Note: This plugin was forked from a LizardFS Docker Plugin so there may still be references to LizardFS somewhere in here that I haven't found and replaced yet.
A Docker volume driver plugin for mounting a SeaweedFS filesystem. Allows you to transparently provide storage for your Docker containers using SeaweedFS. This plugin can be used in combination with the SeaweedFS Docker Image to create a fully containerized, clustered storage solution for Docker Swarm. Documentation and development are still in progress.
Before you can use the plugin you must have:
- A running SeaweedFS cluster with a Filer that your Docker host can access.
- A directory on the SeaweedFS filesystem that can be used by the plugin to store Docker volumes. This can be any normal directory. By default the plugin will use
/docker/volumes
, but this can be changed to something else like the root directory, for example ( see REMOTE_PATH ).
Once these conditions are met you are ready to install the plugin.
The plugin is simple use and can be installed as a Docker container without having to install any other system dependencies.
$ docker plugin install --alias seaweedfs katharostech/seaweedfs-volume-plugin HOST=localhost:8888
Docker will prompt asking if you want to grant the permissions required to run the plugin. Select yes and the plugin will download and install.
Note: We set the plugin alias to
seaweedfs
. This is completely optional, but it allows us to refer to the plugin with a much shorter name. Throughout this readme, when reference is made to theseaweedfs
driver, it is referring to this alias.
That's it! You can now see your newly installed Docker plugin by running docker plugin ls
.
$ docker plugin ls
ID NAME DESCRIPTION ENABLED
4a08a23cf2eb seaweedfs:latest SeaweedFS volume plugin for Docker true
You should now be able to create a Docker volume using our new seaweedfs
driver.
$ docker volume create --driver seaweedfs weed-vol
weed-vol
You can see it by running docker volume ls
.
$ docker volume ls
DRIVER VOLUME NAME
seaweedfs:latest weed-vol
Now that you have created the volume you can mount it into a container using its name. Lets mount it into an alpine container and put some data in it.
$ docker run -it --rm -v weed-vol:/data alpine sh
/ $ cd /data # Switch to our volume mountpoint
/data $ cp -R /etc . # Copy the whole container /etc directory to it
/data $ ls # See that the copy was successful
etc
/data $ exit # Exit ( the container will be removed because of the --rm )
We should now have a copy of the alpine container's whole /etc
directory on our weed-vol
volume. You can verify this by checking the /docker/volumes/weed-vol/
directory on your SeaweedFS installation. You should see the etc
folder with all of its files and folders in it. Congratulations! You have successfully mounted your SeaweedFS filesytem into a docker container and stored data in it!
If you run another container, you can mount the same volume into it and that container will also see the data. Your data will stick around as long as that volume exists. When you are done with it, you can remove the volume by running docker volume rm weed-vol
.
Any number of containers on any number of hosts can mount the same volume at the same time. The only requirement is that each Docker host have the SeaweedFS plugin installed on it.
Transparent Data Storage ( No Hidden Metadata )
Each SeaweedFS Docker volume maps 1-to-1 to a directory on the SeaweedFS filesystem. All directories in the REMOTE_PATH on the SeaweedFS filesystem will be exposed as a Docker volume regardless of whether or not the directory was created by running docker volume create
. There is no special metadata or any other extra information used by the plugin to keep track of what volumes exist. If there is a directory there, it is a Docker volume and it can be mounted ( and removed ) by the SeaweedFS plugin. This makes it easy to understand and allows you to manage your Docker volumes directly on the filesystem, if necessary, for things like backup and restore.
It is also possible, if you have multiple SeaweedFS clusters, to install the plugin multiple times with different settings for the different clusters. For example, if you have two SeaweedFS clusters, one at host1
and another at host2
, you can install the plugin two times, with different aliases, to allow you to create volumes on both clusters.
$ docker plugin install --alias seaweedfs1 --grant-all-permissions katharostech/seaweedfs-volume-plugin HOST=host1:8888
$ docker plugin install --alias seaweedfs2 --grant-all-permissions kadimasolutions/seaweedfs-volume-plugin HOST=host2:8888
This gives you the ability to create volumes for both clusters by specifying either seaweedfs1
or seaweedfs2
as the volume driver when creating a volume.
The plugin has the ability to provide a volume that contains all of the SeaweedFS Docker volumes in it. This is called the Root Volume and is identical to mounting the configured REMOTE_PATH
on your SeaweedFS filesystem into your container. This volume does not exist by default. The Root Volume is enabled by setting the ROOT_VOLUME_NAME
to the name that you want the volume to have. You should pick a name that does not conflict with any other volume. If there is a volume with the same name as the Root Volume, the Root Volume will take precedence over the other volume.
There are a few different uses for the Root Volume. Katharos Technology designed the Root Volume feature to accommodate for containerized backup solutions. By mounting the Root Volume into a container that manages your Backups, you can backup all of your SeaweedFS Docker volumes without having to manually add a mount to the container every time you create a new volume that needs to be backed up.
The Root Volume also give you the ability to have containers create and remove SeaweedFS volumes without having to mount the Docker socket and make Docker API calls. Volumes can be added, removed, and otherwise manipulated simply by mounting the Root Volume and making the desired changes.
You can configure the plugin through plugin variables. You may set these variables at installation time by putting VARIABLE_NAME=value
after the plugin name, or you can set them after the plugin has been installed using docker plugin set katharostech/seaweedfs-volume-plugin VARIABLE_NAME=value
.
Note: When configuring the plugin after installation, the plugin must first be disabled before you can set variables. There is no danger of accidentally setting variables while the plugin is enabled, though. Docker will simply tell you that it is not possible.
The hostname/ip address and port that will be used when connecting to the SeaweedFS filer.
Note: The plugin runs in
host
networking mode. This means that even though it is in a container, it shares its network configuration with the host and should resolve all network addresses as the host system would.
Default: localhost:8080
Options passed to the weed mount
command when mounting SeaweedFS volumes.
Default: empty string
The path on the SeaweedFS filesystem that Docker volumes will be stored in. This path will be mounted for volume storage by the plugin and must exist on the SeaweedFS filesystem.
Default: /docker/volumes
The name of the Root Volume. If specified, a special volume will be created of the given name will be created that will contain all of the SeaweedFS volumes. It is equivalent to mounting the whole of REMOTE_PATH
on the SeaweedFS filesystem. See Root Mount Option.
Default: empty string
Plugin logging level. Set to DEBUG
to get more verbose log messages. Logs from Docker plugins can be found in the Docker log and will be suffixed with the plugin ID.
Default: INFO
Docker plugins are made up of a config.json
file and rootfs
directory. The config.json
has all of the metadata and information about the plugin that Docker needs when installing and configuring the plugin. The rootfs
is the root filesystem of the plugin container. Unfortunately the Docker CLI doesn't allow you to create Docker plugins using a Dockerfile so we use a Makefile to automate the process of creating the plugin rootfs
from a Dockerfile.
To build the plugin simply run make rootfs
in the project directory.
$ make rootfs
This will build the Dockerfile, export the new Docker image's rootfs, and copy the rootfs and the config.json file to the plugin
directory. When it is done you should have a new plugin directory with a config.json file and a rootfs folder in it.
plugin/
config.json
rootfs/
After that is finished you can run make create
.
$ make create
This will install the Docker plugin from the plugin
dirctory with the name katharostech/seaweedfs-volume-plugin
.
Finally run make enable
to start the plugin.
$ make enable
Here is a list of the make
targets:
- clean: Remove the
plugin
directory - config: Copy the
config.json
file to theplugin
directory - rootfs: Generate the plugin rootfs from the Dockerfile and put it in the
plugin
directory with theconfig.json
- create: Install the plugin from the
plugin
directory - enable: Enable the plugin
- disable: Disable the plugin
- push: Run the
clean
,rootfs
,create
, andenable
targets, and push the plugin to DockerHub
Note: The tests have not be migrated from the LizardFS version of this plugin. The information in this section about tests is straight from the LizardFS version and hasn't been tested after porting the plugin.
The automated tests for the plugin are run using a Docker-in-Docker container that creates a Dockerized SeaweedFS cluster to test the plugin against. When you run the test container, it will install the plugin inside the Docker-in-Docker container and proceed to create a Dockerized LizardFS cluster in it as well. A shell script is run that manipulates the plugin and runs containers to ensure the plugin behaves as is expected.
Before you can run the tests, the test Docker image must first be built. This is done by running the build-tests.sh
script.
$ ./build-tests.sh
This will build a Docker image, lizardfs-volume-plugin_test
, using the Dockerfile in the test
directory. After the image has been built, you can use it to run the tests against the plugin. This is done with the run-tests.sh
script.
$ ./run-tests.sh
By default running run-tests.sh
will install the plugin from the plugin
directory before running the tests against it. This means that you must first build the plugin by running make rootfs
, if you have not already done so. Alternatively, you can also run the tests against a version of the plugin from DockerHub by passing in the plugin tag as a parameter to the run-tests.sh
script.
$ ./run-tests.sh kadimasolutions/lizardfs-volume-plugin:latest
This will download the plugin from DockerHub and run the tests against that version of the plugin.
If you don't have a fast disk on your development machine, developing Docker plugins can be somewhat tricky, because it can take some time to build and install the plugin every time you need to make a change. Here are some tricks that you can use to help maximize your development time.
All of the plugin logic is in the index.js
file. During development it can take a long time to rebuild the entire plugin every time you need to test a change to index.js
. To get around this, it is possible to copy just that file into the installed plugin without having to reinstall the entire plugin.
When you install a Docker plugin, it is given a plugin ID. You can see the first 12 characters of the plugin ID by running docker plugin ls
.
$ docker plugin ls
ID NAME DESCRIPTION ENABLED
2f5b68535b92 katharostech/seaweedfs-volume-plugin:latest SeaweedFS volume plugin for Docker false
Using that ID you can find where the plugin's rootfs was installed. By default, it should be located in /var/lib/docker/plugins/[pluginID]/rootfs
. For our particular plugin, the file that we need to replace is the /project/index.js
file in the plugin's rootfs. By replacing that file with an updated version and restarting ( disabling and re-enabling ) the plugin, you can update the plugin without having to re-install it.
It may be useful during development to exec into the plugin container while it is running. You can find out how in the Docker Documentation.
Note: The tests have not be migrated from the LizardFS version of this plugin. The information in this section about tests is straight from the LizardFS version and hasn't been tested after porting the plugin.
Writing new automated test cases for the plugin can also be difficult because of the time required for the test container to start. When writing new test cases for the plugin, it may be useful to start the container and interactively run the tests. If you make a mistake that causes a test to fail, even though the plugin is working, you can still edit and re-run the tests without having to restart the test container completely.
Once you have built the test image using the build-tests.sh
script, you need to run the test container as a daemon that you can exec into. We override the entrypoint of the container so that it won't run the test script as soon as it starts. We want it just to sit there and wait for us to run commands in it.
$ docker run -it --rm -d --name lizardfs-test --privileged \
-v $(pwd)/plugin:/plugin \
-v $(pwd)/test/test-run.sh:/test-run.sh \
--entrypoint=sh \
lizardfs-volume-plugin_test
Note: We also mount our
test-run.sh
script into the container so that updates to the script are reflected immediately in the container.
After the container is running we can shell into it and run the script that starts up Docker.
$ docker exec -it lizardfs-test sh
/project # /test-environment.sh
This will start Docker, load the LizardFS image used for creating the test LizardFS environment, and install the plugin from the plugin directory. Once this is done you can run the tests.
/project # sh /test-run.sh
This will run through all of the tests. If the tests fail, you can still edit and re-run the test-run.sh
script without having to re-install the plugin.
When you are done writing your test cases, you can exit
the shell and docker stop lizardfs-test
. The container will be automatically removed after it stops. You should make sure that your tests still run correctly in a completely fresh environment by rebuilding and re-running the tests using the build-tests.sh
and run-tests.sh
scripts.