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- Fixes spelling mistakes. - Grammatical error correction. - Wrapping the text at 80 line count..etc Signed-off-by: Humble Chirammal <hchiramm@redhat.com>
272 lines
12 KiB
Markdown
272 lines
12 KiB
Markdown
# Snapshots as shallow read-only volumes
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CSI spec doesn't have a notion of "mounting a snapshot". Instead, the idiomatic
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way of accessing snapshot contents is first to create a volume populated with
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snapshot contents and then mount that volume to workloads.
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CephFS exposes snapshots as special, read-only directories of a subvolume
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located in `<subvolume>/.snap`. cephfs-csi can already provision writable
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volumes with snapshots as their data source, where snapshot contents are cloned
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to the newly created volume. However, cloning a snapshot to volume is a very
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expensive operation in CephFS as the data needs to be fully copied. When the
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need is to only read snapshot contents, snapshot cloning is extremely
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inefficient and wasteful.
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This proposal describes a way for cephfs-csi to expose CephFS snapshots as
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shallow, read-only volumes, without needing to clone the underlying snapshot
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data.
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## Use-cases
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What's the point of such read-only volumes?
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* **Restore snapshots selectively:** users may want to traverse snapshots,
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restoring data to a writable volume more selectively instead of restoring the
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whole snapshot.
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* **Volume backup:** users can't backup a live volume, they first need to
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snapshot it. Once a snapshot is taken, it still can't be backed-up, as backup
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tools usually work with volumes (that are exposed as file-systems)
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and not snapshots (which might have backend-specific format). What this means
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is that in order to create a snapshot backup, users have to clone snapshot
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data twice:
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1. first time, when restoring the snapshot into a temporary volume from
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where the data will be read,
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1. and second time, when transferring that volume into some backup/archive
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storage (e.g. object store).
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The temporary backed-up volume will most likely be thrown away after the
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backup transfer is finished. That's a lot of wasted work for what we
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originally wanted to do! Having the ability to create volumes from snapshots
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cheaply would be a big improvement for this use case.
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## Alternatives
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* _Snapshots are stored in `<subvolume>/.snap`. Users could simply visit this
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directory by themselves._
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`.snap` is CephFS-specific detail of how snapshots are exposed. Users / tools
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may not be aware of this special directory, or it may not fit their workflow.
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At the moment, the idiomatic way of accessing snapshot contents in CSI drivers
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is by creating a new volume and populating it with snapshot.
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## Design
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Key points:
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* Volume source is a snapshot, volume access mode is `*_READER_ONLY`.
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* No actual new subvolumes are created in CephFS.
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* The resulting volume is a reference to the source subvolume snapshot. This
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reference would be stored in `Volume.volume_context` map. In order to
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reference a snapshot, we need subvol name and snapshot name.
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* Mounting such volume means mounting the respective CephFS subvolume and
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exposing the snapshot to workloads.
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* Let's call a *shallow read-only volume with a subvolume snapshot as its data
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source* just a *shallow volume* from here on out for brevity.
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### Controller operations
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Care must be taken when handling life-times of relevant storage resources. When
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a shallow volume is created, what would happen if:
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* _Parent subvolume of the snapshot is removed while the shallow volume still
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exists?_
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This shouldn't be a problem already. The parent volume has either
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`snapshot-retention` subvol feature in which case its snapshots remain
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available, or if it doesn't have that feature, it will fail to be deleted
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because it still has snapshots associated to it.
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* _Source snapshot from which the shallow volume originates is removed while
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that shallow volume still exists?_
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We need to make sure this doesn't happen and some book-keeping is necessary.
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Ideally we could employ some kind of reference counting.
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#### Reference counting for shallow volumes
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As mentioned above, this is to protect shallow volumes, should their source
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snapshot be requested for deletion.
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When creating a volume snapshot, a reference tracker (RT), represented by a
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RADOS object, would be created for that snapshot. It would store information
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required to track the references for the backing subvolume snapshot. Upon a
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`CreateSnapshot` call, the reference tracker (RT) would be initialized with a
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single reference record, where the CSI snapshot itself is the first reference to
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the backing snapshot. Each subsequent shallow volume creation would add a new
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reference record to the RT object. Each shallow volume deletion would remove
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that reference from the RT object. Calling `DeleteSnapshot` would remove the
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reference record that was previously added in `CreateSnapshot`.
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The subvolume snapshot would be removed from the Ceph cluster only once the RT
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object holds no references. Note that this behavior would permit calling
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`DeleteSnapshot` even if it is still referenced by shallow volumes.
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* `DeleteSnapshot`:
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* RT holds no references or the RT object doesn't exist:
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delete the backing snapshot too.
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* RT holds at least one reference: keep the backing snapshot.
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* `DeleteVolume`:
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* RT holds no references: delete the backing snapshot too.
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* RT holds at least one reference: keep the backing snapshot.
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To enable creating shallow volumes from snapshots that were provisioned by older
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versions of cephfs-csi (i.e. before this feature is introduced),
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`CreateVolume` for shallow volumes would also create an RT object in case it's
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missing. It would be initialized to two: the source snapshot and the newly
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created shallow volume.
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##### Concurrent access to RT objects
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RADOS API provides access to compound atomic read and write operations. These
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will be used to implement reference tracking functionality, protecting
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modifications of reference records.
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#### `CreateVolume`
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A read-only volume with snapshot source would be created under these conditions:
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1. `CreateVolumeRequest.volume_content_source` is a snapshot,
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1. `CreateVolumeRequest.volume_capabilities[*].access_mode` is any of read-only
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volume access modes.
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1. Possibly other volume parameters in `CreateVolumeRequest.parameters`
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specific to shallow volumes.
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`CreateVolumeResponse.Volume.volume_context` would then contain necessary
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information to identify the source subvolume / snapshot.
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Things to look out for:
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* _What's the volume size?_
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It doesn't consume any space on the filesystem. `Volume.capacity_bytes` is
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allowed to contain zero. We could use that.
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* _What should be the requested size when creating the volume (specified e.g. in
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PVC)?_
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This one is tricky. CSI spec allows for
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`CreateVolumeRequest.capacity_range.{required_bytes,limit_bytes}` to be zero.
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On the other hand,
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`PersistentVolumeClaim.spec.resources.requests.storage` must be bigger than
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zero. cephfs-csi doesn't care about the requested size (the volume will be
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read-only, so it has no usable capacity) and would always set it to zero. This
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shouldn't case any problems for the time being, but still is something we
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should keep in mind.
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`CreateVolume` and behavior when using volume as volume source (PVC-PVC clone):
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| New volume | Source volume | Behavior |
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|----------------|----------------|-----------------------------------------------------------------------------------|
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| shallow volume | shallow volume | Create a new reference to the parent snapshot of the source shallow volume. |
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| regular volume | shallow volume | Equivalent for a request to create a regular volume with snapshot as its source. |
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| shallow volume | regular volume | Such request doesn't make sense and `CreateVolume` should return an error. |
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### `DeleteVolume`
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Volume deletion is trivial.
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### `CreateSnapshot`
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Snapshotting read-only volumes doesn't make sense in general, and should be
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rejected.
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### `ControllerExpandVolume`
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Same thing as above. Expanding read-only volumes doesn't make sense in general,
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and should be rejected.
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## Node operations
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Two cases need to be considered:
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* (a) Volume/snapshot provisioning is handled by cephfs-csi
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* (b) Volume/snapshot provisioning is handled externally (e.g. pre-provisioned
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manually, or by OpenStack Manila, ...)
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### `NodeStageVolume`, `NodeUnstageVolume`
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Here we're mounting the source subvolume onto the node. Subsequent volume
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publish calls then use bind mounts to expose the snapshot directory located in
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`.snap/<SNAPSHOT DIRECTORY NAME>`. Unfortunately, we cannot mount snapshots
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directly because they are not visible during mount time. We need to mount the
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whole subvolume first, and only then perform the binds to target paths.
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#### For case (a)
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Subvolume paths are normally retrieved by
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`ceph fs subvolume info/getpath <VOLUME NAME> <SUBVOLUME NAME> <SUBVOLUMEGROUP NAME>`
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, which outputs a path like so:
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```
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/volumes/<VOLUME NAME>/<SUBVOLUME NAME>/<UUID>
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```
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Snapshots are then accessible in:
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* `/volumes/<VOLUME NAME>/<SUBVOLUME NAME>/.snap` and
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* `/volumes/<VOLUME NAME>/<SUBVOLUME NAME>/<UUID>/.snap`.
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`/volumes/<VOLUME NAME>/<SUBVOLUME NAME>/<UUID>` may be deleted if the source
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subvolume is deleted, but thanks to the `snapshot-retention` feature, snapshots
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in `/volumes/<VOLUME NAME>/<SUBVOLUME NAME>/.snap` will remain to be available.
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The CephFS mount should therefore have its root set to the parent of what
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`fs subvolume getpath` returns, i.e. `/volumes/<VOLUME NAME>/<SUBVOLUME NAME>`.
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That way we will have snapshots available regardless of whether the subvolume
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itself still exists or not.
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#### For case (b)
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For cases where subvolumes are managed externally and not by cephfs-csi, we must
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assume that the cephx user we're given can access only
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`/volumes/<VOLUME NAME>/<SUBVOLUME NAME>/<UUID>` so users won't be able to
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benefit from snapshot retention. Users will need to be careful not to delete the
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parent subvolumes and snapshots while they are associated by these shallow RO
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volumes.
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### `NodePublishVolume`, `NodeUnpublishVolume`
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Node publish is trivial. We bind staging path to target path as a read-only
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mount.
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### `NodeGetVolumeStats`
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`NodeGetVolumeStatsResponse.usage[*].available` should be always zero.
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## Volume parameters, volume context
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This section provides a discussion around determining what volume parameters and
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volume context parameters will be used to convey necessary information to the
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cephfs-csi driver in order to support shallow volumes.
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Volume parameters `CreateVolumeRequest.parameters`:
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* Should be "shallow" the default mode for all `CreateVolume` calls that have
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(a) snapshot as data source and (b) read-only volume access mode? If not, a
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new volume parameter should be introduced: e.g `isShallow: <bool>`. On the
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other hand, does it even makes sense for users to want to create full copies
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of snapshots and still have them read-only?
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Volume context `Volume.volume_context`:
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* Here we definitely need `isShallow` or similar. Without it we wouldn't be able
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to distinguish between a regular volume that just happens to have a read-only
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access mode, and a volume that references a snapshot.
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* Currently cephfs-csi recognizes `subvolumePath` for dynamically provisioned
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volumes and `rootPath` for pre-previsioned volumes. As mentioned in
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[`NodeStageVolume`, `NodeUnstageVolume` section](#NodeStageVolume-NodeUnstageVolume)
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, snapshots cannot be mounted directly. How do we pass in path to the parent
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subvolume?
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* a) Path to the snapshot is passed in via `subvolumePath` / `rootPath`,
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e.g.
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`/volumes/<VOLUME NAME>/<SUBVOLUME NAME>/<UUID>/.snap/<SNAPSHOT NAME>`.
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From that we can derive path to the subvolume: it's the parent of `.snap`
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directory.
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* b) Similar to a), path to the snapshot is passed in via `subvolumePath` /
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`rootPath`, but instead of trying to derive the right path we introduce
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another volume context parameter containing path to the parent subvolume
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explicitly.
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* c) `subvolumePath` / `rootPath` contains path to the parent subvolume and
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we introduce another volume context parameter containing name of the
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snapshot. Path to the snapshot is then formed by appending
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`/.snap/<SNAPSHOT NAME>` to the subvolume path.
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