PJ_DEF(pj_status_t) pj_timer_heap_schedule( pj_timer_heap_t *ht, pj_timer_entry *entry, const pj_time_val *delay) { CPjTimerEntry *timerObj; pj_status_t status; PJ_ASSERT_RETURN(ht && entry && delay, PJ_EINVAL); PJ_ASSERT_RETURN(entry->cb != NULL, PJ_EINVAL); /* Prevent same entry from being scheduled more than once */ PJ_ASSERT_RETURN(entry->_timer_id < 1, PJ_EINVALIDOP); entry->_timer_id = -1; timerObj = CPjTimerEntry::NewL(ht, entry, delay); status = add_entry(ht, timerObj); if (status != PJ_SUCCESS) { timerObj->Cancel(); delete timerObj; return status; } return PJ_SUCCESS; }
CPjTimerEntry* CPjTimerEntry::NewL(pj_timer_heap_t *timer_heap, pj_timer_entry *entry, const pj_time_val *delay) { CPjTimerEntry *self = new CPjTimerEntry(timer_heap, entry); CleanupStack::PushL(self); self->ConstructL(delay); CleanupStack::Pop(self); return self; }
PJ_DEF(int) pj_timer_heap_cancel( pj_timer_heap_t *ht, pj_timer_entry *entry) { PJ_ASSERT_RETURN(ht && entry, PJ_EINVAL); if (entry->_timer_id != NULL) { CPjTimerEntry *timerObj = (CPjTimerEntry*) entry->_timer_id; timerObj->Cancel(); delete timerObj; entry->_timer_id = NULL; --ht->cur_size; return 1; } else { return 0; } }
PJ_DEF(int) pj_timer_heap_cancel( pj_timer_heap_t *ht, pj_timer_entry *entry) { PJ_ASSERT_RETURN(ht && entry, PJ_EINVAL); if (entry->_timer_id >= 0 && entry->_timer_id < (int)ht->max_size) { CPjTimerEntry *timerObj = ht->entries[entry->_timer_id]; if (timerObj) { timerObj->Cancel(); delete timerObj; return 1; } else { return 0; } } else { return 0; } }