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A simple Springboot microservice on Google Cloud (GCP). This project is part of a hands-on series that demos how to use GCP services for deploying cloud-native apps.

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Spring GCP: Inventory Management Rest Service

About

This is a demo app built on Spring, to test out a CI/CD deployment plan on Google Cloud Platform. This demo is designed with the goal of integrating GCP services to ease deployment on a GCP Cloud build pipeline.

The project integrates Spring boot, Hibernate, GCP Cloud Sql, GCP Secret Manager, GCP App Engine, GCP Cloud Build and an option for a container deployment.

Overview

This demo is built with Spring Cloud, Spring GCP and Maven. The app is a simple Inventory Manager API endpoint and should be accessible on

curl https://{url}/inventory/1
curl https://{url}/inventory/2
curl https://{url}/inventory/

The app will bootstrap a database using Spring Hibernate and should access the data over the rest API endpoint.

Bill of Materials

Dependencies

Dependency Version
spring-boot-starter-parent 2.2.6
Java 1.8
spring-boot-starter-data-rest 1.2.3
spring-boot-starter-data-jpa 1.2.3
mysql-connector-java 1.2.3
spring-cloud-gcp-starter 1.2.3
spring-cloud-gcp-starter-sql-mysql 1.2.3
spring-cloud-gcp-starter-secretmanager 1.2.3

Plugins

Plugin Version
spring-boot-maven-plugin
maven-dependency-plugin 2.0
appengine-maven-plugin 2.2.0

Services Breakdown

Spring Hibernate with GCP Cloud Sql DataSource

Lets start with defining the data source and configs

Basic configs for spring hibernate are defined under the application.properties file. This file needs no further configuration.

spring.jpa.hibernate.ddl-auto=none  
spring.jpa.hibernate.naming.physical-strategy=org.hibernate.boot.model.naming.PhysicalNamingStrategyStandardImpl  
spring.jpa.show-sql=true  
spring.datasource.initialization-mode=always  
spring.datasource.hikari.maximum-pool-size=1  
management.contextPath=/_ah  
spring.profiles.active=mysql

Note: spring.jpa.hibernate.naming.physical-strategy=org.hibernate.boot.model.naming.PhysicalNamingStrategyStandardImpl Hibernate maps field names using a physical strategy and an implicit strategy. We want to use physical naming strategy just so the values we use for annotations @Table and @Column’s name attribute we use in the inventory model file among other files would remain as it is.

Linking it to GCP Cloud Sql as our MySql datasource we begin by adding this dependency

<dependency>  
    <groupId>org.springframework.cloud</groupId>  
    <artifactId>spring-cloud-gcp-starter-sql-mysql</artifactId>  
</dependency>

And then add another config file for cloud sql: application-mysql.propeties. Make sure that your GCP Cloud Sql service is setup and your secrets have been configured and ready for use with the correct permissions. You'll need to setup an instance-connection, an instance, a database and create credentials for your database. As you can see below, I'll be using a root login

##CLOUD-SQL-CONFIGURATIONS  
spring.cloud.appId=sample-gcp-project  
spring.cloud.gcp.sql.instance-connection-name=sample-gcp-project-xxxxx:us-central1:test-inventory-db  
spring.cloud.gcp.sql.database-name=inventory
#SQL DB USERNAME/PASSWORD  
spring.datasource.username=root
spring.datasource.password=xxxxx

Now, since we are hosting on a public repo, we'd need to take care of confidential configs (usernames, passwords, connection names etc).

So lets add GCP Secret Manager service for our credential manager.

Start by adding the spring-cloud-gcp-starter-secretmanager dependency

<dependency>  
    <groupId>org.springframework.cloud</groupId>  
    <artifactId>spring-cloud-gcp-starter-secretmanager</artifactId>  
</dependency>

And then configure the secrets on the application-mysql.propeties . Make sure that you've setup your GCP Secret Manager service is setup and you secrets have been configured and ready for use with the correct permissions.

##CLOUD-SQL-CONFIGURATIONS  
spring.cloud.appId=sample-gcp-project  
spring.cloud.gcp.sql.instance-connection-name=${sm://projects/647366740951/secrets/spring_cloud_gcp_sql_instance_connection_name}  
spring.cloud.gcp.sql.database-name=${sm://projects/647366740951/secrets/spring_cloud_gcp_sql_database_name}  
#SQL DB USERNAME/PASSWORD  
spring.datasource.username=${sm://projects/647366740951/secrets/spring_datasource_username}  
spring.datasource.password=${sm://projects/647366740951/secrets/spring_datasource_password}

We will now bootstrap a simple database using a data.sql and schema.sql file.

At this point, you should be able to run the app locally with a simple

mvn spring-boot:run

Spring GCP App Engine

Now lets take this app to the "cloud". Well start by adding the app engine plugin in your pom.xml

    <plugin>  
        <groupId>com.google.cloud.tools</groupId>  
        <artifactId>appengine-maven-plugin</artifactId>  
        <version>2.2.0</version>  
        <configuration>  
            <deploy.projectId>sample-gcp-project-xxxx</deploy.projectId>  
            <deploy.version>1</deploy.version>  
        </configuration>  
    </plugin>

My plugin file includes the deploy.projectId and the deploy.version, both of which you will need to reconfigure with your own values, especially the deploy.projectId.

We'll start by configuring app.yaml on src/main/appengine/app.yaml. Again, you will need to configure permissions and kickstart an app on appengine for this to work

env: flex  
runtime: java  
runtime_config:  
  jdk: openjdk8  
  
resources:  
  cpu: 1  
  memory_gb: 1  
  disk_size_gb: 10  
  volumes:  
    - name: ramdisk1  
      volume_type: tmpfs  
      size_gb: 0.5  
  
  
handlers:  
  - url: /.*  
    script: this field is required, but ignored

This file is highly configurable and you can tweak it to adjust performance, however, I've kept it as simple as possible to simplify the deployment plan. If you plan to keep a simple deployment, this file should suffice as it is.

At this point, you should be able to directly deploy with

mvn -DskipTests=true appengine:deploy

GCP Cloud Build

Moving on to Cloud build, you will need the cloudbuild.yaml file on the project root. Your cloud build process is broken down into two steps, test step and package and deploy step.

steps:  
  - name: maven:3-jdk-8  
    entrypoint: mvn  
    args: ["test"]  
  - name: maven:3-jdk-8  
    entrypoint: mvn  
    args: ["package", "-Dmaven.test.skip=true","appengine:deploy"]

At this point, you should be able to push this spring app to a github repo and trigger a cloud build on GCP.

Bonus

If you are interested, you can include a container build in your CI/CD pipeline. All you'll need to do is to setup a simple Dockerfile

FROM openjdk:8-jdk-alpine  
ARG JAR_FILE=target/inventorymanagement*.jar  
COPY ${JAR_FILE} app.jar  
ENTRYPOINT ["java", "-Djava.security.edg=file:/dev/./urandom","-jar","/app.jar"]

Then add a container generation step to your deployment on cloudbuild.yaml. The final file would look like so:

steps: 
  - name: maven:3-jdk-8  
    entrypoint: mvn  
    args: ["test"]  
  - name: maven:3-jdk-8  
    entrypoint: mvn  
    args: ["package", "-Dmaven.test.skip=true","appengine:deploy"]  
  - name: gcr.io/cloud-builders/docker  
    args: ["build", "-t", "gcr.io/$PROJECT_ID/inventorymanagement", "--build-arg=JAR_FILE=target/inventorymanagement-1.0.0.0.jar", "."]  
images: ["gcr.io/$PROJECT_ID/inventorymanagement"]

About

A simple Springboot microservice on Google Cloud (GCP). This project is part of a hands-on series that demos how to use GCP services for deploying cloud-native apps.

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