169 lines
8.2 KiB
ReStructuredText
169 lines
8.2 KiB
ReStructuredText
A BTRFS subvolume is a part of filesystem with its own independent
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file/directory hierarchy and inode number namespace. Subvolumes can share file
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extents. A snapshot is also subvolume, but with a given initial content of the
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original subvolume. A subvolume has always inode number 256.
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.. note::
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A subvolume in BTRFS is not like an LVM logical volume, which is block-level
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snapshot while BTRFS subvolumes are file extent-based.
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A subvolume looks like a normal directory, with some additional operations
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described below. Subvolumes can be renamed or moved, nesting subvolumes is not
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restricted but has some implications regarding snapshotting. The numeric id
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(called *subvolid* or *rootid*) of the subvolume is persistent and cannot be
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changed.
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A subvolume in BTRFS can be accessed in two ways:
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* like any other directory that is accessible to the user
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* like a separately mounted filesystem (options *subvol* or *subvolid*)
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In the latter case the parent directory is not visible and accessible. This is
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similar to a bind mount, and in fact the subvolume mount does exactly that.
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A freshly created filesystem is also a subvolume, called *top-level*,
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internally has an id 5. This subvolume cannot be removed or replaced by another
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subvolume. This is also the subvolume that will be mounted by default, unless
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the default subvolume has been changed (see :ref:`btrfs subvolume set-default<man-subvolume-set-default>`).
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A snapshot is a subvolume like any other, with given initial content. By
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default, snapshots are created read-write. File modifications in a snapshot
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do not affect the files in the original subvolume.
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Subvolumes can be given capacity limits, through the qgroups/quota facility, but
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otherwise share the single storage pool of the whole btrfs filesystem. They may
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even share data between themselves (through deduplication or snapshotting).
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.. note::
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A snapshot is not a backup: snapshots work by use of BTRFS' copy-on-write
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behaviour. A snapshot and the original it was taken from initially share all
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of the same data blocks. If that data is damaged in some way (cosmic rays,
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bad disk sector, accident with dd to the disk), then the snapshot and the
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original will both be damaged. Snapshots are useful to have local online
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"copies" of the filesystem that can be referred back to, or to implement a
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form of deduplication, or to fix the state of a filesystem for making a full
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backup without anything changing underneath it. They do not in themselves
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make your data any safer.
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Subvolume flags
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---------------
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The subvolume flag currently implemented is the *ro* property (read-only
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status). Read-write subvolumes have that set to *false*, snapshots as *true*.
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In addition to that, a plain snapshot will also have last change generation and
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creation generation equal.
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Read-only snapshots are building blocks of incremental send (see
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:doc:`btrfs-send`) and the whole use case relies on unmodified snapshots where
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the relative changes are generated from. Thus, changing the subvolume flags
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from read-only to read-write will break the assumptions and may lead to
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unexpected changes in the resulting incremental stream.
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A snapshot that was created by send/receive will be read-only, with different
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last change generation, read-only and with set *received_uuid* which identifies
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the subvolume on the filesystem that produced the stream. The use case relies
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on matching data on both sides. Changing the subvolume to read-write after it
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has been received requires to reset the *received_uuid*. As this is a notable
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change and could potentially break the incremental send use case, performing
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it by :command:`btrfs property set` requires force if that is really desired by user.
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.. note::
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The safety checks have been implemented in 5.14.2, any subvolumes previously
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received (with a valid *received_uuid*) and read-write status may exist and
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could still lead to problems with send/receive. You can use :command:`btrfs subvolume show`
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to identify them. Flipping the flags to read-only and back to
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read-write will reset the *received_uuid* manually. There may exist a
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convenience tool in the future.
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Nested subvolumes
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-----------------
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There are no restrictions for subvolume creation, so it's up to the user how to
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organize them, whether to have a flat layout (all subvolumes are direct
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descendants of the toplevel one), or nested.
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What should be mentioned early is that a snapshotting is not recursive, so a
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subvolume or a snapshot is effectively a barrier and no files in the nested
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appear in the snapshot. Instead there's a stub subvolume (also sometimes
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*empty subvolume* with the same name as original subvolume, with inode number
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2). This can be used intentionally but could be confusing in case of nested
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layouts.
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Case study: system root layouts
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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There are two ways how the system root directory and subvolume layout could be
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organized. The interesting use case for root is to allow rollbacks to previous
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version, as one atomic step. If the entire filesystem hierarchy starting in :file:`/`
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is in one subvolume, taking snapshot will encompass all files. This is easy for
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the snapshotting part but has undesirable consequences for rollback. For example,
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log files would get rolled back too, or any data that are stored on the root
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filesystem but are not meant to be rolled back either (database files, VM
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images, ...).
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Here we could utilize the snapshotting barrier mentioned above, each directory
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that stores data to be preserved across rollbacks is it's own subvolume. This
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could be e.g. :file:`/var`. Further more-fine grained partitioning could be done, e.g.
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adding separate subvolumes for :file:`/var/log`, :file:`/var/cache` etc.
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That there are separate subvolumes requires separate actions to take the
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snapshots (here it gets disconnected from the system root snapshots). This needs
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to be taken care of by system tools, installers together with selection of which
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directories are highly recommended to be separate subvolumes.
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Mount options
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-------------
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Mount options are of two kinds, generic (that are handled by VFS layer) and
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specific, handled by the filesystem. The following list shows which are
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applicable to individual subvolume mounts, while there are more options that
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always affect the whole filesystem:
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- generic: noatime/relatime/..., nodev, nosuid, ro, rw, dirsync
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- fs-specific: compress, autodefrag, nodatacow, nodatasum
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An example of whole filesystem options is e.g. *space_cache*, *rescue*, *device*,
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*skip_balance*, etc. The exceptional options are *subvol* and *subvolid* that
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are actually used for mounting a given subvolume and can be specified only once
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for the mount.
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Subvolumes belong to a single filesystem and as implemented now all share the
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same specific mount options, changes done by remount have immediate effect. This
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may change in the future.
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Mounting a read-write snapshot as read-only is possible and will not change the
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*ro* property and flag of the subvolume.
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The name of the mounted subvolume is stored in file :file:`/proc/self/mountinfo` in
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the 4th column:
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.. code-block::
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27 21 0:19 /subv1 /mnt rw,relatime - btrfs /dev/sda rw,space_cache
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^^^^^^
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Inode numbers
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-------------
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A proper subvolume has always inode number 256. If a subvolume is nested and
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then a snapshot is taken, then the cloned directory entry representing the
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subvolume becomes empty and the inode has number 2. All other files and
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directories in the target snapshot preserve their original inode numbers.
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.. note::
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Inode number is not a filesystem-wide unique identifier, some applications
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assume that. Please use pair *subvolumeid:inodenumber* for that purpose.
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Performance
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-----------
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Subvolume creation needs to flush dirty data that belong to the subvolume, this
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step may take some time, otherwise once there's nothing else to do, the snapshot
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is instant and in the metadata it only creates a new tree root copy.
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Snapshot deletion has two phases: first its directory is deleted and the
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subvolume is added to a list, then the list is processed one by one and the
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data related to the subvolume get deleted. This is usually called *cleaning* and
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can take some time depending on the amount of shared blocks (can be a lot of
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metadata updates), and the number of currently queued deleted subvolumes.
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