--- layout: docs page_title: 'Drivers: podman' sidebar_title: Podman description: >- The Podman task driver uses podman (https://podman.io/) for containerizing tasks. --- # Podman Task Driver Name: `podman` Homepage: https://github.com/hashicorp/nomad-driver-podman The Podman task driver plugin for Nomad uses the [Pod Manager (podman)][podman] daemonless container runtime for executing Nomad tasks. Podman supports OCI containers and its command line tool is meant to be [a drop-in replacement for Docker's][podman-cli]. See the project's [homepage][homepage] for details. ## Client Requirements The Podman task driver is not builtin to Nomad. It must be [downloaded][downloaded] onto the client host in the configured plugin directory. - Linux host with [`podman`][podman] installed. - [`nomad-driver-podman`][releases] binary in Nomad's [`plugin_dir`][plugin_dir]. You need a varlink enabled Podman binary and a system socket activation unit, see https://podman.io/blogs/2019/01/16/podman-varlink.html. Since the Nomad agent, nomad-driver-podman plugin binary, and Podman will reside on the same host, skip the ssh aspects of the Podman varlink documentation above. ## Capabilities The `podman` driver implements the following [capabilities](/docs/internals/plugins/task-drivers#capabilities-capabilities-error). | Feature | Implementation | | --- | --- | | `nomad alloc signal` | true | | `nomad alloc exec` | false | | filesystem isolation | none | | network isolation | host, group, task, none | | volume mounting | none | ## Known Limitations The Podman task driver is under active development. It currently does not support [stderr logging][stderr-logging] and [devices][devices]. Podman recently released [Podman v2](https://podman.io/blogs/2020/06/29/podman-v2-announce.html). The task driver currently supports v1 and will be working on supporting v2 in upcoming releases. ## Task Configuration Due to Podman's similarity to Docker, the example job created by [`nomad init -short`][nomad-init] is easily adapted to use Podman instead: ```hcl job "example" { datacenters = ["dc1"] group "cache" { task "redis" { driver = "podman" config { image = "docker://redis:3.2" port_map { db = 6379 } } resources { cpu = 500 memory = 256 network { mbits = 10 port "db" {} } } } } } ``` - `image` - The image to run. ```hcl config { image = "docker://redis" } ``` - `command` - (Optional) The command to run when starting the container. ```hcl config { command = "some-command" } ``` - `args` - (Optional) A list of arguments to the optional command. If no _command_ is specified, the arguments are passed directly to the container. ```hcl config { args = [ "arg1", "arg2", ] } ``` - `volumes` - (Optional) A list of `host_path:container_path` strings to bind host paths to container paths. ```hcl config { volumes = [ "/some/host/data:/container/data" ] } ``` - `tmpfs` - (Optional) A list of `/container_path` strings for tmpfs mount points. See `podman run --tmpfs` options for details. ```hcl config { tmpfs = [ "/var" ] } ``` - `hostname` - (Optional) The hostname to assign to the container. When launching more than one of a task (using count) with this option set, every container the task starts will have the same hostname. - `init` - Run an init inside the container that forwards signals and reaps processes. ```hcl config { init = true } ``` - `init_path` - Path to the container-init binary. ```hcl config { init = true init_path = "/usr/libexec/podman/catatonit" } ``` - `user` - Run the command as a specific user/uid within the container. See [task configuration][task]. - `memory_reservation` - Memory soft limit (unit = b (bytes), k (kilobytes), m (megabytes), or g (gigabytes)) After setting memory reservation, when the system detects memory contention or low memory, containers are forced to restrict their consumption to their reservation. So you should always set the value below --memory, otherwise the hard limit will take precedence. By default, memory reservation will be the same as memory limit. ```hcl config { memory_reservation = "100m" } ``` - `memory_swap` - A limit value equal to memory plus swap. The swap limit should always be larger than the [memory value][memory-value]. Unit can be b (bytes), k (kilobytes), m (megabytes), or g (gigabytes). If you don't specify a unit, b is used. Set LIMIT to -1 to enable unlimited swap. ```hcl config { memory_swap = "180m" } ``` - `memory_swappiness` - Tune a container's memory swappiness behavior. Accepts an integer between 0 and 100. ```hcl config { memory_swappiness = 60 } ``` - `network_mode` - Set the [network mode][network-mode] for the container. This will be overridden by nomad if a group network is created and passed in by Nomad. - `bridge` - (default for rootful) create a network stack on the default bridge - `none` - no networking - `container:id` - reuse another container's network stack - `host` - use the Podman host network stack. Note: the host mode gives the container full access to local system services such as D-bus and is therefore considered insecure. - `slirp4netns` - use `slirp4netns` to create a user network stack. This is the default for rootless containers. Podman currently does not support this option for rootful containers ([issue][slirp-issue]) ## Networking Podman supports forwarding and exposing ports like Docker. See [Docker Driver configuration][docker-ports] for details. ## Plugin Options The Podman plugin has options which may be customized in the agent's configuration file. - `volumes` stanza: - `enabled` - Defaults to `true`. Allows tasks to bind host paths (volumes) inside their container. - `selinuxlabel` - Allows the operator to set a SELinux label to the allocation and task local bind-mounts to containers. If used with `volumes.enabled` set to false, the labels will still be applied to the standard binds in the container. ```hcl plugin "nomad-driver-podman" { config { volumes { enabled = true selinuxlabel = "z" } } } ``` - `gc` stanza: - `container` - Defaults to `true`. This option can be used to disable Nomad from removing a container when the task exits. ```hcl plugin "nomad-driver-podman" { config { gc { container = false } } } ``` - `recover_stopped` - Defaults to `true`. Allows the driver to start and reuse a previously stopped container after a Nomad client restart. Consider a simple single node system and a complete reboot. All previously managed containers will be reused instead of disposed and recreated. ```hcl plugin "nomad-driver-podman" { config { recover_stopped = false } } ``` [docker-ports]: /docs/drivers/docker#forwarding-and-exposing-ports [homepage]: https://github.com/hashicorp/nomad-driver-podman [memory-value]: /docs/job-specification/resources#memory [nomad-init]: /docs/commands/job/init [plugin_dir]: /docs/configuration#plugin_dir [podman]: https://podman.io/ [podman-cli]: https://podman.io/whatis.html [releases]: https://releases.hashicorp.com/nomad-driver-podman [task]: /docs/job-specification/task#user [network-mode]: http://docs.podman.io/en/latest/markdown/podman-run.1.html#options [slirp-issue]: https://github.com/containers/libpod/issues/6097 [stderr-logging]: https://github.com/hashicorp/nomad-driver-podman/issues/4 [devices]: https://github.com/hashicorp/nomad-driver-podman/issues/41 [downloaded]: https://releases.hashicorp.com/nomad-driver-podman