23 KiB
title | description | versionIntroduced |
---|---|---|
Docker Volume Plugin | Docker Volume Plugin | v1.56.0 |
Docker Volume Plugin
Introduction
Docker 1.9 has added support for creating
named volumes via
command-line interface
and mounting them in containers as a way to share data between them.
Since Docker 1.10 you can create named volumes with
Docker Compose by descriptions in
docker-compose.yml
files for use by container groups on a single host.
As of Docker 1.12 volumes are supported by
Docker Swarm
included with Docker Engine and created from descriptions in
swarm compose v3
files for use with swarm stacks across multiple cluster nodes.
Docker Volume Plugins
augment the default local
volume driver included in Docker with stateful
volumes shared across containers and hosts. Unlike local volumes, your
data will not be deleted when such volume is removed. Plugins can run
managed by the docker daemon, as a native system service
(under systemd, sysv or upstart) or as a standalone executable.
Rclone can run as docker volume plugin in all these modes.
It interacts with the local docker daemon
via plugin API and
handles mounting of remote file systems into docker containers so it must
run on the same host as the docker daemon or on every Swarm node.
Getting started
In the first example we will use the SFTP
rclone volume with Docker engine on a standalone Ubuntu machine.
Start from installing Docker
on the host.
The FUSE driver is a prerequisite for rclone mounting and should be
installed on host:
sudo apt-get -y install fuse
Create two directories required by rclone docker plugin:
sudo mkdir -p /var/lib/docker-plugins/rclone/config
sudo mkdir -p /var/lib/docker-plugins/rclone/cache
Install the managed rclone docker plugin for your architecture (here amd64
):
docker plugin install rclone/docker-volume-rclone:amd64 args="-v" --alias rclone --grant-all-permissions
docker plugin list
Create your SFTP volume:
docker volume create firstvolume -d rclone -o type=sftp -o sftp-host=_hostname_ -o sftp-user=_username_ -o sftp-pass=_password_ -o allow-other=true
Note that since all options are static, you don't even have to run
rclone config
or create the rclone.conf
file (but the config
directory
should still be present). In the simplest case you can use localhost
as hostname and your SSH credentials as username and password.
You can also change the remote path to your home directory on the host,
for example -o path=/home/username
.
Time to create a test container and mount the volume into it:
docker run --rm -it -v firstvolume:/mnt --workdir /mnt ubuntu:latest bash
If all goes well, you will enter the new container and change right to
the mounted SFTP remote. You can type ls
to list the mounted directory
or otherwise play with it. Type exit
when you are done.
The container will stop but the volume will stay, ready to be reused.
When it's not needed anymore, remove it:
docker volume list
docker volume remove firstvolume
Now let us try something more elaborate:
Google Drive volume on multi-node Docker Swarm.
You should start from installing Docker and FUSE, creating plugin
directories and installing rclone plugin on every swarm node.
Then setup the Swarm.
Google Drive volumes need an access token which can be setup via web
browser and will be periodically renewed by rclone. The managed
plugin cannot run a browser so we will use a technique similar to the
rclone setup on a headless box.
Run rclone config
on another machine equipped with web browser and graphical user interface.
Create the Google Drive remote.
When done, transfer the resulting rclone.conf
to the Swarm cluster
and save as /var/lib/docker-plugins/rclone/config/rclone.conf
on every node. By default this location is accessible only to the
root user so you will need appropriate privileges. The resulting config
will look like this:
[gdrive]
type = drive
scope = drive
drive_id = 1234567...
root_folder_id = 0Abcd...
token = {"access_token":...}
Now create the file named example.yml
with a swarm stack description
like this:
version: '3'
services:
heimdall:
image: linuxserver/heimdall:latest
ports: [8080:80]
volumes: [configdata:/config]
volumes:
configdata:
driver: rclone
driver_opts:
remote: 'gdrive:heimdall'
allow_other: 'true'
vfs_cache_mode: full
poll_interval: 0
and run the stack:
docker stack deploy example -c ./example.yml
After a few seconds docker will spread the parsed stack description
over cluster, create the example_heimdall
service on port 8080,
run service containers on one or more cluster nodes and request
the example_configdata
volume from rclone plugins on the node hosts.
You can use the following commands to confirm results:
docker service ls
docker service ps example_heimdall
docker volume ls
Point your browser to http://cluster.host.address:8080
and play with
the service. Stop it with docker stack remove example
when you are done.
Note that the example_configdata
volume(s) created on demand at the
cluster nodes will not be automatically removed together with the stack
but stay for future reuse. You can remove them manually by invoking
the docker volume remove example_configdata
command on every node.
Creating Volumes via CLI
Volumes can be created with docker volume create.
Here are a few examples:
docker volume create vol1 -d rclone -o remote=storj: -o vfs-cache-mode=full
docker volume create vol2 -d rclone -o remote=:storj,access_grant=xxx:heimdall
docker volume create vol3 -d rclone -o type=storj -o path=heimdall -o storj-access-grant=xxx -o poll-interval=0
Note the -d rclone
flag that tells docker to request volume from the
rclone driver. This works even if you installed managed driver by its full
name rclone/docker-volume-rclone
because you provided the --alias rclone
option.
Volumes can be inspected as follows:
docker volume list
docker volume inspect vol1
Volume Configuration
Rclone flags and volume options are set via the -o
flag to the
docker volume create
command. They include backend-specific parameters
as well as mount and VFS options. Also there are a few
special -o
options:
remote
, fs
, type
, path
, mount-type
and persist
.
remote
determines an existing remote name from the config file, with
trailing colon and optionally with a remote path. See the full syntax in
the rclone documentation.
This option can be aliased as fs
to prevent confusion with the
remote parameter of such backends as crypt or alias.
The remote=:backend:dir/subdir
syntax can be used to create
on-the-fly (config-less) remotes,
while the type
and path
options provide a simpler alternative for this.
Using two split options
-o type=backend -o path=dir/subdir
is equivalent to the combined syntax
-o remote=:backend:dir/subdir
but is arguably easier to parameterize in scripts.
The path
part is optional.
Mount and VFS options
as well as backend parameters are named
like their twin command-line flags without the --
CLI prefix.
Optionally you can use underscores instead of dashes in option names.
For example, --vfs-cache-mode full
becomes
-o vfs-cache-mode=full
or -o vfs_cache_mode=full
.
Boolean CLI flags without value will gain the true
value, e.g.
--allow-other
becomes -o allow-other=true
or -o allow_other=true
.
Please note that you can provide parameters only for the backend immediately
referenced by the backend type of mounted remote
.
If this is a wrapping backend like alias, chunker or crypt, you cannot
provide options for the referred to remote or backend. This limitation is
imposed by the rclone connection string parser. The only workaround is to
feed plugin with rclone.conf
or configure plugin arguments (see below).
Special Volume Options
mount-type
determines the mount method and in general can be one of:
mount
, cmount
, or mount2
. This can be aliased as mount_type
.
It should be noted that the managed rclone docker plugin currently does
not support the cmount
method and mount2
is rarely needed.
This option defaults to the first found method, which is usually mount
so you generally won't need it.
persist
is a reserved boolean (true/false) option.
In future it will allow to persist on-the-fly remotes in the plugin
rclone.conf
file.
Connection Strings
The remote
value can be extended
with connection strings
as an alternative way to supply backend parameters. This is equivalent
to the -o
backend options with one syntactic difference.
Inside connection string the backend prefix must be dropped from parameter
names but in the -o param=value
array it must be present.
For instance, compare the following option array
-o remote=:sftp:/home -o sftp-host=localhost
with equivalent connection string:
-o remote=:sftp,host=localhost:/home
This difference exists because flag options -o key=val
include not only
backend parameters but also mount/VFS flags and possibly other settings.
Also it allows to discriminate the remote
option from the crypt-remote
(or similarly named backend parameters) and arguably simplifies scripting
due to clearer value substitution.
Using with Swarm or Compose
Both Docker Swarm and Docker Compose use
YAML-formatted text files to describe
groups (stacks) of containers, their properties, networks and volumes.
Compose uses the compose v2 format,
Swarm uses the compose v3 format.
They are mostly similar, differences are explained in the
docker documentation.
Volumes are described by the children of the top-level volumes:
node.
Each of them should be named after its volume and have at least two
elements, the self-explanatory driver: rclone
value and the
driver_opts:
structure playing the same role as -o key=val
CLI flags:
volumes:
volume_name_1:
driver: rclone
driver_opts:
remote: 'gdrive:'
allow_other: 'true'
vfs_cache_mode: full
token: '{"type": "borrower", "expires": "2021-12-31"}'
poll_interval: 0
Notice a few important details:
- YAML prefers
_
in option names instead of-
. - YAML treats single and double quotes interchangeably.
Simple strings and integers can be left unquoted. - Boolean values must be quoted like
'true'
or"false"
because
these two words are reserved by YAML. - The filesystem string is keyed with
remote
(or withfs
).
Normally you can omit quotes here, but if the string ends with colon,
you must quote it likeremote: "storage_box:"
. - YAML is picky about surrounding braces in values as this is in fact
another syntax for key/value mappings.
For example, JSON access tokens usually contain double quotes and
surrounding braces, so you must put them in single quotes.
Installing as Managed Plugin
Docker daemon can install plugins from an image registry and run them managed.
We maintain the
docker-volume-rclone
plugin image on Docker Hub.
Rclone volume plugin requires Docker Engine >= 19.03.15
The plugin requires presence of two directories on the host before it can
be installed. Note that plugin will not create them automatically.
By default they must exist on host at the following locations
(though you can tweak the paths):
/var/lib/docker-plugins/rclone/config
is reserved for therclone.conf
config file and must exist
even if it's empty and the config file is not present./var/lib/docker-plugins/rclone/cache
holds the plugin state file as well as optional VFS caches.
You can install managed plugin
with default settings as follows:
docker plugin install rclone/docker-volume-rclone:amd64 --grant-all-permissions --alias rclone
The :amd64
part of the image specification after colon is called a tag.
Usually you will want to install the latest plugin for your architecture. In
this case the tag will just name it, like amd64
above. The following plugin
architectures are currently available:
amd64
arm64
arm-v7
Sometimes you might want a concrete plugin version, not the latest one.
Then you should use image tag in the form :ARCHITECTURE-VERSION
.
For example, to install plugin version v1.56.2
on architecture arm64
you will use tag arm64-1.56.2
(note the removed v
) so the full image
specification becomes rclone/docker-volume-rclone:arm64-1.56.2
.
We also provide the latest
plugin tag, but since docker does not support
multi-architecture plugins as of the time of this writing, this tag is
currently an alias for amd64
.
By convention the latest
tag is the default one and can be omitted, thus
both rclone/docker-volume-rclone:latest
and just rclone/docker-volume-rclone
will refer to the latest plugin release for the amd64
platform.
Also the amd64
part can be omitted from the versioned rclone plugin tags.
For example, rclone image reference rclone/docker-volume-rclone:amd64-1.56.2
can be abbreviated as rclone/docker-volume-rclone:1.56.2
for convenience.
However, for non-intel architectures you still have to use the full tag as
amd64
or latest
will fail to start.
Managed plugin is in fact a special container running in a namespace separate
from normal docker containers. Inside it runs the rclone serve docker
command. The config and cache directories are bind-mounted into the
container at start. The docker daemon connects to a unix socket created
by the command inside the container. The command creates on-demand remote
mounts right inside, then docker machinery propagates them through kernel
mount namespaces and bind-mounts into requesting user containers.
You can tweak a few plugin settings after installation when it's disabled
(not in use), for instance:
docker plugin disable rclone
docker plugin set rclone RCLONE_VERBOSE=2 config=/etc/rclone args="--vfs-cache-mode=writes --allow-other"
docker plugin enable rclone
docker plugin inspect rclone
Note that if docker refuses to disable the plugin, you should find and
remove all active volumes connected with it as well as containers and
swarm services that use them. This is rather tedious so please carefully
plan in advance.
You can tweak the following settings:
args
, config
, cache
, HTTP_PROXY
, HTTPS_PROXY
, NO_PROXY
and RCLONE_VERBOSE
.
It's your task to keep plugin settings in sync across swarm cluster nodes.
args
sets command-line arguments for the rclone serve docker
command
(none by default). Arguments should be separated by space so you will
normally want to put them in quotes on the
docker plugin set
command line. Both serve docker flags
and generic rclone flags are supported, including backend
parameters that will be used as defaults for volume creation.
Note that plugin will fail (due to this docker bug)
if the args
value is empty. Use e.g. args="-v"
as a workaround.
config=/host/dir
sets alternative host location for the config directory.
Plugin will look for rclone.conf
here. It's not an error if the config
file is not present but the directory must exist. Please note that plugin
can periodically rewrite the config file, for example when it renews
storage access tokens. Keep this in mind and try to avoid races between
the plugin and other instances of rclone on the host that might try to
change the config simultaneously resulting in corrupted rclone.conf
.
You can also put stuff like private key files for SFTP remotes in this
directory. Just note that it's bind-mounted inside the plugin container
at the predefined path /data/config
. For example, if your key file is
named sftp-box1.key
on the host, the corresponding volume config option
should read -o sftp-key-file=/data/config/sftp-box1.key
.
cache=/host/dir
sets alternative host location for the cache directory.
The plugin will keep VFS caches here. Also it will create and maintain
the docker-plugin.state
file in this directory. When the plugin is
restarted or reinstalled, it will look in this file to recreate any volumes
that existed previously. However, they will not be re-mounted into
consuming containers after restart. Usually this is not a problem as
the docker daemon normally will restart affected user containers after
failures, daemon restarts or host reboots.
RCLONE_VERBOSE
sets plugin verbosity from 0
(errors only, by default)
to 2
(debugging). Verbosity can be also tweaked via args="-v [-v] ..."
.
Since arguments are more generic, you will rarely need this setting.
The plugin output by default feeds the docker daemon log on local host.
Log entries are reflected as errors in the docker log but retain their
actual level assigned by rclone in the encapsulated message string.
HTTP_PROXY
, HTTPS_PROXY
, NO_PROXY
customize the plugin proxy settings.
You can set custom plugin options right when you install it, in one go:
docker plugin remove rclone
docker plugin install rclone/docker-volume-rclone:amd64 \
--alias rclone --grant-all-permissions \
args="-v --allow-other" config=/etc/rclone
docker plugin inspect rclone
Healthchecks
The docker plugin volume protocol doesn't provide a way for plugins
to inform the docker daemon that a volume is (un-)available.
As a workaround you can setup a healthcheck to verify that the mount
is responding, for example:
services:
my_service:
image: my_image
healthcheck:
test: ls /path/to/rclone/mount || exit 1
interval: 1m
timeout: 15s
retries: 3
start_period: 15s
Running Plugin under Systemd
In most cases you should prefer managed mode. Moreover, MacOS and Windows
do not support native Docker plugins. Please use managed mode on these
systems. Proceed further only if you are on Linux.
First, install rclone.
You can just run it (type rclone serve docker
and hit enter) for the test.
Install FUSE:
sudo apt-get -y install fuse
Download two systemd configuration files:
docker-volume-rclone.service
and docker-volume-rclone.socket.
Put them to the /etc/systemd/system/
directory:
cp docker-volume-plugin.service /etc/systemd/system/
cp docker-volume-plugin.socket /etc/systemd/system/
Please note that all commands in this section must be run as root but
we omit sudo
prefix for brevity.
Now create directories required by the service:
mkdir -p /var/lib/docker-volumes/rclone
mkdir -p /var/lib/docker-plugins/rclone/config
mkdir -p /var/lib/docker-plugins/rclone/cache
Run the docker plugin service in the socket activated mode:
systemctl daemon-reload
systemctl start docker-volume-rclone.service
systemctl enable docker-volume-rclone.socket
systemctl start docker-volume-rclone.socket
systemctl restart docker
Or run the service directly:
- run
systemctl daemon-reload
to let systemd pick up new config - run
systemctl enable docker-volume-rclone.service
to make the new
service start automatically when you power on your machine. - run
systemctl start docker-volume-rclone.service
to start the service now. - run
systemctl restart docker
to restart docker daemon and let it
detect the new plugin socket. Note that this step is not needed in
managed mode where docker knows about plugin state changes.
The two methods are equivalent from the user perspective, but I personally
prefer socket activation.
Troubleshooting
You can see managed plugin settings
with
docker plugin list
docker plugin inspect rclone
Note that docker (including latest 20.10.7) will not show actual values
of args
, just the defaults.
Use journalctl --unit docker
to see managed plugin output as part of
the docker daemon log. Note that docker reflects plugin lines as errors
but their actual level can be seen from encapsulated message string.
You will usually install the latest version of managed plugin for your platform.
Use the following commands to print the actual installed version:
PLUGID=$(docker plugin list --no-trunc | awk '/rclone/{print$1}')
sudo runc --root /run/docker/runtime-runc/plugins.moby exec $PLUGID rclone version
You can even use runc
to run shell inside the plugin container:
sudo runc --root /run/docker/runtime-runc/plugins.moby exec --tty $PLUGID bash
Also you can use curl to check the plugin socket connectivity:
docker plugin list --no-trunc
PLUGID=123abc...
sudo curl -H Content-Type:application/json -XPOST -d {} --unix-socket /run/docker/plugins/$PLUGID/rclone.sock http://localhost/Plugin.Activate
though this is rarely needed.
Caveats
Finally I'd like to mention a caveat with updating volume settings.
Docker CLI does not have a dedicated command like docker volume update
.
It may be tempting to invoke docker volume create
with updated options
on existing volume, but there is a gotcha. The command will do nothing,
it won't even return an error. I hope that docker maintainers will fix
this some day. In the meantime be aware that you must remove your volume
before recreating it with new settings:
docker volume remove my_vol
docker volume create my_vol -d rclone -o opt1=new_val1 ...
and verify that settings did update:
docker volume list
docker volume inspect my_vol
If docker refuses to remove the volume, you should find containers
or swarm services that use it and stop them first.