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Spawns Docker Compose environments for Test tasks as a Gradle's Shared Build Service

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gradle-docker-compose-plugin

Spawns Docker Compose environments for tasks as a Shared Build Service

Why a BuildService?

Comparing with a traditional Task approach, BuildServices will integrate better with Gradle's UP-TO-DATE and FROM-CACHE states, spawning the containers only if the target task is effectively run.

Usage

Apply the plugin in your project's buildscript:

plugins {
    id("io.github.gmazzo.docker.compose") version "<latest>"
}

And then add a docker-compose.yml (or .yaml or .json) file under the specific source set:

  • src/main/docker-compose.yml for the run when using the application plugin (or bootRun when using org.springframework.boot)
  • src/test/docker-compose.yml for the test task (when applying the java or jvm-test-suite plugins)
  • src/integrationTest/docker-compose.yml for the integrationTest task (created by following Declare an additional test suite Gradle manual)

Consuming containers from code

When the service is started, the containers defined are exposed to the underlying JVM process as system properties.

For instance, given this docker-compose.yaml file

services:
  app:
    image: nginx
    ports:
      - 127.0.0.1:8080:80
  db:
    image: mysql:5.7.43
    deploy:
        replicas: 3
    ports:
      - :3306

You will find in the following JVM system properties and environment variables:

Properties of `integrationTest` Docker service:
┌────────────────────────────────────────┬────────────────────────────────────────┬───────────┐
│ JVM System Property                    │ Environment Variable                   │ Value     │
├────────────────────────────────────────┼────────────────────────────────────────┼───────────┤
│ container.integrationTest-app.host     │ CONTAINER_INTEGRATIONTEST_APP_HOST     │ 127.0.0.1 │
│ container.integrationTest-app.tcp80    │ CONTAINER_INTEGRATIONTEST_APP_TCP80    │ 8080      │
│ container.integrationTest-db.host      │ CONTAINER_INTEGRATIONTEST_DB_HOST      │ 127.0.0.1 │
│ container.integrationTest-db.tcp3306   │ CONTAINER_INTEGRATIONTEST_DB_TCP3306   │ 58218     │
│ container.integrationTest-db-2.host    │ CONTAINER_INTEGRATIONTEST_DB_2_HOST    │ 127.0.0.1 │
│ container.integrationTest-db-2.tcp3306 │ CONTAINER_INTEGRATIONTEST_DB_2_TCP3306 │ 58217     │
│ container.integrationTest-db-3.host    │ CONTAINER_INTEGRATIONTEST_DB_3_HOST    │ 127.0.0.1 │
│ container.integrationTest-db-3.tcp3306 │ CONTAINER_INTEGRATIONTEST_DB_3_TCP3306 │ 58216     │
└────────────────────────────────────────┴────────────────────────────────────────┴───────────┘

Structure of the JVM system property:

 - container.main-app-2.tcp80 -> 4409
             │    │   │ │  │     └ exposed port on the host machine
             │    │   │ ├──┼ port
             │    │   │ │  └ number of the port
             │    │   │ └ type of the port
             ├────┼───┼ container name
             │    │   └ optional: id of the replica in case of more than 1
             │    └ name of the service defined in the compose file
             └ name of the source set

You can consume this by using System.getProperty:

val appHost = System.getProperty("container.main-app.host")
val appPort = System.getProperty("container.main-app.tcp80")
// or
val `CONTAINER_MAIN_APP_HOST` by System.getenv()
val `CONTAINER_MAIN_APP_TCP80` by System.getenv()

Or in Spring, by using @Value annotation:

@Value("\${container.main-app.host}:\${container.main-app.tcp80}")
private lateinit var appEndpoint: String

Log in to a Docker registry or cloud backend

The dockerCompose.login API allowing you to provide a server and optionally a username/password that will perform docker login command before any DockerComposeService is started

Logging in into Amazon ECR

The following is an example on how to pipe the password obtained by aws ecr get-login-password command into the dockerCompose.login.password DSL:

dockerCompose {
    login {
        val awsPassword = providers
            .exec { commandLine("aws", "ecr", "get-login-password", "--region", "eu-west-1") }
            .standardOutput.asText
        
        server.set("<accountId>.dkr.ecr.eu-west-1.amazonaws.com")
        username.set("AWS")
        password.set(awsPassword)
    }
}

Multi module setup

This plugin can be applied on multiple submodules independently without any conflicts: each DockerComposeService will be unique per project and source set.

To avoid complex setup and have to replicate the shared configuration between project (like dockerCompose.login DSL), if the plugin is applied at root project, all child modules will default to the settings set there.

So, at root project you can have a shared setup like this:

dockerCompose {
    verbose.set(false)
    login {
        username.set("myUser")
        password.set("myPass")
    }
}

and other submodules will default to it as well.

Pre-initialize containers

Per each DockerComposeService registered (main, test, etcs...), an optional initialization task will be added to the build.

For the main service it will be initContainers, test will be initTestContainers, integrationTest will be initIntegrationTestContainers and so on.

You may run the Gradle build targeting this specific task to "win some time" by creating (but not starting) the containers (downloading their images in the process): docker compose create command.

You can pass --start to the initContainers (or initTestContainers, etc...) task to force them to start.

Note

Keep in mind there is no way to know if the target task (run, test, etc...) will be actually run until it reaches the point the UP-TO-DATE check is done, just before its about to run. So pre-creating the containers with those init Tasks may be a waste of resources, but it may save some overall time if actually ends up running. Choose wisely.

Decoupling from JVM plugins

By default, this plugin binds automatically with java, application, jvm-test-suite and org.springframework.boot plugins, creating default services per registered SourceSet (main, test, etc...).

If you don't need this behavior and want to configure and bind the DockerComposeServices on your own, you should apply io.github.gmazzo.docker.compose.base instead.

Later use the DockerComposeSpec.bindTo(Task) API

An example could be:

plugins {
    id("io.github.gmazzo.docker.compose.base")
}

val myService = dockerCompose.services.create("myService") {
    composeFile.from(file("my-docker-compose.yaml"))
}

tasks.register("myTask") {
    myService.bindTo(this)
}

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