Run GUI applications in Docker or podman containers.
x11docker:Avoid X security leaks and enhance container security
Table of contents
- Introduction
- Terminal syntax
- Options
- Security
- Installation
- Dependencies
- Troubleshooting
- Contact
- Donation
- Examples
Introduction
x11docker allows to run graphical desktop applications (and entire desktops) in Linux containers.
- Container tools like Docker, podman and nerdctl allow to run applications in an isolated container environment. Containers need much less resources than virtual machines for similar tasks.
- Docker, podman and nerdctl do not provide a display server that would allow to run applications with a graphical user interface.
- x11docker fills the gap. It runs an X display server and provides it to containers. X servers can run from host or in a container of image x11docker/xserver.
- Additionally x11docker does some security setup to enhance container isolation and to avoid X security leaks. This allows a sandbox environment that fairly well protects the host system from possibly malicious or buggy software.
Software can be installed in a deployable image with a rudimentary Linux system inside. This can help to run or deploy software that is difficult to install on several systems due to dependency issues. It is possible to run outdated versions or latest development versions side by side. Files to work on can be shared between host and container.
x11docker wiki provides some how-to's for basic setups without x11docker.
Docker Desktop or Docker Engine
Since a while Docker distributes a version called "Docker Desktop" that runs Docker in a QEMU VM. x11docker is not designed to support this VM based version. Instead, use x11docker with the native "Docker Engine Server version" that uses your host kernel to run containers.
- If you install Docker from your distribution's repository, you'll likely get this native version.
- The supported native Docker Engine package name is mostly
docker.io
ordocker-ce
, in opposite to the non-supported VM baseddocker-desktop
package. - If you prefer podman over Docker, you don't need to care about this difference.
TL;DR
For a quick start:
- Install x11docker with:
curl -fsSL https://raw.githubusercontent.com/mviereck/x11docker/master/x11docker | sudo bash -s -- --update
- Install dependencies:
- Either pull image
x11docker/xserver
or install at leastnxagent
orxpra
andxephyr
.
- Either pull image
- Run a GUI in container with:
x11docker IMAGENAME [COMMAND]
- Add options:
--desktop
for a desktop environment in image.--gpu
for hardware acceleration.
- Examples:
x11docker x11docker/xfce thunar x11docker --desktop x11docker/xfce x11docker --gpu x11docker/xfce glxgears
Features
- Focus on security:
- Avoids X security leaks by running additional X servers.
- Restricts container capabilities to bare minimum.
- Container user is same as host user to avoid root in container.
- Low dependencies:
- No obliging dependencies on host beside X and one of
docker
,podman
ornerdctl
. Recommended:nxagent
andXephyr
, alternatively imagex11docker/xserver
. - No dependencies inside of images except for some optional features.
- No obliging dependencies on host beside X and one of
- Several optional features like GPU, sound, webcam and printer support.
- Remote access with SSH, VNC or HTML5 possible.
- Easy to use. Examples:
Supported systems
x11docker runs on Linux and (with some setup and limitations) on MS Windows. x11docker does not run on macOS except in a Linux VM.
Terminal syntax
Just type x11docker IMAGENAME [COMMAND]
.
- Get an overview of options with
x11docker --help
.- For desktop environments in image add option
-d, --desktop
. - For internet access use option
-I, --network
. - To run without X at all use option
-t, --tty
. - Get an interactive TTY with option
-i, --interactive
. - See generated container backend command (and further infos) with option
--debug
.
- For desktop environments in image add option
- If startup fails, look at chapter Troubleshooting.
General syntax:
Usage:
To run a container on a new X server:
x11docker IMAGE
x11docker [OPTIONS] IMAGE [COMMAND]
x11docker [OPTIONS] -- IMAGE [COMMAND [ARG1 ARG2 ...]]
x11docker [OPTIONS] -- CUSTOM_RUN_OPTIONS -- IMAGE [COMMAND [ARG1 ARG2 ...]]
To run a host application on a new X server:
x11docker [OPTIONS] --backend=host COMMAND
x11docker [OPTIONS] --backend=host -- COMMAND [ARG1 ARG2 ...]
x11docker [OPTIONS] --backend=host -- -- COMMAND [ARG1 ARG2 ...] -- [ARG3]
To run only an empty new X server:
x11docker [OPTIONS] --xonly
CUSTOM_RUN_OPTIONS
are just added to the docker|podman|nerdctl run
command without a serious check by x11docker.
Options
Description of some commonly used feature options.
- Some of these options have dependencies on host and/or in image. Compare wiki: feature dependencies.
- For often used option combinations you can make shortcuts with option
--preset
.
Choice of X servers and Wayland compositors
If no X server option is specified, x11docker automatically chooses one depending on installed dependencies
and on given or missing options --desktop
, --gpu
and --wayland
. Most recommended are nxagent
and Xephyr
.
- Overview of all possible X server and Wayland options.
- Hints to use option
--xorg
within X. - Use option
-t, --tty
to run without X at all.
- Hints to use option
Desktop or seamless mode
x11docker assumes that you want to run a single application in seamless mode, i.e. a single window on your regular desktop. If you want to run a desktop environment in image, add option --desktop
.
- Seamless mode is supported with options
--nxagent
and--xpra
. As a fallback insecure option--hostdisplay
is possible. - Desktop mode with
--desktop
is supported with all X server options except--hostdisplay
. If available, x11docker prefers--xephyr
and--nxagent
. - Special case: Single applications with a window manager (option
--wm
).- If neither
nxagent
norxpra
are installed, but x11docker finds a desktop capable X server likeXephyr
, it avoids insecure option--hostdisplay
and runs Xephyr with a window manager.
- If neither
Internet access
By default x11docker disables Network access for containers with --network=none
because it targets best possible container isolation.
To allow internet access set option -I
or --network
.
Shared folders, volumes and HOME in container
Changes in a running container system will be lost, the created container will be discarded. For persistent data storage you can share host directories or volumes:
- Option
-m, --home
creates a host directory in~/.local/share/x11docker/IMAGENAME
that is shared with the container and mounted as itsHOME
directory. Files in container home and user configuration changes will persist. x11docker creates a softlink from~/.local/share/x11docker
to~/x11docker
.- You can specify another host directory for container
HOME
with--home=DIR
. - You can specify a volume for container
HOME
with--home=VOLUME
.
- You can specify another host directory for container
- Option
--share PATH
mounts a host file or folder at the same location in container.- You can also specify a volume with
--share VOLUME
. --share PATH:ro
restricts to read-only access.- Device files in
/dev
are supported, too.
- You can also specify a volume with
- Special cases for
$HOME
:--home=$HOME
will use your host home as container home. Discouraged, use with care.--share $HOME
will symlink your host home as a subfolder of container home.
Note that x11docker copies files from /etc/skel
in container to HOME
if HOME
is empty. That allows to provide predefined user configurations in the image.
GPU hardware acceleration
Hardware acceleration for OpenGL is possible with option -g, --gpu
.
- This will work out of the box in most cases with open source drivers on host. Otherwise have a look at wiki: feature dependencies.
- Closed source NVIDIA drivers need some setup and support less x11docker X server options for driver version < v470.x and Xwayland < v22.1.2.
Clipboard
Clipboard sharing is possible with option -c, --clipboard [=ARG]
.
- Optional arguments
superv
andaltv
only provide host clipboard content to container if keys[SUPER][v]
or[ALT][v]
are pressed. - Optional argument
oneway
only transfers clipboard content from container to host.
Sound
Sound is possible with options -p, --pulseaudio
and --alsa
.
- For pulseaudio sound with
--pulseaudio
you needpulseaudio
on host andpulseaudio
(at least thepulseaudio
client libraries) in image. Compare wiki: feature dependencies. - For ALSA sound with
--alsa
you might need to specify a sound card with e.g.--alsa=Generic
. Get a list of available sound cards withaplay -l
.
Webcam
Webcams on host can be shared with option --webcam
.
- If webcam application in image fails, install
--gpu
dependencies in image. Compare wiki: feature dependencies. guvcview
needs--pulseaudio
or--alsa
.cheese
andgnome-ring
need--init=systemd
.
Printer
Printers on host can be provided to container with option --printer
.
- It needs
cups
on host, the default printer server for most linux distributions. - The container needs
cups
client libraries in image. Compare wiki: feature dependencies.
Language locales
x11docker provides option --lang
for flexible language locale settings.
--lang
without an argument setsLANG
in container to same as on host. Same as--lang=$LANG
- x11docker will check on container startup if the desired locale is already present in image and enable it.
- If x11docker does not find the locale, it creates it on container startup. This needs some
locale
packages in image. Compare wiki: feature dependencies. - Examples:
--lang=de
for German,--lang=zh_CN
for Chinese,--lang=ru
for Russian,--lang=$LANG
for your host locale. - For support of chinese, japanese and korean characters install a font like
fonts-arphic-uming
in image. - Keyboard input methods like
fcitx-pinyin
are possible with some container setup. Compare ticket #269.
Wayland
To run Wayland instead of an X server x11docker provides options --wayland
, --weston
, --kwin
and --hostwayland
.
For further description loot at wiki: Description of Wayland options.
- Option
--wayland
automatically sets up a Wayland environment. It regards option--desktop
. - Options
--weston
and--kwin
run Wayland compositorsweston
orkwin_wayland
. - Option
--hostwayland
can run applications seamless on host Wayland desktops like Gnome 3, KDE 5 and Sway. - Example:
xfce4-terminal
on Wayland:x11docker --wayland x11docker/xfce xfce4-terminal
Init system
x11docker supports several init systems as PID 1 in container with option --init
. Init in container solves the zombie reaping issue.
As default x11docker uses tini
in/usr/bin/docker-init
. Also available are systemd
, SysVinit
, runit
, OpenRC
and s6-overlay
. elogind
is supported, too.
Look at wiki: Init systems in Docker.
DBus
Some desktop environments and applications need a running DBus system daemon and/or DBus user session. DBus options need dbus
in image.
- use
--dbus
to run a DBus user session daemon. - A DBus system daemon will be started automatically with init systems
systemd
,openrc
,runit
andsysvinit
(option--init
).- It is also possible to run a DBus system daemon with
--dbus=system
without advanced init systems. However, this causes trouble in some cases and is not recommended in general.
- It is also possible to run a DBus system daemon with
- use
--hostdbus
to connect to host DBus user session. - use
--share /run/dbus/system_bus_socket
to share host DBus system socket.
Container runtime
It is possible to run containers with different backends following the OCI runtime specification. Docker's default runtime is runc
. You can specify another one with option --runtime=RUNTIME
.
Container runtimes known and supported by x11docker are:
runc
: Docker default.nvidia
: Specialized fork ofrunc
to supportnvidia/nvidia-docker
images.crun
: Fast and lightweight alternative torunc
with same functionality.oci
: Runtime reported in #205, no documentation found. Handled by x11docker likerunc
.sysbox-runtime
: Based on runc, aims to enhance container isolation. Support is experimental yet. Needs Sybox>=0.5.0 and kernel version >=5.12.
Using different runtimes is well tested for rootful Docker, but not for other backend setups.
Example: possible runtime configuration in /etc/docker/daemon.json
:
{
"default-runtime": "runc",
"runtimes": {
"crun": {
"path": "/usr/local/bin/crun",
"runtimeArgs": []
},
"nvidia": {
"path": "nvidia-container-runtime",
"runtimeArgs": []
},
"sysbox-runc": {
"path": "/usr/bin/sysbox-runc"
}
}
}
Backends other than docker
x11docker supports container tools Docker, podman
and nerdctl with option --backend=BACKEND
in rootful and rootless mode.
Supported --backend
arguments: docker
podman
nerdctl
host
Container backends:
- By default x11docker tries to run
docker
.- To change the default
--backend=docker
to another one like--backend=podman
, create adefault
file for--preset
.
- To change the default
- Recommended for rootful container backend:
docker
orpodman
- Recommended for rootless container backend:
podman
- Only
podman
allows option--home
in rootless mode yet. - Only
podman
provides useful file ownerships with option--share
in rootless mode yet.
- Only
--backend=nerdctl
is experimental yet. It supports rootful and rootless mode.nerdctl
is in heavy development stage.
Other supported backends that are in fact no containers:
--backend=host
runs a host application on a new X server. No containerization is involved.
Preconfiguration with --preset
For often used option combinations you might want to use option --preset FILENAME
to have a command shortcut.
FILENAME
is a file in ~/.config/x11docker/preset
or in /etc/x11docker/preset
containing some x11docker options.
- Example
multimedia
: Create a file~/.config/x11docker/preset/multimedia
:Use it like:--gpu --webcam --printer --pulseaudio --clipboard --share ~/Videos --share ~/Music
x11docker --preset=multimedia jess/vlc
- Example deepin desktop: Instead of long command
you can create a file
x11docker --desktop --init=systemd --gpu --pulseaudio --home -- --cap-add=IPC_LOCK -- x11docker/deepin
~/.config/x11docker/preset/deepin
containing the desired options and even the image name:Run with:--desktop --init=systemd --gpu --pulseaudio --home -- --cap-add=IPC_LOCK -- x11docker/deepin
x11docker --preset=deepin
Default preset for all x11docker sessions
You can create a default
preset file that is applied on all x11docker sessions. You can think of it as a configuration file for x11docker.
- Example: To always use
podman
instead of docker, create a file with namedefault
in~/.config/x11docker/preset
or in/etc/x11docker/preset
with content:This will cause x11docker to always use--backend=podman
podman
instead ofdocker
unless specified otherwise in the x11docker command.
The same way you can specify other and more options as default, e.g. --homebasedir=/my/containerhome/path
.
Note that a local user default
file will supersede a system wide default
file.
Security
Scope of x11docker is to run containerized GUI applications while preserving and improving container isolation. Core concept is:
- Runs a second X server to avoid X security leaks.
- This in opposite to widespread solutions that share host X socket of display :0, thus breaking container isolation, allowing keylogging and remote host control.
(However, x11docker provides this with fallback option
--hostdisplay
). - Authentication is done with MIT-MAGIC-COOKIE, stored separate from file
~/.Xauthority
.
- This in opposite to widespread solutions that share host X socket of display :0, thus breaking container isolation, allowing keylogging and remote host control.
(However, x11docker provides this with fallback option
- Creates container user similar to host user to avoid root in container.
- You can also specify another user with
--user=USERNAME
or a non-existing one with--user=UID:GID
. - Disables possible root password and deletes entries in
/etc/sudoers
.- If you want root permissions in container, use option
--sudouser
that allowssu
andsudo
with passwordx11docker
.
- If you want root permissions in container, use option
- If you want to use
USER
specified in image instead, set option--user=RETAIN
. x11docker won't change container's/etc/passwd
or/etc/sudoers
in that case. Option--home
won't be available.
- You can also specify another user with
- Reduces container capabilities to bare minimum.
- Sets run option
--cap-drop=ALL
to drop all capabilities. Most applications don't need them. - Sets run option
--security-opt=no-new-privileges
. - These restrictions can be disabled with x11docker option
--cap-default
or reduced with--sudouser
,--newprivileges
.
- Sets run option
That being said, the default docker capabilities and the seccomp/SELinux/apparmor profiles are set up well to protect the host system. Nonetheless, x11docker follows the principle of least privilege. Containers should not have capabilities or privileges that they don't need for their job.
Security weaknesses
- Possible SELinux restrictions are degraded for x11docker containers with run option
--security-opt label=type:container_runtime_t
to allow access to new X unix socket. A more restrictive solution is desirable. Compare: SELinux and Docker: allow access to X unix socket in /tmp/.X11-unix - A possible user namespace remapping setup is disabled to allow options
--home
and--share
without file ownership issues.- This is less an issue because x11docker already avoids root in container.
- Exception: User namespace remapping is not disabled for
--user=RETAIN
.
- x11docker provides several different X server options.
Each X server involved might have its individual vulnerabilities.
x11docker only covers well-known X security leaks that result from X11 protocol design.
- An additional security layer for most supported X servers is set up if image x11docker/xserver is available.
It will be used automatically in most cases if available. Enforce its usage with option
--xc=yes
.
- An additional security layer for most supported X servers is set up if image x11docker/xserver is available.
It will be used automatically in most cases if available. Enforce its usage with option
Options degrading container isolation
x11docker shows warning messages in terminal if chosen options degrade container isolation. Note that x11docker does not check custom DOCKER_RUN_OPTIONS
.
Most important:
--hostdisplay
shares host X socket of display :0 instead of running a second X server.- Danger of abuse is reduced providing so-called untrusted cookies, but do not rely on this.
- If additionally using
--gpu
or--clipboard
, option--ipc=host
and trusted cookies are enabled and no protection against X security leaks is left. - If you don't care about container isolation,
x11docker --hostdisplay --gpu
is an insecure but quite fast setup without any overhead.
--gpu
allows access to GPU hardware. This can be abused to get window content from host (palinopsia bug) and makes GPU rootkits like keyloggers possible.--pulseaudio
and--alsa
allow catching audio output and microphone input from host.
Rather special options reducing security, but not needed for regular use:
--sudouser
allowssu
andsudo
with passwordx11docker
for container user. If an application somehow breaks out of container, it can harm your host system. Allows many container capabilities that x11docker would drop otherwise.--cap-default
disables x11docker's container security hardening and falls back to default container capabilities as provided by the backends docker, podman or nerdctl. If an application somehow breaks out of container, it can harm your host system.--init=systemd|sysvinit|openrc|runit
allow some container capabilities that x11docker would drop otherwise.--init=systemd
also shares access to/sys/fs/cgroup
. Some processes will run as root in container. If a root process somehow breaks out of container, it can harm your host system. Allows many container capabilities that x11docker would drop otherwise.--hostdbus
allows communication over DBus with host applications.
Sandbox
Container isolation enhanced with x11docker allows to use containers as a sandbox that fairly well protects the host system from possibly malicious or buggy software. Though, no sandbox solution in the wild can provide a perfect secure protection, and Docker even with enhanced security settings from x11docker is no exception.
Using x11docker as a sandbox is not intended to run obviously evil software. Rather use it as:
- Compatibility environment to run software that is hard or impossible to install on host due to dependency issues.
- Development environment to collect libraries, compiler and so on to keep the host clean.
- Development environment to mitigate damage caused by unexpected/buggy behaviour.
- Security layer for software that may be malicious in worst case. Examples: Internet browser with enabled
javascript
, orwine
with MS Windows applications.
x11docker already restricts process capabilities. You can additionally restrict access to CPU and RAM with option --limit
.
As default --limit
restricts to 50% of available CPUs and 50% of currently free RAM. Another amount can be specified with --limit=FACTOR
with a FACTOR
greater than zero and less than or equal one.
For more custom fine tuning have a look at Docker documentation: Limit a container's resources.
WARNING: There is no restriction that can prevent the container from flooding the hard disk storing the container or in shared folders.
Security and feature check
To check container isolation and some feature options use image x11docker/check
and try out with several options.
- An insecure setup is
x11docker --hostdisplay --gpu x11docker/check
. It fairly well demonstrates common X security leaks. - Add options like
--pulseaudio --alsa --webcam --clipboard --printer
to check their functionality.
Installation
Note that x11docker is just a bash script without library dependencies. Basically it is just a wrapper for X servers and container backends docker, podman and nerdctl. To allow advanced usage of x11docker abilities have a look at chapter Dependencies.
Installation from distribution repositories
x11docker is available as a package in some distributions.
Stable releases:
Latest git master/beta version:
Much thanks to the maintainers who decided to provide these packages! There are some hints for packaging x11docker in the wiki.
Manual installation
Installation options
As root you can install, update and remove x11docker in system directories to be available system-wide:
x11docker --install
: install x11docker from current directory. (Useful to install from an extractedzip
file or a clonedgit
repository.)x11docker --update
: download and install latest release from github.x11docker --update-master
: download and install latest master version from github.x11docker --remove
: remove all files installed by x11docker.- Note: This does not remove
~/.local/share/x11docker
where it stores persistent files of option--home
.
- Note: This does not remove
x11docker --remove-oldprefix
: Before version 7.6.0 x11docker installed itself into/usr/bin
. Now it installs into/usr/local/bin
. Use--remove-oldprefix
to remove/usr/bin
installations.
To see the difference between current and coming updated version, you can use optional argument diff
for --update
and --update-master
.
Example: x11docker --update-master=diff
will show you the code changes from your current installation to latest master/beta version without installing it.
Installed files
What the installation does (just for information):
- Copies script
x11docker
to/usr/local/bin
. - Installs icon
x11docker.png
below/usr/share/icons
usingxdg-icon-resource
. - Copies documentation
README.md
,CHANGELOG.md
andLICENSE.txt
to/usr/local/share/doc/x11docker
. - Stores
man
page for x11docker in/usr/local/share/man/man1/x11docker.1.gz
.
Shortest way for first installation:
- For systems using
sudo
:curl -fsSL https://raw.githubusercontent.com/mviereck/x11docker/master/x11docker | sudo bash -s -- --update
- Directly as
root
:curl -fsSL https://raw.githubusercontent.com/mviereck/x11docker/master/x11docker | bash -s -- --update
Minimal installation
You can run x11docker from an arbitrary location with bash x11docker
or ./x11docker
.
For minimal system-wide installation make x11docker
executable with chmod +x x11docker
and move it to /usr/local/bin
(or another location in PATH
).
Other files than script x11docker
itself are not essential.
Installation on MS Windows
x11docker can run natively on MS Windows electively in one of:
Further information at wiki: x11docker on MS Windows.
Deinstallation
You can remove x11docker with x11docker --remove
. That will remove the files listed above.
It will also remove ~/.cache/x11docker
and stop all running x11docker containers.
x11docker will not remove:
- Files and folders for persistent data storage with option
--home
. These are:~/.local/share/x11docker
where persistent data is stored.- Softlink
~/x11docker
that points there.
- Folders you might have created yourself for x11docker:
~/.local/share/x11docker
~/.config/x11docker
Dependencies
x11docker can run with standard system utilities without additional dependencies on host or in image.
- As a core it only needs
bash
and one ofdocker
,podman
ornerdctl
to run containers on X. - x11docker also needs an X server. x11docker can automatically use image
x11docker/xserver
that provides most optional x11docker dependencies and several X servers and Wayland compositors so you won't need to install them on host.- If you prefer to install dependencies on host:
- The recommended base commands are:
nxagent
Xephyr
weston
Xwayland
xdotool
xauth
xinit
xclip
xhost
xrandr
xdpyinfo
. Some of them are probably already installed. - See wiki: Dependencies - Recommended base for a package list matching your distribution.
- The recommended base commands are:
- If you prefer to install dependencies on host:
Dependencies in image:
- Some feature options have additional dependencies on host and/or in image. This affects especially options
--gpu
,--printer
and--pulseaudio
. - Compare wiki: feature dependencies.
Troubleshooting
For troubleshooting run x11docker
in a terminal.
x11docker shows warnings if something is insecure, missing or going wrong.
Also it shows notes if options don't work and fallbacks are used.
It might give hints to fix some issues.
Core checks
1. Make sure your x11docker version is up to date with x11docker --update
(latest release) or x11docker --update-master
(latest beta).
2. Carefully read the regular x11docker messages. Often they already give a hint what to do.
- Use option
-D, --debug
to see some internal messages. - Use option
-v, --verbose
to see full logfile output. - You can find the latest dispatched logfile at
~/.cache/x11docker/x11docker.log
.
3. Try another X server option.
- Some applications fail with fallback option
--hostdisplay
. Add--clipboard
to disable some security restrictions of--hostdisplay
. - If that does not help, install additional X servers. The most stable and reliable option is
--xephyr
.
Privilege checks
Some applications need more privileges or capabilities than x11docker provides by default.
One attempt is to allow several privileges until the setup works. Than reduce privileges to find out which are needed indeed.
(Note the --
in the following commands, do not miss them).
1. Adding privileges:
- Try
x11docker --cap-default IMAGENAME
- Try
x11docker --cap-default --ipc=host --network=host IMAGENAME
- Try
x11docker --cap-default --ipc=host --network=host --share /run/udev/data:ro -- --cap-add ALL --security-opt seccomp=unconfined --security-opt apparmor=unconfined --privileged -- IMAGENAME
2. Reducing privileges:
- Drop options one by one in this order:
--privileged
--security-opt apparmor=unconfined
--security-opt seccomp=unconfined
--cap-add ALL
--share /run/udev/data:ro
--network=host
--ipc=host
--cap-default
. Only leave options that are needed to keep the setup working. - Option
--cap-default
might already be enough. It allows default container capabilities as docker|podman|nerdctl would do on themself.- You can just stop debugging and reducing here if you like to.
- You can try to reduce
--cap-default
. Partially remove additional options to find out which one(s) are needed:- First try
x11docker --newprivileges -- IMAGENAME
- Than try and reduce:
x11docker --newprivileges -- --cap-add=SETPCAP --cap-add=MKNOD --cap-add=AUDIT_WRITE --cap-add=CHOWN --cap-add=NET_RAW --cap-add=DAC_OVERRIDE --cap-add=FOWNER --cap-add=FSETID --cap-add=KILL --cap-add=SETGID --cap-add=SETUID --cap-add=NET_BIND_SERVICE --cap-add=SYS_CHROOT --cap-add=SETFCAP -- IMAGENAME
- First try
--cap-add ALL
should not be considered to be a solution.- Drop capabilities from following command to find the one(s) you need:
x11docker --cap-default -- --cap-add=SYS_MODULE --cap-add=SYS_RAWIO --cap-add=SYS_PACCT --cap-add=SYS_ADMIN --cap-add=SYS_NICE --cap-add=SYS_RESOURCE --cap-add=SYS_TIME --cap-add=SYS_TTY_CONFIG --cap-add=AUDIT_CONTROL --cap-add=MAC_OVERRIDE --cap-add=MAC_ADMIN --cap-add=NET_ADMIN --cap-add=SYSLOG --cap-add=DAC_READ_SEARCH --cap-add=LINUX_IMMUTABLE --cap-add=NET_BROADCAST --cap-add=IPC_LOCK --cap-add=IPC_OWNER --cap-add=SYS_PTRACE --cap-add=SYS_BOOT --cap-add=LEASE --cap-add=WAKE_ALARM --cap-add=BLOCK_SUSPEND --cap-add=AUDIT_READ -- IMAGENAME
- Many of these capabilities are rather dangerous and should not be allowed for a container. Especially to mention is
SYS_ADMIN
.
- Drop capabilities from following command to find the one(s) you need:
- Option
--privileged
should not be considered to be a solution. Basically it allows arbitrary access to the host for container applications.- Likely you need to share a device file in
/dev
, e.g. something like--share /dev/vboxdrv
.
- Likely you need to share a device file in
--ipc=host
and--network=host
severely reduce container isolation. Better solutions are desirable.
3. Open a ticket to ask for possibilities how to optimize the privilege setup.
Other checks
1. Container user: By default x11docker sets up an unprivileged container user similar to your host user.
- The image may have a
USER
specification and be designed for this user.- Check for a
USER
specification in image withdocker inspect --format '{{.Config.User}}' IMAGENAME
- You can enable this predefined user with
--user=RETAIN
- Check for a
- The container might need a root user. Try with
--user=root
, maybe add--cap-default
.
2. Init and DBus
- A few applications need a DBus user daemon. Install
dbus
in image and try option--dbus
. - A few applications need systemd and/or a running DBus system daemon. Install
systemd
in image and try option--init=systemd
.
3. Architecture check of host OS and image
- The image may not be built for the architecture of your host OS. (ie. Image is built for amd64 but your OS runs on arm, e.g. on a RaspBerry PI).
With a mismatch the container will quit unexpectedly & x11docker may emit the error
dockerrc(): Did not receive PID of PID1 in container.
- You can check the image architecture with
docker inspect --format {{.Architecture}} IMAGENAME
. - You can check the host architecture with
uname -m
. - For further information and multi-arch setups look at wiki: Multi-arch setups with QEMU.
- You can check the image architecture with
Contact
Feel free to open a ticket if you have a question or encounter an issue.
Issues
If reporting an issue:
- Have a look at chapter Troubleshooting.
- Most times it makes sense to store the
--verbose
output (or~/.cache/x11docker/x11docker.log
) at pastebin.com.- Personal information in the logfile is mainly the user name (also in paths) and some hardware and system information.
Contributing
If you want to contribute to x11docker, please open a ticket before creating a pull request. Often it is possible to accomplish desired tasks with already available options. Note that x11docker is considered to be stable and changes other than bug fixes are less likely to be merged. In general new features are not intended.
Support
Please open a ticket if you need support. Please note that x11docker
is a non-commercial project maintained in free time.
I'll help where I can, but there is no organisation behind x11docker
that can provide large scale support.
Donation
If you like to make a donation: Thank you! :) Please have a look at my sponsor site.
Instead of sponsoring me, you can as well spend some money to Galsan Tschinag in Mongolia (Wikipedia). One of his great projects is the afforestation of Mongolia. A donation account in Germany is provided by Förderverein Mongolei e.V..
Förderverein Mongolei e.V.
IBAN DE7261290120 0394 3660 00
BIC GENODES1NUE
Volksbank Kirchheim-Nürtingen
I personally know some of the people behind this. I assure that they are trustworthy and have a great heart and soul and do a good thing.
Examples
Some x11docker image examples with desktop environments can be found on docker hub.
A special one to check features and container isolation is x11docker/check
.
Docker does not provide automated builds for free anymore, so the images are becoming outdated.
Instead of pulling them, rather build them locally with x11docker option --build
.
Some x11docker Dockerfiles are provided at https://github.com/mviereck?tab=repositories; look for repositories beginning with dockerfile-x11docker
.
You can build locally from these Dockerfiles with x11docker option --build
. Example:
x11docker --build x11docker/fvwm
Single applications
Application | x11docker command |
---|---|
Xfce4 Terminal | x11docker x11docker/xfce xfce4-terminal |
GLXgears with hardware acceleration | x11docker --gpu x11docker/xfce glxgears |
Kodi media center with hardware acceleration, Pulseaudio sound and shared Videos folder. For setup look at ehough/docker-kodi. |
x11docker --gpu --pulseaudio --share ~/Videos erichough/kodi . |
XaoS fractal generator | x11docker patricknw/xaos |
Telegram messenger with persistent HOME for configuration storage |
x11docker --home xorilog/telegram |
Firefox with shared Download folderand internet access. |
x11docker -I --share $HOME/Downloads -- --tmpfs /dev/shm -- jess/firefox |
Tor browser | x11docker -I jess/tor-browser |
Chromium browser with restricted resource usage | x11docker -I --limit -- jess/chromium --no-sandbox |
VLC media player with shared Videos folder and Pulseaudio sound |
x11docker --pulseaudio --share=$HOME/Videos jess/vlc |
GNU Octave Scientific Programming Language built for arm & arm64 | x11docker aptman/dbhi:bionic-octave octave |
Desktop environments
Desktop environment (most based on Debian) |
x11docker command |
---|---|
Cinnamon | x11docker --desktop --gpu --init=systemd --cap-default x11docker/cinnamon |
deepin (website) (3D desktop from China) | x11docker --desktop --gpu --init=systemd -- --cap-add=IPC_LOCK -- x11docker/deepin |
Enlightenment (based on Void Linux) | x11docker --desktop --gpu --runit x11docker/enlightenment |
Fluxbox (based on Debian, 87 MB) | x11docker --desktop x11docker/fluxbox |
FVWM (based on Alpine, 22.5 MB) | x11docker --desktop x11docker/fvwm |
Gnome 3 | x11docker --desktop --gpu --init=systemd x11docker/gnome |
KDE Plasma on X | x11docker --desktop --gpu --init=systemd x11docker/kde-plasma |
KDE Plasma on Wayland | x11docker --kwin --wayland x11docker/kde-plasma plasmashell |
KDE Plasma as nested Wayland compositor | x11docker --gpu --init=systemd -- --cap-add SYS_RESOURCE -- x11docker/kde-plasma startplasma-wayland |
Lumina (website) (based on Void Linux) | x11docker --desktop x11docker/lumina |
LiriOS (based on Fedora) | x11docker --desktop --gpu lirios/unstable |
LXDE | x11docker --desktop x11docker/lxde |
LXDE with wine and PlayOnLinux and a persistent HOME folder to preserve installed Windows applications, and with Pulseaudio sound. |
x11docker --desktop --home --pulseaudio x11docker/lxde-wine |
LXQt | x11docker --desktop x11docker/lxqt |
Mate | x11docker --desktop x11docker/mate |
Trinity (website) (successor of KDE 3) | x11docker --desktop x11docker/trinity |
Xfce | x11docker --desktop x11docker/xfce |
Adjust images for your needs
For persistent changes of image system adjust Dockerfile and rebuild. To add custom applications to x11docker example images you can create a new Dockerfile based on them. Example:
# xfce desktop with VLC media player
FROM x11docker/xfce
RUN apt-get update && apt-get install -y vlc
Screenshots
More screenshots are stored in screenshot branch
x11docker --desktop x11docker/lxqt
x11docker --desktop x11docker/lxde-wine
x11docker --desktop --gpu --init=systemd -- --cap-add=IPC_LOCK --security-opt seccomp=unconfined -- x11docker/deepin