Spring Boot is a microservice-building Java-based open source framework. It was created by Pivotal Team and is used to create spring applications that are ready for production and stand-alone use. You will be introduced to Spring Boot and familiarized with its fundamental concepts in this chapter.
Kubernetes is a powerful Platform as a Service that enables you to manage a cluster of nodes that run the Linux operating system. Kubernetes can be used to manage a variety of applications, including web applications, database and more.
Details about the Kubernetes components
- API Server – Intract with kubectl command utility, Primary component, Authorization work.
- Controller Manager – Replica controller, Node Controller maintainer the define pods and nodes.
- Scheduler – Matain proper balacing of hardware utilization and assign new pods to sutable workder node as per ranking.
- ECTD – Database its store the data using key and value form format.
- Kubelet – Pod moniotr, Pod creation and deletation.
- Kube-proxy – Pods communication between 2 nodes, Network related rules manages by kube-proxy.
In this post, We will deploy Spring Boot application on Kubernetes cluster.
Step 1: Write a Deployment YAML
To deploy the Spring Boot docker container in K8s, you can use the provided code by creating a deployment YAML file with the name
and paste the following code.
apiVersion: apps/v1 kind: Deployment metadata: name: spring-boot labels: app: spring-boot spec: replicas: 1 selector: matchLabels: app: spring-boot template: metadata: labels: app: spring-boot spec: containers: - name: spring-boot image: <your-image-url> ports: - containerPort: 8080
Take a look at the above YAML configuration:
apiVersion: Define the Kubernetes API in order to create objects.
kind: specify the type of object you intend to create.
metadata: define the object name ( including a name string, uniquely identifying the object, the UID, and an optional namespace ).
spec: Define the state of objects.
selector: specify the mapping between deployment and managed pods.
We need to save and exit from text editor, Our deployment YAML is ready Lets deploy the Spring Boot pod on K8s cluster.
Step 2: Create a Deployment
We need to execute the following command to deploy the Spring boot pods which is container node image.
kubectl create -f spring-boot-deployment.yaml
You will get success message for the Spring Boot deployment on your screen.
We will get a single pod of the Spring Boot image and, according to the Dockerfile configuration, Spring Boot application will be up and running on port 8080.
Step 3: Let’s Verify the Deployment
We need to execute the given command to see pods and running or not.
To Validate the pod.
kubectl get pods
To check deployment.
kubectl get deployment
Step 4: Create a Service
We need to create a
spring-boot-service.yaml file in order access tomcat server, Create a
spring-boot-service.yaml file with following code.
To create a service.yaml file
Paste the following code.
apiVersion: v1 kind: Service metadata: name: spring-boot-service spec: selector: app: spring-boot type: NodePort ports: - protocol: TCP port: 8080 targetPort: 20453
The Kubernetes service section: K8s services allow network access to the set of pods.
port: Define the application’s port inside the Docker container.
nodePort: The port number to use to connect to the base machine.
protocol: define a network layer type like TCP/UDP, To communicate with the network.
selector: To know and identify the deployment-created objects.
Save and close the text editor. As per our service configuration, we define port 8080 to access the Spring Boot app, which is mapped with a label like
app: spring-boot, We are using NodePort to access the Spring Boot app server on each node using port 20453.
Step 5: Deploy Service
We need to execute the given command to deploy the spring-boot-service on K8s cluster.
kubectl create -f spring-boot-service.yaml
We should get a success message on the screen, To check the service status for node, execute the given command.
To get service status.
kubectl get svc
Here we can see that NodePort assigned the ramdon port to access the node app on each node
Note: If you are using minikube So you need to use the given command to expose the total url to access your kubernets application.
minikube service spring-boot-service --url
Click here to get apache deployment process step by step on kubernetes cluster.
We have successfully deploy Spring Boot application on kubernetes cluster in a simple way, If you still have questions, please post them in the comments section below.