371 lines
14 KiB
Plaintext
371 lines
14 KiB
Plaintext
btrfs-balance(8)
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================
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NAME
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----
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btrfs-balance - balance block groups on a btrfs filesystem
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SYNOPSIS
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--------
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*btrfs balance* <subcommand> <args>
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DESCRIPTION
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-----------
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The primary purpose of the balance feature is to spread block groups across
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all devices so they match constraints defined by the respective profiles. See
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`mkfs.btrfs`(8) section 'PROFILES' for more details.
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The scope of the balancing process can be further tuned by use of filters that
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can select the block groups to process. Balance works only on a mounted
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filesystem.
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The balance operation is cancellable by the user. The on-disk state of the
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filesystem is always consistent so an unexpected interruption (eg. system crash,
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reboot) does not corrupt the filesystem. The progress of the balance operation
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is temporarily stored and will be resumed upon mount, unless the mount option
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'skip_balance' is specified.
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WARNING: running balance without filters will take a lot of time as it basically
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rewrites the entire filesystem and needs to update all block pointers.
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The filters can be used to perform following actions:
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- convert block group profiles (filter 'convert')
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- make block group usage more compact (filter 'usage')
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- perform actions only on a given device (filters 'devid', 'drange')
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The filters can be applied to a combination of block group types (data,
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metadata, system). Note that changing 'system' needs the force option.
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NOTE: the balance operation needs enough work space, ie. space that is
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completely unused in the filesystem, otherwise this may lead to ENOSPC reports.
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See the section 'ENOSPC' for more details.
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COMPATIBILITY
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-------------
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NOTE: The balance subcommand also exists under the *btrfs filesystem*
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namespace. This still works for backward compatibility but is deprecated and
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should not be used anymore.
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NOTE: A short syntax *btrfs balance <path>* works due to backward compatibility
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but is deprecated and should not be used anymore. Use *btrfs balance start*
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command instead.
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PERFORMANCE IMPLICATIONS
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------------------------
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Balance operation is intense namely in the IO respect, but can be also CPU
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intense. It affects other actions on the filesystem. There are typically lots
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of data being copied from one location to another, and lots of metadata get
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updated.
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Depending on the actual block group layout, it can be also seek-heavy. The
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performance on rotational devices is noticeably worse than on SSDs or fast
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arrays.
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SUBCOMMAND
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----------
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*cancel* <path>::
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cancel running or paused balance, the command will block and wait until the
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actually processed blockgroup is finished
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*pause* <path>::
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pause running balance operation, this will store the state of the balance
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progress and used filters to the filesystem
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*resume* <path>::
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resume interrupted balance, the balance status must be stored on the filesystem
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from previous run, eg. after it was forcibly interrupted and mounted again with
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'skip_balance'
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*start* [options] <path>::
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start the balance operation according to the specified filters, no filters
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will rewrite the entire filesystem. The process runs in the foreground.
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+
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NOTE: the balance command without filters will basically rewrite everything
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in the filesystem. The run time is potentially very long, depending on the
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filesystem size. To prevent starting a full balance by accident, the user is
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warned and has a few seconds to cancel the operation before it starts. The
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warning and delay can be skipped with '--full-balance' option.
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+
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Please note that the filters must be written together with the '-d', '-m' and
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'-s' options, because they're optional and bare '-d' etc alwo work and mean no
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filters.
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`Options`
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-d[<filters>]::::
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act on data block groups, see `FILTERS` section for details about 'filters'
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-m[<filters>]::::
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act on metadata chunks, see `FILTERS` section for details about 'filters'
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-s[<filters>]::::
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act on system chunks (requires '-f'), see `FILTERS` section for details about 'filters'.
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-v::::
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be verbose and print balance filter arguments
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-f::::
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force reducing of metadata integrity, eg. when going from 'raid1' to 'single'
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--background|--bg::::
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run the balance operation asynchronously in the background, uses `fork`(2) to
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start the process that calls the kernel ioctl
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*status* [-v] <path>::
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Show status of running or paused balance.
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If '-v' option is given, output will be verbose.
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FILTERS
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-------
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From kernel 3.3 onwards, btrfs balance can limit its action to a subset of the
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whole filesystem, and can be used to change the replication configuration (e.g.
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moving data from single to RAID1). This functionality is accessed through the
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'-d', '-m' or '-s' options to btrfs balance start, which filter on data,
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metadata and system blocks respectively.
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A filter has the following structure: 'type'[='params'][,'type'=...]
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The available types are:
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*profiles=<profiles>*::
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Balances only block groups with the given profiles. Parameters
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are a list of profile names separated by "'|'" (pipe).
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*usage=<percent>*::
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*usage=<range>*::
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Balances only block groups with usage under the given percentage. The
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value of 0 is allowed and will clean up completely unused block groups, this
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should not require any new work space allocated. You may want to use 'usage=0'
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in case balance is returning ENOSPC and your filesystem is not too full.
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The argument may be a single value or a range. The single value 'N' means 'at
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most N percent used', equivalent to '..N' range syntax. Kernels prior to 4.4
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accept only the single value format.
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The minimum range boundary is inclusive, maximum is exclusive.
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*devid=<id>*::
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Balances only block groups which have at least one chunk on the given
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device. To list devices with ids use *btrfs fi show*.
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*drange=<range>*::
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Balance only block groups which overlap with the given byte range on any
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device. Use in conjunction with 'devid' to filter on a specific device. The
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parameter is a range specified as 'start..end'.
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*vrange=<range>*::
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Balance only block groups which overlap with the given byte range in the
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filesystem's internal virtual address space. This is the address space that
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most reports from btrfs in the kernel log use. The parameter is a range
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specified as 'start..end'.
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*convert=<profile>*::
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Convert each selected block group to the given profile name identified by
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parameters.
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NOTE: starting with kernel 4.5, the 'data' chunks can be converted to/from the
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'DUP' profile on a single device.
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NOTE: starting with kernel 4.6, all profiles can be converted to/from 'DUP' on
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multi-device filesystems.
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*limit=<number>*::
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*limit=<range>*::
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Process only given number of chunks, after all filters are applied. This can be
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used to specifically target a chunk in connection with other filters ('drange',
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'vrange') or just simply limit the amount of work done by a single balance run.
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The argument may be a single value or a range. The single value 'N' means 'at
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most N chunks', equivalent to '..N' range syntax. Kernels prior to 4.4 accept
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only the single value format. The range minimum and maximum are inclusive.
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*stripes=<range>*::
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Balance only block groups which have the given number of stripes. The parameter
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is a range specified as 'start..end'. Makes sense for block group profiles that
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utilize striping, ie. RAID0/10/5/6. The range minimum and maximum are
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inclusive.
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*soft*::
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Takes no parameters. Only has meaning when converting between profiles.
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When doing convert from one profile to another and soft mode is on,
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chunks that already have the target profile are left untouched.
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This is useful e.g. when half of the filesystem was converted earlier but got
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cancelled.
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The soft mode switch is (like every other filter) per-type.
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For example, this means that we can convert metadata chunks the "hard" way
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while converting data chunks selectively with soft switch.
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Profile names, used in 'profiles' and 'convert' are one of: 'raid0', 'raid1',
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'raid10', 'raid5', 'raid6', 'dup', 'single'. The mixed data/metadata profiles
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can be converted in the same way, but it's conversion between mixed and non-mixed
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is not implemented. For the constraints of the profiles please refer to `mkfs.btrfs`(8),
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section 'PROFILES'.
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ENOSPC
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------
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The way balance operates, it usually needs to temporarily create a new block
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group and move the old data there. For that it needs work space, otherwise
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it fails for ENOSPC reasons.
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This is not the same ENOSPC as if the free space is exhausted. This refers to
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the space on the level of block groups.
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The free work space can be calculated from the output of the *btrfs filesystem show*
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command:
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------------------------------
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Label: 'BTRFS' uuid: 8a9d72cd-ead3-469d-b371-9c7203276265
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Total devices 2 FS bytes used 77.03GiB
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devid 1 size 53.90GiB used 51.90GiB path /dev/sdc2
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devid 2 size 53.90GiB used 51.90GiB path /dev/sde1
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------------------------------
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'size' - 'used' = 'free work space' +
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'53.90GiB' - '51.90GiB' = '2.00GiB'
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An example of a filter that does not require workspace is 'usage=0'. This will
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scan through all unused block groups of a given type and will reclaim the
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space. After that it might be possible to run other filters.
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**CONVERSIONS ON MULTIPLE DEVICES**
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Conversion to profiles based on striping (RAID0, RAID5/6) require the work
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space on each device. An interrupted balance may leave partially filled block
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groups that might consume the work space.
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EXAMPLES
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--------
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A more comprehensive example when going from one to multiple devices, and back,
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can be found in section 'TYPICAL USECASES' of `btrfs-device`(8).
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MAKING BLOCK GROUP LAYOUT MORE COMPACT
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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The layout of block groups is not normally visible, most tools report only
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summarized numbers of free or used space, but there are still some hints
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provided.
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Let's use the following real life example and start with the output:
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--------------------
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$ btrfs fi df /path
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Data, single: total=75.81GiB, used=64.44GiB
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System, RAID1: total=32.00MiB, used=20.00KiB
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Metadata, RAID1: total=15.87GiB, used=8.84GiB
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GlobalReserve, single: total=512.00MiB, used=0.00B
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--------------------
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Roughly calculating for data, '75G - 64G = 11G', the used/total ratio is
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about '85%'. How can we can interpret that:
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* chunks are filled by 85% on average, ie. the 'usage' filter with anything
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smaller than 85 will likely not affect anything
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* in a more realistic scenario, the space is distributed unevenly, we can
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assume there are completely used chunks and the remaining are partially filled
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Compacting the layout could be used on both. In the former case it would spread
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data of a given chunk to the others and removing it. Here we can estimate that
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roughly 850 MiB of data have to be moved (85% of a 1 GiB chunk).
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In the latter case, targeting the partially used chunks will have to move less
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data and thus will be faster. A typical filter command would look like:
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# btrfs balance start -dusage=50 /path
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Done, had to relocate 2 out of 97 chunks
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$ btrfs fi df /path
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Data, single: total=74.03GiB, used=64.43GiB
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System, RAID1: total=32.00MiB, used=20.00KiB
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Metadata, RAID1: total=15.87GiB, used=8.84GiB
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GlobalReserve, single: total=512.00MiB, used=0.00B
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--------------------
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As you can see, the 'total' amount of data is decreased by just 1 GiB, which is
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an expected result. Let's see what will happen when we increase the estimated
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usage filter.
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--------------------
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# btrfs balance start -dusage=85 /path
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Done, had to relocate 13 out of 95 chunks
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$ btrfs fi df /path
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Data, single: total=68.03GiB, used=64.43GiB
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System, RAID1: total=32.00MiB, used=20.00KiB
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Metadata, RAID1: total=15.87GiB, used=8.85GiB
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GlobalReserve, single: total=512.00MiB, used=0.00B
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--------------------
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Now the used/total ratio is about 94% and we moved about '74G - 68G = 6G' of
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data to the remaining blockgroups, ie. the 6GiB are now free of filesystem
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structures, and can be reused for new data or metadata block groups.
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We can do a similar exercise with the metadata block groups, but this should
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not be typically necessary, unless the used/total ration is really off. Here
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the ratio is roughly 50% but the difference as an absolute number is "a few
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gigabytes", which can be considered normal for a workload with snapshots or
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reflinks updated frequently.
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--------------------
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# btrfs balance start -musage=50 /path
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Done, had to relocate 4 out of 89 chunks
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$ btrfs fi df /path
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Data, single: total=68.03GiB, used=64.43GiB
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System, RAID1: total=32.00MiB, used=20.00KiB
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Metadata, RAID1: total=14.87GiB, used=8.85GiB
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GlobalReserve, single: total=512.00MiB, used=0.00B
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--------------------
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Just 1 GiB decrease, which possibly means there are block groups with good
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utilization. Making the metadata layout more compact would in turn require
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updating more metadata structures, ie. lots of IO. As running out of metadata
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space is a more severe problem, it's not necessary to keep the utilization
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ratio too high. For the purpose of this example, let's see the effects of
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further compaction:
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--------------------
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# btrfs balance start -musage=70 /path
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Done, had to relocate 13 out of 88 chunks
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$ btrfs fi df .
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Data, single: total=68.03GiB, used=64.43GiB
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System, RAID1: total=32.00MiB, used=20.00KiB
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Metadata, RAID1: total=11.97GiB, used=8.83GiB
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GlobalReserve, single: total=512.00MiB, used=0.00B
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--------------------
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GETTING RID OF COMPLETELY UNUSED BLOCK GROUPS
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Normally the balance operation needs a work space, to temporarily move the
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data before the old block groups gets removed. If there's no work space, it
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ends with 'no space left'.
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There's a special case when the block groups are completely unused, possibly
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left after removing lots of files or deleting snapshots. Removing empty block
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groups is automatic since 3.18. The same can be achieved manually with a
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notable exception that this operation does not require the work space. Thus it
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can be used to reclaim unused block groups to make it available.
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--------------------
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# btrfs balance start -dusage=0 /path
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--------------------
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This should lead to decrease in the 'total' numbers in the *btrfs fi df* output.
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EXIT STATUS
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-----------
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*btrfs balance* returns a zero exit status if it succeeds. Non zero is
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returned in case of failure.
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AVAILABILITY
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------------
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*btrfs* is part of btrfs-progs.
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Please refer to the btrfs wiki http://btrfs.wiki.kernel.org for
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further details.
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SEE ALSO
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--------
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`mkfs.btrfs`(8),
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`btrfs-device`(8)
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