.. index:: control, commands ================== Control Commands ================== Monitor Commands ================ Monitor commands are issued using the ``ceph`` utility: .. prompt:: bash $ ceph [-m monhost] {command} The command is usually (though not always) of the form: .. prompt:: bash $ ceph {subsystem} {command} System Commands =============== Execute the following to display the current cluster status. : .. prompt:: bash $ ceph -s ceph status Execute the following to display a running summary of cluster status and major events. : .. prompt:: bash $ ceph -w Execute the following to show the monitor quorum, including which monitors are participating and which one is the leader. : .. prompt:: bash $ ceph mon stat ceph quorum_status Execute the following to query the status of a single monitor, including whether or not it is in the quorum. : .. prompt:: bash $ ceph tell mon.[id] mon_status where the value of ``[id]`` can be determined, e.g., from ``ceph -s``. Authentication Subsystem ======================== To add a keyring for an OSD, execute the following: .. prompt:: bash $ ceph auth add {osd} {--in-file|-i} {path-to-osd-keyring} To list the cluster's keys and their capabilities, execute the following: .. prompt:: bash $ ceph auth ls Placement Group Subsystem ========================= To display the statistics for all placement groups (PGs), execute the following: .. prompt:: bash $ ceph pg dump [--format {format}] The valid formats are ``plain`` (default), ``json`` ``json-pretty``, ``xml``, and ``xml-pretty``. When implementing monitoring and other tools, it is best to use ``json`` format. JSON parsing is more deterministic than the human-oriented ``plain``, and the layout is much less variable from release to release. The ``jq`` utility can be invaluable when extracting data from JSON output. To display the statistics for all placement groups stuck in a specified state, execute the following: .. prompt:: bash $ ceph pg dump_stuck inactive|unclean|stale|undersized|degraded [--format {format}] [-t|--threshold {seconds}] ``--format`` may be ``plain`` (default), ``json``, ``json-pretty``, ``xml``, or ``xml-pretty``. ``--threshold`` defines how many seconds "stuck" is (default: 300) **Inactive** Placement groups cannot process reads or writes because they are waiting for an OSD with the most up-to-date data to come back. **Unclean** Placement groups contain objects that are not replicated the desired number of times. They should be recovering. **Stale** Placement groups are in an unknown state - the OSDs that host them have not reported to the monitor cluster in a while (configured by ``mon_osd_report_timeout``). Delete "lost" objects or revert them to their prior state, either a previous version or delete them if they were just created. : .. prompt:: bash $ ceph pg {pgid} mark_unfound_lost revert|delete .. _osd-subsystem: OSD Subsystem ============= Query OSD subsystem status. : .. prompt:: bash $ ceph osd stat Write a copy of the most recent OSD map to a file. See :ref:`osdmaptool `. : .. prompt:: bash $ ceph osd getmap -o file Write a copy of the crush map from the most recent OSD map to file. : .. prompt:: bash $ ceph osd getcrushmap -o file The foregoing is functionally equivalent to : .. prompt:: bash $ ceph osd getmap -o /tmp/osdmap osdmaptool /tmp/osdmap --export-crush file Dump the OSD map. Valid formats for ``-f`` are ``plain``, ``json``, ``json-pretty``, ``xml``, and ``xml-pretty``. If no ``--format`` option is given, the OSD map is dumped as plain text. As above, JSON format is best for tools, scripting, and other automation. : .. prompt:: bash $ ceph osd dump [--format {format}] Dump the OSD map as a tree with one line per OSD containing weight and state. : .. prompt:: bash $ ceph osd tree [--format {format}] Find out where a specific object is or would be stored in the system: .. prompt:: bash $ ceph osd map

Add or move a new item (OSD) with the given id/name/weight at the specified location. : .. prompt:: bash $ ceph osd crush set {id} {weight} [{loc1} [{loc2} ...]] Remove an existing item (OSD) from the CRUSH map. : .. prompt:: bash $ ceph osd crush remove {name} Remove an existing bucket from the CRUSH map. : .. prompt:: bash $ ceph osd crush remove {bucket-name} Move an existing bucket from one position in the hierarchy to another. : .. prompt:: bash $ ceph osd crush move {id} {loc1} [{loc2} ...] Set the weight of the item given by ``{name}`` to ``{weight}``. : .. prompt:: bash $ ceph osd crush reweight {name} {weight} Mark an OSD as ``lost``. This may result in permanent data loss. Use with caution. : .. prompt:: bash $ ceph osd lost {id} [--yes-i-really-mean-it] Create a new OSD. If no UUID is given, it will be set automatically when the OSD starts up. : .. prompt:: bash $ ceph osd create [{uuid}] Remove the given OSD(s). : .. prompt:: bash $ ceph osd rm [{id}...] Query the current ``max_osd`` parameter in the OSD map. : .. prompt:: bash $ ceph osd getmaxosd Import the given crush map. : .. prompt:: bash $ ceph osd setcrushmap -i file Set the ``max_osd`` parameter in the OSD map. This defaults to 10000 now so most admins will never need to adjust this. : .. prompt:: bash $ ceph osd setmaxosd Mark OSD ``{osd-num}`` down. : .. prompt:: bash $ ceph osd down {osd-num} Mark OSD ``{osd-num}`` out of the distribution (i.e. allocated no data). : .. prompt:: bash $ ceph osd out {osd-num} Mark ``{osd-num}`` in the distribution (i.e. allocated data). : .. prompt:: bash $ ceph osd in {osd-num} Set or clear the pause flags in the OSD map. If set, no IO requests will be sent to any OSD. Clearing the flags via unpause results in resending pending requests. : .. prompt:: bash $ ceph osd pause ceph osd unpause Set the override weight (reweight) of ``{osd-num}`` to ``{weight}``. Two OSDs with the same weight will receive roughly the same number of I/O requests and store approximately the same amount of data. ``ceph osd reweight`` sets an override weight on the OSD. This value is in the range 0 to 1, and forces CRUSH to re-place (1-weight) of the data that would otherwise live on this drive. It does not change weights assigned to the buckets above the OSD in the crush map, and is a corrective measure in case the normal CRUSH distribution is not working out quite right. For instance, if one of your OSDs is at 90% and the others are at 50%, you could reduce this weight to compensate. : .. prompt:: bash $ ceph osd reweight {osd-num} {weight} Balance OSD fullness by reducing the override weight of OSDs which are overly utilized. Note that these override aka ``reweight`` values default to 1.00000 and are relative only to each other; they not absolute. It is crucial to distinguish them from CRUSH weights, which reflect the absolute capacity of a bucket in TiB. By default this command adjusts override weight on OSDs which have + or - 20% of the average utilization, but if you include a ``threshold`` that percentage will be used instead. : .. prompt:: bash $ ceph osd reweight-by-utilization [threshold [max_change [max_osds]]] [--no-increasing] To limit the step by which any OSD's reweight will be changed, specify ``max_change`` which defaults to 0.05. To limit the number of OSDs that will be adjusted, specify ``max_osds`` as well; the default is 4. Increasing these parameters can speed leveling of OSD utilization, at the potential cost of greater impact on client operations due to more data moving at once. To determine which and how many PGs and OSDs will be affected by a given invocation you can test before executing. : .. prompt:: bash $ ceph osd test-reweight-by-utilization [threshold [max_change max_osds]] [--no-increasing] Adding ``--no-increasing`` to either command prevents increasing any override weights that are currently < 1.00000. This can be useful when you are balancing in a hurry to remedy ``full`` or ``nearful`` OSDs or when some OSDs are being evacuated or slowly brought into service. Deployments utilizing Nautilus (or later revisions of Luminous and Mimic) that have no pre-Luminous cients may instead wish to instead enable the `balancer`` module for ``ceph-mgr``. Add/remove an IP address or CIDR range to/from the blocklist. When adding to the blocklist, you can specify how long it should be blocklisted in seconds; otherwise, it will default to 1 hour. A blocklisted address is prevented from connecting to any OSD. If you blocklist an IP or range containing an OSD, be aware that OSD will also be prevented from performing operations on its peers where it acts as a client. (This includes tiering and copy-from functionality.) If you want to blocklist a range (in CIDR format), you may do so by including the ``range`` keyword. These commands are mostly only useful for failure testing, as blocklists are normally maintained automatically and shouldn't need manual intervention. : .. prompt:: bash $ ceph osd blocklist ["range"] add ADDRESS[:source_port][/netmask_bits] [TIME] ceph osd blocklist ["range"] rm ADDRESS[:source_port][/netmask_bits] Creates/deletes a snapshot of a pool. : .. prompt:: bash $ ceph osd pool mksnap {pool-name} {snap-name} ceph osd pool rmsnap {pool-name} {snap-name} Creates/deletes/renames a storage pool. : .. prompt:: bash $ ceph osd pool create {pool-name} [pg_num [pgp_num]] ceph osd pool delete {pool-name} [{pool-name} --yes-i-really-really-mean-it] ceph osd pool rename {old-name} {new-name} Changes a pool setting. : .. prompt:: bash $ ceph osd pool set {pool-name} {field} {value} Valid fields are: * ``size``: Sets the number of copies of data in the pool. * ``pg_num``: The placement group number. * ``pgp_num``: Effective number when calculating pg placement. * ``crush_rule``: rule number for mapping placement. Get the value of a pool setting. : .. prompt:: bash $ ceph osd pool get {pool-name} {field} Valid fields are: * ``pg_num``: The placement group number. * ``pgp_num``: Effective number of placement groups when calculating placement. Sends a scrub command to OSD ``{osd-num}``. To send the command to all OSDs, use ``*``. : .. prompt:: bash $ ceph osd scrub {osd-num} Sends a repair command to OSD.N. To send the command to all OSDs, use ``*``. : .. prompt:: bash $ ceph osd repair N Runs a simple throughput benchmark against OSD.N, writing ``TOTAL_DATA_BYTES`` in write requests of ``BYTES_PER_WRITE`` each. By default, the test writes 1 GB in total in 4-MB increments. The benchmark is non-destructive and will not overwrite existing live OSD data, but might temporarily affect the performance of clients concurrently accessing the OSD. : .. prompt:: bash $ ceph tell osd.N bench [TOTAL_DATA_BYTES] [BYTES_PER_WRITE] To clear an OSD's caches between benchmark runs, use the 'cache drop' command : .. prompt:: bash $ ceph tell osd.N cache drop To get the cache statistics of an OSD, use the 'cache status' command : .. prompt:: bash $ ceph tell osd.N cache status MDS Subsystem ============= Change configuration parameters on a running mds. : .. prompt:: bash $ ceph tell mds.{mds-id} config set {setting} {value} Example: .. prompt:: bash $ ceph tell mds.0 config set debug_ms 1 Enables debug messages. : .. prompt:: bash $ ceph mds stat Displays the status of all metadata servers. : .. prompt:: bash $ ceph mds fail 0 Marks the active MDS as failed, triggering failover to a standby if present. .. todo:: ``ceph mds`` subcommands missing docs: set, dump, getmap, stop, setmap Mon Subsystem ============= Show monitor stats: .. prompt:: bash $ ceph mon stat :: e2: 3 mons at {a=127.0.0.1:40000/0,b=127.0.0.1:40001/0,c=127.0.0.1:40002/0}, election epoch 6, quorum 0,1,2 a,b,c The ``quorum`` list at the end lists monitor nodes that are part of the current quorum. This is also available more directly: .. prompt:: bash $ ceph quorum_status -f json-pretty .. code-block:: javascript { "election_epoch": 6, "quorum": [ 0, 1, 2 ], "quorum_names": [ "a", "b", "c" ], "quorum_leader_name": "a", "monmap": { "epoch": 2, "fsid": "ba807e74-b64f-4b72-b43f-597dfe60ddbc", "modified": "2016-12-26 14:42:09.288066", "created": "2016-12-26 14:42:03.573585", "features": { "persistent": [ "kraken" ], "optional": [] }, "mons": [ { "rank": 0, "name": "a", "addr": "127.0.0.1:40000\/0", "public_addr": "127.0.0.1:40000\/0" }, { "rank": 1, "name": "b", "addr": "127.0.0.1:40001\/0", "public_addr": "127.0.0.1:40001\/0" }, { "rank": 2, "name": "c", "addr": "127.0.0.1:40002\/0", "public_addr": "127.0.0.1:40002\/0" } ] } } The above will block until a quorum is reached. For a status of just a single monitor: .. prompt:: bash $ ceph tell mon.[name] mon_status where the value of ``[name]`` can be taken from ``ceph quorum_status``. Sample output:: { "name": "b", "rank": 1, "state": "peon", "election_epoch": 6, "quorum": [ 0, 1, 2 ], "features": { "required_con": "9025616074522624", "required_mon": [ "kraken" ], "quorum_con": "1152921504336314367", "quorum_mon": [ "kraken" ] }, "outside_quorum": [], "extra_probe_peers": [], "sync_provider": [], "monmap": { "epoch": 2, "fsid": "ba807e74-b64f-4b72-b43f-597dfe60ddbc", "modified": "2016-12-26 14:42:09.288066", "created": "2016-12-26 14:42:03.573585", "features": { "persistent": [ "kraken" ], "optional": [] }, "mons": [ { "rank": 0, "name": "a", "addr": "127.0.0.1:40000\/0", "public_addr": "127.0.0.1:40000\/0" }, { "rank": 1, "name": "b", "addr": "127.0.0.1:40001\/0", "public_addr": "127.0.0.1:40001\/0" }, { "rank": 2, "name": "c", "addr": "127.0.0.1:40002\/0", "public_addr": "127.0.0.1:40002\/0" } ] } } A dump of the monitor state: .. prompt:: bash $ ceph mon dump :: dumped monmap epoch 2 epoch 2 fsid ba807e74-b64f-4b72-b43f-597dfe60ddbc last_changed 2016-12-26 14:42:09.288066 created 2016-12-26 14:42:03.573585 0: 127.0.0.1:40000/0 mon.a 1: 127.0.0.1:40001/0 mon.b 2: 127.0.0.1:40002/0 mon.c