gd/module.cc - platform/system/bt - Git at Google

 /*
  * Copyright 2019 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */
 #define LOG_TAG "BtGdModule"

 #include "module.h"
 #include "common/init_flags.h"
 #include "dumpsys/init_flags.h"
 #include "os/wakelock_manager.h"

 using ::bluetooth::os::Handler;
 using ::bluetooth::os::Thread;
 using ::bluetooth::os::WakelockManager;

 namespace bluetooth {

 constexpr std::chrono::milliseconds kModuleStopTimeout = std::chrono::milliseconds(2000);

 ModuleFactory::ModuleFactory(std::function<Module*()> ctor) : ctor_(ctor) {
 }

 Handler* Module::GetHandler() const {
   ASSERT_LOG(handler_ != nullptr, "Can't get handler when it's not started");
   return handler_;
 }

 DumpsysDataFinisher EmptyDumpsysDataFinisher = [](DumpsysDataBuilder* dumpsys_data_builder) {};
 DumpsysDataFinisher Module::GetDumpsysData(flatbuffers::FlatBufferBuilder* builder) const {
   return EmptyDumpsysDataFinisher;
 }

 const ModuleRegistry* Module::GetModuleRegistry() const {
   return registry_;
 }

 Module* Module::GetDependency(const ModuleFactory* module) const {
   for (auto& dependency : dependencies_.list_) {
     if (dependency == module) {
       return registry_->Get(module);
     }
   }

   ASSERT_LOG(false, "Module was not listed as a dependency in ListDependencies");
 }

 Module* ModuleRegistry::Get(const ModuleFactory* module) const {
   auto instance = started_modules_.find(module);
   ASSERT(instance != started_modules_.end());
   return instance->second;
 }

 bool ModuleRegistry::IsStarted(const ModuleFactory* module) const {
   return started_modules_.find(module) != started_modules_.end();
 }

 void ModuleRegistry::Start(ModuleList* modules, Thread* thread) {
   for (auto it = modules->list_.begin(); it != modules->list_.end(); it++) {
     Start(*it, thread);
   }
 }

 void ModuleRegistry::set_registry_and_handler(Module* instance, Thread* thread) const {
   instance->registry_ = this;
   instance->handler_ = new Handler(thread);
 }

 Module* ModuleRegistry::Start(const ModuleFactory* module, Thread* thread) {
   auto started_instance = started_modules_.find(module);
   if (started_instance != started_modules_.end()) {
     return started_instance->second;
   }

   LOG_DEBUG("Constructing next module");
   Module* instance = module->ctor_();
   last_instance_ = "starting " + instance->ToString();
   set_registry_and_handler(instance, thread);

   LOG_DEBUG("Starting dependencies of %s", instance->ToString().c_str());
   instance->ListDependencies(&instance->dependencies_);
   Start(&instance->dependencies_, thread);

   LOG_DEBUG("Finished starting dependencies and calling Start() of %s", instance->ToString().c_str());

   instance->Start();
   start_order_.push_back(module);
   started_modules_[module] = instance;
   LOG_DEBUG("Started %s", instance->ToString().c_str());
   return instance;
 }

 void ModuleRegistry::StopAll() {
   // Since modules were brought up in dependency order, it is safe to tear down by going in reverse order.
   for (auto it = start_order_.rbegin(); it != start_order_.rend(); it++) {
     auto instance = started_modules_.find(*it);
     ASSERT(instance != started_modules_.end());
     last_instance_ = "stopping " + instance->second->ToString();

     // Clear the handler before stopping the module to allow it to shut down gracefully.
     LOG_INFO("Stopping Handler of Module %s", instance->second->ToString().c_str());
     instance->second->handler_->Clear();
     instance->second->handler_->WaitUntilStopped(kModuleStopTimeout);
     LOG_INFO("Stopping Module %s", instance->second->ToString().c_str());
     instance->second->Stop();
   }
   for (auto it = start_order_.rbegin(); it != start_order_.rend(); it++) {
     auto instance = started_modules_.find(*it);
     ASSERT(instance != started_modules_.end());
     delete instance->second->handler_;
     delete instance->second;
     started_modules_.erase(instance);
   }

   ASSERT(started_modules_.empty());
   start_order_.clear();
 }

 os::Handler* ModuleRegistry::GetModuleHandler(const ModuleFactory* module) const {
   auto started_instance = started_modules_.find(module);
   if (started_instance != started_modules_.end()) {
     return started_instance->second->GetHandler();
   }
   return nullptr;
 }

 void ModuleDumper::DumpState(std::string* output) const {
   ASSERT(output != nullptr);

   flatbuffers::FlatBufferBuilder builder(1024);
   auto title = builder.CreateString(title_);

   auto init_flags_offset = dumpsys::InitFlags::Dump(&builder);
   auto wakelock_offset = WakelockManager::Get().GetDumpsysData(&builder);

   std::queue<DumpsysDataFinisher> queue;
   for (auto it = module_registry_.start_order_.rbegin(); it != module_registry_.start_order_.rend(); it++) {
     auto instance = module_registry_.started_modules_.find(*it);
     ASSERT(instance != module_registry_.started_modules_.end());
     queue.push(instance->second->GetDumpsysData(&builder));
   }

   DumpsysDataBuilder data_builder(builder);
   data_builder.add_title(title);
   data_builder.add_init_flags(init_flags_offset);
   data_builder.add_wakelock_manager_data(wakelock_offset);

   while (!queue.empty()) {
     queue.front()(&data_builder);
     queue.pop();
   }

   builder.Finish(data_builder.Finish());
   *output = std::string(builder.GetBufferPointer(), builder.GetBufferPointer() + builder.GetSize());
 }

 }  // namespace bluetooth
	/*
	* Copyright 2019 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/
	#define LOG_TAG "BtGdModule"

	#include "module.h"
	#include "common/init_flags.h"
	#include "dumpsys/init_flags.h"
	#include "os/wakelock_manager.h"

	using ::bluetooth::os::Handler;
	using ::bluetooth::os::Thread;
	using ::bluetooth::os::WakelockManager;

	namespace bluetooth {

	constexpr std::chrono::milliseconds kModuleStopTimeout = std::chrono::milliseconds(2000);

	ModuleFactory::ModuleFactory(std::function<Module*()> ctor) : ctor_(ctor) {
	}

	Handler* Module::GetHandler() const {
	ASSERT_LOG(handler_ != nullptr, "Can't get handler when it's not started");
	return handler_;
	}

	DumpsysDataFinisher EmptyDumpsysDataFinisher = [](DumpsysDataBuilder* dumpsys_data_builder) {};
	DumpsysDataFinisher Module::GetDumpsysData(flatbuffers::FlatBufferBuilder* builder) const {
	return EmptyDumpsysDataFinisher;
	}

	const ModuleRegistry* Module::GetModuleRegistry() const {
	return registry_;
	}

	Module* Module::GetDependency(const ModuleFactory* module) const {
	for (auto& dependency : dependencies_.list_) {
	if (dependency == module) {
	return registry_->Get(module);
	}
	}

	ASSERT_LOG(false, "Module was not listed as a dependency in ListDependencies");
	}

	Module* ModuleRegistry::Get(const ModuleFactory* module) const {
	auto instance = started_modules_.find(module);
	ASSERT(instance != started_modules_.end());
	return instance->second;
	}

	bool ModuleRegistry::IsStarted(const ModuleFactory* module) const {
	return started_modules_.find(module) != started_modules_.end();
	}

	void ModuleRegistry::Start(ModuleList* modules, Thread* thread) {
	for (auto it = modules->list_.begin(); it != modules->list_.end(); it++) {
	Start(*it, thread);
	}
	}

	void ModuleRegistry::set_registry_and_handler(Module* instance, Thread* thread) const {
	instance->registry_ = this;
	instance->handler_ = new Handler(thread);
	}

	Module* ModuleRegistry::Start(const ModuleFactory* module, Thread* thread) {
	auto started_instance = started_modules_.find(module);
	if (started_instance != started_modules_.end()) {
	return started_instance->second;
	}

	LOG_DEBUG("Constructing next module");
	Module* instance = module->ctor_();
	last_instance_ = "starting " + instance->ToString();
	set_registry_and_handler(instance, thread);

	LOG_DEBUG("Starting dependencies of %s", instance->ToString().c_str());
	instance->ListDependencies(&instance->dependencies_);
	Start(&instance->dependencies_, thread);

	LOG_DEBUG("Finished starting dependencies and calling Start() of %s", instance->ToString().c_str());

	instance->Start();
	start_order_.push_back(module);
	started_modules_[module] = instance;
	LOG_DEBUG("Started %s", instance->ToString().c_str());
	return instance;
	}

	void ModuleRegistry::StopAll() {
	// Since modules were brought up in dependency order, it is safe to tear down by going in reverse order.
	for (auto it = start_order_.rbegin(); it != start_order_.rend(); it++) {
	auto instance = started_modules_.find(*it);
	ASSERT(instance != started_modules_.end());
	last_instance_ = "stopping " + instance->second->ToString();

	// Clear the handler before stopping the module to allow it to shut down gracefully.
	LOG_INFO("Stopping Handler of Module %s", instance->second->ToString().c_str());
	instance->second->handler_->Clear();
	instance->second->handler_->WaitUntilStopped(kModuleStopTimeout);
	LOG_INFO("Stopping Module %s", instance->second->ToString().c_str());
	instance->second->Stop();
	}
	for (auto it = start_order_.rbegin(); it != start_order_.rend(); it++) {
	auto instance = started_modules_.find(*it);
	ASSERT(instance != started_modules_.end());
	delete instance->second->handler_;
	delete instance->second;
	started_modules_.erase(instance);
	}

	ASSERT(started_modules_.empty());
	start_order_.clear();
	}

	os::Handler* ModuleRegistry::GetModuleHandler(const ModuleFactory* module) const {
	auto started_instance = started_modules_.find(module);
	if (started_instance != started_modules_.end()) {
	return started_instance->second->GetHandler();
	}
	return nullptr;
	}

	void ModuleDumper::DumpState(std::string* output) const {
	ASSERT(output != nullptr);

	flatbuffers::FlatBufferBuilder builder(1024);
	auto title = builder.CreateString(title_);

	auto init_flags_offset = dumpsys::InitFlags::Dump(&builder);
	auto wakelock_offset = WakelockManager::Get().GetDumpsysData(&builder);

	std::queue<DumpsysDataFinisher> queue;
	for (auto it = module_registry_.start_order_.rbegin(); it != module_registry_.start_order_.rend(); it++) {
	auto instance = module_registry_.started_modules_.find(*it);
	ASSERT(instance != module_registry_.started_modules_.end());
	queue.push(instance->second->GetDumpsysData(&builder));
	}

	DumpsysDataBuilder data_builder(builder);
	data_builder.add_title(title);
	data_builder.add_init_flags(init_flags_offset);
	data_builder.add_wakelock_manager_data(wakelock_offset);

	while (!queue.empty()) {
	queue.front()(&data_builder);
	queue.pop();
	}

	builder.Finish(data_builder.Finish());
	*output = std::string(builder.GetBufferPointer(), builder.GetBufferPointer() + builder.GetSize());
	}

	} // namespace bluetooth