416 lines
15 KiB
Plaintext
416 lines
15 KiB
Plaintext
[role="xpack"]
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[testenv="basic"]
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[[getting-started-index-lifecycle-management]]
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== Tutorial: Automate rollover with {ilm-init}
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++++
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<titleabbrev>Automate rollover</titleabbrev>
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++++
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This tutorial demonstrates how to use {ilm}
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({ilm-init}) to manage indices that contain time-series data.
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When you continuously index timestamped documents into {es},
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you typically use a <<data-streams, data stream>> so you can periodically roll over to a
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new index.
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This enables you to implement a hot-warm-cold architecture to meet your performance
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requirements for your newest data, control costs over time, enforce retention policies,
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and still get the most out of your data.
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TIP: Data streams are best suited for
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<<data-streams-append-only,append-only>> use cases. If you need to frequently
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update or delete existing documents across multiple indices, we recommend
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using an index alias and index template instead. You can still use ILM to
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manage and rollover the alias's indices. Skip to
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<<manage-time-series-data-without-data-streams>>.
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To automate rollover and management of a data stream with {ilm-init}, you:
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. <<ilm-gs-create-policy, Create a lifecycle policy>> that defines the appropriate
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phases and actions.
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. <<ilm-gs-apply-policy, Create a composable template>> to create the data stream and
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apply the ILM policy and the indices settings and mappings configurations for the backing
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indices.
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. <<ilm-gs-check-progress, Verify indices are moving through the lifecycle phases>>
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as expected.
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For an introduction to rolling indices, see <<index-rollover>>.
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IMPORTANT: When you enable {ilm} for {beats} or the {ls} {es} output plugin,
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lifecycle policies are set up automatically.
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You do not need to take any other actions.
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You can modify the default policies through
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{kibana-ref}/example-using-index-lifecycle-policy.html[{kib} Management]
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or the {ilm-init} APIs.
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[discrete]
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[[ilm-gs-create-policy]]
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=== Create a lifecycle policy
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A lifecycle policy specifies the phases in the index lifecycle
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and the actions to perform in each phase. A lifecycle can have up to four phases:
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`hot`, `warm`, `cold`, and `delete`.
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You can define and manage policies through {kib} Management or with the
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<<ilm-put-lifecycle, put policy>> API.
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For example, you might define a `timeseries_policy` that has two phases:
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* A `hot` phase that defines a rollover action to specify that an index rolls over when it
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reaches either a `max_size` of 50 gigabytes or a `max_age` of 30 days.
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* A `delete` phase that sets `min_age` to remove the index 90 days after rollover.
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Note that this value is relative to the rollover time, not the index creation time.
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The underlying put policy request looks like this:
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[source,console]
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------------------------
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PUT _ilm/policy/timeseries_policy
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{
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"policy": {
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"phases": {
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"hot": { <1>
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"actions": {
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"rollover": {
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"max_size": "50GB", <2>
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"max_age": "30d"
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}
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}
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},
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"delete": {
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"min_age": "90d", <3>
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"actions": {
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"delete": {} <4>
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}
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}
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}
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}
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}
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------------------------
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<1> The `min_age` defaults to `0ms`, so new indices enter the `hot` phase immediately.
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<2> Trigger the `rollover` action when either of the conditions are met.
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<3> Move the index into the `delete` phase 90 days after rollover.
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<4> Trigger the `delete` action when the index enters the delete phase.
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You can also invoke this API directly to add lifecycle policies.
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For the complete list of actions that {ilm} can perform, see <<ilm-actions>>.
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[discrete]
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[[ilm-gs-apply-policy]]
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=== Create a composable template to create the data stream and apply the lifecycle policy
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To set up a data stream, first create a composable template to specify the lifecycle policy. Because
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the template is for a data stream, it must also include a `data_stream` definition.
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For example, you might create a `timeseries_template` to use for a future data stream
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named `timeseries`.
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To enable the {ilm-init} to manage the data stream, the template configures one {ilm-init} setting:
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* `index.lifecycle.name` specifies the name of the lifecycle policy to apply to the data stream.
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You can use the {kib} Create template wizard to add the template.
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This wizard invokes the put _index_template API to create the <<indices-templates,composable index template>>
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with the options you specify.
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The underlying request looks like this:
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[source,console]
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-----------------------
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PUT _index_template/timeseries_template
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{
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"index_patterns": ["timeseries"], <1>
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"data_stream": {
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"timestamp_field": "@timestamp" <2>
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},
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"template": {
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"settings": {
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"number_of_shards": 1,
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"number_of_replicas": 1,
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"index.lifecycle.name": "timeseries_policy" <3>
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},
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"mappings": {
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"properties": {
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"@timestamp": {
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"type": "date" <4>
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}
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}
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}
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}
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}
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-----------------------
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// TEST[continued]
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<1> Apply the template when a document is indexed into the `timeseries` target.
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<2> Identifies the timestamp field for the data source. This field must be present
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in all documents indexed into the `timeseries` data stream.
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<3> The name of the {ilm-init} policy used to manage the data stream.
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<4> A <<date,`date`>> or <<date_nanos,`date_nanos`>> field mapping for the
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timestamp field specified in the `timestamp_field` property
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You can also invoke this API directly to add templates.
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[discrete]
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[[ilm-gs-create-the-data-stream]]
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=== Create the data stream
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To get things started, index a document into the name or wildcard pattern defined
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in the `index_patterns` of the <<indices-templates,composable index template>>. As long
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as an existing data stream, index, or index alias does not already use the name, the index
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request automatically creates a corresponding data stream with a single backing index.
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{es} automatically indexes the request's documents into this backing index, which also
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acts as the stream's <<data-stream-write-index,write index>>.
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For example, the following request creates the `timeseries` data stream and the first generation
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backing index called `.ds-timeseries-000001`.
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[source,console]
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-----------------------
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POST timeseries/_doc
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{
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"message": "logged the request",
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"@timestamp": "1591890611"
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}
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-----------------------
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// TEST[continued]
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When a rollover condition in the lifecycle policy is met, the `rollover` action:
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* Creates the second generation backing index, named `.ds-timeseries-000002`.
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Because it is a backing index of the `timeseries` data stream, the configuration from the `timeseries_template` composable template is applied to the new index.
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* As it is the latest generation index of the `timeseries` data stream, the newly created
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backing index `.ds-timeseries-000002` becomes the data stream's write index.
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This process repeats each time a rollover condition is met.
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You can search across all of the data stream's backing indices, managed by the `timeseries_policy`,
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with the `timeseries` data stream name.
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Write operations are routed to the current write index. Read operations will be handled by all
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backing indices.
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[discrete]
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[[ilm-gs-check-progress]]
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=== Check lifecycle progress
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To get status information for managed indices, you use the {ilm-init} explain API.
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This lets you find out things like:
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* What phase an index is in and when it entered that phase.
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* The current action and what step is being performed.
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* If any errors have occurred or progress is blocked.
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For example, the following request gets information about the `timeseries` data stream's
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backing indices:
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[source,console]
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--------------------------------------------------
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GET .ds-timeseries-*/_ilm/explain
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--------------------------------------------------
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// TEST[continued]
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The following response shows the data stream's first generation backing index is waiting for the `hot`
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phase's `rollover` action.
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It remains in this state and {ilm-init} continues to call `check-rollover-ready` until a rollover condition
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is met.
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// [[36818c6d9f434d387819c30bd9addb14]]
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[source,console-result]
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--------------------------------------------------
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{
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"indices": {
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".ds-timeseries-000001": {
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"index": ".ds-timeseries-000001",
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"managed": true,
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"policy": "timeseries_policy", <1>
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"lifecycle_date_millis": 1538475653281,
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"age": "30s", <2>
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"phase": "hot",
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"phase_time_millis": 1538475653317,
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"action": "rollover",
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"action_time_millis": 1538475653317,
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"step": "check-rollover-ready", <3>
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"step_time_millis": 1538475653317,
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"phase_execution": {
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"policy": "timeseries_policy",
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"phase_definition": { <4>
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"min_age": "0ms",
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"actions": {
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"rollover": {
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"max_size": "50gb",
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"max_age": "30d"
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}
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}
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},
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"version": 1,
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"modified_date_in_millis": 1539609701576
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}
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}
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}
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}
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--------------------------------------------------
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// TESTRESPONSE[skip:no way to know if we will get this response immediately]
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<1> The policy used to manage the index
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<2> The age of the index
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<3> The step {ilm-init} is performing on the index
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<4> The definition of the current phase (the `hot` phase)
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//////////////////////////
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[source,console]
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--------------------------------------------------
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DELETE /_data_stream/timeseries
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--------------------------------------------------
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// TEST[continued]
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//////////////////////////
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//////////////////////////
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[source,console]
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--------------------------------------------------
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DELETE /_index_template/timeseries_template
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--------------------------------------------------
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// TEST[continued]
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//////////////////////////
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[discrete]
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[[manage-time-series-data-without-data-streams]]
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=== Manage time-series data without data streams
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Even though <<data-streams, data streams>> are a convenient way to scale
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and manage time-series data, they are designed to be append-only. We recognise there
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might be use-cases where data needs to be updated or deleted in place and the
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data streams don't support delete and update requests directly,
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so the index APIs would need to be used directly on the data stream's backing indices.
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In these cases, you can use an index alias to manage indices containing the time-series data
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and periodically roll over to a new index.
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To automate rollover and management of time-series indices with {ilm-init} using an index
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alias, you:
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. Create a lifecycle policy that defines the appropriate phases and actions.
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See <<ilm-gs-create-policy, Create a lifecycle policy>> above.
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. <<ilm-gs-alias-apply-policy, Create an index template>> to apply the policy to each new index.
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. <<ilm-gs-alias-bootstrap, Bootstrap an index>> as the initial write index.
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. <<ilm-gs-alias-check-progress, Verify indices are moving through the lifecycle phases>>
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as expected.
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[discrete]
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[[ilm-gs-alias-apply-policy]]
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=== Create a legacy index template to apply the lifecycle policy
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To automatically apply a lifecycle policy to the new write index on rollover,
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specify the policy in the index template used to create new indices.
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For example, you might create a `timeseries_template` that is applied to new indices
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whose names match the `timeseries-*` index pattern.
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To enable automatic rollover, the template configures two {ilm-init} settings:
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* `index.lifecycle.name` specifies the name of the lifecycle policy to apply to new indices
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that match the index pattern.
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* `index.lifecycle.rollover_alias` specifies the index alias to be rolled over
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when the rollover action is triggered for an index.
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You can use the {kib} Create template wizard to add the template.
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This wizard invokes the put template API to create the template with the options you specify.
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The underlying request looks like this:
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[source,console]
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-----------------------
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PUT _template/timeseries_template
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{
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"index_patterns": ["timeseries-*"], <1>
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"settings": {
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"number_of_shards": 1,
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"number_of_replicas": 1,
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"index.lifecycle.name": "timeseries_policy", <2>
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"index.lifecycle.rollover_alias": "timeseries" <3>
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}
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}
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-----------------------
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// TEST[continued]
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<1> Apply the template to a new index if its name starts with `timeseries-`.
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<2> The name of the lifecycle policy to apply to each new index.
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<3> The name of the alias used to reference these indices.
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Required for policies that use the rollover action.
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You can also invoke this API directly to add templates.
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//////////////////////////
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[source,console]
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--------------------------------------------------
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DELETE /_template/timeseries_template
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--------------------------------------------------
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// TEST[continued]
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//////////////////////////
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[discrete]
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[[ilm-gs-alias-bootstrap]]
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=== Bootstrap the initial time-series index with a write index alias
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To get things started, you need to bootstrap an initial index and
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designate it as the write index for the rollover alias specified in your index template.
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The name of this index must match the template's index pattern and end with a number.
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On rollover, this value is incremented to generate a name for the new index.
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For example, the following request creates an index called `timeseries-000001`
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and makes it the write index for the `timeseries` alias.
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[source,console]
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-----------------------
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PUT timeseries-000001
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{
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"aliases": {
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"timeseries": {
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"is_write_index": true
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}
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}
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}
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-----------------------
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// TEST[continued]
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When the rollover conditions are met, the `rollover` action:
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* Creates a new index called `timeseries-000002`.
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This matches the `timeseries-*` pattern, so the settings from `timeseries_template` are applied to the new index.
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* Designates the new index as the write index and makes the bootstrap index read-only.
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This process repeats each time rollover conditions are met.
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You can search across all of the indices managed by the `timeseries_policy` with the `timeseries` alias.
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Write operations are routed to the current write index.
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[discrete]
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[[ilm-gs-alias-check-progress]]
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=== Check lifecycle progress
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Retrieving the status information for managed indices is very similar to the data stream case.
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See the data stream <<ilm-gs-check-progress, check progress section>> for more information.
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The only difference is the indices namespace, so retrieving the progress will entail the following
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api call:
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[source,console]
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--------------------------------------------------
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GET timeseries-*/_ilm/explain
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--------------------------------------------------
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// TEST[continued]
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//////////////////////////
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[source,console]
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--------------------------------------------------
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DELETE /timeseries-000001
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--------------------------------------------------
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// TEST[continued]
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//////////////////////////
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