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% podman-play-kube(1)
## NAME
podman-play-kube - Create containers, pods or volumes based on Kubernetes YAML
## SYNOPSIS
**podman play kube** [*options*] *file.yml|-*
## DESCRIPTION
**podman play kube** will read in a structured file of Kubernetes YAML. It will then recreate the containers, pods or volumes described in the YAML. Containers within a pod are then started and the ID of the new Pod or the name of the new Volume is output. If the yaml file is specified as "-" then `podman play kube` will read the YAML file from stdin.
Using the `--down` command line option, it is also capable of tearing down the pods created by a previous run of `podman play kube`.
Using the `--replace` command line option, it will tear down the pods(if any) created by a previous run of `podman play kube` and recreate the pods with the Kubernetes YAML file.
Ideally the input file would be one created by Podman (see podman-generate-kube(1)). This would guarantee a smooth import and expected results.
Currently, the supported Kubernetes kinds are:
- Pod
- Deployment
- PersistentVolumeClaim
- ConfigMap
`Kubernetes Pods or Deployments`
Only two volume types are supported by play kube, the *hostPath* and *persistentVolumeClaim* volume types. For the *hostPath* volume type, only the *default (empty)*, *DirectoryOrCreate*, *Directory*, *FileOrCreate*, *File*, and *Socket* subtypes are supported. The *CharDevice* and *BlockDevice* subtypes are not supported. Podman interprets the value of *hostPath* *path* as a file path when it contains at least one forward slash, otherwise Podman treats the value as the name of a named volume. When using a *persistentVolumeClaim*, the value for *claimName* is the name for the Podman named volume.
Note: When playing a kube YAML with init containers, the init container will be created with init type value `always`.
Note: *hostPath* volume types created by play kube will be given an SELinux shared label (z), bind mounts are not relabeled (use `chcon -t container_file_t -R <directory>`).
Note: If the `:latest` tag is used, Podman will attempt to pull the image from a registry. If the image was built locally with Podman or Buildah, it will have `localhost` as the domain, in that case, Podman will use the image from the local store even if it has the `:latest` tag.
`Kubernetes PersistentVolumeClaims`
A Kubernetes PersistentVolumeClaim represents a Podman named volume. Only the PersistentVolumeClaim name is required by Podman to create a volume. Kubernetes annotations can be used to make use of the available options for Podman volumes.
- volume.podman.io/driver
- volume.podman.io/device
- volume.podman.io/type
- volume.podman.io/uid
- volume.podman.io/gid
- volume.podman.io/mount-options
Play kube is capable of building images on the fly given the correct directory layout and Containerfiles. This
option is not available for remote clients, including Mac and Windows (excluding WSL2) machines, yet. Consider the following excerpt from a YAML file:
```
apiVersion: v1
kind: Pod
metadata:
...
spec:
containers:
- command:
- top
- name: container
value: podman
image: foobar
...
```
If there is a directory named `foobar` in the current working directory with a file named `Containerfile` or `Dockerfile`,
Podman play kube will build that image and name it `foobar`. An example directory structure for this example would look
like:
```
|- mykubefiles
|- myplayfile.yaml
|- foobar
|- Containerfile
```
The build will consider `foobar` to be the context directory for the build. If there is an image in local storage
called `foobar`, the image will not be built unless the `--build` flag is used. Use `--build=false` to completely
disable builds.
`Kubernetes ConfigMap`
Kubernetes ConfigMap can be referred as a source of environment variables or volumes in Pods or Deployments.
ConfigMaps aren't a standalone object in Podman; instead, when a container uses a ConfigMap, Podman will create environment variables or volumes as needed.
For example, the following YAML document defines a ConfigMap and then uses it in a Pod:
```
apiVersion: v1
kind: ConfigMap
metadata:
name: foo
data:
FOO: bar
---
apiVersion: v1
kind: Pod
metadata:
name: foobar
spec:
containers:
- command:
- top
name: container-1
image: foobar
envFrom:
- configMapRef:
name: foo
optional: false
```
and as a result environment variable `FOO` will be set to `bar` for container `container-1`.
## OPTIONS
#### **--annotation**=*key=value*
Add an annotation to the container or pod. The format is key=value.
The **--annotation** option can be set multiple times.
#### **--authfile**=*path*
Path of the authentication file. Default is ${XDG\_RUNTIME\_DIR}/containers/auth.json, which is set using `podman login`.
If the authorization state is not found there, $HOME/.docker/config.json is checked, which is set using `docker login`.
Note: You can also override the default path of the authentication file by setting the REGISTRY\_AUTH\_FILE
environment variable. `export REGISTRY_AUTH_FILE=path`
#### **--build**
Build images even if they are found in the local storage. Use `--build=false` to completely disable builds. (This option is not available with the remote Podman client)
#### **--cert-dir**=*path*
Use certificates at *path* (\*.crt, \*.cert, \*.key) to connect to the registry. (Default: /etc/containers/certs.d)
Please refer to containers-certs.d(5) for details. (This option is not available with the remote Podman client, including Mac and Windows (excluding WSL2) machines)
#### **--configmap**=*path*
Use Kubernetes configmap YAML at path to provide a source for environment variable values within the containers of the pod. (This option is not available with the remote Podman client)
Note: The *--configmap* option can be used multiple times or a comma-separated list of paths can be used to pass multiple Kubernetes configmap YAMLs.
#### **--context-dir**=*path*
Use *path* as the build context directory for each image. Requires --build option be true. (This option is not available with the remote Podman client)
#### **--creds**
The [username[:password]] to use to authenticate with the registry if required.
If one or both values are not supplied, a command line prompt will appear and the
value can be entered. The password is entered without echo.
#### **--down**
Tears down the pods that were created by a previous run of `play kube`. The pods are stopped and then
removed. Any volumes created are left intact.
#### **--help**, **-h**
Print usage statement
#### **--ip**=*IP address*
Assign a static ip address to the pod. This option can be specified several times when play kube creates more than one pod.
Note: When joining multiple networks you should use the **--network name:ip=\<ip\>** syntax.
#### **--log-driver**=driver
Set logging driver for all created containers.
#### **--log-opt**=*name*=*value*
Set custom logging configuration. The following *name*s are supported:
- **path**: specify a path to the log file
(e.g. **--log-opt path=/var/log/container/mycontainer.json**);
- **max-size**: specify a max size of the log file
(e.g. **--log-opt max-size=10mb**);
- **tag**: specify a custom log tag for the container
(e.g. **--log-opt tag="{{.ImageName}}"**.
It supports the same keys as **podman inspect --format**.
This option is currently supported only by the **journald** log driver.
#### **--mac-address**=*MAC address*
Assign a static mac address to the pod. This option can be specified several times when play kube creates more than one pod.
Note: When joining multiple networks you should use the **--network name:mac=\<mac\>** syntax.
#### **--network**=*mode*, **--net**
Change the network mode of the pod. The host network mode should be configured in the YAML file.
Valid _mode_ values are:
- **bridge[:OPTIONS,...]**: Create a network stack on the default bridge. This is the default for rootfull containers. It is possible to specify these additional options:
- **alias=name**: Add network-scoped alias for the container.
- **ip=IPv4**: Specify a static ipv4 address for this container.
- **ip=IPv6**: Specify a static ipv6 address for this container.
- **mac=MAC**: Specify a static mac address for this container.
- **interface_name**: Specify a name for the created network interface inside the container.
For example to set a static ipv4 address and a static mac address, use `--network bridge:ip=10.88.0.10,mac=44:33:22:11:00:99`.
- \<network name or ID\>[:OPTIONS,...]: Connect to a user-defined network; this is the network name or ID from a network created by **[podman network create](podman-network-create.1.md)**. Using the network name implies the bridge network mode. It is possible to specify the same options described under the bridge mode above. You can use the **--network** option multiple times to specify additional networks.
- **none**: Create a network namespace for the container but do not configure network interfaces for it, thus the container has no network connectivity.
- **container:**_id_: Reuse another container's network stack.
- **ns:**_path_: Path to a network namespace to join.
- **private**: Create a new namespace for the container. This will use the **bridge** mode for rootfull containers and **slirp4netns** for rootless ones.
- **slirp4netns[:OPTIONS,...]**: use **slirp4netns**(1) to create a user network stack. This is the default for rootless containers. It is possible to specify these additional options, they can also be set with `network_cmd_options` in containers.conf:
- **allow_host_loopback=true|false**: Allow the slirp4netns to reach the host loopback IP (`10.0.2.2`). Default is false.
- **mtu=MTU**: Specify the MTU to use for this network. (Default is `65520`).
- **cidr=CIDR**: Specify ip range to use for this network. (Default is `10.0.2.0/24`).
- **enable_ipv6=true|false**: Enable IPv6. Default is true. (Required for `outbound_addr6`).
- **outbound_addr=INTERFACE**: Specify the outbound interface slirp should bind to (ipv4 traffic only).
- **outbound_addr=IPv4**: Specify the outbound ipv4 address slirp should bind to.
- **outbound_addr6=INTERFACE**: Specify the outbound interface slirp should bind to (ipv6 traffic only).
- **outbound_addr6=IPv6**: Specify the outbound ipv6 address slirp should bind to.
- **port_handler=rootlesskit**: Use rootlesskit for port forwarding. Default.
Note: Rootlesskit changes the source IP address of incoming packets to an IP address in the container network namespace, usually `10.0.2.100`. If your application requires the real source IP address, e.g. web server logs, use the slirp4netns port handler. The rootlesskit port handler is also used for rootless containers when connected to user-defined networks.
- **port_handler=slirp4netns**: Use the slirp4netns port forwarding, it is slower than rootlesskit but preserves the correct source IP address. This port handler cannot be used for user-defined networks.
#### **--no-hosts**
Do not create /etc/hosts for the pod.
By default, Podman will manage /etc/hosts, adding the container's own IP address and any hosts from **--add-host**.
**--no-hosts** disables this, and the image's **/etc/host** will be preserved unmodified.
This option conflicts with host added in the Kubernetes YAML.
#### **--quiet**, **-q**
Suppress output information when pulling images
#### **--replace**
Tears down the pods created by a previous run of `play kube` and recreates the pods. This option is used to keep the existing pods up to date based upon the Kubernetes YAML.
#### **--seccomp-profile-root**=*path*
Directory path for seccomp profiles (default: "/var/lib/kubelet/seccomp"). (This option is not available with the remote Podman client, including Mac and Windows (excluding WSL2) machines)
#### **--start**
Start the pod after creating it, set to false to only create it.
#### **--tls-verify**
Require HTTPS and verify certificates when contacting registries (default: true). If explicitly set to true,
then TLS verification will be used. If set to false, then TLS verification will not be used. If not specified,
TLS verification will be used unless the target registry is listed as an insecure registry in registries.conf.
## EXAMPLES
Recreate the pod and containers as described in a file called `demo.yml`
```
$ podman play kube demo.yml
52182811df2b1e73f36476003a66ec872101ea59034ac0d4d3a7b40903b955a6
```
Recreate the pod and containers as described in a file `demo.yml` sent to stdin
```
$ cat demo.yml | podman play kube -
52182811df2b1e73f36476003a66ec872101ea59034ac0d4d3a7b40903b955a6
```
Teardown the pod and containers as described in a file `demo.yml`
```
$ podman play kube --down demo.yml
Pods stopped:
52182811df2b1e73f36476003a66ec872101ea59034ac0d4d3a7b40903b955a6
Pods removed:
52182811df2b1e73f36476003a66ec872101ea59034ac0d4d3a7b40903b955a6
```
Provide `configmap-foo.yml` and `configmap-bar.yml` as sources for environment variables within the containers.
```
$ podman play kube demo.yml --configmap configmap-foo.yml,configmap-bar.yml
52182811df2b1e73f36476003a66ec872101ea59034ac0d4d3a7b40903b955a6
$ podman play kube demo.yml --configmap configmap-foo.yml --configmap configmap-bar.yml
52182811df2b1e73f36476003a66ec872101ea59034ac0d4d3a7b40903b955a6
```
Create a pod connected to two networks (called net1 and net2) with a static ip
```
$ podman play kube demo.yml --network net1:ip=10.89.1.5 --network net2:ip=10.89.10.10
52182811df2b1e73f36476003a66ec872101ea59034ac0d4d3a7b40903b955a6
```
Please take into account that CNI networks must be created first using podman-network-create(1).
## SEE ALSO
**[podman(1)](podman.1.md)**, **[podman-play(1)](podman-play.1.md)**, **[podman-network-create(1)](podman-network-create.1.md)**, **[podman-generate-kube(1)](podman-generate-kube.1.md)**, **[containers-certs.d(5)](https://github.com/containers/image/blob/main/docs/containers-certs.d.5.md)**
## HISTORY
December 2018, Originally compiled by Brent Baude (bbaude at redhat dot com)
|