/* Mbed Microcontroller Library * Copyright (c) 2017-2018 ARM Limited * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ #ifndef CONDITIONVARIABLE_H #define CONDITIONVARIABLE_H #include #include "cmsis_os.h" #include "rtos/Mutex.h" #include "rtos/Semaphore.h" #include "platform/NonCopyable.h" namespace rtos { /** \addtogroup rtos */ /** @{*/ struct Waiter; /** The ConditionVariable class is a synchronization primitive that allows * threads to wait until a particular condition occurs. * * Use the condition variable in conjunction with a mutex to safely wait for * or notify waiters of condition changes to a resource accessible by multiple * threads. * * The thread that intends to wait on a ConditionVariable must: * - Acquire a lock on a mutex. * - Execute `wait`, `wait_for` or `wait_until`. While the thread is waiting, * the mutex is unlocked. * - When the condition variable has been notified, or in the case of `wait_for` * and `wait_until` the timeout expires, the thread is awakened. * * The thread that intends to notify a ConditionVariable must: * - Acquire a lock on the mutex used to construct the condition variable. * - Execute `notify_one` or `notify_all` on the condition variable. * * All threads waiting on the condition variable wake when * `ConditionVariable::notify_all` is called. * At least one thread waiting on the condition variable wakes * when `ConditionVariable::notify_one` is called. * * While a thread is waiting for notification of a * ConditionVariable, it releases the lock held on the mutex. * The ConditionVariable reacquires the mutex lock before exiting the wait * function. * * #### Unspecified behavior * - The thread that is unblocked on `ConditionVariable::notify_one` is * unspecified if there are multiple waiters. * - When `ConditionVariable::notify_one` or `ConditionVariable::notify_all` is * called and there are one or more waiters, and one or more threads * attempting to acquire the condition variable's mutex, the order in which the mutex is * acquired is unspecified. * - Spurious notifications (not triggered by the application) can occur. * * #### Undefined behavior * - Calling wait if the mutex is not locked by the current thread is undefined * behavior. * - The order in which waiting threads acquire the condition variable's * mutex after `ConditionVariable::notify_all` is called is undefined. * - The behavior of `ConditionVariable::wait` and `ConditionVariable::wait_for` * is undefined if the condition variable's mutex is locked more than once by * the calling thread. * * @note Synchronization level: Thread safe * * Example: * * @code * #include "mbed.h" * * Mutex mutex; * ConditionVariable cv(mutex); * * // These variables are protected by locking the mutex. * uint32_t work_count = 0; * bool done = false; * * void worker_thread() * { * // Acquire lock on mutex before accessing protected variables and waiting. * mutex.lock(); * * while (done == false) { * printf("Worker thread: Count: %lu\r\n", work_count); * * // Wait for main thread to notify the condition variable. * printf("Worker thread: Waiting\r\n"); * cv.wait(); * } * * printf("Worker: Exiting\r\n"); * * // The condition variable acquires the lock when exiting the `wait` function. * // Unlock mutex when exiting the thread. * mutex.unlock(); * } * * int main() * { * Thread thread; * thread.start(worker_thread); * * for (int i = 0; i < 5; i++) { * // Acquire lock on mutex before modifying variables and notifying. * mutex.lock(); * * // Change count and notify waiters. * work_count++; * printf("Main thread: Set count to: %lu\r\n", work_count); * printf("Main thread: Notifying worker thread\r\n"); * cv.notify_all(); * * // Mutex must be unlocked before the worker thread can acquire it. * mutex.unlock(); * * wait(1.0); * } * * // Change done and notify waiters of this. * mutex.lock(); * done = true; * cv.notify_all(); * mutex.unlock(); * * thread.join(); * * printf("Main: Exiting\r\n"); * } * @endcode */ class ConditionVariable : private mbed::NonCopyable { public: /** Create and initialize a ConditionVariable object. * * @note You cannot call this function from ISR context. */ ConditionVariable(Mutex &mutex); /** Wait for a notification. * * Wait causes the current thread to block until the condition variable * receives a notification from another thread. * * @note - The thread calling this function must be the owner of the * ConditionVariable's mutex, and it must be locked exactly once. * * @note - Spurious notifications can occur, so the caller of this API * should check to make sure the condition the caller is waiting on has * been met. * * @note - The current thread releases the lock while inside the wait * function and reacquires it upon exiting the function. * * Example: * @code * mutex.lock(); * * while (!condition_met) { * cond.wait(); * } * * function_to_handle_condition(); * * mutex.unlock(); * @endcode * * @note You cannot call this function from ISR context. */ void wait(); /** Wait for a notification until the specified time. * * Wait until causes the current thread to block until the condition * variable is notified, or a specific time given by millisec parameter is * reached. * * @param millisec Absolute end time referenced to `Kernel::get_ms_count()` * @return `true` if a timeout occurred, `false` otherwise. * * @note - The thread calling this function must be the owner of the * ConditionVariable's mutex, and it must be locked exactly once. * * @note - Spurious notifications can occur, so the caller of this API * should check to make sure the condition the caller is waiting on has * been met. * * @note - The current thread releases the lock while inside the wait * function and reacquires it upon exiting the function. * * Example: * @code * mutex.lock(); * uint64_t end_time = Kernel::get_ms_count() + COND_WAIT_TIMEOUT; * * while (!condition_met) { * if (cond.wait_until(end_time)) { * break; * } * } * * if (condition_met) { * function_to_handle_condition(); * } * * mutex.unlock(); * @endcode * * @note You cannot call this function from ISR context. */ bool wait_until(uint64_t millisec); /** Wait for a notification or timeout. * * `Wait for` causes the current thread to block until the condition * variable receives a notification from another thread, or the timeout * specified by the millisec parameter is reached. * * @param millisec Timeout value or osWaitForever in case of no timeout. * @return `true` if a timeout occurred, `false` otherwise. * * @note - The thread calling this function must be the owner of the * ConditionVariable's mutex, and it must be locked exactly once. * * @note - Spurious notifications can occur, so the caller of this API * should check to make sure the condition the caller is waiting on has * been met. * * @note - The current thread releases the lock while inside the wait * function and reacquire it upon exiting the function. * * Example: * @code * mutex.lock(); * * while (!condition_met) { * cond.wait_for(MAX_SLEEP_TIME); * if (!condition_met) { * do_other_work_while_condition_false(); * } * } * * if (condition_met) { * function_to_handle_condition(); * } * * mutex.unlock(); * @endcode * * @note You cannot call this function from ISR context. */ bool wait_for(uint32_t millisec); /** Notify one waiter on this condition variable that a condition changed. * * This function unblocks one of the threads waiting for the condition * variable. * * @note - The thread calling this function must be the owner of the * ConditionVariable's mutex. * * @note - The thread that is unblocked on ConditionVariable::notify_one is * undefined if there are multiple waiters. * * @note You cannot call this function from ISR context. */ void notify_one(); /** Notify all waiters on this condition variable that a condition changed. * * This function unblocks all of the threads waiting for the condition * variable. * * @note - The thread calling this function must be the owner of the * ConditionVariable's mutex. * * @note - If there are one or more waiters and one or more threads * attempting to acquire the condition variable's mutex the order in which * the mutex is acquired is undefined. * * @note You cannot call this function from ISR context. */ void notify_all(); /** ConditionVariable destructor. * * @note You cannot call this function from ISR context. */ ~ConditionVariable(); #if !defined(DOXYGEN_ONLY) protected: struct Waiter { Waiter(); Semaphore sem; Waiter *prev; Waiter *next; bool in_list; }; static void _add_wait_list(Waiter **wait_list, Waiter *waiter); static void _remove_wait_list(Waiter **wait_list, Waiter *waiter); Mutex &_mutex; Waiter *_wait_list; #endif // !defined(DOXYGEN_ONLY) }; } #endif /** @}*/