This plugin makes it easy to generate native-image binaries with sbt. Key features:

• automatic GraalVM native-image installation powered by Coursier, no need to start sbt with a custom $JAVA_HOME or spin up Docker. See One-click install for Scala for more details.
• automatic support for Scala 2.12.12+ and 2.13.3+, no need to deal with issues like scala/bug#11634.
• works with Scala 3 (Dotty)
• get a notification when the binary is ready to use.
• works on macOS, Windows and Linux.
• works with Java 8 and Java 11.

Overview:

• Getting started
• Configuration
• Generate native-image from GitHub Actions
• Comparison with sbt-native-packager

First, add the sbt plugin to your build in project/plugins.sbt.

// project/plugins.sbt
addSbtPlugin("org.scalameta" % "sbt-native-image" % "0.3.2")

Next, enable the plugin to your native-image application in build.sbt and configure the main class.

  // build.sbt
  lazy val myNativeImageProject = project
+   .enablePlugins(NativeImagePlugin)
    .settings(
      // ...
+     Compile / mainClass := Some("com.my.MainClass")
    )

Additionally, if your app uses reflection or JNI, you may need to run nativeImageRunAgent command to capture runtime information. For more details, see nativeImageRunAgent section.

Finally, run the nativeImage task to generate the binary.

$ sbt
> myNativeImageProject/nativeImage
...
[info] Native image ready!
[info] /path/to/your/binary

Optionally, use nativeImageRun to execute the generated binary and manually test that it works as expected.

> myNativeImageProject/nativeImageRun argument1 argument 2
# output from your native-image binary

sbt-native-image provides several settings, tasks and input tasks to customize native-image generation and to automate your native-image workflows.

• nativeImage: generate a native image
• nativeImageOptions: customize native image generation
• nativeImageRun: execute the generated native image
• nativeImageCopy: generate a native image and copy the binary
• nativeImageVersion: the GraalVM version to use for native-image
• nativeImageJvm: the GraalVM JVM version to use for native-image
• nativeImageJvmIndex: the index to use for resolving the JVM version
• nativeImageCommand: the command to launch native-image
• nativeImageReady: callback hook when native-image is ready
• nativeImageCoursier: the path to a coursier binary
• nativeImageOutput: the path to the generated native-image binary
• nativeImageInstalled: whether GraalVM is manually installed or should be downloaded with coursier
• nativeImageGraalHome: path to GraalVM home directory
• nativeImageRunAgent: run application, tracking all usages of dynamic features of an execution with native-image-agent
• nativeImageAgentOutputDir: directory where native-image-agent should put generated configurations
• nativeImageAgentMerge: whether native-image-agent should merge generated configurations

Type: TaskKey[File]

Description: runs native-image and returns the resulting binary file.

Example usage: sbt myProject/nativeImage

Type: TaskKey[Seq[String]]

Description: custom native-image linking options. See native-image --help for available options. Empty by default.

Example usage: nativeImageOptions ++= List("--initialize-at-build-time")

Type: InputKey[File]

Description: executes the native-image binary with given arguments. This task can only be used after nativeImage has completed.

Example usage:

• sbt myProject/nativeImage 'myProject/nativeImageRun hello'
• Error: sbt clean myProject/nativeImageRun. Crashes because native-image does not exist.

Type: InputKey[File]

Description: identical to nativeImage except the resulting binary is additionally copied to the provided file. This task is helpful when configuring CI to generate the binary in a specific place.

Example usage:

• sbt 'myProject/nativeImageCopy mybinary-x86_64-apple-darwin'.
• sbt 'myProject/nativeImageCopy mybinary-x86_64-pc-linux'.

Type: SettingKey[String]

Description: the GraalVM version to use.

Default: 20.2.0

Example usage: nativeImageVersion := "19.3.3"

Type: SettingKey[String]

Description: the GraalVM JVM version to use.

Default: "graalvm-java11". Must be one of the combinations below.

Example usage: nativeImageJvm := "graalvm"

Type: SettingKey[String]

Description: the index to use for resolving the JVM version. By default, uses the Cousier JVM index.

Default: "cs". Must be one of: "cs", "jabba".

Example usage: nativeImageJvmIndex := "jabba".

Type: TaskKey[Seq[String]]

Description: the base command that is used to launch native-image.

Default: resolves the command using nativeImageGraalHome task.

Example usage: nativeImageCommand := List("/path/to/native-image")

Type: SettingKey[() => Unit]

Description: a side-effecting callback that is called the native image is ready.

Default: alerts the message "Native image ready!" via the say command-line tool on macOS. Does nothing by default on Linux and Windows.

Type: TaskKey[File]

Description: the path to a coursier binary.

Default: copies a slim bootstrap binary from sbt-native-image resources. This setting is ignored if you customize nativeImageCommand to use something else than Coursier.

Type: SettingKey[File]

Description: the path to the native-image binary that is generated.

Default: target/native-image/NAME where NAME is the name of the sbt project. for available options.

Example usage: nativeImageOutput := file("target") / "my-binary"

Type: SettingKey[Boolean]

Description: whether GraalVM is manually installed or should be downloaded with coursier.

Default: checks if NATIVE_IMAGE_INSTALLED / GRAALVM_INSTALLED environment variables or native-image-installed / graalvm-installed properties are set to true.

Type: TaskKey[Path]

Description: path to GraalVM home directory.

Default: if nativeImageInstalled is true, then tries to read the path from environment variables 1) GRAAL_HOME, 2) GRAALVM_HOME or 3) JAVA_HOME (in given order). Otherwise, automatically installs GraalVM via Coursier. Customize this setting if you prefer to not to use environment variables.

Example usage: nativeImageGraalHome := file("/path/to/graalvm/base/directory").toPath

Type: InputKey[Unit]

Description: run application, tracking all usages of dynamic features of an execution with native-image-agent.

You may need to run this command if your app or any dependency uses reflection or JNI.

Example usage:

First, add the reflection configuration to the native image options

  // build.sbt

lazy val myNativeProject = project
  .settings(
+     nativeImageOptions += s"-H:ReflectionConfigurationFiles=${target.value / "native-image-configs" / "reflect-config.json"}",
+     nativeImageOptions += s"-H:ConfigurationFileDirectories=${target.value / "native-image-configs" }",
+     nativeImageOptions +="-H:+JNI"
  )
  .enablePlugins(NativeImagePlugin)

Then, make sure to generate the reflection configuration with nativeImageRunAgent before running nativeImage.

# Step 0: Start sbt shell.
$ sbt
# Step 1: Run application on the JVM with native-image agent.
> myProject/nativeImageRunAgent " arg1 arg2"
# Step 2: Create native-image binary with assisted configuration.
> myProject/nativeImage
# Step 3: Run native-image that was generated with assisted configuration.
> myProject/nativeImageRun arg1 arg2

Type: SettingKey[File]

Description: directory where native-image-agent should put generated configurations.

Default: baseDirectory.value / "native-image-configs"

Example usage: nativeImageAgentOutputDir := baseDirectory.value / "native-image-agent" / "out"

Type: SettingKey[Boolean]

Description: whether native-image-agent should merge generated configurations.

Default: false

Example usage: nativeImageAgentMerge := true

The easiest way to distribute native-image binaries for Linux and macOS is to build the binaries in CI with GitHub Actions.

1. Copy the native.yml file from this repo into the .github/workflows/ directory in your project.

   mkdir -p .github/workflows && \
     curl -L https://raw.githubusercontent.com/scalameta/sbt-native-image/master/.github/workflows/native.yml > .github/workflows/native.yml
   

2. Edit the file to replace "example" with the name of your binary.

3. Commit your changes.

4. Push your commit to GitHub and see the binary get uploaded as an artifact to the CI job.

5. Create a GitHub release and see the binary get uploaded as assets to the release page.

The sbt-native-packager plugin provides similar support to generate native-image binaries. Check out their documentation at https://sbt-native-packager.readthedocs.io/en/stable/formats/graalvm-native-image.html

The key differences between sbt-native-packager and sbt-native-image are:

• sbt-native-image automatically installs GraalVM native-image by default. You don't need to configure a docker image or manually install a correct GraalVM JDK before starting sbt.
• sbt-native-image automatically works out-of-the-box with Scala 2.12.12+ and 2.13.3+. You don't need custom settings to work around issues like like scala/bug#11634.
• sbt-native-image displays live progress output from the native-image while it's generating the binary. For some reason, sbt-native-packager only displays output from native-image after the process completes (see issue #1345).
• sbt-native-packager has Docker support, which is helpful if you need more fine-grained control over the linking environment. There are no plans to add Docker support in sbt-native-image.