mirror of https://github.com/apache/druid.git
100 lines
5.8 KiB
Markdown
100 lines
5.8 KiB
Markdown
---
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layout: doc_page
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title: "Multitenancy Considerations"
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---
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# Multitenancy Considerations
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Druid is often used to power user-facing data applications, where multitenancy is an important requirement. This
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document outlines Druid's multitenant storage and querying features.
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## Shared datasources or datasource-per-tenant?
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A datasource is the Druid equivalent of a database table. Multitenant workloads can either use a separate datasource
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for each tenant, or can share one or more datasources between tenants using a "tenant_id" dimension. When deciding
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which path to go down, consider that each path has pros and cons.
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Pros of datasources per tenant:
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- Each datasource can have its own schema, its own backfills, its own partitioning rules, and its own data loading
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and expiration rules.
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- Queries can be faster since there will be fewer segments to examine for a typical tenant's query.
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- You get the most flexibility.
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Pros of shared datasources:
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- Each datasource requires its own JVMs for realtime indexing.
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- Each datasource requires its own YARN resources for Hadoop batch jobs.
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- Each datasource requires its own segment files on disk.
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- For these reasons it can be wasteful to have a very large number of small datasources.
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One compromise is to use more than one datasource, but a smaller number than tenants. For example, you could have some
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tenants with partitioning rules A and some with partitioning rules B; you could use two datasources and split your
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tenants between them.
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## Partitioning shared datasources
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If your multitenant cluster uses shared datasources, most of your queries will likely filter on a "tenant_id"
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dimension. These sorts of queries perform best when data is well-partitioned by tenant. There are a few ways to
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accomplish this.
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With batch indexing, you can use [single-dimension partitioning](../indexing/batch-ingestion.html#single-dimension-partitioning)
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to partition your data by tenant_id. Druid always partitions by time first, but the secondary partition within each
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time bucket will be on tenant_id.
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With realtime indexing, you have a couple of options.
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1. Partition on tenant_id upfront. You'd do this by tweaking the stream you send to Druid. If you're using Kafka then
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you can have your Kafka producer partition your topic by a hash of tenant_id. If you're using Tranquility then you can
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define a custom [Partitioner](http://static.druid.io/tranquility/api/latest/#com.metamx.tranquility.partition.Partitioner).
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2. Reindex your older data periodically. You can do this with the ["dataSource" input spec](../ingestion/hadoop.html#datasource).
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You can use this in concert with single-dimension partitioning to repartition your data.
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## Customizing data distribution
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Druid additionally supports multitenancy by providing configurable means of distributing data. Druid's Historical processes
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can be configured into [tiers](../operations/rule-configuration.html), and [rules](../operations/rule-configuration.html)
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can be set that determines which segments go into which tiers. One use case of this is that recent data tends to be accessed
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more frequently than older data. Tiering enables more recent segments to be hosted on more powerful hardware for better performance.
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A second copy of recent segments can be replicated on cheaper hardware (a different tier), and older segments can also be
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stored on this tier.
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## Supporting high query concurrency
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Druid's fundamental unit of computation is a [segment](../design/segments.html). Processes scan segments in parallel and a
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given process can scan `druid.processing.numThreads` concurrently. To
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process more data in parallel and increase performance, more cores can be added to a cluster. Druid segments
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should be sized such that any computation over any given segment should complete in at most 500ms.
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Druid internally stores requests to scan segments in a priority queue. If a given query requires scanning
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more segments than the total number of available processors in a cluster, and many similarly expensive queries are concurrently
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running, we don't want any query to be starved out. Druid's internal processing logic will scan a set of segments from one query and release resources as soon as the scans complete.
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This allows for a second set of segments from another query to be scanned. By keeping segment computation time very small, we ensure
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that resources are constantly being yielded, and segments pertaining to different queries are all being processed.
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Druid queries can optionally set a `priority` flag in the [query context](../querying/query-context.html). Queries known to be
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slow (download or reporting style queries) can be de-prioritized and more interactive queries can have higher priority.
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Broker processes can also be dedicated to a given tier. For example, one set of Broker processes can be dedicated to fast interactive queries,
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and a second set of Broker processes can be dedicated to slower reporting queries. Druid also provides a [Router](../development/router.html)
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process that can route queries to different Brokers based on various query parameters (datasource, interval, etc.).
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