The Spring Boot Gradle Plugin provides Spring Boot support in Gradle, allowing you to package executable jar or war archives.
To use the Spring Boot Gradle Plugin simply include a buildscript dependency and apply
the spring-boot plugin:
buildscript {
dependencies {
classpath("org.springframework.boot:spring-boot-gradle-plugin:{{project.version}}")
}
}
apply plugin: 'spring-boot'If you are using a milestone or snapshot release you will also need to add appropriate
repositories reference:
buildscript {
repositories {
maven.url "http://repo.spring.io/snapshot"
maven.url "http://repo.spring.io/milestone"
}
// ...
}Once the spring-boot plugin has been applied to your project it will automatically
attempt to rewrite archives to make them executable using the bootRepackage task. You
should configure your project to build a jar or war (as appropriate) in the usual way.
The main class that you want to launch can either be specified using a configuration
option, or by adding a Main-Class attribute to the manifest. If you don't specify a
main class the plugin will search for a class with a
public static void main(String[] args) method.
To build and run a project artifact, you do something like this:
$ gradle build
$ java -jar build/libs/mymodule-0.0.1-SNAPSHOT.jar
To run a project in place without building a jar first you can use the "bootRun" task:
$ gradle bootRun
The gradle plugin automatically extends your build script DSL with a springBoot element
for configuration. Simply set the appropriate properties as you would any other gradle
extension:
springBoot {
backupSource = false
}Sometimes it may be more appropriate to not package default dependencies resolved from
compile, runtime and provided scopes. If created executable jar file
is intended to be run as it is you need to have all dependencies in it, however
if a plan is to explode a jar file and run main class manually you may already
have some of the libraries available via CLASSPATH. This is a situation where
you can repackage boot jar with a different set of dependencies. Using a custom
configuration will automatically disable dependency resolving from
compile, runtime and provided scopes. Custom configuration can be either
defined globally inside springBoot or per task.
task clientJar(type: Jar) {
appendix = 'client'
from sourceSets.main.output
exclude('**/*Something*')
}
task clientBoot(type: BootRepackage, dependsOn: clientJar) {
withJarTask = clientJar
customConfiguration = "mycustomconfiguration"
}In above example we created a new clientJar Jar task to package a customized
file set from your compiled sources. Then we created a new clientBoot
BootRepackage task and instructed it to work with only clientJar task and
mycustomconfiguration.
configurations {
mycustomconfiguration.exclude group: 'log4j'
}
dependencies {
mycustomconfiguration configurations.runtime
}Configuration we are referring to in BootRepackage is a normal
Gradle configuration. In above example we created a new configuration
named mycustomconfiguration instructing it to derive from a runtime
and exclude log4j group. If clientBoot task is executed, repackaged
boot jar will have all dependencies from a runtime but no
log4j jars.
The following configuration options are available:
| Name | Type | Description | Default Value |
|---|---|---|---|
| mainClass | String | The main class that should be run. If not specified the value from the manifest will be used, or if no manifest entry is the archive will be searched for a suitable class | |
| providedConfiguration | String | The name of the provided configuration | providedRuntime |
| backupSource | boolean | If the original source archive should be backed-up before being repackaged | true |
| customConfiguration | String | The name of the custom configuration | none |
For more information on how Spring Boot Loader archives work, take a look at the spring-boot-loader module. If you prefer using Maven to build your projects we have a spring-boot-maven-plugin.
When spring-boot is applied to your Gradle project a default task
named bootRepackage is created automatically. Boot repackage task
depends on Gradle assemble task and when executed, it tries to find
all jar artifacts whose qualifier is empty(meaning i.e. tests and
sources jars are automatically skipped).
Because on default every repackage task execution will find all created jar artifacts, the order of Gradle task execution is important. This is not going to be an issue if you have a normal project setup where only one jar file is created. However if you are planning to create more complex project setup with custom Jar and BootRepackage tasks, there are few tweaks to consider.
jar.enabled = false
bootRepackage.enabled = falseAbove example simply disables default jar and bootRepackage tasks.
This would be all right if you are just creating custom jar files
out from your project. You could also just disable default
bootRepackage task.
bootRepackage.withJarTask = jarAbove example simply instructs default bootRepackage task to only
work with a default jar task.
task bootJars
bootJars.dependsOn = [clientBoot1,clientBoot2,clientBoot3]
build.dependsOn(bootJars)If you still have a default project setup where main jar file is
created and repackaged to be used with boot and you still want to
create additional custom jar files out from your project, you
could simple combine you custom repackage tasks together and
create dependency to your build so that bootJars task would
be run after the default bootRepackage task is executed.
All the above tweaks are usually used to avoid situation where already created boot jar is repackaged again. Repackaging an existing boot jar will not break anything but you may get unnecessary dependencies in it.