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494 lines
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ReStructuredText
494 lines
23 KiB
ReStructuredText
BTRFS SPECIFIC MOUNT OPTIONS
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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This section describes mount options specific to BTRFS. For the generic mount
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options please refer to ``mount(8)`` manual page. The options are sorted alphabetically
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(discarding the *no* prefix).
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.. note::
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Most mount options apply to the whole filesystem and only options in the
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first mounted subvolume will take effect. This is due to lack of implementation
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and may change in the future. This means that (for example) you can't set
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per-subvolume *nodatacow*, *nodatasum*, or *compress* using mount options. This
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should eventually be fixed, but it has proved to be difficult to implement
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correctly within the Linux VFS framework.
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Mount options are processed in order, only the last occurrence of an option
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takes effect and may disable other options due to constraints (see e.g.
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*nodatacow* and *compress*). The output of **mount** command shows which options
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have been applied.
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acl, noacl
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(default: on)
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Enable/disable support for POSIX Access Control Lists (ACLs). See the
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``acl(5)`` manual page for more information about ACLs.
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The support for ACL is build-time configurable (BTRFS_FS_POSIX_ACL) and
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mount fails if *acl* is requested but the feature is not compiled in.
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autodefrag, noautodefrag
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(since: 3.0, default: off)
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Enable automatic file defragmentation.
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When enabled, small random writes into files (in a range of tens of kilobytes,
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currently it's 64KiB) are detected and queued up for the defragmentation process.
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Not well suited for large database workloads.
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The read latency may increase due to reading the adjacent blocks that make up the
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range for defragmentation, successive write will merge the blocks in the new
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location.
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.. warning::
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Defragmenting with Linux kernel versions < 3.9 or ≥ 3.14-rc2 as
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well as with Linux stable kernel versions ≥ 3.10.31, ≥ 3.12.12 or
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≥ 3.13.4 will break up the reflinks of COW data (for example files
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copied with **cp --reflink**, snapshots or de-duplicated data).
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This may cause considerable increase of space usage depending on the
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broken up reflinks.
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barrier, nobarrier
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(default: on)
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Ensure that all IO write operations make it through the device cache and are stored
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permanently when the filesystem is at its consistency checkpoint. This
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typically means that a flush command is sent to the device that will
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synchronize all pending data and ordinary metadata blocks, then writes the
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superblock and issues another flush.
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The write flushes incur a slight hit and also prevent the IO block
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scheduler to reorder requests in a more effective way. Disabling barriers gets
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rid of that penalty but will most certainly lead to a corrupted filesystem in
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case of a crash or power loss. The ordinary metadata blocks could be yet
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unwritten at the time the new superblock is stored permanently, expecting that
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the block pointers to metadata were stored permanently before.
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On a device with a volatile battery-backed write-back cache, the *nobarrier*
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option will not lead to filesystem corruption as the pending blocks are
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supposed to make it to the permanent storage.
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check_int, check_int_data, check_int_print_mask=<value>
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(since: 3.0, default: off)
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These debugging options control the behavior of the integrity checking
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module (the BTRFS_FS_CHECK_INTEGRITY config option required). The main goal is
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to verify that all blocks from a given transaction period are properly linked.
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*check_int* enables the integrity checker module, which examines all
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block write requests to ensure on-disk consistency, at a large
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memory and CPU cost.
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*check_int_data* includes extent data in the integrity checks, and
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implies the *check_int* option.
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*check_int_print_mask* takes a bitmask of BTRFSIC_PRINT_MASK_* values
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as defined in *fs/btrfs/check-integrity.c*, to control the integrity
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checker module behavior.
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See comments at the top of *fs/btrfs/check-integrity.c*
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for more information.
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clear_cache
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Force clearing and rebuilding of the disk space cache if something
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has gone wrong. See also: *space_cache*.
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commit=<seconds>
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(since: 3.12, default: 30)
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Set the interval of periodic transaction commit when data are synchronized
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to permanent storage. Higher interval values lead to larger amount of unwritten
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data, which has obvious consequences when the system crashes.
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The upper bound is not forced, but a warning is printed if it's more than 300
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seconds (5 minutes). Use with care.
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compress, compress=<type[:level]>, compress-force, compress-force=<type[:level]>
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(default: off, level support since: 5.1)
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Control BTRFS file data compression. Type may be specified as *zlib*,
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*lzo*, *zstd* or *no* (for no compression, used for remounting). If no type
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is specified, *zlib* is used. If *compress-force* is specified,
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then compression will always be attempted, but the data may end up uncompressed
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if the compression would make them larger.
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Both *zlib* and *zstd* (since version 5.1) expose the compression level as a
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tunable knob with higher levels trading speed and memory (*zstd*) for higher
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compression ratios. This can be set by appending a colon and the desired level.
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ZLIB accepts the range [1, 9] and ZSTD accepts [1, 15]. If no level is set,
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both currently use a default level of 3. The value 0 is an alias for the
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default level.
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Otherwise some simple heuristics are applied to detect an incompressible file.
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If the first blocks written to a file are not compressible, the whole file is
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permanently marked to skip compression. As this is too simple, the
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*compress-force* is a workaround that will compress most of the files at the
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cost of some wasted CPU cycles on failed attempts.
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Since kernel 4.15, a set of heuristic algorithms have been improved by using
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frequency sampling, repeated pattern detection and Shannon entropy calculation
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to avoid that.
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.. note::
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If compression is enabled, *nodatacow* and *nodatasum* are disabled.
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datacow, nodatacow
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(default: on)
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Enable data copy-on-write for newly created files.
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*Nodatacow* implies *nodatasum*, and disables *compression*. All files created
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under *nodatacow* are also set the NOCOW file attribute (see ``chattr(1)``).
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.. note::
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If *nodatacow* or *nodatasum* are enabled, compression is disabled.
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Updates in-place improve performance for workloads that do frequent overwrites,
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at the cost of potential partial writes, in case the write is interrupted
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(system crash, device failure).
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datasum, nodatasum
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(default: on)
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Enable data checksumming for newly created files.
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*Datasum* implies *datacow*, i.e. the normal mode of operation. All files created
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under *nodatasum* inherit the "no checksums" property, however there's no
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corresponding file attribute (see ``chattr(1)``).
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.. note::
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If *nodatacow* or *nodatasum* are enabled, compression is disabled.
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There is a slight performance gain when checksums are turned off, the
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corresponding metadata blocks holding the checksums do not need to updated.
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The cost of checksumming of the blocks in memory is much lower than the IO,
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modern CPUs feature hardware support of the checksumming algorithm.
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degraded
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(default: off)
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Allow mounts with less devices than the RAID profile constraints
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require. A read-write mount (or remount) may fail when there are too many devices
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missing, for example if a stripe member is completely missing from RAID0.
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Since 4.14, the constraint checks have been improved and are verified on the
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chunk level, not at the device level. This allows degraded mounts of
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filesystems with mixed RAID profiles for data and metadata, even if the
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device number constraints would not be satisfied for some of the profiles.
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Example: metadata -- raid1, data -- single, devices -- /dev/sda, /dev/sdb
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Suppose the data are completely stored on *sda*, then missing *sdb* will not
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prevent the mount, even if 1 missing device would normally prevent (any)
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*single* profile to mount. In case some of the data chunks are stored on *sdb*,
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then the constraint of single/data is not satisfied and the filesystem
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cannot be mounted.
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device=<devicepath>
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Specify a path to a device that will be scanned for BTRFS filesystem during
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mount. This is usually done automatically by a device manager (like udev) or
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using the **btrfs device scan** command (e.g. run from the initial ramdisk). In
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cases where this is not possible the *device* mount option can help.
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.. note::
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Booting e.g. a RAID1 system may fail even if all filesystem's *device*
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paths are provided as the actual device nodes may not be discovered by the
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system at that point.
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discard, discard=sync, discard=async, nodiscard
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(default: off, async support since: 5.6)
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Enable discarding of freed file blocks. This is useful for SSD devices, thinly
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provisioned LUNs, or virtual machine images; however, every storage layer must
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support discard for it to work.
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In the synchronous mode (*sync* or without option value), lack of asynchronous
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queued TRIM on the backing device TRIM can severely degrade performance,
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because a synchronous TRIM operation will be attempted instead. Queued TRIM
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requires newer than SATA revision 3.1 chipsets and devices.
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The asynchronous mode (*async*) gathers extents in larger chunks before sending
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them to the devices for TRIM. The overhead and performance impact should be
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negligible compared to the previous mode and it's supposed to be the preferred
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mode if needed.
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If it is not necessary to immediately discard freed blocks, then the ``fstrim``
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tool can be used to discard all free blocks in a batch. Scheduling a TRIM
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during a period of low system activity will prevent latent interference with
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the performance of other operations. Also, a device may ignore the TRIM command
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if the range is too small, so running a batch discard has a greater probability
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of actually discarding the blocks.
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enospc_debug, noenospc_debug
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(default: off)
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Enable verbose output for some ENOSPC conditions. It's safe to use but can
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be noisy if the system reaches near-full state.
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fatal_errors=<action>
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(since: 3.4, default: bug)
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Action to take when encountering a fatal error.
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bug
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*BUG()* on a fatal error, the system will stay in the crashed state and may be
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still partially usable, but reboot is required for full operation
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panic
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*panic()* on a fatal error, depending on other system configuration, this may
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be followed by a reboot. Please refer to the documentation of kernel boot
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parameters, e.g. *panic*, *oops* or *crashkernel*.
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flushoncommit, noflushoncommit
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(default: off)
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This option forces any data dirtied by a write in a prior transaction to commit
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as part of the current commit, effectively a full filesystem sync.
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This makes the committed state a fully consistent view of the file system from
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the application's perspective (i.e. it includes all completed file system
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operations). This was previously the behavior only when a snapshot was
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created.
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When off, the filesystem is consistent but buffered writes may last more than
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one transaction commit.
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fragment=<type>
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(depends on compile-time option BTRFS_DEBUG, since: 4.4, default: off)
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A debugging helper to intentionally fragment given *type* of block groups. The
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type can be *data*, *metadata* or *all*. This mount option should not be used
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outside of debugging environments and is not recognized if the kernel config
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option *BTRFS_DEBUG* is not enabled.
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nologreplay
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(default: off, even read-only)
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The tree-log contains pending updates to the filesystem until the full commit.
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The log is replayed on next mount, this can be disabled by this option. See
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also *treelog*. Note that *nologreplay* is the same as *norecovery*.
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.. warning::
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Currently, the tree log is replayed even with a read-only mount! To
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disable that behaviour, mount also with *nologreplay*.
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max_inline=<bytes>
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(default: min(2048, page size) )
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Specify the maximum amount of space, that can be inlined in
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a metadata b-tree leaf. The value is specified in bytes, optionally
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with a K suffix (case insensitive). In practice, this value
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is limited by the filesystem block size (named *sectorsize* at mkfs time),
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and memory page size of the system. In case of sectorsize limit, there's
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some space unavailable due to leaf headers. For example, a 4KiB sectorsize,
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maximum size of inline data is about 3900 bytes.
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Inlining can be completely turned off by specifying 0. This will increase data
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block slack if file sizes are much smaller than block size but will reduce
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metadata consumption in return.
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.. note::
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The default value has changed to 2048 in kernel 4.6.
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metadata_ratio=<value>
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(default: 0, internal logic)
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Specifies that 1 metadata chunk should be allocated after every *value* data
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chunks. Default behaviour depends on internal logic, some percent of unused
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metadata space is attempted to be maintained but is not always possible if
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there's not enough space left for chunk allocation. The option could be useful to
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override the internal logic in favor of the metadata allocation if the expected
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workload is supposed to be metadata intense (snapshots, reflinks, xattrs,
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inlined files).
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norecovery
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(since: 4.5, default: off)
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Do not attempt any data recovery at mount time. This will disable *logreplay*
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and avoids other write operations. Note that this option is the same as
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*nologreplay*.
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.. note::
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The opposite option *recovery* used to have different meaning but was
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changed for consistency with other filesystems, where *norecovery* is used for
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skipping log replay. BTRFS does the same and in general will try to avoid any
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write operations.
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rescan_uuid_tree
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(since: 3.12, default: off)
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Force check and rebuild procedure of the UUID tree. This should not
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normally be needed.
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rescue
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(since: 5.9)
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Modes allowing mount with damaged filesystem structures.
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* *usebackuproot* (since: 5.9, replaces standalone option *usebackuproot*)
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* *nologreplay* (since: 5.9, replaces standalone option *nologreplay*)
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* *ignorebadroots*, *ibadroots* (since: 5.11)
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* *ignoredatacsums*, *idatacsums* (since: 5.11)
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* *all* (since: 5.9)
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skip_balance
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(since: 3.3, default: off)
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Skip automatic resume of an interrupted balance operation. The operation can
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later be resumed with **btrfs balance resume**, or the paused state can be
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removed with **btrfs balance cancel**. The default behaviour is to resume an
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interrupted balance immediately after a volume is mounted.
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space_cache, space_cache=<version>, nospace_cache
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(*nospace_cache* since: 3.2, *space_cache=v1* and *space_cache=v2* since 4.5, default: *space_cache=v1*)
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Options to control the free space cache. The free space cache greatly improves
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performance when reading block group free space into memory. However, managing
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the space cache consumes some resources, including a small amount of disk
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space.
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There are two implementations of the free space cache. The original
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one, referred to as *v1*, is the safe default. The *v1* space cache can be
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disabled at mount time with *nospace_cache* without clearing.
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On very large filesystems (many terabytes) and certain workloads, the
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performance of the *v1* space cache may degrade drastically. The *v2*
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implementation, which adds a new b-tree called the free space tree, addresses
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this issue. Once enabled, the *v2* space cache will always be used and cannot
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be disabled unless it is cleared. Use *clear_cache,space_cache=v1* or
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*clear_cache,nospace_cache* to do so. If *v2* is enabled, kernels without *v2*
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support will only be able to mount the filesystem in read-only mode.
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The :doc:`btrfs-check(8)<btrfs-check>` and `:doc:`mkfs.btrfs(8)<mkfs.btrfs>` commands have full *v2* free space
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cache support since v4.19.
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If a version is not explicitly specified, the default implementation will be
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chosen, which is *v1*.
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ssd, ssd_spread, nossd, nossd_spread
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(default: SSD autodetected)
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Options to control SSD allocation schemes. By default, BTRFS will
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enable or disable SSD optimizations depending on status of a device with
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respect to rotational or non-rotational type. This is determined by the
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contents of */sys/block/DEV/queue/rotational*). If it is 0, the *ssd* option is
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turned on. The option *nossd* will disable the autodetection.
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The optimizations make use of the absence of the seek penalty that's inherent
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for the rotational devices. The blocks can be typically written faster and
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are not offloaded to separate threads.
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.. note::
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Since 4.14, the block layout optimizations have been dropped. This used
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to help with first generations of SSD devices. Their FTL (flash translation
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layer) was not effective and the optimization was supposed to improve the wear
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by better aligning blocks. This is no longer true with modern SSD devices and
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the optimization had no real benefit. Furthermore it caused increased
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fragmentation. The layout tuning has been kept intact for the option
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*ssd_spread*.
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The *ssd_spread* mount option attempts to allocate into bigger and aligned
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chunks of unused space, and may perform better on low-end SSDs. *ssd_spread*
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implies *ssd*, enabling all other SSD heuristics as well. The option *nossd*
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will disable all SSD options while *nossd_spread* only disables *ssd_spread*.
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subvol=<path>
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Mount subvolume from *path* rather than the toplevel subvolume. The
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*path* is always treated as relative to the toplevel subvolume.
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This mount option overrides the default subvolume set for the given filesystem.
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subvolid=<subvolid>
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Mount subvolume specified by a *subvolid* number rather than the toplevel
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subvolume. You can use **btrfs subvolume list** of **btrfs subvolume show** to see
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subvolume ID numbers.
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This mount option overrides the default subvolume set for the given filesystem.
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.. note::
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If both *subvolid* and *subvol* are specified, they must point at the
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same subvolume, otherwise the mount will fail.
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thread_pool=<number>
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(default: min(NRCPUS + 2, 8) )
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The number of worker threads to start. NRCPUS is number of on-line CPUs
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detected at the time of mount. Small number leads to less parallelism in
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processing data and metadata, higher numbers could lead to a performance hit
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due to increased locking contention, process scheduling, cache-line bouncing or
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costly data transfers between local CPU memories.
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treelog, notreelog
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(default: on)
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Enable the tree logging used for *fsync* and *O_SYNC* writes. The tree log
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stores changes without the need of a full filesystem sync. The log operations
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are flushed at sync and transaction commit. If the system crashes between two
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such syncs, the pending tree log operations are replayed during mount.
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.. warning::
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Currently, the tree log is replayed even with a read-only mount! To
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disable that behaviour, also mount with *nologreplay*.
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The tree log could contain new files/directories, these would not exist on
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a mounted filesystem if the log is not replayed.
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usebackuproot
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(since: 4.6, default: off)
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Enable autorecovery attempts if a bad tree root is found at mount time.
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Currently this scans a backup list of several previous tree roots and tries to
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use the first readable. This can be used with read-only mounts as well.
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.. note::
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This option has replaced *recovery*.
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user_subvol_rm_allowed
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(default: off)
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Allow subvolumes to be deleted by their respective owner. Otherwise, only the
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root user can do that.
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.. note::
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Historically, any user could create a snapshot even if he was not owner
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of the source subvolume, the subvolume deletion has been restricted for that
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reason. The subvolume creation has been restricted but this mount option is
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still required. This is a usability issue.
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Since 4.18, the ``rmdir(2)`` syscall can delete an empty subvolume just like an
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ordinary directory. Whether this is possible can be detected at runtime, see
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*rmdir_subvol* feature in *FILESYSTEM FEATURES*.
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DEPRECATED MOUNT OPTIONS
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^^^^^^^^^^^^^^^^^^^^^^^^
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List of mount options that have been removed, kept for backward compatibility.
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recovery
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(since: 3.2, default: off, deprecated since: 4.5)
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.. note::
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This option has been replaced by *usebackuproot* and should not be used
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but will work on 4.5+ kernels.
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inode_cache, noinode_cache
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(removed in: 5.11, since: 3.0, default: off)
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.. note::
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The functionality has been removed in 5.11, any stale data created by
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previous use of the *inode_cache* option can be removed by **btrfs check
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--clear-ino-cache**.
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NOTES ON GENERIC MOUNT OPTIONS
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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Some of the general mount options from ``mount(8)`` that affect BTRFS and are
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worth mentioning.
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noatime
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under read intensive work-loads, specifying *noatime* significantly improves
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performance because no new access time information needs to be written. Without
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this option, the default is *relatime*, which only reduces the number of
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inode atime updates in comparison to the traditional *strictatime*. The worst
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case for atime updates under *relatime* occurs when many files are read whose
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atime is older than 24 h and which are freshly snapshotted. In that case the
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atime is updated and COW happens - for each file - in bulk. See also
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https://lwn.net/Articles/499293/ - *Atime and btrfs: a bad combination? (LWN, 2012-05-31)*.
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Note that *noatime* may break applications that rely on atime uptimes like
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the venerable Mutt (unless you use maildir mailboxes).
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