692 lines
24 KiB
Plaintext
692 lines
24 KiB
Plaintext
[[modules-scripting]]
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== Scripting
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The scripting module allows to use scripts in order to evaluate custom
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expressions. For example, scripts can be used to return "script fields"
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as part of a search request, or can be used to evaluate a custom score
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for a query and so on.
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The scripting module uses by default http://groovy-lang.org/[groovy]
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(previously http://mvel.codehaus.org/[mvel] in 1.3.x and earlier) as the
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scripting language with some extensions. Groovy is used since it is extremely
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fast and very simple to use.
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.Groovy dynamic scripting off by default from v1.4.3
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[IMPORTANT]
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===================================================
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Groovy dynamic scripting is off by default, preventing dynamic Groovy scripts
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from being accepted as part of a request or retrieved from the special
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`.scripts` index. You will still be able to use Groovy scripts stored in files
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in the `config/scripts/` directory on every node.
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To convert an inline script to a file, take this simple script
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as an example:
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[source,js]
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-----------------------------------
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GET /_search
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{
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"script_fields": {
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"my_field": {
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"inline": "1 + my_var",
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"params": {
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"my_var": 2
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}
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}
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}
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}
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-----------------------------------
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Save the contents of the `inline` field as a file called `config/scripts/my_script.groovy`
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on every data node in the cluster:
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[source,js]
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-----------------------------------
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1 + my_var
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-----------------------------------
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Now you can access the script by file name (without the extension):
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[source,js]
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-----------------------------------
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GET /_search
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{
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"script_fields": {
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"my_field": {
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"script": {
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"file": "my_script",
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"params": {
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"my_var": 2
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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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===================================================
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Additional `lang` plugins are provided to allow to execute scripts in
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different languages. All places where a script can be used, a `lang` parameter
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can be provided to define the language of the script. The following are the
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supported scripting languages:
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[cols="<,<,<",options="header",]
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|=======================================================================
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|Language |Sandboxed |Required plugin
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|groovy |no |built-in
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|expression |yes |built-in
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|mustache |yes |built-in
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|javascript |no |{plugins}/lang-javascript.html[elasticsearch-lang-javascript]
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|python |no |{plugins}/lang-python.html[elasticsearch-lang-python]
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|=======================================================================
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To increase security, Elasticsearch does not allow you to specify scripts for
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non-sandboxed languages with a request. Instead, scripts must be placed in the
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`scripts` directory inside the configuration directory (the directory where
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elasticsearch.yml is). The default location of this `scripts` directory can be
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changed by setting `path.scripts` in elasticsearch.yml. Scripts placed into
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this directory will automatically be picked up and be available to be used.
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Once a script has been placed in this directory, it can be referenced by name.
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For example, a script called `calculate-score.groovy` can be referenced in a
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request like this:
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[source,sh]
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--------------------------------------------------
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$ tree config
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config
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├── elasticsearch.yml
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├── logging.yml
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└── scripts
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└── calculate-score.groovy
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--------------------------------------------------
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[source,sh]
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--------------------------------------------------
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$ cat config/scripts/calculate-score.groovy
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log(_score * 2) + my_modifier
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--------------------------------------------------
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[source,js]
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--------------------------------------------------
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curl -XPOST localhost:9200/_search -d '{
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"query": {
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"function_score": {
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"query": {
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"match": {
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"body": "foo"
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}
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},
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"functions": [
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{
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"script_score": {
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"script": {
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"lang": "groovy",
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"file": "calculate-score",
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"params": {
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"my_modifier": 8
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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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}
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}'
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--------------------------------------------------
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The name of the script is derived from the hierarchy of directories it
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exists under, and the file name without the lang extension. For example,
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a script placed under `config/scripts/group1/group2/test.py` will be
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named `group1_group2_test`.
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[float]
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=== Indexed Scripts
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Elasticsearch allows you to store scripts in an internal index known as
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`.scripts` and reference them by id. There are REST endpoints to manage
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indexed scripts as follows:
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Requests to the scripts endpoint look like :
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[source,js]
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-----------------------------------
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/_scripts/{lang}/{id}
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-----------------------------------
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Where the `lang` part is the language the script is in and the `id` part is the id
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of the script. In the `.scripts` index the type of the document will be set to the `lang`.
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[source,js]
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-----------------------------------
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curl -XPOST localhost:9200/_scripts/groovy/indexedCalculateScore -d '{
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"script": "log(_score * 2) + my_modifier"
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}'
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-----------------------------------
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This will create a document with id: `indexedCalculateScore` and type: `groovy` in the
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`.scripts` index. The type of the document is the language used by the script.
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This script can be accessed at query time by using the `id` script parameter and passing
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the script id:
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[source,js]
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--------------------------------------------------
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curl -XPOST localhost:9200/_search -d '{
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"query": {
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"function_score": {
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"query": {
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"match": {
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"body": "foo"
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}
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},
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"functions": [
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{
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"script_score": {
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"script": {
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"id": "indexedCalculateScore",
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"lang" : "groovy",
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"params": {
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"my_modifier": 8
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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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}
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}'
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--------------------------------------------------
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The script can be viewed by:
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[source,js]
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-----------------------------------
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curl -XGET localhost:9200/_scripts/groovy/indexedCalculateScore
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-----------------------------------
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This is rendered as:
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[source,js]
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-----------------------------------
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'{
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"script": "log(_score * 2) + my_modifier"
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}'
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-----------------------------------
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Indexed scripts can be deleted by:
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[source,js]
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-----------------------------------
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curl -XDELETE localhost:9200/_scripts/groovy/indexedCalculateScore
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-----------------------------------
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[float]
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[[enable-dynamic-scripting]]
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=== Enabling dynamic scripting
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We recommend running Elasticsearch behind an application or proxy, which
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protects Elasticsearch from the outside world. If users are allowed to run
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inline scripts (even in a search request) or indexed scripts, then they have
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the same access to your box as the user that Elasticsearch is running as. For
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this reason dynamic scripting is allowed only for sandboxed languages by default.
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First, you should not run Elasticsearch as the `root` user, as this would allow
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a script to access or do *anything* on your server, without limitations. Second,
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you should not expose Elasticsearch directly to users, but instead have a proxy
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application inbetween. If you *do* intend to expose Elasticsearch directly to
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your users, then you have to decide whether you trust them enough to run scripts
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on your box or not.
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It is possible to enable scripts based on their source, for
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every script engine, through the following settings that need to be added to the
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`config/elasticsearch.yml` file on every node.
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[source,yaml]
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-----------------------------------
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script.inline: on
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script.indexed: on
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-----------------------------------
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While this still allows execution of named scripts provided in the config, or
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_native_ Java scripts registered through plugins, it also allows users to run
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arbitrary scripts via the API. Instead of sending the name of the file as the
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script, the body of the script can be sent instead or retrieved from the
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`.scripts` indexed if previously stored.
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There are three possible configuration values for any of the fine-grained
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script settings:
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[cols="<,<",options="header",]
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|=======================================================================
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|Value |Description
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| `off` |scripting is turned off completely, in the context of the setting being set.
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| `on` |scripting is turned on, in the context of the setting being set.
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| `sandbox` |scripts may be executed only for languages that are sandboxed
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|=======================================================================
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The default values are the following:
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[source,yaml]
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-----------------------------------
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script.inline: sandbox
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script.indexed: sandbox
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script.file: on
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-----------------------------------
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NOTE: Global scripting settings affect the `mustache` scripting language.
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<<search-template,Search templates>> internally use the `mustache` language,
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and will still be enabled by default as the `mustache` engine is sandboxed,
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but they will be enabled/disabled according to fine-grained settings
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specified in `elasticsearch.yml`.
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It is also possible to control which operations can execute scripts. The
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supported operations are:
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[cols="<,<",options="header",]
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|=======================================================================
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|Value |Description
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| `aggs` |Aggregations (wherever they may be used)
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| `search` |Search api, Percolator api and Suggester api (e.g filters, script_fields)
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| `update` |Update api
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| `plugin` |Any plugin that makes use of scripts under the generic `plugin` category
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|=======================================================================
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Plugins can also define custom operations that they use scripts for instead
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of using the generic `plugin` category. Those operations can be referred to
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in the following form: `${pluginName}_${operation}`.
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The following example disables scripting for `update` and `mapping` operations,
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regardless of the script source, for any engine. Scripts can still be
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executed from sandboxed languages as part of `aggregations`, `search`
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and plugins execution though, as the above defaults still get applied.
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[source,yaml]
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-----------------------------------
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script.update: off
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script.mapping: off
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-----------------------------------
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Generic settings get applied in order, operation based ones have precedence
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over source based ones. Language specific settings are supported too. They
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need to be prefixed with the `script.engine.<engine>` prefix and have
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precedence over any other generic settings.
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[source,yaml]
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-----------------------------------
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script.engine.groovy.file.aggs: on
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script.engine.groovy.file.mapping: on
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script.engine.groovy.file.search: on
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script.engine.groovy.file.update: on
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script.engine.groovy.file.plugin: on
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script.engine.groovy.indexed.aggs: on
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script.engine.groovy.indexed.mapping: off
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script.engine.groovy.indexed.search: on
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script.engine.groovy.indexed.update: off
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script.engine.groovy.indexed.plugin: off
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script.engine.groovy.inline.aggs: on
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script.engine.groovy.inline.mapping: off
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script.engine.groovy.inline.search: off
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script.engine.groovy.inline.update: off
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script.engine.groovy.inline.plugin: off
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-----------------------------------
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[float]
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=== Default Scripting Language
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The default scripting language (assuming no `lang` parameter is provided) is
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`groovy`. In order to change it, set the `script.default_lang` to the
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appropriate language.
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[float]
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=== Automatic Script Reloading
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The `config/scripts` directory is scanned periodically for changes.
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New and changed scripts are reloaded and deleted script are removed
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from preloaded scripts cache. The reload frequency can be specified
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using `resource.reload.interval` setting, which defaults to `60s`.
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To disable script reloading completely set `script.auto_reload_enabled`
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to `false`.
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[[native-java-scripts]]
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[float]
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=== Native (Java) Scripts
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Sometimes `groovy` and `expressions` aren't enough. For those times you can
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implement a native script.
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The best way to implement a native script is to write a plugin and install it.
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The plugin {plugins}/plugin-authors.html[documentation] has more information on
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how to write a plugin so that Elasticsearch will properly load it.
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To register the actual script you'll need to implement `NativeScriptFactory`
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to construct the script. The actual script will extend either
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`AbstractExecutableScript` or `AbstractSearchScript`. The second one is likely
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the most useful and has several helpful subclasses you can extend like
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`AbstractLongSearchScript`, `AbstractDoubleSearchScript`, and
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`AbstractFloatSearchScript`. Finally, your plugin should register the native
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script by declaring the `onModule(ScriptModule)` method.
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If you squashed the whole thing into one class it'd look like:
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[source,java]
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--------------------------------------------------
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public class MyNativeScriptPlugin extends Plugin {
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@Override
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public String name() {
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return "my-native-script";
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}
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@Override
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public String description() {
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return "my native script that does something great";
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}
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public void onModule(ScriptModule scriptModule) {
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scriptModule.registerScript("my_script", MyNativeScriptFactory.class);
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}
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public static class MyNativeScriptFactory implements NativeScriptFactory {
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@Override
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public ExecutableScript newScript(@Nullable Map<String, Object> params) {
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return new MyNativeScript();
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}
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@Override
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public boolean needsScores() {
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return false;
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}
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}
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public static class MyNativeScript extends AbstractFloatSearchScript {
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@Override
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public float runAsFloat() {
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float a = (float) source().get("a");
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float b = (float) source().get("b");
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return a * b;
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}
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}
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}
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--------------------------------------------------
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You can execute the script by specifying its `lang` as `native`, and the name
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of the script as the `id`:
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[source,js]
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--------------------------------------------------
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curl -XPOST localhost:9200/_search -d '{
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"query": {
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"function_score": {
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"query": {
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"match": {
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"body": "foo"
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}
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},
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"functions": [
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{
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"script_score": {
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"script": {
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"id": "my_script",
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"lang" : "native"
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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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}'
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--------------------------------------------------
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[float]
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=== Lucene Expressions Scripts
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experimental[The Lucene expressions module is undergoing significant development and the exposed functionality is likely to change in the future]
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Lucene's expressions module provides a mechanism to compile a
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`javascript` expression to bytecode. This allows very fast execution,
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as if you had written a `native` script. Expression scripts can be
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used in `script_score`, `script_fields`, sort scripts and numeric aggregation scripts.
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See the link:http://lucene.apache.org/core/4_9_0/expressions/index.html?org/apache/lucene/expressions/js/package-summary.html[expressions module documentation]
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for details on what operators and functions are available.
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Variables in `expression` scripts are available to access:
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* Single valued document fields, e.g. `doc['myfield'].value`
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* Single valued document fields can also be accessed without `.value` e.g. `doc['myfield']`
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* Parameters passed into the script, e.g. `mymodifier`
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* The current document's score, `_score` (only available when used in a `script_score`)
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Variables in `expression` scripts that are of type `date` may use the following member methods:
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* getYear()
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* getMonth()
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* getDayOfMonth()
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* getHourOfDay()
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* getMinutes()
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* getSeconds()
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The following example shows the difference in years between the `date` fields date0 and date1:
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`doc['date1'].getYear() - doc['date0'].getYear()`
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There are a few limitations relative to other script languages:
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* Only numeric fields may be accessed
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* Stored fields are not available
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* If a field is sparse (only some documents contain a value), documents missing the field will have a value of `0`
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[float]
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=== Score
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In all scripts that can be used in aggregations, the current
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document's score is accessible in `_score`.
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[float]
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=== Computing scores based on terms in scripts
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see <<modules-advanced-scripting, advanced scripting documentation>>
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[float]
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=== Document Fields
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Most scripting revolve around the use of specific document fields data.
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The `doc['field_name']` can be used to access specific field data within
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a document (the document in question is usually derived by the context
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the script is used). Document fields are very fast to access since they
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end up being loaded into memory (all the relevant field values/tokens
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are loaded to memory). Note, however, that the `doc[...]` notation only
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allows for simple valued fields (can’t return a json object from it)
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and makes sense only on non-analyzed or single term based fields.
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The following data can be extracted from a field:
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[cols="<,<",options="header",]
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|=======================================================================
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|Expression |Description
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|`doc['field_name'].value` |The native value of the field. For example,
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if its a short type, it will be short.
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|`doc['field_name'].values` |The native array values of the field. For
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example, if its a short type, it will be short[]. Remember, a field can
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have several values within a single doc. Returns an empty array if the
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field has no values.
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|`doc['field_name'].empty` |A boolean indicating if the field has no
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values within the doc.
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|`doc['field_name'].multiValued` |A boolean indicating that the field
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has several values within the corpus.
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|`doc['field_name'].lat` |The latitude of a geo point type.
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|`doc['field_name'].lon` |The longitude of a geo point type.
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|`doc['field_name'].lats` |The latitudes of a geo point type.
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|`doc['field_name'].lons` |The longitudes of a geo point type.
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|`doc['field_name'].distance(lat, lon)` |The `plane` distance (in meters)
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of this geo point field from the provided lat/lon.
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|`doc['field_name'].distanceWithDefault(lat, lon, default)` |The `plane` distance (in meters)
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of this geo point field from the provided lat/lon with a default value.
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|`doc['field_name'].distanceInMiles(lat, lon)` |The `plane` distance (in
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miles) of this geo point field from the provided lat/lon.
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|`doc['field_name'].distanceInMilesWithDefault(lat, lon, default)` |The `plane` distance (in
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miles) of this geo point field from the provided lat/lon with a default value.
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|`doc['field_name'].distanceInKm(lat, lon)` |The `plane` distance (in
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km) of this geo point field from the provided lat/lon.
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|`doc['field_name'].distanceInKmWithDefault(lat, lon, default)` |The `plane` distance (in
|
||
km) of this geo point field from the provided lat/lon with a default value.
|
||
|
||
|`doc['field_name'].arcDistance(lat, lon)` |The `arc` distance (in
|
||
meters) of this geo point field from the provided lat/lon.
|
||
|
||
|`doc['field_name'].arcDistanceWithDefault(lat, lon, default)` |The `arc` distance (in
|
||
meters) of this geo point field from the provided lat/lon with a default value.
|
||
|
||
|`doc['field_name'].arcDistanceInMiles(lat, lon)` |The `arc` distance (in
|
||
miles) of this geo point field from the provided lat/lon.
|
||
|
||
|`doc['field_name'].arcDistanceInMilesWithDefault(lat, lon, default)` |The `arc` distance (in
|
||
miles) of this geo point field from the provided lat/lon with a default value.
|
||
|
||
|`doc['field_name'].arcDistanceInKm(lat, lon)` |The `arc` distance (in
|
||
km) of this geo point field from the provided lat/lon.
|
||
|
||
|`doc['field_name'].arcDistanceInKmWithDefault(lat, lon, default)` |The `arc` distance (in
|
||
km) of this geo point field from the provided lat/lon with a default value.
|
||
|
||
|`doc['field_name'].factorDistance(lat, lon)` |The distance factor of this geo point field from the provided lat/lon.
|
||
|
||
|`doc['field_name'].factorDistance(lat, lon, default)` |The distance factor of this geo point field from the provided lat/lon with a default value.
|
||
|
||
|`doc['field_name'].geohashDistance(geohash)` |The `arc` distance (in meters)
|
||
of this geo point field from the provided geohash.
|
||
|
||
|`doc['field_name'].geohashDistanceInKm(geohash)` |The `arc` distance (in km)
|
||
of this geo point field from the provided geohash.
|
||
|
||
|`doc['field_name'].geohashDistanceInMiles(geohash)` |The `arc` distance (in
|
||
miles) of this geo point field from the provided geohash.
|
||
|=======================================================================
|
||
|
||
[float]
|
||
=== Stored Fields
|
||
|
||
Stored fields can also be accessed when executing a script. Note, they
|
||
are much slower to access compared with document fields, as they are not
|
||
loaded into memory. They can be simply accessed using
|
||
`_fields['my_field_name'].value` or `_fields['my_field_name'].values`.
|
||
|
||
[float]
|
||
=== Accessing the score of a document within a script
|
||
|
||
When using scripting for calculating the score of a document (for instance, with
|
||
the `function_score` query), you can access the score using the `_score`
|
||
variable inside of a Groovy script.
|
||
|
||
[float]
|
||
=== Source Field
|
||
|
||
The source field can also be accessed when executing a script. The
|
||
source field is loaded per doc, parsed, and then provided to the script
|
||
for evaluation. The `_source` forms the context under which the source
|
||
field can be accessed, for example `_source.obj2.obj1.field3`.
|
||
|
||
Accessing `_source` is much slower compared to using `doc`
|
||
but the data is not loaded into memory. For a single field access `_fields` may be
|
||
faster than using `_source` due to the extra overhead of potentially parsing large documents.
|
||
However, `_source` may be faster if you access multiple fields or if the source has already been
|
||
loaded for other purposes.
|
||
|
||
|
||
[float]
|
||
=== Groovy Built In Functions
|
||
|
||
There are several built in functions that can be used within scripts.
|
||
They include:
|
||
|
||
[cols="<,<",options="header",]
|
||
|=======================================================================
|
||
|Function |Description
|
||
|`sin(a)` |Returns the trigonometric sine of an angle.
|
||
|
||
|`cos(a)` |Returns the trigonometric cosine of an angle.
|
||
|
||
|`tan(a)` |Returns the trigonometric tangent of an angle.
|
||
|
||
|`asin(a)` |Returns the arc sine of a value.
|
||
|
||
|`acos(a)` |Returns the arc cosine of a value.
|
||
|
||
|`atan(a)` |Returns the arc tangent of a value.
|
||
|
||
|`toRadians(angdeg)` |Converts an angle measured in degrees to an
|
||
approximately equivalent angle measured in radians
|
||
|
||
|`toDegrees(angrad)` |Converts an angle measured in radians to an
|
||
approximately equivalent angle measured in degrees.
|
||
|
||
|`exp(a)` |Returns Euler's number _e_ raised to the power of value.
|
||
|
||
|`log(a)` |Returns the natural logarithm (base _e_) of a value.
|
||
|
||
|`log10(a)` |Returns the base 10 logarithm of a value.
|
||
|
||
|`sqrt(a)` |Returns the correctly rounded positive square root of a
|
||
value.
|
||
|
||
|`cbrt(a)` |Returns the cube root of a double value.
|
||
|
||
|`IEEEremainder(f1, f2)` |Computes the remainder operation on two
|
||
arguments as prescribed by the IEEE 754 standard.
|
||
|
||
|`ceil(a)` |Returns the smallest (closest to negative infinity) value
|
||
that is greater than or equal to the argument and is equal to a
|
||
mathematical integer.
|
||
|
||
|`floor(a)` |Returns the largest (closest to positive infinity) value
|
||
that is less than or equal to the argument and is equal to a
|
||
mathematical integer.
|
||
|
||
|`rint(a)` |Returns the value that is closest in value to the argument
|
||
and is equal to a mathematical integer.
|
||
|
||
|`atan2(y, x)` |Returns the angle _theta_ from the conversion of
|
||
rectangular coordinates (_x_, _y_) to polar coordinates (r,_theta_).
|
||
|
||
|`pow(a, b)` |Returns the value of the first argument raised to the
|
||
power of the second argument.
|
||
|
||
|`round(a)` |Returns the closest _int_ to the argument.
|
||
|
||
|`random()` |Returns a random _double_ value.
|
||
|
||
|`abs(a)` |Returns the absolute value of a value.
|
||
|
||
|`max(a, b)` |Returns the greater of two values.
|
||
|
||
|`min(a, b)` |Returns the smaller of two values.
|
||
|
||
|`ulp(d)` |Returns the size of an ulp of the argument.
|
||
|
||
|`signum(d)` |Returns the signum function of the argument.
|
||
|
||
|`sinh(x)` |Returns the hyperbolic sine of a value.
|
||
|
||
|`cosh(x)` |Returns the hyperbolic cosine of a value.
|
||
|
||
|`tanh(x)` |Returns the hyperbolic tangent of a value.
|
||
|
||
|`hypot(x, y)` |Returns sqrt(_x2_ + _y2_) without intermediate overflow
|
||
or underflow.
|
||
|=======================================================================
|