/* 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 . */ /* Concepts and parts of this file have been contributed by Scott (skute). */ /** * @file chevents.c * @brief Events code. * * @addtogroup events * @details Event Flags, Event Sources and Event Listeners. *

Operation mode

* Each thread has a mask of pending event flags inside its @p Thread * structure. * Operations defined for event flags: * - Wait, the invoking thread goes to sleep until a certain * AND/OR combination of event flags becomes pending. * - Clear, a mask of event flags is cleared from the pending * events mask, the cleared event flags mask is returned (only the * flags that were actually pending and then cleared). * - Signal, an event mask is directly ORed to the mask of the * signaled thread. * - Broadcast, each thread registered on an Event Source is * signaled with the event flags specified in its Event Listener. * - Dispatch, an events mask is scanned and for each bit set * to one an associated handler function is invoked. Bit masks are * scanned from bit zero upward. * . * An Event Source is a special object that can be "broadcasted" by * a thread or an interrupt service routine. Broadcasting an Event * Source has the effect that all the threads registered on the * Event Source will be signaled with an events mask.
* An unlimited number of Event Sources can exists in a system and * each thread can be listening on an unlimited number of * them. * @pre In order to use the Events APIs the @p CH_USE_EVENTS option must be * enabled in @p chconf.h. * @post Enabling events requires 1-4 (depending on the architecture) * extra bytes in the @p Thread structure. * @{ */ #include "ch.h" #if CH_USE_EVENTS || defined(__DOXYGEN__) /** * @brief Registers an Event Listener on an Event Source. * @details Once a thread has registered as listener on an event source it * will be notified of all events broadcasted there. * @note Multiple Event Listeners can specify the same bits to be ORed to * different threads. * * @param[in] esp pointer to the @p EventSource structure * @param[in] elp pointer to the @p EventListener structure * @param[in] mask the mask of event flags to be ORed to the thread when * the event source is broadcasted * * @api */ void chEvtRegisterMask(EventSource *esp, EventListener *elp, eventmask_t mask) { chDbgCheck((esp != NULL) && (elp != NULL), "chEvtRegisterMask"); chSysLock(); elp->el_next = esp->es_next; esp->es_next = elp; elp->el_listener = currp; elp->el_mask = mask; elp->el_flags = 0; chSysUnlock(); } /** * @brief Unregisters an Event Listener from its Event Source. * @note If the event listener is not registered on the specified event * source then the function does nothing. * @note For optimal performance it is better to perform the unregister * operations in inverse order of the register operations (elements * are found on top of the list). * * @param[in] esp pointer to the @p EventSource structure * @param[in] elp pointer to the @p EventListener structure * * @api */ void chEvtUnregister(EventSource *esp, EventListener *elp) { EventListener *p; chDbgCheck((esp != NULL) && (elp != NULL), "chEvtUnregister"); p = (EventListener *)esp; chSysLock(); while (p->el_next != (EventListener *)esp) { if (p->el_next == elp) { p->el_next = elp->el_next; break; } p = p->el_next; } chSysUnlock(); } /** * @brief Clears the pending events specified in the mask. * * @param[in] mask the events to be cleared * @return The pending events that were cleared. * * @api */ eventmask_t chEvtClearFlags(eventmask_t mask) { eventmask_t m; chSysLock(); m = currp->p_epending & mask; currp->p_epending &= ~mask; chSysUnlock(); return m; } /** * @brief Adds (OR) a set of event flags on the current thread, this is * @b much faster than using @p chEvtBroadcast() or @p chEvtSignal(). * * @param[in] mask the event flags to be ORed * @return The current pending events mask. * * @api */ eventmask_t chEvtAddFlags(eventmask_t mask) { chSysLock(); mask = (currp->p_epending |= mask); chSysUnlock(); return mask; } /** * @brief Adds a set of event flags directly to specified @p Thread. * * @param[in] tp the thread to be signaled * @param[in] mask the event flags set to be ORed * * @api */ void chEvtSignal(Thread *tp, eventmask_t mask) { chDbgCheck(tp != NULL, "chEvtSignal"); chSysLock(); chEvtSignalI(tp, mask); chSchRescheduleS(); chSysUnlock(); } /** * @brief Adds a set of event flags directly to specified @p Thread. * @post This function does not reschedule so a call to a rescheduling * function must be performed before unlocking the kernel. Note that * interrupt handlers always reschedule on exit so an explicit * reschedule must not be performed in ISRs. * * @param[in] tp the thread to be signaled * @param[in] mask the event flags set to be ORed * * @iclass */ void chEvtSignalI(Thread *tp, eventmask_t mask) { chDbgCheckClassI(); chDbgCheck(tp != NULL, "chEvtSignalI"); tp->p_epending |= mask; /* Test on the AND/OR conditions wait states.*/ if (((tp->p_state == THD_STATE_WTOREVT) && ((tp->p_epending & tp->p_u.ewmask) != 0)) || ((tp->p_state == THD_STATE_WTANDEVT) && ((tp->p_epending & tp->p_u.ewmask) == tp->p_u.ewmask))) chSchReadyI(tp)->p_u.rdymsg = RDY_OK; } /** * @brief Signals all the Event Listeners registered on the specified Event * Source. * @details This function variants ORs the specified event flags to all the * threads registered on the @p EventSource in addition to the event * flags specified by the threads themselves in the * @p EventListener objects. * * @param[in] esp pointer to the @p EventSource structure * @param[in] flags the flags set to be added to the listener flags mask * * @api */ void chEvtBroadcastFlags(EventSource *esp, flagsmask_t flags) { chSysLock(); chEvtBroadcastFlagsI(esp, flags); chSchRescheduleS(); chSysUnlock(); } /** * @brief Signals all the Event Listeners registered on the specified Event * Source. * @details This function variants ORs the specified event flags to all the * threads registered on the @p EventSource in addition to the event * flags specified by the threads themselves in the * @p EventListener objects. * @post This function does not reschedule so a call to a rescheduling * function must be performed before unlocking the kernel. Note that * interrupt handlers always reschedule on exit so an explicit * reschedule must not be performed in ISRs. * * @param[in] esp pointer to the @p EventSource structure * @param[in] flags the flags set to be added to the listener flags mask * * @iclass */ void chEvtBroadcastFlagsI(EventSource *esp, flagsmask_t flags) { EventListener *elp; chDbgCheckClassI(); chDbgCheck(esp != NULL, "chEvtBroadcastMaskI"); elp = esp->es_next; while (elp != (EventListener *)esp) { elp->el_flags |= flags; chEvtSignalI(elp->el_listener, elp->el_mask); elp = elp->el_next; } } /** * @brief Returns the flags associated to an @p EventListener. * @details The flags are returned and the @p EventListener flags mask is * cleared. * * @param[in] elp pointer to the @p EventListener structure * @return The flags added to the listener by the associated * event source. * * @iclass */ flagsmask_t chEvtGetAndClearFlagsI(EventListener *elp) { flagsmask_t flags; flags = elp->el_flags; elp->el_flags = 0; return flags; } /** * @brief Returns the flags associated to an @p EventListener. * @details The flags are returned and the @p EventListener flags mask is * cleared. * * @param[in] elp pointer to the @p EventListener structure * @return The flags added to the listener by the associated * event source. * * @iclass */ flagsmask_t chEvtGetAndClearFlags(EventListener *elp) { flagsmask_t flags; chSysLock(); flags = elp->el_flags; elp->el_flags = 0; chSysUnlock(); return flags; } /** * @brief Invokes the event handlers associated to an event flags mask. * * @param[in] mask mask of the event flags to be dispatched * @param[in] handlers an array of @p evhandler_t. The array must have size * equal to the number of bits in eventmask_t. * * @api */ void chEvtDispatch(const evhandler_t *handlers, eventmask_t mask) { eventid_t eid; chDbgCheck(handlers != NULL, "chEvtDispatch"); eid = 0; while (mask) { if (mask & EVENT_MASK(eid)) { chDbgAssert(handlers[eid] != NULL, "chEvtDispatch(), #1", "null handler"); mask &= ~EVENT_MASK(eid); handlers[eid](eid); } eid++; } } #if CH_OPTIMIZE_SPEED || !CH_USE_EVENTS_TIMEOUT || defined(__DOXYGEN__) /** * @brief Waits for exactly one of the specified events. * @details The function waits for one event among those specified in * @p mask to become pending then the event is cleared and returned. * @note One and only one event is served in the function, the one with the * lowest event id. The function is meant to be invoked into a loop in * order to serve all the pending events.
* This means that Event Listeners with a lower event identifier have * an higher priority. * * @param[in] mask mask of the event flags that the function should wait * for, @p ALL_EVENTS enables all the events * @return The mask of the lowest id served and cleared event. * * @api */ eventmask_t chEvtWaitOne(eventmask_t mask) { Thread *ctp = currp; eventmask_t m; chSysLock(); if ((m = (ctp->p_epending & mask)) == 0) { ctp->p_u.ewmask = mask; chSchGoSleepS(THD_STATE_WTOREVT); m = ctp->p_epending & mask; } m &= -m; ctp->p_epending &= ~m; chSysUnlock(); return m; } /** * @brief Waits for any of the specified events. * @details The function waits for any event among those specified in * @p mask to become pending then the events are cleared and returned. * * @param[in] mask mask of the event flags that the function should wait * for, @p ALL_EVENTS enables all the events * @return The mask of the served and cleared events. * * @api */ eventmask_t chEvtWaitAny(eventmask_t mask) { Thread *ctp = currp; eventmask_t m; chSysLock(); if ((m = (ctp->p_epending & mask)) == 0) { ctp->p_u.ewmask = mask; chSchGoSleepS(THD_STATE_WTOREVT); m = ctp->p_epending & mask; } ctp->p_epending &= ~m; chSysUnlock(); return m; } /** * @brief Waits for all the specified events. * @details The function waits for all the events specified in @p mask to * become pending then the events are cleared and returned. * * @param[in] mask mask of the event flags that the function should wait * for, @p ALL_EVENTS requires all the events * @return The mask of the served and cleared events. * * @api */ eventmask_t chEvtWaitAll(eventmask_t mask) { Thread *ctp = currp; chSysLock(); if ((ctp->p_epending & mask) != mask) { ctp->p_u.ewmask = mask; chSchGoSleepS(THD_STATE_WTANDEVT); } ctp->p_epending &= ~mask; chSysUnlock(); return mask; } #endif /* CH_OPTIMIZE_SPEED || !CH_USE_EVENTS_TIMEOUT */ #if CH_USE_EVENTS_TIMEOUT || defined(__DOXYGEN__) /** * @brief Waits for exactly one of the specified events. * @details The function waits for one event among those specified in * @p mask to become pending then the event is cleared and returned. * @note One and only one event is served in the function, the one with the * lowest event id. The function is meant to be invoked into a loop in * order to serve all the pending events.
* This means that Event Listeners with a lower event identifier have * an higher priority. * * @param[in] mask mask of the event flags that the function should wait * for, @p ALL_EVENTS enables all the events * @param[in] time the number of ticks before the operation timeouts, * the following special values are allowed: * - @a TIME_IMMEDIATE immediate timeout. * - @a TIME_INFINITE no timeout. * . * @return The mask of the lowest id served and cleared event. * @retval 0 if the operation has timed out. * * @api */ eventmask_t chEvtWaitOneTimeout(eventmask_t mask, systime_t time) { Thread *ctp = currp; eventmask_t m; chSysLock(); if ((m = (ctp->p_epending & mask)) == 0) { if (TIME_IMMEDIATE == time) { chSysUnlock(); return (eventmask_t)0; } ctp->p_u.ewmask = mask; if (chSchGoSleepTimeoutS(THD_STATE_WTOREVT, time) < RDY_OK) { chSysUnlock(); return (eventmask_t)0; } m = ctp->p_epending & mask; } m &= -m; ctp->p_epending &= ~m; chSysUnlock(); return m; } /** * @brief Waits for any of the specified events. * @details The function waits for any event among those specified in * @p mask to become pending then the events are cleared and * returned. * * @param[in] mask mask of the event flags that the function should wait * for, @p ALL_EVENTS enables all the events * @param[in] time the number of ticks before the operation timeouts, * the following special values are allowed: * - @a TIME_IMMEDIATE immediate timeout. * - @a TIME_INFINITE no timeout. * . * @return The mask of the served and cleared events. * @retval 0 if the operation has timed out. * * @api */ eventmask_t chEvtWaitAnyTimeout(eventmask_t mask, systime_t time) { Thread *ctp = currp; eventmask_t m; chSysLock(); if ((m = (ctp->p_epending & mask)) == 0) { if (TIME_IMMEDIATE == time) { chSysUnlock(); return (eventmask_t)0; } ctp->p_u.ewmask = mask; if (chSchGoSleepTimeoutS(THD_STATE_WTOREVT, time) < RDY_OK) { chSysUnlock(); return (eventmask_t)0; } m = ctp->p_epending & mask; } ctp->p_epending &= ~m; chSysUnlock(); return m; } /** * @brief Waits for all the specified events. * @details The function waits for all the events specified in @p mask to * become pending then the events are cleared and returned. * * @param[in] mask mask of the event flags that the function should wait * for, @p ALL_EVENTS requires all the events * @param[in] time the number of ticks before the operation timeouts, * the following special values are allowed: * - @a TIME_IMMEDIATE immediate timeout. * - @a TIME_INFINITE no timeout. * . * @return The mask of the served and cleared events. * @retval 0 if the operation has timed out. * * @api */ eventmask_t chEvtWaitAllTimeout(eventmask_t mask, systime_t time) { Thread *ctp = currp; chSysLock(); if ((ctp->p_epending & mask) != mask) { if (TIME_IMMEDIATE == time) { chSysUnlock(); return (eventmask_t)0; } ctp->p_u.ewmask = mask; if (chSchGoSleepTimeoutS(THD_STATE_WTANDEVT, time) < RDY_OK) { chSysUnlock(); return (eventmask_t)0; } } ctp->p_epending &= ~mask; chSysUnlock(); return mask; } #endif /* CH_USE_EVENTS_TIMEOUT */ #endif /* CH_USE_EVENTS */ /** @} */