Fixes #21701 devicemapper docs
Copy edit the content Updates to existing material Adding mbentley's comments Updating with last minute comments Update with Seb's comments Signed-off-by: Mary Anthony <mary@docker.com>
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3 changed files with 185 additions and 116 deletions
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@ -195,17 +195,17 @@ options for `zfs` start with `zfs`.
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to create and manage the thin-pool volume. This volume is then handed to Docker
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to exclusively create snapshot volumes needed for images and containers.
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Managing the thin-pool outside of Docker makes for the most feature-rich
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Managing the thin-pool outside of Engine makes for the most feature-rich
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method of having Docker utilize device mapper thin provisioning as the
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backing storage for Docker's containers. The highlights of the lvm-based
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backing storage for Docker containers. The highlights of the lvm-based
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thin-pool management feature include: automatic or interactive thin-pool
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resize support, dynamically changing thin-pool features, automatic thinp
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metadata checking when lvm activates the thin-pool, etc.
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As a fallback if no thin pool is provided, loopback files will be
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As a fallback if no thin pool is provided, loopback files are
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created. Loopback is very slow, but can be used without any
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pre-configuration of storage. It is strongly recommended that you do
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not use loopback in production. Ensure your Docker daemon has a
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not use loopback in production. Ensure your Engine daemon has a
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`--storage-opt dm.thinpooldev` argument provided.
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Example use:
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@ -441,29 +441,33 @@ options for `zfs` start with `zfs`.
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* `dm.min_free_space`
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Specifies the min free space percent in thin pool require for new device
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Specifies the min free space percent in a thin pool require for new device
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creation to succeed. This check applies to both free data space as well
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as free metadata space. Valid values are from 0% - 99%. Value 0% disables
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free space checking logic. If user does not specify a value for this optoin,
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then default value for this option is 10%.
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free space checking logic. If user does not specify a value for this option,
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the Engine uses a default value of 10%.
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Whenever a new thin pool device is created (during docker pull or
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during container creation), docker will check minimum free space is
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available as specified by this parameter. If that is not the case, then
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device creation will fail and docker operation will fail.
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Whenever a new a thin pool device is created (during `docker pull` or during
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container creation), the Engine checks if the minimum free space is
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available. If sufficient space is unavailable, then device creation fails
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and any relevant `docker` operation fails.
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One will have to create more free space in thin pool to recover from the
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error. Either delete some of the images and containers from thin pool and
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create free space or add more storage to thin pool.
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To recover from this error, you must create more free space in the thin pool
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to recover from the error. You can create free space by deleting some images
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and containers from the thin pool. You can also add more storage to the thin
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pool.
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For lvm thin pool, one can add more storage to volume group container thin
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pool and that should automatically resolve it. If loop devices are being
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used, then stop docker, grow the size of loop files and restart docker and
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that should resolve the issue.
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To add more space to a LVM (logical volume management) thin pool, just add
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more storage to the volume group container thin pool; this should automatically
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resolve any errors. If your configuration uses loop devices, then stop the
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Engine daemon, grow the size of loop files and restart the daemon to resolve
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the issue.
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Example use:
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$ docker daemon --storage-opt dm.min_free_space=10%
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```bash
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$ docker daemon --storage-opt dm.min_free_space=10%
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```
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Currently supported options of `zfs`:
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@ -17,7 +17,9 @@ for image and container management. This article refers to the Device Mapper
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storage driver as `devicemapper`, and the kernel framework as `Device Mapper`.
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>**Note**: The [Commercially Supported Docker Engine (CS-Engine) running on RHEL and CentOS Linux](https://www.docker.com/compatibility-maintenance) requires that you use the `devicemapper` storage driver.
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>**Note**: The [Commercially Supported Docker Engine (CS-Engine) running on RHEL
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and CentOS Linux](https://www.docker.com/compatibility-maintenance) requires
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that you use the `devicemapper` storage driver.
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## An alternative to AUFS
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@ -206,103 +208,155 @@ mode uses block devices to create the thin pool. The following procedure shows
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you how to configure a Docker host to use the `devicemapper` storage driver in
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a `direct-lvm` configuration.
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> **Caution:** If you have already run the Docker daemon on your Docker host
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> **Caution:** If you have already run the Engine daemon on your Docker host
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> and have images you want to keep, `push` them Docker Hub or your private
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> Docker Trusted Registry before attempting this procedure.
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The procedure below will create a 90GB data volume and 4GB metadata volume to
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use as backing for the storage pool. It assumes that you have a spare block
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device at `/dev/xvdf` with enough free space to complete the task. The device
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device at `/dev/sdd` with enough free space to complete the task. The device
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identifier and volume sizes may be be different in your environment and you
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should substitute your own values throughout the procedure. The procedure also
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assumes that the Docker daemon is in the `stopped` state.
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should substitute your own values throughout the procedure.
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1. Log in to the Docker host you want to configure and stop the Docker daemon.
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The procedure also assumes that the Engine daemon is in the `stopped` state.
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Any existing images or data are lost by this process.
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2. If it exists, delete your existing image store by removing the
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`/var/lib/docker` directory.
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1. Log in to the Docker host you want to configure.
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2. If it is running, stop the Engine daemon.
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3. Install the logical volume management version 2.
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$ sudo rm -rf /var/lib/docker
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```bash
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$ yum install lvm2
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```
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4. Create a physical volume replacing `/dev/sdd` with your block device.
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3. Create an LVM physical volume (PV) on your spare block device using the
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`pvcreate` command.
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```bash
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$ pvcreate /dev/sdd
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```
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$ sudo pvcreate /dev/xvdf
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Physical volume `/dev/xvdf` successfully created
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5. Create a 'docker' volume group.
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The device identifier may be different on your system. Remember to
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substitute your value in the command above.
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```bash
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$ vgcreate docker /dev/sdd
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```
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4. Create a new volume group (VG) called `vg-docker` using the PV created in
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the previous step.
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6. Create a thin pool named `thinpool`.
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$ sudo vgcreate vg-docker /dev/xvdf
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Volume group `vg-docker` successfully created
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In this example, the data logical is 95% of the 'docker' volume group size.
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Leaving this free space allows for auto expanding of either the data or
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metadata if space runs low as a temporary stopgap.
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5. Create a new 90GB logical volume (LV) called `data` from space in the
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`vg-docker` volume group.
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```bash
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$ lvcreate --wipesignatures y -n thinpool docker -l 95%VG
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$ lvcreate --wipesignatures y -n thinpoolmeta docker -l 1%VG
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```
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$ sudo lvcreate -L 90G -n data vg-docker
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Logical volume `data` created.
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7. Convert the pool to a thin pool.
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The command creates an LVM logical volume called `data` and an associated
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block device file at `/dev/vg-docker/data`. In a later step, you instruct the
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`devicemapper` storage driver to use this block device to store image and
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container data.
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```bash
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$ lvconvert -y --zero n -c 512K --thinpool docker/thinpool --poolmetadata docker/thinpoolmeta
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```
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If you receive a signature detection warning, make sure you are working on
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the correct devices before continuing. Signature warnings indicate that the
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device you're working on is currently in use by LVM or has been used by LVM in
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the past.
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8. Configure autoextension of thin pools via an `lvm` profile.
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6. Create a new logical volume (LV) called `metadata` from space in the
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`vg-docker` volume group.
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```bash
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$ vi /etc/lvm/profile/docker-thinpool.profile
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```
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$ sudo lvcreate -L 4G -n metadata vg-docker
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Logical volume `metadata` created.
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9. Specify 'thin_pool_autoextend_threshold' value.
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This creates an LVM logical volume called `metadata` and an associated
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block device file at `/dev/vg-docker/metadata`. In the next step you instruct
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the `devicemapper` storage driver to use this block device to store image and
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container metadata.
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The value should be the percentage of space used before `lvm` attempts
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to autoextend the available space (100 = disabled).
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7. Start the Docker daemon with the `devicemapper` storage driver and the
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`--storage-opt` flags.
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```
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thin_pool_autoextend_threshold = 80
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```
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The `data` and `metadata` devices that you pass to the `--storage-opt`
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options were created in the previous steps.
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10. Modify the `thin_pool_autoextend_percent` for when thin pool autoextension occurs.
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$ sudo docker daemon --storage-driver=devicemapper --storage-opt dm.datadev=/dev/vg-docker/data --storage-opt dm.metadatadev=/dev/vg-docker/metadata &
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[1] 2163
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[root@ip-10-0-0-75 centos]# INFO[0000] Listening for HTTP on unix (/var/run/docker.sock)
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INFO[0027] Option DefaultDriver: bridge
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INFO[0027] Option DefaultNetwork: bridge
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<output truncated>
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INFO[0027] Daemon has completed initialization
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INFO[0027] Docker daemon commit=1b09a95-unsupported graphdriver=aufs version=1.11.0-dev
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The value's setting is the perentage of space to increase the thin pool (100 =
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disabled)
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It is also possible to set the `--storage-driver` and `--storage-opt` flags
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in the Docker config file and start the daemon normally using the `service` or
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`systemd` commands.
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```
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thin_pool_autoextend_percent = 20
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```
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8. Use the `docker info` command to verify that the daemon is using `data` and
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`metadata` devices you created.
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11. Check your work, your `docker-thinpool.profile` file should appear similar to the following:
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$ sudo docker info
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INFO[0180] GET /v1.20/info
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Containers: 0
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Images: 0
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Storage Driver: devicemapper
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Pool Name: docker-202:1-1032-pool
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Pool Blocksize: 65.54 kB
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Backing Filesystem: xfs
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Data file: /dev/vg-docker/data
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Metadata file: /dev/vg-docker/metadata
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[...]
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An example `/etc/lvm/profile/docker-thinpool.profile` file:
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```
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activation {
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thin_pool_autoextend_threshold=80
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thin_pool_autoextend_percent=20
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}
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```
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12. Apply your new lvm profile
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```bash
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$ lvchange --metadataprofile docker-thinpool docker/thinpool
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```
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13. Verify the `lv` is monitored.
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```bash
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$ lvs -o+seg_monitor
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```
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14. If Engine was previously started, clear your graph driver directory.
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Clearing your graph driver removes any images and containers in your Docker
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installation.
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```bash
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$ rm -rf /var/lib/docker/*
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```
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14. Configure the Engine daemon with specific devicemapper options.
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There are two ways to do this. You can set options on the commmand line if you start the daemon there:
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```bash
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--storage-driver=devicemapper --storage-opt=dm.thinpooldev=/dev/mapper/docker-thinpool --storage-opt dm.use_deferred_removal=true
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```
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You can also set them for startup in the `daemon.json` configuration, for example:
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```json
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{
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"storage-driver": "devicemapper",
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"storage-opts": [
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"dm.thinpooldev=/dev/mapper/docker-thinpool",
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"dm.use_deferred_removal=true"
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]
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}
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```
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15. Start the Engine daemon.
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```bash
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$ systemctl start docker
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```
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After you start the Engine daemon, ensure you monitor your thin pool and volume
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group free space. While the volume group will auto-extend, it can still fill
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up. To monitor logical volumes, use `lvs` without options or `lvs -a` to see tha
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data and metadata sizes. To monitor volume group free space, use the `vgs` command.
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Logs can show the auto-extension of the thin pool when it hits the threshold, to
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view the logs use:
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```bash
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journalctl -fu dm-event.service
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```
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If you run into repeated problems with thin pool, you can use the
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`dm.min_free_space` option to tune the Engine behavior. This value ensures that
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operations fail with a warning when the free space is at or near the minimum.
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For information, see <a
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href="https://docs.docker.com/engine/reference/commandline/daemon/#storage-driver-options"
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target="_blank">the storage driver options in the Engine daemon reference</a>.
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The output of the command above shows the storage driver as `devicemapper`.
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The last two lines also confirm that the correct devices are being used for
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the `Data file` and the `Metadata file`.
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### Examine devicemapper structures on the host
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@ -336,7 +390,7 @@ Docker-MAJ:MIN-INO-pool
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Because Device Mapper operates at the block level it is more difficult to see
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diffs between image layers and containers. Docker 1.10 and later no longer
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matches image layer IDs with directory names in `/var/lib/docker`. However,
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matches image layer IDs with directory names in `/var/lib/docker`. However,
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there are two key directories. The `/var/lib/docker/devicemapper/mnt` directory
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contains the mount points for image and container layers. The
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`/var/lib/docker/devicemapper/metadata`directory contains one file for every
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@ -410,3 +464,4 @@ data volumes.
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* [Select a storage driver](selectadriver.md)
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* [AUFS storage driver in practice](aufs-driver.md)
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* [Btrfs storage driver in practice](btrfs-driver.md)
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* [daemon reference](../../reference/commandline/daemon#storage-driver-options)
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@ -269,19 +269,27 @@ allocating images and container snapshots.
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Specifies a custom block storage device to use for the thin pool.
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If using a block device for device mapper storage, it is best to use
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`lvm` to create and manage the thin-pool volume. This volume is then
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handed to Docker to create snapshot volumes needed for images and
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containers.
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If using a block device for device mapper storage, it is best to use `lvm`
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to create and manage the thin-pool volume. This volume is then handed to Docker
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to exclusively create snapshot volumes needed for images and containers.
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Managing the thin-pool outside of Docker makes for the most feature-rich method
|
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of having Docker utilize device mapper thin provisioning as the backing storage
|
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for Docker's containers. The highlights of the LVM-based thin-pool management
|
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feature include: automatic or interactive thin-pool resize support, dynamically
|
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changing thin-pool features, automatic thinp metadata checking when lvm activates
|
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the thin-pool, etc.
|
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Managing the thin-pool outside of Engine makes for the most feature-rich
|
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method of having Docker utilize device mapper thin provisioning as the
|
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backing storage for Docker containers. The highlights of the lvm-based
|
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thin-pool management feature include: automatic or interactive thin-pool
|
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resize support, dynamically changing thin-pool features, automatic thinp
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metadata checking when lvm activates the thin-pool, etc.
|
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|
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Example use: `docker daemon --storage-opt dm.thinpooldev=/dev/mapper/thin-pool`
|
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As a fallback if no thin pool is provided, loopback files are
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created. Loopback is very slow, but can be used without any
|
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pre-configuration of storage. It is strongly recommended that you do
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not use loopback in production. Ensure your Engine daemon has a
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`--storage-opt dm.thinpooldev` argument provided.
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Example use:
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$ docker daemon \
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--storage-opt dm.thinpooldev=/dev/mapper/thin-pool
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#### dm.basesize
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@ -471,27 +479,29 @@ daemon with a supported environment.
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#### dm.min_free_space
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Specifies the min free space percent in thin pool require for new device
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Specifies the min free space percent in a thin pool require for new device
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creation to succeed. This check applies to both free data space as well
|
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as free metadata space. Valid values are from 0% - 99%. Value 0% disables
|
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free space checking logic. If user does not specify a value for this optoin,
|
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then default value for this option is 10%.
|
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free space checking logic. If user does not specify a value for this option,
|
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the Engine uses a default value of 10%.
|
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|
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Whenever a new thin pool device is created (during docker pull or
|
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during container creation), docker will check minimum free space is
|
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available as specified by this parameter. If that is not the case, then
|
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device creation will fail and docker operation will fail.
|
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Whenever a new a thin pool device is created (during `docker pull` or during
|
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container creation), the Engine checks if the minimum free space is
|
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available. If the space is unavailable, then device creation fails and any
|
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relevant `docker` operation fails.
|
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|
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One will have to create more free space in thin pool to recover from the
|
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error. Either delete some of the images and containers from thin pool and
|
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create free space or add more storage to thin pool.
|
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To recover from this error, you must create more free space in the thin pool to
|
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recover from the error. You can create free space by deleting some images
|
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and containers from tge thin pool. You can also add
|
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more storage to the thin pool.
|
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|
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For lvm thin pool, one can add more storage to volume group container thin
|
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pool and that should automatically resolve it. If loop devices are being
|
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used, then stop docker, grow the size of loop files and restart docker and
|
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that should resolve the issue.
|
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To add more space to an LVM (logical volume management) thin pool, just add
|
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more storage to the group container thin pool; this should automatically
|
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resolve any errors. If your configuration uses loop devices, then stop the
|
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Engine daemon, grow the size of loop files and restart the daemon to resolve
|
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the issue.
|
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|
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Example use: `docker daemon --storage-opt dm.min_free_space=10%`
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Example use:: `docker daemon --storage-opt dm.min_free_space=10%`
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## ZFS options
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|
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