Provided by: btrfs-progs_4.15.1-1build1_amd64 bug

NAME

       btrfs-filesystem - command group othat primarily does work on the whole filesystems

SYNOPSIS

       btrfs filesystem <subcommand> <args>

DESCRIPTION

       btrfs filesystem is used to perform several whole filesystem level tasks, including all
       the regular filesystem operations like resizing, space stats, label setting/getting, and
       defragmentation. There are other whole filesystem tasks like scrub or balance that are
       grouped in separate commands.

SUBCOMMAND

       df [options] <path>
           Show a terse summary information about allocation of block group types of a given
           mount point. The original purpose of this command was a debugging helper. The output
           needs to be further interpreted and is not suitable for quick overview.

           An example with description:

           •   device size: 1.9TiB, one device, no RAID

           •   filesystem size: 1.9TiB

           •   created with: mkfs.btrfs -d single -m single

               $ btrfs filesystem df /path
               Data, single: total=1.15TiB, used=1.13TiB
               System, single: total=32.00MiB, used=144.00KiB
               Metadata, single: total=12.00GiB, used=6.45GiB
               GlobalReserve, single: total=512.00MiB, used=0.00B

           •   Data, System and Metadata are separate block group types.  GlobalReserve is an
               artificial and internal emergency space, see below.

           •   single — the allocation profile, defined at mkfs time

           •   total — sum of space reserved for all allocation profiles of the given type, ie.
               all Data/single. Note that it’s not total size of filesystem.

           •   used — sum of used space of the above, ie. file extents, metadata blocks

           GlobalReserve is an artificial and internal emergency space. It is used eg. when the
           filesystem is full. Its total size is dynamic based on the filesystem size, usually
           not larger than 512MiB, used may fluctuate.

           The GlobalReserve is a portion of Metadata. In case the filesystem metadata is
           exhausted, GlobalReserve/total + Metadata/used = Metadata/total. Otherwise there
           appears to be some unused space of Metadata.

           Options

           -b|--raw
               raw numbers in bytes, without the B suffix

           -h|--human-readable
               print human friendly numbers, base 1024, this is the default

           -H
               print human friendly numbers, base 1000

           --iec
               select the 1024 base for the following options, according to the IEC standard

           --si
               select the 1000 base for the following options, according to the SI standard

           -k|--kbytes
               show sizes in KiB, or kB with --si

           -m|--mbytes
               show sizes in MiB, or MB with --si

           -g|--gbytes
               show sizes in GiB, or GB with --si

           -t|--tbytes
               show sizes in TiB, or TB with --si

               If conflicting options are passed, the last one takes precedence.

       defragment [options] <file>|<dir> [<file>|<dir>...]
           Defragment file data on a mounted filesystem. Requires kernel 2.6.33 and newer.

           If -r is passed, files in dir will be defragmented recursively. The start position and
           the number of bytes to defragment can be specified by start and length using -s and -l
           options below. Extents bigger than value given by -t will be skipped, otherwise this
           value is used as a target extent size, but is only advisory and may not be reached if
           the free space is too fragmented. Use 0 to take the kernel default, which is 256kB but
           may change in the future. You can also turn on compression in defragment operations.

               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 reflinks
               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 reflinks.

               Note
               Directory arguments without -r do not defragment files recursively but will
               defragment certain internal trees (extent tree and the subvolume tree). This has
               been confusing and could be removed in the future.
           For start, len, size it is possible to append units designator: 'K', 'M', 'G', 'T',
           'P', or 'E', which represent KiB, MiB, GiB, TiB, PiB, or EiB, respectively (case does
           not matter).

           Options

           -v
               be verbose, print file names as they’re submitted for defragmentation

           -c[<algo>]
               compress file contents while defragmenting. Optional argument selects the
               compression algorithm, zlib (default), lzo or zstd. Currently it’s not possible to
               select no compression. See also section EXAMPLES.

           -r
               defragment files recursively in given directories

           -f
               flush data for each file before going to the next file.

               This will limit the amount of dirty data to current file, otherwise the amount
               accumulates from several files and will increase system load. This can also lead
               to ENOSPC if there’s too much dirty data to write and it’s not possible to make
               the reservations for the new data (ie. how the COW design works).

           -s <start>[kKmMgGtTpPeE]
               defragmentation will start from the given offset, default is beginning of a file

           -l <len>[kKmMgGtTpPeE]
               defragment only up to len bytes, default is the file size

           -t <size>[kKmMgGtTpPeE]
               target extent size, do not touch extents bigger than size, default: 32M

               The value is only advisory and the final size of the extents may differ, depending
               on the state of the free space and fragmentation or other internal logic.
               Reasonable values are from tens to hundreds of megabytes.

       du [options] <path> [<path>..]
           Calculate disk usage of the target files using FIEMAP. For individual files, it will
           report a count of total bytes, and exclusive (not shared) bytes. We also calculate a
           set shared value which is described below.

           Each argument to btrfs filesystem du will have a set shared value calculated for it.
           We define each set as those files found by a recursive search of an argument. The set
           shared value then is a sum of all shared space referenced by the set.

           set shared takes into account overlapping shared extents, hence it isn’t as simple as
           adding up shared extents.

           Options

           -s|--summarize
               display only a total for each argument

           --raw
               raw numbers in bytes, without the B suffix.

           --human-readable
               print human friendly numbers, base 1024, this is the default

           --iec
               select the 1024 base for the following options, according to the IEC standard.

           --si
               select the 1000 base for the following options, according to the SI standard.

           --kbytes
               show sizes in KiB, or kB with --si.

           --mbytes
               show sizes in MiB, or MB with --si.

           --gbytes
               show sizes in GiB, or GB with --si.

           --tbytes
               show sizes in TiB, or TB with --si.

       label [<device>|<mountpoint>] [<newlabel>]
           Show or update the label of a filesystem. This works on a mounted filesystem or a
           filesystem image.

           The newlabel argument is optional. Current label is printed if the argument is
           omitted.

               Note
               the maximum allowable length shall be less than 256 chars and must not contain a
               newline. The trailing newline is stripped automatically.

       resize [<devid>:][+/-]<size>[kKmMgGtTpPeE]|[<devid>:]max <path>
           Resize a mounted filesystem identified by path. A particular device can be resized by
           specifying a devid.

               Warning
               If path is a file containing a BTRFS image then resize does not work as expected
               and does not resize the image. This would resize the underlying filesystem
               instead.
           The devid can be found in the output of btrfs filesystem show and defaults to 1 if not
           specified. The size parameter specifies the new size of the filesystem. If the prefix
           + or - is present the size is increased or decreased by the quantity size. If no units
           are specified, bytes are assumed for size. Optionally, the size parameter may be
           suffixed by one of the following unit designators: 'K', 'M', 'G', 'T', 'P', or 'E',
           which represent KiB, MiB, GiB, TiB, PiB, or EiB, respectively (case does not matter).

           If max is passed, the filesystem will occupy all available space on the device
           respecting devid (remember, devid 1 by default).

           The resize command does not manipulate the size of underlying partition. If you wish
           to enlarge/reduce a filesystem, you must make sure you can expand the partition before
           enlarging the filesystem and shrink the partition after reducing the size of the
           filesystem. This can done using fdisk(8) or parted(8) to delete the existing partition
           and recreate it with the new desired size. When recreating the partition make sure to
           use the same starting partition offset as before.

           Growing is usually instant as it only updates the size. However, shrinking could take
           a long time if there are data in the device area that’s beyond the new end. Relocation
           of the data takes time.

           See also section EXAMPLES.

       show [options] [<path>|<uuid>|<device>|<label>]
           Show the btrfs filesystem with some additional info about devices and space
           allocation.

           If no option none of path/uuid/device/label is passed, information about all the BTRFS
           filesystems is shown, both mounted and unmounted.

           Options

           -m|--mounted
               probe kernel for mounted BTRFS filesystems

           -d|--all-devices
               scan all devices under /dev, otherwise the devices list is extracted from the
               /proc/partitions file. This is a fallback option if there’s no device node manager
               (like udev) available in the system.

           --raw
               raw numbers in bytes, without the B suffix

           --human-readable
               print human friendly numbers, base 1024, this is the default

           --iec
               select the 1024 base for the following options, according to the IEC standard

           --si
               select the 1000 base for the following options, according to the SI standard

           --kbytes
               show sizes in KiB, or kB with --si

           --mbytes
               show sizes in MiB, or MB with --si

           --gbytes
               show sizes in GiB, or GB with --si

           --tbytes
               show sizes in TiB, or TB with --si

       sync <path>
           Force a sync of the filesystem at path. This is done via a special ioctl and will also
           trigger cleaning of deleted subvolumes. Besides that it’s equivalent to the sync(1)
           command.

       usage [options] <path> [<path>...]
           Show detailed information about internal filesystem usage. This is supposed to replace
           the btrfs filesystem df command in the long run.

           The level of detail can differ if the command is run under a regular or the root user
           (due to use of restricted ioctl). For both there’s a summary section with information
           about space usage:

               $ btrfs filesystem usage /path
               WARNING: cannot read detailed chunk info, RAID5/6 numbers will be incorrect, run as root
               Overall:
                   Device size:                   1.82TiB
                   Device allocated:              1.17TiB
                   Device unallocated:          669.99GiB
                   Device missing:                  0.00B
                   Used:                          1.14TiB
                   Free (estimated):            692.57GiB      (min: 692.57GiB)
                   Data ratio:                       1.00
                   Metadata ratio:                   1.00
                   Global reserve:              512.00MiB      (used: 0.00B)

           The root user will also see stats broken down by block group types:

               Data,single: Size:1.15TiB, Used:1.13TiB
                  /dev/sdb        1.15TiB

               Metadata,single: Size:12.00GiB, Used:6.45GiB
                  /dev/sdb       12.00GiB

               System,single: Size:32.00MiB, Used:144.00KiB
                  /dev/sdb       32.00MiB

               Unallocated:
                  /dev/sdb      669.99GiB

           Options

           -b|--raw
               raw numbers in bytes, without the B suffix

           -h|--human-readable
               print human friendly numbers, base 1024, this is the default

           -H
               print human friendly numbers, base 1000

           --iec
               select the 1024 base for the following options, according to the IEC standard

           --si
               select the 1000 base for the following options, according to the SI standard

           -k|--kbytes
               show sizes in KiB, or kB with --si

           -m|--mbytes
               show sizes in MiB, or MB with --si

           -g|--gbytes
               show sizes in GiB, or GB with --si

           -t|--tbytes
               show sizes in TiB, or TB with --si

           -T
               show data in tabular format

               If conflicting options are passed, the last one takes precedence.

EXAMPLES

       $ btrfs filesystem defrag -v -r dir/

       Recursively defragment files under dir/, print files as they are processed. The file names
       will be printed in batches, similarly the amount of data triggered by defragmentation will
       be proportional to last N printed files. The system dirty memory throttling will slow down
       the defragmentation but there can still be a lot of IO load and the system may stall for a
       moment.

       $ btrfs filesystem defrag -v -r -f dir/

       Recursively defragment files under dir/, be verbose and wait until all blocks are flushed
       before processing next file. You can note slower progress of the output and lower IO load
       (proportional to currently defragmented file).

       $ btrfs filesystem defrag -v -r -f -clzo dir/

       Recursively defragment files under dir/, be verbose, wait until all blocks are flushed and
       force file compression.

       $ btrfs filesystem defrag -v -r -t 64M dir/

       Recursively defragment files under dir/, be verbose and try to merge extents to be about
       64MiB. As stated above, the success rate depends on actual free space fragmentation and
       the final result is not guaranteed to meet the target even if run repeatedly.

       $ btrfs filesystem resize -1G /path

       $ btrfs filesystem resize 1:-1G /path

       Shrink size of the filesystem’s device id 1 by 1GiB. The first syntax expects a device
       with id 1 to exist, otherwise fails. The second is equivalent and more explicit. For a
       single-device filesystem it’s typically not necessary to specify the devid though.

       $ btrfs filesystem resize max /path

       $ btrfs filesystem resize 1:max /path

       Let’s assume that devid 1 exists and the filesystem does not occupy the whole block
       device, eg. it has been enlarged and we want to grow the filesystem. By simply using max
       as size we will achieve that.

           Note
           There are two ways to minimize the filesystem on a given device. The btrfs
           inspect-internal min-dev-size command, or iteratively shrink in steps.

EXIT STATUS

       btrfs filesystem returns a zero exit status if it succeeds. Non zero is returned in case
       of failure.

AVAILABILITY

       btrfs is part of btrfs-progs. Please refer to the btrfs wiki http://btrfs.wiki.kernel.org
       for further details.

SEE ALSO

       mkfs.btrfs(8),