IMPORTANT: No additional bug fixes or documentation updates
will be released for this version. For the latest information, see the
current release documentation.
Scale and performance
editScale and performance
editKibana alerting run both alert checks and actions as persistent background tasks. This has two major benefits:
- Persistence: all task state and scheduling is stored in Elasticsearch, so if Kibana is restarted, alerts and actions will pick up where they left off.
- Scaling: multiple Kibana instances can read from and update the same task queue in Elasticsearch, allowing the alerting and action load to be distributed across instances. In cases where a Kibana instance no longer has capacity to run alert checks or actions, capacity can be increased by adding additional Kibana instances.
Running background alert checks and actions
editKibana background tasks are managed by:
- Polling an Elasticsearch task index for overdue tasks at 3 second intervals.
- Tasks are then claiming them by updating them in the Elasticsearch index, using optimistic concurrency control to prevent conflicts. Each Kibana instance can run a maximum of 10 concurrent tasks, so a maximum of 10 tasks are claimed each interval.
- Tasks are run on the Kibana server.
- In the case of alerts which are recurring background checks, upon completion the task is scheduled again according to the check interval.
Because tasks are polled at 3 second intervals and only 10 tasks can run concurrently per Kibana instance, it is possible for alert and action tasks to be run late. This can happen if:
- Alerts use a small check interval. The lowest interval possible is 3 seconds, though intervals of 30 seconds or higher are recommended.
- Many alerts or actions must be run at once. In this case pending tasks will queue in Elasticsearch, and be pulled 10 at a time from the queue at 3 second intervals.
- Long running tasks occupy slots for an extended time, leaving fewer slots for other tasks.