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
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.
Docker documentation has now the DEFINITIVE description of the container as volume/s pattern.
Updated docs with backup/restore procedure
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
# 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
# compare to the original container
$ sudo docker run --rm --volumes-from DATA -v `pwd`:/backup busybox ls /data
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.
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:
- Be listed through the
docker volume ls
- Be identified through the
docker volume inspect volume_name
- Backed up as a normal dir
- Backed up as before through a
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>