====================== OSD Config Reference ====================== .. index:: OSD; configuration You can configure Ceph OSD Daemons in the Ceph configuration file, but Ceph OSD Daemons can use the default values and a very minimal configuration. A minimal Ceph OSD Daemon configuration sets ``osd journal size`` and ``host``, and uses default values for nearly everything else. Ceph OSD Daemons are numerically identified in incremental fashion, beginning with ``0`` using the following convention. :: osd.0 osd.1 osd.2 In a configuration file, you may specify settings for all Ceph OSD Daemons in the cluster by adding configuration settings to the ``[osd]`` section of your configuration file. To add settings directly to a specific Ceph OSD Daemon (e.g., ``host``), enter it in an OSD-specific section of your configuration file. For example: .. code-block:: ini [osd] osd journal size = 1024 [osd.0] host = osd-host-a [osd.1] host = osd-host-b .. index:: OSD; config settings General Settings ================ The following settings provide an Ceph OSD Daemon's ID, and determine paths to data and journals. Ceph deployment scripts typically generate the UUID automatically. We **DO NOT** recommend changing the default paths for data or journals, as it makes it more problematic to troubleshoot Ceph later. The journal size should be at least twice the product of the expected drive speed multiplied by ``filestore max sync interval``. However, the most common practice is to partition the journal drive (often an SSD), and mount it such that Ceph uses the entire partition for the journal. ``osd uuid`` :Description: The universally unique identifier (UUID) for the Ceph OSD Daemon. :Type: UUID :Default: The UUID. :Note: The ``osd uuid`` applies to a single Ceph OSD Daemon. The ``fsid`` applies to the entire cluster. ``osd data`` :Description: The path to the OSDs data. You must create the directory when deploying Ceph. You should mount a drive for OSD data at this mount point. We do not recommend changing the default. :Type: String :Default: ``/var/lib/ceph/osd/$cluster-$id`` ``osd max write size`` :Description: The maximum size of a write in megabytes. :Type: 32-bit Integer :Default: ``90`` ``osd client message size cap`` :Description: The largest client data message allowed in memory. :Type: 64-bit Integer Unsigned :Default: 500MB default. ``500*1024L*1024L`` ``osd class dir`` :Description: The class path for RADOS class plug-ins. :Type: String :Default: ``$libdir/rados-classes`` .. index:: OSD; file system File System Settings ==================== Ceph builds and mounts file systems which are used for Ceph OSDs. ``osd mkfs options {fs-type}`` :Description: Options used when creating a new Ceph OSD of type {fs-type}. :Type: String :Default for xfs: ``-f -i 2048`` :Default for other file systems: {empty string} For example:: ``osd mkfs options xfs = -f -d agcount=24`` ``osd mount options {fs-type}`` :Description: Options used when mounting a Ceph OSD of type {fs-type}. :Type: String :Default for xfs: ``rw,noatime,inode64`` :Default for other file systems: ``rw, noatime`` For example:: ``osd mount options xfs = rw, noatime, inode64, logbufs=8`` .. index:: OSD; journal settings Journal Settings ================ By default, Ceph expects that you will store an Ceph OSD Daemons journal with the following path:: /var/lib/ceph/osd/$cluster-$id/journal Without performance optimization, Ceph stores the journal on the same disk as the Ceph OSD Daemons data. An Ceph OSD Daemon optimized for performance may use a separate disk to store journal data (e.g., a solid state drive delivers high performance journaling). Ceph's default ``osd journal size`` is 0, so you will need to set this in your ``ceph.conf`` file. A journal size should find the product of the ``filestore max sync interval`` and the expected throughput, and multiply the product by two (2):: osd journal size = {2 * (expected throughput * filestore max sync interval)} The expected throughput number should include the expected disk throughput (i.e., sustained data transfer rate), and network throughput. For example, a 7200 RPM disk will likely have approximately 100 MB/s. Taking the ``min()`` of the disk and network throughput should provide a reasonable expected throughput. Some users just start off with a 10GB journal size. For example:: osd journal size = 10000 ``osd journal`` :Description: The path to the OSD's journal. This may be a path to a file or a block device (such as a partition of an SSD). If it is a file, you must create the directory to contain it. We recommend using a drive separate from the ``osd data`` drive. :Type: String :Default: ``/var/lib/ceph/osd/$cluster-$id/journal`` ``osd journal size`` :Description: The size of the journal in megabytes. If this is 0, and the journal is a block device, the entire block device is used. Since v0.54, this is ignored if the journal is a block device, and the entire block device is used. :Type: 32-bit Integer :Default: ``5120`` :Recommended: Begin with 1GB. Should be at least twice the product of the expected speed multiplied by ``filestore max sync interval``. See `Journal Config Reference`_ for additional details. Monitor OSD Interaction ======================= Ceph OSD Daemons check each other's heartbeats and report to monitors periodically. Ceph can use default values in many cases. However, if your network has latency issues, you may need to adopt longer intervals. See `Configuring Monitor/OSD Interaction`_ for a detailed discussion of heartbeats. Data Placement ============== See `Pool & PG Config Reference`_ for details. .. index:: OSD; scrubbing Scrubbing ========= In addition to making multiple copies of objects, Ceph insures data integrity by scrubbing placement groups. Ceph scrubbing is analogous to ``fsck`` on the object storage layer. For each placement group, Ceph generates a catalog of all objects and compares each primary object and its replicas to ensure that no objects are missing or mismatched. Light scrubbing (daily) checks the object size and attributes. Deep scrubbing (weekly) reads the data and uses checksums to ensure data integrity. Scrubbing is important for maintaining data integrity, but it can reduce performance. You can adjust the following settings to increase or decrease scrubbing operations. ``osd max scrubs`` :Description: The maximum number of simultaneous scrub operations for a Ceph OSD Daemon. :Type: 32-bit Int :Default: ``1`` ``osd scrub begin hour`` :Description: The time of day for the lower bound when a scheduled scrub can be performed. :Type: Integer in the range of 0 to 24 :Default: ``0`` ``osd scrub end hour`` :Description: The time of day for the upper bound when a scheduled scrub can be performed. Along with ``osd scrub begin hour``, they define a time window, in which the scrubs can happen. But a scrub will be performed no matter the time window allows or not, as long as the placement group's scrub interval exceeds ``osd scrub max interval``. :Type: Integer in the range of 0 to 24 :Default: ``24`` ``osd scrub thread timeout`` :Description: The maximum time in seconds before timing out a scrub thread. :Type: 32-bit Integer :Default: ``60`` ``osd scrub finalize thread timeout`` :Description: The maximum time in seconds before timing out a scrub finalize thread. :Type: 32-bit Integer :Default: ``60*10`` ``osd scrub load threshold`` :Description: The maximum load. Ceph will not scrub when the system load (as defined by ``getloadavg()``) is higher than this number. Default is ``0.5``. :Type: Float :Default: ``0.5`` ``osd scrub min interval`` :Description: The minimal interval in seconds for scrubbing the Ceph OSD Daemon when the Ceph Storage Cluster load is low. :Type: Float :Default: Once per day. ``60*60*24`` ``osd scrub max interval`` :Description: The maximum interval in seconds for scrubbing the Ceph OSD Daemon irrespective of cluster load. :Type: Float :Default: Once per week. ``7*60*60*24`` ``osd deep scrub interval`` :Description: The interval for "deep" scrubbing (fully reading all data). The ``osd scrub load threshold`` does not affect this setting. :Type: Float :Default: Once per week. ``60*60*24*7`` ``osd scrub interval randomize ratio`` :Description: Add a random delay to ``osd scrub min interval`` when scheduling the next scrub job for a placement group. The delay is a random value less than ``osd scrub min interval`` \* ``osd scrub interval randomized ratio``. So the default setting practically randomly spreads the scrubs out in the allowed time window of ``[1, 1.5]`` \* ``osd scrub min interval``. :Type: Float :Default: ``0.5`` ``osd deep scrub stride`` :Description: Read size when doing a deep scrub. :Type: 32-bit Integer :Default: 512 KB. ``524288`` .. index:: OSD; operations settings Operations ========== Operations settings allow you to configure the number of threads for servicing requests. If you set ``osd op threads`` to ``0``, it disables multi-threading. By default, Ceph uses two threads with a 30 second timeout and a 30 second complaint time if an operation doesn't complete within those time parameters. You can set operations priority weights between client operations and recovery operations to ensure optimal performance during recovery. ``osd op threads`` :Description: The number of threads to service Ceph OSD Daemon operations. Set to ``0`` to disable it. Increasing the number may increase the request processing rate. :Type: 32-bit Integer :Default: ``2`` ``osd op queue`` :Description: This sets the type of queue to be used for prioritizing ops in the OSDs. Both queues feature a strict sub-queue which is dequeued before the normal queue. The normal queue is different between implementations. The original PrioritizedQueue (``prio``) uses a token bucket system which when there are sufficient tokens will dequeue high priority queues first. If there are not enough tokens available, queues are dequeued low priority to high priority. The new WeightedPriorityQueue (``wpq``) dequeues all priorities in relation to their priorities to prevent starvation of any queue. WPQ should help in cases where a few OSDs are more overloaded than others. Requires a restart. :Type: String :Valid Choices: prio, wpq :Default: ``prio`` ``osd op queue cut off`` :Description: This selects which priority ops will be sent to the strict queue verses the normal queue. The ``low`` setting sends all replication ops and higher to the strict queue, while the ``high`` option sends only replication acknowledgement ops and higher to the strict queue. Setting this to ``high`` should help when a few OSDs in the cluster are very busy especially when combined with ``wpq`` in the ``osd op queue`` setting. OSDs that are very busy handling replication traffic could starve primary client traffic on these OSDs without these settings. Requires a restart. :Type: String :Valid Choices: low, high :Default: ``low`` ``osd client op priority`` :Description: The priority set for client operations. It is relative to ``osd recovery op priority``. :Type: 32-bit Integer :Default: ``63`` :Valid Range: 1-63 ``osd recovery op priority`` :Description: The priority set for recovery operations. It is relative to ``osd client op priority``. :Type: 32-bit Integer :Default: ``10`` :Valid Range: 1-63 ``osd op thread timeout`` :Description: The Ceph OSD Daemon operation thread timeout in seconds. :Type: 32-bit Integer :Default: ``30`` ``osd op complaint time`` :Description: An operation becomes complaint worthy after the specified number of seconds have elapsed. :Type: Float :Default: ``30`` ``osd disk threads`` :Description: The number of disk threads, which are used to perform background disk intensive OSD operations such as scrubbing and snap trimming. :Type: 32-bit Integer :Default: ``1`` ``osd disk thread ioprio class`` :Description: Warning: it will only be used if both ``osd disk thread ioprio class`` and ``osd disk thread ioprio priority`` are set to a non default value. Sets the ioprio_set(2) I/O scheduling ``class`` for the disk thread. Acceptable values are ``idle``, ``be`` or ``rt``. The ``idle`` class means the disk thread will have lower priority than any other thread in the OSD. This is useful to slow down scrubbing on an OSD that is busy handling client operations. ``be`` is the default and is the same priority as all other threads in the OSD. ``rt`` means the disk thread will have precendence over all other threads in the OSD. This is useful if scrubbing is much needed and must make progress at the expense of client operations. Note: Only works with the Linux Kernel CFQ scheduler. :Type: String :Default: the empty string ``osd disk thread ioprio priority`` :Description: Warning: it will only be used if both ``osd disk thread ioprio class`` and ``osd disk thread ioprio priority`` are set to a non default value. It sets the ioprio_set(2) I/O scheduling ``priority`` of the disk thread ranging from 0 (highest) to 7 (lowest). If all OSDs on a given host were in class ``idle`` and compete for I/O (i.e. due to controller congestion), it can be used to lower the disk thread priority of one OSD to 7 so that another OSD with priority 0 can potentially scrub faster. Note: Only works with the Linux Kernel CFQ scheduler. :Type: Integer in the range of 0 to 7 or -1 if not to be used. :Default: ``-1`` ``osd op history size`` :Description: The maximum number of completed operations to track. :Type: 32-bit Unsigned Integer :Default: ``20`` ``osd op history duration`` :Description: The oldest completed operation to track. :Type: 32-bit Unsigned Integer :Default: ``600`` ``osd op log threshold`` :Description: How many operations logs to display at once. :Type: 32-bit Integer :Default: ``5`` .. index:: OSD; backfilling Backfilling =========== When you add or remove Ceph OSD Daemons to a cluster, the CRUSH algorithm will want to rebalance the cluster by moving placement groups to or from Ceph OSD Daemons to restore the balance. The process of migrating placement groups and the objects they contain can reduce the cluster's operational performance considerably. To maintain operational performance, Ceph performs this migration with 'backfilling', which allows Ceph to set backfill operations to a lower priority than requests to read or write data. ``osd max backfills`` :Description: The maximum number of backfills allowed to or from a single OSD. :Type: 64-bit Unsigned Integer :Default: ``1`` ``osd backfill scan min`` :Description: The minimum number of objects per backfill scan. :Type: 32-bit Integer :Default: ``64`` ``osd backfill scan max`` :Description: The maximum number of objects per backfill scan. :Type: 32-bit Integer :Default: ``512`` ``osd backfill full ratio`` :Description: Refuse to accept backfill requests when the Ceph OSD Daemon's full ratio is above this value. :Type: Float :Default: ``0.85`` ``osd backfill retry interval`` :Description: The number of seconds to wait before retrying backfill requests. :Type: Double :Default: ``10.0`` .. index:: OSD; osdmap OSD Map ======= OSD maps reflect the OSD daemons operating in the cluster. Over time, the number of map epochs increases. Ceph provides some settings to ensure that Ceph performs well as the OSD map grows larger. ``osd map dedup`` :Description: Enable removing duplicates in the OSD map. :Type: Boolean :Default: ``true`` ``osd map cache size`` :Description: The number of OSD maps to keep cached. :Type: 32-bit Integer :Default: ``500`` ``osd map cache bl size`` :Description: The size of the in-memory OSD map cache in OSD daemons. :Type: 32-bit Integer :Default: ``50`` ``osd map cache bl inc size`` :Description: The size of the in-memory OSD map cache incrementals in OSD daemons. :Type: 32-bit Integer :Default: ``100`` ``osd map message max`` :Description: The maximum map entries allowed per MOSDMap message. :Type: 32-bit Integer :Default: ``100`` .. index:: OSD; recovery Recovery ======== When the cluster starts or when a Ceph OSD Daemon crashes and restarts, the OSD begins peering with other Ceph OSD Daemons before writes can occur. See `Monitoring OSDs and PGs`_ for details. If a Ceph OSD Daemon crashes and comes back online, usually it will be out of sync with other Ceph OSD Daemons containing more recent versions of objects in the placement groups. When this happens, the Ceph OSD Daemon goes into recovery mode and seeks to get the latest copy of the data and bring its map back up to date. Depending upon how long the Ceph OSD Daemon was down, the OSD's objects and placement groups may be significantly out of date. Also, if a failure domain went down (e.g., a rack), more than one Ceph OSD Daemon may come back online at the same time. This can make the recovery process time consuming and resource intensive. To maintain operational performance, Ceph performs recovery with limitations on the number recovery requests, threads and object chunk sizes which allows Ceph perform well in a degraded state. ``osd recovery delay start`` :Description: After peering completes, Ceph will delay for the specified number of seconds before starting to recover objects. :Type: Float :Default: ``0`` ``osd recovery max active`` :Description: The number of active recovery requests per OSD at one time. More requests will accelerate recovery, but the requests places an increased load on the cluster. :Type: 32-bit Integer :Default: ``15`` ``osd recovery max chunk`` :Description: The maximum size of a recovered chunk of data to push. :Type: 64-bit Integer Unsigned :Default: ``8 << 20`` ``osd recovery threads`` :Description: The number of threads for recovering data. :Type: 32-bit Integer :Default: ``1`` ``osd recovery thread timeout`` :Description: The maximum time in seconds before timing out a recovery thread. :Type: 32-bit Integer :Default: ``30`` ``osd recover clone overlap`` :Description: Preserves clone overlap during recovery. Should always be set to ``true``. :Type: Boolean :Default: ``true`` Miscellaneous ============= ``osd snap trim thread timeout`` :Description: The maximum time in seconds before timing out a snap trim thread. :Type: 32-bit Integer :Default: ``60*60*1`` ``osd backlog thread timeout`` :Description: The maximum time in seconds before timing out a backlog thread. :Type: 32-bit Integer :Default: ``60*60*1`` ``osd default notify timeout`` :Description: The OSD default notification timeout (in seconds). :Type: 32-bit Integer Unsigned :Default: ``30`` ``osd check for log corruption`` :Description: Check log files for corruption. Can be computationally expensive. :Type: Boolean :Default: ``false`` ``osd remove thread timeout`` :Description: The maximum time in seconds before timing out a remove OSD thread. :Type: 32-bit Integer :Default: ``60*60`` ``osd command thread timeout`` :Description: The maximum time in seconds before timing out a command thread. :Type: 32-bit Integer :Default: ``10*60`` ``osd command max records`` :Description: Limits the number of lost objects to return. :Type: 32-bit Integer :Default: ``256`` ``osd auto upgrade tmap`` :Description: Uses ``tmap`` for ``omap`` on old objects. :Type: Boolean :Default: ``true`` ``osd tmapput sets users tmap`` :Description: Uses ``tmap`` for debugging only. :Type: Boolean :Default: ``false`` ``osd preserve trimmed log`` :Description: Preserves trimmed log files, but uses more disk space. :Type: Boolean :Default: ``false`` ``osd fast fail on connection refused`` :Description: If this option is enabled, crashed OSDs are marked down immediately by connected peers and MONs (assuming that the crashed OSD host survives). Disable it to restore old behavior, at the expense of possible long I/O stalls when OSDs crash in the middle of I/O operations. :Type: Boolean :Default: ``true`` .. _pool: ../../operations/pools .. _Configuring Monitor/OSD Interaction: ../mon-osd-interaction .. _Monitoring OSDs and PGs: ../../operations/monitoring-osd-pg#peering .. _Pool & PG Config Reference: ../pool-pg-config-ref .. _Journal Config Reference: ../journal-ref