packages/flutter_driver/lib/src/driver.dart - mirrors/flutter - Git at Google

 // Copyright 2016 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 'dart:async';
 import 'dart:io';
 import 'package:json_rpc_2/json_rpc_2.dart' as rpc;
 import 'package:vm_service_client/vm_service_client.dart';
 import 'package:web_socket_channel/io.dart';

 import 'error.dart';
 import 'find.dart';
 import 'gesture.dart';
 import 'health.dart';
 import 'message.dart';
 import 'timeline.dart';

 enum TimelineStream {
   all, api, compiler, dart, debugger, embedder, gc, isolate, vm
 }

 const List<TimelineStream> _defaultStreams = const <TimelineStream>[TimelineStream.all];

 // See https://github.com/dart-lang/sdk/blob/master/runtime/vm/timeline.cc#L32
 String _timelineStreamsToString(List<TimelineStream> streams) {
   final String contents = streams.map((TimelineStream stream) {
     switch(stream) {
       case TimelineStream.all: return 'all';
       case TimelineStream.api: return 'API';
       case TimelineStream.compiler: return 'Compiler';
       case TimelineStream.dart: return 'Dart';
       case TimelineStream.debugger: return 'Debugger';
       case TimelineStream.embedder: return 'Embedder';
       case TimelineStream.gc: return 'GC';
       case TimelineStream.isolate: return 'Isolate';
       case TimelineStream.vm: return 'VM';
       default:
         throw 'Unknown timeline stream $stream';
     }
   }).join(', ');
   return '[$contents]';
 }

 final Logger _log = new Logger('FlutterDriver');

 /// A convenient accessor to frequently used finders.
 ///
 /// Examples:
 ///
 ///     driver.tap(find.text('Save'));
 ///     driver.scroll(find.byValueKey(42));
 const CommonFinders find = const CommonFinders._();

 /// Computes a value.
 ///
 /// If computation is asynchronous, the function may return a [Future].
 ///
 /// See also [FlutterDriver.waitFor].
 typedef dynamic EvaluatorFunction();

 /// Drives a Flutter Application running in another process.
 class FlutterDriver {
   FlutterDriver.connectedTo(this._serviceClient, this._peer, this._appIsolate);

   static const String _kFlutterExtensionMethod = 'ext.flutter.driver';
   static const String _kSetVMTimelineFlagsMethod = '_setVMTimelineFlags';
   static const String _kGetVMTimelineMethod = '_getVMTimeline';
   static const Duration _kDefaultTimeout = const Duration(seconds: 5);

   /// Connects to a Flutter application.
   ///
   /// Resumes the application if it is currently paused (e.g. at a breakpoint).
   ///
   /// [dartVmServiceUrl] is the URL to Dart observatory (a.k.a. VM service). By
   /// default it connects to `http://localhost:8183`.
   static Future<FlutterDriver> connect({String dartVmServiceUrl: 'http://localhost:8183'}) async {
     // Connect to Dart VM servcies
     _log.info('Connecting to Flutter application at $dartVmServiceUrl');
     VMServiceClientConnection connection = await vmServiceConnectFunction(dartVmServiceUrl);
     VMServiceClient client = connection.client;
     VM vm = await client.getVM();
     _log.trace('Looking for the isolate');
     VMIsolate isolate = await vm.isolates.first.loadRunnable();

     // TODO(yjbanov): vm_service_client does not support "None" pause event yet.
     // It is currently reported as `null`, but we cannot rely on it because
     // eventually the event will be reported as a non-`null` object. For now,
     // list all the events we know about. Later we'll check for "None" event
     // explicitly.
     //
     // See: https://github.com/dart-lang/vm_service_client/issues/4
     if (isolate.pauseEvent is! VMPauseStartEvent &&
         isolate.pauseEvent is! VMPauseExitEvent &&
         isolate.pauseEvent is! VMPauseBreakpointEvent &&
         isolate.pauseEvent is! VMPauseExceptionEvent &&
         isolate.pauseEvent is! VMPauseInterruptedEvent &&
         isolate.pauseEvent is! VMResumeEvent) {
       await new Future<Null>.delayed(new Duration(milliseconds: 300));
       isolate = await vm.isolates.first.loadRunnable();
     }

     FlutterDriver driver = new FlutterDriver.connectedTo(client, connection.peer, isolate);

     // Attempts to resume the isolate, but does not crash if it fails because
     // the isolate is already resumed. There could be a race with other tools,
     // such as a debugger, any of which could have resumed the isolate.
     Future<dynamic> resumeLeniently() {
       _log.trace('Attempting to resume isolate');
       return isolate.resume().catchError((dynamic e) {
         const int vmMustBePausedCode = 101;
         if (e is rpc.RpcException && e.code == vmMustBePausedCode) {
           // No biggie; something else must have resumed the isolate
           _log.warning(
             'Attempted to resume an already resumed isolate. This may happen '
             'when we lose a race with another tool (usually a debugger) that '
             'is connected to the same isolate.'
           );
         } else {
           // Failed to resume due to another reason. Fail hard.
           throw e;
         }
       });
     }

     // Attempt to resume isolate if it was paused
     if (isolate.pauseEvent is VMPauseStartEvent) {
       _log.trace('Isolate is paused at start.');

       // Waits for a signal from the VM service that the extension is registered
       Future<String> waitForServiceExtension() {
         return isolate.onExtensionAdded.firstWhere((String extension) {
           return extension == _kFlutterExtensionMethod;
         });
       }

       // If the isolate is paused at the start, e.g. via the --start-paused
       // option, then the VM service extension is not registered yet. Wait for
       // it to be registered.
       Future<dynamic> whenResumed = resumeLeniently();
       Future<dynamic> whenServiceExtensionReady = Future.any/*<dynamic>*/(<Future<dynamic>>[
         waitForServiceExtension(),
         // We will never receive the extension event if the user does not
         // register it. If that happens time out.
         new Future<String>.delayed(const Duration(seconds: 10), () => 'timeout')
       ]);
       await whenResumed;
       _log.trace('Waiting for service extension');
       dynamic signal = await whenServiceExtensionReady;
       if (signal == 'timeout') {
         throw new DriverError(
           'Timed out waiting for Flutter Driver extension to become available. '
           'Ensure your test app (often: lib/main.dart) imports '
           '"package:flutter_driver/driver_extension.dart" and '
           'calls enableFlutterDriverExtension() as the first call in main().'
         );
       }
     } else if (isolate.pauseEvent is VMPauseExitEvent ||
                isolate.pauseEvent is VMPauseBreakpointEvent ||
                isolate.pauseEvent is VMPauseExceptionEvent ||
                isolate.pauseEvent is VMPauseInterruptedEvent) {
       // If the isolate is paused for any other reason, assume the extension is
       // already there.
       _log.trace('Isolate is paused mid-flight.');
       await resumeLeniently();
     } else if (isolate.pauseEvent is VMResumeEvent) {
       _log.trace('Isolate is not paused. Assuming application is ready.');
     } else {
       _log.warning(
         'Unknown pause event type ${isolate.pauseEvent.runtimeType}. '
         'Assuming application is ready.'
       );
     }

     // At this point the service extension must be installed. Verify it.
     Health health = await driver.checkHealth();
     if (health.status != HealthStatus.ok) {
       client.close();
       throw new DriverError('Flutter application health check failed.');
     }

     _log.info('Connected to Flutter application.');
     return driver;
   }

   /// Client connected to the Dart VM running the Flutter application
   final VMServiceClient _serviceClient;
   /// JSON-RPC client useful for sending raw JSON requests.
   final rpc.Peer _peer;
   /// The main isolate hosting the Flutter application
   final VMIsolateRef _appIsolate;

   Future<Map<String, dynamic>> _sendCommand(Command command) async {
     Map<String, String> parameters = <String, String>{'command': command.kind}
       ..addAll(command.serialize());
     try {
       return await _appIsolate.invokeExtension(_kFlutterExtensionMethod, parameters);
     } catch (error, stackTrace) {
       throw new DriverError(
         'Failed to fulfill ${command.runtimeType} due to remote error',
         error,
         stackTrace
       );
     }
   }

   /// Checks the status of the Flutter Driver extension.
   Future<Health> checkHealth() async {
     return Health.fromJson(await _sendCommand(new GetHealth()));
   }

   /// Taps at the center of the widget located by [finder].
   Future<Null> tap(SerializableFinder finder) async {
     await _sendCommand(new Tap(finder));
     return null;
   }

   /// Waits until [finder] locates the target.
   Future<Null> waitFor(SerializableFinder finder, {Duration timeout: _kDefaultTimeout}) async {
     await _sendCommand(new WaitFor(finder, timeout: timeout));
     return null;
   }

   /// Tell the driver to perform a scrolling action.
   ///
   /// A scrolling action begins with a "pointer down" event, which commonly maps
   /// to finger press on the touch screen or mouse button press. A series of
   /// "pointer move" events follow. The action is completed by a "pointer up"
   /// event.
   ///
   /// [dx] and [dy] specify the total offset for the entire scrolling action.
   ///
   /// [duration] specifies the lenght of the action.
   ///
   /// The move events are generated at a given [frequency] in Hz (or events per
   /// second). It defaults to 60Hz.
   Future<Null> scroll(SerializableFinder finder, double dx, double dy, Duration duration, {int frequency: 60}) async {
     return await _sendCommand(new Scroll(finder, dx, dy, duration, frequency)).then((Map<String, dynamic> _) => null);
   }

   /// Scrolls the Scrollable ancestor of the widget located by [finder]
   /// until the widget is completely visible.
   Future<Null> scrollIntoView(SerializableFinder finder) async {
     return await _sendCommand(new ScrollIntoView(finder)).then((Map<String, dynamic> _) => null);
   }

   /// Returns the text in the `Text` widget located by [finder].
   Future<String> getText(SerializableFinder finder) async {
     return GetTextResult.fromJson(await _sendCommand(new GetText(finder))).text;
   }

   /// Starts recording performance traces.
   Future<Null> startTracing({List<TimelineStream> streams: _defaultStreams}) async {
     assert(streams != null && streams.length > 0);
     try {
       await _peer.sendRequest(_kSetVMTimelineFlagsMethod, <String, String>{
         'recordedStreams': _timelineStreamsToString(streams)
       });
       return null;
     } catch(error, stackTrace) {
       throw new DriverError(
         'Failed to start tracing due to remote error',
         error,
         stackTrace
       );
     }
   }

   /// Stops recording performance traces and downloads the timeline.
   Future<Timeline> stopTracingAndDownloadTimeline() async {
     try {
       await _peer.sendRequest(_kSetVMTimelineFlagsMethod, <String, String>{'recordedStreams': '[]'});
       return new Timeline.fromJson(await _peer.sendRequest(_kGetVMTimelineMethod));
     } catch(error, stackTrace) {
       throw new DriverError(
         'Failed to stop tracing due to remote error',
         error,
         stackTrace
       );
     }
   }

   /// Runs [action] and outputs a performance trace for it.
   ///
   /// Waits for the `Future` returned by [action] to complete prior to stopping
   /// the trace.
   ///
   /// This is merely a convenience wrapper on top of [startTracing] and
   /// [stopTracingAndDownloadTimeline].
   Future<Timeline> traceAction(Future<dynamic> action(), { List<TimelineStream> streams: _defaultStreams }) async {
     await startTracing(streams: streams);
     await action();
     return stopTracingAndDownloadTimeline();
   }

   /// Closes the underlying connection to the VM service.
   ///
   /// Returns a [Future] that fires once the connection has been closed.
   // TODO(yjbanov): cleanup object references
   Future<Null> close() => _serviceClient.close().then((_) {
     // Don't leak vm_service_client-specific objects, if any
     return null;
   });
 }

 /// Encapsulates connection information to an instance of a Flutter application.
 class VMServiceClientConnection {
   /// Use this for structured access to the VM service's public APIs.
   final VMServiceClient client;

   /// Use this to make arbitrary raw JSON-RPC calls.
   ///
   /// This object allows reaching into private VM service APIs. Use with
   /// caution.
   final rpc.Peer peer;

   VMServiceClientConnection(this.client, this.peer);
 }

 /// A function that connects to a Dart VM service given the [url].
 typedef Future<VMServiceClientConnection> VMServiceConnectFunction(String url);

 /// The connection function used by [FlutterDriver.connect].
 ///
 /// Overwrite this function if you require a custom method for connecting to
 /// the VM service.
 VMServiceConnectFunction vmServiceConnectFunction = _waitAndConnect;

 /// Restores [vmServiceConnectFunction] to its default value.
 void restoreVmServiceConnectFunction() {
   vmServiceConnectFunction = _waitAndConnect;
 }

 /// Waits for a real Dart VM service to become available, then connects using
 /// the [VMServiceClient].
 ///
 /// Times out after 30 seconds.
 Future<VMServiceClientConnection> _waitAndConnect(String url) async {
   Stopwatch timer = new Stopwatch()..start();

   Future<VMServiceClientConnection> attemptConnection() async {
     Uri uri = Uri.parse(url);
     if (uri.scheme == 'http') uri = uri.replace(scheme: 'ws', path: '/ws');

     WebSocket ws1;
     WebSocket ws2;
     try {
       ws1 = await WebSocket.connect(uri.toString());
       ws2 = await WebSocket.connect(uri.toString());
       return new VMServiceClientConnection(
         new VMServiceClient(new IOWebSocketChannel(ws1)),
         new rpc.Peer(new IOWebSocketChannel(ws2))..listen()
       );
     } catch(e) {
       if (ws1 != null)
         ws1.close();

       if (ws2 != null)
         ws2.close();

       if (timer.elapsed < const Duration(seconds: 30)) {
         _log.info('Waiting for application to start');
         await new Future<Null>.delayed(const Duration(seconds: 1));
         return attemptConnection();
       } else {
         _log.critical(
           'Application has not started in 30 seconds. '
           'Giving up.'
         );
         throw e;
       }
     }
   }

   return attemptConnection();
 }

 /// Provides convenient accessors to frequently used finders.
 class CommonFinders {
   const CommonFinders._();

   /// Finds [Text] widgets containing string equal to [text].
   SerializableFinder text(String text) => new ByText(text);

   /// Finds widgets by [key].
   SerializableFinder byValueKey(dynamic key) => new ByValueKey(key);

   /// Finds widgets with a tooltip with the given [message].
   SerializableFinder byTooltip(String message) => new ByTooltipMessage(message);
 }
	// Copyright 2016 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 'dart:async';
	import 'dart:io';
	import 'package:json_rpc_2/json_rpc_2.dart' as rpc;
	import 'package:vm_service_client/vm_service_client.dart';
	import 'package:web_socket_channel/io.dart';

	import 'error.dart';
	import 'find.dart';
	import 'gesture.dart';
	import 'health.dart';
	import 'message.dart';
	import 'timeline.dart';

	enum TimelineStream {
	all, api, compiler, dart, debugger, embedder, gc, isolate, vm
	}

	const List<TimelineStream> _defaultStreams = const <TimelineStream>[TimelineStream.all];

	// See https://github.com/dart-lang/sdk/blob/master/runtime/vm/timeline.cc#L32
	String _timelineStreamsToString(List<TimelineStream> streams) {
	final String contents = streams.map((TimelineStream stream) {
	switch(stream) {
	case TimelineStream.all: return 'all';
	case TimelineStream.api: return 'API';
	case TimelineStream.compiler: return 'Compiler';
	case TimelineStream.dart: return 'Dart';
	case TimelineStream.debugger: return 'Debugger';
	case TimelineStream.embedder: return 'Embedder';
	case TimelineStream.gc: return 'GC';
	case TimelineStream.isolate: return 'Isolate';
	case TimelineStream.vm: return 'VM';
	default:
	throw 'Unknown timeline stream $stream';
	}
	}).join(', ');
	return '[$contents]';
	}

	final Logger _log = new Logger('FlutterDriver');

	/// A convenient accessor to frequently used finders.
	///
	/// Examples:
	///
	/// driver.tap(find.text('Save'));
	/// driver.scroll(find.byValueKey(42));
	const CommonFinders find = const CommonFinders._();

	/// Computes a value.
	///
	/// If computation is asynchronous, the function may return a [Future].
	///
	/// See also [FlutterDriver.waitFor].
	typedef dynamic EvaluatorFunction();

	/// Drives a Flutter Application running in another process.
	class FlutterDriver {
	FlutterDriver.connectedTo(this._serviceClient, this._peer, this._appIsolate);

	static const String _kFlutterExtensionMethod = 'ext.flutter.driver';
	static const String _kSetVMTimelineFlagsMethod = '_setVMTimelineFlags';
	static const String _kGetVMTimelineMethod = '_getVMTimeline';
	static const Duration _kDefaultTimeout = const Duration(seconds: 5);

	/// Connects to a Flutter application.
	///
	/// Resumes the application if it is currently paused (e.g. at a breakpoint).
	///
	/// [dartVmServiceUrl] is the URL to Dart observatory (a.k.a. VM service). By
	/// default it connects to `http://localhost:8183`.
	static Future<FlutterDriver> connect({String dartVmServiceUrl: 'http://localhost:8183'}) async {
	// Connect to Dart VM servcies
	_log.info('Connecting to Flutter application at $dartVmServiceUrl');
	VMServiceClientConnection connection = await vmServiceConnectFunction(dartVmServiceUrl);
	VMServiceClient client = connection.client;
	VM vm = await client.getVM();
	_log.trace('Looking for the isolate');
	VMIsolate isolate = await vm.isolates.first.loadRunnable();

	// TODO(yjbanov): vm_service_client does not support "None" pause event yet.
	// It is currently reported as `null`, but we cannot rely on it because
	// eventually the event will be reported as a non-`null` object. For now,
	// list all the events we know about. Later we'll check for "None" event
	// explicitly.
	//
	// See: https://github.com/dart-lang/vm_service_client/issues/4
	if (isolate.pauseEvent is! VMPauseStartEvent &&
	isolate.pauseEvent is! VMPauseExitEvent &&
	isolate.pauseEvent is! VMPauseBreakpointEvent &&
	isolate.pauseEvent is! VMPauseExceptionEvent &&
	isolate.pauseEvent is! VMPauseInterruptedEvent &&
	isolate.pauseEvent is! VMResumeEvent) {
	await new Future<Null>.delayed(new Duration(milliseconds: 300));
	isolate = await vm.isolates.first.loadRunnable();
	}

	FlutterDriver driver = new FlutterDriver.connectedTo(client, connection.peer, isolate);

	// Attempts to resume the isolate, but does not crash if it fails because
	// the isolate is already resumed. There could be a race with other tools,
	// such as a debugger, any of which could have resumed the isolate.
	Future<dynamic> resumeLeniently() {
	_log.trace('Attempting to resume isolate');
	return isolate.resume().catchError((dynamic e) {
	const int vmMustBePausedCode = 101;
	if (e is rpc.RpcException && e.code == vmMustBePausedCode) {
	// No biggie; something else must have resumed the isolate
	_log.warning(
	'Attempted to resume an already resumed isolate. This may happen '
	'when we lose a race with another tool (usually a debugger) that '
	'is connected to the same isolate.'
	);
	} else {
	// Failed to resume due to another reason. Fail hard.
	throw e;
	}
	});
	}

	// Attempt to resume isolate if it was paused
	if (isolate.pauseEvent is VMPauseStartEvent) {
	_log.trace('Isolate is paused at start.');

	// Waits for a signal from the VM service that the extension is registered
	Future<String> waitForServiceExtension() {
	return isolate.onExtensionAdded.firstWhere((String extension) {
	return extension == _kFlutterExtensionMethod;
	});
	}

	// If the isolate is paused at the start, e.g. via the --start-paused
	// option, then the VM service extension is not registered yet. Wait for
	// it to be registered.
	Future<dynamic> whenResumed = resumeLeniently();
	Future<dynamic> whenServiceExtensionReady = Future.any/<dynamic>/(<Future<dynamic>>[
	waitForServiceExtension(),
	// We will never receive the extension event if the user does not
	// register it. If that happens time out.
	new Future<String>.delayed(const Duration(seconds: 10), () => 'timeout')
	]);
	await whenResumed;
	_log.trace('Waiting for service extension');
	dynamic signal = await whenServiceExtensionReady;
	if (signal == 'timeout') {
	throw new DriverError(
	'Timed out waiting for Flutter Driver extension to become available. '
	'Ensure your test app (often: lib/main.dart) imports '
	'"package:flutter_driver/driver_extension.dart" and '
	'calls enableFlutterDriverExtension() as the first call in main().'
	);
	}
	} else if (isolate.pauseEvent is VMPauseExitEvent \|\|
	isolate.pauseEvent is VMPauseBreakpointEvent \|\|
	isolate.pauseEvent is VMPauseExceptionEvent \|\|
	isolate.pauseEvent is VMPauseInterruptedEvent) {
	// If the isolate is paused for any other reason, assume the extension is
	// already there.
	_log.trace('Isolate is paused mid-flight.');
	await resumeLeniently();
	} else if (isolate.pauseEvent is VMResumeEvent) {
	_log.trace('Isolate is not paused. Assuming application is ready.');
	} else {
	_log.warning(
	'Unknown pause event type ${isolate.pauseEvent.runtimeType}. '
	'Assuming application is ready.'
	);
	}

	// At this point the service extension must be installed. Verify it.
	Health health = await driver.checkHealth();
	if (health.status != HealthStatus.ok) {
	client.close();
	throw new DriverError('Flutter application health check failed.');
	}

	_log.info('Connected to Flutter application.');
	return driver;
	}

	/// Client connected to the Dart VM running the Flutter application
	final VMServiceClient _serviceClient;
	/// JSON-RPC client useful for sending raw JSON requests.
	final rpc.Peer _peer;
	/// The main isolate hosting the Flutter application
	final VMIsolateRef _appIsolate;

	Future<Map<String, dynamic>> _sendCommand(Command command) async {
	Map<String, String> parameters = <String, String>{'command': command.kind}
	..addAll(command.serialize());
	try {
	return await _appIsolate.invokeExtension(_kFlutterExtensionMethod, parameters);
	} catch (error, stackTrace) {
	throw new DriverError(
	'Failed to fulfill ${command.runtimeType} due to remote error',
	error,
	stackTrace
	);
	}
	}

	/// Checks the status of the Flutter Driver extension.
	Future<Health> checkHealth() async {
	return Health.fromJson(await _sendCommand(new GetHealth()));
	}

	/// Taps at the center of the widget located by [finder].
	Future<Null> tap(SerializableFinder finder) async {
	await _sendCommand(new Tap(finder));
	return null;
	}

	/// Waits until [finder] locates the target.
	Future<Null> waitFor(SerializableFinder finder, {Duration timeout: _kDefaultTimeout}) async {
	await _sendCommand(new WaitFor(finder, timeout: timeout));
	return null;
	}

	/// Tell the driver to perform a scrolling action.
	///
	/// A scrolling action begins with a "pointer down" event, which commonly maps
	/// to finger press on the touch screen or mouse button press. A series of
	/// "pointer move" events follow. The action is completed by a "pointer up"
	/// event.
	///
	/// [dx] and [dy] specify the total offset for the entire scrolling action.
	///
	/// [duration] specifies the lenght of the action.
	///
	/// The move events are generated at a given [frequency] in Hz (or events per
	/// second). It defaults to 60Hz.
	Future<Null> scroll(SerializableFinder finder, double dx, double dy, Duration duration, {int frequency: 60}) async {
	return await _sendCommand(new Scroll(finder, dx, dy, duration, frequency)).then((Map<String, dynamic> _) => null);
	}

	/// Scrolls the Scrollable ancestor of the widget located by [finder]
	/// until the widget is completely visible.
	Future<Null> scrollIntoView(SerializableFinder finder) async {
	return await _sendCommand(new ScrollIntoView(finder)).then((Map<String, dynamic> _) => null);
	}

	/// Returns the text in the `Text` widget located by [finder].
	Future<String> getText(SerializableFinder finder) async {
	return GetTextResult.fromJson(await _sendCommand(new GetText(finder))).text;
	}

	/// Starts recording performance traces.
	Future<Null> startTracing({List<TimelineStream> streams: _defaultStreams}) async {
	assert(streams != null && streams.length > 0);
	try {
	await _peer.sendRequest(_kSetVMTimelineFlagsMethod, <String, String>{
	'recordedStreams': _timelineStreamsToString(streams)
	});
	return null;
	} catch(error, stackTrace) {
	throw new DriverError(
	'Failed to start tracing due to remote error',
	error,
	stackTrace
	);
	}
	}

	/// Stops recording performance traces and downloads the timeline.
	Future<Timeline> stopTracingAndDownloadTimeline() async {
	try {
	await _peer.sendRequest(_kSetVMTimelineFlagsMethod, <String, String>{'recordedStreams': '[]'});
	return new Timeline.fromJson(await _peer.sendRequest(_kGetVMTimelineMethod));
	} catch(error, stackTrace) {
	throw new DriverError(
	'Failed to stop tracing due to remote error',
	error,
	stackTrace
	);
	}
	}

	/// Runs [action] and outputs a performance trace for it.
	///
	/// Waits for the `Future` returned by [action] to complete prior to stopping
	/// the trace.
	///
	/// This is merely a convenience wrapper on top of [startTracing] and
	/// [stopTracingAndDownloadTimeline].
	Future<Timeline> traceAction(Future<dynamic> action(), { List<TimelineStream> streams: _defaultStreams }) async {
	await startTracing(streams: streams);
	await action();
	return stopTracingAndDownloadTimeline();
	}

	/// Closes the underlying connection to the VM service.
	///
	/// Returns a [Future] that fires once the connection has been closed.
	// TODO(yjbanov): cleanup object references
	Future<Null> close() => _serviceClient.close().then((_) {
	// Don't leak vm_service_client-specific objects, if any
	return null;
	});
	}

	/// Encapsulates connection information to an instance of a Flutter application.
	class VMServiceClientConnection {
	/// Use this for structured access to the VM service's public APIs.
	final VMServiceClient client;

	/// Use this to make arbitrary raw JSON-RPC calls.
	///
	/// This object allows reaching into private VM service APIs. Use with
	/// caution.
	final rpc.Peer peer;

	VMServiceClientConnection(this.client, this.peer);
	}

	/// A function that connects to a Dart VM service given the [url].
	typedef Future<VMServiceClientConnection> VMServiceConnectFunction(String url);

	/// The connection function used by [FlutterDriver.connect].
	///
	/// Overwrite this function if you require a custom method for connecting to
	/// the VM service.
	VMServiceConnectFunction vmServiceConnectFunction = _waitAndConnect;

	/// Restores [vmServiceConnectFunction] to its default value.
	void restoreVmServiceConnectFunction() {
	vmServiceConnectFunction = _waitAndConnect;
	}

	/// Waits for a real Dart VM service to become available, then connects using
	/// the [VMServiceClient].
	///
	/// Times out after 30 seconds.
	Future<VMServiceClientConnection> _waitAndConnect(String url) async {
	Stopwatch timer = new Stopwatch()..start();

	Future<VMServiceClientConnection> attemptConnection() async {
	Uri uri = Uri.parse(url);
	if (uri.scheme == 'http') uri = uri.replace(scheme: 'ws', path: '/ws');

	WebSocket ws1;
	WebSocket ws2;
	try {
	ws1 = await WebSocket.connect(uri.toString());
	ws2 = await WebSocket.connect(uri.toString());
	return new VMServiceClientConnection(
	new VMServiceClient(new IOWebSocketChannel(ws1)),
	new rpc.Peer(new IOWebSocketChannel(ws2))..listen()
	);
	} catch(e) {
	if (ws1 != null)
	ws1.close();

	if (ws2 != null)
	ws2.close();

	if (timer.elapsed < const Duration(seconds: 30)) {
	_log.info('Waiting for application to start');
	await new Future<Null>.delayed(const Duration(seconds: 1));
	return attemptConnection();
	} else {
	_log.critical(
	'Application has not started in 30 seconds. '
	'Giving up.'
	);
	throw e;
	}
	}
	}

	return attemptConnection();
	}

	/// Provides convenient accessors to frequently used finders.
	class CommonFinders {
	const CommonFinders._();

	/// Finds [Text] widgets containing string equal to [text].
	SerializableFinder text(String text) => new ByText(text);

	/// Finds widgets by [key].
	SerializableFinder byValueKey(dynamic key) => new ByValueKey(key);

	/// Finds widgets with a tooltip with the given [message].
	SerializableFinder byTooltip(String message) => new ByTooltipMessage(message);
	}