FS volumes and subvolumes

The volumes module of the Ceph Manager daemon (ceph-mgr) provides a single source of truth for CephFS exports. The OpenStack shared file system service (manila) and the Ceph Container Storage Interface (CSI) storage administrators use the common CLI provided by the ceph-mgr volumes module to manage CephFS exports.

The ceph-mgr volumes module implements the following file system export abstractions:

  • FS volumes, an abstraction for CephFS file systems

  • FS subvolumes, an abstraction for independent CephFS directory trees

  • FS subvolume groups, an abstraction for a directory level higher than FS subvolumes. Used to effect policies (e.g., File layouts) across a set of subvolumes

Some possible use-cases for the export abstractions:

  • FS subvolumes used as Manila shares or CSI volumes

  • FS subvolume groups used as Manila share groups

Requirements

  • Nautilus (14.2.x) or later Ceph release

  • Cephx client user (see User Management) with at least the following capabilities:

    mon 'allow r'
    mgr 'allow rw'
    

FS Volumes

Create a volume by running the following command:

ceph fs volume create <vol_name> [<placement>]

This creates a CephFS file system and its data and metadata pools. It can also deploy MDS daemons for the filesystem using a ceph-mgr orchestrator module (for example Rook). See Orchestrator CLI.

<vol_name> is the volume name (an arbitrary string). <placement> is an optional string that specifies the hosts that should have an MDS running on them and, optionally, the total number of MDS daemons that the cluster should have. For example, the following placement string means “deploy MDS on nodes host1 and host2 (one MDS per host):

"host1,host2"

The following placement specification means “deploy two MDS daemons on each of nodes host1 and host2 (for a total of four MDS daemons in the cluster)”:

"4 host1,host2"

See Service Specification for more on placement specification. Specifying placement via a YAML file is not supported.

To remove a volume, run the following command:

ceph fs volume rm <vol_name> [--yes-i-really-mean-it]

This removes a file system and its data and metadata pools. It also tries to remove MDS daemons using the enabled ceph-mgr orchestrator module.

List volumes by running the following command:

ceph fs volume ls

Rename a volume by running the following command:

ceph fs volume rename <vol_name> <new_vol_name> [--yes-i-really-mean-it]

Renaming a volume can be an expensive operation that requires the following:

  • Renaming the orchestrator-managed MDS service to match the <new_vol_name>. This involves launching a MDS service with <new_vol_name> and bringing down the MDS service with <vol_name>.

  • Renaming the file system matching <vol_name> to <new_vol_name>.

  • Changing the application tags on the data and metadata pools of the file system to <new_vol_name>.

  • Renaming the metadata and data pools of the file system.

The CephX IDs that are authorized for <vol_name> must be reauthorized for <new_vol_name>. Any ongoing operations of the clients using these IDs may be disrupted. Ensure that mirroring is disabled on the volume.

To fetch the information of a CephFS volume, run the following command:

ceph fs volume info vol_name [--human_readable]

The --human_readable flag shows used and available pool capacities in KB/MB/GB.

The output format is JSON and contains fields as follows:

  • pools: Attributes of data and metadata pools
    • avail: The amount of free space available in bytes

    • used: The amount of storage consumed in bytes

    • name: Name of the pool

  • mon_addrs: List of Ceph monitor addresses

  • used_size: Current used size of the CephFS volume in bytes

  • pending_subvolume_deletions: Number of subvolumes pending deletion

Sample output of the volume info command:

$ ceph fs volume info vol_name
{
    "mon_addrs": [
        "192.168.1.7:40977"
    ],
    "pending_subvolume_deletions": 0,
    "pools": {
        "data": [
            {
                "avail": 106288709632,
                "name": "cephfs.vol_name.data",
                "used": 4096
            }
        ],
        "metadata": [
            {
                "avail": 106288709632,
                "name": "cephfs.vol_name.meta",
                "used": 155648
            }
        ]
    },
    "used_size": 0
}

FS Subvolume groups

Create a subvolume group by running the following command:

ceph fs subvolumegroup create <vol_name> <group_name> [--size <size_in_bytes>] [--pool_layout <data_pool_name>] [--uid <uid>] [--gid <gid>] [--mode <octal_mode>]

The command succeeds even if the subvolume group already exists.

When creating a subvolume group you can specify its data pool layout (see File layouts), uid, gid, file mode in octal numerals, and size in bytes. The size of the subvolume group is specified by setting a quota on it (see Quotas). By default, the subvolume group is created with octal file mode 755, uid 0, gid 0 and the data pool layout of its parent directory.

Remove a subvolume group by running a command of the following form:

ceph fs subvolumegroup rm <vol_name> <group_name> [--force]

The removal of a subvolume group fails if the subvolume group is not empty or is non-existent. The --force flag allows the non-existent “subvolume group remove command” to succeed.

Fetch the absolute path of a subvolume group by running a command of the following form:

ceph fs subvolumegroup getpath <vol_name> <group_name>

List subvolume groups by running a command of the following form:

ceph fs subvolumegroup ls <vol_name>

Note

Subvolume group snapshot feature is no longer supported in mainline CephFS (existing group snapshots can still be listed and deleted)

Fetch the metadata of a subvolume group by running a command of the following form:

ceph fs subvolumegroup info <vol_name> <group_name>

The output format is JSON and contains fields as follows:

  • atime: access time of the subvolume group path in the format “YYYY-MM-DD HH:MM:SS”

  • mtime: modification time of the subvolume group path in the format “YYYY-MM-DD HH:MM:SS”

  • ctime: change time of the subvolume group path in the format “YYYY-MM-DD HH:MM:SS”

  • uid: uid of the subvolume group path

  • gid: gid of the subvolume group path

  • mode: mode of the subvolume group path

  • mon_addrs: list of monitor addresses

  • bytes_pcent: quota used in percentage if quota is set, else displays “undefined”

  • bytes_quota: quota size in bytes if quota is set, else displays “infinite”

  • bytes_used: current used size of the subvolume group in bytes

  • created_at: creation time of the subvolume group in the format “YYYY-MM-DD HH:MM:SS”

  • data_pool: data pool to which the subvolume group belongs

Check the presence of any subvolume group by running a command of the following form:

ceph fs subvolumegroup exist <vol_name>

The exist command outputs:

  • “subvolumegroup exists”: if any subvolumegroup is present

  • “no subvolumegroup exists”: if no subvolumegroup is present

Note

This command checks for the presence of custom groups and not presence of the default one. To validate the emptiness of the volume, a subvolumegroup existence check alone is not sufficient. Subvolume existence also needs to be checked as there might be subvolumes in the default group.

Resize a subvolume group by running a command of the following form:

ceph fs subvolumegroup resize <vol_name> <group_name> <new_size> [--no_shrink]

The command resizes the subvolume group quota, using the size specified by new_size. The --no_shrink flag prevents the subvolume group from shrinking below the current used size.

The subvolume group may be resized to an infinite size by passing inf or infinite as the new_size.

Remove a snapshot of a subvolume group by running a command of the following form:

ceph fs subvolumegroup snapshot rm <vol_name> <group_name> <snap_name> [--force]

Supplying the --force flag allows the command to succeed when it would otherwise fail due to the nonexistence of the snapshot.

List snapshots of a subvolume group by running a command of the following form:

ceph fs subvolumegroup snapshot ls <vol_name> <group_name>

FS Subvolumes

Create a subvolume using:

ceph fs subvolume create <vol_name> <subvol_name> [--size <size_in_bytes>] [--group_name <subvol_group_name>] [--pool_layout <data_pool_name>] [--uid <uid>] [--gid <gid>] [--mode <octal_mode>] [--namespace-isolated]

The command succeeds even if the subvolume already exists.

When creating a subvolume you can specify its subvolume group, data pool layout, uid, gid, file mode in octal numerals, and size in bytes. The size of the subvolume is specified by setting a quota on it (see Quotas). The subvolume can be created in a separate RADOS namespace by specifying –namespace-isolated option. By default a subvolume is created within the default subvolume group, and with an octal file mode ‘755’, uid of its subvolume group, gid of its subvolume group, data pool layout of its parent directory and no size limit.

Remove a subvolume using:

ceph fs subvolume rm <vol_name> <subvol_name> [--group_name <subvol_group_name>] [--force] [--retain-snapshots]

The command removes the subvolume and its contents. It does this in two steps. First, it moves the subvolume to a trash folder, and then asynchronously purges its contents.

The removal of a subvolume fails if it has snapshots, or is non-existent. ‘–force’ flag allows the non-existent subvolume remove command to succeed.

A subvolume can be removed retaining existing snapshots of the subvolume using the ‘–retain-snapshots’ option. If snapshots are retained, the subvolume is considered empty for all operations not involving the retained snapshots.

Note

Snapshot retained subvolumes can be recreated using ‘ceph fs subvolume create’

Note

Retained snapshots can be used as a clone source to recreate the subvolume, or clone to a newer subvolume.

Resize a subvolume using:

ceph fs subvolume resize <vol_name> <subvol_name> <new_size> [--group_name <subvol_group_name>] [--no_shrink]

The command resizes the subvolume quota using the size specified by new_size. The –no_shrink` flag prevents the subvolume from shrinking below the current used size of the subvolume.

The subvolume can be resized to an unlimited (but sparse) logical size by passing inf or infinite as `` new_size``.

Authorize cephx auth IDs, the read/read-write access to fs subvolumes:

ceph fs subvolume authorize <vol_name> <sub_name> <auth_id> [--group_name=<group_name>] [--access_level=<access_level>]

The access_level takes r or rw as value.

Deauthorize cephx auth IDs, the read/read-write access to fs subvolumes:

ceph fs subvolume deauthorize <vol_name> <sub_name> <auth_id> [--group_name=<group_name>]

List cephx auth IDs authorized to access fs subvolume:

ceph fs subvolume authorized_list <vol_name> <sub_name> [--group_name=<group_name>]

Evict fs clients based on auth ID and subvolume mounted:

ceph fs subvolume evict <vol_name> <sub_name> <auth_id> [--group_name=<group_name>]

Fetch the absolute path of a subvolume using:

ceph fs subvolume getpath <vol_name> <subvol_name> [--group_name <subvol_group_name>]

Fetch the information of a subvolume using:

ceph fs subvolume info <vol_name> <subvol_name> [--group_name <subvol_group_name>]

The output format is JSON and contains fields as follows.

  • atime: access time of the subvolume path in the format “YYYY-MM-DD HH:MM:SS”

  • mtime: modification time of the subvolume path in the format “YYYY-MM-DD HH:MM:SS”

  • ctime: change time of the subvolume path in the format “YYYY-MM-DD HH:MM:SS”

  • uid: uid of the subvolume path

  • gid: gid of the subvolume path

  • mode: mode of the subvolume path

  • mon_addrs: list of monitor addresses

  • bytes_pcent: quota used in percentage if quota is set, else displays undefined

  • bytes_quota: quota size in bytes if quota is set, else displays infinite

  • bytes_used: current used size of the subvolume in bytes

  • created_at: creation time of the subvolume in the format “YYYY-MM-DD HH:MM:SS”

  • data_pool: data pool to which the subvolume belongs

  • path: absolute path of a subvolume

  • type: subvolume type indicating whether it’s clone or subvolume

  • pool_namespace: RADOS namespace of the subvolume

  • features: features supported by the subvolume

  • state: current state of the subvolume

If a subvolume has been removed retaining its snapshots, the output contains only fields as follows.

  • type: subvolume type indicating whether it’s clone or subvolume

  • features: features supported by the subvolume

  • state: current state of the subvolume

A subvolume’s features are based on the internal version of the subvolume and are a subset of the following:

  • snapshot-clone: supports cloning using a subvolumes snapshot as the source

  • snapshot-autoprotect: supports automatically protecting snapshots, that are active clone sources, from deletion

  • snapshot-retention: supports removing subvolume contents, retaining any existing snapshots

A subvolume’s state is based on the current state of the subvolume and contains one of the following values.

  • complete: subvolume is ready for all operations

  • snapshot-retained: subvolume is removed but its snapshots are retained

List subvolumes using:

ceph fs subvolume ls <vol_name> [--group_name <subvol_group_name>]

Note

subvolumes that are removed but have snapshots retained, are also listed.

Check the presence of any subvolume using:

ceph fs subvolume exist <vol_name> [--group_name <subvol_group_name>]

These are the possible results of the exist command:

  • subvolume exists: if any subvolume of given group_name is present

  • no subvolume exists: if no subvolume of given group_name is present

Set custom metadata on the subvolume as a key-value pair using:

ceph fs subvolume metadata set <vol_name> <subvol_name> <key_name> <value> [--group_name <subvol_group_name>]

Note

If the key_name already exists then the old value will get replaced by the new value.

Note

key_name and value should be a string of ASCII characters (as specified in python’s string.printable). key_name is case-insensitive and always stored in lower case.

Note

Custom metadata on a subvolume is not preserved when snapshotting the subvolume, and hence, is also not preserved when cloning the subvolume snapshot.

Get custom metadata set on the subvolume using the metadata key:

ceph fs subvolume metadata get <vol_name> <subvol_name> <key_name> [--group_name <subvol_group_name>]

List custom metadata (key-value pairs) set on the subvolume using:

ceph fs subvolume metadata ls <vol_name> <subvol_name> [--group_name <subvol_group_name>]

Remove custom metadata set on the subvolume using the metadata key:

ceph fs subvolume metadata rm <vol_name> <subvol_name> <key_name> [--group_name <subvol_group_name>] [--force]

Using the --force flag allows the command to succeed that would otherwise fail if the metadata key did not exist.

Create a snapshot of a subvolume using:

ceph fs subvolume snapshot create <vol_name> <subvol_name> <snap_name> [--group_name <subvol_group_name>]

Remove a snapshot of a subvolume using:

ceph fs subvolume snapshot rm <vol_name> <subvol_name> <snap_name> [--group_name <subvol_group_name>] [--force]

Using the --force flag allows the command to succeed that would otherwise fail if the snapshot did not exist.

Note

if the last snapshot within a snapshot retained subvolume is removed, the subvolume is also removed

List snapshots of a subvolume using:

ceph fs subvolume snapshot ls <vol_name> <subvol_name> [--group_name <subvol_group_name>]

Fetch the information of a snapshot using:

ceph fs subvolume snapshot info <vol_name> <subvol_name> <snap_name> [--group_name <subvol_group_name>]

The output format is JSON and contains fields as follows.

  • created_at: creation time of the snapshot in the format “YYYY-MM-DD HH:MM:SS:ffffff”

  • data_pool: data pool to which the snapshot belongs

  • has_pending_clones: yes if snapshot clone is in progress, otherwise no

  • pending_clones: list of in-progress or pending clones and their target group if any exist, otherwise this field is not shown

  • orphan_clones_count: count of orphan clones if the snapshot has orphan clones, otherwise this field is not shown

Sample output when snapshot clones are in progress or pending:

$ ceph fs subvolume snapshot info cephfs subvol snap
{
    "created_at": "2022-06-14 13:54:58.618769",
    "data_pool": "cephfs.cephfs.data",
    "has_pending_clones": "yes",
    "pending_clones": [
        {
            "name": "clone_1",
            "target_group": "target_subvol_group"
        },
        {
            "name": "clone_2"
        },
        {
            "name": "clone_3",
            "target_group": "target_subvol_group"
        }
    ]
}

Sample output when no snapshot clone is in progress or pending:

$ ceph fs subvolume snapshot info cephfs subvol snap
{
    "created_at": "2022-06-14 13:54:58.618769",
    "data_pool": "cephfs.cephfs.data",
    "has_pending_clones": "no"
}

Set custom key-value metadata on the snapshot by running:

ceph fs subvolume snapshot metadata set <vol_name> <subvol_name> <snap_name> <key_name> <value> [--group_name <subvol_group_name>]

Note

If the key_name already exists then the old value will get replaced by the new value.

Note

The key_name and value should be a strings of ASCII characters (as specified in Python’s string.printable). The key_name is case-insensitive and always stored in lowercase.

Note

Custom metadata on a snapshot is not preserved when snapshotting the subvolume, and hence is also not preserved when cloning the subvolume snapshot.

Get custom metadata set on the snapshot using the metadata key:

ceph fs subvolume snapshot metadata get <vol_name> <subvol_name> <snap_name> <key_name> [--group_name <subvol_group_name>]

List custom metadata (key-value pairs) set on the snapshot using:

ceph fs subvolume snapshot metadata ls <vol_name> <subvol_name> <snap_name> [--group_name <subvol_group_name>]

Remove custom metadata set on the snapshot using the metadata key:

ceph fs subvolume snapshot metadata rm <vol_name> <subvol_name> <snap_name> <key_name> [--group_name <subvol_group_name>] [--force]

Using the --force flag allows the command to succeed that would otherwise fail if the metadata key did not exist.

Cloning Snapshots

Subvolumes can be created by cloning subvolume snapshots. Cloning is an asynchronous operation that copies data from a snapshot to a subvolume. Due to this bulk copying, cloning is inefficient for very large data sets.

Note

Removing a snapshot (source subvolume) would fail if there are pending or in progress clone operations.

Protecting snapshots prior to cloning was a prerequisite in the Nautilus release, and the commands to protect/unprotect snapshots were introduced for this purpose. This prerequisite, and hence the commands to protect/unprotect, is being deprecated and may be removed from a future release.

The commands being deprecated are:

ceph fs subvolume snapshot protect <vol_name> <subvol_name> <snap_name> [--group_name <subvol_group_name>]
ceph fs subvolume snapshot unprotect <vol_name> <subvol_name> <snap_name> [--group_name <subvol_group_name>]

Note

Using the above commands will not result in an error, but they have no useful purpose.

Note

Use the subvolume info command to fetch subvolume metadata regarding supported features to help decide if protect/unprotect of snapshots is required, based on the availability of the snapshot-autoprotect feature.

To initiate a clone operation use:

ceph fs subvolume snapshot clone <vol_name> <subvol_name> <snap_name> <target_subvol_name>

If a snapshot (source subvolume) is a part of non-default group, the group name needs to be specified:

ceph fs subvolume snapshot clone <vol_name> <subvol_name> <snap_name> <target_subvol_name> --group_name <subvol_group_name>

Cloned subvolumes can be a part of a different group than the source snapshot (by default, cloned subvolumes are created in default group). To clone to a particular group use:

$ ceph fs subvolume snapshot clone <vol_name> <subvol_name> <snap_name> <target_subvol_name> --target_group_name <subvol_group_name>

Similar to specifying a pool layout when creating a subvolume, pool layout can be specified when creating a cloned subvolume. To create a cloned subvolume with a specific pool layout use:

ceph fs subvolume snapshot clone <vol_name> <subvol_name> <snap_name> <target_subvol_name> --pool_layout <pool_layout>

Configure the maximum number of concurrent clones. The default is 4:

ceph config set mgr mgr/volumes/max_concurrent_clones <value>

To check the status of a clone operation use:

ceph fs clone status <vol_name> <clone_name> [--group_name <group_name>]

A clone can be in one of the following states:

  1. pending : Clone operation has not started

  2. in-progress : Clone operation is in progress

  3. complete : Clone operation has successfully finished

  4. failed : Clone operation has failed

  5. canceled : Clone operation is cancelled by user

The reason for a clone failure is shown as below:

  1. errno : error number

  2. error_msg : failure error string

Here is an example of an in-progress clone:

$ ceph fs subvolume snapshot clone cephfs subvol1 snap1 clone1
$ ceph fs clone status cephfs clone1
{
  "status": {
    "state": "in-progress",
    "source": {
      "volume": "cephfs",
      "subvolume": "subvol1",
      "snapshot": "snap1"
    }
  }
}

Note

The failure section will be shown only if the clone’s state is failed or cancelled

Here is an example of a failed clone:

$ ceph fs subvolume snapshot clone cephfs subvol1 snap1 clone1
$ ceph fs clone status cephfs clone1
{
  "status": {
    "state": "failed",
    "source": {
      "volume": "cephfs",
      "subvolume": "subvol1",
      "snapshot": "snap1"
      "size": "104857600"
    },
    "failure": {
      "errno": "122",
      "errstr": "Disk quota exceeded"
    }
  }
}

(NOTE: since subvol1 is in the default group, the source object’s clone status does not include the group name)

Note

Cloned subvolumes are accessible only after the clone operation has successfully completed.

After a successful clone operation, clone status will look like the below:

$ ceph fs clone status cephfs clone1
{
  "status": {
    "state": "complete"
  }
}

If a clone operation is unsuccessful, the state value will be failed.

To retry a failed clone operation, the incomplete clone must be deleted and the clone operation must be issued again. To delete a partial clone use:

ceph fs subvolume rm <vol_name> <clone_name> [--group_name <group_name>] --force

Note

Cloning synchronizes only directories, regular files and symbolic links. Inode timestamps (access and modification times) are synchronized up to seconds granularity.

An in-progress or a pending clone operation may be canceled. To cancel a clone operation use the clone cancel command:

ceph fs clone cancel <vol_name> <clone_name> [--group_name <group_name>]

On successful cancellation, the cloned subvolume is moved to the canceled state:

ceph fs subvolume snapshot clone cephfs subvol1 snap1 clone1
ceph fs clone cancel cephfs clone1
ceph fs clone status cephfs clone1
  {
      "status": {
          "state": "canceled",
          "source": {
              "volume": "cephfs",
              "subvolume": "subvol1",
              "snapshot": "snap1"
          }
      }
  }
}

Note

The canceled cloned may be deleted by supplying the --force option to the fs subvolume rm command.

Pinning Subvolumes and Subvolume Groups

Subvolumes and subvolume groups may be automatically pinned to ranks according to policies. This can distribute load across MDS ranks in predictable and stable ways. Review Manually pinning directory trees to a particular rank and Setting subtree partitioning policies for details on how pinning works.

Pinning is configured by:

ceph fs subvolumegroup pin <vol_name> <group_name> <pin_type> <pin_setting>

or for subvolumes:

ceph fs subvolume pin <vol_name> <group_name> <pin_type> <pin_setting>

Typically you will want to set subvolume group pins. The pin_type may be one of export, distributed, or random. The pin_setting corresponds to the extended attributed “value” as in the pinning documentation referenced above.

So, for example, setting a distributed pinning strategy on a subvolume group:

ceph fs subvolumegroup pin cephfilesystem-a csi distributed 1

Will enable distributed subtree partitioning policy for the “csi” subvolume group. This will cause every subvolume within the group to be automatically pinned to one of the available ranks on the file system.