============= Health checks ============= Overview ======== There is a finite set of possible health messages that a Ceph cluster can raise -- these are defined as *health checks* which have unique identifiers. The identifier is a terse pseudo-human-readable (i.e. like a variable name) string. It is intended to enable tools (such as UIs) to make sense of health checks, and present them in a way that reflects their meaning. This page lists the health checks that are raised by the monitor and manager daemons. In addition to these, you may also see health checks that originate from MDS daemons (see :doc:`/cephfs/health-messages`), and health checks that are defined by ceph-mgr python modules. Definitions =========== OSDs ---- OSD_DOWN ________ One or more OSDs are marked down. The ceph-osd daemon may have been stopped, or peer OSDs may be unable to reach the OSD over the network. Common causes include a stopped or crashed daemon, a down host, or a network outage. Verify the host is healthy, the daemon is started, and network is functioning. If the daemon has crashed, the daemon log file (``/var/log/ceph/ceph-osd.*``) may contain debugging information. OSD__DOWN _____________________ (e.g. OSD_HOST_DOWN, OSD_ROOT_DOWN) All the OSDs within a particular CRUSH subtree are marked down, for example all OSDs on a host. OSD_ORPHAN __________ An OSD is referenced in the CRUSH map hierarchy but does not exist. The OSD can be removed from the CRUSH hierarchy with:: ceph osd crush rm osd. OSD_OUT_OF_ORDER_FULL _____________________ The utilization thresholds for `backfillfull`, `nearfull`, `full`, and/or `failsafe_full` are not ascending. In particular, we expect `backfillfull < nearfull`, `nearfull < full`, and `full < failsafe_full`. The thresholds can be adjusted with:: ceph osd set-backfillfull-ratio ceph osd set-nearfull-ratio ceph osd set-full-ratio OSD_FULL ________ One or more OSDs has exceeded the `full` threshold and is preventing the cluster from servicing writes. Utilization by pool can be checked with:: ceph df The currently defined `full` ratio can be seen with:: ceph osd dump | grep full_ratio A short-term workaround to restore write availability is to raise the full threshold by a small amount:: ceph osd set-full-ratio New storage should be added to the cluster by deploying more OSDs or existing data should be deleted in order to free up space. OSD_BACKFILLFULL ________________ One or more OSDs has exceeded the `backfillfull` threshold, which will prevent data from being allowed to rebalance to this device. This is an early warning that rebalancing may not be able to complete and that the cluster is approaching full. Utilization by pool can be checked with:: ceph df OSD_NEARFULL ____________ One or more OSDs has exceeded the `nearfull` threshold. This is an early warning that the cluster is approaching full. Utilization by pool can be checked with:: ceph df OSDMAP_FLAGS ____________ One or more cluster flags of interest has been set. These flags include: * *full* - the cluster is flagged as full and cannot service writes * *pauserd*, *pausewr* - paused reads or writes * *noup* - OSDs are not allowed to start * *nodown* - OSD failure reports are being ignored, such that the monitors will not mark OSDs `down` * *noin* - OSDs that were previously marked `out` will not be marked back `in` when they start * *noout* - down OSDs will not automatically be marked out after the configured interval * *nobackfill*, *norecover*, *norebalance* - recovery or data rebalancing is suspended * *noscrub*, *nodeep_scrub* - scrubbing is disabled * *notieragent* - cache tiering activity is suspended With the exception of *full*, these flags can be set or cleared with:: ceph osd set ceph osd unset OSD_FLAGS _________ One or more OSDs has a per-OSD flag of interest set. These flags include: * *noup*: OSD is not allowed to start * *nodown*: failure reports for this OSD will be ignored * *noin*: if this OSD was previously marked `out` automatically after a failure, it will not be marked in when it stats * *noout*: if this OSD is down it will not automatically be marked `out` after the configured interval Per-OSD flags can be set and cleared with:: ceph osd add- ceph osd rm- For example, :: ceph osd rm-nodown osd.123 OLD_CRUSH_TUNABLES __________________ The CRUSH map is using very old settings and should be updated. The oldest tunables that can be used (i.e., the oldest client version that can connect to the cluster) without triggering this health warning is determined by the ``mon_crush_min_required_version`` config option. See :doc:`/rados/operations/crush-map/#tunables` for more information. OLD_CRUSH_STRAW_CALC_VERSION ____________________________ The CRUSH map is using an older, non-optimal method for calculating intermediate weight values for ``straw`` buckets. The CRUSH map should be updated to use the newer method (``straw_calc_version=1``). See :doc:`/rados/operations/crush-map/#tunables` for more information. CACHE_POOL_NO_HIT_SET _____________________ One or more cache pools is not configured with a *hit set* to track utilization, which will prevent the tiering agent from identifying cold objects to flush and evict from the cache. Hit sets can be configured on the cache pool with:: ceph osd pool set hit_set_type ceph osd pool set hit_set_period ceph osd pool set hit_set_count ceph osd pool set hit_set_fpp OSD_NO_SORTBITWISE __________________ No pre-luminous v12.y.z OSDs are running but the ``sortbitwise`` flag has not been set. The ``sortbitwise`` flag must be set before luminous v12.y.z or newer OSDs can start. You can safely set the flag with:: ceph osd set sortbitwise POOL_FULL _________ One or more pools has reached its quota and is no longer allowing writes. Pool quotas and utilization can be seen with:: ceph df detail You can either raise the pool quota with:: ceph osd pool set-quota max_objects ceph osd pool set-quota max_bytes or delete some existing data to reduce utilization. Data health (pools & placement groups) -------------------------------------- PG_AVAILABILITY _______________ Data availability is reduced, meaning that the cluster is unable to service potential read or write requests for some data in the cluster. Specifically, one or more PGs is in a state that does not allow IO requests to be serviced. Problematic PG states include *peering*, *stale*, *incomplete*, and the lack of *active* (if those conditions do not clear quickly). Detailed information about which PGs are affected is available from:: ceph health detail In most cases the root cause is that one or more OSDs is currently down; see the dicussion for ``OSD_DOWN`` above. The state of specific problematic PGs can be queried with:: ceph tell query PG_DEGRADED ___________ Data redundancy is reduced for some data, meaning the cluster does not have the desired number of replicas for all data (for replicated pools) or erasure code fragments (for erasure coded pools). Specifically, one or more PGs: * has the *degraded* or *undersized* flag set, meaning there are not enough instances of that placement group in the cluster; * has not had the *clean* flag set for some time. Detailed information about which PGs are affected is available from:: ceph health detail In most cases the root cause is that one or more OSDs is currently down; see the dicussion for ``OSD_DOWN`` above. The state of specific problematic PGs can be queried with:: ceph tell query PG_DEGRADED_FULL ________________ Data redundancy may be reduced or at risk for some data due to a lack of free space in the cluster. Specifically, one or more PGs has the *backfill_toofull* or *recovery_toofull* flag set, meaning that the cluster is unable to migrate or recover data because one or more OSDs is above the *backfillfull* threshold. See the discussion for *OSD_BACKFILLFULL* or *OSD_FULL* above for steps to resolve this condition. PG_DAMAGED __________ Data scrubbing has discovered some problems with data consistency in the cluster. Specifically, one or more PGs has the *inconsistent* or *snaptrim_error* flag is set, indicating an earlier scrub operation found a problem, or that the *repair* flag is set, meaning a repair for such an inconsistency is currently in progress. See :doc:`pg-repair` for more information. OSD_SCRUB_ERRORS ________________ Recent OSD scrubs have uncovered inconsistencies. This error is generally paired with *PG_DAMANGED* (see above). See :doc:`pg-repair` for more information. CACHE_POOL_NEAR_FULL ____________________ A cache tier pool is nearly full. Full in this context is determined by the ``target_max_bytes`` and ``target_max_objects`` properties on the cache pool. Once the pool reaches the target threshold, write requests to the pool may block while data is flushed and evicted from the cache, a state that normally leads to very high latencies and poor performance. The cache pool target size can be adjusted with:: ceph osd pool set target_max_bytes ceph osd pool set target_max_objects Normal cache flush and evict activity may also be throttled due to reduced availability or performance of the base tier, or overall cluster load. TOO_FEW_PGS ___________ The number of PGs in use in the cluster is below the configurable threshold of ``mon_pg_warn_min_per_osd`` PGs per OSD. This can lead to suboptimizal distribution and balance of data across the OSDs in the cluster, and similar reduce overall performance. This may be an expected condition if data pools have not yet been created. The PG count for existing pools can be increased or new pools can be created. Please refer to :doc:`placement-groups#Choosing-the-number-of-Placement-Groups` for more information. TOO_MANY_PGS ____________ The number of PGs in use in the cluster is above the configurable threshold of ``mon_max_pg_per_osd`` PGs per OSD. If this threshold is exceed the cluster will not allow new pools to be created, pool `pg_num` to be increased, or pool replication to be increased (any of which would lead to more PGs in the cluster). A large number of PGs can lead to higher memory utilization for OSD daemons, slower peering after cluster state changes (like OSD restarts, additions, or removals), and higher load on the Manager and Monitor daemons. The simplest way to mitigate the problem is to increase the number of OSDs in the cluster by adding more hardware. Note that the OSD count used for the purposes of this health check is the number of "in" OSDs, so marking "out" OSDs "in" (if there are any) can also help:: ceph osd in Please refer to :doc:`placement-groups#Choosing-the-number-of-Placement-Groups` for more information. SMALLER_PGP_NUM _______________ One or more pools has a ``pgp_num`` value less than ``pg_num``. This is normally an indication that the PG count was increased without also increasing the placement behavior. This is sometimes done deliberately to separate out the `split` step when the PG count is adjusted from the data migration that is needed when ``pgp_num`` is changed. This is normally resolved by setting ``pgp_num`` to match ``pg_num``, triggering the data migration, with:: ceph osd pool set pgp_num MANY_OBJECTS_PER_PG ___________________ One or more pools has an average number of objects per PG that is significantly higher than the overall cluster average. The specific threshold is controlled by the ``mon_pg_warn_max_object_skew`` configuration value. This is usually an indication that the pool(s) containing most of the data in the cluster have too few PGs, and/or that other pools that do not contain as much data have too many PGs. See the discussion of *TOO_MANY_PGS* above. The threshold can be raised to silence the health warning by adjusting the ``mon_pg_warn_max_object_skew`` config option on the monitors. POOL_APP_NOT_ENABLED ____________________ A pool exists that contains one or more objects but has not been tagged for use by a particular application. Resolve this warning by labeling the pool for use by an application. For example, if the pool is used by RBD,:: rbd pool init If the pool is being used by a custom application 'foo', you can also label via the low-level command:: ceph osd pool application enable foo For more information, see :doc:`pools.rst#associate-pool-to-application`. POOL_FULL _________ One or more pools has reached (or is very close to reaching) its quota. The threshold to trigger this error condition is controlled by the ``mon_pool_quota_crit_threshold`` configuration option. Pool quotas can be adjusted up or down (or removed) with:: ceph osd pool set-quota max_bytes ceph osd pool set-quota max_objects Setting the quota value to 0 will disable the quota. POOL_NEAR_FULL ______________ One or more pools is approaching is quota. The threshold to trigger this warning condition is controlled by the ``mon_pool_quota_warn_threshold`` configuration option. Pool quotas can be adjusted up or down (or removed) with:: ceph osd pool set-quota max_bytes ceph osd pool set-quota max_objects Setting the quota value to 0 will disable the quota. OBJECT_MISPLACED ________________ One or more objects in the cluster is not stored on the node the cluster would like it to be stored on. This is an indication that data migration due to some recent cluster change has not yet completed. Misplaced data is not a dangerous condition in and of itself; data consistency is never at risk, and old copies of objects are never removed until the desired number of new copies (in the desired locations) are present. OBJECT_UNFOUND ______________ One or more objects in the cluster cannot be found. Specifically, the OSDs know that a new or updated copy of an object should exist, but a copy of that version of the object has not been found on OSDs that are currently online. Read or write requests to unfound objects will block. Ideally, a down OSD can be brought back online that has the more recent copy of the unfound object. Candidate OSDs can be identified from the peering state for the PG(s) responsible for the unfound object:: ceph tell query If the latest copy of the object is not available, the cluster can be told to roll back to a previous version of the object. See :doc:`troubleshooting-pg#Unfound-objects` for more information. REQUEST_SLOW ____________ One or more OSD requests is taking a long time to process. This can be an indication of extreme load, a slow storage device, or a software bug. The request queue on the OSD(s) in question can be queried with the following command, executed from the OSD host:: ceph daemon osd. ops A summary of the slowest recent requests can be seen with:: ceph daemon osd. dump_historic_ops The location of an OSD can be found with:: ceph osd find osd. REQUEST_STUCK _____________ One or more OSD requests has been blocked for an extremely long time. This is an indication that either the cluster has been unhealthy for an extended period of time (e.g., not enough running OSDs) or there is some internal problem with the OSD. See the dicussion of *REQUEST_SLOW* above. PG_NOT_SCRUBBED _______________ One or more PGs has not been scrubbed recently. PGs are normally scrubbed every ``mon_scrub_interval`` seconds, and this warning triggers when ``mon_warn_not_scrubbed`` such intervals have elapsed without a scrub. PGs will not scrub if they are not flagged as *clean*, which may happen if they are misplaced or degraded (see *PG_AVAILABILITY* and *PG_DEGRADED* above). You can manually initiate a scrub of a clean PG with:: ceph pg scrub PG_NOT_DEEP_SCRUBBED ____________________ One or more PGs has not been deep scrubbed recently. PGs are normally scrubbed every ``osd_deep_mon_scrub_interval`` seconds, and this warning triggers when ``mon_warn_not_deep_scrubbed`` such intervals have elapsed without a scrub. PGs will not (deep) scrub if they are not flagged as *clean*, which may happen if they are misplaced or degraded (see *PG_AVAILABILITY* and *PG_DEGRADED* above). You can manually initiate a scrub of a clean PG with:: ceph pg deep-scrub