1. Introduction
The Spring Boot Gradle Plugin provides Spring Boot support in Gradle,
allowing you to package executable jar or war archives, run Spring Boot applications, and
use the dependency management provided by spring-boot-dependencies
. Spring Boot’s
Gradle plugin requires Gradle 5.x (4.10 is also supported but this support is deprecated
and will be removed in a future release).
In addition to this user guide, API documentation is also available.
2. Getting started
To get started with the plugin it needs to be applied to your project.
The plugin is published to the Spring milestones repository. Gradle can be configured to
use the milestones repository and the plugin can then be applied using the plugins
block. To configure Gradle to use the milestones repository, add the following to your
settings.gradle
(Groovy) or settings.gradle.kts
(Kotlin):
pluginManagement {
repositories {
maven { url 'https://repo.spring.io/milestone' }
gradlePluginPortal()
}
resolutionStrategy {
eachPlugin {
if (requested.id.id == 'org.springframework.boot') {
useModule "org.springframework.boot:spring-boot-gradle-plugin:${requested.version}"
}
}
}
}
pluginManagement {
repositories {
maven { url = uri("https://repo.spring.io/milestone") }
gradlePluginPortal()
}
resolutionStrategy {
eachPlugin {
if (requested.id.id == "org.springframework.boot") {
useModule("org.springframework.boot:spring-boot-gradle-plugin:${requested.version}")
}
}
}
}
The plugin can then be applied using the plugins
block:
plugins {
id 'org.springframework.boot' version '2.2.0.M5'
}
plugins {
id("org.springframework.boot") version "2.2.0.M5"
}
Applied in isolation the plugin makes few changes to a project. Instead, the plugin
detects when certain other plugins are applied and reacts accordingly. For example, when
the java
plugin is applied a task for building an executable jar is automatically
configured.
A typical Spring Boot project will apply the groovy
,
java
, or org.jetbrains.kotlin.jvm
plugin and the io.spring.dependency-management
plugin as
a minimum. For example:
apply plugin: 'java'
apply plugin: 'io.spring.dependency-management'
plugins {
java
id("org.springframework.boot") version "2.2.0.M5"
}
apply(plugin = "io.spring.dependency-management")
To learn more about how the Spring Boot plugin behaves when other plugins are applied please see the section on reacting to other plugins.
3. Managing dependencies
When you apply the io.spring.dependency-management
plugin, Spring Boot’s plugin will
automatically import the
spring-boot-dependencies
bom from the version of Spring Boot that you are using.
This provides a similar dependency management experience to the one that’s enjoyed by
Maven users. For example, it allows you to omit version numbers when declaring
dependencies that are managed in the bom. To make use of this functionality, simply
declare dependencies in the usual way but omit the version number:
dependencies {
implementation 'org.springframework.boot:spring-boot-starter-web'
implementation 'org.springframework.boot:spring-boot-starter-data-jpa'
}
dependencies {
implementation("org.springframework.boot:spring-boot-starter-web")
implementation("org.springframework.boot:spring-boot-starter-data-jpa")
}
3.1. Customizing managed versions
The spring-boot-dependencies
bom that is automatically imported when the dependency
management plugin is applied uses properties to control the versions of the dependencies
that it manages. Please refer to the bom
for a complete list of these properties.
To customize a managed version you set its corresponding property. For example, to
customize the version of SLF4J which is controlled by the slf4j.version
property:
ext['slf4j.version'] = '1.7.20'
extra["slf4j.version"] = "1.7.20"
Each Spring Boot release is designed and tested against a specific set of third-party dependencies. Overriding versions may cause compatibility issues and should be done with care. |
3.2. Using Spring Boot’s dependency management in isolation
Spring Boot’s dependency management can be used in a project without applying Spring
Boot’s plugin to that project. The SpringBootPlugin
class provides a BOM_COORDINATES
constant that can be used to import the bom without having to know its group ID,
artifact ID, or version.
First, configure the project to depend on the Spring Boot plugin but do not apply it:
buildscript {
repositories {
maven { url 'https://repo.spring.io/libs-milestone' }
}
dependencies {
classpath 'org.springframework.boot:spring-boot-gradle-plugin:2.2.0.M5'
}
}
plugins {
id("org.springframework.boot") version "2.2.0.M5" apply false
}
The Spring Boot plugin’s dependency on the dependency management plugin means that you can use the dependency management plugin without having to declare a dependency on it. This also means that you will automatically use the same version of the dependency management plugin as Spring Boot uses.
Apply the dependency management plugin and then configure it to import Spring Boot’s bom:
apply plugin: 'io.spring.dependency-management'
dependencyManagement {
imports {
mavenBom org.springframework.boot.gradle.plugin.SpringBootPlugin.BOM_COORDINATES
}
}
apply(plugin = "io.spring.dependency-management")
the<DependencyManagementExtension>().apply {
imports {
mavenBom(org.springframework.boot.gradle.plugin.SpringBootPlugin.BOM_COORDINATES)
}
}
The Kotlin code above is a bit awkward. That’s because we’re using the imperative way of applying the dependency management plugin.
We can make the code less awkward by applying the plugin from the root parent project, or
by using the plugins
block as we’re doing for the Spring Boot plugin. A downside of this
method is that it forces us to specify the version of the dependency management plugin:
plugins {
java
id("org.springframework.boot") version "2.2.0.M5" apply false
id("io.spring.dependency-management") version "1.0.8.RELEASE"
}
dependencyManagement {
imports {
mavenBom(org.springframework.boot.gradle.plugin.SpringBootPlugin.BOM_COORDINATES)
}
}
3.3. Learning more
To learn more about the capabilities of the dependency management plugin, please refer to its documentation.
4. Packaging executable archives
The plugin can create executable archives (jar files and war files) that contain all of
an application’s dependencies and can then be run with java -jar
.
4.1. Packaging executable jars
Executable jars can be built using the bootJar
task. The task is automatically created
when the java
plugin is applied and is an instance of BootJar
.
The assemble
task is automatically configured to depend upon the bootJar
task so
running assemble
(or build
) will also run the bootJar
task.
4.2. Packaging executable wars
Executable wars can be built using the bootWar
task. The task is automatically created
when the war
plugin is applied and is an instance of BootWar
.
The assemble
task is automatically configured to depend upon the bootWar
task so
running assemble
(or build
) will also run the bootWar
task.
4.2.1. Packaging executable and deployable wars
A war file can be packaged such that it can be executed using java -jar
and deployed
to an external container. To do so, the embedded servlet container dependencies should
be added to the providedRuntime
configuration, for example:
dependencies {
implementation 'org.springframework.boot:spring-boot-starter-web'
providedRuntime 'org.springframework.boot:spring-boot-starter-tomcat'
}
dependencies {
implementation("org.springframework.boot:spring-boot-starter-web")
providedRuntime("org.springframework.boot:spring-boot-starter-tomcat")
}
This ensures that they are package in the war file’s WEB-INF/lib-provided
directory
from where they will not conflict with the external container’s own classes.
providedRuntime is preferred to Gradle’s compileOnly configuration as, among
other limitations, compileOnly dependencies are not on the test classpath so any
web-based integration tests will fail.
|
4.3. Packaging executable and normal archives
By default, when the bootJar
or bootWar
tasks are configured, the jar
or war
tasks are disabled. A project can be configured to build both an executable archive
and a normal archive at the same time by enabling the jar
or war
task:
jar {
enabled = true
}
tasks.getByName<Jar>("jar") {
enabled = true
}
To avoid the executable archive and the normal archive from being written to the same location, one or the other should be configured to use a different location. One way to do so is by configuring a classifier:
bootJar {
classifier = 'boot'
}
tasks.getByName<BootJar>("bootJar") {
classifier = "boot"
}
4.4. Configuring executable archive packaging
The BootJar
and BootWar
tasks are subclasses
of Gradle’s Jar
and War
tasks respectively. As a result, all of the standard
configuration options that are available when packaging a jar or war are also available
when packaging an executable jar or war. A number of configuration options that are
specific to executable jars and wars are also provided.
4.4.1. Configuring the main class
By default, the executable archive’s main class will be configured automatically by
looking for a class with a public static void main(String[])
method in directories on
the task’s classpath.
The main class can also be configured explicitly using the task’s mainClassName
property:
bootJar {
mainClassName = 'com.example.ExampleApplication'
}
tasks.getByName<BootJar>("bootJar") {
mainClassName = "com.example.ExampleApplication"
}
Alternatively, the main class name can be configured project-wide using the
mainClassName
property of the Spring Boot DSL:
springBoot {
mainClassName = 'com.example.ExampleApplication'
}
springBoot {
mainClassName = "com.example.ExampleApplication"
}
If the application
plugin has been applied its mainClassName
project property must be configured and can be used for the same purpose:
mainClassName = 'com.example.ExampleApplication'
application {
mainClassName = "com.example.ExampleApplication"
}
Lastly, the Start-Class
attribute can be configured on the task’s manifest:
bootJar {
manifest {
attributes 'Start-Class': 'com.example.ExampleApplication'
}
}
tasks.getByName<BootJar>("bootJar") {
manifest {
attributes("Start-Class" to "com.example.ExampleApplication")
}
}
4.4.2. Excluding Devtools
By default, Spring Boot’s Devtools module,
org.springframework.boot:spring-boot-devtools
, will be excluded from an executable jar
or war. If you want to include Devtools in your archive set the excludeDevtools
property to false
:
bootWar {
excludeDevtools = false
}
tasks.getByName<BootWar>("bootWar") {
isExcludeDevtools = false
}
4.4.3. Configuring libraries that require unpacking
Most libraries can be used directly when nested in an executable archive, however certain
libraries can have problems. For example, JRuby includes its own nested jar support which
assumes that jruby-complete.jar
is always directly available on the file system.
To deal with any problematic libraries, an executable archive can be configured to unpack specific nested jars to a temporary folder when the executable archive is run. Libraries can be identified as requiring unpacking using Ant-style patterns that match against the absolute path of the source jar file:
bootJar {
requiresUnpack '**/jruby-complete-*.jar'
}
tasks.getByName<BootJar>("bootJar") {
requiresUnpack("**/jruby-complete-*.jar")
}
For more control a closure can also be used. The closure is passed a FileTreeElement
and should return a boolean
indicating whether or not unpacking is required.
4.4.4. Making an archive fully executable
Spring Boot provides support for fully executable archives. An archive is made fully executable by prepending a shell script that knows how to launch the application. On Unix-like platforms, this launch script allows the archive to be run directly like any other executable or to be installed as a service.
To use this feature, the inclusion of the launch script must be enabled:
bootJar {
launchScript()
}
tasks.getByName<BootJar>("bootJar") {
launchScript()
}
This will add Spring Boot’s default launch script to the archive. The default launch
script includes several properties with sensible default values. The values can be
customized using the properties
property:
bootJar {
launchScript {
properties 'logFilename': 'example-app.log'
}
}
tasks.getByName<BootJar>("bootJar") {
launchScript {
properties(mapOf("logFilename" to "example-app.log"))
}
}
If the default launch script does not meet your needs, the script
property can be used
to provide a custom launch script:
bootJar {
launchScript {
script = file('src/custom.script')
}
}
tasks.getByName<BootJar>("bootJar") {
launchScript {
script = file("src/custom.script")
}
}
4.4.5. Using the PropertiesLauncher
To use the PropertiesLauncher
to launch an executable jar or war, configure the task’s
manifest to set the Main-Class
attribute:
bootWar {
manifest {
attributes 'Main-Class': 'org.springframework.boot.loader.PropertiesLauncher'
}
}
tasks.getByName<BootWar>("bootWar") {
manifest {
attributes("Main-Class" to "org.springframework.boot.loader.PropertiesLauncher")
}
}
5. Publishing your application
5.1. Publishing with the maven
plugin
When the maven
plugin is applied, an Upload
task for the
bootArchives
configuration named uploadBootArchives
is automatically created. By
default, the bootArchives
configuration contains the archive produced by the bootJar
or bootWar
task. The uploadBootArchives
task can be configured to publish the archive
to a Maven repository:
uploadBootArchives {
repositories {
mavenDeployer {
repository url: 'https://repo.example.com'
}
}
}
tasks.getByName<Upload>("uploadBootArchives") {
repositories.withGroovyBuilder {
"mavenDeployer" {
"repository"("url" to "https://repo.example.com")
}
}
}
5.2. Publishing with the maven-publish
plugin
To publish your Spring Boot jar or war, add it to the publication using the artifact
method on MavenPublication
. Pass the task that produces that artifact that you wish
to publish to the artifact
method. For example, to publish the artifact produced by the
default bootJar
task:
publishing {
publications {
bootJava(MavenPublication) {
artifact bootJar
}
}
repositories {
maven {
url 'https://repo.example.com'
}
}
}
publishing {
publications {
create<MavenPublication>("bootJava") {
artifact(tasks.getByName("bootJar"))
}
}
repositories {
maven {
url = uri("https://repo.example.com")
}
}
}
5.3. Distributing with the application
plugin
When the application
plugin is applied a distribution named
boot
is created. This distribution contains the archive produced by the bootJar
or
bootWar
task and scripts to launch it on Unix-like platforms and Windows. Zip and tar
distributions can be built by the bootDistZip
and bootDistTar
tasks respectively. To
use the application
plugin, its mainClassName
project property must be configured
with the name of your application’s main class.
6. Running your application with Gradle
To run your application without first building an archive use the bootRun
task:
$ ./gradlew bootRun
The bootRun
task is an instance of BootRun
which is a JavaExec
subclass. As such, all of the usual
configuration options for executing a Java process in Gradle are available to you. The
task is automatically configured to use the runtime classpath of the main source set.
By default, the main class will be configured automatically by looking for a class with a
public static void main(String[])
method in directories on the task’s classpath.
The main class can also be configured explicitly using the task’s main
property:
bootRun {
main = 'com.example.ExampleApplication'
}
tasks.getByName<BootRun>("bootRun") {
main = "com.example.ExampleApplication"
}
Alternatively, the main class name can be configured project-wide using the
mainClassName
property of the Spring Boot DSL:
springBoot {
mainClassName = 'com.example.ExampleApplication'
}
springBoot {
mainClassName = "com.example.ExampleApplication"
}
By default, bootRun
will configure the JVM to optimize its launch for faster startup
during development. This behavior can be disabled by using the optimizedLaunch
property,
as shown in the following example:
bootRun {
optimizedLaunch = false
}
tasks.getByName<BootRun>("bootRun") {
isOptimizedLaunch = false
}
If the application
plugin has been applied, its mainClassName
project property must be configured and can be used for the same purpose:
mainClassName = 'com.example.ExampleApplication'
application {
mainClassName = "com.example.ExampleApplication"
}
6.1. Passing arguments to your application
Like all JavaExec
tasks, arguments can be passed into bootRun
from the command line
using --args='<arguments>'
when using Gradle 4.9 or later. For example, to run your
application with a profile named dev
active the following command can be used:
$ ./gradlew bootRun --args='--spring.profiles.active=dev'
See the
javadoc for JavaExec.setArgsString
for further details.
6.2. Reloading resources
If devtools has been added to your project it will automatically monitor your
application for changes. Alternatively, you can configure bootRun
such that your
application’s static resources are loaded from their source location:
bootRun {
sourceResources sourceSets.main
}
tasks.getByName<BootRun>("bootRun") {
sourceResources(sourceSets["main"])
}
This makes them reloadable in the live application which can be helpful at development time.
7. Integrating with Actuator
7.1. Generating build information
Spring Boot Actuator’s info
endpoint automatically publishes information about your
build in the presence of a META-INF/build-info.properties
file. A
BuildInfo
task is provided to generate this file. The easiest way
to use the task is via the plugin’s DSL:
springBoot {
buildInfo()
}
springBoot {
buildInfo()
}
This will configure a BuildInfo
task named bootBuildInfo
and, if
it exists, make the Java plugin’s classes
task depend upon it. The task’s destination
directory will be META-INF
in the output directory of the main source set’s resources
(typically build/resources/main
).
By default, the generated build information is derived from the project:
Property | Default value |
---|---|
|
The base name of the |
|
The group of the project |
|
The name of the project |
|
The version of the project |
|
The time at which the project is being built |
The properties can be customized using the DSL:
springBoot {
buildInfo {
properties {
artifact = 'example-app'
version = '1.2.3'
group = 'com.example'
name = 'Example application'
}
}
}
springBoot {
buildInfo {
properties {
artifact = "example-app"
version = "1.2.3"
group = "com.example"
name = "Example application"
}
}
}
The default value for build.time
is the instant at which the project is being built. A
side-effect of this is that the task will never be up-to-date. As a result, builds will
take longer as more tasks, including the project’s tests, will have to be executed.
Another side-effect is that the task’s output will always change and, therefore, the build
will not be truly repeatable. If you value build performance or repeatability more highly
than the accuracy of the build.time
property, set time
to null
or a fixed value.
Additional properties can also be added to the build information:
springBoot {
buildInfo {
properties {
additional = [
'a': 'alpha',
'b': 'bravo'
]
}
}
}
springBoot {
buildInfo {
properties {
additional = mapOf(
"a" to "alpha",
"b" to "bravo"
)
}
}
}
8. Reacting to other plugins
When another plugin is applied the Spring Boot plugin reacts by making various changes to the project’s configuration. This section describes those changes.
8.1. Reacting to the Java plugin
When Gradle’s java
plugin is applied to a project, the Spring Boot
plugin:
-
Creates a
BootJar
task namedbootJar
that will create an executable, fat jar for the project. The jar will contain everything on the runtime classpath of the main source set; classes are packaged inBOOT-INF/classes
and jars are packaged inBOOT-INF/lib
-
Configures the
assemble
task to depend on thebootJar
task. -
Disables the
jar
task. -
Creates a
BootRun
task namedbootRun
that can be used to run your application. -
Creates a configuration named
bootArchives
that contains the artifact produced by thebootJar
task. -
Configures any
JavaCompile
tasks with no configured encoding to useUTF-8
. -
Configures any
JavaCompile
tasks to use the-parameters
compiler argument.
8.2. Reacting to the Kotlin plugin
When Kotlin’s Gradle plugin is applied to a project, the Spring Boot plugin:
-
Aligns the Kotlin version used in Spring Boot’s dependency management with the version of the plugin. This is achieved by setting the
kotlin.version
property with a value that matches the version of the Kotlin plugin. -
Configures any
KotlinCompile
tasks to use the-java-parameters
compiler argument.
8.3. Reacting to the war plugin
When Gradle’s war
plugin is applied to a project, the Spring Boot plugin:
-
Creates a
BootWar
task namedbootWar
that will create an executable, fat war for the project. In addition to the standard packaging, everything in theprovidedRuntime
configuration will be packaged inWEB-INF/lib-provided
. -
Configures the
assemble
task to depend on thebootWar
task. -
Disables the
war
task. -
Configures the
bootArchives
configuration to contain the artifact produced by thebootWar
task.
8.4. Reacting to the dependency management plugin
When the io.spring.dependency-management
plugin is
applied to a project, the Spring Boot plugin will automatically import the
spring-boot-dependencies
bom.
8.5. Reacting to the application plugin
When Gradle’s application
plugin is applied to a project, the
Spring Boot plugin:
-
Creates a
CreateStartScripts
task namedbootStartScripts
that will create scripts that launch the artifact in thebootArchives
configuration usingjava -jar
. The task is configured to use theapplicationDefaultJvmArgs
property as a convention for itsdefaultJvmOpts
property. -
Creates a new distribution named
boot
and configures it to contain the artifact in thebootArchives
configuration in itslib
directory and the start scripts in itsbin
directory. -
Configures the
bootRun
task to use themainClassName
property as a convention for itsmain
property. -
Configures the
bootRun
task to use theapplicationDefaultJvmArgs
property as a convention for itsjvmArgs
property. -
Configures the
bootJar
task to use themainClassName
property as a convention for theStart-Class
entry in its manifest. -
Configures the
bootWar
task to use themainClassName
property as a convention for theStart-Class
entry in its manifest.
8.6. Reacting to the Maven plugin
When Gradle’s maven
plugin is applied to a project, the Spring Boot
plugin will configure the uploadBootArchives
Upload
task to ensure that no
dependencies are declared in the pom that it generates.