/* ChibiOS/RT - Copyright (C) 2006,2007,2008,2009,2010, 2011,2012 Giovanni Di Sirio. This file is part of ChibiOS/RT. ChibiOS/RT is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. ChibiOS/RT is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . --- A special exception to the GPL can be applied should you wish to distribute a combined work that includes ChibiOS/RT, without being obliged to provide the source code for any proprietary components. See the file exception.txt for full details of how and when the exception can be applied. */ /** * @file chthreads.c * @brief Threads code. * * @addtogroup threads * @details Threads related APIs and services. * *

Operation mode

* A thread is an abstraction of an independent instructions flow. * In ChibiOS/RT a thread is represented by a "C" function owning * a processor context, state informations and a dedicated stack * area. In this scenario static variables are shared among all * threads while automatic variables are local to the thread.
* Operations defined for threads: * - Create, a thread is started on the specified thread * function. This operation is available in multiple variants, * both static and dynamic. * - Exit, a thread terminates by returning from its top * level function or invoking a specific API, the thread can * return a value that can be retrieved by other threads. * - Wait, a thread waits for the termination of another * thread and retrieves its return value. * - Resume, a thread created in suspended state is started. * - Sleep, the execution of a thread is suspended for the * specified amount of time or the specified future absolute time * is reached. * - SetPriority, a thread changes its own priority level. * - Yield, a thread voluntarily renounces to its time slot. * . * The threads subsystem is implicitly included in kernel however * some of its part may be excluded by disabling them in @p chconf.h, * see the @p CH_USE_WAITEXIT and @p CH_USE_DYNAMIC configuration * options. * @{ */ #include "ch.h" /** * @brief Initializes a thread structure. * @note This is an internal functions, do not use it in application code. * * @param[in] tp pointer to the thread * @param[in] prio the priority level for the new thread * @return The same thread pointer passed as parameter. * * @notapi */ Thread *_thread_init(Thread *tp, tprio_t prio) { tp->p_prio = prio; tp->p_state = THD_STATE_SUSPENDED; tp->p_flags = THD_MEM_MODE_STATIC; #if CH_USE_MUTEXES tp->p_realprio = prio; tp->p_mtxlist = NULL; #endif #if CH_USE_EVENTS tp->p_epending = 0; #endif #if CH_DBG_THREADS_PROFILING tp->p_time = 0; #endif #if CH_USE_DYNAMIC tp->p_refs = 1; #endif #if CH_USE_REGISTRY tp->p_name = NULL; REG_INSERT(tp); #endif #if CH_USE_WAITEXIT list_init(&tp->p_waiting); #endif #if CH_USE_MESSAGES queue_init(&tp->p_msgqueue); #endif #if CH_DBG_ENABLE_STACK_CHECK tp->p_stklimit = (stkalign_t *)(tp + 1); #endif #if defined(THREAD_EXT_INIT_HOOK) THREAD_EXT_INIT_HOOK(tp); #endif return tp; } #if CH_DBG_FILL_THREADS || defined(__DOXYGEN__) /** * @brief Memory fill utility. * * @param[in] startp first address to fill * @param[in] endp last address to fill +1 * @param[in] v filler value * * @notapi */ void _thread_memfill(uint8_t *startp, uint8_t *endp, uint8_t v) { while (startp < endp) *startp++ = v; } #endif /* CH_DBG_FILL_THREADS */ /** * @brief Creates a new thread into a static memory area. * @details The new thread is initialized but not inserted in the ready list, * the initial state is @p THD_STATE_SUSPENDED. * @post The initialized thread can be subsequently started by invoking * @p chThdResume(), @p chThdResumeI() or @p chSchWakeupS() * depending on the execution context. * @note A thread can terminate by calling @p chThdExit() or by simply * returning from its main function. * @note Threads created using this function do not obey to the * @p CH_DBG_FILL_THREADS debug option because it would keep * the kernel locked for too much time. * * @param[out] wsp pointer to a working area dedicated to the thread stack * @param[in] size size of the working area * @param[in] prio the priority level for the new thread * @param[in] pf the thread function * @param[in] arg an argument passed to the thread function. It can be * @p NULL. * @return The pointer to the @p Thread structure allocated for * the thread into the working space area. * * @iclass */ Thread *chThdCreateI(void *wsp, size_t size, tprio_t prio, tfunc_t pf, void *arg) { /* Thread structure is laid out in the lower part of the thread workspace.*/ Thread *tp = wsp; chDbgCheckClassI(); chDbgCheck((wsp != NULL) && (size >= THD_WA_SIZE(0)) && (prio <= HIGHPRIO) && (pf != NULL), "chThdCreateI"); SETUP_CONTEXT(wsp, size, pf, arg); return _thread_init(tp, prio); } /** * @brief Creates a new thread into a static memory area. * @note A thread can terminate by calling @p chThdExit() or by simply * returning from its main function. * * @param[out] wsp pointer to a working area dedicated to the thread stack * @param[in] size size of the working area * @param[in] prio the priority level for the new thread * @param[in] pf the thread function * @param[in] arg an argument passed to the thread function. It can be * @p NULL. * @return The pointer to the @p Thread structure allocated for * the thread into the working space area. * * @api */ Thread *chThdCreateStatic(void *wsp, size_t size, tprio_t prio, tfunc_t pf, void *arg) { Thread *tp; #if CH_DBG_FILL_THREADS _thread_memfill((uint8_t *)wsp, (uint8_t *)wsp + sizeof(Thread), CH_THREAD_FILL_VALUE); _thread_memfill((uint8_t *)wsp + sizeof(Thread), (uint8_t *)wsp + size, CH_STACK_FILL_VALUE); #endif chSysLock(); chSchWakeupS(tp = chThdCreateI(wsp, size, prio, pf, arg), RDY_OK); chSysUnlock(); return tp; } /** * @brief Changes the running thread priority level then reschedules if * necessary. * @note The function returns the real thread priority regardless of the * current priority that could be higher than the real priority * because the priority inheritance mechanism. * * @param[in] newprio the new priority level of the running thread * @return The old priority level. * * @api */ tprio_t chThdSetPriority(tprio_t newprio) { tprio_t oldprio; chDbgCheck(newprio <= ABSPRIO, "chThdSetPriority"); chSysLock(); #if CH_USE_MUTEXES oldprio = currp->p_realprio; if ((currp->p_prio == currp->p_realprio) || (newprio > currp->p_prio)) currp->p_prio = newprio; currp->p_realprio = newprio; #else oldprio = currp->p_prio; currp->p_prio = newprio; #endif chSchRescheduleS(); chSysUnlock(); return oldprio; } /** * @brief Resumes a suspended thread. * @pre The specified thread pointer must refer to an initialized thread * in the @p THD_STATE_SUSPENDED state. * @post The specified thread is immediately started or put in the ready * list depending on the relative priority levels. * @note Use this function to start threads created with @p chThdInit(). * * @param[in] tp pointer to the thread * @return The pointer to the thread. * * @api */ Thread *chThdResume(Thread *tp) { chSysLock(); chDbgAssert(tp->p_state == THD_STATE_SUSPENDED, "chThdResume(), #1", "thread not in THD_STATE_SUSPENDED state"); chSchWakeupS(tp, RDY_OK); chSysUnlock(); return tp; } /** * @brief Requests a thread termination. * @pre The target thread must be written to invoke periodically * @p chThdShouldTerminate() and terminate cleanly if it returns * @p TRUE. * @post The specified thread will terminate after detecting the termination * condition. * * @param[in] tp pointer to the thread * * @api */ void chThdTerminate(Thread *tp) { chSysLock(); tp->p_flags |= THD_TERMINATE; chSysUnlock(); } /** * @brief Suspends the invoking thread for the specified time. * * @param[in] time the delay in system ticks, the special values are * handled as follow: * - @a TIME_INFINITE the thread enters an infinite sleep * state. * - @a TIME_IMMEDIATE this value is not allowed. * . * * @api */ void chThdSleep(systime_t time) { chDbgCheck(time != TIME_IMMEDIATE, "chThdSleep"); chSysLock(); chThdSleepS(time); chSysUnlock(); } /** * @brief Suspends the invoking thread until the system time arrives to the * specified value. * * @param[in] time absolute system time * * @api */ void chThdSleepUntil(systime_t time) { chSysLock(); if ((time -= chTimeNow()) > 0) chThdSleepS(time); chSysUnlock(); } /** * @brief Yields the time slot. * @details Yields the CPU control to the next thread in the ready list with * equal priority, if any. * * @api */ void chThdYield(void) { chSysLock(); chSchDoYieldS(); chSysUnlock(); } /** * @brief Terminates the current thread. * @details The thread goes in the @p THD_STATE_FINAL state holding the * specified exit status code, other threads can retrieve the * exit status code by invoking the function @p chThdWait(). * @post Eventual code after this function will never be executed, * this function never returns. The compiler has no way to * know this so do not assume that the compiler would remove * the dead code. * * @param[in] msg thread exit code * * @api */ void chThdExit(msg_t msg) { chSysLock(); chThdExitS(msg); /* The thread never returns here.*/ } /** * @brief Terminates the current thread. * @details The thread goes in the @p THD_STATE_FINAL state holding the * specified exit status code, other threads can retrieve the * exit status code by invoking the function @p chThdWait(). * @post Eventual code after this function will never be executed, * this function never returns. The compiler has no way to * know this so do not assume that the compiler would remove * the dead code. * * @param[in] msg thread exit code * * @sclass */ void chThdExitS(msg_t msg) { Thread *tp = currp; tp->p_u.exitcode = msg; #if defined(THREAD_EXT_EXIT_HOOK) THREAD_EXT_EXIT_HOOK(tp); #endif #if CH_USE_WAITEXIT while (notempty(&tp->p_waiting)) chSchReadyI(list_remove(&tp->p_waiting)); #endif #if CH_USE_REGISTRY /* Static threads are immediately removed from the registry because there is no memory to recover.*/ if ((tp->p_flags & THD_MEM_MODE_MASK) == THD_MEM_MODE_STATIC) REG_REMOVE(tp); #endif chSchGoSleepS(THD_STATE_FINAL); /* The thread never returns here.*/ chDbgAssert(FALSE, "chThdExitS(), #1", "zombies apocalypse"); } #if CH_USE_WAITEXIT || defined(__DOXYGEN__) /** * @brief Blocks the execution of the invoking thread until the specified * thread terminates then the exit code is returned. * @details This function waits for the specified thread to terminate then * decrements its reference counter, if the counter reaches zero then * the thread working area is returned to the proper allocator.
* The memory used by the exited thread is handled in different ways * depending on the API that spawned the thread: * - If the thread was spawned by @p chThdCreateStatic() or by * @p chThdInit() then nothing happens and the thread working area * is not released or modified in any way. This is the default, * totally static, behavior. * - If the thread was spawned by @p chThdCreateFromHeap() then * the working area is returned to the system heap. * - If the thread was spawned by @p chThdCreateFromMemoryPool() * then the working area is returned to the owning memory pool. * . * @pre The configuration option @p CH_USE_WAITEXIT must be enabled in * order to use this function. * @post Enabling @p chThdWait() requires 2-4 (depending on the * architecture) extra bytes in the @p Thread structure. * @post After invoking @p chThdWait() the thread pointer becomes invalid * and must not be used as parameter for further system calls. * @note If @p CH_USE_DYNAMIC is not specified this function just waits for * the thread termination, no memory allocators are involved. * * @param[in] tp pointer to the thread * @return The exit code from the terminated thread. * * @api */ msg_t chThdWait(Thread *tp) { msg_t msg; chDbgCheck(tp != NULL, "chThdWait"); chSysLock(); chDbgAssert(tp != currp, "chThdWait(), #1", "waiting self"); #if CH_USE_DYNAMIC chDbgAssert(tp->p_refs > 0, "chThdWait(), #2", "not referenced"); #endif if (tp->p_state != THD_STATE_FINAL) { list_insert(currp, &tp->p_waiting); chSchGoSleepS(THD_STATE_WTEXIT); } msg = tp->p_u.exitcode; chSysUnlock(); #if CH_USE_DYNAMIC chThdRelease(tp); #endif return msg; } #endif /* CH_USE_WAITEXIT */ /** @} */