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dart / external / github.com / flutter / flutter / refs/heads/master / . / packages / flutter_tools / lib / src / vmservice.dart
blob: 67587c55161a9db6c48da3a10e71c0ca98531e88 [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:meta/meta.dart' show visibleForTesting;
import 'package:vm_service/vm_service.dart' as vm_service;
import 'base/common.dart';
import 'base/context.dart';
import 'base/io.dart' as io;
import 'base/logger.dart';
import 'base/utils.dart';
import 'cache.dart';
import 'convert.dart';
import 'device.dart';
import 'globals.dart' as globals;
import 'project.dart';
import 'version.dart';
const String kResultType = 'type';
const String kResultTypeSuccess = 'Success';
const String kGetSkSLsMethod = '_flutter.getSkSLs';
const String kSetAssetBundlePathMethod = '_flutter.setAssetBundlePath';
const String kFlushUIThreadTasksMethod = '_flutter.flushUIThreadTasks';
const String kRunInViewMethod = '_flutter.runInView';
const String kListViewsMethod = '_flutter.listViews';
const String kScreenshotSkpMethod = '_flutter.screenshotSkp';
const String kRenderFrameWithRasterStatsMethod = '_flutter.renderFrameWithRasterStats';
const String kReloadAssetFonts = '_flutter.reloadAssetFonts';
const String kFlutterToolAlias = 'Flutter Tools';
const String kReloadSourcesServiceName = 'reloadSources';
const String kHotRestartServiceName = 'hotRestart';
const String kFlutterVersionServiceName = 'flutterVersion';
const String kCompileExpressionServiceName = 'compileExpression';
const String kFlutterMemoryInfoServiceName = 'flutterMemoryInfo';
const String kFlutterGetSkSLServiceName = 'flutterGetSkSL';
/// The error response code from an unrecoverable compilation failure.
const int kIsolateReloadBarred = 1005;
/// Override `WebSocketConnector` in [context] to use a different constructor
/// for [WebSocket]s (used by tests).
typedef WebSocketConnector = Future<io.WebSocket> Function(String url, {io.CompressionOptions compression, required Logger logger});
typedef PrintStructuredErrorLogMethod = void Function(vm_service.Event);
WebSocketConnector _openChannel = _defaultOpenChannel;
/// A testing only override of the WebSocket connector.
///
/// Provide a `null` value to restore the original connector.
@visibleForTesting
set openChannelForTesting(WebSocketConnector? connector) {
_openChannel = connector ?? _defaultOpenChannel;
}
/// The error codes for the JSON-RPC standard, including VM service specific
/// error codes.
///
/// See also: https://www.jsonrpc.org/specification#error_object
abstract class RPCErrorCodes {
/// The method does not exist or is not available.
static const int kMethodNotFound = -32601;
/// Invalid method parameter(s), such as a mismatched type.
static const int kInvalidParams = -32602;
/// Internal JSON-RPC error.
static const int kInternalError = -32603;
/// Application specific error codes.
static const int kServerError = -32000;
/// Non-standard JSON-RPC error codes:
/// The VM service or extension service has disappeared.
static const int kServiceDisappeared = 112;
}
/// A function that reacts to the invocation of the 'reloadSources' service.
///
/// The VM Service Protocol allows clients to register custom services that
/// can be invoked by other clients through the service protocol itself.
///
/// Clients like VmService use external 'reloadSources' services,
/// when available, instead of the VM internal one. This allows these clients to
/// invoke Flutter HotReload when connected to a Flutter Application started in
/// hot mode.
///
/// See: https://github.com/dart-lang/sdk/issues/30023
typedef ReloadSources = Future<void> Function(
String isolateId, {
bool force,
bool pause,
});
typedef Restart = Future<void> Function({ bool pause });
typedef CompileExpression = Future<String> Function(
String isolateId,
String expression,
List<String> definitions,
List<String> definitionTypes,
List<String> typeDefinitions,
List<String> typeBounds,
List<String> typeDefaults,
String libraryUri,
String? klass,
String? method,
bool isStatic,
);
/// A method that pulls an SkSL shader from the device and writes it to a file.
///
/// The name of the file returned as a result.
typedef GetSkSLMethod = Future<String?> Function();
Future<io.WebSocket> _defaultOpenChannel(String url, {
io.CompressionOptions compression = io.CompressionOptions.compressionDefault,
required Logger logger,
}) async {
Duration delay = const Duration(milliseconds: 100);
int attempts = 0;
io.WebSocket? socket;
Future<void> handleError(Object? e) async {
void Function(String) printVisibleTrace = logger.printTrace;
if (attempts == 10) {
logger.printStatus('Connecting to the VM Service is taking longer than expected...');
} else if (attempts == 20) {
logger.printStatus('Still attempting to connect to the VM Service...');
logger.printStatus(
'If you do NOT see the Flutter application running, it might have '
'crashed. The device logs (e.g. from adb or XCode) might have more '
'details.');
logger.printStatus(
'If you do see the Flutter application running on the device, try '
're-running with --host-vmservice-port to use a specific port known to '
'be available.');
} else if (attempts % 50 == 0) {
printVisibleTrace = logger.printStatus;
}
printVisibleTrace('Exception attempting to connect to the VM Service: $e');
printVisibleTrace('This was attempt #$attempts. Will retry in $delay.');
// Delay next attempt.
await Future<void>.delayed(delay);
// Back off exponentially, up to 1600ms per attempt.
if (delay < const Duration(seconds: 1)) {
delay *= 2;
}
}
final WebSocketConnector constructor = context.get<WebSocketConnector>() ?? (String url, {
io.CompressionOptions compression = io.CompressionOptions.compressionDefault,
Logger? logger,
}) => io.WebSocket.connect(url, compression: compression);
while (socket == null) {
attempts += 1;
try {
socket = await constructor(url, compression: compression, logger: logger);
} on io.WebSocketException catch (e) {
await handleError(e);
} on io.SocketException catch (e) {
await handleError(e);
}
}
return socket;
}
/// Override `VMServiceConnector` in [context] to return a different VMService
/// from [VMService.connect] (used by tests).
typedef VMServiceConnector = Future<FlutterVmService> Function(Uri httpUri, {
ReloadSources? reloadSources,
Restart? restart,
CompileExpression? compileExpression,
GetSkSLMethod? getSkSLMethod,
FlutterProject? flutterProject,
PrintStructuredErrorLogMethod? printStructuredErrorLogMethod,
io.CompressionOptions compression,
Device? device,
required Logger logger,
});
/// Set up the VM Service client by attaching services for each of the provided
/// callbacks.
///
/// All parameters besides [vmService] may be null.
Future<vm_service.VmService> setUpVmService({
ReloadSources? reloadSources,
Restart? restart,
CompileExpression? compileExpression,
Device? device,
GetSkSLMethod? skSLMethod,
FlutterProject? flutterProject,
PrintStructuredErrorLogMethod? printStructuredErrorLogMethod,
required vm_service.VmService vmService,
}) async {
// Each service registration requires a request to the attached VM service. Since the
// order of these requests does not matter, store each future in a list and await
// all at the end of this method.
final List<Future<vm_service.Success?>> registrationRequests = <Future<vm_service.Success?>>[];
if (reloadSources != null) {
vmService.registerServiceCallback(kReloadSourcesServiceName, (Map<String, Object?> params) async {
final String isolateId = _validateRpcStringParam('reloadSources', params, 'isolateId');
final bool force = _validateRpcBoolParam('reloadSources', params, 'force');
final bool pause = _validateRpcBoolParam('reloadSources', params, 'pause');
await reloadSources(isolateId, force: force, pause: pause);
return <String, Object>{
'result': <String, Object>{
kResultType: kResultTypeSuccess,
},
};
});
registrationRequests.add(vmService.registerService(kReloadSourcesServiceName, kFlutterToolAlias));
}
if (restart != null) {
vmService.registerServiceCallback(kHotRestartServiceName, (Map<String, Object?> params) async {
final bool pause = _validateRpcBoolParam('compileExpression', params, 'pause');
await restart(pause: pause);
return <String, Object>{
'result': <String, Object>{
kResultType: kResultTypeSuccess,
},
};
});
registrationRequests.add(vmService.registerService(kHotRestartServiceName, kFlutterToolAlias));
}
vmService.registerServiceCallback(kFlutterVersionServiceName, (Map<String, Object?> params) async {
final FlutterVersion version = context.get<FlutterVersion>() ?? FlutterVersion(
fs: globals.fs,
flutterRoot: Cache.flutterRoot!,
);
final Map<String, Object> versionJson = version.toJson();
versionJson['frameworkRevisionShort'] = version.frameworkRevisionShort;
versionJson['engineRevisionShort'] = version.engineRevisionShort;
return <String, Object>{
'result': <String, Object>{
kResultType: kResultTypeSuccess,
...versionJson,
},
};
});
registrationRequests.add(vmService.registerService(kFlutterVersionServiceName, kFlutterToolAlias));
if (compileExpression != null) {
vmService.registerServiceCallback(kCompileExpressionServiceName, (Map<String, Object?> params) async {
final String isolateId = _validateRpcStringParam('compileExpression', params, 'isolateId');
final String expression = _validateRpcStringParam('compileExpression', params, 'expression');
final List<String> definitions = List<String>.from(params['definitions']! as List<Object?>);
final List<String> definitionTypes = List<String>.from(params['definitionTypes']! as List<Object?>);
final List<String> typeDefinitions = List<String>.from(params['typeDefinitions']! as List<Object?>);
final List<String> typeBounds = List<String>.from(params['typeBounds']! as List<Object?>);
final List<String> typeDefaults = List<String>.from(params['typeDefaults']! as List<Object?>);
final String libraryUri = params['libraryUri']! as String;
final String? klass = params['klass'] as String?;
final String? method = params['method'] as String?;
final bool isStatic = _validateRpcBoolParam('compileExpression', params, 'isStatic');
final String kernelBytesBase64 = await compileExpression(isolateId,
expression, definitions, definitionTypes, typeDefinitions, typeBounds, typeDefaults,
libraryUri, klass, method, isStatic);
return <String, Object>{
kResultType: kResultTypeSuccess,
'result': <String, String>{'kernelBytes': kernelBytesBase64},
};
});
registrationRequests.add(vmService.registerService(kCompileExpressionServiceName, kFlutterToolAlias));
}
if (device != null) {
vmService.registerServiceCallback(kFlutterMemoryInfoServiceName, (Map<String, Object?> params) async {
final MemoryInfo result = await device.queryMemoryInfo();
return <String, Object>{
'result': <String, Object>{
kResultType: kResultTypeSuccess,
...result.toJson(),
},
};
});
registrationRequests.add(vmService.registerService(kFlutterMemoryInfoServiceName, kFlutterToolAlias));
}
if (skSLMethod != null) {
vmService.registerServiceCallback(kFlutterGetSkSLServiceName, (Map<String, Object?> params) async {
final String? filename = await skSLMethod();
if (filename == null) {
return <String, Object>{
'result': <String, Object>{
kResultType: kResultTypeSuccess,
},
};
}
return <String, Object>{
'result': <String, Object>{
kResultType: kResultTypeSuccess,
'filename': filename,
},
};
});
registrationRequests.add(vmService.registerService(kFlutterGetSkSLServiceName, kFlutterToolAlias));
}
if (printStructuredErrorLogMethod != null) {
vmService.onExtensionEvent.listen(printStructuredErrorLogMethod);
registrationRequests.add(vmService
.streamListen(vm_service.EventStreams.kExtension)
.then<vm_service.Success?>(
(vm_service.Success success) => success,
// It is safe to ignore this error because we expect an error to be
// thrown if we're already subscribed.
onError: (Object error, StackTrace stackTrace) {
if (error is vm_service.RPCError) {
return null;
}
return Future<vm_service.Success?>.error(error, stackTrace);
},
),
);
}
try {
await Future.wait(registrationRequests);
} on vm_service.RPCError catch (e) {
throwToolExit('Failed to register service methods on attached VM Service: $e');
}
return vmService;
}
/// Connect to a Dart VM Service at [httpUri].
///
/// If the [reloadSources] parameter is not null, the 'reloadSources' service
/// will be registered. The VM Service Protocol allows clients to register
/// custom services that can be invoked by other clients through the service
/// protocol itself.
///
/// See: https://github.com/dart-lang/sdk/commit/df8bf384eb815cf38450cb50a0f4b62230fba217
Future<FlutterVmService> connectToVmService(
Uri httpUri, {
ReloadSources? reloadSources,
Restart? restart,
CompileExpression? compileExpression,
GetSkSLMethod? getSkSLMethod,
FlutterProject? flutterProject,
PrintStructuredErrorLogMethod? printStructuredErrorLogMethod,
io.CompressionOptions compression = io.CompressionOptions.compressionDefault,
Device? device,
required Logger logger,
}) async {
final VMServiceConnector connector = context.get<VMServiceConnector>() ?? _connect;
return connector(httpUri,
reloadSources: reloadSources,
restart: restart,
compileExpression: compileExpression,
compression: compression,
device: device,
getSkSLMethod: getSkSLMethod,
flutterProject: flutterProject,
printStructuredErrorLogMethod: printStructuredErrorLogMethod,
logger: logger,
);
}
Future<vm_service.VmService> createVmServiceDelegate(
Uri wsUri, {
io.CompressionOptions compression = io.CompressionOptions.compressionDefault,
required Logger logger,
}) async {
final io.WebSocket channel = await _openChannel(wsUri.toString(), compression: compression, logger: logger);
return vm_service.VmService(
channel,
channel.add,
disposeHandler: () async {
await channel.close();
},
);
}
Future<FlutterVmService> _connect(
Uri httpUri, {
ReloadSources? reloadSources,
Restart? restart,
CompileExpression? compileExpression,
GetSkSLMethod? getSkSLMethod,
FlutterProject? flutterProject,
PrintStructuredErrorLogMethod? printStructuredErrorLogMethod,
io.CompressionOptions compression = io.CompressionOptions.compressionDefault,
Device? device,
required Logger logger,
}) async {
final Uri wsUri = httpUri.replace(scheme: 'ws', path: urlContext.join(httpUri.path, 'ws'));
final vm_service.VmService delegateService = await createVmServiceDelegate(
wsUri, compression: compression, logger: logger,
);
final vm_service.VmService service = await setUpVmService(
reloadSources: reloadSources,
restart: restart,
compileExpression: compileExpression,
device: device,
skSLMethod: getSkSLMethod,
flutterProject: flutterProject,
printStructuredErrorLogMethod: printStructuredErrorLogMethod,
vmService: delegateService,
);
// This call is to ensure we are able to establish a connection instead of
// keeping on trucking and failing farther down the process.
await delegateService.getVersion();
return FlutterVmService(service, httpAddress: httpUri, wsAddress: wsUri);
}
String _validateRpcStringParam(String methodName, Map<String, Object?> params, String paramName) {
final Object? value = params[paramName];
if (value is! String || value.isEmpty) {
throw vm_service.RPCError(
methodName,
RPCErrorCodes.kInvalidParams,
"Invalid '$paramName': $value",
);
}
return value;
}
bool _validateRpcBoolParam(String methodName, Map<String, Object?> params, String paramName) {
final Object? value = params[paramName];
if (value != null && value is! bool) {
throw vm_service.RPCError(
methodName,
RPCErrorCodes.kInvalidParams,
"Invalid '$paramName': $value",
);
}
return (value as bool?) ?? false;
}
/// Peered to an Android/iOS FlutterView widget on a device.
class FlutterView {
FlutterView({
required this.id,
required this.uiIsolate,
});
factory FlutterView.parse(Map<String, Object?> json) {
final Map<String, Object?>? rawIsolate = json['isolate'] as Map<String, Object?>?;
vm_service.IsolateRef? isolate;
if (rawIsolate != null) {
rawIsolate['number'] = rawIsolate['number']?.toString();
isolate = vm_service.IsolateRef.parse(rawIsolate);
}
return FlutterView(
id: json['id']! as String,
uiIsolate: isolate,
);
}
final vm_service.IsolateRef? uiIsolate;
final String id;
bool get hasIsolate => uiIsolate != null;
@override
String toString() => id;
Map<String, Object?> toJson() {
return <String, Object?>{
'id': id,
'isolate': uiIsolate?.toJson(),
};
}
}
/// Flutter specific VM Service functionality.
class FlutterVmService {
FlutterVmService(
this.service, {
this.wsAddress,
this.httpAddress,
});
final vm_service.VmService service;
final Uri? wsAddress;
final Uri? httpAddress;
Future<vm_service.Response?> callMethodWrapper(
String method, {
String? isolateId,
Map<String, Object?>? args
}) async {
try {
return await service.callMethod(method, isolateId: isolateId, args: args);
} on vm_service.RPCError catch (e) {
// If the service disappears mid-request the tool is unable to recover
// and should begin to shutdown due to the service connection closing.
// Swallow the exception here and let the shutdown logic elsewhere deal
// with cleaning up.
if (e.code == RPCErrorCodes.kServiceDisappeared) {
return null;
}
rethrow;
}
}
/// Set the asset directory for the an attached Flutter view.
Future<void> setAssetDirectory({
required Uri assetsDirectory,
required String? viewId,
required String? uiIsolateId,
required bool windows,
}) async {
await callMethodWrapper(kSetAssetBundlePathMethod,
isolateId: uiIsolateId,
args: <String, Object?>{
'viewId': viewId,
'assetDirectory': assetsDirectory.toFilePath(windows: windows),
});
}
/// Retrieve the cached SkSL shaders from an attached Flutter view.
///
/// This method will only return data if `--cache-sksl` was provided as a
/// flutter run argument, and only then on physical devices.
Future<Map<String, Object?>?> getSkSLs({
required String viewId,
}) async {
final vm_service.Response? response = await callMethodWrapper(
kGetSkSLsMethod,
args: <String, String>{
'viewId': viewId,
},
);
if (response == null) {
return null;
}
return response.json?['SkSLs'] as Map<String, Object?>?;
}
/// Flush all tasks on the UI thread for an attached Flutter view.
///
/// This method is currently used only for benchmarking.
Future<void> flushUIThreadTasks({
required String uiIsolateId,
}) async {
await callMethodWrapper(
kFlushUIThreadTasksMethod,
args: <String, String>{
'isolateId': uiIsolateId,
},
);
}
/// Launch the Dart isolate with entrypoint [main] in the Flutter engine [viewId]
/// with [assetsDirectory] as the devFS.
///
/// This method is used by the tool to hot restart an already running Flutter
/// engine.
Future<void> runInView({
required String viewId,
required Uri main,
required Uri assetsDirectory,
}) async {
try {
await service.streamListen(vm_service.EventStreams.kIsolate);
} on vm_service.RPCError {
// Do nothing, since the tool is already subscribed.
}
final Future<void> onRunnable = service.onIsolateEvent.firstWhere((vm_service.Event event) {
return event.kind == vm_service.EventKind.kIsolateRunnable;
});
await callMethodWrapper(
kRunInViewMethod,
args: <String, Object>{
'viewId': viewId,
'mainScript': main.toString(),
'assetDirectory': assetsDirectory.toString(),
},
);
await onRunnable;
}
/// Renders the last frame with additional raster tracing enabled.
///
/// When a frame is rendered using this method it will incur additional cost
/// for rasterization which is not reflective of how long the frame takes in
/// production. This is primarily intended to be used to identify the layers
/// that result in the most raster perf degradation.
Future<Map<String, Object?>?> renderFrameWithRasterStats({
required String? viewId,
required String? uiIsolateId,
}) async {
final vm_service.Response? response = await callMethodWrapper(
kRenderFrameWithRasterStatsMethod,
isolateId: uiIsolateId,
args: <String, String?>{
'viewId': viewId,
},
);
return response?.json;
}
Future<String> flutterDebugDumpApp({
required String isolateId,
}) async {
final Map<String, Object?>? response = await invokeFlutterExtensionRpcRaw(
'ext.flutter.debugDumpApp',
isolateId: isolateId,
);
return response?['data']?.toString() ?? '';
}
Future<String> flutterDebugDumpRenderTree({
required String isolateId,
}) async {
final Map<String, Object?>? response = await invokeFlutterExtensionRpcRaw(
'ext.flutter.debugDumpRenderTree',
isolateId: isolateId,
args: <String, Object>{}
);
return response?['data']?.toString() ?? '';
}
Future<String> flutterDebugDumpLayerTree({
required String isolateId,
}) async {
final Map<String, Object?>? response = await invokeFlutterExtensionRpcRaw(
'ext.flutter.debugDumpLayerTree',
isolateId: isolateId,
);
return response?['data']?.toString() ?? '';
}
Future<String> flutterDebugDumpFocusTree({
required String isolateId,
}) async {
final Map<String, Object?>? response = await invokeFlutterExtensionRpcRaw(
'ext.flutter.debugDumpFocusTree',
isolateId: isolateId,
);
return response?['data']?.toString() ?? '';
}
Future<String> flutterDebugDumpSemanticsTreeInTraversalOrder({
required String isolateId,
}) async {
final Map<String, Object?>? response = await invokeFlutterExtensionRpcRaw(
'ext.flutter.debugDumpSemanticsTreeInTraversalOrder',
isolateId: isolateId,
);
return response?['data']?.toString() ?? '';
}
Future<String> flutterDebugDumpSemanticsTreeInInverseHitTestOrder({
required String isolateId,
}) async {
final Map<String, Object?>? response = await invokeFlutterExtensionRpcRaw(
'ext.flutter.debugDumpSemanticsTreeInInverseHitTestOrder',
isolateId: isolateId,
);
if (response != null) {
return response['data']?.toString() ?? '';
}
return '';
}
Future<Map<String, Object?>?> _flutterToggle(String name, {
required String isolateId,
}) async {
Map<String, Object?>? state = await invokeFlutterExtensionRpcRaw(
'ext.flutter.$name',
isolateId: isolateId,
);
if (state != null && state.containsKey('enabled') && state['enabled'] is String) {
state = await invokeFlutterExtensionRpcRaw(
'ext.flutter.$name',
isolateId: isolateId,
args: <String, Object>{
'enabled': state['enabled'] == 'true' ? 'false' : 'true',
},
);
}
return state;
}
Future<Map<String, Object?>?> flutterToggleDebugPaintSizeEnabled({
required String isolateId,
}) => _flutterToggle('debugPaint', isolateId: isolateId);
Future<Map<String, Object?>?> flutterTogglePerformanceOverlayOverride({
required String isolateId,
}) => _flutterToggle('showPerformanceOverlay', isolateId: isolateId);
Future<Map<String, Object?>?> flutterToggleWidgetInspector({
required String isolateId,
}) => _flutterToggle('inspector.show', isolateId: isolateId);
Future<Map<String, Object?>?> flutterToggleInvertOversizedImages({
required String isolateId,
}) => _flutterToggle('invertOversizedImages', isolateId: isolateId);
Future<Map<String, Object?>?> flutterToggleProfileWidgetBuilds({
required String isolateId,
}) => _flutterToggle('profileWidgetBuilds', isolateId: isolateId);
Future<Map<String, Object?>?> flutterDebugAllowBanner(bool show, {
required String isolateId,
}) {
return invokeFlutterExtensionRpcRaw(
'ext.flutter.debugAllowBanner',
isolateId: isolateId,
args: <String, Object>{'enabled': show ? 'true' : 'false'},
);
}
Future<Map<String, Object?>?> flutterReassemble({
required String isolateId,
}) {
return invokeFlutterExtensionRpcRaw(
'ext.flutter.reassemble',
isolateId: isolateId,
);
}
Future<bool> flutterAlreadyPaintedFirstUsefulFrame({
required String isolateId,
}) async {
final Map<String, Object?>? result = await invokeFlutterExtensionRpcRaw(
'ext.flutter.didSendFirstFrameRasterizedEvent',
isolateId: isolateId,
);
// result might be null when the service extension is not initialized
return result?['enabled'] == 'true';
}
Future<Map<String, Object?>?> uiWindowScheduleFrame({
required String isolateId,
}) {
return invokeFlutterExtensionRpcRaw(
'ext.ui.window.scheduleFrame',
isolateId: isolateId,
);
}
Future<Map<String, Object?>?> flutterEvictAsset(String assetPath, {
required String isolateId,
}) {
return invokeFlutterExtensionRpcRaw(
'ext.flutter.evict',
isolateId: isolateId,
args: <String, Object?>{
'value': assetPath,
},
);
}
Future<Map<String, Object?>?> flutterEvictShader(String assetPath, {
required String isolateId,
}) {
return invokeFlutterExtensionRpcRaw(
'ext.ui.window.reinitializeShader',
isolateId: isolateId,
args: <String, Object?>{
'assetKey': assetPath,
},
);
}
Future<Map<String, Object?>?> flutterEvictScene(String assetPath, {
required String isolateId,
}) {
return invokeFlutterExtensionRpcRaw(
'ext.ui.window.reinitializeScene',
isolateId: isolateId,
args: <String, Object?>{
'assetKey': assetPath,
},
);
}
/// Exit the application by calling [exit] from `dart:io`.
///
/// This method is only supported by certain embedders. This is
/// described by [Device.supportsFlutterExit].
Future<bool> flutterExit({
required String isolateId,
}) async {
try {
final Map<String, Object?>? result = await invokeFlutterExtensionRpcRaw(
'ext.flutter.exit',
isolateId: isolateId,
);
// A response of `null` indicates that `invokeFlutterExtensionRpcRaw` caught an RPCError
// with a missing method code. This can happen when attempting to quit a Flutter app
// that never registered the methods in the bindings.
if (result == null) {
return false;
}
} on vm_service.SentinelException {
// Do nothing on sentinel, the isolate already exited.
} on vm_service.RPCError {
// Do nothing on RPCError, the isolate already exited.
}
return true;
}
/// Return the current platform override for the flutter view running with
/// the main isolate [isolateId].
///
/// If a non-null value is provided for [platform], the platform override
/// is updated with this value.
Future<String> flutterPlatformOverride({
String? platform,
required String isolateId,
}) async {
final Map<String, Object?>? result = await invokeFlutterExtensionRpcRaw(
'ext.flutter.platformOverride',
isolateId: isolateId,
args: platform != null
? <String, Object>{'value': platform}
: <String, String>{},
);
if (result != null && result['value'] is String) {
return result['value']! as String;
}
return 'unknown';
}
/// Return the current brightness value for the flutter view running with
/// the main isolate [isolateId].
///
/// If a non-null value is provided for [brightness], the brightness override
/// is updated with this value.
Future<Brightness?> flutterBrightnessOverride({
Brightness? brightness,
required String isolateId,
}) async {
final Map<String, Object?>? result = await invokeFlutterExtensionRpcRaw(
'ext.flutter.brightnessOverride',
isolateId: isolateId,
args: brightness != null
? <String, String>{'value': brightness.toString()}
: <String, String>{},
);
if (result != null && result['value'] is String) {
return result['value'] == 'Brightness.light'
? Brightness.light
: Brightness.dark;
}
return null;
}
Future<vm_service.Response?> _checkedCallServiceExtension(
String method, {
Map<String, Object?>? args,
}) async {
try {
return await service.callServiceExtension(method, args: args);
} on vm_service.RPCError catch (err) {
// If an application is not using the framework or the VM service
// disappears while handling a request, return null.
if ((err.code == RPCErrorCodes.kMethodNotFound)
|| (err.code == RPCErrorCodes.kServiceDisappeared)) {
return null;
}
rethrow;
}
}
/// Invoke a flutter extension method, if the flutter extension is not
/// available, returns null.
Future<Map<String, Object?>?> invokeFlutterExtensionRpcRaw(
String method, {
required String isolateId,
Map<String, Object?>? args,
}) async {
final vm_service.Response? response = await _checkedCallServiceExtension(
method,
args: <String, Object?>{
'isolateId': isolateId,
...?args,
},
);
return response?.json;
}
/// List all [FlutterView]s attached to the current VM.
///
/// If this returns an empty list, it will poll forever unless [returnEarly]
/// is set to true.
///
/// By default, the poll duration is 50 milliseconds.
Future<List<FlutterView>> getFlutterViews({
bool returnEarly = false,
Duration delay = const Duration(milliseconds: 50),
}) async {
while (true) {
final vm_service.Response? response = await callMethodWrapper(
kListViewsMethod,
);
if (response == null) {
// The service may have disappeared mid-request.
// Return an empty list now, and let the shutdown logic elsewhere deal
// with cleaning up.
return <FlutterView>[];
}
final List<Object?>? rawViews = response.json?['views'] as List<Object?>?;
final List<FlutterView> views = <FlutterView>[
if (rawViews != null)
for (final Map<String, Object?> rawView in rawViews.whereType<Map<String, Object?>>())
FlutterView.parse(rawView),
];
if (views.isNotEmpty || returnEarly) {
return views;
}
await Future<void>.delayed(delay);
}
}
/// Tell the provided flutter view that the font manifest has been updated
/// and asset fonts should be reloaded.
Future<void> reloadAssetFonts({
required String isolateId,
required String viewId,
}) async {
await callMethodWrapper(
kReloadAssetFonts,
isolateId: isolateId, args: <String, Object?>{
'viewId': viewId,
},
);
}
/// Waits for a signal from the VM service that [extensionName] is registered.
///
/// Looks at the list of loaded extensions for first Flutter view, as well as
/// the stream of added extensions to avoid races.
///
/// If [webIsolate] is true, this uses the VM Service isolate list instead of
/// the `_flutter.listViews` method, which is not implemented by DWDS.
///
/// Throws a [VmServiceDisappearedException] should the VM Service disappear
/// while making calls to it.
Future<vm_service.IsolateRef> findExtensionIsolate(String extensionName) async {
try {
await service.streamListen(vm_service.EventStreams.kIsolate);
} on vm_service.RPCError {
// Do nothing, since the tool is already subscribed.
}
final Completer<vm_service.IsolateRef> extensionAdded = Completer<vm_service.IsolateRef>();
late final StreamSubscription<vm_service.Event> isolateEvents;
isolateEvents = service.onIsolateEvent.listen((vm_service.Event event) {
if (event.kind == vm_service.EventKind.kServiceExtensionAdded
&& event.extensionRPC == extensionName) {
isolateEvents.cancel();
extensionAdded.complete(event.isolate!);
}
});
try {
final List<vm_service.IsolateRef> refs = await _getIsolateRefs();
for (final vm_service.IsolateRef ref in refs) {
final vm_service.Isolate? isolate = await getIsolateOrNull(ref.id!);
if (isolate != null && (isolate.extensionRPCs?.contains(extensionName) ?? false)) {
return ref;
}
}
return await extensionAdded.future;
} finally {
await isolateEvents.cancel();
try {
await service.streamCancel(vm_service.EventStreams.kIsolate);
} on vm_service.RPCError {
// It's ok for cleanup to fail, such as when the service disappears.
}
}
}
Future<List<vm_service.IsolateRef>> _getIsolateRefs() async {
final List<FlutterView> flutterViews = await getFlutterViews();
if (flutterViews.isEmpty) {
throw VmServiceDisappearedException();
}
final List<vm_service.IsolateRef> refs = <vm_service.IsolateRef>[];
for (final FlutterView flutterView in flutterViews) {
final vm_service.IsolateRef? uiIsolate = flutterView.uiIsolate;
if (uiIsolate != null) {
refs.add(uiIsolate);
}
}
return refs;
}
/// Attempt to retrieve the isolate with id [isolateId], or `null` if it has
/// been collected.
Future<vm_service.Isolate?> getIsolateOrNull(String isolateId) async {
return service.getIsolate(isolateId)
.then<vm_service.Isolate?>(
(vm_service.Isolate isolate) => isolate,
onError: (Object? error, StackTrace stackTrace) {
if (error is vm_service.SentinelException ||
error == null ||
(error is vm_service.RPCError && error.code == RPCErrorCodes.kServiceDisappeared)) {
return null;
}
return Future<vm_service.Isolate?>.error(error, stackTrace);
});
}
/// Attempt to retrieve the isolate pause event with id [isolateId], or `null` if it has
/// been collected.
Future<vm_service.Event?> getIsolatePauseEventOrNull(String isolateId) async {
return service.getIsolatePauseEvent(isolateId)
.then<vm_service.Event?>(
(vm_service.Event event) => event,
onError: (Object? error, StackTrace stackTrace) {
if (error is vm_service.SentinelException ||
error == null ||
(error is vm_service.RPCError && error.code == RPCErrorCodes.kServiceDisappeared)) {
return null;
}
return Future<vm_service.Event?>.error(error, stackTrace);
});
}
/// Create a new development file system on the device.
Future<vm_service.Response> createDevFS(String fsName) {
// Call the unchecked version of `callServiceExtension` because the caller
// has custom handling of certain RPCErrors.
return service.callServiceExtension(
'_createDevFS',
args: <String, Object?>{'fsName': fsName},
);
}
/// Delete an existing file system.
Future<void> deleteDevFS(String fsName) async {
await _checkedCallServiceExtension(
'_deleteDevFS',
args: <String, Object?>{'fsName': fsName},
);
}
Future<vm_service.Response?> screenshotSkp() {
return _checkedCallServiceExtension(kScreenshotSkpMethod);
}
/// Set the VM timeline flags.
Future<void> setTimelineFlags(List<String> recordedStreams) async {
await _checkedCallServiceExtension(
'setVMTimelineFlags',
args: <String, Object?>{
'recordedStreams': recordedStreams,
},
);
}
Future<vm_service.Response?> getTimeline() {
return _checkedCallServiceExtension('getVMTimeline');
}
Future<void> dispose() async {
await service.dispose();
}
}
/// Thrown when the VM Service disappears while calls are being made to it.
class VmServiceDisappearedException implements Exception { }
/// Whether the event attached to an [Isolate.pauseEvent] should be considered
/// a "pause" event.
bool isPauseEvent(String kind) {
return kind == vm_service.EventKind.kPauseStart ||
kind == vm_service.EventKind.kPauseExit ||
kind == vm_service.EventKind.kPauseBreakpoint ||
kind == vm_service.EventKind.kPauseInterrupted ||
kind == vm_service.EventKind.kPauseException ||
kind == vm_service.EventKind.kPausePostRequest ||
kind == vm_service.EventKind.kNone;
}
/// A brightness enum that matches the values https://github.com/flutter/engine/blob/3a96741247528133c0201ab88500c0c3c036e64e/lib/ui/window.dart#L1328
/// Describes the contrast of a theme or color palette.
enum Brightness {
/// The color is dark and will require a light text color to achieve readable
/// contrast.
///
/// For example, the color might be dark grey, requiring white text.
dark,
/// The color is light and will require a dark text color to achieve readable
/// contrast.
///
/// For example, the color might be bright white, requiring black text.
light,
}
/// Process a VM service log event into a string message.
String processVmServiceMessage(vm_service.Event event) {
final String message = utf8.decode(base64.decode(event.bytes!));
// Remove extra trailing newlines appended by the vm service.
if (message.endsWith('\n')) {
return message.substring(0, message.length - 1);
}
return message;
}