Provided by: xfsprogs_6.8.0-2.2ubuntu2_amd64 bug

NAME

       xfs_scrub - check and repair the contents of a mounted XFS filesystem

SYNOPSIS

       xfs_scrub [ -abCemnTvx ] mount-point
       xfs_scrub -V

DESCRIPTION

       xfs_scrub attempts to check and repair all metadata in a mounted XFS filesystem.

       WARNING!   This program is EXPERIMENTAL, which means that its behavior and interface could
       change at any time!

       xfs_scrub asks the kernel to scrub all  metadata  objects  in  the  filesystem.   Metadata
       records  are  scanned  for  obviously  bad  values and then cross-referenced against other
       metadata.  The goal is to establish a reasonable confidence about the consistency  of  the
       overall filesystem by examining the consistency of individual metadata records against the
       other metadata in the filesystem.  Damaged metadata can be rebuilt from other metadata  if
       there exists redundant data structures which are intact.

       Filesystem  corruption and optimization opportunities will be logged to the standard error
       stream.  Enabling verbose mode will increase the amount of status information sent to  the
       output.

       If the kernel scrub reports that metadata needs repairs or optimizations and the user does
       not pass -n on the command line, this program will ask the kernel to make the repairs  and
       to perform the optimizations.  See the sections about optimizations and repairs for a list
       of optimizations and repairs known to this program.  The kernel may not support  repairing
       or  optimizing  the filesystem.  If this is the case, the filesystem must be unmounted and
       xfs_repair(8) run on the filesystem to fix the problems.

OPTIONS

       -a errors
              Abort if more than this many errors are found on the filesystem.

       -b     Run in background mode.  If the  option  is  specified  once,  only  run  a  single
              scrubbing  thread at a time.  If given more than once, an artificial delay of 100us
              is added to each scrub call to reduce CPU overhead even further.

       -C fd  This option causes xfs_scrub to write progress information to  the  specified  file
              description  so that the progress of the filesystem check can be monitored.  If the
              file description is a tty, a fancy progress bar is rendered.  Otherwise,  a  simple
              numeric status dump compatible with the fsck -C format is output.

       -e     Specifies  what  happens  when  errors  are  detected.   If  shutdown is given, the
              filesystem will be taken offline if errors are found.  If  continue  is  given,  no
              action is taken if errors are found; this is the default behavior.

       -k     Do not call TRIM on the free space.

       -m file
              Search this file for mounted filesystems instead of /etc/mtab.

       -n     Only check filesystem metadata.  Do not repair or optimize anything.

       -T     Print timing and memory usage information for each phase.

       -v     Enable verbose mode, which prints periodic status updates.

       -V     Prints the version number and exits.

       -x     Read  all file data extents to look for disk errors.  xfs_scrub will issue O_DIRECT
              reads to the block device directly.  If the block device is a SCSI  disk,  it  will
              instead  issue  READ  VERIFY  commands  directly  to the disk.  If media errors are
              found, the error report will include the disk  offset,  in  bytes.   If  the  media
              errors  affect  a  file,  the  report  will  also include the inode number and file
              offset, in bytes.  These actions will confirm that all file data blocks can be read
              from storage.

OPTIMIZATIONS

       Optimizations supported by this program include, but are not limited to:

       • Instructing the underlying storage to discard unused extents via the TRIM ioctl.

       • Updating secondary superblocks to match the primary superblock.

       • Turning off shared block write checks for files that no longer share blocks.

REPAIRS

       Repairs  are  performed  by  calling  into  the  kernel.   This limits the scope of repair
       activities to rebuilding primary  data  structures  from  secondary  data  structures,  or
       secondary  structures from primary structures.  The existence of secondary data structures
       may require features that can only be turned on from mkfs.xfs(8).   If  errors  cannot  be
       repaired,  the  filesystem  must be unmounted and xfs_repair(8) run.  Repairs supported by
       the kernel include, but are not limited to:

       • Reconstructing extent allocation data.

       • Rebuilding free space information.

       • Rebuilding inode indexes.

       • Fixing minor corruptions of inode records.

       • Recalculating reference count information.

       • Reconstructing reverse mapping data from primary extent allocation data.

       • Scheduling a quotacheck for the next mount.

       If corrupt metadata is successfully repaired, this program will  log  that  a  repair  has
       succeeded instead of a corruption report.

EXIT CODE

       The exit code returned by xfs_scrub is the sum of the following conditions:
            0    - No errors
            1    - File system errors left uncorrected
            2    - File system optimizations possible
            4    - Operational error
            8    - Usage or syntax error

CAVEATS

       xfs_scrub is an immature utility!  Do not run this program unless you have backups of your
       data!  This program takes  advantage  of  in-kernel  scrubbing  to  verify  a  given  data
       structure  with  locks  held and can keep the filesystem busy for a long time.  The kernel
       must be new enough to support the SCRUB_METADATA ioctl.

       If errors are found and cannot be repaired, the filesystem must be unmounted and repaired.

SEE ALSO

       xfs_repair(8).

                                                                                     xfs_scrub(8)