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sbt-jni

A suite of sbt plugins for simplifying creation and distribution of JNI programs.

Motivation

Java Native Interface (JNI), is a framework that enables programs written in a JVM language to interact with native code and vice-versa. Such programs can be divided into two logical parts: the JVM part, consisting of sources that will be compiled to bytecode (e.g. Scala or Java), and the native part, consisting of sources that will be compiled to machine-native code (e.g. C, C++ or assembly).

Using native code can be beneficial in some situations: it can, for example, provide raw performance boosts or enable otherwise infeasable features such as interaction with peripherals. However, it also adds a few layers of complexities, most notably:

  • Compilation: the project is divided into two parts, each of which require separate compilation.
  • Portability: native binaries only run on the platform on which they were compiled.
  • Distribution: native binaries must be made available and packaged for every supported platform.

The second point, portability, is inherent to JNI and thus unavoidable. However the first and last points can be greatly simplified with the help of build tools.

Plugin Summary

Plugin Description
JniJavah Adds support for generating headers from classfiles that have @native methods.
JniLoad Makes @nativeLoader annotation available, that injects code to transparently load native libraries.
JniNative Adds sbt wrapper tasks around native build tools to ease building and integrating native libraries.
JniPackage Packages native libraries into multi-platform fat jars. No more manual library installation!

All plugins are made available by adding the following to project/plugins.sbt:

addSbtPlugin("ch.jodersky" % "sbt-jni" % "<latest version>")

where <latest version> refers to the version indicated by the download badge above, or, equivalently, to the latest version available on bintray.

Note that most plugins are enabled in projects by default. Disabling their functionality can be achieved by adding disablePlugins(<plugin>) to the corresponding project definition (for example, should you wish to disable packaging of native libraries).

Plugin Details

JniJavah

Enabled Source
automatic, for all projects JniJavah.scala

This plugin wraps the JDK javah command [^1].

[^1]: Glavo's gjavah is actually used, since javah has been removed from the JDK since version 1.10. If something goes wrong, please open an issue to help us improve it.

Run sbt-javah to generate C header files with prototypes for any methods marked as native. E.g. the following scala class

package org.example
class Adder(val base: Int) {
  @native def plus(term: Int): Int // implemented in a native library
}

will yield this prototype

/*
 * Class:     org_example_Adder
 * Method:    plus
 * Signature: (I)I
 */
JNIEXPORT jint JNICALL Java_org_example_Adder_plus
  (JNIEnv *, jobject, jint);

The header output directory can be configured

target in javah := <dir> // defaults to target/native/include

Note that native methods declared both in Scala and Java are supported. Whereas Scala uses the @native annotation, Java uses the native keyword.

JniLoad

Enabled Source
automatic, for all projects JniLoad.scala

This plugin enables loading native libraries in a safe and transparent manner to the developer (no more explicit, static System.load("library") calls required). It does so by providing a class annotation which injects native loading code to all its annottees. Furthermore, in case a native library is not available on the current java.library.path, the code injected by the annotation will fall back to loading native libraries packaged according to the rules of JniPackage.

Example use:

import ch.jodersky.jni.nativeLoader

// By adding this annotation, there is no need to call
// System.load("adder0") before accessing native methods.
@nativeLoader("adder0")
class Adder(val base: Int) {
  @native def plus(term: Int): Int // implemented in libadder0.so
}

// The application feels like a pure Scala app.
object Main extends App {
  (new Adder(0)).plus(1)
}

Note: this plugin is just a shorthand for adding sbt-jni-macros (the project in macros/) and the scala-macros-paradise (on Scala <= 2.13) projects as provided dependencies.

See the annotation's implementation for details about the injected code.

JniNative

Enabled Source
manual JniNative.scala

JniNative adds the capability of building native code (compiling and linking) to sbt, by interfacing with commonly used build tools.

Since this plugin is basically a command-line wrapper, native build tools must follow certain calling conventions to be compatible. The supported build tools are currently:

  • CMake

An initial, compatible build template can be obtained by running sbt nativeInit <tool>. Once the native build tool initialised, projects are built by calling the sbt nativeCompile task.

Source and output directories are configurable

sourceDirectory in nativeCompile := sourceDirectory.value / "native",
target in nativeCompile := target.value / "native" / (nativePlatform).value,

JniPackage

Enabled Source
automatic, when JniNative enabled JniPackage.scala

This plugin packages native libraries produced by JniNative in a way that they can be transparently loaded with JniLoad. It uses the notion of a native "platform", defined as the architecture-kernel values returned by uname -sm. A native binary of a given platform is assumed to be executable on any machines of the same platform.

Canonical Use

Keep in mind that sbt-jni is a suite of plugins, there are many other use cases. This is a just a description of the most common one.

  1. Define separate sub-projects for JVM and native sources. In myproject/build.sbt:

``scala lazy val core = project in file("myproject-core"). // regular scala code with @native methods dependsOn(native % Runtime) // remove this ifcore` is a library, leave choice to end-user

lazy val native = project in file("myproject-native"). // native code and build script enablePlugin(JniNative) // JniNative needs to be explicitly enabled ``` Note that separate projects are not strictly required. They are strongly recommended nevertheless, as a portability-convenience tradeoff: programs written in a JVM language are expected to run anywhere without recompilation, but including native libraries in jars limits this portability to only platforms of the packaged libraries. Having a separate native project enables the users to easily swap out the native library with their own implementation.

  1. Initialize the native build tool from a template:

Run sbt "nativeInit cmake <libname>"

  1. Implement core project:

This step is identical to building a regular scala project, with the addition that some classes will also contain @native methods.

  1. Generate native headers:

Run sbt javah

  1. Implement native headers:

The function prototypes in the header files must be implemented in native code (such as C, C++) and built into a shared library. Run sbt nativeCompile to call the native build tool and build a shared library.

  1. Build/run/test:

At this point, the project can be tested and run as any standard sbt project. For example, you can publish your project as a library (sbt publish), run it (sbt core/run) or simply run unit tests (sbt test). Packaging and recompiling of the native library will happen transparently.

  1. Develop:

The usual iterative development process. Nothing speial needs to be done, except in case any @native methods are added/removed or their signature changed, then sbt javah needs to be run again.

Examples

The plugins' unit tests offer some simple examples. They can be run individually through these steps:

  1. Publish the macros library locally sbt publishLocal.
  2. Change to the test's directory and run sbt -Dplugin.version=<version>.
  3. Follow the instructions in the test file (only enter the lines that start with ">" into sbt).

Real-world use-cases of sbt-jni include:

Requirements and Dependencies

  • projects using JniLoad must use Scala versions 2.11, 2.12 or 2.13
  • only POSIX platforms are supported (actually, any platform that has the uname command available)

The goal of sbt-jni is to be the least intrusive possible. No transitive dependencies are added to projects using any plugin (some dependencies are added to the provided configuration, however these do not affect any downstream projects).

Building

Both the macro library (sbt-jni-macros) and the sbt plugins (sbt-jni) are published. Cross-building happens on a per-project basis:

  • sbt-jni-macros is built against Scala 2.11, 2.12 and 2.13
  • sbt-jni is built against Scala 2.12 (the Scala version that sbt 1.x uses)

The differing Scala versions make it necessary to always cross-compile and cross-publish this project, i.e. append a "+" before every task.

Run sbt +publishLocal to build and use this plugin locally.

Copying

This project is released under the terms of the 3-clause BSD license. See LICENSE for details.