packages/flutter_tools/lib/src/windows/windows_device.dart - mirrors/flutter - Git at Google

 // Copyright 2018 The Chromium 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 '../application_package.dart';
 import '../base/io.dart';
 import '../base/os.dart';
 import '../base/platform.dart';
 import '../base/process_manager.dart';
 import '../build_info.dart';
 import '../desktop.dart';
 import '../device.dart';
 import '../globals.dart';
 import '../project.dart';
 import '../protocol_discovery.dart';
 import 'application_package.dart';
 import 'build_windows.dart';
 import 'windows_workflow.dart';

 /// A device that represents a desktop Windows target.
 class WindowsDevice extends Device {
   WindowsDevice() : super('Windows');

   @override
   void clearLogs() { }

   @override
   DeviceLogReader getLogReader({ ApplicationPackage app }) {
     return _logReader;
   }
   final DesktopLogReader _logReader = DesktopLogReader();

   // Since the host and target devices are the same, no work needs to be done
   // to install the application.
   @override
   Future<bool> installApp(ApplicationPackage app) async => true;

   // Since the host and target devices are the same, no work needs to be done
   // to install the application.
   @override
   Future<bool> isAppInstalled(ApplicationPackage app) async => true;

   // Since the host and target devices are the same, no work needs to be done
   // to install the application.
   @override
   Future<bool> isLatestBuildInstalled(ApplicationPackage app) async => true;

   @override
   Future<bool> get isLocalEmulator async => false;

   @override
   bool isSupported() => true;

   @override
   String get name => 'Windows';

   @override
   DevicePortForwarder get portForwarder => const NoOpDevicePortForwarder();

   @override
   Future<String> get sdkNameAndVersion async => os.name;

   @override
   Future<LaunchResult> startApp(
     covariant WindowsApp package, {
     String mainPath,
     String route,
     DebuggingOptions debuggingOptions,
     Map<String, dynamic> platformArgs,
     bool prebuiltApplication = false,
     bool usesTerminalUi = true,
     bool ipv6 = false,
   }) async {
     if (!prebuiltApplication) {
       await buildWindows(FlutterProject.current().windows, debuggingOptions.buildInfo);
     }
     await stopApp(package);
     final Process process = await processManager.start(<String>[
       package.executable(debuggingOptions?.buildInfo?.mode)
     ]);
     if (debuggingOptions?.buildInfo?.isRelease == true) {
       return LaunchResult.succeeded();
     }
     _logReader.initializeProcess(process);
     final ProtocolDiscovery observatoryDiscovery = ProtocolDiscovery.observatory(_logReader);
     try {
       final Uri observatoryUri = await observatoryDiscovery.uri;
       return LaunchResult.succeeded(observatoryUri: observatoryUri);
     } catch (error) {
       printError('Error waiting for a debug connection: $error');
       return LaunchResult.failed();
     } finally {
       await observatoryDiscovery.cancel();
     }
   }

   @override
   Future<bool> stopApp(covariant WindowsApp app) async {
     // Assume debug for now.
     final List<String> process = runningProcess(app.executable(BuildMode.debug));
     if (process == null) {
       return false;
     }
     final ProcessResult result = await processManager.run(<String>['Taskkill', '/PID', process.first, '/F']);
     return result.exitCode == 0;
   }

   @override
   Future<TargetPlatform> get targetPlatform async => TargetPlatform.windows_x64;

   // Since the host and target devices are the same, no work needs to be done
   // to uninstall the application.
   @override
   Future<bool> uninstallApp(ApplicationPackage app) async => true;

   @override
   bool isSupportedForProject(FlutterProject flutterProject) {
     return flutterProject.windows.existsSync();
   }
 }

 class WindowsDevices extends PollingDeviceDiscovery {
   WindowsDevices() : super('windows devices');

   @override
   bool get supportsPlatform => platform.isWindows;

   @override
   bool get canListAnything => windowsWorkflow.canListDevices;

   @override
   Future<List<Device>> pollingGetDevices() async {
     if (!canListAnything) {
       return const <Device>[];
     }
     return <Device>[
       WindowsDevice(),
     ];
   }

   @override
   Future<List<String>> getDiagnostics() async => const <String>[];
 }

 final RegExp _whitespace = RegExp(r'\w+');

 /// Returns the running process matching `process` name.
 ///
 /// This list contains the process name and id.
 @visibleForTesting
 List<String> runningProcess(String processName) {
   // TODO(jonahwilliams): find a way to do this without powershell.
   final ProcessResult result = processManager.runSync(<String>['powershell', '-script="Get-CimInstance Win32_Process"']);
   if (result.exitCode != 0) {
     return null;
   }
   for (String rawProcess in result.stdout.split('\n')) {
     final String process = rawProcess.trim();
     if (!process.contains(processName)) {
       continue;
     }
     final List<String> parts = process.split(_whitespace);
     final List<String> data = <String>[
       parts[0], // ID
       parts[1], // Name
     ];
     return data;
   }
   return null;
 }
	// Copyright 2018 The Chromium 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 '../application_package.dart';
	import '../base/io.dart';
	import '../base/os.dart';
	import '../base/platform.dart';
	import '../base/process_manager.dart';
	import '../build_info.dart';
	import '../desktop.dart';
	import '../device.dart';
	import '../globals.dart';
	import '../project.dart';
	import '../protocol_discovery.dart';
	import 'application_package.dart';
	import 'build_windows.dart';
	import 'windows_workflow.dart';

	/// A device that represents a desktop Windows target.
	class WindowsDevice extends Device {
	WindowsDevice() : super('Windows');

	@override
	void clearLogs() { }

	@override
	DeviceLogReader getLogReader({ ApplicationPackage app }) {
	return _logReader;
	}
	final DesktopLogReader _logReader = DesktopLogReader();

	// Since the host and target devices are the same, no work needs to be done
	// to install the application.
	@override
	Future<bool> installApp(ApplicationPackage app) async => true;

	// Since the host and target devices are the same, no work needs to be done
	// to install the application.
	@override
	Future<bool> isAppInstalled(ApplicationPackage app) async => true;

	// Since the host and target devices are the same, no work needs to be done
	// to install the application.
	@override
	Future<bool> isLatestBuildInstalled(ApplicationPackage app) async => true;

	@override
	Future<bool> get isLocalEmulator async => false;

	@override
	bool isSupported() => true;

	@override
	String get name => 'Windows';

	@override
	DevicePortForwarder get portForwarder => const NoOpDevicePortForwarder();

	@override
	Future<String> get sdkNameAndVersion async => os.name;

	@override
	Future<LaunchResult> startApp(
	covariant WindowsApp package, {
	String mainPath,
	String route,
	DebuggingOptions debuggingOptions,
	Map<String, dynamic> platformArgs,
	bool prebuiltApplication = false,
	bool usesTerminalUi = true,
	bool ipv6 = false,
	}) async {
	if (!prebuiltApplication) {
	await buildWindows(FlutterProject.current().windows, debuggingOptions.buildInfo);
	}
	await stopApp(package);
	final Process process = await processManager.start(<String>[
	package.executable(debuggingOptions?.buildInfo?.mode)
	]);
	if (debuggingOptions?.buildInfo?.isRelease == true) {
	return LaunchResult.succeeded();
	}
	_logReader.initializeProcess(process);
	final ProtocolDiscovery observatoryDiscovery = ProtocolDiscovery.observatory(_logReader);
	try {
	final Uri observatoryUri = await observatoryDiscovery.uri;
	return LaunchResult.succeeded(observatoryUri: observatoryUri);
	} catch (error) {
	printError('Error waiting for a debug connection: $error');
	return LaunchResult.failed();
	} finally {
	await observatoryDiscovery.cancel();
	}
	}

	@override
	Future<bool> stopApp(covariant WindowsApp app) async {
	// Assume debug for now.
	final List<String> process = runningProcess(app.executable(BuildMode.debug));
	if (process == null) {
	return false;
	}
	final ProcessResult result = await processManager.run(<String>['Taskkill', '/PID', process.first, '/F']);
	return result.exitCode == 0;
	}

	@override
	Future<TargetPlatform> get targetPlatform async => TargetPlatform.windows_x64;

	// Since the host and target devices are the same, no work needs to be done
	// to uninstall the application.
	@override
	Future<bool> uninstallApp(ApplicationPackage app) async => true;

	@override
	bool isSupportedForProject(FlutterProject flutterProject) {
	return flutterProject.windows.existsSync();
	}
	}

	class WindowsDevices extends PollingDeviceDiscovery {
	WindowsDevices() : super('windows devices');

	@override
	bool get supportsPlatform => platform.isWindows;

	@override
	bool get canListAnything => windowsWorkflow.canListDevices;

	@override
	Future<List<Device>> pollingGetDevices() async {
	if (!canListAnything) {
	return const <Device>[];
	}
	return <Device>[
	WindowsDevice(),
	];
	}

	@override
	Future<List<String>> getDiagnostics() async => const <String>[];
	}

	final RegExp _whitespace = RegExp(r'\w+');

	/// Returns the running process matching `process` name.
	///
	/// This list contains the process name and id.
	@visibleForTesting
	List<String> runningProcess(String processName) {
	// TODO(jonahwilliams): find a way to do this without powershell.
	final ProcessResult result = processManager.runSync(<String>['powershell', '-script="Get-CimInstance Win32_Process"']);
	if (result.exitCode != 0) {
	return null;
	}
	for (String rawProcess in result.stdout.split('\n')) {
	final String process = rawProcess.trim();
	if (!process.contains(processName)) {
	continue;
	}
	final List<String> parts = process.split(_whitespace);
	final List<String> data = <String>[
	parts[0], // ID
	parts[1], // Name
	];
	return data;
	}
	return null;
	}