/* * Copyright 2018 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. */ #pragma once #include #include #include #include #include #include #include #include #include #include namespace bluetooth { namespace common { /** * An interface to various thread related functionality */ class MessageLoopThread final { public: /** * Create a message loop thread with name. Thread won't be running until * StartUp is called. * * @param thread_name name of this worker thread */ explicit MessageLoopThread(const std::string& thread_name); /** * Destroys the message loop thread automatically when it goes out of scope */ ~MessageLoopThread(); /** * Start the underlying thread. Blocks until all thread infrastructure is * setup. IsRunning() and DoInThread() should return true after this call. * Blocks until the thread is successfully started. * * Repeated call to this method will only start this thread once */ void StartUp(); /** * Post a task to run on this thread * * @param from_here location where this task is originated * @param task task created through base::Bind() * @return true if task is successfully scheduled, false if task cannot be * scheduled */ bool DoInThread(const base::Location& from_here, base::OnceClosure task); /** * Shutdown the current thread as if it is never started. IsRunning() and * DoInThread() will return false after this call. Blocks until the thread is * joined and freed. This thread can be re-started again using StartUp() * * Repeated call to this method will only stop this thread once * * NOTE: Should never be called on the thread itself to avoid deadlock */ void ShutDown(); /** * Get the current thread ID returned by PlatformThread::CurrentId() * * On Android platform, this value should be the same as the tid logged by * logcat, which is returned by gettid(). On other platform, this thread id * may have different meanings. Therefore, this ID is only good for logging * and thread comparison purpose * * @return this thread's ID */ base::PlatformThreadId GetThreadId() const; /** * Get this thread's name set in constructor * * @return this thread's name set in constructor */ std::string GetName() const; /** * Get a string representation of this thread * * @return a string representation of this thread */ std::string ToString() const; /** * Check if this thread is running * * @return true iff this thread is running and is able to do task */ bool IsRunning() const; /** * Attempt to make scheduling for this thread real time * * @return true on success, false otherwise */ bool EnableRealTimeScheduling(); /** * Return the weak pointer to this object. This can be useful when posting * delayed tasks to this MessageLoopThread using Timer. */ base::WeakPtr GetWeakPtr(); /** * Return the message loop for this thread. Accessing raw message loop is not * recommended as message loop can be freed internally. * * @return message loop associated with this thread, nullptr if thread is not * running */ base::MessageLoop* message_loop() const; private: /** * Static method to run the thread * * This is used instead of a C++ lambda because of the use of std::shared_ptr * * @param context needs to be a pointer to an instance of MessageLoopThread * @param start_up_promise a std::promise that is used to notify calling * thread the completion of message loop start-up */ static void RunThread(MessageLoopThread* context, std::promise start_up_promise); /** * Post a task to run on this thread after a specified delay. If the task * needs to be cancelable before it's run, use base::CancelableClosure type * for task closure. For example: * * base::CancelableClosure cancelable_task; * cancelable_task.Reset(base::Bind(...)); // bind the task * same_thread->DoInThreadDelayed(FROM_HERE, * cancelable_task.callback(), delay); * ... * // Cancel the task closure * same_thread->DoInThread(FROM_HERE, * base::Bind(&base::CancelableClosure::Cancel, * base::Unretained(&cancelable_task))); * * * Warning: base::CancelableClosure objects must be created on, posted to, * cancelled on, and destroyed on the same thread. * * @param from_here location where this task is originated * @param task task created through base::Bind() * @param delay delay for the task to be executed * @return true if task is successfully scheduled, false if task cannot be * scheduled */ bool DoInThreadDelayed(const base::Location& from_here, base::OnceClosure task, const base::TimeDelta& delay); friend class RepeatingTimer; // allow Timer to use DoInThreadDelayed() friend class OnceTimer; // allow OnceTimer to use DoInThreadDelayed() /** * Actual method to run the thread, blocking until ShutDown() is called * * @param start_up_promise a std::promise that is used to notify calling * thread the completion of message loop start-up */ void Run(std::promise start_up_promise); mutable std::recursive_mutex api_mutex_; const std::string thread_name_; base::MessageLoop* message_loop_; base::RunLoop* run_loop_; std::thread* thread_; base::PlatformThreadId thread_id_; // Linux specific abstractions pid_t linux_tid_; base::WeakPtrFactory weak_ptr_factory_; bool shutting_down_; DISALLOW_COPY_AND_ASSIGN(MessageLoopThread); }; inline std::ostream& operator<<(std::ostream& os, const bluetooth::common::MessageLoopThread& a) { os << a.ToString(); return os; } } // namespace common } // namespace bluetooth