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.
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 knownor
$ 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.conffile exists. If not, verify that the skopeo-containers package is installed. - Verify that the entries in the
[registries.search]section of the /etc/containers/registries.conf file are valid and reachable.- i.e.
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 clientBy 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
In Podman release 0.11.1, a default path for rootless containers was changed, potentially causing rootless Podman to be unable to function. The new default path is not a problem for new installations, but existing installations will need to work around it with the following fix.
$ podman info
could not get runtime: database run root /run/user/1000/run does not match our run root /run/user/1000: database configuration mismatchThis problem has been fixed in Podman release 0.12.1 and it is recommended to upgrade to that version. If that is not possible use the following procedure.
To work around the new default path, we can manually set the path Podman is expecting in a configuration file.
First, we need to make a new local configuration file for rootless Podman.
mkdir -p ~/.config/containerscp /usr/share/containers/libpod.conf ~/.config/containers
Next, edit the new local configuration file
(~/.config/containers/libpod.conf) with your favorite editor. Comment out the
line starting with cgroup_manager by adding a # character at the beginning
of the line, and change the path in the line starting with tmp_dir to point to
the first path in the error message Podman gave (in this case,
/run/user/1000/run).
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 lossIt 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 --log-no-init parameter to change it to: RUN useradd --log-no-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.
SELinux provides a boolean container_manage_cgroup, which 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.
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 RHEL7 and Centos 7 will not have support for this until RHEL7.7 is released.
Rootless podman requires the user running it to have a range of UIDs listed in /etc/subuid and /etc/subgid.
If you are running podman or buildah as a user, you get an error complaining about a missing subuid ranges in /etc/subuid.
podman run -ti fedora sh
No subuid ranges found for user "johndoe" in /etc/subuid
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.
You could also use the usermod program to assign UIDs 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