| // Copyright (c) 2016, the Dart project authors. Please see the AUTHORS file |
| // for details. All rights reserved. Use of this source code is governed by a |
| // BSD-style license that can be found in the LICENSE file. |
| |
| /// This is an interface to the Dart Kernel parser and Kernel binary generator. |
| /// |
| /// It is used by the kernel-isolate to load Dart source code and generate |
| /// Kernel binary format. |
| /// |
| /// This is either invoked as the root script of the Kernel isolate when used |
| /// as a part of |
| /// |
| /// dart --dfe=pkg/vm/bin/kernel_service.dart ... |
| /// |
| /// invocation or it is invoked as a standalone script to perform training for |
| /// the app-jit snapshot |
| /// |
| /// dart pkg/vm/bin/kernel_service.dart --train <source-file> |
| /// |
| /// |
| library runtime.tools.kernel_service; |
| |
| import 'dart:async' show Future, ZoneSpecification, runZoned; |
| import 'dart:collection' show UnmodifiableMapBase; |
| import 'dart:convert' show utf8; |
| import 'dart:io' show Platform, stderr hide FileSystemEntity; |
| import 'dart:isolate'; |
| import 'dart:typed_data' show Uint8List; |
| |
| import 'package:build_integration/file_system/multi_root.dart'; |
| import 'package:front_end/src/api_prototype/memory_file_system.dart'; |
| import 'package:front_end/src/api_unstable/vm.dart'; |
| import 'package:kernel/binary/ast_to_binary.dart'; |
| import 'package:kernel/kernel.dart' show Component, Procedure; |
| import 'package:kernel/target/targets.dart' show TargetFlags; |
| import 'package:vm/bytecode/gen_bytecode.dart' show generateBytecode; |
| import 'package:vm/incremental_compiler.dart'; |
| import 'package:vm/kernel_front_end.dart' show runWithFrontEndCompilerContext; |
| import 'package:vm/http_filesystem.dart'; |
| import 'package:vm/target/vm.dart' show VmTarget; |
| import 'package:front_end/src/api_prototype/compiler_options.dart' |
| show CompilerOptions, parseExperimentalFlags; |
| |
| final bool verbose = new bool.fromEnvironment('DFE_VERBOSE'); |
| const String platformKernelFile = 'virtual_platform_kernel.dill'; |
| |
| // NOTE: Any changes to these tags need to be reflected in kernel_isolate.cc |
| // Tags used to indicate different requests to the dart frontend. |
| // |
| // Current tags include the following: |
| // 0 - Perform normal compilation. |
| // 1 - Update in-memory file system with in-memory sources (used by tests). |
| // 2 - Accept last compilation result. |
| // 3 - APP JIT snapshot training run for kernel_service. |
| // 4 - Compile an individual expression in some context (for debugging |
| // purposes). |
| // 5 - List program dependencies (for creating depfiles) |
| // 6 - Isolate shutdown that potentially should result in compiler cleanup. |
| const int kCompileTag = 0; |
| const int kUpdateSourcesTag = 1; |
| const int kAcceptTag = 2; |
| const int kTrainTag = 3; |
| const int kCompileExpressionTag = 4; |
| const int kListDependenciesTag = 5; |
| const int kNotifyIsolateShutdownTag = 6; |
| |
| bool allowDartInternalImport = false; |
| |
| abstract class Compiler { |
| final FileSystem fileSystem; |
| final Uri platformKernelPath; |
| bool suppressWarnings; |
| List<String> experimentalFlags; |
| bool bytecode; |
| String packageConfig; |
| |
| final List<String> errors = new List<String>(); |
| |
| CompilerOptions options; |
| |
| Compiler(this.fileSystem, this.platformKernelPath, |
| {this.suppressWarnings: false, |
| this.experimentalFlags: null, |
| this.bytecode: false, |
| this.packageConfig: null}) { |
| Uri packagesUri = null; |
| if (packageConfig != null) { |
| packagesUri = Uri.parse(packageConfig); |
| } else if (Platform.packageConfig != null) { |
| packagesUri = Uri.parse(Platform.packageConfig); |
| } |
| |
| if (verbose) { |
| print("DFE: Platform.packageConfig: ${Platform.packageConfig}"); |
| print("DFE: packagesUri: ${packagesUri}"); |
| print("DFE: Platform.resolvedExecutable: ${Platform.resolvedExecutable}"); |
| print("DFE: platformKernelPath: ${platformKernelPath}"); |
| } |
| |
| var expFlags = List<String>(); |
| if (experimentalFlags != null) { |
| for (String flag in experimentalFlags) { |
| expFlags.addAll(flag.split(",")); |
| } |
| } |
| |
| options = new CompilerOptions() |
| ..fileSystem = fileSystem |
| ..target = new VmTarget(new TargetFlags()) |
| ..packagesFileUri = packagesUri |
| ..sdkSummary = platformKernelPath |
| ..verbose = verbose |
| ..omitPlatform = true |
| ..bytecode = bytecode |
| ..experimentalFlags = |
| parseExperimentalFlags(expFlags, (msg) => errors.add(msg)) |
| ..environmentDefines = new EnvironmentMap() |
| ..onDiagnostic = (DiagnosticMessage message) { |
| bool printMessage; |
| switch (message.severity) { |
| case Severity.error: |
| case Severity.internalProblem: |
| // TODO(sigmund): support emitting code with errors as long as they |
| // are handled in the generated code. |
| printMessage = false; // errors are printed by VM |
| errors.addAll(message.plainTextFormatted); |
| break; |
| case Severity.warning: |
| printMessage = !suppressWarnings; |
| break; |
| case Severity.errorLegacyWarning: |
| case Severity.context: |
| case Severity.ignored: |
| throw "Unexpected severity: ${message.severity}"; |
| } |
| if (printMessage) { |
| printDiagnosticMessage(message, stderr.writeln); |
| } |
| }; |
| } |
| |
| Future<Component> compile(Uri script) { |
| return runWithPrintToStderr(() async { |
| final component = await compileInternal(script); |
| |
| if (options.bytecode && errors.isEmpty) { |
| await runWithFrontEndCompilerContext(script, options, component, () { |
| // TODO(alexmarkov): pass environment defines |
| generateBytecode(component); |
| }); |
| } |
| |
| return component; |
| }); |
| } |
| |
| Future<Component> compileInternal(Uri script); |
| } |
| |
| // Environment map which looks up environment defines in the VM environment |
| // at runtime. |
| // TODO(askesc): This is a temporary hack to get hold of the environment during |
| // JIT compilation. We use a lazy map accessing the VM runtime environment using |
| // new String.fromEnvironment, since the VM currently does not support providing |
| // the full (isolate specific) environment as a finite, static map. |
| class EnvironmentMap extends UnmodifiableMapBase<String, String> { |
| @override |
| String operator [](Object key) { |
| // The fromEnvironment constructor is specified to throw when called using |
| // new. However, the VM implementation actually looks up the given name in |
| // the environment. |
| return new String.fromEnvironment(key); |
| } |
| |
| @override |
| get keys => throw "Environment map iteration not supported"; |
| } |
| |
| class FileSink implements Sink<List<int>> { |
| MemoryFileSystemEntity entityForUri; |
| List<int> bytes = <int>[]; |
| |
| FileSink(this.entityForUri); |
| |
| @override |
| void add(List<int> data) { |
| bytes.addAll(data); |
| } |
| |
| @override |
| void close() { |
| this.entityForUri.writeAsBytesSync(bytes); |
| } |
| } |
| |
| class IncrementalCompilerWrapper extends Compiler { |
| IncrementalCompiler generator; |
| |
| IncrementalCompilerWrapper(FileSystem fileSystem, Uri platformKernelPath, |
| {bool suppressWarnings: false, |
| List<String> experimentalFlags: null, |
| bool bytecode: false, |
| String packageConfig: null}) |
| : super(fileSystem, platformKernelPath, |
| suppressWarnings: suppressWarnings, |
| experimentalFlags: experimentalFlags, |
| bytecode: bytecode, |
| packageConfig: packageConfig); |
| |
| @override |
| Future<Component> compileInternal(Uri script) async { |
| if (generator == null) { |
| generator = new IncrementalCompiler(options, script); |
| } |
| errors.clear(); |
| return await generator.compile(entryPoint: script); |
| } |
| |
| void accept() => generator.accept(); |
| void invalidate(Uri uri) => generator.invalidate(uri); |
| |
| Future<IncrementalCompilerWrapper> clone(int isolateId) async { |
| IncrementalCompilerWrapper clone = IncrementalCompilerWrapper( |
| fileSystem, platformKernelPath, |
| suppressWarnings: suppressWarnings, |
| experimentalFlags: experimentalFlags, |
| bytecode: bytecode, |
| packageConfig: packageConfig); |
| |
| generator.resetDeltaState(); |
| Component fullComponent = await generator.compile(); |
| |
| // Assume fileSystem is HybridFileSystem because that is the setup where |
| // clone should be used for. |
| MemoryFileSystem memoryFileSystem = (fileSystem as HybridFileSystem).memory; |
| |
| String filename = 'full-component-$isolateId.dill'; |
| Sink sink = FileSink(memoryFileSystem.entityForUri(Uri.file(filename))); |
| new BinaryPrinter(sink).writeComponentFile(fullComponent); |
| await sink.close(); |
| |
| clone.generator = new IncrementalCompiler(options, generator.entryPoint, |
| initializeFromDillUri: Uri.file(filename)); |
| return clone; |
| } |
| } |
| |
| class SingleShotCompilerWrapper extends Compiler { |
| final bool requireMain; |
| |
| SingleShotCompilerWrapper(FileSystem fileSystem, Uri platformKernelPath, |
| {this.requireMain: false, |
| bool suppressWarnings: false, |
| List<String> experimentalFlags: null, |
| bool bytecode: false, |
| String packageConfig: null}) |
| : super(fileSystem, platformKernelPath, |
| suppressWarnings: suppressWarnings, |
| experimentalFlags: experimentalFlags, |
| bytecode: bytecode, |
| packageConfig: packageConfig); |
| |
| @override |
| Future<Component> compileInternal(Uri script) async { |
| return requireMain |
| ? kernelForProgram(script, options) |
| : kernelForComponent([script], options); |
| } |
| } |
| |
| // TODO(33428): This state is leaked on isolate shutdown. |
| final Map<int, IncrementalCompilerWrapper> isolateCompilers = |
| new Map<int, IncrementalCompilerWrapper>(); |
| final Map<int, List<Uri>> isolateDependencies = new Map<int, List<Uri>>(); |
| |
| IncrementalCompilerWrapper lookupIncrementalCompiler(int isolateId) { |
| return isolateCompilers[isolateId]; |
| } |
| |
| Future<Compiler> lookupOrBuildNewIncrementalCompiler(int isolateId, |
| List sourceFiles, Uri platformKernelPath, List<int> platformKernel, |
| {bool suppressWarnings: false, |
| List<String> experimentalFlags: null, |
| bool bytecode: false, |
| String packageConfig: null, |
| String multirootFilepaths, |
| String multirootScheme}) async { |
| IncrementalCompilerWrapper compiler = lookupIncrementalCompiler(isolateId); |
| if (compiler != null) { |
| updateSources(compiler, sourceFiles); |
| invalidateSources(compiler, sourceFiles); |
| } else { |
| // This is how identify scenario where child isolate hot reload requests |
| // requires setting up actual compiler first: non-empty sourceFiles list has |
| // no actual content specified for the source file. |
| if (sourceFiles != null && |
| sourceFiles.length > 0 && |
| sourceFiles[1] == null) { |
| // Just use first compiler that should represent main isolate as a source for cloning. |
| var source = isolateCompilers.entries.first; |
| compiler = await source.value.clone(isolateId); |
| } else { |
| FileSystem fileSystem = _buildFileSystem( |
| sourceFiles, platformKernel, multirootFilepaths, multirootScheme); |
| |
| // TODO(aam): IncrementalCompilerWrapper instance created below have to be |
| // destroyed when corresponding isolate is shut down. To achieve that kernel |
| // isolate needs to receive a message indicating that particular |
| // isolate was shut down. Message should be handled here in this script. |
| compiler = new IncrementalCompilerWrapper(fileSystem, platformKernelPath, |
| suppressWarnings: suppressWarnings, |
| experimentalFlags: experimentalFlags, |
| bytecode: bytecode, |
| packageConfig: packageConfig); |
| } |
| isolateCompilers[isolateId] = compiler; |
| } |
| return compiler; |
| } |
| |
| void updateSources(IncrementalCompilerWrapper compiler, List sourceFiles) { |
| final bool hasMemoryFS = compiler.fileSystem is HybridFileSystem; |
| if (sourceFiles.isNotEmpty) { |
| final FileSystem fs = compiler.fileSystem; |
| for (int i = 0; i < sourceFiles.length ~/ 2; i++) { |
| Uri uri = Uri.parse(sourceFiles[i * 2]); |
| List<int> source = sourceFiles[i * 2 + 1]; |
| // The source is only provided by unit tests and is normally empty. |
| // Don't add an entry for the uri so the compiler will fallback to the |
| // real file system for the updated source. |
| if (hasMemoryFS && source != null) { |
| (fs as HybridFileSystem) |
| .memory |
| .entityForUri(uri) |
| .writeAsBytesSync(source); |
| } |
| } |
| } |
| } |
| |
| void invalidateSources(IncrementalCompilerWrapper compiler, List sourceFiles) { |
| if (sourceFiles.isNotEmpty) { |
| for (int i = 0; i < sourceFiles.length ~/ 2; i++) { |
| compiler.invalidate(Uri.parse(sourceFiles[i * 2])); |
| } |
| } |
| } |
| |
| // Process a request from the runtime. See KernelIsolate::CompileToKernel in |
| // kernel_isolate.cc and Loader::SendKernelRequest in loader.cc. |
| Future _processExpressionCompilationRequest(request) async { |
| final SendPort port = request[1]; |
| final int isolateId = request[2]; |
| final String expression = request[3]; |
| final List<String> definitions = request[4].cast<String>(); |
| final List<String> typeDefinitions = request[5].cast<String>(); |
| final String libraryUri = request[6]; |
| final String klass = request[7]; // might be null |
| final bool isStatic = request[8]; |
| |
| IncrementalCompilerWrapper compiler = isolateCompilers[isolateId]; |
| |
| if (compiler == null) { |
| port.send(new CompilationResult.errors( |
| ["No incremental compiler available for this isolate."], null) |
| .toResponse()); |
| return; |
| } |
| |
| compiler.errors.clear(); |
| |
| CompilationResult result; |
| try { |
| Procedure procedure = await compiler.generator.compileExpression( |
| expression, definitions, typeDefinitions, libraryUri, klass, isStatic); |
| |
| if (procedure == null) { |
| port.send( |
| new CompilationResult.errors(["Invalid scope."], null).toResponse()); |
| return; |
| } |
| |
| if (compiler.errors.isNotEmpty) { |
| // TODO(sigmund): the compiler prints errors to the console, so we |
| // shouldn't print those messages again here. |
| result = new CompilationResult.errors(compiler.errors, null); |
| } else { |
| result = new CompilationResult.ok(serializeProcedure(procedure)); |
| } |
| } catch (error, stack) { |
| result = new CompilationResult.crash(error, stack); |
| } |
| |
| port.send(result.toResponse()); |
| } |
| |
| void _recordDependencies( |
| int isolateId, Component component, String packageConfig) { |
| final dependencies = isolateDependencies[isolateId] ??= new List<Uri>(); |
| |
| if (component != null) { |
| for (var lib in component.libraries) { |
| if (lib.importUri.scheme == "dart") continue; |
| |
| dependencies.add(lib.fileUri); |
| for (var part in lib.parts) { |
| final fileUri = lib.fileUri.resolve(part.partUri); |
| if (fileUri.scheme != "" && fileUri.scheme != "file") { |
| // E.g. part 'package:foo/foo.dart'; |
| // Maybe the front end should resolve this? |
| continue; |
| } |
| dependencies.add(fileUri); |
| } |
| } |
| } |
| |
| if (packageConfig != null) { |
| dependencies.add(Uri.parse(packageConfig)); |
| } |
| } |
| |
| String _escapeDependency(Uri uri) { |
| return uri.toFilePath().replaceAll("\\", "\\\\").replaceAll(" ", "\\ "); |
| } |
| |
| List<int> _serializeDependencies(List<Uri> uris) { |
| return utf8.encode(uris.map(_escapeDependency).join(" ")); |
| } |
| |
| Future _processListDependenciesRequest(request) async { |
| final SendPort port = request[1]; |
| final int isolateId = request[6]; |
| |
| final List<Uri> dependencies = isolateDependencies[isolateId] ?? <Uri>[]; |
| |
| CompilationResult result; |
| try { |
| result = new CompilationResult.ok(_serializeDependencies(dependencies)); |
| } catch (error, stack) { |
| result = new CompilationResult.crash(error, stack); |
| } |
| |
| port.send(result.toResponse()); |
| } |
| |
| Future _processIsolateShutdownNotification(request) async { |
| final int isolateId = request[1]; |
| isolateCompilers.remove(isolateId); |
| isolateDependencies.remove(isolateId); |
| } |
| |
| Future _processLoadRequest(request) async { |
| if (verbose) { |
| for (int i = 0; i < request.length; i++) { |
| var part = request[i]; |
| String partToString = part.toString(); |
| if (partToString.length > 256) { |
| partToString = partToString.substring(0, 255) + "..."; |
| } |
| print("DFE: request[$i]: $partToString"); |
| } |
| } |
| |
| int tag = request[0]; |
| |
| if (tag == kCompileExpressionTag) { |
| await _processExpressionCompilationRequest(request); |
| return; |
| } |
| |
| if (tag == kListDependenciesTag) { |
| await _processListDependenciesRequest(request); |
| return; |
| } |
| |
| if (tag == kNotifyIsolateShutdownTag) { |
| await _processIsolateShutdownNotification(request); |
| return; |
| } |
| |
| final SendPort port = request[1]; |
| final String inputFileUri = request[2]; |
| final Uri script = |
| inputFileUri != null ? Uri.base.resolve(inputFileUri) : null; |
| bool incremental = request[4]; |
| final int isolateId = request[6]; |
| final List sourceFiles = request[7]; |
| final bool suppressWarnings = request[8]; |
| final List<String> experimentalFlags = |
| request[9] != null ? request[9].cast<String>() : null; |
| final bool bytecode = request[10]; |
| final String packageConfig = request[11]; |
| final String multirootFilepaths = request[12]; |
| final String multirootScheme = request[13]; |
| |
| if (bytecode) { |
| // Bytecode generator is hooked into kernel service after kernel component |
| // is produced. In case of incremental compilation resulting component |
| // doesn't have core libraries which are needed for bytecode generation. |
| // TODO(alexmarkov): Support bytecode generation in incremental compiler. |
| incremental = false; |
| } |
| |
| Uri platformKernelPath = null; |
| List<int> platformKernel = null; |
| if (request[3] is String) { |
| platformKernelPath = Uri.base.resolveUri(new Uri.file(request[3])); |
| } else if (request[3] is List<int>) { |
| platformKernelPath = Uri.parse(platformKernelFile); |
| platformKernel = request[3]; |
| } else { |
| platformKernelPath = |
| computePlatformBinariesLocation().resolve('vm_platform_strong.dill'); |
| } |
| |
| Compiler compiler; |
| |
| // Update the in-memory file system with the provided sources. Currently, only |
| // unit tests compile sources that are not on the file system, so this can only |
| // happen during unit tests. |
| if (tag == kUpdateSourcesTag) { |
| assert(incremental, |
| "Incremental compiler required for use of 'kUpdateSourcesTag'"); |
| compiler = lookupIncrementalCompiler(isolateId); |
| assert(compiler != null); |
| updateSources(compiler, sourceFiles); |
| port.send(new CompilationResult.ok(null).toResponse()); |
| return; |
| } else if (tag == kAcceptTag) { |
| assert( |
| incremental, "Incremental compiler required for use of 'kAcceptTag'"); |
| compiler = lookupIncrementalCompiler(isolateId); |
| // There are unit tests that invoke the IncrementalCompiler directly and |
| // request a reload, meaning that we won't have a compiler for this isolate. |
| if (compiler != null) { |
| (compiler as IncrementalCompilerWrapper).accept(); |
| } |
| port.send(new CompilationResult.ok(null).toResponse()); |
| return; |
| } |
| |
| // script should only be null for kUpdateSourcesTag. |
| assert(script != null); |
| |
| // TODO(aam): There should be no need to have an option to choose |
| // one compiler or another. We should always use an incremental |
| // compiler as its functionality is a super set of the other one. We need to |
| // watch the performance though. |
| if (incremental) { |
| compiler = await lookupOrBuildNewIncrementalCompiler( |
| isolateId, sourceFiles, platformKernelPath, platformKernel, |
| suppressWarnings: suppressWarnings, |
| experimentalFlags: experimentalFlags, |
| bytecode: bytecode, |
| packageConfig: packageConfig, |
| multirootFilepaths: multirootFilepaths, |
| multirootScheme: multirootScheme); |
| } else { |
| FileSystem fileSystem = _buildFileSystem( |
| sourceFiles, platformKernel, multirootFilepaths, multirootScheme); |
| compiler = new SingleShotCompilerWrapper(fileSystem, platformKernelPath, |
| requireMain: false, |
| suppressWarnings: suppressWarnings, |
| experimentalFlags: experimentalFlags, |
| bytecode: bytecode, |
| packageConfig: packageConfig); |
| } |
| |
| CompilationResult result; |
| try { |
| if (verbose) { |
| print("DFE: scriptUri: ${script}"); |
| } |
| |
| Component component = await compiler.compile(script); |
| |
| if (compiler.errors.isNotEmpty) { |
| if (component != null) { |
| result = new CompilationResult.errors(compiler.errors, |
| serializeComponent(component, filter: (lib) => !lib.isExternal)); |
| } else { |
| result = new CompilationResult.errors(compiler.errors, null); |
| } |
| } else { |
| // Record dependencies only if compilation was error free. |
| _recordDependencies(isolateId, component, packageConfig); |
| // We serialize the component excluding vm_platform.dill because the VM has |
| // these sources built-in. Everything loaded as a summary in |
| // [kernelForProgram] is marked `external`, so we can use that bit to |
| // decide what to exclude. |
| result = new CompilationResult.ok( |
| serializeComponent(component, filter: (lib) => !lib.isExternal)); |
| } |
| } catch (error, stack) { |
| result = new CompilationResult.crash(error, stack); |
| } |
| |
| if (verbose) print("DFE:> ${result}"); |
| |
| if (tag == kTrainTag) { |
| // In training mode make sure to read the sdk a few more times... |
| ProcessedOptions p = new ProcessedOptions(options: compiler.options); |
| var bytes = await p.loadSdkSummaryBytes(); |
| for (int i = 0; i < 100; i++) { |
| p.loadComponent(bytes, null); |
| } |
| |
| if (result.status != Status.ok) { |
| tag = -tag; |
| } |
| port.send([tag, inputFileUri, inputFileUri, null, result.payload]); |
| } else if (tag == kCompileTag) { |
| port.send(result.toResponse()); |
| } else { |
| port.send([ |
| -tag, |
| inputFileUri, |
| inputFileUri, |
| null, |
| new CompilationResult.errors(<String>["unknown tag"], null).payload |
| ]); |
| } |
| } |
| |
| /// Creates a file system containing the files specified in [sourceFiles] and |
| /// that delegates to the underlying file system for any other file request. |
| /// The [sourceFiles] list interleaves file name string and |
| /// raw file content Uint8List. |
| /// |
| /// The result can be used instead of StandardFileSystem.instance by the |
| /// frontend. |
| FileSystem _buildFileSystem(List sourceFiles, List<int> platformKernel, |
| String multirootFilepaths, String multirootScheme) { |
| FileSystem fileSystem = new HttpAwareFileSystem(StandardFileSystem.instance); |
| |
| if (!sourceFiles.isEmpty || platformKernel != null) { |
| MemoryFileSystem memoryFileSystem = |
| new MemoryFileSystem(Uri.parse('file:///')); |
| if (sourceFiles != null) { |
| for (int i = 0; i < sourceFiles.length ~/ 2; i++) { |
| memoryFileSystem |
| .entityForUri(Uri.parse(sourceFiles[i * 2])) |
| .writeAsBytesSync(sourceFiles[i * 2 + 1]); |
| } |
| } |
| if (platformKernel != null) { |
| memoryFileSystem |
| .entityForUri(Uri.parse(platformKernelFile)) |
| .writeAsBytesSync(platformKernel); |
| } |
| fileSystem = new HybridFileSystem(memoryFileSystem, fileSystem); |
| } |
| |
| if (multirootFilepaths != null) { |
| List<Uri> list = multirootFilepaths |
| .split(',') |
| .map((String s) => Uri.base.resolveUri(new Uri.file(s))) |
| .toList(); |
| fileSystem = new MultiRootFileSystem( |
| multirootScheme ?? "org-dartlang-root", list, fileSystem); |
| } |
| return fileSystem; |
| } |
| |
| train(String scriptUri, String platformKernelPath) { |
| var tag = kTrainTag; |
| var responsePort = new RawReceivePort(); |
| responsePort.handler = (response) { |
| if (response[0] == tag) { |
| // Success. |
| responsePort.close(); |
| } else if (response[0] == -tag) { |
| // Compilation error. |
| throw response[4]; |
| } else { |
| throw "Unexpected response: $response"; |
| } |
| }; |
| var request = [ |
| tag, |
| responsePort.sendPort, |
| scriptUri, |
| platformKernelPath, |
| false /* incremental */, |
| true /* strong */, |
| 1 /* isolateId chosen randomly */, |
| [] /* source files */, |
| false /* suppress warnings */, |
| null /* experimental_flags */, |
| false /* generate bytecode */, |
| null /* package_config */, |
| null /* multirootFilepaths */, |
| null /* multirootScheme */, |
| ]; |
| _processLoadRequest(request); |
| } |
| |
| main([args]) { |
| if ((args?.length ?? 0) > 1 && args[0] == '--train') { |
| // This entry point is used when creating an app snapshot. The argument |
| // provides a script to compile to warm-up generated code. |
| train(args[1], args.length > 2 ? args[2] : null); |
| } else { |
| // Entry point for the Kernel isolate. |
| return new RawReceivePort()..handler = _processLoadRequest; |
| } |
| } |
| |
| /// Compilation status codes. |
| /// |
| /// Note: The [index] property of these constants must match |
| /// `Dart_KernelCompilationStatus` in |
| /// [dart_api.h](../../../../runtime/include/dart_api.h). |
| enum Status { |
| /// Compilation was successful. |
| ok, |
| |
| /// Compilation failed with a compile time error. |
| error, |
| |
| /// Compiler crashed. |
| crash, |
| } |
| |
| abstract class CompilationResult { |
| CompilationResult._(); |
| |
| factory CompilationResult.ok(Uint8List bytes) = _CompilationOk; |
| |
| factory CompilationResult.errors(List<String> errors, Uint8List bytes) = |
| _CompilationError; |
| |
| factory CompilationResult.crash(Object exception, StackTrace stack) = |
| _CompilationCrash; |
| |
| Status get status; |
| |
| get payload; |
| |
| List toResponse() => [status.index, payload]; |
| } |
| |
| class _CompilationOk extends CompilationResult { |
| final Uint8List bytes; |
| |
| _CompilationOk(this.bytes) : super._(); |
| |
| @override |
| Status get status => Status.ok; |
| |
| @override |
| get payload => bytes; |
| |
| String toString() => "_CompilationOk(${bytes.length} bytes)"; |
| } |
| |
| abstract class _CompilationFail extends CompilationResult { |
| _CompilationFail() : super._(); |
| |
| String get errorString; |
| |
| @override |
| get payload => errorString; |
| } |
| |
| class _CompilationError extends _CompilationFail { |
| final Uint8List bytes; |
| final List<String> errors; |
| |
| _CompilationError(this.errors, this.bytes); |
| |
| @override |
| Status get status => Status.error; |
| |
| @override |
| String get errorString => errors.take(10).join('\n'); |
| |
| String toString() => "_CompilationError(${errorString})"; |
| |
| List toResponse() => [status.index, payload, bytes]; |
| } |
| |
| class _CompilationCrash extends _CompilationFail { |
| final Object exception; |
| final StackTrace stack; |
| |
| _CompilationCrash(this.exception, this.stack); |
| |
| @override |
| Status get status => Status.crash; |
| |
| @override |
| String get errorString => "${exception}\n${stack}"; |
| |
| String toString() => "_CompilationCrash(${errorString})"; |
| } |
| |
| Future<T> runWithPrintToStderr<T>(Future<T> f()) { |
| return runZoned(() => new Future<T>(f), |
| zoneSpecification: new ZoneSpecification( |
| print: (_1, _2, _3, String line) => stderr.writeln(line))); |
| } |