This page shows how to deploy an application in your user cluster.
SSH into your admin workstation
SSH into your admin workstation:
ssh -i ~/.ssh/vsphere_workstation ubuntu@[IP_ADDRESS]
where [IP_ADDRESS] is the IP address of your admin workstation.
Do all of the remaining steps in this topic on your admin workstation.
Creating a Deployment
Here is a manifest for a Deployment:
apiVersion: apps/v1 kind: Deployment metadata: name: my-deployment spec: selector: matchLabels: app: metrics department: sales replicas: 3 template: metadata: labels: app: metrics department: sales spec: containers: - name: hello image: "gcr.io/google-samples/hello-app:2.0"
Copy the manifest to a file named my-deployment.yaml
, and create the
Deployment:
kubectl apply --kubeconfig [USER_CLUSTER_KUBECONFIG] -f my-deployment.yaml
where [USER_CLUSTER_KUBECONFIG] is the path of the kubeconfig file for your user cluster.
Get basic information about your Deployment:
kubectl --kubeconfig [USER_CLUSTER_KUBECONFIG] get deployment my-deployment
The output shows that the Deployment has three Pods that are all available:
NAME READY UP-TO-DATE AVAILABLE AGE my-deployment 3/3 3 3 27s
List the Pods in your Deployment:
kubectl --kubeconfig [USER_CLUSTER_KUBECONFIG] get pods
The output shows that your Deployment has three running Pods:
NAME READY STATUS RESTARTS AGE my-deployment-54944c8d55-4srm2 1/1 Running 0 6s my-deployment-54944c8d55-7z5nn 1/1 Running 0 6s my-deployment-54944c8d55-j62n9 1/1 Running 0 6s
Get detailed information about your Deployment:
kubectl --kubeconfig [USER_CLUSTER_KUBECONFIG] get deployment my-deployment --output yaml
The output shows details about the Deployment spec and status:
kind: Deployment metadata: ... generation: 1 name: my-deployment namespace: default ... spec: ... replicas: 3 revisionHistoryLimit: 10 selector: matchLabels: app: metrics department: sales ... spec: containers: - image: gcr.io/google-samples/hello-app:2.0 imagePullPolicy: IfNotPresent name: hello resources: {} terminationMessagePath: /dev/termination-log terminationMessagePolicy: File dnsPolicy: ClusterFirst restartPolicy: Always schedulerName: default-scheduler securityContext: {} terminationGracePeriodSeconds: 30 status: availableReplicas: 3 conditions: - lastTransitionTime: "2019-11-11T18:44:02Z" lastUpdateTime: "2019-11-11T18:44:02Z" message: Deployment has minimum availability. reason: MinimumReplicasAvailable status: "True" type: Available - lastTransitionTime: "2019-11-11T18:43:58Z" lastUpdateTime: "2019-11-11T18:44:02Z" message: ReplicaSet "my-deployment-54944c8d55" has successfully progressed. reason: NewReplicaSetAvailable status: "True" type: Progressing observedGeneration: 1 readyReplicas: 3 replicas: 3 updatedReplicas: 3
Describe your Deployment:
kubectl --kubeconfig [USER_CLUSTER_KUBECONFIG] describe deployment my-deployment
The output shows nicely formatted details about the Deployment, including the associated ReplicaSet:
Name: my-deployment Namespace: default CreationTimestamp: Mon, 11 Nov 2019 10:43:58 -0800 Labels:... Selector: app=metrics,department=sales Replicas: 3 desired | 3 updated | 3 total | 3 available | 0 unavailable StrategyType: RollingUpdate MinReadySeconds: 0 RollingUpdateStrategy: 25% max unavailable, 25% max surge Pod Template: Labels: app=metrics department=sales Containers: hello: Image: gcr.io/google-samples/hello-app:2.0 Port: Host Port: Environment: Mounts: Volumes: Conditions: Type Status Reason ---- ------ ------ Available True MinimumReplicasAvailable Progressing True NewReplicaSetAvailable OldReplicaSets: NewReplicaSet: my-deployment-54944c8d55 (3/3 replicas created)
Creating a Service of type LoadBalancer
One way to expose your Deployment to clients outside your cluster is to create
a Kubernetes Service of type
LoadBalancer
.
Here's a manifest for a Service of type LoadBalancer
:
apiVersion: v1 kind: Service metadata: name: my-service spec: selector: app: metrics department: sales type: LoadBalancer loadBalancerIP: [SERVICE_IP_ADDRESS] ports: - port: 80 targetPort: 8080
For the purpose of this exercise, these are the important things to understand about the Service:
Any Pod that has the label
app: metrics
and the labeldepartment: sales
is a member of the Service. Note that the Pods inmy-deployment
have these labels.When a client sends a request to the Service on TCP port 80, the request is forwarded to a member Pod on TCP port 8080.
Every member Pod must have a container that is listening on TCP port 8080.
It happens that by default, the hello-app
container listens on TCP port
8080. You can see this by looking at the
Dockerfile and the source code
for the app.
Replace [SERVICE_IP_ADDRESS] with an address that you own that is not already in use. For example, you could set this to a public IP address that your company owns. Or you could set it to a private address in your company network.
The address you choose must be routable from the location of any client that sends requests to the Service. For example, if you choose a private address, then external clients will not be able to send requests to the Service.
Save the manifest to a file named my-service.yaml
, and create the Service:
kubectl --kubeconfig [USER_CLUSTER_KUBECONFIG] apply -f my-service.yaml
where [USER_CLUSTER_KUBECONFIG] is the path of your user cluster's kubeconfig file.
When you create the Service, GKE on-prem automatically configures the
loadBalancerIP
address on your F5 BIG-IP load balancer.
View your Service:
kubectl --kubeconfig [USER_CLUSTER_KUBECONFIG] get service my-service --output yaml
The output is similar to this:
apiVersion: v1 kind: Service metadata: ... name: my-service namespace: default ... spec: clusterIP: 10.107.84.202 externalTrafficPolicy: Cluster loadBalancerIP: 203.0.113.1 ports: - nodePort: 31919 port: 80 protocol: TCP targetPort: 8080 selector: app: metrics department: sales sessionAffinity: None type: LoadBalancer status: loadBalancer: ingress: - ip: 203.0.113.1
In the preceding output, you can see that your Service has a clusterIP
, and
a loadBalancerIP
. It also has a nodePort
, a port
, and a targetPort
.
The clusterIP
is not relevant to this exercise. The loadBalancerIP
is the
IP address that you provided in my-service.yaml
.
As an example, take the values shown in the preceding output. That is, suppose
your Service has loadBalancerIP
= 203.0.113.1, port
= 80,
nodePort
= 31919, and targetPort
= 8080.
A client sends a request to 203.0.113.1 on TCP port 80. The request gets routed to your F5 BIG-IP load balancer. The load balancer chooses one of your user cluster nodes, and forwards the request to [NODE_ADDRESS] on TCP port 31919. The iptables rules on the node forward the request to a member Pod on TCP port 8080.
Call your Service:
curl [SERVICE_IP_ADDRESS]
where [SERVICE_IP_ADDRESS] is the address that you specified for
loadBalancerIP
.
The output shows a Hello, world!
message:
curl 21.0.133.48 Hello, world! Version: 2.0.0 Hostname: my-deployment-dbd86c8c4-9wpbv
Deleting your Service
Delete your Service:
kubectl --kubeconfig [USER_CLUSTER_KUBECONFIG] delete service my-service
Verify that your Service has been deleted:
kubectl --kubeconfig [USER_CLUSTER_KUBECONFIG] get services
The output no longer shows my-service
.
Deleting your Deployment
Delete your Deployment:
kubectl --kubeconfig [USER_CLUSTER_KUBECONFIG] delete deployment my-deployment
Verify that your Deployment has been deleted:
kubectl --kubeconfig [USER_CLUSTER_KUBECONFIG] get deployments
The output no longer shows my-deployment
.