runtime/tests/vm/dart/use_flag_test_helper.dart - sdk.git - Git at Google

 // Copyright (c) 2019, 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.

 import 'dart:convert';
 import 'dart:io';

 import 'package:expect/expect.dart';
 import 'package:path/path.dart' as path;

 final isAOTRuntime = path.basenameWithoutExtension(Platform.executable) ==
     'dart_precompiled_runtime';
 final buildDir = path.dirname(Platform.executable);
 final sdkDir = path.dirname(path.dirname(buildDir));
 final platformDill = path.join(buildDir, 'vm_platform_strong.dill');
 final genKernel = path.join(sdkDir, 'pkg', 'vm', 'tool',
     'gen_kernel' + (Platform.isWindows ? '.bat' : ''));
 final _genSnapshotBase = 'gen_snapshot' + (Platform.isWindows ? '.exe' : '');
 // Slight hack to work around issue that gen_snapshot for simarm_x64 is not
 // in the same subdirectory as dart_precompiled_runtime (${MODE}SIMARM), but
 // instead it's in ${MODE}SIMARM_X64.
 final genSnapshot = File(path.join(buildDir, _genSnapshotBase)).existsSync()
     ? path.join(buildDir, _genSnapshotBase)
     : path.join(buildDir + '_X64', _genSnapshotBase);
 final aotRuntime = path.join(
     buildDir, 'dart_precompiled_runtime' + (Platform.isWindows ? '.exe' : ''));

 String? get clangBuildToolsDir {
   String archDir;
   if (Platform.isLinux) {
     archDir = 'linux-x64';
   } else if (Platform.isMacOS) {
     archDir = 'mac-x64';
   } else {
     return null;
   }
   var clangDir = path.join(sdkDir, 'buildtools', archDir, 'clang', 'bin');
   return Directory(clangDir).existsSync() ? clangDir : null;
 }

 Future<void> assembleSnapshot(String assemblyPath, String snapshotPath) async {
   if (!Platform.isLinux && !Platform.isMacOS) {
     throw "Unsupported platform ${Platform.operatingSystem} for assembling";
   }

   final ccFlags = <String>[];
   final ldFlags = <String>[];
   String cc = 'gcc';
   String shared = '-shared';

   if (Platform.isMacOS) {
     cc = 'clang';
   } else if (buildDir.endsWith('SIMARM') || buildDir.endsWith('SIMARM64')) {
     final clangBuildTools = clangBuildToolsDir;
     if (clangBuildTools != null) {
       cc = path.join(clangBuildTools, 'clang');
     } else {
       throw 'Cannot assemble for ${path.basename(buildDir)} '
           'without //buildtools on ${Platform.operatingSystem}';
     }
   }

   if (Platform.isMacOS) {
     shared = '-dynamiclib';
     // Tell Mac linker to give up generating eh_frame from dwarf.
     ldFlags.add('-Wl,-no_compact_unwind');
   } else if (buildDir.endsWith('SIMARM')) {
     ccFlags.add('--target=armv7-linux-gnueabihf');
   } else if (buildDir.endsWith('SIMARM64')) {
     ccFlags.add('--target=aarch64-linux-gnu');
   }

   if (buildDir.endsWith('X64') || buildDir.endsWith('SIMARM64')) {
     ccFlags.add('-m64');
   }

   await run(cc, <String>[
     ...ccFlags,
     ...ldFlags,
     shared,
     '-nostdlib',
     '-o',
     snapshotPath,
     assemblyPath,
   ]);
 }

 Future<void> stripSnapshot(String snapshotPath, String strippedPath,
     {bool forceElf = false}) async {
   if (!Platform.isLinux && !Platform.isMacOS) {
     throw "Unsupported platform ${Platform.operatingSystem} for stripping";
   }

   var strip = 'strip';

   if ((Platform.isLinux &&
           (buildDir.endsWith('SIMARM') || buildDir.endsWith('SIMARM64'))) ||
       (Platform.isMacOS && forceElf)) {
     final clangBuildTools = clangBuildToolsDir;
     if (clangBuildTools != null) {
       strip = path.join(clangBuildTools, 'llvm-strip');
     } else {
       throw 'Cannot strip ELF files for ${path.basename(buildDir)} '
           'without //buildtools on ${Platform.operatingSystem}';
     }
   }

   await run(strip, <String>[
     '-o',
     strippedPath,
     snapshotPath,
   ]);
 }

 Future<ProcessResult> runHelper(String executable, List<String> args) async {
   print('Running $executable ${args.join(' ')}');

   final result = await Process.run(executable, args);
   if (result.stdout.isNotEmpty) {
     print('Subcommand stdout:');
     print(result.stdout);
   }
   if (result.stderr.isNotEmpty) {
     print('Subcommand stderr:');
     print(result.stderr);
   }

   return result;
 }

 Future<bool> testExecutable(String executable) async {
   try {
     final result = await runHelper(executable, <String>['--version']);
     return result.exitCode == 0;
   } on ProcessException catch (e) {
     print('Got process exception: $e');
     return false;
   }
 }

 Future<void> run(String executable, List<String> args) async {
   final result = await runHelper(executable, args);

   if (result.exitCode != 0) {
     throw 'Command failed with unexpected exit code (was ${result.exitCode})';
   }
 }

 Future<List<String>> runOutput(String executable, List<String> args) async {
   final result = await runHelper(executable, args);

   if (result.exitCode != 0) {
     throw 'Command failed with unexpected exit code (was ${result.exitCode})';
   }
   Expect.isTrue(result.stdout.isNotEmpty);
   Expect.isTrue(result.stderr.isEmpty);

   return await Stream.value(result.stdout as String)
       .transform(const LineSplitter())
       .toList();
 }

 Future<List<String>> runError(String executable, List<String> args) async {
   final result = await runHelper(executable, args);

   if (result.exitCode == 0) {
     throw 'Command did not fail with non-zero exit code';
   }
   Expect.isTrue(result.stdout.isEmpty);
   Expect.isTrue(result.stderr.isNotEmpty);

   return await Stream.value(result.stderr as String)
       .transform(const LineSplitter())
       .toList();
 }

 const keepTempKey = 'KEEP_TEMPORARY_DIRECTORIES';

 Future<void> withTempDir(String name, Future<void> fun(String dir)) async {
   final tempDir = Directory.systemTemp.createTempSync(name);
   try {
     await fun(tempDir.path);
   } finally {
     if (!Platform.environment.containsKey(keepTempKey) ||
         Platform.environment[keepTempKey]!.isEmpty) {
       tempDir.deleteSync(recursive: true);
     }
   }
 }
	// Copyright (c) 2019, 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.

	import 'dart:convert';
	import 'dart:io';

	import 'package:expect/expect.dart';
	import 'package:path/path.dart' as path;

	final isAOTRuntime = path.basenameWithoutExtension(Platform.executable) ==
	'dart_precompiled_runtime';
	final buildDir = path.dirname(Platform.executable);
	final sdkDir = path.dirname(path.dirname(buildDir));
	final platformDill = path.join(buildDir, 'vm_platform_strong.dill');
	final genKernel = path.join(sdkDir, 'pkg', 'vm', 'tool',
	'gen_kernel' + (Platform.isWindows ? '.bat' : ''));
	final _genSnapshotBase = 'gen_snapshot' + (Platform.isWindows ? '.exe' : '');
	// Slight hack to work around issue that gen_snapshot for simarm_x64 is not
	// in the same subdirectory as dart_precompiled_runtime (${MODE}SIMARM), but
	// instead it's in ${MODE}SIMARM_X64.
	final genSnapshot = File(path.join(buildDir, _genSnapshotBase)).existsSync()
	? path.join(buildDir, _genSnapshotBase)
	: path.join(buildDir + '_X64', _genSnapshotBase);
	final aotRuntime = path.join(
	buildDir, 'dart_precompiled_runtime' + (Platform.isWindows ? '.exe' : ''));

	String? get clangBuildToolsDir {
	String archDir;
	if (Platform.isLinux) {
	archDir = 'linux-x64';
	} else if (Platform.isMacOS) {
	archDir = 'mac-x64';
	} else {
	return null;
	}
	var clangDir = path.join(sdkDir, 'buildtools', archDir, 'clang', 'bin');
	return Directory(clangDir).existsSync() ? clangDir : null;
	}

	Future<void> assembleSnapshot(String assemblyPath, String snapshotPath) async {
	if (!Platform.isLinux && !Platform.isMacOS) {
	throw "Unsupported platform ${Platform.operatingSystem} for assembling";
	}

	final ccFlags = <String>[];
	final ldFlags = <String>[];
	String cc = 'gcc';
	String shared = '-shared';

	if (Platform.isMacOS) {
	cc = 'clang';
	} else if (buildDir.endsWith('SIMARM') \|\| buildDir.endsWith('SIMARM64')) {
	final clangBuildTools = clangBuildToolsDir;
	if (clangBuildTools != null) {
	cc = path.join(clangBuildTools, 'clang');
	} else {
	throw 'Cannot assemble for ${path.basename(buildDir)} '
	'without //buildtools on ${Platform.operatingSystem}';
	}
	}

	if (Platform.isMacOS) {
	shared = '-dynamiclib';
	// Tell Mac linker to give up generating eh_frame from dwarf.
	ldFlags.add('-Wl,-no_compact_unwind');
	} else if (buildDir.endsWith('SIMARM')) {
	ccFlags.add('--target=armv7-linux-gnueabihf');
	} else if (buildDir.endsWith('SIMARM64')) {
	ccFlags.add('--target=aarch64-linux-gnu');
	}

	if (buildDir.endsWith('X64') \|\| buildDir.endsWith('SIMARM64')) {
	ccFlags.add('-m64');
	}

	await run(cc, <String>[
	...ccFlags,
	...ldFlags,
	shared,
	'-nostdlib',
	'-o',
	snapshotPath,
	assemblyPath,
	]);
	}

	Future<void> stripSnapshot(String snapshotPath, String strippedPath,
	{bool forceElf = false}) async {
	if (!Platform.isLinux && !Platform.isMacOS) {
	throw "Unsupported platform ${Platform.operatingSystem} for stripping";
	}

	var strip = 'strip';

	if ((Platform.isLinux &&
	(buildDir.endsWith('SIMARM') \|\| buildDir.endsWith('SIMARM64'))) \|\|
	(Platform.isMacOS && forceElf)) {
	final clangBuildTools = clangBuildToolsDir;
	if (clangBuildTools != null) {
	strip = path.join(clangBuildTools, 'llvm-strip');
	} else {
	throw 'Cannot strip ELF files for ${path.basename(buildDir)} '
	'without //buildtools on ${Platform.operatingSystem}';
	}
	}

	await run(strip, <String>[
	'-o',
	strippedPath,
	snapshotPath,
	]);
	}

	Future<ProcessResult> runHelper(String executable, List<String> args) async {
	print('Running $executable ${args.join(' ')}');

	final result = await Process.run(executable, args);
	if (result.stdout.isNotEmpty) {
	print('Subcommand stdout:');
	print(result.stdout);
	}
	if (result.stderr.isNotEmpty) {
	print('Subcommand stderr:');
	print(result.stderr);
	}

	return result;
	}

	Future<bool> testExecutable(String executable) async {
	try {
	final result = await runHelper(executable, <String>['--version']);
	return result.exitCode == 0;
	} on ProcessException catch (e) {
	print('Got process exception: $e');
	return false;
	}
	}

	Future<void> run(String executable, List<String> args) async {
	final result = await runHelper(executable, args);

	if (result.exitCode != 0) {
	throw 'Command failed with unexpected exit code (was ${result.exitCode})';
	}
	}

	Future<List<String>> runOutput(String executable, List<String> args) async {
	final result = await runHelper(executable, args);

	if (result.exitCode != 0) {
	throw 'Command failed with unexpected exit code (was ${result.exitCode})';
	}
	Expect.isTrue(result.stdout.isNotEmpty);
	Expect.isTrue(result.stderr.isEmpty);

	return await Stream.value(result.stdout as String)
	.transform(const LineSplitter())
	.toList();
	}

	Future<List<String>> runError(String executable, List<String> args) async {
	final result = await runHelper(executable, args);

	if (result.exitCode == 0) {
	throw 'Command did not fail with non-zero exit code';
	}
	Expect.isTrue(result.stdout.isEmpty);
	Expect.isTrue(result.stderr.isNotEmpty);

	return await Stream.value(result.stderr as String)
	.transform(const LineSplitter())
	.toList();
	}

	const keepTempKey = 'KEEP_TEMPORARY_DIRECTORIES';

	Future<void> withTempDir(String name, Future<void> fun(String dir)) async {
	final tempDir = Directory.systemTemp.createTempSync(name);
	try {
	await fun(tempDir.path);
	} finally {
	if (!Platform.environment.containsKey(keepTempKey) \|\|
	Platform.environment[keepTempKey]!.isEmpty) {
	tempDir.deleteSync(recursive: true);
	}
	}
	}