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+
+Disaster recovery
+=================
+
+.. danger::
+
+    The notes in this section are aimed at experts, making a best effort
+    to recovery what they can from damaged filesystems.  These steps
+    have the potential to make things worse as well as better.  If you
+    are unsure, do not proceed.
+
+
+Journal export
+--------------
+
+Before attempting dangerous operations, make a copy of the journal like so:
+
+::
+
+    cephfs-journal-tool journal export backup.bin
+
+Note that this command may not always work if the journal is badly corrupted,
+in which case a RADOS-level copy should be made (http://tracker.ceph.com/issues/9902).
+
+
+Dentry recovery from journal
+----------------------------
+
+If a journal is damaged or for any reason an MDS is incapable of replaying it,
+attempt to recover what file metadata we can like so:
+
+::
+
+    cephfs-journal-tool event recover_dentries summary
+
+This command by default acts on MDS rank 0, pass --rank=<n> to operate on other ranks.
+
+This command will write any inodes/dentries recoverable from the journal
+into the backing store, if these inodes/dentries are higher-versioned
+than the previous contents of the backing store.  If any regions of the journal
+are missing/damaged, they will be skipped.
+
+Note that in addition to writing out dentries and inodes, this command will update
+the InoTables of each 'in' MDS rank, to indicate that any written inodes' numbers
+are now in use.  In simple cases, this will result in an entirely valid backing
+store state.
+
+.. warning::
+
+    The resulting state of the backing store is not guaranteed to be self-consistent,
+    and an online MDS scrub will be required afterwards.  The journal contents
+    will not be modified by this command, you should truncate the journal
+    separately after recovering what you can.
+
+Journal truncation
+------------------
+
+If the journal is corrupt or MDSs cannot replay it for any reason, you can
+truncate it like so:
+
+::
+
+    cephfs-journal-tool journal reset
+
+.. warning::
+
+    Resetting the journal *will* lose metadata unless you have extracted
+    it by other means such as ``recover_dentries``.  It is likely to leave
+    some orphaned objects in the data pool.  It may result in re-allocation
+    of already-written inodes, such that permissions rules could be violated.
+
+MDS table wipes
+---------------
+
+After the journal has been reset, it may no longer be consistent with respect
+to the contents of the MDS tables (InoTable, SessionMap, SnapServer).
+
+To reset the SessionMap (erase all sessions), use:
+
+::
+
+    cephfs-table-tool all reset session
+
+This command acts on the tables of all 'in' MDS ranks.  Replace 'all' with an MDS
+rank to operate on that rank only.
+
+The session table is the table most likely to need resetting, but if you know you
+also need to reset the other tables then replace 'session' with 'snap' or 'inode'.
+
+MDS map reset
+-------------
+
+Once the in-RADOS state of the filesystem (i.e. contents of the metadata pool)
+is somewhat recovered, it may be necessary to update the MDS map to reflect
+the contents of the metadata pool.  Use the following command to reset the MDS
+map to a single MDS:
+
+::
+
+    ceph fs reset <fs name> --yes-i-really-mean-it
+
+Once this is run, any in-RADOS state for MDS ranks other than 0 will be ignored:
+as a result it is possible for this to result in data loss.
+
+One might wonder what the difference is between 'fs reset' and 'fs remove; fs new'.  The
+key distinction is that doing a remove/new will leave rank 0 in 'creating' state, such
+that it would overwrite any existing root inode on disk and orphan any existing files.  In
+contrast, the 'reset' command will leave rank 0 in 'active' state such that the next MDS
+daemon to claim the rank will go ahead and use the existing in-RADOS metadata.
+
+Recovery from missing metadata objects
+--------------------------------------
+
+Depending on what objects are missing or corrupt, you may need to
+run various commands to regenerate default versions of the
+objects.
+
+::
+
+    # Session table
+    cephfs-table-tool 0 reset session
+    # SnapServer
+    cephfs-table-tool 0 reset snap
+    # InoTable
+    cephfs-table-tool 0 reset inode
+    # Journal
+    cephfs-journal-tool --rank=0 journal reset
+    # Root inodes ("/" and MDS directory)
+    cephfs-data-scan init
+
+Finally, you can regenerate metadata objects for missing files
+and directories based on the contents of a data pool.  This is
+a three-phase process.  First, scanning *all* objects to calculate
+size and mtime metadata for inodes.  Second, scanning the first
+object from every file to collect this metadata and inject it into
+the metadata pool. Third, checking inode linkages and fixing found
+errors.
+
+::
+
+    cephfs-data-scan scan_extents <data pool>
+    cephfs-data-scan scan_inodes <data pool>
+    cephfs-data-scan scan_links
+
+'scan_extents' and 'scan_inodes' commands may take a *very long* time
+if there are many files or very large files in the data pool.
+
+To accelerate the process, run multiple instances of the tool.
+
+Decide on a number of workers, and pass each worker a number within
+the range 0-(worker_m - 1).
+
+The example below shows how to run 4 workers simultaneously:
+
+::
+
+    # Worker 0
+    cephfs-data-scan scan_extents --worker_n 0 --worker_m 4 <data pool>
+    # Worker 1
+    cephfs-data-scan scan_extents --worker_n 1 --worker_m 4 <data pool>
+    # Worker 2
+    cephfs-data-scan scan_extents --worker_n 2 --worker_m 4 <data pool>
+    # Worker 3
+    cephfs-data-scan scan_extents --worker_n 3 --worker_m 4 <data pool>
+
+    # Worker 0
+    cephfs-data-scan scan_inodes --worker_n 0 --worker_m 4 <data pool>
+    # Worker 1
+    cephfs-data-scan scan_inodes --worker_n 1 --worker_m 4 <data pool>
+    # Worker 2
+    cephfs-data-scan scan_inodes --worker_n 2 --worker_m 4 <data pool>
+    # Worker 3
+    cephfs-data-scan scan_inodes --worker_n 3 --worker_m 4 <data pool>
+
+It is **important** to ensure that all workers have completed the
+scan_extents phase before any workers enter the scan_inodes phase.
+
+After completing the metadata recovery, you may want to run cleanup
+operation to delete ancillary data geneated during recovery.
+
+::
+
+    cephfs-data-scan cleanup <data pool>
+
+Finding files affected by lost data PGs
+---------------------------------------
+
+Losing a data PG may affect many files.  Files are split into many objects,
+so identifying which files are affected by loss of particular PGs requires
+a full scan over all object IDs that may exist within the size of a file. 
+This type of scan may be useful for identifying which files require
+restoring from a backup.
+
+.. danger::
+
+    This command does not repair any metadata, so when restoring files in
+    this case you must *remove* the damaged file, and replace it in order
+    to have a fresh inode.  Do not overwrite damaged files in place.
+
+If you know that objects have been lost from PGs, use the ``pg_files``
+subcommand to scan for files that may have been damaged as a result:
+
+::
+
+    cephfs-data-scan pg_files <path> <pg id> [<pg id>...]
+
+For example, if you have lost data from PGs 1.4 and 4.5, and you would like
+to know which files under /home/bob might have been damaged:
+
+::
+
+    cephfs-data-scan pg_files /home/bob 1.4 4.5
+
+The output will be a list of paths to potentially damaged files, one
+per line.
+
+Note that this command acts as a normal CephFS client to find all the
+files in the filesystem and read their layouts, so the MDS must be
+up and running.
+
+Using an alternate metadata pool for recovery
+---------------------------------------------
+
+.. warning::
+
+   There has not been extensive testing of this procedure. It should be
+   undertaken with great care.
+
+If an existing filesystem is damaged and inoperative, it is possible to create
+a fresh metadata pool and attempt to reconstruct the filesystem metadata
+into this new pool, leaving the old metadata in place. This could be used to
+make a safer attempt at recovery since the existing metadata pool would not be
+overwritten.
+
+.. caution::
+
+   During this process, multiple metadata pools will contain data referring to
+   the same data pool. Extreme caution must be exercised to avoid changing the
+   data pool contents while this is the case. Once recovery is complete, the
+   damaged metadata pool should be deleted.
+
+To begin this process, first create the fresh metadata pool and initialize
+it with empty file system data structures:
+
+::
+
+    ceph fs flag set enable_multiple true --yes-i-really-mean-it
+    ceph osd pool create recovery <pg-num> replicated <crush-ruleset-name>
+    ceph fs new recovery-fs recovery <data pool> --allow-dangerous-metadata-overlay
+    cephfs-data-scan init --force-init --filesystem recovery-fs --alternate-pool recovery
+    ceph fs reset recovery-fs --yes-i-really-mean-it
+    cephfs-table-tool recovery-fs:all reset session
+    cephfs-table-tool recovery-fs:all reset snap
+    cephfs-table-tool recovery-fs:all reset inode
+
+Next, run the recovery toolset using the --alternate-pool argument to output
+results to the alternate pool:
+
+::
+
+    cephfs-data-scan scan_extents --alternate-pool recovery --filesystem <original filesystem name> <original data pool name>
+    cephfs-data-scan scan_inodes --alternate-pool recovery --filesystem <original filesystem name> --force-corrupt --force-init <original data pool name>
+    cephfs-data-scan scan_links --filesystem recovery-fs
+
+If the damaged filesystem contains dirty journal data, it may be recovered next
+with:
+
+::
+
+    cephfs-journal-tool --rank=<original filesystem name>:0 event recover_dentries list --alternate-pool recovery
+    cephfs-journal-tool --rank recovery-fs:0 journal reset --force
+
+After recovery, some recovered directories will have incorrect statistics.
+Ensure the parameters mds_verify_scatter and mds_debug_scatterstat are set
+to false (the default) to prevent the MDS from checking the statistics, then
+run a forward scrub to repair them. Ensure you have an MDS running and issue:
+
+::
+
+    ceph daemon mds.a scrub_path / recursive repair