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flutter / mirrors / flutter / 2a4adab7f44c81a26b5b0b9cea11f51a90b39367 / . / packages / flutter_tools / lib / src / resident_runner.dart
blob: 4b493d93c47b0994f74e4211c9116606364fa977 [file] [log] [blame]
// 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:dds/dds.dart' as dds;
import 'package:meta/meta.dart';
import 'package:package_config/package_config.dart';
import 'package:vm_service/vm_service.dart' as vm_service;
import 'application_package.dart';
import 'artifacts.dart';
import 'asset.dart';
import 'base/command_help.dart';
import 'base/common.dart';
import 'base/context.dart';
import 'base/file_system.dart';
import 'base/io.dart' as io;
import 'base/logger.dart';
import 'base/platform.dart';
import 'base/signals.dart';
import 'base/terminal.dart';
import 'base/utils.dart';
import 'build_info.dart';
import 'build_system/build_system.dart';
import 'build_system/targets/dart_plugin_registrant.dart';
import 'build_system/targets/localizations.dart';
import 'build_system/targets/shader_compiler.dart';
import 'bundle.dart';
import 'cache.dart';
import 'compile.dart';
import 'convert.dart';
import 'devfs.dart';
import 'device.dart';
import 'features.dart';
import 'globals.dart' as globals;
import 'project.dart';
import 'resident_devtools_handler.dart';
import 'run_cold.dart';
import 'run_hot.dart';
import 'sksl_writer.dart';
import 'vmservice.dart';
class FlutterDevice {
FlutterDevice(
this.device, {
required this.buildInfo,
TargetModel targetModel = TargetModel.flutter,
this.targetPlatform,
ResidentCompiler? generator,
this.userIdentifier,
required this.developmentShaderCompiler,
}) : assert(buildInfo.trackWidgetCreation != null),
generator = generator ?? ResidentCompiler(
globals.artifacts!.getArtifactPath(
Artifact.flutterPatchedSdkPath,
platform: targetPlatform,
mode: buildInfo.mode,
),
buildMode: buildInfo.mode,
trackWidgetCreation: buildInfo.trackWidgetCreation,
fileSystemRoots: buildInfo.fileSystemRoots,
fileSystemScheme: buildInfo.fileSystemScheme,
targetModel: targetModel,
dartDefines: buildInfo.dartDefines,
packagesPath: buildInfo.packagesPath,
extraFrontEndOptions: buildInfo.extraFrontEndOptions,
artifacts: globals.artifacts!,
processManager: globals.processManager,
logger: globals.logger,
platform: globals.platform,
fileSystem: globals.fs,
);
/// Create a [FlutterDevice] with optional code generation enabled.
static Future<FlutterDevice> create(
Device device, {
required String? target,
required BuildInfo buildInfo,
required Platform platform,
TargetModel targetModel = TargetModel.flutter,
List<String>? experimentalFlags,
ResidentCompiler? generator,
String? userIdentifier,
}) async {
ResidentCompiler generator;
final TargetPlatform targetPlatform = await device.targetPlatform;
if (device.platformType == PlatformType.fuchsia) {
targetModel = TargetModel.flutterRunner;
}
final DevelopmentShaderCompiler shaderCompiler = DevelopmentShaderCompiler(
shaderCompiler: ShaderCompiler(
artifacts: globals.artifacts!,
logger: globals.logger,
processManager: globals.processManager,
fileSystem: globals.fs,
),
fileSystem: globals.fs,
);
// For both web and non-web platforms we initialize dill to/from
// a shared location for faster bootstrapping. If the compiler fails
// due to a kernel target or version mismatch, no error is reported
// and the compiler starts up as normal. Unexpected errors will print
// a warning message and dump some debug information which can be
// used to file a bug, but the compiler will still start up correctly.
if (targetPlatform == TargetPlatform.web_javascript) {
// TODO(zanderso): consistently provide these flags across platforms.
late HostArtifact platformDillArtifact;
final List<String> extraFrontEndOptions = List<String>.of(buildInfo.extraFrontEndOptions);
if (buildInfo.nullSafetyMode == NullSafetyMode.unsound) {
platformDillArtifact = HostArtifact.webPlatformKernelDill;
if (!extraFrontEndOptions.contains('--no-sound-null-safety')) {
extraFrontEndOptions.add('--no-sound-null-safety');
}
} else if (buildInfo.nullSafetyMode == NullSafetyMode.sound) {
platformDillArtifact = HostArtifact.webPlatformSoundKernelDill;
if (!extraFrontEndOptions.contains('--sound-null-safety')) {
extraFrontEndOptions.add('--sound-null-safety');
}
} else {
assert(false);
}
generator = ResidentCompiler(
globals.artifacts!.getHostArtifact(HostArtifact.flutterWebSdk).path,
buildMode: buildInfo.mode,
trackWidgetCreation: buildInfo.trackWidgetCreation,
fileSystemRoots: buildInfo.fileSystemRoots,
// Override the filesystem scheme so that the frontend_server can find
// the generated entrypoint code.
fileSystemScheme: 'org-dartlang-app',
initializeFromDill: buildInfo.initializeFromDill ?? getDefaultCachedKernelPath(
trackWidgetCreation: buildInfo.trackWidgetCreation,
dartDefines: buildInfo.dartDefines,
extraFrontEndOptions: extraFrontEndOptions,
),
assumeInitializeFromDillUpToDate: buildInfo.assumeInitializeFromDillUpToDate,
targetModel: TargetModel.dartdevc,
extraFrontEndOptions: extraFrontEndOptions,
platformDill: globals.fs.file(globals.artifacts!
.getHostArtifact(platformDillArtifact))
.absolute.uri.toString(),
dartDefines: buildInfo.dartDefines,
librariesSpec: globals.fs.file(globals.artifacts!
.getHostArtifact(HostArtifact.flutterWebLibrariesJson)).uri.toString(),
packagesPath: buildInfo.packagesPath,
artifacts: globals.artifacts!,
processManager: globals.processManager,
logger: globals.logger,
fileSystem: globals.fs,
platform: platform,
);
} else {
// The flutter-widget-cache feature only applies to run mode.
List<String> extraFrontEndOptions = buildInfo.extraFrontEndOptions;
extraFrontEndOptions = <String>[
if (featureFlags.isSingleWidgetReloadEnabled)
'--flutter-widget-cache',
'--enable-experiment=alternative-invalidation-strategy',
...extraFrontEndOptions,
];
generator = ResidentCompiler(
globals.artifacts!.getArtifactPath(
Artifact.flutterPatchedSdkPath,
platform: targetPlatform,
mode: buildInfo.mode,
),
buildMode: buildInfo.mode,
trackWidgetCreation: buildInfo.trackWidgetCreation,
fileSystemRoots: buildInfo.fileSystemRoots,
fileSystemScheme: buildInfo.fileSystemScheme,
targetModel: targetModel,
dartDefines: buildInfo.dartDefines,
extraFrontEndOptions: extraFrontEndOptions,
initializeFromDill: buildInfo.initializeFromDill ?? getDefaultCachedKernelPath(
trackWidgetCreation: buildInfo.trackWidgetCreation,
dartDefines: buildInfo.dartDefines,
extraFrontEndOptions: extraFrontEndOptions,
),
assumeInitializeFromDillUpToDate: buildInfo.assumeInitializeFromDillUpToDate,
packagesPath: buildInfo.packagesPath,
artifacts: globals.artifacts!,
processManager: globals.processManager,
logger: globals.logger,
platform: platform,
fileSystem: globals.fs,
);
}
return FlutterDevice(
device,
targetModel: targetModel,
targetPlatform: targetPlatform,
generator: generator,
buildInfo: buildInfo,
userIdentifier: userIdentifier,
developmentShaderCompiler: shaderCompiler,
);
}
final TargetPlatform? targetPlatform;
final Device? device;
final ResidentCompiler? generator;
final BuildInfo buildInfo;
final String? userIdentifier;
final DevelopmentShaderCompiler developmentShaderCompiler;
DevFSWriter? devFSWriter;
Stream<Uri?>? observatoryUris;
FlutterVmService? vmService;
DevFS? devFS;
ApplicationPackage? package;
// ignore: cancel_subscriptions
StreamSubscription<String>? _loggingSubscription;
bool? _isListeningForObservatoryUri;
/// Whether the stream [observatoryUris] is still open.
bool get isWaitingForObservatory => _isListeningForObservatoryUri ?? false;
/// If the [reloadSources] parameter is not null the 'reloadSources' service
/// will be registered.
/// The 'reloadSources' service can be used by other Service Protocol clients
/// connected to the VM (e.g. Observatory) to request a reload of the source
/// code of the running application (a.k.a. HotReload).
/// The 'compileExpression' service can be used to compile user-provided
/// expressions requested during debugging of the application.
/// This ensures that the reload process follows the normal orchestration of
/// the Flutter Tools and not just the VM internal service.
Future<void> connect({
ReloadSources? reloadSources,
Restart? restart,
CompileExpression? compileExpression,
GetSkSLMethod? getSkSLMethod,
PrintStructuredErrorLogMethod? printStructuredErrorLogMethod,
int? hostVmServicePort,
int? ddsPort,
bool disableServiceAuthCodes = false,
bool cacheStartupProfile = false,
bool enableDds = true,
required bool allowExistingDdsInstance,
bool ipv6 = false,
}) {
final Completer<void> completer = Completer<void>();
late StreamSubscription<void> subscription;
bool isWaitingForVm = false;
subscription = observatoryUris!.listen((Uri? observatoryUri) async {
// FYI, this message is used as a sentinel in tests.
globals.printTrace('Connecting to service protocol: $observatoryUri');
isWaitingForVm = true;
bool existingDds = false;
FlutterVmService? service;
if (enableDds) {
void handleError(Exception e, StackTrace st) {
globals.printTrace('Fail to connect to service protocol: $observatoryUri: $e');
if (!completer.isCompleted) {
completer.completeError('failed to connect to $observatoryUri', st);
}
}
// First check if the VM service is actually listening on observatoryUri as
// this may not be the case when scraping logcat for URIs. If this URI is
// from an old application instance, we shouldn't try and start DDS.
try {
service = await connectToVmService(observatoryUri!, logger: globals.logger);
await service.dispose();
} on Exception catch (exception) {
globals.printTrace('Fail to connect to service protocol: $observatoryUri: $exception');
if (!completer.isCompleted && !_isListeningForObservatoryUri!) {
completer.completeError('failed to connect to $observatoryUri');
}
return;
}
// This first try block is meant to catch errors that occur during DDS startup
// (e.g., failure to bind to a port, failure to connect to the VM service,
// attaching to a VM service with existing clients, etc.).
try {
await device!.dds.startDartDevelopmentService(
observatoryUri,
hostPort: ddsPort,
ipv6: ipv6,
disableServiceAuthCodes: disableServiceAuthCodes,
logger: globals.logger,
cacheStartupProfile: cacheStartupProfile,
);
} on dds.DartDevelopmentServiceException catch (e, st) {
if (!allowExistingDdsInstance ||
(e.errorCode != dds.DartDevelopmentServiceException.existingDdsInstanceError)) {
handleError(e, st);
return;
} else {
existingDds = true;
}
} on ToolExit {
rethrow;
} on Exception catch (e, st) {
handleError(e, st);
return;
}
}
// This second try block handles cases where the VM service connection goes down
// before flutter_tools connects to DDS. The DDS `done` future completes when DDS
// shuts down, including after an error. If `done` completes before `connectToVmService`,
// something went wrong that caused DDS to shutdown early.
try {
service = await Future.any<dynamic>(
<Future<dynamic>>[
connectToVmService(
enableDds ? (device!.dds.uri ?? observatoryUri!): observatoryUri!,
reloadSources: reloadSources,
restart: restart,
compileExpression: compileExpression,
getSkSLMethod: getSkSLMethod,
printStructuredErrorLogMethod: printStructuredErrorLogMethod,
device: device,
logger: globals.logger,
),
if (!existingDds)
device!.dds.done.whenComplete(() => throw Exception('DDS shut down too early')),
]
) as FlutterVmService?;
} on Exception catch (exception) {
globals.printTrace('Fail to connect to service protocol: $observatoryUri: $exception');
if (!completer.isCompleted && !_isListeningForObservatoryUri!) {
completer.completeError('failed to connect to $observatoryUri');
}
return;
}
if (completer.isCompleted) {
return;
}
globals.printTrace('Successfully connected to service protocol: $observatoryUri');
vmService = service;
(await device!.getLogReader(app: package)).connectedVMService = vmService;
completer.complete();
await subscription.cancel();
}, onError: (dynamic error) {
globals.printTrace('Fail to handle observatory URI: $error');
}, onDone: () {
_isListeningForObservatoryUri = false;
if (!completer.isCompleted && !isWaitingForVm) {
completer.completeError(Exception('connection to device ended too early'));
}
});
_isListeningForObservatoryUri = true;
return completer.future;
}
Future<void> exitApps({
@visibleForTesting Duration timeoutDelay = const Duration(seconds: 10),
}) async {
// TODO(zanderso): https://github.com/flutter/flutter/issues/83127
// When updating `flutter attach` to support running without a device,
// this will need to be changed to fall back to io exit.
await device!.stopApp(package, userIdentifier: userIdentifier);
}
Future<Uri?> setupDevFS(
String fsName,
Directory rootDirectory,
) {
// One devFS per device. Shared by all running instances.
devFS = DevFS(
vmService!,
fsName,
rootDirectory,
osUtils: globals.os,
fileSystem: globals.fs,
logger: globals.logger,
);
return devFS!.create();
}
Future<void> startEchoingDeviceLog() async {
if (_loggingSubscription != null) {
return;
}
final Stream<String> logStream = (await device!.getLogReader(app: package)).logLines;
if (logStream == null) {
globals.printError('Failed to read device log stream');
return;
}
_loggingSubscription = logStream.listen((String line) {
if (!line.contains(globals.kVMServiceMessageRegExp)) {
globals.printStatus(line, wrap: false);
}
});
}
Future<void> stopEchoingDeviceLog() async {
if (_loggingSubscription == null) {
return;
}
await _loggingSubscription!.cancel();
_loggingSubscription = null;
}
Future<void> initLogReader() async {
final vm_service.VM vm = await vmService!.service.getVM();
final DeviceLogReader logReader = await device!.getLogReader(app: package);
logReader.appPid = vm.pid;
}
Future<int> runHot({
required HotRunner hotRunner,
String? route,
}) async {
final bool prebuiltMode = hotRunner.applicationBinary != null;
final String modeName = hotRunner.debuggingOptions.buildInfo.friendlyModeName;
globals.printStatus(
'Launching ${getDisplayPath(hotRunner.mainPath, globals.fs)} '
'on ${device!.name} in $modeName mode...',
);
final TargetPlatform targetPlatform = await device!.targetPlatform;
package = await ApplicationPackageFactory.instance!.getPackageForPlatform(
targetPlatform,
buildInfo: hotRunner.debuggingOptions.buildInfo,
applicationBinary: hotRunner.applicationBinary,
);
if (package == null) {
String message = 'No application found for $targetPlatform.';
final String? hint = await getMissingPackageHintForPlatform(targetPlatform);
if (hint != null) {
message += '\n$hint';
}
globals.printError(message);
return 1;
}
devFSWriter = device!.createDevFSWriter(package, userIdentifier);
final Map<String, dynamic> platformArgs = <String, dynamic>{
'multidex': hotRunner.multidexEnabled,
};
await startEchoingDeviceLog();
// Start the application.
final Future<LaunchResult> futureResult = device!.startApp(
package,
mainPath: hotRunner.mainPath,
debuggingOptions: hotRunner.debuggingOptions,
platformArgs: platformArgs,
route: route,
prebuiltApplication: prebuiltMode,
ipv6: hotRunner.ipv6!,
userIdentifier: userIdentifier,
);
final LaunchResult result = await futureResult;
if (!result.started) {
globals.printError('Error launching application on ${device!.name}.');
await stopEchoingDeviceLog();
return 2;
}
if (result.hasObservatory) {
observatoryUris = Stream<Uri?>
.value(result.observatoryUri)
.asBroadcastStream();
} else {
observatoryUris = const Stream<Uri>
.empty()
.asBroadcastStream();
}
return 0;
}
Future<int> runCold({
required ColdRunner coldRunner,
String? route,
}) async {
final TargetPlatform targetPlatform = await device!.targetPlatform;
package = await ApplicationPackageFactory.instance!.getPackageForPlatform(
targetPlatform,
buildInfo: coldRunner.debuggingOptions.buildInfo,
applicationBinary: coldRunner.applicationBinary,
);
devFSWriter = device!.createDevFSWriter(package, userIdentifier);
final String modeName = coldRunner.debuggingOptions.buildInfo.friendlyModeName;
final bool prebuiltMode = coldRunner.applicationBinary != null;
if (coldRunner.mainPath == null) {
assert(prebuiltMode);
globals.printStatus(
'Launching ${package!.displayName} '
'on ${device!.name} in $modeName mode...',
);
} else {
globals.printStatus(
'Launching ${getDisplayPath(coldRunner.mainPath, globals.fs)} '
'on ${device!.name} in $modeName mode...',
);
}
if (package == null) {
String message = 'No application found for $targetPlatform.';
final String? hint = await getMissingPackageHintForPlatform(targetPlatform);
if (hint != null) {
message += '\n$hint';
}
globals.printError(message);
return 1;
}
final Map<String, dynamic> platformArgs = <String, dynamic>{};
if (coldRunner.traceStartup != null) {
platformArgs['trace-startup'] = coldRunner.traceStartup;
}
platformArgs['multidex'] = coldRunner.multidexEnabled;
await startEchoingDeviceLog();
final LaunchResult result = await device!.startApp(
package,
mainPath: coldRunner.mainPath,
debuggingOptions: coldRunner.debuggingOptions,
platformArgs: platformArgs,
route: route,
prebuiltApplication: prebuiltMode,
ipv6: coldRunner.ipv6!,
userIdentifier: userIdentifier,
);
if (!result.started) {
globals.printError('Error running application on ${device!.name}.');
await stopEchoingDeviceLog();
return 2;
}
if (result.hasObservatory) {
observatoryUris = Stream<Uri?>
.value(result.observatoryUri)
.asBroadcastStream();
} else {
observatoryUris = const Stream<Uri>
.empty()
.asBroadcastStream();
}
return 0;
}
Future<UpdateFSReport> updateDevFS({
required Uri mainUri,
String? target,
AssetBundle? bundle,
DateTime? firstBuildTime,
bool bundleFirstUpload = false,
bool bundleDirty = false,
bool fullRestart = false,
String? projectRootPath,
required String pathToReload,
required String dillOutputPath,
required List<Uri> invalidatedFiles,
required PackageConfig packageConfig,
}) async {
final Status devFSStatus = globals.logger.startProgress(
'Syncing files to device ${device!.name}...',
);
UpdateFSReport report;
try {
report = await devFS!.update(
mainUri: mainUri,
target: target,
bundle: bundle,
firstBuildTime: firstBuildTime,
bundleFirstUpload: bundleFirstUpload,
generator: generator!,
fullRestart: fullRestart,
dillOutputPath: dillOutputPath,
trackWidgetCreation: buildInfo.trackWidgetCreation,
projectRootPath: projectRootPath,
pathToReload: pathToReload,
invalidatedFiles: invalidatedFiles,
packageConfig: packageConfig,
devFSWriter: devFSWriter,
shaderCompiler: developmentShaderCompiler,
dartPluginRegistrant: FlutterProject.current().dartPluginRegistrant,
);
} on DevFSException {
devFSStatus.cancel();
return UpdateFSReport();
}
devFSStatus.stop();
globals.printTrace('Synced ${getSizeAsMB(report.syncedBytes)}.');
return report;
}
Future<void> updateReloadStatus(bool wasReloadSuccessful) async {
if (wasReloadSuccessful) {
generator?.accept();
} else {
await generator?.reject();
}
}
}
/// A subset of the [ResidentRunner] for delegating to attached flutter devices.
abstract class ResidentHandlers {
List<FlutterDevice?> get flutterDevices;
/// Whether the resident runner has hot reload and restart enabled.
bool get hotMode;
/// Whether the resident runner is connect to the device's VM Service.
bool get supportsServiceProtocol;
/// The application is running in debug mode.
bool get isRunningDebug;
/// The application is running in profile mode.
bool get isRunningProfile;
/// The application is running in release mode.
bool get isRunningRelease;
/// The resident runner should stay resident after establishing a connection with the
/// application.
bool get stayResident;
/// Whether all of the connected devices support hot restart.
///
/// To prevent scenarios where only a subset of devices are hot restarted,
/// the runner requires that all attached devices can support hot restart
/// before enabling it.
bool get supportsRestart;
/// Whether all of the connected devices support gathering SkSL.
bool get supportsWriteSkSL;
/// Whether all of the connected devices support hot reload.
bool get canHotReload;
ResidentDevtoolsHandler? get residentDevtoolsHandler;
@protected
Logger? get logger;
@protected
FileSystem? get fileSystem;
/// Called to print help to the terminal.
void printHelp({ required bool details });
/// Perform a hot reload or hot restart of all attached applications.
///
/// If [fullRestart] is true, a hot restart is performed. Otherwise a hot reload
/// is run instead. On web devices, this only performs a hot restart regardless of
/// the value of [fullRestart].
Future<OperationResult> restart({ bool fullRestart = false, bool pause = false, String? reason }) {
final String mode = isRunningProfile ? 'profile' :isRunningRelease ? 'release' : 'this';
throw Exception('${fullRestart ? 'Restart' : 'Reload'} is not supported in $mode mode');
}
/// Dump the application's current widget tree to the terminal.
Future<bool> debugDumpApp() async {
if (!supportsServiceProtocol) {
return false;
}
for (final FlutterDevice? device in flutterDevices) {
final List<FlutterView> views = await device!.vmService!.getFlutterViews();
for (final FlutterView view in views) {
final String data = await device.vmService!.flutterDebugDumpApp(
isolateId: view.uiIsolate!.id!,
);
logger!.printStatus(data);
}
}
return true;
}
/// Dump the application's current render tree to the terminal.
Future<bool> debugDumpRenderTree() async {
if (!supportsServiceProtocol) {
return false;
}
for (final FlutterDevice? device in flutterDevices) {
final List<FlutterView> views = await device!.vmService!.getFlutterViews();
for (final FlutterView view in views) {
final String data = await device.vmService!.flutterDebugDumpRenderTree(
isolateId: view.uiIsolate!.id!,
);
logger!.printStatus(data);
}
}
return true;
}
/// Dump frame rasterization metrics for the last rendered frame.
///
/// The last frames gets re-painted while recording additional tracing info
/// pertaining to the various draw calls issued by the frame. The timings
/// recorded here are not indicative of production performance. The intended
/// use case is to look at the various layers in proportion to see what
/// contributes the most towards raster performance.
Future<bool> debugFrameJankMetrics() async {
if (!supportsServiceProtocol) {
return false;
}
for (final FlutterDevice? device in flutterDevices) {
if (device?.targetPlatform == TargetPlatform.web_javascript) {
logger!.printWarning('Unable to get jank metrics for web');
continue;
}
final List<FlutterView> views = await device!.vmService!.getFlutterViews();
for (final FlutterView view in views) {
final Map<String, Object?>? rasterData =
await device.vmService!.renderFrameWithRasterStats(
viewId: view.id,
uiIsolateId: view.uiIsolate!.id,
);
if (rasterData != null) {
final File tempFile = globals.fsUtils.getUniqueFile(
globals.fs.currentDirectory,
'flutter_jank_metrics',
'json',
);
tempFile.writeAsStringSync(jsonEncode(rasterData), flush: true);
logger!.printStatus('Wrote jank metrics to ${tempFile.absolute.path}');
} else {
logger!.printWarning('Unable to get jank metrics.');
}
}
}
return true;
}
/// Dump the application's current layer tree to the terminal.
Future<bool> debugDumpLayerTree() async {
if (!supportsServiceProtocol || !isRunningDebug) {
return false;
}
for (final FlutterDevice? device in flutterDevices) {
final List<FlutterView> views = await device!.vmService!.getFlutterViews();
for (final FlutterView view in views) {
final String data = await device.vmService!.flutterDebugDumpLayerTree(
isolateId: view.uiIsolate!.id!,
);
logger!.printStatus(data);
}
}
return true;
}
/// Dump the application's current semantics tree to the terminal.
///
/// If semantics are not enabled, nothing is returned.
Future<bool> debugDumpSemanticsTreeInTraversalOrder() async {
if (!supportsServiceProtocol) {
return false;
}
for (final FlutterDevice? device in flutterDevices) {
final List<FlutterView> views = await device!.vmService!.getFlutterViews();
for (final FlutterView view in views) {
final String data = await device.vmService!.flutterDebugDumpSemanticsTreeInTraversalOrder(
isolateId: view.uiIsolate!.id!,
);
logger!.printStatus(data);
}
}
return true;
}
/// Dump the application's current semantics tree to the terminal.
///
/// If semantics are not enabled, nothing is returned.
Future<bool> debugDumpSemanticsTreeInInverseHitTestOrder() async {
if (!supportsServiceProtocol) {
return false;
}
for (final FlutterDevice? device in flutterDevices) {
final List<FlutterView> views = await device!.vmService!.getFlutterViews();
for (final FlutterView view in views) {
final String data = await device.vmService!.flutterDebugDumpSemanticsTreeInInverseHitTestOrder(
isolateId: view.uiIsolate!.id!,
);
logger!.printStatus(data);
}
}
return true;
}
/// Toggle the "paint size" debugging feature.
Future<bool> debugToggleDebugPaintSizeEnabled() async {
if (!supportsServiceProtocol || !isRunningDebug) {
return false;
}
for (final FlutterDevice? device in flutterDevices) {
final List<FlutterView> views = await device!.vmService!.getFlutterViews();
for (final FlutterView view in views) {
await device.vmService!.flutterToggleDebugPaintSizeEnabled(
isolateId: view.uiIsolate!.id!,
);
}
}
return true;
}
/// Toggle the performance overlay.
///
/// This is not supported in web mode.
Future<bool> debugTogglePerformanceOverlayOverride() async {
if (!supportsServiceProtocol) {
return false;
}
for (final FlutterDevice? device in flutterDevices) {
if (device!.targetPlatform == TargetPlatform.web_javascript) {
continue;
}
final List<FlutterView> views = await device.vmService!.getFlutterViews();
for (final FlutterView view in views) {
await device.vmService!.flutterTogglePerformanceOverlayOverride(
isolateId: view.uiIsolate!.id!,
);
}
}
return true;
}
/// Toggle the widget inspector.
Future<bool> debugToggleWidgetInspector() async {
if (!supportsServiceProtocol) {
return false;
}
for (final FlutterDevice? device in flutterDevices) {
final List<FlutterView> views = await device!.vmService!.getFlutterViews();
for (final FlutterView view in views) {
await device.vmService!.flutterToggleWidgetInspector(
isolateId: view.uiIsolate!.id!,
);
}
}
return true;
}
/// Toggle the "invert images" debugging feature.
Future<bool> debugToggleInvertOversizedImages() async {
if (!supportsServiceProtocol || !isRunningDebug) {
return false;
}
for (final FlutterDevice? device in flutterDevices) {
final List<FlutterView> views = await device!.vmService!.getFlutterViews();
for (final FlutterView view in views) {
await device.vmService!.flutterToggleInvertOversizedImages(
isolateId: view.uiIsolate!.id!,
);
}
}
return true;
}
/// Toggle the "profile widget builds" debugging feature.
Future<bool> debugToggleProfileWidgetBuilds() async {
if (!supportsServiceProtocol) {
return false;
}
for (final FlutterDevice? device in flutterDevices) {
final List<FlutterView> views = await device!.vmService!.getFlutterViews();
for (final FlutterView view in views) {
await device.vmService!.flutterToggleProfileWidgetBuilds(
isolateId: view.uiIsolate!.id!,
);
}
}
return true;
}
/// Toggle the operating system brightness (light or dark).
Future<bool> debugToggleBrightness() async {
if (!supportsServiceProtocol) {
return false;
}
final List<FlutterView> views = await flutterDevices.first!.vmService!.getFlutterViews();
final Brightness? current = await flutterDevices.first!.vmService!.flutterBrightnessOverride(
isolateId: views.first.uiIsolate!.id!,
);
Brightness next;
if (current == Brightness.light) {
next = Brightness.dark;
} else {
next = Brightness.light;
}
for (final FlutterDevice? device in flutterDevices) {
final List<FlutterView> views = await device!.vmService!.getFlutterViews();
for (final FlutterView view in views) {
await device.vmService!.flutterBrightnessOverride(
isolateId: view.uiIsolate!.id!,
brightness: next,
);
}
logger!.printStatus('Changed brightness to $next.');
}
return true;
}
/// Rotate the application through different `defaultTargetPlatform` values.
Future<bool> debugTogglePlatform() async {
if (!supportsServiceProtocol || !isRunningDebug) {
return false;
}
final List<FlutterView> views = await flutterDevices.first!.vmService!.getFlutterViews();
final String from = await flutterDevices
.first!.vmService!.flutterPlatformOverride(
isolateId: views.first.uiIsolate!.id!,
);
final String to = nextPlatform(from);
for (final FlutterDevice? device in flutterDevices) {
final List<FlutterView> views = await device!.vmService!.getFlutterViews();
for (final FlutterView view in views) {
await device.vmService!.flutterPlatformOverride(
platform: to,
isolateId: view.uiIsolate!.id!,
);
}
}
logger!.printStatus('Switched operating system to $to');
return true;
}
/// Write the SkSL shaders to a zip file in build directory.
///
/// Returns the name of the file, or `null` on failures.
Future<String?> writeSkSL() async {
if (!supportsWriteSkSL) {
throw Exception('writeSkSL is not supported by this runner.');
}
final FlutterDevice flutterDevice = flutterDevices.first!;
final FlutterVmService vmService = flutterDevice.vmService!;
final List<FlutterView> views = await vmService.getFlutterViews();
final Map<String, Object?>? data = await vmService.getSkSLs(
viewId: views.first.id,
);
final Device device = flutterDevice.device!;
return sharedSkSlWriter(device, data);
}
/// Take a screenshot on the provided [device].
///
/// If the device has a connected vmservice, this method will attempt to hide
/// and restore the debug banner before taking the screenshot.
///
/// If the device type does not support a "native" screenshot, then this
/// will fallback to a rasterizer screenshot from the engine. This has the
/// downside of being unable to display the contents of platform views.
///
/// This method will return without writing the screenshot file if any
/// RPC errors are encountered, printing them to stderr. This is true even
/// if an error occurs after the data has already been received, such as
/// from restoring the debug banner.
Future<void> screenshot(FlutterDevice device) async {
if (!device.device!.supportsScreenshot && !supportsServiceProtocol) {
return;
}
final Status status = logger!.startProgress(
'Taking screenshot for ${device.device!.name}...',
);
final File outputFile = getUniqueFile(
fileSystem!.currentDirectory,
'flutter',
'png',
);
try {
bool result;
if (device.device!.supportsScreenshot) {
result = await _toggleDebugBanner(device, () => device.device!.takeScreenshot(outputFile));
} else {
result = await _takeVmServiceScreenshot(device, outputFile);
}
if (!result) {
return;
}
final int sizeKB = outputFile.lengthSync() ~/ 1024;
status.stop();
logger!.printStatus(
'Screenshot written to ${fileSystem!.path.relative(outputFile.path)} (${sizeKB}kB).',
);
} on Exception catch (error) {
status.cancel();
logger!.printError('Error taking screenshot: $error');
}
}
Future<bool> _takeVmServiceScreenshot(FlutterDevice device, File outputFile) async {
final bool isWebDevice = device.targetPlatform == TargetPlatform.web_javascript;
assert(supportsServiceProtocol);
return _toggleDebugBanner(device, () async {
final vm_service.Response? response = isWebDevice
? await device.vmService!.callMethodWrapper('ext.dwds.screenshot')
: await device.vmService!.screenshot();
if (response == null) {
throw Exception('Failed to take screenshot');
}
final String data = response.json![isWebDevice ? 'data' : 'screenshot'] as String;
outputFile.writeAsBytesSync(base64.decode(data));
});
}
Future<bool> _toggleDebugBanner(FlutterDevice device, Future<void> Function() cb) async {
List<FlutterView> views = <FlutterView>[];
if (supportsServiceProtocol) {
views = await device.vmService!.getFlutterViews();
}
Future<bool> setDebugBanner(bool value) async {
try {
for (final FlutterView view in views) {
await device.vmService!.flutterDebugAllowBanner(
value,
isolateId: view.uiIsolate!.id!,
);
}
return true;
} on vm_service.RPCError catch (error) {
logger!.printError('Error communicating with Flutter on the device: $error');
return false;
}
}
if (!await setDebugBanner(false)) {
return false;
}
bool succeeded = true;
try {
await cb();
} finally {
if (!await setDebugBanner(true)) {
succeeded = false;
}
}
return succeeded;
}
/// Remove sigusr signal handlers.
Future<void> cleanupAfterSignal();
/// Tear down the runner and leave the application running.
///
/// This is not supported on web devices where the runner is running
/// the application server as well.
Future<void> detach();
/// Tear down the runner and exit the application.
Future<void> exit();
/// Run any source generators, such as localizations.
///
/// These are automatically run during hot restart, but can be
/// triggered manually to see the updated generated code.
Future<void> runSourceGenerators();
}
// Shared code between different resident application runners.
abstract class ResidentRunner extends ResidentHandlers {
ResidentRunner(
this.flutterDevices, {
required this.target,
required this.debuggingOptions,
String? projectRootPath,
this.ipv6,
this.stayResident = true,
this.hotMode = true,
String? dillOutputPath,
this.machine = false,
ResidentDevtoolsHandlerFactory devtoolsHandler = createDefaultHandler,
}) : mainPath = globals.fs.file(target).absolute.path,
packagesFilePath = debuggingOptions.buildInfo.packagesPath,
projectRootPath = projectRootPath ?? globals.fs.currentDirectory.path,
_dillOutputPath = dillOutputPath,
artifactDirectory = dillOutputPath == null
? globals.fs.systemTempDirectory.createTempSync('flutter_tool.')
: globals.fs.file(dillOutputPath).parent,
assetBundle = AssetBundleFactory.instance.createBundle(),
commandHelp = CommandHelp(
logger: globals.logger,
terminal: globals.terminal,
platform: globals.platform,
outputPreferences: globals.outputPreferences,
) {
if (!artifactDirectory.existsSync()) {
artifactDirectory.createSync(recursive: true);
}
_residentDevtoolsHandler = devtoolsHandler(DevtoolsLauncher.instance, this, globals.logger);
}
@override
Logger? get logger => globals.logger;
@override
FileSystem get fileSystem => globals.fs;
@override
final List<FlutterDevice> flutterDevices;
final String target;
final DebuggingOptions debuggingOptions;
@override
final bool stayResident;
final bool? ipv6;
final String? _dillOutputPath;
/// The parent location of the incremental artifacts.
final Directory artifactDirectory;
final String packagesFilePath;
final String projectRootPath;
final String mainPath;
final AssetBundle assetBundle;
final CommandHelp commandHelp;
final bool machine;
@override
ResidentDevtoolsHandler? get residentDevtoolsHandler => _residentDevtoolsHandler;
ResidentDevtoolsHandler? _residentDevtoolsHandler;
bool _exited = false;
Completer<int> _finished = Completer<int>();
BuildResult? _lastBuild;
Environment? _environment;
@override
bool hotMode;
/// Returns true if every device is streaming observatory URIs.
bool get isWaitingForObservatory {
return flutterDevices.every((FlutterDevice? device) {
return device!.isWaitingForObservatory;
});
}
String get dillOutputPath => _dillOutputPath ?? globals.fs.path.join(artifactDirectory.path, 'app.dill');
String getReloadPath({
bool fullRestart = false,
required bool swap,
}) {
if (!fullRestart) {
return 'main.dart.incremental.dill';
}
return 'main.dart${swap ? '.swap' : ''}.dill';
}
bool get debuggingEnabled => debuggingOptions.debuggingEnabled;
@override
bool get isRunningDebug => debuggingOptions.buildInfo.isDebug;
@override
bool get isRunningProfile => debuggingOptions.buildInfo.isProfile;
@override
bool get isRunningRelease => debuggingOptions.buildInfo.isRelease;
@override
bool get supportsServiceProtocol => isRunningDebug || isRunningProfile;
@override
bool get supportsWriteSkSL => supportsServiceProtocol;
bool get trackWidgetCreation => debuggingOptions.buildInfo.trackWidgetCreation;
/// True if the shared Dart plugin registry (which is different than the one
/// used for web) should be generated during source generation.
bool get generateDartPluginRegistry => true;
// Returns the Uri of the first connected device for mobile,
// and only connected device for web.
//
// Would be null if there is no device connected or
// there is no devFS associated with the first device.
Uri? get uri => flutterDevices.first.devFS?.baseUri;
/// Returns [true] if the resident runner exited after invoking [exit()].
bool get exited => _exited;
@override
bool get supportsRestart {
return isRunningDebug && flutterDevices.every((FlutterDevice? device) {
return device!.device!.supportsHotRestart;
});
}
@override
bool get canHotReload => hotMode;
/// Start the app and keep the process running during its lifetime.
///
/// Returns the exit code that we should use for the flutter tool process; 0
/// for success, 1 for user error (e.g. bad arguments), 2 for other failures.
Future<int?> run({
Completer<DebugConnectionInfo>? connectionInfoCompleter,
Completer<void>? appStartedCompleter,
bool enableDevTools = false,
String? route,
});
/// Connect to a flutter application.
///
/// [needsFullRestart] defaults to `true`, and controls if the frontend server should
/// compile a full dill. This should be set to `false` if this is called in [ResidentRunner.run], since that method already perfoms an initial compilation.
Future<int?> attach({
Completer<DebugConnectionInfo>? connectionInfoCompleter,
Completer<void>? appStartedCompleter,
bool allowExistingDdsInstance = false,
bool enableDevTools = false,
bool needsFullRestart = true,
});
@override
Future<void> runSourceGenerators() async {
_environment ??= Environment(
artifacts: globals.artifacts!,
logger: globals.logger,
cacheDir: globals.cache.getRoot(),
engineVersion: globals.flutterVersion.engineRevision,
fileSystem: globals.fs,
flutterRootDir: globals.fs.directory(Cache.flutterRoot),
outputDir: globals.fs.directory(getBuildDirectory()),
processManager: globals.processManager,
platform: globals.platform,
usage: globals.flutterUsage,
projectDir: globals.fs.currentDirectory,
generateDartPluginRegistry: generateDartPluginRegistry,
defines: <String, String>{
// Needed for Dart plugin registry generation.
kTargetFile: mainPath,
},
);
final CompositeTarget compositeTarget = CompositeTarget(<Target>[
const GenerateLocalizationsTarget(),
const DartPluginRegistrantTarget(),
]);
_lastBuild = await globals.buildSystem.buildIncremental(
compositeTarget,
_environment!,
_lastBuild,
);
if (!_lastBuild!.success) {
for (final ExceptionMeasurement exceptionMeasurement in _lastBuild!.exceptions.values) {
globals.printError(
exceptionMeasurement.exception.toString(),
stackTrace: globals.logger.isVerbose
? exceptionMeasurement.stackTrace
: null,
);
}
}
globals.printTrace('complete');
}
@protected
void writeVmServiceFile() {
if (debuggingOptions.vmserviceOutFile != null) {
try {
final String address = flutterDevices.first.vmService!.wsAddress.toString();
final File vmserviceOutFile = globals.fs.file(debuggingOptions.vmserviceOutFile);
vmserviceOutFile.createSync(recursive: true);
vmserviceOutFile.writeAsStringSync(address);
} on FileSystemException {
globals.printError('Failed to write vmservice-out-file at ${debuggingOptions.vmserviceOutFile}');
}
}
}
@override
Future<void> exit() async {
_exited = true;
await residentDevtoolsHandler!.shutdown();
await stopEchoingDeviceLog();
await preExit();
await exitApp(); // calls appFinished
await shutdownDartDevelopmentService();
}
@override
Future<void> detach() async {
await residentDevtoolsHandler!.shutdown();
await stopEchoingDeviceLog();
await preExit();
await shutdownDartDevelopmentService();
appFinished();
}
Future<void> stopEchoingDeviceLog() async {
await Future.wait<void>(
flutterDevices.map<Future<void>>((FlutterDevice? device) => device!.stopEchoingDeviceLog())
);
}
Future<void> shutdownDartDevelopmentService() async {
await Future.wait<void>(
flutterDevices.map<Future<void>>(
(FlutterDevice? device) => device?.device?.dds.shutdown() ?? Future<void>.value()
)
);
}
@protected
void cacheInitialDillCompilation() {
if (_dillOutputPath != null) {
return;
}
globals.printTrace('Caching compiled dill');
final File outputDill = globals.fs.file(dillOutputPath);
if (outputDill.existsSync()) {
final String copyPath = getDefaultCachedKernelPath(
trackWidgetCreation: trackWidgetCreation,
dartDefines: debuggingOptions.buildInfo.dartDefines,
extraFrontEndOptions: debuggingOptions.buildInfo.extraFrontEndOptions,
);
globals.fs
.file(copyPath)
.parent
.createSync(recursive: true);
outputDill.copySync(copyPath);
}
}
void printStructuredErrorLog(vm_service.Event event) {
if (event.extensionKind == 'Flutter.Error' && !machine) {
final Map<dynamic, dynamic>? json = event.extensionData?.data;
if (json != null && json.containsKey('renderedErrorText')) {
globals.printStatus('\n${json['renderedErrorText']}');
}
}
}
/// If the [reloadSources] parameter is not null the 'reloadSources' service
/// will be registered.
//
// Failures should be indicated by completing the future with an error, using
// a string as the error object, which will be used by the caller (attach())
// to display an error message.
Future<void> connectToServiceProtocol({
ReloadSources? reloadSources,
Restart? restart,
CompileExpression? compileExpression,
GetSkSLMethod? getSkSLMethod,
required bool allowExistingDdsInstance,
}) async {
if (!debuggingOptions.debuggingEnabled) {
throw Exception('The service protocol is not enabled.');
}
_finished = Completer<int>();
// Listen for service protocol connection to close.
for (final FlutterDevice? device in flutterDevices) {
await device!.connect(
reloadSources: reloadSources,
restart: restart,
compileExpression: compileExpression,
enableDds: debuggingOptions.enableDds,
ddsPort: debuggingOptions.ddsPort,
allowExistingDdsInstance: allowExistingDdsInstance,
hostVmServicePort: debuggingOptions.hostVmServicePort,
getSkSLMethod: getSkSLMethod,
printStructuredErrorLogMethod: printStructuredErrorLog,
ipv6: ipv6 ?? false,
disableServiceAuthCodes: debuggingOptions.disableServiceAuthCodes,
cacheStartupProfile: debuggingOptions.cacheStartupProfile,
);
await device.vmService!.getFlutterViews();
// This hooks up callbacks for when the connection stops in the future.
// We don't want to wait for them. We don't handle errors in those callbacks'
// futures either because they just print to logger and is not critical.
unawaited(device.vmService!.service.onDone.then<void>(
_serviceProtocolDone,
onError: _serviceProtocolError,
).whenComplete(_serviceDisconnected));
}
}
Future<void> _serviceProtocolDone(dynamic object) async {
globals.printTrace('Service protocol connection closed.');
}
Future<void> _serviceProtocolError(Object error, StackTrace stack) {
globals.printTrace('Service protocol connection closed with an error: $error\n$stack');
return Future<void>.error(error, stack);
}
void _serviceDisconnected() {
if (_exited) {
// User requested the application exit.
return;
}
if (_finished.isCompleted) {
return;
}
globals.printStatus('Lost connection to device.');
_finished.complete(0);
}
void appFinished() {
if (_finished.isCompleted) {
return;
}
globals.printStatus('Application finished.');
_finished.complete(0);
}
void appFailedToStart() {
if (!_finished.isCompleted) {
_finished.complete(1);
}
}
Future<int> waitForAppToFinish() async {
final int exitCode = await _finished.future;
assert(exitCode != null);
await cleanupAtFinish();
return exitCode;
}
@mustCallSuper
Future<void> preExit() async {
// If _dillOutputPath is null, the tool created a temporary directory for
// the dill.
if (_dillOutputPath == null && artifactDirectory.existsSync()) {
artifactDirectory.deleteSync(recursive: true);
}
}
Future<void> exitApp() async {
final List<Future<void>> futures = <Future<void>>[
for (final FlutterDevice? device in flutterDevices) device!.exitApps(),
];
await Future.wait(futures);
appFinished();
}
bool get reportedDebuggers => _reportedDebuggers;
bool _reportedDebuggers = false;
void printDebuggerList({ bool includeObservatory = true, bool includeDevtools = true }) {
final DevToolsServerAddress? devToolsServerAddress = residentDevtoolsHandler!.activeDevToolsServer;
if (!residentDevtoolsHandler!.readyToAnnounce) {
includeDevtools = false;
}
assert(!includeDevtools || devToolsServerAddress != null);
for (final FlutterDevice? device in flutterDevices) {
if (device!.vmService == null) {
continue;
}
if (includeObservatory) {
// Caution: This log line is parsed by device lab tests.
globals.printStatus(
'An Observatory debugger and profiler on ${device.device!.name} is available at: '
'${device.vmService!.httpAddress}',
);
}
if (includeDevtools) {
final Uri? uri = devToolsServerAddress!.uri?.replace(
queryParameters: <String, dynamic>{'uri': '${device.vmService!.httpAddress}'},
);
if (uri != null) {
globals.printStatus(
'The Flutter DevTools debugger and profiler '
'on ${device.device!.name} is available at: ${urlToDisplayString(uri)}',
);
}
}
}
_reportedDebuggers = true;
}
void printHelpDetails() {
commandHelp.v.print();
if (flutterDevices.any((FlutterDevice? d) => d!.device!.supportsScreenshot)) {
commandHelp.s.print();
}
if (supportsServiceProtocol) {
commandHelp.w.print();
commandHelp.t.print();
if (isRunningDebug) {
commandHelp.L.print();
commandHelp.S.print();
commandHelp.U.print();
commandHelp.i.print();
commandHelp.p.print();
commandHelp.I.print();
commandHelp.o.print();
commandHelp.b.print();
} else {
commandHelp.S.print();
commandHelp.U.print();
}
// Performance related features: `P` should precede `a`, which should precede `M`.
commandHelp.P.print();
commandHelp.a.print();
if (supportsWriteSkSL) {
commandHelp.M.print();
}
if (isRunningDebug) {
commandHelp.g.print();
}
commandHelp.j.print();
}
}
@override
Future<void> cleanupAfterSignal();
/// Called right before we exit.
Future<void> cleanupAtFinish();
}
class OperationResult {
OperationResult(this.code, this.message, { this.fatal = false, this.updateFSReport, this.extraTimings = const <OperationResultExtraTiming>[] });
/// The result of the operation; a non-zero code indicates a failure.
final int code;
/// A user facing message about the results of the operation.
final String message;
/// User facing extra timing information about the operation.
final List<OperationResultExtraTiming> extraTimings;
/// Whether this error should cause the runner to exit.
final bool fatal;
final UpdateFSReport? updateFSReport;
bool get isOk => code == 0;
static final OperationResult ok = OperationResult(0, '');
}
class OperationResultExtraTiming {
const OperationResultExtraTiming(this.description, this.timeInMs);
/// A user facing short description of this timing.
final String description;
/// The time this operation took in milliseconds.
final int timeInMs;
}
Future<String?> getMissingPackageHintForPlatform(TargetPlatform platform) async {
switch (platform) {
case TargetPlatform.android_arm:
case TargetPlatform.android_arm64:
case TargetPlatform.android_x64:
case TargetPlatform.android_x86:
final FlutterProject project = FlutterProject.current();
final String manifestPath = globals.fs.path.relative(project.android.appManifestFile.path);
return 'Is your project missing an $manifestPath?\nConsider running "flutter create ." to create one.';
case TargetPlatform.ios:
return 'Is your project missing an ios/Runner/Info.plist?\nConsider running "flutter create ." to create one.';
case TargetPlatform.android:
case TargetPlatform.darwin:
case TargetPlatform.fuchsia_arm64:
case TargetPlatform.fuchsia_x64:
case TargetPlatform.linux_arm64:
case TargetPlatform.linux_x64:
case TargetPlatform.tester:
case TargetPlatform.web_javascript:
case TargetPlatform.windows_x64:
return null;
}
}
/// Redirects terminal commands to the correct resident runner methods.
class TerminalHandler {
TerminalHandler(this.residentRunner, {
required Logger logger,
required Terminal terminal,
required Signals signals,
required io.ProcessInfo processInfo,
required bool reportReady,
String? pidFile,
}) : _logger = logger,
_terminal = terminal,
_signals = signals,
_processInfo = processInfo,
_reportReady = reportReady,
_pidFile = pidFile;
final Logger _logger;
final Terminal _terminal;
final Signals _signals;
final io.ProcessInfo _processInfo;
final bool _reportReady;
final String? _pidFile;
final ResidentHandlers residentRunner;
bool _processingUserRequest = false;
StreamSubscription<void>? subscription;
File? _actualPidFile;
@visibleForTesting
String? lastReceivedCommand;
/// This is only a buffer logger in unit tests
@visibleForTesting
BufferLogger get logger => _logger as BufferLogger;
void setupTerminal() {
if (!_logger.quiet) {
_logger.printStatus('');
residentRunner.printHelp(details: false);
}
_terminal.singleCharMode = true;
subscription = _terminal.keystrokes.listen(processTerminalInput);
}
final Map<io.ProcessSignal, Object> _signalTokens = <io.ProcessSignal, Object>{};
void _addSignalHandler(io.ProcessSignal signal, SignalHandler handler) {
_signalTokens[signal] = _signals.addHandler(signal, handler);
}
void registerSignalHandlers() {
assert(residentRunner.stayResident);
_addSignalHandler(io.ProcessSignal.sigint, _cleanUp);
_addSignalHandler(io.ProcessSignal.sigterm, _cleanUp);
if (residentRunner.supportsServiceProtocol && residentRunner.supportsRestart) {
_addSignalHandler(io.ProcessSignal.sigusr1, _handleSignal);
_addSignalHandler(io.ProcessSignal.sigusr2, _handleSignal);
if (_pidFile != null) {
_logger.printTrace('Writing pid to: $_pidFile');
_actualPidFile = _processInfo.writePidFile(_pidFile!);
}
}
}
/// Unregisters terminal signal and keystroke handlers.
void stop() {
assert(residentRunner.stayResident);
if (_actualPidFile != null) {
try {
_logger.printTrace('Deleting pid file (${_actualPidFile!.path}).');
_actualPidFile!.deleteSync();
} on FileSystemException catch (error) {
_logger.printWarning('Failed to delete pid file (${_actualPidFile!.path}): ${error.message}');
}
_actualPidFile = null;
}
for (final MapEntry<io.ProcessSignal, Object> entry in _signalTokens.entries) {
_signals.removeHandler(entry.key, entry.value);
}
_signalTokens.clear();
subscription?.cancel();
}
/// Returns [true] if the input has been handled by this function.
Future<bool> _commonTerminalInputHandler(String character) async {
_logger.printStatus(''); // the key the user tapped might be on this line
switch (character) {
case 'a':
return residentRunner.debugToggleProfileWidgetBuilds();
case 'b':
return residentRunner.debugToggleBrightness();
case 'c':
_logger.clear();
return true;
case 'd':
case 'D':
await residentRunner.detach();
return true;
case 'g':
await residentRunner.runSourceGenerators();
return true;
case 'h':
case 'H':
case '?':
// help
residentRunner.printHelp(details: true);
return true;
case 'i':
return residentRunner.debugToggleWidgetInspector();
case 'I':
return residentRunner.debugToggleInvertOversizedImages();
case 'j':
case 'J':
return residentRunner.debugFrameJankMetrics();
case 'L':
return residentRunner.debugDumpLayerTree();
case 'o':
case 'O':
return residentRunner.debugTogglePlatform();
case 'M':
if (residentRunner.supportsWriteSkSL) {
await residentRunner.writeSkSL();
return true;
}
return false;
case 'p':
return residentRunner.debugToggleDebugPaintSizeEnabled();
case 'P':
return residentRunner.debugTogglePerformanceOverlayOverride();
case 'q':
case 'Q':
// exit
await residentRunner.exit();
return true;
case 'r':
if (!residentRunner.canHotReload) {
return false;
}
final OperationResult result = await residentRunner.restart();
if (result.fatal) {
throwToolExit(result.message);
}
if (!result.isOk) {
_logger.printStatus('Try again after fixing the above error(s).', emphasis: true);
}
return true;
case 'R':
// If hot restart is not supported for all devices, ignore the command.
if (!residentRunner.supportsRestart || !residentRunner.hotMode) {
return false;
}
final OperationResult result = await residentRunner.restart(fullRestart: true);
if (result.fatal) {
throwToolExit(result.message);
}
if (!result.isOk) {
_logger.printStatus('Try again after fixing the above error(s).', emphasis: true);
}
return true;
case 's':
for (final FlutterDevice? device in residentRunner.flutterDevices) {
await residentRunner.screenshot(device!);
}
return true;
case 'S':
return residentRunner.debugDumpSemanticsTreeInTraversalOrder();
case 't':
case 'T':
return residentRunner.debugDumpRenderTree();
case 'U':
return residentRunner.debugDumpSemanticsTreeInInverseHitTestOrder();
case 'v':
case 'V':
return residentRunner.residentDevtoolsHandler!.launchDevToolsInBrowser(flutterDevices: residentRunner.flutterDevices);
case 'w':
case 'W':
return residentRunner.debugDumpApp();
}
return false;
}
Future<void> processTerminalInput(String command) async {
// When terminal doesn't support line mode, '\n' can sneak into the input.
command = command.trim();
if (_processingUserRequest) {
_logger.printTrace('Ignoring terminal input: "$command" because we are busy.');
return;
}
_processingUserRequest = true;
try {
lastReceivedCommand = command;
await _commonTerminalInputHandler(command);
// Catch all exception since this is doing cleanup and rethrowing.
} catch (error, st) { // ignore: avoid_catches_without_on_clauses
// Don't print stack traces for known error types.
if (error is! ToolExit) {
_logger.printError('$error\n$st');
}
await _cleanUp(null);
rethrow;
} finally {
_processingUserRequest = false;
if (_reportReady) {
_logger.printStatus('ready');
}
}
}
Future<void> _handleSignal(io.ProcessSignal signal) async {
if (_processingUserRequest) {
_logger.printTrace('Ignoring signal: "$signal" because we are busy.');
return;
}
_processingUserRequest = true;
final bool fullRestart = signal == io.ProcessSignal.sigusr2;
try {
await residentRunner.restart(fullRestart: fullRestart);
} finally {
_processingUserRequest = false;
}
}
Future<void> _cleanUp(io.ProcessSignal? signal) async {
_terminal.singleCharMode = false;
await subscription?.cancel();
await residentRunner.cleanupAfterSignal();
}
}
class DebugConnectionInfo {
DebugConnectionInfo({ this.httpUri, this.wsUri, this.baseUri });
final Uri? httpUri;
final Uri? wsUri;
final String? baseUri;
}
/// Returns the next platform value for the switcher.
///
/// These values must match what is available in
/// `packages/flutter/lib/src/foundation/binding.dart`.
String nextPlatform(String currentPlatform) {
switch (currentPlatform) {
case 'android':
return 'iOS';
case 'iOS':
return 'fuchsia';
case 'fuchsia':
return 'macOS';
case 'macOS':
return 'android';
default:
assert(false); // Invalid current platform.
return 'android';
}
}
/// A launcher for the devtools debugger and analysis tool.
abstract class DevtoolsLauncher {
static DevtoolsLauncher? get instance => context.get<DevtoolsLauncher>();
/// Serve Dart DevTools and return the host and port they are available on.
///
/// This method must return a future that is guaranteed not to fail, because it
/// will be used in unawaited contexts. It may, however, return null.
Future<DevToolsServerAddress?> serve();
/// Launch a Dart DevTools process, optionally targeting a specific VM Service
/// URI if [vmServiceUri] is non-null.
///
/// [additionalArguments] may be optionally specified and are passed directly
/// to the devtools run command.
///
/// This method must return a future that is guaranteed not to fail, because it
/// will be used in unawaited contexts.
Future<void> launch(Uri vmServiceUri, {List<String>? additionalArguments});
Future<void> close();
/// When measuring devtools memory via additional arguments, the launch process
/// will technically never complete.
///
/// Us this as an indicator that the process has started.
Future<void>? processStart;
/// Returns a future that completes when the DevTools server is ready.
///
/// Completes when [devToolsUrl] is set. That can be set either directly, or
/// by calling [serve].
Future<void> get ready => _readyCompleter.future;
Completer<void> _readyCompleter = Completer<void>();
Uri? get devToolsUrl => _devToolsUrl;
Uri? _devToolsUrl;
set devToolsUrl(Uri? value) {
assert((_devToolsUrl == null) != (value == null));
_devToolsUrl = value;
if (_devToolsUrl != null) {
_readyCompleter.complete();
} else {
_readyCompleter = Completer<void>();
}
}
/// The URL of the current DevTools server.
///
/// Returns null if [ready] is not complete.
DevToolsServerAddress? get activeDevToolsServer {
if (_devToolsUrl == null) {
return null;
}
return DevToolsServerAddress(devToolsUrl!.host, devToolsUrl!.port);
}
}
class DevToolsServerAddress {
DevToolsServerAddress(this.host, this.port);
final String host;
final int port;
Uri? get uri {
if (host == null || port == null) {
return null;
}
return Uri(scheme: 'http', host: host, port: port);
}
}