Gradle Application Plugin: Difference between revisions
Line 55: | Line 55: | ||
The tasks executes the class specified with [[#mainClassName|mainClassName]] property. | The tasks executes the class specified with [[#mainClassName|mainClassName]] property. | ||
However, if the application requires command line parameters, they are not propagated. | However, if the application requires command line parameters, they are not propagated. An alternative solution is to deploy the application ZIP file in a temporary area and execute the Application plugin-generates scripts. This is an example of a ./bin/build-and-deploy script: | ||
{{Internal|build-and-deploy|build-and-deploy Example}} | |||
=<span id='Wrapper_Script_Customization'></span>Start Script Customization= | =<span id='Wrapper_Script_Customization'></span>Start Script Customization= |
Revision as of 21:05, 28 July 2018
External
Internal
Overview
The application plugin facilitates creating an executable JVM application. It bundles all application JARS, transitive dependencies and operating system specific scripts into a TAR or ZIP file, and it also generates the bash and Windows wrapper scripts to run the application with. The plugin also allows executing the application from the project's work area with the "run" task.
Typical Setup
This setup describes configuration of a multi-project build, whose sub-project create various components of the application and the top level project bundles all those in a distributable artifact. The dependencies between the sub-projects must be configured in the corresponding build.gradle files. To build the application artifact, we assume that there's a sub-project that contains the "main()" static method that triggers the execution, that method exists in "io.example.Main" class, and the sub-project in question is named "main".
As such, the top-level project build.gradle should contain the following relevant configuration:
...
apply plugin: 'application'
mainClassName = "io.example.Main"
dependencies {
...
implementation project(':main')
}
Provided that the rest of the dependencies between sub-projects are correctly declared in the corresponding build.gradle files, the execution of
gradle distZip
will compile everything and will create a ./build/distributions/<rootProject.name>.zip file. The file includes the sub-project artifacts, their transitive dependencies, and wrapper scripts for bash and Windows.
For more details about rootProject.name, see:
Properties
mainClassName
mainClassName = 'greeter.Greeter'
Executing the Application from Project Work Area
gradle run
The tasks executes the class specified with mainClassName property.
However, if the application requires command line parameters, they are not propagated. An alternative solution is to deploy the application ZIP file in a temporary area and execute the Application plugin-generates scripts. This is an example of a ./bin/build-and-deploy script:
Start Script Customization
This section explains the mechanics behind creating the application start (wrapper) script and shows how the process can be customized: use a different template, create multiple scripts, etc.
Start Script Mechanics
The Application plugin generates by default Unix and Windows start scripts that are capable launching a configured "main" class in an environment where the classpath is correctly set. The default script templates are based on the same scripts used to launch Gradle, which ship as part of the Gradle distribution. The start scripts are completely customizable though. The Application plugin adds a task named "startScripts" to the project's task list. The task can be view with:
gradle tasks --all
The "startupScripts" task is a CreateStartScripts type task. The actual script generation is implemented in ScriptGenerator instances, returned by CreateStartScripts.getUnixStartScriptGenerator() and CreateStartScripts.getWindowsStartScriptGenerator(). The default generators are of the type TemplateBasedScriptGenerator with default templates. These templates can be changed via the TemplateBasedScriptGenerator.setTemplate(org.gradle.api.resources.TextResource) method.
Configure the Default 'startScripts' Task
Get a reference to the "startScript" task as described in Get the Reference of a Task by Name and then reconfigure state as needed:
def t = rootProject.tasks.getByPath('startScripts');
t.applicationName = 'some-app-name';
t.mainClassName = 'com.example.Main';
The following variables can be configured:
- applicationName - this will be the name of the script, without (for Linux) and with .bat extension (for Windows).
- mainClassName
- outputDir file('build/sample')
- classpath files('path/to/some.jar')
- optsEnvironmentVar
- exitEnvironmentVar
- defaultJvmOpts
- appNameSystemProperty
- appHomeRelativePath
Generate Multiple Start Scripts
We generate multiple start script by using the default "startScript" to create the main start script (or if there's no main, one of the start scripts), and we declare a new CreateStartScripts task instance for each additional script. We use the default "startScript" to read common configuration from, and we make it to depend on all newly added tasks, so they are executed automatically:
...
apply plugin: 'application'
//
// this generates an additional (not main) wrapper script
//
task secondaryStartScript(type: CreateStartScripts) {
applicationName = 'secondary'
mainClassName = 'com.example.secondary.Main'
//
// get the rest of the configuration from the already configured 'startScripts' task;
// except 'applicationName' and 'mainClassName', the rest of the configuration should
// be similar
//
def t = rootProject.tasks.getByPath('startScripts');
classpath = t.classpath;
outputDir = t.outputDir;
}
//
// this configures the main 'startScript' task to generate the "main" script
//
def t = rootProject.tasks.getByPath('startScripts');
t.applicationName = 'primary';
t.mainClassName = 'com.example.primary.Main';
t.dependsOn(secondaryStartScript); // trigger 'secondaryStartScript' execution automatically