// Copyright 2013 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 'dart:async'; import 'dart:convert'; import 'dart:io' as io; import 'package:args/command_runner.dart'; import 'package:file/file.dart'; import 'package:file/memory.dart'; import 'package:flutter_plugin_tools/src/common/core.dart'; import 'package:flutter_plugin_tools/src/common/file_utils.dart'; import 'package:flutter_plugin_tools/src/common/plugin_utils.dart'; import 'package:flutter_plugin_tools/src/common/process_runner.dart'; import 'package:meta/meta.dart'; import 'package:path/path.dart' as p; import 'package:platform/platform.dart'; import 'package:quiver/collection.dart'; import 'mocks.dart'; /// Returns the exe name that command will use when running Flutter on /// [platform]. String getFlutterCommand(Platform platform) => platform.isWindows ? 'flutter.bat' : 'flutter'; /// Creates a packages directory in the given location. /// /// If [parentDir] is set the packages directory will be created there, /// otherwise [fileSystem] must be provided and it will be created an arbitrary /// location in that filesystem. Directory createPackagesDirectory( {Directory? parentDir, FileSystem? fileSystem}) { assert(parentDir != null || fileSystem != null, 'One of parentDir or fileSystem must be provided'); assert(fileSystem == null || fileSystem is MemoryFileSystem, 'If using a real filesystem, parentDir must be provided'); final Directory packagesDir = (parentDir ?? fileSystem!.currentDirectory).childDirectory('packages'); packagesDir.createSync(); return packagesDir; } /// Details for platform support in a plugin. @immutable class PlatformDetails { const PlatformDetails( this.type, { this.variants = const [], this.hasNativeCode = true, this.hasDartCode = false, }); /// The type of support for the platform. final PlatformSupport type; /// Any 'supportVariants' to list in the pubspec. final List variants; /// Whether or not the plugin includes native code. /// /// Ignored for web, which does not have native code. final bool hasNativeCode; /// Whether or not the plugin includes Dart code. /// /// Ignored for web, which always has native code. final bool hasDartCode; } /// Creates a plugin package with the given [name] in [packagesDirectory]. /// /// [platformSupport] is a map of platform string to the support details for /// that platform. /// /// [extraFiles] is an optional list of plugin-relative paths, using Posix /// separators, of extra files to create in the plugin. // TODO(stuartmorgan): Convert the return to a RepositoryPackage. Directory createFakePlugin( String name, Directory parentDirectory, { List examples = const ['example'], List extraFiles = const [], Map platformSupport = const {}, String? version = '0.0.1', }) { final Directory pluginDirectory = createFakePackage(name, parentDirectory, isFlutter: true, examples: examples, extraFiles: extraFiles, version: version); createFakePubspec( pluginDirectory, name: name, isFlutter: true, isPlugin: true, platformSupport: platformSupport, version: version, ); return pluginDirectory; } /// Creates a plugin package with the given [name] in [packagesDirectory]. /// /// [extraFiles] is an optional list of package-relative paths, using unix-style /// separators, of extra files to create in the package. // TODO(stuartmorgan): Convert the return to a RepositoryPackage. Directory createFakePackage( String name, Directory parentDirectory, { List examples = const ['example'], List extraFiles = const [], bool isFlutter = false, String? version = '0.0.1', }) { final Directory packageDirectory = parentDirectory.childDirectory(name); packageDirectory.createSync(recursive: true); createFakePubspec(packageDirectory, name: name, isFlutter: isFlutter, version: version); createFakeCHANGELOG(packageDirectory, ''' ## $version * Some changes. '''); createFakeAuthors(packageDirectory); if (examples.length == 1) { final Directory exampleDir = packageDirectory.childDirectory(examples.first) ..createSync(); createFakePubspec(exampleDir, name: '${name}_example', isFlutter: isFlutter, publishTo: 'none'); } else if (examples.isNotEmpty) { final Directory exampleDir = packageDirectory.childDirectory('example') ..createSync(); for (final String example in examples) { final Directory currentExample = exampleDir.childDirectory(example) ..createSync(); createFakePubspec(currentExample, name: example, isFlutter: isFlutter, publishTo: 'none'); } } final p.Context posixContext = p.posix; for (final String file in extraFiles) { childFileWithSubcomponents(packageDirectory, posixContext.split(file)) .createSync(recursive: true); } return packageDirectory; } void createFakeCHANGELOG(Directory parent, String texts) { parent.childFile('CHANGELOG.md').createSync(); parent.childFile('CHANGELOG.md').writeAsStringSync(texts); } /// Creates a `pubspec.yaml` file with a flutter dependency. /// /// [platformSupport] is a map of platform string to the support details for /// that platform. If empty, no `plugin` entry will be created unless `isPlugin` /// is set to `true`. void createFakePubspec( Directory parent, { String name = 'fake_package', bool isFlutter = true, bool isPlugin = false, Map platformSupport = const {}, String publishTo = 'http://no_pub_server.com', String? version, }) { isPlugin |= platformSupport.isNotEmpty; parent.childFile('pubspec.yaml').createSync(); String yaml = ''' name: $name '''; if (isFlutter) { if (isPlugin) { yaml += ''' flutter: plugin: platforms: '''; for (final MapEntry platform in platformSupport.entries) { yaml += _pluginPlatformSection(platform.key, platform.value, name); } } yaml += ''' dependencies: flutter: sdk: flutter '''; } if (version != null) { yaml += ''' version: $version '''; } if (publishTo.isNotEmpty) { yaml += ''' publish_to: $publishTo # Hardcoded safeguard to prevent this from somehow being published by a broken test. '''; } parent.childFile('pubspec.yaml').writeAsStringSync(yaml); } void createFakeAuthors(Directory parent) { final File authorsFile = parent.childFile('AUTHORS'); authorsFile.createSync(); authorsFile.writeAsStringSync('Google Inc.'); } String _pluginPlatformSection( String platform, PlatformDetails support, String packageName) { String entry = ''; // Build the main plugin entry. if (support.type == PlatformSupport.federated) { entry = ''' $platform: default_package: ${packageName}_$platform '''; } else { final List lines = [ ' $platform:', ]; switch (platform) { case platformAndroid: lines.add(' package: io.flutter.plugins.fake'); continue nativeByDefault; nativeByDefault: case platformIOS: case platformLinux: case platformMacOS: case platformWindows: if (support.hasNativeCode) { final String className = platform == platformIOS ? 'FLTFakePlugin' : 'FakePlugin'; lines.add(' pluginClass: $className'); } if (support.hasDartCode) { lines.add(' dartPluginClass: FakeDartPlugin'); } break; case platformWeb: lines.addAll([ ' pluginClass: FakePlugin', ' fileName: ${packageName}_web.dart', ]); break; default: assert(false, 'Unrecognized platform: $platform'); break; } entry = lines.join('\n') + '\n'; } // Add any variants. if (support.variants.isNotEmpty) { entry += ''' supportedVariants: '''; for (final String variant in support.variants) { entry += ''' - $variant '''; } } return entry; } typedef _ErrorHandler = void Function(Error error); /// Run the command [runner] with the given [args] and return /// what was printed. /// A custom [errorHandler] can be used to handle the runner error as desired without throwing. Future> runCapturingPrint( CommandRunner runner, List args, {_ErrorHandler? errorHandler}) async { final List prints = []; final ZoneSpecification spec = ZoneSpecification( print: (_, __, ___, String message) { prints.add(message); }, ); try { await Zone.current .fork(specification: spec) .run>(() => runner.run(args)); } on Error catch (e) { if (errorHandler == null) { rethrow; } errorHandler(e); } return prints; } /// A mock [ProcessRunner] which records process calls. class RecordingProcessRunner extends ProcessRunner { final List recordedCalls = []; /// Maps an executable to a list of processes that should be used for each /// successive call to it via [run], [runAndStream], or [start]. final Map> mockProcessesForExecutable = >{}; @override Future runAndStream( String executable, List args, { Directory? workingDir, bool exitOnError = false, }) async { recordedCalls.add(ProcessCall(executable, args, workingDir?.path)); final io.Process? processToReturn = _getProcessToReturn(executable); final int exitCode = processToReturn == null ? 0 : await processToReturn.exitCode; if (exitOnError && (exitCode != 0)) { throw io.ProcessException(executable, args); } return Future.value(exitCode); } /// Returns [io.ProcessResult] created from [mockProcessesForExecutable]. @override Future run( String executable, List args, { Directory? workingDir, bool exitOnError = false, bool logOnError = false, Encoding stdoutEncoding = io.systemEncoding, Encoding stderrEncoding = io.systemEncoding, }) async { recordedCalls.add(ProcessCall(executable, args, workingDir?.path)); final io.Process? process = _getProcessToReturn(executable); final List? processStdout = await process?.stdout.transform(stdoutEncoding.decoder).toList(); final String stdout = processStdout?.join('') ?? ''; final List? processStderr = await process?.stderr.transform(stderrEncoding.decoder).toList(); final String stderr = processStderr?.join('') ?? ''; final io.ProcessResult result = process == null ? io.ProcessResult(1, 0, '', '') : io.ProcessResult(process.pid, await process.exitCode, stdout, stderr); if (exitOnError && (result.exitCode != 0)) { throw io.ProcessException(executable, args); } return Future.value(result); } @override Future start(String executable, List args, {Directory? workingDirectory}) async { recordedCalls.add(ProcessCall(executable, args, workingDirectory?.path)); return Future.value( _getProcessToReturn(executable) ?? MockProcess()); } io.Process? _getProcessToReturn(String executable) { final List? processes = mockProcessesForExecutable[executable]; if (processes != null && processes.isNotEmpty) { return processes.removeAt(0); } return null; } } /// A recorded process call. @immutable class ProcessCall { const ProcessCall(this.executable, this.args, this.workingDir); /// The executable that was called. final String executable; /// The arguments passed to [executable] in the call. final List args; /// The working directory this process was called from. final String? workingDir; @override bool operator ==(dynamic other) { return other is ProcessCall && executable == other.executable && listsEqual(args, other.args) && workingDir == other.workingDir; } @override int get hashCode => (executable.hashCode) ^ (args.hashCode) ^ (workingDir?.hashCode ?? 0); @override String toString() { final List command = [executable, ...args]; return '"${command.join(' ')}" in $workingDir'; } }