Prior to allowing users without root privileges to run Podman, the administrator must install or build Podman and complete the following configurations.
The cgroup V2 Linux kernel feature allows the user to limit the amount of resources a rootless container can use. If the Linux distribution that you are running Podman on is enabled with cgroup V2 then you might need to change the default OCI Runtime. Some older versions of runc
do not work with cgroup V2, you might have to switch to the alternative OCI runtime crun
.
The alternative OCI runtime support for cgroup V2 can also be turned on at the command line by using the --runtime
option:
podman --runtime crun
or for all commands by changing the value for the "Default OCI runtime" in the containers.conf
file either at the system level or at the user level from runtime = "runc"
to runtime = "crun"
.
For installing Podman, please see the installation instructions.
For building Podman, please see the installation instructions.
The slirp4netns package provides user-mode networking for unprivileged network namespaces and must be installed on the machine in order for Podman to run in a rootless environment. The package is available on most Linux distributions via their package distribution software such as yum
, dnf
, apt
, zypper
, etc. If the package is not available, you can build and install slirp4netns
from GitHub.
When using Podman in a rootless environment, it is recommended to use fuse-overlayfs
rather than the VFS file system. For that you need the fuse-overlayfs
executable available in $PATH
.
Your distribution might already provide it in the fuse-overlayfs
package, but be aware that you need at least version 0.7.6. This especially needs to be checked on Ubuntu distributions as fuse-overlayfs
is not generally installed by default and the 0.7.6 version is not available natively on Ubuntu releases prior to 20.04.
The fuse-overlayfs
project is available from GitHub, and provides instructions for easily building a static fuse-overlayfs
executable.
If Podman is used before fuse-overlayfs
is installed, it may be necessary to adjust the storage.conf
file (see "User Configuration Files" below) to change the driver
option under [storage]
to "overlay"
and point the mount_program
option in [storage.options]
to the path of the fuse-overlayfs
executable:
[storage]
driver = "overlay"
(...)
[storage.options]
(...)
mount_program = "/usr/bin/fuse-overlayfs"
The number of user namespaces that are allowed on the system is specified in the file /proc/sys/user/max_user_namespaces
. On most Linux platforms this is preset by default and no adjustment is necessary. However, on RHEL7 machines, a user with root privileges may need to set that to a reasonable value by using this command: sysctl user.max_user_namespaces=15000
.
Rootless Podman requires the user running it to have a range of UIDs listed in the files /etc/subuid
and /etc/subgid
. The shadow-utils
or newuid
package provides these files on different distributions and they must be installed on the system. Root privileges are required to add or update entries within these files. The following is a summary from the How does rootless Podman work? article by Dan Walsh on opensource.com
For each user that will be allowed to create containers, update /etc/subuid
and /etc/subgid
for the user with fields that look like the following. Note that the values for each user must be unique. If there is overlap, there is a potential for a user to use another user's namespace and they could corrupt it.
cat /etc/subuid
johndoe:100000:65536
test:165536:65536
The format of this file is USERNAME:UID:RANGE
- username as listed in
/etc/passwd
or in the output ofgetpwent
. - The initial UID allocated for the user.
- The size of the range of UIDs allocated for the user.
This means the user johndoe
is allocated UIDs 100000-165535 as well as their standard UID in the /etc/passwd
file. NOTE: this is not currently supported with network installs; these files must be available locally to the host machine. It is not possible to configure this with LDAP or Active Directory.
If you update either /etc/subuid
or /etc/subgid
, you need to stop all the running containers owned by the user and kill the pause process that is running on the system for that user. This can be done automatically by using the podman system migrate
command which will stop all the containers for the user and will kill the pause process.
Rather than updating the files directly, the usermod
program can be used to assign UIDs and GIDs to a user.
usermod --add-subuids 200000-201000 --add-subgids 200000-201000 johndoe
grep johndoe /etc/subuid /etc/subgid
/etc/subuid:johndoe:200000:1001
/etc/subgid:johndoe:200000:1001
Users running in a non-privileged container may not be able to use the ping
utility from that container.
If this is required, the administrator must verify that the UID of the user is part of the range in the /proc/sys/net/ipv4/ping_group_range
file.
To change its value the administrator can use a call similar to: sysctl -w "net.ipv4.ping_group_range=0 2000000"
.
To make the change persist, the administrator will need to add a file with the .conf
file extension in /etc/sysctl.d
that contains net.ipv4.ping_group_range=0 $MAX_GID
, where $MAX_GID
is the highest assignable GID of the user running the container.
The majority of the work necessary to run Podman in a rootless environment is on the shoulders of the machine’s administrator.
Once the Administrator has completed the setup on the machine and then the configurations for the user in /etc/subuid
and /etc/subgid
, the user can just start using any Podman command that they wish.
The Podman configuration files for root reside in /usr/share/containers
with overrides in /etc/containers
. In the rootless environment they reside in ${XDG_CONFIG_HOME}/containers
(usually ~/.config/containers
) and are owned by each individual user.
The three main configuration files are containers.conf, storage.conf and registries.conf. The user can modify these files as they wish.
Podman reads
/usr/share/containers/containers.conf
/etc/containers/containers.conf
$HOME/.config/containers/containers.conf
if they exist in that order. Each file can override the previous for particular fields.
For storage.conf
the order is
/etc/containers/storage.conf
$HOME/.config/containers/storage.conf
In rootless Podman certain fields in /etc/containers/storage.conf
are ignored. These fields are:
graphroot=""
container storage graph dir (default: "/var/lib/containers/storage")
Default directory to store all writable content created by container storage programs.
runroot=""
container storage run dir (default: "/run/containers/storage")
Default directory to store all temporary writable content created by container storage programs.
In rootless Podman these fields default to
graphroot="$HOME/.local/share/containers/storage"
runroot="$XDG_RUNTIME_DIR/containers"
$XDG_RUNTIME_DIR defaults on most systems to /run/user/$UID
.
Registry configuration is read in by this order
/etc/containers/registries.conf
/etc/containers/registries.d/*
HOME/.config/containers/registries.conf
The files in the home directory should be used to configure rootless Podman for personal needs. These files are not created by default. Users can copy the files from /usr/share/containers
or /etc/containers
and modify them.
The default authorization file used by the podman login
and podman logout
commands reside in ${XDG_RUNTIME_DIR}/containers/auth.json
.
Rootless Podman is not, and will never be, root; it's not a setuid
binary, and gains no privileges when it runs. Instead, Podman makes use of a user namespace to shift the UIDs and GIDs of a block of users it is given access to on the host (via the newuidmap
and newgidmap
executables) and your own user within the containers that Podman creates.
If your container runs with the root user, then root
in the container is actually your user on the host. UID/GID 1 is the first UID/GID specified in your user's mapping in /etc/subuid
and /etc/subgid
, etc. If you mount a directory from the host into a container as a rootless user, and create a file in that directory as root in the container, you'll see it's actually owned by your user on the host.
So, for example,
> whoami
john
# a folder which is empty
host> ls /home/john/folder
host> podman run -v /home/john/folder:/container/volume mycontainer /bin/bash
# Now I'm in the container
root@container> whoami
root
root@container> touch /container/volume/test
root@container> ls -l /container/volume
total 0
-rw-r--r-- 1 root root 0 May 20 21:47 test
root@container> exit
# I check again
host> ls -l /home/john/folder
total 0
-rw-r--r-- 1 john john 0 May 20 21:47 test
We do recognize that this doesn't really match how many people intend to use rootless Podman - they want their UID inside and outside the container to match. Thus, we provide the --userns=keep-id
flag, which ensures that your user is mapped to its own UID and GID inside the container.
It is also helpful to distinguish between running Podman as a rootless user, and a container which is built to run rootless. If the container you're trying to run has a USER
which is not root, then when mounting volumes you must use --userns=keep-id
. This is because the container user would not be able to become root
and access the mounted volumes.
Other considerations in regards to volumes:
- You should always give the full path to the volume you'd like to mount
- The mount point must exist in the container
If you are still experiencing problems running Podman in a rootless environment, please refer to the Shortcomings of Rootless Podman page which lists known issues and solutions to known issues in this environment.
For more information on Podman and its subcommands, follow the links on the main README.md page or the podman.io web site.