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Distributed version of the Spring PetClinic Sample Application built with Spring Cloud

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This microservices branch was initially derived from AngularJS version to demonstrate how to split sample Spring application into microservices. To achieve that goal, we use Spring Cloud Gateway, Spring Cloud Circuit Breaker, Spring Cloud Config, Micrometer Tracing, Resilience4j, Open Telemetry and the Eureka Service Discovery from the Spring Cloud Netflix technology stack.

Open in GitHub Codespaces

Starting services locally without Docker

Every microservice is a Spring Boot application and can be started locally using IDE (Lombok plugin has to be set up) or ../mvnw spring-boot:run command. Please note that supporting services (Config and Discovery Server) must be started before any other application (Customers, Vets, Visits and API). Startup of Tracing server, Admin server, Grafana and Prometheus is optional. If everything goes well, you can access the following services at given location:

You can tell Config Server to use your local Git repository by using native Spring profile and setting GIT_REPO environment variable, for example: -Dspring.profiles.active=native -DGIT_REPO=/projects/spring-petclinic-microservices-config

Starting services locally with docker-compose

In order to start entire infrastructure using Docker, you have to build images by executing bash ./mvnw clean install -P buildDocker This requires Docker or Docker desktop to be installed and running.

Alternatively you can also build all the images on Podman, which requires Podman or Podman Desktop to be installed and running.

./mvnw clean install -PbuildDocker -Dcontainer.executable=podman

By default, the Docker OCI image is build for an linux/amd64 platform. For other architectures, you could change it by using the -Dcontainer.platform maven command line argument. For instance, if you target container images for an Apple M2, you could use the command line with the linux/arm64 architecture:

./mvnw clean install -P buildDocker -Dcontainer.platform="linux/arm64"

Once images are ready, you can start them with a single command docker-compose up or podman-compose up.

Containers startup order is coordinated with the service_healthy condition of the Docker Compose depends-on expression and the healthcheck of the service containers. After starting services, it takes a while for API Gateway to be in sync with service registry, so don't be scared of initial Spring Cloud Gateway timeouts. You can track services availability using Eureka dashboard available by default at http://localhost:8761.

The main branch uses an Eclipse Temurin with Java 17 as Docker base image.

NOTE: Under MacOSX or Windows, make sure that the Docker VM has enough memory to run the microservices. The default settings are usually not enough and make the docker-compose up painfully slow.

Starting services locally with docker-compose and Java

If you experience issues with running the system via docker-compose you can try running the ./scripts/run_all.sh script that will start the infrastructure services via docker-compose and all the Java based applications via standard nohup java -jar ... command. The logs will be available under ${ROOT}/target/nameoftheapp.log.

Each of the java based applications is started with the chaos-monkey profile in order to interact with Spring Boot Chaos Monkey. You can check out the (README)[scripts/chaos/README.md] for more information about how to use the ./scripts/chaos/call_chaos.sh helper script to enable assaults.

Understanding the Spring Petclinic application

See the presentation of the Spring Petclinic Framework version

A blog post introducing the Spring Petclinic Microsevices (french language)

You can then access petclinic here: http://localhost:8080/

Microservices Overview

This project consists of several microservices:

  • Customers Service: Manages customer data.
  • Vets Service: Handles information about veterinarians.
  • Visits Service: Manages pet visit records.
  • API Gateway: Routes client requests to the appropriate services.
  • Config Server: Centralized configuration management for all services.
  • Discovery Server: Eureka-based service registry.

Each service has its own specific role and communicates via REST APIs.

Spring Petclinic Microservices screenshot

Architecture diagram of the Spring Petclinic Microservices

Spring Petclinic Microservices architecture

In case you find a bug/suggested improvement for Spring Petclinic Microservices

Our issue tracker is available here: https://github.com/spring-petclinic/spring-petclinic-microservices/issues

Database configuration

In its default configuration, Petclinic uses an in-memory database (HSQLDB) which gets populated at startup with data. A similar setup is provided for MySql in case a persistent database configuration is needed. Dependency for Connector/J, the MySQL JDBC driver is already included in the pom.xml files.

Start a MySql database

You may start a MySql database with docker:

docker run -e MYSQL_ROOT_PASSWORD=petclinic -e MYSQL_DATABASE=petclinic -p 3306:3306 mysql:5.7.8

or download and install the MySQL database (e.g., MySQL Community Server 5.7 GA), which can be found here: https://dev.mysql.com/downloads/

Use the Spring 'mysql' profile

To use a MySQL database, you have to start 3 microservices (visits-service, customers-service and vets-services) with the mysql Spring profile. Add the --spring.profiles.active=mysql as programm argument.

By default, at startup, database schema will be created and data will be populated. You may also manually create the PetClinic database and data by executing the "db/mysql/{schema,data}.sql" scripts of each 3 microservices. In the application.yml of the Configuration repository, set the initialization-mode to never.

If you are running the microservices with Docker, you have to add the mysql profile into the (Dockerfile)[docker/Dockerfile]:

ENV SPRING_PROFILES_ACTIVE docker,mysql

In the mysql section of the application.yml from the Configuration repository, you have to change the host and port of your MySQL JDBC connection string.

Custom metrics monitoring

Grafana and Prometheus are included in the docker-compose.yml configuration, and the public facing applications have been instrumented with MicroMeter to collect JVM and custom business metrics.

A JMeter load testing script is available to stress the application and generate metrics: petclinic_test_plan.jmx

Grafana metrics dashboard

Using Prometheus

Using Grafana with Prometheus

Custom metrics

Spring Boot registers a lot number of core metrics: JVM, CPU, Tomcat, Logback... The Spring Boot auto-configuration enables the instrumentation of requests handled by Spring MVC. All those three REST controllers OwnerResource, PetResource and VisitResource have been instrumented by the @Timed Micrometer annotation at class level.

  • customers-service application has the following custom metrics enabled:
    • @Timed: petclinic.owner
    • @Timed: petclinic.pet
  • visits-service application has the following custom metrics enabled:
    • @Timed: petclinic.visit

Looking for something in particular?

Spring Cloud components Resources
Configuration server Config server properties and Configuration repository
Service Discovery Eureka server and Service discovery client
API Gateway Spring Cloud Gateway starter and Routing configuration
Docker Compose Spring Boot with Docker guide and docker-compose file
Circuit Breaker Resilience4j fallback method
Grafana / Prometheus Monitoring Micrometer implementation, Spring Boot Actuator Production Ready Metrics
Front-end module Files
Node and NPM The frontend-maven-plugin plugin downloads/installs Node and NPM locally then runs Bower and Gulp
Bower JavaScript libraries are defined by the manifest file bower.json
Gulp Tasks automated by Gulp: minify CSS and JS, generate CSS from LESS, copy other static resources
Angular JS app.js, controllers and templates

Pushing to a Docker registry

Docker images for linux/amd64 and linux/arm64 platforms have been published into DockerHub in the springcommunity organization. You can pull an image:

docker pull springcommunity/spring-petclinic-config-server

You may prefer to build then push images to your own Docker registry.

Choose your Docker registry

You need to define your target Docker registry. Make sure you're already logged in by running docker login <endpoint> or docker login if you're just targeting Docker hub.

Setup the REPOSITORY_PREFIX env variable to target your Docker registry. If you're targeting Docker hub, simple provide your username, for example:

export REPOSITORY_PREFIX=springcommunity

For other Docker registries, provide the full URL to your repository, for example:

export REPOSITORY_PREFIX=harbor.myregistry.com/petclinic

To push Docker image for the linux/amd64 and the linux/arm64 platform to your own registry, please use the command line:

mvn clean install -Dmaven.test.skip -P buildDocker -Ddocker.image.prefix=${REPOSITORY_PREFIX} -Dcontainer.build.extraarg="--push" -Dcontainer.platform="linux/amd64,linux/arm64"

The scripts/pushImages.sh and scripts/tagImages.sh shell scripts could also be used once you build your image with the buildDocker maven profile. The scripts/tagImages.sh requires to declare the VERSION env variable.

Compiling the CSS

There is a petclinic.css in spring-petclinic-api-gateway/src/main/resources/static/css. It was generated from the petclinic.scss source, combined with the Bootstrap library. If you make changes to the scss, or upgrade Bootstrap, you will need to re-compile the CSS resources using the Maven profile css of the spring-petclinic-api-gatewaymodule.

cd spring-petclinic-api-gateway
mvn generate-resources -P css

Interesting Spring Petclinic forks

The Spring Petclinic main branch in the main spring-projects GitHub org is the "canonical" implementation, currently based on Spring Boot and Thymeleaf.

This spring-petclinic-microservices project is one of the several forks hosted in a special GitHub org: spring-petclinic. If you have a special interest in a different technology stack that could be used to implement the Pet Clinic then please join the community there.

Contributing

The issue tracker is the preferred channel for bug reports, features requests and submitting pull requests.

For pull requests, editor preferences are available in the editor config for easy use in common text editors. Read more and download plugins at http://editorconfig.org.

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