[role="xpack"] [[customizing-watches]] == Customizing watches Now that you've seen how to set up simple watches to <> and <>, let's take a closer look at how you can customize a watch by modifying its <>, <>, <>, and <>. [[changing-inputs]] === Changing inputs The Watch Input is called when the watch triggered to load an initial payload. This payload is stored in the _Watch Execution Context_ and from then on is available for other watch elements to access (e.g. watch conditions can be evaluated based on the data in this payload). {watcher} supports four types of inputs <>, <>, <>, and <>. [[loading-static-data]] ==== Loading a static payload with the simple input To load static data into the watch payload for testing purposes, you can use the <> input. For example, the following input stores three fields in the payload: [source,js] ------------------------------------- "input" : { "simple" : { "color" : "red", "status" : "error", "count" : 3 } } ------------------------------------- // NOTCONSOLE See <> for more details. [[loading-search-results]] ==== Loading a payload from Elasticsearch with the search input You can use the `search` input to load Elasticsearch search results as the watch initial payload. A <> input contains a `request` object that specifies the indices you want to search, the <>, and the search request body. The `body` field of a search input is the same as the body of an Elasticsearch `_search` request, making the full Elasticsearch Query DSL available for you to use. For example, the following `search` input loads the latest VIX quote: [source,js] -------------------------------------------------- { "input" : { "search" : { "request" : { "indices" : [ "" ], <1> "body" : { "size" : 1, "sort" : { "timestamp" : { "order" : "desc"} }, "query" : { "term" : { "symbol" : "vix"} } } } } } } -------------------------------------------------- // NOTCONSOLE <1> Will resolve to today's daily quotes index See <> for more details. [[loading-http-data]] ==== Loading a payload from a remote HTTP service with HTTP input Use the `http` input to issue an HTTP request and load the returned response as the watch initial payload. This input expects the response body content type to either be JSON or YAML. For example, the following `http` input loads the current weather forecast for Amsterdam using http://openweathermap.org/appid[OpenWeatherMap] online service: [source,js] -------------------------------------------------- { "input" : { "http" : { "request" : { "url" : "http://api.openweathermap.org/data/2.5/weather", "params" : { "lat" : "52.374031", "lon" : "4.88969", "appid" : "" } } } } } -------------------------------------------------- // NOTCONSOLE See <> for more details. [[chaining-inputs]] ==== Chaining inputs You can create an <> to load data from multiple sources into a watch payload. The inputs in a chain are processed in order, so the the data loaded by one input can be used by subsequent inputs. See <> for more details. [[changing-conditions]] === Changing conditions The Watch Condition is evaluated as part of the watch execution. The condition determines whether the actions associated with the watch should execute or not. {watcher} supports four types of conditions <>, <>, <>, and <>. The first two are pretty self-explanatory--they are shortcuts for setting a watch's condition to `true` or `false`. ==== Simple value comparison with the compare condition The `compare` condition enables you to perform simple comparisons against values in the Watch payload. While you can also do this with a `script` condition, with `compare` you can define inline comparisons without having to enable dynamic scripting. For example, the following compare condition checks to see if the `search` input returned any hits: [source,js] -------------------------------------------------- "condition" : { "compare" : { "ctx.payload.hits.total.value" : { "gt" : 0 }} }, -------------------------------------------------- // NOTCONSOLE See <> for more details. ==== Powerful comparison logic with the script condition For more complex conditional logic you can use the `script` condition. The `script` condition accepts a script that when executed returns `true` (indicating the condition is met) or `false` (indicating the condition is not met). The script language defaults to the default script language in Elasticsearch, but you can also use any other supported language in the system. NOTE: Starting with 5.0, Elasticsearch is shipped with the new <> scripting language. Painless was created and designed specifically for use in Elasticsearch. Beyond providing an extensive feature set, its biggest trait is that it's properly sandboxed and safe to use anywhere in the system (including in {watcher}) without the need to enable dynamic scripting. For example, the following `script` condition checks if the change in the latest VIX quote loaded by the `http` input is either greater than 5% or lower than -5%: [source,js] -------------------------------------------------- "condition" : { "script" : { "source" : "Math.abs(ctx.payload.hits.hits[0]._source.ChangePercent) > 5", "lang" : "painless" } } -------------------------------------------------- // NOTCONSOLE See <> for more details. [[using-transforms]] === Using transforms Transforms are constructs in a watch that can change the current payload associated with the watch execution context. {watcher} supports three types of transforms <>, <> and <>. A `search` transform replaces the existing payload with the response of a new search request. You can use `script` transforms to modify the existing payload. A `chain` transform enables you to perform a series of `search` and `script` transforms. See <> for more details. [[customizing-actions]] === Customizing actions Actions are associated with a watch and are executed as part of the watch execution only when the watch condition is met. {watcher} supports the following action types: <>, <>, <>, <>, <>, and <>. To use the `email` action, you need to <> in `elasticsearch.yml` that {watcher} can use to send email. Your custom email messages can be plain text or styled using HTML. You can include information from the watch execution payload using <>, as well as attach the entire watch payload to the message. For example, the following email action uses a template in the email body and attaches the payload data to the message: [source,js] -------------------------------------------------- "actions" : { "send_email" : { <1> "email" : { <2> "to" : "email@example.org", "subject" : "Watcher Notification", "body" : "{{ctx.payload.hits.total.value}} error logs found", "attachments" : { "data_attachment" : { "data" : { "format" : "json" } } } } } } -------------------------------------------------- // NOTCONSOLE <1> The id of the action <2> The action type, in this case it's an `email` action Another example for an action is the `webhook` action. This enables you to send a request to any external webservice. For example, the following `webhook` action creates a new issue in GitHub [source,js] -------------------------------------------------- "actions" : { "create_github_issue" : { "webhook" : { "method" : "POST", "url" : "https://api.github.com/repos///issues", <1> "body" : "{ \"title\": \"Found errors in 'contact.html'\", \"body\": \"Found {{ctx.payload.hits.total.value}} errors in this page in the last 5 minutes\", \"assignee\": \"web-admin\", \"labels\": [ \"bug\", \"sev2\" ] }", "auth" : { "basic" : { "username" : "", <2> "password" : "" <3> } } } } } -------------------------------------------------- // NOTCONSOLE <1> `` is the owner of the GitHub repo and `` is the name of the repo. <2> The username that creates the issue <3> The password of that user To learn how to create other actions see <>.