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Revision as of 16:15, 9 February 2011 by Toshio (talk | contribs) (clarify a little bit)

Fedora systemd Services

This document describes the guidelines for systemd services, for use and inclusion in Fedora packages.

Unit Files

The systemd equivalent for an SysV initscript is called a Unit file. Each package that contains software that wants/needs to start a service at boot must have a systemd unit file.

SysV Initscripts
Packages may also provide a SysV initscript file, but are not required to do so. This format is considered legacy, but Fedora still contains init mechanisms such as upstart which do not support the systemd unit file format. If present, the SysV initscript(s) must go into an optional subpackage, so as not to confuse sysadmins. The guidelines for SysV initscripts can be found here: Packaging:SysVInitScript

Naming

Unit files have a naming scheme of foobar.service. When considering what basename to use, keep the following advice in mind:

  • Unit files must be named after the software implementation that they support, as opposed to the generic type of software. So, a good name would be "apache-httpd.service", and a bad name would be "httpd.service", as there are multiple httpd implementations, but only one Apache httpd.

It is our intention to unify service names of well-known software across distributions, so that we can eventually ship the service files in the upstream packages. Hence it is a good idea to discuss service names with maintainers of the same packages in other distributions and agree on a common name.

Basic format

Case Sensitivity
All fields in a unit file are case sensitive.

Every .service file must begin with a [Unit] section:

[Unit]
Description=A brief human readable string describing the service (not the service file!)
After=syslog.target

The Description= line must not exceed 80 characters, and must describe the service, and not the service file. For example, "Apache Web Server" is a good description, but "Starts and Stops the Apache Web Server" is a bad one.

After specifies that this service may only start after the listed services have started. In this example, the service starts after syslog since syslog can be used for logging. (Most daemon programs can use syslog for logging so when in doubt, it's good to include this.)

Next, the .service file must have a [Service] section:

[Service]
Type=...
ExecStart=...
ExecReload=...

The Type= setting is very important. For D-Bus services this should be "dbus", for traditional services "forking" is usually a good idea, for services not offering any interfaces to other services "simple" is best. For "one-shot" scripts "oneshot" is ideal, often combined with RemainAfterExit=. See http://0pointer.de/public/systemd-man/systemd.service.html for further discussion on the topic. Since "simple" is the default type, .service files which would normally set Type=simple may simply omit the Type line altogether.

BusName= should be set for all services connecting to D-Bus. (i.e. it is a must for those where Type=dbus, but might make sense otherwise, too) Omit this option if your service does not take a name on the bus.

ExecStart= is necessary for all services. This line defines the string that you would run to start the service daemon, along with any necessary options.

ExecReload= should be specified for all services supporting reload. It is highly recommended to add code here that synchronously reloads the configuration file here (i.e. /bin/kill -HUP $MAINPID is usually a poor choice, due to its asynchronous nature). Omit this option if your service does not support reloading.

Finally, the .service file must have an [Install] section:

[Install]
WantedBy=...

The recommended parameters for WantedBy are either multi-user.target (for most system services) or graphical.target (for services related to the UI).

For more information regarding these options see http://0pointer.de/public/systemd-man/systemd.unit.html and http://0pointer.de/public/systemd-man/systemd.service.html

Strictly speaking ExecStart= (in the [Service] section) is the only option really necessary for a .service file. However, in Fedora you must add the other options mentioned here (as applicable).

Support for /etc/sysconfig files

If your service supports /etc/sysconfig files, then you must use EnvironmentFile=/etc/sysconfig/foobar in your .service file, in the [Service] section.

Example:

[Service]
Type=forking
EnvironmentFile=-/etc/sysconfig/httpd
ExecStart=/usr/sbin/httpd ${OPTIONS}
ExecReload=/usr/sbin/httpd ${OPTIONS} -k restart

You may then refer to variables set in sysconfig files with ${FOOBAR} and $FOOBAR, in the ExecStart= lines (and related lines). (${FOOBAR} expands the variable into one word, $FOOBAR splits up the variable value at whitespace into multiple words)

The "-" on the EnvironmentFile= line ensures that no error messages is generated if the sysconfig file does not exist. Since traditionally sysconfig files have been optional you should always include the "-" when using this directive.

Fields to avoid

For most services, we do not want to use requirement dependencies in the [Unit] section, such as Requires= or Wants=. Instead exclusively use ordering dependencies: Before= and After=. This is used to implement loose coupling: if someone asks two services to start at the same time, systemd will properly order their startup but not make it strictly necessary to run one if the other is started.

If you use a requirement dependency, use Wants= rather than Requires=, to make things a little bit more robust. If you use a requirement dependency in almost all cases you should also add an ordering dependency, as ordering and requirement dependencies are orthogonal in systemd.

Here's an example of this common case:

  1. A web application needs postgresql to store its data.
  2. It is set to start After postgresql. On startup, the web application does not start until postgresql does.
  3. Once running, the system administrator needs to restart postgresql due to a config tweak.
  4. Since only After was used, the web application may be temporarily unable to serve some requests but it does not need to restart in order to serve pages after the database comes back up.

Avoid referring to runlevelX.target units in all lines taking unit names (such as WantedBy), these are legacy names existing for compatibility with SysV only.

Avoid Names= (in the [Unit] section). Usually it is a better idea to symlink an additional name in the file system. Note that a name listed in Names= is only useful when a service file is already loaded. However, systemd loads only the service files actually referred to in another loaded service, and uses the filenames during the search. Hence a name in Names= is not useful as a search key, but a symlink in the file system is. Also do not put a (redundant) Names=foobar.service line into a file called foobar.service. We want to keep our service files short.

Avoid using StandardOutput=kmsg. Use StandardOutput=syslog instead. (same for StandardError=). syslog is a better target, because it can be properly handled in logging, as opposed to written to the console, via kmsg (where it may never be seen). StandardOutput=syslog is recommended for all services which generate output on stdin or stderr which shall be piped to syslog. Note that if StandardOutput=syslog is set StandardError=syslog is implied unless StandardError= is explicitly configured too. That basically means that you never need to use StandardError= in normal cases. Just use StandardOutput=syslog. A full description of these options can be found here: http://0pointer.de/public/systemd-man/systemd.exec.html

Example Unit file

This is an example systemd unit .service file for ABRT:

[Unit]
Description=ABRT Automated Bug Reporting Tool
After=syslog.target

[Service]
Type=dbus
BusName=com.redhat.abrt
ExecStart=/usr/sbin/abrtd -d -s

[Install]
WantedBy=multi-user.target

Bus Activation

In order to allow parallel startup of a D-Bus service and its consumers it is essential that D-Bus services can be bus activated and the D-Bus activation is forwarded to systemd so that you end up with only a single instance of the service. If the D-Bus service was not previously bus-activated but started via a SysV init script, it should be updated to use bus activation instead. This may be implemented by dropping a D-Bus .service file in /usr/share/dbus/system-services/ which uses the SystemdService= directive to redirect activation to systemd.

systemd and D-Bus both use the .service file suffix but they are different things. In a systemd driven init process, the D-Bus .service file will often refers to the systemd .service file for the same program with the SystemdService directive.


Traditionally, bus activated services could not be disabled. systemd allows you to disable services by making D-Bus invoke a systemd service as an intermediary for the real service.

Still need to make below clearer: Move non-disablable method first; change so that both examples refer to same service. Split some sentences for clarity.
you can easily implement disabling by directing the D-Bus service to a symlinked alias name of the real service file which is controlled via systemctl enable/disable and which then points to the real service. Example: set SystemdService=dbus-org.freedesktop.Avahi.service instead of SystemdService=avahi-daemon.service, and then make /etc/systemd/system/dbus-org.freedesktop.Avahi.service a symlink → /lib/systemd/system/avahi-daemon.service. A full example for the Avahi case:

Here is the D-Bus .service file for Avahi (/usr/share/dbus-1/system-services/org.freedesktop.Avahi.service):

[D-BUS Service]
Name=org.freedesktop.Avahi
SystemdService=dbus-org.freedesktop.Avahi.service

# This service should not be bus activated if systemd isn't running,
# so that activation won't conflict with the init script startup.
Exec=/bin/false

Here is the Avahi systemd unit .service file (/lib/systemd/system/avahi-daemon.service):

[Unit]
Description=Avahi mDNS/DNS-SD Stack
Requires=avahi-daemon.socket
After=syslog.target

[Service]
Type=dbus
BusName=org.freedesktop.Avahi
ExecStart=/usr/sbin/avahi-daemon -s
ExecReload=/usr/sbin/avahi-daemon -r
NotifyAccess=main

[Install]
WantedBy=multi-user.target
Also=avahi-daemon.socket
Alias=dbus-org.freedesktop.Avahi.service

The Alias= line ensures that the existance of the /etc/systemd/system/dbus-org.freedesktop.Avahi.service symlink can be controlled by "systemctl enable" and "systemctl disable".

In general, it is also recommended to supply native systemd units for all services that are already bus activatable, so that these services can be controlled and supervised centrally like any other service with tools such as systemctl. A similar logic like the one shown above should apply.

Here's another example for a D-Bus bus-activable service, this time one that is unconditionally available for activation and cannot be disabled via "systemctl disable". The ConsoleKit bus activation file /usr/share/dbus-1/system-services/org.freedesktop.ConsoleKit.service:

[D-BUS Service]
Name=org.freedesktop.ConsoleKit
Exec=/usr/sbin/console-kit-daemon --no-daemon
User=root
SystemdService=console-kit-daemon.service

And the matching systemd unit file /lib/systemd/system/console-kit-daemon.service:

[Unit]
Description=Console Manager
After=syslog.target

[Service]
Type=dbus
BusName=org.freedesktop.ConsoleKit
ExecStart=/usr/sbin/console-kit-daemon --no-daemon

As you notice the indirection via a dbus-xxx.service unit alias is not done here since this is necessary only to make it possible to disable the service.

See the D-Bus documentation for more information.

link
Link to dbus documentation refered to here

Packaging

Filesystem locations

Packages with systemd unit files must put them into %{_unitdir}. %{_unitdir} evaluates to /lib/systemd/system/ on all Fedora systems. Unit files are architecture independent (hence, not %{_lib}) and needed early in the boot process.

%files section

Systemd unit .service files must not be marked as %config files. Any configuration should be made available through /etc/sysconfig/<service> rather than in the unit file itself.

Unit files in spec file scriptlets

Add to scriptletsnippets instead and leave a link here. --abadger1999 15:49, 8 December 2010 (UTC)

Most systemd services must be disabled by default, especially if they listen on the network. On upgrade, a package may only restart a service if it is running; it may not start it if it is off. Also, the service may not enable itself if it is currently disabled.

These are the recommended scriptlets to conform to these requirements

Requires(post): systemd-units
Requires(preun): systemd-units
Requires(postun): systemd-units

%post
if [ $1 -eq 2 ]; then
        # Package upgrade
        if [ -f %{_initddir}/httpd ] ; then
           if /sbin/chkconfig httpd ; then
              /bin/systemctl enable httpd.service >/dev/null 2>&1 || :
           fi
        fi
fi
/bin/systemctl daemon-reload >/dev/null 2>&1 || :

%preun
if [ $1 -eq 0 ] ; then
        # Package removal, not upgrade
        /bin/systemctl disable httpd.service > /dev/null 2>&1 || :
        /bin/systemctl stop httpd.service > /dev/null 2>&1 || :
fi

%postun
/bin/systemctl daemon-reload >/dev/null 2>&1 || :
if [ $1 -ge 1 ] ; then
        # Package upgrade, not uninstall
        /bin/systemctl try-restart httpd.service >/dev/null 2>&1 || :
fi

Note that /bin/systemctl daemon-reload will automatically detect new systemd unit .service files placed into %{_unitdir}. There is no equivalent to 'chkconfig --add <service>', because it is unnecessary.

Why don't we....

  • Enable most services by default?

Some core services must be enabled by default for a functional system, but the default for most network-listening scripts is off. This is done for better security. We have multiple tools that can enable services, including GUIs.

  • Start the service after installation?

Installations can be in changeroots, in an installer context, or in other situations where you don't want the services autostarted.