============ CRUSH Maps ============ The :abbr:`CRUSH (Controlled Replication Under Scalable Hashing)` algorithm determines how to store and retrieve data by computing data storage locations. CRUSH empowers Ceph clients to communicate with OSDs directly rather than through a centralized server or broker. With an algorithmically determined method of storing and retrieving data, Ceph avoids a single point of failure, a performance bottleneck, and a physical limit to its scalability. CRUSH requires a map of your cluster, and uses the CRUSH map to pseudo-randomly store and retrieve data in OSDs with a uniform distribution of data across the cluster. For a detailed discussion of CRUSH, see `CRUSH - Controlled, Scalable, Decentralized Placement of Replicated Data`_ .. _CRUSH - Controlled, Scalable, Decentralized Placement of Replicated Data: http://ceph.com/papers/weil-crush-sc06.pdf CRUSH Maps contain a list of :abbr:`OSDs (Object Storage Devices)`, a list of 'buckets' for aggregating the devices into physical locations, and a list of rules that tell CRUSH how it should replicate data in a Ceph cluster's pools. By reflecting the underlying physical organization of the installation, CRUSH can model—and thereby address—potential sources of correlated device failures. Typical sources include physical proximity, a shared power source, and a shared network. By encoding this information into the cluster map, CRUSH placement policies can separate object replicas across different failure domains while still maintaining the desired distribution. For example, to address the possibility of concurrent failures, it may be desirable to ensure that data replicas are on devices in different shelves, racks, power supplies, controllers, and/or physical locations. When you create a configuration file and deploy Ceph with ``mkcephfs``, Ceph generates a default CRUSH map for your configuration. The default CRUSH map is fine for your Ceph sandbox environment. However, when you deploy a large-scale data cluster, you should give significant consideration to developing a custom CRUSH map, because it will help you manage your Ceph cluster, improve performance and ensure data safety. For example, if an OSD goes down, a CRUSH Map can help you can locate the physical data center, room, rack and row of the host with the failed OSD in the event you need to use onsite support or replace hardware. Similarly, CRUSH may help you identify faults more quickly. For example, if all OSDs in a particular rack go down simultaneously, the fault may lie with a network switch or power to the rack or the network switch rather than the OSDs themselves. A custom CRUSH map can also help you identify the physical locations where Ceph stores redundant copies of data when the placement group(s) associated with a failed host are in a degraded state. `Inktank`_ provides excellent premium support for developing CRUSH maps. .. _Inktank: http://www.inktank.com Editing a CRUSH Map =================== To edit an existing CRUSH map: #. `Get the CRUSH Map`_. #. `Decompile`_ the CRUSH Map. #. Edit at least one of `Devices`_, `Buckets`_ and `Rules`_. #. `Recompile`_ the CRUSH Map. #. `Set the CRUSH Map`_. To activate CRUSH Map rules for a specific pool, identify the common ruleset number for those rules and specify that ruleset number for the pool. See `Set Pool Values`_ for details. .. _Get the CRUSH Map: #getcrushmap .. _Decompile: #decompilecrushmap .. _Devices: #crushmapdevices .. _Buckets: #crushmapbuckets .. _Rules: #crushmaprules .. _Recompile: #compilecrushmap .. _Set the CRUSH Map: #setcrushmap .. _Set Pool Values: ../pools#setpoolvalues .. _getcrushmap: Get a CRUSH Map --------------- To get the CRUSH Map for your cluster, execute the following:: ceph osd getcrushmap -o {compiled-crushmap-filename} Ceph will output (-o) a compiled CRUSH Map to the filename you specified. Since the CRUSH Map is in a compiled form, you must decompile it first before you can edit it. .. _decompilecrushmap: Decompile a CRUSH Map --------------------- To decompile a CRUSH Map, execute the following:: crushtool -d {compiled-crushmap-filename} -o {decompiled-crushmap-filename} Ceph will decompile (-d) the compiled CRUSH map and output (-o) it to the filename you specified. .. _compilecrushmap: Compile a CRUSH Map ------------------- To compile a CRUSH Map, execute the following:: crushtool -c {decompiled-crush-map-filename} -o {compiled-crush-map-filename} Ceph will store a compiled CRUSH map to the filename you specified. .. _setcrushmap: Set a CRUSH Map --------------- To set the CRUSH Map for your cluster, execute the following:: ceph osd setcrushmap -i {compiled-crushmap-filename} Ceph will input the compiled CRUSH Map of the filename you specified as the CRUSH Map for the cluster. CRUSH Map Parameters ==================== There are three main sections to a CRUSH Map. #. Devices consist of any object storage device--i.e., the hard disk corresponding to a ``ceph-osd`` daemon. #. Buckets consist of a hierarchical aggregation of storage locations (e.g., racks, rows, hosts, etc.) and their assigned weights. #. Rules consist of the manner of selecting buckets .. _crushmapdevices: CRUSH Map Devices ----------------- To map placement groups to OSDs, a CRUSH Map requires a list of OSD devices (i.e., the name of the OSD daemon). The list of devices appears first in the CRUSH Map. :: #devices device {num} {osd.name} For example:: #devices device 0 osd.0 device 1 osd.1 device 2 osd.2 device 3 osd.3 As a general rule, an OSD daemon maps to a single disk or to a RAID. .. _crushmapbuckets: CRUSH Map Buckets ----------------- CRUSH maps support the notion of 'buckets', which may be thought of as nodes that aggregate other buckets into a hierarchy of physical locations, where OSD devices are the leaves of the hierarchy. The following table lists the default types. +------+----------+-------------------------------------------------------+ | Type | Location | Description | +======+=============+====================================================+ | 0 | OSD | An OSD daemon (e.g., osd.1, osd.2, etc). | +------+-------------+----------------------------------------------------+ | 1 | Host | A host name containing one or more OSDs. | +------+-------------+----------------------------------------------------+ | 2 | Rack | A computer rack. The default is ``unknownrack``. | +------+-------------+----------------------------------------------------+ | 3 | Row | A row in a series of racks. | +------+-------------+----------------------------------------------------+ | 4 | Room | A room containing racks and rows of hosts. | +------+-------------+----------------------------------------------------+ | 5 | Data Center | A physical data center containing rooms. | +------+-------------+----------------------------------------------------+ | 6 | Pool | A data storage pool for storing objects. | +------+-------------+----------------------------------------------------+ .. note:: You can remove these types and create your own bucket types. Ceph's deployment tools generate a CRUSH map that contains a bucket for each host, and a pool named "default," which is useful for the default ``data``, ``metadata`` and ``rbd`` pools. The remaining bucket types provide a means for storing information about the physical location of nodes/buckets, which makes cluster administration much easier when OSDs, hosts, or network hardware malfunction and the administrator needs access to physical hardware. .. tip: The term "bucket" used in the context of CRUSH means a Ceph pool, a location, or a piece of physical hardware. It is a different concept from the term "bucket" when used in the context of RADOS Gateway APIs. A bucket has a type, a unique name (string), a unique ID expressed as a negative integer, a weight relative to the total capacity/capability of its item(s), the bucket algorithm (``straw`` by default), and the hash (``0`` by default, reflecting CRUSH Hash ``rjenkins1``). A bucket may have one or more items. The items may consist of other buckets or OSDs. Items may have a weight that reflects the relative weight of the item. :: [bucket-type] [bucket-name] { id [a unique negative numeric ID] weight [the relative capacity/capability of the item(s)] alg [the bucket type: uniform | list | tree | straw ] hash [the hash type: 0 by default] item [item-name} weight {weight] } The following example illustrates how you can use buckets to aggregate a pool and physical locations like a datacenter, a room, a rack and a row. :: host ceph-osd-server-1 { id -17 alg straw hash 0 item osd.0 weight 1.00 item osd.1 weight 1.00 } row rack-1-row-1 { id -16 alg straw hash 0 item ceph-osd-server-1 2.00 } rack rack-3 { id -15 alg straw hash 0 item rack-3-row-1 weight 2.00 item rack-3-row-2 weight 2.00 item rack-3-row-3 weight 2.00 item rack-3-row-4 weight 2.00 item rack-3-row-5 weight 2.00 } rack rack-2 { id -14 alg straw hash 0 item rack-2-row-1 weight 2.00 item rack-2-row-2 weight 2.00 item rack-2-row-3 weight 2.00 item rack-2-row-4 weight 2.00 item rack-2-row-5 weight 2.00 } rack rack-1 { id -13 alg straw hash 0 item rack-1-row-1 weight 2.00 item rack-1-row-2 weight 2.00 item rack-1-row-3 weight 2.00 item rack-1-row-4 weight 2.00 item rack-1-row-5 weight 2.00 } room server-room-1 { id -12 alg straw hash 0 item rack-1 weight 10.00 item rack-2 weight 10.00 item rack-3 weight 10.00 } datacenter dc-1 { id -11 alg straw hash 0 item server-room-1 weight 30.00 item server-room-2 weight 30.00 } pool data { id -10 alg straw hash 0 item dc-1 weight 60.00 item dc-2 weight 60.00 } .. _crushmaprules: CRUSH Map Rules --------------- CRUSH maps support the notion of 'CRUSH rules', which are the rules that determine data placement for a pool. For large clusters, you will likely create many pools where each pool may have its own CRUSH ruleset and rules. The default CRUSH map has a rule for each pool, and one ruleset assigned to each of the default pools, which include: - ``data`` - ``metadata`` - ``rbd`` .. important:: In most cases, you will not need to modify the default rules. When you create a new pool, its default ruleset is ``0``. A rule takes the following form:: rule [rulename] { ruleset [ruleset] type [type] min_size [min-size] max_size [max-size] step [step] } ``ruleset`` :Description: A means of classifying a rule as belonging to a set of rules. Activated by `setting the ruleset in a pool`_. :Purpose: A component of the rule mask. :Type: Integer :Required: Yes :Default: 0 .. _setting the ruleset in a pool: ../pools#setpoolvalues ``type`` :Description: Describes a rule for either a hard disk (replicated) or a RAID. :Purpose: A component of the rule mask. :Type: String :Required: Yes :Default: ``replicated`` :Valid Values: Currently only ``replicated`` ``min_size`` :Description: If a placement group makes fewer replicas than this number, CRUSH will NOT select this rule. :Type: Integer :Purpose: A component of the rule mask. :Required: Yes :Default: ``1`` ``max_size`` :Description: If a placement group makes more replicas than this number, CRUSH will NOT select this rule. :Type: Integer :Purpose: A component of the rule mask. :Required: Yes :Default: 10 ``step take {bucket}`` :Description: Takes a bucket name, and begins iterating down the tree. :Purpose: A component of the rule. :Required: Yes :Example: ``step take data`` ``step choose firstn {num} type {bucket-type}`` :Description: Selects the number of buckets of the given type. Where ``N`` is the number of options available, if ``{num} > 0 && < N``, choose that many buckets; if ``{num} < 0``, it means ``N - {num}``; and, if ``{num} == 0``, choose ``N`` buckets (all available). :Purpose: A component of the rule. :Prerequisite: Follows ``step take`` or ``step choose``. :Example: ``step choose firstn 1 type row`` ``step emit`` :Description: Outputs the current value and empties the stack. Typically used at the end of a rule, but may also be used to from different trees in the same rule. :Purpose: A component of the rule. :Prerequisite: Follows ``step choose``. :Example: ``step emit`` .. important:: To activate one or more rules with a common ruleset number to a pool, set the ruleset number to the pool. .. _addosd: Add/Move an OSD =============== To add or move an OSD in the CRUSH map of a running cluster, execute the following:: ceph osd crush set {id} {name} {weight} pool={pool-name} [{bucket-type}={bucket-name}, ...] Where: ``id`` :Description: The numeric ID of the OSD. :Type: Integer :Required: Yes :Example: ``0`` ``name`` :Description: The full name of the OSD. :Type: String :Required: Yes :Example: ``osd.0`` ``weight`` :Description: The CRUSH weight for the OSD. :Type: Double :Required: Yes :Example: ``2.0`` ``pool`` :Description: By default, the CRUSH hierarchy contains the pool name at its root. :Type: Key/value pair. :Required: Yes :Example: ``pool=data`` ``bucket-type`` :Description: You may specify the OSD's location in the CRUSH hierarchy. :Type: Key/value pairs. :Required: No :Example: ``datacenter=dc1, room=room1, row=foo, rack=bar, host=foo-bar-1`` The following example adds ``osd.0`` to the hierarchy, or moves the OSD from a previous location. :: ceph osd crush set 0 osd.0 1.0 pool=data datacenter=dc1, room=room1, row=foo, rack=bar, host=foo-bar-1 Adjust an OSD's CRUSH Weight ============================ To adjust an OSD's crush weight in the CRUSH map of a running cluster, execute the following:: ceph osd crush reweight {name} {weight} Where: ``name`` :Description: The full name of the OSD. :Type: String :Required: Yes :Example: ``osd.0`` ``weight`` :Description: The CRUSH weight for the OSD. :Type: Double :Required: Yes :Example: ``2.0`` .. _removeosd: Remove an OSD ============= To remove an OSD from the CRUSH map of a running cluster, execute the following:: ceph osd crush remove {name} Where: ``name`` :Description: The full name of the OSD. :Type: String :Required: Yes :Example: ``osd.0`` Move a Bucket ============= To move a bucket to a different location or position in the CRUSH map hierarchy, execute the following:: ceph osd crush move {bucket-name} {bucket-type}={bucket-name}, [...] Where: ``bucket-name`` :Description: The name of the bucket to move/reposition. :Type: String :Required: Yes :Example: ``foo-bar-1`` ``bucket-type`` :Description: You may specify the bucket's location in the CRUSH hierarchy. :Type: Key/value pairs. :Required: No :Example: ``datacenter=dc1, room=room1, row=foo, rack=bar, host=foo-bar-1`` Tunables ======== .. versionadded:: 0.48 There are several magic numbers that were used in the original CRUSH implementation that have proven to be poor choices. To support the transition away from them, newer versions of CRUSH (starting with the v0.48 argonaut series) allow the values to be adjusted or tuned. Clusters running recent Ceph releases support using the tunable values in the CRUSH maps. However, older clients and daemons will not correctly interact with clusters using the "tuned" CRUSH maps. To detect this situation, there is now a feature bit ``CRUSH_TUNABLES`` (value 0x40000) to reflect support for tunables. If the OSDMap currently used by the ``ceph-mon`` or ``ceph-osd`` daemon has non-legacy values, it will require the ``CRUSH_TUNABLES`` feature bit from clients and daemons who connect to it. This means that old clients will not be able to connect. At some future point in time, newly created clusters will have improved default values for the tunables. This is a matter of waiting until the support has been present in the Linux kernel clients long enough to make this a painless transition for most users. Impact of Legacy Values ----------------------- The legacy values result in several misbehaviors: * For hiearchies with a small number of devices in the leaf buckets, some PGs map to fewer than the desired number of replicas. This commonly happens for hiearchies with "host" nodes with a small number (1-3) of OSDs nested beneath each one. * For large clusters, some small percentages of PGs map to less than the desired number of OSDs. This is more prevalent when there are several layers of the hierarchy (e.g., row, rack, host, osd). * When some OSDs are marked out, the data tends to get redistributed to nearby OSDs instead of across the entire hierarchy. Which client versions support tunables -------------------------------------- * argonaut series, v0.48.1 or later * v0.49 or later * Linux kernel version v3.5 or later (for the file system and RBD kernel clients) A few important points ---------------------- * Adjusting these values will result in the shift of some PGs between storage nodes. If the Ceph cluster is already storing a lot of data, be prepared for some fraction of the data to move. * The ``ceph-osd`` and ``ceph-mon`` daemons will start requiring the ``CRUSH_TUNABLES`` feature of new connections as soon as they get the updated map. However, already-connected clients are effectively grandfathered in, and will misbehave if they do not support the new feature. * If the CRUSH tunables are set to non-legacy values and then later changed back to the defult values, ``ceph-osd`` daemons will not be required to support the feature. However, the OSD peering process requires examining and understanding old maps. Therefore, you should not run old (pre-v0.48) versions of the ``ceph-osd`` daemon if the cluster has previosly used non-legacy CRUSH values, even if the latest version of the map has been switched back to using the legacy defaults. Tuning CRUSH ------------ If you can ensure that all clients are running recent code, you can adjust the tunables by extracting the CRUSH map, modifying the values, and reinjecting it into the cluster. * Extract the latest CRUSH map:: ceph osd getcrushmap -o /tmp/crush * Adjust tunables. These values appear to offer the best behavior for both large and small clusters we tested with. You will need to additionally specify the ``--enable-unsafe-tunables`` argument to ``crushtool`` for this to work. Please use this option with extreme care.:: crushtool -i /tmp/crush --set-choose-local-tries 0 --set-choose-local-fallback-tries 0 --set-choose-total-tries 50 -o /tmp/crush.new * Reinject modified map:: ceph osd setcrushmap -i /tmp/crush.new Legacy values ------------- For reference, the legacy values for the CRUSH tunables can be set with:: crushtool -i /tmp/crush --set-choose-local-tries 2 --set-choose-local-fallback-tries 5 --set-choose-total-tries 19 -o /tmp/crush.legacy Again, the special ``--enable-unsafe-tunables`` option is required. Further, as noted above, be careful running old versions of the ``ceph-osd`` daemon after reverting to legacy values as the feature bit is not perfectly enforced.