runtime/flutter_runner/runner.cc - topaz - Git at Google

 // Copyright 2018 The Fuchsia 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 "runner.h"

 #include <fuchsia/mem/cpp/fidl.h>
 #include <lib/async/cpp/task.h>
 #include <trace-engine/instrumentation.h>
 #include <zircon/status.h>
 #include <zircon/types.h>

 #include <sstream>
 #include <utility>

 #include "flutter/fml/make_copyable.h"
 #include "flutter/lib/ui/text/font_collection.h"
 #include "fuchsia_font_manager.h"
 #include "third_party/flutter/runtime/dart_vm.h"
 #include "third_party/icu/source/common/unicode/udata.h"
 #include "third_party/skia/include/core/SkGraphics.h"
 #include "topaz/runtime/dart/utils/vmo.h"
 #include "topaz/runtime/dart/utils/vmservice_object.h"

 namespace flutter_runner {

 namespace {

 static constexpr char kIcuDataPath[] = "/pkg/data/icudtl.dat";

 // Map the memory into the process and return a pointer to the memory.
 uintptr_t GetICUData(const fuchsia::mem::Buffer& icu_data) {
   uint64_t data_size = icu_data.size;
   if (data_size > std::numeric_limits<size_t>::max())
     return 0u;

   uintptr_t data = 0u;
   zx_status_t status = zx::vmar::root_self()->map(
       0, icu_data.vmo, 0, static_cast<size_t>(data_size), ZX_VM_PERM_READ,
       &data);
   if (status == ZX_OK) {
     return data;
   }

   return 0u;
 }

 // Return value indicates if initialization was successful.
 bool InitializeICU() {
   const char* data_path = kIcuDataPath;

   fuchsia::mem::Buffer icu_data;
   if (!dart_utils::VmoFromFilename(data_path, &icu_data)) {
     return false;
   }

   uintptr_t data = GetICUData(icu_data);
   if (!data) {
     return false;
   }

   // Pass the data to ICU.
   UErrorCode err = U_ZERO_ERROR;
   udata_setCommonData(reinterpret_cast<const char*>(data), &err);
   return err == U_ZERO_ERROR;
 }

 }  // namespace

 static void SetProcessName() {
   std::stringstream stream;
 #if defined(DART_PRODUCT)
   stream << "io.flutter.product_runner.";
 #else
   stream << "io.flutter.runner.";
 #endif
   if (flutter::DartVM::IsRunningPrecompiledCode()) {
     stream << "aot";
   } else {
     stream << "jit";
   }
   const auto name = stream.str();
   zx::process::self()->set_property(ZX_PROP_NAME, name.c_str(), name.size());
 }

 static void SetThreadName(const std::string& thread_name) {
   zx::thread::self()->set_property(ZX_PROP_NAME, thread_name.c_str(),
                                    thread_name.size());
 }

 Runner::Runner(async::Loop* loop)
     : loop_(loop),
       runner_context_(RunnerContext::CreateFromStartupInfo()) {
 #if !defined(DART_PRODUCT)
   // The VM service isolate uses the process-wide namespace. It writes the
   // vm service protocol port under /tmp. The VMServiceObject exposes that
   // port number to The Hub.
   runner_context_->debug_dir()->AddEntry(
       dart_utils::VMServiceObject::kPortDirName,
       std::make_unique<dart_utils::VMServiceObject>());

   SetupTraceObserver();
 #endif  // !defined(DART_PRODUCT)

   SkGraphics::Init();

   SetupICU();

   SetProcessName();

   SetThreadName("io.flutter.runner.main");

   runner_context_->AddPublicService<fuchsia::sys::Runner>(
       std::bind(&Runner::RegisterApplication, this, std::placeholders::_1));
 }

 Runner::~Runner() {
   runner_context_->RemovePublicService<fuchsia::sys::Runner>();

 #if !defined(DART_PRODUCT)
   trace_observer_->Stop();
 #endif  // !defined(DART_PRODUCT)
 }

 void Runner::RegisterApplication(
     fidl::InterfaceRequest<fuchsia::sys::Runner> request) {
   active_applications_bindings_.AddBinding(this, std::move(request));
 }

 void Runner::StartComponent(
     fuchsia::sys::Package package, fuchsia::sys::StartupInfo startup_info,
     fidl::InterfaceRequest<fuchsia::sys::ComponentController> controller) {
   TRACE_DURATION("flutter", "StartComponent", "url", package.resolved_url);
   // Notes on application termination: Application typically terminate on the
   // thread on which they were created. This usually means the thread was
   // specifically created to host the application. But we want to ensure that
   // access to the active applications collection is made on the same thread. So
   // we capture the runner in the termination callback. There is no risk of
   // there being multiple application runner instance in the process at the same
   // time. So it is safe to use the raw pointer.
   Application::TerminationCallback termination_callback =
       [task_runner = loop_->dispatcher(),  //
        application_runner = this           //
   ](const Application* application) {
         async::PostTask(task_runner, [application_runner, application]() {
           application_runner->OnApplicationTerminate(application);
         });
       };

   auto thread_application_pair = Application::Create(
       std::move(termination_callback),  // termination callback
       std::move(package),               // application pacakge
       std::move(startup_info),          // startup info
       runner_context_->svc(),           // runner incoming services
       std::move(controller)             // controller request
   );

   auto key = thread_application_pair.second.get();

   active_applications_[key] = std::move(thread_application_pair);
 }

 void Runner::OnApplicationTerminate(const Application* application) {
   auto app = active_applications_.find(application);
   if (app == active_applications_.end()) {
     FML_LOG(INFO)
         << "The remote end of the application runner tried to terminate an "
            "application that has already been terminated, possibly because we "
            "initiated the termination";
     return;
   }
   auto& active_application = app->second;

   // Grab the items out of the entry because we will have to rethread the
   // destruction.
   auto application_to_destroy = std::move(active_application.application);
   auto application_thread = std::move(active_application.thread);

   // Delegate the entry.
   active_applications_.erase(application);

   // Post the task to destroy the application and quit its message loop.
   async::PostTask(
       application_thread->dispatcher(),
       fml::MakeCopyable([instance = std::move(application_to_destroy),
                          thread = application_thread.get()]() mutable {
         instance.reset();
         thread->Quit();
       }));

   // This works because just posted the quit task on the hosted thread.
   application_thread->Join();
 }

 void Runner::SetupICU() {
   if (!InitializeICU()) {
     FML_LOG(ERROR) << "Could not initialize ICU data.";
   }
 }

 #if !defined(DART_PRODUCT)
 void Runner::SetupTraceObserver() {
   trace_observer_ = std::make_unique<trace::TraceObserver>();
   trace_observer_->Start(loop_->dispatcher(), [runner = this]() {
     if (!trace_is_category_enabled("dart:profiler")) {
       return;
     }
     if (trace_state() == TRACE_STARTED) {
       runner->prolonged_context_ = trace_acquire_prolonged_context();
       Dart_StartProfiling();
     } else if (trace_state() == TRACE_STOPPING) {
       for (auto& it : runner->active_applications_) {
         fml::AutoResetWaitableEvent latch;
         async::PostTask(it.second.thread->dispatcher(), [&]() {
           it.second.application->WriteProfileToTrace();
           latch.Signal();
         });
         latch.Wait();
       }
       Dart_StopProfiling();
       trace_release_prolonged_context(runner->prolonged_context_);
     }
   });
 }
 #endif  // !defined(DART_PRODUCT)

 }  // namespace flutter_runner
	// Copyright 2018 The Fuchsia 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 "runner.h"

	#include <fuchsia/mem/cpp/fidl.h>
	#include <lib/async/cpp/task.h>
	#include <trace-engine/instrumentation.h>
	#include <zircon/status.h>
	#include <zircon/types.h>

	#include <sstream>
	#include <utility>

	#include "flutter/fml/make_copyable.h"
	#include "flutter/lib/ui/text/font_collection.h"
	#include "fuchsia_font_manager.h"
	#include "third_party/flutter/runtime/dart_vm.h"
	#include "third_party/icu/source/common/unicode/udata.h"
	#include "third_party/skia/include/core/SkGraphics.h"
	#include "topaz/runtime/dart/utils/vmo.h"
	#include "topaz/runtime/dart/utils/vmservice_object.h"

	namespace flutter_runner {

	namespace {

	static constexpr char kIcuDataPath[] = "/pkg/data/icudtl.dat";

	// Map the memory into the process and return a pointer to the memory.
	uintptr_t GetICUData(const fuchsia::mem::Buffer& icu_data) {
	uint64_t data_size = icu_data.size;
	if (data_size > std::numeric_limits<size_t>::max())
	return 0u;

	uintptr_t data = 0u;
	zx_status_t status = zx::vmar::root_self()->map(
	0, icu_data.vmo, 0, static_cast<size_t>(data_size), ZX_VM_PERM_READ,
	&data);
	if (status == ZX_OK) {
	return data;
	}

	return 0u;
	}

	// Return value indicates if initialization was successful.
	bool InitializeICU() {
	const char* data_path = kIcuDataPath;

	fuchsia::mem::Buffer icu_data;
	if (!dart_utils::VmoFromFilename(data_path, &icu_data)) {
	return false;
	}

	uintptr_t data = GetICUData(icu_data);
	if (!data) {
	return false;
	}

	// Pass the data to ICU.
	UErrorCode err = U_ZERO_ERROR;
	udata_setCommonData(reinterpret_cast<const char*>(data), &err);
	return err == U_ZERO_ERROR;
	}

	} // namespace

	static void SetProcessName() {
	std::stringstream stream;
	#if defined(DART_PRODUCT)
	stream << "io.flutter.product_runner.";
	#else
	stream << "io.flutter.runner.";
	#endif
	if (flutter::DartVM::IsRunningPrecompiledCode()) {
	stream << "aot";
	} else {
	stream << "jit";
	}
	const auto name = stream.str();
	zx::process::self()->set_property(ZX_PROP_NAME, name.c_str(), name.size());
	}

	static void SetThreadName(const std::string& thread_name) {
	zx::thread::self()->set_property(ZX_PROP_NAME, thread_name.c_str(),
	thread_name.size());
	}

	Runner::Runner(async::Loop* loop)
	: loop_(loop),
	runner_context_(RunnerContext::CreateFromStartupInfo()) {
	#if !defined(DART_PRODUCT)
	// The VM service isolate uses the process-wide namespace. It writes the
	// vm service protocol port under /tmp. The VMServiceObject exposes that
	// port number to The Hub.
	runner_context_->debug_dir()->AddEntry(
	dart_utils::VMServiceObject::kPortDirName,
	std::make_unique<dart_utils::VMServiceObject>());

	SetupTraceObserver();
	#endif // !defined(DART_PRODUCT)

	SkGraphics::Init();

	SetupICU();

	SetProcessName();

	SetThreadName("io.flutter.runner.main");

	runner_context_->AddPublicService<fuchsia::sys::Runner>(
	std::bind(&Runner::RegisterApplication, this, std::placeholders::_1));
	}

	Runner::~Runner() {
	runner_context_->RemovePublicService<fuchsia::sys::Runner>();

	#if !defined(DART_PRODUCT)
	trace_observer_->Stop();
	#endif // !defined(DART_PRODUCT)
	}

	void Runner::RegisterApplication(
	fidl::InterfaceRequest<fuchsia::sys::Runner> request) {
	active_applications_bindings_.AddBinding(this, std::move(request));
	}

	void Runner::StartComponent(
	fuchsia::sys::Package package, fuchsia::sys::StartupInfo startup_info,
	fidl::InterfaceRequest<fuchsia::sys::ComponentController> controller) {
	TRACE_DURATION("flutter", "StartComponent", "url", package.resolved_url);
	// Notes on application termination: Application typically terminate on the
	// thread on which they were created. This usually means the thread was
	// specifically created to host the application. But we want to ensure that
	// access to the active applications collection is made on the same thread. So
	// we capture the runner in the termination callback. There is no risk of
	// there being multiple application runner instance in the process at the same
	// time. So it is safe to use the raw pointer.
	Application::TerminationCallback termination_callback =
	[task_runner = loop_->dispatcher(), //
	application_runner = this //
	](const Application* application) {
	async::PostTask(task_runner, [application_runner, application]() {
	application_runner->OnApplicationTerminate(application);
	});
	};

	auto thread_application_pair = Application::Create(
	std::move(termination_callback), // termination callback
	std::move(package), // application pacakge
	std::move(startup_info), // startup info
	runner_context_->svc(), // runner incoming services
	std::move(controller) // controller request
	);

	auto key = thread_application_pair.second.get();

	active_applications_[key] = std::move(thread_application_pair);
	}

	void Runner::OnApplicationTerminate(const Application* application) {
	auto app = active_applications_.find(application);
	if (app == active_applications_.end()) {
	FML_LOG(INFO)
	<< "The remote end of the application runner tried to terminate an "
	"application that has already been terminated, possibly because we "
	"initiated the termination";
	return;
	}
	auto& active_application = app->second;

	// Grab the items out of the entry because we will have to rethread the
	// destruction.
	auto application_to_destroy = std::move(active_application.application);
	auto application_thread = std::move(active_application.thread);

	// Delegate the entry.
	active_applications_.erase(application);

	// Post the task to destroy the application and quit its message loop.
	async::PostTask(
	application_thread->dispatcher(),
	fml::MakeCopyable([instance = std::move(application_to_destroy),
	thread = application_thread.get()]() mutable {
	instance.reset();
	thread->Quit();
	}));

	// This works because just posted the quit task on the hosted thread.
	application_thread->Join();
	}

	void Runner::SetupICU() {
	if (!InitializeICU()) {
	FML_LOG(ERROR) << "Could not initialize ICU data.";
	}
	}

	#if !defined(DART_PRODUCT)
	void Runner::SetupTraceObserver() {
	trace_observer_ = std::make_unique<trace::TraceObserver>();
	trace_observer_->Start(loop_->dispatcher(), [runner = this]() {
	if (!trace_is_category_enabled("dart:profiler")) {
	return;
	}
	if (trace_state() == TRACE_STARTED) {
	runner->prolonged_context_ = trace_acquire_prolonged_context();
	Dart_StartProfiling();
	} else if (trace_state() == TRACE_STOPPING) {
	for (auto& it : runner->active_applications_) {
	fml::AutoResetWaitableEvent latch;
	async::PostTask(it.second.thread->dispatcher(), [&]() {
	it.second.application->WriteProfileToTrace();
	latch.Signal();
	});
	latch.Wait();
	}
	Dart_StopProfiling();
	trace_release_prolonged_context(runner->prolonged_context_);
	}
	});
	}
	#endif // !defined(DART_PRODUCT)

	} // namespace flutter_runner