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authorDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-21 11:54:28 +0000
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+======================
+ Monitoring a Cluster
+======================
+
+After you have a running cluster, you can use the ``ceph`` tool to monitor your
+cluster. Monitoring a cluster typically involves checking OSD status, monitor
+status, placement group status, and metadata server status.
+
+Using the command line
+======================
+
+Interactive mode
+----------------
+
+To run the ``ceph`` tool in interactive mode, type ``ceph`` at the command line
+with no arguments. For example:
+
+.. prompt:: bash $
+
+ ceph
+
+.. prompt:: ceph>
+ :prompts: ceph>
+
+ health
+ status
+ quorum_status
+ mon stat
+
+Non-default paths
+-----------------
+
+If you specified non-default locations for your configuration or keyring when
+you install the cluster, you may specify their locations to the ``ceph`` tool
+by running the following command:
+
+.. prompt:: bash $
+
+ ceph -c /path/to/conf -k /path/to/keyring health
+
+Checking a Cluster's Status
+===========================
+
+After you start your cluster, and before you start reading and/or writing data,
+you should check your cluster's status.
+
+To check a cluster's status, run the following command:
+
+.. prompt:: bash $
+
+ ceph status
+
+Alternatively, you can run the following command:
+
+.. prompt:: bash $
+
+ ceph -s
+
+In interactive mode, this operation is performed by typing ``status`` and
+pressing **Enter**:
+
+.. prompt:: ceph>
+ :prompts: ceph>
+
+ status
+
+Ceph will print the cluster status. For example, a tiny Ceph "demonstration
+cluster" that is running one instance of each service (monitor, manager, and
+OSD) might print the following:
+
+::
+
+ cluster:
+ id: 477e46f1-ae41-4e43-9c8f-72c918ab0a20
+ health: HEALTH_OK
+
+ services:
+ mon: 3 daemons, quorum a,b,c
+ mgr: x(active)
+ mds: cephfs_a-1/1/1 up {0=a=up:active}, 2 up:standby
+ osd: 3 osds: 3 up, 3 in
+
+ data:
+ pools: 2 pools, 16 pgs
+ objects: 21 objects, 2.19K
+ usage: 546 GB used, 384 GB / 931 GB avail
+ pgs: 16 active+clean
+
+
+How Ceph Calculates Data Usage
+------------------------------
+
+The ``usage`` value reflects the *actual* amount of raw storage used. The ``xxx
+GB / xxx GB`` value means the amount available (the lesser number) of the
+overall storage capacity of the cluster. The notional number reflects the size
+of the stored data before it is replicated, cloned or snapshotted. Therefore,
+the amount of data actually stored typically exceeds the notional amount
+stored, because Ceph creates replicas of the data and may also use storage
+capacity for cloning and snapshotting.
+
+
+Watching a Cluster
+==================
+
+Each daemon in the Ceph cluster maintains a log of events, and the Ceph cluster
+itself maintains a *cluster log* that records high-level events about the
+entire Ceph cluster. These events are logged to disk on monitor servers (in
+the default location ``/var/log/ceph/ceph.log``), and they can be monitored via
+the command line.
+
+To follow the cluster log, run the following command:
+
+.. prompt:: bash $
+
+ ceph -w
+
+Ceph will print the status of the system, followed by each log message as it is
+added. For example:
+
+::
+
+ cluster:
+ id: 477e46f1-ae41-4e43-9c8f-72c918ab0a20
+ health: HEALTH_OK
+
+ services:
+ mon: 3 daemons, quorum a,b,c
+ mgr: x(active)
+ mds: cephfs_a-1/1/1 up {0=a=up:active}, 2 up:standby
+ osd: 3 osds: 3 up, 3 in
+
+ data:
+ pools: 2 pools, 16 pgs
+ objects: 21 objects, 2.19K
+ usage: 546 GB used, 384 GB / 931 GB avail
+ pgs: 16 active+clean
+
+
+ 2017-07-24 08:15:11.329298 mon.a mon.0 172.21.9.34:6789/0 23 : cluster [INF] osd.0 172.21.9.34:6806/20527 boot
+ 2017-07-24 08:15:14.258143 mon.a mon.0 172.21.9.34:6789/0 39 : cluster [INF] Activating manager daemon x
+ 2017-07-24 08:15:15.446025 mon.a mon.0 172.21.9.34:6789/0 47 : cluster [INF] Manager daemon x is now available
+
+Instead of printing log lines as they are added, you might want to print only
+the most recent lines. Run ``ceph log last [n]`` to see the most recent ``n``
+lines from the cluster log.
+
+Monitoring Health Checks
+========================
+
+Ceph continuously runs various *health checks*. When
+a health check fails, this failure is reflected in the output of ``ceph status`` and
+``ceph health``. The cluster log receives messages that
+indicate when a check has failed and when the cluster has recovered.
+
+For example, when an OSD goes down, the ``health`` section of the status
+output is updated as follows:
+
+::
+
+ health: HEALTH_WARN
+ 1 osds down
+ Degraded data redundancy: 21/63 objects degraded (33.333%), 16 pgs unclean, 16 pgs degraded
+
+At the same time, cluster log messages are emitted to record the failure of the
+health checks:
+
+::
+
+ 2017-07-25 10:08:58.265945 mon.a mon.0 172.21.9.34:6789/0 91 : cluster [WRN] Health check failed: 1 osds down (OSD_DOWN)
+ 2017-07-25 10:09:01.302624 mon.a mon.0 172.21.9.34:6789/0 94 : cluster [WRN] Health check failed: Degraded data redundancy: 21/63 objects degraded (33.333%), 16 pgs unclean, 16 pgs degraded (PG_DEGRADED)
+
+When the OSD comes back online, the cluster log records the cluster's return
+to a healthy state:
+
+::
+
+ 2017-07-25 10:11:11.526841 mon.a mon.0 172.21.9.34:6789/0 109 : cluster [WRN] Health check update: Degraded data redundancy: 2 pgs unclean, 2 pgs degraded, 2 pgs undersized (PG_DEGRADED)
+ 2017-07-25 10:11:13.535493 mon.a mon.0 172.21.9.34:6789/0 110 : cluster [INF] Health check cleared: PG_DEGRADED (was: Degraded data redundancy: 2 pgs unclean, 2 pgs degraded, 2 pgs undersized)
+ 2017-07-25 10:11:13.535577 mon.a mon.0 172.21.9.34:6789/0 111 : cluster [INF] Cluster is now healthy
+
+Network Performance Checks
+--------------------------
+
+Ceph OSDs send heartbeat ping messages to each other in order to monitor daemon
+availability and network performance. If a single delayed response is detected,
+this might indicate nothing more than a busy OSD. But if multiple delays
+between distinct pairs of OSDs are detected, this might indicate a failed
+network switch, a NIC failure, or a layer 1 failure.
+
+By default, a heartbeat time that exceeds 1 second (1000 milliseconds) raises a
+health check (a ``HEALTH_WARN``. For example:
+
+::
+
+ HEALTH_WARN Slow OSD heartbeats on back (longest 1118.001ms)
+
+In the output of the ``ceph health detail`` command, you can see which OSDs are
+experiencing delays and how long the delays are. The output of ``ceph health
+detail`` is limited to ten lines. Here is an example of the output you can
+expect from the ``ceph health detail`` command::
+
+ [WRN] OSD_SLOW_PING_TIME_BACK: Slow OSD heartbeats on back (longest 1118.001ms)
+ Slow OSD heartbeats on back from osd.0 [dc1,rack1] to osd.1 [dc1,rack1] 1118.001 msec possibly improving
+ Slow OSD heartbeats on back from osd.0 [dc1,rack1] to osd.2 [dc1,rack2] 1030.123 msec
+ Slow OSD heartbeats on back from osd.2 [dc1,rack2] to osd.1 [dc1,rack1] 1015.321 msec
+ Slow OSD heartbeats on back from osd.1 [dc1,rack1] to osd.0 [dc1,rack1] 1010.456 msec
+
+To see more detail and to collect a complete dump of network performance
+information, use the ``dump_osd_network`` command. This command is usually sent
+to a Ceph Manager Daemon, but it can be used to collect information about a
+specific OSD's interactions by sending it to that OSD. The default threshold
+for a slow heartbeat is 1 second (1000 milliseconds), but this can be
+overridden by providing a number of milliseconds as an argument.
+
+To show all network performance data with a specified threshold of 0, send the
+following command to the mgr:
+
+.. prompt:: bash $
+
+ ceph daemon /var/run/ceph/ceph-mgr.x.asok dump_osd_network 0
+
+::
+
+ {
+ "threshold": 0,
+ "entries": [
+ {
+ "last update": "Wed Sep 4 17:04:49 2019",
+ "stale": false,
+ "from osd": 2,
+ "to osd": 0,
+ "interface": "front",
+ "average": {
+ "1min": 1.023,
+ "5min": 0.860,
+ "15min": 0.883
+ },
+ "min": {
+ "1min": 0.818,
+ "5min": 0.607,
+ "15min": 0.607
+ },
+ "max": {
+ "1min": 1.164,
+ "5min": 1.173,
+ "15min": 1.544
+ },
+ "last": 0.924
+ },
+ {
+ "last update": "Wed Sep 4 17:04:49 2019",
+ "stale": false,
+ "from osd": 2,
+ "to osd": 0,
+ "interface": "back",
+ "average": {
+ "1min": 0.968,
+ "5min": 0.897,
+ "15min": 0.830
+ },
+ "min": {
+ "1min": 0.860,
+ "5min": 0.563,
+ "15min": 0.502
+ },
+ "max": {
+ "1min": 1.171,
+ "5min": 1.216,
+ "15min": 1.456
+ },
+ "last": 0.845
+ },
+ {
+ "last update": "Wed Sep 4 17:04:48 2019",
+ "stale": false,
+ "from osd": 0,
+ "to osd": 1,
+ "interface": "front",
+ "average": {
+ "1min": 0.965,
+ "5min": 0.811,
+ "15min": 0.850
+ },
+ "min": {
+ "1min": 0.650,
+ "5min": 0.488,
+ "15min": 0.466
+ },
+ "max": {
+ "1min": 1.252,
+ "5min": 1.252,
+ "15min": 1.362
+ },
+ "last": 0.791
+ },
+ ...
+
+
+
+Muting Health Checks
+--------------------
+
+Health checks can be muted so that they have no effect on the overall
+reported status of the cluster. For example, if the cluster has raised a
+single health check and then you mute that health check, then the cluster will report a status of ``HEALTH_OK``.
+To mute a specific health check, use the health check code that corresponds to that health check (see :ref:`health-checks`), and
+run the following command:
+
+.. prompt:: bash $
+
+ ceph health mute <code>
+
+For example, to mute an ``OSD_DOWN`` health check, run the following command:
+
+.. prompt:: bash $
+
+ ceph health mute OSD_DOWN
+
+Mutes are reported as part of the short and long form of the ``ceph health`` command's output.
+For example, in the above scenario, the cluster would report:
+
+.. prompt:: bash $
+
+ ceph health
+
+::
+
+ HEALTH_OK (muted: OSD_DOWN)
+
+.. prompt:: bash $
+
+ ceph health detail
+
+::
+
+ HEALTH_OK (muted: OSD_DOWN)
+ (MUTED) OSD_DOWN 1 osds down
+ osd.1 is down
+
+A mute can be removed by running the following command:
+
+.. prompt:: bash $
+
+ ceph health unmute <code>
+
+For example:
+
+.. prompt:: bash $
+
+ ceph health unmute OSD_DOWN
+
+A "health mute" can have a TTL (**T**\ime **T**\o **L**\ive)
+associated with it: this means that the mute will automatically expire
+after a specified period of time. The TTL is specified as an optional
+duration argument, as seen in the following examples:
+
+.. prompt:: bash $
+
+ ceph health mute OSD_DOWN 4h # mute for 4 hours
+ ceph health mute MON_DOWN 15m # mute for 15 minutes
+
+Normally, if a muted health check is resolved (for example, if the OSD that raised the ``OSD_DOWN`` health check
+in the example above has come back up), the mute goes away. If the health check comes
+back later, it will be reported in the usual way.
+
+It is possible to make a health mute "sticky": this means that the mute will remain even if the
+health check clears. For example, to make a health mute "sticky", you might run the following command:
+
+.. prompt:: bash $
+
+ ceph health mute OSD_DOWN 1h --sticky # ignore any/all down OSDs for next hour
+
+Most health mutes disappear if the unhealthy condition that triggered the health check gets worse.
+For example, suppose that there is one OSD down and the health check is muted. In that case, if
+one or more additional OSDs go down, then the health mute disappears. This behavior occurs in any health check with a threshold value.
+
+
+Checking a Cluster's Usage Stats
+================================
+
+To check a cluster's data usage and data distribution among pools, use the
+``df`` command. This option is similar to Linux's ``df`` command. Run the
+following command:
+
+.. prompt:: bash $
+
+ ceph df
+
+The output of ``ceph df`` resembles the following::
+
+ CLASS SIZE AVAIL USED RAW USED %RAW USED
+ ssd 202 GiB 200 GiB 2.0 GiB 2.0 GiB 1.00
+ TOTAL 202 GiB 200 GiB 2.0 GiB 2.0 GiB 1.00
+
+ --- POOLS ---
+ POOL ID PGS STORED (DATA) (OMAP) OBJECTS USED (DATA) (OMAP) %USED MAX AVAIL QUOTA OBJECTS QUOTA BYTES DIRTY USED COMPR UNDER COMPR
+ device_health_metrics 1 1 242 KiB 15 KiB 227 KiB 4 251 KiB 24 KiB 227 KiB 0 297 GiB N/A N/A 4 0 B 0 B
+ cephfs.a.meta 2 32 6.8 KiB 6.8 KiB 0 B 22 96 KiB 96 KiB 0 B 0 297 GiB N/A N/A 22 0 B 0 B
+ cephfs.a.data 3 32 0 B 0 B 0 B 0 0 B 0 B 0 B 0 99 GiB N/A N/A 0 0 B 0 B
+ test 4 32 22 MiB 22 MiB 50 KiB 248 19 MiB 19 MiB 50 KiB 0 297 GiB N/A N/A 248 0 B 0 B
+
+- **CLASS:** For example, "ssd" or "hdd".
+- **SIZE:** The amount of storage capacity managed by the cluster.
+- **AVAIL:** The amount of free space available in the cluster.
+- **USED:** The amount of raw storage consumed by user data (excluding
+ BlueStore's database).
+- **RAW USED:** The amount of raw storage consumed by user data, internal
+ overhead, and reserved capacity.
+- **%RAW USED:** The percentage of raw storage used. Watch this number in
+ conjunction with ``full ratio`` and ``near full ratio`` to be forewarned when
+ your cluster approaches the fullness thresholds. See `Storage Capacity`_.
+
+
+**POOLS:**
+
+The POOLS section of the output provides a list of pools and the *notional*
+usage of each pool. This section of the output **DOES NOT** reflect replicas,
+clones, or snapshots. For example, if you store an object with 1MB of data,
+then the notional usage will be 1MB, but the actual usage might be 2MB or more
+depending on the number of replicas, clones, and snapshots.
+
+- **ID:** The number of the specific node within the pool.
+- **STORED:** The actual amount of data that the user has stored in a pool.
+ This is similar to the USED column in earlier versions of Ceph, but the
+ calculations (for BlueStore!) are more precise (in that gaps are properly
+ handled).
+
+ - **(DATA):** Usage for RBD (RADOS Block Device), CephFS file data, and RGW
+ (RADOS Gateway) object data.
+ - **(OMAP):** Key-value pairs. Used primarily by CephFS and RGW (RADOS
+ Gateway) for metadata storage.
+
+- **OBJECTS:** The notional number of objects stored per pool (that is, the
+ number of objects other than replicas, clones, or snapshots).
+- **USED:** The space allocated for a pool over all OSDs. This includes space
+ for replication, space for allocation granularity, and space for the overhead
+ associated with erasure-coding. Compression savings and object-content gaps
+ are also taken into account. However, BlueStore's database is not included in
+ the amount reported under USED.
+
+ - **(DATA):** Object usage for RBD (RADOS Block Device), CephFS file data,
+ and RGW (RADOS Gateway) object data.
+ - **(OMAP):** Object key-value pairs. Used primarily by CephFS and RGW (RADOS
+ Gateway) for metadata storage.
+
+- **%USED:** The notional percentage of storage used per pool.
+- **MAX AVAIL:** An estimate of the notional amount of data that can be written
+ to this pool.
+- **QUOTA OBJECTS:** The number of quota objects.
+- **QUOTA BYTES:** The number of bytes in the quota objects.
+- **DIRTY:** The number of objects in the cache pool that have been written to
+ the cache pool but have not yet been flushed to the base pool. This field is
+ available only when cache tiering is in use.
+- **USED COMPR:** The amount of space allocated for compressed data. This
+ includes compressed data in addition to all of the space required for
+ replication, allocation granularity, and erasure- coding overhead.
+- **UNDER COMPR:** The amount of data that has passed through compression
+ (summed over all replicas) and that is worth storing in a compressed form.
+
+
+.. note:: The numbers in the POOLS section are notional. They do not include
+ the number of replicas, clones, or snapshots. As a result, the sum of the
+ USED and %USED amounts in the POOLS section of the output will not be equal
+ to the sum of the USED and %USED amounts in the RAW section of the output.
+
+.. note:: The MAX AVAIL value is a complicated function of the replication or
+ the kind of erasure coding used, the CRUSH rule that maps storage to
+ devices, the utilization of those devices, and the configured
+ ``mon_osd_full_ratio`` setting.
+
+
+Checking OSD Status
+===================
+
+To check if OSDs are ``up`` and ``in``, run the
+following command:
+
+.. prompt:: bash #
+
+ ceph osd stat
+
+Alternatively, you can run the following command:
+
+.. prompt:: bash #
+
+ ceph osd dump
+
+To view OSDs according to their position in the CRUSH map, run the following
+command:
+
+.. prompt:: bash #
+
+ ceph osd tree
+
+To print out a CRUSH tree that displays a host, its OSDs, whether the OSDs are
+``up``, and the weight of the OSDs, run the following command:
+
+.. code-block:: bash
+
+ #ID CLASS WEIGHT TYPE NAME STATUS REWEIGHT PRI-AFF
+ -1 3.00000 pool default
+ -3 3.00000 rack mainrack
+ -2 3.00000 host osd-host
+ 0 ssd 1.00000 osd.0 up 1.00000 1.00000
+ 1 ssd 1.00000 osd.1 up 1.00000 1.00000
+ 2 ssd 1.00000 osd.2 up 1.00000 1.00000
+
+See `Monitoring OSDs and Placement Groups`_.
+
+Checking Monitor Status
+=======================
+
+If your cluster has multiple monitors, then you need to perform certain
+"monitor status" checks. After starting the cluster and before reading or
+writing data, you should check quorum status. A quorum must be present when
+multiple monitors are running to ensure proper functioning of your Ceph
+cluster. Check monitor status regularly in order to ensure that all of the
+monitors are running.
+
+To display the monitor map, run the following command:
+
+.. prompt:: bash $
+
+ ceph mon stat
+
+Alternatively, you can run the following command:
+
+.. prompt:: bash $
+
+ ceph mon dump
+
+To check the quorum status for the monitor cluster, run the following command:
+
+.. prompt:: bash $
+
+ ceph quorum_status
+
+Ceph returns the quorum status. For example, a Ceph cluster that consists of
+three monitors might return the following:
+
+.. code-block:: javascript
+
+ { "election_epoch": 10,
+ "quorum": [
+ 0,
+ 1,
+ 2],
+ "quorum_names": [
+ "a",
+ "b",
+ "c"],
+ "quorum_leader_name": "a",
+ "monmap": { "epoch": 1,
+ "fsid": "444b489c-4f16-4b75-83f0-cb8097468898",
+ "modified": "2011-12-12 13:28:27.505520",
+ "created": "2011-12-12 13:28:27.505520",
+ "features": {"persistent": [
+ "kraken",
+ "luminous",
+ "mimic"],
+ "optional": []
+ },
+ "mons": [
+ { "rank": 0,
+ "name": "a",
+ "addr": "127.0.0.1:6789/0",
+ "public_addr": "127.0.0.1:6789/0"},
+ { "rank": 1,
+ "name": "b",
+ "addr": "127.0.0.1:6790/0",
+ "public_addr": "127.0.0.1:6790/0"},
+ { "rank": 2,
+ "name": "c",
+ "addr": "127.0.0.1:6791/0",
+ "public_addr": "127.0.0.1:6791/0"}
+ ]
+ }
+ }
+
+Checking MDS Status
+===================
+
+Metadata servers provide metadata services for CephFS. Metadata servers have
+two sets of states: ``up | down`` and ``active | inactive``. To check if your
+metadata servers are ``up`` and ``active``, run the following command:
+
+.. prompt:: bash $
+
+ ceph mds stat
+
+To display details of the metadata servers, run the following command:
+
+.. prompt:: bash $
+
+ ceph fs dump
+
+
+Checking Placement Group States
+===============================
+
+Placement groups (PGs) map objects to OSDs. PGs are monitored in order to
+ensure that they are ``active`` and ``clean``. See `Monitoring OSDs and
+Placement Groups`_.
+
+.. _Monitoring OSDs and Placement Groups: ../monitoring-osd-pg
+
+.. _rados-monitoring-using-admin-socket:
+
+Using the Admin Socket
+======================
+
+The Ceph admin socket allows you to query a daemon via a socket interface. By
+default, Ceph sockets reside under ``/var/run/ceph``. To access a daemon via
+the admin socket, log in to the host that is running the daemon and run one of
+the two following commands:
+
+.. prompt:: bash $
+
+ ceph daemon {daemon-name}
+ ceph daemon {path-to-socket-file}
+
+For example, the following commands are equivalent to each other:
+
+.. prompt:: bash $
+
+ ceph daemon osd.0 foo
+ ceph daemon /var/run/ceph/ceph-osd.0.asok foo
+
+To view the available admin-socket commands, run the following command:
+
+.. prompt:: bash $
+
+ ceph daemon {daemon-name} help
+
+Admin-socket commands enable you to view and set your configuration at runtime.
+For more on viewing your configuration, see `Viewing a Configuration at
+Runtime`_. There are two methods of setting configuration value at runtime: (1)
+using the admin socket, which bypasses the monitor and requires a direct login
+to the host in question, and (2) using the ``ceph tell {daemon-type}.{id}
+config set`` command, which relies on the monitor and does not require a direct
+login.
+
+.. _Viewing a Configuration at Runtime: ../../configuration/ceph-conf#viewing-a-configuration-at-runtime
+.. _Storage Capacity: ../../configuration/mon-config-ref#storage-capacity