% podman 1
podman - Simple management tool for pods, containers and images
podman [options] command
Podman (Pod Manager) is a fully featured container engine that is a simple daemonless tool.
Podman provides a Docker-CLI comparable command line that eases the transition from other
container engines and allows the management of pods, containers and images. Simply put: alias docker=podman
.
Most Podman commands can be run as a regular user, without requiring additional
privileges.
Podman uses Buildah(1) internally to create container images. Both tools share image (not container) storage, hence each can use or manipulate images (but not containers) created by the other.
Default settings for flags are defined in containers.conf
. Most settings for
Remote connections use the server's containers.conf, except when documented in
man pages.
podman [GLOBAL OPTIONS]
The CGroup manager to use for container cgroups. Supported values are cgroupfs or systemd. Default is systemd unless overridden in the containers.conf file.
Note: Setting this flag can cause certain commands to break when called on containers previously created by the other CGroup manager type. Note: CGroup manager is not supported in rootless mode when using CGroups Version V1.
Location of config file. Mainly for docker compatibility, only the authentication parts of the config are supported.
Path of the conmon binary (Default path is configured in containers.conf
)
Connection to use for remote podman, including Mac and Windows (excluding WSL2) machines, (Default connection is configured in containers.conf
)
Setting this option switches the --remote option to true.
Remote connections use local containers.conf for default.
Backend to use for storing events. Allowed values are file, journald, and
none. When file is specified, the events are stored under
<tmpdir>/events/events.log
(see --tmpdir below).
Print usage statement
Each *.json
file in the path configures a hook for Podman containers. For more details on the syntax of the JSON files and the semantics of hook injection, see oci-hooks(5)
. Podman and libpod currently support both the 1.0.0 and 0.1.0 hook schemas, although the 0.1.0 schema is deprecated.
This option may be set multiple times; paths from later options have higher precedence (oci-hooks(5)
discusses directory precedence).
For the annotation conditions, libpod uses any annotations set in the generated OCI configuration.
For the bind-mount conditions, only mounts explicitly requested by the caller via --volume
are considered. Bind mounts that libpod inserts by default (e.g. /dev/shm
) are not considered.
If --hooks-dir
is unset for root callers, Podman and libpod currently default to /usr/share/containers/oci/hooks.d
and /etc/containers/oci/hooks.d
in order of increasing precedence. Using these defaults is deprecated. Migrate to explicitly setting --hooks-dir
.
Podman and libpod currently support an additional precreate
state which is called before the runtime's create
operation. Unlike the other stages, which receive the container state on their standard input, precreate
hooks receive the proposed runtime configuration on their standard input. They may alter that configuration as they see fit, and write the altered form to their standard output.
WARNING: the precreate
hook allows powerful changes to occur, such as adding additional mounts to the runtime configuration. That power also makes it easy to break things. Before reporting libpod errors, try running a container with precreate
hooks disabled to see if the problem is due to one of the hooks.
Path to ssh identity file. If the identity file has been encrypted, podman prompts the user for the passphrase. If no identity file is provided and no user is given, podman defaults to the user running the podman command. Podman prompts for the login password on the remote server.
Identity value resolution precedence:
- command line value
- environment variable
CONTAINER_SSHKEY
, ifCONTAINER_HOST
is found containers.conf
Remote connections use local containers.conf for default.
Path of the imagestore where images are stored. By default, the storage library stores all the images in the graphroot but if an imagestore is provided, then the storage library will store newly pulled images in the provided imagestore and keep using the graphroot for everything else. If the user is using the overlay driver, then the images which were already part of the graphroot will still be accessible.
This will override imagestore option in containers-storage.conf(5)
, refer to containers-storage.conf(5)
for more details.
Log messages at and above specified level: debug, info, warn, error, fatal or panic (default: warn)
Load the specified containers.conf(5)
module. Can be an absolute or relative path. Please refer to containers.conf(5)
for details.
This flag is not supported on the remote client, including Mac and Windows (excluding WSL2) machines. Further note that the flag is a root-level flag and must be specified before any Podman sub-command.
Path to the slirp4netns(1)
command binary to use for setting up a slirp4netns network.
If "" is used, then the binary will first be searched using the helper_binaries_dir
option in containers.conf
, and second using the $PATH
environment variable.
Note: This option is deprecated and will be removed with Podman 6.0. Use the helper_binaries_dir
option in containers.conf
instead.
Path to the directory where network configuration files are located. For the netavark backend "/etc/containers/networks" is used as root and "$graphroot/networks" as rootless. For the CNI backend the default is "/etc/cni/net.d" as root and "$HOME/.config/cni/net.d" as rootless. CNI is deprecated and will be removed in the next major Podman version 5.0 in preference of Netavark.
Redirect the output of podman to the specified path without affecting the container output or its logs. This parameter can be used to capture the output from any of podman's commands directly into a file and enable suppression of podman's output by specifying /dev/null as the path. To explicitly disable the container logging, the --log-driver option should be used.
When true, access to the Podman service is remote. Defaults to false. Settings can be modified in the containers.conf file. If the CONTAINER_HOST environment variable is set, the --remote option defaults to true.
Storage root dir in which data, including images, is stored (default: "/var/lib/containers/storage" for UID 0, "$HOME/.local/share/containers/storage" for other users).
Default root dir configured in containers-storage.conf(5)
.
Overriding this option causes the storage-opt settings in containers-storage.conf(5)
to be ignored. The user must specify additional options via the --storage-opt
flag.
Storage state directory where all state information is stored (default: "/run/containers/storage" for UID 0, "/run/user/$UID/run" for other users).
Default state dir configured in containers-storage.conf(5)
.
Name of the OCI runtime as specified in containers.conf or absolute path to the OCI compatible binary used to run containers.
Adds global flags for the container runtime. To list the supported flags, please
consult the manpages of the selected container runtime (runc
is the default
runtime, the manpage to consult is runc(8)
. When the machine is configured
for cgroup V2, the default runtime is crun
, the manpage to consult is crun(8)
.).
Note: Do not pass the leading --
to the flag. To pass the runc flag --log-format json
to podman build, the option given can be --runtime-flag log-format=json
.
This option allows the user to change the ssh mode, meaning that rather than using the default golang mode, one can instead use --ssh=native to use the installed ssh binary and config file declared in containers.conf.
Storage driver. The default storage driver for UID 0 is configured in containers-storage.conf(5)
in rootless mode), and is vfs for non-root users when fuse-overlayfs is not available. The STORAGE_DRIVER
environment variable overrides the default. The --storage-driver specified driver overrides all.
Overriding this option causes the storage-opt settings in containers-storage.conf(5)
to be ignored. The user must
specify additional options via the --storage-opt
flag.
Specify a storage driver option. Default storage driver options are configured in containers-storage.conf(5)
. The STORAGE_OPTS
environment variable overrides the default. The --storage-opt specified options override all. Specify --storage-opt="" so no storage options is used.
Output logging information to syslog as well as the console (default false).
On remote clients, including Mac and Windows (excluding WSL2) machines, logging is directed to the file $HOME/.config/containers/podman.log.
Path to the tmp directory, for libpod runtime content. Defaults to $XDG_RUNTIME_DIR/libpod/tmp
as rootless and /run/libpod/tmp
as rootful.
NOTE --tmpdir is not used for the temporary storage of downloaded images. Use the environment variable TMPDIR
to change the temporary storage location of downloaded container images. Podman defaults to use /var/tmp
.
Enables a global transient storage mode where all container metadata is stored on non-persistent media (i.e. in the location specified by --runroot
).
This mode allows starting containers faster, as well as guaranteeing a fresh state on boot in case of unclean shutdowns or other problems. However
it is not compatible with a traditional model where containers persist across reboots.
Default value for this is configured in containers-storage.conf(5)
.
URL to access Podman service (default from containers.conf
, rootless unix:///run/user/$UID/podman/podman.sock
or as root unix:///run/podman/podman.sock
).
Setting this option switches the --remote option to true.
CONTAINER_HOST
is of the format<schema>://[<user[:<password>]@]<host>[:<port>][<path>]
Details:
schema
is one of:ssh
(default): a local unix(7) socket on the namedhost
andport
, reachable via SSHtcp
: an unencrypted, unauthenticated TCP connection to the namedhost
andport
unix
: a local unix(7) socket at the specifiedpath
, or the default for the user
user
defaults to eitherroot
or the current running user (ssh
only)password
has no default (ssh
only)host
must be provided and is either the IP or name of the machine hosting the Podman service (ssh
andtcp
)port
defaults to 22 (ssh
andtcp
)path
defaults to either/run/podman/podman.sock
, or/run/user/$UID/podman/podman.sock
if running rootless (unix
), or must be explicitly specified (ssh
)
URL value resolution precedence:
- command line value
- environment variable
CONTAINER_HOST
engine.service_destinations
table in containers.conf, excluding the /usr/share/containers directoryunix:///run/podman/podman.sock
Remote connections use local containers.conf for default.
Some example URL values in valid formats:
- unix:///run/podman/podman.sock
- unix:///run/user/$UID/podman/podman.sock
- ssh://notroot@localhost:22/run/user/$UID/podman/podman.sock
- ssh://root@localhost:22/run/podman/podman.sock
- tcp://localhost:34451
- tcp://127.0.0.1:34451
Print the version
Volume directory where builtin volume information is stored (default: "/var/lib/containers/storage/volumes" for UID 0, "$HOME/.local/share/containers/storage/volumes" for other users). Default volume path can be overridden in containers.conf
.
Podman can set up environment variables from env of [engine] table in containers.conf. These variables can be overridden by passing environment variables before the podman
commands.
Set default locations of containers.conf file
Set default location of the registries.conf file.
Set default location of the storage.conf file.
Override default --connection
value to access Podman service. Automatically enables the --remote option.
Set default --url
value to access Podman service. Automatically enables --remote option.
Set default --identity
path to ssh key file value used to access Podman service.
The path to the file where the system connections and farms created with podman system connection add
and podman farm add
are stored, by default it uses ~/.config/containers/podman-connections.json
.
Set default --storage-driver
value.
Set default --storage-opt
value.
Set the temporary storage location of downloaded container images. Podman defaults to use /var/tmp
.
In Rootless mode configuration files are read from XDG_CONFIG_HOME
when
specified, otherwise in the home directory of the user under
$HOME/.config/containers
.
In Rootless mode images are pulled under XDG_DATA_HOME
when specified,
otherwise in the home directory of the user under
$HOME/.local/share/containers/storage
.
In Rootless mode temporary configuration data is stored in ${XDG_RUNTIME_DIR}/containers
.
The Podman command can be used with remote services using the --remote
flag. Connections can
be made using local unix domain sockets, ssh or directly to tcp sockets. When specifying the
podman --remote flag, only the global options --url
, --identity
, --log-level
, --connection
are used.
Connection information can also be managed using the containers.conf file.
The exit code from podman
gives information about why the container
failed to run or why it exited. When podman
commands exit with a non-zero code,
the exit codes follow the chroot
standard, see below:
125 The error is with podman itself
$ podman run --foo busybox; echo $?
Error: unknown flag: --foo
125
126 Executing a container command and the command cannot be invoked
$ podman run busybox /etc; echo $?
Error: container_linux.go:346: starting container process caused "exec: \"/etc\": permission denied": OCI runtime error
126
127 Executing a container command and the command cannot be found
$ podman run busybox foo; echo $?
Error: container_linux.go:346: starting container process caused "exec: \"foo\": executable file not found in $PATH": OCI runtime error
127
Exit code otherwise, podman
returns the exit code of the container command
$ podman run busybox /bin/sh -c 'exit 3'; echo $?
3
Command | Description |
---|---|
podman-attach(1) | Attach to a running container. |
podman-auto-update(1) | Auto update containers according to their auto-update policy |
podman-build(1) | Build a container image using a Containerfile. |
podman-farm(1) | Farm out builds to machines running podman for different architectures |
podman-commit(1) | Create new image based on the changed container. |
podman-completion(1) | Generate shell completion scripts |
podman-compose(1) | Run Compose workloads via an external compose provider. |
podman-container(1) | Manage containers. |
podman-cp(1) | Copy files/folders between a container and the local filesystem. |
podman-create(1) | Create a new container. |
podman-diff(1) | Inspect changes on a container or image's filesystem. |
podman-events(1) | Monitor Podman events |
podman-exec(1) | Execute a command in a running container. |
podman-export(1) | Export a container's filesystem contents as a tar archive. |
podman-generate(1) | Generate structured data based on containers, pods or volumes. |
podman-healthcheck(1) | Manage healthchecks for containers |
podman-history(1) | Show the history of an image. |
podman-image(1) | Manage images. |
podman-images(1) | List images in local storage. |
podman-import(1) | Import a tarball and save it as a filesystem image. |
podman-info(1) | Display Podman related system information. |
podman-init(1) | Initialize one or more containers |
podman-inspect(1) | Display a container, image, volume, network, or pod's configuration. |
podman-kill(1) | Kill the main process in one or more containers. |
podman-load(1) | Load image(s) from a tar archive into container storage. |
podman-login(1) | Log in to a container registry. |
podman-logout(1) | Log out of a container registry. |
podman-logs(1) | Display the logs of one or more containers. |
podman-machine(1) | Manage Podman's virtual machine |
podman-manifest(1) | Create and manipulate manifest lists and image indexes. |
podman-mount(1) | Mount a working container's root filesystem. |
podman-network(1) | Manage Podman networks. |
podman-pause(1) | Pause one or more containers. |
podman-kube(1) | Play containers, pods or volumes based on a structured input file. |
podman-pod(1) | Management tool for groups of containers, called pods. |
podman-port(1) | List port mappings for a container. |
podman-ps(1) | Print out information about containers. |
podman-pull(1) | Pull an image from a registry. |
podman-push(1) | Push an image, manifest list or image index from local storage to elsewhere. |
podman-rename(1) | Rename an existing container. |
podman-restart(1) | Restart one or more containers. |
podman-rm(1) | Remove one or more containers. |
podman-rmi(1) | Remove one or more locally stored images. |
podman-run(1) | Run a command in a new container. |
podman-save(1) | Save image(s) to an archive. |
podman-search(1) | Search a registry for an image. |
podman-secret(1) | Manage podman secrets. |
podman-start(1) | Start one or more containers. |
podman-stats(1) | Display a live stream of one or more container's resource usage statistics. |
podman-stop(1) | Stop one or more running containers. |
podman-system(1) | Manage podman. |
podman-tag(1) | Add an additional name to a local image. |
podman-top(1) | Display the running processes of a container. |
podman-unmount(1) | Unmount a working container's root filesystem. |
podman-unpause(1) | Unpause one or more containers. |
podman-unshare(1) | Run a command inside of a modified user namespace. |
podman-untag(1) | Remove one or more names from a locally-stored image. |
podman-update(1) | Update the configuration of a given container. |
podman-version(1) | Display the Podman version information. |
podman-volume(1) | Simple management tool for volumes. |
podman-wait(1) | Wait on one or more containers to stop and print their exit codes. |
containers.conf (/usr/share/containers/containers.conf
, /etc/containers/containers.conf
, $HOME/.config/containers/containers.conf
)
Podman has builtin defaults for command line options. These defaults can be overridden using the containers.conf configuration files.
Distributions ship the /usr/share/containers/containers.conf
file with their default settings. Administrators can override fields in this file by creating the /etc/containers/containers.conf
file. Users can further modify defaults by creating the $HOME/.config/containers/containers.conf
file. Podman merges its builtin defaults with the specified fields from these files, if they exist. Fields specified in the users file override the administrator's file, which overrides the distribution's file, which override the built-in defaults.
Podman uses builtin defaults if no containers.conf file is found.
If the CONTAINERS_CONF environment variable is set, then its value is used for the containers.conf file rather than the default.
mounts.conf (/usr/share/containers/mounts.conf
)
The mounts.conf file specifies volume mount directories that are automatically mounted inside containers when executing the podman run
or podman start
commands. Administrators can override the defaults file by creating /etc/containers/mounts.conf
.
When Podman runs in rootless mode, the file $HOME/.config/containers/mounts.conf
overrides the default if it exists. For details, see containers-mounts.conf(5).
policy.json (/etc/containers/policy.json
, $HOME/.config/containers/policy.json
)
Signature verification policy files are used to specify policy, e.g. trusted keys, applicable when deciding whether to accept an image, or individual signatures of that image, as valid. For details, see containers-policy.json(5).
registries.conf (/etc/containers/registries.conf
, $HOME/.config/containers/registries.conf
)
registries.conf is the configuration file which specifies which container registries is consulted when completing image names which do not include a registry or domain portion.
Non root users of Podman can create the $HOME/.config/containers/registries.conf
file to be used instead of the system defaults.
If the CONTAINERS_REGISTRIES_CONF environment variable is set, then its value is used for the registries.conf file rather than the default.
storage.conf (/etc/containers/storage.conf
, $HOME/.config/containers/storage.conf
)
storage.conf is the storage configuration file for all tools using containers/storage
The storage configuration file specifies all of the available container storage options for tools using shared container storage.
When Podman runs in rootless mode, the file $HOME/.config/containers/storage.conf
is used instead of the system defaults.
If the CONTAINERS_STORAGE_CONF environment variable is set, then its value is used for the storage.conf file rather than the default.
Podman can also be used as non-root user. When podman runs in rootless mode, a user namespace is automatically created for the user, defined in /etc/subuid and /etc/subgid.
Containers created by a non-root user are not visible to other users and are not seen or managed by Podman running as root.
It is required to have multiple UIDS/GIDS set for a user. Be sure the user is present in the files /etc/subuid
and /etc/subgid
.
Execute the following commands to add the ranges to the files
$ sudo usermod --add-subuids 10000-75535 USERNAME
$ sudo usermod --add-subgids 10000-75535 USERNAME
Or just add the content manually.
$ echo USERNAME:10000:65536 >> /etc/subuid
$ echo USERNAME:10000:65536 >> /etc/subgid
See the subuid(5)
and subgid(5)
man pages for more information.
Note: whitespace in any row of /etc/subuid or /etc/subgid, including trailing blanks, may result in no entry failures.
Images are pulled under XDG_DATA_HOME
when specified, otherwise in the home directory of the user under .local/share/containers/storage
.
Currently slirp4netns or pasta is required to be installed to create a network device, otherwise rootless containers need to run in the network namespace of the host.
In certain environments like HPC (High Performance Computing), users cannot take advantage of the additional UIDs and GIDs from the /etc/subuid and /etc/subgid systems. However, in this environment, rootless Podman can operate with a single UID. To make this work, set the ignore_chown_errors
option in the containers-storage.conf(5)
file. This option tells Podman when pulling an image to ignore chown errors when attempting to change a file in a container image to match the non-root UID in the image. This means all files get saved as the user's UID. Note this can cause issues when running the container.
The Overlay file system (OverlayFS) is not supported with kernels prior to 5.12.9 in rootless mode. The fuse-overlayfs package is a tool that provides the functionality of OverlayFS in user namespace that allows mounting file systems in rootless environments. It is recommended to install the fuse-overlayfs package. In rootless mode, Podman automatically uses the fuse-overlayfs program as the mount_program if installed, as long as the $HOME/.config/containers/storage.conf file was not previously created. If storage.conf exists in the homedir, add mount_program = "/usr/bin/fuse-overlayfs"
under [storage.options.overlay]
to enable this feature.
The Network File System (NFS) and other distributed file systems (for example: Lustre, Spectrum Scale, the General Parallel File System (GPFS)) are not supported when running in rootless mode as these file systems do not understand user namespace. However, rootless Podman can make use of an NFS Homedir by modifying the $HOME/.config/containers/storage.conf
to have the graphroot
option point to a directory stored on local (Non NFS) storage.
containers-mounts.conf(5), containers.conf(5), containers-registries.conf(5), containers-storage.conf(5), buildah(1), oci-hooks(5), containers-policy.json(5), crun(1), runc(8), subuid(5), subgid(5), slirp4netns(1), pasta(1), conmon(8)
See podman-troubleshooting(7) for solutions to common issues.
See podman-rootless(7) for rootless issues.
Dec 2016, Originally compiled by Dan Walsh [email protected]