445 lines
16 KiB
Plaintext
445 lines
16 KiB
Plaintext
[role="xpack"]
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[[how-watcher-works]]
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== How {watcher} works
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You <<watch-definition, add watches>> to automatically perform an action when
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certain conditions are met. The conditions are generally based on data you've
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loaded into the watch, also known as the _Watch Payload_. This payload can be
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loaded from different sources - from Elasticsearch, an external HTTP service, or
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even a combination of the two.
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For example, you could configure a watch to send an email to the sysadmin when a
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search in the logs data indicates that there are too many 503 errors in the last
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5 minutes.
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This topic describes the elements of a watch and how watches operate.
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[float]
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[[watch-definition]]
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=== Watch definition
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A watch consists of a _trigger_, _input_, _condition_, and _actions_. The actions
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define what needs to be done once the condition is met. In addition, you can
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define _conditions_ and _transforms_ to process and prepare the watch payload before
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executing the actions.
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<<trigger,Trigger>>::
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Determines when the watch is checked. A watch must have a trigger.
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<<input,Input>>::
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Loads data into the watch payload. If no input is specified, an empty payload is
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loaded.
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<<condition,Condition>>::
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Controls whether the watch actions are executed. If no condition is specified,
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the condition defaults to `always`.
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<<transform,Transform>>::
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Processes the watch payload to prepare it for the watch actions. You can define
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transforms at the watch level or define action-specific transforms. Optional.
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<<actions,Actions>>::
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Specify what happens when the watch condition is met.
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[[watch-definition-example]]
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For example, the following snippet shows a
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<<watcher-api-put-watch,put watch>> request that defines a watch that
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looks for log error events:
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[source,console]
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--------------------------------------------------
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PUT _watcher/watch/log_errors
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{
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"metadata" : { <1>
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"color" : "red"
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},
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"trigger" : { <2>
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"schedule" : {
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"interval" : "5m"
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}
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},
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"input" : { <3>
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"search" : {
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"request" : {
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"indices" : "log-events",
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"body" : {
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"size" : 0,
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"query" : { "match" : { "status" : "error" } }
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}
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}
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}
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},
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"condition" : { <4>
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"compare" : { "ctx.payload.hits.total.value" : { "gt" : 5 }}
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},
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"transform" : { <5>
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"search" : {
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"request" : {
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"indices" : "log-events",
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"body" : {
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"query" : { "match" : { "status" : "error" } }
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}
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}
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}
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},
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"actions" : { <6>
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"my_webhook" : {
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"webhook" : {
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"method" : "POST",
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"host" : "mylisteninghost",
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"port" : 9200,
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"path" : "/{{watch_id}}",
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"body" : "Encountered {{ctx.payload.hits.total.value}} errors"
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}
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},
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"email_administrator" : {
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"email" : {
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"to" : "sys.admino@host.domain",
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"subject" : "Encountered {{ctx.payload.hits.total.value}} errors",
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"body" : "Too many error in the system, see attached data",
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"attachments" : {
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"attached_data" : {
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"data" : {
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"format" : "json"
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}
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}
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},
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"priority" : "high"
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}
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}
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}
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}
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--------------------------------------------------
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<1> Metadata - You can attach optional static metadata to a watch.
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<2> Trigger - This schedule trigger executes the watch every 5 minutes.
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<3> Input - This input searches for errors in the `log-events` index and
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loads the response into the watch payload.
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<4> Condition - This condition checks to see if there are more than 5 error
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events (hits in the search response). If there are, execution
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continues for all `actions`.
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<5> Transform - If the watch condition is met, this transform loads all of the
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errors into the watch payload by searching for the errors using
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the default search type, `query_then_fetch`. All of the watch
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actions have access to this payload.
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<6> Actions - This watch has two actions. The `my_webhook` action notifies a
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3rd party system about the problem. The `email_administrator`
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action sends a high priority email to the system administrator.
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The watch payload that contains the errors is attached to the
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email.
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[float]
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[[watch-execution]]
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=== Watch execution
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[[schedule-scheduler]]
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When you add a watch, {watcher} immediately registers its trigger with the
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appropriate trigger engine. Watches that have a `schedule` trigger are
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registered with the `scheduler` trigger engine.
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The scheduler tracks time and triggers watches according to their schedules.
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On each node, that contains one of the `.watches` shards, a scheduler, that is
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bound to the watcher lifecycle runs. Even though all primaries and replicas are
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taken into account, when a watch is triggered, watcher also ensures, that each
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watch is only triggered on one of those shards. The more replica shards you
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add, the more distributed the watches can be executed. If you add or remove
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replicas, all watches need to be reloaded. If a shard is relocated, the
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primary and all replicas of this particular shard will reload.
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Because the watches are executed on the node, where the watch shards are, you can create
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dedicated watcher nodes by using shard allocation filtering.
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You could configure nodes with a dedicated `node.attr.role: watcher` property and
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then configure the `.watches` index like this:
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[source,console]
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------------------------
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PUT .watches/_settings
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{
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"index.routing.allocation.include.role": "watcher"
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}
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------------------------
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// TEST[skip:indexes don't assign]
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When the {watcher} service is stopped, the scheduler stops with it. Trigger
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engines use a separate thread pool from the one used to execute watches.
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When a watch is triggered, {watcher} queues it up for execution. A `watch_record`
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document is created and added to the watch history and the watch's status is set
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to `awaits_execution`.
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When execution starts, {watcher} creates a watch execution context for the watch.
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The execution context provides scripts and templates with access to the watch
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metadata, payload, watch ID, execution time, and trigger information. For more
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information, see <<watch-execution-context, Watch Execution Context>>.
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During the execution process, {watcher}:
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. Loads the input data as the payload in the watch execution context. This makes
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the data available to all subsequent steps in the execution process. This step
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is controlled by the input of the watch.
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. Evaluates the watch condition to determine whether or not to continue processing
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the watch. If the condition is met (evaluates to `true`), processing advances
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to the next step. If it is not met (evaluates to `false`), execution of the watch
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stops.
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. Applies transforms to the watch payload (if needed).
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. Executes the watch actions granted the condition is met and the watch is not
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<<watch-acknowledgment-throttling, throttled>>.
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When the watch execution finishes, the execution result is recorded as a
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_Watch Record_ in the watch history. The watch record includes the execution
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time and duration, whether the watch condition was met, and the status of each
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action that was executed.
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The following diagram shows the watch execution process:
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image::images/watch-execution.jpg[align="center"]
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[float]
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[[watch-acknowledgment-throttling]]
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=== Watch acknowledgment and throttling
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{watcher} supports both time-based and acknowledgment-based throttling. This
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enables you to prevent actions from being repeatedly executed for the same event.
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By default, {watcher} uses time-based throttling with a throttle period of 5
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seconds. This means that if a watch is executed every second, its actions are
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performed a maximum of once every 5 seconds, even when the condition is always
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met. You can configure the throttle period on a per-action basis or at the
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watch level.
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Acknowledgment-based throttling enables you to tell {watcher} not to send any more
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notifications about a watch as long as its condition is met. Once the condition
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evaluates to `false`, the acknowledgment is cleared and {watcher} resumes executing
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the watch actions normally.
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For more information, see <<actions-ack-throttle>>.
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[float]
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[[watch-active-state]]
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=== Watch active state
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By default, when you add a watch it is immediately set to the _active_ state,
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registered with the appropriate trigger engine, and executed according
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to its configured trigger.
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You can also set a watch to the _inactive_ state. Inactive watches are not
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registered with a trigger engine and can never be triggered.
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To set a watch to the inactive state when you create it, set the
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<<watcher-api-put-watch,`active`>> parameter to _inactive_. To
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deactivate an existing watch, use the
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<<watcher-api-deactivate-watch,deactivate watch API>>. To reactivate an
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inactive watch, use the
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<<watcher-api-activate-watch,activate watch API>>.
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NOTE: You can use the <<watcher-api-execute-watch,execute watch API>>
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to force the execution of a watch even when it is inactive.
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Deactivating watches is useful in a variety of situations. For example, if you
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have a watch that monitors an external system and you need to take that system
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down for maintenance, you can deactivate the watch to prevent it from falsely
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reporting availability issues during the maintenance window.
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Deactivating a watch also enables you to keep it around for future use without
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deleting it from the system.
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[float]
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[[scripts-templates]]
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=== Scripts and templates
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You can use scripts and templates when defining a watch. Scripts and templates
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can reference elements in the watch execution context, including the watch payload.
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The execution context defines variables you can use in a script and parameter
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placeholders in a template.
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{watcher} uses the Elasticsearch script infrastructure, which supports
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<<inline-templates-scripts,inline>> and <<stored-templates-scripts, stored>>.
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Scripts and templates are compiled
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and cached by Elasticsearch to optimize recurring execution. Autoloading is also
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supported. For more information, see <<modules-scripting>> and
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<<modules-scripting-using>>.
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[float]
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[[watch-execution-context]]
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==== Watch execution context
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The following snippet shows the basic structure of the _Watch Execution Context_:
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[source,js]
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----------------------------------------------------------------------
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{
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"ctx" : {
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"metadata" : { ... }, <1>
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"payload" : { ... }, <2>
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"watch_id" : "<id>", <3>
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"execution_time" : "20150220T00:00:10Z", <4>
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"trigger" : { <5>
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"triggered_time" : "20150220T00:00:10Z",
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"scheduled_time" : "20150220T00:00:00Z"
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},
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"vars" : { ... } <6>
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}
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----------------------------------------------------------------------
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// NOTCONSOLE
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<1> Any static metadata specified in the watch definition.
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<2> The current watch payload.
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<3> The id of the executing watch.
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<4> A timestamp that shows when the watch execution started.
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<5> Information about the trigger event. For a `schedule` trigger, this
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consists of the `triggered_time` (when the watch was triggered)
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and the `scheduled_time` (when the watch was scheduled to be triggered).
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<6> Dynamic variables that can be set and accessed by different constructs
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during the execution. These variables are scoped to a single execution
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(i.e they're not persisted and can't be used between different executions
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of the same watch)
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[float]
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[[scripts]]
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==== Using scripts
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You can use scripts to define <<condition-script,conditions>> and
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<<transform-script,transforms>>. The default scripting language is
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<<modules-scripting-painless,Painless>>.
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NOTE: Starting with 5.0, Elasticsearch is shipped with the new
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<<modules-scripting-painless,Painless>> scripting language.
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Painless was created and designed specifically for use in Elasticsearch.
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Beyond providing an extensive feature set, its biggest trait is that it's
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properly sandboxed and safe to use anywhere in the system (including in
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{watcher}) without the need to enable dynamic scripting.
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Scripts can reference any of the values in the watch execution context or values
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explicitly passed through script parameters.
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For example, if the watch metadata contains a `color` field
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(e.g. `"metadata" : {"color": "red"}`), you can access its value with the via the
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`ctx.metadata.color` variable. If you pass in a `color` parameter as part of the
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condition or transform definition (e.g. `"params" : {"color": "red"}`), you can
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access its value via the `color` variable.
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[float]
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[[templates]]
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==== Using templates
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You use templates to define dynamic content for a watch. At execution time,
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templates pull in data from the watch execution context. For example, you can use
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a template to populate the `subject` field for an `email` action with data stored
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in the watch payload. Templates can also access values explicitly passed through
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template parameters.
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You specify templates using the https://mustache.github.io[Mustache] scripting
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language.
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For example, the following snippet shows how templates enable dynamic subjects
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in sent emails:
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[source,js]
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----------------------------------------------------------------------
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{
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"actions" : {
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"email_notification" : {
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"email" : {
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"subject" : "{{ctx.metadata.color}} alert"
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}
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}
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}
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}
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----------------------------------------------------------------------
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// NOTCONSOLE
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[float]
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[[inline-templates-scripts]]
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===== Inline templates and scripts
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To define an inline template or script, you simply specify it directly in the
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value of a field. For example, the following snippet configures the subject of
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the `email` action using an inline template that references the `color` value in
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the context metadata.
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[source,js]
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----------------------------------------------------------------------
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"actions" : {
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"email_notification" : {
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"email" : {
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"subject" : "{{ctx.metadata.color}} alert"
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}
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}
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}
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}
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----------------------------------------------------------------------
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// NOTCONSOLE
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For a script, you simply specify the inline script as the value of the `script`
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field. For example:
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[source,js]
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----------------------------------------------------------------------
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"condition" : {
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"script" : "return true"
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}
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----------------------------------------------------------------------
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// NOTCONSOLE
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You can also explicitly specify the inline type by using a formal object
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definition as the field value. For example:
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[source,js]
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----------------------------------------------------------------------
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"actions" : {
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"email_notification" : {
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"email" : {
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"subject" : {
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"source" : "{{ctx.metadata.color}} alert"
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}
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}
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}
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}
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----------------------------------------------------------------------
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// NOTCONSOLE
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The formal object definition for a script would be:
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[source,js]
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----------------------------------------------------------------------
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"condition" : {
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"script" : {
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"source": "return true"
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}
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}
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----------------------------------------------------------------------
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// NOTCONSOLE
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[float]
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[[stored-templates-scripts]]
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===== Stored templates and scripts
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If you <<modules-scripting-stored-scripts,store>>
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your templates and scripts, you can reference them by id.
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To reference a stored script or template, you use the formal object definition
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and specify its id in the `id` field. For example, the following snippet
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references the `email_notification_subject` template:
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[source,js]
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----------------------------------------------------------------------
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{
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...
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"actions" : {
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"email_notification" : {
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"email" : {
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"subject" : {
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"id" : "email_notification_subject",
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"params" : {
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"color" : "red"
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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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// NOTCONSOLE
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