blob: 32220f0613bbb1fbab418c7e59c83dadf0721d73 [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:crypto/crypto.dart';
import 'package:meta/meta.dart';
import 'package:process/process.dart';
import 'package:xml/xml.dart';
import '../artifacts.dart';
import '../base/analyze_size.dart';
import '../base/common.dart';
import '../base/deferred_component.dart';
import '../base/file_system.dart';
import '../base/io.dart';
import '../base/logger.dart';
import '../base/platform.dart';
import '../base/process.dart';
import '../base/terminal.dart';
import '../base/utils.dart';
import '../build_info.dart';
import '../cache.dart';
import '../convert.dart';
import '../flutter_manifest.dart';
import '../project.dart';
import '../reporting/reporting.dart';
import 'android_builder.dart';
import 'android_studio.dart';
import 'gradle_errors.dart';
import 'gradle_utils.dart';
import 'multidex.dart';
/// The directory where the APK artifact is generated.
Directory getApkDirectory(FlutterProject project) {
return project.isModule
? project.android.buildDirectory
.childDirectory('host')
.childDirectory('outputs')
.childDirectory('apk')
: project.android.buildDirectory
.childDirectory('app')
.childDirectory('outputs')
.childDirectory('flutter-apk');
}
/// The directory where the app bundle artifact is generated.
@visibleForTesting
Directory getBundleDirectory(FlutterProject project) {
return project.isModule
? project.android.buildDirectory
.childDirectory('host')
.childDirectory('outputs')
.childDirectory('bundle')
: project.android.buildDirectory
.childDirectory('app')
.childDirectory('outputs')
.childDirectory('bundle');
}
/// The directory where the repo is generated.
/// Only applicable to AARs.
Directory getRepoDirectory(Directory buildDirectory) {
return buildDirectory
.childDirectory('outputs')
.childDirectory('repo');
}
/// Returns the name of Gradle task that starts with [prefix].
String _taskFor(String prefix, BuildInfo buildInfo) {
final String buildType = camelCase(buildInfo.modeName);
final String productFlavor = buildInfo.flavor ?? '';
return '$prefix${sentenceCase(productFlavor)}${sentenceCase(buildType)}';
}
/// Returns the task to build an APK.
@visibleForTesting
String getAssembleTaskFor(BuildInfo buildInfo) {
return _taskFor('assemble', buildInfo);
}
/// Returns the task to build an AAB.
@visibleForTesting
String getBundleTaskFor(BuildInfo buildInfo) {
return _taskFor('bundle', buildInfo);
}
/// Returns the task to build an AAR.
@visibleForTesting
String getAarTaskFor(BuildInfo buildInfo) {
return _taskFor('assembleAar', buildInfo);
}
/// Returns the output APK file names for a given [AndroidBuildInfo].
///
/// For example, when [splitPerAbi] is true, multiple APKs are created.
Iterable<String> _apkFilesFor(AndroidBuildInfo androidBuildInfo) {
final String buildType = camelCase(androidBuildInfo.buildInfo.modeName);
final String productFlavor = androidBuildInfo.buildInfo.lowerCasedFlavor ?? '';
final String flavorString = productFlavor.isEmpty ? '' : '-$productFlavor';
if (androidBuildInfo.splitPerAbi) {
return androidBuildInfo.targetArchs.map<String>((AndroidArch arch) {
final String abi = getNameForAndroidArch(arch);
return 'app$flavorString-$abi-$buildType.apk';
});
}
return <String>['app$flavorString-$buildType.apk'];
}
/// An implementation of the [AndroidBuilder] that delegates to gradle.
class AndroidGradleBuilder implements AndroidBuilder {
AndroidGradleBuilder({
required Logger logger,
required ProcessManager processManager,
required FileSystem fileSystem,
required Artifacts artifacts,
required Usage usage,
required GradleUtils gradleUtils,
required Platform platform,
}) : _logger = logger,
_fileSystem = fileSystem,
_artifacts = artifacts,
_usage = usage,
_gradleUtils = gradleUtils,
_fileSystemUtils = FileSystemUtils(fileSystem: fileSystem, platform: platform),
_processUtils = ProcessUtils(logger: logger, processManager: processManager);
final Logger _logger;
final ProcessUtils _processUtils;
final FileSystem _fileSystem;
final Artifacts _artifacts;
final Usage _usage;
final GradleUtils _gradleUtils;
final FileSystemUtils _fileSystemUtils;
/// Builds the AAR and POM files for the current Flutter module or plugin.
@override
Future<void> buildAar({
required FlutterProject project,
required Set<AndroidBuildInfo> androidBuildInfo,
required String target,
String? outputDirectoryPath,
required String buildNumber,
}) async {
Directory outputDirectory =
_fileSystem.directory(outputDirectoryPath ?? project.android.buildDirectory);
if (project.isModule) {
// Module projects artifacts are located in `build/host`.
outputDirectory = outputDirectory.childDirectory('host');
}
for (final AndroidBuildInfo androidBuildInfo in androidBuildInfo) {
await buildGradleAar(
project: project,
androidBuildInfo: androidBuildInfo,
target: target,
outputDirectory: outputDirectory,
buildNumber: buildNumber,
);
}
printHowToConsumeAar(
buildModes: androidBuildInfo
.map<String>((AndroidBuildInfo androidBuildInfo) {
return androidBuildInfo.buildInfo.modeName;
}).toSet(),
androidPackage: project.manifest.androidPackage,
repoDirectory: getRepoDirectory(outputDirectory),
buildNumber: buildNumber,
logger: _logger,
fileSystem: _fileSystem,
);
}
/// Builds the APK.
@override
Future<void> buildApk({
required FlutterProject project,
required AndroidBuildInfo androidBuildInfo,
required String target,
}) async {
await buildGradleApp(
project: project,
androidBuildInfo: androidBuildInfo,
target: target,
isBuildingBundle: false,
localGradleErrors: gradleErrors,
);
}
/// Builds the App Bundle.
@override
Future<void> buildAab({
required FlutterProject project,
required AndroidBuildInfo androidBuildInfo,
required String target,
bool validateDeferredComponents = true,
bool deferredComponentsEnabled = false,
}) async {
await buildGradleApp(
project: project,
androidBuildInfo: androidBuildInfo,
target: target,
isBuildingBundle: true,
localGradleErrors: gradleErrors,
validateDeferredComponents: validateDeferredComponents,
deferredComponentsEnabled: deferredComponentsEnabled,
);
}
/// Builds an app.
///
/// * [project] is typically [FlutterProject.current()].
/// * [androidBuildInfo] is the build configuration.
/// * [target] is the target dart entry point. Typically, `lib/main.dart`.
/// * If [isBuildingBundle] is `true`, then the output artifact is an `*.aab`,
/// otherwise the output artifact is an `*.apk`.
/// * [retries] is the max number of build retries in case one of the [GradleHandledError] handler
Future<void> buildGradleApp({
required FlutterProject project,
required AndroidBuildInfo androidBuildInfo,
required String target,
required bool isBuildingBundle,
required List<GradleHandledError> localGradleErrors,
bool validateDeferredComponents = true,
bool deferredComponentsEnabled = false,
int retries = 1,
}) async {
assert(project != null);
assert(androidBuildInfo != null);
assert(target != null);
assert(isBuildingBundle != null);
assert(localGradleErrors != null);
if (!project.android.isSupportedVersion) {
_exitWithUnsupportedProjectMessage(_usage, _logger.terminal);
}
final bool usesAndroidX = isAppUsingAndroidX(project.android.hostAppGradleRoot);
if (usesAndroidX) {
BuildEvent('app-using-android-x', type: 'gradle', flutterUsage: _usage).send();
} else if (!usesAndroidX) {
BuildEvent('app-not-using-android-x', type: 'gradle', flutterUsage: _usage).send();
_logger.printStatus("${_logger.terminal.warningMark} Your app isn't using AndroidX.", emphasis: true);
_logger.printStatus(
'To avoid potential build failures, you can quickly migrate your app '
'by following the steps on https://goo.gl/CP92wY .',
indent: 4,
);
}
// The default Gradle script reads the version name and number
// from the local.properties file.
updateLocalProperties(project: project, buildInfo: androidBuildInfo.buildInfo);
final BuildInfo buildInfo = androidBuildInfo.buildInfo;
final String assembleTask = isBuildingBundle
? getBundleTaskFor(buildInfo)
: getAssembleTaskFor(buildInfo);
final Status status = _logger.startProgress(
"Running Gradle task '$assembleTask'...",
);
final List<String> command = <String>[
_gradleUtils.getExecutable(project),
];
if (_logger.isVerbose) {
command.add('-Pverbose=true');
} else {
command.add('-q');
}
if (!buildInfo.androidGradleDaemon) {
command.add('--no-daemon');
}
if (_artifacts is LocalEngineArtifacts) {
final LocalEngineArtifacts localEngineArtifacts = _artifacts as LocalEngineArtifacts;
final Directory localEngineRepo = _getLocalEngineRepo(
engineOutPath: localEngineArtifacts.engineOutPath,
androidBuildInfo: androidBuildInfo,
fileSystem: _fileSystem,
);
_logger.printTrace(
'Using local engine: ${localEngineArtifacts.engineOutPath}\n'
'Local Maven repo: ${localEngineRepo.path}'
);
command.add('-Plocal-engine-repo=${localEngineRepo.path}');
command.add('-Plocal-engine-build-mode=${buildInfo.modeName}');
command.add('-Plocal-engine-out=${localEngineArtifacts.engineOutPath}');
command.add('-Ptarget-platform=${_getTargetPlatformByLocalEnginePath(
localEngineArtifacts.engineOutPath)}');
} else if (androidBuildInfo.targetArchs.isNotEmpty) {
final String targetPlatforms = androidBuildInfo
.targetArchs
.map(getPlatformNameForAndroidArch).join(',');
command.add('-Ptarget-platform=$targetPlatforms');
}
if (target != null) {
command.add('-Ptarget=$target');
}
// Only attempt adding multidex support if all the flutter generated files exist.
// If the files do not exist and it was unintentional, the app will fail to build
// and prompt the developer if they wish Flutter to add the files again via gradle_error.dart.
if (androidBuildInfo.multidexEnabled &&
multiDexApplicationExists(project.directory) &&
androidManifestHasNameVariable(project.directory)) {
command.add('-Pmultidex-enabled=true');
ensureMultiDexApplicationExists(project.directory);
_logger.printStatus('Building with Flutter multidex support enabled.');
}
// If using v1 embedding, we want to use FlutterApplication as the base app.
final String baseApplicationName =
project.android.getEmbeddingVersion() == AndroidEmbeddingVersion.v2 ?
'android.app.Application' :
'io.flutter.app.FlutterApplication';
command.add('-Pbase-application-name=$baseApplicationName');
final List<DeferredComponent>? deferredComponents = project.manifest.deferredComponents;
if (deferredComponents != null) {
if (deferredComponentsEnabled) {
command.add('-Pdeferred-components=true');
androidBuildInfo.buildInfo.dartDefines.add('validate-deferred-components=$validateDeferredComponents');
}
// Pass in deferred components regardless of building split aot to satisfy
// android dynamic features registry in build.gradle.
final List<String> componentNames = <String>[];
for (final DeferredComponent component in deferredComponents) {
componentNames.add(component.name);
}
if (componentNames.isNotEmpty) {
command.add('-Pdeferred-component-names=${componentNames.join(',')}');
// Multi-apk applications cannot use shrinking. This is only relevant when using
// android dynamic feature modules.
_logger.printStatus(
'Shrinking has been disabled for this build due to deferred components. Shrinking is '
'not available for multi-apk applications. This limitation is expected to be removed '
'when Gradle plugin 4.2+ is available in Flutter.', color: TerminalColor.yellow);
command.add('-Pshrink=false');
}
}
command.addAll(androidBuildInfo.buildInfo.toGradleConfig());
if (buildInfo.fileSystemRoots != null && buildInfo.fileSystemRoots.isNotEmpty) {
command.add('-Pfilesystem-roots=${buildInfo.fileSystemRoots.join('|')}');
}
if (buildInfo.fileSystemScheme != null) {
command.add('-Pfilesystem-scheme=${buildInfo.fileSystemScheme}');
}
if (androidBuildInfo.splitPerAbi) {
command.add('-Psplit-per-abi=true');
}
if (androidBuildInfo.fastStart) {
command.add('-Pfast-start=true');
}
command.add(assembleTask);
GradleHandledError? detectedGradleError;
String? detectedGradleErrorLine;
String? consumeLog(String line) {
if (detectedGradleError != null) {
// Pipe stdout/stderr from Gradle.
return line;
}
for (final GradleHandledError gradleError in localGradleErrors) {
if (gradleError.test(line)) {
detectedGradleErrorLine = line;
detectedGradleError = gradleError;
// The first error match wins.
break;
}
}
// Pipe stdout/stderr from Gradle.
return line;
}
final Stopwatch sw = Stopwatch()
..start();
int exitCode = 1;
try {
exitCode = await _processUtils.stream(
command,
workingDirectory: project.android.hostAppGradleRoot.path,
allowReentrantFlutter: true,
environment: <String, String>{
if (javaPath != null)
'JAVA_HOME': javaPath!,
},
mapFunction: consumeLog,
);
} on ProcessException catch (exception) {
consumeLog(exception.toString());
// Rethrow the exception if the error isn't handled by any of the
// `localGradleErrors`.
if (detectedGradleError == null) {
rethrow;
}
} finally {
status.stop();
}
_usage.sendTiming('build', 'gradle', sw.elapsed);
if (exitCode != 0) {
if (detectedGradleError == null) {
BuildEvent('gradle-unknown-failure', type: 'gradle', flutterUsage: _usage).send();
throwToolExit(
'Gradle task $assembleTask failed with exit code $exitCode',
exitCode: exitCode,
);
} else {
final GradleBuildStatus status = await detectedGradleError!.handler(
line: detectedGradleErrorLine!,
project: project,
usesAndroidX: usesAndroidX,
multidexEnabled: androidBuildInfo.multidexEnabled,
);
if (retries >= 1) {
final String successEventLabel = 'gradle-${detectedGradleError!.eventLabel}-success';
switch (status) {
case GradleBuildStatus.retry:
await buildGradleApp(
project: project,
androidBuildInfo: androidBuildInfo,
target: target,
isBuildingBundle: isBuildingBundle,
localGradleErrors: localGradleErrors,
retries: retries - 1,
);
BuildEvent(successEventLabel, type: 'gradle', flutterUsage: _usage).send();
return;
case GradleBuildStatus.exit:
// noop.
}
}
BuildEvent('gradle-${detectedGradleError?.eventLabel}-failure', type: 'gradle', flutterUsage: _usage).send();
throwToolExit(
'Gradle task $assembleTask failed with exit code $exitCode',
exitCode: exitCode,
);
}
}
if (isBuildingBundle) {
final File bundleFile = findBundleFile(project, buildInfo, _logger, _usage);
final String appSize = (buildInfo.mode == BuildMode.debug)
? '' // Don't display the size when building a debug variant.
: ' (${getSizeAsMB(bundleFile.lengthSync())})';
if (buildInfo.codeSizeDirectory != null) {
await _performCodeSizeAnalysis('aab', bundleFile, androidBuildInfo);
}
_logger.printStatus(
'${_logger.terminal.successMark} Built ${_fileSystem.path.relative(bundleFile.path)}$appSize.',
color: TerminalColor.green,
);
return;
}
// Gradle produced an APK.
final Iterable<String> apkFilesPaths = project.isModule
? findApkFilesModule(project, androidBuildInfo, _logger, _usage)
: listApkPaths(androidBuildInfo);
final Directory apkDirectory = getApkDirectory(project);
final File apkFile = apkDirectory.childFile(apkFilesPaths.first);
if (!apkFile.existsSync()) {
_exitWithExpectedFileNotFound(
project: project,
fileExtension: '.apk',
logger: _logger,
usage: _usage,
);
}
// Copy the first APK to app.apk, so `flutter run` can find it.
// TODO(egarciad): Handle multiple APKs.
apkFile.copySync(apkDirectory
.childFile('app.apk')
.path);
_logger.printTrace('calculateSha: $apkDirectory/app.apk');
final File apkShaFile = apkDirectory.childFile('app.apk.sha1');
apkShaFile.writeAsStringSync(_calculateSha(apkFile));
final String appSize = (buildInfo.mode == BuildMode.debug)
? '' // Don't display the size when building a debug variant.
: ' (${getSizeAsMB(apkFile.lengthSync())})';
_logger.printStatus(
'${_logger.terminal.successMark} Built ${_fileSystem.path.relative(apkFile.path)}$appSize.',
color: TerminalColor.green,
);
if (buildInfo.codeSizeDirectory != null) {
await _performCodeSizeAnalysis('apk', apkFile, androidBuildInfo);
}
}
Future<void> _performCodeSizeAnalysis(String kind,
File zipFile,
AndroidBuildInfo androidBuildInfo,) async {
final SizeAnalyzer sizeAnalyzer = SizeAnalyzer(
fileSystem: _fileSystem,
logger: _logger,
flutterUsage: _usage,
);
final String archName = getNameForAndroidArch(androidBuildInfo.targetArchs.single);
final BuildInfo buildInfo = androidBuildInfo.buildInfo;
final File aotSnapshot = _fileSystem.directory(buildInfo.codeSizeDirectory)
.childFile('snapshot.$archName.json');
final File precompilerTrace = _fileSystem.directory(buildInfo.codeSizeDirectory)
.childFile('trace.$archName.json');
final Map<String, Object?> output = await sizeAnalyzer.analyzeZipSizeAndAotSnapshot(
zipFile: zipFile,
aotSnapshot: aotSnapshot,
precompilerTrace: precompilerTrace,
kind: kind,
);
final File outputFile = _fileSystemUtils.getUniqueFile(
_fileSystem
.directory(_fileSystemUtils.homeDirPath)
.childDirectory('.flutter-devtools'), '$kind-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 ${kind.toUpperCase()} analysis can be found at: ${outputFile.path}',
);
// DevTools expects a file path relative to the .flutter-devtools/ dir.
final String relativeAppSizePath = outputFile.path
.split('.flutter-devtools/')
.last
.trim();
_logger.printStatus(
'\nTo analyze your app size in Dart DevTools, run the following command:\n'
'flutter pub global activate devtools; flutter pub global run devtools '
'--appSizeBase=$relativeAppSizePath'
);
}
/// Builds AAR and POM files.
///
/// * [project] is typically [FlutterProject.current()].
/// * [androidBuildInfo] is the build configuration.
/// * [outputDir] is the destination of the artifacts,
/// * [buildNumber] is the build number of the output aar,
Future<void> buildGradleAar({
required FlutterProject project,
required AndroidBuildInfo androidBuildInfo,
required String target,
required Directory outputDirectory,
required String buildNumber,
}) async {
assert(project != null);
assert(target != null);
assert(androidBuildInfo != null);
assert(outputDirectory != null);
final FlutterManifest manifest = project.manifest;
if (!manifest.isModule && !manifest.isPlugin) {
throwToolExit('AARs can only be built for plugin or module projects.');
}
final BuildInfo buildInfo = androidBuildInfo.buildInfo;
final String aarTask = getAarTaskFor(buildInfo);
final Status status = _logger.startProgress(
"Running Gradle task '$aarTask'...",
);
final String flutterRoot = _fileSystem.path.absolute(Cache.flutterRoot!);
final String initScript = _fileSystem.path.join(
flutterRoot,
'packages',
'flutter_tools',
'gradle',
'aar_init_script.gradle',
);
final List<String> command = <String>[
_gradleUtils.getExecutable(project),
'-I=$initScript',
'-Pflutter-root=$flutterRoot',
'-Poutput-dir=${outputDirectory.path}',
'-Pis-plugin=${manifest.isPlugin}',
'-PbuildNumber=$buildNumber'
];
if (_logger.isVerbose) {
command.add('-Pverbose=true');
} else {
command.add('-q');
}
if (!buildInfo.androidGradleDaemon) {
command.add('--no-daemon');
}
if (target != null && target.isNotEmpty) {
command.add('-Ptarget=$target');
}
command.addAll(androidBuildInfo.buildInfo.toGradleConfig());
if (buildInfo.dartObfuscation && buildInfo.mode != BuildMode.release) {
_logger.printStatus(
'Dart obfuscation is not supported in ${sentenceCase(buildInfo.friendlyModeName)}'
' mode, building as un-obfuscated.',
);
}
if (_artifacts is LocalEngineArtifacts) {
final LocalEngineArtifacts localEngineArtifacts = _artifacts as LocalEngineArtifacts;
final Directory localEngineRepo = _getLocalEngineRepo(
engineOutPath: localEngineArtifacts.engineOutPath,
androidBuildInfo: androidBuildInfo,
fileSystem: _fileSystem,
);
_logger.printTrace(
'Using local engine: ${localEngineArtifacts.engineOutPath}\n'
'Local Maven repo: ${localEngineRepo.path}'
);
command.add('-Plocal-engine-repo=${localEngineRepo.path}');
command.add('-Plocal-engine-build-mode=${buildInfo.modeName}');
command.add('-Plocal-engine-out=${localEngineArtifacts.engineOutPath}');
// Copy the local engine repo in the output directory.
try {
copyDirectory(
localEngineRepo,
getRepoDirectory(outputDirectory),
);
} on FileSystemException catch (error, st) {
throwToolExit(
'Failed to copy the local engine ${localEngineRepo.path} repo '
'in ${outputDirectory.path}: $error, $st'
);
}
command.add('-Ptarget-platform=${_getTargetPlatformByLocalEnginePath(
localEngineArtifacts.engineOutPath)}');
} else if (androidBuildInfo.targetArchs.isNotEmpty) {
final String targetPlatforms = androidBuildInfo.targetArchs
.map(getPlatformNameForAndroidArch).join(',');
command.add('-Ptarget-platform=$targetPlatforms');
}
command.add(aarTask);
final Stopwatch sw = Stopwatch()
..start();
RunResult result;
try {
result = await _processUtils.run(
command,
workingDirectory: project.android.hostAppGradleRoot.path,
allowReentrantFlutter: true,
environment: <String, String>{
if (javaPath != null)
'JAVA_HOME': javaPath!,
},
);
} finally {
status.stop();
}
_usage.sendTiming('build', 'gradle-aar', sw.elapsed);
if (result.exitCode != 0) {
_logger.printStatus(result.stdout, wrap: false);
_logger.printError(result.stderr, wrap: false);
throwToolExit(
'Gradle task $aarTask failed with exit code ${result.exitCode}.',
exitCode: result.exitCode,
);
}
final Directory repoDirectory = getRepoDirectory(outputDirectory);
if (!repoDirectory.existsSync()) {
_logger.printStatus(result.stdout, wrap: false);
_logger.printError(result.stderr, wrap: false);
throwToolExit(
'Gradle task $aarTask failed to produce $repoDirectory.',
exitCode: exitCode,
);
}
_logger.printStatus(
'${_logger.terminal.successMark} Built ${_fileSystem.path.relative(repoDirectory.path)}.',
color: TerminalColor.green,
);
}
}
/// Prints how to consume the AAR from a host app.
void printHowToConsumeAar({
required Set<String> buildModes,
String? androidPackage = 'unknown',
required Directory repoDirectory,
required Logger logger,
required FileSystem fileSystem,
String? buildNumber,
}) {
assert(buildModes != null && buildModes.isNotEmpty);
assert(repoDirectory != null);
buildNumber ??= '1.0';
logger.printStatus('\nConsuming the Module', emphasis: true);
logger.printStatus('''
1. Open ${fileSystem.path.join('<host>', 'app', 'build.gradle')}
2. Ensure you have the repositories configured, otherwise add them:
String storageUrl = System.env.FLUTTER_STORAGE_BASE_URL ?: "https://storage.googleapis.com"
repositories {
maven {
url '${repoDirectory.path}'
}
maven {
url "\$storageUrl/download.flutter.io"
}
}
3. Make the host app depend on the Flutter module:
dependencies {''');
for (final String buildMode in buildModes) {
logger.printStatus("""
${buildMode}Implementation '$androidPackage:flutter_$buildMode:$buildNumber'""");
}
logger.printStatus('''
}
''');
if (buildModes.contains('profile')) {
logger.printStatus('''
4. Add the `profile` build type:
android {
buildTypes {
profile {
initWith debug
}
}
}
''');
}
logger.printStatus('To learn more, visit https://flutter.dev/go/build-aar');
}
String _hex(List<int> bytes) {
final StringBuffer result = StringBuffer();
for (final int part in bytes) {
result.write('${part < 16 ? '0' : ''}${part.toRadixString(16)}');
}
return result.toString();
}
String _calculateSha(File file) {
final List<int> bytes = file.readAsBytesSync();
return _hex(sha1.convert(bytes).bytes);
}
void _exitWithUnsupportedProjectMessage(Usage usage, Terminal terminal) {
BuildEvent('unsupported-project', type: 'gradle', eventError: 'gradle-plugin', flutterUsage: usage).send();
throwToolExit(
'${terminal.warningMark} Your app is using an unsupported Gradle project. '
'To fix this problem, create a new project by running `flutter create -t app <app-directory>` '
'and then move the dart code, assets and pubspec.yaml to the new project.',
);
}
/// Returns [true] if the current app uses AndroidX.
// TODO(egarciad): https://github.com/flutter/flutter/issues/40800
// Remove `FlutterManifest.usesAndroidX` and provide a unified `AndroidProject.usesAndroidX`.
bool isAppUsingAndroidX(Directory androidDirectory) {
final File properties = androidDirectory.childFile('gradle.properties');
if (!properties.existsSync()) {
return false;
}
return properties.readAsStringSync().contains('android.useAndroidX=true');
}
/// Returns the APK files for a given [FlutterProject] and [AndroidBuildInfo].
@visibleForTesting
Iterable<String> findApkFilesModule(
FlutterProject project,
AndroidBuildInfo androidBuildInfo,
Logger logger,
Usage usage,
) {
final Iterable<String> apkFileNames = _apkFilesFor(androidBuildInfo);
final Directory apkDirectory = getApkDirectory(project);
final Iterable<File> apks = apkFileNames.expand<File>((String apkFileName) {
File apkFile = apkDirectory.childFile(apkFileName);
if (apkFile.existsSync()) {
return <File>[apkFile];
}
final BuildInfo buildInfo = androidBuildInfo.buildInfo;
final String modeName = camelCase(buildInfo.modeName);
apkFile = apkDirectory
.childDirectory(modeName)
.childFile(apkFileName);
if (apkFile.existsSync()) {
return <File>[apkFile];
}
final String? flavor = buildInfo.flavor;
if (flavor != null) {
// Android Studio Gradle plugin v3 adds flavor to path.
apkFile = apkDirectory
.childDirectory(flavor)
.childDirectory(modeName)
.childFile(apkFileName);
if (apkFile.existsSync()) {
return <File>[apkFile];
}
}
return const <File>[];
});
if (apks.isEmpty) {
_exitWithExpectedFileNotFound(
project: project,
fileExtension: '.apk',
logger: logger,
usage: usage,
);
}
return apks.map((File file) => file.path);
}
/// Returns the APK files for a given [FlutterProject] and [AndroidBuildInfo].
///
/// The flutter.gradle plugin will copy APK outputs into:
/// `$buildDir/app/outputs/flutter-apk/app-<abi>-<flavor-flag>-<build-mode-flag>.apk`
@visibleForTesting
Iterable<String> listApkPaths(
AndroidBuildInfo androidBuildInfo,
) {
final String buildType = camelCase(androidBuildInfo.buildInfo.modeName);
final List<String> apkPartialName = <String>[
if (androidBuildInfo.buildInfo.flavor?.isNotEmpty ?? false)
androidBuildInfo.buildInfo.lowerCasedFlavor!,
'$buildType.apk',
];
if (androidBuildInfo.splitPerAbi) {
return <String>[
for (AndroidArch androidArch in androidBuildInfo.targetArchs)
<String>[
'app',
getNameForAndroidArch(androidArch),
...apkPartialName
].join('-')
];
}
return <String>[
<String>[
'app',
...apkPartialName,
].join('-')
];
}
@visibleForTesting
File findBundleFile(FlutterProject project, BuildInfo buildInfo, Logger logger, Usage usage) {
final List<File> fileCandidates = <File>[
getBundleDirectory(project)
.childDirectory(camelCase(buildInfo.modeName))
.childFile('app.aab'),
getBundleDirectory(project)
.childDirectory(camelCase(buildInfo.modeName))
.childFile('app-${buildInfo.modeName}.aab'),
];
if (buildInfo.flavor != null) {
// The Android Gradle plugin 3.0.0 adds the flavor name to the path.
// For example: In release mode, if the flavor name is `foo_bar`, then
// the directory name is `foo_barRelease`.
fileCandidates.add(
getBundleDirectory(project)
.childDirectory('${buildInfo.lowerCasedFlavor}${camelCase('_${buildInfo.modeName}')}')
.childFile('app.aab'));
// The Android Gradle plugin 3.5.0 adds the flavor name to file name.
// For example: In release mode, if the flavor name is `foo_bar`, then
// the file name name is `app-foo_bar-release.aab`.
fileCandidates.add(
getBundleDirectory(project)
.childDirectory('${buildInfo.lowerCasedFlavor}${camelCase('_${buildInfo.modeName}')}')
.childFile('app-${buildInfo.lowerCasedFlavor}-${buildInfo.modeName}.aab'));
}
for (final File bundleFile in fileCandidates) {
if (bundleFile.existsSync()) {
return bundleFile;
}
}
_exitWithExpectedFileNotFound(
project: project,
fileExtension: '.aab',
logger: logger,
usage: usage,
);
}
/// Throws a [ToolExit] exception and logs the event.
Never _exitWithExpectedFileNotFound({
required FlutterProject project,
required String fileExtension,
required Logger logger,
required Usage usage,
}) {
assert(project != null);
assert(fileExtension != null);
final String androidGradlePluginVersion =
getGradleVersionForAndroidPlugin(project.android.hostAppGradleRoot, logger);
BuildEvent('gradle-expected-file-not-found',
type: 'gradle',
settings:
'androidGradlePluginVersion: $androidGradlePluginVersion, '
'fileExtension: $fileExtension',
flutterUsage: usage,
).send();
throwToolExit(
'Gradle build failed to produce an $fileExtension file. '
"It's likely that this file was generated under ${project.android.buildDirectory.path}, "
"but the tool couldn't find it."
);
}
void _createSymlink(String targetPath, String linkPath, FileSystem fileSystem) {
final File targetFile = fileSystem.file(targetPath);
if (!targetFile.existsSync()) {
throwToolExit("The file $targetPath wasn't found in the local engine out directory.");
}
final File linkFile = fileSystem.file(linkPath);
final Link symlink = linkFile.parent.childLink(linkFile.basename);
try {
symlink.createSync(targetPath, recursive: true);
} on FileSystemException catch (exception) {
throwToolExit(
'Failed to create the symlink $linkPath->$targetPath: $exception'
);
}
}
String _getLocalArtifactVersion(String pomPath, FileSystem fileSystem) {
final File pomFile = fileSystem.file(pomPath);
if (!pomFile.existsSync()) {
throwToolExit("The file $pomPath wasn't found in the local engine out directory.");
}
XmlDocument document;
try {
document = XmlDocument.parse(pomFile.readAsStringSync());
} on XmlParserException {
throwToolExit(
'Error parsing $pomPath. Please ensure that this is a valid XML document.'
);
} on FileSystemException {
throwToolExit(
'Error reading $pomPath. Please ensure that you have read permission to this '
'file and try again.');
}
final Iterable<XmlElement> project = document.findElements('project');
assert(project.isNotEmpty);
for (final XmlElement versionElement in document.findAllElements('version')) {
if (versionElement.parent == project.first) {
return versionElement.text;
}
}
throwToolExit('Error while parsing the <version> element from $pomPath');
}
/// Returns the local Maven repository for a local engine build.
/// For example, if the engine is built locally at <home>/engine/src/out/android_release_unopt
/// This method generates symlinks in the temp directory to the engine artifacts
/// following the convention specified on https://maven.apache.org/pom.html#Repositories
Directory _getLocalEngineRepo({
required String engineOutPath,
required AndroidBuildInfo androidBuildInfo,
required FileSystem fileSystem,
}) {
assert(engineOutPath != null);
assert(androidBuildInfo != null);
final String abi = _getAbiByLocalEnginePath(engineOutPath);
final Directory localEngineRepo = fileSystem.systemTempDirectory
.createTempSync('flutter_tool_local_engine_repo.');
final String buildMode = androidBuildInfo.buildInfo.modeName;
final String artifactVersion = _getLocalArtifactVersion(
fileSystem.path.join(
engineOutPath,
'flutter_embedding_$buildMode.pom',
),
fileSystem,
);
for (final String artifact in const <String>['pom', 'jar']) {
// The Android embedding artifacts.
_createSymlink(
fileSystem.path.join(
engineOutPath,
'flutter_embedding_$buildMode.$artifact',
),
fileSystem.path.join(
localEngineRepo.path,
'io',
'flutter',
'flutter_embedding_$buildMode',
artifactVersion,
'flutter_embedding_$buildMode-$artifactVersion.$artifact',
),
fileSystem,
);
// The engine artifacts (libflutter.so).
_createSymlink(
fileSystem.path.join(
engineOutPath,
'${abi}_$buildMode.$artifact',
),
fileSystem.path.join(
localEngineRepo.path,
'io',
'flutter',
'${abi}_$buildMode',
artifactVersion,
'${abi}_$buildMode-$artifactVersion.$artifact',
),
fileSystem,
);
}
for (final String artifact in <String>['flutter_embedding_$buildMode', '${abi}_$buildMode']) {
_createSymlink(
fileSystem.path.join(
engineOutPath,
'$artifact.maven-metadata.xml',
),
fileSystem.path.join(
localEngineRepo.path,
'io',
'flutter',
artifact,
'maven-metadata.xml',
),
fileSystem,
);
}
return localEngineRepo;
}
String _getAbiByLocalEnginePath(String engineOutPath) {
String result = 'armeabi_v7a';
if (engineOutPath.contains('x86')) {
result = 'x86';
} else if (engineOutPath.contains('x64')) {
result = 'x86_64';
} else if (engineOutPath.contains('arm64')) {
result = 'arm64_v8a';
}
return result;
}
String _getTargetPlatformByLocalEnginePath(String engineOutPath) {
String result = 'android-arm';
if (engineOutPath.contains('x86')) {
result = 'android-x86';
} else if (engineOutPath.contains('x64')) {
result = 'android-x64';
} else if (engineOutPath.contains('arm64')) {
result = 'android-arm64';
}
return result;
}