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syncthing/vendor/github.com/prometheus/common/model/time.go
Jakob Borg 916ec63af6 cmd/stdiscosrv: New discovery server (fixes #4618) 
This is a new revision of the discovery server. Relevant changes and
non-changes:

- Protocol towards clients is unchanged.

- Recommended large scale design is still to be deployed nehind nginx (I
  tested, and it's still a lot faster at terminating TLS).

- Database backend is leveldb again, only. It scales enough, is easy to
  setup, and we don't need any backend to take care of.

- Server supports replication. This is a simple TCP channel - protect it
  with a firewall when deploying over the internet. (We deploy this within
  the same datacenter, and with firewall.) Any incoming client announces
  are sent over the replication channel(s) to other peer discosrvs.
  Incoming replication changes are applied to the database as if they came
  from clients, but without the TLS/certificate overhead.

- Metrics are exposed using the prometheus library, when enabled.

- The database values and replication protocol is protobuf, because JSON
  was quite CPU intensive when I tried that and benchmarked it.

- The "Retry-After" value for failed lookups gets slowly increased from
  a default of 120 seconds, by 5 seconds for each failed lookup,
  independently by each discosrv. This lowers the query load over time for
  clients that are never seen. The Retry-After maxes out at 3600 after a
  couple of weeks of this increase. The number of failed lookups is
  stored in the database, now and then (avoiding making each lookup a
  database put).

All in all this means clients can be pointed towards a cluster using
just multiple A / AAAA records to gain both load sharing and redundancy
(if one is down, clients will talk to the remaining ones).

GitHub-Pull-Request: https://github.com/syncthing/syncthing/pull/4648
2018-01-14 08:52:31 +00:00

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// Copyright 2013 The Prometheus Authors
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package model
import (
"fmt"
"math"
"regexp"
"strconv"
"strings"
"time"
)
const (
// MinimumTick is the minimum supported time resolution. This has to be
// at least time.Second in order for the code below to work.
minimumTick = time.Millisecond
// second is the Time duration equivalent to one second.
second = int64(time.Second / minimumTick)
// The number of nanoseconds per minimum tick.
nanosPerTick = int64(minimumTick / time.Nanosecond)
// Earliest is the earliest Time representable. Handy for
// initializing a high watermark.
Earliest = Time(math.MinInt64)
// Latest is the latest Time representable. Handy for initializing
// a low watermark.
Latest = Time(math.MaxInt64)
)
// Time is the number of milliseconds since the epoch
// (1970-01-01 00:00 UTC) excluding leap seconds.
type Time int64
// Interval describes and interval between two timestamps.
type Interval struct {
Start, End Time
}
// Now returns the current time as a Time.
func Now() Time {
return TimeFromUnixNano(time.Now().UnixNano())
}
// TimeFromUnix returns the Time equivalent to the Unix Time t
// provided in seconds.
func TimeFromUnix(t int64) Time {
return Time(t * second)
}
// TimeFromUnixNano returns the Time equivalent to the Unix Time
// t provided in nanoseconds.
func TimeFromUnixNano(t int64) Time {
return Time(t / nanosPerTick)
}
// Equal reports whether two Times represent the same instant.
func (t Time) Equal(o Time) bool {
return t == o
}
// Before reports whether the Time t is before o.
func (t Time) Before(o Time) bool {
return t < o
}
// After reports whether the Time t is after o.
func (t Time) After(o Time) bool {
return t > o
}
// Add returns the Time t + d.
func (t Time) Add(d time.Duration) Time {
return t + Time(d/minimumTick)
}
// Sub returns the Duration t - o.
func (t Time) Sub(o Time) time.Duration {
return time.Duration(t-o) * minimumTick
}
// Time returns the time.Time representation of t.
func (t Time) Time() time.Time {
return time.Unix(int64(t)/second, (int64(t)%second)*nanosPerTick)
}
// Unix returns t as a Unix time, the number of seconds elapsed
// since January 1, 1970 UTC.
func (t Time) Unix() int64 {
return int64(t) / second
}
// UnixNano returns t as a Unix time, the number of nanoseconds elapsed
// since January 1, 1970 UTC.
func (t Time) UnixNano() int64 {
return int64(t) * nanosPerTick
}
// The number of digits after the dot.
var dotPrecision = int(math.Log10(float64(second)))
// String returns a string representation of the Time.
func (t Time) String() string {
return strconv.FormatFloat(float64(t)/float64(second), 'f', -1, 64)
}
// MarshalJSON implements the json.Marshaler interface.
func (t Time) MarshalJSON() ([]byte, error) {
return []byte(t.String()), nil
}
// UnmarshalJSON implements the json.Unmarshaler interface.
func (t *Time) UnmarshalJSON(b []byte) error {
p := strings.Split(string(b), ".")
switch len(p) {
case 1:
v, err := strconv.ParseInt(string(p[0]), 10, 64)
if err != nil {
return err
}
*t = Time(v * second)
case 2:
v, err := strconv.ParseInt(string(p[0]), 10, 64)
if err != nil {
return err
}
v *= second
prec := dotPrecision - len(p[1])
if prec < 0 {
p[1] = p[1][:dotPrecision]
} else if prec > 0 {
p[1] = p[1] + strings.Repeat("0", prec)
}
va, err := strconv.ParseInt(p[1], 10, 32)
if err != nil {
return err
}
*t = Time(v + va)
default:
return fmt.Errorf("invalid time %q", string(b))
}
return nil
}
// Duration wraps time.Duration. It is used to parse the custom duration format
// from YAML.
// This type should not propagate beyond the scope of input/output processing.
type Duration time.Duration
// Set implements pflag/flag.Value
func (d *Duration) Set(s string) error {
var err error
*d, err = ParseDuration(s)
return err
}
// Type implements pflag.Value
func (d *Duration) Type() string {
return "duration"
}
var durationRE = regexp.MustCompile("^([0-9]+)(y|w|d|h|m|s|ms)$")
// ParseDuration parses a string into a time.Duration, assuming that a year
// always has 365d, a week always has 7d, and a day always has 24h.
func ParseDuration(durationStr string) (Duration, error) {
matches := durationRE.FindStringSubmatch(durationStr)
if len(matches) != 3 {
return 0, fmt.Errorf("not a valid duration string: %q", durationStr)
}
var (
n, _ = strconv.Atoi(matches[1])
dur = time.Duration(n) * time.Millisecond
)
switch unit := matches[2]; unit {
case "y":
dur *= 1000 * 60 * 60 * 24 * 365
case "w":
dur *= 1000 * 60 * 60 * 24 * 7
case "d":
dur *= 1000 * 60 * 60 * 24
case "h":
dur *= 1000 * 60 * 60
case "m":
dur *= 1000 * 60
case "s":
dur *= 1000
case "ms":
// Value already correct
default:
return 0, fmt.Errorf("invalid time unit in duration string: %q", unit)
}
return Duration(dur), nil
}
func (d Duration) String() string {
var (
ms = int64(time.Duration(d) / time.Millisecond)
unit = "ms"
)
if ms == 0 {
return "0s"
}
factors := map[string]int64{
"y": 1000 * 60 * 60 * 24 * 365,
"w": 1000 * 60 * 60 * 24 * 7,
"d": 1000 * 60 * 60 * 24,
"h": 1000 * 60 * 60,
"m": 1000 * 60,
"s": 1000,
"ms": 1,
}
switch int64(0) {
case ms % factors["y"]:
unit = "y"
case ms % factors["w"]:
unit = "w"
case ms % factors["d"]:
unit = "d"
case ms % factors["h"]:
unit = "h"
case ms % factors["m"]:
unit = "m"
case ms % factors["s"]:
unit = "s"
}
return fmt.Sprintf("%v%v", ms/factors[unit], unit)
}
// MarshalYAML implements the yaml.Marshaler interface.
func (d Duration) MarshalYAML() (interface{}, error) {
return d.String(), nil
}
// UnmarshalYAML implements the yaml.Unmarshaler interface.
func (d *Duration) UnmarshalYAML(unmarshal func(interface{}) error) error {
var s string
if err := unmarshal(&s); err != nil {
return err
}
dur, err := ParseDuration(s)
if err != nil {
return err
}
*d = dur
return nil
}
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