Helm is a package manager for Kubernetes resources. Helm allows us to install a set of components by just referencing a package name and it allows us to override configurations to accommodate these packages to different scenarios. Helm also provide dependency management between charts, meaning that charts can depend on other charts allowing us to aggregate a set of components together that can be installed with a single command.
As part of the Zeebe project, we are providing 3 Zeebe Helm Charts:
- Zeebe Cluster: Deploys a Zeebe Cluster with 3 brokers using the camunda/zeebe docker image. This Chart depends on ElasticSearch Helm Chart and optionally on Kibana Helm Chart. This chart is hosted in the following repository, where you can find more information about its configuration: http://github.com/zeebe-io/zeebe-cluster-helm/
- Zeebe Operate: Deploys Zeebe Operate which connects to an existing ElasticSearch. This chart source code can be located here: http://github.com/zeebe-io/zeebe-operate-helm/
- Zeebe Full (Parent): Deploys a Zeebe Cluster + Operate + Ingress Controller. This parent chart can be located here: http://github.com/zeebe-io/zeebe-full-helm/
You need to have
kubectl already configured against a Kubernetes Cluster to install Helm (server side/tiller) into your cluster.
Here you can download the helm-service-account-role.yaml file
You also need to have the
helm CLI tool installed as listed in the prerequisites section.
This install Helm server side components in your cluster and it will enable the
helm cli tool to install Helm Charts into your environment.
The next step is to add the Zeebe official Helm Chart repository to your installation. Once this is done, Helm will be able to fetch and install Charts hosted in http://helm.zeebe.io.
Once this is done, we are ready to install any of the Helm Charts hosted in the official Zeebe Helm Chart repo.
In this section we are going to install all the available Zeebe components inside a Kubernetes Cluster. Notice that this Kubernetes cluster can have already running services and Zeebe is going to installed just as another set of services.
Note: change >RELEASE NAME< with a name of your choice Notice that you can add the
-nflag to specify in which Kubernetes namespace the components should be installed.
Installing all the components in a cluster requires all the Docker images to be downloaded to the remote cluster, depending on which Cloud Provider you are using, the amount of time that it will take to fetch all the images will vary.
If you are using Kubernetes KIND add
kind-values.yamlfile can be downloaded here.helm install --name <RELEASE NAME> zeebe/zeebe-full -f kind-values.yaml
This will deploy the same components but with a set of parameters tailored to a local environment setup.
Note that all the Docker images will be downloaded to your local KIND cluster, so it might take some time for the services to get started.
You can check the progress of your deployment by checking if the Kubernetes PODs are up and running with:
which returns something like:
Check that each Pod has at least 1/1 running instances. You can always tail the logs of these pods by running:
In order to interact with the services inside the cluster you need to use
port-forward to route traffic from your environment to the cluster.
Now you can connect and execute operations against your newly created Zeebe cluster.
Notice that you need to keep
port-forwardrunning to be able to communicate with the remote cluster.
Notice that accessing directly to the Zeebe Cluster using
kubectl port-forwardis recommended for development purposes. By default the Zeebe Helm Charts are not exposing the Zeebe Cluster via Ingress. If you want to uze
zbctlor a local client/worker from outside the Kubernetes Cluster, you rely on
kubectl port-forwardto the Zeebe Cluster to communicate.