packages/flutter_tools/lib/src/macos/xcdevice.dart - external/github.com/flutter/flutter - Git at Google

 // 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 'dart:async';

 import 'package:process/process.dart';

 import '../artifacts.dart';
 import '../base/io.dart';
 import '../base/logger.dart';
 import '../base/platform.dart';
 import '../base/process.dart';
 import '../build_info.dart';
 import '../cache.dart';
 import '../convert.dart';
 import '../globals.dart' as globals;
 import '../ios/devices.dart';
 import '../ios/ios_deploy.dart';
 import '../ios/iproxy.dart';
 import '../ios/mac.dart';
 import '../reporting/reporting.dart';
 import 'xcode.dart';

 enum XCDeviceEvent {
   attach,
   detach,
 }

 /// A utility class for interacting with Xcode xcdevice command line tools.
 class XCDevice {
   XCDevice({
     required Artifacts artifacts,
     required Cache cache,
     required ProcessManager processManager,
     required Logger logger,
     required Xcode xcode,
     required Platform platform,
     required IProxy iproxy,
   }) : _processUtils = ProcessUtils(logger: logger, processManager: processManager),
       _logger = logger,
       _iMobileDevice = IMobileDevice(
         artifacts: artifacts,
         cache: cache,
         logger: logger,
         processManager: processManager,
       ),
       _iosDeploy = IOSDeploy(
         artifacts: artifacts,
         cache: cache,
         logger: logger,
         platform: platform,
         processManager: processManager,
       ),
       _iProxy = iproxy,
       _xcode = xcode {

     _setupDeviceIdentifierByEventStream();
   }

   void dispose() {
     _deviceObservationProcess?.kill();
   }

   final ProcessUtils _processUtils;
   final Logger _logger;
   final IMobileDevice _iMobileDevice;
   final IOSDeploy _iosDeploy;
   final Xcode _xcode;
   final IProxy _iProxy;

   List<Object>? _cachedListResults;
   Process? _deviceObservationProcess;
   StreamController<Map<XCDeviceEvent, String>>? _deviceIdentifierByEvent;

   void _setupDeviceIdentifierByEventStream() {
     // _deviceIdentifierByEvent Should always be available for listeners
     // in case polling needs to be stopped and restarted.
     _deviceIdentifierByEvent = StreamController<Map<XCDeviceEvent, String>>.broadcast(
       onListen: _startObservingTetheredIOSDevices,
       onCancel: _stopObservingTetheredIOSDevices,
     );
   }

   bool get isInstalled => _xcode.isInstalledAndMeetsVersionCheck;

   Future<List<Object>?> _getAllDevices({
     bool useCache = false,
     required Duration timeout
   }) async {
     if (!isInstalled) {
       _logger.printTrace("Xcode not found. Run 'flutter doctor' for more information.");
       return null;
     }
     if (useCache && _cachedListResults != null) {
       return _cachedListResults;
     }
     try {
       // USB-tethered devices should be found quickly. 1 second timeout is faster than the default.
       final RunResult result = await _processUtils.run(
         <String>[
           ..._xcode.xcrunCommand(),
           'xcdevice',
           'list',
           '--timeout',
           timeout.inSeconds.toString(),
         ],
         throwOnError: true,
       );
       if (result.exitCode == 0) {
         final String listOutput = result.stdout;
         try {
           final List<Object> listResults = (json.decode(result.stdout) as List<Object?>).whereType<Object>().toList();
           _cachedListResults = listResults;
           return listResults;
         } on FormatException {
           // xcdevice logs errors and crashes to stdout.
           _logger.printError('xcdevice returned non-JSON response: $listOutput');
           return null;
         }
       }
       _logger.printTrace('xcdevice returned an error:\n${result.stderr}');
     } on ProcessException catch (exception) {
       _logger.printTrace('Process exception running xcdevice list:\n$exception');
     } on ArgumentError catch (exception) {
       _logger.printTrace('Argument exception running xcdevice list:\n$exception');
     }

     return null;
   }

   /// Observe identifiers (UDIDs) of devices as they attach and detach.
   ///
   /// Each attach and detach event is a tuple of one event type
   /// and identifier.
   Stream<Map<XCDeviceEvent, String>>? observedDeviceEvents() {
     if (!isInstalled) {
       _logger.printTrace("Xcode not found. Run 'flutter doctor' for more information.");
       return null;
     }
     return _deviceIdentifierByEvent?.stream;
   }

   // Attach: d83d5bc53967baa0ee18626ba87b6254b2ab5418
   // Attach: 00008027-00192736010F802E
   // Detach: d83d5bc53967baa0ee18626ba87b6254b2ab5418
   final RegExp _observationIdentifierPattern = RegExp(r'^(\w*): ([\w-]*)$');

   Future<void> _startObservingTetheredIOSDevices() async {
     try {
       if (_deviceObservationProcess != null) {
         throw Exception('xcdevice observe restart failed');
       }

       // Run in interactive mode (via script) to convince
       // xcdevice it has a terminal attached in order to redirect stdout.
       _deviceObservationProcess = await _processUtils.start(
         <String>[
           'script',
           '-t',
           '0',
           '/dev/null',
           ..._xcode.xcrunCommand(),
           'xcdevice',
           'observe',
           '--both',
         ],
       );

       final StreamSubscription<String> stdoutSubscription = _deviceObservationProcess!.stdout
         .transform<String>(utf8.decoder)
         .transform<String>(const LineSplitter())
         .listen((String line) {

         // xcdevice observe example output of UDIDs:
         //
         // Listening for all devices, on both interfaces.
         // Attach: d83d5bc53967baa0ee18626ba87b6254b2ab5418
         // Attach: 00008027-00192736010F802E
         // Detach: d83d5bc53967baa0ee18626ba87b6254b2ab5418
         // Attach: d83d5bc53967baa0ee18626ba87b6254b2ab5418
         final RegExpMatch? match = _observationIdentifierPattern.firstMatch(line);
         if (match != null && match.groupCount == 2) {
           final String verb = match.group(1)!.toLowerCase();
           final String identifier = match.group(2)!;
           if (verb.startsWith('attach')) {
             _deviceIdentifierByEvent?.add(<XCDeviceEvent, String>{
               XCDeviceEvent.attach: identifier,
             });
           } else if (verb.startsWith('detach')) {
             _deviceIdentifierByEvent?.add(<XCDeviceEvent, String>{
               XCDeviceEvent.detach: identifier,
             });
           }
         }
       });
       final StreamSubscription<String> stderrSubscription = _deviceObservationProcess!.stderr
         .transform<String>(utf8.decoder)
         .transform<String>(const LineSplitter())
         .listen((String line) {
         _logger.printTrace('xcdevice observe error: $line');
       });
       unawaited(_deviceObservationProcess?.exitCode.then((int status) {
         _logger.printTrace('xcdevice exited with code $exitCode');
         unawaited(stdoutSubscription.cancel());
         unawaited(stderrSubscription.cancel());
       }).whenComplete(() async {
         if (_deviceIdentifierByEvent?.hasListener ?? false) {
           // Tell listeners the process died.
           await _deviceIdentifierByEvent?.close();
         }
         _deviceObservationProcess = null;

         // Reopen it so new listeners can resume polling.
         _setupDeviceIdentifierByEventStream();
       }));
     } on ProcessException catch (exception, stackTrace) {
       _deviceIdentifierByEvent?.addError(exception, stackTrace);
     } on ArgumentError catch (exception, stackTrace) {
       _deviceIdentifierByEvent?.addError(exception, stackTrace);
     }
   }

   void _stopObservingTetheredIOSDevices() {
     _deviceObservationProcess?.kill();
   }

   /// [timeout] defaults to 2 seconds.
   Future<List<IOSDevice>> getAvailableIOSDevices({ Duration? timeout }) async {
     final List<Object>? allAvailableDevices = await _getAllDevices(timeout: timeout ?? const Duration(seconds: 2));

     if (allAvailableDevices == null) {
       return const <IOSDevice>[];
     }

     // [
     //  {
     //    "simulator" : true,
     //    "operatingSystemVersion" : "13.3 (17K446)",
     //    "available" : true,
     //    "platform" : "com.apple.platform.appletvsimulator",
     //    "modelCode" : "AppleTV5,3",
     //    "identifier" : "CBB5E1ED-2172-446E-B4E7-F2B5823DBBA6",
     //    "architecture" : "x86_64",
     //    "modelName" : "Apple TV",
     //    "name" : "Apple TV"
     //  },
     //  {
     //    "simulator" : false,
     //    "operatingSystemVersion" : "13.3 (17C54)",
     //    "interface" : "usb",
     //    "available" : true,
     //    "platform" : "com.apple.platform.iphoneos",
     //    "modelCode" : "iPhone8,1",
     //    "identifier" : "d83d5bc53967baa0ee18626ba87b6254b2ab5418",
     //    "architecture" : "arm64",
     //    "modelName" : "iPhone 6s",
     //    "name" : "iPhone"
     //  },
     //  {
     //    "simulator" : true,
     //    "operatingSystemVersion" : "6.1.1 (17S445)",
     //    "available" : true,
     //    "platform" : "com.apple.platform.watchsimulator",
     //    "modelCode" : "Watch5,4",
     //    "identifier" : "2D74FB11-88A0-44D0-B81E-C0C142B1C94A",
     //    "architecture" : "i386",
     //    "modelName" : "Apple Watch Series 5 - 44mm",
     //    "name" : "Apple Watch Series 5 - 44mm"
     //  },
     // ...

     final List<IOSDevice> devices = <IOSDevice>[];
     for (final Object device in allAvailableDevices) {
       if (device is Map<String, Object?>) {
         // Only include iPhone, iPad, iPod, or other iOS devices.
         if (!_isIPhoneOSDevice(device)) {
           continue;
         }
         final String? identifier = device['identifier'] as String?;
         final String? name = device['name'] as String?;
         if (identifier == null || name == null) {
           continue;
         }

         final Map<String, Object?>? errorProperties = _errorProperties(device);
         if (errorProperties != null) {
           final String? errorMessage = _parseErrorMessage(errorProperties);
           if (errorMessage != null) {
             if (errorMessage.contains('not paired')) {
               UsageEvent('device', 'ios-trust-failure', flutterUsage: globals.flutterUsage).send();
             }
             _logger.printTrace(errorMessage);
           }

           final int? code = _errorCode(errorProperties);

           // Temporary error -10: iPhone is busy: Preparing debugger support for iPhone.
           // Sometimes the app launch will fail on these devices until Xcode is done setting up the device.
           // Other times this is a false positive and the app will successfully launch despite the error.
           if (code != -10) {
             continue;
           }
         }

         final IOSDeviceConnectionInterface interface = _interfaceType(device);

         // Only support USB devices, skip "network" interface (Xcode > Window > Devices and Simulators > Connect via network).
         // TODO(jmagman): Remove this check once wirelessly detected devices can be observed and attached, https://github.com/flutter/flutter/issues/15072.
         if (interface != IOSDeviceConnectionInterface.usb) {
           continue;
         }

         String? sdkVersion = _sdkVersion(device);

         if (sdkVersion != null) {
           final String? buildVersion = _buildVersion(device);
           if (buildVersion != null) {
             sdkVersion = '$sdkVersion $buildVersion';
           }
         }

         devices.add(IOSDevice(
           identifier,
           name: name,
           cpuArchitecture: _cpuArchitecture(device),
           interfaceType: interface,
           sdkVersion: sdkVersion,
           iProxy: _iProxy,
           fileSystem: globals.fs,
           logger: _logger,
           iosDeploy: _iosDeploy,
           iMobileDevice: _iMobileDevice,
           platform: globals.platform,
         ));
       }
     }
     return devices;

   }

   /// Despite the name, com.apple.platform.iphoneos includes iPhone, iPads, and all iOS devices.
   /// Excludes simulators.
   static bool _isIPhoneOSDevice(Map<String, Object?> deviceProperties) {
     final Object? platform = deviceProperties['platform'];
     if (platform is String) {
       return platform == 'com.apple.platform.iphoneos';
     }
     return false;
   }

   static Map<String, Object?>? _errorProperties(Map<String, Object?> deviceProperties) {
     final Object? error = deviceProperties['error'];
     return error is Map<String, Object?> ? error : null;
   }

   static int? _errorCode(Map<String, Object?>? errorProperties) {
     if (errorProperties == null) {
       return null;
     }
     final Object? code = errorProperties['code'];
     return code is int ? code : null;
   }

   static IOSDeviceConnectionInterface _interfaceType(Map<String, Object?> deviceProperties) {
     // Interface can be "usb", "network", or "none" for simulators
     // and unknown future interfaces.
     final Object? interface = deviceProperties['interface'];
     if (interface is String) {
       if (interface.toLowerCase() == 'network') {
         return IOSDeviceConnectionInterface.network;
       } else {
         return IOSDeviceConnectionInterface.usb;
       }
     }

     return IOSDeviceConnectionInterface.none;
   }

   static String? _sdkVersion(Map<String, Object?> deviceProperties) {
     final Object? operatingSystemVersion = deviceProperties['operatingSystemVersion'];
     if (operatingSystemVersion is String) {
       // Parse out the OS version, ignore the build number in parentheses.
       // "13.3 (17C54)"
       final RegExp operatingSystemRegex = RegExp(r'(.*) \(.*\)$');
       if (operatingSystemRegex.hasMatch(operatingSystemVersion.trim())) {
         return operatingSystemRegex.firstMatch(operatingSystemVersion.trim())?.group(1);
       }
       return operatingSystemVersion;
     }
     return null;
   }

   static String? _buildVersion(Map<String, Object?> deviceProperties) {
     final Object? operatingSystemVersion = deviceProperties['operatingSystemVersion'];
     if (operatingSystemVersion is String) {
       // Parse out the build version, for example 17C54 from "13.3 (17C54)".
       final RegExp buildVersionRegex = RegExp(r'\(.*\)$');
       return buildVersionRegex.firstMatch(operatingSystemVersion)?.group(0)?.replaceAll(RegExp('[()]'), '');
     }
     return null;
   }

   DarwinArch _cpuArchitecture(Map<String, Object?> deviceProperties) {
     DarwinArch? cpuArchitecture;
     final Object? architecture = deviceProperties['architecture'];
     if (architecture is String) {
       try {
         cpuArchitecture = getIOSArchForName(architecture);
       } on Exception {
         // Fallback to default iOS architecture. Future-proof against a
         // theoretical version of Xcode that changes this string to something
         // slightly different like "ARM64", or armv7 variations like
         // armv7s and armv7f.
         if (architecture.startsWith('armv7')) {
           cpuArchitecture = DarwinArch.armv7;
         } else {
           cpuArchitecture = DarwinArch.arm64;
         }
         _logger.printWarning(
           'Unknown architecture $architecture, defaulting to '
           '${getNameForDarwinArch(cpuArchitecture)}',
         );
       }
     }
     return cpuArchitecture ?? DarwinArch.arm64;
   }

   /// Error message parsed from xcdevice. null if no error.
   static String? _parseErrorMessage(Map<String, Object?>? errorProperties) {
     //  {
     //    "simulator" : false,
     //    "operatingSystemVersion" : "13.3 (17C54)",
     //    "interface" : "usb",
     //    "available" : false,
     //    "platform" : "com.apple.platform.iphoneos",
     //    "modelCode" : "iPhone8,1",
     //    "identifier" : "98206e7a4afd4aedaff06e687594e089dede3c44",
     //    "architecture" : "arm64",
     //    "modelName" : "iPhone 6s",
     //    "name" : "iPhone",
     //    "error" : {
     //      "code" : -9,
     //      "failureReason" : "",
     //      "underlyingErrors" : [
     //        {
     //          "code" : 5,
     //          "failureReason" : "allowsSecureServices: 1. isConnected: 0. Platform: <DVTPlatform:0x7f804ce32880:'com.apple.platform.iphoneos':<DVTFilePath:0x7f804ce32800:'\/Users\/magder\/Applications\/Xcode_11-3-1.app\/Contents\/Developer\/Platforms\/iPhoneOS.platform'>>. DTDKDeviceIdentifierIsIDID: 0",
     //          "description" : "📱<DVTiOSDevice (0x7f801f190450), iPhone, iPhone, 13.3 (17C54), d83d5bc53967baa0ee18626ba87b6254b2ab5418> -- Failed _shouldMakeReadyForDevelopment check even though device is not locked by passcode.",
     //          "recoverySuggestion" : "",
     //          "domain" : "com.apple.platform.iphoneos"
     //        }
     //      ],
     //      "description" : "iPhone is not paired with your computer.",
     //      "recoverySuggestion" : "To use iPhone with Xcode, unlock it and choose to trust this computer when prompted.",
     //      "domain" : "com.apple.platform.iphoneos"
     //    }
     //  },
     //  {
     //    "simulator" : false,
     //    "operatingSystemVersion" : "13.3 (17C54)",
     //    "interface" : "usb",
     //    "available" : false,
     //    "platform" : "com.apple.platform.iphoneos",
     //    "modelCode" : "iPhone8,1",
     //    "identifier" : "d83d5bc53967baa0ee18626ba87b6254b2ab5418",
     //    "architecture" : "arm64",
     //    "modelName" : "iPhone 6s",
     //    "name" : "iPhone",
     //    "error" : {
     //      "code" : -9,
     //      "failureReason" : "",
     //      "description" : "iPhone is not paired with your computer.",
     //      "domain" : "com.apple.platform.iphoneos"
     //    }
     //  }
     // ...

     if (errorProperties == null) {
       return null;
     }

     final StringBuffer errorMessage = StringBuffer('Error: ');

     final Object? description = errorProperties['description'];
     if (description is String) {
       errorMessage.write(description);
       if (!description.endsWith('.')) {
         errorMessage.write('.');
       }
     } else {
       errorMessage.write('Xcode pairing error.');
     }

     final Object? recoverySuggestion = errorProperties['recoverySuggestion'];
     if (recoverySuggestion is String) {
       errorMessage.write(' $recoverySuggestion');
     }

     final int? code = _errorCode(errorProperties);
     if (code != null) {
       errorMessage.write(' (code $code)');
     }

     return errorMessage.toString();
   }

   /// List of all devices reporting errors.
   Future<List<String>> getDiagnostics() async {
     final List<Object>? allAvailableDevices = await _getAllDevices(
       useCache: true,
       timeout: const Duration(seconds: 2)
     );

     if (allAvailableDevices == null) {
       return const <String>[];
     }

     final List<String> diagnostics = <String>[];
     for (final Object deviceProperties in allAvailableDevices) {
       if (deviceProperties is! Map<String, Object?>) {
         continue;
       }
       final Map<String, Object?>? errorProperties = _errorProperties(deviceProperties);
       final String? errorMessage = _parseErrorMessage(errorProperties);
       if (errorMessage != null) {
         final int? code = _errorCode(errorProperties);
         // Error -13: iPhone is not connected. Xcode will continue when iPhone is connected.
         // This error is confusing since the device is not connected and maybe has not been connected
         // for a long time. Avoid showing it.
         if (code == -13 && errorMessage.contains('not connected')) {
           continue;
         }

         diagnostics.add(errorMessage);
       }
     }
     return diagnostics;
   }
 }
	// 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 'dart:async';

	import 'package:process/process.dart';

	import '../artifacts.dart';
	import '../base/io.dart';
	import '../base/logger.dart';
	import '../base/platform.dart';
	import '../base/process.dart';
	import '../build_info.dart';
	import '../cache.dart';
	import '../convert.dart';
	import '../globals.dart' as globals;
	import '../ios/devices.dart';
	import '../ios/ios_deploy.dart';
	import '../ios/iproxy.dart';
	import '../ios/mac.dart';
	import '../reporting/reporting.dart';
	import 'xcode.dart';

	enum XCDeviceEvent {
	attach,
	detach,
	}

	/// A utility class for interacting with Xcode xcdevice command line tools.
	class XCDevice {
	XCDevice({
	required Artifacts artifacts,
	required Cache cache,
	required ProcessManager processManager,
	required Logger logger,
	required Xcode xcode,
	required Platform platform,
	required IProxy iproxy,
	}) : _processUtils = ProcessUtils(logger: logger, processManager: processManager),
	_logger = logger,
	_iMobileDevice = IMobileDevice(
	artifacts: artifacts,
	cache: cache,
	logger: logger,
	processManager: processManager,
	),
	_iosDeploy = IOSDeploy(
	artifacts: artifacts,
	cache: cache,
	logger: logger,
	platform: platform,
	processManager: processManager,
	),
	_iProxy = iproxy,
	_xcode = xcode {

	_setupDeviceIdentifierByEventStream();
	}

	void dispose() {
	_deviceObservationProcess?.kill();
	}

	final ProcessUtils _processUtils;
	final Logger _logger;
	final IMobileDevice _iMobileDevice;
	final IOSDeploy _iosDeploy;
	final Xcode _xcode;
	final IProxy _iProxy;

	List<Object>? _cachedListResults;
	Process? _deviceObservationProcess;
	StreamController<Map<XCDeviceEvent, String>>? _deviceIdentifierByEvent;

	void _setupDeviceIdentifierByEventStream() {
	// _deviceIdentifierByEvent Should always be available for listeners
	// in case polling needs to be stopped and restarted.
	_deviceIdentifierByEvent = StreamController<Map<XCDeviceEvent, String>>.broadcast(
	onListen: _startObservingTetheredIOSDevices,
	onCancel: _stopObservingTetheredIOSDevices,
	);
	}

	bool get isInstalled => _xcode.isInstalledAndMeetsVersionCheck;

	Future<List<Object>?> _getAllDevices({
	bool useCache = false,
	required Duration timeout
	}) async {
	if (!isInstalled) {
	_logger.printTrace("Xcode not found. Run 'flutter doctor' for more information.");
	return null;
	}
	if (useCache && _cachedListResults != null) {
	return _cachedListResults;
	}
	try {
	// USB-tethered devices should be found quickly. 1 second timeout is faster than the default.
	final RunResult result = await _processUtils.run(
	<String>[
	..._xcode.xcrunCommand(),
	'xcdevice',
	'list',
	'--timeout',
	timeout.inSeconds.toString(),
	],
	throwOnError: true,
	);
	if (result.exitCode == 0) {
	final String listOutput = result.stdout;
	try {
	final List<Object> listResults = (json.decode(result.stdout) as List<Object?>).whereType<Object>().toList();
	_cachedListResults = listResults;
	return listResults;
	} on FormatException {
	// xcdevice logs errors and crashes to stdout.
	_logger.printError('xcdevice returned non-JSON response: $listOutput');
	return null;
	}
	}
	_logger.printTrace('xcdevice returned an error:\n${result.stderr}');
	} on ProcessException catch (exception) {
	_logger.printTrace('Process exception running xcdevice list:\n$exception');
	} on ArgumentError catch (exception) {
	_logger.printTrace('Argument exception running xcdevice list:\n$exception');
	}

	return null;
	}

	/// Observe identifiers (UDIDs) of devices as they attach and detach.
	///
	/// Each attach and detach event is a tuple of one event type
	/// and identifier.
	Stream<Map<XCDeviceEvent, String>>? observedDeviceEvents() {
	if (!isInstalled) {
	_logger.printTrace("Xcode not found. Run 'flutter doctor' for more information.");
	return null;
	}
	return _deviceIdentifierByEvent?.stream;
	}

	// Attach: d83d5bc53967baa0ee18626ba87b6254b2ab5418
	// Attach: 00008027-00192736010F802E
	// Detach: d83d5bc53967baa0ee18626ba87b6254b2ab5418
	final RegExp _observationIdentifierPattern = RegExp(r'^(\w): ([\w-])$');

	Future<void> _startObservingTetheredIOSDevices() async {
	try {
	if (_deviceObservationProcess != null) {
	throw Exception('xcdevice observe restart failed');
	}

	// Run in interactive mode (via script) to convince
	// xcdevice it has a terminal attached in order to redirect stdout.
	_deviceObservationProcess = await _processUtils.start(
	<String>[
	'script',
	'-t',
	'0',
	'/dev/null',
	..._xcode.xcrunCommand(),
	'xcdevice',
	'observe',
	'--both',
	],
	);

	final StreamSubscription<String> stdoutSubscription = _deviceObservationProcess!.stdout
	.transform<String>(utf8.decoder)
	.transform<String>(const LineSplitter())
	.listen((String line) {

	// xcdevice observe example output of UDIDs:
	//
	// Listening for all devices, on both interfaces.
	// Attach: d83d5bc53967baa0ee18626ba87b6254b2ab5418
	// Attach: 00008027-00192736010F802E
	// Detach: d83d5bc53967baa0ee18626ba87b6254b2ab5418
	// Attach: d83d5bc53967baa0ee18626ba87b6254b2ab5418
	final RegExpMatch? match = _observationIdentifierPattern.firstMatch(line);
	if (match != null && match.groupCount == 2) {
	final String verb = match.group(1)!.toLowerCase();
	final String identifier = match.group(2)!;
	if (verb.startsWith('attach')) {
	_deviceIdentifierByEvent?.add(<XCDeviceEvent, String>{
	XCDeviceEvent.attach: identifier,
	});
	} else if (verb.startsWith('detach')) {
	_deviceIdentifierByEvent?.add(<XCDeviceEvent, String>{
	XCDeviceEvent.detach: identifier,
	});
	}
	}
	});
	final StreamSubscription<String> stderrSubscription = _deviceObservationProcess!.stderr
	.transform<String>(utf8.decoder)
	.transform<String>(const LineSplitter())
	.listen((String line) {
	_logger.printTrace('xcdevice observe error: $line');
	});
	unawaited(_deviceObservationProcess?.exitCode.then((int status) {
	_logger.printTrace('xcdevice exited with code $exitCode');
	unawaited(stdoutSubscription.cancel());
	unawaited(stderrSubscription.cancel());
	}).whenComplete(() async {
	if (_deviceIdentifierByEvent?.hasListener ?? false) {
	// Tell listeners the process died.
	await _deviceIdentifierByEvent?.close();
	}
	_deviceObservationProcess = null;

	// Reopen it so new listeners can resume polling.
	_setupDeviceIdentifierByEventStream();
	}));
	} on ProcessException catch (exception, stackTrace) {
	_deviceIdentifierByEvent?.addError(exception, stackTrace);
	} on ArgumentError catch (exception, stackTrace) {
	_deviceIdentifierByEvent?.addError(exception, stackTrace);
	}
	}

	void _stopObservingTetheredIOSDevices() {
	_deviceObservationProcess?.kill();
	}

	/// [timeout] defaults to 2 seconds.
	Future<List<IOSDevice>> getAvailableIOSDevices({ Duration? timeout }) async {
	final List<Object>? allAvailableDevices = await _getAllDevices(timeout: timeout ?? const Duration(seconds: 2));

	if (allAvailableDevices == null) {
	return const <IOSDevice>[];
	}

	// [
	// {
	// "simulator" : true,
	// "operatingSystemVersion" : "13.3 (17K446)",
	// "available" : true,
	// "platform" : "com.apple.platform.appletvsimulator",
	// "modelCode" : "AppleTV5,3",
	// "identifier" : "CBB5E1ED-2172-446E-B4E7-F2B5823DBBA6",
	// "architecture" : "x86_64",
	// "modelName" : "Apple TV",
	// "name" : "Apple TV"
	// },
	// {
	// "simulator" : false,
	// "operatingSystemVersion" : "13.3 (17C54)",
	// "interface" : "usb",
	// "available" : true,
	// "platform" : "com.apple.platform.iphoneos",
	// "modelCode" : "iPhone8,1",
	// "identifier" : "d83d5bc53967baa0ee18626ba87b6254b2ab5418",
	// "architecture" : "arm64",
	// "modelName" : "iPhone 6s",
	// "name" : "iPhone"
	// },
	// {
	// "simulator" : true,
	// "operatingSystemVersion" : "6.1.1 (17S445)",
	// "available" : true,
	// "platform" : "com.apple.platform.watchsimulator",
	// "modelCode" : "Watch5,4",
	// "identifier" : "2D74FB11-88A0-44D0-B81E-C0C142B1C94A",
	// "architecture" : "i386",
	// "modelName" : "Apple Watch Series 5 - 44mm",
	// "name" : "Apple Watch Series 5 - 44mm"
	// },
	// ...

	final List<IOSDevice> devices = <IOSDevice>[];
	for (final Object device in allAvailableDevices) {
	if (device is Map<String, Object?>) {
	// Only include iPhone, iPad, iPod, or other iOS devices.
	if (!_isIPhoneOSDevice(device)) {
	continue;
	}
	final String? identifier = device['identifier'] as String?;
	final String? name = device['name'] as String?;
	if (identifier == null \|\| name == null) {
	continue;
	}

	final Map<String, Object?>? errorProperties = _errorProperties(device);
	if (errorProperties != null) {
	final String? errorMessage = _parseErrorMessage(errorProperties);
	if (errorMessage != null) {
	if (errorMessage.contains('not paired')) {
	UsageEvent('device', 'ios-trust-failure', flutterUsage: globals.flutterUsage).send();
	}
	_logger.printTrace(errorMessage);
	}

	final int? code = _errorCode(errorProperties);

	// Temporary error -10: iPhone is busy: Preparing debugger support for iPhone.
	// Sometimes the app launch will fail on these devices until Xcode is done setting up the device.
	// Other times this is a false positive and the app will successfully launch despite the error.
	if (code != -10) {
	continue;
	}
	}

	final IOSDeviceConnectionInterface interface = _interfaceType(device);

	// Only support USB devices, skip "network" interface (Xcode > Window > Devices and Simulators > Connect via network).
	// TODO(jmagman): Remove this check once wirelessly detected devices can be observed and attached, https://github.com/flutter/flutter/issues/15072.
	if (interface != IOSDeviceConnectionInterface.usb) {
	continue;
	}

	String? sdkVersion = _sdkVersion(device);

	if (sdkVersion != null) {
	final String? buildVersion = _buildVersion(device);
	if (buildVersion != null) {
	sdkVersion = '$sdkVersion $buildVersion';
	}
	}

	devices.add(IOSDevice(
	identifier,
	name: name,
	cpuArchitecture: _cpuArchitecture(device),
	interfaceType: interface,
	sdkVersion: sdkVersion,
	iProxy: _iProxy,
	fileSystem: globals.fs,
	logger: _logger,
	iosDeploy: _iosDeploy,
	iMobileDevice: _iMobileDevice,
	platform: globals.platform,
	));
	}
	}
	return devices;

	}

	/// Despite the name, com.apple.platform.iphoneos includes iPhone, iPads, and all iOS devices.
	/// Excludes simulators.
	static bool _isIPhoneOSDevice(Map<String, Object?> deviceProperties) {
	final Object? platform = deviceProperties['platform'];
	if (platform is String) {
	return platform == 'com.apple.platform.iphoneos';
	}
	return false;
	}

	static Map<String, Object?>? _errorProperties(Map<String, Object?> deviceProperties) {
	final Object? error = deviceProperties['error'];
	return error is Map<String, Object?> ? error : null;
	}

	static int? _errorCode(Map<String, Object?>? errorProperties) {
	if (errorProperties == null) {
	return null;
	}
	final Object? code = errorProperties['code'];
	return code is int ? code : null;
	}

	static IOSDeviceConnectionInterface _interfaceType(Map<String, Object?> deviceProperties) {
	// Interface can be "usb", "network", or "none" for simulators
	// and unknown future interfaces.
	final Object? interface = deviceProperties['interface'];
	if (interface is String) {
	if (interface.toLowerCase() == 'network') {
	return IOSDeviceConnectionInterface.network;
	} else {
	return IOSDeviceConnectionInterface.usb;
	}
	}

	return IOSDeviceConnectionInterface.none;
	}

	static String? _sdkVersion(Map<String, Object?> deviceProperties) {
	final Object? operatingSystemVersion = deviceProperties['operatingSystemVersion'];
	if (operatingSystemVersion is String) {
	// Parse out the OS version, ignore the build number in parentheses.
	// "13.3 (17C54)"
	final RegExp operatingSystemRegex = RegExp(r'(.) \(.\)$');
	if (operatingSystemRegex.hasMatch(operatingSystemVersion.trim())) {
	return operatingSystemRegex.firstMatch(operatingSystemVersion.trim())?.group(1);
	}
	return operatingSystemVersion;
	}
	return null;
	}

	static String? _buildVersion(Map<String, Object?> deviceProperties) {
	final Object? operatingSystemVersion = deviceProperties['operatingSystemVersion'];
	if (operatingSystemVersion is String) {
	// Parse out the build version, for example 17C54 from "13.3 (17C54)".
	final RegExp buildVersionRegex = RegExp(r'\(.*\)$');
	return buildVersionRegex.firstMatch(operatingSystemVersion)?.group(0)?.replaceAll(RegExp('[()]'), '');
	}
	return null;
	}

	DarwinArch _cpuArchitecture(Map<String, Object?> deviceProperties) {
	DarwinArch? cpuArchitecture;
	final Object? architecture = deviceProperties['architecture'];
	if (architecture is String) {
	try {
	cpuArchitecture = getIOSArchForName(architecture);
	} on Exception {
	// Fallback to default iOS architecture. Future-proof against a
	// theoretical version of Xcode that changes this string to something
	// slightly different like "ARM64", or armv7 variations like
	// armv7s and armv7f.
	if (architecture.startsWith('armv7')) {
	cpuArchitecture = DarwinArch.armv7;
	} else {
	cpuArchitecture = DarwinArch.arm64;
	}
	_logger.printWarning(
	'Unknown architecture $architecture, defaulting to '
	'${getNameForDarwinArch(cpuArchitecture)}',
	);
	}
	}
	return cpuArchitecture ?? DarwinArch.arm64;
	}

	/// Error message parsed from xcdevice. null if no error.
	static String? _parseErrorMessage(Map<String, Object?>? errorProperties) {
	// {
	// "simulator" : false,
	// "operatingSystemVersion" : "13.3 (17C54)",
	// "interface" : "usb",
	// "available" : false,
	// "platform" : "com.apple.platform.iphoneos",
	// "modelCode" : "iPhone8,1",
	// "identifier" : "98206e7a4afd4aedaff06e687594e089dede3c44",
	// "architecture" : "arm64",
	// "modelName" : "iPhone 6s",
	// "name" : "iPhone",
	// "error" : {
	// "code" : -9,
	// "failureReason" : "",
	// "underlyingErrors" : [
	// {
	// "code" : 5,
	// "failureReason" : "allowsSecureServices: 1. isConnected: 0. Platform: <DVTPlatform:0x7f804ce32880:'com.apple.platform.iphoneos':<DVTFilePath:0x7f804ce32800:'\/Users\/magder\/Applications\/Xcode_11-3-1.app\/Contents\/Developer\/Platforms\/iPhoneOS.platform'>>. DTDKDeviceIdentifierIsIDID: 0",
	// "description" : "📱<DVTiOSDevice (0x7f801f190450), iPhone, iPhone, 13.3 (17C54), d83d5bc53967baa0ee18626ba87b6254b2ab5418> -- Failed _shouldMakeReadyForDevelopment check even though device is not locked by passcode.",
	// "recoverySuggestion" : "",
	// "domain" : "com.apple.platform.iphoneos"
	// }
	// ],
	// "description" : "iPhone is not paired with your computer.",
	// "recoverySuggestion" : "To use iPhone with Xcode, unlock it and choose to trust this computer when prompted.",
	// "domain" : "com.apple.platform.iphoneos"
	// }
	// },
	// {
	// "simulator" : false,
	// "operatingSystemVersion" : "13.3 (17C54)",
	// "interface" : "usb",
	// "available" : false,
	// "platform" : "com.apple.platform.iphoneos",
	// "modelCode" : "iPhone8,1",
	// "identifier" : "d83d5bc53967baa0ee18626ba87b6254b2ab5418",
	// "architecture" : "arm64",
	// "modelName" : "iPhone 6s",
	// "name" : "iPhone",
	// "error" : {
	// "code" : -9,
	// "failureReason" : "",
	// "description" : "iPhone is not paired with your computer.",
	// "domain" : "com.apple.platform.iphoneos"
	// }
	// }
	// ...

	if (errorProperties == null) {
	return null;
	}

	final StringBuffer errorMessage = StringBuffer('Error: ');

	final Object? description = errorProperties['description'];
	if (description is String) {
	errorMessage.write(description);
	if (!description.endsWith('.')) {
	errorMessage.write('.');
	}
	} else {
	errorMessage.write('Xcode pairing error.');
	}

	final Object? recoverySuggestion = errorProperties['recoverySuggestion'];
	if (recoverySuggestion is String) {
	errorMessage.write(' $recoverySuggestion');
	}

	final int? code = _errorCode(errorProperties);
	if (code != null) {
	errorMessage.write(' (code $code)');
	}

	return errorMessage.toString();
	}

	/// List of all devices reporting errors.
	Future<List<String>> getDiagnostics() async {
	final List<Object>? allAvailableDevices = await _getAllDevices(
	useCache: true,
	timeout: const Duration(seconds: 2)
	);

	if (allAvailableDevices == null) {
	return const <String>[];
	}

	final List<String> diagnostics = <String>[];
	for (final Object deviceProperties in allAvailableDevices) {
	if (deviceProperties is! Map<String, Object?>) {
	continue;
	}
	final Map<String, Object?>? errorProperties = _errorProperties(deviceProperties);
	final String? errorMessage = _parseErrorMessage(errorProperties);
	if (errorMessage != null) {
	final int? code = _errorCode(errorProperties);
	// Error -13: iPhone is not connected. Xcode will continue when iPhone is connected.
	// This error is confusing since the device is not connected and maybe has not been connected
	// for a long time. Avoid showing it.
	if (code == -13 && errorMessage.contains('not connected')) {
	continue;
	}

	diagnostics.add(errorMessage);
	}
	}
	return diagnostics;
	}
	}