187 lines
7.0 KiB
Plaintext
187 lines
7.0 KiB
Plaintext
[role="xpack"]
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[[data-streams]]
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= Data streams
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++++
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<titleabbrev>Data streams</titleabbrev>
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++++
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A _data stream_ is a convenient, scalable way to ingest, search, and manage
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continuously generated time series data.
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Time series data, such as logs, tends to grow over time. While storing an entire
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time series in a single {es} index is simpler, it is often more efficient and
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cost-effective to store large volumes of data across multiple, time-based
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indices. Multiple indices let you move indices containing older, less frequently
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queried data to less expensive hardware and delete indices when they're no
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longer needed, reducing overhead and storage costs.
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A data stream is designed to give you the best of both worlds:
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* The simplicity of a single named resource you can use for requests
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* The storage, scalability, and cost-saving benefits of multiple indices
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You can submit indexing and search requests directly to a data stream. The
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stream automatically routes the requests to a collection of hidden
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_backing indices_ that store the stream's data.
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You can use <<index-lifecycle-management,{ilm} ({ilm-init})>> to automate the
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management of these backing indices. {ilm-init} lets you automatically spin up
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new backing indices, allocate indices to different hardware, delete old indices,
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and take other automatic actions based on age or size criteria you set. Use data
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streams and {ilm-init} to seamlessly scale your data storage based on your
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budget, performance, resiliency, and retention needs.
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[discrete]
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[[when-to-use-data-streams]]
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== When to use data streams
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We recommend using data streams if you:
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* Use {es} to ingest, search, and manage large volumes of time series data
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* Want to scale and reduce costs by using {ilm-init} to automate the management
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of your indices
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* Index large volumes of time series data in {es} but rarely delete or update
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individual documents
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[discrete]
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[[backing-indices]]
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== Backing indices
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A data stream consists of one or more _backing indices_. Backing indices are
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<<index-hidden,hidden>>, auto-generated indices used to store a stream's
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documents.
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image::images/data-streams/data-streams-diagram.svg[align="center"]
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To create backing indices, each data stream requires a matching
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<<indices-templates,index template>>. This template acts as a blueprint for the
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stream's backing indices. It specifies:
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* One or more wildcard (`*`) patterns that match the name of the stream.
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* The mappings and settings for the stream's backing indices.
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* That the template is used exclusively for data streams.
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Every document indexed to a data stream must have a `@timestamp` field. This
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field can be mapped as a <<date,`date`>> or <<date_nanos,`date_nanos`>> field
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data type by the stream's index template. If the template does not specify a
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mapping, the `@timestamp` field is mapped as a `date` field with default
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options.
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The same index template can be used to create multiple data streams.
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[discrete]
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[[data-streams-generation]]
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== Generation
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Each data stream tracks its _generation_: a six-digit, zero-padded integer
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that acts as a cumulative count of the data stream's backing indices. This count
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includes any deleted indices for the stream. The generation is incremented
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whenever a new backing index is added to the stream.
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When a backing index is created, the index is named using the following
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convention:
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[source,text]
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----
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.ds-<data-stream>-<generation>
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----
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For example, the `web-server-logs` data stream has a generation of `34`. The
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most recently created backing index for this data stream is named
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`.ds-web-server-logs-000034`.
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Because the generation increments with each new backing index, backing indices
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with a higher generation contain more recent data. Backing indices with a lower
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generation contain older data.
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A backing index's name can change after its creation due to a
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<<indices-shrink-index,shrink>>, <<snapshots-restore-snapshot,restore>>, or
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other operations. However, renaming a backing index does not detach it from a
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data stream.
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[discrete]
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[[data-stream-read-requests]]
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== Read requests
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When a read request is sent to a data stream, it routes the request to all its
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backing indices. For example, a search request sent to a data stream would query
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all its backing indices.
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image::images/data-streams/data-streams-search-request.svg[align="center"]
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[discrete]
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[[data-stream-write-index]]
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== Write index
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The most recently created backing index is the data stream’s only
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_write index_. The data stream routes all indexing requests for new documents to
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this index.
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image::images/data-streams/data-streams-index-request.svg[align="center"]
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You cannot add new documents to a stream's other backing indices, even by
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sending requests directly to the index.
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Because it's the only index capable of ingesting new documents, you cannot
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perform operations on a write index that might hinder indexing. These
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prohibited operations include:
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* <<indices-clone-index,Clone>>
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* <<indices-close,Close>>
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* <<indices-delete-index,Delete>>
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* <<freeze-index-api,Freeze>>
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* <<indices-shrink-index,Shrink>>
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* <<indices-split-index,Split>>
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[discrete]
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[[data-streams-rollover]]
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== Rollover
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When a data stream is created, one backing index is automatically created.
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Because this single index is also the most recently created backing index, it
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acts as the stream's write index.
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A <<indices-rollover-index,rollover>> creates a new backing index for a data
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stream. This new backing index becomes the stream's write index, replacing
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the current one, and increments the stream's generation.
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In most cases, we recommend using <<index-lifecycle-management,{ilm}
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({ilm-init})>> to automate rollovers for data streams. This lets you
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automatically roll over the current write index when it meets specified
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criteria, such as a maximum age or size.
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However, you can also use the <<indices-rollover-index,rollover API>> to
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manually perform a rollover. See <<manually-roll-over-a-data-stream>>.
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[discrete]
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[[data-streams-append-only]]
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== Append-only
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For most time series use cases, existing data is rarely, if ever, updated.
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Because of this, data streams are designed to be append-only.
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You can send <<add-documents-to-a-data-stream,indexing requests for new
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documents>> directly to a data stream. However, you cannot send the update or
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deletion requests for existing documents directly to a data stream.
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Instead, you can use the <<docs-update-by-query,update by query>> and
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<<docs-delete-by-query,delete by query>> APIs to update or delete existing
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documents in a data stream. See <<update-docs-in-a-data-stream-by-query>> and <<delete-docs-in-a-data-stream-by-query>>.
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If needed, you can update or delete a document by submitting requests to the
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backing index containing the document. See
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<<update-delete-docs-in-a-backing-index>>.
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TIP: If you frequently update or delete existing documents,
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we recommend using an <<indices-add-alias,index alias>> and
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<<indices-templates,index template>> instead of a data stream. You can still
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use <<index-lifecycle-management,{ilm-init}>> to manage indices for the alias.
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include::set-up-a-data-stream.asciidoc[]
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include::use-a-data-stream.asciidoc[]
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include::change-mappings-and-settings.asciidoc[]
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