A large number of issues reported against Podman are often found to already be fixed
in more current versions of the project. Before reporting an issue, please verify the
version you are running with podman version
and compare it to the latest release
documented on the top of Podman's README.md.
If they differ, please update your version of PODMAN to the latest possible and retry your command before reporting the issue.
$ podman run -v ~/mycontent:/content fedora touch /content/file touch: cannot touch '/content/file': Permission denied
This is usually caused by SELinux.
Labeling systems like SELinux require that proper labels are placed on volume content mounted into a container. Without a label, the security system might prevent the processes running inside the container from using the content. By default, Podman does not change the labels set by the OS.
To change a label in the container context, you can add either of two suffixes :z or :Z to the volume mount. These suffixes tell Podman to relabel file objects on the shared volumes. The z option tells Podman that two containers share the volume content. As a result, Podman labels the content with a shared content label. Shared volume labels allow all containers to read/write content. The Z option tells Podman to label the content with a private unshared label. Only the current container can use a private volume.
$ podman run -v ~/mycontent:/content:Z fedora touch /content/file
Make sure the content is private for the container. Do not relabel system directories and content.
Relabeling system content might cause other confined services on your machine to fail. For these
types of containers we recommend that disable SELinux separation. The option --security-opt label=disable
will disable SELinux separation for the container.
$ podman run --security-opt label=disable -v ~:/home/user fedora touch /home/user/file
When doing a podman pull
or podman build
command and a "common" image cannot be pulled,
it is likely that the /etc/containers/registries.conf
file is either not installed or possibly
misconfigured.
$ sudo podman build -f Dockerfile
STEP 1: FROM alpine
error building: error creating build container: no such image "alpine" in registry: image not known
or
$ sudo podman pull fedora
error pulling image "fedora": unable to pull fedora: error getting default registries to try: Near line 9 (last key parsed ''): Bare keys cannot contain ':'.
- Verify that the
/etc/containers/registries.conf
file exists. If not, verify that the containers-common package is installed. - Verify that the entries in the
unqualified-search-registries
list of the/etc/containers/registries.conf
file are valid and reachable.- i.e.
unqualified-search-registries = ["registry.fedoraproject.org", "quay.io", "registry.access.redhat.com"]
- i.e.
When doing a Podman command such as build
, commit
, pull
, or push
to a registry,
tls verification is turned on by default. If authentication is not used with
those commands, this error can occur.
$ sudo podman push alpine docker://localhost:5000/myalpine:latest
Getting image source signatures
Get https://localhost:5000/v2/: http: server gave HTTP response to HTTPS client
By default tls verification is turned on when communicating to registries from
Podman. If the registry does not require authentication the Podman commands
such as build
, commit
, pull
and push
will fail unless tls verification is turned
off using the --tls-verify
option. NOTE: It is not at all recommended to
communicate with a registry and not use tls verification.
- Turn off tls verification by passing false to the tls-verification option.
- I.e.
podman push --tls-verify=false alpine docker://localhost:5000/myalpine:latest
When using the ping command from a non-root container, the command may fail because of a lack of privileges.
$ podman run --rm fedora ping -W10 -c1 redhat.com
PING redhat.com (209.132.183.105): 56 data bytes
--- redhat.com ping statistics ---
1 packets transmitted, 0 packets received, 100% packet loss
It is most likely necessary to enable unprivileged pings on the host.
Be sure the UID of the user is part of the range in the
/proc/sys/net/ipv4/ping_group_range
file.
To change its value you can use something like: sysctl -w "net.ipv4.ping_group_range=0 2000000"
.
To make the change persistent, you'll need to add a file in
/etc/sysctl.d
that contains net.ipv4.ping_group_range=0 $MAX_UID
.
When the Dockerfile contains a command like RUN useradd -u 99999000 -g users newuser
the build can hang.
If you are using a useradd command within a Dockerfile with a large UID/GID, it will create a large sparse file /var/log/lastlog
. This can cause the build to hang forever. Go language does not support sparse files correctly, which can lead to some huge files being created in your container image.
If the entry in the Dockerfile looked like: RUN useradd -u 99999000 -g users newuser then add the --no-log-init
parameter to change it to: RUN useradd --no-log-init -u 99999000 -g users newuser
. This option tells useradd to stop creating the lastlog file.
When rootless Podman attempts to execute a container on a non exec home directory a permission error will be raised.
If you are running Podman or buildah on a home directory that is mounted noexec, then they will fail. With a message like:
podman run centos:7
standard_init_linux.go:203: exec user process caused "permission denied"
Since the administrator of the system setup your home directory to be noexec, you will not be allowed to execute containers from storage in your home directory. It is possible to work around this by manually specifying a container storage path that is not on a noexec mount. Simply copy the file /etc/containers/storage.conf to ~/.config/containers/ (creating the directory if necessary). Specify a graphroot directory which is not on a noexec mount point and to which you have read/write privileges. You will need to modify other fields to writable directories as well.
For example
cat ~/.config/containers/storage.conf
[storage]
driver = "overlay"
runroot = "/run/user/1000"
graphroot = "/execdir/myuser/storage"
[storage.options]
mount_program = "/bin/fuse-overlayfs"
When running systemd as PID 1 inside of a container on an SELinux separated machine, it needs to write to the cgroup file system.
Systemd gets permission denied when attempting to write to the cgroup file system, and AVC messages start to show up in the audit.log file or journal on the system.
Newer versions of Podman (2.0 or greater) support running init based containers with a different SELinux labels, which allow the container process access to the cgroup file system. This feature requires container-selinux-2.132 or newer versions.
Prior to Podman 2.0, the SELinux boolean container_manage_cgroup
allows
container processes to write to the cgroup file system. Turn on this boolean,
on SELinux separated systems, to allow systemd to run properly in the container.
Only do this on systems running older versions of Podman.
setsebool -P container_manage_cgroup true
Rootless Podman requires the newuidmap and newgidmap programs to be installed.
If you are running Podman or buildah as a not root user, you get an error complaining about a missing newuidmap executable.
podman run -ti fedora sh
cannot find newuidmap: exec: "newuidmap": executable file not found in $PATH
Install a version of shadow-utils that includes these executables. Note that for RHEL and CentOS 7, at least the 7.7 release must be installed for support to be available.
Rootless Podman requires the user running it to have a range of UIDs listed in /etc/subuid and /etc/subgid.
An user, either via --user or through the default configured for the image, is not mapped inside the namespace.
podman run --rm -ti --user 1000000 alpine echo hi
Error: container create failed: container_linux.go:344: starting container process caused "setup user: invalid argument"
Update the /etc/subuid and /etc/subgid with fields for users that look like:
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 getpwent.
- The initial uid allocated for the user.
- The size of the range of UIDs allocated for the user.
This means johndoe is allocated UIDS 100000-165535 as well as his standard UID in the /etc/passwd file.
You should ensure that each user has a unique range of uids, because overlapping UIDs, would potentially allow one user to attack another user. In addition, make sure that the range of uids you allocate can cover all uids that the container requires. For example, if the container has a user with uid 10000, ensure you have at least 10001 subuids.
You could also use the usermod program to assign UIDs to a user.
If you update either the /etc/subuid or /etc/subgid file, you need to
stop all running containers and kill the pause process. This is done
automatically by the system migrate
command, which can also be used
to stop all the containers and kill the pause process.
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
When I change the graphroot storage location in storage.conf, the next time I run Podman I get an error like:
# podman run -p 5000:5000 -it centos bash
bash: error while loading shared libraries: /lib64/libc.so.6: cannot apply additional memory protection after relocation: Permission denied
For example, the admin sets up a spare disk to be mounted at /src/containers
,
and points storage.conf at this directory.
SELinux blocks containers from using random locations for overlay storage. These directories need to be labeled with the same labels as if the content was under /var/lib/containers/storage.
Tell SELinux about the new containers storage by setting up an equivalence record.
This tells SELinux to label content under the new path, as if it was stored
under /var/lib/containers/storage
.
semanage fcontext -a -e /var/lib/containers /srv/containers
restorecon -R -v /srv/containers
The semanage command above tells SELinux to setup the default labeling of
/srv/containers
to match /var/lib/containers
. The restorecon
command
tells SELinux to apply the labels to the actual content.
Now all new content created in these directories will automatically be created with the correct label.
Pulling an anonymous image that doesn't require authentication can result in an
invalid username/password
error.
If you pull an anonymous image, one that should not require credentials, you can receive
and invalid username/password
error if you have credentials established in the
authentication file for the target container registry that are no longer valid.
podman run -it --rm docker://docker.io/library/alpine:latest ls
Trying to pull docker://docker.io/library/alpine:latest...ERRO[0000] Error pulling image ref //alpine:latest: Error determining manifest MIME type for docker://alpine:latest: unable to retrieve auth token: invalid username/password
Failed
Error: unable to pull docker://docker.io/library/alpine:latest: unable to pull image: Error determining manifest MIME type for docker://alpine:latest: unable to retrieve auth token: invalid username/password
This can happen if the authentication file is modified 'by hand' or if the credentials are established locally and then the password is updated later in the container registry.
Depending upon which container tool was used to establish the credentials, use podman logout
or docker logout
to remove the credentials from the authentication file.
Running Podman in a container and forwarding some, but not all, of the required host directories can cause inconsistent container behavior.
After creating a container with Podman's storage directories mounted in from the host and running Podman inside a container, all containers show their state as "configured" or "created", even if they were running or stopped.
When running Podman inside a container, it is recommended to mount at a minimum /var/lib/containers/storage/
as a volume.
Typically, you will not mount in the host version of the directory, but if you wish to share containers with the host, you can do so.
If you do mount in the host's /var/lib/containers/storage
, however, you must also mount in the host's /run/libpod
and /run/containers/storage
directories.
Not doing this will cause Podman in the container to detect that temporary files have been cleared, leading it to assume a system restart has taken place.
This can cause Podman to reset container states and lose track of running containers.
For running containers on the host from inside a container, we also recommend the Podman remote client, which only requires a single socket to be mounted into the container.
NFS enforces file creation on different UIDs on the server side and does not understand user namespace, which rootless Podman requires. When a container root process like YUM attempts to create a file owned by a different UID, NFS Server denies the creation. NFS is also a problem for the file locks when the storage is on it. Other distributed file systems (for example: Lustre, Spectrum Scale, the General Parallel File System (GPFS)) are also not supported when running in rootless mode as these file systems do not understand user namespace.
$ podman build .
ERRO[0014] Error while applying layer: ApplyLayer exit status 1 stdout: stderr: open /root/.bash_logout: permission denied
error creating build container: Error committing the finished image: error adding layer with blob "sha256:a02a4930cb5d36f3290eb84f4bfa30668ef2e9fe3a1fb73ec015fc58b9958b17": ApplyLayer exit status 1 stdout: stderr: open /root/.bash_logout: permission denied
Choose one of the following:
- Setup containers/storage in a different directory, not on an NFS share.
- Create a directory on a local file system.
- Edit
~/.config/containers/containers.conf
and point thevolume_path
option to that local directory. (Copy /usr/share/containers/containers.conf if ~/.config/containers/containers.conf does not exist)
- Otherwise just run Podman as root, via
sudo podman
The Overlay file system (OverlayFS) requires the ability to call the mknod
command when creating whiteout files
when extracting an image. However, a rootless user does not have the privileges to use mknod
in this capacity.
podman build --storage-driver overlay .
STEP 1: FROM docker.io/ubuntu:xenial
Getting image source signatures
Copying blob edf72af6d627 done
Copying blob 3e4f86211d23 done
Copying blob 8d3eac894db4 done
Copying blob f7277927d38a done
Copying config 5e13f8dd4c done
Writing manifest to image destination
Storing signatures
Error: error creating build container: Error committing the finished image: error adding layer with blob "sha256:8d3eac894db4dc4154377ad28643dfe6625ff0e54bcfa63e0d04921f1a8ef7f8": Error processing tar file(exit status 1): operation not permitted
$ podman build .
ERRO[0014] Error while applying layer: ApplyLayer exit status 1 stdout: stderr: open /root/.bash_logout: permission denied
error creating build container: Error committing the finished image: error adding layer with blob "sha256:a02a4930cb5d36f3290eb84f4bfa30668ef2e9fe3a1fb73ec015fc58b9958b17": ApplyLayer exit status 1 stdout: stderr: open /root/.bash_logout: permission denied
Choose one of the following:
- Complete the build operation as a privileged user.
- Install and configure fuse-overlayfs.
- Install the fuse-overlayfs package for your Linux Distribution.
- Add
mount_program = "/usr/bin/fuse-overlayfs"
under[storage.options]
in your~/.config/containers/storage.conf
file.
The systemd version shipped in RHEL 7 and CentOS 7 doesn't have support for cgroup v2. Support for cgroup V2 requires version 230 of systemd or newer, which was never shipped or supported on RHEL 7 or CentOS 7.
sh# podman run --name test -d registry.access.redhat.com/rhel7-init:latest && sleep 10 && podman exec test systemctl status
c8567461948439bce72fad3076a91ececfb7b14d469bfa5fbc32c6403185beff
Failed to get D-Bus connection: Operation not permitted
Error: non zero exit code: 1: OCI runtime error
You'll need to either:
- configure the host to use cgroup v1
On Fedora you can do:
# dnf install -y grubby
# grubby --update-kernel=ALL --args=”systemd.unified_cgroup_hierarchy=0"
# reboot
- update the image to use an updated version of systemd.
You need to set lingering mode through loginctl to prevent user processes to be killed once the user session completed.
Once the user logs out all the containers exit.
You'll need to either:
- loginctl enable-linger $UID
or as root if your user has not enough privileges.
- sudo loginctl enable-linger $UID
The Kernel Lockdown patches deny eBPF programs when Secure Boot is enabled in the BIOS. Matthew Garrett's post describes the relationship between Lockdown and Secure Boot and Jan-Philip Gehrcke's connects this with eBPF. RH bug 1768125 contains some additional details.
Attempts to run podman result in
Error: bpf create : Operation not permitted: OCI runtime permission denied error
One workaround is to disable Secure Boot in your BIOS.
Unable to pull images
$ podman unshare cat /proc/self/uid_map
0 1000 1
$ podman system migrate
Original command now returns
$ podman unshare cat /proc/self/uid_map
0 1000 1
1 100000 65536
Reference subuid and subgid man pages for more detail.
As a non-root user you have group access rights to a device that you want to
pass into a rootless container with --device=...
.
Any access inside the container is rejected with "Permission denied".
The runtime uses setgroups(2)
hence the process looses all additional groups
the non-root user has. If you use the crun
runtime, 0.10.4 or newer,
then you can enable a workaround by adding --annotation io.crun.keep_original_groups=1
to the podman
command line.
When running a container with a command like podman run --detach httpd
as
a rootless user, the container is closed upon logout and is not kept running.
When logging out of a rootless user session, all containers that were started in detached mode are stopped and are not kept running. As the root user, these same containers would survive the logout and continue running.
When systemd notes that a session that started a Podman container has exited,
it will also stop any containers that has been associated with it. To avoid
this, use the following command before logging out: loginctl enable-linger
.
To later revert the linger functionality, use loginctl disable-linger
.
LOGINCTL(1), SYSTEMD(1)
Podman defaults to ctrl-p,ctrl-q
to detach from a running containers. The
bash and zsh shells default to ctrl-p for the displaying of the previous
command. This causes issues when running a shell inside of a container.
With the default detach key combo ctrl-p,ctrl-q, shell history navigation (tested in bash and zsh) using ctrl-p to access the previous command will not display this previous command. Or anything else. Conmon is waiting for an additional character to see if the user wants to detach from the container. Adding additional characters to the command will cause it to be displayed along with the additional character. If the user types ctrl-p a second time the shell display the 2nd to last command.
The solution to this is to change the default detach_keys. For example in order
to change the defaults to ctrl-q,ctrl-q
use the --detach-keys
option.
podman run -ti --detach-keys ctrl-q,ctrl-q fedora sh
To make this change the default for all containers, users can modify the containers.conf file. This can be done simply in your home directory, but adding the following lines to users containers.conf
$ cat >> ~/.config/containers/containers.conf < _eof
[engine]
detach_keys="ctrl-q,ctrl-q"
_eof
In order to effect root running containers and all users, modify the system wide defaults in /etc/containers/containers.conf
A container with ports that have been published with the --publish
or -p
option
can not be run within a pod.
$ podman pod create --name srcview -p 127.0.0.1:3434:3434 -p 127.0.0.1:7080:7080 -p 127.0.0.1:3370:3370 4b2f4611fa2cbd60b3899b936368c2b3f4f0f68bc8e6593416e0ab8ecb0a3f1d
$ podman run --pod srcview --name src-expose -p 3434:3434 -v "${PWD}:/var/opt/localrepo":Z,ro sourcegraph/src-expose:latest serve /var/opt/localrepo
Error: cannot set port bindings on an existing container network namespace
This is a known limitation. If a container will be run within a pod, it is not necessary to publish the port for the containers in the pod. The port must only be published by the pod itself. Pod network stacks act like the network stack on the host - you have a variety of containers in the pod, and programs in the container, all sharing a single interface and IP address, and associated ports. If one container binds to a port, no other container can use that port within the pod while it is in use. Containers in the pod can also communicate over localhost by having one container bind to localhost in the pod, and another connect to that port.
In the example from the symptom section, dropping the -p 3434:3434
would allow the
podman run
command to complete, and the container as part of the pod would still have
access to that port. For example:
$ podman run --pod srcview --name src-expose -v "${PWD}:/var/opt/localrepo":Z,ro sourcegraph/src-expose:latest serve /var/opt/localrepo
Some container images require that the fuse kernel module is loaded in the kernel before they will run with the fuse filesystem in play.
When trying to run the container images found at quay.io/podman, quay.io/containers registry.access.redhat.com/ubi8 or other locations, an error will sometimes be returned:
ERRO error unmounting /var/lib/containers/storage/overlay/30c058cdadc888177361dd14a7ed7edab441c58525b341df321f07bc11440e68/merged: invalid argument
error mounting container "1ae176ca72b3da7c70af31db7434bcf6f94b07dbc0328bc7e4e8fc9579d0dc2e": error mounting build container "1ae176ca72b3da7c70af31db7434bcf6f94b07dbc0328bc7e4e8fc9579d0dc2e": error creating overlay mount to /var/lib/containers/storage/overlay/30c058cdadc888177361dd14a7ed7edab441c58525b341df321f07bc11440e68/merged: using mount program /usr/bin/fuse-overlayfs: fuse: device not found, try 'modprobe fuse' first
fuse-overlayfs: cannot mount: No such device
: exit status 1
ERRO exit status 1
If you encounter a fuse: device not found
error when running the container image, it is likely that
the fuse kernel module has not been loaded on your host system. Use the command modprobe fuse
to load the
module and then run the container image afterwards. To enable this automatically at boot time, you can add a configuration
file to /etc/modules.load.d
. See man modules-load.d
for more details.
An error such as "OCI runtime error" on a read-only filesystem or the error "{image} is not an absolute path or is a symlink" are often times indicators for this issue. For more details, review this issue.
Rootless Podman requires certain files to exist in a file system in order to run. Podman will create /etc/resolv.conf, /etc/hosts and other file descriptors on the rootfs in order to mount volumes on them.
Run the container once in read/write mode, Podman will generate all of the FDs on the rootfs, and from that point forward you can run with a read-only rootfs.
$ podman run --rm --rootfs /path/to/rootfs true
The command above will create all the missing directories needed to run the container.
After that, it can be used in read only mode, by multiple containers at the same time:
$ podman run --read-only --rootfs /path/to/rootfs ....
Another option would be to create an overlay file system on the directory as a lower and then then allow podman to create the files on the upper.
On some systemd-based systems, non-root users do not have CPU limit delegation permissions. This causes setting CPU limits to fail.
Running a container with a CPU limit options such as --cpus
, --cpu-period
,
or --cpu-quota
will fail with an error similar to the following:
Error: opening file `cpu.max` for writing: Permission denied: OCI runtime permission denied error
This means that CPU limit delegation is not enabled for the current user.
You can verify whether CPU limit delegation is enabled by running the following command:
cat "/sys/fs/cgroup/user.slice/user-$(id -u).slice/user@$(id -u).service/cgroup.controllers"
Example output might be:
memory pids
In the above example, cpu
is not listed, which means the current user does
not have permission to set CPU limits.
If you want to enable CPU limit delegation for all users, you can create the
file /etc/systemd/system/[email protected]/delegate.conf
with the contents:
[Service]
Delegate=memory pids cpu io
After logging out and loggin back in, you should have permission to set CPU limits.
This can happen when running a container from an image for another architecture than the one you are running on.
For example, if a remote repository only has, and thus send you, a linux/arm64
OS/ARCH but you run on linux/amd64
(as happened in openMF/community-app#3323 due to timbru31/docker-ruby-node#564).