/* * This file is subject to the terms of the GFX License. If a copy of * the license was not distributed with this file, you can obtain one at: * * http://ugfx.org/license.html */ #include "../../gfx.h" #if GFX_USE_GEVENT || defined(__DOXYGEN__) #if GEVENT_ASSERT_NO_RESOURCE #define GEVENT_ASSERT(x) assert(x) #else #define GEVENT_ASSERT(x) #endif /* Flags in the listener structure */ #define GLISTENER_WITHLISTENER 0x0001 // The listener is current using the buffer #define GLISTENER_WITHSOURCE 0x0002 // The source is currently using the buffer /* This mutex protects access to our tables */ static gfxMutex geventMutex; /* Our table of listener/source pairs */ static GSourceListener Assignments[GEVENT_MAX_SOURCE_LISTENERS]; /* Send an exit event if possible. */ /* We already have the geventMutex */ static void doExitEvent(GListener *pl) { // Don't do the exit if someone else currently is using the buffer if (!(pl->flags & GLISTENER_WITHLISTENER)) { pl->event.type = GEVENT_EXIT; // Set up the EXIT event pl->flags = GLISTENER_WITHLISTENER; // Event buffer is now in use by the listener gfxSemSignal(&pl->waitqueue); } } /* Loop through the assignment table deleting this listener/source pair. */ /* Null is treated as a wildcard. */ /* We already have the geventMutex */ static void deleteAssignments(GListener *pl, GSourceHandle gsh) { GSourceListener *psl; for(psl = Assignments; psl < Assignments+GEVENT_MAX_SOURCE_LISTENERS; psl++) { if ((!pl || psl->pListener == pl) && (!gsh || psl->pSource == gsh)) { doExitEvent(psl->pListener); psl->pListener = 0; psl->pSource = 0; } } } void _geventInit(void) { gfxMutexInit(&geventMutex); } void _geventDeinit(void) { gfxMutexDestroy(&geventMutex); } void geventListenerInit(GListener *pl) { gfxSemInit(&pl->waitqueue, 0, MAX_SEMAPHORE_COUNT); // Next wait'er will block pl->callback = 0; // No callback active pl->event.type = GEVENT_NULL; // Always safety pl->flags = 0; } bool_t geventAttachSource(GListener *pl, GSourceHandle gsh, uint32_t flags) { GSourceListener *psl, *pslfree; // Safety first if (!pl || !gsh) { GEVENT_ASSERT(FALSE); return FALSE; } gfxMutexEnter(&geventMutex); // Check if this pair is already in the table (scan for a free slot at the same time) pslfree = 0; for(psl = Assignments; psl < Assignments+GEVENT_MAX_SOURCE_LISTENERS; psl++) { if (pl == psl->pListener && gsh == psl->pSource) { // Just update the flags psl->listenflags = flags; gfxMutexExit(&geventMutex); return TRUE; } if (!pslfree && !psl->pListener) pslfree = psl; } // A free slot was found - allocate it if (pslfree) { pslfree->pListener = pl; pslfree->pSource = gsh; pslfree->listenflags = flags; pslfree->srcflags = 0; } gfxMutexExit(&geventMutex); GEVENT_ASSERT(pslfree != 0); return pslfree != 0; } void geventDetachSource(GListener *pl, GSourceHandle gsh) { if (pl) { gfxMutexEnter(&geventMutex); deleteAssignments(pl, gsh); if (!gsh) doExitEvent(pl); gfxMutexExit(&geventMutex); } } GEvent *geventEventWait(GListener *pl, delaytime_t timeout) { /* NOTE: We no longer try to protect against two threads trying to listen on the one listener. This was never allowed, it makes little sense to try to do so, and the testing caused strange multi-thread windows of opportunity. In practice it is probably safer than it used to be - the only potential issue is that the buffer may be prematurely marked as not in use by the listener. If the calling code can guarantee that the event buffer is free when either thread calls the event wait - it is now safe for them to do so. ie. it is the implicit geventEventComplete() that is the only thing that now raises possible multi-thread issues. */ // Don't allow waiting if we are on callbacks if (pl->callback) return 0; // Event buffer is not in use by the listener - this is an implicit geventEventComplete() call pl->flags &= ~GLISTENER_WITHLISTENER; // Wait for an event if (!gfxSemWait(&pl->waitqueue, timeout)) return 0; // Timeout return &pl->event; } void geventEventComplete(GListener *pl) { // The listener is done with the buffer pl->flags &= ~GLISTENER_WITHLISTENER; } void geventRegisterCallback(GListener *pl, GEventCallbackFn fn, void *param) { if (pl) { gfxMutexEnter(&geventMutex); doExitEvent(pl); pl->param = param; // Set the param pl->callback = fn; // Set the callback function if (fn) pl->flags &= ~GLISTENER_WITHLISTENER; // The event buffer is immediately available gfxMutexExit(&geventMutex); } } GSourceListener *geventGetSourceListener(GSourceHandle gsh, GSourceListener *lastlr) { GSourceListener *psl; // Safety first if (!gsh) return 0; gfxMutexEnter(&geventMutex); // Unlock the last listener event buffer if it wasn't used. if (lastlr && lastlr->pListener && (lastlr->pListener->flags & GLISTENER_WITHSOURCE)) lastlr->pListener->flags &= ~GLISTENER_WITHSOURCE; // Loop through the table looking for attachments to this source for(psl = lastlr ? (lastlr+1) : Assignments; psl < Assignments+GEVENT_MAX_SOURCE_LISTENERS; psl++) { if (gsh == psl->pSource) { gfxMutexExit(&geventMutex); return psl; } } gfxMutexExit(&geventMutex); return 0; } GEvent *geventGetEventBuffer(GSourceListener *psl) { gfxMutexEnter(&geventMutex); if ((psl->pListener->flags & (GLISTENER_WITHLISTENER|GLISTENER_WITHSOURCE))) { gfxMutexExit(&geventMutex); return 0; } // Allocate the event buffer to the source psl->pListener->flags |= GLISTENER_WITHSOURCE; gfxMutexExit(&geventMutex); return &psl->pListener->event; } void geventSendEvent(GSourceListener *psl) { gfxMutexEnter(&geventMutex); if (psl->pListener->callback) { // Mark it back as free and as sent. This is early to be marking as free but it protects // if the callback alters the listener in any way psl->pListener->flags = 0; gfxMutexExit(&geventMutex); // Do the callback psl->pListener->callback(psl->pListener->param, &psl->pListener->event); } else { // Wake up the listener psl->pListener->flags = GLISTENER_WITHLISTENER; gfxSemSignal(&psl->pListener->waitqueue); gfxMutexExit(&geventMutex); } } void geventDetachSourceListeners(GSourceHandle gsh) { gfxMutexEnter(&geventMutex); deleteAssignments(0, gsh); gfxMutexExit(&geventMutex); } #endif /* GFX_USE_GEVENT */