Exposing an External IP Address to Access an Application in a Cluster
This page shows how to create a Kubernetes Service object that exposes an external IP address.
Before you begin
- Install kubectl.
- Use a cloud provider like Google Kubernetes Engine or Amazon Web Services to create a Kubernetes cluster. This tutorial creates an external load balancer, which requires a cloud provider.
- Configure
kubectl
to communicate with your Kubernetes API server. For instructions, see the documentation for your cloud provider.
Objectives
- Run five instances of a Hello World application.
- Create a Service object that exposes an external IP address.
- Use the Service object to access the running application.
Creating a service for an application running in five pods
Run a Hello World application in your cluster:
apiVersion: apps/v1 kind: Deployment metadata: labels: app.kubernetes.io/name: load-balancer-example name: hello-world spec: replicas: 5 selector: matchLabels: app.kubernetes.io/name: load-balancer-example template: metadata: labels: app.kubernetes.io/name: load-balancer-example spec: containers: - image: gcr.io/google-samples/node-hello:1.0 name: hello-world ports: - containerPort: 8080
kubectl apply -f https://k8s.io/examples/service/load-balancer-example.yaml
The preceding command creates a Deployment and an associated ReplicaSet. The ReplicaSet has five Pods each of which runs the Hello World application.
Display information about the Deployment:
kubectl get deployments hello-world kubectl describe deployments hello-world
Display information about your ReplicaSet objects:
kubectl get replicasets kubectl describe replicasets
Create a Service object that exposes the deployment:
kubectl expose deployment hello-world --type=LoadBalancer --name=my-service
Display information about the Service:
kubectl get services my-service
The output is similar to:
NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE my-service LoadBalancer 10.3.245.137 104.198.205.71 8080/TCP 54s
Note: Thetype=LoadBalancer
service is backed by external cloud providers, which is not covered in this example, please refer to this page for the details.Note: If the external IP address is shown as <pending>, wait for a minute and enter the same command again.Display detailed information about the Service:
kubectl describe services my-service
The output is similar to:
Name: my-service Namespace: default Labels: app.kubernetes.io/name=load-balancer-example Annotations: <none> Selector: app.kubernetes.io/name=load-balancer-example Type: LoadBalancer IP: 10.3.245.137 LoadBalancer Ingress: 104.198.205.71 Port: <unset> 8080/TCP NodePort: <unset> 32377/TCP Endpoints: 10.0.0.6:8080,10.0.1.6:8080,10.0.1.7:8080 + 2 more... Session Affinity: None Events: <none>
Make a note of the external IP address (
LoadBalancer Ingress
) exposed by your service. In this example, the external IP address is 104.198.205.71. Also note the value ofPort
andNodePort
. In this example, thePort
is 8080 and theNodePort
is 32377.In the preceding output, you can see that the service has several endpoints: 10.0.0.6:8080,10.0.1.6:8080,10.0.1.7:8080 + 2 more. These are internal addresses of the pods that are running the Hello World application. To verify these are pod addresses, enter this command:
kubectl get pods --output=wide
The output is similar to:
NAME ... IP NODE hello-world-2895499144-1jaz9 ... 10.0.1.6 gke-cluster-1-default-pool-e0b8d269-1afc hello-world-2895499144-2e5uh ... 10.0.1.8 gke-cluster-1-default-pool-e0b8d269-1afc hello-world-2895499144-9m4h1 ... 10.0.0.6 gke-cluster-1-default-pool-e0b8d269-5v7a hello-world-2895499144-o4z13 ... 10.0.1.7 gke-cluster-1-default-pool-e0b8d269-1afc hello-world-2895499144-segjf ... 10.0.2.5 gke-cluster-1-default-pool-e0b8d269-cpuc
Use the external IP address (
LoadBalancer Ingress
) to access the Hello World application:curl http://<external-ip>:<port>
where
<external-ip>
is the external IP address (LoadBalancer Ingress
) of your Service, and<port>
is the value ofPort
in your Service description. If you are using minikube, typingminikube service my-service
will automatically open the Hello World application in a browser.The response to a successful request is a hello message:
Hello Kubernetes!
Cleaning up
To delete the Service, enter this command:
kubectl delete services my-service
To delete the Deployment, the ReplicaSet, and the Pods that are running the Hello World application, enter this command:
kubectl delete deployment hello-world
What's next
Learn more about connecting applications with services.