241 lines
7.3 KiB
Plaintext
241 lines
7.3 KiB
Plaintext
[role="xpack"]
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[testenv="basic"]
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[[rollup-search]]
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=== Rollup Search
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++++
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<titleabbrev>Rollup Search</titleabbrev>
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++++
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experimental[]
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The Rollup Search endpoint allows searching rolled-up data using the standard query DSL. The Rollup Search endpoint
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is needed because, internally, rolled-up documents utilize a different document structure than the original data. The
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Rollup Search endpoint rewrites standard query DSL into a format that matches the rollup documents, then takes the response
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and rewrites it back to what a client would expect given the original query.
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==== Request
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`GET {index}/_rollup_search`
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//===== Description
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==== Path Parameters
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`index`::
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(string) Index, indices or index-pattern to execute a rollup search against. This can include both rollup and non-rollup
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indices.
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Rules for the `index` parameter:
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- At least one index/index-pattern must be specified. This can be either a rollup or non-rollup index. Omitting the index parameter,
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or using `_all`, is not permitted
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- Multiple non-rollup indices may be specified
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- Only one rollup index may be specified. If more than one are supplied an exception will be thrown
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- Index patterns may be used, but if they match more than one rollup index an exception will be thrown.
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==== Request Body
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The request body supports a subset of features from the regular Search API. It supports:
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- `query` param for specifying an DSL query, subject to some limitations (see <<rollup-search-limitations>> and <<rollup-agg-limitations>>
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- `aggregations` param for specifying aggregations
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Functionality that is not available:
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- `size`: because rollups work on pre-aggregated data, no search hits can be returned and so size must be set to zero or
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omitted entirely.
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- `highlighter`, `suggestors`, `post_filter`, `profile`, `explain` are similarly disallowed
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==== Historical-only search example
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Imagine we have an index named `sensor-1` full of raw data, and we have created a rollup job with the following configuration:
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[source,js]
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--------------------------------------------------
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PUT _rollup/job/sensor
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{
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"index_pattern": "sensor-*",
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"rollup_index": "sensor_rollup",
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"cron": "*/30 * * * * ?",
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"page_size" :1000,
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"groups" : {
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"date_histogram": {
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"field": "timestamp",
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"interval": "1h",
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"delay": "7d"
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},
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"terms": {
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"fields": ["node"]
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}
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},
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"metrics": [
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{
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"field": "temperature",
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"metrics": ["min", "max", "sum"]
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},
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{
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"field": "voltage",
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"metrics": ["avg"]
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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[setup:sensor_index]
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This rolls up the `sensor-*` pattern and stores the results in `sensor_rollup`. To search this rolled up data, we
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need to use the `_rollup_search` endpoint. However, you'll notice that we can use regular query DSL to search the
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rolled-up data:
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[source,js]
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--------------------------------------------------
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GET /sensor_rollup/_rollup_search
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{
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"size": 0,
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"aggregations": {
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"max_temperature": {
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"max": {
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"field": "temperature"
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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[setup:sensor_prefab_data]
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// TEST[s/_rollup_search/_rollup_search?filter_path=took,timed_out,terminated_early,_shards,hits,aggregations/]
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The query is targeting the `sensor_rollup` data, since this contains the rollup data as configured in the job. A `max`
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aggregation has been used on the `temperature` field, yielding the following response:
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[source,js]
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----
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{
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"took" : 102,
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"timed_out" : false,
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"terminated_early" : false,
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"_shards" : ... ,
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"hits" : {
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"total" : {
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"value": 0,
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"relation": "eq"
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},
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"max_score" : 0.0,
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"hits" : [ ]
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},
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"aggregations" : {
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"max_temperature" : {
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"value" : 202.0
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}
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}
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}
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----
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// TESTRESPONSE[s/"took" : 102/"took" : $body.$_path/]
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// TESTRESPONSE[s/"_shards" : \.\.\. /"_shards" : $body.$_path/]
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The response is exactly as you'd expect from a regular query + aggregation; it provides some metadata about the request
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(`took`, `_shards`, etc), the search hits (which is always empty for rollup searches), and the aggregation response.
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Rollup searches are limited to functionality that was configured in the rollup job. For example, we are not able to calculate
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the average temperature because `avg` was not one of the configured metrics for the `temperature` field. If we try
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to execute that search:
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[source,js]
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--------------------------------------------------
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GET sensor_rollup/_rollup_search
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{
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"size": 0,
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"aggregations": {
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"avg_temperature": {
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"avg": {
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"field": "temperature"
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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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// TEST[catch:/illegal_argument_exception/]
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[source,js]
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----
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{
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"error" : {
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"root_cause" : [
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{
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"type" : "illegal_argument_exception",
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"reason" : "There is not a rollup job that has a [avg] agg with name [avg_temperature] which also satisfies all requirements of query.",
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"stack_trace": ...
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}
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],
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"type" : "illegal_argument_exception",
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"reason" : "There is not a rollup job that has a [avg] agg with name [avg_temperature] which also satisfies all requirements of query.",
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"stack_trace": ...
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},
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"status": 400
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}
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----
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// TESTRESPONSE[s/"stack_trace": \.\.\./"stack_trace": $body.$_path/]
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==== Searching both historical rollup and non-rollup data
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The Rollup Search API has the capability to search across both "live", non-rollup data as well as the aggregated rollup
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data. This is done by simply adding the live indices to the URI:
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[source,js]
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--------------------------------------------------
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GET sensor-1,sensor_rollup/_rollup_search <1>
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{
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"size": 0,
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"aggregations": {
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"max_temperature": {
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"max": {
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"field": "temperature"
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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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// TEST[s/_rollup_search/_rollup_search?filter_path=took,timed_out,terminated_early,_shards,hits,aggregations/]
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<1> Note the URI now searches `sensor-1` and `sensor_rollup` at the same time
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When the search is executed, the Rollup Search endpoint will do two things:
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1. The original request will be sent to the non-rollup index unaltered
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2. A rewritten version of the original request will be sent to the rollup index.
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When the two responses are received, the endpoint will then rewrite the rollup response and merge the two together.
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During the merging process, if there is any overlap in buckets between the two responses, the buckets from the non-rollup
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index will be used.
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The response to the above query will look as expected, despite spanning rollup and non-rollup indices:
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[source,js]
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----
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{
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"took" : 102,
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"timed_out" : false,
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"terminated_early" : false,
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"_shards" : ... ,
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"hits" : {
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"total" : {
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"value": 0,
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"relation": "eq"
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},
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"max_score" : 0.0,
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"hits" : [ ]
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},
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"aggregations" : {
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"max_temperature" : {
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"value" : 202.0
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}
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}
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}
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----
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// TESTRESPONSE[s/"took" : 102/"took" : $body.$_path/]
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// TESTRESPONSE[s/"_shards" : \.\.\. /"_shards" : $body.$_path/] |