Signed-off-by: Victor Vieux <vieux@docker.com>
8.8 KiB
advisory | aliases | description | keywords | title | |
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experimental |
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Develop and use a plugin with the managed plugin system | API, Usage, plugins, documentation, developer | Managed plugin system |
Docker Engine managed plugin system
This document describes the plugin system available today in the experimental build of Docker 1.12:
Docker Engine's plugins system allows you to install, start, stop, and remove plugins using Docker Engine. This mechanism is currently only available for volume drivers, but more plugin driver types will be available in future releases.
For information about the legacy plugin system available in Docker Engine 1.12 and earlier, see Understand legacy Docker Engine plugins.
Installing and using a plugin
Plugins are distributed as Docker images and can be hosted on Docker Hub or on a private registry.
To install a plugin, use the docker plugin install
command, which pulls the
plugin from Docker hub or your private registry, prompts you to grant
permissions or capabilities if necessary, and enables the plugin.
To check the status of installed plugins, use the docker plugin ls
command.
Plugins that start successfully are listed as enabled in the output.
After a plugin is installed, you can use it as an option for another Docker operation, such as creating a volume.
In the following example, you install the sshfs
plugin, verify that it is
enabled, and use it to create a volume.
-
Install the
sshfs
plugin.$ docker plugin install vieux/sshfs Plugin "vieux/sshfs" is requesting the following privileges: - network: [host] - capabilities: [CAP_SYS_ADMIN] Do you grant the above permissions? [y/N] y vieux/sshfs
The plugin requests 2 privileges:
- It needs access to the
host
network. - It needs the
CAP_SYS_ADMIN
capability, which allows the plugin to run themount
command.
- It needs access to the
-
Check that the plugin is enabled in the output of
docker plugin ls
.$ docker plugin ls NAME TAG ENABLED vieux/sshfs latest true
-
Create a volume using the plugin. This example mounts the
/remote
directory on host1.2.3.4
into a volume namedsshvolume
. This volume can now be mounted into containers.$ docker volume create \ -d vieux/sshfs \ --name sshvolume \ -o sshcmd=user@1.2.3.4:/remote sshvolume
-
Verify that the volume was created successfully.
$ docker volume ls DRIVER NAME vieux/sshfs sshvolume
-
Start a container that uses the volume
sshvolume
.$ docker run -v sshvolume:/data busybox ls /data <content of /remote on machine 1.2.3.4>
To disable a plugin, use the docker plugin disable
command. To completely
remove it, use the docker plugin remove
command. For other available
commands and options, see the
command line reference.
Developing a plugin
Currently, there are no CLI commands available to help you develop a plugin. This is expected to change in a future release. The manual process for creating plugins is described in this section.
Plugin location and files
Plugins are stored in /var/lib/docker/plugins
. The plugins.json
file lists
each plugin's configuration, and each plugin is stored in a directory with a
unique identifier.
# ls -la /var/lib/docker/plugins
total 20
drwx------ 4 root root 4096 Aug 8 18:03 .
drwx--x--x 12 root root 4096 Aug 8 17:53 ..
drwxr-xr-x 3 root root 4096 Aug 8 17:56 cd851ce43a403
-rw------- 1 root root 2107 Aug 8 18:03 plugins.json
Format of plugins.json
The plugins.json
is an inventory of all installed plugins. This example shows
a plugins.json
with a single plugin installed.
# cat plugins.json
{
"cd851ce43a403": {
"plugin": {
"Config": {
"Args": {
"Value": null,
"Settable": null,
"Description": "",
"Name": ""
},
"Env": null,
"Devices": null,
"Mounts": null,
"Capabilities": [
"CAP_SYS_ADMIN"
],
"Description": "sshFS plugin for Docker",
"Documentation": "https://docs.docker.com/engine/extend/plugins/",
"Interface": {
"Socket": "sshfs.sock",
"Types": [
"docker.volumedriver/1.0"
]
},
"Entrypoint": [
"/go/bin/docker-volume-sshfs"
],
"Workdir": "",
"User": {},
"Network": {
"Type": "host"
}
},
"Config": {
"Devices": null,
"Args": null,
"Env": [],
"Mounts": []
},
"Active": true,
"Tag": "latest",
"Name": "vieux/sshfs",
"Id": "cd851ce43a403"
}
}
}
Contents of a plugin directory
Each directory within /var/lib/docker/plugins/
contains a rootfs
directory
and two JSON files.
# ls -la /var/lib/docker/plugins/cd851ce43a403
total 12
drwx------ 19 root root 4096 Aug 8 17:56 rootfs
-rw-r--r-- 1 root root 50 Aug 8 17:56 plugin-settings.json
-rw------- 1 root root 347 Aug 8 17:56 config.json
The rootfs directory
The rootfs
directory represents the root filesystem of the plugin. In this
example, it was created from a Dockerfile:
Note: The
/run/docker/plugins
directory is mandatory for docker to communicate with the plugin.
$ git clone https://github.com/vieux/docker-volume-sshfs
$ cd docker-volume-sshfs
$ docker build -t rootfs .
$ id=$(docker create rootfs true) # id was cd851ce43a403 when the image was created
$ sudo mkdir -p /var/lib/docker/plugins/$id/rootfs
$ sudo docker export "$id" | sudo tar -x -C /var/lib/docker/plugins/$id/rootfs
$ sudo chgrp -R docker /var/lib/docker/plugins/
$ docker rm -vf "$id"
$ docker rmi rootfs
The config.json and plugin-settings.json files
The config.json
file describes the plugin. The plugin-settings.json
file
contains runtime parameters and is only required if your plugin has runtime
parameters. See the Plugins Config reference.
Consider the following config.json
file.
{
"description": "sshFS plugin for Docker",
"documentation": "https://docs.docker.com/engine/extend/plugins/",
"entrypoint": ["/go/bin/docker-volume-sshfs"],
"network": {
"type": "host"
},
"interface" : {
"types": ["docker.volumedriver/1.0"],
"socket": "sshfs.sock"
},
"capabilities": ["CAP_SYS_ADMIN"]
}
This plugin is a volume driver. It requires a host
network and the
CAP_SYS_ADMIN
capability. It depends upon the /go/bin/docker-volume-sshfs
entrypoint and uses the /run/docker/plugins/sshfs.sock
socket to communicate
with Docker Engine.
Consider the following plugin-settings.json
file.
{
"Devices": null,
"Args": null,
"Env": [],
"Mounts": []
}
This plugin has no runtime parameters.
Each of these JSON files is included as part of plugins.json
, as you can see
by looking back at the example above. After a plugin is installed, config.json
is read-only, but plugin-settings.json
is read-write, and includes all runtime
configuration options for the plugin.
Creating the plugin
Follow these steps to create a plugin:
-
Choose a name for the plugin. Plugin name uses the same format as images, for example:
<repo_name>/<name>
. -
Create a
rootfs
and export it to/var/lib/docker/plugins/$id/rootfs
usingdocker export
. See The rootfs directory for an example of creating arootfs
. -
Create a
config.json
file in/var/lib/docker/plugins/$id/
. -
Create a
plugin-settings.json
file if needed. -
Create or add a section to
/var/lib/docker/plugins/plugins.json
. Use<user>/<name>
as “Name” and$id
as “Id”. -
Restart the Docker Engine service.
-
Run
docker plugin ls
.- If your plugin is enabled, you can push it to the registry.
- If the plugin is not listed or is disabled, something went wrong. Check the daemon logs for errors.
-
If you are not already logged in, use
docker login
to authenticate against the registry so that you can push to it. -
Run
docker plugin push <repo_name>/<name>
to push the plugin.
The plugin can now be used by any user with access to your registry.