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flutter/packages/flutter_tools/lib/src/commands/daemon.dart
Jonah Williams f5de6aadd4
[flutter_tools] remove zone level overrides of verbose and daemon logging (#57448) 
Make it possible for all FlutterCommands to be global free, by moving instantiation to inside the Zone context. Additionally, provide VerboseLogger and NotifyLogger (daemon) at the top level and remove from command-specific overrides.

This allows removing a work around where web devices needed to look up directly from the context in non-test code.

Technically the output preferences are still zone injected, but these will be moved soon as they were not being used correctly by the top level command (the injection comes after ArgParser reads the overflow values, causing numerous wrap issues)
2020-06-04 16:35:36 -07:00

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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.
import 'dart:async';
import 'package:meta/meta.dart';
import 'package:uuid/uuid.dart';
import '../android/android_workflow.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' as globals;
import '../project.dart';
import '../resident_runner.dart';
import '../run_cold.dart';
import '../run_hot.dart';
import '../runner/flutter_command.dart';
import '../web/web_runner.dart';
const String protocolVersion = '0.5.3';
/// 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 {
globals.printStatus('Starting device daemon...');
isRunningFromDaemon = true;
Cache.releaseLockEarly();
final Daemon daemon = Daemon(
stdinCommandStream, stdoutCommandResponse,
notifyingLogger: globals.logger as NotifyingLogger,
);
final int code = await daemon.onExit;
if (code != 0) {
throwToolExit('Daemon exited with non-zero exit code: $code', exitCode: code);
}
return FlutterCommandResult.success();
}
}
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.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;
int _outgoingRequestId = 1;
final Map<String, Completer<dynamic>> _outgoingRequestCompleters = <String, Completer<dynamic>>{};
final DispatchCommand sendCommand;
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) {
globals.stdio.stderrWrite('no id for request: $request\n');
return;
}
try {
final String method = request['method'] as String;
if (method != null) {
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, castStringKeyedMap(request['params']) ?? const <String, dynamic>{});
} else {
// If there was no 'method' field then it's a response to a daemon-to-editor request.
final Completer<dynamic> completer = _outgoingRequestCompleters[id.toString()];
if (completer == null) {
throw 'unexpected response with id: $id';
}
_outgoingRequestCompleters.remove(id.toString());
if (request['error'] != null) {
completer.completeError(request['error']);
} else {
completer.complete(request['result']);
}
}
} on Exception catch (error, trace) {
_send(<String, dynamic>{
'id': id,
'error': _toJsonable(error),
'trace': '$trace',
});
}
}
Future<dynamic> sendRequest(String method, [ dynamic args ]) {
final Map<String, dynamic> map = <String, dynamic>{'method': method};
if (args != null) {
map['params'] = _toJsonable(args);
}
final int id = _outgoingRequestId++;
final Completer<dynamic> completer = Completer<dynamic>();
map['id'] = id.toString();
_outgoingRequestCompleters[id.toString()] = completer;
_send(map);
return completer.future;
}
void _send(Map<String, dynamic> map) => sendCommand(map);
void shutdown({ dynamic error }) {
_commandSubscription?.cancel();
for (final 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;
}
@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 '$name is not a String';
}
return val as String;
}
bool _getBoolArg(Map<String, dynamic> args, String name, { bool required = false }) {
if (required && !args.containsKey(name)) {
throw '$name is required';
}
final dynamic val = args[name];
if (val != null && val is! bool) {
throw '$name is not a bool';
}
return val as bool;
}
int _getIntArg(Map<String, dynamic> args, String name, { bool required = false }) {
if (required && !args.containsKey(name)) {
throw '$name is required';
}
final dynamic val = args[name];
if (val != null && val is! int) {
throw '$name is not an int';
}
return val as int;
}
void dispose() { }
}
/// This domain responds to methods like [version] and [shutdown].
///
/// This domain fires the `daemon.logMessage` event.
class DaemonDomain extends Domain {
DaemonDomain(Daemon daemon) : super(daemon, 'daemon') {
registerHandler('version', version);
registerHandler('shutdown', shutdown);
registerHandler('getSupportedPlatforms', getSupportedPlatforms);
sendEvent(
'daemon.connected',
<String, dynamic>{
'version': protocolVersion,
'pid': pid,
},
);
_subscription = daemon.notifyingLogger.onMessage.listen((LogMessage message) {
if (daemon.logToStdout) {
if (message.level == 'status') {
// We use `print()` here instead of `stdout.writeln()` in order to
// capture the print output for testing.
print(message.message);
} else if (message.level == 'error') {
globals.stdio.stderrWrite('${message.message}\n');
if (message.stackTrace != null) {
globals.stdio.stderrWrite(
'${message.stackTrace.toString().trimRight()}\n',
);
}
}
} 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);
}
/// Sends a request back to the client asking it to expose/tunnel a URL.
///
/// This method should only be called if the client opted-in with the
/// --web-allow-expose-url switch. The client may return the same URL back if
/// tunnelling is not required for a given URL.
Future<String> exposeUrl(String url) async {
final dynamic res = await daemon.sendRequest('app.exposeUrl', <String, String>{'url': url});
if (res is Map<String, dynamic> && res['url'] is String) {
return res['url'] as String;
} else {
globals.printError('Invalid response to exposeUrl - params should include a String url field');
return url;
}
}
Future<void> shutdown(Map<String, dynamic> args) {
Timer.run(daemon.shutdown);
return Future<void>.value();
}
@override
void dispose() {
_subscription?.cancel();
}
/// Enumerates the platforms supported by the provided project.
///
/// This does not filter based on the current workflow restrictions, such
/// as whether command line tools are installed or whether the host platform
/// is correct.
Future<Map<String, Object>> getSupportedPlatforms(Map<String, dynamic> args) async {
final String projectRoot = _getStringArg(args, 'projectRoot', required: true);
final List<String> result = <String>[];
try {
// TODO(jonahwilliams): replace this with a project metadata check once
// that has been implemented.
final FlutterProject flutterProject = FlutterProject.fromDirectory(globals.fs.directory(projectRoot));
if (flutterProject.linux.existsSync()) {
result.add('linux');
}
if (flutterProject.macos.existsSync()) {
result.add('macos');
}
if (flutterProject.windows.existsSync()) {
result.add('windows');
}
if (flutterProject.ios.existsSync()) {
result.add('ios');
}
if (flutterProject.android.existsSync()) {
result.add('android');
}
if (flutterProject.web.existsSync()) {
result.add('web');
}
if (flutterProject.fuchsia.existsSync()) {
result.add('fuchsia');
}
return <String, Object>{
'platforms': result,
};
} on Exception catch (err, stackTrace) {
sendEvent('log', <String, dynamic>{
'log': 'Failed to parse project metadata',
'stackTrace': stackTrace.toString(),
'error': true,
});
// On any sort of failure, fall back to Android and iOS for backwards
// comparability.
return <String, Object>{
'platforms': <String>[
'android',
'ios',
],
};
}
}
}
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('reloadMethod', reloadMethod);
registerHandler('callServiceExtension', callServiceExtension);
registerHandler('stop', stop);
registerHandler('detach', detach);
}
static final Uuid _uuidGenerator = Uuid();
static String _getNewAppId() => _uuidGenerator.v4();
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 Exception('${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 = globals.fs.currentDirectory;
globals.fs.currentDirectory = globals.fs.directory(projectDirectory);
final FlutterProject flutterProject = FlutterProject.current();
final FlutterDevice flutterDevice = await FlutterDevice.create(
device,
flutterProject: flutterProject,
viewFilter: isolateFilter,
target: target,
buildInfo: options.buildInfo,
);
ResidentRunner runner;
if (await device.targetPlatform == TargetPlatform.web_javascript) {
runner = webRunnerFactory.createWebRunner(
flutterDevice,
flutterProject: flutterProject,
target: target,
debuggingOptions: options,
ipv6: ipv6,
stayResident: true,
urlTunneller: options.webEnableExposeUrl ? daemon.daemonDomain.exposeUrl : null,
);
} else if (enableHotReload) {
runner = HotRunner(
<FlutterDevice>[flutterDevice],
target: target,
debuggingOptions: options,
applicationBinary: applicationBinary,
projectRootPath: projectRootPath,
packagesFilePath: packagesFilePath,
dillOutputPath: dillOutputPath,
ipv6: ipv6,
hostIsIde: true,
);
} else {
runner = ColdRunner(
<FlutterDevice>[flutterDevice],
target: target,
debuggingOptions: options,
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.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>{
// The web vmservice proxy does not have an http address.
'port': info.httpUri?.port ?? info.wsUri.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');
} on Exception catch (error, trace) {
_sendAppEvent(app, 'stop', <String, dynamic>{
'error': _toJsonable(error),
'trace': '$trace',
});
} finally {
// If the full directory is used instead of the path then this causes
// a TypeError with the ErrorHandlingFileSystem.
globals.fs.currentDirectory = cwd.path;
_apps.remove(app);
}
});
return app;
}
bool isRestartSupported(bool enableHotReload, Device device) =>
enableHotReload && device.supportsHotRestart;
Future<OperationResult> _inProgressHotReload;
Future<OperationResult> restart(Map<String, dynamic> args) async {
final String appId = _getStringArg(args, 'appId', required: true);
final bool fullRestart = _getBoolArg(args, 'fullRestart') ?? false;
final bool pauseAfterRestart = _getBoolArg(args, 'pause') ?? false;
final String restartReason = _getStringArg(args, 'reason');
final AppInstance app = _getApp(appId);
if (app == null) {
throw "app '$appId' not found";
}
if (_inProgressHotReload != null) {
throw 'hot restart already in progress';
}
_inProgressHotReload = app._runInZone<OperationResult>(this, () {
return app.restart(fullRestart: fullRestart, pause: pauseAfterRestart, reason: restartReason);
});
return _inProgressHotReload.whenComplete(() {
_inProgressHotReload = null;
});
}
Future<OperationResult> reloadMethod(Map<String, dynamic> args) async {
final String appId = _getStringArg(args, 'appId', required: true);
final String classId = _getStringArg(args, 'class', required: true);
final String libraryId = _getStringArg(args, 'library', required: true);
final AppInstance app = _getApp(appId);
if (app == null) {
throw "app '$appId' not found";
}
if (_inProgressHotReload != null) {
throw 'hot restart already in progress';
}
_inProgressHotReload = app._runInZone<OperationResult>(this, () {
return app.reloadMethod(classId: classId, libraryId: libraryId);
});
return _inProgressHotReload.whenComplete(() {
_inProgressHotReload = null;
});
}
/// Returns an error, or the service extension result (a map with two fixed
/// keys, `type` and `method`). The result may have one or more additional keys,
/// depending on the specific service extension end-point. For example:
///
/// {
/// "value":"android",
/// "type":"_extensionType",
/// "method":"ext.flutter.platformOverride"
/// }
Future<Map<String, dynamic>> callServiceExtension(Map<String, dynamic> args) async {
final String appId = _getStringArg(args, 'appId', required: true);
final String methodName = _getStringArg(args, 'methodName');
final Map<String, dynamic> params = args['params'] == null ? <String, dynamic>{} : castStringKeyedMap(args['params']);
final AppInstance app = _getApp(appId);
if (app == null) {
throw "app '$appId' not found";
}
final Map<String, dynamic> result = await app.runner
.invokeFlutterExtensionRpcRawOnFirstIsolate(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': '$error', 'error': true});
app.closeLogger();
_apps.remove(app);
return false;
},
);
}
AppInstance _getApp(String id) {
return _apps.firstWhere((AppInstance app) => app.id == id, orElse: () => null);
}
void _sendAppEvent(AppInstance app, String name, [ Map<String, dynamic> args ]) {
sendEvent('app.$name', <String, dynamic>{
'appId': app.id,
...?args,
});
}
}
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;
}
if (discoverer is PollingDeviceDiscovery) {
_discoverers.add(discoverer);
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 {
try {
final Map<String, Object> response = await _deviceToMap(device);
sendEvent(eventName, response);
} on Exception catch (err) {
globals.printError('$err');
}
});
};
}
final List<PollingDeviceDiscovery> _discoverers = <PollingDeviceDiscovery>[];
/// Return a list of the current devices, with each device represented as a map
/// of properties (id, name, platform, ...).
Future<List<Map<String, dynamic>>> getDevices([ Map<String, dynamic> args ]) async {
return <Map<String, dynamic>>[
for (final PollingDeviceDiscovery discoverer in _discoverers)
for (final Device device in await discoverer.devices)
await _deviceToMap(device),
];
}
/// Enable device events.
Future<void> enable(Map<String, dynamic> args) {
final List<Future<void>> calls = <Future<void>>[];
for (final PollingDeviceDiscovery discoverer in _discoverers) {
calls.add(discoverer.startPolling());
}
return Future.wait<void>(calls);
}
/// Disable device events.
Future<void> disable(Map<String, dynamic> args) async {
final List<Future<void>> calls = <Future<void>>[];
for (final PollingDeviceDiscovery discoverer in _discoverers) {
calls.add(discoverer.stopPolling());
}
return Future.wait<void>(calls);
}
/// Forward a host port to a device port.
Future<Map<String, dynamic>> forward(Map<String, dynamic> args) async {
final String deviceId = _getStringArg(args, 'deviceId', required: true);
final int devicePort = _getIntArg(args, 'devicePort', required: true);
int hostPort = _getIntArg(args, 'hostPort');
final Device device = await daemon.deviceDomain._getDevice(deviceId);
if (device == null) {
throw "device '$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 '$deviceId' not found";
}
return device.portForwarder.unforward(ForwardedPort(hostPort, devicePort));
}
@override
void dispose() {
for (final PollingDeviceDiscovery discoverer in _discoverers) {
discoverer.dispose();
}
}
/// Return the device matching the deviceId field in the args.
Future<Device> _getDevice(String deviceId) async {
for (final PollingDeviceDiscovery discoverer in _discoverers) {
final Device device = (await discoverer.devices).firstWhere((Device device) => device.id == deviceId, orElse: () => null);
if (device != null) {
return device;
}
}
return null;
}
}
Stream<Map<String, dynamic>> get stdinCommandStream => globals.stdio.stdin
.transform<String>(utf8.decoder)
.transform<String>(const LineSplitter())
.where((String line) => line.startsWith('[{') && line.endsWith('}]'))
.map<Map<String, dynamic>>((String line) {
line = line.substring(1, line.length - 1);
return castStringKeyedMap(json.decode(line));
});
void stdoutCommandResponse(Map<String, dynamic> command) {
globals.stdio.stdoutWrite(
'[${jsonEncodeObject(command)}]\n',
fallback: (String message, dynamic error, StackTrace stack) {
throwToolExit('Failed to write daemon command response to stdout: $error');
},
);
}
String jsonEncodeObject(dynamic object) {
return json.encode(object, toEncodable: _toEncodable);
}
dynamic _toEncodable(dynamic object) {
if (object is OperationResult) {
return _operationResultToMap(object);
}
return object;
}
Future<Map<String, dynamic>> _deviceToMap(Device device) async {
return <String, dynamic>{
'id': device.id,
'name': device.name,
'platform': getNameForTargetPlatform(await device.targetPlatform),
'emulator': await device.isLocalEmulator,
'category': device.category?.toString(),
'platformType': device.platformType?.toString(),
'ephemeral': device.ephemeral,
'emulatorId': await device.emulatorId,
};
}
Map<String, dynamic> _emulatorToMap(Emulator emulator) {
return <String, dynamic>{
'id': emulator.id,
'name': emulator.name,
'category': emulator.category?.toString(),
'platformType': emulator.platformType?.toString(),
};
}
Map<String, dynamic> _operationResultToMap(OperationResult result) {
return <String, dynamic>{
'code': result.code,
'message': result.message,
};
}
dynamic _toJsonable(dynamic obj) {
if (obj is String || obj is int || obj is bool || obj is Map<dynamic, dynamic> || obj is List<dynamic> || obj == null) {
return obj;
}
if (obj is OperationResult) {
return obj;
}
if (obj is ToolExit) {
return obj.message;
}
return '$obj';
}
class NotifyingLogger extends Logger {
NotifyingLogger({ @required this.verbose }) {
_messageController = StreamController<LogMessage>.broadcast(
onListen: _onListen,
);
}
final bool verbose;
final List<LogMessage> messageBuffer = <LogMessage>[];
StreamController<LogMessage> _messageController;
void _onListen() {
if (messageBuffer.isNotEmpty) {
messageBuffer.forEach(_messageController.add);
messageBuffer.clear();
}
}
Stream<LogMessage> get onMessage => _messageController.stream;
@override
void printError(
String message, {
StackTrace stackTrace,
bool emphasis = false,
TerminalColor color,
int indent,
int hangingIndent,
bool wrap,
}) {
_sendMessage(LogMessage('error', message, stackTrace));
}
@override
void printStatus(
String message, {
bool emphasis = false,
TerminalColor color,
bool newline = true,
int indent,
int hangingIndent,
bool wrap,
}) {
_sendMessage(LogMessage('status', message));
}
@override
void printTrace(String message) {
if (!verbose) {
return;
}
_sendMessage(LogMessage('trace', message));
}
@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,
timeoutConfiguration: timeoutConfiguration,
stopwatch: Stopwatch(),
);
}
void _sendMessage(LogMessage logMessage) {
if (_messageController.hasListener) {
return _messageController.add(logMessage);
}
messageBuffer.add(logMessage);
}
void dispose() {
_messageController.close();
}
@override
void sendEvent(String name, [Map<String, dynamic> args]) { }
@override
bool get supportsColor => throw UnimplementedError();
@override
bool get hasTerminal => false;
// This method is only relevant for terminals.
@override
void clear() { }
}
/// 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 pause = false, String reason }) {
return runner.restart(fullRestart: fullRestart, pause: pause, reason: reason);
}
Future<OperationResult> reloadMethod({ String classId, String libraryId }) {
return runner.reloadMethod(classId: classId, libraryId: libraryId);
}
Future<void> stop() => runner.exit();
Future<void> detach() => runner.detach();
void closeLogger() {
_logger.close();
}
Future<T> _runInZone<T>(AppDomain domain, FutureOr<T> method()) {
_logger ??= _AppRunLogger(domain, this, parent: logToStdout ? globals.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(
fileSystem: globals.fs,
logger: globals.logger,
androidSdk: globals.androidSdk,
processManager: globals.processManager,
androidWorkflow: androidWorkflow,
);
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,
timeoutConfiguration: timeoutConfiguration,
onFinish: () {
_status = null;
_sendProgressEvent(<String, dynamic>{
'id': id.toString(),
'progressId': progressId,
'finished': true,
});
}, stopwatch: Stopwatch())..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);
}
}
@override
void sendEvent(String name, [Map<String, dynamic> args]) {
if (domain == null) {
printStatus('event sent after app closed: $name');
} else {
domain.sendEvent(name, args);
}
}
@override
bool get supportsColor => throw UnimplementedError();
@override
bool get hasTerminal => false;
// This method is only relevant for terminals.
@override
void clear() { }
}
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;
}
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