nginx

From ArchWiki

nginx (pronounced "engine X"), is a free, open-source, high-performance HTTP web server and reverse proxy, as well as an IMAP/POP3 proxy server, written by Igor Sysoev in 2005. nginx is well known for its stability, rich feature set, simple configuration, and low resource consumption.

This article describes how to set up nginx and how to optionally integrate it with PHP via #FastCGI.

Installation

Install one of the following packages:

  • nginx-mainline - mainline branch: new features, updates, bugfixes.
  • nginx - stable branch: major bugfixes only.
  • angieAUR - fork and drop-in replacement for nginx with more features.
  • freenginx-mainlineAUR - drop-in replacement that preserves the free and open development of nginx (mainline branch).
  • freenginx-libresslAUR - drop-in replacement that preserves the free and open development of nginx (mainline branch with LibreSSL support).
  • freenginxAUR - drop-in replacement that preserves the free and open development of nginx (stable branch).

Using the mainline branch is recommended. The main reason to use the stable branch is that you are concerned about possible impacts of new features, such as incompatibility with third-party modules or the inadvertent introduction of bugs in new features.

Note: All nginx modules available in the official repositories require the nginx package (as opposed to nginx-mainline) as a dependency. It may be wise to review the list of modules for any you might need/want before making the nginx vs nginx-mainline decision. Modules for nginx-mainline can be found in the Arch User Repository.

For a chroot-based installation for additional security, see #Installation in a chroot.

Running

Start/enable nginx.service or angie.service if you use Angie.

The default page served at http://127.0.0.1 is /usr/share/nginx/html/index.html.

Configuration

First steps with nginx are described in the Beginner’s Guide. You can modify the configuration by editing the files in /etc/nginx/ The main configuration file is located at /etc/nginx/nginx.conf.

More details and examples can be found in the official documentation.

The examples below cover the most common use cases. It is assumed that you use the default location for documents (/usr/share/nginx/html). If that is not the case, substitute your path instead.

Tip: A Nginx configuration tool has been provided by DigitalOcean.

Configuration example

/etc/nginx/nginx.conf
user http;
worker_processes auto;
worker_cpu_affinity auto;

events {
    multi_accept on;
    worker_connections 1024;
}

http {
    charset utf-8;
    sendfile on;
    tcp_nopush on;
    tcp_nodelay on;
    server_tokens off;
    log_not_found off;
    types_hash_max_size 4096;
    client_max_body_size 16M;

    # MIME
    include mime.types;
    default_type application/octet-stream;

    # logging
    access_log /var/log/nginx/access.log;
    error_log /var/log/nginx/error.log warn;

    # load configs
    include /etc/nginx/conf.d/*.conf;
    include /etc/nginx/sites-enabled/*;
}

General configuration

Processes and connections

You should choose a fitting value for worker_processes. This setting ultimately defines how many connections nginx will accept and how many processors it will be able to make use of. Generally, making it the number of hardware threads in your system is a good start. Alternatively, worker_processes accepts the auto value since versions 1.3.8 and 1.2.5, which will try to autodetect the optimal value (source).

The maximum connections nginx will accept is given by max_clients = worker_processes * worker_connections.

Running under different user

By default, nginx runs the master process as root and worker processes as user http. To run worker processes as another user, change the user directive in nginx.conf:

/etc/nginx/nginx.conf
user user [group];

If the group is omitted, a group whose name equals that of user is used.

Tip: It is also possible to run nginx without anything running as root using systemd. See #Running unprivileged using systemd and #Running user service using systemd.

Server blocks

It is possible to serve multiple domains using server blocks. These are comparable to "VirtualHosts" in Apache HTTP Server. Also see the upstream examples.

In the example below the server listens for incoming connections on IPv4 and IPv6 ports 80 for two domains, domainname1.tld and domainname2.tld:

/etc/nginx/nginx.conf
...
server {
    listen 80;
    listen [::]:80;
    server_name domainname1.tld;
    root /usr/share/nginx/domainname1.tld/html;
    location / {
        index index.php index.html index.htm;
    }
}

server {
    listen 80;
    listen [::]:80;
    server_name domainname2.tld;
    root /usr/share/nginx/domainname2.tld/html;
    ...
}

Restart nginx.service to apply any changes.

Note: Make sure the hostnames are resolvable by setting up a DNS-server like BIND or dnsmasq, or have a look at Network configuration#Local network hostname resolution.
Managing server entries

It is possible to put different server blocks in different files. This allows you to easily enable or disable certain sites.

The factual accuracy of this article or section is disputed.

Reason: It is contested if the below approach using sites-enabled and sites-available is still useful and doesn't create more problems, see comparing the two approaches and example of problems arising through sites-enabled and sites-available approach.

Instead, one can just create files inside etc/nginx/conf.d/ which adheres to the standard of drop in configuration files. Then, include include /etc/nginx/conf.d/*.conf in the main config file, similar to including other file patterns in other directories as shown below. This way, sites can be disabled just be renaming them to e.g. original_name.conf.disabled, since only files ending in .conf are included.

(Discuss in Talk:Nginx)

For using the sites-enabled and sites-available approach, create the following directories:

# mkdir /etc/nginx/sites-available
# mkdir /etc/nginx/sites-enabled

Create a file inside the sites-available directory that contains one or more server blocks:

/etc/nginx/sites-available/example.conf
server {
    listen 443 ssl;
    listen [::]:443 ssl;
    http2 on;

    ...
}

Append include sites-enabled/*; to the end of the http block:

/etc/nginx/nginx.conf
http {
    ...
    include sites-enabled/*;
}

To enable a site, simply create a symlink:

# ln -s /etc/nginx/sites-available/example.conf /etc/nginx/sites-enabled/example.conf

To disable a site, unlink the active symlink:

# unlink /etc/nginx/sites-enabled/example.conf

Reload/restart nginx.service to enable changes to the site's configuration.

TLS

This article or section needs language, wiki syntax or style improvements. See Help:Style for reference.

Reason: Do not duplicate OpenSSL#Usage. (Discuss in Talk:Nginx)

OpenSSL provides TLS support and is installed by default on Arch installations.

Tip:
  • You may want to read the ngx_http_ssl_module documentation first before configuring SSL.
  • Let’s Encrypt is a free, automated, and open certificate authority. A plugin is available to request valid SSL certificates straight from the command line and automatic configuration.
  • Mozilla has a useful TLS article as well as an automated tool to help create a more secure configuration.
Warning: If you plan on implementing TLS, know that some variations and implementations are still vulnerable to attack[1]. For details on these current vulnerabilities within TLS and how to apply appropriate changes to nginx, visit https://weakdh.org/sysadmin.html

Create a private key and self-signed certificate. This is adequate for most installations that do not require a CSR:

# mkdir /etc/nginx/ssl
# cd /etc/nginx/ssl
# openssl req -new -x509 -nodes -newkey rsa:4096 -keyout server.key -out server.crt -days 1095
# chmod 400 server.key
# chmod 444 server.crt
Note: The -days switch is optional and RSA keysize can be as low as 2048 (default).

If you need to create a CSR, follow these instructions instead of the above:

# mkdir /etc/nginx/ssl
# cd /etc/nginx/ssl
# openssl genpkey -algorithm RSA -pkeyopt rsa_keygen_bits:4096 -out server.key
# chmod 400 server.key
# openssl req -new -sha256 -key server.key -out server.csr
# openssl x509 -req -days 1095 -in server.csr -signkey server.key -out server.crt
Note: For more openssl options, read its man page openssl(1ssl) or peruse its extensive documentation.

A starting point for a /etc/nginx/nginx.conf with TLS is Mozilla's SSL Configuration Generator.

Restart nginx.service to apply any changes.

Per-user directories

To replicate Apache-style ~user URLs to users' ~/public_html directories, try the following. (Note: if both rules are used, below, the more-specific PHP rule must come first.)

/etc/nginx/nginx.conf
...
server {
    ...
    # PHP in user directories, e.g. http://example.com/~user/test.php
    location ~ ^/~(.+?)(/.+\.php)$ {
        alias          /home/$1/public_html$2;
        fastcgi_pass   unix:/run/php-fpm/php-fpm.sock;
        fastcgi_index  index.php;
        include        fastcgi.conf;
    }

    # User directories, e.g. http://example.com/~user/
    location ~ ^/~(.+?)(/.*)?$ {
        alias     /home/$1/public_html$2;
        index     index.html index.htm;
        autoindex on;
    }
    ...
}
...

See #PHP implementation for more information on PHP configuration with nginx.

Restart nginx.service to enable the new configuration.

FastCGI

FastCGI, also FCGI, is a protocol for interfacing interactive programs with a web server. FastCGI is a variation on the earlier Common Gateway Interface (CGI); FastCGI's main aim is to reduce the overhead associated with interfacing the web server and CGI programs, allowing servers to handle more web page requests at once.

FastCGI technology is introduced into nginx to work with many external tools, e.g. Perl, PHP and Python.

PHP implementation

PHP-FPM is the recommended solution to run as FastCGI server for PHP.

Install php-fpm and make sure PHP has been installed and configured correctly. The main configuration file of PHP-FPM is /etc/php/php-fpm.conf. For basic usage the default configuration should be sufficient.

Finally, start/enable php-fpm.service.

You can also use php-legacy-fpm instead, see #Using php-legacy.

Note:
  • If you run nginx under a different user, make sure that the PHP-FPM socket file is accessible by this user, or use a TCP socket.
  • If you run nginx in chrooted environment (chroot is /srv/nginx-jail, web pages are served at /srv/nginx-jail/www), you must modify the file /etc/php/php-fpm.conf to include the chroot = /srv/nginx-jail and listen = /srv/nginx-jail/run/php-fpm/php-fpm.sock directives within the pool section (a default one is [www]). Create the directory for the socket file, if missing. Moreover, for modules that are dynamically linked to dependencies, you will need to copy those dependencies to the chroot (e.g. for php-imagick, you will need to copy the ImageMagick libraries to the chroot, but not imagick.so itself).
nginx configuration

When serving a PHP web-application, a location for PHP-FPM should to be included in each server block [2], e.g.:

/etc/nginx/sites-available/example.conf
server {
    root /usr/share/nginx/html;

    location / {
        index index.html index.htm index.php;
    }

    location ~ \.php$ {
        # 404
        try_files $fastcgi_script_name =404;

        # default fastcgi_params
        include fastcgi_params;

        # fastcgi settings
        fastcgi_pass			unix:/run/php-fpm/php-fpm.sock;
        fastcgi_index			index.php;
        fastcgi_buffers			8 16k;
        fastcgi_buffer_size		32k;

        # fastcgi params
        fastcgi_param DOCUMENT_ROOT	$realpath_root;
        fastcgi_param SCRIPT_FILENAME	$realpath_root$fastcgi_script_name;
        #fastcgi_param PHP_ADMIN_VALUE	"open_basedir=$base/:/usr/lib/php/:/tmp/";
    }
}

If it is needed to process other extensions with PHP (e.g. .html and .htm):

location ~ [^/]\.(php|html|htm)(/|$) {
    ...
}

Non .php extension processing in PHP-FPM should also be explicitly added in /etc/php/php-fpm.d/www.conf:

security.limit_extensions = .php .html .htm
Note: Pay attention to the fastcgi_pass argument, as it must be the TCP or Unix socket defined by the chosen FastCGI server in its configuration file. The default (Unix) socket for php-fpm is:
fastcgi_pass unix:/run/php-fpm/php-fpm.sock;

You might use the common TCP socket, not default,

fastcgi_pass 127.0.0.1:9000;
Unix domain sockets should however be faster.
Tip: To allow multiple server blocks using the same PHP-FPM configuration, a php_fastcgi.conf configuration file may be used to ease management:
/etc/nginx/php_fastcgi.conf
location ~ \.php$ {
    # 404
    try_files $fastcgi_script_name =404;

    # default fastcgi_params
    include fastcgi_params;

    # fastcgi settings
    ...
}

To enable PHP support for a particular server, simply include the php_fastcgi.conf configuration file:

/etc/nginx/sites-available/example.conf
server {
    server_name example.com;
    ...

    include /etc/nginx/php_fastcgi.conf;
}
Test configuration

You need to restart the php-fpm.service and nginx.service units if the configuration has been changed in order to apply changes.

To test the FastCGI implementation, create a new PHP file inside the root folder containing:

<?php phpinfo(); ?>

Navigate this file inside a browser and you should see the informational page with the current PHP configuration.

CGI implementation

This implementation is needed for CGI applications.

fcgiwrap

Install fcgiwrap. The configuration is done by editing fcgiwrap.socket. Enable and start fcgiwrap.socket.

Multiple worker threads

If you want to spawn multiple worker threads, it is recommended that you use multiwatchAUR, which will take care of restarting crashed children. You will need to use spawn-fcgi to create the Unix socket, as multiwatch seems unable to handle the systemd-created socket, even though fcgiwrap itself does not have any trouble if invoked directly in the unit file.

Override the unit fcgiwrap.service (and the fcgiwrap.socket unit, if present), and modify the ExecStart line to suit your needs. Here is a unit file that uses multiwatchAUR. Make sure fcgiwrap.socket is not started or enabled, because it will conflict with this unit:

/etc/systemd/system/fcgiwrap.service
[Unit]
Description=Simple CGI Server
After=nss-user-lookup.target

[Service]
ExecStartPre=/bin/rm -f /run/fcgiwrap.socket
ExecStart=/usr/bin/spawn-fcgi -u http -g http -s /run/fcgiwrap.sock -n -- /usr/bin/multiwatch -f 10 -- /usr/sbin/fcgiwrap
ExecStartPost=/usr/bin/chmod 660 /run/fcgiwrap.sock
PrivateTmp=true
Restart=on-failure

[Install]
WantedBy=multi-user.target

Tweak -f 10 to change the number of children that are spawned.

Warning: The ExecStartPost line is required because of strange behaviour I'm seeing when I use the -M 660 option for spawn-fcgi. The wrong mode is set. This may be a bug?
nginx configuration

In /etc/nginx, copy the file fastcgi_params to fcgiwrap_params. In fcgiwrap_params, comment or delete the lines which set SCRIPT_NAME and DOCUMENT_ROOT.

Inside each server block serving a CGI web application should appear a location block similar to:

location ~ \.cgi$ {
     include       fcgiwrap_params;
     fastcgi_param DOCUMENT_ROOT /srv/www/cgi-bin/;
     fastcgi_param SCRIPT_NAME   myscript.cgi;
     fastcgi_pass  unix:/run/fcgiwrap.sock;
}

The default socket file for fcgiwrap is /run/fcgiwrap.sock.

Using fastcgi_param SCRIPT_FILENAME /srv/www/cgi-bin/myscript.cgi is a shortcut alternative to setting DOCUMENT_ROOT and SCRIPT_NAME. If you use SCRIPT_FILENAME, you also will not need to copy fastcgi_params to fcgiwrap_params and comment out the DOCUMENT_ROOT and SCRIPT_NAME lines.

Warning: If SCRIPT_NAME and DOCUMENT_ROOT are used, fcgiwrap will discard any other fastcgi_params set in nginx. You must use SCRIPT_FILENAME in order for other params (like PATH_INFO) to be settable through the Nginx configuration. See this GitHub issue.

If you keep getting a 502 - bad Gateway error, you should check if your CGI-application first announces the mime-type of the following content. For HTML this needs to be Content-type: text/html.

If you get 403 errors, make sure that the CGI executable is readable and executable by the http user and that every parent folder is readable by the http user.

Installation in a chroot

The factual accuracy of this article or section is disputed.

Reason: This section is from 2013. systemd has since been introduced and can be used instead, at much greater efficiency and without much hassle. (Discuss in Talk:Nginx)

Installing nginx in a chroot adds an additional layer of security. For maximum security the chroot should include only the files needed to run the nginx server and all files should have the most restrictive permissions possible, e.g., as much as possible should be owned by root, directories such as /usr/bin should be unreadable and unwritable, etc.

Arch comes with an http user and group by default which will run the server. The chroot will be in /srv/http.

A PERL script to create this jail is available at jail.pl gist. You can either use that or follow the instructions in this article. It expects to be run as root. You will need to uncomment a line before it makes any changes.

Create necessary devices

nginx needs /dev/null, /dev/random, and /dev/urandom. To install these in the chroot create the /dev/ directory and add the devices with mknod. Avoid mounting all of /dev/ to ensure that, even if the chroot is compromised, an attacker must break out of the chroot to access important devices like /dev/sda1.

Tip:
  • Be sure that /srv/http is mounted without the nodev option
  • See mknod(1) and ls -l /dev/{null,random,urandom} to better understand the mknod options.
# export JAIL=/srv/http
# mkdir $JAIL/dev
# mknod -m 0666 $JAIL/dev/null c 1 3
# mknod -m 0666 $JAIL/dev/random c 1 8
# mknod -m 0444 $JAIL/dev/urandom c 1 9

Create necessary directories

nginx requires a bunch of files to run properly. Before copying them over, create the folders to store them. This assumes your nginx document root will be /srv/http/www.

# mkdir -p $JAIL/etc/nginx/logs
# mkdir -p $JAIL/usr/{lib,bin}
# mkdir -p $JAIL/usr/share/nginx
# mkdir -p $JAIL/var/{log,lib}/nginx
# mkdir -p $JAIL/www/cgi-bin
# mkdir -p $JAIL/{run,tmp}
# cd $JAIL; ln -s usr/lib lib
# cd $JAIL; ln -s usr/lib lib64
# cd $JAIL/usr; ln -s lib lib64

Then mount $JAIL/tmp and $JAIL/run as tmpfs's. The size should be limited to ensure an attacker cannot eat all the RAM.

# mount -t tmpfs none $JAIL/run -o 'noexec,size=1M'
# mount -t tmpfs none $JAIL/tmp -o 'noexec,size=100M'

In order to preserve the mounts across reboots, the following entries should be added to /etc/fstab:

/etc/fstab
tmpfs   /srv/http/run   tmpfs   rw,noexec,relatime,size=1024k   0       0
tmpfs   /srv/http/tmp   tmpfs   rw,noexec,relatime,size=102400k 0       0

Populate the chroot

First copy over the easy files.

# cp -r /usr/share/nginx/* $JAIL/usr/share/nginx
# cp -r /usr/share/nginx/html/* $JAIL/www
# cp /usr/bin/nginx $JAIL/usr/bin/
# cp -r /var/lib/nginx $JAIL/var/lib/nginx

Now copy over required libraries. Use ldd to list them and then copy them all to the correct location. Copying is preferred over hardlinks to ensure that even if an attacker gains write access to the files they cannot destroy or alter the true system files.

$ ldd /usr/bin/nginx
linux-vdso.so.1 (0x00007fffc41fe000)
libpthread.so.0 => /usr/lib/libpthread.so.0 (0x00007f57ec3e8000)
libcrypt.so.1 => /usr/lib/libcrypt.so.1 (0x00007f57ec1b1000)
libstdc++.so.6 => /usr/lib/libstdc++.so.6 (0x00007f57ebead000)
libm.so.6 => /usr/lib/libm.so.6 (0x00007f57ebbaf000)
libpcre.so.1 => /usr/lib/libpcre.so.1 (0x00007f57eb94c000)
libssl.so.1.0.0 => /usr/lib/libssl.so.1.0.0 (0x00007f57eb6e0000)
libcrypto.so.1.0.0 => /usr/lib/libcrypto.so.1.0.0 (0x00007f57eb2d6000)
libdl.so.2 => /usr/lib/libdl.so.2 (0x00007f57eb0d2000)
libz.so.1 => /usr/lib/libz.so.1 (0x00007f57eaebc000)
libGeoIP.so.1 => /usr/lib/libGeoIP.so.1 (0x00007f57eac8d000)
libgcc_s.so.1 => /usr/lib/libgcc_s.so.1 (0x00007f57eaa77000)
libc.so.6 => /usr/lib/libc.so.6 (0x00007f57ea6ca000)
/lib64/ld-linux-x86-64.so.2 (0x00007f57ec604000)

For files residing in /usr/lib you may try the following one-liner:

# cp $(ldd /usr/bin/nginx | grep /usr/lib/ | sed -sre 's/(.+)(\/usr\/lib\/\S+).+/\2/g') $JAIL/usr/lib

And the following for ld-linux-x86-64.so:

# cp /lib64/ld-linux-x86-64.so.2 $JAIL/lib
Note: Do not try to copy linux-vdso.so: it is not a real library and does not exist in /usr/lib.

Copy over some miscellaneous but necessary libraries and system files.

# cp /usr/lib/libnss_* $JAIL/usr/lib
# cp -rfvL /etc/{services,localtime,nsswitch.conf,nscd.conf,protocols,hosts,ld.so.cache,ld.so.conf,resolv.conf,host.conf,nginx} $JAIL/etc

Create restricted user/group files for the chroot. This way only the users needed for the chroot to function exist as far as the chroot knows, and none of the system users/groups are leaked to attackers should they gain access to the chroot.

$JAIL/etc/group
http:x:33:
nobody:x:99:
$JAIL/etc/passwd
http:x:33:33:http:/:/bin/false
nobody:x:99:99:nobody:/:/bin/false
$JAIL/etc/shadow
http:x:14871::::::
nobody:x:14871::::::
$JAIL/etc/gshadow
http:::
nobody:::
# touch $JAIL/etc/shells
# touch $JAIL/run/nginx.pid

Finally, make set very restrictive permissions. As much as possible should be owned by root and set unwritable.

# chown -R root:root $JAIL/

# chown -R http:http $JAIL/www
# chown -R http:http $JAIL/etc/nginx
# chown -R http:http $JAIL/var/{log,lib}/nginx
# chown http:http $JAIL/run/nginx.pid

# find $JAIL/ -gid 0 -uid 0 -type d -print | xargs chmod -rw
# find $JAIL/ -gid 0 -uid 0 -type d -print | xargs chmod +x
# find $JAIL/etc -gid 0 -uid 0 -type f -print | xargs chmod -x
# find $JAIL/usr/bin -type f -print | xargs chmod ug+rx
# find $JAIL/ -group http -user http -print | xargs chmod o-rwx
# chmod +rw $JAIL/tmp
# chmod +rw $JAIL/run

If your server will bind port 80 (or any other port in range [1-1023]), give the chrooted executable permission to bind these ports without root.

# setcap 'cap_net_bind_service=+ep' $JAIL/usr/bin/nginx

Modify nginx.service to start chroot

Override the unit nginx.service. Upgrading nginx will not modify your custom .service file.

The systemd unit must be changed to start up nginx in the chroot, as the http user, and store the PID file in the chroot.

Note: I'm not sure if the pid file needs to be stored in the chroot jail.
/etc/systemd/system/nginx.service
[Unit]
Description=A high performance web server and a reverse proxy server
After=network.target

[Service]
Type=forking
PIDFile=/srv/http/run/nginx.pid
ExecStartPre=/usr/bin/chroot --userspec=http:http /srv/http /usr/bin/nginx -t -q -g 'pid /run/nginx.pid; daemon on; master_process on;'
ExecStart=/usr/bin/chroot --userspec=http:http /srv/http /usr/bin/nginx -g 'pid /run/nginx.pid; daemon on; master_process on;'
ExecReload=/usr/bin/chroot --userspec=http:http /srv/http /usr/bin/nginx -g 'pid /run/nginx.pid; daemon on; master_process on;' -s reload
ExecStop=/usr/bin/chroot --userspec=http:http /srv/http /usr/bin/nginx -g 'pid /run/nginx.pid;' -s quit

[Install]
WantedBy=multi-user.target
Note: Upgrading nginx with pacman will not upgrade the chrooted nginx installation. You have to take care of the updates manually by repeating some of the steps above. Do not forget to also update the libraries it links against.

You can now safely get rid of the non-chrooted nginx installation.

# pacman -Rsc nginx

If you do not remove the non-chrooted nginx installation, you may want to make sure that the running nginx process is in fact the chrooted one. You can do so by checking where /proc/PID/root symlinks to. It should link to /srv/http instead of /.

# ps -C nginx | awk '{print $1}' | sed 1d | while read -r PID; do ls -l /proc/$PID/root; done

Tips and tricks

Running unprivileged using systemd

Use a drop-in unit file for nginx.service and set the User and optionally Group options under [Service]:

/etc/systemd/system/nginx.service.d/user.conf
[Service]
User=user
Group=group

We can harden the service against ever elevating privileges:

/etc/systemd/system/nginx.service.d/user.conf
[Service]
...
NoNewPrivileges=yes
Tip: See systemd.exec(5) for more options of confinement.

Then we need to ensure that user has access to everything it needs. Follow the subsections below and then start nginx.

Tip: The same setup may be desirable for your FastCGI server as well.

Port

Linux does not permit non-root processes to bind to ports below 1024 by default. A port above 1024 can be used:

/etc/nginx/nginx.conf
server {
        listen 8080;
}
Tip: If you want nginx accessible on port 80 or 443, configure your firewall to redirect requests from 80 or 443 to the ports nginx listens to.

Or you may grant the nginx process the CAP_NET_BIND_SERVICE capability which allows it to bind to ports below 1024:

/etc/systemd/system/nginx.service.d/user.conf
[Service]
...
CapabilityBoundingSet=
CapabilityBoundingSet=CAP_NET_BIND_SERVICE
AmbientCapabilities=
AmbientCapabilities=CAP_NET_BIND_SERVICE

Alternatively, you can use systemd socket activation. In this case, systemd will listen on the ports and, when a connection is made, spawn nginx passing the socket as a file descriptor. This means nginx requires no special capabilities as the socket already exists when it is started. This relies on an internal environment variable that nginx uses for passing sockets [3] and is therefore not officially supported. Instead of setting CapabilityBoundingSet and AmbientCapabilities, edit the service override to set the NGINX environment variable to tell nginx which file descriptors the sockets will be passed as:

/etc/systemd/system/nginx.service.d/user.conf
[Service]
...
Environment=NGINX=3:4;

There will be one socket per listening port starting at file descriptor 3, so in this example we are telling nginx to expect two sockets. Now create a nginx.socket unit specifying what ports to listen on:

/etc/systemd/system/nginx.socket
[Socket]
ListenStream=0.0.0.0:80
ListenStream=0.0.0.0:443
After=network.target
Requires=network.target

[Install]
WantedBy=sockets.target

The sockets will be passed in the order defined in this unit, so port 80 will be file descriptor 3 and port 443 will be file descriptor 4. If you previously enabled or started the service, you should now stop it, and enable nginx.socket instead. When your system starts, nginx will not be running, but will be started when you access the website in a browser. With this you can harden the service further; for example, in many cases you can now set PrivateNetwork=True in the service file, blocking nginx from the external network, since the socket created by systemd is sufficient to serve the website over. Note that this will print a warning in the logs of the nginx service: 2020/08/29 19:33:20 [notice] 254#254: using inherited sockets from "3:4;"

PID file

nginx is compiled to use /run/nginx.pid by default, which user cannot write to. We can create a directory that user can write to and place the PID file there. This can for example be done with RuntimeDirectory (systemd.exec(5)).

Edit nginx.service to configure the PID file:

/etc/systemd/system/nginx.service.d/user.conf
[Service]
...
RuntimeDirectory=nginx
PIDFile=/run/nginx/nginx.pid
ExecStart=
ExecStart=/usr/bin/nginx -g 'pid /run/nginx/nginx.pid; error_log stderr;' 
ExecReload=
ExecReload=/usr/bin/nginx -s reload -g 'pid /run/nginx/nginx.pid; error_log stderr;'

/var/lib/nginx

nginx is compiled to store temp files in /var/lib/nginx by default.

Tip: See all compiled-in options by running $ nginx -V

You can give user write access to this directory by for example using StateDirectory (systemd.exec(5)):

/etc/systemd/system/nginx.service.d/user.conf
[Service]
...
StateDirectory=nginx

/var/log/nginx

nginx is compiled to store access logs in /var/log/nginx by default.

You can give user write access to this directory by for example using LogsDirectory (systemd.exec(5)):

/etc/systemd/system/nginx.service.d/user.conf
[Service]
...
LogsDirectory=nginx

Running user service using systemd

If you want to run a server instance fully controlled and configurable by unprivileged user, consider using nginx-user-serviceAUR.

Alternative script for systemd

On pure systemd you can get advantages of chroot + systemd. [4] Based on set user group and pid with:

/etc/nginx/nginx.conf
user http;
pid /run/nginx.pid;

the absolute path of the file is /srv/http/etc/nginx/nginx.conf.

/etc/systemd/system/nginx.service
[Unit]
Description=nginx (Chroot)
After=network.target

[Service]
Type=forking
PIDFile=/srv/http/run/nginx.pid
RootDirectory=/srv/http
ExecStartPre=/usr/bin/nginx -t -c /etc/nginx/nginx.conf
ExecStart=/usr/bin/nginx -c /etc/nginx/nginx.conf
ExecReload=/usr/bin/nginx -c /etc/nginx/nginx.conf -s reload
ExecStop=/usr/bin/nginx -c /etc/nginx/nginx.conf -s stop

[Install]
WantedBy=multi-user.target

It is not necessary to set the default location, nginx loads at default -c /etc/nginx/nginx.conf, but it is a good idea.

Alternatively you can run only ExecStart as chroot with parameter RootDirectoryStartOnly set as yes (see systemd.service(5)) or start it before mount point as effective or a systemd path (see systemd.path(5)) is available.

/etc/systemd/system/nginx.path
[Unit]
Description=nginx (Chroot) path
[Path]
PathExists=/srv/http/site/Public_html
[Install]
WantedBy=default.target

Enable the created nginx.path and change the WantedBy=default.target to WantedBy=nginx.path in /etc/systemd/system/nginx.service.

The PIDFile in unit file allows systemd to monitor process (absolute path required). If it is undesired, you can change to default one-shot type, and delete the reference from the unit file.

Nginx beautifier

nginxbeautifierAUR is a commandline tool used to beautify and format nginx configuration files.

Better headers management

Nginx has a rather unintuitive header management system where headers can only be defined in one context, any other headers are ignored. To remedy this we can install the headers-more-nginx module.

Install the package nginx-mod-headers-more package. This will install the module to /usr/lib/nginx/modules directory.

To load the module add the following to the top of your main nginx configuration file.

/etc/nginx/nginx.conf
load_module "/usr/lib/nginx/modules/ngx_http_headers_more_filter_module.so";
...

Basic Authentication

Basic authentication requires creation of a password file. The password file can be managed using htpasswd program provided by the apache package or using nginx_passwdAUR which provides nginx-passwd - details available on GitHub source

Using php-legacy

Install php-legacy-fpm instead of php-fpm and make sure PHP has been installed and configured correctly.

The main configuration file of PHP-LEGACY-FPM is /etc/php-legacy/php-fpm.conf. For basic usage the default configuration should be sufficient.

The Unix socket for the fastcgi_pass argument also needs to be adjusted, usually it is:

fastcgi_pass unix:/run/php-fpm-legacy/php-fpm.sock;

Then start/enable php-legacy-fpm.service.

Troubleshooting

Configuration validation

# nginx -t
nginx: the configuration file /etc/nginx/nginx.conf syntax is ok
nginx: configuration file /etc/nginx/nginx.conf test is successful

Error: The page you are looking for is temporarily unavailable. Please try again later. (502 Bad Gateway)

This is because the FastCGI server has not been started, or the socket used has wrong permissions.

Try out this answer to fix the 502 error.

In Arch Linux, the configuration file mentioned in above link is /etc/php/php-fpm.conf.

Error: No input file specified

1. Verify that variable open_basedir in /etc/php/php.ini contains the correct path specified as root argument in nginx.conf (usually /usr/share/nginx/). When using PHP-FPM as FastCGI server for PHP, you may add fastcgi_param PHP_ADMIN_VALUE "open_basedir=$document_root/:/tmp/:/proc/"; in the location block which aims for processing PHP file in nginx.conf.

2. Another occasion is that, wrong root argument in the location ~ \.php$ section in nginx.conf. Make sure the root points to the same directory as it in location / in the same server. Or you may just set root as global, do not define it in any location section.

3. Check permissions: e.g. http for user/group, 755 for directories and 644 for files. Remember the entire path to the html directory should have the correct permissions. See File permissions and attributes#Bulk chmod to bulk modify a directory tree.

4. You do not have the SCRIPT_FILENAME containing the full path to your scripts. If the configuration of nginx (fastcgi_param SCRIPT_FILENAME) is correct, this kind of error means PHP failed to load the requested script. Usually it is simply a permissions issue, you can just run php-cgi as root:

# spawn-fcgi -a 127.0.0.1 -p 9000 -f /usr/bin/php-cgi

or you should create a group and user to start the php-cgi:

# groupadd www
# useradd -g www www
# chmod +w /srv/www/nginx/html
# chown -R www:www /srv/www/nginx/html
# spawn-fcgi -a 127.0.0.1 -p 9000 -u www -g www -f /usr/bin/php-cgi

5. If you are running php-fpm with chrooted nginx ensure chroot is set correctly within /etc/php-fpm/php-fpm.d/www.conf (or /etc/php-fpm/php-fpm.conf if working on older version)

Warning: Could not build optimal types_hash

When starting the nginx.service, the process might log the message:

[warn] 18872#18872: could not build optimal types_hash, you should increase either types_hash_max_size: 1024 or types_hash_bucket_size: 64; ignoring types_hash_bucket_size

To fix this warning, increase the values for these keys inside the http block [5] [6]:

/etc/nginx/nginx.conf
http {
    types_hash_max_size 4096;
    server_names_hash_bucket_size 128;
    ...
}

Cannot assign requested address

The full error from nginx.service unit status is

[emerg] 460#460: bind() to A.B.C.D:443 failed (99: Cannot assign requested address)

Even if your nginx unit-file is configured to run after network.target with systemd, nginx may attempt to listen at an address that is configured but not added to any interface yet. Verify that this the case by manually running start for nginx (thereby showing the IP address is configured properly). Configuring nginx to listen to any address will resolve this issue. Now if your use case requires listening to a specific address, one possible solution is to reconfigure systemd.

To start nginx after all configured network devices are up and assigned an IP address, append network-online.target to After= within nginx.service and start/enable systemd-networkd-wait-online.service.

See also