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How do people deal with persistent storage for your docker containers? I am currently using this approach: build the image, e.g. for Postgres, and then start the container with

docker run --volumes-from c0dbc34fd631 -d app_name/postgres

IMHO, that has the drawback, that I must not ever (by accident) delete container "c0dbc34fd631".

Another idea would be to mount host volumes "-v" into the container, however, the userid within the container does not necessarily match the userid from the host, and then permissions might be messed up.

Note: Instead of "--volumes-from 'cryptic_id'" you can also use "--volumes-from my-data-container" where "my-data-container" is a name you assigned to a data-only container, e.g. "docker run -name my-data-container ..." (see accepted answer)

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Sorry, I phrased that wrongly, I meant to say: all my future instances from that image depend on that container. If I delete that container by accident, I am in trouble. – juwalter Sep 17 '13 at 9:50
    
@AntonStrogonoff - yep, phrasing error - I meant to say: I need to make sure I won't ever delete that (possibly) old container, because then the reference the "persistent" storage would also be gone – juwalter Dec 15 '13 at 14:27

11 Answers 11

up vote 608 down vote accepted

The approach that seems to work best for production is to use a data only container.

The data only container is run on a barebone image and actually does nothing except exposing a data volume.

Then you can run any other container to have access to the data container volumes:

docker run --volumes-from data-container some-other-container command-to-execute
  • Here you can get a good picture of how to arrange the different containers
  • Here there is a good insight on how volumes work

UPDATE:

In this blog post there is a good description of the so called container as volume pattern which clarifies the main point of having data only containers.

UPDATE 2:

Docker documentation has now the DEFINITIVE description of the container as volume/s pattern.

UPDATE 3:

Updated docs with backup/restore procedure

BACKUP:

sudo docker run --rm --volumes-from DATA -v $(pwd):/backup busybox tar cvf /backup/backup.tar /data
  • --rm: remove the container when it exits
  • --volumes-from DATA: attach to the volumes shared by the DATA container
  • -v $(pwd):/backup: bind mount the current directory into the container; to write the tar file to
  • busybox: a small simpler image - good for quick maintenance
  • tar cvf /backup/backup.tar /data: creates an uncompressed tar file of all the files in the /data directory

RESTORE:

# create a new data container
$ sudo docker run -v /data -name DATA2 busybox true
# untar the backup files into the new container᾿s data volume
$ sudo docker run --rm --volumes-from DATA2 -v $(pwd):/backup busybox tar xvf /backup/backup.tar
data/
data/sven.txt
# compare to the original container
$ sudo docker run --rm --volumes-from DATA -v `pwd`:/backup busybox ls /data
sven.txt

UPDATE 4

A nice article from the excellent Brian Goff explaining why it is good to use the same image for a container and a data container.

UPDATE 5

Docker 1.9.0 has new volume API!

docker volume create --name hello
docker run -d -v hello:/container/path/for/volume container_image my_command

this means that the data only container pattern must be abandoned in favour of the new volumes.

Actually the volume API is only a better way to achieve what was the data-container pattern.

If you create a container with a -v volume_name:/container/fs/path docker will automatically create a named volume for you that can:

  1. Be listed through the docker volume ls
  2. Be identified through the docker volume inspect volume_name
  3. Backed up as a normal dir
  4. Backed up as before through a --volumes-from connection

The new volume api adds a useful command that let you identify dangling volumes:

docker volume ls -f dangling=true

And then remove it through its name:

docker volume rm <volume name>
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7  
It's a differen tool for a different need. --volumes-from let you share disk space --link let you share services. – tommasop May 21 '14 at 8:47
1  
@tommasop I was wondering if I need a data container or can I just use a directory on the machine running the docker container? So that when I run docker -v /home/localUser/directoryToKeepPersistance:/opt/application/directoryOnconatiner container-name everything that would be persisted in /opt/application/directoryOnconatinerwill be persisted on my harddisk and reused when the process start again. – Thomas Jun 20 '14 at 13:46
3  
There is another project in the works specifically meant for this kind of thing, maybe add it to this answer as a reference to watch? github.com/ClusterHQ/flocker – Andre Jul 14 '14 at 15:05
7  
Data containers don't have any meaning and are really bad idea! Container only means something when a process is running in that, otherwise it's just a piece of host file system. You can just mount a volume with -v that's the only and best option. You have control over the filesystem and physical disk you use. – Boynux May 8 '15 at 17:28
5  
Yep, as of Docker 1.9, creating Named Volumes with the Volumes API (docker volume create --name mydata) are preferred over a Data Volume Container. Folks at Docker themselves suggest that Data Volume Containers “are no longer considered a recommended pattern,” “named volumes should be able to replace data-only volumes in most (if not all) cases,” and “no reason I can see to use data-only containers.” – Quinn Comendant Feb 27 at 20:50

As of Docker release v1.0, you can bind mount a volume using

docker run -v /host:/container ...

and using this volume as persistent storage on the host running docker. I generally use such a way to persist my application logs.

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While this is still a part of docker that needs some work, you should put the volume in the Dockerfile with the VOLUME instruction so you don't need to copy the volumes from another container. That will make your containers less inter-dependent and you don't have to worry about the deletion of one container affecting another.

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The flip-side argument is that the "data only" containers end up being the last-resort reference to the data volume (Docker destroys data volumes once the last container referencing that volume is removed with docker rm) – WineSoaked Oct 1 '14 at 5:33
1  
This oficial guide from Docker suggests otherwise: docs.docker.com/userguide/dockervolumes/… "Data volumes are designed to persist data, independent of the container’s life cycle. Docker therefore never automatically delete volumes when you remove a container, nor will it “garbage collect” volumes that are no longer referenced by a container." – Alex Jul 15 '15 at 21:57

In case it is not clear from Update 5 of the selected answer, as of Docker 1.9, you can create volumes that can exist without being associated with a specific container, thus making the "data-only container" pattern obsolete.

See https://github.com/docker/docker/issues/17798

I think the Docker maintainers realized the data-only container pattern was a bit of a design smell and decided to make volumes a separate entity that can exist without an associated container.

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@tommasop's answer is good, and explains some of the mechanics of using data-only containers. But as someone who initially thought that data containers were silly when one could just bind mount a volume to the host (as suggested by several other answers), but now realizes that in fact data-only containers are pretty neat, I can suggest my own blog post on this topic: https://medium.com/@ramangupta/why-docker-data-containers-are-good-589b3c6c749e

See also: my answer to the question "What is the (best) way to manage permissions for docker shared volumes" for an example of how to use data containers to avoid problems like permissions and uid/gid mapping with the host.

To address one of the OPs original concerns: that the data container must not be deleted. Even if the data container is deleted, the data itself will not be lost as long as any container has a reference to that volume i.e. any container that mounted the volume via --volumes-from. So unless all the related containers are stopped and deleted (one could consider this the equivalent of an accidental rm -fr /) the data is safe. You can always recreate the data container by doing --volumes-from any container that has a reference to that volume.

As always, make backups though!

UPDATE: I think the docker guys are working on a new mechanism to manage volumes independently of containers, which should further make this easier to manage. See http://github.com/docker/docker/pull/8484.

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If you want to move your volumes around you should also look at https://github.com/clusterhq/flocker

from the README:

Flocker is a data volume manager and multi-host Docker cluster management tool. With it you can control your data using the same tools you use for your stateless applications by harnessing the power of ZFS on Linux. This means that you can run your databases, queues and key-value stores in Docker and move them around as easily as the rest of your app.

share|improve this answer
    
Thanks Johann. I work at ClusterHQ and I just wanted to note that we've moved beyond only ZFS-based storage. You can now use Flocker with storage like Amazon EBS or Google Persistent Disk. Here is a complete list of storage options: docs.clusterhq.com/en/latest/supported/… – ferrantim Feb 12 at 11:12

Depends on your scenario (this isn't really suitable for a prod environment) but here is one way: http://txt.fliglio.com/2013/11/creating-a-mysql-docker-container/

this gist of it is, use a directory on your host for data persistence.

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5  
Thanks Ben, however - one of the issues I can see with this approach: the file system resource (directory, files) would be owned by a uid from within the docker/lxc container (guest) - one that might possibly collide with a uid on the host ... – juwalter Dec 15 '13 at 14:31
1  
i think you're pretty safe as it is run by root, but I agree it is a hack - suitable for local dev / ephemeral integration testing at best. This is definitely an area I'd like to see more patterns / thinking emerge. You should check out / post this question to the docker-dev google group – ben schwartz Dec 18 '13 at 4:25
    
Ben, thanks for this solution! I wouldn't call it a hack though, it seems much more reliable than container as volume. Do you see any drawbacks in case when data is used solely from the container? (UID doesn't matter in this case) – johndodo Aug 18 '14 at 14:07

I recently wrote about a potential solution and an application demonstrating the technique. I find it to be pretty efficient during development and in production. Hope it helps or sparks some ideas.

Repo: https://github.com/LevInteractive/docker-nodejs-example
Article: http://lev-interactive.com/2015/03/30/docker-load-balanced-mongodb-persistence/

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As of docker-compose 1.6, there is now improved support for data volumes in docker Compose. The following compose file will create a data image which will persist between restarts (or even removal) of parent containers:

Here is the blog announcement: https://blog.docker.com/2016/02/compose-1-6/

Here's an example compose file:

version: "2"

services:
  db:
    restart: on-failure:10
    image: postgres:9.4
    volumes:
      - "db-data:/var/lib/postgresql/data"
  web:
    restart: on-failure:10
    build: .
    command: gunicorn mypythonapp.wsgi:application -b :8000 --reload
    volumes:
      - .:/code
    ports:
      - "8000:8000"
    links:
      - db

volumes:
  db-data:

As far as I can understand: This will create a data volume container (db_data) which will persist between restarts.

If you run: docker volume ls you should see your volume listed:

local               mypthonapp_db-data
...

You can get some more details about the data volume:

docker volume inspect mypthonapp_db-data
[
  {
    "Name": "mypthonapp_db-data",
    "Driver": "local",
    "Mountpoint": "/mnt/sda1/var/lib/docker/volumes/mypthonapp_db-data/_data"
  }
]

Some testing:

# start the containers
docker-compose up -d
# .. input some data into the database
docker-compose run --rm web python manage.py migrate
docker-compose run --rm web python manage.py createsuperuser
...
# stop and remove the containers:
docker-compose stop
docker-compose rm -f

#start it back up again
docker-compose up -d

# verify the data is still there
...
(it is)

# stop and remove with the -v (volumes) tag:

docker-compose stop
docker=compose rm -f -v

# up again .. 
docker-compose up -d

# check the data is still there:
...
(it is). 

Notes:

  • You can also specify various drivers in the volumes block. e.g.: You could specify the flocker driver for db_data:

    volumes:
      db-data:
        driver: flocker
    
  • As they improve the integration between Docker Swarm and Docker Compose (and possibly start integrating Flocker into the Docker eco-system (I heard a rumor that Docker have bought Flocker), I think this approach should become increasingly powerful.

Disclaimer: This approach is promising, and I'm using it successfully in a development environment. I would be apprehensive to use this in production just yet!

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My solution is to get use of the new docker cp, which is now able to copy data out from containers, not matter if it's running or not and share a host volume to the exact same location where the database app creating it's db files inside the container. This double solution works without a data-only container, straight from the original database container.

So my systemd init script taking the job of backuping the database into an archive on the host. I placed a timestamp in the filename to never rewrite a file.

It's doing it on the ExecStartPre:

ExecStartPre=-/usr/bin/docker cp lanti-debian-mariadb:/var/lib/mysql /home/core/sql
ExecStartPre=-/bin/bash -c '/usr/bin/tar -zcvf /home/core/sql/sqlbackup_$$(date +%%Y-%%m-%%d_%%H-%%M-%%S)_ExecStartPre.tar.gz /home/core/sql/mysql --remove-files'

And doing the same thing on ExecStopPost too:

ExecStopPost=-/usr/bin/docker cp lanti-debian-mariadb:/var/lib/mysql /home/core/sql
ExecStopPost=-/bin/bash -c 'tar -zcvf /home/core/sql/sqlbackup_$$(date +%%Y-%%m-%%d_%%H-%%M-%%S)_ExecStopPost.tar.gz /home/core/sql/mysql --remove-files'

Plus I exposed a folder from the host as a volume to the exact same location where the database is stored:

mariadb:
  build: ./mariadb
  volumes:
    - $HOME/server/mysql/:/var/lib/mysql/:rw

It works great on my VM (I building a LEMP stack for myself): https://github.com/DJviolin/LEMP

But I just don't know is it a "bulletproof" solution when your life depends on it actually (for example: webshop with transactions in any possible miliseconds)?

At 20:20 from this official Docker keynote video, the presenter does the same thing with the db:

https://www.youtube.com/watch?v=klzLdzpPcQw

"For the database we have a volume, so we can make sure that, as the database goes up and down, we don't loose data, when the database container stopped."

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I'm just using a predefined directory on the host to persist data for Postgres. Also, this way it is possible to migrate existing Postgres installations to Docker container easily: https://crondev.com/persistent-postgresql-inside-docker/

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