// Copyright 2015 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
import 'dart:async';
import 'package:meta/meta.dart';
import '../base/common.dart';
import '../base/context.dart';
import '../base/file_system.dart';
import '../base/io.dart';
import '../base/logger.dart';
import '../base/terminal.dart';
import '../base/utils.dart';
import '../build_info.dart';
import '../cache.dart';
import '../convert.dart';
import '../device.dart';
import '../emulator.dart';
import '../globals.dart';
import '../resident_runner.dart';
import '../run_cold.dart';
import '../run_hot.dart';
import '../runner/flutter_command.dart';
import '../vmservice.dart';
const String protocolVersion = '0.4.2';
/// A server process command. This command will start up a long-lived server.
/// It reads JSON-RPC based commands from stdin, executes them, and returns
/// JSON-RPC based responses and events to stdout.
///
/// It can be shutdown with a `daemon.shutdown` command (or by killing the
/// process).
class DaemonCommand extends FlutterCommand {
DaemonCommand({ this.hidden = false });
@override
final String name = 'daemon';
@override
final String description = 'Run a persistent, JSON-RPC based server to communicate with devices.';
@override
final bool hidden;
@override
Future<FlutterCommandResult> runCommand() async {
printStatus('Starting device daemon...');
final NotifyingLogger notifyingLogger = NotifyingLogger();
Cache.releaseLockEarly();
await context.run<void>(
body: () async {
final Daemon daemon = Daemon(
stdinCommandStream, stdoutCommandResponse,
daemonCommand: this, notifyingLogger: notifyingLogger);
final int code = await daemon.onExit;
if (code != 0)
throwToolExit('Daemon exited with non-zero exit code: $code', exitCode: code);
},
overrides: <Type, Generator>{
Logger: () => notifyingLogger,
},
);
return null;
}
}
typedef DispatchCommand = void Function(Map<String, dynamic> command);
typedef CommandHandler = Future<dynamic> Function(Map<String, dynamic> args);
class Daemon {
Daemon(
Stream<Map<String, dynamic>> commandStream,
this.sendCommand, {
this.daemonCommand,
this.notifyingLogger,
this.logToStdout = false,
}) {
// Set up domains.
_registerDomain(daemonDomain = DaemonDomain(this));
_registerDomain(appDomain = AppDomain(this));
_registerDomain(deviceDomain = DeviceDomain(this));
_registerDomain(emulatorDomain = EmulatorDomain(this));
// Start listening.
_commandSubscription = commandStream.listen(
_handleRequest,
onDone: () {
if (!_onExitCompleter.isCompleted)
_onExitCompleter.complete(0);
},
);
}
DaemonDomain daemonDomain;
AppDomain appDomain;
DeviceDomain deviceDomain;
EmulatorDomain emulatorDomain;
StreamSubscription<Map<String, dynamic>> _commandSubscription;
final DispatchCommand sendCommand;
final DaemonCommand daemonCommand;
final NotifyingLogger notifyingLogger;
final bool logToStdout;
final Completer<int> _onExitCompleter = Completer<int>();
final Map<String, Domain> _domainMap = <String, Domain>{};
void _registerDomain(Domain domain) {
_domainMap[domain.name] = domain;
}
Future<int> get onExit => _onExitCompleter.future;
void _handleRequest(Map<String, dynamic> request) {
// {id, method, params}
// [id] is an opaque type to us.
final dynamic id = request['id'];
if (id == null) {
stderr.writeln('no id for request: $request');
return;
}
try {
final String method = request['method'];
if (!method.contains('.'))
throw 'method not understood: $method';
final String prefix = method.substring(0, method.indexOf('.'));
final String name = method.substring(method.indexOf('.') + 1);
if (_domainMap[prefix] == null)
throw 'no domain for method: $method';
_domainMap[prefix].handleCommand(name, id, request['params'] ?? const <String, dynamic>{});
} catch (error, trace) {
_send(<String, dynamic>{
'id': id,
'error': _toJsonable(error),
'trace': '$trace',
});
}
}
void _send(Map<String, dynamic> map) => sendCommand(map);
void shutdown({ dynamic error }) {
_commandSubscription?.cancel();
for (Domain domain in _domainMap.values)
domain.dispose();
if (!_onExitCompleter.isCompleted) {
if (error == null)
_onExitCompleter.complete(0);
else
_onExitCompleter.completeError(error);
}
}
}
abstract class Domain {
Domain(this.daemon, this.name);
final Daemon daemon;
final String name;
final Map<String, CommandHandler> _handlers = <String, CommandHandler>{};
void registerHandler(String name, CommandHandler handler) {
_handlers[name] = handler;
}
FlutterCommand get command => daemon.daemonCommand;
@override
String toString() => name;
void handleCommand(String command, dynamic id, Map<String, dynamic> args) {
Future<dynamic>.sync(() {
if (_handlers.containsKey(command))
return _handlers[command](args);
throw 'command not understood: $name.$command';
}).then<dynamic>((dynamic result) {
if (result == null) {
_send(<String, dynamic>{'id': id});
} else {
_send(<String, dynamic>{'id': id, 'result': _toJsonable(result)});
}
}).catchError((dynamic error, dynamic trace) {
_send(<String, dynamic>{
'id': id,
'error': _toJsonable(error),
'trace': '$trace',
});
});
}
void sendEvent(String name, [ dynamic args ]) {
final Map<String, dynamic> map = <String, dynamic>{'event': name};
if (args != null)
map['params'] = _toJsonable(args);
_send(map);
}
void _send(Map<String, dynamic> map) => daemon._send(map);
String _getStringArg(Map<String, dynamic> args, String name, { bool required = false }) {
if (required && !args.containsKey(name))
throw '$name is required';
final dynamic val = args[name];
if (val != null && val is! String)
throw '$name is not a String';
return val;
}
bool _getBoolArg(Map<String, dynamic> args, String name, { bool required = false }) {
if (required && !args.containsKey(name))
throw '$name is required';
final dynamic val = args[name];
if (val != null && val is! bool)
throw '$name is not a bool';
return val;
}
int _getIntArg(Map<String, dynamic> args, String name, { bool required = false }) {
if (required && !args.containsKey(name))
throw '$name is required';
final dynamic val = args[name];
if (val != null && val is! int)
throw '$name is not an int';
return val;
}
void dispose() { }
}
/// This domain responds to methods like [version] and [shutdown].
///
/// This domain fires the `daemon.logMessage` event.
class DaemonDomain extends Domain {
DaemonDomain(Daemon daemon) : super(daemon, 'daemon') {
registerHandler('version', version);
registerHandler('shutdown', shutdown);
sendEvent(
'daemon.connected',
<String, dynamic>{
'version': protocolVersion,
'pid': pid,
},
);
_subscription = daemon.notifyingLogger.onMessage.listen((LogMessage message) {
if (daemon.logToStdout) {
if (message.level == 'status') {
// We use `print()` here instead of `stdout.writeln()` in order to
// capture the print output for testing.
print(message.message);
} else if (message.level == 'error') {
stderr.writeln(message.message);
if (message.stackTrace != null)
stderr.writeln(message.stackTrace.toString().trimRight());
}
} else {
if (message.stackTrace != null) {
sendEvent('daemon.logMessage', <String, dynamic>{
'level': message.level,
'message': message.message,
'stackTrace': message.stackTrace.toString(),
});
} else {
sendEvent('daemon.logMessage', <String, dynamic>{
'level': message.level,
'message': message.message,
});
}
}
});
}
StreamSubscription<LogMessage> _subscription;
Future<String> version(Map<String, dynamic> args) {
return Future<String>.value(protocolVersion);
}
Future<void> shutdown(Map<String, dynamic> args) {
Timer.run(daemon.shutdown);
return Future<void>.value();
}
@override
void dispose() {
_subscription?.cancel();
}
}
typedef _RunOrAttach = Future<void> Function({
Completer<DebugConnectionInfo> connectionInfoCompleter,
Completer<void> appStartedCompleter,
});
/// This domain responds to methods like [start] and [stop].
///
/// It fires events for application start, stop, and stdout and stderr.
class AppDomain extends Domain {
AppDomain(Daemon daemon) : super(daemon, 'app') {
registerHandler('restart', restart);
registerHandler('callServiceExtension', callServiceExtension);
registerHandler('stop', stop);
registerHandler('detach', detach);
}
static final Uuid _uuidGenerator = Uuid();
static String _getNewAppId() => _uuidGenerator.generateV4();
final List<AppInstance> _apps = <AppInstance>[];
Future<AppInstance> startApp(
Device device,
String projectDirectory,
String target,
String route,
DebuggingOptions options,
bool enableHotReload, {
File applicationBinary,
@required bool trackWidgetCreation,
String projectRootPath,
String packagesFilePath,
String dillOutputPath,
bool ipv6 = false,
String isolateFilter,
}) async {
if (await device.isLocalEmulator && !options.buildInfo.supportsEmulator) {
throw '${toTitleCase(options.buildInfo.friendlyModeName)} mode is not supported for emulators.';
}
// We change the current working directory for the duration of the `start` command.
final Directory cwd = fs.currentDirectory;
fs.currentDirectory = fs.directory(projectDirectory);
final FlutterDevice flutterDevice = await FlutterDevice.create(
device,
trackWidgetCreation: trackWidgetCreation,
dillOutputPath: dillOutputPath,
viewFilter: isolateFilter,
target: target,
buildMode: options.buildInfo.mode,
);
ResidentRunner runner;
if (enableHotReload) {
runner = HotRunner(
<FlutterDevice>[flutterDevice],
target: target,
debuggingOptions: options,
usesTerminalUI: false,
applicationBinary: applicationBinary,
projectRootPath: projectRootPath,
packagesFilePath: packagesFilePath,
dillOutputPath: dillOutputPath,
ipv6: ipv6,
hostIsIde: true,
);
} else {
runner = ColdRunner(
<FlutterDevice>[flutterDevice],
target: target,
debuggingOptions: options,
usesTerminalUI: false,
applicationBinary: applicationBinary,
ipv6: ipv6,
);
}
return launch(
runner,
({
Completer<DebugConnectionInfo> connectionInfoCompleter,
Completer<void> appStartedCompleter,
}) {
return runner.run(
connectionInfoCompleter: connectionInfoCompleter,
appStartedCompleter: appStartedCompleter,
route: route,
);
},
device,
projectDirectory,
enableHotReload,
cwd,
LaunchMode.run,
);
}
Future<AppInstance> launch(
ResidentRunner runner,
_RunOrAttach runOrAttach,
Device device,
String projectDirectory,
bool enableHotReload,
Directory cwd,
LaunchMode launchMode,
) async {
final AppInstance app = AppInstance(_getNewAppId(),
runner: runner, logToStdout: daemon.logToStdout);
_apps.add(app);
_sendAppEvent(app, 'start', <String, dynamic>{
'deviceId': device.id,
'directory': projectDirectory,
'supportsRestart': isRestartSupported(enableHotReload, device),
'launchMode': launchMode.toString(),
});
Completer<DebugConnectionInfo> connectionInfoCompleter;
if (runner.debuggingOptions.debuggingEnabled) {
connectionInfoCompleter = Completer<DebugConnectionInfo>();
// We don't want to wait for this future to complete and callbacks won't fail.
// As it just writes to stdout.
unawaited(connectionInfoCompleter.future.then<void>(
(DebugConnectionInfo info) {
final Map<String, dynamic> params = <String, dynamic>{
'port': info.httpUri.port,
'wsUri': info.wsUri.toString(),
};
if (info.baseUri != null)
params['baseUri'] = info.baseUri;
_sendAppEvent(app, 'debugPort', params);
},
));
}
final Completer<void> appStartedCompleter = Completer<void>();
// We don't want to wait for this future to complete, and callbacks won't fail,
// as it just writes to stdout.
unawaited(appStartedCompleter.future.then<void>((void value) {
_sendAppEvent(app, 'started');
}));
await app._runInZone<void>(this, () async {
try {
await runOrAttach(
connectionInfoCompleter: connectionInfoCompleter,
appStartedCompleter: appStartedCompleter,
);
_sendAppEvent(app, 'stop');
} catch (error, trace) {
_sendAppEvent(app, 'stop', <String, dynamic>{
'error': _toJsonable(error),
'trace': '$trace',
});
} finally {
fs.currentDirectory = cwd;
_apps.remove(app);
}
});
return app;
}
bool isRestartSupported(bool enableHotReload, Device device) =>
enableHotReload && device.supportsHotRestart;
Future<OperationResult> _inProgressHotReload;
Future<OperationResult> restart(Map<String, dynamic> args) async {
final String appId = _getStringArg(args, 'appId', required: true);
final bool fullRestart = _getBoolArg(args, 'fullRestart') ?? false;
final bool pauseAfterRestart = _getBoolArg(args, 'pause') ?? false;
final String restartReason = _getStringArg(args, 'reason');
final AppInstance app = _getApp(appId);
if (app == null)
throw "app '$appId' not found";
if (_inProgressHotReload != null)
throw 'hot restart already in progress';
_inProgressHotReload = app._runInZone<OperationResult>(this, () {
return app.restart(fullRestart: fullRestart, pauseAfterRestart: pauseAfterRestart, reason: restartReason);
});
return _inProgressHotReload.whenComplete(() {
_inProgressHotReload = null;
});
}
/// Returns an error, or the service extension result (a map with two fixed
/// keys, `type` and `method`). The result may have one or more additional keys,
/// depending on the specific service extension end-point. For example:
///
/// {
/// "value":"android",
/// "type":"_extensionType",
/// "method":"ext.flutter.platformOverride"
/// }
Future<Map<String, dynamic>> callServiceExtension(Map<String, dynamic> args) async {
final String appId = _getStringArg(args, 'appId', required: true);
final String methodName = _getStringArg(args, 'methodName');
final Map<String, dynamic> params = args['params'] == null ? <String, dynamic>{} : castStringKeyedMap(args['params']);
final AppInstance app = _getApp(appId);
if (app == null)
throw "app '$appId' not found";
final Isolate isolate = app.runner.flutterDevices.first.views.first.uiIsolate;
final Map<String, dynamic> result = await isolate.invokeFlutterExtensionRpcRaw(methodName, params: params);
if (result == null)
throw 'method not available: $methodName';
if (result.containsKey('error'))
throw result['error'];
return result;
}
Future<bool> stop(Map<String, dynamic> args) async {
final String appId = _getStringArg(args, 'appId', required: true);
final AppInstance app = _getApp(appId);
if (app == null)
throw "app '$appId' not found";
return app.stop().then<bool>(
(void value) => true,
onError: (dynamic error, StackTrace stack) {
_sendAppEvent(app, 'log', <String, dynamic>{'log': '$error', 'error': true});
app.closeLogger();
_apps.remove(app);
return false;
},
);
}
Future<bool> detach(Map<String, dynamic> args) async {
final String appId = _getStringArg(args, 'appId', required: true);
final AppInstance app = _getApp(appId);
if (app == null)
throw "app '$appId' not found";
return app.detach().then<bool>(
(void value) => true,
onError: (dynamic error, StackTrace stack) {
_sendAppEvent(app, 'log', <String, dynamic>{'log': '$error', 'error': true});
app.closeLogger();
_apps.remove(app);
return false;
},
);
}
AppInstance _getApp(String id) {
return _apps.firstWhere((AppInstance app) => app.id == id, orElse: () => null);
}
void _sendAppEvent(AppInstance app, String name, [ Map<String, dynamic> args ]) {
final Map<String, dynamic> eventArgs = <String, dynamic>{'appId': app.id};
if (args != null)
eventArgs.addAll(args);
sendEvent('app.$name', eventArgs);
}
}
typedef _DeviceEventHandler = void Function(Device device);
/// This domain lets callers list and monitor connected devices.
///
/// It exports a `getDevices()` call, as well as firing `device.added` and
/// `device.removed` events.
class DeviceDomain extends Domain {
DeviceDomain(Daemon daemon) : super(daemon, 'device') {
registerHandler('getDevices', getDevices);
registerHandler('enable', enable);
registerHandler('disable', disable);
registerHandler('forward', forward);
registerHandler('unforward', unforward);
// Use the device manager discovery so that client provided device types
// are usable via the daemon protocol.
deviceManager.deviceDiscoverers.forEach(addDeviceDiscoverer);
}
void addDeviceDiscoverer(DeviceDiscovery discoverer) {
if (!discoverer.supportsPlatform)
return;
_discoverers.add(discoverer);
if (discoverer is PollingDeviceDiscovery) {
discoverer.onAdded.listen(_onDeviceEvent('device.added'));
discoverer.onRemoved.listen(_onDeviceEvent('device.removed'));
}
}
Future<void> _serializeDeviceEvents = Future<void>.value();
_DeviceEventHandler _onDeviceEvent(String eventName) {
return (Device device) {
_serializeDeviceEvents = _serializeDeviceEvents.then<void>((_) async {
sendEvent(eventName, await _deviceToMap(device));
});
};
}
final List<PollingDeviceDiscovery> _discoverers = <PollingDeviceDiscovery>[];
/// Return a list of the current devices, with each device represented as a map
/// of properties (id, name, platform, ...).
Future<List<Map<String, dynamic>>> getDevices([ Map<String, dynamic> args ]) async {
final List<Map<String, dynamic>> devicesInfo = <Map<String, dynamic>>[];
for (PollingDeviceDiscovery discoverer in _discoverers) {
for (Device device in await discoverer.devices) {
devicesInfo.add(await _deviceToMap(device));
}
}
return devicesInfo;
}
/// Enable device events.
Future<void> enable(Map<String, dynamic> args) {
for (PollingDeviceDiscovery discoverer in _discoverers)
discoverer.startPolling();
return Future<void>.value();
}
/// Disable device events.
Future<void> disable(Map<String, dynamic> args) {
for (PollingDeviceDiscovery discoverer in _discoverers)
discoverer.stopPolling();
return Future<void>.value();
}
/// Forward a host port to a device port.
Future<Map<String, dynamic>> forward(Map<String, dynamic> args) async {
final String deviceId = _getStringArg(args, 'deviceId', required: true);
final int devicePort = _getIntArg(args, 'devicePort', required: true);
int hostPort = _getIntArg(args, 'hostPort');
final Device device = await daemon.deviceDomain._getDevice(deviceId);
if (device == null)
throw "device '$deviceId' not found";
hostPort = await device.portForwarder.forward(devicePort, hostPort: hostPort);
return <String, dynamic>{'hostPort': hostPort};
}
/// Removes a forwarded port.
Future<void> unforward(Map<String, dynamic> args) async {
final String deviceId = _getStringArg(args, 'deviceId', required: true);
final int devicePort = _getIntArg(args, 'devicePort', required: true);
final int hostPort = _getIntArg(args, 'hostPort', required: true);
final Device device = await daemon.deviceDomain._getDevice(deviceId);
if (device == null)
throw "device '$deviceId' not found";
return device.portForwarder.unforward(ForwardedPort(hostPort, devicePort));
}
@override
void dispose() {
for (PollingDeviceDiscovery discoverer in _discoverers)
discoverer.dispose();
}
/// Return the device matching the deviceId field in the args.
Future<Device> _getDevice(String deviceId) async {
for (PollingDeviceDiscovery discoverer in _discoverers) {
final Device device = (await discoverer.devices).firstWhere((Device device) => device.id == deviceId, orElse: () => null);
if (device != null)
return device;
}
return null;
}
}
Stream<Map<String, dynamic>> get stdinCommandStream => stdin
.transform<String>(utf8.decoder)
.transform<String>(const LineSplitter())
.where((String line) => line.startsWith('[{') && line.endsWith('}]'))
.map<Map<String, dynamic>>((String line) {
line = line.substring(1, line.length - 1);
return json.decode(line);
});
void stdoutCommandResponse(Map<String, dynamic> command) {
stdout.writeln('[${jsonEncodeObject(command)}]');
}
String jsonEncodeObject(dynamic object) {
return json.encode(object, toEncodable: _toEncodable);
}
dynamic _toEncodable(dynamic object) {
if (object is OperationResult)
return _operationResultToMap(object);
return object;
}
Future<Map<String, dynamic>> _deviceToMap(Device device) async {
return <String, dynamic>{
'id': device.id,
'name': device.name,
'platform': getNameForTargetPlatform(await device.targetPlatform),
'emulator': await device.isLocalEmulator,
};
}
Map<String, dynamic> _emulatorToMap(Emulator emulator) {
return <String, dynamic>{
'id': emulator.id,
'name': emulator.name,
};
}
Map<String, dynamic> _operationResultToMap(OperationResult result) {
return <String, dynamic>{
'code': result.code,
'message': result.message,
};
}
dynamic _toJsonable(dynamic obj) {
if (obj is String || obj is int || obj is bool || obj is Map<dynamic, dynamic> || obj is List<dynamic> || obj == null)
return obj;
if (obj is OperationResult)
return obj;
if (obj is ToolExit)
return obj.message;
return '$obj';
}
class NotifyingLogger extends Logger {
final StreamController<LogMessage> _messageController = StreamController<LogMessage>.broadcast();
Stream<LogMessage> get onMessage => _messageController.stream;
@override
void printError(
String message, {
StackTrace stackTrace,
bool emphasis = false,
TerminalColor color,
int indent,
int hangingIndent,
bool wrap,
}) {
_messageController.add(LogMessage('error', message, stackTrace));
}
@override
void printStatus(
String message, {
bool emphasis = false,
TerminalColor color,
bool newline = true,
int indent,
int hangingIndent,
bool wrap,
}) {
_messageController.add(LogMessage('status', message));
}
@override
void printTrace(String message) {
// This is a lot of traffic to send over the wire.
}
@override
Status startProgress(
String message, {
@required Duration timeout,
String progressId,
bool multilineOutput = false,
int progressIndicatorPadding = kDefaultStatusPadding,
}) {
assert(timeout != null);
printStatus(message);
return SilentStatus(timeout: timeout);
}
void dispose() {
_messageController.close();
}
}
/// A running application, started by this daemon.
class AppInstance {
AppInstance(this.id, { this.runner, this.logToStdout = false });
final String id;
final ResidentRunner runner;
final bool logToStdout;
_AppRunLogger _logger;
Future<OperationResult> restart({ bool fullRestart = false, bool pauseAfterRestart = false, String reason }) {
return runner.restart(fullRestart: fullRestart, pauseAfterRestart: pauseAfterRestart, reason: reason);
}
Future<void> stop() => runner.stop();
Future<void> detach() => runner.detach();
void closeLogger() {
_logger.close();
}
Future<T> _runInZone<T>(AppDomain domain, dynamic method()) {
_logger ??= _AppRunLogger(domain, this, parent: logToStdout ? logger : null);
return context.run<T>(
body: method,
overrides: <Type, Generator>{
Logger: () => _logger,
},
);
}
}
/// This domain responds to methods like [getEmulators] and [launch].
class EmulatorDomain extends Domain {
EmulatorDomain(Daemon daemon) : super(daemon, 'emulator') {
registerHandler('getEmulators', getEmulators);
registerHandler('launch', launch);
registerHandler('create', create);
}
EmulatorManager emulators = EmulatorManager();
Future<List<Map<String, dynamic>>> getEmulators([ Map<String, dynamic> args ]) async {
final List<Emulator> list = await emulators.getAllAvailableEmulators();
return list.map<Map<String, dynamic>>(_emulatorToMap).toList();
}
Future<void> launch(Map<String, dynamic> args) async {
final String emulatorId = _getStringArg(args, 'emulatorId', required: true);
final List<Emulator> matches =
await emulators.getEmulatorsMatching(emulatorId);
if (matches.isEmpty) {
throw "emulator '$emulatorId' not found";
} else if (matches.length > 1) {
throw "multiple emulators match '$emulatorId'";
} else {
await matches.first.launch();
}
}
Future<Map<String, dynamic>> create(Map<String, dynamic> args) async {
final String name = _getStringArg(args, 'name', required: false);
final CreateEmulatorResult res = await emulators.createEmulator(name: name);
return <String, dynamic>{
'success': res.success,
'emulatorName': res.emulatorName,
'error': res.error,
};
}
}
/// A [Logger] which sends log messages to a listening daemon client.
///
/// This class can either:
/// 1) Send stdout messages and progress events to the client IDE
/// 1) Log messages to stdout and send progress events to the client IDE
//
// TODO(devoncarew): To simplify this code a bit, we could choose to specialize
// this class into two, one for each of the above use cases.
class _AppRunLogger extends Logger {
_AppRunLogger(this.domain, this.app, { this.parent });
AppDomain domain;
final AppInstance app;
final Logger parent;
int _nextProgressId = 0;
@override
void printError(
String message, {
StackTrace stackTrace,
bool emphasis,
TerminalColor color,
int indent,
int hangingIndent,
bool wrap,
}) {
if (parent != null) {
parent.printError(
message,
stackTrace: stackTrace,
emphasis: emphasis,
indent: indent,
hangingIndent: hangingIndent,
wrap: wrap,
);
} else {
if (stackTrace != null) {
_sendLogEvent(<String, dynamic>{
'log': message,
'stackTrace': stackTrace.toString(),
'error': true,
});
} else {
_sendLogEvent(<String, dynamic>{
'log': message,
'error': true,
});
}
}
}
@override
void printStatus(
String message, {
bool emphasis = false,
TerminalColor color,
bool newline = true,
int indent,
int hangingIndent,
bool wrap,
}) {
if (parent != null) {
parent.printStatus(
message,
emphasis: emphasis,
color: color,
newline: newline,
indent: indent,
hangingIndent: hangingIndent,
wrap: wrap,
);
} else {
_sendLogEvent(<String, dynamic>{'log': message});
}
}
@override
void printTrace(String message) {
if (parent != null) {
parent.printTrace(message);
} else {
_sendLogEvent(<String, dynamic>{'log': message, 'trace': true});
}
}
Status _status;
@override
Status startProgress(
String message, {
@required Duration timeout,
String progressId,
bool multilineOutput = false,
int progressIndicatorPadding = kDefaultStatusPadding,
}) {
assert(timeout != null);
final int id = _nextProgressId++;
_sendProgressEvent(<String, dynamic>{
'id': id.toString(),
'progressId': progressId,
'message': message,
});
_status = SilentStatus(
timeout: timeout,
onFinish: () {
_status = null;
_sendProgressEvent(<String, dynamic>{
'id': id.toString(),
'progressId': progressId,
'finished': true,
});
})..start();
return _status;
}
void close() {
domain = null;
}
void _sendLogEvent(Map<String, dynamic> event) {
if (domain == null)
printStatus('event sent after app closed: $event');
else
domain._sendAppEvent(app, 'log', event);
}
void _sendProgressEvent(Map<String, dynamic> event) {
if (domain == null)
printStatus('event sent after app closed: $event');
else
domain._sendAppEvent(app, 'progress', event);
}
}
class LogMessage {
LogMessage(this.level, this.message, [this.stackTrace]);
final String level;
final String message;
final StackTrace stackTrace;
}
/// The method by which the flutter app was launched.
class LaunchMode {
const LaunchMode._(this._value);
/// The app was launched via `flutter run`.
static const LaunchMode run = LaunchMode._('run');
/// The app was launched via `flutter attach`.
static const LaunchMode attach = LaunchMode._('attach');
final String _value;
@override
String toString() => _value;
}