5.5 KiB
title | category | layout | SPDX-License-Identifier |
---|---|---|---|
Desktop Environment Integration | Concepts | default | LGPL-2.1-or-later |
Desktop Environments
NOTE: This document is a work-in-progress.
Single Graphical Session
systemd only supports running one graphical session per user at a time. While this might not have always been the case historically, having multiple sessions for one user running at the same time is problematic. The DBus session bus is shared between all the logins, and services that are started must be implicitly assigned to the user's current graphical session.
In principle it is possible to run a single graphical session across multiple logind seats, and this could be a way to use more than one display per user. When a user logs in to a second seat, the seat resources could be assigned to the existing session, allowing the graphical environment to present it is a single seat. Currently nothing like this is supported or even planned.
Pre-defined systemd units
systemd.special(7)
defines the graphical-session.target
and graphical-session-pre.target
to
allow cross-desktop integration. Furthermore, systemd defines the three base
slices background
, app
and session
.
All units should be placed into one of these slices depending on their purposes:
session.slice
: Contains only processes essential to run the user's graphical sessionapp.slice
: Contains all normal applications that the user is runningbackground.slice
: Useful for low-priority background tasks
The purpose of this grouping is to assign different priorities to the applications. This could e.g. mean reserving memory to session processes, preferentially killing background tasks in out-of-memory situations or assigning different memory/CPU/IO priorities to ensure that the session runs smoothly under load.
TODO: Will there be a default to place units into e.g. app.slice
by default
rather than the root slice?
XDG standardization for applications
To ensure cross-desktop compatibility and encourage sharing of good practices, desktop environments should adhere to the following conventions:
-
Application units should follow the scheme
app[-<launcher>]-<ApplicationID>[@<RANDOM>].service
orapp[-<launcher>]-<ApplicationID>-<RANDOM>.scope
e.g:app-gnome-org.gnome.Evince@12345.service
app-flatpak-org.telegram.desktop@12345.service
app-KDE-org.kde.okular@12345.service
app-org.kde.amarok.service
app-org.gnome.Evince-12345.scope
-
Using
.service
units instead of.scope
units, i.e. allowing systemd to start the process on behalf of the caller, instead of the caller starting the process and letting systemd know about it, is encouraged. -
The RANDOM should be a string of random characters to ensure that multiple instances of the application can be launched.
It can be omitted in the case of a non-transient application services which can ensure multiple instances are not spawned, such as a DBus activated application.
- If no application ID is available, the launcher should generate a reasonable
name when possible (e.g. using
basename(argv[0])
). This name must not contain a-
character.
This has the following advantages:
-
Using the
app-<launcher>-
prefix means that the unit defaults can be adjusted using desktop environment specific drop-in files. -
The application ID can be retrieved by stripping the prefix and postfix. This in turn should map to the corresponding
.desktop
file when available
TODO: Define the name of slices that should be used.
This could be app-<launcher>-<ApplicationID>-<RANDOM>.slice
.
TODO: Does it really make sense to insert the <launcher>
? In GNOME I am
currently using a drop-in to configure BindTo=graphical-session.target
,
CollectMode=inactive-or-failed
and TimeoutSec=5s
.
I feel that such a policy makes sense, but it may make much more sense to just define a
global default for all (graphical) applications.
- Should application lifetime be bound to the session?
- May the user have applications that do not belong to the graphical session (e.g. launched from SSH)?
- Could we maybe add a default
app-.service.d
drop-in configuration?
XDG autostart integration
To allow XDG autostart integration, systemd ships a cross-desktop generator
to create appropriate units for the autostart directory
(systemd-xdg-autostart-generator
).
Desktop Environments can opt-in to using this by starting xdg-desktop-autostart.target
.
The systemd generator correctly handles OnlyShowIn=
and NotShowIn=
.
It also handles the KDE and GNOME specific X-KDE-autostart-condition=
and AutostartCondition=
by using desktop-environment-provided binaries in an ExecCondition=
line.
However, this generator is somewhat limited in what it supports.
For example, all generated units will have After=graphical-session.target
set on them,
and therefore may not be useful to start session services.
Desktop files can be marked to be explicitly excluded from the generator using the line
X-systemd-skip=true
.
This should be set if an application provides its own systemd service file for startup.
Startup and shutdown best practices
Question here are:
- Are there strong opinions on how the session-leader process should watch the user's session units?
- Should systemd/logind/… provide an integrated way to define a session in terms of a running user unit?
- Is having
gnome-session-shutdown.target
that is run withreplace-irreversibly
considered a good practice?