129 lines
5.5 KiB
Plaintext
129 lines
5.5 KiB
Plaintext
[[cluster-reroute]]
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== Cluster Reroute
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The reroute command allows to explicitly execute a cluster reroute
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allocation command including specific commands. For example, a shard can
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be moved from one node to another explicitly, an allocation can be
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canceled, or an unassigned shard can be explicitly allocated on a
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specific node.
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Here is a short example of how a simple reroute API call:
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[source,js]
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--------------------------------------------------
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POST /_cluster/reroute
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{
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"commands" : [
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{
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"move" : {
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"index" : "test", "shard" : 0,
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"from_node" : "node1", "to_node" : "node2"
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}
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},
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{
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"allocate_replica" : {
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"index" : "test", "shard" : 1,
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"node" : "node3"
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}
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}
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]
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}
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--------------------------------------------------
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// CONSOLE
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// TEST[skip:doc tests run with only a single node]
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An important aspect to remember is the fact that once when an allocation
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occurs, the cluster will aim at re-balancing its state back to an even
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state. For example, if the allocation includes moving a shard from
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`node1` to `node2`, in an `even` state, then another shard will be moved
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from `node2` to `node1` to even things out.
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The cluster can be set to disable allocations, which means that only the
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explicitly allocations will be performed. Obviously, only once all
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commands has been applied, the cluster will aim to be re-balance its
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state.
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Another option is to run the commands in `dry_run` (as a URI flag, or in
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the request body). This will cause the commands to apply to the current
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cluster state, and return the resulting cluster after the commands (and
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re-balancing) has been applied.
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If the `explain` parameter is specified, a detailed explanation of why the
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commands could or could not be executed is returned.
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The commands supported are:
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`move`::
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Move a started shard from one node to another node. Accepts
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`index` and `shard` for index name and shard number, `from_node` for the
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node to move the shard `from`, and `to_node` for the node to move the
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shard to.
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`cancel`::
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Cancel allocation of a shard (or recovery). Accepts `index`
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and `shard` for index name and shard number, and `node` for the node to
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cancel the shard allocation on. It also accepts `allow_primary` flag to
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explicitly specify that it is allowed to cancel allocation for a primary
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shard. This can be used to force resynchronization of existing replicas
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from the primary shard by cancelling them and allowing them to be
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reinitialized through the standard reallocation process.
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`allocate_replica`::
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Allocate an unassigned replica shard to a node. Accepts the
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`index` and `shard` for index name and shard number, and `node` to
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allocate the shard to. Takes <<modules-cluster,allocation deciders>> into account.
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Two more commands are available that allow the allocation of a primary shard
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to a node. These commands should however be used with extreme care, as primary
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shard allocation is usually fully automatically handled by Elasticsearch.
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Reasons why a primary shard cannot be automatically allocated include the following:
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- A new index was created but there is no node which satisfies the allocation deciders.
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- An up-to-date shard copy of the data cannot be found on the current data nodes in
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the cluster. To prevent data loss, the system does not automatically promote a stale
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shard copy to primary.
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[float]
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=== Retry failed shards
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The cluster will attempt to allocate a shard a maximum of
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`index.allocation.max_retries` times in a row (defaults to `5`), before giving
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up and leaving the shard unallocated. This scenario can be caused by
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structural problems such as having an analyzer which refers to a stopwords
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file which doesn't exist on all nodes.
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Once the problem has been corrected, allocation can be manually retried by
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calling the <<cluster-reroute,`reroute`>> API with `?retry_failed`, which
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will attempt a single retry round for these shards.
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[float]
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=== Forced allocation on unrecoverable errors
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The following two commands are dangerous and may result in data loss. They are
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meant to be used in cases where the original data can not be recovered and the cluster
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administrator accepts the loss. If you have suffered a temporary issue that has been
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fixed, please see the `retry_failed` flag described above.
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`allocate_stale_primary`::
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Allocate a primary shard to a node that holds a stale copy. Accepts the
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`index` and `shard` for index name and shard number, and `node` to
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allocate the shard to. Using this command may lead to data loss
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for the provided shard id. If a node which has the good copy of the
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data rejoins the cluster later on, that data will be overwritten with
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the data of the stale copy that was forcefully allocated with this
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command. To ensure that these implications are well-understood,
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this command requires the special field `accept_data_loss` to be
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explicitly set to `true` for it to work.
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`allocate_empty_primary`::
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Allocate an empty primary shard to a node. Accepts the
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`index` and `shard` for index name and shard number, and `node` to
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allocate the shard to. Using this command leads to a complete loss
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of all data that was indexed into this shard, if it was previously
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started. If a node which has a copy of the
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data rejoins the cluster later on, that data will be deleted!
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To ensure that these implications are well-understood,
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this command requires the special field `accept_data_loss` to be
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explicitly set to `true` for it to work.
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