packages/flutter_tools/lib/src/device.dart

// 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 'dart:math' as math;

import 'package:meta/meta.dart';

import 'application_package.dart';
import 'artifacts.dart';
import 'base/common.dart';
import 'base/context.dart';
import 'base/dds.dart';
import 'base/file_system.dart';
import 'base/logger.dart';
import 'base/terminal.dart';
import 'base/user_messages.dart' hide userMessages;
import 'base/utils.dart';
import 'build_info.dart';
import 'devfs.dart';
import 'device_port_forwarder.dart';
import 'project.dart';
import 'vmservice.dart';

DeviceManager get deviceManager => context.get<DeviceManager>();

/// A description of the kind of workflow the device supports.
class Category {
  const Category._(this.value);

  static const Category web = Category._('web');
  static const Category desktop = Category._('desktop');
  static const Category mobile = Category._('mobile');

  final String value;

  @override
  String toString() => value;
}

/// The platform sub-folder that a device type supports.
class PlatformType {
  const PlatformType._(this.value);

  static const PlatformType web = PlatformType._('web');
  static const PlatformType android = PlatformType._('android');
  static const PlatformType ios = PlatformType._('ios');
  static const PlatformType linux = PlatformType._('linux');
  static const PlatformType macos = PlatformType._('macos');
  static const PlatformType windows = PlatformType._('windows');
  static const PlatformType fuchsia = PlatformType._('fuchsia');
  static const PlatformType custom = PlatformType._('custom');

  final String value;

  @override
  String toString() => value;
}

/// A discovery mechanism for flutter-supported development devices.
abstract class DeviceManager {
  DeviceManager({
    @required Logger logger,
    @required Terminal terminal,
    @required UserMessages userMessages,
  }) : _logger = logger,
       _terminal = terminal,
       _userMessages = userMessages;

  final Logger _logger;
  final Terminal _terminal;
  final UserMessages _userMessages;

  /// Constructing DeviceManagers is cheap; they only do expensive work if some
  /// of their methods are called.
  List<DeviceDiscovery> get deviceDiscoverers;

  String _specifiedDeviceId;

  /// A user-specified device ID.
  String get specifiedDeviceId {
    if (_specifiedDeviceId == null || _specifiedDeviceId == 'all') {
      return null;
    }
    return _specifiedDeviceId;
  }

  set specifiedDeviceId(String id) {
    _specifiedDeviceId = id;
  }

  /// True when the user has specified a single specific device.
  bool get hasSpecifiedDeviceId => specifiedDeviceId != null;

  /// True when the user has specified all devices by setting
  /// specifiedDeviceId = 'all'.
  bool get hasSpecifiedAllDevices => _specifiedDeviceId == 'all';

  Future<List<Device>> getDevicesById(String deviceId) async {
    final String lowerDeviceId = deviceId.toLowerCase();
    bool exactlyMatchesDeviceId(Device device) =>
        device.id.toLowerCase() == lowerDeviceId ||
        device.name.toLowerCase() == lowerDeviceId;
    bool startsWithDeviceId(Device device) =>
        device.id.toLowerCase().startsWith(lowerDeviceId) ||
        device.name.toLowerCase().startsWith(lowerDeviceId);

    // Some discoverers have hard-coded device IDs and return quickly, and others
    // shell out to other processes and can take longer.
    // Process discoverers as they can return results, so if an exact match is
    // found quickly, we don't wait for all the discoverers to complete.
    final List<Device> prefixMatches = <Device>[];
    final Completer<Device> exactMatchCompleter = Completer<Device>();
    final List<Future<List<Device>>> futureDevices = <Future<List<Device>>>[
      for (final DeviceDiscovery discoverer in _platformDiscoverers)
        discoverer
        .devices
        .then((List<Device> devices) {
          for (final Device device in devices) {
            if (exactlyMatchesDeviceId(device)) {
              exactMatchCompleter.complete(device);
              return null;
            }
            if (startsWithDeviceId(device)) {
              prefixMatches.add(device);
            }
          }
          return null;
        }, onError: (dynamic error, StackTrace stackTrace) {
          // Return matches from other discoverers even if one fails.
          _logger.printTrace('Ignored error discovering $deviceId: $error');
        })
    ];

    // Wait for an exact match, or for all discoverers to return results.
    await Future.any<dynamic>(<Future<dynamic>>[
      exactMatchCompleter.future,
      Future.wait<List<Device>>(futureDevices),
    ]);

    if (exactMatchCompleter.isCompleted) {
      return <Device>[await exactMatchCompleter.future];
    }
    return prefixMatches;
  }

  /// Returns the list of connected devices, filtered by any user-specified device id.
  Future<List<Device>> getDevices() {
    return hasSpecifiedDeviceId
        ? getDevicesById(specifiedDeviceId)
        : getAllConnectedDevices();
  }

  Iterable<DeviceDiscovery> get _platformDiscoverers {
    return deviceDiscoverers.where((DeviceDiscovery discoverer) => discoverer.supportsPlatform);
  }

  /// Returns the list of all connected devices.
  Future<List<Device>> getAllConnectedDevices() async {
    final List<List<Device>> devices = await Future.wait<List<Device>>(<Future<List<Device>>>[
      for (final DeviceDiscovery discoverer in _platformDiscoverers)
        discoverer.devices,
    ]);

    return devices.expand<Device>((List<Device> deviceList) => deviceList).toList();
  }

  /// Returns the list of all connected devices. Discards existing cache of devices.
  Future<List<Device>> refreshAllConnectedDevices({ Duration timeout }) async {
    final List<List<Device>> devices = await Future.wait<List<Device>>(<Future<List<Device>>>[
      for (final DeviceDiscovery discoverer in _platformDiscoverers)
        discoverer.discoverDevices(timeout: timeout),
    ]);

    return devices.expand<Device>((List<Device> deviceList) => deviceList).toList();
  }

  /// Whether we're capable of listing any devices given the current environment configuration.
  bool get canListAnything {
    return _platformDiscoverers.any((DeviceDiscovery discoverer) => discoverer.canListAnything);
  }

  /// Get diagnostics about issues with any connected devices.
  Future<List<String>> getDeviceDiagnostics() async {
    return <String>[
      for (final DeviceDiscovery discoverer in _platformDiscoverers)
        ...await discoverer.getDiagnostics(),
    ];
  }

  /// Find and return a list of devices based on the current project and environment.
  ///
  /// Returns a list of devices specified by the user.
  ///
  /// * If the user specified '-d all', then return all connected devices which
  /// support the current project, except for fuchsia and web.
  ///
  /// * If the user specified a device id, then do nothing as the list is already
  /// filtered by [getDevices].
  ///
  /// * If the user did not specify a device id and there is more than one
  /// device connected, then filter out unsupported devices and prioritize
  /// ephemeral devices.
  ///
  /// * If [flutterProject] is null, then assume the project supports all
  /// device types.
  Future<List<Device>> findTargetDevices(FlutterProject flutterProject, { Duration timeout }) async {
    if (timeout != null) {
      // Reset the cache with the specified timeout.
      await refreshAllConnectedDevices(timeout: timeout);
    }

    List<Device> devices = await getDevices();

    // Always remove web and fuchsia devices from `--all`. This setting
    // currently requires devices to share a frontend_server and resident
    // runner instance. Both web and fuchsia require differently configured
    // compilers, and web requires an entirely different resident runner.
    if (hasSpecifiedAllDevices) {
      devices = <Device>[
        for (final Device device in devices)
          if (await device.targetPlatform != TargetPlatform.fuchsia_arm64 &&
              await device.targetPlatform != TargetPlatform.fuchsia_x64 &&
              await device.targetPlatform != TargetPlatform.web_javascript)
            device,
      ];
    }

    // If there is no specified device, the remove all devices which are not
    // supported by the current application. For example, if there was no
    // 'android' folder then don't attempt to launch with an Android device.
    if (devices.length > 1 && !hasSpecifiedDeviceId) {
      devices = <Device>[
        for (final Device device in devices)
          if (isDeviceSupportedForProject(device, flutterProject))
            device,
      ];
    } else if (devices.length == 1 &&
             !hasSpecifiedDeviceId &&
             !isDeviceSupportedForProject(devices.single, flutterProject)) {
      // If there is only a single device but it is not supported, then return
      // early.
      return <Device>[];
    }

    // If there are still multiple devices and the user did not specify to run
    // all, then attempt to prioritize ephemeral devices. For example, if the
    // user only typed 'flutter run' and both an Android device and desktop
    // device are available, choose the Android device.
    if (devices.length > 1 && !hasSpecifiedAllDevices) {
      // Note: ephemeral is nullable for device types where this is not well
      // defined.
      if (devices.any((Device device) => device.ephemeral == true)) {
        // if there is only one ephemeral device, get it
        final List<Device> ephemeralDevices = devices
            .where((Device device) => device.ephemeral == true)
            .toList();

            if (ephemeralDevices.length == 1){
              devices = ephemeralDevices;
            }
      }
      // If it was not able to prioritize a device. For example, if the user
      // has two active Android devices running, then we request the user to
      // choose one. If the user has two nonEphemeral devices running, we also
      // request input to choose one.
      if (devices.length > 1 && _terminal.stdinHasTerminal) {
        _logger.printStatus(_userMessages.flutterMultipleDevicesFound);
        await Device.printDevices(devices, _logger);
        final Device chosenDevice = await _chooseOneOfAvailableDevices(devices);
        specifiedDeviceId = chosenDevice.id;
        devices = <Device>[chosenDevice];
      }
    }
    return devices;
  }

  Future<Device> _chooseOneOfAvailableDevices(List<Device> devices) async {
    _displayDeviceOptions(devices);
    final String userInput =  await _readUserInput(devices.length);
    if (userInput.toLowerCase() == 'q') {
      throwToolExit('');
    }
    return devices[int.parse(userInput) - 1];
  }

  void _displayDeviceOptions(List<Device> devices) {
    int count = 1;
    for (final Device device in devices) {
      _logger.printStatus(_userMessages.flutterChooseDevice(count, device.name, device.id));
      count++;
    }
  }

  Future<String> _readUserInput(int deviceCount) async {
    _terminal.usesTerminalUi = true;
    final String result = await _terminal.promptForCharInput(
      <String>[ for (int i = 0; i < deviceCount; i++) '${i + 1}', 'q', 'Q'],
      displayAcceptedCharacters: false,
      logger: _logger,
      prompt: _userMessages.flutterChooseOne,
    );
    return result;
  }

  /// Returns whether the device is supported for the project.
  ///
  /// This exists to allow the check to be overridden for google3 clients. If
  /// [flutterProject] is null then return true.
  bool isDeviceSupportedForProject(Device device, FlutterProject flutterProject) {
    if (flutterProject == null) {
      return true;
    }
    return device.isSupportedForProject(flutterProject);
  }
}


/// An abstract class to discover and enumerate a specific type of devices.
abstract class DeviceDiscovery {
  bool get supportsPlatform;

  /// Whether this device discovery is capable of listing any devices given the
  /// current environment configuration.
  bool get canListAnything;

  /// Return all connected devices, cached on subsequent calls.
  Future<List<Device>> get devices;

  /// Return all connected devices. Discards existing cache of devices.
  Future<List<Device>> discoverDevices({ Duration timeout });

  /// Gets a list of diagnostic messages pertaining to issues with any connected
  /// devices (will be an empty list if there are no issues).
  Future<List<String>> getDiagnostics() => Future<List<String>>.value(<String>[]);
}

/// A [DeviceDiscovery] implementation that uses polling to discover device adds
/// and removals.
abstract class PollingDeviceDiscovery extends DeviceDiscovery {
  PollingDeviceDiscovery(this.name);

  static const Duration _pollingInterval = Duration(seconds: 4);
  static const Duration _pollingTimeout = Duration(seconds: 30);

  final String name;

  @protected
  @visibleForTesting
  ItemListNotifier<Device> deviceNotifier;

  Timer _timer;

  Future<List<Device>> pollingGetDevices({ Duration timeout });

  void startPolling() {
    if (_timer == null) {
      deviceNotifier ??= ItemListNotifier<Device>();
      // Make initial population the default, fast polling timeout.
      _timer = _initTimer(null);
    }
  }

  Timer _initTimer(Duration pollingTimeout) {
    return Timer(_pollingInterval, () async {
      try {
        final List<Device> devices = await pollingGetDevices(timeout: pollingTimeout);
        deviceNotifier.updateWithNewList(devices);
      } on TimeoutException {
        // Do nothing on a timeout.
      }
      // Subsequent timeouts after initial population should wait longer.
      _timer = _initTimer(_pollingTimeout);
    });
  }

  void stopPolling() {
    _timer?.cancel();
    _timer = null;
  }

  @override
  Future<List<Device>> get devices {
    return _populateDevices();
  }

  @override
  Future<List<Device>> discoverDevices({ Duration timeout }) {
    deviceNotifier = null;
    return _populateDevices(timeout: timeout);
  }

  Future<List<Device>> _populateDevices({ Duration timeout }) async {
    deviceNotifier ??= ItemListNotifier<Device>.from(await pollingGetDevices(timeout: timeout));
    return deviceNotifier.items;
  }

  Stream<Device> get onAdded {
    deviceNotifier ??= ItemListNotifier<Device>();
    return deviceNotifier.onAdded;
  }

  Stream<Device> get onRemoved {
    deviceNotifier ??= ItemListNotifier<Device>();
    return deviceNotifier.onRemoved;
  }

  void dispose() => stopPolling();

  @override
  String toString() => '$name device discovery';
}

/// A device is a physical hardware that can run a flutter application.
///
/// This may correspond to a connected iOS or Android device, or represent
/// the host operating system in the case of Flutter Desktop.
abstract class Device {
  Device(this.id, {
    @required this.category,
    @required this.platformType,
    @required this.ephemeral,
  });

  final String id;

  /// The [Category] for this device type.
  final Category category;

  /// The [PlatformType] for this device.
  final PlatformType platformType;

  /// Whether this is an ephemeral device.
  final bool ephemeral;

  String get name;

  bool get supportsStartPaused => true;

  /// Whether it is an emulated device running on localhost.
  ///
  /// This may return `true` for certain physical Android devices, and is
  /// generally only a best effort guess.
  Future<bool> get isLocalEmulator;

  /// The unique identifier for the emulator that corresponds to this device, or
  /// null if it is not an emulator.
  ///
  /// The ID returned matches that in the output of `flutter emulators`. Fetching
  /// this name may require connecting to the device and if an error occurs null
  /// will be returned.
  Future<String> get emulatorId;

  /// Whether this device can run the provided [buildMode].
  ///
  /// For example, some emulator architectures cannot run profile or
  /// release builds.
  FutureOr<bool> supportsRuntimeMode(BuildMode buildMode) => true;

  /// Whether the device is a simulator on a platform which supports hardware rendering.
  // This is soft-deprecated since the logic is not correct expect for iOS simulators.
  Future<bool> get supportsHardwareRendering async {
    return true;
  }

  /// Whether the device is supported for the current project directory.
  bool isSupportedForProject(FlutterProject flutterProject);

  /// Check if a version of the given app is already installed.
  ///
  /// Specify [userIdentifier] to check if installed for a particular user (Android only).
  Future<bool> isAppInstalled(
    covariant ApplicationPackage app, {
    String userIdentifier,
  });

  /// Check if the latest build of the [app] is already installed.
  Future<bool> isLatestBuildInstalled(covariant ApplicationPackage app);

  /// Install an app package on the current device.
  ///
  /// Specify [userIdentifier] to install for a particular user (Android only).
  Future<bool> installApp(
    covariant ApplicationPackage app, {
    String userIdentifier,
  });

  /// Uninstall an app package from the current device.
  ///
  /// Specify [userIdentifier] to uninstall for a particular user,
  /// defaults to all users (Android only).
  Future<bool> uninstallApp(
    covariant ApplicationPackage app, {
    String userIdentifier,
  });

  /// Check if the device is supported by Flutter.
  bool isSupported();

  // String meant to be displayed to the user indicating if the device is
  // supported by Flutter, and, if not, why.
  String supportMessage() => isSupported() ? 'Supported' : 'Unsupported';

  /// The device's platform.
  Future<TargetPlatform> get targetPlatform;

  /// Platform name for display only.
  Future<String> get targetPlatformDisplayName async =>
      getNameForTargetPlatform(await targetPlatform);

  Future<String> get sdkNameAndVersion;

  /// Create a platform-specific [DevFSWriter] for the given [app], or
  /// null if the device does not support them.
  ///
  /// For example, the desktop device classes can use a writer which
  /// copies the files across the local file system.
  DevFSWriter createDevFSWriter(
    covariant ApplicationPackage app,
    String userIdentifier,
  ) {
    return null;
  }

  /// Get a log reader for this device.
  ///
  /// If `app` is specified, this will return a log reader specific to that
  /// application. Otherwise, a global log reader will be returned.
  ///
  /// If `includePastLogs` is true and the device type supports it, the log
  /// reader will also include log messages from before the invocation time.
  /// Defaults to false.
  FutureOr<DeviceLogReader> getLogReader({
    covariant ApplicationPackage app,
    bool includePastLogs = false,
  });

  /// Get the port forwarder for this device.
  DevicePortForwarder get portForwarder;

  /// Get the DDS instance for this device.
  final DartDevelopmentService dds = DartDevelopmentService();

  /// Clear the device's logs.
  void clearLogs();

  /// Optional device-specific artifact overrides.
  OverrideArtifacts get artifactOverrides => null;

  /// Start an app package on the current device.
  ///
  /// [platformArgs] allows callers to pass platform-specific arguments to the
  /// start call. The build mode is not used by all platforms.
  Future<LaunchResult> startApp(
    covariant ApplicationPackage package, {
    String mainPath,
    String route,
    DebuggingOptions debuggingOptions,
    Map<String, dynamic> platformArgs,
    bool prebuiltApplication = false,
    bool ipv6 = false,
    String userIdentifier,
  });

  /// Whether this device implements support for hot reload.
  bool get supportsHotReload => true;

  /// Whether this device implements support for hot restart.
  bool get supportsHotRestart => true;

  /// Whether flutter applications running on this device can be terminated
  /// from the VM Service.
  bool get supportsFlutterExit => true;

  /// Whether the device supports taking screenshots of a running flutter
  /// application.
  bool get supportsScreenshot => false;

  /// Whether the device supports the '--fast-start' development mode.
  bool get supportsFastStart => false;

  /// Stop an app package on the current device.
  ///
  /// Specify [userIdentifier] to stop app installed to a profile (Android only).
  Future<bool> stopApp(
    covariant ApplicationPackage app, {
    String userIdentifier,
  });

  /// Query the current application memory usage..
  ///
  /// If the device does not support this callback, an empty map
  /// is returned.
  Future<MemoryInfo> queryMemoryInfo() {
    return Future<MemoryInfo>.value(const MemoryInfo.empty());
  }

  Future<void> takeScreenshot(File outputFile) => Future<void>.error('unimplemented');

  @nonVirtual
  @override
  // ignore: avoid_equals_and_hash_code_on_mutable_classes
  int get hashCode => id.hashCode;

  @nonVirtual
  @override
  // ignore: avoid_equals_and_hash_code_on_mutable_classes
  bool operator ==(Object other) {
    if (identical(this, other)) {
      return true;
    }
    return other is Device
        && other.id == id;
  }

  @override
  String toString() => name;

  static Stream<String> descriptions(List<Device> devices) async* {
    if (devices.isEmpty) {
      return;
    }

    // Extract device information
    final List<List<String>> table = <List<String>>[];
    for (final Device device in devices) {
      String supportIndicator = device.isSupported() ? '' : ' (unsupported)';
      final TargetPlatform targetPlatform = await device.targetPlatform;
      if (await device.isLocalEmulator) {
        final String type = targetPlatform == TargetPlatform.ios ? 'simulator' : 'emulator';
        supportIndicator += ' ($type)';
      }
      table.add(<String>[
        '${device.name} (${device.category})',
        device.id,
        await device.targetPlatformDisplayName,
        '${await device.sdkNameAndVersion}$supportIndicator',
      ]);
    }

    // Calculate column widths
    final List<int> indices = List<int>.generate(table[0].length - 1, (int i) => i);
    List<int> widths = indices.map<int>((int i) => 0).toList();
    for (final List<String> row in table) {
      widths = indices.map<int>((int i) => math.max(widths[i], row[i].length)).toList();
    }

    // Join columns into lines of text
    for (final List<String> row in table) {
      yield indices.map<String>((int i) => row[i].padRight(widths[i])).join(' • ') + ' • ${row.last}';
    }
  }

  static Future<void> printDevices(List<Device> devices, Logger logger) async {
    await descriptions(devices).forEach(logger.printStatus);
  }

  static List<String> devicesPlatformTypes(List<Device> devices) {
    return devices
        .map(
          (Device d) => d.platformType.toString(),
        ).toSet().toList()..sort();
  }

  /// Convert the Device object to a JSON representation suitable for serialization.
  Future<Map<String, Object>> toJson() async {
    final bool isLocalEmu = await isLocalEmulator;
    return <String, Object>{
      'name': name,
      'id': id,
      'isSupported': isSupported(),
      'targetPlatform': getNameForTargetPlatform(await targetPlatform),
      'emulator': isLocalEmu,
      'sdk': await sdkNameAndVersion,
      'capabilities': <String, Object>{
        'hotReload': supportsHotReload,
        'hotRestart': supportsHotRestart,
        'screenshot': supportsScreenshot,
        'fastStart': supportsFastStart,
        'flutterExit': supportsFlutterExit,
        'hardwareRendering': isLocalEmu && await supportsHardwareRendering,
        'startPaused': supportsStartPaused,
      }
    };
  }

  /// Clean up resources allocated by device.
  ///
  /// For example log readers or port forwarders.
  Future<void> dispose();
}

/// Information about an application's memory usage.
abstract class MemoryInfo {
  /// Const constructor to allow subclasses to be const.
  const MemoryInfo();

  /// Create a [MemoryInfo] object with no information.
  const factory MemoryInfo.empty() = _NoMemoryInfo;

  /// Convert the object to a JSON representation suitable for serialization.
  Map<String, Object> toJson();
}

class _NoMemoryInfo implements MemoryInfo {
  const _NoMemoryInfo();

  @override
  Map<String, Object> toJson() => <String, Object>{};
}

class DebuggingOptions {
  DebuggingOptions.enabled(
    this.buildInfo, {
    this.startPaused = false,
    this.disableServiceAuthCodes = false,
    this.enableDds = true,
    this.dartEntrypointArgs = const <String>[],
    this.dartFlags = '',
    this.enableSoftwareRendering = false,
    this.skiaDeterministicRendering = false,
    this.traceSkia = false,
    this.traceAllowlist,
    this.traceSystrace = false,
    this.endlessTraceBuffer = false,
    this.dumpSkpOnShaderCompilation = false,
    this.cacheSkSL = false,
    this.purgePersistentCache = false,
    this.useTestFonts = false,
    this.verboseSystemLogs = false,
    this.hostVmServicePort,
    this.disablePortPublication = false,
    this.deviceVmServicePort,
    this.ddsPort,
    this.devToolsServerAddress,
    this.hostname,
    this.port,
    this.webEnableExposeUrl,
    this.webUseSseForDebugProxy = true,
    this.webUseSseForDebugBackend = true,
    this.webUseSseForInjectedClient = true,
    this.webRunHeadless = false,
    this.webBrowserDebugPort,
    this.webEnableExpressionEvaluation = false,
    this.vmserviceOutFile,
    this.fastStart = false,
    this.nullAssertions = false,
    this.nativeNullAssertions = false,
   }) : debuggingEnabled = true;

  DebuggingOptions.disabled(this.buildInfo, {
      this.dartEntrypointArgs = const <String>[],
      this.port,
      this.hostname,
      this.webEnableExposeUrl,
      this.webUseSseForDebugProxy = true,
      this.webUseSseForDebugBackend = true,
      this.webUseSseForInjectedClient = true,
      this.webRunHeadless = false,
      this.webBrowserDebugPort,
      this.cacheSkSL = false,
      this.traceAllowlist,
    }) : debuggingEnabled = false,
      useTestFonts = false,
      startPaused = false,
      dartFlags = '',
      disableServiceAuthCodes = false,
      enableDds = true,
      enableSoftwareRendering = false,
      skiaDeterministicRendering = false,
      traceSkia = false,
      traceSystrace = false,
      endlessTraceBuffer = false,
      dumpSkpOnShaderCompilation = false,
      purgePersistentCache = false,
      verboseSystemLogs = false,
      hostVmServicePort = null,
      disablePortPublication = false,
      deviceVmServicePort = null,
      ddsPort = null,
      devToolsServerAddress = null,
      vmserviceOutFile = null,
      fastStart = false,
      webEnableExpressionEvaluation = false,
      nullAssertions = false,
      nativeNullAssertions = false;

  final bool debuggingEnabled;

  final BuildInfo buildInfo;
  final bool startPaused;
  final String dartFlags;
  final List<String> dartEntrypointArgs;
  final bool disableServiceAuthCodes;
  final bool enableDds;
  final bool enableSoftwareRendering;
  final bool skiaDeterministicRendering;
  final bool traceSkia;
  final String traceAllowlist;
  final bool traceSystrace;
  final bool endlessTraceBuffer;
  final bool dumpSkpOnShaderCompilation;
  final bool cacheSkSL;
  final bool purgePersistentCache;
  final bool useTestFonts;
  final bool verboseSystemLogs;
  final int hostVmServicePort;
  final int deviceVmServicePort;
  final bool disablePortPublication;
  final int ddsPort;
  final Uri devToolsServerAddress;
  final String port;
  final String hostname;
  final bool webEnableExposeUrl;
  final bool webUseSseForDebugProxy;
  final bool webUseSseForDebugBackend;
  final bool webUseSseForInjectedClient;

  /// Whether to run the browser in headless mode.
  ///
  /// Some CI environments do not provide a display and fail to launch the
  /// browser with full graphics stack. Some browsers provide a special
  /// "headless" mode that runs the browser with no graphics.
  final bool webRunHeadless;

  /// The port the browser should use for its debugging protocol.
  final int webBrowserDebugPort;

  /// Enable expression evaluation for web target.
  final bool webEnableExpressionEvaluation;

  /// A file where the VM Service URL should be written after the application is started.
  final String vmserviceOutFile;
  final bool fastStart;

  final bool nullAssertions;

  /// Additional null runtime checks inserted for web applications.
  ///
  /// See also:
  ///   * https://github.com/dart-lang/sdk/blob/master/sdk/lib/html/doc/NATIVE_NULL_ASSERTIONS.md
  final bool nativeNullAssertions;

  bool get hasObservatoryPort => hostVmServicePort != null;
}

class LaunchResult {
  LaunchResult.succeeded({ this.observatoryUri }) : started = true;
  LaunchResult.failed()
    : started = false,
      observatoryUri = null;

  bool get hasObservatory => observatoryUri != null;

  final bool started;
  final Uri observatoryUri;

  @override
  String toString() {
    final StringBuffer buf = StringBuffer('started=$started');
    if (observatoryUri != null) {
      buf.write(', observatory=$observatoryUri');
    }
    return buf.toString();
  }
}

/// Read the log for a particular device.
abstract class DeviceLogReader {
  String get name;

  /// A broadcast stream where each element in the string is a line of log output.
  Stream<String> get logLines;

  /// Some logs can be obtained from a VM service stream.
  /// Set this after the VM services are connected.
  FlutterVmService connectedVMService;

  @override
  String toString() => name;

  /// Process ID of the app on the device.
  int appPid;

  // Clean up resources allocated by log reader e.g. subprocesses
  void dispose();
}

/// Describes an app running on the device.
class DiscoveredApp {
  DiscoveredApp(this.id, this.observatoryPort);
  final String id;
  final int observatoryPort;
}

// An empty device log reader
class NoOpDeviceLogReader implements DeviceLogReader {
  NoOpDeviceLogReader(this.name);

  @override
  final String name;

  @override
  int appPid;

  @override
  FlutterVmService connectedVMService;

  @override
  Stream<String> get logLines => const Stream<String>.empty();

  @override
  void dispose() { }
}

/// Append --null_assertions to any existing Dart VM flags if
/// [debuggingOptions.nullAssertions] is true.
String computeDartVmFlags(DebuggingOptions debuggingOptions) {
  return <String>[
    if (debuggingOptions.dartFlags?.isNotEmpty ?? false)
      debuggingOptions.dartFlags,
    if (debuggingOptions.nullAssertions)
      '--null_assertions',
  ].join(',');
}