305 lines
12 KiB
Plaintext
305 lines
12 KiB
Plaintext
[[modules-node]]
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== Node
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Any time that you start an instance of Elasticsearch, you are starting a
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_node_. A collection of connected nodes is called a
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<<modules-cluster,cluster>>. If you are running a single node of Elasticsearch,
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then you have a cluster of one node.
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Every node in the cluster can handle <<modules-http,HTTP>> and
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<<modules-transport,Transport>> traffic by default. The transport layer
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is used exclusively for communication between nodes and the
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{javaclient}/transport-client.html[Java `TransportClient`]; the HTTP layer is
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used only by external REST clients.
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All nodes know about all the other nodes in the cluster and can forward client
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requests to the appropriate node. Besides that, each node serves one or more
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purpose:
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<<master-node,Master-eligible node>>::
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A node that has `node.master` set to `true` (default), which makes it eligible
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to be <<modules-discovery,elected as the _master_ node>>, which controls
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the cluster.
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<<data-node,Data node>>::
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A node that has `node.data` set to `true` (default). Data nodes hold data and
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perform data related operations such as CRUD, search, and aggregations.
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<<ingest,Ingest node>>::
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A node that has `node.ingest` set to `true` (default). Ingest nodes are able
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to apply an <<pipeline,ingest pipeline>> to a document in order to transform
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and enrich the document before indexing. With a heavy ingest load, it makes
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sense to use dedicated ingest nodes and to mark the master and data nodes as
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`node.ingest: false`.
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[NOTE]
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[[coordinating-node]]
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.Coordinating node
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===============================================
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Requests like search requests or bulk-indexing requests may involve data held
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on different data nodes. A search request, for example, is executed in two
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phases which are coordinated by the node which receives the client request --
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the _coordinating node_.
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In the _scatter_ phase, the coordinating node forwards the request to the data
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nodes which hold the data. Each data node executes the request locally and
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returns its results to the coordinating node. In the _gather_ phase, the
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coordinating node reduces each data node's results into a single global
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resultset.
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Every node is implicitly a coordinating node. This means that a node that has
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all three `node.master`, `node.data` and `node.ingest` set to `false` will
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only act as a coordinating node, which cannot be disabled. As a result, such
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a node needs to have enough memory and CPU in order to deal with the gather
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phase.
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===============================================
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[float]
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[[master-node]]
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=== Master Eligible Node
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The master node is responsible for lightweight cluster-wide actions such as
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creating or deleting an index, tracking which nodes are part of the cluster,
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and deciding which shards to allocate to which nodes. It is important for
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cluster health to have a stable master node.
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Any master-eligible node (all nodes by default) may be elected to become the
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master node by the <<modules-discovery,master election process>>.
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IMPORTANT: Master nodes must have access to the `data/` directory (just like
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`data` nodes) as this is where the cluster state is persisted between node restarts.
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Indexing and searching your data is CPU-, memory-, and I/O-intensive work
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which can put pressure on a node's resources. To ensure that your master
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node is stable and not under pressure, it is a good idea in a bigger
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cluster to split the roles between dedicated master-eligible nodes and
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dedicated data nodes.
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While master nodes can also behave as <<coordinating-node,coordinating nodes>>
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and route search and indexing requests from clients to data nodes, it is
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better _not_ to use dedicated master nodes for this purpose. It is important
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for the stability of the cluster that master-eligible nodes do as little work
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as possible.
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To create a dedicated master-eligible node, set:
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[source,yaml]
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-------------------
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node.master: true <1>
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node.data: false <2>
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node.ingest: false <3>
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cluster.remote.connect: false <4>
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-------------------
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<1> The `node.master` role is enabled by default.
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<2> Disable the `node.data` role (enabled by default).
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<3> Disable the `node.ingest` role (enabled by default).
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<4> Disable {ccs} (enabled by default).
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ifdef::include-xpack[]
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NOTE: These settings apply only when {xpack} is not installed. To create a
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dedicated master-eligible node when {xpack} is installed, see <<modules-node-xpack,{xpack} node settings>>.
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endif::include-xpack[]
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[float]
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[[data-node]]
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=== Data Node
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Data nodes hold the shards that contain the documents you have indexed. Data
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nodes handle data related operations like CRUD, search, and aggregations.
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These operations are I/O-, memory-, and CPU-intensive. It is important to
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monitor these resources and to add more data nodes if they are overloaded.
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The main benefit of having dedicated data nodes is the separation of the
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master and data roles.
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To create a dedicated data node, set:
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[source,yaml]
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-------------------
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node.master: false <1>
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node.data: true <2>
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node.ingest: false <3>
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cluster.remote.connect: false <4>
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-------------------
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<1> Disable the `node.master` role (enabled by default).
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<2> The `node.data` role is enabled by default.
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<3> Disable the `node.ingest` role (enabled by default).
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<4> Disable {ccs} (enabled by default).
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ifdef::include-xpack[]
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NOTE: These settings apply only when {xpack} is not installed. To create a
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dedicated data node when {xpack} is installed, see <<modules-node-xpack,{xpack} node settings>>.
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endif::include-xpack[]
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[float]
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[[node-ingest-node]]
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=== Ingest Node
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Ingest nodes can execute pre-processing pipelines, composed of one or more
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ingest processors. Depending on the type of operations performed by the ingest
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processors and the required resources, it may make sense to have dedicated
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ingest nodes, that will only perform this specific task.
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To create a dedicated ingest node, set:
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[source,yaml]
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-------------------
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node.master: false <1>
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node.data: false <2>
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node.ingest: true <3>
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cluster.remote.connect: false <4>
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-------------------
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<1> Disable the `node.master` role (enabled by default).
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<2> Disable the `node.data` role (enabled by default).
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<3> The `node.ingest` role is enabled by default.
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<4> Disable {ccs} (enabled by default).
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ifdef::include-xpack[]
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NOTE: These settings apply only when {xpack} is not installed. To create a
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dedicated ingest node when {xpack} is installed, see <<modules-node-xpack,{xpack} node settings>>.
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endif::include-xpack[]
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[float]
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[[coordinating-only-node]]
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=== Coordinating only node
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If you take away the ability to be able to handle master duties, to hold data,
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and pre-process documents, then you are left with a _coordinating_ node that
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can only route requests, handle the search reduce phase, and distribute bulk
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indexing. Essentially, coordinating only nodes behave as smart load balancers.
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Coordinating only nodes can benefit large clusters by offloading the
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coordinating node role from data and master-eligible nodes. They join the
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cluster and receive the full <<cluster-state,cluster state>>, like every other
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node, and they use the cluster state to route requests directly to the
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appropriate place(s).
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WARNING: Adding too many coordinating only nodes to a cluster can increase the
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burden on the entire cluster because the elected master node must await
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acknowledgement of cluster state updates from every node! The benefit of
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coordinating only nodes should not be overstated -- data nodes can happily
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serve the same purpose.
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To create a dedicated coordinating node, set:
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[source,yaml]
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-------------------
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node.master: false <1>
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node.data: false <2>
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node.ingest: false <3>
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cluster.remote.connect: false <4>
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-------------------
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<1> Disable the `node.master` role (enabled by default).
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<2> Disable the `node.data` role (enabled by default).
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<3> Disable the `node.ingest` role (enabled by default).
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<4> Disable {ccs} (enabled by default).
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ifdef::include-xpack[]
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NOTE: These settings apply only when {xpack} is not installed. To create a
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dedicated coordinating node when {xpack} is installed, see <<modules-node-xpack,{xpack} node settings>>.
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endif::include-xpack[]
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[float]
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[[change-node-role]]
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=== Changing the role of a node
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Each data node maintains the following data on disk:
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* the shard data for every shard allocated to that node,
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* the index metadata corresponding with every shard allocated to that node, and
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* the cluster-wide metadata, such as settings and index templates.
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Similarly, each master-eligible node maintains the following data on disk:
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* the index metadata for every index in the cluster, and
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* the cluster-wide metadata, such as settings and index templates.
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Each node checks the contents of its data path at startup. If it discovers
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unexpected data then it will refuse to start. This is to avoid importing
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unwanted <<modules-gateway-dangling-indices,dangling indices>> which can lead
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to a red cluster health. To be more precise, nodes with `node.data: false` will
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refuse to start if they find any shard data on disk at startup, and nodes with
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both `node.master: false` and `node.data: false` will refuse to start if they
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have any index metadata on disk at startup.
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It is possible to change the roles of a node by adjusting its
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`elasticsearch.yml` file and restarting it. This is known as _repurposing_ a
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node. In order to satisfy the checks for unexpected data described above, you
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must perform some extra steps to prepare a node for repurposing when setting
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its `node.data` or `node.master` roles to `false`:
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* If you want to repurpose a data node by changing `node.data` to `false` then
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you should first use an <<allocation-filtering,allocation filter>> to safely
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migrate all the shard data onto other nodes in the cluster.
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* If you want to repurpose a node to have both `node.master: false` and
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`node.data: false` then it is simplest to start a brand-new node with an
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empty data path and the desired roles. You may find it safest to use an
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<<allocation-filtering,allocation filter>> to migrate the shard data
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elsewhere in the cluster first.
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If it is not possible to follow these extra steps then you may be able to use
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the <<node-tool-repurpose,`elasticsearch-node repurpose`>> tool to delete any
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excess data that prevents a node from starting.
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[float]
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== Node data path settings
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[float]
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[[data-path]]
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=== `path.data`
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Every data and master-eligible node requires access to a data directory where
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shards and index and cluster metadata will be stored. The `path.data` defaults
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to `$ES_HOME/data` but can be configured in the `elasticsearch.yml` config
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file an absolute path or a path relative to `$ES_HOME` as follows:
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[source,yaml]
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-----------------------
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path.data: /var/elasticsearch/data
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-----------------------
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Like all node settings, it can also be specified on the command line as:
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[source,sh]
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-----------------------
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./bin/elasticsearch -Epath.data=/var/elasticsearch/data
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-----------------------
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TIP: When using the `.zip` or `.tar.gz` distributions, the `path.data` setting
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should be configured to locate the data directory outside the Elasticsearch
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home directory, so that the home directory can be deleted without deleting
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your data! The RPM and Debian distributions do this for you already.
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[float]
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[[max-local-storage-nodes]]
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=== `node.max_local_storage_nodes`
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The <<data-path,data path>> can be shared by multiple nodes, even by nodes from different
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clusters. This is very useful for testing failover and different configurations on your development
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machine. In production, however, it is recommended to run only one node of Elasticsearch per server.
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By default, Elasticsearch is configured to prevent more than one node from sharing the same data
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path. To allow for more than one node (e.g., on your development machine), use the setting
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`node.max_local_storage_nodes` and set this to a positive integer larger than one.
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WARNING: Never run different node types (i.e. master, data) from the same data directory. This can
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lead to unexpected data loss.
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[float]
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== Other node settings
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More node settings can be found in <<modules,Modules>>. Of particular note are
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the <<cluster.name,`cluster.name`>>, the <<node.name,`node.name`>> and the
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<<modules-network,network settings>>.
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ifdef::include-xpack[]
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include::ml-node.asciidoc[]
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endif::include-xpack[]
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