Google Git
Sign in
flutter / mirrors / flutter / refs/heads/main / . / packages / flutter_tools / lib / src / project.dart
blob: 0d8f849583cba9f681dcf6e904e553354378e0f5 [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:meta/meta.dart';
import 'package:xml/xml.dart';
import 'package:yaml/yaml.dart';
import '../src/convert.dart';
import 'android/android_builder.dart';
import 'android/gradle_utils.dart' as gradle;
import 'base/common.dart';
import 'base/error_handling_io.dart';
import 'base/file_system.dart';
import 'base/logger.dart';
import 'base/utils.dart';
import 'base/version.dart';
import 'bundle.dart' as bundle;
import 'cmake_project.dart';
import 'features.dart';
import 'flutter_manifest.dart';
import 'flutter_plugins.dart';
import 'globals.dart' as globals;
import 'macos/xcode.dart';
import 'platform_plugins.dart';
import 'project_validator_result.dart';
import 'template.dart';
import 'xcode_project.dart';
export 'cmake_project.dart';
export 'xcode_project.dart';
/// Enum for each officially supported platform.
enum SupportedPlatform {
android(name: 'android'),
ios(name: 'ios'),
linux(name: 'linux'),
macos(name: 'macos'),
web(name: 'web'),
windows(name: 'windows'),
fuchsia(name: 'fuchsia'),
root(name: 'root'); // Special platform to represent the root project directory
const SupportedPlatform({
required this.name,
});
final String name;
}
class FlutterProjectFactory {
FlutterProjectFactory({
required Logger logger,
required FileSystem fileSystem,
}) : _logger = logger,
_fileSystem = fileSystem;
final Logger _logger;
final FileSystem _fileSystem;
@visibleForTesting
final Map<String, FlutterProject> projects =
<String, FlutterProject>{};
/// Returns a [FlutterProject] view of the given directory or a ToolExit error,
/// if `pubspec.yaml` or `example/pubspec.yaml` is invalid.
FlutterProject fromDirectory(Directory directory) {
return projects.putIfAbsent(directory.path, () {
final FlutterManifest manifest = FlutterProject._readManifest(
directory.childFile(bundle.defaultManifestPath).path,
logger: _logger,
fileSystem: _fileSystem,
);
final FlutterManifest exampleManifest = FlutterProject._readManifest(
FlutterProject._exampleDirectory(directory)
.childFile(bundle.defaultManifestPath)
.path,
logger: _logger,
fileSystem: _fileSystem,
);
return FlutterProject(directory, manifest, exampleManifest);
});
}
}
/// Represents the contents of a Flutter project at the specified [directory].
///
/// [FlutterManifest] information is read from `pubspec.yaml` and
/// `example/pubspec.yaml` files on construction of a [FlutterProject] instance.
/// The constructed instance carries an immutable snapshot representation of the
/// presence and content of those files. Accordingly, [FlutterProject] instances
/// should be discarded upon changes to the `pubspec.yaml` files, but can be
/// used across changes to other files, as no other file-level information is
/// cached.
class FlutterProject {
@visibleForTesting
FlutterProject(this.directory, this.manifest, this._exampleManifest);
/// Returns a [FlutterProject] view of the given directory or a ToolExit error,
/// if `pubspec.yaml` or `example/pubspec.yaml` is invalid.
static FlutterProject fromDirectory(Directory directory) => globals.projectFactory.fromDirectory(directory);
/// Returns a [FlutterProject] view of the current directory or a ToolExit error,
/// if `pubspec.yaml` or `example/pubspec.yaml` is invalid.
static FlutterProject current() => globals.projectFactory.fromDirectory(globals.fs.currentDirectory);
/// Create a [FlutterProject] and bypass the project caching.
@visibleForTesting
static FlutterProject fromDirectoryTest(Directory directory, [Logger? logger]) {
final FileSystem fileSystem = directory.fileSystem;
logger ??= BufferLogger.test();
final FlutterManifest manifest = FlutterProject._readManifest(
directory.childFile(bundle.defaultManifestPath).path,
logger: logger,
fileSystem: fileSystem,
);
final FlutterManifest exampleManifest = FlutterProject._readManifest(
FlutterProject._exampleDirectory(directory)
.childFile(bundle.defaultManifestPath)
.path,
logger: logger,
fileSystem: fileSystem,
);
return FlutterProject(directory, manifest, exampleManifest);
}
/// The location of this project.
final Directory directory;
/// The location of the build folder.
Directory get buildDirectory => directory.childDirectory('build');
/// The manifest of this project.
final FlutterManifest manifest;
/// The manifest of the example sub-project of this project.
final FlutterManifest _exampleManifest;
/// The set of organization names found in this project as
/// part of iOS product bundle identifier, Android application ID, or
/// Gradle group ID.
Future<Set<String>> get organizationNames async {
final List<String> candidates = <String>[];
if (ios.existsSync()) {
// Don't require iOS build info, this method is only
// used during create as best-effort, use the
// default target bundle identifier.
try {
final String? bundleIdentifier = await ios.productBundleIdentifier(null);
if (bundleIdentifier != null) {
candidates.add(bundleIdentifier);
}
} on ToolExit {
// It's possible that while parsing the build info for the ios project
// that the bundleIdentifier can't be resolve. However, we would like
// skip parsing that id in favor of searching in other place. We can
// consider a tool exit in this case to be non fatal for the program.
}
}
if (android.existsSync()) {
final String? applicationId = android.applicationId;
final String? group = android.group;
candidates.addAll(<String>[
if (applicationId != null)
applicationId,
if (group != null)
group,
]);
}
if (example.android.existsSync()) {
final String? applicationId = example.android.applicationId;
if (applicationId != null) {
candidates.add(applicationId);
}
}
if (example.ios.existsSync()) {
final String? bundleIdentifier = await example.ios.productBundleIdentifier(null);
if (bundleIdentifier != null) {
candidates.add(bundleIdentifier);
}
}
return Set<String>.of(candidates.map<String?>(_organizationNameFromPackageName).whereType<String>());
}
String? _organizationNameFromPackageName(String packageName) {
if (0 <= packageName.lastIndexOf('.')) {
return packageName.substring(0, packageName.lastIndexOf('.'));
}
return null;
}
/// The iOS sub project of this project.
late final IosProject ios = IosProject.fromFlutter(this);
/// The Android sub project of this project.
late final AndroidProject android = AndroidProject._(this);
/// The web sub project of this project.
late final WebProject web = WebProject._(this);
/// The MacOS sub project of this project.
late final MacOSProject macos = MacOSProject.fromFlutter(this);
/// The Linux sub project of this project.
late final LinuxProject linux = LinuxProject.fromFlutter(this);
/// The Windows sub project of this project.
late final WindowsProject windows = WindowsProject.fromFlutter(this);
/// The Fuchsia sub project of this project.
late final FuchsiaProject fuchsia = FuchsiaProject._(this);
/// The `pubspec.yaml` file of this project.
File get pubspecFile => directory.childFile('pubspec.yaml');
/// The `.packages` file of this project.
File get packagesFile => directory.childFile('.packages');
/// The `package_config.json` file of the project.
///
/// This is the replacement for .packages which contains language
/// version information.
File get packageConfigFile => directory.childDirectory('.dart_tool').childFile('package_config.json');
/// The `.metadata` file of this project.
File get metadataFile => directory.childFile('.metadata');
/// The `.flutter-plugins` file of this project.
File get flutterPluginsFile => directory.childFile('.flutter-plugins');
/// The `.flutter-plugins-dependencies` file of this project,
/// which contains the dependencies each plugin depends on.
File get flutterPluginsDependenciesFile => directory.childFile('.flutter-plugins-dependencies');
/// The `.dart-tool` directory of this project.
Directory get dartTool => directory.childDirectory('.dart_tool');
/// The directory containing the generated code for this project.
Directory get generated => directory
.absolute
.childDirectory('.dart_tool')
.childDirectory('build')
.childDirectory('generated')
.childDirectory(manifest.appName);
/// The generated Dart plugin registrant for non-web platforms.
File get dartPluginRegistrant => dartTool
.childDirectory('flutter_build')
.childFile('dart_plugin_registrant.dart');
/// The example sub-project of this project.
FlutterProject get example => FlutterProject(
_exampleDirectory(directory),
_exampleManifest,
FlutterManifest.empty(logger: globals.logger),
);
/// True if this project is a Flutter module project.
bool get isModule => manifest.isModule;
/// True if this project is a Flutter plugin project.
bool get isPlugin => manifest.isPlugin;
/// True if the Flutter project is using the AndroidX support library.
bool get usesAndroidX => manifest.usesAndroidX;
/// True if this project has an example application.
bool get hasExampleApp => _exampleDirectory(directory).existsSync();
/// True if this project doesn't have Swift Package Manager disabled in the
/// pubspec, has either an iOS or macOS platform implementation, is not a
/// module project, Xcode is 15 or greater, and the Swift Package Manager
/// feature is enabled.
bool get usesSwiftPackageManager {
if (!manifest.disabledSwiftPackageManager &&
(ios.existsSync() || macos.existsSync()) &&
!isModule) {
final Xcode? xcode = globals.xcode;
final Version? xcodeVersion = xcode?.currentVersion;
if (xcodeVersion == null || xcodeVersion.major < 15) {
return false;
}
return featureFlags.isSwiftPackageManagerEnabled;
}
return false;
}
/// Returns a list of platform names that are supported by the project.
List<SupportedPlatform> getSupportedPlatforms({bool includeRoot = false}) {
final List<SupportedPlatform> platforms = includeRoot ? <SupportedPlatform>[SupportedPlatform.root] : <SupportedPlatform>[];
if (android.existsSync()) {
platforms.add(SupportedPlatform.android);
}
if (ios.exists) {
platforms.add(SupportedPlatform.ios);
}
if (web.existsSync()) {
platforms.add(SupportedPlatform.web);
}
if (macos.existsSync()) {
platforms.add(SupportedPlatform.macos);
}
if (linux.existsSync()) {
platforms.add(SupportedPlatform.linux);
}
if (windows.existsSync()) {
platforms.add(SupportedPlatform.windows);
}
if (fuchsia.existsSync()) {
platforms.add(SupportedPlatform.fuchsia);
}
return platforms;
}
/// The directory that will contain the example if an example exists.
static Directory _exampleDirectory(Directory directory) => directory.childDirectory('example');
/// Reads and validates the `pubspec.yaml` file at [path], asynchronously
/// returning a [FlutterManifest] representation of the contents.
///
/// Completes with an empty [FlutterManifest], if the file does not exist.
/// Completes with a ToolExit on validation error.
static FlutterManifest _readManifest(String path, {
required Logger logger,
required FileSystem fileSystem,
}) {
FlutterManifest? manifest;
try {
manifest = FlutterManifest.createFromPath(
path,
logger: logger,
fileSystem: fileSystem,
);
} on YamlException catch (e) {
logger.printStatus('Error detected in pubspec.yaml:', emphasis: true);
logger.printError('$e');
} on FormatException catch (e) {
logger.printError('Error detected while parsing pubspec.yaml:', emphasis: true);
logger.printError('$e');
} on FileSystemException catch (e) {
logger.printError('Error detected while reading pubspec.yaml:', emphasis: true);
logger.printError('$e');
}
if (manifest == null) {
throwToolExit('Please correct the pubspec.yaml file at $path');
}
return manifest;
}
/// Reapplies template files and regenerates project files and plugin
/// registrants for app and module projects only.
///
/// Will not create project platform directories if they do not already exist.
///
/// If [allowedPlugins] is non-null, all plugins with method channels in the
/// project's pubspec.yaml will be validated to be in that set, or else a
/// [ToolExit] will be thrown.
Future<void> regeneratePlatformSpecificTooling({
DeprecationBehavior deprecationBehavior = DeprecationBehavior.none,
Iterable<String>? allowedPlugins,
}) async {
return ensureReadyForPlatformSpecificTooling(
androidPlatform: android.existsSync(),
iosPlatform: ios.existsSync(),
// TODO(stuartmorgan): Revisit the conditions here once the plans for handling
// desktop in existing projects are in place.
linuxPlatform: featureFlags.isLinuxEnabled && linux.existsSync(),
macOSPlatform: featureFlags.isMacOSEnabled && macos.existsSync(),
windowsPlatform: featureFlags.isWindowsEnabled && windows.existsSync(),
webPlatform: featureFlags.isWebEnabled && web.existsSync(),
deprecationBehavior: deprecationBehavior,
allowedPlugins: allowedPlugins,
);
}
/// Applies template files and generates project files and plugin
/// registrants for app and module projects only for the specified platforms.
Future<void> ensureReadyForPlatformSpecificTooling({
bool androidPlatform = false,
bool iosPlatform = false,
bool linuxPlatform = false,
bool macOSPlatform = false,
bool windowsPlatform = false,
bool webPlatform = false,
DeprecationBehavior deprecationBehavior = DeprecationBehavior.none,
Iterable<String>? allowedPlugins,
}) async {
if (!directory.existsSync() || isPlugin) {
return;
}
await refreshPluginsList(this, iosPlatform: iosPlatform, macOSPlatform: macOSPlatform);
if (androidPlatform) {
await android.ensureReadyForPlatformSpecificTooling(deprecationBehavior: deprecationBehavior);
}
if (iosPlatform) {
await ios.ensureReadyForPlatformSpecificTooling();
}
if (linuxPlatform) {
await linux.ensureReadyForPlatformSpecificTooling();
}
if (macOSPlatform) {
await macos.ensureReadyForPlatformSpecificTooling();
}
if (windowsPlatform) {
await windows.ensureReadyForPlatformSpecificTooling();
}
if (webPlatform) {
await web.ensureReadyForPlatformSpecificTooling();
}
await injectPlugins(
this,
androidPlatform: androidPlatform,
iosPlatform: iosPlatform,
linuxPlatform: linuxPlatform,
macOSPlatform: macOSPlatform,
windowsPlatform: windowsPlatform,
allowedPlugins: allowedPlugins,
);
}
void checkForDeprecation({DeprecationBehavior deprecationBehavior = DeprecationBehavior.none}) {
if (android.existsSync() && pubspecFile.existsSync()) {
android.checkForDeprecation(deprecationBehavior: deprecationBehavior);
}
}
/// Returns a json encoded string containing the [appName], [version], and [buildNumber] that is used to generate version.json
String getVersionInfo() {
final String? buildName = manifest.buildName;
final String? buildNumber = manifest.buildNumber;
final Map<String, String> versionFileJson = <String, String>{
'app_name': manifest.appName,
if (buildName != null)
'version': buildName,
if (buildNumber != null)
'build_number': buildNumber,
'package_name': manifest.appName,
};
return jsonEncode(versionFileJson);
}
}
/// Base class for projects per platform.
abstract class FlutterProjectPlatform {
/// Plugin's platform config key, e.g., "macos", "ios".
String get pluginConfigKey;
/// Whether the platform exists in the project.
bool existsSync();
}
/// Represents the Android sub-project of a Flutter project.
///
/// Instances will reflect the contents of the `android/` sub-folder of
/// Flutter applications and the `.android/` sub-folder of Flutter module projects.
class AndroidProject extends FlutterProjectPlatform {
AndroidProject._(this.parent);
// User facing string when java/gradle/agp versions are compatible.
@visibleForTesting
static const String validJavaGradleAgpString = 'compatible java/gradle/agp';
// User facing link that describes compatibility between gradle and
// android gradle plugin.
static const String gradleAgpCompatUrl =
'https://developer.android.com/studio/releases/gradle-plugin#updating-gradle';
// User facing link that describes compatibility between java and the first
// version of gradle to support it.
static const String javaGradleCompatUrl =
'https://docs.gradle.org/current/userguide/compatibility.html#java';
/// The parent of this project.
final FlutterProject parent;
@override
String get pluginConfigKey => AndroidPlugin.kConfigKey;
static final RegExp _androidNamespacePattern = RegExp('android {[\\S\\s]+namespace\\s*=?\\s*[\'"](.+)[\'"]');
static final RegExp _applicationIdPattern = RegExp('^\\s*applicationId\\s*=?\\s*[\'"](.*)[\'"]\\s*\$');
static final RegExp _imperativeKotlinPluginPattern = RegExp('^\\s*apply plugin\\:\\s+[\'"]kotlin-android[\'"]\\s*\$');
static final RegExp _declarativeKotlinPluginPattern = RegExp('^\\s*id\\s+[\'"]kotlin-android[\'"]\\s*\$');
/// Pattern used to find the assignment of the "group" property in Gradle.
/// Expected example: `group "dev.flutter.plugin"`
/// Regex is used in both Groovy and Kotlin Gradle files.
static final RegExp _groupPattern = RegExp('^\\s*group\\s*=?\\s*[\'"](.*)[\'"]\\s*\$');
/// The Gradle root directory of the Android host app. This is the directory
/// containing the `app/` subdirectory and the `settings.gradle` file that
/// includes it in the overall Gradle project.
Directory get hostAppGradleRoot {
if (!isModule || _editableHostAppDirectory.existsSync()) {
return _editableHostAppDirectory;
}
return ephemeralDirectory;
}
/// The Gradle root directory of the Android wrapping of Flutter and plugins.
/// This is the same as [hostAppGradleRoot] except when the project is
/// a Flutter module with an editable host app.
Directory get _flutterLibGradleRoot => isModule ? ephemeralDirectory : _editableHostAppDirectory;
Directory get ephemeralDirectory => parent.directory.childDirectory('.android');
Directory get _editableHostAppDirectory => parent.directory.childDirectory('android');
/// True if the parent Flutter project is a module.
bool get isModule => parent.isModule;
/// True if the parent Flutter project is a plugin.
bool get isPlugin => parent.isPlugin;
/// True if the Flutter project is using the AndroidX support library.
bool get usesAndroidX => parent.usesAndroidX;
/// Returns true if the current version of the Gradle plugin is supported.
late final bool isSupportedVersion = _computeSupportedVersion();
/// Gets all build variants of this project.
Future<List<String>> getBuildVariants() async {
if (!existsSync() || androidBuilder == null) {
return const <String>[];
}
return androidBuilder!.getBuildVariants(project: parent);
}
/// Outputs app link related settings into a json file.
///
/// The return future resolves to the path of the json file.
///
/// The future resolves to null if it fails to retrieve app link settings.
Future<String> outputsAppLinkSettings({required String variant}) async {
if (!existsSync() || androidBuilder == null) {
throwToolExit('Target directory $hostAppGradleRoot is not an Android project');
}
return androidBuilder!.outputsAppLinkSettings(variant, project: parent);
}
bool _computeSupportedVersion() {
final FileSystem fileSystem = hostAppGradleRoot.fileSystem;
final File plugin = hostAppGradleRoot.childFile(
fileSystem.path.join('buildSrc', 'src', 'main', 'groovy', 'FlutterPlugin.groovy'));
if (plugin.existsSync()) {
return false;
}
try {
for (final String line in appGradleFile.readAsLinesSync()) {
// This syntax corresponds to applying the Flutter Gradle Plugin with a
// script.
// See https://docs.gradle.org/current/userguide/plugins.html#sec:script_plugins.
final bool fileBasedApply = line.contains(RegExp(r'apply from: .*/flutter.gradle'));
// This syntax corresponds to applying the Flutter Gradle Plugin using
// the declarative "plugins {}" block after including it in the
// pluginManagement block of the settings.gradle file.
// See https://docs.gradle.org/current/userguide/composite_builds.html#included_plugin_builds,
// as well as the settings.gradle and build.gradle templates.
final bool declarativeApply = line.contains('dev.flutter.flutter-gradle-plugin');
// This case allows for flutter run/build to work for modules. It does
// not guarantee the Flutter Gradle Plugin is applied.
final bool managed = line.contains(RegExp('def flutterPluginVersion = [\'"]managed[\'"]'));
if (fileBasedApply || declarativeApply || managed) {
return true;
}
}
} on FileSystemException {
return false;
}
return false;
}
/// True, if the app project is using Kotlin.
bool get isKotlin {
final bool imperativeMatch = firstMatchInFile(appGradleFile, _imperativeKotlinPluginPattern) != null;
final bool declarativeMatch = firstMatchInFile(appGradleFile, _declarativeKotlinPluginPattern) != null;
return imperativeMatch || declarativeMatch;
}
/// Gets top-level Gradle build file.
/// See https://developer.android.com/build#top-level.
///
/// The file must exist and it must be written in either Groovy (build.gradle)
/// or Kotlin (build.gradle.kts).
File get hostAppGradleFile {
final File buildGroovy = hostAppGradleRoot.childFile('build.gradle');
final File buildKotlin = hostAppGradleRoot.childFile('build.gradle.kts');
if (buildGroovy.existsSync() && buildKotlin.existsSync()) {
// We mimic Gradle's behavior of preferring Groovy over Kotlin when both files exist.
return buildGroovy;
}
if (buildKotlin.existsSync()) {
return buildKotlin;
}
// TODO(bartekpacia): An exception should be thrown when neither
// build.gradle nor build.gradle.kts exist, instead of falling back to the
// Groovy file. See #141180.
return buildGroovy;
}
/// Gets the module-level build.gradle file.
/// See https://developer.android.com/build#module-level.
///
/// The file must exist and it must be written in either Groovy (build.gradle)
/// or Kotlin (build.gradle.kts).
File get appGradleFile {
final Directory appDir = hostAppGradleRoot.childDirectory('app');
final File buildGroovy = appDir.childFile('build.gradle');
final File buildKotlin = appDir.childFile('build.gradle.kts');
if (buildGroovy.existsSync() && buildKotlin.existsSync()) {
// We mimic Gradle's behavior of preferring Groovy over Kotlin when both files exist.
return buildGroovy;
}
if (buildKotlin.existsSync()) {
return buildKotlin;
}
// TODO(bartekpacia): An exception should be thrown when neither
// build.gradle nor build.gradle.kts exist, instead of falling back to the
// Groovy file. See #141180.
return buildGroovy;
}
File get appManifestFile {
if (isUsingGradle) {
return hostAppGradleRoot
.childDirectory('app')
.childDirectory('src')
.childDirectory('main')
.childFile('AndroidManifest.xml');
}
return hostAppGradleRoot.childFile('AndroidManifest.xml');
}
File get gradleAppOutV1File => gradleAppOutV1Directory.childFile('app-debug.apk');
Directory get gradleAppOutV1Directory {
return globals.fs.directory(globals.fs.path.join(hostAppGradleRoot.path, 'app', 'build', 'outputs', 'apk'));
}
/// Whether the current flutter project has an Android sub-project.
@override
bool existsSync() {
return parent.isModule || _editableHostAppDirectory.existsSync();
}
/// Check if the versions of Java, Gradle and AGP are compatible.
///
/// This is expected to be called from
/// flutter_tools/lib/src/project_validator.dart.
Future<ProjectValidatorResult> validateJavaAndGradleAgpVersions() async {
// Constructing ProjectValidatorResult happens here and not in
// flutter_tools/lib/src/project_validator.dart because of the additional
// Complexity of variable status values and error string formatting.
const String visibleName = 'Java/Gradle/Android Gradle Plugin';
final CompatibilityResult validJavaGradleAgpVersions =
await hasValidJavaGradleAgpVersions();
return ProjectValidatorResult(
name: visibleName,
value: validJavaGradleAgpVersions.description,
status: validJavaGradleAgpVersions.success
? StatusProjectValidator.success
: StatusProjectValidator.error,
);
}
/// Ensures Java SDK is compatible with the project's Gradle version and
/// the project's Gradle version is compatible with the AGP version used
/// in build.gradle.
Future<CompatibilityResult> hasValidJavaGradleAgpVersions() async {
final String? gradleVersion = await gradle.getGradleVersion(
hostAppGradleRoot, globals.logger, globals.processManager);
final String? agpVersion =
gradle.getAgpVersion(hostAppGradleRoot, globals.logger);
final String? javaVersion = versionToParsableString(globals.java?.version);
// Assume valid configuration.
String description = validJavaGradleAgpString;
final bool compatibleGradleAgp = gradle.validateGradleAndAgp(globals.logger,
gradleV: gradleVersion, agpV: agpVersion);
final bool compatibleJavaGradle = gradle.validateJavaAndGradle(
globals.logger,
javaV: javaVersion,
gradleV: gradleVersion);
// Begin description formatting.
if (!compatibleGradleAgp) {
final String gradleDescription = agpVersion != null
? 'Update Gradle to at least "${gradle.getGradleVersionFor(agpVersion)}".'
: '';
description = '''
Incompatible Gradle/AGP versions. \n
Gradle Version: $gradleVersion, AGP Version: $agpVersion
$gradleDescription\n
See the link below for more information:
$gradleAgpCompatUrl
''';
}
if (!compatibleJavaGradle) {
// Should contain the agp error (if present) but not the valid String.
description = '''
${compatibleGradleAgp ? '' : description}
Incompatible Java/Gradle versions.
Java Version: $javaVersion, Gradle Version: $gradleVersion\n
See the link below for more information:
$javaGradleCompatUrl
''';
}
return CompatibilityResult(
compatibleJavaGradle && compatibleGradleAgp, description);
}
bool get isUsingGradle {
return hostAppGradleFile.existsSync();
}
String? get applicationId {
return firstMatchInFile(appGradleFile, _applicationIdPattern)?.group(1);
}
/// Get the namespace for newer Android projects,
/// which replaces the `package` attribute in the Manifest.xml.
String? get namespace {
try {
// firstMatchInFile() reads per line but `_androidNamespacePattern` matches a multiline pattern.
return _androidNamespacePattern.firstMatch(appGradleFile.readAsStringSync())?.group(1);
} on FileSystemException {
return null;
}
}
String? get group {
return firstMatchInFile(hostAppGradleFile, _groupPattern)?.group(1);
}
/// The build directory where the Android artifacts are placed.
Directory get buildDirectory {
return parent.buildDirectory;
}
Future<void> ensureReadyForPlatformSpecificTooling({DeprecationBehavior deprecationBehavior = DeprecationBehavior.none}) async {
if (isModule && _shouldRegenerateFromTemplate()) {
await _regenerateLibrary();
// Add ephemeral host app, if an editable host app does not already exist.
if (!_editableHostAppDirectory.existsSync()) {
await _overwriteFromTemplate(globals.fs.path.join('module', 'android', 'host_app_common'), ephemeralDirectory);
await _overwriteFromTemplate(globals.fs.path.join('module', 'android', 'host_app_ephemeral'), ephemeralDirectory);
}
}
if (!hostAppGradleRoot.existsSync()) {
return;
}
gradle.updateLocalProperties(project: parent, requireAndroidSdk: false);
}
bool _shouldRegenerateFromTemplate() {
return globals.fsUtils.isOlderThanReference(
entity: ephemeralDirectory,
referenceFile: parent.pubspecFile,
) || globals.cache.isOlderThanToolsStamp(ephemeralDirectory);
}
File get localPropertiesFile => _flutterLibGradleRoot.childFile('local.properties');
Directory get pluginRegistrantHost => _flutterLibGradleRoot.childDirectory(isModule ? 'Flutter' : 'app');
Future<void> _regenerateLibrary() async {
ErrorHandlingFileSystem.deleteIfExists(ephemeralDirectory, recursive: true);
await _overwriteFromTemplate(
globals.fs.path.join(
'module',
'android',
'library_new_embedding',
),
ephemeralDirectory);
await _overwriteFromTemplate(globals.fs.path.join(
'module',
'android',
'gradle'), ephemeralDirectory);
globals.gradleUtils?.injectGradleWrapperIfNeeded(ephemeralDirectory);
}
Future<void> _overwriteFromTemplate(String path, Directory target) async {
final Template template = await Template.fromName(
path,
fileSystem: globals.fs,
templateManifest: null,
logger: globals.logger,
templateRenderer: globals.templateRenderer,
);
final String androidIdentifier = parent.manifest.androidPackage ?? 'com.example.${parent.manifest.appName}';
template.render(
target,
<String, Object>{
'android': true,
'projectName': parent.manifest.appName,
'androidIdentifier': androidIdentifier,
'androidX': usesAndroidX,
'agpVersion': gradle.templateAndroidGradlePluginVersion,
'agpVersionForModule': gradle.templateAndroidGradlePluginVersionForModule,
'kotlinVersion': gradle.templateKotlinGradlePluginVersion,
'gradleVersion': gradle.templateDefaultGradleVersion,
'compileSdkVersion': gradle.compileSdkVersion,
'minSdkVersion': gradle.minSdkVersion,
'ndkVersion': gradle.ndkVersion,
'targetSdkVersion': gradle.targetSdkVersion,
},
printStatusWhenWriting: false,
);
}
void checkForDeprecation({DeprecationBehavior deprecationBehavior = DeprecationBehavior.none}) {
if (deprecationBehavior == DeprecationBehavior.none) {
return;
}
final AndroidEmbeddingVersionResult result = computeEmbeddingVersion();
if (result.version != AndroidEmbeddingVersion.v1) {
return;
}
// The v1 android embedding has been deleted.
throwToolExit(
'Build failed due to use of deleted Android v1 embedding.',
exitCode: 1,
);
}
AndroidEmbeddingVersion getEmbeddingVersion() {
final AndroidEmbeddingVersion androidEmbeddingVersion = computeEmbeddingVersion().version;
if (androidEmbeddingVersion == AndroidEmbeddingVersion.v1) {
throwToolExit(
'Build failed due to use of deleted Android v1 embedding.',
exitCode: 1,
);
}
return androidEmbeddingVersion;
}
AndroidEmbeddingVersionResult computeEmbeddingVersion() {
if (isModule) {
// A module type's Android project is used in add-to-app scenarios and
// only supports the V2 embedding.
return AndroidEmbeddingVersionResult(AndroidEmbeddingVersion.v2, 'Is add-to-app module');
}
if (isPlugin) {
// Plugins do not use an appManifest, so we stop here.
//
// TODO(garyq): This method does not currently check for code references to
// the v1 embedding, we should check for this once removal is further along.
return AndroidEmbeddingVersionResult(AndroidEmbeddingVersion.v2, 'Is plugin');
}
if (!appManifestFile.existsSync()) {
return AndroidEmbeddingVersionResult(AndroidEmbeddingVersion.v1, 'No `${appManifestFile.absolute.path}` file');
}
XmlDocument document;
try {
document = XmlDocument.parse(appManifestFile.readAsStringSync());
} on XmlException {
throwToolExit('Error parsing $appManifestFile '
'Please ensure that the android manifest is a valid XML document and try again.');
} on FileSystemException {
throwToolExit('Error reading $appManifestFile even though it exists. '
'Please ensure that you have read permission to this file and try again.');
}
for (final XmlElement application in document.findAllElements('application')) {
final String? applicationName = application.getAttribute('android:name');
if (applicationName == 'io.flutter.app.FlutterApplication') {
return AndroidEmbeddingVersionResult(AndroidEmbeddingVersion.v1, '${appManifestFile.absolute.path} uses `android:name="io.flutter.app.FlutterApplication"`');
}
}
for (final XmlElement metaData in document.findAllElements('meta-data')) {
final String? name = metaData.getAttribute('android:name');
if (name == 'flutterEmbedding') {
final String? embeddingVersionString = metaData.getAttribute('android:value');
if (embeddingVersionString == '1') {
return AndroidEmbeddingVersionResult(AndroidEmbeddingVersion.v1, '${appManifestFile.absolute.path} `<meta-data android:name="flutterEmbedding"` has value 1');
}
if (embeddingVersionString == '2') {
return AndroidEmbeddingVersionResult(AndroidEmbeddingVersion.v2, '${appManifestFile.absolute.path} `<meta-data android:name="flutterEmbedding"` has value 2');
}
}
}
return AndroidEmbeddingVersionResult(AndroidEmbeddingVersion.v1, 'No `<meta-data android:name="flutterEmbedding" android:value="2"/>` in ${appManifestFile.absolute.path}');
}
}
/// Iteration of the embedding Java API in the engine used by the Android project.
enum AndroidEmbeddingVersion {
/// V1 APIs based on io.flutter.app.FlutterActivity.
v1,
/// V2 APIs based on io.flutter.embedding.android.FlutterActivity.
v2,
}
/// Data class that holds the results of checking for embedding version.
///
/// This class includes the reason why a particular embedding was selected.
class AndroidEmbeddingVersionResult {
AndroidEmbeddingVersionResult(this.version, this.reason);
/// The embedding version.
AndroidEmbeddingVersion version;
/// The reason why the embedding version was selected.
String reason;
}
// What the tool should do when encountering deprecated API in applications.
enum DeprecationBehavior {
// The command being run does not care about deprecation status.
none,
// The command should continue and ignore the deprecation warning.
ignore,
// The command should exit the tool.
exit,
}
/// Represents the web sub-project of a Flutter project.
class WebProject extends FlutterProjectPlatform {
WebProject._(this.parent);
final FlutterProject parent;
@override
String get pluginConfigKey => WebPlugin.kConfigKey;
/// Whether this flutter project has a web sub-project.
@override
bool existsSync() {
return parent.directory.childDirectory('web').existsSync()
&& indexFile.existsSync();
}
/// The 'lib' directory for the application.
Directory get libDirectory => parent.directory.childDirectory('lib');
/// The directory containing additional files for the application.
Directory get directory => parent.directory.childDirectory('web');
/// The html file used to host the flutter web application.
File get indexFile => parent.directory
.childDirectory('web')
.childFile('index.html');
/// The .dart_tool/dartpad directory
Directory get dartpadToolDirectory => parent.directory
.childDirectory('.dart_tool')
.childDirectory('dartpad');
Future<void> ensureReadyForPlatformSpecificTooling() async {
/// Create .dart_tool/dartpad/web_plugin_registrant.dart.
/// See: https://github.com/dart-lang/dart-services/pull/874
await injectBuildTimePluginFiles(
parent,
destination: dartpadToolDirectory,
webPlatform: true,
);
}
}
/// The Fuchsia sub project.
class FuchsiaProject {
FuchsiaProject._(this.project);
final FlutterProject project;
Directory? _editableHostAppDirectory;
Directory get editableHostAppDirectory =>
_editableHostAppDirectory ??= project.directory.childDirectory('fuchsia');
bool existsSync() => editableHostAppDirectory.existsSync();
Directory? _meta;
Directory get meta =>
_meta ??= editableHostAppDirectory.childDirectory('meta');
}
// Combines success and a description into one object that can be returned
// together.
@visibleForTesting
class CompatibilityResult {
CompatibilityResult(this.success, this.description);
final bool success;
final String description;
}
/// Converts a [Version] to a string that can be parsed by [Version.parse].
String? versionToParsableString(Version? version) {
if (version == null) {
return null;
}
return '${version.major}.${version.minor}.${version.patch}';
}