The Open Distro for Elasticsearch Alerting enables you to monitor your data and send alert notifications automatically to your stakeholders. With an intuitive Kibana interface and a powerful API, it is easy to set up, manage, and monitor your alerts. Craft highly specific alert conditions using Elasticsearch's full query language and scripting capabilities.
Scheduled searches use cron expressions or intervals (e.g. every five minutes) and the Elasticsearch query DSL.
To define trigger conditions, use the Painless scripting language or simple thresholds (e.g. count > 100).
When trigger conditions are met, you can publish messages to the following destinations:
- Slack
- Custom webhook
- Amazon Chime
Messages can be static strings, or you can use the Mustache templates to include contextual information.
Please see our documentation.
- Check out this package from version control.
- Launch Intellij IDEA, choose Import Project, and select the
settings.gradle
file in the root of this package. - To build from the command line, set
JAVA_HOME
to point to a JDK >= 12 before running./gradlew
.
This package is organized into subprojects, most of which contribute JARs to the top-level plugin in the alerting
subproject.
All subprojects in this package use the Gradle build system. Gradle comes with excellent documentation that should be your first stop when trying to figure out how to operate or modify the build.
However, to build the alerting
plugin subproject, we also use the Elastic build tools for Gradle. These tools are idiosyncratic and don't always follow the conventions and instructions for building regular Java code using Gradle. Not everything in alerting
will work the way it's described in the Gradle documentation. If you encounter such a situation, the Elastic build tools source code is your best bet for figuring out what's going on.
./gradlew build
builds and tests all subprojects../gradlew :alerting:run
launches a single node cluster with the alerting plugin installed../gradlew :alerting:run -PnumNodes=3
launches a multi-node cluster with the alerting plugin installed../gradlew :alerting:integTest
launches a single node cluster with the alerting plugin installed and runs all integ tests../gradlew :alerting:integTest -PnumNodes=3
launches a multi-node cluster with the alerting plugin installed and runs all integ tests../gradlew :alerting:integTest -Dtests.class="*MonitorRunnerIT"
runs a single integ test class./gradlew :alerting:integTest -Dtests.method="test execute monitor with dryrun"
runs a single integ test method (remember to quote the test method name if it contains spaces).
When launching a cluster using one of the above commands, logs are placed in alerting/build/testclusters/integTest-0/logs/
. Though the logs are teed to the console, in practices it's best to check the actual log file.
Sometimes it's useful to attach a debugger to either the Elasticsearch cluster or the integ tests to see what's going on. When running unit tests, hit Debug from the IDE's gutter to debug the tests. You must start your debugger to listen for remote JVM before running the below commands.
To debug code running in an actual server, run:
./gradlew :alerting:integTest -Des.debug # to start a cluster and run integ tests
OR
./gradlew :alerting:run --debug-jvm # to just start a cluster that can be debugged
The Elasticsearch server JVM will launch suspended and wait for a debugger to attach to localhost:5005
before starting the Elasticsearch server.
The IDE needs to listen for the remote JVM. If using Intellij you must set your debug configuration to "Listen to remote JVM" and make sure "Auto Restart" is checked.
You must start your debugger to listen for remote JVM before running the commands.
To debug code running in an integ test (which exercises the server from a separate JVM), run:
./gradlew -Dtest.debug :alerting:integTest
The test runner JVM will start suspended and wait for a debugger to attach to localhost:5005
before running the tests.
Sometimes you need to launch a cluster with more than one Elasticsearch server process.
You can do this by running ./gradlew :alerting:run -PnumNodes=<numberOfNodesYouWant>
You can also run the integration tests against a multi-node cluster by running ./gradlew :alerting:integTest -PnumNodes=<numberOfNodesYouWant>
You can also debug a multi-node cluster, by using a combination of above multi-node and debug steps.
But, you must set up debugger configurations to listen on each port starting from 5005
and increasing by 1 for each node.
This project has adopted an Open Source Code of Conduct.
If you discover a potential security issue in this project we ask that you notify AWS/Amazon Security via our vulnerability reporting page. Please do not create a public GitHub issue.
See the LICENSE file for our project's licensing. We will ask you to confirm the licensing of your contribution.
Copyright 2019 Amazon.com, Inc. or its affiliates. All Rights Reserved.