BTRFS-MAN5(category21-suse.html) - phpMan

BTRFS-MAN5(5)                    Btrfs Manual                    BTRFS-MAN5(5)

NAME
       btrfs-man5 - topics about the BTRFS filesystem (mount options,
       supported file attributes and other)
DESCRIPTION
       This document describes topics related to BTRFS that are not specific
       to the tools. Currently covers:
        1. mount options
        2. filesystem features
        3. file attributes
        4. control device
MOUNT OPTIONS
       This section describes mount options specific to BTRFS. For the generic
       mount options please refer to mount(8) manpage. The options are sorted
       alphabetically (discarding the no prefix).
       acl, noacl
           (default: on)
           Enable/disable support for Posix Access Control Lists (ACLs). See
           the acl(5) manual page for more information about ACLs.
           The support for ACL is build-time configurable (BTRFS_FS_POSIX_ACL)
           and mount fails if acl is requested but the feature is not compiled
           in.
       alloc_start=bytes
           (default: 1M, minimum: 1M)
           Debugging option to force all block allocations above a certain
           byte threshold on each block device. The value is specified in
           bytes, optionally with a K, M, or G suffix (case insensitive).
           This option was used for testing and has no practical use, it's
           slated to be removed in the future.
       autodefrag, noautodefrag
           (since: 3.0, default: off)
           Enable automatic file defragmentation. When enabled, small random
           writes into files (in a range of tens of kilobytes, currently it's
           64K) are detected and queued up for the defragmentation process.
           Not well suited for large database workloads.
           The read latency may increase due to reading the adjacent blocks
           that make up the range for defragmentation, successive write will
           merge the blocks in the new location.
               Warning
               Defragmenting with Linux kernel versions < 3.9 or >= 3.14-rc2
               as well as with Linux stable kernel versions >= 3.10.31, >=
               3.12.12 or >= 3.13.4 will break up the ref-links of CoW data
               (for example files copied with cp --reflink, snapshots or
               de-duplicated data). This may cause considerable increase of
               space usage depending on the broken up ref-links.
       barrier, nobarrier
           (default: on)
           Ensure that all IO write operations make it through the device
           cache and are stored permanently when the filesystem is at it's
           consistency checkpoint. This typically means that a flush command
           is sent to the device that will synchronize all pending data and
           ordinary metadata blocks, then writes the superblock and issues
           another flush.
           The write flushes incur a slight hit and also prevent the IO block
           scheduler to reorder requests in a more effective way. Disabling
           barriers gets rid of that penalty but will most certainly lead to a
           corrupted filesystem in case of a crash or power loss. The ordinary
           metadata blocks could be yet unwritten at the time the new
           superblock is stored permanently, expecting that the block pointers
           to metadata were stored permanently before.
           On a device with a volatile battery-backed write-back cache, the
           nobarrier option will not lead to filesystem corruption as the
           pending blocks are supposed to make it to the permanent storage.
       check_int, check_int_data, check_int_print_mask=value
           (since: 3.0, default: off)
           These debugging options control the behavior of the integrity
           checking module (the BTRFS_FS_CHECK_INTEGRITY config option
           required).
           check_int enables the integrity checker module, which examines all
           block write requests to ensure on-disk consistency, at a large
           memory and CPU cost.
           check_int_data includes extent data in the integrity checks, and
           implies the check_int option.
           check_int_print_mask takes a bitmask of BTRFSIC_PRINT_MASK_* values
           as defined in fs/btrfs/check-integrity.c, to control the integrity
           checker module behavior.
           See comments at the top of fs/btrfs/check-integrity.c for more
           info.
       clear_cache
           Force clearing and rebuilding of the disk space cache if something
           has gone wrong. See also: space_cache.
       commit=seconds
           (since: 3.12, default: 30)
           Set the interval of periodic commit. Higher values defer data being
           synced to permanent storage with obvious consequences when the
           system crashes. The upper bound is not forced, but a warning is
           printed if it's more than 300 seconds (5 minutes).
       compress, compress=type, compress-force, compress-force=type
           (default: off)
           Control BTRFS file data compression. Type may be specified as zlib,
           lzo or no (for no compression, used for remounting). If no type is
           specified, zlib is used. If compress-force is specified, all files
           will be compressed, whether or not they compress well. Otherwise
           some simple heuristics are applied to detect an incompressible
           file. If the first blocks written to a file are not compressible,
           the whole file is permanently marked to skip compression.
               Note
               If compression is enabled, nodatacow and nodatasum are
               disabled.
       datacow, nodatacow
           (default: on)
           Enable data copy-on-write for newly created files.  Nodatacow
           implies nodatasum, and disables compression. All files created
           under nodatacow are also set the NOCOW file attribute (see
           chattr(1)).
               Note
               If nodatacow or nodatasum are enabled, compression is disabled.
       datasum, nodatasum
           (default: on)
           Enable data checksumming for newly created files.  Datasum implies
           datacow, ie. the normal mode of operation. All files created under
           nodatasum inherit the "no checksums" property, however there's no
           corresponding file attribute (see chattr(1)).
               Note
               If nodatacow or nodatasum are enabled, compression is disabled.
       degraded
           (default: off)
           Allow mounts with less devices than the raid profile constraints
           require. A read-write mount (or remount) may fail with too many
           devices missing, for example if a stripe member is completely
           missing from RAID0.
       device=devicepath
           Specify a path to a device that will be scanned for BTRFS
           filesystem during mount. This is usually done automatically by a
           device manager (like udev) or using the btrfs device scan command
           (eg. run from the initial ramdisk). In cases where this is not
           possible the device mount option can help.
               Note
               booting eg. a RAID1 system may fail even if all filesystem's
               device paths are provided as the actual device nodes may not be
               discovered by the system at that point.
       discard, nodiscard
           (default: off)
           Enable discarding of freed file blocks using TRIM operation. This
           is useful for SSD devices, thinly provisioned LUNs or virtual
           machine images where the backing device understands the operation.
           Depending on support of the underlying device, the operation may
           severely hurt performance in case the TRIM operation is synchronous
           (eg. with SATA devices up to revision 3.0).
           If discarding is not necessary to be done at the block freeing
           time, there's fstrim tool that lets the filesystem discard all free
           blocks in a batch, possibly not much interfering with other
           operations. Also, the the device may ignore the TRIM command if the
           range is too small, so running the batch discard can actually
           discard the blocks.
       enospc_debug, noenospc_debug
           (default: off)
           Enable verbose output for some ENOSPC conditions. It's safe to use
           but can be noisy if the system reaches near-full state.
       fatal_errors=action
           (since: 3.4, default: bug)
           Action to take when encountering a fatal error.
           bug
               BUG() on a fatal error, the system will stay in the crashed
               state and may be still partially usable, but reboot is required
               for full operation
           panic
               panic() on a fatal error, depending on other system
               configuration, this may be followed by a reboot. Please refer
               to the documentation of kernel boot parameters, eg.  panic,
               oops or crashkernel.
       flushoncommit, noflushoncommit
           (default: off)
           This option forces any data dirtied by a write in a prior
           transaction to commit as part of the current commit, effectively a
           full filesystem sync.
           This makes the committed state a fully consistent view of the file
           system from the application's perspective (i.e., it includes all
           completed file system operations). This was previously the behavior
           only when a snapshot was created.
           When off, the filesystem is consistent but buffered writes may last
           more than one transaction commit.
       fragment=type
           (depends on compile-time option BTRFS_DEBUG, since: 4.4, default:
           off)
           A debugging helper to intentionally fragment given type of block
           groups. The type can be data, metadata or all. This mount option
           should not be used outside of debugging environments and is not
           recognized if the kernel config option BTRFS_DEBUG is not enabled.
       inode_cache, noinode_cache
           (since: 3.0, default: off)
           Enable free inode number caching. Not recommended to use unless
           files on your filesystem get assigned inode numbers that are
           approaching 264. Normally, new files in each subvolume get assigned
           incrementally (plus one from the last time) and are not reused. The
           mount option turns on caching of the existing inode numbers and
           reuse of inode numbers of deleted files.
           This option may slow down your system at first run, or after
           mounting without the option.
               Note
               Defaults to off due to a potential overflow problem when the
               free space checksums don't fit inside a single page.
       logreplay, nologreplay
           (default: on, even read-only)
           Enable/disable log replay at mount time. See also treelog.
               Warning
               currently, the tree log is replayed even with a read-only
               mount! To disable that behaviour, mount also with nologreplay.
       max_inline=bytes
           (default: min(2048, page size) )
           Specify the maximum amount of space, in bytes, that can be inlined
           in a metadata B-tree leaf. The value is specified in bytes,
           optionally with a K suffix (case insensitive). In practice, this
           value is limited by the filesystem block size (named sectorsize at
           mkfs time), and memory page size of the system. In case of
           sectorsize limit, there's some space unavailable due to leaf
           headers. For example, a 4k sectorsize, maximum size of inline data
           is about 3900 bytes.
           Inlining can be completely turned off by specifying 0. This will
           increase data block slack if file sizes are much smaller than block
           size but will reduce metadata consumption in return.
               Note
               the default value has changed to 2048 in kernel 4.6.
       metadata_ratio=value
           (default: 0, internal logic)
           Specifies that 1 metadata chunk should be allocated after every
           value data chunks. Default behaviour depends on internal logic,
           some percent of unused metadata space is attempted to be maintained
           but is not always possible if there's not enough space left for
           chunk allocation. The option could be useful to override the
           internal logic in favor of the metadata allocation if the expected
           workload is supposed to be metadata intense (snapshots, reflinks,
           xattrs, inlined files).
       recovery
           (since: 3.2, default: off, deprecated since: 4.5)
               Note
               this option has been replaced by usebackuproot and should not
               be used but will work on 4.5+ kernels.
       norecovery
           (since: 4.5, default: off)
           Do not attempt any data recovery at mount time. This will disable
           logreplay and avoids other write operations.
               Note
               The opposite option recovery used to have different meaning but
               was changed for consistency with other filesystems, where
               norecovery is used for skipping log replay. BTRFS does the same
               and in general will try to avoid any write operations.
       rescan_uuid_tree
           (since: 3.12, default: off)
           Force check and rebuild procedure of the UUID tree. This should not
           normally be needed.
       skip_balance
           (since: 3.3, default: off)
           Skip automatic resume of interrupted balance operation after mount.
           May be resumed with btrfs balance resume or the paused state can be
           removed by btrfs balance cancel. The default behaviour is to start
           interrutpd balance.
       space_cache, space_cache=version, nospace_cache
           (nospace_cache since: 3.2, space_cache=v1 and space_cache=v2 since
           4.5, default: space_cache=v1)
           Options to control the free space cache. The free space cache
           greatly improves performance when reading block group free space
           into memory. However, managing the space cache consumes some
           resources, including a small amount of disk space.
           There are two implementations of the free space cache. The original
           implementation, v1, is the safe default. The v1 space cache can be
           disabled at mount time with nospace_cache without clearing.
           On very large filesystems (many terabytes) and certain workloads,
           the performance of the v1 space cache may degrade drastically. The
           v2 implementation, which adds a new B-tree called the free space
           tree, addresses this issue. Once enabled, the v2 space cache will
           always be used and cannot be disabled unless it is cleared. Use
           clear_cache,space_cache=v1 or clear_cache,nospace_cache to do so.
           If v2 is enabled, kernels without v2 support will only be able to
           mount the filesystem in read-only mode. The btrfs(8) command
           currently only has read-only support for v2. A read-write command
           may be run on a v2 filesystem by clearing the cache, running the
           command, and then remounting with space_cache=v2.
           If a version is not explicitly specified, the default
           implementation will be chosen, which is v1 as of 4.9.
       ssd, nossd, ssd_spread
           (default: SSD autodetected)
           Options to control SSD allocation schemes. By default, BTRFS will
           enable or disable SSD allocation heuristics depending on whether a
           rotational or non-rotational disk is in use (contents of
           /sys/block/DEV/queue/rotational). The ssd and nossd options can
           override this autodetection.
           The ssd_spread mount option attempts to allocate into bigger and
           aligned chunks of unused space, and may perform better on low-end
           SSDs.  ssd_spread implies ssd, enabling all other SSD heuristics as
           well.
       subvol=path
           Mount subvolume from path rather than the toplevel subvolume. The
           path is absolute (ie. starts at the toplevel subvolume). This mount
           option overrides the default subvolume set for the given
           filesystem.
       subvolid=subvolid
           Mount subvolume specified by a subvolid number rather than the
           toplevel subvolume. You can use btrfs subvolume list to see
           subvolume ID numbers. This mount option overrides the default
           subvolume set for the given filesystem.
               Note
               if both subvolid and subvol are specified, they must point at
               the same subvolume, otherwise mount will fail.
       subvolrootid=objectid
           (irrelevant since: 3.2, formally deprecated since: 3.10)
           A workaround option from times (pre 3.2) when it was not possible
           to mount a subvolume that did not reside directly under the
           toplevel subvolume.
       thread_pool=number
           (default: min(NRCPUS + 2, 8) )
           The number of worker threads to allocate. NRCPUS is number of
           on-line CPUs detected at the time of mount. Small number leads to
           less parallelism in processing data and metadata, higher numbers
           could lead to a performance hit due to increased locking
           contention, cache-line bouncing or costly data transfers between
           local CPU memories.
       treelog, notreelog
           (default: on)
           Enable the tree logging used for fsync and O_SYNC writes. The tree
           log stores changes without the need of a full filesystem sync. The
           log operations are flushed at sync and transaction commit. If the
           system crashes between two such syncs, the pending tree log
           operations are replayed during mount.
               Warning
               currently, the tree log is replayed even with a read-only
               mount! To disable that behaviour, mount also with nologreplay.
           The tree log could contain new files/directories, these would not
           exist on a mounted filesystem if the log is not replayed.
       usebackuproot, nousebackuproot
           Enable autorecovery attempts if a bad tree root is found at mount
           time. Currently this scans a backup list of several previous tree
           roots and tries to use the first readable. This can be used with
           read-only mounts as well.
               Note
               This option has replaced recovery.
       user_subvol_rm_allowed
           (default: off)
           Allow subvolumes to be deleted by their respective owner.
           Otherwise, only the root user can do that.
FILESYSTEM FEATURES
       The basic set of filesystem features gets extended over time. The
       backward compatibility is maintained and the features are optional,
       need to be explicitly asked for so accidental use will not create
       incompatibilities.
       There are several classes and the respective tools to manage the
       features:
       at mkfs time only
           This is namely for core structures, like the b-tree nodesize, see
           mkfs.btrfs(8) for more details.
       after mkfs, on an unmounted filesystem
           Features that may optimize internal structures or add new
           structures to support new functionality, see btrfstune(8). The
           command btrfs inspect-internal dump-super device will dump a
           superblock, you can map the value of incompat_flags to the features
           listed below
       after mkfs, on a mounted filesystem
           The features of a filesystem (with a given UUID) are listed in
           /sys/fs/btrfs/UUID/features/, one file per feature. The status of
           is stored insid the file. The value 1 is for enabled, 0 means the
           feature had been enabled at the mount time and turned off
           afterwards.
           Whether a particular feature can be turned on a mounted filesystem
           can be found in the directory /sys/fs/btrfs/features/, one file per
           feature. The value 1 means the feature can be enabled.
       List of features (see also mkfs.btrfs(8) section FILESYSTEM FEATURES):
       big_metadata
           (since: 3.4)
           the filesystem uses nodesize bigger than the page size
           compress_lzo:: (since: 2.6.38)
           the lzo compression has been used on the filesystem, either as a
           mount option or via btrfs filesystem defrag.
       default_subvol
           (since: 2.6.34)
           the default subvolume has been set on the filesystem
       extended_iref
           (since: 3.7)
           increased hardlink limit per file in a directory to 65536, older
           kernels supported a varying number of hardlinks depending on the
           sum of all file name sizes that can be stored into one metadata
           block
       mixed_backref
           (since: 2.6.31)
           the last major disk format change, improved backreferences
       mixed_groups
           (since: 2.6.37)
           mixed data and metadata block groups, ie. the data and metadata are
           not separated and occupy the same block groups, this mode is
           suitable for small volumes as there are no constraints how the
           remaining space should be used (compared to the split mode, where
           empty metadata space cannot be used for data and vice versa)
           on the other hand, the final layout is quite unpredictable and
           possibly highly fragmented, which means worse performance
       no_holes
           (since: 3.14) improved representation of file extents where holes
           are not explicitly stored as an extent, saves a few percent of
           metadata if sparse files are used
       raid56
           (since: 3.9)
           the filesystem contains or contained a raid56 profile of block
           groups
       skinny_metadata
           (since: 3.10)
           reduced-size metadata for extent references, saves a few percent of
           metadata
FILE ATTRIBUTES
       The btrfs filesystem supports setting the following file attributes
       using the chattr(1) utility:
       a
           append only, new writes are always written at the end of the file
       A
           no atime updates
       c
           compress data, all data written after this attribute is set will be
           compressed. Please note that compression is also affected by the
           mount options or the parent directory attributes.
           When set on a directory, all newly created files will inherit this
           attribute.
       C
           no copy-on-write, file modifications are done in-place
           When set on a directory, all newly created files will inherit this
           attribute.
               Note
               due to implementation limitations, this flag can be set/unset
               only on empty files.
       d
           no dump, makes sense with 3rd party tools like dump(8), on BTRFS
           the attribute can be set/unset on no other special handling is done
       D
           synchronous directory updates, for more details search open(2) for
           O_SYNC and O_DSYNC
       i
           immutable, no file data and metadata changes allowed even to the
           root user as long as this attribute is set (obviously the exception
           is unsetting the attribute)
       S
           synchronous updates, for more details search open(2) for O_SYNC and
           O_DSYNC
       X
           no compression, permanently turn off compression on the given file,
           other compression mount options will not affect that
           When set on a directory, all newly created files will inherit this
           attribute.
       No other attributes are supported. For the complete list please refer
       to the chattr(1) manual page.
CONTROL DEVICE
       There's a character special device /dev/btrfs-control with major and
       minor numbers 10 and 234 (the device can be found under the misc
       category).
           $ ls -l /dev/btrfs-control
           crw------- 1 root root 10, 234 Jan  1 12:00 /dev/btrfs-control
       The device accepts some ioctl calls that can perform following actions
       on the filesyste module:
       o   scan devices for btrfs filesystem (ie. to let multi-device
           filesystems mount automatically) and register them with the kernel
           module
       o   similar to scan, but also wait until the device scanning process is
           finished for a given filesystem
       o   get the supported features (can be also found under
           /sys/fs/btrfs/features)
       The device is usually created by ..., but can be created manually:
           # mknod --mode=600 c 10 234 /dev/btrfs-control
       The device is not strictly required but the device scanning will not
       work and a workaround would need to be used to mount a multi-device
       filesystem. The mount option device can trigger the device scanning
       during mount.
SEE ALSO
       acl(5), btrfs(8), chattr(1), fstrim(8), ioctl(2), mkfs.btrfs(8),
       mount(8)

Btrfs v4.9.1                      08/06/2017                     BTRFS-MAN5(5)