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diff --git a/doc/rados/operations/balancer.rst b/doc/rados/operations/balancer.rst new file mode 100644 index 00000000..530e0dc4 --- /dev/null +++ b/doc/rados/operations/balancer.rst @@ -0,0 +1,144 @@ + +.. _balancer: + +Balancer +======== + +The *balancer* can optimize the placement of PGs across OSDs in +order to achieve a balanced distribution, either automatically or in a +supervised fashion. + +Status +------ + +The current status of the balancer can be checked at any time with:: + + ceph balancer status + + +Automatic balancing +------------------- + +The automatic balancing can be enabled, using the default settings, with:: + + ceph balancer on + +The balancer can be turned back off again with:: + + ceph balancer off + +This will use the ``crush-compat`` mode, which is backward compatible +with older clients, and will make small changes to the data +distribution over time to ensure that OSDs are equally utilized. + + +Throttling +---------- + +No adjustments will be made to the PG distribution if the cluster is +degraded (e.g., because an OSD has failed and the system has not yet +healed itself). + +When the cluster is healthy, the balancer will throttle its changes +such that the percentage of PGs that are misplaced (i.e., that need to +be moved) is below a threshold of (by default) 5%. The +``target_max_misplaced_ratio`` threshold can be adjusted with:: + + ceph config set mgr target_max_misplaced_ratio .07 # 7% + + +Modes +----- + +There are currently two supported balancer modes: + +#. **crush-compat**. The CRUSH compat mode uses the compat weight-set + feature (introduced in Luminous) to manage an alternative set of + weights for devices in the CRUSH hierarchy. The normal weights + should remain set to the size of the device to reflect the target + amount of data that we want to store on the device. The balancer + then optimizes the weight-set values, adjusting them up or down in + small increments, in order to achieve a distribution that matches + the target distribution as closely as possible. (Because PG + placement is a pseudorandom process, there is a natural amount of + variation in the placement; by optimizing the weights we + counter-act that natural variation.) + + Notably, this mode is *fully backwards compatible* with older + clients: when an OSDMap and CRUSH map is shared with older clients, + we present the optimized weights as the "real" weights. + + The primary restriction of this mode is that the balancer cannot + handle multiple CRUSH hierarchies with different placement rules if + the subtrees of the hierarchy share any OSDs. (This is normally + not the case, and is generally not a recommended configuration + because it is hard to manage the space utilization on the shared + OSDs.) + +#. **upmap**. Starting with Luminous, the OSDMap can store explicit + mappings for individual OSDs as exceptions to the normal CRUSH + placement calculation. These `upmap` entries provide fine-grained + control over the PG mapping. This CRUSH mode will optimize the + placement of individual PGs in order to achieve a balanced + distribution. In most cases, this distribution is "perfect," which + an equal number of PGs on each OSD (+/-1 PG, since they might not + divide evenly). + + Note that using upmap requires that all clients be Luminous or newer. + +The default mode is ``crush-compat``. The mode can be adjusted with:: + + ceph balancer mode upmap + +or:: + + ceph balancer mode crush-compat + +Supervised optimization +----------------------- + +The balancer operation is broken into a few distinct phases: + +#. building a *plan* +#. evaluating the quality of the data distribution, either for the current PG distribution, or the PG distribution that would result after executing a *plan* +#. executing the *plan* + +To evautate and score the current distribution,:: + + ceph balancer eval + +You can also evaluate the distribution for a single pool with:: + + ceph balancer eval <pool-name> + +Greater detail for the evaluation can be seen with:: + + ceph balancer eval-verbose ... + +The balancer can generate a plan, using the currently configured mode, with:: + + ceph balancer optimize <plan-name> + +The name is provided by the user and can be any useful identifying string. The contents of a plan can be seen with:: + + ceph balancer show <plan-name> + +All plans can be shown with:: + + ceph balancer ls + +Old plans can be discarded with:: + + ceph balancer rm <plan-name> + +Currently recorded plans are shown as part of the status command:: + + ceph balancer status + +The quality of the distribution that would result after executing a plan can be calculated with:: + + ceph balancer eval <plan-name> + +Assuming the plan is expected to improve the distribution (i.e., it has a lower score than the current cluster state), the user can execute that plan with:: + + ceph balancer execute <plan-name> |