mirror of
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234c6a432b
Signed-off-by: Alfredo Deza <adeza@redhat.com>
959 lines
33 KiB
ReStructuredText
959 lines
33 KiB
ReStructuredText
============
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CRUSH Maps
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============
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The :abbr:`CRUSH (Controlled Replication Under Scalable Hashing)` algorithm
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determines how to store and retrieve data by computing data storage locations.
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CRUSH empowers Ceph clients to communicate with OSDs directly rather than
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through a centralized server or broker. With an algorithmically determined
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method of storing and retrieving data, Ceph avoids a single point of failure, a
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performance bottleneck, and a physical limit to its scalability.
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CRUSH requires a map of your cluster, and uses the CRUSH map to pseudo-randomly
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store and retrieve data in OSDs with a uniform distribution of data across the
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cluster. For a detailed discussion of CRUSH, see
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`CRUSH - Controlled, Scalable, Decentralized Placement of Replicated Data`_
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CRUSH maps contain a list of :abbr:`OSDs (Object Storage Devices)`, a list of
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'buckets' for aggregating the devices into physical locations, and a list of
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rules that tell CRUSH how it should replicate data in a Ceph cluster's pools. By
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reflecting the underlying physical organization of the installation, CRUSH can
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model—and thereby address—potential sources of correlated device failures.
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Typical sources include physical proximity, a shared power source, and a shared
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network. By encoding this information into the cluster map, CRUSH placement
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policies can separate object replicas across different failure domains while
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still maintaining the desired distribution. For example, to address the
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possibility of concurrent failures, it may be desirable to ensure that data
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replicas are on devices using different shelves, racks, power supplies,
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controllers, and/or physical locations.
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When you deploy OSDs they are automatically placed within the CRUSH map under a
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``host`` node named with the hostname for the host they are running on. This,
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combined with the default CRUSH failure domain, ensures that replicas or erasure
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code shards are separated across hosts and a single host failure will not
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affect availability. For larger clusters, however, administrators should carefully consider their choice of failure domain. Separating replicas across racks,
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for example, is common for mid- to large-sized clusters.
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CRUSH Location
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==============
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The location of an OSD in terms of the CRUSH map's hierarchy is
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referred to as a ``crush location``. This location specifier takes the
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form of a list of key and value pairs describing a position. For
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example, if an OSD is in a particular row, rack, chassis and host, and
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is part of the 'default' CRUSH tree (this is the case for the vast
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majority of clusters), its crush location could be described as::
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root=default row=a rack=a2 chassis=a2a host=a2a1
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Note:
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#. Note that the order of the keys does not matter.
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#. The key name (left of ``=``) must be a valid CRUSH ``type``. By default
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these include root, datacenter, room, row, pod, pdu, rack, chassis and host,
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but those types can be customized to be anything appropriate by modifying
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the CRUSH map.
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#. Not all keys need to be specified. For example, by default, Ceph
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automatically sets a ``ceph-osd`` daemon's location to be
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``root=default host=HOSTNAME`` (based on the output from ``hostname -s``).
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The crush location for an OSD is normally expressed via the ``crush location``
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config option being set in the ``ceph.conf`` file. Each time the OSD starts,
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it verifies it is in the correct location in the CRUSH map and, if it is not,
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it moved itself. To disable this automatic CRUSH map management, add the
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following to your configuration file in the ``[osd]`` section::
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osd crush update on start = false
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Custom location hooks
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---------------------
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A customized location hook can be used to generate a more complete
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crush location on startup. The sample ``ceph-crush-location`` utility
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will generate a CRUSH location string for a given daemon. The
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location is based on, in order of preference:
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#. A ``crush location`` option in ceph.conf.
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#. A default of ``root=default host=HOSTNAME`` where the hostname is
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generated with the ``hostname -s`` command.
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This is not useful by itself, as the OSD itself has the exact same
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behavior. However, the script can be modified to provide additional
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location fields (for example, the rack or datacenter), and then the
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hook enabled via the config option::
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crush location hook = /path/to/customized-ceph-crush-location
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This hook is passed several arguments (below) and should output a single line
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to stdout with the CRUSH location description.::
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$ ceph-crush-location --cluster CLUSTER --id ID --type TYPE
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where the cluster name is typically 'ceph', the id is the daemon
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identifier (the OSD number), and the daemon type is typically ``osd``.
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CRUSH structure
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===============
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The CRUSH map consists of, loosely speaking, a hierarchy describing
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the physical topology of the cluster, and a set of rules defining
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policy about how we place data on those devices. The hierarchy has
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devices (``ceph-osd`` daemons) at the leaves, and internal nodes
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corresponding to other physical features or groupings: hosts, racks,
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rows, datacenters, and so on. The rules describe how replicas are
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placed in terms of that hierarchy (e.g., 'three replicas in different
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racks').
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Devices
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-------
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Devices are individual ``ceph-osd`` daemons that can store data. You
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will normally have one defined here for each OSD daemon in your
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cluster. Devices are identified by an id (a non-negative integer) and
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a name, normally ``osd.N`` where ``N`` is the device id.
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Devices may also have a *device class* associated with them (e.g.,
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``hdd`` or ``ssd``), allowing them to be conveniently targetted by a
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crush rule.
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Types and Buckets
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-----------------
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A bucket is the CRUSH term for internal nodes in the hierarchy: hosts,
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racks, rows, etc. The CRUSH map defines a series of *types* that are
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used to describe these nodes. By default, these types include:
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- osd (or device)
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- host
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- chassis
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- rack
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- row
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- pdu
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- pod
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- room
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- datacenter
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- region
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- root
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Most clusters make use of only a handful of these types, and others
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can be defined as needed.
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The hierarchy is built with devices (normally type ``osd``) at the
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leaves, interior nodes with non-device types, and a root node of type
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``root``. For example,
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.. ditaa::
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+-----------------+
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| {o}root default |
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+--------+--------+
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+---------------+---------------+
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+-------+-------+ +-----+-------+
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| {o}host foo | | {o}host bar |
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+-------+-------+ +-----+-------+
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+-------+-------+ +-------+-------+
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| | | |
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+-----+-----+ +-----+-----+ +-----+-----+ +-----+-----+
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| osd.0 | | osd.1 | | osd.2 | | osd.3 |
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+-----------+ +-----------+ +-----------+ +-----------+
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Each node (device or bucket) in the hierarchy has a *weight*
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associated with it, indicating the relative proportion of the total
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data that device or hierarchy subtree should store. Weights are set
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at the leaves, indicating the size of the device, and automatically
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sum up the tree from there, such that the weight of the default node
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will be the total of all devices contained beneath it. Normally
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weights are in units of terabytes (TB).
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You can get a simple view the CRUSH hierarchy for your cluster,
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including the weights, with::
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ceph osd crush tree
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Rules
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-----
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Rules define policy about how data is distributed across the devices
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in the hierarchy.
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CRUSH rules define placement and replication strategies or
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distribution policies that allow you to specify exactly how CRUSH
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places object replicas. For example, you might create a rule selecting
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a pair of targets for 2-way mirroring, another rule for selecting
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three targets in two different data centers for 3-way mirroring, and
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yet another rule for erasure coding over six storage devices. For a
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detailed discussion of CRUSH rules, refer to `CRUSH - Controlled,
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Scalable, Decentralized Placement of Replicated Data`_, and more
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specifically to **Section 3.2**.
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In almost all cases, CRUSH rules can be created via the CLI by
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specifying the *pool type* they will be used for (replicated or
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erasure coded), the *failure domain*, and optionally a *device class*.
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In rare cases rules must be written by hand by manually editing the
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CRUSH map.
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You can see what rules are defined for your cluster with::
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ceph osd crush rule ls
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You can view the contents of the rules with::
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ceph osd crush rule dump
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Device classes
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--------------
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Each device can optionally have a *class* associated with it. By
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default, OSDs automatically set their class on startup to either
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`hdd`, `ssd`, or `nvme` based on the type of device they are backed
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by.
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The device class for one or more OSDs can be explicitly set with::
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ceph osd crush set-device-class <class> <osd-name> [...]
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Once a device class is set, it cannot be changed to another class
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until the old class is unset with::
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ceph osd crush rm-device-class <osd-name> [...]
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This allows administrators to set device classes without the class
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being changed on OSD restart or by some other script.
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A placement rule that targets a specific device class can be created with::
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ceph osd crush rule create-replicated <rule-name> <root> <failure-domain> <class>
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A pool can then be changed to use the new rule with::
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ceph osd pool set <pool-name> crush_rule <rule-name>
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Device classes are implemented by creating a "shadow" CRUSH hierarchy
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for each device class in use that contains only devices of that class.
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Rules can then distribute data over the shadow hierarchy. One nice
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thing about this approach is that it is fully backward compatible with
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old Ceph clients. You can view the CRUSH hierarchy with shadow items
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with::
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ceph osd crush tree --show-shadow
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Weights sets
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------------
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A *weight set* is an alternative set of weights to use when
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calculating data placement. The normal weights associated with each
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device in the CRUSH map are set based on the device size and indicate
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how much data we *should* be storing where. However, because CRUSH is
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based on a pseudorandom placement process, there is always some
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variation from this ideal distribution, the same way that rolling a
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dice sixty times will not result in rolling exactly 10 ones and 10
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sixes. Weight sets allow the cluster to do a numerical optimization
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based on the specifics of your cluster (hierarchy, pools, etc.) to achieve
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a balanced distribution.
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There are two types of weight sets supported:
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#. A **compat** weight set is a single alternative set of weights for
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each device and node in the cluster. This is not well-suited for
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correcting for all anomalies (for example, placement groups for
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different pools may be different sizes and have different load
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levels, but will be mostly treated the same by the balancer).
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However, compat weight sets have the huge advantage that they are
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*backward compatible* with previous versions of Ceph, which means
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that even though weight sets were first introduced in Luminous
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v12.2.z, older clients (e.g., firefly) can still connect to the
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cluster when a compat weight set is being used to balance data.
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#. A **per-pool** weight set is more flexible in that it allows
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placement to be optimized for each data pool. Additionally,
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weights can be adjusted for each position of placement, allowing
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the optimizer to correct for a suble skew of data toward devices
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with small weights relative to their peers (and effect that is
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usually only apparently in very large clusters but which can cause
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balancing problems).
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When weight sets are in use, the weights associated with each node in
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the hierarchy is visible as a separate column (labeled either
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``(compat)`` or the pool name) from the command::
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ceph osd crush tree
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When both *compat* and *per-pool* weight sets are in use, data
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placement for a particular pool will use its own per-pool weight set
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if present. If not, it will use the compat weight set if present. If
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neither are present, it will use the normal CRUSH weights.
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Although weight sets can be set up and manipulated by hand, it is
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recommended that the *balancer* module be enabled to do so
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automatically.
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Modifying the CRUSH map
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=======================
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.. _addosd:
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Add/Move an OSD
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---------------
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.. note: OSDs are normally automatically added to the CRUSH map when
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the OSD is created. This command is rarely needed.
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To add or move an OSD in the CRUSH map of a running cluster::
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ceph osd crush set {name} {weight} root={root} [{bucket-type}={bucket-name} ...]
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Where:
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``name``
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:Description: The full name of the OSD.
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:Type: String
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:Required: Yes
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:Example: ``osd.0``
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``weight``
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:Description: The CRUSH weight for the OSD, normally its size measure in terabytes (TB).
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:Type: Double
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:Required: Yes
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:Example: ``2.0``
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``root``
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:Description: The root node of the tree in which the OSD resides (normally ``default``)
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:Type: Key/value pair.
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:Required: Yes
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:Example: ``root=default``
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``bucket-type``
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:Description: You may specify the OSD's location in the CRUSH hierarchy.
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:Type: Key/value pairs.
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:Required: No
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:Example: ``datacenter=dc1 room=room1 row=foo rack=bar host=foo-bar-1``
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The following example adds ``osd.0`` to the hierarchy, or moves the
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OSD from a previous location. ::
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ceph osd crush set osd.0 1.0 root=default datacenter=dc1 room=room1 row=foo rack=bar host=foo-bar-1
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Adjust OSD weight
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-----------------
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.. note: Normally OSDs automatically add themselves to the CRUSH map
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with the correct weight when they are created. This command
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is rarely needed.
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To adjust an OSD's crush weight in the CRUSH map of a running cluster, execute
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the following::
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ceph osd crush reweight {name} {weight}
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Where:
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``name``
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:Description: The full name of the OSD.
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:Type: String
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:Required: Yes
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:Example: ``osd.0``
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``weight``
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:Description: The CRUSH weight for the OSD.
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:Type: Double
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:Required: Yes
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:Example: ``2.0``
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.. _removeosd:
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Remove an OSD
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-------------
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.. note: OSDs are normally removed from the CRUSH as part of the
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``ceph osd purge`` command. This command is rarely needed.
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To remove an OSD from the CRUSH map of a running cluster, execute the
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following::
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ceph osd crush remove {name}
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Where:
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``name``
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:Description: The full name of the OSD.
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:Type: String
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:Required: Yes
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:Example: ``osd.0``
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Add a Bucket
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------------
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.. note: Buckets are normally implicitly created when an OSD is added
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that specifies a ``{bucket-type}={bucket-name}`` as part of its
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location and a bucket with that name does not already exist. This
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command is typically used when manually adjusting the structure of the
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hierarchy after OSDs have been created (for example, to move a
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series of hosts underneath a new rack-level bucket).
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To add a bucket in the CRUSH map of a running cluster, execute the
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``ceph osd crush add-bucket`` command::
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ceph osd crush add-bucket {bucket-name} {bucket-type}
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Where:
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``bucket-name``
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:Description: The full name of the bucket.
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:Type: String
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:Required: Yes
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:Example: ``rack12``
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``bucket-type``
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:Description: The type of the bucket. The type must already exist in the hierarchy.
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:Type: String
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:Required: Yes
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:Example: ``rack``
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The following example adds the ``rack12`` bucket to the hierarchy::
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ceph osd crush add-bucket rack12 rack
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Move a Bucket
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-------------
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To move a bucket to a different location or position in the CRUSH map
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hierarchy, execute the following::
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ceph osd crush move {bucket-name} {bucket-type}={bucket-name}, [...]
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Where:
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``bucket-name``
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:Description: The name of the bucket to move/reposition.
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:Type: String
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:Required: Yes
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:Example: ``foo-bar-1``
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``bucket-type``
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:Description: You may specify the bucket's location in the CRUSH hierarchy.
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:Type: Key/value pairs.
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:Required: No
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:Example: ``datacenter=dc1 room=room1 row=foo rack=bar host=foo-bar-1``
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Remove a Bucket
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---------------
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To remove a bucket from the CRUSH map hierarchy, execute the following::
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ceph osd crush remove {bucket-name}
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.. note:: A bucket must be empty before removing it from the CRUSH hierarchy.
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Where:
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``bucket-name``
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:Description: The name of the bucket that you'd like to remove.
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:Type: String
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:Required: Yes
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:Example: ``rack12``
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The following example removes the ``rack12`` bucket from the hierarchy::
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ceph osd crush remove rack12
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Creating a compat weight set
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----------------------------
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.. note: This step is normally done automatically by the ``balancer``
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module when enabled.
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To create a *compat* weight set::
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ceph osd crush weight-set create-compat
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Weights for the compat weight set can be adjusted with::
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ceph osd crush weight-set reweight-compat {name} {weight}
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The compat weight set can be destroyed with::
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ceph osd crush weight-set rm-compat
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Creating per-pool weight sets
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-----------------------------
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To create a weight set for a specific pool,::
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ceph osd crush weight-set create {pool-name} {mode}
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.. note:: Per-pool weight sets require that all servers and daemons
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run Luminous v12.2.z or later.
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Where:
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``pool-name``
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:Description: The name of a RADOS pool
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:Type: String
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:Required: Yes
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:Example: ``rbd``
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``mode``
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:Description: Either ``flat`` or ``positional``. A *flat* weight set
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has a single weight for each device or bucket. A
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*positional* weight set has a potentially different
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weight for each position in the resulting placement
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mapping. For example, if a pool has a replica count of
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3, then a positional weight set will have three weights
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for each device and bucket.
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:Type: String
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:Required: Yes
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:Example: ``flat``
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To adjust the weight of an item in a weight set::
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ceph osd crush weight-set reweight {pool-name} {item-name} {weight [...]}
|
|
|
|
To list existing weight sets,::
|
|
|
|
ceph osd crush weight-set ls
|
|
|
|
To remove a weight set,::
|
|
|
|
ceph osd crush weight-set rm {pool-name}
|
|
|
|
Creating a rule for a replicated pool
|
|
-------------------------------------
|
|
|
|
For a replicated pool, the primary decision when creating the CRUSH
|
|
rule is what the failure domain is going to be. For example, if a
|
|
failure domain of ``host`` is selected, then CRUSH will ensure that
|
|
each replica of the data is stored on a different host. If ``rack``
|
|
is selected, then each replica will be stored in a different rack.
|
|
What failure domain you choose primarily depends on the size of your
|
|
cluster and how your hierarchy is structured.
|
|
|
|
Normally, the entire cluster hierarchy is nested beneath a root node
|
|
named ``default``. If you have customized your hierarchy, you may
|
|
want to create a rule nested at some other node in the hierarchy. It
|
|
doesn't matter what type is associated with that node (it doesn't have
|
|
to be a ``root`` node).
|
|
|
|
It is also possible to create a rule that restricts data placement to
|
|
a specific *class* of device. By default, Ceph OSDs automatically
|
|
classify themselves as either ``hdd`` or ``ssd``, depending on the
|
|
underlying type of device being used. These classes can also be
|
|
customized.
|
|
|
|
To create a replicated rule,::
|
|
|
|
ceph osd crush rule create-replicated {name} {root} {failure-domain-type} [{class}]
|
|
|
|
Where:
|
|
|
|
``name``
|
|
|
|
:Description: The name of the rule
|
|
:Type: String
|
|
:Required: Yes
|
|
:Example: ``rbd-rule``
|
|
|
|
``root``
|
|
|
|
:Description: The name of the node under which data should be placed.
|
|
:Type: String
|
|
:Required: Yes
|
|
:Example: ``default``
|
|
|
|
``failure-domain-type``
|
|
|
|
:Description: The type of CRUSH nodes across which we should separate replicas.
|
|
:Type: String
|
|
:Required: Yes
|
|
:Example: ``rack``
|
|
|
|
``class``
|
|
|
|
:Description: The device class data should be placed on.
|
|
:Type: String
|
|
:Required: No
|
|
:Example: ``ssd``
|
|
|
|
Creating a rule for an erasure coded pool
|
|
-----------------------------------------
|
|
|
|
For an erasure-coded pool, the same basic decisions need to be made as
|
|
with a replicated pool: what is the failure domain, what node in the
|
|
hierarchy will data be placed under (usually ``default``), and will
|
|
placement be restricted to a specific device class. Erasure code
|
|
pools are created a bit differently, however, because they need to be
|
|
constructed carefully based on the erasure code being used. For this reason,
|
|
you must include this information in the *erasure code profile*. A CRUSH
|
|
rule will then be created from that either explicitly or automatically when
|
|
the profile is used to create a pool.
|
|
|
|
The erasure code profiles can be listed with::
|
|
|
|
ceph osd erasure-code-profile ls
|
|
|
|
An existing profile can be viewed with::
|
|
|
|
ceph osd erasure-code-profile get {profile-name}
|
|
|
|
Normally profiles should never be modified; instead, a new profile
|
|
should be created and used when creating a new pool or creating a new
|
|
rule for an existing pool.
|
|
|
|
An erasure code profile consists of a set of key=value pairs. Most of
|
|
these control the behavior of the erasure code that is encoding data
|
|
in the pool. Those that begin with ``crush-``, however, affect the
|
|
CRUSH rule that is created.
|
|
|
|
The erasure code profile properties of interest are:
|
|
|
|
* **crush-root**: the name of the CRUSH node to place data under [default: ``default``].
|
|
* **crush-failure-domain**: the CRUSH type to separate erasure-coded shards across [default: ``host``].
|
|
* **crush-device-class**: the device class to place data on [default: none, meaning all devices are used].
|
|
* **k** and **m** (and, for the ``lrc`` plugin, **l**): these determine the number of erasure code shards, affecting the resulting CRUSH rule.
|
|
|
|
Once a profile is defined, you can create a CRUSH rule with::
|
|
|
|
ceph osd crush rule create-erasure {name} {profile-name}
|
|
|
|
.. note: When creating a new pool, it is not actually necessary to
|
|
explicitly create the rule. If the erasure code profile alone is
|
|
specified and the rule argument is left off then Ceph will create
|
|
the CRUSH rule automatically.
|
|
|
|
Deleting rules
|
|
--------------
|
|
|
|
Rules that are not in use by pools can be deleted with::
|
|
|
|
ceph osd crush rule rm {rule-name}
|
|
|
|
|
|
.. _crush-map-tunables:
|
|
|
|
Tunables
|
|
========
|
|
|
|
Over time, we have made (and continue to make) improvements to the
|
|
CRUSH algorithm used to calculate the placement of data. In order to
|
|
support the change in behavior, we have introduced a series of tunable
|
|
options that control whether the legacy or improved variation of the
|
|
algorithm is used.
|
|
|
|
In order to use newer tunables, both clients and servers must support
|
|
the new version of CRUSH. For this reason, we have created
|
|
``profiles`` that are named after the Ceph version in which they were
|
|
introduced. For example, the ``firefly`` tunables are first supported
|
|
in the firefly release, and will not work with older (e.g., dumpling)
|
|
clients. Once a given set of tunables are changed from the legacy
|
|
default behavior, the ``ceph-mon`` and ``ceph-osd`` will prevent older
|
|
clients who do not support the new CRUSH features from connecting to
|
|
the cluster.
|
|
|
|
argonaut (legacy)
|
|
-----------------
|
|
|
|
The legacy CRUSH behavior used by argonaut and older releases works
|
|
fine for most clusters, provided there are not too many OSDs that have
|
|
been marked out.
|
|
|
|
bobtail (CRUSH_TUNABLES2)
|
|
-------------------------
|
|
|
|
The bobtail tunable profile fixes a few key misbehaviors:
|
|
|
|
* For hierarchies 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 hierarchies 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.
|
|
|
|
The new tunables are:
|
|
|
|
* ``choose_local_tries``: Number of local retries. Legacy value is
|
|
2, optimal value is 0.
|
|
|
|
* ``choose_local_fallback_tries``: Legacy value is 5, optimal value
|
|
is 0.
|
|
|
|
* ``choose_total_tries``: Total number of attempts to choose an item.
|
|
Legacy value was 19, subsequent testing indicates that a value of
|
|
50 is more appropriate for typical clusters. For extremely large
|
|
clusters, a larger value might be necessary.
|
|
|
|
* ``chooseleaf_descend_once``: Whether a recursive chooseleaf attempt
|
|
will retry, or only try once and allow the original placement to
|
|
retry. Legacy default is 0, optimal value is 1.
|
|
|
|
Migration impact:
|
|
|
|
* Moving from argonaut to bobtail tunables triggers a moderate amount
|
|
of data movement. Use caution on a cluster that is already
|
|
populated with data.
|
|
|
|
firefly (CRUSH_TUNABLES3)
|
|
-------------------------
|
|
|
|
The firefly tunable profile fixes a problem
|
|
with the ``chooseleaf`` CRUSH rule behavior that tends to result in PG
|
|
mappings with too few results when too many OSDs have been marked out.
|
|
|
|
The new tunable is:
|
|
|
|
* ``chooseleaf_vary_r``: Whether a recursive chooseleaf attempt will
|
|
start with a non-zero value of r, based on how many attempts the
|
|
parent has already made. Legacy default is 0, but with this value
|
|
CRUSH is sometimes unable to find a mapping. The optimal value (in
|
|
terms of computational cost and correctness) is 1.
|
|
|
|
Migration impact:
|
|
|
|
* For existing clusters that have lots of existing data, changing
|
|
from 0 to 1 will cause a lot of data to move; a value of 4 or 5
|
|
will allow CRUSH to find a valid mapping but will make less data
|
|
move.
|
|
|
|
straw_calc_version tunable (introduced with Firefly too)
|
|
--------------------------------------------------------
|
|
|
|
There were some problems with the internal weights calculated and
|
|
stored in the CRUSH map for ``straw`` buckets. Specifically, when
|
|
there were items with a CRUSH weight of 0 or both a mix of weights and
|
|
some duplicated weights CRUSH would distribute data incorrectly (i.e.,
|
|
not in proportion to the weights).
|
|
|
|
The new tunable is:
|
|
|
|
* ``straw_calc_version``: A value of 0 preserves the old, broken
|
|
internal weight calculation; a value of 1 fixes the behavior.
|
|
|
|
Migration impact:
|
|
|
|
* Moving to straw_calc_version 1 and then adjusting a straw bucket
|
|
(by adding, removing, or reweighting an item, or by using the
|
|
reweight-all command) can trigger a small to moderate amount of
|
|
data movement *if* the cluster has hit one of the problematic
|
|
conditions.
|
|
|
|
This tunable option is special because it has absolutely no impact
|
|
concerning the required kernel version in the client side.
|
|
|
|
hammer (CRUSH_V4)
|
|
-----------------
|
|
|
|
The hammer tunable profile does not affect the
|
|
mapping of existing CRUSH maps simply by changing the profile. However:
|
|
|
|
* There is a new bucket type (``straw2``) supported. The new
|
|
``straw2`` bucket type fixes several limitations in the original
|
|
``straw`` bucket. Specifically, the old ``straw`` buckets would
|
|
change some mappings that should have changed when a weight was
|
|
adjusted, while ``straw2`` achieves the original goal of only
|
|
changing mappings to or from the bucket item whose weight has
|
|
changed.
|
|
|
|
* ``straw2`` is the default for any newly created buckets.
|
|
|
|
Migration impact:
|
|
|
|
* Changing a bucket type from ``straw`` to ``straw2`` will result in
|
|
a reasonably small amount of data movement, depending on how much
|
|
the bucket item weights vary from each other. When the weights are
|
|
all the same no data will move, and when item weights vary
|
|
significantly there will be more movement.
|
|
|
|
jewel (CRUSH_TUNABLES5)
|
|
-----------------------
|
|
|
|
The jewel tunable profile improves the
|
|
overall behavior of CRUSH such that significantly fewer mappings
|
|
change when an OSD is marked out of the cluster.
|
|
|
|
The new tunable is:
|
|
|
|
* ``chooseleaf_stable``: Whether a recursive chooseleaf attempt will
|
|
use a better value for an inner loop that greatly reduces the number
|
|
of mapping changes when an OSD is marked out. The legacy value is 0,
|
|
while the new value of 1 uses the new approach.
|
|
|
|
Migration impact:
|
|
|
|
* Changing this value on an existing cluster will result in a very
|
|
large amount of data movement as almost every PG mapping is likely
|
|
to change.
|
|
|
|
|
|
|
|
|
|
Which client versions support CRUSH_TUNABLES
|
|
--------------------------------------------
|
|
|
|
* argonaut series, v0.48.1 or later
|
|
* v0.49 or later
|
|
* Linux kernel version v3.6 or later (for the file system and RBD kernel clients)
|
|
|
|
Which client versions support CRUSH_TUNABLES2
|
|
---------------------------------------------
|
|
|
|
* v0.55 or later, including bobtail series (v0.56.x)
|
|
* Linux kernel version v3.9 or later (for the file system and RBD kernel clients)
|
|
|
|
Which client versions support CRUSH_TUNABLES3
|
|
---------------------------------------------
|
|
|
|
* v0.78 (firefly) or later
|
|
* Linux kernel version v3.15 or later (for the file system and RBD kernel clients)
|
|
|
|
Which client versions support CRUSH_V4
|
|
--------------------------------------
|
|
|
|
* v0.94 (hammer) or later
|
|
* Linux kernel version v4.1 or later (for the file system and RBD kernel clients)
|
|
|
|
Which client versions support CRUSH_TUNABLES5
|
|
---------------------------------------------
|
|
|
|
* v10.0.2 (jewel) or later
|
|
* Linux kernel version v4.5 or later (for the file system and RBD kernel clients)
|
|
|
|
Warning when tunables are non-optimal
|
|
-------------------------------------
|
|
|
|
Starting with version v0.74, Ceph will issue a health warning if the
|
|
current CRUSH tunables don't include all the optimal values from the
|
|
``default`` profile (see below for the meaning of the ``default`` profile).
|
|
To make this warning go away, you have two options:
|
|
|
|
1. Adjust the tunables on the existing cluster. Note that this will
|
|
result in some data movement (possibly as much as 10%). This is the
|
|
preferred route, but should be taken with care on a production cluster
|
|
where the data movement may affect performance. You can enable optimal
|
|
tunables with::
|
|
|
|
ceph osd crush tunables optimal
|
|
|
|
If things go poorly (e.g., too much load) and not very much
|
|
progress has been made, or there is a client compatibility problem
|
|
(old kernel cephfs or rbd clients, or pre-bobtail librados
|
|
clients), you can switch back with::
|
|
|
|
ceph osd crush tunables legacy
|
|
|
|
2. You can make the warning go away without making any changes to CRUSH by
|
|
adding the following option to your ceph.conf ``[mon]`` section::
|
|
|
|
mon warn on legacy crush tunables = false
|
|
|
|
For the change to take effect, you will need to restart the monitors, or
|
|
apply the option to running monitors with::
|
|
|
|
ceph tell mon.\* injectargs --no-mon-warn-on-legacy-crush-tunables
|
|
|
|
|
|
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
|
|
feature bits 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 versions of the ``ceph-osd`` daemon
|
|
if the cluster has previously used non-legacy CRUSH values, even if
|
|
the latest version of the map has been switched back to using the
|
|
legacy defaults.
|
|
|
|
Tuning CRUSH
|
|
------------
|
|
|
|
The simplest way to adjust the crush tunables is by changing to a known
|
|
profile. Those are:
|
|
|
|
* ``legacy``: the legacy behavior from argonaut and earlier.
|
|
* ``argonaut``: the legacy values supported by the original argonaut release
|
|
* ``bobtail``: the values supported by the bobtail release
|
|
* ``firefly``: the values supported by the firefly release
|
|
* ``hammer``: the values supported by the hammer release
|
|
* ``jewel``: the values supported by the jewel release
|
|
* ``optimal``: the best (ie optimal) values of the current version of Ceph
|
|
* ``default``: the default values of a new cluster installed from
|
|
scratch. These values, which depend on the current version of Ceph,
|
|
are hard coded and are generally a mix of optimal and legacy values.
|
|
These values generally match the ``optimal`` profile of the previous
|
|
LTS release, or the most recent release for which we generally except
|
|
more users to have up to date clients for.
|
|
|
|
You can select a profile on a running cluster with the command::
|
|
|
|
ceph osd crush tunables {PROFILE}
|
|
|
|
Note that this may result in some data movement.
|
|
|
|
|
|
.. _CRUSH - Controlled, Scalable, Decentralized Placement of Replicated Data: https://ceph.com/wp-content/uploads/2016/08/weil-crush-sc06.pdf
|
|
|
|
|
|
Primary Affinity
|
|
================
|
|
|
|
When a Ceph Client reads or writes data, it always contacts the primary OSD in
|
|
the acting set. For set ``[2, 3, 4]``, ``osd.2`` is the primary. Sometimes an
|
|
OSD is not well suited to act as a primary compared to other OSDs (e.g., it has
|
|
a slow disk or a slow controller). To prevent performance bottlenecks
|
|
(especially on read operations) while maximizing utilization of your hardware,
|
|
you can set a Ceph OSD's primary affinity so that CRUSH is less likely to use
|
|
the OSD as a primary in an acting set. ::
|
|
|
|
ceph osd primary-affinity <osd-id> <weight>
|
|
|
|
Primary affinity is ``1`` by default (*i.e.,* an OSD may act as a primary). You
|
|
may set the OSD primary range from ``0-1``, where ``0`` means that the OSD may
|
|
**NOT** be used as a primary and ``1`` means that an OSD may be used as a
|
|
primary. When the weight is ``< 1``, it is less likely that CRUSH will select
|
|
the Ceph OSD Daemon to act as a primary.
|
|
|
|
|
|
|