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<?xml version='1.0'?> <!--*-nxml-*-->
<!DOCTYPE refentry PUBLIC "-//OASIS//DTD DocBook XML V4.2//EN"
"http://www.oasis-open.org/docbook/xml/4.2/docbookx.dtd">
<!--
This file is part of systemd.
Copyright 2010 Lennart Poettering
systemd is free software; you can redistribute it and/or modify it
relicense to LGPLv2.1 (with exceptions) We finally got the OK from all contributors with non-trivial commits to relicense systemd from GPL2+ to LGPL2.1+. Some udev bits continue to be GPL2+ for now, but we are looking into relicensing them too, to allow free copy/paste of all code within systemd. The bits that used to be MIT continue to be MIT. The big benefit of the relicensing is that closed source code may now link against libsystemd-login.so and friends.
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under the terms of the GNU Lesser General Public License as published by
the Free Software Foundation; either version 2.1 of the License, or
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(at your option) any later version.
systemd is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
relicense to LGPLv2.1 (with exceptions) We finally got the OK from all contributors with non-trivial commits to relicense systemd from GPL2+ to LGPL2.1+. Some udev bits continue to be GPL2+ for now, but we are looking into relicensing them too, to allow free copy/paste of all code within systemd. The bits that used to be MIT continue to be MIT. The big benefit of the relicensing is that closed source code may now link against libsystemd-login.so and friends.
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Lesser General Public License for more details.
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relicense to LGPLv2.1 (with exceptions) We finally got the OK from all contributors with non-trivial commits to relicense systemd from GPL2+ to LGPL2.1+. Some udev bits continue to be GPL2+ for now, but we are looking into relicensing them too, to allow free copy/paste of all code within systemd. The bits that used to be MIT continue to be MIT. The big benefit of the relicensing is that closed source code may now link against libsystemd-login.so and friends.
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You should have received a copy of the GNU Lesser General Public License
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along with systemd; If not, see <http://www.gnu.org/licenses/>.
-->
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<refentry id="daemon">
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<refentryinfo>
<title>daemon</title>
<productname>systemd</productname>
<authorgroup>
<author>
<contrib>Developer</contrib>
<firstname>Lennart</firstname>
<surname>Poettering</surname>
<email>lennart@poettering.net</email>
</author>
</authorgroup>
</refentryinfo>
<refmeta>
<refentrytitle>daemon</refentrytitle>
<manvolnum>7</manvolnum>
</refmeta>
<refnamediv>
<refname>daemon</refname>
<refpurpose>Writing and Packaging System Daemons</refpurpose>
</refnamediv>
<refsect1>
<title>Description</title>
<para>A daemon is a service process that runs in the
background and supervises the system or provides
functionality to other processes. Traditionally,
daemons are implemented following a scheme originating
in SysV Unix. Modern daemons should follow a simpler
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yet more powerful scheme (here called "new-style"
daemons), as implemented by
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<citerefentry><refentrytitle>systemd</refentrytitle><manvolnum>1</manvolnum></citerefentry>. This
manual page covers both schemes, and in
particular includes recommendations for daemons that
shall be included in the systemd init system.</para>
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<refsect2>
<title>SysV Daemons</title>
<para>When a traditional SysV daemon
starts, it should execute the following steps
as part of the initialization. Note that these
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steps are unnecessary for new-style daemons (see below),
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and should only be implemented if compatibility
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with SysV is essential.</para>
<orderedlist>
<listitem><para>Close all open file
descriptors except STDIN, STDOUT,
STDERR (i.e. the first three file
descriptors 0, 1, 2). This ensures
that no accidentally passed file
descriptor stays around in the daemon
process. On Linux this is best
implemented by iterating through
<filename>/proc/self/fd</filename>,
with a fallback of iterating from file
descriptor 3 to the value returned by
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<function>getrlimit()</function> for
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RLIMIT_NOFILE.</para></listitem>
<listitem><para>Reset all signal
handlers to their default. This is
best done by iterating through the
available signals up to the limit of
_NSIG and resetting them to
SIG_DFL.</para></listitem>
<listitem><para>Reset the signal mask
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using
<function>sigprocmask()</function>.</para></listitem>
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<listitem><para>Sanitize the
environment block, removing or
resetting environment variables that
might negatively impact daemon
runtime.</para></listitem>
<listitem><para>Call <function>fork()</function>,
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to create a background
process.</para></listitem>
<listitem><para>In the child, call
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<function>setsid()</function> to
detach from any terminal and create an
independent session.</para></listitem>
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<listitem><para>In the child, call
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<function>fork()</function> again, to
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ensure the daemon can never re-acquire
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a terminal again.</para></listitem>
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<listitem><para>Call <function>exit()</function> in the
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first child, so that only the second
child (the actual daemon process)
stays around. This ensures that the
daemon process is reparented to
init/PID 1, as all daemons should
be.</para></listitem>
<listitem><para>In the daemon process,
connect <filename>/dev/null</filename>
to STDIN, STDOUT,
STDERR.</para></listitem>
<listitem><para>In the daemon process,
reset the umask to 0, so that the file
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modes passed to <function>open()</function>, <function>mkdir()</function> and
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suchlike directly control the access
mode of the created files and
directories.</para></listitem>
<listitem><para>In the daemon process,
change the current directory to the
root directory (/), in order to avoid
that the daemon involuntarily
blocks mount points from being
unmounted.</para></listitem>
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<listitem><para>In the daemon process,
write the daemon PID (as returned by
<function>getpid()</function>) to a
PID file, for example
<filename>/var/run/foobar.pid</filename>
(for a hypothetical daemon "foobar"),
to ensure that the daemon cannot be
started more than once. This must be
implemented in race-free fashion so
that the PID file is only updated when
at the same time it is verified that
the PID previously stored in the PID
file no longer exists or belongs to a
foreign process. Commonly some kind of
file locking is employed to implement
this logic.</para></listitem>
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<listitem><para>In the daemon process,
drop privileges, if possible and
applicable.</para></listitem>
<listitem><para>From the daemon
process notify the original process
started that initialization is
complete. This can be implemented via
an unnamed pipe or similar
communication channel that is created
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before the first
<function>fork()</function> and hence
available in both the original and the
daemon process.</para></listitem>
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<listitem><para>Call
<function>exit()</function> in the
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original process. The process that
invoked the daemon must be able to
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rely that this
<function>exit()</function> happens
after initialization is complete and
all external communication channels
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established and
accessible.</para></listitem>
</orderedlist>
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<para>The BSD <function>daemon()</function> function should not be
used, as it implements only a subset of these steps.</para>
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<para>A daemon that needs to provide
compatibility with SysV systems should
implement the scheme pointed out
above. However, it is recommended to make this
behaviour optional and configurable via a
command line argument, to ease debugging as
well as to simplify integration into systems
using systemd.</para>
</refsect2>
<refsect2>
<title>New-Style Daemons</title>
<para>Modern services for Linux should be
implemented as new-style daemons. This makes it
easier to supervise and control them at
runtime and simplifies their
implementation.</para>
<para>For developing a new-style daemon none
of the initialization steps recommended for
SysV daemons need to be implemented. New-style
init systems such as systemd make all of them
redundant. Moreover, since some of these steps
interfere with process monitoring, file
descriptor passing and other functionality of
the init system it is recommended not to
execute them when run as new-style
service.</para>
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<para>Note that new-style init systems
guarantee execution of daemon processes in
clean process contexts: it is guaranteed that
the environment block is sanitized, that the
signal handlers and mask is reset and that no
left-over file descriptors are passed. Daemons
will be executed in their own session, and
STDIN/STDOUT/STDERR connected to
<filename>/dev/null</filename> unless
otherwise configured. The umask is reset.</para>
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<para>It is recommended for new-style daemons
to implement the following:</para>
<orderedlist>
<listitem><para>If SIGTERM is
received, shut down the daemon and
exit cleanly.</para></listitem>
<listitem><para>If SIGHUP is received,
reload the configuration files, if
this applies.</para></listitem>
<listitem><para>Provide a correct exit
code from the main daemon process, as
this is used by the init system to
detect service errors and problems. It
is recommended to follow the exit code
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scheme as defined in the <ulink
url="http://refspecs.freestandards.org/LSB_3.1.1/LSB-Core-generic/LSB-Core-generic/iniscrptact.html">LSB
recommendations for SysV init
scripts</ulink>.</para></listitem>
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<listitem><para>If possible and
applicable expose the daemon's control
interface via the D-Bus IPC system and
grab a bus name as last step of
initialization.</para></listitem>
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<listitem><para>For integration in
systemd, provide a
<filename>.service</filename> unit
file that carries information about
starting, stopping and otherwise
maintaining the daemon. See
<citerefentry><refentrytitle>systemd.service</refentrytitle><manvolnum>5</manvolnum></citerefentry>
for details.</para></listitem>
<listitem><para>As much as possible,
rely on the init systemd's
functionality to limit the access of
the daemon to files, services and
other resources. i.e. in the case of
systemd, rely on systemd's resource
limit control instead of implementing
your own, rely on systemd's privilege
dropping code instead of implementing
it in the daemon, and similar. See
<citerefentry><refentrytitle>systemd.exec</refentrytitle><manvolnum>5</manvolnum></citerefentry>
for the available
controls.</para></listitem>
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<listitem><para>If D-Bus is used, make
your daemon bus-activatable, via
supplying a D-Bus service activation
configuration file. This has multiple
advantages: your daemon may be started
lazily on-demand; it may be started in
parallel to other daemons requiring it
-- which maximizes parallelization and
boot-up speed; your daemon can be
restarted on failure, without losing
any bus requests, as the bus queues
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requests for activatable services. See
below for details.</para></listitem>
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<listitem><para>If your daemon
provides services to other local
processes or remote clients via a
socket, it should be made
socket-activatable following the
scheme pointed out below. Like D-Bus
activation this enables on-demand
starting of services as well as it
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allows improved parallelization of
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service start-up. Also, for state-less
protocols (such as syslog, DNS) a
daemon implementing socket-based
activation can be restarted without
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losing a single request. See below for
details.</para></listitem>
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<listitem><para>If applicable a daemon
should notify the init system about
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startup completion or status updates
via the
<citerefentry><refentrytitle>sd_notify</refentrytitle><manvolnum>3</manvolnum></citerefentry>
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interface.</para></listitem>
<listitem><para>Instead of using the
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<function>syslog()</function> call to log directly to the
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system syslog service, a new-style daemon may
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choose to simply log to STDERR via
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<function>fprintf()</function>, which is then forwarded to
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syslog by the init system. If log
priorities are necessary these can be
encoded by prefixing individual log
lines with strings like "&lt;4&gt;"
(for log priority 4 "WARNING" in the
syslog priority scheme), following a
similar style as the Linux kernel's
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<function>printk()</function> priority system. In fact,
using this style of logging also
enables the init system to optionally
direct all application logging to the
kernel log buffer (kmsg), as
accessible via
<citerefentry><refentrytitle>dmesg</refentrytitle><manvolnum>1</manvolnum></citerefentry>. This
kind of logging may be enabled by
setting
<varname>StandardError=syslog</varname>
in the service unit file. For details
see
<citerefentry><refentrytitle>sd-daemon</refentrytitle><manvolnum>7</manvolnum></citerefentry>
and
<citerefentry><refentrytitle>systemd.exec</refentrytitle><manvolnum>5</manvolnum></citerefentry>.</para></listitem>
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</orderedlist>
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<para>These recommendations are similar but
not identical to the <ulink
url="http://developer.apple.com/mac/library/documentation/MacOSX/Conceptual/BPSystemStartup/Articles/LaunchOnDemandDaemons.html#//apple_ref/doc/uid/TP40001762-104738">Apple
MacOS X Daemon Requirements</ulink>.</para>
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</refsect2>
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</refsect1>
<refsect1>
<title>Activation</title>
<para>New-style init systems provide multiple
additional mechanisms to activate services, as
detailed below. It is common that services are
configured to be activated via more than one mechanism
at the same time. An example for systemd:
<filename>bluetoothd.service</filename> might get
activated either when Bluetooth hardware is plugged
in, or when an application accesses its programming
interfaces via D-Bus. Or, a print server daemon might
get activated when traffic arrives at an IPP port, or
when a printer is plugged in, or when a file is queued
in the printer spool directory. Even for services that
are intended to be started on system bootup
unconditionally it is a good idea to implement some of
the various activation schemes outlined below, in
order to maximize parallelization: if a daemon
implements a D-Bus service or listening socket,
implementing the full bus and socket activation scheme
allows starting of the daemon with its clients in
parallel (which speeds up boot-up), since all its
communication channels are established already, and no
request is lost because client requests will be queued
by the bus system (in case of D-Bus) or the kernel (in
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case of sockets), until the activation is
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completed.</para>
<refsect2>
<title>Activation on Boot</title>
<para>Old-style daemons are usually activated
exclusively on boot (and manually by the
administrator) via SysV init scripts, as
detailed in the <ulink
url="http://refspecs.freestandards.org/LSB_3.1.1/LSB-Core-generic/LSB-Core-generic/iniscrptact.html">LSB
Linux Standard Base Core
Specification</ulink>. This method of
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activation is supported ubiquitously on Linux
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init systems, both old-style and new-style
systems. Among other issues SysV init scripts
have the disadvantage of involving shell
scripts in the boot process. New-style init
systems generally employ updated versions of
activation, both during boot-up and during
runtime and using more minimal service
description files.</para>
<para>In systemd, if the developer or
administrator wants to make sure a service or
other unit is activated automatically on boot
it is recommended to place a symlink to the
unit file in the <filename>.wants/</filename>
directory of either
<filename>multi-user.target</filename> or
<filename>graphical.target</filename>, which
are normally used as boot targets at system
startup. See
<citerefentry><refentrytitle>systemd.unit</refentrytitle><manvolnum>5</manvolnum></citerefentry>
for details about the
<filename>.wants/</filename> directories, and
<citerefentry><refentrytitle>systemd.special</refentrytitle><manvolnum>7</manvolnum></citerefentry>
for details about the two boot targets.</para>
</refsect2>
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<refsect2>
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<title>Socket-Based Activation</title>
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<para>In order to maximize the possible
parallelization and robustness and simplify
configuration and development, it is
recommended for all new-style daemons that
communicate via listening sockets to employ
socket-based activation. In a socket-based
activation scheme the creation and binding of
the listening socket as primary communication
channel of daemons to local (and sometimes
remote) clients is moved out of the daemon
code and into the init system. Based on
per-daemon configuration the init system
installs the sockets and then hands them off
to the spawned process as soon as the
respective daemon is to be started.
Optionally activation of the service can be
delayed until the first inbound traffic
arrives at the socket, to implement on-demand
activation of daemons. However, the primary
advantage of this scheme is that all providers
and all consumers of the sockets can be
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started in parallel as soon as all sockets
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are established. In addition to that daemons
can be restarted with losing only a minimal
number of client transactions or even any
client request at all (the latter is
particularly true for state-less protocols,
such as DNS or syslog), because the socket
stays bound and accessible during the restart,
and all requests are queued while the daemon
cannot process them.</para>
<para>New-style daemons which support socket
activation must be able to receive their
sockets from the init system, instead of of
creating and binding them themselves. For
details about the programming interfaces for
this scheme provided by systemd see
<citerefentry><refentrytitle>sd_listen_fds</refentrytitle><manvolnum>3</manvolnum></citerefentry>
and
<citerefentry><refentrytitle>sd-daemon</refentrytitle><manvolnum>7</manvolnum></citerefentry>. For
details about porting existing daemons to
socket-based activation see below. With
minimal effort it is possible to implement
socket-based activation in addition to
traditional internal socket creation in the
same codebase in order to support both
new-style and old-style init systems from the
same daemon binary.</para>
<para>systemd implements socket-based
activation via <filename>.socket</filename>
units, which are described in
<citerefentry><refentrytitle>systemd.socket</refentrytitle><manvolnum>5</manvolnum></citerefentry>. When
configuring socket units for socket-based
activation it is essential that all listening
sockets are pulled in by the special target
unit <filename>sockets.target</filename>. It
is recommended to place a
<varname>WantedBy=sockets.target</varname>
directive in the <literal>[Install]</literal>
section, to automatically add such a
dependency on installation of a socket
unit. Unless
<varname>DefaultDependencies=no</varname> is
set the necessary ordering dependencies are
implicitly created for all socket units. For
more information about
<filename>sockets.target</filename> see
<citerefentry><refentrytitle>systemd.special</refentrytitle><manvolnum>7</manvolnum></citerefentry>. It
is not necessary or recommended to place any
additional dependencies on socket units (for
example from
<filename>multi-user.target</filename> or
suchlike) when one is installed in
<filename>sockets.target</filename>.</para>
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</refsect2>
<refsect2>
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<title>Bus-Based Activation</title>
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<para>When the D-Bus IPC system is used for
communication with clients, new-style daemons
should employ bus activation so that they are
automatically activated when a client
application accesses their IPC
interfaces. This is configured in D-Bus
service files (not to be confused with systemd
service unit files!). To ensure that D-Bus
uses systemd to start-up and maintain the
daemon use the
<varname>SystemdService=</varname> directive
in these service files, to configure the
matching systemd service for a D-Bus
service. e.g.: for a D-Bus service whose D-Bus
activation file is named
<filename>org.freedesktop.RealtimeKit.service</filename>,
make sure to set
<varname>SystemdService=rtkit-daemon.service</varname>
in that file, to bind it to the systemd
service
<filename>rtkit-daemon.service</filename>. This
is needed to make sure that the daemon is
started in a race-free fashion when activated
via multiple mechanisms simultaneously.</para>
</refsect2>
<refsect2>
<title>Device-Based Activation</title>
<para>Often, daemons that manage a particular
type of hardware should be activated only when
the hardware of the respective kind is plugged
in or otherwise becomes available. In a
new-style init system it is possible to bind
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activation to hardware plug/unplug events. In
systemd, kernel devices appearing in the
sysfs/udev device tree can be exposed as units
if they are tagged with the string
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"<literal>systemd</literal>". Like any other
kind of unit they may then pull in other units
when activated (i.e. Plugged in) and thus
implement device-based activation. Systemd
dependencies may be encoded in the udev
database via the
<varname>SYSTEMD_WANTS=</varname>
property. See
<citerefentry><refentrytitle>systemd.device</refentrytitle><manvolnum>5</manvolnum></citerefentry>
for details. Often it is nicer to pull in
services from devices only indirectly via
dedicated targets. Example: instead of pulling
in <filename>bluetoothd.service</filename>
from all the various bluetooth dongles and
other hardware available, pull in
bluetooth.target from them and
<filename>bluetoothd.service</filename> from
that target. This provides for nicer
abstraction and gives administrators the
option to enable
<filename>bluetoothd.service</filename> via
controlling a
<filename>bluetooth.target.wants/</filename>
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symlink uniformly with a command like
<command>enable</command> of
<citerefentry><refentrytitle>systemctl</refentrytitle><manvolnum>1</manvolnum></citerefentry>
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instead of manipulating the udev
ruleset.</para>
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</refsect2>
<refsect2>
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<title>Path-Based Activation</title>
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<para>Often, runtime of daemons processing
spool files or directories (such as a printing
system) can be delayed until these file system
objects change state, or become
non-empty. New-style init systems provide a
way to bind service activation to file system
changes. systemd implements this scheme via
path-based activation configured in
<filename>.path</filename> units, as outlined
in
<citerefentry><refentrytitle>systemd.path</refentrytitle><manvolnum>5</manvolnum></citerefentry>.</para>
</refsect2>
<refsect2>
<title>Timer-Based Activation</title>
<para>Some daemons that implement clean-up
jobs that are intended to be executed in
regular intervals benefit from timer-based
activation. In systemd, this is implemented
via <filename>.timer</filename> units, as
described in
<citerefentry><refentrytitle>systemd.timer</refentrytitle><manvolnum>5</manvolnum></citerefentry>.</para>
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</refsect2>
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<refsect2>
<title>Other Forms of Activation</title>
<para>Other forms of activation have been
suggested and implemented in some
systems. However, often there are simpler or
better alternatives, or they can be put
together of combinations of the schemes
above. Example: sometimes it appears useful to
start daemons or <filename>.socket</filename>
units when a specific IP address is configured
on a network interface, because network
sockets shall be bound to the
address. However, an alternative to implement
this is by utilizing the Linux IP_FREEBIND
socket option, as accessible via
<varname>FreeBind=yes</varname> in systemd
socket files (see
<citerefentry><refentrytitle>systemd.socket</refentrytitle><manvolnum>5</manvolnum></citerefentry>
for details). This option, when enabled,
allows sockets to be bound to a non-local, not
configured IP address, and hence allows
bindings to a particular IP address before it
actually becomes available, making such an
explicit dependency to the configured address
redundant. Another often suggested trigger for
service activation is low system
load. However, here too, a more convincing
approach might be to make proper use of
features of the operating system: in
particular, the CPU or IO scheduler of
Linux. Instead of scheduling jobs from
userspace based on monitoring the OS
scheduler, it is advisable to leave the
scheduling of processes to the OS scheduler
itself. systemd provides fine-grained access
to the CPU and IO schedulers. If a process
executed by the init system shall not
negatively impact the amount of CPU or IO
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bandwidth available to other processes, it
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should be configured with
<varname>CPUSchedulingPolicy=idle</varname>
and/or
<varname>IOSchedulingClass=idle</varname>. Optionally,
this may be combined with timer-based
activation to schedule background jobs during
runtime and with minimal impact on the system,
and remove it from the boot phase
itself.</para>
</refsect2>
</refsect1>
<refsect1>
<title>Integration with Systemd</title>
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<refsect2>
<title>Writing Systemd Unit Files</title>
<para>When writing systemd unit files, it is
recommended to consider the following
suggestions:</para>
<orderedlist>
<listitem><para>If possible do not use
the <varname>Type=forking</varname>
setting in service files. But if you
do, make sure to set the PID file path
using <varname>PIDFile=</varname>. See
<citerefentry><refentrytitle>systemd.service</refentrytitle><manvolnum>5</manvolnum></citerefentry>
for details.</para></listitem>
<listitem><para>If your daemon
registers a D-Bus name on the bus,
make sure to use
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<varname>Type=dbus</varname> in the
service file if
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possible.</para></listitem>
<listitem><para>Make sure to set a
good human-readable description string
with
<varname>Description=</varname>.</para></listitem>
<listitem><para>Do not disable
<varname>DefaultDependencies=</varname>,
unless you really know what you do and
your unit is involved in early boot or
late system shutdown.</para></listitem>
<listitem><para>Normally, little if
any dependencies should need to
be defined explicitly. However, if you
do configure explicit dependencies, only refer to
unit names listed on
<citerefentry><refentrytitle>systemd.special</refentrytitle><manvolnum>7</manvolnum></citerefentry>
or names introduced by your own
package to keep the unit file
operating
system-independent.</para></listitem>
<listitem><para>Make sure to include
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an <literal>[Install]</literal>
section including installation
information for the unit file. See
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<citerefentry><refentrytitle>systemd.unit</refentrytitle><manvolnum>5</manvolnum></citerefentry>
for details. To activate your service
on boot make sure to add a
<varname>WantedBy=multi-user.target</varname>
or
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<varname>WantedBy=graphical.target</varname>
directive. To activate your socket on
boot, make sure to add
<varname>WantedBy=sockets.target</varname>. Usually
you also want to make sure that when
your service is installed your socket
is installed too, hence add
<varname>Also=foo.socket</varname> in
your service file
<filename>foo.service</filename>, for
a hypothetical program
<filename>foo</filename>.</para></listitem>
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</orderedlist>
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</refsect2>
<refsect2>
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<title>Installing Systemd Service Files</title>
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<para>At the build installation time
(e.g. <command>make install</command> during
package build) packages are recommended to
install their systemd unit files in the
directory returned by <command>pkg-config
systemd
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--variable=systemdsystemunitdir</command> (for
system services), resp. <command>pkg-config
systemd
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--variable=systemduserunitdir</command>
(for user services). This will make the
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services available in the system on explicit
request but not activate them automatically
during boot. Optionally, during package
installation (e.g. <command>rpm -i</command>
by the administrator) symlinks should be
created in the systemd configuration
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directories via the <command>enable</command>
command of the
<citerefentry><refentrytitle>systemctl</refentrytitle><manvolnum>1</manvolnum></citerefentry>
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tool, to activate them automatically on
boot.</para>
<para>Packages using
<citerefentry><refentrytitle>autoconf</refentrytitle><manvolnum>1</manvolnum></citerefentry>
are recommended to use a configure script
excerpt like the following to determine the
unit installation path during source
configuration:</para>
<programlisting>PKG_PROG_PKG_CONFIG
AC_ARG_WITH([systemdsystemunitdir],
AS_HELP_STRING([--with-systemdsystemunitdir=DIR], [Directory for systemd service files]),
[], [with_systemdsystemunitdir=$($PKG_CONFIG --variable=systemdsystemunitdir systemd)])
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if test "x$with_systemdsystemunitdir" != xno; then
AC_SUBST([systemdsystemunitdir], [$with_systemdsystemunitdir])
fi
AM_CONDITIONAL(HAVE_SYSTEMD, [test -n "$with_systemdsystemunitdir" -a "x$with_systemdsystemunitdir" != xno ])</programlisting>
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<para>This snippet allows automatic
installation of the unit files on systemd
machines, and optionally allows their
installation even on machines lacking
systemd. (Modification of this snippet for the
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user unit directory is left as an exercise for the
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reader.)</para>
<para>Additionally, to ensure that
<command>make distcheck</command> continues to
work, it is recommended to add the following
to the top-level <filename>Makefile.am</filename>
file in
<citerefentry><refentrytitle>automake</refentrytitle><manvolnum>1</manvolnum></citerefentry>-based
projects:</para>
<programlisting>DISTCHECK_CONFIGURE_FLAGS = \
--with-systemdsystemunitdir=$$dc_install_base/$(systemdsystemunitdir)</programlisting>
<para>Finally, unit files should be installed in the system with an automake excerpt like the following:</para>
<programlisting>if HAVE_SYSTEMD
systemdsystemunit_DATA = \
foobar.socket \
foobar.service
endif</programlisting>
<para>In the
<citerefentry><refentrytitle>rpm</refentrytitle><manvolnum>8</manvolnum></citerefentry>
<filename>.spec</filename> file use a snippet like
the following to enable/disable the service
during installation/deinstallation. Consult
the packaging guidelines of your distribution
for details and the equivalent for other
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package managers:</para>
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<programlisting>%post
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if [ $1 -eq 1 ]; then
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# On install (not upgrade), enable (but don't start) the
# units by default
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/bin/systemctl enable foobar.service foobar.socket >/dev/null 2>&amp;1 || :
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# Alternatively, just call
# /bin/systemctl daemon-reload >/dev/null 2>&amp;1 || :
# here, if the daemon should not be enabled by default on
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# installation
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fi
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%preun
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if [ $1 -eq 0 ]; then
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# On uninstall (not upgrade), disable and stop the units
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/bin/systemctl --no-reload disable foobar.service foobar.socket >/dev/null 2>&amp;1 || :
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/bin/systemctl stop foobar.service foobar.socket >/dev/null 2>&amp;1 || :
fi
%postun
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# Reload init system configuration, to make systemd honour changed
# or deleted unit files
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/bin/systemctl daemon-reload >/dev/null 2>&amp;1 || :
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if [ $1 -ge 1 ] ; then
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# On upgrade (not uninstall), optionally, restart the daemon
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/bin/systemctl try-restart foobar.service >/dev/null 2>&amp;1 || :
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fi</programlisting>
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<para>Depending on whether your service should
or should not be started/stopped/restarted
during package installation, deinstallation or
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upgrade, a different set of commands may be
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specified. See
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<citerefentry><refentrytitle>systemctl</refentrytitle><manvolnum>1</manvolnum></citerefentry>
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for details.</para>
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<para>To facilitate upgrades from a package
version that shipped only SysV init scripts to
a package version that ships both a SysV init
script and a native systemd service file, use
a fragment like the following:</para>
man: s/triggerin/triggerun/ for rpm upgrades https://bugzilla.redhat.com/show_bug.cgi?id=626966
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<programlisting>%triggerun -- foobar &lt; 0.47.11-1
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if /sbin/chkconfig --level 5 foobar ; then
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/bin/systemctl --no-reload enable foobar.service foobar.socket >/dev/null 2>&amp;1 || :
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fi</programlisting>
<para>Where 0.47.11-1 is the first package
version that includes the native unit
file. This fragment will ensure that the first
time the unit file is installed it will be
enabled if and only if the SysV init script is
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enabled, thus making sure that the enable
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status is not changed. Note that
<command>chkconfig</command> is a command
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specific to Fedora which can be used to check
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whether a SysV init script is enabled. Other
operating systems will have to use different
commands here.</para>
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</refsect2>
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</refsect1>
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<refsect1>
<title>Porting Existing Daemons</title>
<para>Since new-style init systems such as systemd are
compatible with traditional SysV init systems it is
not strictly necessary to port existing daemons to the
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new style. However doing so offers additional
functionality to the daemons as well as simplifying
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integration into new-style init systems.</para>
<para>To port an existing SysV compatible daemon the
following steps are recommended:</para>
<orderedlist>
<listitem><para>If not already implemented,
add an optional command line switch to the
daemon to disable daemonization. This is
useful not only for using the daemon in
new-style init systems, but also to ease
debugging.</para></listitem>
<listitem><para>If the daemon offers
interfaces to other software running on the
local system via local AF_UNIX sockets,
consider implementing socket-based activation
(see above). Usually a minimal patch is
sufficient to implement this: Extend the
socket creation in the daemon code so that
<citerefentry><refentrytitle>sd_listen_fds</refentrytitle><manvolnum>3</manvolnum></citerefentry>
is checked for already passed sockets
first. If sockets are passed (i.e. when
<function>sd_listen_fds()</function> returns a
positive value), skip the socket creation step
and use the passed sockets. Secondly, ensure
that the file-system socket nodes for local
AF_UNIX sockets used in the socket-based
activation are not removed when the daemon
shuts down, if sockets have been
passed. Third, if the daemon normally closes
all remaining open file descriptors as part of
its initialization, the sockets passed from
the init system must be spared. Since
new-style init systems guarantee that no
left-over file descriptors are passed to
executed processes, it might be a good choice
to simply skip the closing of all remaining
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open file descriptors if sockets are
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passed.</para></listitem>
<listitem><para>Write and install a systemd
unit file for the service (and the sockets if
socket-based activation is used, as well as a
path unit file, if the daemon processes a
spool directory), see above for
details.</para></listitem>
<listitem><para>If the daemon exposes
interfaces via D-Bus, write and install a
D-Bus activation file for the service, see
above for details.</para></listitem>
</orderedlist>
</refsect1>
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<refsect1>
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<title>See Also</title>
<para>
<citerefentry><refentrytitle>systemd</refentrytitle><manvolnum>1</manvolnum></citerefentry>,
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<citerefentry><refentrytitle>sd-daemon</refentrytitle><manvolnum>7</manvolnum></citerefentry>,
<citerefentry><refentrytitle>sd_listen_fds</refentrytitle><manvolnum>3</manvolnum></citerefentry>,
<citerefentry><refentrytitle>sd_notify</refentrytitle><manvolnum>3</manvolnum></citerefentry>,
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<citerefentry><refentrytitle>daemon</refentrytitle><manvolnum>3</manvolnum></citerefentry>,
<citerefentry><refentrytitle>systemd.service</refentrytitle><manvolnum>5</manvolnum></citerefentry>
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</para>
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</refsect1>
</refentry>