Self-healing and auto-scaling with Heat, Mistral, Zaqar, Aodh

This use case describes an existing scenario for auto-scaling a self-healing cluster.

OpenStack projects used

  • Heat

  • Mistral

  • Zaqar

  • Telemetry (Aodh, Pinko, Gnocchi)

Remediation class

Reactive

Fault detection

The self-healing scenario detect failure like when any instance in cluster been delete, or updated out side of this automatic flow.

Inputs and decision-making

  • A cluster builder (Heat):

    You can use Heat to build cluster, managing resource dependancies, plan some flexibility with batch action, and also reproducable to another OpenStack environment with same template. Whatever you’re using for building cluster, you need to make sure it allow to your flow control service (Mistral) to trigger update and replace unhealthy node in cluster.

  • A monitoring service (Aodh):

    There are multiple choices for self-healing monitors to monitor that cluster and notify queue service; you can absolutely replace any monitoring service in this showcase and use your own existing services. Just make sure you’re able to monitoring nodes in cluster and able to send notification out when alarm triggered.

  • A queue service (Zaqar):

    A queue or any services that accept notification from alarm service and capable to trigger healing flow.

  • A triggerable flow control service (Mistral):

    A triggerable flow control service to run healing flow. Make sure your flow contains most cases. So we can guarantee that cluster is healed. Covering most successes and failure cases (as many as you can) is always a good idea.

We’re using Heat, Aodh, Zaqar, and Mistral in this example. You can always replace any service with your own services. Just make sure they’re fully integrated to each other for your healing scenario.

Remediation

In our example, for each unit in the cluster, we set up a Nova instance to run application on, binding that instance to a load-balancer so the application can use lbaas in its infrastructure.

For healing, we create multiple event alarms monitoring the status of that instance, a Zaqar queue for alarms to send notifications on, and a Zaqar MistralTrigger (a resource type in Heat to use Zaqar subscription to trigger Mistral workflow) to listen on that queue and trigger Mistral workflow to mark this unit as unhealthy and then use Heat stack update to replace unhealthy unit in cluster.

At this point you already got your structure for self-healing. As you can see in the example, we are monitoring events like compute.instance.delete.*. If you also use Aodh, please make sure the event you’re monitoring is enabled from services and ceilometer (be aware that some events are disabled by default).

The event alarm going to send a POST request to Zaqar queue if the instance status changed to delete. Again, it’s possible to use your own alarm services.

Once Zaqar queue gets that information, it will trigger a Mistral workflow. That workflow will mark that unit (in this case it’s a server with nginx) as unhealthy in Heat and trigger a stack update. Heat will replace all unhealthy unit and regenerate one for your cluster.

Existing implementation(s)

With ability to self-heal, you can (as we show in this case) combine with autoscaling ability. Also as you can notice, we use Heat container agent, so your image only need to support ability to run container (instead of pre-install services with diskimage-builder). Here is the example Heat template sample files. Also here’s link for relevant slides (with video link).

Future work

We need better support for scaling with some resources require trust. All further work is tracked in the story “Improve Autoscaling integration with Self-healing”. Also integration with Vitrage is work in progress tracked in the story “Achieve Self healing with Vitrage Mistral And Heat”.