195 lines
5.8 KiB
Plaintext
195 lines
5.8 KiB
Plaintext
[[tune-for-search-speed]]
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== Tune for search speed
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[float]
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=== Give memory to the filesystem cache
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Elasticsearch heavily relies on the filesystem cache in order to make search
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fast. In general, you should make sure that at least half the available memory
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goes to the filesystem cache so that elasticsearch can keep hot regions of the
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index in physical memory.
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[float]
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=== Use faster hardware
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If your search is I/O bound, you should investigate giving more memory to the
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filesystem cache (see above) or buying faster drives. In particular SSD drives
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are known to perform better than spinning disks. Always use local storage,
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remote filesystems such as `NFS` or `SMB` should be avoided. Also beware of
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virtualized storage such as Amazon's `Elastic Block Storage`. Virtualized
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storage works very well with Elasticsearch, and it is appealing since it is so
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fast and simple to set up, but it is also unfortunately inherently slower on an
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ongoing basis when compared to dedicated local storage. If you put an index on
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`EBS`, be sure to use provisioned IOPS otherwise operations could be quickly
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throttled.
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If your search is CPU-bound, you should investigate buying faster CPUs.
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[float]
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=== Document modeling
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Documents should be modeled so that search-time operations are as cheap as possible.
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In particular, joins should be avoided. <<nested,`nested`>> can make queries
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several times slower and <<mapping-parent-field,parent-child>> relations can make
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queries hundreds of times slower. So if the same questions can be answered without
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joins by denormalizing documents, significant speedups can be expected.
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[float]
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=== Pre-index data
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You should leverage patterns in your queries to optimize the way data is indexed.
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For instance, if all your documents have a `price` field and most queries run
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<<search-aggregations-bucket-range-aggregation,`range`>> aggregations on a fixed
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list of ranges, you could make this aggregation faster by pre-indexing the ranges
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into the index and using a <<search-aggregations-bucket-terms-aggregation,`terms`>>
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aggregations.
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For instance, if documents look like:
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[source,js]
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--------------------------------------------------
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PUT index/type/1
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{
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"designation": "spoon",
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"price": 13
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}
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--------------------------------------------------
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// CONSOLE
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and search requests look like:
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[source,js]
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--------------------------------------------------
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GET index/_search
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{
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"aggs": {
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"price_ranges": {
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"range": {
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"field": "price",
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"ranges": [
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{ "to": 10 },
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{ "from": 10, "to": 100 },
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{ "from": 100 }
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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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// CONSOLE
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// TEST[continued]
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Then documents could be enriched by a `price_range` field at index time, which
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should be mapped as a <<keyword,`keyword`>>:
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[source,js]
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--------------------------------------------------
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PUT index
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{
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"mappings": {
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"type": {
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"properties": {
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"price_range": {
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"type": "keyword"
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}
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}
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}
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}
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}
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PUT index/type/1
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{
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"designation": "spoon",
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"price": 13,
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"price_range": "10-100"
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}
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--------------------------------------------------
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// CONSOLE
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And then search requests could aggregate this new field rather than running a
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`range` aggregation on the `price` field.
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[source,js]
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--------------------------------------------------
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GET index/_search
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{
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"aggs": {
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"price_ranges": {
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"terms": {
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"field": "price_range"
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}
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}
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}
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}
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--------------------------------------------------
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// CONSOLE
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// TEST[continued]
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[float]
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=== Mappings
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The fact that some data is numeric does not mean it should always be mapped as a
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<<number,numeric field>>. Typically, fields storing identifiers such as an `ISBN`
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or any number identifying a record from another database, might benefit from
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being mapped as <<keyword,`keyword`>> rather than `integer` or `long`.
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[float]
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=== Avoid scripts
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In general, scripts should be avoided. If they are absolutely needed, you
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should prefer the `painless` and `expressions` engines.
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[float]
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=== Force-merge read-only indices
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Indices that are read-only would benefit from being
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<<indices-forcemerge,merged down to a single segment>>. This is typically the
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case with time-based indices: only the index for the current time frame is
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getting new documents while older indices are read-only.
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IMPORTANT: Don't force-merge indices that are still being written to -- leave
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merging to the background merge process.
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[float]
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=== Warm up global ordinals
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Global ordinals are a data-structure that is used in order to run
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<<search-aggregations-bucket-terms-aggregation,`terms`>> aggregations on
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<<keyword,`keyword`>> fields. They are loaded lazily in memory because
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elasticsearch does not know which fields will be used in `terms` aggregations
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and which fields won't. You can tell elasticsearch to load global ordinals
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eagerly at refresh-time by configuring mappings as described below:
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[source,js]
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--------------------------------------------------
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PUT index
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{
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"mappings": {
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"type": {
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"properties": {
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"foo": {
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"type": "keyword",
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"eager_global_ordinals": true
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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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// CONSOLE
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[float]
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=== Warm up the filesystem cache
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If the machine running elasticsearch is restarted, the filesystem cache will be
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empty, so it will take some time before the operating system loads hot regions
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of the index into memory so that search operations are fast. You can explicitly
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tell the operating system which files should be loaded into memory eagerly
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depending on the file extension using the <<file-system,`index.store.preload`>>
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setting.
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WARNING: Loading data into the filesystem cache eagerly on too many indices or
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too many files will make searh _slower_ if the filesystem cache is not large
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enough to hold all the data. Use with caution.
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