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Deploying Verrazzano on Oracle Container Engine for Kubernetes (OKE)

Oracle recently released Verrazzano, an “end-to-end container platform to deploy cloud native and traditional applications in multi-cloud and hybrid environments.” If that’s a lot to take in, it’s because Verrazzano, (v8o for short) packs a lot. In this post, we will explore deploying Verrazzano on OKE (Oracle Container Engine).

Author: Ali Mukadam


About Ali Mukadam

Technical Director, Asia Pacific Center of Excellence. For the past 16 years, Ali has held technical presales, architect and industry consulting roles in BEA Systems and Oracle across Asia Pacific, focusing on middleware and application development. Although he pretends to be Thor, his real areas of expertise are Application Development, Integration, SOA (Service Oriented Architecture) and BPM (Business Process Management). An early and worthy Docker and Kubernetes adopter, Ali also leads a few open source projects (namely terraform-oci-oke) aimed at facilitating the adoption of Kubernetes and other cloud native technologies on Oracle Cloud Infrastructure.

More tutorials from this author:
Deploying the Argo CD on Oracle Container Engine for Kubernetes (OKE)


open-source oke kubernetes terraform devops

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Verrazzano Logo

Oracle recently released Verrazzano, an “end-to-end container platform to deploy cloud native and traditional applications in multi-cloud and hybrid environments.” If that’s a lot to take in, it’s because Verrazzano, (v8o for short) packs a lot. In this post, we will explore deploying Verrazzano on Oracle Container Engine (OKE).

The single cluster deployment model is easy:

  • Create a Kubernetes cluster
  • Install the Verrazzano platform operator
  • Install Verrazzano

After this, you can deploy your application of choice.

Creating the OKE cluster

We will start by creating the OKE cluster using Terraform OKE module. Since we are only taking Verrazzano for a spin, we only need the bare minimum features. Follow the quickstart guide, create the providers and create a copy of the terraform.tfvars.example and rename the copy to terraform.tfvars. Ensure the following features/resources are enabled/created:

create_bastion_host = true

            bastion_access = ["anywhere"]
            create_operator                    = true
            enable_operator_instance_principal = true
            node_pools = {
              np1 = { shape = "VM.Standard.E4.Flex", ocpus = 2, memory = 32, node_pool_size = 2, boot_volume_size = 150}

Follow the rest of the quickstart to run terraform init and apply.

Once the cluster is created, use the convenient output to copy the command to ssh to the operator host:

ssh_to_operator = "ssh -i ~/.ssh/id_rsa -J opc@"


From here onwards, all kubectl commands are executed on the operator host.

Installing the Verrazzano operator

Let’s first install the Verrazzano operator:

$ kubectl apply -f


and wait for the deployment to complete:

$ kubectl -n verrazzano-install rollout status deployment/verrazzano-platform-operator

            Waiting for deployment "verrazzano-platform-operator" rollout to finish: 0 of 1 updated replicas are available...

Give it a couple of minutes and the operator should have deployed by then. Verify that the operator is running:

$ kubectl -n verrazzano-install get pods

            NAME                                            READY   STATUS    RESTARTS   AGE
            verrazzano-platform-operator-5f788568fd-w8cz7   1/1     Running   0          80s

Installing Verrazzano

We can now install Verrazzano. We will use the dev profile for this exercise:

$ kubectl apply -f - <<EOF

            kind: Verrazzano
              name: hello-verrazzano
              profile: dev

We need to wait for Verrazzano to install:

$ kubectl wait \

                --timeout=20m \
                --for=condition=InstallComplete \

Accessing Verrazzano

In order to access Verrazzano, you need to get the console URL:

$ kubectl get vz -o yaml


You will get a list of URLs printed. For example, my Verrazzano console URL is

Access this url in your browser and you will be prompted to login:

Verrazzano Login Screen

The username is verrazzano and you can obtain the password by issuing the following command:

$ kubectl get secret \

                --namespace verrazzano-system verrazzano \
                -o jsonpath={.data.password} | base64 \
                --decode; echo

You should now be able to access the Verrazzano console:

Verrazzano Console

Deploy an application to Verrazzano

We will deploy the hello-helidon application. First, create a namespace:

$ kubectl create namespace hello-helidon


and add labels to identify the namespace as managed by Verrazzano and enabled for Istio:

$ kubectl label namespace hello-helidon verrazzano-managed=true istio-injection=enabled


Next, deploy the Verrazzano component:

$ kubectl apply -f


Then create the Application Configuration:

$ kubectl apply -f


You can now get the name of your pod:

$ kubectl get pods -n hello-helidon

            NAME                                        READY   STATUS    RESTARTS   AGEhello-helidon-deployment-54979d7d74-6c9nw   1/1     Running   0          2m18s

And check if the application is ready:

$ kubectl waittimeout=300s — for=condition=Ready -n hello-helidon pod/hello-helidon-deployment-54979d7d74–6c9nw

            pod/hello-helidon-deployment-54979d7d74-6c9nw condition met

Lookup the hostname of the load balancer:

$ HOST=$(kubectl get gateway hello-helidon-hello-helidon-appconf-gw \

                -n hello-helidon \
                -o jsonpath='

You can then test the application:

$ curl -sk \

                -X GET \

This should return you the following:

{"message":"Hello World!"}



Now, that we’ve got our application running and accessible, we want to also look at its logs and metrics. Verrazzano has got you covered in the form of the ELK stack for logging and the combination of Prometheus and Grafana for metrics and performance monitoring.

Let’s look at Grafana first. On the main page of the Verrazzano console, you will see a link to Grafana. You can use the same combination of username and password you used to log into Grafana. Once logged in, click on “Home” and select the “Helidon Monitoring Dashboard”:


Similarly, access the Kibana dashboard and click on Visualize icon in the left menu. You will be prompted to create an index pattern. Select the verrazzano* and follow the wizard to add the index pattern. Search for hello-helidon and you should be able to see the following:


From here, you can create your own visualizations and dashboards.

What if we want to peek at the Kubernetes cluster itself? Again, Verrazzano has got you covered. From the Verrazzano console, locate the link to Rancher and click on it. The default username is “admin” and you can retrieve the password as follows:

$ kubectl get secret \

                --namespace cattle-system rancher-admin-secret \
                -o jsonpath={.data.password} | base64 \
                --decode; echo

Once logged in, you will land on the cluster page and you will see an Explorer button. Click on it and you will be able to view your Kubernetes cluster:



Verrazzano packs a nice set of capabilities that helps you with the operational side of of Kubernetes. From monitoring to logging and security, there is a lot productivity that a Kubernetes or an application administrator can gain.

I hope you find this article helpful. In future, we will explore other features of Verrazzano, including multi-cluster deployment and network security among others.