README.md

1. Run the application locally:

   ```shell
   ./mvnw package && java -jar target/helloworld-0.0.1-SNAPSHOT.jar
   ```

   Go to `http://localhost:8080/` to see your `Hello World!` message.

1. In your project directory, create a file named `Dockerfile` and copy the code
   block below into it. For detailed instructions on dockerizing a Spring Boot
   app, see
   [Spring Boot with Docker](https://spring.io/guides/gs/spring-boot-docker/).
   For additional information on multi-stage docker builds for Java see
   [Creating Smaller Java Image using Docker Multi-stage Build](http://blog.arungupta.me/smaller-java-image-docker-multi-stage-build/).

   ```docker
   # Use the official maven/Java 8 image to create a build artifact.
   # https://hub.docker.com/_/maven
   FROM maven:3.5-jdk-8-alpine as builder

   # Copy local code to the container image.
   WORKDIR /app
   COPY pom.xml .
   COPY src ./src

   # Build a release artifact.
   RUN mvn package -DskipTests

   # Use AdoptOpenJDK for base image.
   # It's important to use OpenJDK 8u191 or above that has container support enabled.
   # https://hub.docker.com/r/adoptopenjdk/openjdk8
   # https://docs.docker.com/develop/develop-images/multistage-build/#use-multi-stage-builds
   FROM adoptopenjdk/openjdk8:jdk8u202-b08-alpine-slim

   # Copy the jar to the production image from the builder stage.
   COPY --from=builder /app/target/helloworld-*.jar /helloworld.jar

   # Run the web service on container startup.
   CMD ["java","-Djava.security.egd=file:/dev/./urandom","-Dserver.port=${PORT}","-jar","/helloworld.jar"]
   ```

1. Create a new file, `service.yaml` and copy the following service definition
   into the file. Make sure to replace `{username}` with your Docker Hub
   username.

   ```yaml
   apiVersion: serving.knative.dev/v1alpha1
   kind: Service
   metadata:
     name: helloworld-java-spring
     namespace: default
   spec:
     template:
       spec:
         containers:
           - image: docker.io/{username}/helloworld-java-spring
             env:
               - name: TARGET
                 value: "Spring Boot Sample v1"
   ```

## Building and deploying the sample

Once you have recreated the sample code files (or used the files in the sample
folder) you're ready to build and deploy the sample app.

1. Use Docker to build the sample code into a container. To build and push with
   Docker Hub, run these commands replacing `{username}` with your Docker Hub
   username:

   ```shell
   # Build the container on your local machine
   docker build -t {username}/helloworld-java-spring .

   # Push the container to docker registry
   docker push {username}/helloworld-java-spring
   ```

1. After the build has completed and the container is pushed to docker hub, you
   can deploy the app into your cluster. Ensure that the container image value
   in `service.yaml` matches the container you built in the previous step. Apply
   the configuration using `kubectl`:

   ```shell
   kubectl apply --filename service.yaml
   ```

1. Now that your service is created, Knative will perform the following steps:

   - Create a new immutable revision for this version of the app.
   - Network programming to create a route, ingress, service, and load balancer
     for your app.
   - Automatically scale your pods up and down (including to zero active pods).

1. To find the IP address for your service, use. If your cluster is new, it may
   take sometime for the service to get asssigned an external IP address.

   ```shell
   # In Knative 0.2.x and prior versions, the `knative-ingressgateway` service was used instead of `istio-ingressgateway`.
   INGRESSGATEWAY=knative-ingressgateway

   # The use of `knative-ingressgateway` is deprecated in Knative v0.3.x.
   # Use `istio-ingressgateway` instead, since `knative-ingressgateway`
   # will be removed in Knative v0.4.
   if kubectl get configmap config-istio -n knative-serving &> /dev/null; then
       INGRESSGATEWAY=istio-ingressgateway
   fi

   kubectl get svc $INGRESSGATEWAY --namespace istio-system

   NAME                     TYPE           CLUSTER-IP     EXTERNAL-IP      PORT(S)                                      AGE
   xxxxxxx-ingressgateway   LoadBalancer   10.23.247.74   35.203.155.229   80:32380/TCP,443:32390/TCP,32400:32400/TCP   2d

   # Now you can assign the external IP address to the env variable.
   export IP_ADDRESS=<EXTERNAL-IP column from the command above>

   # Or just execute:

   export IP_ADDRESS=$(kubectl get svc $INGRESSGATEWAY \
     --namespace istio-system \
     --output jsonpath="{.status.loadBalancer.ingress[*].ip}")
   ```

1. To find the URL for your service, use

   ```shell
   kubectl get ksvc helloworld-java-spring \
      --output=custom-columns=NAME:.metadata.name,URL:.status.url

   NAME                       URL
   helloworld-java-spring     http://helloworld-java-spring.default.example.com
   ```

1. Now you can make a request to your app to see the result. Presuming, the IP
   address you got in the step above is in the `${IP_ADDRESS}` env variable:

   ```shell
   curl -H "Host: helloworld-java-spring.default.example.com" http://${IP_ADDRESS}

   Hello Spring Boot Sample v1!
   ```

## Removing the sample app deployment

To remove the sample app from your cluster, delete the service record:

```shell
kubectl delete --filename service.yaml
```