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Java Microservices: Spring Boot, Spring Cloud, JHipster, Spring Cloud Config, and Spring Cloud Gateway

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Java Microservices with Spring Boot & Spring Cloud 🍃☁️

This repository contains examples of how to build a Java microservices architecture with Spring Boot, Spring Cloud, and Netflix Eureka.

This repository has five examples in it:

  1. A bare-bones microservices architecture with Spring Boot, Spring Cloud, Eureka Server, and Zuul.
  2. A microservices architecture that's generated with JHipster and configured centrally with Spring Cloud Config.
  3. A microservices architecture that uses Spring Cloud Gateway and Spring WebFlux to show reactive microservices.
  4. A JHipster-generated reactive microservices architecture with Spring Cloud Gateway and Spring WebFlux.
  5. A JHipster 7 + Kubernetes example that deploys to Google Cloud with sealed secrets.

We think you'll enjoy them all!

  1. See Java Microservices with Spring Boot and Spring Cloud for an overview of the first example.
  2. Read Java Microservices with Spring Cloud Config and JHipster to learn about microservices with JHipster.
  3. Refer to Secure Reactive Microservices with Spring Cloud Gateway to learn about Spring Cloud Gateway and reactive microservices.
  4. Refer to Reactive Java Microservices with Spring Boot and JHipster to see how JHipster makes reactive microservices a breeze.
  5. Peruse Kubernetes to the Cloud with Spring Boot and JHipster to see how JHipster simplifies Kubernetes deployments.

Prerequisites: Java 11 and an internet connection.

Spring Boot + Spring Cloud Example

To install this example, run the following commands:

git clone https://github.com/oktadev/java-microservices-examples.git
cd java-microservices-examples/spring-boot+cloud

The api-gateway and car-service projects are already pre-configured to be locked down with OAuth 2.0 and Okta. That means if you try to run them, you won't be able to login until you create an account, and an application in it.

Create a Web Application in Okta

Log in to your Okta Developer account (or sign up if you don't have an account).

  1. From the Applications page, choose Add Application.
  2. On the Create New Application page, select Web.
  3. Give your app a memorable name, add http://localhost:8080/login/oauth2/code/okta as a Login redirect URI, select Refresh Token (in addition to Authorization Code), and click Done.

Copy the issuer (found under API > Authorization Servers), client ID, and client secret into the application.properties of the api-gateway and car-service projects.

okta.oauth2.issuer=https://{yourOktaDomain}/oauth2/default
okta.oauth2.client-id=$clientId
okta.oauth2.client-secret=$clientSecret

Then, run all the projects with ./mvnw in separate terminal windows. You should be able to navigate to http://localhost:8761 and see the apps have been registered with Eureka.

Then, navigate to http://localhost:8080/cool-cars in your browser, log in with Okta, and see the resulting JSON.

JHipster + Spring Cloud Config Example

To install this example, run the following commands:

git clone https://github.com/oktadev/java-microservices-examples.git
cd java-microservices-examples/jhipster

Create Docker containers for all gateway and microservice applications:

mvn -Pprod verify com.google.cloud.tools:jib-maven-plugin:dockerBuild

Create a Web Application in Okta

Log in to your Okta Developer account (or sign up if you don't have an account).

  1. From the Applications page, choose Add Application.
  2. On the Create New Application page, select Web.
  3. Give your app a memorable name, add http://localhost:8080/login/oauth2/code/okta as a Login redirect URI, select Refresh Token (in addition to Authorization Code), and click Done.
  4. To configure Logout to work in JHipster, Edit your app, add http://localhost:8080 as a Logout redirect URI, then click Save.

Rather than modifying each of your apps for Okta, you can use Spring Cloud Config in JHipster Registry to do it. Open docker-compose/central-server-config/application.yml and add your Okta settings.

The client ID and secret are available on your app settings page. You can find the issuer under API > Authorization Servers.

spring:
  security:
    oauth2:
      client:
        provider:
          oidc:
            issuer-uri: https://{yourOktaDomain}/oauth2/default
        registration:
          oidc:
            client-id: {yourClientId}
            client-secret: {yourClientSecret}

The registry, gateway, blog, and store applications are all configured to read this configuration on startup.

Start all your containers from the docker-compose directory:

docker-compose up -d

Before you can log in to the registry, you'll need to add redirect URIs for JHipster Registry, ensure your user is in a ROLE_ADMIN group and that groups are included in the ID token.

Log in to your Okta dashboard, edit your OIDC app, and add the following Login redirect URI:

  • http://localhost:8761/login/oauth2/code/oidc

You'll also need to add a Logout redirect URI:

  • http://localhost:8761

Then, click Save.

Create Groups and Add Them as Claims to the ID Token

JHipster is configured by default to work with two types of users: administrators and users. Keycloak is configured with users and groups automatically, but you need to do some one-time configuration for your Okta organization.

Create a ROLE_ADMIN group (Users > Groups > Add Group) and add your user to it. Navigate to API > Authorization Servers, and click on the the default server. Click the Claims tab and Add Claim. Name it groups, and include it in the ID Token. Set the value type to Groups and set the filter to be a Regex of .*. Click Create.

Now when you hit http://localhost:8761 or http://localhost:8080, you should be able to log in with Okta!

Spring Cloud Gateway Example

To install this example, run the following commands:

git clone https://github.com/oktadev/java-microservices-examples.git
cd java-microservices-examples/spring-cloud-gateway

The api-gateway and car-service projects are already pre-configured to be locked down with OAuth 2.0 and Okta. That means if you try to run them, you won't be able to login until you create an account, and an application in it.

If you already have an Okta account, see the Create a Web Application in Okta section below. Otherwise, we created a Maven plugin that configures a free Okta developer account + an OIDC app (in under a minute!).

To use it, run ./mvnw com.okta:okta-maven-plugin:setup to create an account and configure the gateway to work with Okta.

Copy the okta.* properties from the gateway's src/main/resources/application.properties to the same file in the car-service project.

Then, run all the projects with ./mvnw in separate terminal windows. You should be able to navigate to http://localhost:8761 and see the apps have been registered with Eureka.

Then, navigate to http://localhost:8080/cars in your browser, log in with Okta, and see the resulting JSON.

Create a Web Application in Okta

Log in to your Okta Developer account (or sign up if you don't have an account).

  1. From the Applications page, choose Add Application.
  2. On the Create New Application page, select Web.
  3. Give your app a memorable name, add http://localhost:8080/login/oauth2/code/okta as a Login redirect URI and click Done.

Copy the issuer (found under API > Authorization Servers), client ID, and client secret into the application.properties of the api-gateway and car-service projects.

okta.oauth2.issuer=https://{yourOktaDomain}/oauth2/default
okta.oauth2.client-id=$clientId
okta.oauth2.client-secret=$clientSecret

Reactive Microservices with JHipster Example

To install this example, run the following commands:

git clone https://github.com/oktadev/java-microservices-examples.git
cd java-microservices-examples/reactive-jhipster

The JHipster Registry and Spring Cloud Config are pre-configured to use Okta. That means if you try to run them, you won't be able to login until you create an account, and an application in it.

Install the Okta CLI using the instructions on cli.okta.com and come back here when you're done. If you don't have an Okta developer account, run okta register.

NOTE: You can also use your browser and Okta's developer console to register an app. See JHipster's security documentation for those instructions.

From the gateway project's directory, run okta apps create jhipster. Accept the default redirect URIs.

This process does several things:

  1. Registers an OIDC app in Okta with JHipster's configured redirect URIs.
  2. Creates ROLE_ADMIN and ROLE_USER groups and adds your user to both.
  3. Creates a groups claim and adds it to ID tokens.
  4. Creates a .okta.env file with the values you'll need to talk to Okta.

Spring Cloud Config allows you to distribute Spring's configuration between apps. Update gateway/src/main/docker/central-server-config/localhost-config/application.yml to use your Okta app settings. You can find the values for each property in the .okta.env file.

spring:
  security:
    oauth2:
      client:
        provider:
          oidc:
            issuer-uri: https://<your-okta-domain>/oauth2/default
        registration:
          oidc:
            client-id: <client-id>
            client-secret: <client-secret>

Save your changes. These values will be distributed to the JHipster Registry, gateway, blog, and store apps. Start all the services and apps using the following commands:

cd gateway
docker-compose -f src/main/docker/keycloak.yml up -d #jhkeycloakup
docker-compose -f src/main/docker/postgresql.yml up -d #jhpostgresqlup
docker-compose -f src/main/docker/jhipster-registery up -d #jhregistryup
./gradlew

Open a new terminal window, start the blog app's Neo4j database, and then the app itself.

cd ../blog
docker-compose -f src/main/docker/neo4j.yml up -d #jhneo4jup
./gradlew

Then, open another terminal window, start the store app's MongoDB database, and the microservice.

cd ../store
docker-compose -f src/main/docker/mongodb.yml up -d #jhmongoup
./gradlew

Now, open a new incognito browser window, go to http://localhost:8080, and sign in. Rejoice that using Okta for authentication works!

TIP: You can also run everything using Docker Compose. See the blog post for how to do that.

Kubernetes + Reactive Java with JHipster Example

To install this example, run the following commands:

git clone https://github.com/oktadev/java-microservices-examples.git
cd java-microservices-examples/jhipster-k8s/k8s

If you don't have JHipster installed, install it.

npm i -g generator-jhipster@7

Run JHipster's Kubernetes sub-generator.

jhipster k8s

You will be prompted with several questions. The answers will be pre-populated from choices I made when creating this app. Answer as follows, changing the Docker repository name to yours, or leaving it blank if you don't have one.

  • Type of application: Microservice application
  • Root directory: ../
  • Which applications? <select all>
  • Set up monitoring? No
  • Which applications with clustered databases? select store
  • Admin password for JHipster Registry: <generate one>
  • Kubernetes namespace: demo
  • Docker repository name: <your docker hub username>
  • Command to push Docker image: docker push
  • Enable Istio? No
  • Kubernetes service type? LoadBalancer
  • Use dynamic storage provisioning? Yes
  • Use a specific storage class? <leave empty>

Install Minikube to Run Kubernetes Locally

If you have Docker installed, you can run Kubernetes locally with Minikube. Run minikube start to begin.

minikube --memory 8g --cpus 8 start

Build Docker images for each app. In the {gateway, blog, store } directories, run the following Gradle command (where <image-name> is gateway, store, or blog).

./gradlew bootJar -Pprod jib -Djib.to.image=<docker-repo-name>/<image-name>

You can also build your images locally and publish them to your Docker daemon. This is the default if you didn't specify a base Docker repository name.

# this command exposes Docker images to minikube
eval $(minikube docker-env)
./gradlew -Pprod bootJar jibDockerBuild

Because this publishes your images locally to Docker, you'll need to make modifications to your Kubernetes deployment files to use imagePullPolicy: IfNotPresent.

- name: gateway-app
  image: gateway
  imagePullPolicy: IfNotPresent

Make sure to add this imagePullPolicy to the following files:

  • k8s/gateway-k8s/gateway-deployment.yml
  • k8s/blog-k8s/blog-deployment.yml
  • k8s/store-k8s/store-deployment.yml

Register an OIDC App for Auth

Install the Okta CLI using the instructions on cli.okta.com and come back here when you're done. If you don't have an Okta developer account, run okta register.

NOTE: You can also use your browser and Okta's developer console to register an app. See JHipster's security documentation for those instructions.

From the gateway project's directory, run okta apps create jhipster. Accept the default redirect URIs.

This process does several things:

  1. Registers an OIDC app in Okta with JHipster's configured redirect URIs.
  2. Creates ROLE_ADMIN and ROLE_USER groups and adds your user to both.
  3. Creates a groups claim and adds it to ID tokens.
  4. Creates a .okta.env file with the values you'll need to talk to Okta.

Update k8s/registry-k8s/application-configmap.yml to contain your OIDC settings from the .okta.env file the Okta CLI just created. The Spring Cloud Config server reads from this file and shares the values with the gateway and microservices.

data:
  application.yml: |-
    ...
    spring:
      security:
        oauth2:
          client:
            provider:
              oidc:
                issuer-uri: https://<your-okta-domain>/oauth2/default
            registration:
              oidc:
                client-id: <client-id>
                client-secret: <client-secret>

To configure the JHipster Registry to use OIDC for authentication, modify k8s/registry-k8s/jhipster-registry.yml to enable the oauth2 profile.

- name: SPRING_PROFILES_ACTIVE
  value: prod,k8s,oauth2

Then, in the k8s directory, start your engines!

./kubectl-apply.sh -f

You can see if everything starts up using the following command.

kubectl get pods -n default

You can use the name of a pod with kubectl logs to tail its logs.

kubectl logs <pod-name> --tail=-1 -n default

You can use port-forwarding to see the JHipster Registry.

kubectl port-forward svc/jhipster-registry -n default 8761

Open a browser and navigate to http://localhost:8761. You'll need to sign in with your Okta credentials.

Once all is green, use port-forwarding to see the gateway app.

kubectl port-forward svc/gateway -n default 8080

Then, go to http://localhost:8080, and you should be able to add blogs, posts, tags, and products.

Please read the Kubernetes to the Cloud with Spring Boot and JHipster for more information.

Links

These examples use the following open source libraries:

Help

Please post any questions as comments on the example's blog post, or on the Okta Developer Forums.

License

Apache 2.0, see LICENSE.