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dart / external / github.com / flutter / flutter / 604c59e522b2f8493da7c12e36609fe8b2f8ea1f / . / packages / flutter_tools / lib / src / ios / devices.dart
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// 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.
// @dart = 2.8
import 'dart:async';
import 'package:meta/meta.dart';
import 'package:process/process.dart';
import 'package:vm_service/vm_service.dart' as vm_service;
import '../base/common.dart';
import '../base/file_system.dart';
import '../base/io.dart';
import '../base/logger.dart';
import '../base/os.dart';
import '../base/platform.dart';
import '../base/utils.dart';
import '../build_info.dart';
import '../convert.dart';
import '../device.dart';
import '../device_port_forwarder.dart';
import '../globals_null_migrated.dart' as globals;
import '../macos/xcdevice.dart';
import '../project.dart';
import '../protocol_discovery.dart';
import '../vmservice.dart';
import 'application_package.dart';
import 'ios_deploy.dart';
import 'ios_workflow.dart';
import 'iproxy.dart';
import 'mac.dart';
class IOSDevices extends PollingDeviceDiscovery {
IOSDevices({
@required Platform platform,
@required XCDevice xcdevice,
@required IOSWorkflow iosWorkflow,
@required Logger logger,
}) : _platform = platform,
_xcdevice = xcdevice,
_iosWorkflow = iosWorkflow,
_logger = logger,
super('iOS devices');
final Platform _platform;
final XCDevice _xcdevice;
final IOSWorkflow _iosWorkflow;
final Logger _logger;
@override
bool get supportsPlatform => _platform.isMacOS;
@override
bool get canListAnything => _iosWorkflow.canListDevices;
StreamSubscription<Map<XCDeviceEvent, String>> _observedDeviceEventsSubscription;
@override
Future<void> startPolling() async {
if (!_platform.isMacOS) {
throw UnsupportedError(
'Control of iOS devices or simulators only supported on macOS.'
);
}
if (!_xcdevice.isInstalled) {
return;
}
deviceNotifier ??= ItemListNotifier<Device>();
// Start by populating all currently attached devices.
deviceNotifier.updateWithNewList(await pollingGetDevices());
// cancel any outstanding subscriptions.
await _observedDeviceEventsSubscription?.cancel();
_observedDeviceEventsSubscription = _xcdevice.observedDeviceEvents()?.listen(
_onDeviceEvent,
onError: (dynamic error, StackTrace stack) {
_logger.printTrace('Process exception running xcdevice observe:\n$error\n$stack');
}, onDone: () {
// If xcdevice is killed or otherwise dies, polling will be stopped.
// No retry is attempted and the polling client will have to restart polling
// (restart the IDE). Avoid hammering on a process that is
// continuously failing.
_logger.printTrace('xcdevice observe stopped');
},
cancelOnError: true,
);
}
Future<void> _onDeviceEvent(Map<XCDeviceEvent, String> event) async {
final XCDeviceEvent eventType = event.containsKey(XCDeviceEvent.attach) ? XCDeviceEvent.attach : XCDeviceEvent.detach;
final String deviceIdentifier = event[eventType];
final Device knownDevice = deviceNotifier.items
.firstWhere((Device device) => device.id == deviceIdentifier, orElse: () => null);
// Ignore already discovered devices (maybe populated at the beginning).
if (eventType == XCDeviceEvent.attach && knownDevice == null) {
// There's no way to get details for an individual attached device,
// so repopulate them all.
final List<Device> devices = await pollingGetDevices();
deviceNotifier.updateWithNewList(devices);
} else if (eventType == XCDeviceEvent.detach && knownDevice != null) {
deviceNotifier.removeItem(knownDevice);
}
}
@override
Future<void> stopPolling() async {
await _observedDeviceEventsSubscription?.cancel();
}
@override
Future<List<Device>> pollingGetDevices({ Duration timeout }) async {
if (!_platform.isMacOS) {
throw UnsupportedError(
'Control of iOS devices or simulators only supported on macOS.'
);
}
return _xcdevice.getAvailableIOSDevices(timeout: timeout);
}
@override
Future<List<String>> getDiagnostics() async {
if (!_platform.isMacOS) {
return const <String>[
'Control of iOS devices or simulators only supported on macOS.'
];
}
return _xcdevice.getDiagnostics();
}
}
enum IOSDeviceInterface {
none,
usb,
network,
}
class IOSDevice extends Device {
IOSDevice(String id, {
@required FileSystem fileSystem,
@required this.name,
@required this.cpuArchitecture,
@required this.interfaceType,
@required String sdkVersion,
@required Platform platform,
@required IOSDeploy iosDeploy,
@required IMobileDevice iMobileDevice,
@required IProxy iProxy,
@required Logger logger,
})
: _sdkVersion = sdkVersion,
_iosDeploy = iosDeploy,
_iMobileDevice = iMobileDevice,
_iproxy = iProxy,
_fileSystem = fileSystem,
_logger = logger,
_platform = platform,
super(
id,
category: Category.mobile,
platformType: PlatformType.ios,
ephemeral: true,
) {
if (!_platform.isMacOS) {
assert(false, 'Control of iOS devices or simulators only supported on Mac OS.');
return;
}
}
final String _sdkVersion;
final IOSDeploy _iosDeploy;
final FileSystem _fileSystem;
final Logger _logger;
final Platform _platform;
final IMobileDevice _iMobileDevice;
final IProxy _iproxy;
/// May be 0 if version cannot be parsed.
int get majorSdkVersion {
final String majorVersionString = _sdkVersion?.split('.')?.first?.trim();
return majorVersionString != null ? int.tryParse(majorVersionString) ?? 0 : 0;
}
@override
bool get supportsHotReload => interfaceType == IOSDeviceInterface.usb;
@override
bool get supportsHotRestart => interfaceType == IOSDeviceInterface.usb;
@override
bool get supportsFlutterExit => interfaceType == IOSDeviceInterface.usb;
@override
final String name;
@override
bool supportsRuntimeMode(BuildMode buildMode) => buildMode != BuildMode.jitRelease;
final DarwinArch cpuArchitecture;
final IOSDeviceInterface interfaceType;
Map<IOSApp, DeviceLogReader> _logReaders;
DevicePortForwarder _portForwarder;
@visibleForTesting
IOSDeployDebugger iosDeployDebugger;
@override
Future<bool> get isLocalEmulator async => false;
@override
Future<String> get emulatorId async => null;
@override
bool get supportsStartPaused => false;
@override
Future<bool> isAppInstalled(
IOSApp app, {
String userIdentifier,
}) async {
bool result;
try {
result = await _iosDeploy.isAppInstalled(
bundleId: app.id,
deviceId: id,
);
} on ProcessException catch (e) {
_logger.printError(e.message);
return false;
}
return result;
}
@override
Future<bool> isLatestBuildInstalled(IOSApp app) async => false;
@override
Future<bool> installApp(
IOSApp app, {
String userIdentifier,
}) async {
final Directory bundle = _fileSystem.directory(app.deviceBundlePath);
if (!bundle.existsSync()) {
_logger.printError('Could not find application bundle at ${bundle.path}; have you run "flutter build ios"?');
return false;
}
int installationResult;
try {
installationResult = await _iosDeploy.installApp(
deviceId: id,
bundlePath: bundle.path,
appDeltaDirectory: app.appDeltaDirectory,
launchArguments: <String>[],
interfaceType: interfaceType,
);
} on ProcessException catch (e) {
_logger.printError(e.message);
return false;
}
if (installationResult != 0) {
_logger.printError('Could not install ${bundle.path} on $id.');
_logger.printError('Try launching Xcode and selecting "Product > Run" to fix the problem:');
_logger.printError(' open ios/Runner.xcworkspace');
_logger.printError('');
return false;
}
return true;
}
@override
Future<bool> uninstallApp(
IOSApp app, {
String userIdentifier,
}) async {
int uninstallationResult;
try {
uninstallationResult = await _iosDeploy.uninstallApp(
deviceId: id,
bundleId: app.id,
);
} on ProcessException catch (e) {
_logger.printError(e.message);
return false;
}
if (uninstallationResult != 0) {
_logger.printError('Could not uninstall ${app.id} on $id.');
return false;
}
return true;
}
@override
bool isSupported() => true;
@override
Future<LaunchResult> startApp(
IOSApp package, {
String mainPath,
String route,
DebuggingOptions debuggingOptions,
Map<String, dynamic> platformArgs,
bool prebuiltApplication = false,
bool ipv6 = false,
String userIdentifier,
@visibleForTesting Duration discoveryTimeout,
}) async {
String packageId;
if (!prebuiltApplication) {
_logger.printTrace('Building ${package.name} for $id');
// Step 1: Build the precompiled/DBC application if necessary.
final XcodeBuildResult buildResult = await buildXcodeProject(
app: package as BuildableIOSApp,
buildInfo: debuggingOptions.buildInfo,
targetOverride: mainPath,
buildForDevice: true,
activeArch: cpuArchitecture,
deviceID: id,
);
if (!buildResult.success) {
_logger.printError('Could not build the precompiled application for the device.');
await diagnoseXcodeBuildFailure(buildResult, globals.flutterUsage, _logger);
_logger.printError('');
return LaunchResult.failed();
}
packageId = buildResult.xcodeBuildExecution?.buildSettings['PRODUCT_BUNDLE_IDENTIFIER'];
}
packageId ??= package.id;
// Step 2: Check that the application exists at the specified path.
final Directory bundle = _fileSystem.directory(package.deviceBundlePath);
if (!bundle.existsSync()) {
_logger.printError('Could not find the built application bundle at ${bundle.path}.');
return LaunchResult.failed();
}
// Step 3: Attempt to install the application on the device.
final String dartVmFlags = computeDartVmFlags(debuggingOptions);
final List<String> launchArguments = <String>[
'--enable-dart-profiling',
'--disable-service-auth-codes',
if (debuggingOptions.disablePortPublication) '--disable-observatory-publication',
if (debuggingOptions.startPaused) '--start-paused',
if (dartVmFlags.isNotEmpty) '--dart-flags="$dartVmFlags"',
if (debuggingOptions.useTestFonts) '--use-test-fonts',
if (debuggingOptions.debuggingEnabled) ...<String>[
'--enable-checked-mode',
'--verify-entry-points',
],
if (debuggingOptions.enableSoftwareRendering) '--enable-software-rendering',
if (debuggingOptions.skiaDeterministicRendering) '--skia-deterministic-rendering',
if (debuggingOptions.traceSkia) '--trace-skia',
if (debuggingOptions.traceAllowlist != null) '--trace-allowlist="${debuggingOptions.traceAllowlist}"',
if (debuggingOptions.traceSkiaAllowlist != null) '--trace-skia-allowlist="${debuggingOptions.traceSkiaAllowlist}"',
if (debuggingOptions.endlessTraceBuffer) '--endless-trace-buffer',
if (debuggingOptions.dumpSkpOnShaderCompilation) '--dump-skp-on-shader-compilation',
if (debuggingOptions.verboseSystemLogs) '--verbose-logging',
if (debuggingOptions.cacheSkSL) '--cache-sksl',
if (debuggingOptions.purgePersistentCache) '--purge-persistent-cache',
if (platformArgs['trace-startup'] as bool ?? false) '--trace-startup',
];
final Status installStatus = _logger.startProgress(
'Installing and launching...',
);
try {
ProtocolDiscovery observatoryDiscovery;
int installationResult = 1;
if (debuggingOptions.debuggingEnabled) {
_logger.printTrace('Debugging is enabled, connecting to observatory');
final DeviceLogReader deviceLogReader = getLogReader(app: package);
// If the device supports syslog reading, prefer launching the app without
// attaching the debugger to avoid the overhead of the unnecessary extra running process.
if (majorSdkVersion >= IOSDeviceLogReader.minimumUniversalLoggingSdkVersion) {
iosDeployDebugger = _iosDeploy.prepareDebuggerForLaunch(
deviceId: id,
bundlePath: bundle.path,
appDeltaDirectory: package.appDeltaDirectory,
launchArguments: launchArguments,
interfaceType: interfaceType,
);
if (deviceLogReader is IOSDeviceLogReader) {
deviceLogReader.debuggerStream = iosDeployDebugger;
}
}
observatoryDiscovery = ProtocolDiscovery.observatory(
deviceLogReader,
portForwarder: portForwarder,
hostPort: debuggingOptions.hostVmServicePort,
devicePort: debuggingOptions.deviceVmServicePort,
ipv6: ipv6,
logger: _logger,
);
}
if (iosDeployDebugger == null) {
installationResult = await _iosDeploy.launchApp(
deviceId: id,
bundlePath: bundle.path,
appDeltaDirectory: package.appDeltaDirectory,
launchArguments: launchArguments,
interfaceType: interfaceType,
);
} else {
installationResult = await iosDeployDebugger.launchAndAttach() ? 0 : 1;
}
if (installationResult != 0) {
_logger.printError('Could not run ${bundle.path} on $id.');
_logger.printError('Try launching Xcode and selecting "Product > Run" to fix the problem:');
_logger.printError(' open ios/Runner.xcworkspace');
_logger.printError('');
return LaunchResult.failed();
}
if (!debuggingOptions.debuggingEnabled) {
return LaunchResult.succeeded();
}
_logger.printTrace('Application launched on the device. Waiting for observatory url.');
final Timer timer = Timer(discoveryTimeout ?? const Duration(seconds: 30), () {
_logger.printError('iOS Observatory not discovered after 30 seconds. This is taking much longer than expected...');
});
final Uri localUri = await observatoryDiscovery.uri;
timer.cancel();
if (localUri == null) {
iosDeployDebugger?.detach();
return LaunchResult.failed();
}
return LaunchResult.succeeded(observatoryUri: localUri);
} on ProcessException catch (e) {
iosDeployDebugger?.detach();
_logger.printError(e.message);
return LaunchResult.failed();
} finally {
installStatus.stop();
}
}
@override
Future<bool> stopApp(
IOSApp app, {
String userIdentifier,
}) async {
// If the debugger is not attached, killing the ios-deploy process won't stop the app.
if (iosDeployDebugger!= null && iosDeployDebugger.debuggerAttached) {
// Avoid null.
return iosDeployDebugger?.exit() == true;
}
return false;
}
@override
Future<TargetPlatform> get targetPlatform async => TargetPlatform.ios;
@override
Future<String> get sdkNameAndVersion async => 'iOS ${_sdkVersion ?? 'unknown version'}';
@override
DeviceLogReader getLogReader({
IOSApp app,
bool includePastLogs = false,
}) {
assert(!includePastLogs, 'Past log reading not supported on iOS devices.');
_logReaders ??= <IOSApp, DeviceLogReader>{};
return _logReaders.putIfAbsent(app, () => IOSDeviceLogReader.create(
device: this,
app: app,
iMobileDevice: _iMobileDevice,
));
}
@visibleForTesting
void setLogReader(IOSApp app, DeviceLogReader logReader) {
_logReaders ??= <IOSApp, DeviceLogReader>{};
_logReaders[app] = logReader;
}
@override
DevicePortForwarder get portForwarder => _portForwarder ??= IOSDevicePortForwarder(
logger: _logger,
iproxy: _iproxy,
id: id,
operatingSystemUtils: globals.os,
);
@visibleForTesting
set portForwarder(DevicePortForwarder forwarder) {
_portForwarder = forwarder;
}
@override
void clearLogs() { }
@override
bool get supportsScreenshot => _iMobileDevice.isInstalled;
@override
Future<void> takeScreenshot(File outputFile) async {
await _iMobileDevice.takeScreenshot(outputFile, id, interfaceType);
}
@override
bool isSupportedForProject(FlutterProject flutterProject) {
return flutterProject.ios.existsSync();
}
@override
Future<void> dispose() async {
_logReaders?.forEach((IOSApp application, DeviceLogReader logReader) {
logReader.dispose();
});
await _portForwarder?.dispose();
}
}
/// Decodes a vis-encoded syslog string to a UTF-8 representation.
///
/// Apple's syslog logs are encoded in 7-bit form. Input bytes are encoded as follows:
/// 1. 0x00 to 0x19: non-printing range. Some ignored, some encoded as <...>.
/// 2. 0x20 to 0x7f: as-is, with the exception of 0x5c (backslash).
/// 3. 0x5c (backslash): octal representation \134.
/// 4. 0x80 to 0x9f: \M^x (using control-character notation for range 0x00 to 0x40).
/// 5. 0xa0: octal representation \240.
/// 6. 0xa1 to 0xf7: \M-x (where x is the input byte stripped of its high-order bit).
/// 7. 0xf8 to 0xff: unused in 4-byte UTF-8.
///
/// See: [vis(3) manpage](https://www.freebsd.org/cgi/man.cgi?query=vis&sektion=3)
String decodeSyslog(String line) {
// UTF-8 values for \, M, -, ^.
const int kBackslash = 0x5c;
const int kM = 0x4d;
const int kDash = 0x2d;
const int kCaret = 0x5e;
// Mask for the UTF-8 digit range.
const int kNum = 0x30;
// Returns true when `byte` is within the UTF-8 7-bit digit range (0x30 to 0x39).
bool isDigit(int byte) => (byte & 0xf0) == kNum;
// Converts a three-digit ASCII (UTF-8) representation of an octal number `xyz` to an integer.
int decodeOctal(int x, int y, int z) => (x & 0x3) << 6 | (y & 0x7) << 3 | z & 0x7;
try {
final List<int> bytes = utf8.encode(line);
final List<int> out = <int>[];
for (int i = 0; i < bytes.length;) {
if (bytes[i] != kBackslash || i > bytes.length - 4) {
// Unmapped byte: copy as-is.
out.add(bytes[i++]);
} else {
// Mapped byte: decode next 4 bytes.
if (bytes[i + 1] == kM && bytes[i + 2] == kCaret) {
// \M^x form: bytes in range 0x80 to 0x9f.
out.add((bytes[i + 3] & 0x7f) + 0x40);
} else if (bytes[i + 1] == kM && bytes[i + 2] == kDash) {
// \M-x form: bytes in range 0xa0 to 0xf7.
out.add(bytes[i + 3] | 0x80);
} else if (bytes.getRange(i + 1, i + 3).every(isDigit)) {
// \ddd form: octal representation (only used for \134 and \240).
out.add(decodeOctal(bytes[i + 1], bytes[i + 2], bytes[i + 3]));
} else {
// Unknown form: copy as-is.
out.addAll(bytes.getRange(0, 4));
}
i += 4;
}
}
return utf8.decode(out);
} on Exception {
// Unable to decode line: return as-is.
return line;
}
}
@visibleForTesting
class IOSDeviceLogReader extends DeviceLogReader {
IOSDeviceLogReader._(
this._iMobileDevice,
this._majorSdkVersion,
this._deviceId,
this.name,
String appName,
) {
_linesController = StreamController<String>.broadcast(
onListen: _listenToSysLog,
onCancel: dispose,
);
// Match for lines for the runner in syslog.
//
// iOS 9 format: Runner[297] <Notice>:
// iOS 10 format: Runner(Flutter)[297] <Notice>:
_runnerLineRegex = RegExp(appName + r'(\(Flutter\))?\[[\d]+\] <[A-Za-z]+>: ');
// Similar to above, but allows ~arbitrary components instead of "Runner"
// and "Flutter". The regex tries to strike a balance between not producing
// false positives and not producing false negatives.
_anyLineRegex = RegExp(r'\w+(\([^)]*\))?\[\d+\] <[A-Za-z]+>: ');
_loggingSubscriptions = <StreamSubscription<void>>[];
}
/// Create a new [IOSDeviceLogReader].
factory IOSDeviceLogReader.create({
@required IOSDevice device,
@required IOSApp app,
@required IMobileDevice iMobileDevice,
}) {
final String appName = app == null ? '' : app.name.replaceAll('.app', '');
return IOSDeviceLogReader._(
iMobileDevice,
device.majorSdkVersion,
device.id,
device.name,
appName,
);
}
/// Create an [IOSDeviceLogReader] for testing.
factory IOSDeviceLogReader.test({
@required IMobileDevice iMobileDevice,
bool useSyslog = true,
}) {
return IOSDeviceLogReader._(
iMobileDevice, useSyslog ? 12 : 13, '1234', 'test', 'Runner');
}
@override
final String name;
final int _majorSdkVersion;
final String _deviceId;
final IMobileDevice _iMobileDevice;
// Matches a syslog line from the runner.
RegExp _runnerLineRegex;
// Matches a syslog line from any app.
RegExp _anyLineRegex;
// Logging from native code/Flutter engine is prefixed by timestamp and process metadata:
// 2020-09-15 19:15:10.931434-0700 Runner[541:226276] Did finish launching.
// 2020-09-15 19:15:10.931434-0700 Runner[541:226276] [Category] Did finish launching.
//
// Logging from the dart code has no prefixing metadata.
final RegExp _debuggerLoggingRegex = RegExp(r'^\S* \S* \S*\[[0-9:]*] (.*)');
StreamController<String> _linesController;
List<StreamSubscription<void>> _loggingSubscriptions;
@override
Stream<String> get logLines => _linesController.stream;
@override
FlutterVmService get connectedVMService => _connectedVMService;
FlutterVmService _connectedVMService;
@override
set connectedVMService(FlutterVmService connectedVmService) {
_listenToUnifiedLoggingEvents(connectedVmService);
_connectedVMService = connectedVmService;
}
static const int minimumUniversalLoggingSdkVersion = 13;
Future<void> _listenToUnifiedLoggingEvents(FlutterVmService connectedVmService) async {
if (_majorSdkVersion < minimumUniversalLoggingSdkVersion) {
return;
}
try {
// The VM service will not publish logging events unless the debug stream is being listened to.
// Listen to this stream as a side effect.
unawaited(connectedVmService.service.streamListen('Debug'));
await Future.wait(<Future<void>>[
connectedVmService.service.streamListen(vm_service.EventStreams.kStdout),
connectedVmService.service.streamListen(vm_service.EventStreams.kStderr),
]);
} on vm_service.RPCError {
// Do nothing, since the tool is already subscribed.
}
void logMessage(vm_service.Event event) {
if (_iosDeployDebugger != null && _iosDeployDebugger.debuggerAttached) {
// Prefer the more complete logs from the attached debugger.
return;
}
final String message = processVmServiceMessage(event);
if (message.isNotEmpty) {
_linesController.add(message);
}
}
_loggingSubscriptions.addAll(<StreamSubscription<void>>[
connectedVmService.service.onStdoutEvent.listen(logMessage),
connectedVmService.service.onStderrEvent.listen(logMessage),
]);
}
/// Log reader will listen to [debugger.logLines] and will detach debugger on dispose.
set debuggerStream(IOSDeployDebugger debugger) {
// Logging is gathered from syslog on iOS 13 and earlier.
if (_majorSdkVersion < minimumUniversalLoggingSdkVersion) {
return;
}
_iosDeployDebugger = debugger;
// Add the debugger logs to the controller created on initialization.
_loggingSubscriptions.add(debugger.logLines.listen(
(String line) => _linesController.add(_debuggerLineHandler(line)),
onError: _linesController.addError,
onDone: _linesController.close,
cancelOnError: true,
));
}
IOSDeployDebugger _iosDeployDebugger;
// Strip off the logging metadata (leave the category), or just echo the line.
String _debuggerLineHandler(String line) => _debuggerLoggingRegex?.firstMatch(line)?.group(1) ?? line;
void _listenToSysLog() {
// syslog is not written on iOS 13+.
if (_majorSdkVersion >= minimumUniversalLoggingSdkVersion) {
return;
}
_iMobileDevice.startLogger(_deviceId).then<void>((Process process) {
process.stdout.transform<String>(utf8.decoder).transform<String>(const LineSplitter()).listen(_newSyslogLineHandler());
process.stderr.transform<String>(utf8.decoder).transform<String>(const LineSplitter()).listen(_newSyslogLineHandler());
process.exitCode.whenComplete(() {
if (_linesController.hasListener) {
_linesController.close();
}
});
assert(_idevicesyslogProcess == null);
_idevicesyslogProcess = process;
});
}
@visibleForTesting
set idevicesyslogProcess(Process process) => _idevicesyslogProcess = process;
Process _idevicesyslogProcess;
// Returns a stateful line handler to properly capture multiline output.
//
// For multiline log messages, any line after the first is logged without
// any specific prefix. To properly capture those, we enter "printing" mode
// after matching a log line from the runner. When in printing mode, we print
// all lines until we find the start of another log message (from any app).
void Function(String line) _newSyslogLineHandler() {
bool printing = false;
return (String line) {
if (printing) {
if (!_anyLineRegex.hasMatch(line)) {
_linesController.add(decodeSyslog(line));
return;
}
printing = false;
}
final Match match = _runnerLineRegex.firstMatch(line);
if (match != null) {
final String logLine = line.substring(match.end);
// Only display the log line after the initial device and executable information.
_linesController.add(decodeSyslog(logLine));
printing = true;
}
};
}
@override
void dispose() {
for (final StreamSubscription<void> loggingSubscription in _loggingSubscriptions) {
loggingSubscription.cancel();
}
_idevicesyslogProcess?.kill();
_iosDeployDebugger?.detach();
}
}
/// A [DevicePortForwarder] specialized for iOS usage with iproxy.
class IOSDevicePortForwarder extends DevicePortForwarder {
/// Create a new [IOSDevicePortForwarder].
IOSDevicePortForwarder({
@required Logger logger,
@required String id,
@required IProxy iproxy,
@required OperatingSystemUtils operatingSystemUtils,
}) : _logger = logger,
_id = id,
_iproxy = iproxy,
_operatingSystemUtils = operatingSystemUtils;
/// Create a [IOSDevicePortForwarder] for testing.
///
/// This specifies the path to iproxy as 'iproxy` and the dyLdLibEntry as
/// 'DYLD_LIBRARY_PATH: /path/to/libs'.
///
/// The device id may be provided, but otherwise defaults to '1234'.
factory IOSDevicePortForwarder.test({
@required ProcessManager processManager,
@required Logger logger,
String id,
OperatingSystemUtils operatingSystemUtils,
}) {
return IOSDevicePortForwarder(
logger: logger,
iproxy: IProxy.test(
logger: logger,
processManager: processManager,
),
id: id ?? '1234',
operatingSystemUtils: operatingSystemUtils,
);
}
final Logger _logger;
final String _id;
final IProxy _iproxy;
final OperatingSystemUtils _operatingSystemUtils;
@override
List<ForwardedPort> forwardedPorts = <ForwardedPort>[];
@visibleForTesting
void addForwardedPorts(List<ForwardedPort> ports) {
ports.forEach(forwardedPorts.add);
}
static const Duration _kiProxyPortForwardTimeout = Duration(seconds: 1);
@override
Future<int> forward(int devicePort, { int hostPort }) async {
final bool autoselect = hostPort == null || hostPort == 0;
if (autoselect) {
final int freePort = await _operatingSystemUtils?.findFreePort();
// Dynamic port range 49152 - 65535.
hostPort = freePort == null || freePort == 0 ? 49152 : freePort;
}
Process process;
bool connected = false;
while (!connected) {
_logger.printTrace('Attempting to forward device port $devicePort to host port $hostPort');
process = await _iproxy.forward(devicePort, hostPort, _id);
// TODO(ianh): This is a flaky race condition, https://github.com/libimobiledevice/libimobiledevice/issues/674
connected = !await process.stdout.isEmpty.timeout(_kiProxyPortForwardTimeout, onTimeout: () => false);
if (!connected) {
process.kill();
if (autoselect) {
hostPort += 1;
if (hostPort > 65535) {
throw Exception('Could not find open port on host.');
}
} else {
throw Exception('Port $hostPort is not available.');
}
}
}
assert(connected);
assert(process != null);
final ForwardedPort forwardedPort = ForwardedPort.withContext(
hostPort, devicePort, process,
);
_logger.printTrace('Forwarded port $forwardedPort');
forwardedPorts.add(forwardedPort);
return hostPort;
}
@override
Future<void> unforward(ForwardedPort forwardedPort) async {
if (!forwardedPorts.remove(forwardedPort)) {
// Not in list. Nothing to remove.
return;
}
_logger.printTrace('Un-forwarding port $forwardedPort');
forwardedPort.dispose();
}
@override
Future<void> dispose() async {
for (final ForwardedPort forwardedPort in forwardedPorts) {
forwardedPort.dispose();
}
}
}