysfs-devices-edac

This attribute file displays, in count of megabytes, of memory that this memory controller manages.

/sys/devices/system/edac/mc/mc*/ue_count

Defined on file sysfs-devices-edac

This attribute file displays the total count of uncorrectable errors that have occurred on this memory controller. If panic_on_ue is set, this counter will not have a chance to increment, since EDAC will panic the system

/sys/devices/system/edac/mc/mc*/ue_noinfo_count

Defined on file sysfs-devices-edac

This attribute file displays the number of UEs that have occurred on this memory controller with no information as to which DIMM slot is having errors.

/sys/devices/system/ibm_rtl/state

Defined on file sysfs-devices-system-ibm-rtl

The state file allows a means by which to change in and out of Premium Real-Time Mode (PRTM), as well as the ability to query the current state.

  • 0 => PRTM off

  • 1 => PRTM enabled

Users: The ibm-prtm userspace daemon uses this interface.

/sys/devices/system/ibm_rtl/version

Defined on file sysfs-devices-system-ibm-rtl

The version file provides a means by which to query the RTL table version that lives in the Extended BIOS Data Area (EBDA).

Users: The ibm-prtm userspace daemon uses this interface.

/sys/devices/system/machinecheck/machinecheckX/

Defined on file sysfs-mce

(X = CPU number)

Machine checks report internal hardware error conditions detected by the CPU. Uncorrected errors typically cause a machine check (often with panic), corrected ones cause a machine check log entry.

For more details about the x86 machine check architecture see the Intel and AMD architecture manuals from their developer websites.

For more details about the architecture see http://one.firstfloor.org/~andi/mce.pdf

Each CPU has its own directory.

/sys/devices/system/machinecheck/machinecheckX/bank<Y>

Defined on file sysfs-mce

(Y bank number)

64bit Hex bitmask enabling/disabling specific subevents for bank Y.

When a bit in the bitmask is zero then the respective subevent will not be reported.

By default all events are enabled.

Note that BIOS maintain another mask to disable specific events per bank. This is not visible here

/sys/devices/system/machinecheck/machinecheckX/check_interval

Defined on file sysfs-mce

The entries appear for each CPU, but they are truly shared between all CPUs.

How often to poll for corrected machine check errors, in seconds (Note output is hexadecimal). Default 5 minutes. When the poller finds MCEs it triggers an exponential speedup (poll more often) on the polling interval. When the poller stops finding MCEs, it triggers an exponential backoff (poll less often) on the polling interval. The check_interval variable is both the initial and maximum polling interval. 0 means no polling for corrected machine check errors (but some corrected errors might be still reported in other ways)

/sys/devices/system/machinecheck/machinecheckX/cmci_disabled

Defined on file sysfs-mce

Disables the CMCI feature.

/sys/devices/system/machinecheck/machinecheckX/dont_log_ce

Defined on file sysfs-mce

Disables logging for corrected errors. All reported corrected errors will be cleared silently.

This option will be useful if you never care about corrected errors.

/sys/devices/system/machinecheck/machinecheckX/ignore_ce

Defined on file sysfs-mce

Disables polling and CMCI for corrected errors. All corrected events are not cleared and kept in bank MSRs.

/sys/devices/system/machinecheck/machinecheckX/monarch_timeout

Defined on file sysfs-mce

How long to wait for the other CPUs to machine check too on a exception. 0 to disable waiting for other CPUs.

Unit: us

/sys/devices/system/machinecheck/machinecheckX/trigger

Defined on file sysfs-mce

The entries appear for each CPU, but they are truly shared between all CPUs.

Program to run when a machine check event is detected. This is an alternative to running mcelog regularly from cron and allows to detect events faster.

/sys/devices/system/memory

Defined on file sysfs-devices-memory

The /sys/devices/system/memory contains a snapshot of the internal state of the kernel memory blocks. Files could be added or removed dynamically to represent hot-add/remove operations.

Users: hotplug memory add/remove tools http://www.ibm.com/developerworks/wikis/display/LinuxP/powerpc-utils

/sys/devices/system/memory/crash_hotplug

Defined on file sysfs-devices-memory

(RO) indicates whether or not the kernel updates relevant kexec segments on memory hot un/plug and/or on/offline events, avoiding the need to reload kdump kernel.

/sys/devices/system/memory/hard_offline_page

Defined on file sysfs-memory-page-offline

Hard-offline the memory page containing the physical address written into this file. Input is a hex number specifying the physical address of the page. The kernel will then attempt to hard-offline the page, by trying to drop the page or killing any owner or triggering IO errors if needed. Note this may kill any processes owning the page. The kernel will avoid to access this page assuming it’s poisoned by the hardware.

The offlining is done in kernel specific granularity. Normally it’s the base page size of the kernel, but this might change.

Return value is the size of the number, or a error when the offlining failed. Reading the file is not allowed.

/sys/devices/system/memory/memoryX/phys_device

Defined on file sysfs-devices-memory

The file /sys/devices/system/memory/memoryX/phys_device is read-only; it is a legacy interface only ever used on s390x to expose the covered storage increment.

Users: Legacy s390-tools lsmem/chmem

/sys/devices/system/memory/memoryX/phys_index

Defined on file sysfs-devices-memory

The file /sys/devices/system/memory/memoryX/phys_index is read-only and contains the section ID in hexadecimal which is equivalent to decimal X contained in the memory section directory name.

/sys/devices/system/memory/memoryX/removable

Defined on file sysfs-devices-memory

The file /sys/devices/system/memory/memoryX/removable is a legacy interface used to indicated whether a memory block is likely to be offlineable or not. Newer kernel versions return “1” if and only if the kernel supports memory offlining.

Users: hotplug memory remove tools http://www.ibm.com/developerworks/wikis/display/LinuxP/powerpc-utils lsmem/chmem part of util-linux

/sys/devices/system/memory/memoryX/state

Defined on file sysfs-devices-memory

The file /sys/devices/system/memory/memoryX/state is read-write. When read, it returns the online/offline state of the memory block. When written, root can toggle the online/offline state of a memory block using the following commands:

# echo online > /sys/devices/system/memory/memoryX/state
# echo offline > /sys/devices/system/memory/memoryX/state

On newer kernel versions, advanced states can be specified when onlining to select a target zone: “online_movable” selects the movable zone. “online_kernel” selects the applicable kernel zone (DMA, DMA32, or Normal). However, after successfully setting one of the advanced states, reading the file will return “online”; the zone information can be obtained via “valid_zones” instead.

While onlining is unlikely to fail, there are no guarantees that offlining will succeed. Offlining is more likely to succeed if “valid_zones” indicates “Movable”.

Users: hotplug memory remove tools http://www.ibm.com/developerworks/wikis/display/LinuxP/powerpc-utils

/sys/devices/system/memory/memoryX/valid_zones

Defined on file sysfs-devices-memory

The file /sys/devices/system/memory/memoryX/valid_zones is read-only.

For online memory blocks, it returns in which zone memory provided by a memory block is managed. If multiple zones apply (not applicable for hotplugged memory), “None” is returned and the memory block cannot be offlined.

For offline memory blocks, it returns by which zone memory provided by a memory block can be managed when onlining. The first returned zone (“default”) will be used when setting the state of an offline memory block to “online”. Only one of the kernel zones (DMA, DMA32, Normal) is applicable for a single memory block.

/sys/devices/system/memory/soft_offline_page

Defined on file sysfs-memory-page-offline

Soft-offline the memory page containing the physical address written into this file. Input is a hex number specifying the physical address of the page. The kernel will then attempt to soft-offline it, by moving the contents elsewhere or dropping it if possible. The kernel will then be placed on the bad page list and never be reused.

The offlining is done in kernel specific granularity. Normally it’s the base page size of the kernel, but this might change.

The page must be still accessible, not poisoned. The kernel will never kill anything for this, but rather fail the offline. Return value is the size of the number, or a error when the offlining failed. Reading the file is not allowed.

/sys/devices/system/memoryX/nodeY

Defined on file sysfs-devices-memory

When CONFIG_NUMA is enabled, a symbolic link that points to the corresponding NUMA node directory.

For example, the following symbolic link is created for memory section 9 on node0:

/sys/devices/system/memory/memory9/node0 -> ../../node/node0

/sys/devices/system/node/nodeX/memoryY

Defined on file sysfs-devices-memory

When CONFIG_NUMA is enabled /sys/devices/system/node/nodeX/memoryY is a symbolic link that points to the corresponding /sys/devices/system/memory/memoryY memory section directory. For example, the following symbolic link is created for memory section 9 on node0.

/sys/devices/system/node/node0/memory9 -> ../../memory/memory9

/sys/devices/system/xen_cpu/

Defined on file sysfs-devices-system-xen_cpu

A collection of global/individual Xen physical cpu attributes

Individual physical cpu attributes are contained in subdirectories named by the Xen’s logical cpu number, e.g.: /sys/devices/system/xen_cpu/xen_cpu#/

/sys/devices/system/xen_cpu/xen_cpu#/online

Defined on file sysfs-devices-system-xen_cpu

Interface to online/offline Xen physical cpus

When running under Xen platform, it provide user interface to online/offline physical cpus, except cpu0 due to several logic restrictions and assumptions.

/sys/devices/uncore_iio_x/dieX

Defined on file sysfs-devices-mapping

Each IIO stack (PCIe root port) has its own IIO PMON block, so each dieX file (where X is die number) holds “Segment:Root Bus” for PCIe root port, which can be monitored by that IIO PMON block. For example, on 4-die Xeon platform with up to 6 IIO stacks per die and, therefore, 6 IIO PMON blocks per die, the mapping of IIO PMON block 0 exposes as the following:

$ ls /sys/devices/uncore_iio_0/die*
-r--r--r-- /sys/devices/uncore_iio_0/die0
-r--r--r-- /sys/devices/uncore_iio_0/die1
-r--r--r-- /sys/devices/uncore_iio_0/die2
-r--r--r-- /sys/devices/uncore_iio_0/die3

$ tail /sys/devices/uncore_iio_0/die*
==> /sys/devices/uncore_iio_0/die0 <==
0000:00
==> /sys/devices/uncore_iio_0/die1 <==
0000:40
==> /sys/devices/uncore_iio_0/die2 <==
0000:80
==> /sys/devices/uncore_iio_0/die3 <==
0000:c0

Which means:

IIO PMU 0 on die 0 belongs to PCI RP on bus 0x00, domain 0x0000
IIO PMU 0 on die 1 belongs to PCI RP on bus 0x40, domain 0x0000
IIO PMU 0 on die 2 belongs to PCI RP on bus 0x80, domain 0x0000
IIO PMU 0 on die 3 belongs to PCI RP on bus 0xc0, domain 0x0000

/sys/devices/uncore_upi_x/dieX

Defined on file sysfs-devices-mapping

Each /sys/devices/uncore_upi_X/dieY file holds “upi_Z,die_W” value that means UPI link number X on die Y is connected to UPI link Z on die W and this link between sockets can be monitored by UPI PMON block. For example, 4-die Sapphire Rapids platform has the following UPI 0 topology:

# tail /sys/devices/uncore_upi_0/die*
==> /sys/devices/uncore_upi_0/die0 <==
upi_1,die_1
==> /sys/devices/uncore_upi_0/die1 <==
upi_0,die_3
==> /sys/devices/uncore_upi_0/die2 <==
upi_1,die_3
==> /sys/devices/uncore_upi_0/die3 <==
upi_0,die_1

Which means:

UPI link 0 on die 0 is connected to UPI link 1 on die 1
UPI link 0 on die 1 is connected to UPI link 0 on die 3
UPI link 0 on die 2 is connected to UPI link 1 on die 3
UPI link 0 on die 3 is connected to UPI link 0 on die 1

/sys/devices/virtual/memory_tiering/

Defined on file sysfs-kernel-mm-memory-tiers

A collection of all the memory tiers allocated.

Individual memory tier details are contained in subdirectories named by the abstract distance of the memory tier.

/sys/devices/virtual/memory_tiering/memory_tierN/

/sys/devices/virtual/memory_tiering/memory_tierN/

Defined on file sysfs-kernel-mm-memory-tiers

Directory with details of a specific memory tier

This is the directory containing information about a particular memory tier, memtierN, where N is derived based on abstract distance.

A smaller value of N implies a higher (faster) memory tier in the hierarchy.

nodelist: NUMA nodes that are part of this memory tier.

/sys/devices/virtual/misc/intel_ifs_<N>/current_batch

Defined on file sysfs-platform-intel-ifs

Write a number less than or equal to 0xff to load an IFS test image. The number written treated as the 2 digit suffix in the following file name: /lib/firmware/intel/ifs_<N>/ff-mm-ss-02x.scan Reading the file will provide the suffix of the currently loaded IFS test image. This file is present only for device instances where a test image is applicable. Devices: intel_ifs_0

/sys/devices/virtual/misc/intel_ifs_<N>/details

Defined on file sysfs-platform-intel-ifs

Additional information regarding the last test. The details file reports the hex value of the STATUS MSR for this test. Note that the error_code field may contain driver defined software code not defined in the Intel SDM. Devices: all

/sys/devices/virtual/misc/intel_ifs_<N>/image_version

Defined on file sysfs-platform-intel-ifs

Version (hexadecimal) of loaded IFS test image. If no test image is loaded reports “none”. Only present for device instances where a test image is applicable. Devices: intel_ifs_0

/sys/devices/virtual/misc/intel_ifs_<N>/run_test

Defined on file sysfs-platform-intel-ifs

Write <cpu#> to trigger IFS test for one online core. Note that the test is per core. The cpu# can be for any thread on the core. Running on one thread completes the test for the core containing that thread. Example: to test the core containing cpu5: echo 5 > /sys/devices/virtual/misc/intel_ifs_<N>/run_test Devices: all

/sys/devices/virtual/misc/intel_ifs_<N>/status

Defined on file sysfs-platform-intel-ifs

The status of the last test. It can be one of “pass”, “fail” or “untested”. Devices: all

Symbols under /sys/firmware

/sys/firmware/acpi/bgrt/

Defined on file sysfs-firmware-acpi

The BGRT is an ACPI 5.0 feature that allows the OS to obtain a copy of the firmware boot splash and some associated metadata. This is intended to be used by boot splash applications in order to interact with the firmware boot splash in order to avoid jarring transitions.

image: The image bitmap. Currently a 32-bit BMP. status: 1 if the image is valid, 0 if firmware invalidated it. type: 0 indicates image is in BMP format.

version:

The version of the BGRT. Currently 1.

xoffset:

The number of pixels between the left of the screen and the left edge of the image.

yoffset:

The number of pixels between the top of the screen and the top edge of the image.

/sys/firmware/acpi/fpdt/

Defined on file sysfs-firmware-acpi

ACPI Firmware Performance Data Table (FPDT) provides information for firmware performance data for system boot, S3 suspend and S3 resume. This sysfs entry contains the performance data retrieved from the FPDT.

boot:
firmware_start_ns: Timer value logged at the beginning

of firmware image execution. In nanoseconds.

bootloader_load_ns: Timer value logged just prior to

loading the OS boot loader into memory. In nanoseconds.

bootloader_launch_ns: Timer value logged just prior to

launching the currently loaded OS boot loader image. In nanoseconds.

exitbootservice_start_ns: Timer value logged at the

point when the OS loader calls the ExitBootServices function for UEFI compatible firmware. In nanoseconds.

exitbootservice_end_ns: Timer value logged at the point

just prior to the OS loader gaining control back from the ExitBootServices function for UEFI compatible firmware. In nanoseconds.

suspend:
suspend_start_ns: Timer value recorded at the previous

OS write to SLP_TYP upon entry to S3. In nanoseconds.

suspend_end_ns: Timer value recorded at the previous

firmware write to SLP_TYP used to trigger hardware entry to S3. In nanoseconds.

resume:
resume_count: A count of the number of S3 resume cycles

since the last full boot sequence.

resume_avg_ns: Average timer value of all resume cycles

logged since the last full boot sequence, including the most recent resume. In nanoseconds.

resume_prev_ns: Timer recorded at the end of the previous

platform runtime firmware S3 resume, just prior to handoff to the OS waking vector. In nanoseconds.

/sys/firmware/acpi/hotplug/

Defined on file sysfs-firmware-acpi

There are separate hotplug profiles for different classes of devices supported by ACPI, such as containers, memory modules, processors, PCI root bridges etc. A hotplug profile for a given class of devices is a collection of settings defining the way that class of devices will be handled by the ACPI core hotplug code. Those profiles are represented in sysfs as subdirectories of /sys/firmware/acpi/hotplug/.

The following setting is available to user space for each hotplug profile:

enabled:

If set, the ACPI core will handle notifications of hotplug events associated with the given class of devices and will allow those devices to be ejected with the help of the _EJ0 control method. Unsetting it effectively disables hotplug for the corresponding class of devices.

The value of the above attribute is an integer number: 1 (set) or 0 (unset). Attempts to write any other values to it will cause -EINVAL to be returned.

/sys/firmware/acpi/interrupts/

Defined on file sysfs-firmware-acpi

All ACPI interrupts are handled via a single IRQ, the System Control Interrupt (SCI), which appears as “acpi” in /proc/interrupts.

However, one of the main functions of ACPI is to make the platform understand random hardware without special driver support. So while the SCI handles a few well known (fixed feature) interrupts sources, such as the power button, it can also handle a variable number of a “General Purpose Events” (GPE).

A GPE vectors to a specified handler in AML, which can do a anything the BIOS writer wants from OS context. GPE 0x12, for example, would vector to a level or edge handler called _L12 or _E12. The handler may do its business and return. Or the handler may send send a Notify event to a Linux device driver registered on an ACPI device, such as a battery, or a processor.

To figure out where all the SCI’s are coming from, /sys/firmware/acpi/interrupts contains a file listing every possible source, and the count of how many times it has triggered:

$ cd /sys/firmware/acpi/interrupts
$ grep . *
error:             0
ff_gbl_lock:       0   enable
ff_pmtimer:        0  invalid
ff_pwr_btn:        0   enable
ff_rt_clk:         2  disable
ff_slp_btn:        0  invalid
gpe00:             0  invalid
gpe01:             0   enable
gpe02:           108   enable
gpe03:             0  invalid
gpe04:             0  invalid
gpe05:             0  invalid
gpe06:             0   enable
gpe07:             0   enable
gpe08:             0  invalid
gpe09:             0  invalid
gpe0A:             0  invalid
gpe0B:             0  invalid
gpe0C:             0  invalid
gpe0D:             0  invalid
gpe0E:             0  invalid
gpe0F:             0  invalid
gpe10:             0  invalid
gpe11:             0  invalid
gpe12:             0  invalid
gpe13:             0  invalid
gpe14:             0  invalid
gpe15:             0  invalid
gpe16:             0  invalid
gpe17:          1084   enable
gpe18:             0   enable
gpe19:             0  invalid
gpe1A:             0  invalid
gpe1B:             0  invalid
gpe1C:             0  invalid
gpe1D:             0  invalid
gpe1E:             0  invalid
gpe1F:             0  invalid
gpe_all:        1192
sci:            1194
sci_not:           0

sci

The number of times the ACPI SCI has been called and claimed an interrupt.

sci_not

The number of times the ACPI SCI has been called and NOT claimed an interrupt.

gpe_all

count of SCI caused by GPEs.

gpeXX

count for individual GPE source

ff_gbl_lock

Global Lock

ff_pmtimer

PM Timer

ff_pwr_btn

Power Button

ff_rt_clk

Real Time Clock

ff_slp_btn

Sleep Button

error

an interrupt that can’t be accounted for above.

invalid

it’s either a GPE or a Fixed Event that doesn’t have an event handler.

disable

the GPE/Fixed Event is valid but disabled.

enable

the GPE/Fixed Event is valid and enabled.

Root has permission to clear any of these counters. Eg.:

# echo 0 > gpe11

All counters can be cleared by clearing the total “sci”:

# echo 0 > sci

None of these counters has an effect on the function of the system, they are simply statistics.

Besides this, user can also write specific strings to these files to enable/disable/clear ACPI interrupts in user space, which can be used to debug some ACPI interrupt storm issues.

Note that only writing to VALID GPE/Fixed Event is allowed, i.e. user can only change the status of runtime GPE and Fixed Event with event handler installed.

Let’s take power button fixed event for example, please kill acpid and other user space applications so that the machine won’t shutdown when pressing the power button:

# cat ff_pwr_btn
0     enabled
# press the power button for 3 times;
# cat ff_pwr_btn
3     enabled
# echo disable > ff_pwr_btn
# cat ff_pwr_btn
3     disabled
# press the power button for 3 times;
# cat ff_pwr_btn
3     disabled
# echo enable > ff_pwr_btn
# cat ff_pwr_btn
4     enabled
/*
 * this is because the status bit is set even if the enable
 * bit is cleared, and it triggers an ACPI fixed event when
 * the enable bit is set again
 */
# press the power button for 3 times;
# cat ff_pwr_btn
7     enabled
# echo disable > ff_pwr_btn
# press the power button for 3 times;
# echo clear > ff_pwr_btn     /* clear the status bit */
# echo disable > ff_pwr_btn
# cat ff_pwr_btn
7     enabled

/sys/firmware/acpi/platform_profile

Defined on file sysfs-platform_profile

Reading this file gives the current selected profile for this device. Writing this file with one of the strings from platform_profile_choices changes the profile to the new value.

This file can be monitored for changes by polling for POLLPRI, POLLPRI will be signalled on any changes, independent of those changes coming from a userspace write; or coming from another source such as e.g. a hotkey triggered profile change handled either directly by the embedded-controller or fully handled inside the kernel.

/sys/firmware/acpi/platform_profile_choices

Defined on file sysfs-platform_profile

This file contains a space-separated list of profiles supported for this device.

Drivers must use the following standard profile-names:

low-power

Low power consumption

cool

Cooler operation

quiet

Quieter operation

balanced

Balance between low power consumption and performance

balanced-performance

Balance between performance and low power consumption with a slight bias towards performance

performance

High performance operation

Userspace may expect drivers to offer more than one of these standard profile names.

/sys/firmware/devicetree/*

Defined on file sysfs-firmware-ofw

When using OpenFirmware or a Flattened Device Tree to enumerate hardware, the device tree structure will be exposed in this directory.

It is possible for multiple device-tree directories to exist. Some device drivers use a separate detached device tree which have no attachment to the system tree and will appear in a different subdirectory under /sys/firmware/devicetree.

Userspace must not use the /sys/firmware/devicetree/base path directly, but instead should follow /proc/device-tree symlink. It is possible that the absolute path will change in the future, but the symlink is the stable ABI.

The /proc/device-tree symlink replaces the devicetree /proc filesystem support, and has largely the same semantics and should be compatible with existing userspace.

The contents of /sys/firmware/devicetree/ is a hierarchy of directories, one per device tree node. The directory name is the resolved path component name (node name plus address). Properties are represented as files in the directory. The contents of each file is the exact binary data from the device tree.

/sys/firmware/dmi/entries/

Defined on file sysfs-firmware-dmi-entries

Many machines’ firmware (x86 and arm64) export DMI / SMBIOS tables to the operating system. Getting at this information is often valuable to userland, especially in cases where there are OEM extensions used.

The kernel itself does not rely on the majority of the information in these tables being correct. It equally cannot ensure that the data as exported to userland is without error either.

DMI is structured as a large table of entries, where each entry has a common header indicating the type and length of the entry, as well as a firmware-provided ‘handle’ that is supposed to be unique amongst all entries.

Some entries are required by the specification, but many others are optional. In general though, users should never expect to find a specific entry type on their system unless they know for certain what their firmware is doing. Machine to machine experiences will vary.

Multiple entries of the same type are allowed. In order to handle these duplicate entry types, each entry is assigned by the operating system an ‘instance’, which is derived from an entry type’s ordinal position. That is to say, if there are ‘N’ multiple entries with the same type ‘T’ in the DMI tables (adjacent or spread apart, it doesn’t matter), they will be represented in sysfs as entries “T-0” through “T-(N-1)”:

Example entry directories:

/sys/firmware/dmi/entries/17-0
/sys/firmware/dmi/entries/17-1
/sys/firmware/dmi/entries/17-2
/sys/firmware/dmi/entries/17-3
...

Instance numbers are used in lieu of the firmware assigned entry handles as the kernel itself makes no guarantees that handles as exported are unique, and there are likely firmware images that get this wrong in the wild.

Each DMI entry in sysfs has the common header values exported as attributes:

handle

The 16bit ‘handle’ that is assigned to this entry by the firmware. This handle may be referred to by other entries.

length

The length of the entry, as presented in the entry itself. Note that this is _not the total count of bytes associated with the entry. This value represents the length of the “formatted” portion of the entry. This “formatted” region is sometimes followed by the “unformatted” region composed of nul terminated strings, with termination signalled by a two nul characters in series.

raw

The raw bytes of the entry. This includes the “formatted” portion of the entry, the “unformatted” strings portion of the entry, and the two terminating nul characters.

type

The type of the entry. This value is the same as found in the directory name. It indicates how the rest of the entry should be interpreted.

instance

The instance ordinal of the entry for the given type. This value is the same as found in the parent directory name.

position

The ordinal position (zero-based) of the entry within the entirety of the DMI entry table.

Entry Specialization

Some entry types may have other information available in sysfs. Not all types are specialized.

Type 15 - System Event Log

This entry allows the firmware to export a log of events the system has taken. This information is typically backed by nvram, but the implementation details are abstracted by this table. This entry’s data is exported in the directory:

/sys/firmware/dmi/entries/15-0/system_event_log

and has the following attributes (documented in the SMBIOS / DMI specification under “System Event Log (Type 15)”:

  • area_length

  • header_start_offset

  • data_start_offset

  • access_method

  • status

  • change_token

  • access_method_address

  • header_format

  • per_log_type_descriptor_length

  • type_descriptors_supported_count

As well, the kernel exports the binary attribute:

raw_event_log

The raw binary bits of the event log as described by the DMI entry.

/sys/firmware/dmi/tables/

Defined on file sysfs-firmware-dmi-tables

The firmware provides DMI structures as a packed list of data referenced by a SMBIOS table entry point. The SMBIOS entry point contains general information, like SMBIOS version, DMI table size, etc. The structure, content and size of SMBIOS entry point is dependent on SMBIOS version. The format of SMBIOS entry point and DMI structures can be read in SMBIOS specification.

The dmi/tables provides raw SMBIOS entry point and DMI tables through sysfs as an alternative to utilities reading them from /dev/mem. The raw SMBIOS entry point and DMI table are presented as binary attributes and are accessible via:

/sys/firmware/dmi/tables/smbios_entry_point /sys/firmware/dmi/tables/DMI

The complete DMI information can be obtained using these two tables.

/sys/firmware/efi/config_table

Defined on file sysfs-firmware-efi

It shows the physical address of config table entry in the EFI system table.

Users: Kexec

/sys/firmware/efi/esrt/

Defined on file sysfs-firmware-efi-esrt

Provides userland access to read the EFI System Resource Table (ESRT), a catalog of firmware for which can be updated with the UEFI UpdateCapsule mechanism described in section 7.5 of the UEFI Standard.

Users: fwupdate - https://github.com/rhinstaller/fwupdate

/sys/firmware/efi/esrt/entries/entry<N>/

Defined on file sysfs-firmware-efi-esrt

Each ESRT entry is identified by a GUID, and each gets a subdirectory under entries/ . example: /sys/firmware/efi/esrt/entries/entry0/

/sys/firmware/efi/esrt/entries/entry<N>/capsule_flags

Defined on file sysfs-firmware-efi-esrt

Flags that must be passed to UpdateCapsule()

/sys/firmware/efi/esrt/entries/entry<N>/fw_class

Defined on file sysfs-firmware-efi-esrt

This is the entry’s guid, and will match the directory name.

/sys/firmware/efi/esrt/entries/entry<N>/fw_type

Defined on file sysfs-firmware-efi-esrt

What kind of firmware entry this is:

0

Unknown

1

System Firmware

2

Device Firmware

3

UEFI Driver

/sys/firmware/efi/esrt/entries/entry<N>/fw_version

Defined on file sysfs-firmware-efi-esrt

The version of the firmware currently installed. This is a 32-bit unsigned integer.

/sys/firmware/efi/esrt/entries/entry<N>/last_attempt_status

Defined on file sysfs-firmware-efi-esrt

The result of the last firmware update attempt for the firmware resource entry.

0

Success

1

Insufficient resources

2

Incorrect version

3

Invalid format

4

Authentication error

5

AC power event

6

Battery power event

/sys/firmware/efi/esrt/entries/entry<N>/last_attempt_version

Defined on file sysfs-firmware-efi-esrt

The last firmware version for which an update was attempted.

/sys/firmware/efi/esrt/entries/entry<N>/lowest_supported_fw_version

Defined on file sysfs-firmware-efi-esrt

The lowest version of the firmware that can be installed.

/sys/firmware/efi/esrt/fw_resource_count

Defined on file sysfs-firmware-efi-esrt

The number of entries in the ESRT

/sys/firmware/efi/esrt/fw_resource_count_max

Defined on file sysfs-firmware-efi-esrt

The maximum number of entries that /could/ be registered in the allocation the table is currently in. This is really only useful to the system firmware itself.

/sys/firmware/efi/esrt/fw_resource_version

Defined on file sysfs-firmware-efi-esrt

The version of the ESRT structure provided by the firmware.

/sys/firmware/efi/fw_vendor

Defined on file sysfs-firmware-efi

It shows the physical address of firmware vendor field in the EFI system table.

Users: Kexec

/sys/firmware/efi/runtime

Defined on file sysfs-firmware-efi

It shows the physical address of runtime service table entry in the EFI system table.

Users: Kexec

/sys/firmware/efi/runtime-map/

Defined on file sysfs-firmware-efi-runtime-map

Switching efi runtime services to virtual mode requires that all efi memory ranges which have the runtime attribute bit set to be mapped to virtual addresses.

The efi runtime services can only be switched to virtual mode once without rebooting. The kexec kernel must maintain the same physical to virtual address mappings as the first kernel. The mappings are exported to sysfs so userspace tools can reassemble them and pass them into the kexec kernel.

/sys/firmware/efi/runtime-map/ is the directory the kernel exports that information in.

subdirectories are named with the number of the memory range:

/sys/firmware/efi/runtime-map/0
/sys/firmware/efi/runtime-map/1
/sys/firmware/efi/runtime-map/2
/sys/firmware/efi/runtime-map/3
...

Each subdirectory contains five files:

attribute

The attributes of the memory range.

num_pages

The size of the memory range in pages.

phys_addr

The physical address of the memory range.

type

The type of the memory range.

virt_addr

The virtual address of the memory range.

Above values are all hexadecimal numbers with the ‘0x’ prefix.

Users: Kexec

/sys/firmware/efi/systab

Defined on file sysfs-firmware-efi

Displays the physical addresses of all EFI Configuration Tables found via the EFI System Table. The order in which the tables are printed forms an ABI and newer versions are always printed first, i.e. ACPI20 comes before ACPI.

Users: dmidecode

/sys/firmware/efi/tables/rci2

Defined on file sysfs-firmware-efi

Displays the content of the Runtime Configuration Interface Table version 2 on Dell EMC PowerEdge systems in binary format

Users: It is used by Dell EMC OpenManage Server Administrator tool to populate BIOS setup page.

/sys/firmware/fdt

Defined on file sysfs-firmware-ofw

Exports the FDT blob that was passed to the kernel by the bootloader. This allows userland applications such as kexec to access the raw binary. This blob is also useful when debugging since it contains any changes made to the blob by the bootloader.

The fact that this node does not reside under /sys/firmware/device-tree is deliberate: FDT is also used on arm64 UEFI/ACPI systems to communicate just the UEFI and ACPI entry points, but the FDT is never unflattened and used to configure the system.

A CRC32 checksum is calculated over the entire FDT blob, and verified at late_initcall time. The sysfs entry is instantiated only if the checksum is valid, i.e., if the FDT blob has not been modified in the mean time. Otherwise, a warning is printed.

Users: kexec, debugging

/sys/firmware/gsmi

Defined on file sysfs-firmware-gsmi

Some servers used internally at Google have firmware that provides callback functionality via explicit SMI triggers. Some of the callbacks are similar to those provided by the EFI runtime services page, but due to historical reasons this different entry-point has been used.

The gsmi driver implements the kernel’s abstraction for these firmware callbacks. Currently, this functionality is limited to handling the system event log and getting access to EFI-style variables stored in nvram.

Layout:

/sys/firmware/gsmi/vars:

This directory has the same layout (and underlying implementation as /sys/firmware/efi/vars. See Documentation/ABI/*/sysfs-firmware-efi-vars for more information on how to interact with this structure.

/sys/firmware/gsmi/append_to_eventlog - write-only:

This file takes a binary blob and passes it onto the firmware to be timestamped and appended to the system eventlog. The binary format is interpreted by the firmware and may change from platform to platform. The only kernel-enforced requirement is that the blob be prefixed with a 32bit host-endian type used as part of the firmware call.

/sys/firmware/gsmi/clear_config - write-only:

Writing any value to this file will cause the entire firmware configuration to be reset to “factory defaults”. Callers should assume that a reboot is required for the configuration to be cleared.

/sys/firmware/gsmi/clear_eventlog - write-only:

This file is used to clear out a portion/the whole of the system event log. Values written should be values between 1 and 100 inclusive (in ASCII) representing the fraction of the log to clear. Not all platforms support fractional clearing though, and this writes to this file will error out if the firmware doesn’t like your submitted fraction.

Callers should assume that a reboot is needed for this operation to complete.

/sys/firmware/ibft/acpi_header

Defined on file sysfs-ibft

The /sys/firmware/ibft/acpi_header directory will contain files that expose the SIGNATURE, OEM_ID, and OEM_TABLE_ID fields of the acpi table header of the iBFT structure. This will allow for identification of the creator of the table which is useful in determining quirks associated with some adapters when used in hardware vs software iscsi initiator mode.

/sys/firmware/ibft/ethernetX

Defined on file sysfs-ibft

The /sys/firmware/ibft/ethernetX directory will contain files that expose the iSCSI Boot Firmware Table NIC data. Usually this contains the IP address, MAC, and gateway of the NIC.

/sys/firmware/ibft/initiator

Defined on file sysfs-ibft

The /sys/firmware/ibft/initiator directory will contain files that expose the iSCSI Boot Firmware Table initiator data. Usually this contains the Initiator name.

/sys/firmware/ibft/targetX

Defined on file sysfs-ibft

The /sys/firmware/ibft/targetX directory will contain files that expose the iSCSI Boot Firmware Table target data. Usually this contains the target’s IP address, boot LUN, target name, and what NIC it is associated with. It can also contain the CHAP name (and password), the reverse CHAP name (and password)

/sys/firmware/initrd

Defined on file sysfs-firmware-initrd

When the kernel was booted with an initrd and the “retain_initrd” option is set on the kernel command line, /sys/firmware/initrd contains the contents of the initrd that the kernel was booted with.

/sys/firmware/lefi/boardinfo

Defined on file sysfs-firmware-lefi-boardinfo

Get mainboard and BIOS info easily on the Loongson platform, this is useful to point out the current used mainboard type and BIOS version when there exists problems related with hardware or firmware.

The related structures are already defined in the interface specification about firmware and kernel which are common requirement and specific for Loongson64, so only add a new boardinfo.c file in arch/mips/loongson64.

For example:

[loongson@linux ~]$ cat /sys/firmware/lefi/boardinfo Board Info Manufacturer : LEMOTE Board Name : LEMOTE-LS3A4000-7A1000-1w-V01-pc Family : LOONGSON3

BIOS Info Vendor : Kunlun Version : Kunlun-A1901-V4.1.3-20200414093938 ROM Size : 4 KB Release Date : 2020-04-14

By the way, using dmidecode command can get the similar info if there exists SMBIOS in firmware, but the fact is that there is no SMBIOS on some machines, we can see nothing when execute dmidecode, like this:

[root@linux loongson]# dmidecode # dmidecode 2.12 # No SMBIOS nor DMI entry point found, sorry.

/sys/firmware/log

Defined on file sysfs-firmware-log

The /sys/firmware/log is a binary file that represents a read-only copy of the firmware’s log if one is available.

/sys/firmware/memmap/

Defined on file sysfs-firmware-memmap

On all platforms, the firmware provides a memory map which the kernel reads. The resources from that memory map are registered in the kernel resource tree and exposed to userspace via /proc/iomem (together with other resources).

However, on most architectures that firmware-provided memory map is modified afterwards by the kernel itself, either because the kernel merges that memory map with other information or just because the user overwrites that memory map via command line.

kexec needs the raw firmware-provided memory map to setup the parameter segment of the kernel that should be booted with kexec. Also, the raw memory map is useful for debugging. For that reason, /sys/firmware/memmap is an interface that provides the raw memory map to userspace.

The structure is as follows: Under /sys/firmware/memmap there are subdirectories with the number of the entry as their name:

/sys/firmware/memmap/0
/sys/firmware/memmap/1
/sys/firmware/memmap/2
/sys/firmware/memmap/3
...

The maximum depends on the number of memory map entries provided by the firmware. The order is just the order that the firmware provides.

Each directory contains three files:

start

The start address (as hexadecimal number with the ‘0x’ prefix).

end

The end address, inclusive (regardless whether the firmware provides inclusive or exclusive ranges).

type

Type of the entry as string. See below for a list of valid types.

So, for example:

/sys/firmware/memmap/0/start
/sys/firmware/memmap/0/end
/sys/firmware/memmap/0/type
/sys/firmware/memmap/1/start
...

Currently following types exist:

  • System RAM

  • ACPI Tables

  • ACPI Non-volatile Storage

  • Unusable memory

  • Persistent Memory (legacy)

  • Persistent Memory

  • Soft Reserved

  • reserved

Following shell snippet can be used to display that memory map in a human-readable format:

#!/bin/bash
cd /sys/firmware/memmap
for dir in * ; do
    start=$(cat $dir/start)
    end=$(cat $dir/end)
    type=$(cat $dir/type)
    printf "%016x-%016x (%s)\n" $start $[ $end +1] "$type"
done

/sys/firmware/opal/powercap

Defined on file sysfs-firmware-opal-powercap

Powercap directory for Powernv (P8, P9) servers

Each folder in this directory contains a power-cappable component.

/sys/firmware/opal/powercap/system-powercap

Defined on file sysfs-firmware-opal-powercap

System powercap directory and attributes applicable for Powernv (P8, P9) servers

This directory provides powercap information. It contains below sysfs attributes:

  • powercap-min : This file provides the minimum possible powercap in Watt units

  • powercap-max : This file provides the maximum possible powercap in Watt units

  • powercap-current : This file provides the current powercap set on the system. Writing to this file creates a request for setting a new-powercap. The powercap requested must be between powercap-min and powercap-max.

/sys/firmware/opal/psr

Defined on file sysfs-firmware-opal-psr

Power-Shift-Ratio directory for Powernv P9 servers

Power-Shift-Ratio allows to provide hints the firmware to shift/throttle power between different entities in the system. Each attribute in this directory indicates a settable PSR.

/sys/firmware/opal/psr/cpu_to_gpu_X

Defined on file sysfs-firmware-opal-psr

PSR sysfs attributes for Powernv P9 servers

Power-Shift-Ratio between CPU and GPU for a given chip with chip-id X. This file gives the ratio (0-100) which is used by OCC for power-capping.

/sys/firmware/opal/sensor_groups

Defined on file sysfs-firmware-opal-sensor-groups

Sensor groups directory for POWER9 powernv servers

Each folder in this directory contains a sensor group which are classified based on type of the sensor like power, temperature, frequency, current, etc. They can also indicate the group of sensors belonging to different owners like CSM, Profiler, Job-Scheduler

/sys/firmware/opal/sensor_groups/<sensor_group_name>/clear

Defined on file sysfs-firmware-opal-sensor-groups

Sysfs file to clear the min-max of all the sensors belonging to the group.

Writing 1 to this file will clear the minimum and maximum values of all the sensors in the group. In POWER9, the min-max of a sensor is the historical minimum and maximum value of the sensor cached by OCC.

/sys/firmware/papr/energy_scale_info

Defined on file sysfs-firmware-papr-energy-scale-info

Directory hosting a set of platform attributes like energy/frequency on Linux running as a PAPR guest.

Each file in a directory contains a platform attribute hierarchy pertaining to performance/ energy-savings mode and processor frequency.

/sys/firmware/papr/energy_scale_info/<id>

Defined on file sysfs-firmware-papr-energy-scale-info

Energy, frequency attributes directory for POWERVM servers

/sys/firmware/papr/energy_scale_info/<id>/desc

Defined on file sysfs-firmware-papr-energy-scale-info

String description of the energy attribute of <id>

/sys/firmware/papr/energy_scale_info/<id>/value

Defined on file sysfs-firmware-papr-energy-scale-info

Numeric value of the energy attribute of <id>

/sys/firmware/papr/energy_scale_info/<id>/value_desc

Defined on file sysfs-firmware-papr-energy-scale-info

String value of the energy attribute of <id>

/sys/firmware/qemu_fw_cfg/

Defined on file sysfs-firmware-qemu_fw_cfg

Several different architectures supported by QEMU (x86, arm, sun4*, ppc/mac) are provisioned with a firmware configuration (fw_cfg) device, originally intended as a way for the host to provide configuration data to the guest firmware. Starting with QEMU v2.4, arbitrary fw_cfg file entries may be specified by the user on the command line, which makes fw_cfg additionally useful as an out-of-band, asynchronous mechanism for providing configuration data to the guest userspace.

The authoritative guest-side hardware interface documentation to the fw_cfg device can be found in “docs/specs/fw_cfg.rst” in the QEMU source tree, or online at: https://qemu-project.gitlab.io/qemu/specs/fw_cfg.html

SysFS fw_cfg Interface

The fw_cfg sysfs interface described in this document is only intended to display discoverable blobs (i.e., those registered with the file directory), as there is no way to determine the presence or size of “legacy” blobs (with selector keys between 0x0002 and 0x0018) programmatically.

All fw_cfg information is shown under:

The only legacy blob displayed is the fw_cfg device revision:

/sys/firmware/qemu_fw_cfg/rev

Discoverable fw_cfg blobs by selector key

All discoverable blobs listed in the fw_cfg file directory are displayed as entries named after their unique selector key value, e.g.:

/sys/firmware/qemu_fw_cfg/by_key/32 /sys/firmware/qemu_fw_cfg/by_key/33 /sys/firmware/qemu_fw_cfg/by_key/34 ...

Each such fw_cfg sysfs entry has the following values exported as attributes:

name

The 56-byte nul-terminated ASCII string used as the blob’s ‘file name’ in the fw_cfg directory.

size

The length of the blob, as given in the fw_cfg directory.

key

The value of the blob’s selector key as given in the fw_cfg directory. This value is the same as used in the parent directory name.

raw

The raw bytes of the blob, obtained by selecting the entry via the control register, and reading a number of bytes equal to the blob size from the data register.

Listing fw_cfg blobs by file name

While the fw_cfg device does not impose any specific naming convention on the blobs registered in the file directory, QEMU developers have traditionally used path name semantics to give each blob a descriptive name. For example:

"bootorder"
"genroms/kvmvapic.bin"
"etc/e820"
"etc/boot-fail-wait"
"etc/system-states"
"etc/table-loader"
"etc/acpi/rsdp"
"etc/acpi/tables"
"etc/smbios/smbios-tables"
"etc/smbios/smbios-anchor"
...

In addition to the listing by unique selector key described above, the fw_cfg sysfs driver also attempts to build a tree of directories matching the path name components of fw_cfg blob names, ending in symlinks to the by_key entry for each “basename”, as illustrated below (assume current directory is /sys/firmware):

qemu_fw_cfg/by_name/bootorder -> ../by_key/38
qemu_fw_cfg/by_name/etc/e820 -> ../../by_key/35
qemu_fw_cfg/by_name/etc/acpi/rsdp -> ../../../by_key/41
...

Construction of the directory tree and symlinks is done on a “best-effort” basis, as there is no guarantee that components of fw_cfg blob names are always “well behaved”. I.e., there is the possibility that a symlink (basename) will conflict with a dirname component of another fw_cfg blob, in which case the creation of the offending /sys/firmware/qemu_fw_cfg/by_name entry will be skipped.

The authoritative list of entries will continue to be found under the /sys/firmware/qemu_fw_cfg/by_key directory.

/sys/firmware/secvar

Defined on file sysfs-secvar

This directory is created if the POWER firmware supports OS secureboot, thereby secure variables. It exposes interface for reading/writing the secure variables

/sys/firmware/secvar/config

Defined on file sysfs-secvar

This optional directory contains read-only config attributes as defined by the secure variable implementation. All data is in ASCII format. The directory is only created if the backing implementation provides variables to populate it, which at present is only PLPKS on the pseries platform.

/sys/firmware/secvar/config/max_object_size

Defined on file sysfs-secvar

Maximum allowed size of objects in the keystore in bytes, represented in ASCII decimal format.

This is not necessarily the same as the max size that can be written to an update file as writes can contain more than object data, you should use the size of the update file for that purpose.

Currently only provided by PLPKS on the pseries platform.

/sys/firmware/secvar/config/signed_update_algorithms

Defined on file sysfs-secvar

Bitmask of flags indicating which algorithms the hypervisor supports for signed update of objects, represented as a 16 byte hexadecimal ASCII string. Consult the hypervisor documentation for what these flags mean.

Currently only provided by PLPKS on the pseries platform.

/sys/firmware/secvar/config/supported_policies

Defined on file sysfs-secvar

Bitmask of supported policy flags by the hypervisor, represented as an 8 byte hexadecimal ASCII string. Consult the hypervisor documentation for what these flags are.

Currently only provided by PLPKS on the pseries platform.

/sys/firmware/secvar/config/total_size

Defined on file sysfs-secvar

Total size of the PLPKS in bytes, represented in ASCII decimal format.

Currently only provided by PLPKS on the pseries platform.

/sys/firmware/secvar/config/used_space

Defined on file sysfs-secvar

Current space consumed by the key store, in bytes, represented in ASCII decimal format.

Currently only provided by PLPKS on the pseries platform.

/sys/firmware/secvar/config/version

Defined on file sysfs-secvar

Config version as reported by the hypervisor in ASCII decimal format.

Currently only provided by PLPKS on the pseries platform.

/sys/firmware/secvar/format

Defined on file sysfs-secvar

A string indicating which backend is in use by the firmware. This determines the format of the variable and the accepted format of variable updates.

On powernv/OPAL, this value is provided by the OPAL firmware and is expected to be “ibm,edk2-compat-v1”.

On pseries/PLPKS, this is generated by the kernel based on the version number in the SB_VERSION variable in the keystore, and has the form “ibm,plpks-sb-v<version>”, or “ibm,plpks-sb-unknown” if there is no SB_VERSION variable.

/sys/firmware/secvar/vars

Defined on file sysfs-secvar

This directory lists all the secure variables that are supported by the firmware.

/sys/firmware/secvar/vars/<variable name>

Defined on file sysfs-secvar

Each secure variable is represented as a directory named as <variable_name>. The variable name is unique and is in ASCII representation. The data and size can be determined by reading their respective attribute files.

/sys/firmware/secvar/vars/<variable_name>/data

Defined on file sysfs-secvar

A read-only file containing the value of the variable. The size of the file represents the maximum size of the variable data.

/sys/firmware/secvar/vars/<variable_name>/size

Defined on file sysfs-secvar

An integer representation of the size of the content of the variable. In other words, it represents the size of the data.

/sys/firmware/secvar/vars/<variable_name>/update

Defined on file sysfs-secvar

A write-only file that is used to submit the new value for the variable. The size of the file represents the maximum size of the variable data that can be written.

/sys/firmware/sgi_uv/

Defined on file sysfs-firmware-sgi_uv

The /sys/firmware/sgi_uv directory contains information about the UV platform.

Under that directory are a number of read-only attributes:

archtype
hub_type
hubless
partition_id
coherence_id
uv_type

The archtype entry contains the UV architecture type that is used to select arch-dependent addresses and features. It can be set via the OEM_ID in the ACPI MADT table or by UVsystab entry both passed from UV BIOS.

The hub_type entry is used to select the type of hub which is similar to uv_type but encoded in a binary format. Include the file uv_hub.h to get the definitions.

The hubless entry basically is present and set only if there is no hub. In this case the hub_type entry is not present.

The partition_id entry contains the partition id. UV systems can be partitioned into multiple physical machines, which each partition running a unique copy of the operating system. Each partition will have a unique partition id.

The coherence_id entry contains the coherence id. A partitioned UV system can have one or more coherence domains. The coherence id indicates which coherence domain this partition is in.

The uv_type entry contains the hub revision number. This value can be used to identify the UV system version:

"0.*" = Hubless UV ('*' is subtype)
"3.0" = UV2
"5.0" = UV3
"7.0" = UV4
"7.1" = UV4a
"9.0" = UV5

The /sys/firmware/sgi_uv directory also contains two directories:

hubs/
pcibuses/

The hubs directory contains a number of hub objects, each representing a UV Hub visible to the BIOS. Each hub object’s name is appended by a unique ordinal value (ex. /sys/firmware/sgi_uv/hubs/hub_5)

Each hub object directory contains a number of read-only attributes:

cnode
location
name
nasid
shared
this_partition

The cnode entry contains the cnode number of the corresponding hub. If a cnode value is not applicable, the value returned will be -1.

The location entry contains the location string of the corresponding hub. This value is used to physically identify a hub within a system.

The name entry contains the name of the corresponding hub. This name can be two variants:

"UVHub x.x" = A 'node' ASIC, connecting a CPU to the interconnect
fabric. The 'x.x' value represents the ASIC revision.
(ex. 'UVHub 5.0')

"NLxRouter" = A 'router ASIC, only connecting other ASICs to
the interconnect fabric. The 'x' value representing
the fabric technology version. (ex. 'NL8Router')

The nasid entry contains the nasid number of the corresponding hub. If a nasid value is not applicable, the value returned will be -1.

The shared entry contains a boolean value describing whether the corresponding hub is shared between system partitions.

The this_partition entry contains a boolean value describing whether the corresponding hub is local to the current partition.

Each hub object directory also contains a number of port objects, each representing a fabric port on the corresponding hub. A port object’s name is appended by a unique ordinal value (ex. /sys/firmware/sgi_uv/hubs/hub_5/port_3)

Each port object directory contains a number of read-only attributes:

conn_hub
conn_port

The conn_hub entry contains a value representing the unique ordinal value of the hub on the other end of the fabric cable plugged into the port. If the port is disconnected, the value returned will be -1.

The conn_port entry contains a value representing the unique ordinal value of the port on the other end of the fabric cable plugged into the port. If the port is disconnected, the value returned will be -1.

Ex:
A value of ‘3’ is read from:

/sys/firmware/sgi_uv/hubs/hub_5/port_3/conn_hub

and a value of ‘6’ is read from:

/sys/firmware/sgi_uv/hubs/hub_5/port_3/conn_port

representing that this port is connected to:

/sys/firmware/sgi_uv/hubs/hub_3/port_6

The pcibuses directory contains a number of PCI bus objects. Each PCI bus object’s name is appended by its PCI bus address. (ex. pcibus_0003:80)

Each pcibus object has a number of possible read-only attributes:

type
location
slot
ppb_addr
iio_stack

The type entry contains a value describing the type of IO at the corresponding PCI bus address. Known possible values across all UV versions are:

BASE IO
PCIe IO
PCIe SLOT
NODE IO
Riser
PPB

The location entry contains the location string of the UV Hub of the CPU physically connected to the corresponding PCI bus.

The slot entry contains the physical slot number of the corresponding PCI bus. This value is used to physically locate PCI cards within a system.

The ppb_addr entry contains the PCI address string of the bridged PCI bus. This entry is only present when the PCI bus object type is ‘PPB’.

The iio_stack entry contains a value describing the IIO stack number that the corresponding PCI bus object is connected to.

/sys/firmware/turris-mox-rwtm/board_version

Defined on file sysfs-firmware-turris-mox-rwtm

(Read) Board version burned into eFuses of this Turris Mox board. Format: %i

/sys/firmware/turris-mox-rwtm/mac_address*

Defined on file sysfs-firmware-turris-mox-rwtm

(Read) MAC addresses burned into eFuses of this Turris Mox board. Format: %pM

/sys/firmware/turris-mox-rwtm/pubkey

Defined on file sysfs-firmware-turris-mox-rwtm

(Read) ECDSA public key (in pubkey hex compressed form) computed as pair to the ECDSA private key burned into eFuses of this Turris Mox Board. Format: string

/sys/firmware/turris-mox-rwtm/ram_size

Defined on file sysfs-firmware-turris-mox-rwtm

(Read) RAM size in MiB of this Turris Mox board as was detected during manufacturing and burned into eFuses. Can be 512 or 1024. Format: %i

/sys/firmware/turris-mox-rwtm/serial_number

Defined on file sysfs-firmware-turris-mox-rwtm

(Read) Serial number burned into eFuses of this Turris Mox device. Format: %016X

Symbols under /sys/fs

/sys/fs/erofs/<disk>/sync_decompress

Defined on file sysfs-fs-erofs

Control strategy of sync decompression:

  • 0 (default, auto): enable for readpage, and enable for readahead on atomic contexts only.

  • 1 (force on): enable for readpage and readahead.

  • 2 (force off): disable for all situations.

/sys/fs/erofs/features/

Defined on file sysfs-fs-erofs

Shows all enabled kernel features. Supported features: zero_padding, compr_cfgs, big_pcluster, chunked_file, device_table, compr_head2, sb_chksum, ztailpacking, dedupe, fragments.

/sys/fs/ext4/<disk>/delayed_allocation_blocks

Defined on file sysfs-fs-ext4

This file is read-only and shows the number of blocks that are dirty in the page cache, but which do not have their location in the filesystem allocated yet.

/sys/fs/ext4/<disk>/extent_max_zeroout_kb

Defined on file sysfs-fs-ext4

The maximum number of kilobytes which will be zeroed out in preference to creating a new uninitialized extent when manipulating an inode’s extent tree. Note that using a larger value will increase the variability of time necessary to complete a random write operation (since a 4k random write might turn into a much larger write due to the zeroout operation).

/sys/fs/ext4/<disk>/inode_goal

Defined on file sysfs-fs-ext4

Tuning parameter which (if non-zero) controls the goal inode used by the inode allocator in preference to all other allocation heuristics. This is intended for debugging use only, and should be 0 on production systems.

/sys/fs/ext4/<disk>/inode_readahead_blks

Defined on file sysfs-fs-ext4

Tuning parameter which controls the maximum number of inode table blocks that ext4’s inode table readahead algorithm will pre-read into the buffer cache

/sys/fs/ext4/<disk>/journal_task

Defined on file sysfs-fs-ext4

This file is read-only and shows the pid of journal thread in current pid-namespace or 0 if task is unreachable.

/sys/fs/ext4/<disk>/lifetime_write_kbytes

Defined on file sysfs-fs-ext4

This file is read-only and shows the number of kilobytes of data that have been written to this filesystem since it was created.

/sys/fs/ext4/<disk>/max_writeback_mb_bump

Defined on file sysfs-fs-ext4

The maximum number of megabytes the writeback code will try to write out before move on to another inode.

/sys/fs/ext4/<disk>/mb_group_prealloc

Defined on file sysfs-fs-ext4

The multiblock allocator will round up allocation requests to a multiple of this tuning parameter if the stripe size is not set in the ext4 superblock

/sys/fs/ext4/<disk>/mb_max_to_scan

Defined on file sysfs-fs-ext4

The maximum number of extents the multiblock allocator will search to find the best extent

/sys/fs/ext4/<disk>/mb_min_to_scan

Defined on file sysfs-fs-ext4

The minimum number of extents the multiblock allocator will search to find the best extent

/sys/fs/ext4/<disk>/mb_order2_req

Defined on file sysfs-fs-ext4

Tuning parameter which controls the minimum size for requests (as a power of 2) where the buddy cache is used

/sys/fs/ext4/<disk>/mb_stats

Defined on file sysfs-fs-ext4

Controls whether the multiblock allocator should collect statistics, which are shown during the unmount. 1 means to collect statistics, 0 means not to collect statistics

/sys/fs/ext4/<disk>/mb_stream_req

Defined on file sysfs-fs-ext4

Files which have fewer blocks than this tunable parameter will have their blocks allocated out of a block group specific preallocation pool, so that small files are packed closely together. Each large file will have its blocks allocated out of its own unique preallocation pool.

/sys/fs/ext4/<disk>/session_write_kbytes

Defined on file sysfs-fs-ext4

This file is read-only and shows the number of kilobytes of data that have been written to this filesystem since it was mounted.

/sys/fs/f2fs/<disk>/atgc_age_threshold

Defined on file sysfs-fs-f2fs

When ATGC is on, it controls age threshold to bypass GCing young candidates whose age is not beyond the threshold, by default it was initialized as 604800 seconds (equals to 7 days).

/sys/fs/f2fs/<disk>/atgc_age_weight

Defined on file sysfs-fs-f2fs

When ATGC is on, it controls age weight to balance weight proportion in between aging and valid blocks, the value should be in range of [0, 100], by default it was initialized as 60(%).

/sys/fs/f2fs/<disk>/atgc_candidate_count

Defined on file sysfs-fs-f2fs

When ATGC is on, it controls candidate count in order to limit total number of potential victim in all candidates, by default it was initialized as 10 (sections).

/sys/fs/f2fs/<disk>/atgc_candidate_ratio

Defined on file sysfs-fs-f2fs

When ATGC is on, it controls candidate ratio in order to limit total number of potential victim in all candidates, the value should be in range of [0, 100], by default it was initialized as 20(%).

/sys/fs/f2fs/<disk>/atgc_enabled

Defined on file sysfs-fs-f2fs

It represents whether ATGC is on or off. The value is 1 which

indicates that ATGC is on, and 0 indicates that it is off.

/sys/fs/f2fs/<disk>/avg_vblocks

Defined on file sysfs-fs-f2fs

Average number of valid blocks. Available when CONFIG_F2FS_STAT_FS=y.

/sys/fs/f2fs/<disk>/blkzone_alloc_policy

Defined on file sysfs-fs-f2fs

The zone UFS we are currently using consists of two parts: conventional zones and sequential zones. It can be used to control which part to prioritize for writes, with a default value of 0.

value

description

blkzone_alloc_policy = 0

Prioritize writing to sequential zones

blkzone_alloc_policy = 1

Only allow writing to sequential zones

blkzone_alloc_policy = 2

Prioritize writing to conventional zones

/sys/fs/f2fs/<disk>/ckpt_thread_ioprio

Defined on file sysfs-fs-f2fs

Give a way to change checkpoint merge daemon’s io priority. Its default value is “be,3”, which means “BE” I/O class and I/O priority “3”. We can select the class between “rt” and “be”, and set the I/O priority within valid range of it. “,” delimiter is necessary in between I/O class and priority number.

/sys/fs/f2fs/<disk>/committed_atomic_block

Defined on file sysfs-fs-f2fs

Show the accumulated total committed atomic write block count after boot. If you write “0” here, you can initialize to “0”.

/sys/fs/f2fs/<disk>/compr_new_inode

Defined on file sysfs-fs-f2fs

Show the count of inode newly enabled for compression since mount. Note that when the compression is disabled for the files, this count doesn’t decrease. If you write “0” here, you can initialize compr_new_inode to “0”.

/sys/fs/f2fs/<disk>/compr_saved_block

Defined on file sysfs-fs-f2fs

Show the saved block count with compression since mount. Note that when the compressed blocks are deleted, this count doesn’t decrease. If you write “0” here, you can initialize compr_written_block and compr_saved_block to “0”.

/sys/fs/f2fs/<disk>/compr_written_block

Defined on file sysfs-fs-f2fs

Show the block count written after compression since mount. Note that when the compressed blocks are deleted, this count doesn’t decrease. If you write “0” here, you can initialize compr_written_block and compr_saved_block to “0”.

/sys/fs/f2fs/<disk>/compress_percent

Defined on file sysfs-fs-f2fs

When compress cache is on, it controls cached page percent(compress pages / free_ram) in order to limit caching compress page. If cached page percent exceed threshold, then deny caching compress page. The value should be in range of (0, 100], by default it was initialized as 20(%).

/sys/fs/f2fs/<disk>/compress_watermark

Defined on file sysfs-fs-f2fs

When compress cache is on, it controls free memory watermark in order to limit caching compress page. If free memory is lower than watermark, then deny caching compress page. The value should be in range of (0, 100], by default it was initialized as 20(%).

/sys/fs/f2fs/<disk>/cp_background_calls

Defined on file sysfs-fs-f2fs

Number of checkpoint operations performed in the background to free segments. Available when CONFIG_F2FS_STAT_FS=y.

/sys/fs/f2fs/<disk>/cp_foreground_calls

Defined on file sysfs-fs-f2fs

Number of checkpoint operations performed on demand. Available when CONFIG_F2FS_STAT_FS=y.

/sys/fs/f2fs/<disk>/cp_interval

Defined on file sysfs-fs-f2fs

Controls the checkpoint timing, set to 60 seconds by default.

/sys/fs/f2fs/<disk>/current_atomic_write

Defined on file sysfs-fs-f2fs

Show the total current atomic write block count, which is not committed yet. This is a read-only entry.

/sys/fs/f2fs/<disk>/current_reserved_blocks

Defined on file sysfs-fs-f2fs

Shows current reserved blocks in system, it may be temporarily smaller than target_reserved_blocks, but will gradually increase to target_reserved_blocks when more free blocks are freed by user later.

/sys/fs/f2fs/<disk>/data_io_flag

Defined on file sysfs-fs-f2fs

Give a way to attach REQ_META|FUA to data writes given temperature-based bits. Now the bits indicate:

REQ_META

REQ_FUA

5

4

3

2

1

0

Cold

Warm

Hot

Cold

Warm

Hot

/sys/fs/f2fs/<disk>/dir_level

Defined on file sysfs-fs-f2fs

Controls the directory level for large directory. If a directory has a number of files, it can reduce the file lookup latency by increasing this dir_level value. Otherwise, it needs to decrease this value to reduce the space overhead. The default value is 0.

/sys/fs/f2fs/<disk>/dirty_nats_ratio

Defined on file sysfs-fs-f2fs

Controls dirty nat entries ratio threshold, if current ratio exceeds configured threshold, checkpoint will be triggered for flushing dirty nat entries.

/sys/fs/f2fs/<disk>/dirty_segments

Defined on file sysfs-fs-f2fs

Shows the number of dirty segments.

/sys/fs/f2fs/<disk>/discard_granularity

Defined on file sysfs-fs-f2fs

Controls discard granularity of inner discard thread. Inner thread will not issue discards with size that is smaller than granularity. The unit size is one block(4KB), now only support configuring in range of [1, 512]. Default value is 16. For small devices, default value is 1.

/sys/fs/f2fs/<disk>/discard_idle_interval

Defined on file sysfs-fs-f2fs

Controls the idle timing of discard thread given this time interval. Default is 5 secs.

/sys/fs/f2fs/<disk>/discard_io_aware

Defined on file sysfs-fs-f2fs

It controls to enable/disable IO aware feature for background discard. By default, the value is 1 which indicates IO aware is on.

/sys/fs/f2fs/<disk>/discard_io_aware_gran

Defined on file sysfs-fs-f2fs

Controls background discard granularity of inner discard thread when is not in idle. Inner thread will not issue discards with size that is smaller than granularity. The unit size is one block(4KB), now only support configuring in range of [0, 512]. Default: 512

/sys/fs/f2fs/<disk>/discard_urgent_util

Defined on file sysfs-fs-f2fs

When space utilization exceeds this, do background DISCARD aggressively. Does DISCARD forcibly in a period of given min_discard_issue_time when the number of discards is not 0 and set discard granularity to 1. Default: 80

/sys/fs/f2fs/<disk>/encoding

Defined on file sysfs-fs-f2fs

Displays name and version of the encoding set for the filesystem. If no encoding is set, displays (none)

/sys/fs/f2fs/<disk>/extension_list

Defined on file sysfs-fs-f2fs

Used to control configure extension list: - Query: cat /sys/fs/f2fs/<disk>/extension_list - Add: echo ‘[h/c]extension’ > /sys/fs/f2fs/<disk>/extension_list - Del: echo ‘[h/c]!extension’ > /sys/fs/f2fs/<disk>/extension_list - [h] means add/del hot file extension - [c] means add/del cold file extension

/sys/fs/f2fs/<disk>/fault_rate

Defined on file sysfs-fs-f2fs

Enable fault injection in all supported types with specified injection rate.

/sys/fs/f2fs/<disk>/fault_type

Defined on file sysfs-fs-f2fs

Support configuring fault injection type, should be enabled with fault_injection option, fault type value is shown below, it supports single or combined type.

Type_Name

Type_Value

FAULT_KMALLOC

0x000000001

FAULT_KVMALLOC

0x000000002

FAULT_PAGE_ALLOC

0x000000004

FAULT_PAGE_GET

0x000000008

FAULT_ALLOC_BIO

0x000000010 (obsolete)

FAULT_ALLOC_NID

0x000000020

FAULT_ORPHAN

0x000000040

FAULT_BLOCK

0x000000080

FAULT_DIR_DEPTH

0x000000100

FAULT_EVICT_INODE

0x000000200

FAULT_TRUNCATE

0x000000400

FAULT_READ_IO

0x000000800

FAULT_CHECKPOINT

0x000001000

FAULT_DISCARD

0x000002000

FAULT_WRITE_IO

0x000004000

FAULT_SLAB_ALLOC

0x000008000

FAULT_DQUOT_INIT

0x000010000

FAULT_LOCK_OP

0x000020000

FAULT_BLKADDR_VALIDITY

0x000040000

FAULT_BLKADDR_CONSISTENCE

0x000080000

FAULT_NO_SEGMENT

0x000100000

/sys/fs/f2fs/<disk>/feature_list/

Defined on file sysfs-fs-f2fs

Expand /sys/fs/f2fs/<disk>/features to meet sysfs rule. Supported on-disk features: encryption, block_zoned (aka blkzoned), extra_attr, project_quota (aka projquota), inode_checksum, flexible_inline_xattr, quota_ino, inode_crtime, lost_found, verity, sb_checksum, casefold, readonly, compression. Note that, pin_file is moved into /sys/fs/f2fs/features/.

/sys/fs/f2fs/<disk>/features

Defined on file sysfs-fs-f2fs

<deprecated: should use /sys/fs/f2fs/<disk>/feature_list/> Shows all enabled features in current device. Supported features: encryption, blkzoned, extra_attr, projquota, inode_checksum, flexible_inline_xattr, quota_ino, inode_crtime, lost_found, verity, sb_checksum, casefold, readonly, compression, pin_file.

/sys/fs/f2fs/<disk>/free_segments

Defined on file sysfs-fs-f2fs

Number of free segments in disk.

/sys/fs/f2fs/<disk>/gc_background_calls

Defined on file sysfs-fs-f2fs

Number of garbage collection operations triggered in background. Available when CONFIG_F2FS_STAT_FS=y.

/sys/fs/f2fs/<disk>/gc_boost_zoned_gc_percent

Defined on file sysfs-fs-f2fs

If the percentage of free sections over total sections is under this number, F2FS boosts garbage collection for zoned devices through the background GC thread. the default number is “25”.

/sys/fs/f2fs/<disk>/gc_foreground_calls

Defined on file sysfs-fs-f2fs

Number of garbage collection operations performed on demand. Available when CONFIG_F2FS_STAT_FS=y.

/sys/fs/f2fs/<disk>/gc_idle

Defined on file sysfs-fs-f2fs

Controls the victim selection policy for garbage collection. Setting gc_idle = 0(default) will disable this option. Setting:

gc_idle = 1

will select the Cost Benefit approach & setting

gc_idle = 2

will select the greedy approach & setting

gc_idle = 3

will select the age-threshold based approach.

/sys/fs/f2fs/<disk>/gc_idle_interval

Defined on file sysfs-fs-f2fs

Controls the idle timing for gc path. Set to 5 seconds by default.

/sys/fs/f2fs/<disk>/gc_max_sleep_time

Defined on file sysfs-fs-f2fs

Controls the maximum sleep time for gc_thread. Time is in milliseconds.

/sys/fs/f2fs/<disk>/gc_min_sleep_time

Defined on file sysfs-fs-f2fs

Controls the minimum sleep time for gc_thread. Time is in milliseconds.

/sys/fs/f2fs/<disk>/gc_mode

Defined on file sysfs-fs-f2fs

Show the current gc_mode as a string. This is a read-only entry.

/sys/fs/f2fs/<disk>/gc_no_gc_sleep_time

Defined on file sysfs-fs-f2fs

Controls the default sleep time for gc_thread. Time is in milliseconds.

/sys/fs/f2fs/<disk>/gc_no_zoned_gc_percent

Defined on file sysfs-fs-f2fs

If the percentage of free sections over total sections is above this number, F2FS do not garbage collection for zoned devices through the background GC thread. the default number is “60”.

/sys/fs/f2fs/<disk>/gc_pin_file_thresh

Defined on file sysfs-fs-f2fs

This indicates how many GC can be failed for the pinned file. If it exceeds this, F2FS doesn’t guarantee its pinning state. 2048 trials is set by default, and 65535 as maximum.

/sys/fs/f2fs/<disk>/gc_reclaimed_segments

Defined on file sysfs-fs-f2fs

Show how many segments have been reclaimed by GC during a specific GC mode (0: GC normal, 1: GC idle CB, 2: GC idle greedy, 3: GC idle AT, 4: GC urgent high, 5: GC urgent low 6: GC urgent mid) You can re-initialize this value to “0”.

/sys/fs/f2fs/<disk>/gc_remaining_trials

Defined on file sysfs-fs-f2fs

You can set the trial count limit for GC urgent and idle mode with this value. If GC thread gets to the limit, the mode will turn back to GC normal mode. By default, the value is zero, which means there is no limit like before.

/sys/fs/f2fs/<disk>/gc_segment_mode

Defined on file sysfs-fs-f2fs

You can control for which gc mode the “gc_reclaimed_segments” node shows. Refer to the description of the modes in “gc_reclaimed_segments”.

/sys/fs/f2fs/<disk>/gc_urgent

Defined on file sysfs-fs-f2fs

Do background GC aggressively when set. Set to 0 by default. gc urgent high(1): does GC forcibly in a period of given gc_urgent_sleep_time and ignores I/O idling check. uses greedy GC approach and turns SSR mode on. gc urgent low(2): lowers the bar of checking I/O idling in order to process outstanding discard commands and GC a little bit aggressively. uses cost benefit GC approach. gc urgent mid(3): does GC forcibly in a period of given gc_urgent_sleep_time and executes a mid level of I/O idling check. uses cost benefit GC approach.

/sys/fs/f2fs/<disk>/gc_urgent_sleep_time

Defined on file sysfs-fs-f2fs

Controls sleep time of GC urgent mode. Set to 500ms by default.

/sys/fs/f2fs/<disk>/gc_valid_thresh_ratio

Defined on file sysfs-fs-f2fs

It controls the valid block ratio threshold not to trigger excessive GC for zoned deivces. The initial value of it is 95(%). F2FS will stop the background GC thread from intiating GC for sections having valid blocks exceeding the ratio.

/sys/fs/f2fs/<disk>/hot_data_age_threshold

Defined on file sysfs-fs-f2fs

When DATA SEPARATION is on, it controls the age threshold to indicate the data blocks as hot. By default it was initialized as 262144 blocks (equals to 1GB).

/sys/fs/f2fs/<disk>/idle_interval

Defined on file sysfs-fs-f2fs

Controls the idle timing of system, if there is no FS operation during given interval. Set to 5 seconds by default.

/sys/fs/f2fs/<disk>/inject_rate

Defined on file sysfs-fs-f2fs

Controls the injection rate of arbitrary faults.

/sys/fs/f2fs/<disk>/inject_type

Defined on file sysfs-fs-f2fs

Controls the injection type of arbitrary faults.

/sys/fs/f2fs/<disk>/iostat_enable

Defined on file sysfs-fs-f2fs

Controls to enable/disable IO stat.

/sys/fs/f2fs/<disk>/iostat_period_ms

Defined on file sysfs-fs-f2fs

Give a way to change iostat_period time. 3secs by default. The new iostat trace gives stats gap given the period.

/sys/fs/f2fs/<disk>/ipu_policy

Defined on file sysfs-fs-f2fs

Controls the in-place-update policy. updates in f2fs. User can set:

value

policy

description

0x00

DISABLE

disable IPU(=default option in LFS mode)

0x01

FORCE

all the time

0x02

SSR

if SSR mode is activated

0x04

UTIL

if FS utilization is over threshold

0x08

SSR_UTIL

if SSR mode is activated and FS utilization is over threshold

0x10

FSYNC

activated in fsync path only for high performance flash storages. IPU will be triggered only if the # of dirty pages over min_fsync_blocks. (=default option)

0x20

ASYNC

do IPU given by asynchronous write requests

0x40

NOCACHE

disable IPU bio cache

0x80

HONOR_OPU_WRITE

use OPU write prior to IPU write if inode has FI_OPU_WRITE flag

Refer segment.h for details.

/sys/fs/f2fs/<disk>/last_age_weight

Defined on file sysfs-fs-f2fs

When DATA SEPARATION is on, it controls the weight of last data block age.

/sys/fs/f2fs/<disk>/lifetime_write_kbytes

Defined on file sysfs-fs-f2fs

Shows total written kbytes issued to disk.

/sys/fs/f2fs/<disk>/main_blkaddr

Defined on file sysfs-fs-f2fs

Shows first block address of MAIN area.

/sys/fs/f2fs/<disk>/max_discard_issue_time

Defined on file sysfs-fs-f2fs

Controls the interval the discard thread will wait when there are no discard operations to be issued.

/sys/fs/f2fs/<disk>/max_discard_request

Defined on file sysfs-fs-f2fs

Controls the number of discards a thread will issue at a time. Higher number will allow the discard thread to finish its work faster, at the cost of higher latency for incoming I/O.

/sys/fs/f2fs/<disk>/max_fragment_chunk

Defined on file sysfs-fs-f2fs

With “mode=fragment:block” mount options, we can scatter block allocation. f2fs will allocate 1..<max_fragment_chunk> blocks in a chunk and make a hole in the length of 1..<max_fragment_hole> by turns. This value can be set between 1..512 and the default value is 4.

/sys/fs/f2fs/<disk>/max_fragment_hole

Defined on file sysfs-fs-f2fs

With “mode=fragment:block” mount options, we can scatter block allocation. f2fs will allocate 1..<max_fragment_chunk> blocks in a chunk and make a hole in the length of 1..<max_fragment_hole> by turns. This value can be set between 1..512 and the default value is 4.

/sys/fs/f2fs/<disk>/max_io_bytes

Defined on file sysfs-fs-f2fs

This gives a control to limit the bio size in f2fs. Default is zero, which will follow underlying block layer limit, whereas, if it has a certain bytes value, f2fs won’t submit a bio larger than that size.

/sys/fs/f2fs/<disk>/max_ordered_discard

Defined on file sysfs-fs-f2fs

Controls the maximum ordered discard, the unit size is one block(4KB). Set it to 16 by default.

/sys/fs/f2fs/<disk>/max_roll_forward_node_blocks

Defined on file sysfs-fs-f2fs

Controls max # of node block writes to be used for roll forward recovery. This can limit the roll forward recovery time.

/sys/fs/f2fs/<disk>/max_small_discards

Defined on file sysfs-fs-f2fs

Controls the issue rate of discard commands that consist of small blocks less than 2MB. The candidates to be discarded are cached during checkpoint, and issued by issue_discard thread after checkpoint. It is enabled by default.

Defined on file sysfs-fs-f2fs

Controls the number of trials to find a victim segment when conducting SSR and cleaning operations. The default value is 4096 which covers 8GB block address range.

/sys/fs/f2fs/<disk>/mid_discard_issue_time

Defined on file sysfs-fs-f2fs

Controls the interval the discard thread will wait between issuing discard requests when there are discards to be issued and an I/O aware interruption occurs.

/sys/fs/f2fs/<disk>/migration_granularity

Defined on file sysfs-fs-f2fs

Controls migration granularity of garbage collection on large section, it can let GC move partial segment{s} of one section in one GC cycle, so that dispersing heavy overhead GC to multiple lightweight one.

/sys/fs/f2fs/<disk>/migration_window_granularity

Defined on file sysfs-fs-f2fs

Controls migration window granularity of garbage collection on large section. it can control the scanning window granularity for GC migration in a unit of segment, while migration_granularity controls the number of segments which can be migrated at the same turn.

/sys/fs/f2fs/<disk>/min_discard_issue_time

Defined on file sysfs-fs-f2fs

Controls the interval the discard thread will wait between issuing discard requests when there are discards to be issued and no I/O aware interruptions occur.

/sys/fs/f2fs/<disk>/min_fsync_blocks

Defined on file sysfs-fs-f2fs

Controls the dirty page count condition for the in-place-update policies.

/sys/fs/f2fs/<disk>/min_hot_blocks

Defined on file sysfs-fs-f2fs

Controls the dirty page count condition for redefining hot data.

/sys/fs/f2fs/<disk>/min_ipu_util

Defined on file sysfs-fs-f2fs

Controls the FS utilization condition for the in-place-update policies. It is used by F2FS_IPU_UTIL and F2FS_IPU_SSR_UTIL policies.

/sys/fs/f2fs/<disk>/min_seq_blocks

Defined on file sysfs-fs-f2fs

Controls the dirty page count condition for batched sequential writes in writepages.

/sys/fs/f2fs/<disk>/min_ssr_sections

Defined on file sysfs-fs-f2fs

Controls the free section threshold to trigger SSR allocation. If this is large, SSR mode will be enabled early.

/sys/fs/f2fs/<disk>/mounted_time_sec

Defined on file sysfs-fs-f2fs

Show the mounted time in secs of this partition.

/sys/fs/f2fs/<disk>/moved_blocks_background

Defined on file sysfs-fs-f2fs

Number of blocks moved by garbage collection in background. Available when CONFIG_F2FS_STAT_FS=y.

/sys/fs/f2fs/<disk>/moved_blocks_foreground

Defined on file sysfs-fs-f2fs

Number of blocks moved by garbage collection in foreground. Available when CONFIG_F2FS_STAT_FS=y.

/sys/fs/f2fs/<disk>/node_io_flag

Defined on file sysfs-fs-f2fs

Give a way to attach REQ_META|FUA to node writes given temperature-based bits. Now the bits indicate:

REQ_META

REQ_FUA

5

4

3

2

1

0

Cold

Warm

Hot

Cold

Warm

Hot

/sys/fs/f2fs/<disk>/ovp_segments

Defined on file sysfs-fs-f2fs

Shows the number of overprovision segments.

/sys/fs/f2fs/<disk>/peak_atomic_write

Defined on file sysfs-fs-f2fs

Show the peak value of total current atomic write block count after boot. If you write “0” here, you can initialize to “0”.

/sys/fs/f2fs/<disk>/pending_discard

Defined on file sysfs-fs-f2fs

Shows the number of pending discard commands in the queue.

/sys/fs/f2fs/<disk>/ra_nid_pages

Defined on file sysfs-fs-f2fs

Controls the count of nid pages to be readaheaded. When building free nids, F2FS reads NAT blocks ahead for speed up. Default is 0.

/sys/fs/f2fs/<disk>/ram_thresh

Defined on file sysfs-fs-f2fs

Controls the memory footprint used by free nids and cached nat entries. By default, 1 is set, which indicates 10 MB / 1 GB RAM.

/sys/fs/f2fs/<disk>/readdir_ra

Defined on file sysfs-fs-f2fs

Controls readahead inode block in readdir. Enabled by default.

/sys/fs/f2fs/<disk>/reclaim_segments

Defined on file sysfs-fs-f2fs

This parameter controls the number of prefree segments to be reclaimed. If the number of prefree segments is larger than the number of segments in the proportion to the percentage over total volume size, f2fs tries to conduct checkpoint to reclaim the prefree segments to free segments. By default, 5% over total # of segments.

/sys/fs/f2fs/<disk>/reserved_blocks

Defined on file sysfs-fs-f2fs

Controls target reserved blocks in system, the threshold is soft, it could exceed current available user space.

/sys/fs/f2fs/<disk>/reserved_segments

Defined on file sysfs-fs-f2fs

In order to fine tune GC behavior, we can control the number of reserved segments.

/sys/fs/f2fs/<disk>/revoked_atomic_block

Defined on file sysfs-fs-f2fs

Show the accumulated total revoked atomic write block count after boot. If you write “0” here, you can initialize to “0”.

/sys/fs/f2fs/<disk>/seq_file_ra_mul

Defined on file sysfs-fs-f2fs

You can control the multiplier value of bdi device readahead window size between 2 (default) and 256 for POSIX_FADV_SEQUENTIAL advise option.

/sys/fs/f2fs/<disk>/stat/cp_status

Defined on file sysfs-fs-f2fs

Show status of f2fs checkpoint in real time.

cp flag

value

CP_UMOUNT_FLAG

0x00000001

CP_ORPHAN_PRESENT_FLAG

0x00000002

CP_COMPACT_SUM_FLAG

0x00000004

CP_ERROR_FLAG

0x00000008

CP_FSCK_FLAG

0x00000010

CP_FASTBOOT_FLAG

0x00000020

CP_CRC_RECOVERY_FLAG

0x00000040

CP_NAT_BITS_FLAG

0x00000080

CP_TRIMMED_FLAG

0x00000100

CP_NOCRC_RECOVERY_FLAG

0x00000200

CP_LARGE_NAT_BITMAP_FLAG

0x00000400

CP_QUOTA_NEED_FSCK_FLAG

0x00000800

CP_DISABLED_FLAG

0x00001000

CP_DISABLED_QUICK_FLAG

0x00002000

CP_RESIZEFS_FLAG

0x00004000

/sys/fs/f2fs/<disk>/stat/issued_discard

Defined on file sysfs-fs-f2fs

Shows the number of issued discard.

/sys/fs/f2fs/<disk>/stat/queued_discard

Defined on file sysfs-fs-f2fs

Shows the number of queued discard.

/sys/fs/f2fs/<disk>/stat/sb_status

Defined on file sysfs-fs-f2fs

Show status of f2fs superblock in real time.

value

sb status macro

description

0x1

SBI_IS_DIRTY

dirty flag for checkpoint

0x2

SBI_IS_CLOSE

specify unmounting

0x4

SBI_NEED_FSCK

need fsck.f2fs to fix

0x8

SBI_POR_DOING

recovery is doing or not

0x10

SBI_NEED_SB_WRITE

need to recover superblock

0x20

SBI_NEED_CP

need to checkpoint

0x40

SBI_IS_SHUTDOWN

shutdown by ioctl

0x80

SBI_IS_RECOVERED

recovered orphan/data

0x100

SBI_CP_DISABLED

CP was disabled last mount

0x200

SBI_CP_DISABLED_QUICK

CP was disabled quickly

0x400

SBI_QUOTA_NEED_FLUSH

need to flush quota info in CP

0x800

SBI_QUOTA_SKIP_FLUSH

skip flushing quota in current CP

0x1000

SBI_QUOTA_NEED_REPAIR

quota file may be corrupted

0x2000

SBI_IS_RESIZEFS

resizefs is in process

0x4000

SBI_IS_FREEZING

freefs is in process

/sys/fs/f2fs/<disk>/stat/undiscard_blks

Defined on file sysfs-fs-f2fs

Shows the total number of undiscard blocks.

/sys/fs/f2fs/<disk>/umount_discard_timeout

Defined on file sysfs-fs-f2fs

Set timeout to issue discard commands during umount. Default: 5 secs

/sys/fs/f2fs/<disk>/unusable

Defined on file sysfs-fs-f2fs

If checkpoint=disable, it displays the number of blocks that are unusable. If checkpoint=enable it displays the number of blocks that would be unusable if checkpoint=disable were to be set.

/sys/fs/f2fs/<disk>/unusable_blocks_per_sec

Defined on file sysfs-fs-f2fs

Shows the number of unusable blocks in a section which was defined by the zone capacity reported by underlying zoned device.

/sys/fs/f2fs/<disk>/warm_data_age_threshold

Defined on file sysfs-fs-f2fs

When DATA SEPARATION is on, it controls the age threshold to indicate the data blocks as warm. By default it was initialized as 2621440 blocks (equals to 10GB).

/sys/fs/f2fs/features/

Defined on file sysfs-fs-f2fs

Shows all enabled kernel features. Supported features: encryption, block_zoned, extra_attr, project_quota, inode_checksum, flexible_inline_xattr, quota_ino, inode_crtime, lost_found, verity, sb_checksum, casefold, readonly, compression, test_dummy_encryption_v2, atomic_write, pin_file, encrypted_casefold.

/sys/fs/nilfs2/<device>/README

Defined on file sysfs-fs-nilfs2

Describe attributes of /sys/fs/nilfs2/<device> group.

/sys/fs/nilfs2/<device>/blocksize

Defined on file sysfs-fs-nilfs2

Show volume’s block size in bytes.

/sys/fs/nilfs2/<device>/checkpoints/README

Defined on file sysfs-fs-nilfs2

Describe attributes of /sys/fs/nilfs2/<device>/checkpoints group.

/sys/fs/nilfs2/<device>/checkpoints/checkpoints_number

Defined on file sysfs-fs-nilfs2

Show number of checkpoints on volume.

/sys/fs/nilfs2/<device>/checkpoints/last_seg_checkpoint

Defined on file sysfs-fs-nilfs2

Show checkpoint number of the latest segment.

/sys/fs/nilfs2/<device>/checkpoints/next_checkpoint

Defined on file sysfs-fs-nilfs2

Show next checkpoint number.

/sys/fs/nilfs2/<device>/checkpoints/snapshots_number

Defined on file sysfs-fs-nilfs2

Show number of snapshots on volume.

/sys/fs/nilfs2/<device>/device_size

Defined on file sysfs-fs-nilfs2

Show volume size in bytes.

/sys/fs/nilfs2/<device>/free_blocks

Defined on file sysfs-fs-nilfs2

Show count of free blocks on volume.

/sys/fs/nilfs2/<device>/mounted_snapshots/<id>/README

Defined on file sysfs-fs-nilfs2

Describe attributes of /sys/fs/nilfs2/<device>/mounted_snapshots/<id> group.

/sys/fs/nilfs2/<device>/mounted_snapshots/<id>/blocks_count

Defined on file sysfs-fs-nilfs2

Show number of blocks for snapshot.

/sys/fs/nilfs2/<device>/mounted_snapshots/<id>/inodes_count

Defined on file sysfs-fs-nilfs2

Show number of inodes for snapshot.

/sys/fs/nilfs2/<device>/mounted_snapshots/README

Defined on file sysfs-fs-nilfs2

Describe content of /sys/fs/nilfs2/<device>/mounted_snapshots group.

/sys/fs/nilfs2/<device>/revision

Defined on file sysfs-fs-nilfs2

Show NILFS file system revision on volume. This value informs about metadata structures’ revision on mounted volume.

/sys/fs/nilfs2/<device>/segctor/README

Defined on file sysfs-fs-nilfs2

Describe attributes of /sys/fs/nilfs2/<device>/segctor group.

/sys/fs/nilfs2/<device>/segctor/current_last_full_seg

Defined on file sysfs-fs-nilfs2

Show index number of the latest full segment.

/sys/fs/nilfs2/<device>/segctor/current_seg_sequence

Defined on file sysfs-fs-nilfs2

Show segment sequence counter.

/sys/fs/nilfs2/<device>/segctor/dirty_data_blocks_count

Defined on file sysfs-fs-nilfs2

Show number of dirty data blocks.

/sys/fs/nilfs2/<device>/segctor/last_nongc_write_time

Defined on file sysfs-fs-nilfs2

Show write time of the last segment not for cleaner operation in human-readable format.

/sys/fs/nilfs2/<device>/segctor/last_nongc_write_time_secs

Defined on file sysfs-fs-nilfs2

Show write time of the last segment not for cleaner operation in seconds.

/sys/fs/nilfs2/<device>/segctor/last_pseg_block

Defined on file sysfs-fs-nilfs2

Show start block number of the latest segment.

/sys/fs/nilfs2/<device>/segctor/last_seg_checkpoint

Defined on file sysfs-fs-nilfs2

Show checkpoint number of the latest segment.

/sys/fs/nilfs2/<device>/segctor/last_seg_sequence

Defined on file sysfs-fs-nilfs2

Show sequence value of the latest segment.

/sys/fs/nilfs2/<device>/segctor/last_seg_write_time

Defined on file sysfs-fs-nilfs2

Show write time of the last segment in human-readable format.

/sys/fs/nilfs2/<device>/segctor/last_seg_write_time_secs

Defined on file sysfs-fs-nilfs2

Show write time of the last segment in seconds.

/sys/fs/nilfs2/<device>/segctor/next_checkpoint

Defined on file sysfs-fs-nilfs2

Show next checkpoint number.

/sys/fs/nilfs2/<device>/segctor/next_full_seg

Defined on file sysfs-fs-nilfs2

Show index number of the full segment index to be used next.

/sys/fs/nilfs2/<device>/segctor/next_pseg_offset

Defined on file sysfs-fs-nilfs2

Show offset of next partial segment in the current full segment.

/sys/fs/nilfs2/<device>/segments/README

Defined on file sysfs-fs-nilfs2

Describe attributes of /sys/fs/nilfs2/<device>/segments group.

/sys/fs/nilfs2/<device>/segments/blocks_per_segment

Defined on file sysfs-fs-nilfs2

Show number of blocks in segment.

/sys/fs/nilfs2/<device>/segments/clean_segments

Defined on file sysfs-fs-nilfs2

Show count of clean segments.

/sys/fs/nilfs2/<device>/segments/dirty_segments

Defined on file sysfs-fs-nilfs2

Show count of dirty segments.

/sys/fs/nilfs2/<device>/segments/segments_number

Defined on file sysfs-fs-nilfs2

Show number of segments on a volume.

/sys/fs/nilfs2/<device>/superblock/README

Defined on file sysfs-fs-nilfs2

Describe attributes of /sys/fs/nilfs2/<device>/superblock group.

/sys/fs/nilfs2/<device>/superblock/sb_update_frequency

Defined on file sysfs-fs-nilfs2

Show/Set interval of periodical update of superblock (in seconds).

/sys/fs/nilfs2/<device>/superblock/sb_write_count

Defined on file sysfs-fs-nilfs2

Show current write count of super block.

/sys/fs/nilfs2/<device>/superblock/sb_write_time

Defined on file sysfs-fs-nilfs2

Show last write time of super block in human-readable format.

/sys/fs/nilfs2/<device>/superblock/sb_write_time_secs

Defined on file sysfs-fs-nilfs2

Show last write time of super block in seconds.

/sys/fs/nilfs2/<device>/uuid

Defined on file sysfs-fs-nilfs2

Show volume’s UUID (Universally Unique Identifier).

/sys/fs/nilfs2/<device>/volume_name

Defined on file sysfs-fs-nilfs2

Show volume’s label.

/sys/fs/nilfs2/features/README

Defined on file sysfs-fs-nilfs2

Describe attributes of /sys/fs/nilfs2/features group.

/sys/fs/nilfs2/features/revision

Defined on file sysfs-fs-nilfs2

Show current revision of NILFS file system driver. This value informs about file system revision that driver is ready to support.

/sys/fs/ocfs2/

Defined on file sysfs-ocfs2

The /sys/fs/ocfs2 directory contains knobs used by the ocfs2-tools to interact with the filesystem.

/sys/fs/ocfs2/active_cluster_plugin

Defined on file sysfs-ocfs2

The /sys/fs/ocfs2/active_cluster_plugin displays which cluster plugin is currently in use by the filesystem. The active plugin will appear in the loaded_cluster_plugins file as well. Only one plugin can be used at a time.

Reading from this file returns the name of the active plugin on a single line.

This file is read-only. Which plugin is active depends on the cluster stack in use. The contents may change when all filesystems are unmounted and the cluster stack is changed.

/sys/fs/ocfs2/cluster_stack

Defined on file sysfs-ocfs2

The /sys/fs/ocfs2/cluster_stack file contains the name of current ocfs2 cluster stack. This value is set by userspace tools when bringing the cluster stack online.

Cluster stack names are 4 characters in length.

When the ‘o2cb’ cluster stack is used, the ‘o2cb’ cluster plugin is active. All other cluster stacks use the ‘user’ cluster plugin.

Reading from this file returns the name of the current cluster stack on a single line.

Writing a new stack name to this file changes the current cluster stack unless there are mounted ocfs2 filesystems. If there are mounted filesystems, attempts to change the stack return an error.

Users:

ocfs2-tools <ocfs2-tools-devel@lists.linux.dev>

/sys/fs/ocfs2/loaded_cluster_plugins

Defined on file sysfs-ocfs2

The /sys/fs/ocfs2/loaded_cluster_plugins file describes the available plugins to support ocfs2 cluster operation. A cluster plugin is required to use ocfs2 in a cluster. There are currently two available plugins:

  • ‘o2cb’ - The classic o2cb cluster stack that ocfs2 has

    used since its inception.

  • ‘user’ - A plugin supporting userspace cluster software

    in conjunction with fs/dlm.

Reading from this file returns the names of all loaded plugins, one per line.

This file is read-only. Its contents may change as plugins are loaded or removed.

/sys/fs/ocfs2/max_locking_protocol

Defined on file sysfs-ocfs2

The /sys/fs/ocfs2/max_locking_protocol file displays version of ocfs2 locking supported by the filesystem. This version covers how ocfs2 uses distributed locking between cluster nodes.

The protocol version has a major and minor number. Two cluster nodes can interoperate if they have an identical major number and an overlapping minor number - thus, a node with version 1.10 can interoperate with a node sporting version 1.8, as long as both use the 1.8 protocol.

Reading from this file returns a single line, the major number and minor number joined by a period, eg “1.10”.

This file is read-only. The value is compiled into the driver.

/sys/fs/pstore/..

/dev/pstore/..

Defined on file pstore

Generic interface to platform dependent persistent storage.

Platforms that provide a mechanism to preserve some data across system reboots can register with this driver to provide a generic interface to show records captured in the dying moments. In the case of a panic the last part of the console log is captured, but other interesting data can also be saved:

# mount -t pstore -o kmsg_bytes=8000 - /sys/fs/pstore

$ ls -l /sys/fs/pstore/
total 0
-r--r--r-- 1 root root 7896 Nov 30 15:38 dmesg-erst-1

Different users of this interface will result in different filename prefixes. Currently two are defined:

  • “dmesg” - saved console log

  • “mce” - architecture dependent data from fatal h/w error

Once the information in a file has been read, removing the file will signal to the underlying persistent storage device that it can reclaim the space for later re-use:

$ rm /sys/fs/pstore/dmesg-erst-1

The expectation is that all files in /sys/fs/pstore/ will be saved elsewhere and erased from persistent store soon after boot to free up space ready for the next catastrophe.

The ‘kmsg_bytes’ mount option changes the target amount of data saved on each oops/panic. Pstore saves (possibly multiple) files based on the record size of the underlying persistent storage until at least this amount is reached. Default is 10 Kbytes.

Pstore only supports one backend at a time. If multiple backends are available, the preferred backend may be set by passing the pstore.backend= argument to the kernel at boot time.

/sys/fs/ubifsX_Y/error_crc

Defined on file sysfs-fs-ubifs

Exposes crc errors: every node embeds a crc checksum.

This counter keeps track of the number of accesses of nodes with a bad crc checksum.

The counter is reset to 0 with a remount.

/sys/fs/ubifsX_Y/error_magic

Defined on file sysfs-fs-ubifs

Exposes magic errors: every node starts with a magic number.

This counter keeps track of the number of accesses of nodes with a corrupted magic number.

The counter is reset to 0 with a remount.

/sys/fs/ubifsX_Y/error_node

Defined on file sysfs-fs-ubifs

Exposes node errors. Every node embeds its type.

This counter keeps track of the number of accesses of nodes with a corrupted node type.

The counter is reset to 0 with a remount.

/sys/fs/virtiofs/<n>/device

Defined on file sysfs-fs-virtiofs

Symlink to the virtio device that exports this filesystem.

/sys/fs/virtiofs/<n>/tag

Defined on file sysfs-fs-virtiofs

[RO] The mount “tag” that can be used to mount this filesystem.

/sys/fs/xfs/<disk>/log/log_head_lsn

Defined on file sysfs-fs-xfs

The log sequence number (LSN) of the current head of the log. The LSN is exported in “cycle:basic block” format.

Users: xfstests

/sys/fs/xfs/<disk>/log/log_tail_lsn

Defined on file sysfs-fs-xfs

The log sequence number (LSN) of the current tail of the log. The LSN is exported in “cycle:basic block” format.

/sys/fs/xfs/<disk>/log/reserve_grant_head_bytes

Defined on file sysfs-fs-xfs

The current state of the log reserve grant head. It represents the total log reservation of all currently outstanding transactions in bytes.

Users: xfstests

/sys/fs/xfs/<disk>/log/write_grant_head_bytes

Defined on file sysfs-fs-xfs

The current state of the log write grant head. It represents the total log reservation of all currently outstanding transactions, including regrants due to rolling transactions in bytes.

Users: xfstests

Symbols under /sys/hypervisor

/sys/hypervisor/guest_type

Defined on file sysfs-hypervisor-xen

If running under Xen: Type of guest: “Xen”: standard guest type on arm “HVM”: fully virtualized guest (x86) “PV”: paravirtualized guest (x86) “PVH”: fully virtualized guest without legacy emulation (x86)

/sys/hypervisor/pmu/pmu_features

Defined on file sysfs-hypervisor-xen

If running under Xen: Describes Xen PMU features (as an integer). A set bit indicates that the corresponding feature is enabled. See include/xen/interface/xenpmu.h for available features

/sys/hypervisor/pmu/pmu_mode

Defined on file sysfs-hypervisor-xen

If running under Xen: Describes mode that Xen’s performance-monitoring unit (PMU) uses. Accepted values are:

“off”

PMU is disabled

“self”

The guest can profile itself

“hv”

The guest can profile itself and, if it is privileged (e.g. dom0), the hypervisor

“all”

The guest can profile itself, the hypervisor and all other guests. Only available to privileged guests.

/sys/hypervisor/properties/buildid

Defined on file sysfs-hypervisor-xen

If running under Xen: Build id of the hypervisor, needed for hypervisor live patching. Might return “<denied>” in case of special security settings in the hypervisor.

Symbols under /sys/kernel

/sys/kernel/address_bit

Defined on file sysfs-kernel-address_bits

The address size of the running kernel in bits.

Access: Read

Users: util-linux

/sys/kernel/boot_params

Defined on file sysfs-kernel-boot_params

The /sys/kernel/boot_params directory contains two files: “data” and “version” and one subdirectory “setup_data”. It is used to export the kernel boot parameters of an x86 platform to userspace for kexec and debugging purpose.

If there’s no setup_data in boot_params the subdirectory will not be created.

“data” file is the binary representation of struct boot_params.

“version” file is the string representation of boot protocol version.

“setup_data” subdirectory contains the setup_data data structure in boot_params. setup_data is maintained in kernel as a link list. In “setup_data” subdirectory there’s one subdirectory for each link list node named with the number of the list nodes. The list node subdirectory contains two files “type” and “data”. “type” file is the string representation of setup_data type. “data” file is the binary representation of setup_data payload.

The whole boot_params directory structure is like below:

/sys/kernel/boot_params
|__ data
|__ setup_data
|   |__ 0
|   |   |__ data
|   |   |__ type
|   |__ 1
|       |__ data
|       |__ type
|__ version

Users: Kexec

/sys/kernel/btf

Defined on file sysfs-kernel-btf

Contains BTF type information and related data for kernel and kernel modules.

/sys/kernel/btf/<module-name>

Defined on file sysfs-kernel-btf

Read-only binary attribute exposing kernel module’s BTF type information as an add-on to the kernel’s BTF (/sys/kernel/btf/vmlinux).

/sys/kernel/btf/vmlinux

Defined on file sysfs-kernel-btf

Read-only binary attribute exposing kernel’s own BTF type information with description of all internal kernel types. See BPF Type Format (BTF) for detailed description of format itself.

/sys/kernel/config/most_<component>

Defined on file configfs-most

Interface is used to configure and connect device channels to component drivers.

Attributes are visible only when configfs is mounted. To mount configfs in /sys/kernel/config directory use: # mount -t configfs none /sys/kernel/config/

Defined on file configfs-most

The attributes:

buffer_size

configure the buffer size for this channel

subbuffer_size

configure the sub-buffer size for this channel (needed for synchronous and isochronous data)

num_buffers

configure number of buffers used for this channel

datatype

configure type of data that will travel over this channel

direction

configure whether this link will be an input or output

dbr_size

configure DBR data buffer size (this is used for MediaLB communication only)

packets_per_xact

configure the number of packets that will be collected from the network before being transmitted via USB (this is used for USB communication only)

device

name of the device the link is to be attached to

channel

name of the channel the link is to be attached to

comp_params

pass parameters needed by some components

create_link

write ‘1’ to this attribute to trigger the creation of the link. In case of speculative configuration, the creation is post-poned until a physical device is being attached to the bus.

destroy_link

write ‘1’ to this attribute to destroy an active link

Defined on file configfs-most

The attributes:

buffer_size

configure the buffer size for this channel

subbuffer_size

configure the sub-buffer size for this channel (needed for synchronous and isochronous data)

num_buffers

configure number of buffers used for this channel

datatype

configure type of data that will travel over this channel

direction

configure whether this link will be an input or output

dbr_size

configure DBR data buffer size (this is used for MediaLB communication only)

packets_per_xact

configure the number of packets that will be collected from the network before being transmitted via USB (this is used for USB communication only)

device

name of the device the link is to be attached to

channel

name of the channel the link is to be attached to

comp_params

pass parameters needed by some components

create_link

write ‘1’ to this attribute to trigger the creation of the link. In case of speculative configuration, the creation is post-poned until a physical device is being attached to the bus.

destroy_link

write ‘1’ to this attribute to destroy an active link

/sys/kernel/config/most_sound/<card>

Defined on file configfs-most

The attributes:

create_card

write ‘1’ to this attribute to trigger the registration of the sound card with the ALSA subsystem.

Defined on file configfs-most

The attributes:

buffer_size

configure the buffer size for this channel

subbuffer_size

configure the sub-buffer size for this channel (needed for synchronous and isochronous data)

num_buffers

configure number of buffers used for this channel

datatype

configure type of data that will travel over this channel

direction

configure whether this link will be an input or output

dbr_size

configure DBR data buffer size (this is used for MediaLB communication only)

packets_per_xact

configure the number of packets that will be collected from the network before being transmitted via USB (this is used for USB communication only)

device

name of the device the link is to be attached to

channel

name of the channel the link is to be attached to

comp_params

pass parameters needed by some components

create_link

write ‘1’ to this attribute to trigger the creation of the link. In case of speculative configuration, the creation is post-poned until a physical device is being attached to the bus.

destroy_link

write ‘1’ to this attribute to destroy an active link

Defined on file configfs-most

The attributes:

buffer_size

configure the buffer size for this channel

subbuffer_size

configure the sub-buffer size for this channel (needed for synchronous and isochronous data)

num_buffers

configure number of buffers used for this channel

datatype

configure type of data that will travel over this channel

direction

configure whether this link will be an input or output

dbr_size

configure DBR data buffer size (this is used for MediaLB communication only)

packets_per_xact

configure the number of packets that will be collected from the network before being transmitted via USB (this is used for USB communication only)

device

name of the device the link is to be attached to

channel

name of the channel the link is to be attached to

comp_params

pass parameters needed by some components

create_link

write ‘1’ to this attribute to trigger the creation of the link. In case of speculative configuration, the creation is post-poned until a physical device is being attached to the bus.

destroy_link

write ‘1’ to this attribute to destroy an active link

/sys/kernel/config/tsm/report/$name/auxblob

Defined on file configfs-tsm

(RO) Optional supplemental data that a TSM may emit, visibility of this attribute depends on TSM, and may be empty if no auxiliary data is available.

When @provider is “sev_guest” this file contains the “cert_table” from SEV-ES Guest-Hypervisor Communication Block Standardization v2.03 Section 4.1.8.1 MSG_REPORT_REQ. https://www.amd.com/content/dam/amd/en/documents/epyc-technical-docs/specifications/56421.pdf

/sys/kernel/config/tsm/report/$name/generation

Defined on file configfs-tsm

(RO) The value in this attribute increments each time @inblob or any option is written. Userspace can detect conflicts by checking generation before writing to any attribute and making sure the number of writes matches expectations after reading @outblob, or it can prevent conflicts by creating a report instance per requesting context.

/sys/kernel/config/tsm/report/$name/inblob

Defined on file configfs-tsm

(WO) Up to 64 bytes of user specified binary data. For replay protection this should include a nonce, but the kernel does not place any restrictions on the content.

/sys/kernel/config/tsm/report/$name/manifestblob

Defined on file configfs-tsm

(RO) Optional supplemental data that a TSM may emit, visibility of this attribute depends on TSM, and may be empty if no manifest data is available.

See ‘service_provider’ for information on the format of the manifest blob.

/sys/kernel/config/tsm/report/$name/outblob

Defined on file configfs-tsm

(RO) Binary attestation report generated from @inblob and other options The format of the report is implementation specific where the implementation is conveyed via the @provider attribute.

/sys/kernel/config/tsm/report/$name/privlevel

Defined on file configfs-tsm

(WO) Attribute is visible if a TSM implementation provider supports the concept of attestation reports for TVMs running at different privilege levels, like SEV-SNP “VMPL”, specify the privilege level via this attribute. The minimum acceptable value is conveyed via @privlevel_floor and the maximum acceptable value is TSM_PRIVLEVEL_MAX (3).

/sys/kernel/config/tsm/report/$name/privlevel_floor

Defined on file configfs-tsm

(RO) Indicates the minimum permissible value that can be written to @privlevel.

/sys/kernel/config/tsm/report/$name/provider

Defined on file configfs-tsm

(RO) A name for the format-specification of @outblob like “sev_guest” [1] or “tdx_guest” [2] in the near term, or a common standard format in the future.

[1]: SEV Secure Nested Paging Firmware ABI Specification Revision 1.55 Table 22 https://www.amd.com/content/dam/amd/en/documents/epyc-technical-docs/specifications/56860.pdf

[2]: Intel® Trust Domain Extensions Data Center Attestation Primitives : Quote Generation Library and Quote Verification Library Revision 0.8 Appendix 4,5 https://download.01.org/intel-sgx/latest/dcap-latest/linux/docs/Intel_TDX_DCAP_Quoting_Library_API.pdf

/sys/kernel/config/tsm/report/$name/service_guid

Defined on file configfs-tsm

(WO) Attribute is visible if a TSM implementation provider supports the concept of attestation reports from a service provider for TVMs, like SEV-SNP running under an SVSM. Specifying an empty/null GUID (00000000-0000-0000-0000-000000) requests all active services within the service provider be part of the attestation report. Specifying a GUID request an attestation report of just the specified service using the manifest form specified by the service_manifest_version attribute.

See ‘service_provider’ for information on the format of the service guid.

/sys/kernel/config/tsm/report/$name/service_manifest_version

Defined on file configfs-tsm

(WO) Attribute is visible if a TSM implementation provider supports the concept of attestation reports from a service provider for TVMs, like SEV-SNP running under an SVSM. Indicates the service manifest version requested for the attestation report (default 0). If this field is not set by the user, the default manifest version of the service (the service’s initial/first manifest version) is returned.

See ‘service_provider’ for information on the format of the service manifest version.

/sys/kernel/config/tsm/report/$name/service_provider

Defined on file configfs-tsm

(WO) Attribute is visible if a TSM implementation provider supports the concept of attestation reports from a service provider for TVMs, like SEV-SNP running under an SVSM. Specifying the service provider via this attribute will create an attestation report as specified by the service provider. The only currently supported service provider is “svsm”.

For the “svsm” service provider, see the Secure VM Service Module for SEV-SNP Guests v1.00 Section 7. For the doc, search for “site:amd.com “Secure VM Service Module for SEV-SNP Guests”, docID: 58019”

/sys/kernel/cpu_byteorder

Defined on file sysfs-kernel-cpu_byteorder

The endianness of the running kernel.

Access: Read

Valid values:

“little”, “big”

Users: util-linux

/sys/kernel/debug/<cros-ec-device>/console_log

Defined on file debugfs-cros-ec

If the EC supports the CONSOLE_READ command type, this file can be used to grab the EC logs. The kernel polls for the log and keeps its own buffer but userspace should grab this and write it out to some logs.

/sys/kernel/debug/<cros-ec-device>/last_resume_result

Defined on file debugfs-cros-ec

Some ECs have a feature where they will track transitions to the (Intel) processor’s SLP_S0 line, in order to detect cases where a system failed to go into S0ix. When the system resumes, an EC with this feature will return a summary of SLP_S0 transitions that occurred. The last_resume_result file returns the most recent response from the AP’s resume message to the EC.

The bottom 31 bits contain a count of the number of SLP_S0 transitions that occurred since the suspend message was received. Bit 31 is set if the EC attempted to wake the system due to a timeout when watching for SLP_S0 transitions. Callers can use this to detect a wake from the EC due to S0ix timeouts. The result will be zero if no suspend transitions have been attempted, or the EC does not support this feature.

Output will be in the format: “0x%08xn”.

/sys/kernel/debug/<cros-ec-device>/panicinfo

Defined on file debugfs-cros-ec

This file dumps the EC panic information from the previous reboot. This file will only exist if the PANIC_INFO command type is supported by the EC.

/sys/kernel/debug/<cros-ec-device>/pdinfo

Defined on file debugfs-cros-ec

This file provides the port role, muxes and power debug information for all the USB PD/type-C ports available. If the are no ports available, this file will be just an empty file.

/sys/kernel/debug/<cros-ec-device>/suspend_timeout_ms

Defined on file debugfs-cros-ec

Some ECs have a feature where they will track transitions of a hardware-controlled sleep line, such as Intel’s SLP_S0 line, in order to detect cases where a system failed to go into deep sleep states. The suspend_timeout_ms file controls the amount of time in milliseconds the EC will wait before declaring a sleep timeout event and attempting to wake the system.

Supply 0 to use the default value coded into EC firmware. Supply 65535 (EC_HOST_SLEEP_TIMEOUT_INFINITE) to disable the EC sleep failure detection mechanism. Values in between 0 and 65535 indicate the number of milliseconds the EC should wait after a sleep transition before declaring a timeout. This includes both the duration after a sleep command was received but before the hardware line changed, as well as the duration between when the hardware line changed and the kernel sent an EC resume command.

Output will be in the format: “%un”.

/sys/kernel/debug/<cros-ec-device>/uptime

Defined on file debugfs-cros-ec

A u32 providing the time since EC booted in ms. This is is used for synchronizing the AP host time with the EC log. An error is returned if the command is not supported by the EC or there is a communication problem.

/sys/kernel/debug/accel/<parent_device>/addr

Defined on file debugfs-driver-habanalabs

Sets the device address to be used for read or write through PCI bar, or the device VA of a host mapped memory to be read or written directly from the host. The latter option is allowed only when the IOMMU is disabled. The acceptable value is a string that starts with “0x”

/sys/kernel/debug/accel/<parent_device>/clk_gate

Defined on file debugfs-driver-habanalabs

This setting is now deprecated as clock gating is handled solely by the f/w

/sys/kernel/debug/accel/<parent_device>/command_buffers

Defined on file debugfs-driver-habanalabs

Displays a list with information about the currently allocated command buffers

/sys/kernel/debug/accel/<parent_device>/command_submission

Defined on file debugfs-driver-habanalabs

Displays a list with information about the currently active command submissions

/sys/kernel/debug/accel/<parent_device>/command_submission_jobs

Defined on file debugfs-driver-habanalabs

Displays a list with detailed information about each JOB (CB) of each active command submission

/sys/kernel/debug/accel/<parent_device>/data32

Defined on file debugfs-driver-habanalabs

Allows the root user to read or write directly through the device’s PCI bar. Writing to this file generates a write transaction while reading from the file generates a read transaction. This custom interface is needed (instead of using the generic Linux user-space PCI mapping) because the DDR bar is very small compared to the DDR memory and only the driver can move the bar before and after the transaction.

If the IOMMU is disabled, it also allows the root user to read or write from the host a device VA of a host mapped memory

/sys/kernel/debug/accel/<parent_device>/data64

Defined on file debugfs-driver-habanalabs

Allows the root user to read or write 64 bit data directly through the device’s PCI bar. Writing to this file generates a write transaction while reading from the file generates a read transaction. This custom interface is needed (instead of using the generic Linux user-space PCI mapping) because the DDR bar is very small compared to the DDR memory and only the driver can move the bar before and after the transaction.

If the IOMMU is disabled, it also allows the root user to read or write from the host a device VA of a host mapped memory

/sys/kernel/debug/accel/<parent_device>/data_dma

Defined on file debugfs-driver-habanalabs

Allows the root user to read from the device’s internal memory (DRAM/SRAM) through a DMA engine. This property is a binary blob that contains the result of the DMA transfer. This custom interface is needed (instead of using the generic Linux user-space PCI mapping) because the amount of internal memory is huge (>32GB) and reading it via the PCI bar will take a very long time. This interface doesn’t support concurrency in the same device. In GAUDI and GOYA, this action can cause undefined behavior in case it is done while the device is executing user workloads. Only supported on GAUDI at this stage.

/sys/kernel/debug/accel/<parent_device>/device

Defined on file debugfs-driver-habanalabs

Enables the root user to set the device to specific state. Valid values are “disable”, “enable”, “suspend”, “resume”. User can read this property to see the valid values

/sys/kernel/debug/accel/<parent_device>/device_release_watchdog_timeout

Defined on file debugfs-driver-habanalabs

The watchdog timeout value in seconds for a device release upon certain error cases, after which the device is reset.

/sys/kernel/debug/accel/<parent_device>/dma_size

Defined on file debugfs-driver-habanalabs

Specify the size of the DMA transaction when using DMA to read from the device’s internal memory. The value can not be larger than 128MB. Writing to this value initiates the DMA transfer. When the write is finished, the user can read the “data_dma” blob

/sys/kernel/debug/accel/<parent_device>/dump_razwi_events

Defined on file debugfs-driver-habanalabs

Dumps all razwi events to dmesg if exist. After reading the status register of an existing event the routine will clear the status register. Usage: cat dump_razwi_events

/sys/kernel/debug/accel/<parent_device>/dump_security_violations

Defined on file debugfs-driver-habanalabs

Dumps all security violations to dmesg. This will also ack all security violations meanings those violations will not be dumped next time user calls this API

/sys/kernel/debug/accel/<parent_device>/engines

Defined on file debugfs-driver-habanalabs

Displays the status registers values of the device engines and their derived idle status

/sys/kernel/debug/accel/<parent_device>/i2c_addr

Defined on file debugfs-driver-habanalabs

Sets I2C device address for I2C transaction that is generated by the device’s CPU, Not available when device is loaded with secured firmware

/sys/kernel/debug/accel/<parent_device>/i2c_bus

Defined on file debugfs-driver-habanalabs

Sets I2C bus address for I2C transaction that is generated by the device’s CPU, Not available when device is loaded with secured firmware

/sys/kernel/debug/accel/<parent_device>/i2c_data

Defined on file debugfs-driver-habanalabs

Triggers an I2C transaction that is generated by the device’s CPU. Writing to this file generates a write transaction while reading from the file generates a read transaction, Not available when device is loaded with secured firmware

/sys/kernel/debug/accel/<parent_device>/i2c_len

Defined on file debugfs-driver-habanalabs

Sets I2C length in bytes for I2C transaction that is generated by the device’s CPU, Not available when device is loaded with secured firmware

/sys/kernel/debug/accel/<parent_device>/i2c_reg

Defined on file debugfs-driver-habanalabs

Sets I2C register id for I2C transaction that is generated by the device’s CPU, Not available when device is loaded with secured firmware

/sys/kernel/debug/accel/<parent_device>/led0

Defined on file debugfs-driver-habanalabs

Sets the state of the first S/W led on the device, Not available when device is loaded with secured firmware

/sys/kernel/debug/accel/<parent_device>/led1

Defined on file debugfs-driver-habanalabs

Sets the state of the second S/W led on the device, Not available when device is loaded with secured firmware

/sys/kernel/debug/accel/<parent_device>/led2

Defined on file debugfs-driver-habanalabs

Sets the state of the third S/W led on the device, Not available when device is loaded with secured firmware

/sys/kernel/debug/accel/<parent_device>/memory_scrub

Defined on file debugfs-driver-habanalabs

Allows the root user to scrub the dram memory. The scrubbing value can be set using the debugfs file memory_scrub_val.

/sys/kernel/debug/accel/<parent_device>/memory_scrub_val

Defined on file debugfs-driver-habanalabs

The value to which the dram will be set to when the user scrubs the dram using ‘memory_scrub’ debugfs file and the scrubbing value when using module param ‘memory_scrub’

/sys/kernel/debug/accel/<parent_device>/mmu

Defined on file debugfs-driver-habanalabs

Displays the hop values and physical address for a given ASID and virtual address. The user should write the ASID and VA into the file and then read the file to get the result. e.g. to display info about VA 0x1000 for ASID 1 you need to do: echo “1 0x1000” > /sys/kernel/debug/accel/<parent_device>/mmu

/sys/kernel/debug/accel/<parent_device>/mmu_error

Defined on file debugfs-driver-habanalabs

Check and display page fault or access violation mmu errors for all MMUs specified in mmu_cap_mask. e.g. to display error info for MMU hw cap bit 9, you need to do: echo “0x200” > /sys/kernel/debug/accel/<parent_device>/mmu_error cat /sys/kernel/debug/accel/<parent_device>/mmu_error

/sys/kernel/debug/accel/<parent_device>/monitor_dump

Defined on file debugfs-driver-habanalabs

Allows the root user to dump monitors status from the device’s protected config space. This property is a binary blob that contains the result of the monitors registers dump. This custom interface is needed (instead of using the generic Linux user-space PCI mapping) because this space is protected and cannot be accessed using PCI read. This interface doesn’t support concurrency in the same device. Only supported on GAUDI.

/sys/kernel/debug/accel/<parent_device>/monitor_dump_trig

Defined on file debugfs-driver-habanalabs

Triggers dump of monitor data. The value to trigger the operation must be 1. Triggering the monitor dump operation initiates dump of current registers values of all monitors. When the write is finished, the user can read the “monitor_dump” blob

/sys/kernel/debug/accel/<parent_device>/server_type

Defined on file debugfs-driver-habanalabs

Exposes the device’s server type, maps to enum hl_server_type.

/sys/kernel/debug/accel/<parent_device>/set_power_state

Defined on file debugfs-driver-habanalabs

Sets the PCI power state. Valid values are “1” for D0 and “2” for D3Hot

/sys/kernel/debug/accel/<parent_device>/skip_reset_on_timeout

Defined on file debugfs-driver-habanalabs

Sets the skip reset on timeout option for the device. Value of “0” means device will be reset in case some CS has timed out, otherwise it will not be reset.

/sys/kernel/debug/accel/<parent_device>/state_dump

Defined on file debugfs-driver-habanalabs

Gets the state dump occurring on a CS timeout or failure. State dump is used for debug and is created each time in case of a problem in a CS execution, before reset. Reading from the node returns the newest state dump available. Writing an integer X discards X state dumps, so that the next read would return X+1-st newest state dump.

/sys/kernel/debug/accel/<parent_device>/stop_on_err

Defined on file debugfs-driver-habanalabs

Sets the stop-on_error option for the device engines. Value of “0” is for disable, otherwise enable. Relevant only for GOYA and GAUDI.

/sys/kernel/debug/accel/<parent_device>/timeout_locked

Defined on file debugfs-driver-habanalabs

Sets the command submission timeout value in seconds.

/sys/kernel/debug/accel/<parent_device>/userptr

Defined on file debugfs-driver-habanalabs

Displays a list with information about the current user pointers (user virtual addresses) that are pinned and mapped to DMA addresses

/sys/kernel/debug/accel/<parent_device>/userptr_lookup

Defined on file debugfs-driver-habanalabs

Allows to search for specific user pointers (user virtual addresses) that are pinned and mapped to DMA addresses, and see their resolution to the specific dma address.

/sys/kernel/debug/accel/<parent_device>/vm

Defined on file debugfs-driver-habanalabs

Displays a list with information about all the active virtual address mappings per ASID and all user mappings of HW blocks

/sys/kernel/debug/cec/*/error-inj

Defined on file debugfs-cec-error-inj

The CEC Framework allows for CEC error injection commands through debugfs. Drivers that support this will create an error-inj file through which the error injection commands can be given.

The basic syntax is as follows:

Leading spaces/tabs are ignored. If the next character is a ‘#’ or the end of the line was reached, then the whole line is ignored. Otherwise a command is expected.

It is up to the driver to decide what commands to implement. The only exception is that the command ‘clear’ without any arguments must be implemented and that it will remove all current error injection commands.

This ensures that you can always do ‘echo clear >error-inj’ to clear any error injections without having to know the details of the driver-specific commands.

Note that the output of ‘error-inj’ shall be valid as input to ‘error-inj’. So this must work:

$ cat error-inj >einj.txt
$ cat einj.txt >error-inj

Other than these basic rules described above this ABI is not considered stable and may change in the future.

Drivers that implement this functionality must document the commands as part of the CEC documentation and must keep that documentation up to date when changes are made.

The following CEC error injection implementations exist:

/sys/kernel/debug/cxl/$dport_dev/einj_inject

Defined on file debugfs-cxl

(WO) Writing an integer to this file injects the corresponding CXL protocol error into $dport_dev ($dport_dev will be a device name from /sys/bus/pci/devices). The integer to type mapping for injection can be found by reading from einj_types. If the dport was enumerated in RCH mode, a CXL 1.1 error is injected, otherwise a CXL 2.0 error is injected.

/sys/kernel/debug/cxl/einj_types

Defined on file debugfs-cxl

(RO) Prints the CXL protocol error types made available by the platform in the format:

0x<error number> <error type>

The possible error types are (as of ACPI v6.5):

0x1000 CXL.cache Protocol Correctable 0x2000 CXL.cache Protocol Uncorrectable non-fatal 0x4000 CXL.cache Protocol Uncorrectable fatal 0x8000 CXL.mem Protocol Correctable 0x10000 CXL.mem Protocol Uncorrectable non-fatal 0x20000 CXL.mem Protocol Uncorrectable fatal

The <error number> can be written to einj_inject to inject <error type> into a chosen dport.

/sys/kernel/debug/cxl/memX/inject_poison

Defined on file debugfs-cxl

(WO) When a Device Physical Address (DPA) is written to this attribute, the memdev driver sends an inject poison command to the device for the specified address. The DPA must be 64-byte aligned and the length of the injected poison is 64-bytes. If successful, the device returns poison when the address is accessed through the CXL.mem bus. Injecting poison adds the address to the device’s Poison List and the error source is set to Injected. In addition, the device adds a poison creation event to its internal Informational Event log, updates the Event Status register, and if configured, interrupts the host. It is not an error to inject poison into an address that already has poison present and no error is returned. If the device returns ‘Inject Poison Limit Reached’ an -EBUSY error is returned to the user. The inject_poison attribute is only visible for devices supporting the capability.

/sys/kernel/debug/dcc/.../[list-number]/config

Defined on file debugfs-driver-dcc

This stores the addresses of the registers which can be read in case of a hardware crash or manual software triggers. The input addresses type can be one of following dcc instructions: read, write, read-write, and loop type. The lists need to be configured sequentially and not in a overlapping manner; e.g. users can jump to list x only after list y is configured and enabled. The input format for each type is as follows:

  1. Read instruction

    echo R <addr> <n> <bus> >/sys/kernel/debug/dcc/../[list-number]/config
    

    where:

    <addr>

    The address to be read.

    <n>

    The addresses word count, starting from address <1>. Each word is 32 bits (4 bytes). If omitted, defaulted to 1.

    <bus type>

    The bus type, which can be either ‘apb’ or ‘ahb’. The default is ‘ahb’ if leaved out.

  2. Write instruction

    echo W <addr> <n> <bus type> > /sys/kernel/debug/dcc/../[list-number]/config
    

    where:

    <addr>

    The address to be written.

    <n>

    The value to be written at <addr>.

    <bus type>

    The bus type, which can be either ‘apb’ or ‘ahb’.

  3. Read-write instruction

    echo RW <addr> <n> <mask> > /sys/kernel/debug/dcc/../[list-number]/config
    

    where:

    <addr>

    The address to be read and written.

    <n>

    The value to be written at <addr>.

    <mask>

    The value mask.

  4. Loop instruction

    echo L <loop count> <address count> <address>... > /sys/kernel/debug/dcc/../[list-number]/config
    

    where:

    <loop count>

    Number of iterations

    <address count>

    total number of addresses to be written

    <address>

    Space-separated list of addresses.

/sys/kernel/debug/dcc/.../[list-number]/enable

Defined on file debugfs-driver-dcc

This debugfs interface is used for enabling the the dcc hardware. A file named “enable” is in the directory list number where users can enable/disable the specific list by writing boolean (1 or 0) to the file.

On enabling the dcc, all the addresses specified by the user for the corresponding list is written into dcc sram which is read by the dcc hardware on manual or crash induced triggers. Lists must be configured and enabled sequentially, e.g. list 2 can only be enabled when list 1 have so.

/sys/kernel/debug/dcc/.../config_reset

Defined on file debugfs-driver-dcc

This file is used to reset the configuration of a dcc driver to the default configuration. When ‘1’ is written to the file, all the previous addresses stored in the driver gets removed and users need to reconfigure addresses again.

/sys/kernel/debug/dcc/.../ready

Defined on file debugfs-driver-dcc

This file is used to check the status of the dcc hardware if it’s ready to receive user configurations. A ‘Y’ here indicates dcc is ready.

/sys/kernel/debug/dcc/.../trigger

Defined on file debugfs-driver-dcc

This is the debugfs interface for manual software triggers. The trigger can be invoked by writing ‘1’ to the file.

/sys/kernel/debug/dell-wmi-ddv-<wmi_device_name>/fan_sensor_information

Defined on file debugfs-dell-wmi-ddv

This file contains the contents of the fan sensor information buffer, which contains fan sensor entries and a terminating character (0xFF).

Each fan sensor entry contains:

  • fan type (single byte)

  • fan speed in RPM (two bytes, little endian)

See Dell DDV WMI interface driver (dell-wmi-ddv) for details.

/sys/kernel/debug/dell-wmi-ddv-<wmi_device_name>/thermal_sensor_information

Defined on file debugfs-dell-wmi-ddv

This file contains the contents of the thermal sensor information buffer, which contains thermal sensor entries and a terminating character (0xFF).

Each thermal sensor entry contains:

  • thermal type (single byte)

  • current temperature (single byte)

  • min. temperature (single byte)

  • max. temperature (single byte)

  • unknown field (single byte)

See Dell DDV WMI interface driver (dell-wmi-ddv) for details.

/sys/kernel/debug/ec/*/{gpe,use_global_lock,io}

Defined on file debugfs-ec

General information like which GPE is assigned to the EC and whether the global lock should get used. Knowing the EC GPE one can watch the amount of HW events related to the EC here (XY -> GPE number from /sys/kernel/debug/ec/*/gpe): /sys/firmware/acpi/interrupts/gpeXY

The io file is binary and a userspace tool located here: ftp://ftp.suse.com/pub/people/trenn/sources/ec/ should get used to read out the 256 Embedded Controller registers or writing to them.

CAUTION:

Do not write to the Embedded Controller if you don’t know what you are doing! Rebooting afterwards also is a good idea. This can influence the way your machine is cooled and fans may not get switched on again after you did a wrong write.

/sys/kernel/debug/genwqe/genwqe<n>_card/curr_dbg_uid0

Defined on file debugfs-driver-genwqe

Internal chip state of UID0 (unit id 0). Only available for PF.

/sys/kernel/debug/genwqe/genwqe<n>_card/curr_dbg_uid1

Defined on file debugfs-driver-genwqe

Internal chip state of UID1. Only available for PF.

/sys/kernel/debug/genwqe/genwqe<n>_card/curr_dbg_uid2

Defined on file debugfs-driver-genwqe

Internal chip state of UID2. Only available for PF.

/sys/kernel/debug/genwqe/genwqe<n>_card/curr_regs

Defined on file debugfs-driver-genwqe

Dump of the current error registers. Only available for PF.

/sys/kernel/debug/genwqe/genwqe<n>_card/ddcb_info

Defined on file debugfs-driver-genwqe

DDCB queue dump used for debugging queueing problems.

/sys/kernel/debug/genwqe/genwqe<n>_card/err_inject

Defined on file debugfs-driver-genwqe

Possibility to inject error cases to ensure that the drivers error handling code works well.

/sys/kernel/debug/genwqe/genwqe<n>_card/info

Defined on file debugfs-driver-genwqe

Comprehensive summary of bitstream version and software version. Used bitstream and bitstream clocking information.

/sys/kernel/debug/genwqe/genwqe<n>_card/jobtimer

Defined on file debugfs-driver-genwqe

Dump job timeout register values for PF and VFs. Only available for PF.

/sys/kernel/debug/genwqe/genwqe<n>_card/prev_dbg_uid0

Defined on file debugfs-driver-genwqe

Internal chip state of UID0 before card was reset. Only available for PF.

/sys/kernel/debug/genwqe/genwqe<n>_card/prev_dbg_uid1

Defined on file debugfs-driver-genwqe

Internal chip state of UID1 before card was reset. Only available for PF.

/sys/kernel/debug/genwqe/genwqe<n>_card/prev_dbg_uid2

Defined on file debugfs-driver-genwqe

Internal chip state of UID2 before card was reset. Only available for PF.

/sys/kernel/debug/genwqe/genwqe<n>_card/prev_regs

Defined on file debugfs-driver-genwqe

Dump of the error registers before the last reset of the card occurred. Only available for PF.

/sys/kernel/debug/genwqe/genwqe<n>_card/queue_working_time

Defined on file debugfs-driver-genwqe

Dump queue working time register values for PF and VFs. Only available for PF.

/sys/kernel/debug/genwqe/genwqe<n>_card/vf<0..14>_jobtimeout_msec

Defined on file debugfs-driver-genwqe

Default VF timeout 250ms. Testing might require 1000ms. Using 0 will use the cards default value (whatever that is).

The timeout depends on the max number of available cards in the system and the maximum allowed queue size.

The driver ensures that the settings are done just before the VFs get enabled. Changing the timeouts in flight is not possible. Only available for PF.

/sys/kernel/debug/hisi_hpre/<bdf>/alg_qos

Defined on file debugfs-hisi-hpre

The <bdf> is related the function for PF and VF. HPRE driver supports to configure each function’s QoS, the driver supports to write <bdf> value to alg_qos in the host. Such as “echo <bdf> value > alg_qos”. The qos value is 1~1000, means 1/1000~1000/1000 of total QoS. The driver reading alg_qos to get related QoS in the host and VM, Such as “cat alg_qos”.

/sys/kernel/debug/hisi_hpre/<bdf>/cluster[0-3]/cluster_ctrl

Defined on file debugfs-hisi-hpre

Write the HPRE core selection in the cluster into this file, and then we can read the debug information of the core. Only available for PF.

/sys/kernel/debug/hisi_hpre/<bdf>/cluster[0-3]/regs

Defined on file debugfs-hisi-hpre

Dump debug registers from the HPRE cluster. Only available for PF.

/sys/kernel/debug/hisi_hpre/<bdf>/current_qm

Defined on file debugfs-hisi-hpre

One HPRE controller has one PF and multiple VFs, each function has a QM. Select the QM which below qm refers to. Only available for PF.

/sys/kernel/debug/hisi_hpre/<bdf>/hpre_dfx/diff_regs

Defined on file debugfs-hisi-hpre

HPRE debug registers(regs) read hardware register value. This node is used to show the change of the register values. This node can be help users to check the change of register values.

/sys/kernel/debug/hisi_hpre/<bdf>/hpre_dfx/invalid_req_cnt

Defined on file debugfs-hisi-hpre

Dump the total number of invalid requests being received. Available for both PF and VF, and take no other effect on HPRE.

/sys/kernel/debug/hisi_hpre/<bdf>/hpre_dfx/over_thrhld_cnt

Defined on file debugfs-hisi-hpre

Dump the total number of time out requests. Available for both PF and VF, and take no other effect on HPRE.

/sys/kernel/debug/hisi_hpre/<bdf>/hpre_dfx/overtime_thrhld

Defined on file debugfs-hisi-hpre

Set the threshold time for counting the request which is processed longer than the threshold. 0: disable(default), 1: 1 microsecond. Available for both PF and VF, and take no other effect on HPRE.

/sys/kernel/debug/hisi_hpre/<bdf>/hpre_dfx/recv_cnt

Defined on file debugfs-hisi-hpre

Dump the total number of received requests. Available for both PF and VF, and take no other effect on HPRE.

/sys/kernel/debug/hisi_hpre/<bdf>/hpre_dfx/send_busy_cnt

Defined on file debugfs-hisi-hpre

Dump the total number of requests sent with returning busy. Available for both PF and VF, and take no other effect on HPRE.

/sys/kernel/debug/hisi_hpre/<bdf>/hpre_dfx/send_cnt

Defined on file debugfs-hisi-hpre

Dump the total number of sent requests. Available for both PF and VF, and take no other effect on HPRE.

/sys/kernel/debug/hisi_hpre/<bdf>/hpre_dfx/send_fail_cnt

Defined on file debugfs-hisi-hpre

Dump the total number of completed but error requests. Available for both PF and VF, and take no other effect on HPRE.

/sys/kernel/debug/hisi_hpre/<bdf>/qm/abnormal_irq

Defined on file debugfs-hisi-hpre

Dump the number of interrupts for QM abnormal event. Available for both PF and VF, and take no other effect on HPRE.

/sys/kernel/debug/hisi_hpre/<bdf>/qm/aeq_irq

Defined on file debugfs-hisi-hpre

Dump the number of QM async event queue interrupts. Available for both PF and VF, and take no other effect on HPRE.

/sys/kernel/debug/hisi_hpre/<bdf>/qm/clear_enable

Defined on file debugfs-hisi-hpre

QM debug registers(regs) read clear control. 1 means enable register read clear, otherwise 0. Writing to this file has no functional effect, only enable or disable counters clear after reading of these registers. Only available for PF.

/sys/kernel/debug/hisi_hpre/<bdf>/qm/create_qp_err

Defined on file debugfs-hisi-hpre

Dump the number of queue allocation errors. Available for both PF and VF, and take no other effect on HPRE.

/sys/kernel/debug/hisi_hpre/<bdf>/qm/current_q

Defined on file debugfs-hisi-hpre

One QM may contain multiple queues. Select specific queue to show its debug registers in above regs. Only available for PF.

/sys/kernel/debug/hisi_hpre/<bdf>/qm/dev_state

Defined on file debugfs-hisi-hpre

Dump the stop queue status of the QM. The default value is 0, if dev_timeout is set, when stop queue fails, the dev_state will return non-zero value. Available for both PF and VF, and take no other effect on HPRE.

/sys/kernel/debug/hisi_hpre/<bdf>/qm/dev_timeout

Defined on file debugfs-hisi-hpre

Set the wait time when stop queue fails. Available for both PF and VF, and take no other effect on HPRE. 0: not wait(default), others value: wait dev_timeout * 20 microsecond.

/sys/kernel/debug/hisi_hpre/<bdf>/qm/diff_regs

Defined on file debugfs-hisi-hpre

QM debug registers(regs) read hardware register value. This node is used to show the change of the qm register values. This node can be help users to check the change of register values.

/sys/kernel/debug/hisi_hpre/<bdf>/qm/err_irq

Defined on file debugfs-hisi-hpre

Dump the number of invalid interrupts for QM task completion. Available for both PF and VF, and take no other effect on HPRE.

/sys/kernel/debug/hisi_hpre/<bdf>/qm/mb_err

Defined on file debugfs-hisi-hpre

Dump the number of failed QM mailbox commands. Available for both PF and VF, and take no other effect on HPRE.

/sys/kernel/debug/hisi_hpre/<bdf>/qm/qm_state

Defined on file debugfs-hisi-hpre

Dump the state of the device. 0: busy, 1: idle. Only available for PF, and take no other effect on HPRE.

/sys/kernel/debug/hisi_hpre/<bdf>/qm/regs

Defined on file debugfs-hisi-hpre

Dump debug registers from the QM. Available for PF and VF in host. VF in guest currently only has one debug register.

/sys/kernel/debug/hisi_hpre/<bdf>/qm/status

Defined on file debugfs-hisi-hpre

Dump the status of the QM. Two states: work, stop. Available for both PF and VF, and take no other effect on HPRE.

/sys/kernel/debug/hisi_hpre/<bdf>/rdclr_en

Defined on file debugfs-hisi-hpre

HPRE cores debug registers read clear control. 1 means enable register read clear, otherwise 0. Writing to this file has no functional effect, only enable or disable counters clear after reading of these registers. Only available for PF.

/sys/kernel/debug/hisi_hpre/<bdf>/regs

Defined on file debugfs-hisi-hpre

Dump debug registers from the HPRE. Only available for PF.

/sys/kernel/debug/hisi_sec2/<bdf>/alg_qos

Defined on file debugfs-hisi-sec

The <bdf> is related the function for PF and VF. SEC driver supports to configure each function’s QoS, the driver supports to write <bdf> value to alg_qos in the host. Such as “echo <bdf> value > alg_qos”. The qos value is 1~1000, means 1/1000~1000/1000 of total QoS. The driver reading alg_qos to get related QoS in the host and VM, Such as “cat alg_qos”.

/sys/kernel/debug/hisi_sec2/<bdf>/clear_enable

Defined on file debugfs-hisi-sec

Enabling/disabling of clear action after reading the SEC debug registers. 0: disable, 1: enable. Only available for PF, and take no other effect on SEC.

/sys/kernel/debug/hisi_sec2/<bdf>/current_qm

Defined on file debugfs-hisi-sec

One SEC controller has one PF and multiple VFs, each function has a QM. This file can be used to select the QM which below qm refers to. Only available for PF.

/sys/kernel/debug/hisi_sec2/<bdf>/qm/abnormal_irq

Defined on file debugfs-hisi-sec

Dump the number of interrupts for QM abnormal event. Available for both PF and VF, and take no other effect on SEC.

/sys/kernel/debug/hisi_sec2/<bdf>/qm/aeq_irq

Defined on file debugfs-hisi-sec

Dump the number of QM async event queue interrupts. Available for both PF and VF, and take no other effect on SEC.

/sys/kernel/debug/hisi_sec2/<bdf>/qm/clear_enable

Defined on file debugfs-hisi-sec

Enabling/disabling of clear action after reading the SEC’s QM debug registers. 0: disable, 1: enable. Only available for PF, and take no other effect on SEC.

/sys/kernel/debug/hisi_sec2/<bdf>/qm/create_qp_err

Defined on file debugfs-hisi-sec

Dump the number of queue allocation errors. Available for both PF and VF, and take no other effect on SEC.

/sys/kernel/debug/hisi_sec2/<bdf>/qm/current_q

Defined on file debugfs-hisi-sec

One QM of SEC may contain multiple queues. Select specific queue to show its debug registers in above ‘regs’. Only available for PF.

/sys/kernel/debug/hisi_sec2/<bdf>/qm/dev_state

Defined on file debugfs-hisi-sec

Dump the stop queue status of the QM. The default value is 0, if dev_timeout is set, when stop queue fails, the dev_state will return non-zero value. Available for both PF and VF, and take no other effect on SEC.

/sys/kernel/debug/hisi_sec2/<bdf>/qm/dev_timeout

Defined on file debugfs-hisi-sec

Set the wait time when stop queue fails. Available for both PF and VF, and take no other effect on SEC. 0: not wait(default), others value: wait dev_timeout * 20 microsecond.

/sys/kernel/debug/hisi_sec2/<bdf>/qm/diff_regs

Defined on file debugfs-hisi-sec

QM debug registers(regs) read hardware register value. This node is used to show the change of the qm register values. This node can be help users to check the change of register values.

/sys/kernel/debug/hisi_sec2/<bdf>/qm/err_irq

Defined on file debugfs-hisi-sec

Dump the number of invalid interrupts for QM task completion. Available for both PF and VF, and take no other effect on SEC.

/sys/kernel/debug/hisi_sec2/<bdf>/qm/mb_err

Defined on file debugfs-hisi-sec

Dump the number of failed QM mailbox commands. Available for both PF and VF, and take no other effect on SEC.

/sys/kernel/debug/hisi_sec2/<bdf>/qm/qm_regs

Defined on file debugfs-hisi-sec

Dump of QM related debug registers. Available for PF and VF in host. VF in guest currently only has one debug register.

/sys/kernel/debug/hisi_sec2/<bdf>/qm/qm_state

Defined on file debugfs-hisi-sec

Dump the state of the device. 0: busy, 1: idle. Only available for PF, and take no other effect on SEC.

/sys/kernel/debug/hisi_sec2/<bdf>/qm/status

Defined on file debugfs-hisi-sec

Dump the status of the QM. Two states: work, stop. Available for both PF and VF, and take no other effect on SEC.

/sys/kernel/debug/hisi_sec2/<bdf>/sec_dfx/diff_regs

Defined on file debugfs-hisi-sec

SEC debug registers(regs) read hardware register value. This node is used to show the change of the register values. This node can be help users to check the change of register values.

/sys/kernel/debug/hisi_sec2/<bdf>/sec_dfx/done_flag_cnt

Defined on file debugfs-hisi-sec

Dump the total number of completed but marked error requests to be received. Available for both PF and VF, and take no other effect on SEC.

/sys/kernel/debug/hisi_sec2/<bdf>/sec_dfx/err_bd_cnt

Defined on file debugfs-hisi-sec

Dump the total number of BD type error requests to be received. Available for both PF and VF, and take no other effect on SEC.

/sys/kernel/debug/hisi_sec2/<bdf>/sec_dfx/invalid_req_cnt

Defined on file debugfs-hisi-sec

Dump the total number of invalid requests being received. Available for both PF and VF, and take no other effect on SEC.

/sys/kernel/debug/hisi_sec2/<bdf>/sec_dfx/recv_cnt

Defined on file debugfs-hisi-sec

Dump the total number of received requests. Available for both PF and VF, and take no other effect on SEC.

/sys/kernel/debug/hisi_sec2/<bdf>/sec_dfx/send_busy_cnt

Defined on file debugfs-hisi-sec

Dump the total number of requests sent with returning busy. Available for both PF and VF, and take no other effect on SEC.

/sys/kernel/debug/hisi_sec2/<bdf>/sec_dfx/send_cnt

Defined on file debugfs-hisi-sec

Dump the total number of sent requests. Available for both PF and VF, and take no other effect on SEC.

/sys/kernel/debug/hisi_zip/<bdf>/alg_qos

Defined on file debugfs-hisi-zip

The <bdf> is related the function for PF and VF. ZIP driver supports to configure each function’s QoS, the driver supports to write <bdf> value to alg_qos in the host. Such as “echo <bdf> value > alg_qos”. The qos value is 1~1000, means 1/1000~1000/1000 of total QoS. The driver reading alg_qos to get related QoS in the host and VM, Such as “cat alg_qos”.

/sys/kernel/debug/hisi_zip/<bdf>/clear_enable

Defined on file debugfs-hisi-zip

Compression/decompression core debug registers read clear control. 1 means enable register read clear, otherwise 0. Writing to this file has no functional effect, only enable or disable counters clear after reading of these registers. Only available for PF.

/sys/kernel/debug/hisi_zip/<bdf>/comp_core[01]/regs

Defined on file debugfs-hisi-zip

Dump of compression cores related debug registers. Only available for PF.

/sys/kernel/debug/hisi_zip/<bdf>/current_qm

Defined on file debugfs-hisi-zip

One ZIP controller has one PF and multiple VFs, each function has a QM. Select the QM which below qm refers to. Only available for PF.

/sys/kernel/debug/hisi_zip/<bdf>/decomp_core[0-5]/regs

Defined on file debugfs-hisi-zip

Dump of decompression cores related debug registers. Only available for PF.

/sys/kernel/debug/hisi_zip/<bdf>/qm/abnormal_irq

Defined on file debugfs-hisi-zip

Dump the number of interrupts for QM abnormal event. Available for both PF and VF, and take no other effect on ZIP.

/sys/kernel/debug/hisi_zip/<bdf>/qm/aeq_irq

Defined on file debugfs-hisi-zip

Dump the number of QM async event queue interrupts. Available for both PF and VF, and take no other effect on ZIP.

/sys/kernel/debug/hisi_zip/<bdf>/qm/clear_enable

Defined on file debugfs-hisi-zip

QM debug registers(regs) read clear control. 1 means enable register read clear, otherwise 0. Writing to this file has no functional effect, only enable or disable counters clear after reading of these registers. Only available for PF.

/sys/kernel/debug/hisi_zip/<bdf>/qm/create_qp_err

Defined on file debugfs-hisi-zip

Dump the number of queue allocation errors. Available for both PF and VF, and take no other effect on ZIP.

/sys/kernel/debug/hisi_zip/<bdf>/qm/current_q

Defined on file debugfs-hisi-zip

One QM may contain multiple queues. Select specific queue to show its debug registers in above regs. Only available for PF.

/sys/kernel/debug/hisi_zip/<bdf>/qm/dev_state

Defined on file debugfs-hisi-zip

Dump the stop queue status of the QM. The default value is 0, if dev_timeout is set, when stop queue fails, the dev_state will return non-zero value. Available for both PF and VF, and take no other effect on ZIP.

/sys/kernel/debug/hisi_zip/<bdf>/qm/dev_timeout

Defined on file debugfs-hisi-zip

Set the wait time when stop queue fails. Available for both PF and VF, and take no other effect on ZIP. 0: not wait(default), others value: wait dev_timeout * 20 microsecond.

/sys/kernel/debug/hisi_zip/<bdf>/qm/diff_regs

Defined on file debugfs-hisi-zip

QM debug registers(regs) read hardware register value. This node is used to show the change of the qm registers value. This node can be help users to check the change of register values.

/sys/kernel/debug/hisi_zip/<bdf>/qm/err_irq

Defined on file debugfs-hisi-zip

Dump the number of invalid interrupts for QM task completion. Available for both PF and VF, and take no other effect on ZIP.

/sys/kernel/debug/hisi_zip/<bdf>/qm/mb_err

Defined on file debugfs-hisi-zip

Dump the number of failed QM mailbox commands. Available for both PF and VF, and take no other effect on ZIP.

/sys/kernel/debug/hisi_zip/<bdf>/qm/qm_state

Defined on file debugfs-hisi-zip

Dump the state of the device. 0: busy, 1: idle. Only available for PF, and take no other effect on ZIP.

/sys/kernel/debug/hisi_zip/<bdf>/qm/regs

Defined on file debugfs-hisi-zip

Dump of QM related debug registers. Available for PF and VF in host. VF in guest currently only has one debug register.

/sys/kernel/debug/hisi_zip/<bdf>/qm/status

Defined on file debugfs-hisi-zip

Dump the status of the QM. Two states: work, stop. Available for both PF and VF, and take no other effect on ZIP.

/sys/kernel/debug/hisi_zip/<bdf>/zip_dfx/diff_regs

Defined on file debugfs-hisi-zip

ZIP debug registers(regs) read hardware register value. This node is used to show the change of the registers value. this node can be help users to check the change of register values.

/sys/kernel/debug/hisi_zip/<bdf>/zip_dfx/err_bd_cnt

Defined on file debugfs-hisi-zip

Dump the total number of BD type error requests to be received. Available for both PF and VF, and take no other effect on ZIP.

/sys/kernel/debug/hisi_zip/<bdf>/zip_dfx/recv_cnt

Defined on file debugfs-hisi-zip

Dump the total number of received requests. Available for both PF and VF, and take no other effect on ZIP.

/sys/kernel/debug/hisi_zip/<bdf>/zip_dfx/send_busy_cnt

Defined on file debugfs-hisi-zip

Dump the total number of requests received with returning busy. Available for both PF and VF, and take no other effect on ZIP.

/sys/kernel/debug/hisi_zip/<bdf>/zip_dfx/send_cnt

Defined on file debugfs-hisi-zip

Dump the total number of sent requests. Available for both PF and VF, and take no other effect on ZIP.

/sys/kernel/debug/hyperv/<UUID>/delay/fuzz_test_buffer_interrupt_delay

Defined on file debugfs-hyperv

Fuzz testing buffer interrupt delay value between 0 - 1000

microseconds (inclusive).

Users: Debugging tools

/sys/kernel/debug/hyperv/<UUID>/delay/fuzz_test_message_delay

Defined on file debugfs-hyperv

Fuzz testing message delay value between 0 - 1000 microseconds

(inclusive).

Users: Debugging tools

/sys/kernel/debug/hyperv/<UUID>/fuzz_test_state

Defined on file debugfs-hyperv

Fuzz testing status of a vmbus device, whether its in an ON state or a OFF state

Users: Debugging tools

/sys/kernel/debug/ideapad/cfg

Defined on file debugfs-ideapad

cfg shows the return value of _CFG method in VPC2004 device. It tells machine capability and what graphic component within the machine.

/sys/kernel/debug/ideapad/status

Defined on file debugfs-ideapad

status shows infos we can read and tells its meaning and value.

/sys/kernel/debug/iio/iio:deviceX/backendY/direct_reg_access

Defined on file debugfs-iio-backend

Directly access the registers of backend Y. Typical usage is:

Reading address 0x50 echo 0x50 > direct_reg_access cat direct_reg_access

Writing address 0x50 echo 0x50 0x3 > direct_reg_access //readback address 0x50 cat direct_reg_access

/sys/kernel/debug/iio/iio:deviceX/backendY/name

Defined on file debugfs-iio-backend

Name of Backend Y connected to device X.

/sys/kernel/debug/iio/iio:deviceX/calibration_table_dump

Defined on file debugfs-iio-ad9467

This dumps the calibration table that was filled during the digital interface tuning process.

/sys/kernel/debug/iio/iio:deviceX/in_voltageY_test_mode

Defined on file debugfs-iio-ad9467

Writing to this file will initiate one of available test tone on channel Y. Reading it, shows which test is running. In cases where an IIO backend is available and supports the test tone, additional information about the data correctness is given.

/sys/kernel/debug/iio/iio:deviceX/in_voltage_test_mode_available

Defined on file debugfs-iio-ad9467

List all the available test tones: - off - midscale_short - pos_fullscale - neg_fullscale - checkerboard - prbs23 - prbs9 - one_zero_toggle - user - bit_toggle - sync - one_bit_high - mixed_bit_frequency - ramp

Note that depending on the actual device being used, some of the above might not be available (and they won’t be listed when reading the file).

/sys/kernel/debug/iommu/intel/<bdf>/domain_translation_struct

Defined on file debugfs-intel-iommu

This file dumps a specified page table of Intel IOMMU in legacy mode or scalable mode.

For a device that only supports legacy mode, dump its page table by the debugfs file in the debugfs device directory. e.g. /sys/kernel/debug/iommu/intel/0000:00:02.0/domain_translation_struct.

For a device that supports scalable mode, dump the page table of specified pasid by the debugfs file in the debugfs pasid directory. e.g. /sys/kernel/debug/iommu/intel/0000:00:02.0/1/domain_translation_struct.

Examples in Kabylake:

1) Dump the page table of device "0000:00:02.0" that only supports legacy mode.

$ sudo cat /sys/kernel/debug/iommu/intel/0000:00:02.0/domain_translation_struct

Device 0000:00:02.0 @0x1017f8000
IOVA_PFN                PML5E                   PML4E
0x000000008d800 |       0x0000000000000000      0x00000001017f9003
0x000000008d801 |       0x0000000000000000      0x00000001017f9003
0x000000008d802 |       0x0000000000000000      0x00000001017f9003

PDPE                    PDE                     PTE
0x00000001017fa003      0x00000001017fb003      0x000000008d800003
0x00000001017fa003      0x00000001017fb003      0x000000008d801003
0x00000001017fa003      0x00000001017fb003      0x000000008d802003

[...]

2) Dump the page table of device "0000:00:0a.0" with PASID "1" that
supports scalable mode.

$ sudo cat /sys/kernel/debug/iommu/intel/0000:00:0a.0/1/domain_translation_struct

Device 0000:00:0a.0 with pasid 1 @0x10c112000
IOVA_PFN                PML5E                   PML4E
0x0000000000000 |       0x0000000000000000      0x000000010df93003
0x0000000000001 |       0x0000000000000000      0x000000010df93003
0x0000000000002 |       0x0000000000000000      0x000000010df93003

PDPE                    PDE                     PTE
0x0000000106ae6003      0x0000000104b38003      0x0000000147c00803
0x0000000106ae6003      0x0000000104b38003      0x0000000147c01803
0x0000000106ae6003      0x0000000104b38003      0x0000000147c02803

[...]

/sys/kernel/debug/iommu/intel/dmar_perf_latency

Defined on file debugfs-intel-iommu

This file is used to control and show counts of execution time ranges for various types per DMAR.

Firstly, write a value to /sys/kernel/debug/iommu/intel/dmar_perf_latency to enable sampling.

The possible values are as follows:

  • 0 - disable sampling all latency data

  • 1 - enable sampling IOTLB invalidation latency data

  • 2 - enable sampling devTLB invalidation latency data

  • 3 - enable sampling intr entry cache invalidation latency data

Next, read /sys/kernel/debug/iommu/intel/dmar_perf_latency gives a snapshot of sampling result of all enabled monitors.

Examples in Kabylake:

1) Disable sampling all latency data:

$ sudo echo 0 > /sys/kernel/debug/iommu/intel/dmar_perf_latency

2) Enable sampling IOTLB invalidation latency data

$ sudo echo 1 > /sys/kernel/debug/iommu/intel/dmar_perf_latency

$ sudo cat /sys/kernel/debug/iommu/intel/dmar_perf_latency

IOMMU: dmar0 Register Base Address: 26be37000
                <0.1us   0.1us-1us    1us-10us  10us-100us   100us-1ms
inv_iotlb           0           0           0           0           0

                1ms-10ms      >=10ms     min(us)     max(us) average(us)
inv_iotlb           0           0           0           0           0

[...]

IOMMU: dmar2 Register Base Address: fed91000
                <0.1us   0.1us-1us    1us-10us  10us-100us   100us-1ms
inv_iotlb           0           0          18           0           0

                1ms-10ms      >=10ms     min(us)     max(us) average(us)
inv_iotlb           0           0           2           2           2

3) Enable sampling devTLB invalidation latency data

$ sudo echo 2 > /sys/kernel/debug/iommu/intel/dmar_perf_latency

$ sudo cat /sys/kernel/debug/iommu/intel/dmar_perf_latency

IOMMU: dmar0 Register Base Address: 26be37000
                <0.1us   0.1us-1us    1us-10us  10us-100us   100us-1ms
inv_devtlb           0           0           0           0           0

                >=10ms     min(us)     max(us) average(us)
inv_devtlb           0           0           0           0

[...]

/sys/kernel/debug/iommu/intel/dmar_translation_struct

Defined on file debugfs-intel-iommu

This file dumps Intel IOMMU DMA remapping tables, such as root table, context table, PASID directory and PASID table entries in debugfs. For legacy mode, it doesn’t support PASID, and hence PASID field is defaulted to ‘-1’ and other PASID related fields are invalid.

Example in Kabylake:

$ sudo cat /sys/kernel/debug/iommu/intel/dmar_translation_struct

IOMMU dmar1: Root Table Address: 0x103027000
B.D.F   Root_entry
00:02.0 0x0000000000000000:0x000000010303e001

Context_entry
0x0000000000000102:0x000000010303f005

PASID   PASID_table_entry
-1      0x0000000000000000:0x0000000000000000:0x0000000000000000

IOMMU dmar0: Root Table Address: 0x103028000
B.D.F   Root_entry
00:0a.0 0x0000000000000000:0x00000001038a7001

Context_entry
0x0000000000000000:0x0000000103220e7d

PASID   PASID_table_entry
0       0x0000000000000000:0x0000000000800002:0x00000001038a5089

[...]

/sys/kernel/debug/iommu/intel/invalidation_queue

Defined on file debugfs-intel-iommu

This file exports invalidation queue internals of each IOMMU device.

Example in Kabylake:

$ sudo cat /sys/kernel/debug/iommu/intel/invalidation_queue

Invalidation queue on IOMMU: dmar0
Base: 0x10022e000      Head: 20        Tail: 20
Index          qw0                    qw1                     qw2
    0   0000000000000014        0000000000000000        0000000000000000
    1   0000000200000025        0000000100059c04        0000000000000000
    2   0000000000000014        0000000000000000        0000000000000000

               qw3                  status
        0000000000000000        0000000000000000
        0000000000000000        0000000000000000
        0000000000000000        0000000000000000

[...]

Invalidation queue on IOMMU: dmar1
Base: 0x10026e000      Head: 32        Tail: 32
Index           qw0                     qw1                   status
    0   0000000000000004        0000000000000000         0000000000000000
    1   0000000200000025        0000000100059804         0000000000000000
    2   0000000000000011        0000000000000000         0000000000000000

[...]

/sys/kernel/debug/iommu/intel/iommu_regset

Defined on file debugfs-intel-iommu

This file dumps all the register contents for each IOMMU device.

Example in Kabylake:

$ sudo cat /sys/kernel/debug/iommu/intel/iommu_regset

IOMMU: dmar0 Register Base Address: 26be37000

Name                    Offset          Contents
VER                     0x00            0x0000000000000010
GCMD                    0x18            0x0000000000000000
GSTS                    0x1c            0x00000000c7000000
FSTS                    0x34            0x0000000000000000
FECTL                   0x38            0x0000000000000000

[...]

IOMMU: dmar1 Register Base Address: fed90000

Name                    Offset          Contents
VER                     0x00            0x0000000000000010
GCMD                    0x18            0x0000000000000000
GSTS                    0x1c            0x00000000c7000000
FSTS                    0x34            0x0000000000000000
FECTL                   0x38            0x0000000000000000

[...]

IOMMU: dmar2 Register Base Address: fed91000

Name                    Offset          Contents
VER                     0x00            0x0000000000000010
GCMD                    0x18            0x0000000000000000
GSTS                    0x1c            0x00000000c7000000
FSTS                    0x34            0x0000000000000000
FECTL                   0x38            0x0000000000000000

[...]

/sys/kernel/debug/iommu/intel/ir_translation_struct

Defined on file debugfs-intel-iommu

This file dumps the table entries for Interrupt remapping and Interrupt posting.

Example in Kabylake:

$ sudo cat /sys/kernel/debug/iommu/intel/ir_translation_struct

Remapped Interrupt supported on IOMMU: dmar0
IR table address:100900000

Entry SrcID   DstID    Vct IRTE_high           IRTE_low
0     00:0a.0 00000080 24  0000000000040050    000000800024000d
1     00:0a.0 00000001 ef  0000000000040050    0000000100ef000d

Remapped Interrupt supported on IOMMU: dmar1
IR table address:100300000
Entry SrcID   DstID    Vct IRTE_high           IRTE_low
0     00:02.0 00000002 26  0000000000040010    000000020026000d

[...]

****

Posted Interrupt supported on IOMMU: dmar0
IR table address:100900000
Entry SrcID   PDA_high PDA_low  Vct IRTE_high          IRTE_low

/sys/kernel/debug/memX/clear_poison

Defined on file debugfs-cxl

(WO) When a Device Physical Address (DPA) is written to this attribute, the memdev driver sends a clear poison command to the device for the specified address. Clearing poison removes the address from the device’s Poison List and writes 0 (zero) for 64 bytes starting at address. It is not an error to clear poison from an address that does not have poison set. If the device cannot clear poison from the address, -ENXIO is returned. The clear_poison attribute is only visible for devices supporting the capability.

/sys/kernel/debug/moxtet/input

Defined on file debugfs-moxtet

(Read) Read input from the shift registers, in hexadecimal. Returns N+1 bytes, where N is the number of Moxtet connected modules. The first byte is from the CPU board itself.

Example:

101214

10

CPU board with SD card

12

2 = PCIe module, 1 = IRQ not active

14

4 = Peridot module, 1 = IRQ not active

/sys/kernel/debug/moxtet/output

Defined on file debugfs-moxtet

(RW) Read last written value to the shift registers, in hexadecimal, or write values to the shift registers, also in hexadecimal.

Example:

0102

01

01 was last written, or is to be written, to the first module’s shift register

02

the same for second module

/sys/kernel/debug/msi-wmi-platform-<wmi_device_name>/*

Defined on file debugfs-msi-wmi-platform

This file allows to execute the associated WMI method with the same name.

To start the execution, write a buffer containing the method arguments at file offset 0. Partial writes or writes at a different offset are not supported.

The buffer returned by the WMI method can then be read from the file.

See MSI WMI Platform Features driver (msi-wmi-platform) for details.

/sys/kernel/debug/nx-crypto/*

Defined on file debugfs-pfo-nx-crypto

These debugfs interfaces are built by the nx-crypto driver, built in arch/powerpc/crypto/nx.

Error Detection

errors:

A u32 providing a total count of errors since the driver was loaded. The only errors counted here are those returned from the hcall, H_COP_OP.

last_error:

The most recent non-zero return code from the H_COP_OP hcall. -EBUSY is not recorded here (the hcall will retry until -EBUSY goes away).

last_error_pid:

The process ID of the process who received the most recent error from the hcall.

Device Use

aes_bytes:

The total number of bytes encrypted using AES in any of the driver’s supported modes.

aes_ops:

The total number of AES operations submitted to the hardware.

sha256_bytes:

The total number of bytes hashed by the hardware using SHA-256.

sha256_ops:

The total number of SHA-256 operations submitted to the hardware.

sha512_bytes:

The total number of bytes hashed by the hardware using SHA-512.

sha512_ops:

The total number of SHA-512 operations submitted to the hardware.

/sys/kernel/debug/olpc-ec/cmd

Defined on file debugfs-olpc

A generic interface for executing OLPC Embedded Controller commands and reading their responses.

To execute a command, write data with the format: CC:N A A A A CC is the (hex) command, N is the count of expected reply bytes, and A A A A are optional (hex) arguments.

To read the response (if any), read from the generic node after executing a command. Hex reply bytes will be returned, whether or not they came from the immediately previous command.

/sys/kernel/debug/pktcdvd/pktcdvd[0-7]

Defined on file debugfs-pktcdvd

The pktcdvd module (packet writing driver) creates these files in debugfs:

/sys/kernel/debug/pktcdvd/pktcdvd[0-7]/

info

0444

Lots of driver statistics and infos.

Example:

cat /sys/kernel/debug/pktcdvd/pktcdvd0/info

/sys/kernel/debug/powerpc/memtrace

Defined on file ppc-memtrace

This folder contains the relevant debugfs files for the hardware trace macro to use. CONFIG_PPC64_HARDWARE_TRACING must be set.

/sys/kernel/debug/powerpc/memtrace/<node-id>

Defined on file ppc-memtrace

This directory contains information about the removed memory from the specific NUMA node.

/sys/kernel/debug/powerpc/memtrace/<node-id>/size

Defined on file ppc-memtrace

This contains the size of the memory removed from the node.

/sys/kernel/debug/powerpc/memtrace/<node-id>/start

Defined on file ppc-memtrace

This contains the start address of the removed memory.

/sys/kernel/debug/powerpc/memtrace/<node-id>/trace

Defined on file ppc-memtrace

This is where the hardware trace macro will output the trace it generates.

/sys/kernel/debug/powerpc/memtrace/enable

Defined on file ppc-memtrace

Write an integer containing the size in bytes of the memory you want removed from each NUMA node to this file - it must be aligned to the memblock size. This amount of RAM will be removed from each NUMA node in the kernel mappings and the following debugfs files will be created. Once memory is successfully removed from each node, the following files are created. To re-add memory to the kernel, echo 0 into this file (it will be automatically onlined).

/sys/kernel/debug/qat_<device>_<BDF>/cnv_errors

Defined on file debugfs-driver-qat

(RO) Read returns, for each Acceleration Engine (AE), the number of errors and the type of the last error detected by the device when performing verified compression. Reported counters:

<N>: Number of Compress and Verify (CnV) errors and type
     of the last CnV error detected by Acceleration
     Engine N.

/sys/kernel/debug/qat_<device>_<BDF>/fw_counters

Defined on file debugfs-driver-qat

(RO) Read returns the number of requests sent to the FW and the number of responses received from the FW for each Acceleration Engine Reported firmware counters:

<N>: Number of requests sent from Acceleration Engine N to FW and responses
     Acceleration Engine N received from FW

/sys/kernel/debug/qat_<device>_<BDF>/heartbeat/config

Defined on file debugfs-driver-qat

(RW) Read returns value of the Heartbeat update period. Write to the file changes this period value.

This period should reflect planned polling interval of device health status. High frequency Heartbeat monitoring wastes CPU cycles but minimizes the customer’s system downtime. Also, if there are large service requests that take some time to complete, high frequency Heartbeat monitoring could result in false reports of unresponsiveness and in those cases, period needs to be increased.

This parameter is effective only for c3xxx, c62x, dh895xcc devices. 4xxx has this value internally fixed to 200ms.

Default value is set to 500. Minimal allowed value is 200. All values are expressed in milliseconds.

/sys/kernel/debug/qat_<device>_<BDF>/heartbeat/inject_error

Defined on file debugfs-driver-qat

(WO) Write to inject an error that simulates an heartbeat failure. This is to be used for testing purposes.

After writing this file, the driver stops arbitration on a random engine and disables the fetching of heartbeat counters. If a workload is running on the device, a job submitted to the accelerator might not get a response and a read of the heartbeat/status attribute might report -1, i.e. device unresponsive. The error is unrecoverable thus the device must be restarted to restore its functionality.

This attribute is available only when the kernel is built with CONFIG_CRYPTO_DEV_QAT_ERROR_INJECTION=y.

A write of 1 enables error injection.

The following example shows how to enable error injection:

# cd /sys/kernel/debug/qat_<device>_<BDF>
# echo 1 > heartbeat/inject_error

/sys/kernel/debug/qat_<device>_<BDF>/heartbeat/queries_failed

Defined on file debugfs-driver-qat

(RO) Read returns the number of times the device became unresponsive.

Attribute returns value of the counter which is incremented when status query results negative.

/sys/kernel/debug/qat_<device>_<BDF>/heartbeat/queries_sent

Defined on file debugfs-driver-qat

(RO) Read returns the number of times the control process checked if the device is responsive.

Attribute returns value of the counter which is incremented on every status query.

/sys/kernel/debug/qat_<device>_<BDF>/heartbeat/status

Defined on file debugfs-driver-qat

(RO) Read returns the device health status.

Returns 0 when device is healthy or -1 when is unresponsive or the query failed to send.

The driver does not monitor for Heartbeat. It is left for a user to poll the status periodically.

/sys/kernel/debug/qat_<device>_<BDF>/pm_status

Defined on file debugfs-driver-qat

(RO) Read returns power management information specific to the QAT device.

This attribute is only available for qat_4xxx devices.

/sys/kernel/debug/qat_<device>_<BDF>/telemetry/control

Defined on file debugfs-driver-qat_telemetry

(RW) Enables/disables the reporting of telemetry metrics.

Allowed values to write:

  • 0: disable telemetry

  • 1: enable telemetry

  • 2, 3, 4: enable telemetry and calculate minimum, maximum and average for each counter over 2, 3 or 4 samples

Returned values:

  • 1-4: telemetry is enabled and running

  • 0: telemetry is disabled

Example.

Writing ‘3’ to this file starts the collection of telemetry metrics. Samples are collected every second and stored in a circular buffer of size 3. These values are then used to calculate the minimum, maximum and average for each counter. After enabling, counters can be retrieved through the device_data file:

echo 3 > /sys/kernel/debug/qat_4xxx_0000:6b:00.0/telemetry/control

Writing ‘0’ to this file stops the collection of telemetry metrics:

echo 0 > /sys/kernel/debug/qat_4xxx_0000:6b:00.0/telemetry/control

This attribute is only available for qat_4xxx devices.

/sys/kernel/debug/qat_<device>_<BDF>/telemetry/device_data

Defined on file debugfs-driver-qat_telemetry

(RO) Reports device telemetry counters. Reads report metrics about performance and utilization of a QAT device:

Field

Description

sample_cnt

number of acquisitions of telemetry data from the device. Reads are performed every 1000 ms.

pci_trans_cnt

number of PCIe partial transactions

max_rd_lat

maximum logged read latency [ns] (could be any read operation)

rd_lat_acc_avg

average read latency [ns]

max_gp_lat

max get to put latency [ns] (only takes samples for AE0)

gp_lat_acc_avg

average get to put latency [ns]

bw_in

PCIe, write bandwidth [Mbps]

bw_out

PCIe, read bandwidth [Mbps]

at_page_req_lat_avg

Address Translator(AT), average page request latency [ns]

at_trans_lat_avg

AT, average page translation latency [ns]

at_max_tlb_used

AT, maximum uTLB used

util_cpr<N>

utilization of Compression slice N [%]

exec_cpr<N>

execution count of Compression slice N

util_xlt<N>

utilization of Translator slice N [%]

exec_xlt<N>

execution count of Translator slice N

util_dcpr<N>

utilization of Decompression slice N [%]

exec_dcpr<N>

execution count of Decompression slice N

util_pke<N>

utilization of PKE N [%]

exec_pke<N>

execution count of PKE N

util_ucs<N>

utilization of UCS slice N [%]

exec_ucs<N>

execution count of UCS slice N

util_wat<N>

utilization of Wireless Authentication slice N [%]

exec_wat<N>

execution count of Wireless Authentication slice N

util_wcp<N>

utilization of Wireless Cipher slice N [%]

exec_wcp<N>

execution count of Wireless Cipher slice N

util_cph<N>

utilization of Cipher slice N [%]

exec_cph<N>

execution count of Cipher slice N

util_ath<N>

utilization of Authentication slice N [%]

exec_ath<N>

execution count of Authentication slice N

The telemetry report file can be read with the following command:

cat /sys/kernel/debug/qat_4xxx_0000:6b:00.0/telemetry/device_data

If control is set to 1, only the current values of the counters are displayed:

<counter_name> <current>

If control is 2, 3 or 4, counters are displayed in the following format:

<counter_name> <current> <min> <max> <avg>

If a device lacks of a specific accelerator, the corresponding attribute is not reported.

This attribute is only available for qat_4xxx devices.

/sys/kernel/debug/qat_<device>_<BDF>/telemetry/rp_<A/B/C/D>_data

Defined on file debugfs-driver-qat_telemetry

(RW) Selects up to 4 Ring Pairs (RP) to monitor, one per file, and report telemetry counters related to each.

Allowed values to write:

  • 0 to <num_rps - 1>: Ring pair to be monitored. The value of num_rps can be retrieved through /sys/bus/pci/devices/<BDF>/qat/num_rps. See testing/sysfs-driver-qat.

Reads report metrics about performance and utilization of the selected RP:

Field

Description

sample_cnt

number of acquisitions of telemetry data from the device. Reads are performed every 1000 ms

rp_num

RP number associated with slot <A/B/C/D>

service_type

service associated to the RP

pci_trans_cnt

number of PCIe partial transactions

gp_lat_acc_avg

average get to put latency [ns]

bw_in

PCIe, write bandwidth [Mbps]

bw_out

PCIe, read bandwidth [Mbps]

at_glob_devtlb_hit

Message descriptor DevTLB hit rate

at_glob_devtlb_miss

Message descriptor DevTLB miss rate

tl_at_payld_devtlb_hit

Payload DevTLB hit rate

tl_at_payld_devtlb_miss

Payload DevTLB miss rate

Example.

Writing the value ‘32’ to the file rp_C_data starts the collection of telemetry metrics for ring pair 32:

echo 32 > /sys/kernel/debug/qat_4xxx_0000:6b:00.0/telemetry/rp_C_data

Once a ring pair is selected, statistics can be read accessing the file:

cat /sys/kernel/debug/qat_4xxx_0000:6b:00.0/telemetry/rp_C_data

If control is set to 1, only the current values of the counters are displayed:

<counter_name> <current>

If control is 2, 3 or 4, counters are displayed in the following format:

<counter_name> <current> <min> <max> <avg>

On QAT GEN4 devices there are 64 RPs on a PF, so the allowed values are 0..63. This number is absolute to the device. If Virtual Functions (VF) are used, the ring pair number can be derived from the Bus, Device, Function of the VF:

PCI BDF/VF

RP0

RP1

RP2

RP3

0000:6b:0.1

RP 0

RP 1

RP 2

RP 3

0000:6b:0.2

RP 4

RP 5

RP 6

RP 7

0000:6b:0.3

RP 8

RP 9

RP 10

RP 11

0000:6b:0.4

RP 12

RP 13

RP 14

RP 15

0000:6b:0.5

RP 16

RP 17

RP 18

RP 19

0000:6b:0.6

RP 20

RP 21

RP 22

RP 23

0000:6b:0.7

RP 24

RP 25

RP 26

RP 27

0000:6b:1.0

RP 28

RP 29

RP 30

RP 31

0000:6b:1.1

RP 32

RP 33

RP 34

RP 35

0000:6b:1.2

RP 36

RP 37

RP 38

RP 39

0000:6b:1.3

RP 40

RP 41

RP 42

RP 43

0000:6b:1.4

RP 44

RP 45

RP 46

RP 47

0000:6b:1.5

RP 48

RP 49

RP 50

RP 51

0000:6b:1.6

RP 52

RP 53

RP 54

RP 55

0000:6b:1.7

RP 56

RP 57

RP 58

RP 59

0000:6b:2.0

RP 60

RP 61

RP 62

RP 63

The mapping is only valid for the BDFs of VFs on the host.

The service provided on a ring-pair varies depending on the configuration. The configuration for a given device can be queried and set using cfg_services. See testing/sysfs-driver-qat for details.

The following table reports how ring pairs are mapped to VFs on the PF 0000:6b:0.0 configured for sym;asym or asym;sym:

PCI BDF/VF

RP0/service

RP1/service

RP2/service

RP3/service

0000:6b:0.1

RP 0 asym

RP 1 sym

RP 2 asym

RP 3 sym

0000:6b:0.2

RP 4 asym

RP 5 sym

RP 6 asym

RP 7 sym

0000:6b:0.3

RP 8 asym

RP 9 sym

RP10 asym

RP11 sym

...

...

...

...

...

All VFs follow the same pattern.

The following table reports how ring pairs are mapped to VFs on the PF 0000:6b:0.0 configured for dc:

PCI BDF/VF

RP0/service

RP1/service

RP2/service

RP3/service

0000:6b:0.1

RP 0 dc

RP 1 dc

RP 2 dc

RP 3 dc

0000:6b:0.2

RP 4 dc

RP 5 dc

RP 6 dc

RP 7 dc

0000:6b:0.3

RP 8 dc

RP 9 dc

RP10 dc

RP11 dc

...

...

...

...

...

The mapping of a RP to a service can be retrieved using rp2srv from sysfs. See testing/sysfs-driver-qat for details.

This attribute is only available for qat_4xxx devices.

/sys/kernel/debug/scmi/<n>/atomic_threshold_us

Defined on file debugfs-scmi

An optional time value, expressed in microseconds, representing, on this SCMI instance <n>, the threshold above which any SCMI command, advertised to have an higher-than-threshold execution latency, should not be considered for atomic mode of operation, even if requested.

Users: Debugging, any userspace test suite

/sys/kernel/debug/scmi/<n>/instance_name

Defined on file debugfs-scmi

The name of the underlying SCMI instance <n> described by all the debugfs accessors rooted at /sys/kernel/debug/scmi/<n>, expressed as the full name of the top DT SCMI node under which this SCMI instance is rooted.

Users: Debugging, any userspace test suite

/sys/kernel/debug/scmi/<n>/raw/channels/<m>/message

Defined on file debugfs-scmi-raw

SCMI Raw synchronous message injection/snooping facility; write a complete SCMI synchronous command message (header included) in little-endian binary format to have it sent to the configured backend SCMI server for instance <n> through the <m> transport channel. Any subsequently received response can be read from this same entry if it arrived on channel <m> within the configured timeout. Each write to the entry causes one command request to be built and sent while the replies are read back one message at time (receiving an EOF at each message boundary). Channel identifier <m> matches the SCMI protocol number which has been associated with this transport channel in the DT description, with base protocol number 0x10 being the default channel for this instance. Note that these per-channel entries rooted at <..>/channels exist only if the transport is configured to have more than one default channel.

Users: Debugging, any userspace test suite

/sys/kernel/debug/scmi/<n>/raw/channels/<m>/message_async

Defined on file debugfs-scmi-raw

SCMI Raw asynchronous message injection/snooping facility; write a complete SCMI asynchronous command message (header included) in little-endian binary format to have it sent to the configured backend SCMI server for instance <n> through the <m> transport channel. Any subsequently received response can be read from this same entry if it arrived on channel <m> within the configured timeout. Any additional delayed response received afterwards can be read from this same entry too if it arrived within the configured timeout. Each write to the entry causes one command request to be built and sent while the replies are read back one message at time (receiving an EOF at each message boundary). Channel identifier <m> matches the SCMI protocol number which has been associated with this transport channel in the DT description, with base protocol number 0x10 being the default channel for this instance. Note that these per-channel entries rooted at <..>/channels exist only if the transport is configured to have more than one default channel.

Users: Debugging, any userspace test suite

/sys/kernel/debug/scmi/<n>/raw/errors

Defined on file debugfs-scmi-raw

SCMI Raw message errors facility; any kind of timed-out or generally unexpectedly received SCMI message, for instance <n>, can be read from this entry. Each read gives back one message at time (receiving an EOF at each message boundary).

Users: Debugging, any userspace test suite

/sys/kernel/debug/scmi/<n>/raw/message

Defined on file debugfs-scmi-raw

SCMI Raw synchronous message injection/snooping facility; write a complete SCMI synchronous command message (header included) in little-endian binary format to have it sent to the configured backend SCMI server for instance <n>. Any subsequently received response can be read from this same entry if it arrived within the configured timeout. Each write to the entry causes one command request to be built and sent while the replies are read back one message at time (receiving an EOF at each message boundary).

Users: Debugging, any userspace test suite

/sys/kernel/debug/scmi/<n>/raw/message_async

Defined on file debugfs-scmi-raw

SCMI Raw asynchronous message injection/snooping facility; write a complete SCMI asynchronous command message (header included) in little-endian binary format to have it sent to the configured backend SCMI server for instance <n>. Any subsequently received response can be read from this same entry if it arrived within the configured timeout. Any additional delayed response received afterwards can be read from this same entry too if it arrived within the configured timeout. Each write to the entry causes one command request to be built and sent while the replies are read back one message at time (receiving an EOF at each message boundary).

Users: Debugging, any userspace test suite

/sys/kernel/debug/scmi/<n>/raw/notification

Defined on file debugfs-scmi-raw

SCMI Raw notification snooping facility; any notification emitted by the backend SCMI server, for instance <n>, can be read from this entry. Each read gives back one message at time (receiving an EOF at each message boundary).

Users: Debugging, any userspace test suite

/sys/kernel/debug/scmi/<n>/raw/reset

Defined on file debugfs-scmi-raw

SCMI Raw stack reset facility; writing a value to this entry causes the internal queues of any kind of received message, still pending to be read out for instance <n>, to be immediately flushed. Can be used to reset and clean the SCMI Raw stack between to different test-run.

Users: Debugging, any userspace test suite

/sys/kernel/debug/scmi/<n>/transport/is_atomic

Defined on file debugfs-scmi

A boolean stating if the transport configured on the underlying SCMI instance <n> is capable of atomic mode of operation.

Users: Debugging, any userspace test suite

/sys/kernel/debug/scmi/<n>/transport/max_msg_size

Defined on file debugfs-scmi

Max message size of allowed SCMI messages for the currently configured SCMI transport for instance <n>.

Users: Debugging, any userspace test suite

/sys/kernel/debug/scmi/<n>/transport/max_rx_timeout_ms

Defined on file debugfs-scmi

Timeout in milliseconds allowed for SCMI synchronous replies for the currently configured SCMI transport for instance <n>.

Users: Debugging, any userspace test suite

/sys/kernel/debug/scmi/<n>/transport/rx_max_msg

Defined on file debugfs-scmi

Max number of concurrently allowed in-flight SCMI messages for the currently configured SCMI transport for instance <n> on the RX channels.

Users: Debugging, any userspace test suite

/sys/kernel/debug/scmi/<n>/transport/tx_max_msg

Defined on file debugfs-scmi

Max number of concurrently allowed in-flight SCMI messages for the currently configured SCMI transport for instance <n> on the TX channels.

Users: Debugging, any userspace test suite

/sys/kernel/debug/scmi/<n>/transport/type

Defined on file debugfs-scmi

A string representing the type of transport configured for this SCMI instance <n>.

Users: Debugging, any userspace test suite

/sys/kernel/debug/tpmi-<n>/pfs_dump

Defined on file debugfs-tpmi

The PFS (PM Feature Structure) table, shows details of each power management feature. This includes: tpmi_id, number of entries, entry size, offset, vsec offset, lock status and disabled status.

Users: Debugging, any user space test suite

/sys/kernel/debug/tpmi-<n>/plr/domain<n>/status

Defined on file debugfs-tpmi

Shows the currently active Performance Limit Reasons for die level and the individual CPUs under the die. The contents of this file are sticky, and clearing all the statuses can be done by writing “0n” to this file.

/sys/kernel/debug/tpmi-<n>/tpmi-id-<n>/mem_dump

Defined on file debugfs-tpmi

Shows the memory dump of the MMIO region for a TPMI ID.

Users: Debugging, any user space test suite

/sys/kernel/debug/tpmi-<n>/tpmi-id-<n>/mem_write

Defined on file debugfs-tpmi

Allows to write at any offset. It doesn’t check for Read/Write access as hardware will not allow to write at read-only memory. This write is at offset multiples of 4. The format is instance,offset,contents. Example: echo 0,0x20,0xff > mem_write echo 1,64,64 > mem_write

Users: Debugging, any user space test suite

/sys/kernel/debug/turris-mox-rwtm/do_sign

Defined on file debugfs-turris-mox-rwtm

(Write)

Message to sign with the ECDSA private key stored in device’s OTP. The message must be exactly 64 bytes (since this is intended for SHA-512 hashes).

(Read)

The resulting signature, 136 bytes. This contains the R and S values of the ECDSA signature, both in big-endian format.

/sys/kernel/debug/vfio

Defined on file debugfs-vfio

This debugfs file directory is used for debugging of vfio devices, it’s a common directory for all vfio devices. Vfio core will create a device subdirectory under this directory.

/sys/kernel/debug/vfio/<device>/migration

Defined on file debugfs-vfio

This debugfs file directory is used for debugging of vfio devices that support live migration. The debugfs of each vfio device that supports live migration could be created under this directory.

/sys/kernel/debug/vfio/<device>/migration/state

Defined on file debugfs-vfio

Read the live migration status of the vfio device. The contents of the state file reflects the migration state relative to those defined in the vfio_device_mig_state enum

/sys/kernel/debug/wilco_ec/h1_gpio

Defined on file debugfs-wilco-ec

As part of Chrome OS’s FAFT (Fully Automated Firmware Testing) tests, we need to ensure that the H1 chip is properly setting some GPIO lines. The h1_gpio attribute exposes the state of the lines: - ENTRY_TO_FACT_MODE in BIT(0) - SPI_CHROME_SEL in BIT(1)

Output will formatted with “0x%02xn”.

/sys/kernel/debug/wilco_ec/raw

Defined on file debugfs-wilco-ec

Write and read raw mailbox commands to the EC.

You can write a hexadecimal sentence to raw, and that series of bytes will be sent to the EC. Then, you can read the bytes of response by reading from raw.

For writing, bytes 0-1 indicate the message type, one of enum wilco_ec_msg_type. Byte 2+ consist of the data passed in the request, starting at MBOX[0]. At least three bytes are required for writing, two for the type and at least a single byte of data.

Example:

// Request EC info type 3 (EC firmware build date)
// Corresponds with sending type 0x00f0 with
// MBOX = [38, 00, 03, 00]
$ echo 00 f0 38 00 03 00 > /sys/kernel/debug/wilco_ec/raw
// View the result. The decoded ASCII result "12/21/18" is
// included after the raw hex.
// Corresponds with MBOX = [00, 00, 31, 32, 2f, 32, 31, 38, ...]
$ cat /sys/kernel/debug/wilco_ec/raw
00 00 31 32 2f 32 31 2f 31 38 00 38 00 01 00 2f 00  ..12/21/18.8...

Note that the first 16 bytes of the received MBOX[] will be printed, even if some of the data is junk, and skipping bytes 17 to 32. It is up to you to know how many of the first bytes of data are the actual response.

/sys/kernel/dmabuf/buffers

Defined on file sysfs-kernel-dmabuf-buffers

The /sys/kernel/dmabuf/buffers directory contains a snapshot of the internal state of every DMA-BUF. /sys/kernel/dmabuf/buffers/<inode_number> will contain the statistics for the DMA-BUF with the unique inode number <inode_number>

Users: kernel memory tuning/debugging tools

/sys/kernel/dmabuf/buffers/<inode_number>/exporter_name

Defined on file sysfs-kernel-dmabuf-buffers

This file is read-only and contains the name of the exporter of the DMA-BUF.

/sys/kernel/dmabuf/buffers/<inode_number>/size

Defined on file sysfs-kernel-dmabuf-buffers

This file is read-only and specifies the size of the DMA-BUF in bytes.

/sys/kernel/fadump/*

Defined on file sysfs-kernel-fadump

The /sys/kernel/fadump/* is a collection of FADump sysfs file provide information about the configuration status of Firmware Assisted Dump (FADump).

/sys/kernel/fadump/bootargs_append

Defined on file sysfs-kernel-fadump

read/write This is a special sysfs file available to setup additional parameters to be passed to capture kernel.

/sys/kernel/fadump/enabled

Defined on file sysfs-kernel-fadump

read only Primarily used to identify whether the FADump is enabled in the kernel or not. User: Kdump service

/sys/kernel/fadump/hotplug_ready

Defined on file sysfs-kernel-fadump

read only Kdump udev rule re-registers fadump on memory add/remove events, primarily to update the elfcorehdr. This sysfs indicates the kdump udev rule that fadump re-registration is not required on memory add/remove events because elfcorehdr is now prepared in the second/fadump kernel. User: kexec-tools

/sys/kernel/fadump/mem_reserved

Defined on file sysfs-kernel-fadump

read only Provide information about the amount of memory reserved by FADump to save the crash dump in bytes.

/sys/kernel/fadump/registered

Defined on file sysfs-kernel-fadump

read/write Helps to control the dump collect feature from userspace. Setting 1 to this file enables the system to collect the dump and 0 to disable it. User: Kdump service

/sys/kernel/fadump/release_mem

Defined on file sysfs-kernel-fadump

write only This is a special sysfs file and only available when the system is booted to capture the vmcore using FADump. It is used to release the memory reserved by FADump to save the crash dump.

/sys/kernel/fscaps

Defined on file sysfs-kernel-fscaps

Shows whether file system capabilities are honored when executing a binary

/sys/kernel/iommu_groups/

Defined on file sysfs-kernel-iommu_groups

/sys/kernel/iommu_groups/ contains a number of sub- directories, each representing an IOMMU group. The name of the sub-directory matches the iommu_group_id() for the group, which is an integer value. Within each subdirectory is another directory named “devices” with links to the sysfs devices contained in this group. The group directory also optionally contains a “name” file if the IOMMU driver has chosen to register a more common name for the group.

/sys/kernel/iommu_groups/<grp_id>/type

Defined on file sysfs-kernel-iommu_groups

/sys/kernel/iommu_groups/<grp_id>/type shows the type of default domain in use by iommu for this group. See include/linux/iommu.h for possible read values. A privileged user could request kernel to change the group type by writing to this file. Valid write values:

DMA

All the DMA transactions from the device in this group are translated by the iommu.

DMA-FQ

As above, but using batched invalidation to lazily remove translations after use. This may offer reduced overhead at the cost of reduced memory protection.

identity

All the DMA transactions from the device in this group are not translated by the iommu. Maximum performance but zero protection.

auto

Change to the type the device was booted with.

The default domain type of a group may be modified only when

  • The device in the group is not bound to any device driver. So, the users must unbind the appropriate driver before changing the default domain type.

Unbinding a device driver will take away the driver’s control over the device and if done on devices that host root file system could lead to catastrophic effects (the users might need to reboot the machine to get it to normal state). So, it’s expected that the users understand what they’re doing.

/sys/kernel/iommu_groups/reserved_regions

Defined on file sysfs-kernel-iommu_groups

/sys/kernel/iommu_groups/reserved_regions list IOVA regions that are reserved. Not necessarily all reserved regions are listed. This is typically used to output direct-mapped, MSI, non mappable regions. Each region is described on a single line: the 1st field is the base IOVA, the second is the end IOVA and the third field describes the type of the region.

Since kernel 5.3, in case an RMRR is used only by graphics or USB devices it is now exposed as “direct-relaxable” instead of “direct”. In device assignment use case, for instance, those RMRR are considered to be relaxable and safe.

/sys/kernel/irq

Defined on file sysfs-kernel-irq

Directory containing information about the system’s IRQs. Specifically, data from the associated struct irq_desc. The information here is similar to that in /proc/interrupts but in a more machine-friendly format. This directory contains one subdirectory for each Linux IRQ number.

/sys/kernel/irq/<irq>/actions

Defined on file sysfs-kernel-irq

The IRQ action chain. A comma-separated list of zero or more device names associated with this interrupt.

/sys/kernel/irq/<irq>/chip_name

Defined on file sysfs-kernel-irq

Human-readable chip name supplied by the associated device driver.

/sys/kernel/irq/<irq>/hwirq

Defined on file sysfs-kernel-irq

When interrupt translation domains are used, this file contains the underlying hardware IRQ number used for this Linux IRQ.

/sys/kernel/irq/<irq>/name

Defined on file sysfs-kernel-irq

Human-readable flow handler name as defined by the irq chip driver.

/sys/kernel/irq/<irq>/per_cpu_count

Defined on file sysfs-kernel-irq

The number of times the interrupt has fired since boot. This is a comma-separated list of counters; one per CPU in CPU id order. NOTE: This file consistently shows counters for all CPU ids. This differs from the behavior of /proc/interrupts which only shows counters for online CPUs.

/sys/kernel/irq/<irq>/type

Defined on file sysfs-kernel-irq

The type of the interrupt. Either the string ‘level’ or ‘edge’.

/sys/kernel/irq/<irq>/wakeup

Defined on file sysfs-kernel-irq

The wakeup state of the interrupt. Either the string ‘enabled’ or ‘disabled’.

/sys/kernel/livepatch

Defined on file sysfs-kernel-livepatch

Interface for kernel live patching

The /sys/kernel/livepatch directory contains subdirectories for each loaded live patch module.

/sys/kernel/livepatch/<patch>

Defined on file sysfs-kernel-livepatch

The patch directory contains subdirectories for each kernel object (vmlinux or a module) in which it patched functions.

/sys/kernel/livepatch/<patch>/<object>

Defined on file sysfs-kernel-livepatch

The object directory contains subdirectories for each function that is patched within the object.

/sys/kernel/livepatch/<patch>/<object>/<function,sympos>

Defined on file sysfs-kernel-livepatch

The function directory contains attributes regarding the properties and state of the patched function.

The directory name contains the patched function name and a sympos number corresponding to the nth occurrence of the symbol name in kallsyms for the patched object.

There are currently no such attributes.

/sys/kernel/livepatch/<patch>/<object>/patched

Defined on file sysfs-kernel-livepatch

An attribute which indicates whether the object is currently patched.

/sys/kernel/livepatch/<patch>/enabled

Defined on file sysfs-kernel-livepatch

A writable attribute that indicates whether the patched code is currently applied. Writing 0 will disable the patch while writing 1 will re-enable the patch.

/sys/kernel/livepatch/<patch>/force

Defined on file sysfs-kernel-livepatch

A writable attribute that allows administrator to affect the course of an existing transition. Writing 1 clears TIF_PATCH_PENDING flag of all tasks and thus forces the tasks to the patched or unpatched state. Administrator should not use this feature without a clearance from a patch distributor. Removal (rmmod) of patch modules is permanently disabled when the feature is used. See Livepatch for more information.

/sys/kernel/livepatch/<patch>/replace

Defined on file sysfs-kernel-livepatch

An attribute which indicates whether the patch supports atomic-replace.

/sys/kernel/livepatch/<patch>/transition

Defined on file sysfs-kernel-livepatch

An attribute which indicates whether the patch is currently in transition.

/sys/kernel/mm

Defined on file sysfs-kernel-mm

/sys/kernel/mm/ should contain any and all VM related information in /sys/kernel/.

/sys/kernel/mm/cma/

Defined on file sysfs-kernel-mm-cma

/sys/kernel/mm/cma/ contains a subdirectory for each CMA heap name (also sometimes called CMA areas).

Each CMA heap subdirectory (that is, each /sys/kernel/mm/cma/<cma-heap-name> directory) contains the following items:

alloc_pages_success alloc_pages_fail

/sys/kernel/mm/cma/<cma-heap-name>/alloc_pages_fail

Defined on file sysfs-kernel-mm-cma

the number of pages CMA API failed to allocate

/sys/kernel/mm/cma/<cma-heap-name>/alloc_pages_success

Defined on file sysfs-kernel-mm-cma

the number of pages CMA API succeeded to allocate

/sys/kernel/mm/cma/<cma-heap-name>/release_pages_success

Defined on file sysfs-kernel-mm-cma

the number of pages CMA API succeeded to release

/sys/kernel/mm/damon/

Defined on file sysfs-kernel-mm-damon

Interface for Data Access MONitoring (DAMON). Contains files for controlling DAMON. For more details on DAMON itself, please refer to DAMON: Data Access MONitor.

/sys/kernel/mm/damon/admin/

Defined on file sysfs-kernel-mm-damon

Interface for privileged users of DAMON. Contains files for controlling DAMON that aimed to be used by privileged users.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/avail_operations

Defined on file sysfs-kernel-mm-damon

Reading this file returns the available monitoring operations sets on the currently running kernel.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/monitoring_attrs/intervals/aggr_us

Defined on file sysfs-kernel-mm-damon

Writing a value to this file sets the aggregation interval of the DAMON context in microseconds as the value. Reading this file returns the value.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/monitoring_attrs/intervals/sample_us

Defined on file sysfs-kernel-mm-damon

Writing a value to this file sets the sampling interval of the DAMON context in microseconds as the value. Reading this file returns the value.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/monitoring_attrs/intervals/update_us

Defined on file sysfs-kernel-mm-damon

Writing a value to this file sets the update interval of the DAMON context in microseconds as the value. Reading this file returns the value.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/monitoring_attrs/nr_regions/max

Defined on file sysfs-kernel-mm-damon

Writing a value to this file sets the maximum number of monitoring regions of the DAMON context as the value. Reading this file returns the value.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/monitoring_attrs/nr_regions/min

Defined on file sysfs-kernel-mm-damon

Writing a value to this file sets the minimum number of monitoring regions of the DAMON context as the value. Reading this file returns the value.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/operations

Defined on file sysfs-kernel-mm-damon

Writing a keyword for a monitoring operations set (‘vaddr’ for virtual address spaces monitoring, ‘fvaddr’ for fixed virtual address ranges monitoring, and ‘paddr’ for the physical address space monitoring) to this file makes the context to use the operations set. Reading the file returns the keyword for the operations set the context is set to use.

Note that only the operations sets that listed in ‘avail_operations’ file are valid inputs.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/access_pattern/age/max

Defined on file sysfs-kernel-mm-damon

Writing to and reading from this file sets and gets the maximum ‘age’ of the scheme’s target regions.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/access_pattern/age/min

Defined on file sysfs-kernel-mm-damon

Writing to and reading from this file sets and gets the minimum ‘age’ of the scheme’s target regions.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/access_pattern/nr_accesses/max

Defined on file sysfs-kernel-mm-damon

Writing to and reading from this file sets and gets the maximum ‘nr_accesses’ of the scheme’s target regions.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/access_pattern/nr_accesses/min

Defined on file sysfs-kernel-mm-damon

Writing to and reading from this file sets and gets the manimum ‘nr_accesses’ of the scheme’s target regions.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/access_pattern/sz/max

Defined on file sysfs-kernel-mm-damon

Writing to and reading from this file sets and gets the maximum size of the scheme’s target regions in bytes.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/access_pattern/sz/min

Defined on file sysfs-kernel-mm-damon

Writing to and reading from this file sets and gets the minimum size of the scheme’s target regions in bytes.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/action

Defined on file sysfs-kernel-mm-damon

Writing to and reading from this file sets and gets the action of the scheme.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/apply_interval_us

Defined on file sysfs-kernel-mm-damon

Writing a value to this file sets the action apply interval of the scheme in microseconds. Reading this file returns the value.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/filters/<F>/addr_end

Defined on file sysfs-kernel-mm-damon

If ‘addr’ is written to the ‘type’ file, writing to or reading from this file sets or gets the end address of the address range for the filter.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/filters/<F>/addr_start

Defined on file sysfs-kernel-mm-damon

If ‘addr’ is written to the ‘type’ file, writing to or reading from this file sets or gets the start address of the address range for the filter.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/filters/<F>/matching

Defined on file sysfs-kernel-mm-damon

Writing ‘Y’ or ‘N’ to this file sets whether to filter out pages that do or do not match to the ‘type’ and ‘memcg_path’, respectively. Filter out means the action of the scheme will not be applied to.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/filters/<F>/memcg_path

Defined on file sysfs-kernel-mm-damon

If ‘memcg’ is written to the ‘type’ file, writing to and reading from this file sets and gets the path to the memory cgroup of the interest.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/filters/<F>/target_idx

Defined on file sysfs-kernel-mm-damon

If ‘target’ is written to the ‘type’ file, writing to or reading from this file sets or gets the index of the DAMON monitoring target of the interest.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/filters/<F>/type

Defined on file sysfs-kernel-mm-damon

Writing to and reading from this file sets and gets the type of the memory of the interest. ‘anon’ for anonymous pages, ‘memcg’ for specific memory cgroup, ‘young’ for young pages, ‘addr’ for address range (an open-ended interval), or ‘target’ for DAMON monitoring target can be written and read.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/filters/nr_filters

Defined on file sysfs-kernel-mm-damon

Writing a number ‘N’ to this file creates the number of directories for setting filters of the scheme named ‘0’ to ‘N-1’ under the filters/ directory.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/quotas/bytes

Defined on file sysfs-kernel-mm-damon

Writing to and reading from this file sets and gets the size quota of the scheme in bytes.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/quotas/effective_bytes

Defined on file sysfs-kernel-mm-damon

Reading from this file gets the effective size quota of the scheme in bytes, which adjusted for the time quota and goals.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/quotas/goals/<G>/current_value

Defined on file sysfs-kernel-mm-damon

Writing to and reading from this file sets and gets the current value of the goal metric.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/quotas/goals/<G>/target_metric

Defined on file sysfs-kernel-mm-damon

Writing to and reading from this file sets and gets the quota auto-tuning goal metric.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/quotas/goals/<G>/target_value

Defined on file sysfs-kernel-mm-damon

Writing to and reading from this file sets and gets the target value of the goal metric.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/quotas/goals/nr_goals

Defined on file sysfs-kernel-mm-damon

Writing a number ‘N’ to this file creates the number of directories for setting automatic tuning of the scheme’s aggressiveness named ‘0’ to ‘N-1’ under the goals/ directory.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/quotas/ms

Defined on file sysfs-kernel-mm-damon

Writing to and reading from this file sets and gets the time quota of the scheme in milliseconds.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/quotas/reset_interval_ms

Defined on file sysfs-kernel-mm-damon

Writing to and reading from this file sets and gets the quotas charge reset interval of the scheme in milliseconds.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/quotas/weights/age_permil

Defined on file sysfs-kernel-mm-damon

Writing to and reading from this file sets and gets the under-quota limit regions prioritization weight for ‘age’ in permil.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/quotas/weights/nr_accesses_permil

Defined on file sysfs-kernel-mm-damon

Writing to and reading from this file sets and gets the under-quota limit regions prioritization weight for ‘nr_accesses’ in permil.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/quotas/weights/sz_permil

Defined on file sysfs-kernel-mm-damon

Writing to and reading from this file sets and gets the under-quota limit regions prioritization weight for ‘size’ in permil.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/stats/nr_applied

Defined on file sysfs-kernel-mm-damon

Reading this file returns the number of regions that the action of the scheme has successfully applied.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/stats/nr_tried

Defined on file sysfs-kernel-mm-damon

Reading this file returns the number of regions that the action of the scheme has tried to be applied.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/stats/qt_exceeds

Defined on file sysfs-kernel-mm-damon

Reading this file returns the number of the exceed events of the scheme’s quotas.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/stats/sz_applied

Defined on file sysfs-kernel-mm-damon

Reading this file returns the total size of regions that the action of the scheme has successfully applied in bytes.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/stats/sz_tried

Defined on file sysfs-kernel-mm-damon

Reading this file returns the total size of regions that the action of the scheme has tried to be applied in bytes.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/target_nid

Defined on file sysfs-kernel-mm-damon

Action’s target NUMA node id. Supported by only relevant actions.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/tried_regions/<R>/age

Defined on file sysfs-kernel-mm-damon

Reading this file returns the ‘age’ of a memory region that corresponding DAMON-based Operation Scheme’s action has tried to be applied.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/tried_regions/<R>/end

Defined on file sysfs-kernel-mm-damon

Reading this file returns the end address of a memory region that corresponding DAMON-based Operation Scheme’s action has tried to be applied.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/tried_regions/<R>/nr_accesses

Defined on file sysfs-kernel-mm-damon

Reading this file returns the ‘nr_accesses’ of a memory region that corresponding DAMON-based Operation Scheme’s action has tried to be applied.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/tried_regions/<R>/start

Defined on file sysfs-kernel-mm-damon

Reading this file returns the start address of a memory region that corresponding DAMON-based Operation Scheme’s action has tried to be applied.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/tried_regions/total_bytes

Defined on file sysfs-kernel-mm-damon

Reading this file returns the total amount of memory that corresponding DAMON-based Operation Scheme’s action has tried to be applied.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/watermarks/high

Defined on file sysfs-kernel-mm-damon

Writing to and reading from this file sets and gets the high watermark of the scheme in permil.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/watermarks/interval_us

Defined on file sysfs-kernel-mm-damon

Writing to and reading from this file sets and gets the metric check interval of the watermarks for the scheme in microseconds.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/watermarks/low

Defined on file sysfs-kernel-mm-damon

Writing to and reading from this file sets and gets the low watermark of the scheme in permil.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/watermarks/metric

Defined on file sysfs-kernel-mm-damon

Writing to and reading from this file sets and gets the metric of the watermarks for the scheme. The writable/readable keywords for this file are ‘none’ for disabling the watermarks feature, or ‘free_mem_rate’ for the system’s global free memory rate in permil.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/<S>/watermarks/mid

Defined on file sysfs-kernel-mm-damon

Writing to and reading from this file sets and gets the mid watermark of the scheme in permil.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/schemes/nr_schemes

Defined on file sysfs-kernel-mm-damon

Writing a number ‘N’ to this file creates the number of directories for controlling each DAMON-based operation scheme of the context named ‘0’ to ‘N-1’ under the schemes/ directory.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/targets/<T>/pid_target

Defined on file sysfs-kernel-mm-damon

Writing to and reading from this file sets and gets the pid of the target process if the context is for virtual address spaces monitoring, respectively.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/targets/<T>/regions/<R>/end

Defined on file sysfs-kernel-mm-damon

Writing to and reading from this file sets and gets the end address of the monitoring region.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/targets/<T>/regions/<R>/start

Defined on file sysfs-kernel-mm-damon

Writing to and reading from this file sets and gets the start address of the monitoring region.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/targets/<T>/regions/nr_regions

Defined on file sysfs-kernel-mm-damon

Writing a number ‘N’ to this file creates the number of directories for setting each DAMON target memory region of the context named ‘0’ to ‘N-1’ under the regions/ directory. In case of the virtual address space monitoring, DAMON automatically sets the target memory region based on the target processes’ mappings.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/<C>/targets/nr_targets

Defined on file sysfs-kernel-mm-damon

Writing a number ‘N’ to this file creates the number of directories for controlling each DAMON target of the context named ‘0’ to ‘N-1’ under the contexts/ directory.

/sys/kernel/mm/damon/admin/kdamonds/<K>/contexts/nr_contexts

Defined on file sysfs-kernel-mm-damon

Writing a number ‘N’ to this file creates the number of directories for controlling each DAMON context named ‘0’ to ‘N-1’ under the contexts/ directory.

/sys/kernel/mm/damon/admin/kdamonds/<K>/pid

Defined on file sysfs-kernel-mm-damon

Reading this file returns the pid of the kdamond if it is running.

/sys/kernel/mm/damon/admin/kdamonds/<K>/state

Defined on file sysfs-kernel-mm-damon

Writing ‘on’ or ‘off’ to this file makes the kdamond starts or stops, respectively. Reading the file returns the keywords based on the current status. Writing ‘commit’ to this file makes the kdamond reads the user inputs in the sysfs files except ‘state’ again. Writing ‘commit_schemes_quota_goals’ to this file makes the kdamond reads the quota goal files again. Writing ‘update_schemes_stats’ to the file updates contents of schemes stats files of the kdamond. Writing ‘update_schemes_tried_regions’ to the file updates contents of ‘tried_regions’ directory of every scheme directory of this kdamond. Writing ‘update_schemes_tried_bytes’ to the file updates only ‘.../tried_regions/total_bytes’ files of this kdamond. Writing ‘clear_schemes_tried_regions’ to the file removes contents of the ‘tried_regions’ directory. Writing ‘update_schemes_effective_quotas’ to the file updates ‘.../quotas/effective_bytes’ files of this kdamond.

/sys/kernel/mm/damon/admin/kdamonds/nr_kdamonds

Defined on file sysfs-kernel-mm-damon

Writing a number ‘N’ to this file creates the number of directories for controlling each DAMON worker thread (kdamond) named ‘0’ to ‘N-1’ under the kdamonds/ directory.

/sys/kernel/mm/hugepages/

Defined on file sysfs-kernel-mm-hugepages

/sys/kernel/mm/hugepages/ contains a number of subdirectories of the form hugepages-<size>kB, where <size> is the page size of the hugepages supported by the kernel/CPU combination.

Under these directories are a number of files:

  • nr_hugepages

  • nr_overcommit_hugepages

  • free_hugepages

  • surplus_hugepages

  • resv_hugepages

See HugeTLB Pages for details.

/sys/kernel/mm/ksm

Defined on file sysfs-kernel-mm-ksm

Interface for Kernel Samepage Merging (KSM)

/sys/kernel/mm/ksm/full_scans

/sys/kernel/mm/ksm/pages_shared

/sys/kernel/mm/ksm/pages_sharing

/sys/kernel/mm/ksm/pages_to_scan

/sys/kernel/mm/ksm/pages_unshared

/sys/kernel/mm/ksm/pages_volatile

/sys/kernel/mm/ksm/run

/sys/kernel/mm/ksm/sleep_millisecs

Defined on file sysfs-kernel-mm-ksm

Kernel Samepage Merging daemon sysfs interface

full_scans: how many times all mergeable areas have been scanned.

pages_shared: how many shared pages are being used.

pages_sharing: how many more sites are sharing them i.e. how much saved.

pages_to_scan: how many present pages to scan before ksmd goes to sleep.

pages_unshared: how many pages unique but repeatedly checked for merging.

pages_volatile: how many pages changing too fast to be placed in a tree.

run: write 0 to disable ksm, read 0 while ksm is disabled.

  • write 1 to run ksm, read 1 while ksm is running.

  • write 2 to disable ksm and unmerge all its pages.

sleep_millisecs: how many milliseconds ksm should sleep between scans.

See Kernel Samepage Merging for more information.

/sys/kernel/mm/ksm/general_profit

Defined on file sysfs-kernel-mm-ksm

Measure how effective KSM is. general_profit: how effective is KSM. The formula for the calculation is in Kernel Samepage Merging.

/sys/kernel/mm/ksm/merge_across_nodes

Defined on file sysfs-kernel-mm-ksm

Control merging pages across different NUMA nodes.

When it is set to 0 only pages from the same node are merged, otherwise pages from all nodes can be merged together (default).

/sys/kernel/mm/mempolicy/

Defined on file sysfs-kernel-mm-mempolicy

Interface for Mempolicy

/sys/kernel/mm/mempolicy/weighted_interleave/

Defined on file sysfs-kernel-mm-mempolicy-weighted-interleave

Configuration Interface for the Weighted Interleave policy

/sys/kernel/mm/mempolicy/weighted_interleave/nodeN

Defined on file sysfs-kernel-mm-mempolicy-weighted-interleave

Weight configuration interface for nodeN

The interleave weight for a memory node (N). These weights are utilized by tasks which have set their mempolicy to MPOL_WEIGHTED_INTERLEAVE.

These weights only affect new allocations, and changes at runtime will not cause migrations on already allocated pages.

The minimum weight for a node is always 1.

Minimum weight: 1 Maximum weight: 255

Writing an empty string or 0 will reset the weight to the system default. The system default may be set by the kernel or drivers at boot or during hotplug events.

/sys/kernel/mm/numa/

Defined on file sysfs-kernel-mm-numa

Interface for NUMA

/sys/kernel/mm/numa/demotion_enabled

Defined on file sysfs-kernel-mm-numa

Enable/disable demoting pages during reclaim

Page migration during reclaim is intended for systems with tiered memory configurations. These systems have multiple types of memory with varied performance characteristics instead of plain NUMA systems where the same kind of memory is found at varied distances. Allowing page migration during reclaim enables these systems to migrate pages from fast tiers to slow tiers when the fast tier is under pressure. This migration is performed before swap. It may move data to a NUMA node that does not fall into the cpuset of the allocating process which might be construed to violate the guarantees of cpusets. This should not be enabled on systems which need strict cpuset location guarantees.

/sys/kernel/mm/swap/

Defined on file sysfs-kernel-mm-swap

Interface for swapping

/sys/kernel/mm/swap/vma_ra_enabled

Defined on file sysfs-kernel-mm-swap

Enable/disable VMA based swap readahead.

If set to true, the VMA based swap readahead algorithm will be used for swappable anonymous pages mapped in a VMA, and the global swap readahead algorithm will be still used for tmpfs etc. other users. If set to false, the global swap readahead algorithm will be used for all swappable pages.

/sys/kernel/mm/transparent_hugepage/

Defined on file sysfs-kernel-mm-transparent-hugepage

/sys/kernel/mm/transparent_hugepage/ contains a number of files and subdirectories,

  • defrag

  • enabled

  • hpage_pmd_size

  • khugepaged

  • shmem_enabled

  • use_zero_page

  • subdirectories of the form hugepages-<size>kB, where <size> is the page size of the hugepages supported by the kernel/CPU combination.

See Transparent Hugepage Support for details.

/sys/kernel/oops_count

Defined on file sysfs-kernel-oops_count

Shows how many times the system has Oopsed since last boot.

/sys/kernel/profiling

Defined on file sysfs-profiling

/sys/kernel/profiling is the runtime equivalent of the boot-time profile= option.

You can get the same effect running:

echo 2 > /sys/kernel/profiling

as you would by issuing profile=2 on the boot command line.

/sys/kernel/reboot

Defined on file sysfs-kernel-reboot

Interface to set the kernel reboot behavior, similarly to what can be done via the reboot= cmdline option. (see The kernel’s command-line parameters)

/sys/kernel/reboot/cpu

Defined on file sysfs-kernel-reboot

CPU number to use to reboot.

/sys/kernel/reboot/force

Defined on file sysfs-kernel-reboot

Don’t wait for any other CPUs on reboot and avoid anything that could hang.

/sys/kernel/reboot/mode

Defined on file sysfs-kernel-reboot

Reboot mode. Valid values are: cold warm hard soft gpio

/sys/kernel/reboot/type

Defined on file sysfs-kernel-reboot

Reboot type. Valid values are: bios acpi kbd triple efi pci

/sys/kernel/security/*/evm/evm_xattrs

Defined on file evm

Shows the set of extended attributes used to calculate or validate the EVM signature, and allows additional attributes to be added at runtime. Any signatures generated after additional attributes are added (and on files possessing those additional attributes) will only be valid if the same additional attributes are configured on system boot. Writing a single period (.) will lock the xattr list from any further modification.

/sys/kernel/security/*/ima/policy

Defined on file ima_policy

The Trusted Computing Group(TCG) runtime Integrity Measurement Architecture(IMA) maintains a list of hash values of executables and other sensitive system files loaded into the run-time of this system. At runtime, the policy can be constrained based on LSM specific data. Policies are loaded into the securityfs file ima/policy by opening the file, writing the rules one at a time and then closing the file. The new policy takes effect after the file ima/policy is closed.

IMA appraisal, if configured, uses these file measurements for local measurement appraisal.

rule format: action [condition ...]

action: measure | dont_measure | appraise | dont_appraise |
        audit | hash | dont_hash
condition:= base | lsm  [option]
      base:   [[func=] [mask=] [fsmagic=] [fsuuid=] [fsname=]
              [uid=] [euid=] [gid=] [egid=]
              [fowner=] [fgroup=]]
      lsm:    [[subj_user=] [subj_role=] [subj_type=]
               [obj_user=] [obj_role=] [obj_type=]]
      option: [digest_type=] [template=] [permit_directio]
              [appraise_type=] [appraise_flag=]
              [appraise_algos=] [keyrings=]
base:
      func:= [BPRM_CHECK][MMAP_CHECK][CREDS_CHECK][FILE_CHECK][MODULE_CHECK]
              [FIRMWARE_CHECK]
              [KEXEC_KERNEL_CHECK] [KEXEC_INITRAMFS_CHECK]
              [KEXEC_CMDLINE] [KEY_CHECK] [CRITICAL_DATA]
              [SETXATTR_CHECK][MMAP_CHECK_REQPROT]
      mask:= [[^]MAY_READ] [[^]MAY_WRITE] [[^]MAY_APPEND]
             [[^]MAY_EXEC]
      fsmagic:= hex value
      fsuuid:= file system UUID (e.g 8bcbe394-4f13-4144-be8e-5aa9ea2ce2f6)
      uid:= decimal value
      euid:= decimal value
      gid:= decimal value
      egid:= decimal value
      fowner:= decimal value
      fgroup:= decimal value
lsm:  are LSM specific
option:
      appraise_type:= [imasig] | [imasig|modsig] | [sigv3]
          where 'imasig' is the original or the signature
              format v2.
          where 'modsig' is an appended signature,
          where 'sigv3' is the signature format v3. (Currently
              limited to fsverity digest based signatures
              stored in security.ima xattr. Requires
              specifying "digest_type=verity" first.)

      appraise_flag:= [check_blacklist] (deprecated)
      Setting the check_blacklist flag is no longer necessary.
      All appraisal functions set it by default.
      digest_type:= verity
          Require fs-verity's file digest instead of the
          regular IMA file hash.
      keyrings:= list of keyrings
      (eg, .builtin_trusted_keys|.ima). Only valid
      when action is "measure" and func is KEY_CHECK.
      template:= name of a defined IMA template type
      (eg, ima-ng). Only valid when action is "measure".
      pcr:= decimal value
      label:= [selinux]|[kernel_info]|[data_label]
      data_label:= a unique string used for grouping and limiting critical data.
      For example, "selinux" to measure critical data for SELinux.
      appraise_algos:= comma-separated list of hash algorithms
      For example, "sha256,sha512" to only accept to appraise
      files where the security.ima xattr was hashed with one
      of these two algorithms.

default policy:
      # PROC_SUPER_MAGIC
      dont_measure fsmagic=0x9fa0
      dont_appraise fsmagic=0x9fa0
      # SYSFS_MAGIC
      dont_measure fsmagic=0x62656572
      dont_appraise fsmagic=0x62656572
      # DEBUGFS_MAGIC
      dont_measure fsmagic=0x64626720
      dont_appraise fsmagic=0x64626720
      # TMPFS_MAGIC
      dont_measure fsmagic=0x01021994
      dont_appraise fsmagic=0x01021994
      # RAMFS_MAGIC
      dont_appraise fsmagic=0x858458f6
      # DEVPTS_SUPER_MAGIC
      dont_measure fsmagic=0x1cd1
      dont_appraise fsmagic=0x1cd1
      # BINFMTFS_MAGIC
      dont_measure fsmagic=0x42494e4d
      dont_appraise fsmagic=0x42494e4d
      # SECURITYFS_MAGIC
      dont_measure fsmagic=0x73636673
      dont_appraise fsmagic=0x73636673
      # SELINUX_MAGIC
      dont_measure fsmagic=0xf97cff8c
      dont_appraise fsmagic=0xf97cff8c
      # CGROUP_SUPER_MAGIC
      dont_measure fsmagic=0x27e0eb
      dont_appraise fsmagic=0x27e0eb
      # NSFS_MAGIC
      dont_measure fsmagic=0x6e736673
      dont_appraise fsmagic=0x6e736673

      measure func=BPRM_CHECK
      measure func=FILE_MMAP mask=MAY_EXEC
      measure func=FILE_CHECK mask=MAY_READ uid=0
      measure func=MODULE_CHECK
      measure func=FIRMWARE_CHECK
      appraise fowner=0

The default policy measures all executables in bprm_check, all files mmapped executable in file_mmap, and all files open for read by root in do_filp_open. The default appraisal policy appraises all files owned by root.

Examples of LSM specific definitions:

SELinux:

dont_measure obj_type=var_log_t
dont_appraise obj_type=var_log_t
dont_measure obj_type=auditd_log_t
dont_appraise obj_type=auditd_log_t
measure subj_user=system_u func=FILE_CHECK mask=MAY_READ
measure subj_role=system_r func=FILE_CHECK mask=MAY_READ

Smack:

measure subj_user=_ func=FILE_CHECK mask=MAY_READ

Example of measure rules using alternate PCRs:

measure func=KEXEC_KERNEL_CHECK pcr=4
measure func=KEXEC_INITRAMFS_CHECK pcr=5

Example of appraise rule allowing modsig appended signatures:

appraise func=KEXEC_KERNEL_CHECK appraise_type=imasig|modsig

Example of measure rule using KEY_CHECK to measure all keys:

measure func=KEY_CHECK

Example of measure rule using KEY_CHECK to only measure keys added to .builtin_trusted_keys or .ima keyring:

measure func=KEY_CHECK keyrings=.builtin_trusted_keys|.ima

Example of the special SETXATTR_CHECK appraise rule, that restricts the hash algorithms allowed when writing to the security.ima xattr of a file:

appraise func=SETXATTR_CHECK appraise_algos=sha256,sha384,sha512

Example of a ‘measure’ rule requiring fs-verity’s digests with indication of type of digest in the measurement list.

measure func=FILE_CHECK digest_type=verity

template=ima-ngv2

Example of ‘measure’ and ‘appraise’ rules requiring fs-verity signatures (format version 3) stored in security.ima xattr.

The ‘measure’ rule specifies the ‘ima-sigv3’ template option, which includes the indication of type of digest and the file signature in the measurement list.

measure func=BPRM_CHECK digest_type=verity

template=ima-sigv3

The ‘appraise’ rule specifies the type and signature format version (sigv3) required.

appraise func=BPRM_CHECK digest_type=verity

appraise_type=sigv3

All of these policy rules could, for example, be constrained either based on a filesystem’s UUID (fsuuid) or based on LSM labels.

/sys/kernel/security/evm

/sys/kernel/security/*/evm

Defined on file evm

EVM protects a file’s security extended attributes(xattrs) against integrity attacks. The initial method maintains an HMAC-sha1 value across the extended attributes, storing the value as the extended attribute ‘security.evm’.

EVM supports two classes of security.evm. The first is an HMAC-sha1 generated locally with a trusted/encrypted key stored in the Kernel Key Retention System. The second is a digital signature generated either locally or remotely using an asymmetric key. These keys are loaded onto root’s keyring using keyctl, and EVM is then enabled by echoing a value to <securityfs>/evm made up of the following bits:

Bit

Effect

0

Enable HMAC validation and creation

1

Enable digital signature validation

2

Permit modification of EVM-protected metadata at runtime. Not supported if HMAC validation and creation is enabled (deprecated).

31

Disable further runtime modification of EVM policy

For example:

echo 1 ><securityfs>/evm

will enable HMAC validation and creation

echo 0x80000003 ><securityfs>/evm

will enable HMAC and digital signature validation and HMAC creation and disable all further modification of policy.

echo 0x80000006 ><securityfs>/evm

will enable digital signature validation, permit modification of EVM-protected metadata and disable all further modification of policy. This option is now deprecated in favor of:

echo 0x80000002 ><securityfs>/evm

as the outstanding issues that prevent the usage of EVM portable signatures have been solved.

Echoing a value is additive, the new value is added to the existing initialization flags.

For example, after:

echo 2 ><securityfs>/evm

another echo can be performed:

echo 1 ><securityfs>/evm

and the resulting value will be 3.

Note that once an HMAC key has been loaded, it will no longer be possible to enable metadata modification. Signaling that an HMAC key has been loaded will clear the corresponding flag. For example, if the current value is 6 (2 and 4 set):

echo 1 ><securityfs>/evm

will set the new value to 3 (4 cleared).

Loading an HMAC key is the only way to disable metadata modification.

Until key loading has been signaled EVM can not create or validate the ‘security.evm’ xattr, but returns INTEGRITY_UNKNOWN. Loading keys and signaling EVM should be done as early as possible. Normally this is done in the initramfs, which has already been measured as part of the trusted boot. For more information on creating and loading existing trusted/encrypted keys, refer to: Trusted and Encrypted Keys. Both dracut (via 97masterkey and 98integrity) and systemd (via core/ima-setup) have support for loading keys at boot time.

/sys/kernel/slab

Defined on file sysfs-kernel-slab

The /sys/kernel/slab directory contains a snapshot of the internal state of the SLUB allocator for each cache. Certain files may be modified to change the behavior of the cache (and any cache it aliases, if any).

Users: kernel memory tuning tools

/sys/kernel/slab/<cache>/aliases

Defined on file sysfs-kernel-slab

The aliases file is read-only and specifies how many caches have merged into this cache.

/sys/kernel/slab/<cache>/align

Defined on file sysfs-kernel-slab

The align file is read-only and specifies the cache’s object alignment in bytes.

/sys/kernel/slab/<cache>/alloc_calls

Defined on file sysfs-kernel-slab

The alloc_calls file is read-only and lists the kernel code locations from which allocations for this cache were performed. The alloc_calls file only contains information if debugging is enabled for that cache (see Short users guide for SLUB).

/sys/kernel/slab/<cache>/alloc_fastpath

Defined on file sysfs-kernel-slab

The alloc_fastpath file shows how many objects have been allocated using the fast path. It can be written to clear the current count. Available when CONFIG_SLUB_STATS is enabled.

/sys/kernel/slab/<cache>/alloc_from_partial

Defined on file sysfs-kernel-slab

The alloc_from_partial file shows how many times a cpu slab has been full and it has been refilled by using a slab from the list of partially used slabs. It can be written to clear the current count. Available when CONFIG_SLUB_STATS is enabled.

/sys/kernel/slab/<cache>/alloc_refill

Defined on file sysfs-kernel-slab

The alloc_refill file shows how many times the per-cpu freelist was empty but there were objects available as the result of remote cpu frees. It can be written to clear the current count. Available when CONFIG_SLUB_STATS is enabled.

/sys/kernel/slab/<cache>/alloc_slab

Defined on file sysfs-kernel-slab

The alloc_slab file is shows how many times a new slab had to be allocated from the page allocator. It can be written to clear the current count. Available when CONFIG_SLUB_STATS is enabled.

/sys/kernel/slab/<cache>/alloc_slowpath

Defined on file sysfs-kernel-slab

The alloc_slowpath file shows how many objects have been allocated using the slow path because of a refill or allocation from a partial or new slab. It can be written to clear the current count. Available when CONFIG_SLUB_STATS is enabled.

/sys/kernel/slab/<cache>/cache_dma

Defined on file sysfs-kernel-slab

The cache_dma file is read-only and specifies whether objects are from ZONE_DMA. Available when CONFIG_ZONE_DMA is enabled.

/sys/kernel/slab/<cache>/cpu_partial

Defined on file sysfs-kernel-slab

This read-only file shows the number of per cpu partial pages to keep around.

/sys/kernel/slab/<cache>/cpu_slabs

Defined on file sysfs-kernel-slab

The cpu_slabs file is read-only and displays how many cpu slabs are active and their NUMA locality.

/sys/kernel/slab/<cache>/cpuslab_flush

Defined on file sysfs-kernel-slab

The file cpuslab_flush shows how many times a cache’s cpu slabs have been flushed as the result of destroying or shrinking a cache, a cpu going offline, or as the result of forcing an allocation from a certain node. It can be written to clear the current count. Available when CONFIG_SLUB_STATS is enabled.

/sys/kernel/slab/<cache>/ctor

Defined on file sysfs-kernel-slab

The ctor file is read-only and specifies the cache’s object constructor function, which is invoked for each object when a new slab is allocated.

/sys/kernel/slab/<cache>/deactivate_empty

Defined on file sysfs-kernel-slab

The deactivate_empty file shows how many times an empty cpu slab was deactivated. It can be written to clear the current count. Available when CONFIG_SLUB_STATS is enabled.

/sys/kernel/slab/<cache>/deactivate_full

Defined on file sysfs-kernel-slab

The deactivate_full file shows how many times a full cpu slab was deactivated. It can be written to clear the current count. Available when CONFIG_SLUB_STATS is enabled.

/sys/kernel/slab/<cache>/deactivate_remote_frees

Defined on file sysfs-kernel-slab

The deactivate_remote_frees file shows how many times a cpu slab has been deactivated and contained free objects that were freed remotely. It can be written to clear the current count. Available when CONFIG_SLUB_STATS is enabled.

/sys/kernel/slab/<cache>/deactivate_to_head

Defined on file sysfs-kernel-slab

The deactivate_to_head file shows how many times a partial cpu slab was deactivated and added to the head of its node’s partial list. It can be written to clear the current count. Available when CONFIG_SLUB_STATS is enabled.

/sys/kernel/slab/<cache>/deactivate_to_tail

Defined on file sysfs-kernel-slab

The deactivate_to_tail file shows how many times a partial cpu slab was deactivated and added to the tail of its node’s partial list. It can be written to clear the current count. Available when CONFIG_SLUB_STATS is enabled.

/sys/kernel/slab/<cache>/destroy_by_rcu

Defined on file sysfs-kernel-slab

The destroy_by_rcu file is read-only and specifies whether slabs (not objects) are freed by rcu.

/sys/kernel/slab/<cache>/free_add_partial

Defined on file sysfs-kernel-slab

The free_add_partial file shows how many times an object has been freed in a full slab so that it had to added to its node’s partial list. It can be written to clear the current count. Available when CONFIG_SLUB_STATS is enabled.

/sys/kernel/slab/<cache>/free_calls

Defined on file sysfs-kernel-slab

The free_calls file is read-only and lists the locations of object frees if slab debugging is enabled (see Short users guide for SLUB).

/sys/kernel/slab/<cache>/free_fastpath

Defined on file sysfs-kernel-slab

The free_fastpath file shows how many objects have been freed using the fast path because it was an object from the cpu slab. It can be written to clear the current count. Available when CONFIG_SLUB_STATS is enabled.

/sys/kernel/slab/<cache>/free_frozen

Defined on file sysfs-kernel-slab

The free_frozen file shows how many objects have been freed to a frozen slab (i.e. a remote cpu slab). It can be written to clear the current count. Available when CONFIG_SLUB_STATS is enabled.

/sys/kernel/slab/<cache>/free_remove_partial

Defined on file sysfs-kernel-slab

The free_remove_partial file shows how many times an object has been freed to a now-empty slab so that it had to be removed from its node’s partial list. It can be written to clear the current count. Available when CONFIG_SLUB_STATS is enabled.

/sys/kernel/slab/<cache>/free_slab

Defined on file sysfs-kernel-slab

The free_slab file shows how many times an empty slab has been freed back to the page allocator. It can be written to clear the current count. Available when CONFIG_SLUB_STATS is enabled.

/sys/kernel/slab/<cache>/free_slowpath

Defined on file sysfs-kernel-slab

The free_slowpath file shows how many objects have been freed using the slow path (i.e. to a full or partial slab). It can be written to clear the current count. Available when CONFIG_SLUB_STATS is enabled.

/sys/kernel/slab/<cache>/hwcache_align

Defined on file sysfs-kernel-slab

The hwcache_align file is read-only and specifies whether objects are aligned on cachelines.

/sys/kernel/slab/<cache>/min_partial

Defined on file sysfs-kernel-slab

The min_partial file specifies how many empty slabs shall remain on a node’s partial list to avoid the overhead of allocating new slabs. Such slabs may be reclaimed by utilizing the shrink file.

/sys/kernel/slab/<cache>/object_size

Defined on file sysfs-kernel-slab

The object_size file is read-only and specifies the cache’s object size.

/sys/kernel/slab/<cache>/objects

Defined on file sysfs-kernel-slab

The objects file is read-only and displays how many objects are active and from which nodes they are from.

/sys/kernel/slab/<cache>/objects_partial

Defined on file sysfs-kernel-slab

The objects_partial file is read-only and displays how many objects are on partial slabs and from which nodes they are from.

/sys/kernel/slab/<cache>/objs_per_slab

Defined on file sysfs-kernel-slab

The file objs_per_slab is read-only and specifies how many objects may be allocated from a single slab of the order specified in /sys/kernel/slab/<cache>/order.

/sys/kernel/slab/<cache>/order

Defined on file sysfs-kernel-slab

The order file specifies the page order at which new slabs are allocated. It is writable and can be changed to increase the number of objects per slab. If a slab cannot be allocated because of fragmentation, SLUB will retry with the minimum order possible depending on its characteristics.

When debug_guardpage_minorder=N (N > 0) parameter is specified (see The kernel’s command-line parameters), the minimum possible order is used and this sysfs entry can not be used to change the order at run time.

/sys/kernel/slab/<cache>/order_fallback

Defined on file sysfs-kernel-slab

The order_fallback file shows how many times an allocation of a new slab has not been possible at the cache’s order and instead fallen back to its minimum possible order. It can be written to clear the current count.

Available when CONFIG_SLUB_STATS is enabled.

/sys/kernel/slab/<cache>/partial

Defined on file sysfs-kernel-slab

The partial file is read-only and displays how long many partial slabs there are and how long each node’s list is.

/sys/kernel/slab/<cache>/poison

Defined on file sysfs-kernel-slab

The poison file specifies whether objects should be poisoned when a new slab is allocated.

/sys/kernel/slab/<cache>/reclaim_account

Defined on file sysfs-kernel-slab

The reclaim_account file specifies whether the cache’s objects are reclaimable (and grouped by their mobility).

/sys/kernel/slab/<cache>/red_zone

Defined on file sysfs-kernel-slab

The red_zone file specifies whether the cache’s objects are red zoned.

/sys/kernel/slab/<cache>/remote_node_defrag_ratio

Defined on file sysfs-kernel-slab

The file remote_node_defrag_ratio specifies the percentage of times SLUB will attempt to refill the cpu slab with a partial slab from a remote node as opposed to allocating a new slab on the local node. This reduces the amount of wasted memory over the entire system but can be expensive.

Available when CONFIG_NUMA is enabled.

/sys/kernel/slab/<cache>/sanity_checks

Defined on file sysfs-kernel-slab

The sanity_checks file specifies whether expensive checks should be performed on free and, at minimum, enables double free checks. Caches that enable sanity_checks cannot be merged with caches that do not.

/sys/kernel/slab/<cache>/shrink

Defined on file sysfs-kernel-slab

The shrink file is used to reclaim unused slab cache memory from a cache. Empty per-cpu or partial slabs are freed and the partial list is sorted so the slabs with the fewest available objects are used first. It only accepts a value of “1” on write for shrinking the cache. Other input values are considered invalid. Shrinking slab caches might be expensive and can adversely impact other running applications. So it should be used with care.

/sys/kernel/slab/<cache>/slab_size

Defined on file sysfs-kernel-slab

The slab_size file is read-only and specifies the object size with metadata (debugging information and alignment) in bytes.

/sys/kernel/slab/<cache>/slabs

Defined on file sysfs-kernel-slab

The slabs file is read-only and displays how long many slabs there are (both cpu and partial) and from which nodes they are from.

/sys/kernel/slab/<cache>/slabs_cpu_partial

Defined on file sysfs-kernel-slab

This read-only file shows the number of partialli allocated frozen slabs.

/sys/kernel/slab/<cache>/store_user

Defined on file sysfs-kernel-slab

The store_user file specifies whether the location of allocation or free should be tracked for a cache.

/sys/kernel/slab/<cache>/total_objects

Defined on file sysfs-kernel-slab

The total_objects file is read-only and displays how many total objects a cache has and from which nodes they are from.

/sys/kernel/slab/<cache>/trace

Defined on file sysfs-kernel-slab

The trace file specifies whether object allocations and frees should be traced.

/sys/kernel/slab/<cache>/usersize

Defined on file sysfs-kernel-slab

The usersize file is read-only and contains the usercopy region size.

/sys/kernel/slab/<cache>/validate

Defined on file sysfs-kernel-slab

Writing to the validate file causes SLUB to traverse all of its cache’s objects and check the validity of metadata.

/sys/kernel/vmcoreinfo

Defined on file sysfs-kernel-vmcoreinfo

Shows physical address and size of vmcoreinfo ELF note. First value contains physical address of note in hex and second value contains the size of note in hex. This ELF note info is parsed by second kernel and exported to user space as part of ELF note in /proc/vmcore file. This note contains various information like struct size, symbol values, page size etc.

/sys/kernel/warn_count

Defined on file sysfs-kernel-warn_count

Shows how many times the system has Warned since last boot.

Symbols under /sys/module

/sys/module/*/initstate

Defined on file sysfs-module

Show the initialization state(live, coming, going) of the module.

/sys/module/*/taint

Defined on file sysfs-module

Module taint flags:

P

proprietary module

O

out-of-tree module

F

force-loaded module

C

staging driver module

E

unsigned module

/sys/module/*/{coresize,initsize}

Defined on file sysfs-module

Module size in bytes.

/sys/module/ehci_hcd/drivers/.../uframe_periodic_max

Defined on file sysfs-module

Maximum time allowed for periodic transfers per microframe (μs)

Note:

USB 2.0 sets maximum allowed time for periodic transfers per microframe to be 80%, that is 100 microseconds out of 125 microseconds (full microframe).

However there are cases, when 80% max isochronous bandwidth is too limiting. For example two video streams could require 110 microseconds of isochronous bandwidth per microframe to work together.

Through this setting it is possible to raise the limit so that the host controller would allow allocating more than 100 microseconds of periodic bandwidth per microframe.

Beware, non-standard modes are usually not thoroughly tested by hardware designers, and the hardware can malfunction when this setting differ from default 100.

/sys/module/grant_table/parameters/free_per_iteration

Defined on file sysfs-module

Read and write number of grant entries to attempt to free per iteration.

Note: Future versions of Xen and Linux may provide a better interface for controlling the rate of deferred grant reclaim or may not need it at all.

Users: Qubes OS (https://www.qubes-os.org)

/sys/module/pch_phub/drivers/.../pch_firmware

Defined on file sysfs-module

Write/read Option ROM data.

/sys/module/pch_phub/drivers/.../pch_mac

Defined on file sysfs-module

Write/read GbE MAC address.

/sys/module/xen_blkback/parameters/buffer_squeeze_duration_ms

Defined on file sysfs-driver-xen-blkback

When memory pressure is reported to blkback this option controls the duration in milliseconds that blkback will not cache any page not backed by a grant mapping. The default is 10ms.

/sys/module/xen_blkback/parameters/feature_persistent

Defined on file sysfs-driver-xen-blkback

Whether to enable the persistent grants feature or not. Note that this option only takes effect on newly connected backends. The default is Y (enable).

/sys/module/xen_blkback/parameters/max_buffer_pages

Defined on file sysfs-driver-xen-blkback

Maximum number of free pages to keep in each block backend buffer.

/sys/module/xen_blkback/parameters/max_persistent_grants

Defined on file sysfs-driver-xen-blkback

Maximum number of grants to map persistently in blkback. If the frontend tries to use more than max_persistent_grants, the LRU kicks in and starts removing 5% of max_persistent_grants every 100ms.

/sys/module/xen_blkback/parameters/persistent_grant_unused_seconds

Defined on file sysfs-driver-xen-blkback

How long a persistent grant is allowed to remain allocated without being in use. The time is in seconds, 0 means indefinitely long. The default is 60 seconds.

/sys/module/xen_blkfront/parameters/feature_persistent

Defined on file sysfs-driver-xen-blkfront

Whether to enable the persistent grants feature or not. Note that this option only takes effect on newly connected frontends. The default is Y (enable).

/sys/module/xen_blkfront/parameters/max_indirect_segments

Defined on file sysfs-driver-xen-blkfront

Maximum number of segments that the frontend will negotiate with the backend for indirect descriptors. The default value is 32 - higher value means more potential throughput but more memory usage. The backend picks the minimum of the frontend and its default backend value.

Symbols under /sys/power

/sys/power/

Defined on file sysfs-power

The /sys/power directory will contain files that will provide a unified interface to the power management subsystem.

/sys/power/autosleep

Defined on file sysfs-power

The /sys/power/autosleep file can be written one of the strings returned by reads from /sys/power/state. If that happens, a work item attempting to trigger a transition of the system to the sleep state represented by that string is queued up. This attempt will only succeed if there are no active wakeup sources in the system at that time. After every execution, regardless of whether or not the attempt to put the system to sleep has succeeded, the work item requeues itself until user space writes “off” to /sys/power/autosleep.

Reading from this file causes the last string successfully written to it to be returned.

/sys/power/disk

Defined on file sysfs-power

The /sys/power/disk file controls the operating mode of the suspend-to-disk mechanism. Reading from this file returns the name of the method by which the system will be put to sleep on the next suspend. There are four methods supported:

‘firmware’ - means that the memory image will be saved to disk by some firmware, in which case we also assume that the firmware will handle the system suspend.

‘platform’ - the memory image will be saved by the kernel and the system will be put to sleep by the platform driver (e.g. ACPI or other PM registers).

‘shutdown’ - the memory image will be saved by the kernel and the system will be powered off.

‘reboot’ - the memory image will be saved by the kernel and the system will be rebooted.

Additionally, /sys/power/disk can be used to turn on one of the two testing modes of the suspend-to-disk mechanism: ‘testproc’ or ‘test’. If the suspend-to-disk mechanism is in the ‘testproc’ mode, writing ‘disk’ to /sys/power/state will cause the kernel to disable nonboot CPUs and freeze tasks, wait for 5 seconds, unfreeze tasks and enable nonboot CPUs. If it is in the ‘test’ mode, writing ‘disk’ to /sys/power/state will cause the kernel to disable nonboot CPUs and freeze tasks, shrink memory, suspend devices, wait for 5 seconds, resume devices, unfreeze tasks and enable nonboot CPUs. Then, we are able to look in the log messages and work out, for example, which code is being slow and which device drivers are misbehaving.

The suspend-to-disk method may be chosen by writing to this file one of the accepted strings:

  • ‘firmware’

  • ‘platform’

  • ‘shutdown’

  • ‘reboot’

  • ‘testproc’

  • ‘test’

It will only change to ‘firmware’ or ‘platform’ if the system supports that.

/sys/power/image_size

Defined on file sysfs-power

The /sys/power/image_size file controls the size of the image created by the suspend-to-disk mechanism. It can be written a string representing a non-negative integer that will be used as an upper limit of the image size, in bytes. The kernel’s suspend-to-disk code will do its best to ensure the image size will not exceed this number. However, if it turns out to be impossible, the kernel will try to suspend anyway using the smallest image possible. In particular, if “0” is written to this file, the suspend image will be as small as possible.

Reading from this file will display the current image size limit, which is set to around 2/5 of available RAM by default.

/sys/power/mem_sleep

Defined on file sysfs-power

The /sys/power/mem_sleep file controls the operating mode of system suspend. Reading from it returns the available modes as “s2idle” (always present), “shallow” and “deep” (present if supported). The mode that will be used on subsequent attempts to suspend the system (by writing “mem” to the /sys/power/state file described above) is enclosed in square brackets.

Writing one of the above strings to this file causes the mode represented by it to be used on subsequent attempts to suspend the system.

See System Sleep States for more information.

/sys/power/pm_async

Defined on file sysfs-power

The /sys/power/pm_async file controls the switch allowing the user space to enable or disable asynchronous suspend and resume of devices. If enabled, this feature will cause some device drivers’ suspend and resume callbacks to be executed in parallel with each other and with the main suspend thread. It is enabled if this file contains “1”, which is the default. It may be disabled by writing “0” to this file, in which case all devices will be suspended and resumed synchronously.

/sys/power/pm_debug_messages

Defined on file sysfs-power

The /sys/power/pm_debug_messages file controls the printing of debug messages from the system suspend/hiberbation infrastructure to the kernel log.

Writing a “1” to this file enables the debug messages and writing a “0” (default) to it disables them. Reads from this file return the current value.

/sys/power/pm_print_times

Defined on file sysfs-power

The /sys/power/pm_print_times file allows user space to control whether the time taken by devices to suspend and resume is printed. These prints are useful for hunting down devices that take too long to suspend or resume.

Writing a “1” enables this printing while writing a “0” disables it. The default value is “0”. Reading from this file will display the current value.

/sys/power/pm_trace

Defined on file sysfs-power

The /sys/power/pm_trace file controls the code which saves the last PM event point in the RTC across reboots, so that you can debug a machine that just hangs during suspend (or more commonly, during resume). Namely, the RTC is only used to save the last PM event point if this file contains ‘1’. Initially it contains ‘0’ which may be changed to ‘1’ by writing a string representing a nonzero integer into it.

To use this debugging feature you should attempt to suspend the machine, then reboot it and run:

dmesg -s 1000000 | grep 'hash matches'

If you do not get any matches (or they appear to be false positives), it is possible that the last PM event point referred to a device created by a loadable kernel module. In this case cat /sys/power/pm_trace_dev_match (see below) after your system is started up and the kernel modules are loaded.

CAUTION: Using it will cause your machine’s real-time (CMOS) clock to be set to a random invalid time after a resume.

What; /sys/power/pm_trace_dev_match The /sys/power/pm_trace_dev_match file contains the name of the device associated with the last PM event point saved in the RTC across reboots when pm_trace has been used. More precisely it contains the list of current devices (including those registered by loadable kernel modules since boot) which match the device hash in the RTC at boot, with a newline after each one.

The advantage of this file over the hash matches printed to the kernel log (see /sys/power/pm_trace), is that it includes devices created after boot by loadable kernel modules.

Due to the small hash size necessary to fit in the RTC, it is possible that more than one device matches the hash, in which case further investigation is required to determine which device is causing the problem. Note that genuine RTC clock values (such as when pm_trace has not been used), can still match a device and output its name here.

/sys/power/pm_wakeup_irq

Defined on file sysfs-power

The /sys/power/pm_wakeup_irq file reports to user space the IRQ number of the first wakeup interrupt (that is, the first interrupt from an IRQ line armed for system wakeup) seen by the kernel during the most recent system suspend/resume cycle.

This output is useful for system wakeup diagnostics of spurious wakeup interrupts.

/sys/power/reserved_size

Defined on file sysfs-power

The /sys/power/reserved_size file allows user space to control the amount of memory reserved for allocations made by device drivers during the “device freeze” stage of hibernation. It can be written a string representing a non-negative integer that will be used as the amount of memory to reserve for allocations made by device drivers’ “freeze” callbacks, in bytes.

Reading from this file will display the current value, which is set to 1 MB by default.

/sys/power/resume_offset

Defined on file sysfs-power

This file is used for telling the kernel an offset into a disk to use when hibernating the system such as with a swap file.

Reads from this file will display the current offset the kernel will be using on the next hibernation attempt.

Using this sysfs file will override any values that were set using the kernel command line for disk offset.

/sys/power/state

Defined on file sysfs-power

The /sys/power/state file controls system sleep states. Reading from this file returns the available sleep state labels, which may be “mem” (suspend), “standby” (power-on suspend), “freeze” (suspend-to-idle) and “disk” (hibernation).

Writing one of the above strings to this file causes the system to transition into the corresponding state, if available.

See System Sleep States for more information.

/sys/power/suspend_stats

Defined on file sysfs-power

The /sys/power/suspend_stats directory contains suspend related statistics.

/sys/power/suspend_stats/fail

Defined on file sysfs-power

The /sys/power/suspend_stats/fail file contains the number of times entering system sleep state failed.

/sys/power/suspend_stats/failed_freeze

Defined on file sysfs-power

The /sys/power/suspend_stats/failed_freeze file contains the number of times freezing processes failed.

/sys/power/suspend_stats/failed_prepare

Defined on file sysfs-power

The /sys/power/suspend_stats/failed_prepare file contains the number of times preparing all non-sysdev devices for a system PM transition failed.

/sys/power/suspend_stats/failed_resume

Defined on file sysfs-power

The /sys/power/suspend_stats/failed_resume file contains the number of times executing “resume” callbacks of non-sysdev devices failed.

/sys/power/suspend_stats/failed_resume_early

Defined on file sysfs-power

The /sys/power/suspend_stats/failed_resume_early file contains the number of times executing “early resume” callbacks of devices failed.

/sys/power/suspend_stats/failed_resume_noirq

Defined on file sysfs-power

The /sys/power/suspend_stats/failed_resume_noirq file contains the number of times executing “noirq resume” callbacks of devices failed.

/sys/power/suspend_stats/failed_suspend

Defined on file sysfs-power

The /sys/power/suspend_stats/failed_suspend file contains the number of times executing “suspend” callbacks of all non-sysdev devices failed.

/sys/power/suspend_stats/failed_suspend_late

Defined on file sysfs-power

The /sys/power/suspend_stats/failed_suspend_late file contains the number of times executing “late suspend” callbacks of all devices failed.

/sys/power/suspend_stats/failed_suspend_noirq

Defined on file sysfs-power

The /sys/power/suspend_stats/failed_suspend_noirq file contains the number of times executing “noirq suspend” callbacks of all devices failed.

/sys/power/suspend_stats/last_failed_dev

Defined on file sysfs-power

The /sys/power/suspend_stats/last_failed_dev file contains the last device for which a suspend/resume callback failed.

/sys/power/suspend_stats/last_failed_errno

Defined on file sysfs-power

The /sys/power/suspend_stats/last_failed_errno file contains the errno of the last failed attempt at entering system sleep state.

/sys/power/suspend_stats/last_failed_step

Defined on file sysfs-power

The /sys/power/suspend_stats/last_failed_step file contains the last failed step in the suspend/resume path.

/sys/power/suspend_stats/last_hw_sleep

Defined on file sysfs-power

The /sys/power/suspend_stats/last_hw_sleep file contains the duration of time spent in a hardware sleep state in the most recent system suspend-resume cycle. This number is measured in microseconds.

/sys/power/suspend_stats/max_hw_sleep

Defined on file sysfs-power

The /sys/power/suspend_stats/max_hw_sleep file contains the maximum amount of time that the hardware can report for time spent in a hardware sleep state. When sleep cycles are longer than this time, the values for ‘total_hw_sleep’ and ‘last_hw_sleep’ may not be accurate. This number is measured in microseconds.

/sys/power/suspend_stats/success

Defined on file sysfs-power

The /sys/power/suspend_stats/success file contains the number of times entering system sleep state succeeded.

/sys/power/suspend_stats/total_hw_sleep

Defined on file sysfs-power

The /sys/power/suspend_stats/total_hw_sleep file contains the aggregate of time spent in a hardware sleep state since the kernel was booted. This number is measured in microseconds.

/sys/power/sync_on_suspend

Defined on file sysfs-power

This file controls whether or not the kernel will sync() filesystems during system suspend (after freezing user space and before suspending devices).

Writing a “1” to this file enables the sync() and writing a “0” disables it. Reads from the file return the current value. The default is “1” if the build-time “SUSPEND_SKIP_SYNC” config flag is unset, or “0” otherwise.

/sys/power/wake_lock

Defined on file sysfs-power

The /sys/power/wake_lock file allows user space to create wakeup source objects and activate them on demand (if one of those wakeup sources is active, reads from the /sys/power/wakeup_count file block or return false). When a string without white space is written to /sys/power/wake_lock, it will be assumed to represent a wakeup source name. If there is a wakeup source object with that name, it will be activated (unless active already). Otherwise, a new wakeup source object will be registered, assigned the given name and activated. If a string written to /sys/power/wake_lock contains white space, the part of the string preceding the white space will be regarded as a wakeup source name and handled as descrived above. The other part of the string will be regarded as a timeout (in nanoseconds) such that the wakeup source will be automatically deactivated after it has expired. The timeout, if present, is set regardless of the current state of the wakeup source object in question.

Reads from this file return a string consisting of the names of wakeup sources created with the help of it that are active at the moment, separated with spaces.

/sys/power/wake_unlock

Defined on file sysfs-power

The /sys/power/wake_unlock file allows user space to deactivate wakeup sources created with the help of /sys/power/wake_lock. When a string is written to /sys/power/wake_unlock, it will be assumed to represent the name of a wakeup source to deactivate.

If a wakeup source object of that name exists and is active at the moment, it will be deactivated.

Reads from this file return a string consisting of the names of wakeup sources created with the help of /sys/power/wake_lock that are inactive at the moment, separated with spaces.

/sys/power/wakeup_count

Defined on file sysfs-power

The /sys/power/wakeup_count file allows user space to put the system into a sleep state while taking into account the concurrent arrival of wakeup events. Reading from it returns the current number of registered wakeup events and it blocks if some wakeup events are being processed at the time the file is read from. Writing to it will only succeed if the current number of wakeup events is equal to the written value and, if successful, will make the kernel abort a subsequent transition to a sleep state if any wakeup events are reported after the write has returned.

Raise a uevent when a USB Host Controller has died

Raise a uevent when a USB Host Controller has died

Defined on file usb-uevent

When the USB Host Controller has entered a state where it is no longer functional a uevent will be raised. The uevent will contain ACTION=offline and ERROR=DEAD.

Here is an example taken using udevadm monitor -p:

KERNEL[130.428945] offline  /devices/pci0000:00/0000:00:10.0/usb2 (usb)
ACTION=offline
BUSNUM=002
DEVNAME=/dev/bus/usb/002/001
DEVNUM=001
DEVPATH=/devices/pci0000:00/0000:00:10.0/usb2
DEVTYPE=usb_device
DRIVER=usb
ERROR=DEAD
MAJOR=189
MINOR=128
PRODUCT=1d6b/2/414
SEQNUM=2168
SUBSYSTEM=usb
TYPE=9/0/1

Users: chromium-os-dev@chromium.org

Raise a uevent when a USB charger is inserted or removed

Raise a uevent when a USB charger is inserted or removed

Defined on file usb-charger-uevent

There are two USB charger states:

  • USB_CHARGER_ABSENT

  • USB_CHARGER_PRESENT

There are five USB charger types:

USB_CHARGER_UNKNOWN_TYPE

Charger type is unknown

USB_CHARGER_SDP_TYPE

Standard Downstream Port

USB_CHARGER_CDP_TYPE

Charging Downstream Port

USB_CHARGER_DCP_TYPE

Dedicated Charging Port

USB_CHARGER_ACA_TYPE

Accessory Charging Adapter

https://www.usb.org/document-library/battery-charging-v12-spec-and-adopters-agreement

Here are two examples taken using udevadm monitor -p when USB charger is online:

UDEV  change   /devices/soc0/usbphynop1 (platform)
ACTION=change
DEVPATH=/devices/soc0/usbphynop1
DRIVER=usb_phy_generic
MODALIAS=of:Nusbphynop1T(null)Cusb-nop-xceiv
OF_COMPATIBLE_0=usb-nop-xceiv
OF_COMPATIBLE_N=1
OF_FULLNAME=/usbphynop1
OF_NAME=usbphynop1
SEQNUM=2493
SUBSYSTEM=platform
USB_CHARGER_STATE=USB_CHARGER_PRESENT
USB_CHARGER_TYPE=USB_CHARGER_SDP_TYPE
USEC_INITIALIZED=227422826

USB charger is offline:

KERNEL change   /devices/soc0/usbphynop1 (platform)
ACTION=change
DEVPATH=/devices/soc0/usbphynop1
DRIVER=usb_phy_generic
MODALIAS=of:Nusbphynop1T(null)Cusb-nop-xceiv
OF_COMPATIBLE_0=usb-nop-xceiv
OF_COMPATIBLE_N=1
OF_FULLNAME=/usbphynop1
OF_NAME=usbphynop1
SEQNUM=2494
SUBSYSTEM=platform
USB_CHARGER_STATE=USB_CHARGER_ABSENT
USB_CHARGER_TYPE=USB_CHARGER_UNKNOWN_TYPE

nvdimm

nvdimm

Defined on file sysfs-bus-nvdimm

The libnvdimm sub-system implements a common sysfs interface for platform nvdimm resources. See Documentation/driver-api/nvdimm/.

Symbols under security/secrets

security/secrets/coco

Defined on file securityfs-secrets-coco

Exposes confidential computing (coco) EFI secrets to userspace via securityfs.

EFI can declare memory area used by confidential computing platforms (such as AMD SEV and SEV-ES) for secret injection by the Guest Owner during VM’s launch. The secrets are encrypted by the Guest Owner and decrypted inside the trusted enclave, and therefore are not readable by the untrusted host.

The efi_secret module exposes the secrets to userspace. Each secret appears as a file under <securityfs>/secrets/coco, where the filename is the GUID of the entry in the secrets table. This module is loaded automatically by the EFI driver if the EFI secret area is populated.

Two operations are supported for the files: read and unlink. Reading the file returns the content of secret entry. Unlinking the file overwrites the secret data with zeroes and removes the entry from the filesystem. A secret cannot be read after it has been unlinked.

For example, listing the available secrets:

# modprobe efi_secret
# ls -l /sys/kernel/security/secrets/coco
-r--r----- 1 root root 0 Jun 28 11:54 736870e5-84f0-4973-92ec-06879ce3da0b
-r--r----- 1 root root 0 Jun 28 11:54 83c83f7f-1356-4975-8b7e-d3a0b54312c6
-r--r----- 1 root root 0 Jun 28 11:54 9553f55d-3da2-43ee-ab5d-ff17f78864d2
-r--r----- 1 root root 0 Jun 28 11:54 e6f5a162-d67f-4750-a67c-5d065f2a9910

Reading the secret data by reading a file:

# cat /sys/kernel/security/secrets/coco/e6f5a162-d67f-4750-a67c-5d065f2a9910
the-content-of-the-secret-data

Wiping a secret by unlinking a file:

# rm /sys/kernel/security/secrets/coco/e6f5a162-d67f-4750-a67c-5d065f2a9910
# ls -l /sys/kernel/security/secrets/coco
-r--r----- 1 root root 0 Jun 28 11:54 736870e5-84f0-4973-92ec-06879ce3da0b
-r--r----- 1 root root 0 Jun 28 11:54 83c83f7f-1356-4975-8b7e-d3a0b54312c6
-r--r----- 1 root root 0 Jun 28 11:54 9553f55d-3da2-43ee-ab5d-ff17f78864d2

Note: The binary format of the secrets table injected by the Guest Owner is described in drivers/virt/coco/efi_secret/efi_secret.c under “Structure of the EFI secret area”.

File testing/configfs-acpi

Has the following ABI:

File testing/configfs-iio

Has the following ABI:

File testing/configfs-most

Has the following ABI:

File testing/configfs-rdma_cm

Has the following ABI:

File testing/configfs-spear-pcie-gadget

Has the following ABI:

File testing/configfs-stp-policy

Has the following ABI:

File testing/configfs-stp-policy-p_sys-t

Has the following ABI:

File testing/configfs-tsm

Has the following ABI:

File testing/configfs-usb-gadget

Has the following ABI:

File testing/configfs-usb-gadget-acm

Has the following ABI:

File testing/configfs-usb-gadget-ecm

Has the following ABI:

File testing/configfs-usb-gadget-eem

Has the following ABI:

File testing/configfs-usb-gadget-ffs

Has the following ABI:

File testing/configfs-usb-gadget-hid

Has the following ABI:

File testing/configfs-usb-gadget-loopback

Has the following ABI:

File testing/configfs-usb-gadget-mass-storage

Has the following ABI:

File testing/configfs-usb-gadget-midi

Has the following ABI:

File testing/configfs-usb-gadget-midi2

Has the following ABI:

File testing/configfs-usb-gadget-ncm

Has the following ABI:

File testing/configfs-usb-gadget-obex

Has the following ABI:

File testing/configfs-usb-gadget-phonet

Has the following ABI:

File testing/configfs-usb-gadget-printer

Has the following ABI:

File testing/configfs-usb-gadget-rndis

Has the following ABI:

File testing/configfs-usb-gadget-serial

Has the following ABI:

File testing/configfs-usb-gadget-sourcesink

Has the following ABI:

File testing/configfs-usb-gadget-subset

Has the following ABI:

File testing/configfs-usb-gadget-tcm

Has the following ABI:

File testing/configfs-usb-gadget-uac1

Has the following ABI:

File testing/configfs-usb-gadget-uac1_legacy

Has the following ABI:

File testing/configfs-usb-gadget-uac2

Has the following ABI:

File testing/configfs-usb-gadget-uvc

Has the following ABI:

File testing/debugfs-cec-error-inj

Has the following ABI:

File testing/debugfs-cros-ec

Has the following ABI:

File testing/debugfs-cxl

Has the following ABI:

File testing/debugfs-dell-wmi-ddv

Has the following ABI:

File testing/debugfs-driver-dcc

Has the following ABI:

File testing/debugfs-driver-genwqe

Has the following ABI:

File testing/debugfs-driver-habanalabs

Has the following ABI:

File testing/debugfs-driver-qat

Has the following ABI:

File testing/debugfs-driver-qat_telemetry

Has the following ABI:

File testing/debugfs-ec

Has the following ABI:

File testing/debugfs-hisi-hpre

Has the following ABI:

File testing/debugfs-hisi-sec

Has the following ABI:

File testing/debugfs-hisi-zip

Has the following ABI:

File testing/debugfs-hyperv

Has the following ABI:

File testing/debugfs-ideapad

Has the following ABI:

File testing/debugfs-iio-ad9467

Has the following ABI:

File testing/debugfs-iio-backend

Has the following ABI:

File testing/debugfs-intel-iommu

Has the following ABI:

File testing/debugfs-moxtet

Has the following ABI:

File testing/debugfs-msi-wmi-platform

Has the following ABI:

File testing/debugfs-olpc

Has the following ABI:

File testing/debugfs-pfo-nx-crypto

Has the following ABI:

File testing/debugfs-pktcdvd

Has the following ABI:

File testing/debugfs-scmi

Has the following ABI:

File testing/debugfs-scmi-raw

Has the following ABI:

File testing/debugfs-tpmi

Has the following ABI:

File testing/debugfs-turris-mox-rwtm

Has the following ABI:

File testing/debugfs-vfio

Has the following ABI:

File testing/debugfs-wilco-ec

Has the following ABI:

File testing/dell-smbios-wmi

Has the following ABI:

File testing/dev-kmsg

Has the following ABI:

File testing/evm

Has the following ABI:

File testing/gpio-cdev

Has the following ABI:

File testing/ima_policy

Has the following ABI:

File testing/ppc-memtrace

Has the following ABI:

File testing/procfs-attr-current

Has the following ABI:

File testing/procfs-attr-exec

Has the following ABI:

File testing/procfs-attr-prev

Has the following ABI:

File testing/procfs-diskstats

Has the following ABI:

File testing/procfs-smaps_rollup

Has the following ABI:

File testing/pstore

Has the following ABI:

File testing/rtc-cdev

Has the following ABI:

File testing/securityfs-secrets-coco

Has the following ABI:

File testing/sysfs-amd-pmc

Has the following ABI:

File testing/sysfs-amd-pmf

Has the following ABI:

File testing/sysfs-ata

Has the following ABI:

File testing/sysfs-block-aoe

Has the following ABI:

File testing/sysfs-block-bcache

Has the following ABI:

File testing/sysfs-block-device

Has the following ABI:

File testing/sysfs-block-dm

Has the following ABI:

File testing/sysfs-block-loop

Has the following ABI:

File testing/sysfs-block-rnbd

Has the following ABI:

File testing/sysfs-block-rssd

Has the following ABI:

File testing/sysfs-block-zram

Has the following ABI:

File testing/sysfs-bus-acpi

Has the following ABI:

File testing/sysfs-bus-amba

Has the following ABI:

File testing/sysfs-bus-auxiliary

Has the following ABI:

File testing/sysfs-bus-bcma

Has the following ABI:

File testing/sysfs-bus-cdx

Has the following ABI:

File testing/sysfs-bus-coreboot

Has the following ABI:

File testing/sysfs-bus-coresight-devices-cti

Has the following ABI:

File testing/sysfs-bus-coresight-devices-etb10

Has the following ABI:

File testing/sysfs-bus-coresight-devices-etm3x

Has the following ABI:

File testing/sysfs-bus-coresight-devices-etm4x

Has the following ABI:

File testing/sysfs-bus-coresight-devices-funnel

Has the following ABI:

File testing/sysfs-bus-coresight-devices-stm

Has the following ABI:

File testing/sysfs-bus-coresight-devices-tmc

Has the following ABI:

File testing/sysfs-bus-coresight-devices-tpdm

Has the following ABI:

File testing/sysfs-bus-coresight-devices-trbe

Has the following ABI:

File testing/sysfs-bus-coresight-devices-ultra_smb

Has the following ABI:

File testing/sysfs-bus-counter

Has the following ABI:

File testing/sysfs-bus-css

Has the following ABI:

File testing/sysfs-bus-cxl

Has the following ABI:

File testing/sysfs-bus-dax

Has the following ABI:

File testing/sysfs-bus-dfl

Has the following ABI:

File testing/sysfs-bus-dfl-devices-emif

Has the following ABI:

File testing/sysfs-bus-dfl-devices-n3000-nios

Has the following ABI:

File testing/sysfs-bus-event_source-devices-caps

Has the following ABI:

File testing/sysfs-bus-event_source-devices-dfl_fme

Has the following ABI:

File testing/sysfs-bus-event_source-devices-dsa

Has the following ABI:

File testing/sysfs-bus-event_source-devices-events

Has the following ABI:

File testing/sysfs-bus-event_source-devices-format

Has the following ABI:

File testing/sysfs-bus-event_source-devices-hisi_ptt

Has the following ABI:

File testing/sysfs-bus-event_source-devices-hv_24x7

Has the following ABI:

File testing/sysfs-bus-event_source-devices-hv_gpci

Has the following ABI:

File testing/sysfs-bus-event_source-devices-iommu

Has the following ABI:

File testing/sysfs-bus-event_source-devices-uncore

Has the following ABI:

File testing/sysfs-bus-fcoe

Has the following ABI:

File testing/sysfs-bus-fsi

Has the following ABI:

File testing/sysfs-bus-fsi-devices-sbefifo

Has the following ABI:

File testing/sysfs-bus-fsl-mc

Has the following ABI:

File testing/sysfs-bus-hsi

Has the following ABI:

File testing/sysfs-bus-i2c-devices-bq32k

Has the following ABI:

File testing/sysfs-bus-i2c-devices-fsa9480

Has the following ABI:

File testing/sysfs-bus-i2c-devices-hm6352

Has the following ABI:

File testing/sysfs-bus-i2c-devices-lm3533

Has the following ABI:

File testing/sysfs-bus-i2c-devices-pca954x

Has the following ABI:

File testing/sysfs-bus-i2c-devices-turris-omnia-mcu

Has the following ABI:

File testing/sysfs-bus-i3c

Has the following ABI:

File testing/sysfs-bus-iio

Has the following ABI:

File testing/sysfs-bus-iio-accel-adxl372

Has the following ABI:

File testing/sysfs-bus-iio-accel-bmc150

Has the following ABI:

File testing/sysfs-bus-iio-ad9739a

Has the following ABI:

File testing/sysfs-bus-iio-adc-ad4130

Has the following ABI:

File testing/sysfs-bus-iio-adc-ad7192

Has the following ABI:

File testing/sysfs-bus-iio-adc-ad7280a

Has the following ABI:

File testing/sysfs-bus-iio-adc-envelope-detector

Has the following ABI:

File testing/sysfs-bus-iio-adc-hi8435

Has the following ABI:

File testing/sysfs-bus-iio-adc-max11410

Has the following ABI:

File testing/sysfs-bus-iio-adc-mcp3564

Has the following ABI:

File testing/sysfs-bus-iio-adc-mt6360

Has the following ABI:

File testing/sysfs-bus-iio-adc-pac1934

Has the following ABI:

File testing/sysfs-bus-iio-adc-stm32

Has the following ABI:

File testing/sysfs-bus-iio-bno055

Has the following ABI:

File testing/sysfs-bus-iio-cdc-ad7746

Has the following ABI:

File testing/sysfs-bus-iio-chemical-sgp40

Has the following ABI:

File testing/sysfs-bus-iio-chemical-sunrise-co2

Has the following ABI:

File testing/sysfs-bus-iio-chemical-vz89x

Has the following ABI:

File testing/sysfs-bus-iio-cros-ec

Has the following ABI:

File testing/sysfs-bus-iio-dac

Has the following ABI:

File testing/sysfs-bus-iio-dac-ad5766

Has the following ABI:

File testing/sysfs-bus-iio-dac-dpot-dac

Has the following ABI:

File testing/sysfs-bus-iio-dac-ltc2688

Has the following ABI:

File testing/sysfs-bus-iio-dfsdm-adc-stm32

Has the following ABI:

File testing/sysfs-bus-iio-distance-srf08

Has the following ABI:

File testing/sysfs-bus-iio-dma-buffer

Has the following ABI:

File testing/sysfs-bus-iio-filter-admv8818

Has the following ABI:

File testing/sysfs-bus-iio-frequency-ad9523

Has the following ABI:

File testing/sysfs-bus-iio-frequency-adf4350

Has the following ABI:

File testing/sysfs-bus-iio-frequency-adf4371

Has the following ABI:

File testing/sysfs-bus-iio-frequency-admv1013

Has the following ABI:

File testing/sysfs-bus-iio-frequency-admv1014

Has the following ABI:

File testing/sysfs-bus-iio-gyro-bmg160

Has the following ABI:

File testing/sysfs-bus-iio-health-afe440x

Has the following ABI:

File testing/sysfs-bus-iio-humidity

Has the following ABI:

File testing/sysfs-bus-iio-impedance-analyzer-ad5933

Has the following ABI:

File testing/sysfs-bus-iio-ina2xx-adc

Has the following ABI:

File testing/sysfs-bus-iio-inv_icm42600

Has the following ABI:

File testing/sysfs-bus-iio-isl29501

Has the following ABI:

File testing/sysfs-bus-iio-light-isl29018

Has the following ABI:

File testing/sysfs-bus-iio-light-lm3533-als

Has the following ABI:

File testing/sysfs-bus-iio-light-si1133

Has the following ABI:

File testing/sysfs-bus-iio-light-tsl2583

Has the following ABI:

File testing/sysfs-bus-iio-light-tsl2772

Has the following ABI:

File testing/sysfs-bus-iio-magnetometer-hmc5843

Has the following ABI:

File testing/sysfs-bus-iio-meas-spec

Has the following ABI:

File testing/sysfs-bus-iio-mpu6050

Has the following ABI:

File testing/sysfs-bus-iio-potentiometer-mcp4531

Has the following ABI:

File testing/sysfs-bus-iio-proximity

Has the following ABI:

File testing/sysfs-bus-iio-proximity-as3935

Has the following ABI:

File testing/sysfs-bus-iio-resolver-ad2s1210

Has the following ABI:

File testing/sysfs-bus-iio-sps30

Has the following ABI:

File testing/sysfs-bus-iio-sx9310

Has the following ABI:

File testing/sysfs-bus-iio-sx9324

Has the following ABI:

File testing/sysfs-bus-iio-thermocouple

Has the following ABI:

File testing/sysfs-bus-iio-timer-stm32

Has the following ABI:

File testing/sysfs-bus-iio-trigger-sysfs

Has the following ABI:

File testing/sysfs-bus-iio-vf610

Has the following ABI:

File testing/sysfs-bus-intel_th-devices-gth

Has the following ABI:

File testing/sysfs-bus-intel_th-devices-msc

Has the following ABI:

File testing/sysfs-bus-intel_th-devices-pti

Has the following ABI:

File testing/sysfs-bus-intel_th-output-devices

Has the following ABI:

File testing/sysfs-bus-mcb

Has the following ABI:

File testing/sysfs-bus-mdio

Has the following ABI:

File testing/sysfs-bus-media

Has the following ABI:

File testing/sysfs-bus-mei

Has the following ABI:

File testing/sysfs-bus-mmc

Has the following ABI:

File testing/sysfs-bus-most

Has the following ABI:

File testing/sysfs-bus-moxtet-devices

Has the following ABI:

File testing/sysfs-bus-nfit

For all of the nmem device attributes under nfit/*, see the ‘NVDIMM Firmware Interface Table (NFIT)’ section in the ACPI specification (http://www.uefi.org/specifications) for more details.

Has the following ABI:

File testing/sysfs-bus-nvdimm

Has the following ABI:

File testing/sysfs-bus-optee-devices

Has the following ABI:

File testing/sysfs-bus-papr-pmem

Has the following ABI:

File testing/sysfs-bus-pci

Has the following ABI:

File testing/sysfs-bus-pci-devices-aer_stats

PCIe Device AER statistics

These attributes show up under all the devices that are AER capable. These statistical counters indicate the errors “as seen/reported by the device”. Note that this may mean that if an endpoint is causing problems, the AER counters may increment at its link partner (e.g. root port) because the errors may be “seen” / reported by the link partner and not the problematic endpoint itself (which may report all counters as 0 as it never saw any problems).

Has the following ABI:

File testing/sysfs-bus-pci-devices-avs

Has the following ABI:

File testing/sysfs-bus-pci-devices-catpt

Has the following ABI:

File testing/sysfs-bus-pci-devices-cciss

Has the following ABI:

File testing/sysfs-bus-pci-devices-pvpanic

Has the following ABI:

File testing/sysfs-bus-pci-drivers-ehci_hcd

Has the following ABI:

File testing/sysfs-bus-pci-drivers-janz-cmodio

Has the following ABI:

File testing/sysfs-bus-pci-drivers-xhci_hcd

Has the following ABI:

File testing/sysfs-bus-peci

Has the following ABI:

File testing/sysfs-bus-platform

Has the following ABI:

File testing/sysfs-bus-platform-devices-ampere-smpro

Has the following ABI:

File testing/sysfs-bus-platform-devices-occ-hwmon

Has the following ABI:

File testing/sysfs-bus-platform-onboard-usb-dev

Has the following ABI:

File testing/sysfs-bus-rapidio

Has the following ABI:

File testing/sysfs-bus-rbd

Has the following ABI:

File testing/sysfs-bus-rpmsg

Has the following ABI:

File testing/sysfs-bus-siox

Has the following ABI:

File testing/sysfs-bus-soundwire-master

Has the following ABI:

File testing/sysfs-bus-soundwire-slave

Has the following ABI:

File testing/sysfs-bus-spi-devices-spi-nor

Has the following ABI:

File testing/sysfs-bus-surface_aggregator-tabletsw

Has the following ABI:

File testing/sysfs-bus-thunderbolt

Has the following ABI:

File testing/sysfs-bus-typec

Has the following ABI:

File testing/sysfs-bus-usb

Has the following ABI:

File testing/sysfs-bus-usb-devices-usbsevseg

Has the following ABI:

File testing/sysfs-bus-usb-lvstest

Link Layer Validation Device is a standard device for testing of Super Speed Link Layer tests. These nodes are available in sysfs only when lvs driver is bound with root hub device.

Has the following ABI:

File testing/sysfs-bus-vdpa

Has the following ABI:

File testing/sysfs-bus-vfio-mdev

Has the following ABI:

File testing/sysfs-bus-vmbus

Has the following ABI:

File testing/sysfs-bus-wmi

Has the following ABI:

File testing/sysfs-c2port

Has the following ABI:

File testing/sysfs-cfq-target-latency

Has the following ABI:

File testing/sysfs-class

Has the following ABI:

File testing/sysfs-class-backlight

Has the following ABI:

File testing/sysfs-class-backlight-driver-lm3533

Has the following ABI:

File testing/sysfs-class-backlight-lm3639

sysfs interface for Texas Instruments lm3639 backlight + flash led driver chip

Has the following ABI:

File testing/sysfs-class-bdi

Has the following ABI:

File testing/sysfs-class-bsr

Has the following ABI:

File testing/sysfs-class-chromeos

Has the following ABI:

File testing/sysfs-class-chromeos-driver-cros-ec-lightbar

Has the following ABI:

File testing/sysfs-class-chromeos-driver-cros-ec-vbc

Has the following ABI:

File testing/sysfs-class-cxl

Please note that attributes that are shared between devices are stored in the directory pointed to by the symlink device/. For example, the real path of the attribute /sys/class/cxl/afu0.0s/irqs_max is /sys/class/cxl/afu0.0s/device/irqs_max, i.e. /sys/class/cxl/afu0.0/irqs_max.

Slave contexts (eg. /sys/class/cxl/afu0.0s):

Has the following ABI:

File testing/sysfs-class-devfreq

Has the following ABI:

File testing/sysfs-class-devfreq-event

Has the following ABI:

File testing/sysfs-class-extcon

Has the following ABI:

File testing/sysfs-class-fc

Has the following ABI:

File testing/sysfs-class-fc_host

Has the following ABI:

File testing/sysfs-class-fc_remote_ports

Has the following ABI:

File testing/sysfs-class-firmware

Has the following ABI:

File testing/sysfs-class-firmware-attributes

Has the following ABI:

File testing/sysfs-class-fpga-bridge

Has the following ABI:

File testing/sysfs-class-fpga-manager

Has the following ABI:

File testing/sysfs-class-fpga-region

Has the following ABI:

File testing/sysfs-class-gnss

Has the following ABI:

File testing/sysfs-class-hwmon

Has the following ABI:

File testing/sysfs-class-intel_pmt

Has the following ABI:

File testing/sysfs-class-iommu

Has the following ABI:

File testing/sysfs-class-iommu-amd-iommu

Has the following ABI:

File testing/sysfs-class-iommu-intel-iommu

Has the following ABI:

File testing/sysfs-class-lcd

Has the following ABI:

File testing/sysfs-class-led

Has the following ABI:

File testing/sysfs-class-led-driver-aw200xx

Has the following ABI:

File testing/sysfs-class-led-driver-lm3533

Has the following ABI:

File testing/sysfs-class-led-driver-turris-omnia

Has the following ABI:

File testing/sysfs-class-led-flash

Has the following ABI:

File testing/sysfs-class-led-multicolor

Has the following ABI:

File testing/sysfs-class-led-trigger-netdev

Has the following ABI:

File testing/sysfs-class-led-trigger-oneshot

Has the following ABI:

File testing/sysfs-class-led-trigger-pattern

Has the following ABI:

File testing/sysfs-class-led-trigger-tty

Has the following ABI:

File testing/sysfs-class-led-trigger-usbport

Has the following ABI:

File testing/sysfs-class-leds-gt683r

Has the following ABI:

File testing/sysfs-class-mei

Has the following ABI:

File testing/sysfs-class-mic

Has the following ABI:

File testing/sysfs-class-mtd

Has the following ABI:

File testing/sysfs-class-mux

Has the following ABI:

File testing/sysfs-class-net

Has the following ABI:

File testing/sysfs-class-net-cdc_ncm

Has the following ABI:

File testing/sysfs-class-net-dsa

Has the following ABI:

File testing/sysfs-class-net-grcan

Has the following ABI:

File testing/sysfs-class-net-janz-ican3

Has the following ABI:

File testing/sysfs-class-net-peak_usb

Has the following ABI:

File testing/sysfs-class-net-phydev

Has the following ABI:

File testing/sysfs-class-net-qmi

Has the following ABI:

File testing/sysfs-class-net-queues

Has the following ABI:

File testing/sysfs-class-net-statistics

Has the following ABI:

File testing/sysfs-class-ocxl

Has the following ABI:

File testing/sysfs-class-pktcdvd

sysfs interface

The pktcdvd module (packet writing driver) creates the following files in the sysfs: (<devid> is in the format major:minor)

Has the following ABI:

File testing/sysfs-class-power

General Properties

Has the following ABI:

File testing/sysfs-class-power-ltc4162l

Has the following ABI:

File testing/sysfs-class-power-mp2629

Has the following ABI:

File testing/sysfs-class-power-rt9467

Has the following ABI:

File testing/sysfs-class-power-rt9471

Has the following ABI:

File testing/sysfs-class-power-surface

Has the following ABI:

File testing/sysfs-class-power-twl4030

Has the following ABI:

File testing/sysfs-class-power-wilco

Has the following ABI:

File testing/sysfs-class-powercap

Has the following ABI:

File testing/sysfs-class-pwm

Has the following ABI:

File testing/sysfs-class-rapidio

Has the following ABI:

File testing/sysfs-class-rc

Has the following ABI:

File testing/sysfs-class-rc-nuvoton

Has the following ABI:

File testing/sysfs-class-regulator

Has the following ABI:

File testing/sysfs-class-remoteproc

Has the following ABI:

File testing/sysfs-class-rnbd-client

Has the following ABI:

File testing/sysfs-class-rnbd-server

Has the following ABI:

File testing/sysfs-class-rtc

Has the following ABI:

File testing/sysfs-class-rtc-rtc0-device-rtc_calibration

Has the following ABI:

File testing/sysfs-class-rtrs-client

Has the following ABI:

File testing/sysfs-class-rtrs-server

Has the following ABI:

File testing/sysfs-class-scsi_host

Has the following ABI:

File testing/sysfs-class-scsi_tape

Has the following ABI:

File testing/sysfs-class-spi-eeprom

Has the following ABI:

File testing/sysfs-class-stm

Has the following ABI:

File testing/sysfs-class-stm_source

Has the following ABI:

File testing/sysfs-class-switchtec

switchtec - Microsemi Switchtec PCI Switch Management Endpoint

For details on this subsystem look at Linux Switchtec Support.

Has the following ABI:

File testing/sysfs-class-tee

Has the following ABI:

File testing/sysfs-class-thermal

Has the following ABI:

File testing/sysfs-class-typec

USB Type-C port devices (eg. /sys/class/typec/port0/)

Has the following ABI:

File testing/sysfs-class-usb_power_delivery

Has the following ABI:

File testing/sysfs-class-usb_role

Has the following ABI:

File testing/sysfs-class-vduse

Has the following ABI:

File testing/sysfs-class-wakeup

Has the following ABI:

File testing/sysfs-class-watchdog

Has the following ABI:

File testing/sysfs-class-zram

Has the following ABI:

File testing/sysfs-dev

Has the following ABI:

File testing/sysfs-devices

Has the following ABI:

File testing/sysfs-devices-consumer

Has the following ABI:

File testing/sysfs-devices-coredump

Has the following ABI:

File testing/sysfs-devices-edac

Has the following ABI:

File testing/sysfs-devices-firmware_node

Has the following ABI:

File testing/sysfs-devices-lpss_ltr

Has the following ABI:

File testing/sysfs-devices-mapping

Has the following ABI:

File testing/sysfs-devices-memory

Has the following ABI:

File testing/sysfs-devices-mmc

Has the following ABI:

File testing/sysfs-devices-online

Has the following ABI:

File testing/sysfs-devices-physical_location

Has the following ABI:

File testing/sysfs-devices-platform-ACPI-TAD

ACPI Time and Alarm (TAD) device attributes.

Has the following ABI:

File testing/sysfs-devices-platform-_UDC_-gadget

Has the following ABI:

File testing/sysfs-devices-platform-docg3

Has the following ABI:

File testing/sysfs-devices-platform-dock

Has the following ABI:

File testing/sysfs-devices-platform-ipmi

Has the following ABI:

File testing/sysfs-devices-platform-kunpeng_hccs

Has the following ABI:

File testing/sysfs-devices-platform-sh_mobile_lcdc_fb

Has the following ABI:

File testing/sysfs-devices-platform-soc-ipa

Has the following ABI:

File testing/sysfs-devices-platform-stratix10-rsu

Intel Stratix10 Remote System Update (RSU) device attributes

Has the following ABI:

File testing/sysfs-devices-platform-trackpoint

Has the following ABI:

File testing/sysfs-devices-power

Has the following ABI:

File testing/sysfs-devices-power_resources_D0

Has the following ABI:

File testing/sysfs-devices-power_resources_D1

Has the following ABI:

File testing/sysfs-devices-power_resources_D2

Has the following ABI:

File testing/sysfs-devices-power_resources_D3hot

Has the following ABI:

File testing/sysfs-devices-power_resources_wakeup

Has the following ABI:

File testing/sysfs-devices-power_state

Has the following ABI:

File testing/sysfs-devices-real_power_state

Has the following ABI:

File testing/sysfs-devices-removable

Has the following ABI:

File testing/sysfs-devices-resource_in_use

Has the following ABI:

File testing/sysfs-devices-soc

Has the following ABI:

File testing/sysfs-devices-software_node

Has the following ABI:

File testing/sysfs-devices-state_synced

Has the following ABI:

File testing/sysfs-devices-sun

Has the following ABI:

File testing/sysfs-devices-supplier

Has the following ABI:

File testing/sysfs-devices-system-cpu

Has the following ABI:

File testing/sysfs-devices-system-ibm-rtl

Has the following ABI:

File testing/sysfs-devices-system-xen_cpu

Has the following ABI:

File testing/sysfs-devices-vfio-dev

Has the following ABI:

File testing/sysfs-devices-waiting_for_supplier

Has the following ABI:

File testing/sysfs-devices-xenbus

Has the following ABI:

File testing/sysfs-driver-altera-cvp

Has the following ABI:

File testing/sysfs-driver-aspeed-uart-routing

Has the following ABI:

File testing/sysfs-driver-bd9571mwv-regulator

Has the following ABI:

File testing/sysfs-driver-ccp

Has the following ABI:

File testing/sysfs-driver-chromeos-acpi

Has the following ABI:

File testing/sysfs-driver-eud

Has the following ABI:

File testing/sysfs-driver-fsi-master-gpio

Has the following ABI:

File testing/sysfs-driver-ge-achc

Has the following ABI:

File testing/sysfs-driver-genwqe

Has the following ABI:

File testing/sysfs-driver-habanalabs

Has the following ABI:

File testing/sysfs-driver-hid

Has the following ABI:

File testing/sysfs-driver-hid-corsair

Has the following ABI:

File testing/sysfs-driver-hid-lenovo

Has the following ABI:

File testing/sysfs-driver-hid-logitech-hidpp

Has the following ABI:

File testing/sysfs-driver-hid-logitech-lg4ff

Has the following ABI:

File testing/sysfs-driver-hid-multitouch

Has the following ABI:

File testing/sysfs-driver-hid-ntrig

Has the following ABI:

File testing/sysfs-driver-hid-picolcd

Has the following ABI:

File testing/sysfs-driver-hid-prodikeys

Has the following ABI:

File testing/sysfs-driver-hid-roccat-kone

Has the following ABI:

File testing/sysfs-driver-hid-srws1

Has the following ABI:

File testing/sysfs-driver-hid-wiimote

Has the following ABI:

File testing/sysfs-driver-input-axp-pek

Has the following ABI:

File testing/sysfs-driver-input-cros-ec-keyb

Has the following ABI:

File testing/sysfs-driver-input-exc3000

Has the following ABI:

File testing/sysfs-driver-intc_sar

Has the following ABI:

File testing/sysfs-driver-intel-i915-hwmon

Has the following ABI:

File testing/sysfs-driver-intel-m10-bmc

Has the following ABI:

File testing/sysfs-driver-intel-m10-bmc-sec-update

Has the following ABI:

File testing/sysfs-driver-intel-rapid-start

Has the following ABI:

File testing/sysfs-driver-intel-xe-hwmon

Has the following ABI:

File testing/sysfs-driver-intel_sdsi

Has the following ABI:

File testing/sysfs-driver-jz4780-efuse

Has the following ABI:

File testing/sysfs-driver-panfrost-profiling

Has the following ABI:

File testing/sysfs-driver-pciback

Has the following ABI:

File testing/sysfs-driver-ppi

Has the following ABI:

File testing/sysfs-driver-qat

Has the following ABI:

File testing/sysfs-driver-qat_ras

Has the following ABI:

File testing/sysfs-driver-qat_rl

Has the following ABI:

File testing/sysfs-driver-samsung-laptop

Has the following ABI:

File testing/sysfs-driver-st

Has the following ABI:

File testing/sysfs-driver-tegra-fuse

Has the following ABI:

File testing/sysfs-driver-toshiba_acpi

Has the following ABI:

File testing/sysfs-driver-toshiba_haps

Has the following ABI:

File testing/sysfs-driver-typec-displayport

Has the following ABI:

File testing/sysfs-driver-uacce

Has the following ABI:

File testing/sysfs-driver-ucsi-ccg

Has the following ABI:

File testing/sysfs-driver-ufs

Has the following ABI:

File testing/sysfs-driver-w1_ds28e17

Has the following ABI:

File testing/sysfs-driver-w1_therm

Has the following ABI:

File testing/sysfs-driver-wacom

Has the following ABI:

File testing/sysfs-driver-xdata

Has the following ABI:

File testing/sysfs-driver-xen-blkback

Has the following ABI:

File testing/sysfs-driver-xen-blkfront

Has the following ABI:

File testing/sysfs-driver-xilinx-tmr-manager

Has the following ABI:

File testing/sysfs-driver-zynqmp-fpga

Has the following ABI:

File testing/sysfs-firmware-acpi

Has the following ABI:

File testing/sysfs-firmware-dmi-entries

Has the following ABI:

File testing/sysfs-firmware-dmi-tables

Has the following ABI:

File testing/sysfs-firmware-efi

Has the following ABI:

File testing/sysfs-firmware-efi-esrt

Has the following ABI:

File testing/sysfs-firmware-efi-runtime-map

Has the following ABI:

File testing/sysfs-firmware-gsmi

Has the following ABI:

File testing/sysfs-firmware-initrd

Has the following ABI:

File testing/sysfs-firmware-lefi-boardinfo

Has the following ABI:

File testing/sysfs-firmware-log

Has the following ABI:

File testing/sysfs-firmware-memmap

Has the following ABI:

File testing/sysfs-firmware-ofw

Has the following ABI:

File testing/sysfs-firmware-opal-powercap

Has the following ABI:

File testing/sysfs-firmware-opal-psr

Has the following ABI:

File testing/sysfs-firmware-opal-sensor-groups

Has the following ABI:

File testing/sysfs-firmware-papr-energy-scale-info

Has the following ABI:

File testing/sysfs-firmware-qemu_fw_cfg

Has the following ABI:

File testing/sysfs-firmware-sgi_uv

Has the following ABI:

File testing/sysfs-firmware-turris-mox-rwtm

Has the following ABI:

File testing/sysfs-fs-erofs

Has the following ABI:

File testing/sysfs-fs-ext4

Has the following ABI:

File testing/sysfs-fs-f2fs

Has the following ABI:

File testing/sysfs-fs-nilfs2

Has the following ABI:

File testing/sysfs-fs-ubifs

Has the following ABI:

File testing/sysfs-fs-virtiofs

Has the following ABI:

File testing/sysfs-fs-xfs

Has the following ABI:

File testing/sysfs-hypervisor-xen

Has the following ABI:

File testing/sysfs-ibft

Has the following ABI:

File testing/sysfs-kernel-address_bits

Has the following ABI:

File testing/sysfs-kernel-boot_params

Has the following ABI:

File testing/sysfs-kernel-btf

Has the following ABI:

File testing/sysfs-kernel-cpu_byteorder

Has the following ABI:

File testing/sysfs-kernel-dmabuf-buffers

Has the following ABI:

File testing/sysfs-kernel-fadump

Has the following ABI:

File testing/sysfs-kernel-fscaps

Has the following ABI:

File testing/sysfs-kernel-iommu_groups

Has the following ABI:

File testing/sysfs-kernel-irq

Has the following ABI:

File testing/sysfs-kernel-livepatch

Has the following ABI:

File testing/sysfs-kernel-mm

Has the following ABI:

File testing/sysfs-kernel-mm-cma

Has the following ABI:

File testing/sysfs-kernel-mm-damon

Has the following ABI:

File testing/sysfs-kernel-mm-hugepages

Has the following ABI:

File testing/sysfs-kernel-mm-ksm

Has the following ABI:

File testing/sysfs-kernel-mm-memory-tiers

Has the following ABI:

File testing/sysfs-kernel-mm-mempolicy

Has the following ABI:

File testing/sysfs-kernel-mm-mempolicy-weighted-interleave

Has the following ABI:

File testing/sysfs-kernel-mm-numa

Has the following ABI:

File testing/sysfs-kernel-mm-swap

Has the following ABI:

File testing/sysfs-kernel-mm-transparent-hugepage

Has the following ABI:

File testing/sysfs-kernel-oops_count

Has the following ABI:

File testing/sysfs-kernel-reboot

Has the following ABI:

File testing/sysfs-kernel-slab

Has the following ABI:

File testing/sysfs-kernel-vmcoreinfo

Has the following ABI:

File testing/sysfs-kernel-warn_count

Has the following ABI:

File testing/sysfs-mce

Has the following ABI:

File testing/sysfs-memory-page-offline

Has the following ABI:

File testing/sysfs-module

Has the following ABI:

File testing/sysfs-nvmem-cells

Has the following ABI:

File testing/sysfs-ocfs2

Has the following ABI:

File testing/sysfs-platform-asus-laptop

Has the following ABI:

File testing/sysfs-platform-asus-wmi

Has the following ABI:

File testing/sysfs-platform-at91

Has the following ABI:

File testing/sysfs-platform-brcmstb-gisb-arb

Has the following ABI:

File testing/sysfs-platform-brcmstb-memc

Has the following ABI:

File testing/sysfs-platform-chipidea-usb-otg

Has the following ABI:

File testing/sysfs-platform-chipidea-usb2

Has the following ABI:

File testing/sysfs-platform-dell-laptop

Has the following ABI:

File testing/sysfs-platform-dell-privacy-wmi

Has the following ABI:

File testing/sysfs-platform-dell-smbios

Has the following ABI:

File testing/sysfs-platform-dell-wmi-ddv

Has the following ABI:

File testing/sysfs-platform-dfl-fme

Has the following ABI:

File testing/sysfs-platform-dfl-port

Has the following ABI:

File testing/sysfs-platform-dptf

Has the following ABI:

File testing/sysfs-platform-eeepc-laptop

Has the following ABI:

File testing/sysfs-platform-hidma

Has the following ABI:

File testing/sysfs-platform-hidma-mgmt

Has the following ABI:

File testing/sysfs-platform-i2c-demux-pinctrl

Has the following ABI:

File testing/sysfs-platform-ideapad-laptop

Has the following ABI:

File testing/sysfs-platform-intel-ifs

Device instance to test mapping intel_ifs_0 -> Scan Test intel_ifs_1 -> Array BIST test

Has the following ABI:

File testing/sysfs-platform-intel-pmc

Has the following ABI:

File testing/sysfs-platform-intel-wmi-sbl-fw-update

Has the following ABI:

File testing/sysfs-platform-intel-wmi-thunderbolt

Has the following ABI:

File testing/sysfs-platform-kim

Has the following ABI:

File testing/sysfs-platform-lg-laptop

Has the following ABI:

File testing/sysfs-platform-mellanox-bootctl

Has the following ABI:

File testing/sysfs-platform-msi-laptop

Has the following ABI:

File testing/sysfs-platform-phy-rcar-gen3-usb2

Has the following ABI:

File testing/sysfs-platform-power-on-reason

Has the following ABI:

File testing/sysfs-platform-renesas_usb3

Has the following ABI:

File testing/sysfs-platform-silicom

Has the following ABI:

File testing/sysfs-platform-sst-atom

Has the following ABI:

File testing/sysfs-platform-tahvo-usb

Has the following ABI:

File testing/sysfs-platform-ts5500

Has the following ABI:

File testing/sysfs-platform-twl4030-usb

Has the following ABI:

File testing/sysfs-platform-usbip-vudc

Has the following ABI:

File testing/sysfs-platform-wilco-ec

Has the following ABI:

File testing/sysfs-platform_profile

Has the following ABI:

File testing/sysfs-power

Has the following ABI:

File testing/sysfs-pps

Has the following ABI:

File testing/sysfs-profiling

Has the following ABI:

File testing/sysfs-ptp

Has the following ABI:

File testing/sysfs-secvar

Has the following ABI:

File testing/sysfs-timecard

Has the following ABI:

File testing/sysfs-tty

Has the following ABI:

File testing/sysfs-uevent

Has the following ABI:

File testing/usb-charger-uevent

Has the following ABI:

File testing/usb-uevent

Has the following ABI: