import JPMSPlugin.autoImport.javaModuleName import sbt._ import sbt.Keys._ import sbt.internal.inc.{CompileOutput, PlainVirtualFile} import sbt.util.CacheStore import sbtassembly.Assembly.{Dependency, JarEntry, Project} import sbtassembly.{CustomMergeStrategy, MergeStrategy} import xsbti.compile.IncToolOptionsUtil import java.io.File import java.nio.file.attribute.BasicFileAttributes import java.nio.file.{ FileVisitOption, FileVisitResult, Files, Path, SimpleFileVisitor } import scala.collection.mutable /** Collection of utility methods dealing with JPMS modules. * The motivation comes from the update of GraalVM to * [Truffle unchained](https://medium.com/graalvm/truffle-unchained-13887b77b62c) - * we need to add Truffle and Graal related Jars on module-path. * We also need to convert our runtime projects to *explicit modules*, and thus, * all our other projects to *automatic modules*. * @see */ object JPMSUtils { val slf4jVersion = "2.0.9" val logbackClassicVersion = "1.3.7" /** The list of modules that are included in the `component` directory in engine distribution. * When invoking the `java` command, these modules need to be put on the module-path. */ val componentModules: Seq[ModuleID] = GraalVM.modules ++ GraalVM.langsPkgs ++ GraalVM.toolsPkgs ++ Seq( "org.slf4j" % "slf4j-api" % slf4jVersion, "ch.qos.logback" % "logback-classic" % logbackClassicVersion, "ch.qos.logback" % "logback-core" % logbackClassicVersion ) /** Filters modules by their IDs from the given classpath. * * @param cp The classpath to filter * @param modules These modules are looked for in the class path, can be duplicated. * @param shouldContainAll If true, the method will throw an exception if not all modules were found * in the classpath. * @return The classpath with only the provided modules searched by their IDs. */ def filterModulesFromClasspath( cp: Def.Classpath, modules: Seq[ModuleID], log: sbt.util.Logger, shouldContainAll: Boolean = false ): Def.Classpath = { val distinctModules = modules.distinct def shouldFilterModule(module: ModuleID): Boolean = { distinctModules.exists(m => m.organization == module.organization && m.name == module.name && m.revision == module.revision ) } val ret = cp.filter(dep => { val moduleID = dep.metadata.get(AttributeKey[ModuleID]("moduleID")).get shouldFilterModule(moduleID) }) if (shouldContainAll) { if (ret.size < distinctModules.size) { log.error("[JPMSUtils] Not all modules from classpath were found") log.error( "[JPMSUtils] Ensure libraryDependencies and moduleDependencies are correct" ) log.error(s"[JPMSUtils] Returned (${ret.size}): $ret") log.error( s"[JPMSUtils] Expected: (${distinctModules.size}): $distinctModules" ) } } ret } /** Filters all the requested modules from the given [[UpdateReport]]. * * @param updateReport The update report to filter. This is the result of `update.value`. * @param modules The modules to filter from the update report. Can be duplicated. * @param log The logger to use for logging. * @param shouldContainAll If true, the method will log an error if not all modules were found. * @return The list of files (Jar archives, directories, etc.) that were found in the update report. */ def filterModulesFromUpdate( updateReport: UpdateReport, modules: Seq[ModuleID], log: sbt.util.Logger, shouldContainAll: Boolean = false ): Seq[File] = { val distinctModules = modules.distinct def shouldFilterModule(module: ModuleID): Boolean = { distinctModules.exists(m => m.organization == module.organization && m.name == module.name && m.revision == module.revision ) } val foundFiles = updateReport.select( module = shouldFilterModule ) if (shouldContainAll) { if (foundFiles.size < distinctModules.size) { log.error("[JPMSUtils] Not all modules from update were found") log.error( "[JPMSUtils] Ensure libraryDependencies and moduleDependencies are correct" ) log.error(s"[JPMSUtils] Returned (${foundFiles.size}): $foundFiles") log.error( s"[JPMSUtils] Expected: (${distinctModules.size}): $distinctModules" ) } } foundFiles } def filterArtifacts( classPath: Def.Classpath, predicates: String* ): Def.Classpath = { val truffleRelatedArtifacts = classPath.filter(file => predicates.exists(p => file.data.getPath.contains(p)) ) truffleRelatedArtifacts } lazy val extraMp = taskKey[Def.Classpath]( "Additional internal projects to put on the module path" ) /** Compiles a single `module-info.java` source file with the default java compiler ( * the one that is defined for the project). Before the module-info is compiled, all the * class files from `scopeFilter` are copied into the `target` directory of the current project. * This is because we want the `module-info.java` to be an *Uber module-info* that is defined for * multiple sbt projects, like `runtime` and `runtime-with-instruments`, so before the `module-info.java` * is passed to the compiler, we need to copy all the classes from the sbt projects into a single directory * so that the compiler has an illusion that all these projects are in fact a single project. * * Note that sbt is not able to correctly handle `module-info.java` files when * compilation order is defined to mixed order. * * Compilation of `module-info.java` is skipped iff none of all the classes from all the dependencies * changed and if the `module-info.java` itself have not changed. * * To put internal modules (any sbt project defined in `build.sbt`) on module path, use `extraMp` setting. * * Note that this task will only work if it is defined inside `Compile` scope. In other words, it won't work * e.g. in `Test` scope. * * @param copyDepsFilter The filter of scopes of the projects from which the class files are first * copied into the `target` directory before `module-info.java` is compiled. * @param modulePath IDs of dependencies that should be put on the module path. The modules * put into `modulePath` are filtered away from class-path, so that module-path * and class-path passed to the `javac` are exclusive. * * @see https://users.scala-lang.org/t/scala-jdk-11-and-jpms/6102/19 */ def compileModuleInfo( copyDepsFilter: ScopeFilter, modulePath: Seq[ModuleID] = Seq() ): Def.Initialize[Task[Unit]] = Def .task { val moduleInfo = (Compile / javaSource).value / "module-info.java" val log = streams.value.log val incToolOpts = IncToolOptionsUtil.defaultIncToolOptions() val reporter = (Compile / compile / bspReporter).value val output = CompileOutput((Compile / classDirectory).value.toPath) // Target directory where all the classes from all the dependencies will be // copied to. val outputPath: Path = output.getSingleOutputAsPath .get() // Class directories of all the dependencies. val sourceProducts = productDirectories.all(copyDepsFilter).value.flatten val extraModuleDirs = (Compile / extraMp).value.map(_.data) val moduleName = javaModuleName.value val cacheStore = streams.value.cacheStoreFactory val repoRootDir = (LocalProject("enso") / baseDirectory).value var someDepChanged = false sourceProducts.foreach(sourceProduct => { if (!sourceProduct.exists()) { log.error(s"Source product ${sourceProduct} does not exist") log.error( "This means that the Compile/compile task was probably not run in " + "the corresponding project" ) log.error("Run Compile/compile before this task") } val relPath = repoRootDir.toPath.relativize(sourceProduct.toPath) val cache = cacheStore.make("cache-" + relPath.toString) val depChanged = copyClasses(sourceProduct, output, cache, log) if (depChanged) { someDepChanged = true } }) val baseJavacOpts = (Compile / javacOptions).value val fullCp = (Compile / fullClasspath).value val javaCompiler = (Compile / compile / compilers).value.javaTools.javac() // Skip module-info.java compilation if the source have not changed // Force the compilation if some class file from one of the dependencies changed, // just to be sure that we don't cause any weird compilation errors. val moduleInfoCache = cacheStore.make("cache-module-info-" + moduleName) Tracked.diffInputs(moduleInfoCache, FileInfo.lastModified)( Set(moduleInfo) ) { changeReport => if ( someDepChanged || changeReport.modified.nonEmpty || changeReport.added.nonEmpty ) { log.info(s"Compiling $moduleInfo with javac") val (mp, cp) = fullCp.partition(file => { val moduleID = file.metadata.get(AttributeKey[ModuleID]("moduleID")).get modulePath.exists(mod => { mod.organization == moduleID.organization && mod.name == moduleID.name && mod.revision == moduleID.revision }) }) val allDirsOnMp = mp.map(_.data) ++ extraModuleDirs val allOpts = baseJavacOpts ++ Seq( "--class-path", cp.map(_.data.getAbsolutePath).mkString(File.pathSeparator), "--module-path", allDirsOnMp.map(_.getAbsolutePath).mkString(File.pathSeparator), "-d", outputPath.toAbsolutePath.toString ) log.debug(s"javac options: $allOpts") val succ = javaCompiler.run( Array(PlainVirtualFile(moduleInfo.toPath)), allOpts.toArray, output, incToolOpts, reporter, log ) if (!succ) { val msg = s"Compilation of ${moduleInfo} failed" log.error(s"javac options: $allOpts") log.error(msg) throw new IllegalStateException(msg) } } } } /** Copies all classes from all the dependencies `classes` directories into the target directory. * @param sourceClassesDir Directory from where the classes will be copied. * @param output Target directory where all the classes from all the dependencies * will be copied to. * @param log * @return True iff some of the dependencies changed, i.e., if there is a modified class file, or * some class file was added, or removed */ private def copyClasses( sourceClassesDir: File, output: xsbti.compile.Output, cache: CacheStore, log: Logger ): Boolean = { require(sourceClassesDir.isDirectory) val outputPath: Path = output.getSingleOutputAsPath.get() val outputDir = outputPath.toFile val filesToCopy = mutable.HashSet.empty[File] val fileVisitor = new SimpleFileVisitor[Path] { override def visitFile( path: Path, attrs: BasicFileAttributes ): FileVisitResult = { if (!path.toFile.isDirectory) { filesToCopy.add(path.toFile) } FileVisitResult.CONTINUE } override def preVisitDirectory( dir: Path, attrs: BasicFileAttributes ): FileVisitResult = { // We do not care about files in META-INF directory. Everything should be described // in the `module-info.java`. if (dir.getFileName.toString == "META-INF") { FileVisitResult.SKIP_SUBTREE } else { FileVisitResult.CONTINUE } } } Files.walkFileTree(sourceClassesDir.toPath, fileVisitor) if (!outputDir.exists()) { IO.createDirectory(outputDir) } var someDependencyChanged = false Tracked.diffInputs(cache, FileInfo.lastModified)(filesToCopy.toSet) { changeReport => for (f <- changeReport.removed) { val relPath = sourceClassesDir.toPath.relativize(f.toPath) val dest = outputDir.toPath.resolve(relPath) IO.delete(dest.toFile) someDependencyChanged = true } for (f <- changeReport.modified -- changeReport.removed) { val relPath = sourceClassesDir.toPath.relativize(f.toPath) val dest = outputDir.toPath.resolve(relPath) IO.copyFile(f, dest.toFile) someDependencyChanged = true } for (f <- changeReport.unmodified) { val relPath = sourceClassesDir.toPath.relativize(f.toPath) val dest = outputDir.toPath.resolve(relPath) if (!dest.toFile.exists()) { IO.copyFile(f, dest.toFile) someDependencyChanged = true } } } someDependencyChanged } }