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flutter / mirrors / flutter / refs/heads/main / . / packages / flutter_tools / lib / src / linux / build_linux.dart
blob: 82f6215df59191e1ff82a011276e194d6eda269d [file] [log] [blame]
// Copyright 2014 The Flutter Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
import 'package:unified_analytics/unified_analytics.dart';
import '../artifacts.dart';
import '../base/analyze_size.dart';
import '../base/common.dart';
import '../base/file_system.dart';
import '../base/logger.dart';
import '../base/project_migrator.dart';
import '../base/terminal.dart';
import '../base/utils.dart';
import '../build_info.dart';
import '../cache.dart';
import '../cmake.dart';
import '../cmake_project.dart';
import '../convert.dart';
import '../flutter_plugins.dart';
import '../globals.dart' as globals;
import '../migrations/cmake_custom_command_migration.dart';
import '../migrations/cmake_native_assets_migration.dart';
// Matches the following error and warning patterns:
// - <file path>:<line>:<column>: (fatal) error: <error...>
// - <file path>:<line>:<column>: warning: <warning...>
// - clang: error: <link error...>
// - Error: <tool error...>
final RegExp errorMatcher = RegExp(r'(?:(?:.*:\d+:\d+|clang):\s)?(fatal\s)?(?:error|warning):\s.*', caseSensitive: false);
/// Builds the Linux project through the Makefile.
Future<void> buildLinux(
LinuxProject linuxProject,
BuildInfo buildInfo, {
String? target,
SizeAnalyzer? sizeAnalyzer,
bool needCrossBuild = false,
required TargetPlatform targetPlatform,
String targetSysroot = '/',
required Logger logger,
}) async {
target ??= 'lib/main.dart';
if (!linuxProject.cmakeFile.existsSync()) {
throwToolExit('No Linux desktop project configured. See '
'https://docs.flutter.dev/desktop#add-desktop-support-to-an-existing-flutter-app '
'to learn about adding Linux support to a project.');
}
final List<ProjectMigrator> migrators = <ProjectMigrator>[
CmakeCustomCommandMigration(linuxProject, logger),
CmakeNativeAssetsMigration(linuxProject, 'linux', logger),
];
final ProjectMigration migration = ProjectMigration(migrators);
await migration.run();
// Build the environment that needs to be set for the re-entrant flutter build
// step.
final Map<String, String> environmentConfig = buildInfo.toEnvironmentConfig();
environmentConfig['FLUTTER_TARGET'] = target;
final LocalEngineInfo? localEngineInfo = globals.artifacts?.localEngineInfo;
if (localEngineInfo != null) {
final String targetOutPath = localEngineInfo.targetOutPath;
// $ENGINE/src/out/foo_bar_baz -> $ENGINE/src
environmentConfig['FLUTTER_ENGINE'] = globals.fs.path.dirname(globals.fs.path.dirname(targetOutPath));
environmentConfig['LOCAL_ENGINE'] = localEngineInfo.localTargetName;
environmentConfig['LOCAL_ENGINE_HOST'] = localEngineInfo.localHostName;
}
writeGeneratedCmakeConfig(Cache.flutterRoot!, linuxProject, buildInfo, environmentConfig, logger);
createPluginSymlinks(linuxProject.parent);
final Status status = logger.startProgress(
'Building Linux application...',
);
final String buildModeName = buildInfo.mode.cliName;
final Directory platformBuildDirectory = globals.fs.directory(getLinuxBuildDirectory(targetPlatform));
final Directory buildDirectory = platformBuildDirectory.childDirectory(buildModeName);
try {
await _runCmake(buildModeName, linuxProject.cmakeFile.parent, buildDirectory,
needCrossBuild, targetPlatform, targetSysroot);
await _runBuild(buildDirectory);
} finally {
status.cancel();
}
final String? binaryName = getCmakeExecutableName(linuxProject);
final File binaryFile = buildDirectory
.childDirectory('bundle')
.childFile('$binaryName');
final FileSystemEntity buildOutput = binaryFile.existsSync() ? binaryFile : binaryFile.parent;
// We don't print a size because the output directory can contain
// optional files not needed by the user and because the binary is not
// self-contained.
globals.printStatus(
'${globals.terminal.successMark} '
'Built ${globals.fs.path.relative(buildOutput.path)}',
color: TerminalColor.green,
);
if (buildInfo.codeSizeDirectory != null && sizeAnalyzer != null) {
final String arch = getNameForTargetPlatform(targetPlatform);
final File codeSizeFile = globals.fs.directory(buildInfo.codeSizeDirectory)
.childFile('snapshot.$arch.json');
final File precompilerTrace = globals.fs.directory(buildInfo.codeSizeDirectory)
.childFile('trace.$arch.json');
final Map<String, Object?> output = await sizeAnalyzer.analyzeAotSnapshot(
aotSnapshot: codeSizeFile,
// This analysis is only supported for release builds.
outputDirectory: globals.fs.directory(
globals.fs.path.join(getLinuxBuildDirectory(targetPlatform), 'release', 'bundle'),
),
precompilerTrace: precompilerTrace,
type: 'linux',
);
final File outputFile = globals.fsUtils.getUniqueFile(
globals.fs
.directory(globals.fsUtils.homeDirPath)
.childDirectory('.flutter-devtools'), 'linux-code-size-analysis', 'json',
)..writeAsStringSync(jsonEncode(output));
// This message is used as a sentinel in analyze_apk_size_test.dart
logger.printStatus(
'A summary of your Linux bundle analysis can be found at: ${outputFile.path}',
);
// DevTools expects a file path relative to the .flutter-devtools/ dir.
final String relativeAppSizePath = outputFile.path.split('.flutter-devtools/').last.trim();
logger.printStatus(
'\nTo analyze your app size in Dart DevTools, run the following command:\n'
'dart devtools --appSizeBase=$relativeAppSizePath'
);
}
}
Future<void> _runCmake(String buildModeName, Directory sourceDir, Directory buildDir,
bool needCrossBuild, TargetPlatform targetPlatform, String targetSysroot) async {
final Stopwatch sw = Stopwatch()..start();
await buildDir.create(recursive: true);
final String buildFlag = sentenceCase(buildModeName);
final bool needCrossBuildOptionsForArm64 = needCrossBuild
&& targetPlatform == TargetPlatform.linux_arm64;
int result;
if (!globals.processManager.canRun('cmake')) {
throwToolExit(globals.userMessages.cmakeMissing);
}
result = await globals.processUtils.stream(
<String>[
'cmake',
'-G',
'Ninja',
'-DCMAKE_BUILD_TYPE=$buildFlag',
'-DFLUTTER_TARGET_PLATFORM=${getNameForTargetPlatform(targetPlatform)}',
// Support cross-building for arm64 targets on x64 hosts.
// (Cross-building for x64 on arm64 hosts isn't supported now.)
if (needCrossBuild)
'-DFLUTTER_TARGET_PLATFORM_SYSROOT=$targetSysroot',
if (needCrossBuildOptionsForArm64)
'-DCMAKE_C_COMPILER_TARGET=aarch64-linux-gnu',
if (needCrossBuildOptionsForArm64)
'-DCMAKE_CXX_COMPILER_TARGET=aarch64-linux-gnu',
sourceDir.path,
],
workingDirectory: buildDir.path,
environment: <String, String>{
'CC': 'clang',
'CXX': 'clang++',
},
trace: true,
);
if (result != 0) {
throwToolExit('Unable to generate build files');
}
final Duration elapsedDuration = sw.elapsed;
globals.flutterUsage.sendTiming('build', 'cmake-linux', elapsedDuration);
globals.analytics.send(Event.timing(
workflow: 'build',
variableName: 'cmake-linux',
elapsedMilliseconds: elapsedDuration.inMilliseconds,
));
}
Future<void> _runBuild(Directory buildDir) async {
final Stopwatch sw = Stopwatch()..start();
int result;
try {
result = await globals.processUtils.stream(
<String>[
'ninja',
'-C',
buildDir.path,
'install',
],
environment: <String, String>{
if (globals.logger.isVerbose)
'VERBOSE_SCRIPT_LOGGING': 'true',
if (!globals.logger.isVerbose)
'PREFIXED_ERROR_LOGGING': 'true',
},
trace: true,
stdoutErrorMatcher: errorMatcher,
);
} on ArgumentError {
throwToolExit("ninja not found. Run 'flutter doctor' for more information.");
}
if (result != 0) {
throwToolExit('Build process failed');
}
final Duration elapsedDuration = sw.elapsed;
globals.flutterUsage.sendTiming('build', 'linux-ninja', elapsedDuration);
globals.analytics.send(Event.timing(
workflow: 'build',
variableName: 'linux-ninja',
elapsedMilliseconds: elapsedDuration.inMilliseconds,
));
}