183 lines
6.5 KiB
Plaintext
183 lines
6.5 KiB
Plaintext
[[important-settings]]
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== Important Elasticsearch configuration
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While Elasticsearch requires very little configuration, there are a number of
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settings which need to be configured manually and should definitely be
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configured before going into production.
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* <<path-settings,`path.data` and `path.logs`>>
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* <<cluster.name,`cluster.name`>>
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* <<node.name,`node.name`>>
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* <<bootstrap.memory_lock,`bootstrap.memory_lock`>>
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* <<network.host,`network.host`>>
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* <<unicast.hosts,`discovery.zen.ping.unicast.hosts`>>
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* <<minimum_master_nodes,`discovery.zen.minimum_master_nodes`>>
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[float]
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[[path-settings]]
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=== `path.data` and `path.logs`
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If you are using the `.zip` or `.tar.gz` archives, the `data` and `logs`
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directories are sub-folders of `$ES_HOME`. If these important folders are
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left in their default locations, there is a high risk of them being deleted
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while upgrading Elasticsearch to a new version.
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In production use, you will almost certainly want to change the locations of
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the data and log folder:
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[source,yaml]
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--------------------------------------------------
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path:
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logs: /var/log/elasticsearch
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data: /var/data/elasticsearch
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--------------------------------------------------
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The RPM and Debian distributions already use custom paths for `data` and
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`logs`.
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The `path.data` settings can be set to multiple paths, in which case all paths
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will be used to store data (although the files belonging to a single shard
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will all be stored on the same data path):
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[source,yaml]
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--------------------------------------------------
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path:
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data:
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- /mnt/elasticsearch_1
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- /mnt/elasticsearch_2
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- /mnt/elasticsearch_3
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--------------------------------------------------
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[float]
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[[cluster.name]]
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=== `cluster.name`
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A node can only join a cluster when it shares its `cluster.name` with all the
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other nodes in the cluster. The default name is `elasticsearch`, but you
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should change it to an appropriate name which describes the purpose of the
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cluster.
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[source,yaml]
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--------------------------------------------------
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cluster.name: logging-prod
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--------------------------------------------------
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Make sure that you don't reuse the same cluster names in different
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environments, otherwise you might end up with nodes joining the wrong cluster.
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[float]
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[[node.name]]
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=== `node.name`
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By default, Elasticsearch will take the 7 first character of the randomly generated uuid used as the node id.
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Note that the node id is persisted and does not change when a node restarts and therefore the default node name
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will also not change.
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It is worth configuring a more meaningful name which will also have the
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advantage of persisting after restarting the node:
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[source,yaml]
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--------------------------------------------------
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node.name: prod-data-2
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--------------------------------------------------
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The `node.name` can also be set to the server's HOSTNAME as follows:
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[source,yaml]
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--------------------------------------------------
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node.name: ${HOSTNAME}
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--------------------------------------------------
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[float]
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[[bootstrap.memory_lock]]
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=== `bootstrap.memory_lock`
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It is vitally important to the health of your node that none of the JVM is
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ever swapped out to disk. One way of achieving that is set the
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`bootstrap.memory_lock` setting to `true`.
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For this setting to have effect, other system settings need to be configured
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first. See <<mlockall>> for more details about how to set up memory locking
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correctly.
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[float]
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[[network.host]]
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=== `network.host`
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By default, Elasticsearch binds to loopback addresses only -- e.g. `127.0.0.1`
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and `[::1]`. This is sufficient to run a single development node on a server.
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TIP: In fact, more than one node can be started from the same `$ES_HOME` location
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on a single node. This can be useful for testing Elasticsearch's ability to
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form clusters, but it is not a configuration recommended for production.
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In order to communicate and to form a cluster with nodes on other servers,
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your node will need to bind to a non-loopback address. While there are many
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<<modules-network,network settings>>, usually all you need to configure is
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`network.host`:
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[source,yaml]
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--------------------------------------------------
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network.host: 192.168.1.10
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--------------------------------------------------
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The `network.host` setting also understands some special values such as
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`_local_`, `_site_`, `_global_` and modifiers like `:ip4` and `:ip6`, details
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of which can be found in <<network-interface-values>>.
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IMPORTANT: As soon you provide a custom setting for `network.host`,
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Elasticsearch assumes that you are moving from development mode to production
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mode, and upgrades a number of system startup checks from warnings to
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exceptions. See <<dev-vs-prod>> for more information.
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[float]
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[[unicast.hosts]]
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=== `discovery.zen.ping.unicast.hosts`
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Out of the box, without any network configuration, Elasticsearch will bind to
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the available loopback addresses and will scan ports 9300 to 9305 to try to
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connect to other nodes running on the same server. This provides an auto-
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clustering experience without having to do any configuration.
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When the moment comes to form a cluster with nodes on other servers, you have
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to provide a seed list of other nodes in the cluster that are likely to be
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live and contactable. This can be specified as follows:
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[source,yaml]
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--------------------------------------------------
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discovery.zen.ping.unicast.hosts:
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- 192.168.1.10:9300
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- 192.168.1.11 <1>
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- seeds.mydomain.com <2>
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--------------------------------------------------
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<1> The port will default to 9300 if not specified.
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<2> A hostname that resolves to multiple IP addresses will try all resolved addresses.
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[float]
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[[minimum_master_nodes]]
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=== `discovery.zen.minimum_master_nodes`
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To prevent data loss, it is vital to configure the
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`discovery.zen.minimum_master_nodes` setting so that each master-eligible node
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knows the _minimum number of master-eligible nodes_ that must be visible in
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order to form a cluster.
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Without this setting, a cluster that suffers a network failure is at risk of
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having the cluster split into two independent clusters -- a split brain --
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which will lead to data loss. A more detailed explanation is provided
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in <<split-brain>>.
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To avoid a split brain, this setting should be set to a _quorum_ of master-
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eligible nodes:
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(master_eligible_nodes / 2) + 1
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In other words, if there are three master-eligible nodes, then minimum master
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nodes should be set to `(3 / 2) + 1` or `2`:
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[source,yaml]
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--------------------------------------------------
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discovery.zen.minimum_master_nodes: 2
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--------------------------------------------------
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