runtime/dart_vm_initializer.cc - mirrors/engine - Git at Google

 // Copyright 2013 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.

 #include "flutter/runtime/dart_vm_initializer.h"

 #include <atomic>

 #include "flutter/fml/logging.h"
 #include "flutter/fml/synchronization/shared_mutex.h"
 #include "flutter/fml/trace_event.h"
 #include "flutter/lib/ui/ui_dart_state.h"
 #include "flutter/lib/ui/window/platform_configuration.h"
 #include "third_party/tonic/converter/dart_converter.h"
 #include "third_party/tonic/logging/dart_error.h"

 #include "dart_timestamp_provider.h"

 namespace {
 // Tracks whether Dart has been initialized and if it is safe to call Dart
 // APIs.
 static std::atomic<bool> gDartInitialized;

 void LogUnhandledException(Dart_Handle exception_handle,
                            Dart_Handle stack_trace_handle) {
   const std::string error =
       tonic::StdStringFromDart(Dart_ToString(exception_handle));
   const std::string stack_trace =
       tonic::StdStringFromDart(Dart_ToString(stack_trace_handle));

   auto state = flutter::UIDartState::Current();
   if (state && state->unhandled_exception_callback()) {
     auto callback = state->unhandled_exception_callback();
     if (callback(error, stack_trace)) {
       return;
     }
   }

   // Either the exception handler was not set or it could not handle the
   // error, just log the exception.
   FML_LOG(ERROR) << "Unhandled Exception: " << error << std::endl
                  << stack_trace;
 }

 void ReportUnhandledException(Dart_Handle exception_handle,
                               Dart_Handle stack_trace_handle) {
   // Hooks.dart will call the error handler on PlatformDispatcher if it is
   // not null. If it is null, returns false, fall into the !handled branch
   // below and log.
   // If it is not null, defer to the return value of that closure
   // to determine whether to report via logging.
   bool handled = false;
   auto state = flutter::UIDartState::Current();
   if (!state || !state->platform_configuration()) {
     LogUnhandledException(exception_handle, stack_trace_handle);
     return;
   }
   auto on_error = state->platform_configuration()->on_error();
   if (on_error) {
     FML_DCHECK(!Dart_IsNull(on_error));
     Dart_Handle args[2];
     args[0] = exception_handle;
     args[1] = stack_trace_handle;
     Dart_Handle on_error_result = Dart_InvokeClosure(on_error, 2, args);

     // An exception was thrown by the exception handler.
     if (Dart_IsError(on_error_result)) {
       LogUnhandledException(Dart_ErrorGetException(on_error_result),
                             Dart_ErrorGetStackTrace(on_error_result));

       handled = false;
     } else {
       handled = tonic::DartConverter<bool>::FromDart(on_error_result);
     }
     if (!handled) {
       LogUnhandledException(exception_handle, stack_trace_handle);
     }
   }
 }
 }  // namespace

 void DartVMInitializer::Initialize(Dart_InitializeParams* params,
                                    bool enable_timeline_event_handler,
                                    bool trace_systrace) {
   FML_DCHECK(!gDartInitialized);

   char* error = Dart_Initialize(params);
   if (error) {
     FML_LOG(FATAL) << "Error while initializing the Dart VM: " << error;
     ::free(error);
   } else {
     gDartInitialized = true;
   }

   if (enable_timeline_event_handler) {
     if (!trace_systrace) {
       // Systrace on all platforms except Fuchsia ignores the timestamp provided
       // here. On Android in particular, calls to get the system clock show up
       // in profiles.
       // Fuchsia does not use the TraceSetTimelineMicrosSource.
       fml::tracing::TraceSetTimelineMicrosSource(Dart_TimelineGetMicros);
     } else {
       fml::tracing::TraceSetTimelineMicrosSource(
           []() -> int64_t { return -1; });
     }
     fml::tracing::TraceSetTimelineEventHandler(LogDartTimelineEvent);
   }

   fml::TimePoint::SetClockSource(flutter::DartTimelineTicksSinceEpoch);
   tonic::SetUnhandledExceptionReporter(&ReportUnhandledException);
 }

 void DartVMInitializer::Cleanup() {
   FML_DCHECK(gDartInitialized);

   // Dart_TimelineEvent is unsafe during a concurrent call to Dart_Cleanup
   // because Dart_Cleanup will destroy the timeline recorder.  Clear the
   // initialized flag so that future calls to LogDartTimelineEvent will not
   // call Dart_TimelineEvent.
   //
   // Note that this is inherently racy.  If a thread sees that gDartInitialized
   // is set and proceeds to call Dart_TimelineEvent shortly before another
   // thread calls Dart_Cleanup, then the Dart_TimelineEvent call may crash
   // if Dart_Cleanup deletes the timeline before Dart_TimelineEvent completes.
   // In practice this is unlikely because Dart_Cleanup does significant other
   // work before deleting the timeline.
   //
   // The engine can not safely guard Dart_Cleanup and LogDartTimelineEvent with
   // a lock due to the risk of deadlocks.  Dart_Cleanup waits for various
   // Dart-owned threads to shut down.  If one of those threads invokes an engine
   // callback that calls LogDartTimelineEvent while the Dart_Cleanup thread owns
   // the lock, then Dart_Cleanup would deadlock.
   gDartInitialized = false;

   char* error = Dart_Cleanup();
   if (error) {
     FML_LOG(FATAL) << "Error while cleaning up the Dart VM: " << error;
     ::free(error);
   }
 }

 void DartVMInitializer::LogDartTimelineEvent(const char* label,
                                              int64_t timestamp0,
                                              int64_t timestamp1_or_async_id,
                                              Dart_Timeline_Event_Type type,
                                              intptr_t argument_count,
                                              const char** argument_names,
                                              const char** argument_values) {
   if (gDartInitialized) {
     Dart_TimelineEvent(label, timestamp0, timestamp1_or_async_id, type,
                        argument_count, argument_names, argument_values);
   }
 }
	// Copyright 2013 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.

	#include "flutter/runtime/dart_vm_initializer.h"

	#include <atomic>

	#include "flutter/fml/logging.h"
	#include "flutter/fml/synchronization/shared_mutex.h"
	#include "flutter/fml/trace_event.h"
	#include "flutter/lib/ui/ui_dart_state.h"
	#include "flutter/lib/ui/window/platform_configuration.h"
	#include "third_party/tonic/converter/dart_converter.h"
	#include "third_party/tonic/logging/dart_error.h"

	#include "dart_timestamp_provider.h"

	namespace {
	// Tracks whether Dart has been initialized and if it is safe to call Dart
	// APIs.
	static std::atomic<bool> gDartInitialized;

	void LogUnhandledException(Dart_Handle exception_handle,
	Dart_Handle stack_trace_handle) {
	const std::string error =
	tonic::StdStringFromDart(Dart_ToString(exception_handle));
	const std::string stack_trace =
	tonic::StdStringFromDart(Dart_ToString(stack_trace_handle));

	auto state = flutter::UIDartState::Current();
	if (state && state->unhandled_exception_callback()) {
	auto callback = state->unhandled_exception_callback();
	if (callback(error, stack_trace)) {
	return;
	}
	}

	// Either the exception handler was not set or it could not handle the
	// error, just log the exception.
	FML_LOG(ERROR) << "Unhandled Exception: " << error << std::endl
	<< stack_trace;
	}

	void ReportUnhandledException(Dart_Handle exception_handle,
	Dart_Handle stack_trace_handle) {
	// Hooks.dart will call the error handler on PlatformDispatcher if it is
	// not null. If it is null, returns false, fall into the !handled branch
	// below and log.
	// If it is not null, defer to the return value of that closure
	// to determine whether to report via logging.
	bool handled = false;
	auto state = flutter::UIDartState::Current();
	if (!state \|\| !state->platform_configuration()) {
	LogUnhandledException(exception_handle, stack_trace_handle);
	return;
	}
	auto on_error = state->platform_configuration()->on_error();
	if (on_error) {
	FML_DCHECK(!Dart_IsNull(on_error));
	Dart_Handle args[2];
	args[0] = exception_handle;
	args[1] = stack_trace_handle;
	Dart_Handle on_error_result = Dart_InvokeClosure(on_error, 2, args);

	// An exception was thrown by the exception handler.
	if (Dart_IsError(on_error_result)) {
	LogUnhandledException(Dart_ErrorGetException(on_error_result),
	Dart_ErrorGetStackTrace(on_error_result));

	handled = false;
	} else {
	handled = tonic::DartConverter<bool>::FromDart(on_error_result);
	}
	if (!handled) {
	LogUnhandledException(exception_handle, stack_trace_handle);
	}
	}
	}
	} // namespace

	void DartVMInitializer::Initialize(Dart_InitializeParams* params,
	bool enable_timeline_event_handler,
	bool trace_systrace) {
	FML_DCHECK(!gDartInitialized);

	char* error = Dart_Initialize(params);
	if (error) {
	FML_LOG(FATAL) << "Error while initializing the Dart VM: " << error;
	::free(error);
	} else {
	gDartInitialized = true;
	}

	if (enable_timeline_event_handler) {
	if (!trace_systrace) {
	// Systrace on all platforms except Fuchsia ignores the timestamp provided
	// here. On Android in particular, calls to get the system clock show up
	// in profiles.
	// Fuchsia does not use the TraceSetTimelineMicrosSource.
	fml::tracing::TraceSetTimelineMicrosSource(Dart_TimelineGetMicros);
	} else {
	fml::tracing::TraceSetTimelineMicrosSource(
	[]() -> int64_t { return -1; });
	}
	fml::tracing::TraceSetTimelineEventHandler(LogDartTimelineEvent);
	}

	fml::TimePoint::SetClockSource(flutter::DartTimelineTicksSinceEpoch);
	tonic::SetUnhandledExceptionReporter(&ReportUnhandledException);
	}

	void DartVMInitializer::Cleanup() {
	FML_DCHECK(gDartInitialized);

	// Dart_TimelineEvent is unsafe during a concurrent call to Dart_Cleanup
	// because Dart_Cleanup will destroy the timeline recorder. Clear the
	// initialized flag so that future calls to LogDartTimelineEvent will not
	// call Dart_TimelineEvent.
	//
	// Note that this is inherently racy. If a thread sees that gDartInitialized
	// is set and proceeds to call Dart_TimelineEvent shortly before another
	// thread calls Dart_Cleanup, then the Dart_TimelineEvent call may crash
	// if Dart_Cleanup deletes the timeline before Dart_TimelineEvent completes.
	// In practice this is unlikely because Dart_Cleanup does significant other
	// work before deleting the timeline.
	//
	// The engine can not safely guard Dart_Cleanup and LogDartTimelineEvent with
	// a lock due to the risk of deadlocks. Dart_Cleanup waits for various
	// Dart-owned threads to shut down. If one of those threads invokes an engine
	// callback that calls LogDartTimelineEvent while the Dart_Cleanup thread owns
	// the lock, then Dart_Cleanup would deadlock.
	gDartInitialized = false;

	char* error = Dart_Cleanup();
	if (error) {
	FML_LOG(FATAL) << "Error while cleaning up the Dart VM: " << error;
	::free(error);
	}
	}

	void DartVMInitializer::LogDartTimelineEvent(const char* label,
	int64_t timestamp0,
	int64_t timestamp1_or_async_id,
	Dart_Timeline_Event_Type type,
	intptr_t argument_count,
	const char** argument_names,
	const char** argument_values) {
	if (gDartInitialized) {
	Dart_TimelineEvent(label, timestamp0, timestamp1_or_async_id, type,
	argument_count, argument_names, argument_values);
	}
	}