To apply a plugin in our Gradle build script we can use the plugins DSL. The plugins DSL is very concise and allows Gradle to be more efficient and more in control when loading the plugin. Normally the plugin we define is fetched from the Gradle plugin portal. If we have our own repository, for example on the intranet of our company, we have to define that extra repository with a pluginRepositories
configuration block in the settings.gradle
file of our project.
In the following sample we have a plugin mrhaki.gradle.version-file
that is stored in the company intranet repository with the URL http://intranet/artifactory/libs-release/
.
// File: settings.gradle // As the first statement of the settings.gradle file // we can define pluginRepositories: pluginRepositories { maven { url 'http://intranet/artifactory/libs-release/' } gradlePluginPortal() // Include public Gradle plugin portal }
In our build file we use the plugins
DSL to apply the mrhaki.gradle.version-file
plugin:
// File: build.gradle plugins { id 'mrhaki.gradle.version-file' version '1.2.2' }
There is a restriction when we use this approach. The plugin must be deployed to our intranet repository with plugin marker artifacts. Gradle needs these to resolve the value for id
to the correct plugin. A plugin marker artifact is a deployment following a specific naming convention with a dependency on the actual plugin code. If we write our own plugin we best can use the java-gradle-plugin
(Java Gradle Plugin Development Plugin), which automatically adds the plugin marker artifacts when we publish our plugin to the intranet repository.
We could also have used the buildscript
configuration block in our build.gradle
file to define a custom repository for our plugin. Inside the buildscript
configuration we use the repositories
block to add our intranet repository. But than we cannot use the plugins
DSL, but have to use the apply plugin:
syntax.
Written with Gradle 3.1.