Azure Functions on Kubernetes with KEDA
The Azure Functions runtime provides flexibility in hosting where and how you want. KEDA (Kubernetes-based Event Driven Autoscaling) pairs seamlessly with the Azure Functions runtime and tooling to provide event driven scale in Kubernetes.
How Kubernetes-based functions work
The Azure Functions service is made up of two key components: a runtime and a scale controller. The Functions runtime runs and executes your code. The runtime includes logic on how to trigger, log, and manage function executions. The Azure Functions runtime can run anywhere. The other component is a scale controller. The scale controller monitors the rate of events that are targeting your function, and proactively scales the number of instances running your app. To learn more, see Azure Functions scale and hosting.
Kubernetes-based Functions provides the Functions runtime in a Docker container with event-driven scaling through KEDA. KEDA can scale in to 0 instances (when no events are occurring) and out to n instances. It does this by exposing custom metrics for the Kubernetes autoscaler (Horizontal Pod Autoscaler). Using Functions containers with KEDA makes it possible to replicate serverless function capabilities in any Kubernetes cluster. These functions can also be deployed using Azure Kubernetes Services (AKS) virtual nodes feature for serverless infrastructure.
Managing KEDA and functions in Kubernetes
To run Functions on your Kubernetes cluster, you must install the KEDA component. You can install this component in one of the following ways:
Azure Functions Core Tools: using the
func kubernetes installcommand.
Helm: there are various ways to install KEDA in any Kubernetes cluster, including Helm. Deployment options are documented on the KEDA site.
Deploying a function app to Kubernetes
You can deploy any function app to a Kubernetes cluster running KEDA. Since your functions run in a Docker container, your project needs a Dockerfile. You can create a Dockerfile by using the
--docker option when calling
func init to create the project. If you forgot to do this, you can always call
func init again from the root of your Functions project, this time using the
--docker-only option, as shown in the following example.
func init --docker-only
To learn more about Dockerfile generation, see the
func init reference.
To build an image and deploy your functions to Kubernetes, run the following command:
func kubernetes deploy --name <name-of-function-deployment> --registry <container-registry-username>
In this example, replace
<name-of-function-deployment> with the name of your function app.
The deploy command does the following:
- The Dockerfile created earlier is used to build a local image for the function app.
- The local image is tagged and pushed to the container registry where the user is logged in.
- A manifest is created and applied to the cluster that defines a Kubernetes
Secrets, which includes environment variables imported from your
To learn more, see the
func kubernetes deploy command.
Deploying a function app from a private registry
The above flow works for private registries as well. If you are pulling your container image from a private registry, include the
--pull-secret flag that references the Kubernetes secret holding the private registry credentials when running
func kubernetes deploy.
Removing a function app from Kubernetes
After deploying you can remove a function by removing the associated
kubectl delete deploy <name-of-function-deployment> kubectl delete ScaledObject <name-of-function-deployment> kubectl delete secret <name-of-function-deployment>
Uninstalling KEDA from Kubernetes
You can remove KEDA from your cluster in one of the following ways:
Azure Functions Core Tools: using the
func kubernetes removecommand.
Helm: see the uninstall steps on the KEDA site.
Supported triggers in KEDA
KEDA has support for the following Azure Function triggers:
HTTP Trigger support
You can use Azure Functions that expose HTTP triggers, but KEDA doesn't directly manage them. You can leverage the KEDA prometheus trigger to scale HTTP Azure Functions from 1 to n instances.
For more information, see the following resources:
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