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systemd offers users the ability to run an instance of systemd to manage their session and services. This allows users to start, stop, enable, and disable units found within certain directories when systemd is run by the user. This is convenient for daemons and other services that are commonly run as a user other than root or a special user, such as mpd.



Note: This step is unnecessary if you plan to use autologin.

Users should first set up systemd-logind to manage their session. If systemd is running as the system init daemon, then this is already happening.

Next, the user must launch systemd by putting the following in their ~/.xinitrc.

/usr/lib/systemd/systemd --user

If the user is not launching the window manager through /usr/lib/systemd/systemd --user, then

/usr/lib/systemd/systemd --user &

should be used and launched like anything else in ~/.xinitrc, before execing the window manager.

After starting X, the user can check whether their session is now being managed by systemd-logind with the following command:

$ loginctl --no-pager show-session $XDG_SESSION_ID | grep Active

If this command prints Active=yes, then the user is now using systemd-logind to manage their session. The user should remove any instances of ck-launch-session or dbus-launch from their ~/.xinitrc, as those commands are unneeded.

Display Managers

All of the major display managers are now using systemd-logind by default, so the loginctl command from the previous section should work as stated. A user simply has to add /usr/lib/systemd/systemd --user as a program to be started by their desktop environment.

GNOME 3 (using GDM)

For users who wish to have GDM/GNOME 3 auto-start their /usr/lib/systemd/systemd --user session upon login, they just need to add a special log in session for this:

[Desktop Entry]
Comment=Runs 'systemd' as a user instance.
Exec=/usr/lib/systemd/systemd --user

Make sure to choose the systemd session option at the GDM login screen.

Note: This has only been tested with a pure GDM and GNOME 3 setup. For other set ups, YYMV. This method does not need the systemd user-session scripts installed.

Using /usr/lib/systemd/systemd --user To Manage Your Session

Systemd has many amazing features, one of which is the ability to track programs using cgroups (by running systemctl status). While awesome for a pid 1 process to do, it is also extremely useful for users, and having it set up and initialize user programs, all the while tracking what is in each cgroup is even more amazing.

All of your systemd user units will go to $HOME/.config/systemd/user. These units take precedence over units in other systemd unit directories.

There are two packages you need to get this working, both currently available from the AUR: xorg-launch-helperAUR and optionally, user-session-unitsAUR if you want to have autologin working.

Next is setting up your targets. You should set up two, one for window manager and another as a default target. The window manager target should be populated like so:

Description=Window manager target


This will be the target for your graphical interface.

Put together a second target called All services but your window manager should contain a WantedBy line, under [Install], pointing at this unit.

Description=Xinitrc Stuff


Create a symbolic link from this unit to When you start /usr/lib/systemd/systemd --user, it will start this target.

Next you need to begin writing services. First you should throw together a service for your window manager:

Description=your window manager service

Note: The [Install] section includes a 'WantedBy' part. When using systemctl --user enable it will link this as $HOME/.config/systemd/user/, allowing it to be started at login. Is recommended enabling this service, not linking it manually.

You can fill your user unit directory with a plethora of services, including ones for mpd, gpg-agent, offlineimap, parcellite, pulse, tmux, urxvtd, xbindkeys and xmodmap to name a few.


If you want to have systemd automatically log you in on boot, then you can use the unit in user-session-units to do so. Enabling a screen locker for will stop someone from booting your computer into a nice, logged in session. Add this line to /etc/pam.d/login and /etc/pam.d/system-auth:

session    required

Because user-session@.service starts on tty1, you will need to add Conflicts=getty@tty1.service to the service file, if it doesn't exist already. Alternately, you can have it run on tty7 instead by modifying TTYPath accordingly as well as the ExecStart line in xorg.service (cp /usr/lib/systemd/user/xorg.service /etc/systemd/user/ and make the modifications there).

Once this is done, systemctl --user enable YOUR_WM.service

Note: One must be careful with tty's to keep the systemd session active. Systemd sets a session as inactive when the active tty is different from the one that the login took place. This means that the X server must be run in the same tty as the login in user-session@.service. If the tty in TTYPath does not match the one xorg is launched in, the systemd session will be inactive from the point of view of your X applications, and you will not be able to mount USB drives, for instance.

One of the most important things you can add to the service files you will be writing is the use of Before= and After= in the [Unit] section. These two parts will determine the order things are started. Say you have a graphical application you want to start on boot, you would put into your unit. Say you start ncmpcpp, which requires mpd to start, you can put After=mpd.service into your ncmpcpp unit. You will eventually figure out exactly how this needs to go either from experience or from reading the systemd manual pages. Starting with systemd.unit(5) is a good idea.

Other use cases

Persistent terminal multiplexer

You may wish your user session to default to running a terminal multiplexer, such as GNU Screen or Tmux, in the background rather than logging you into a window manager session. Separating login from X login is most likely only useful for those who boot to a TTY instead of to a display manager (in which case you can simply bundle everything you start in with

To create this type of user session, procede as above, but instead of creating, create

Description=Terminal multiplexer
Documentation=info:screen man:screen(1) man:tmux(1)

[Install], like above, should start anything you think should run before tmux or screen starts (or which you want started at boot regardless of timing), such as a GnuPG daemon session.

You then need to create a service for your multiplexer session. Here is a sample service, using tmux as an example and sourcing a gpg-agent session which wrote its information to /tmp/gpg-agent-info. This sample session, when you start X, will also be able to run X programs, since DISPLAY is set.

Description=tmux: A terminal multiplixer Documentation=man:tmux(1)

ExecStart=/usr/bin/tmux start
ExecStop=/usr/bin/tmux kill-server


Once this is done, systemctl --user enable tmux.service, and any services you created to be run by and you should be set to go! Activated user-session@.service as described above, but be sure to remove the Conflicts=getty@tty1.service from user-session@.service, since your user session will not be taking over a TTY. Congratulations! You have a running terminal multiplexer and some other useful programs ready to start at boot!

Starting X

You have probably noticed that, since the terminal multiplexer is now, X will not start automatically at boot. To start X, proceed as above, but do not activate or manually link to Instead, assuming you are booting to a terminal, we will simply be using a hack-ish workaround and masking /usr/bin/startx with a shell alias:

alias startx='systemctl --user start'

User Services

Users may now interact with units located in the following directories just as they would with system services (ordered by ascending precedence):

  • /usr/lib/systemd/user/
  • /etc/systemd/user/
  • ~/.config/systemd/user/

To control the systemd instance, the user must use the command systemctl --user.

Installed by packages

A unit installed by a package that is meant to be run by a systemd user instance should install the unit to /usr/lib/systemd/user/. The system adminstration can then modify the unit by copying it to /etc/systemd/user/. A user can then modify the unit by copying it to ~/.config/systemd/user/.


The following is an example of a user version of the mpd service.

Description=Music Player Daemon

ExecStart=/usr/bin/mpd --no-daemon


Example with variables

The following is an example of a user version of sickbeard.service, which takes into account variable home directories where SickBeard can find certain files:

Description=SickBeard Daemon

ExecStart=/usr/bin/env python2 /opt/sickbeard/ --config %h/.sickbeard/config.ini --datadir %h/.sickbeard


As detailed in man systemd.unit, the %h variable is replaced by the home directory of the user running the service. There are other variables that can be taken into account in the systemd manpages.

Note about X applications

Most X apps need a DISPLAY variable to run (so it's likely the first reason why your service files aren't starting), so you have to make sure to include it:

Description=Parcellite clipboard manager

Environment=DISPLAY=:0 # <= !


A simpler way, if using user-session-unitsAUR, is to define it in user-session@yourloginname.service so it's inherited. Add Environment=DISPLAY=:0 to the [Service] section. Another helpful environment variable to set here is SHELL.

A cleaner way though, is to not hard code the DISPLAY environment variable (specially if you run more than on display):

Description=Your amazing and original description

Environment=DISPLAY=%i # <= !


Then you can run it with:

systemctl --user {start|enable} x-app@your-desired-display.service # <= :0 in most cases

Some X apps may not start up because the display socket is not available yet. This can be fixed by adding something like



to your units (the is part of xorg-launch-helperAUR).

See also