/* * Copyright (c) 2013-2019 Huawei Technologies Co., Ltd. All rights reserved. * Copyright (c) 2020-2021 Huawei Device Co., Ltd. All rights reserved. * * Redistribution and use in source and binary forms, with or without modification, * are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, this list of * conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright notice, this list * of conditions and the following disclaimer in the documentation and/or other materials * provided with the distribution. * * 3. Neither the name of the copyright holder nor the names of its contributors may be used * to endorse or promote products derived from this software without specific prior written * permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "los_event_pri.h" #include "los_task_pri.h" #include "los_spinlock.h" #include "los_mp.h" #include "los_percpu_pri.h" #include "los_sched_pri.h" #if (LOSCFG_BASE_CORE_SWTMR == YES) #include "los_exc.h" #endif LITE_OS_SEC_TEXT_INIT UINT32 LOS_EventInit(PEVENT_CB_S eventCB) { UINT32 intSave; if (eventCB == NULL) { return LOS_ERRNO_EVENT_PTR_NULL; } intSave = LOS_IntLock(); eventCB->uwEventID = 0; LOS_ListInit(&eventCB->stEventList); LOS_IntRestore(intSave); return LOS_OK; } LITE_OS_SEC_TEXT STATIC UINT32 OsEventParamCheck(const VOID *ptr, UINT32 eventMask, UINT32 mode) { if (ptr == NULL) { return LOS_ERRNO_EVENT_PTR_NULL; } if (eventMask == 0) { return LOS_ERRNO_EVENT_EVENTMASK_INVALID; } if (eventMask & LOS_ERRTYPE_ERROR) { return LOS_ERRNO_EVENT_SETBIT_INVALID; } if (((mode & LOS_WAITMODE_OR) && (mode & LOS_WAITMODE_AND)) || (mode & ~(LOS_WAITMODE_OR | LOS_WAITMODE_AND | LOS_WAITMODE_CLR)) || !(mode & (LOS_WAITMODE_OR | LOS_WAITMODE_AND))) { return LOS_ERRNO_EVENT_FLAGS_INVALID; } return LOS_OK; } LITE_OS_SEC_TEXT UINT32 OsEventPoll(UINT32 *eventID, UINT32 eventMask, UINT32 mode) { UINT32 ret = 0; LOS_ASSERT(OsIntLocked()); LOS_ASSERT(LOS_SpinHeld(&g_taskSpin)); if (mode & LOS_WAITMODE_OR) { if ((*eventID & eventMask) != 0) { ret = *eventID & eventMask; } } else { if ((eventMask != 0) && (eventMask == (*eventID & eventMask))) { ret = *eventID & eventMask; } } if (ret && (mode & LOS_WAITMODE_CLR)) { *eventID = *eventID & ~ret; } return ret; } LITE_OS_SEC_TEXT STATIC UINT32 OsEventReadCheck(const PEVENT_CB_S eventCB, UINT32 eventMask, UINT32 mode) { UINT32 ret; LosTaskCB *runTask = NULL; ret = OsEventParamCheck(eventCB, eventMask, mode); if (ret != LOS_OK) { return ret; } if (OS_INT_ACTIVE) { return LOS_ERRNO_EVENT_READ_IN_INTERRUPT; } runTask = OsCurrTaskGet(); if (runTask->taskStatus & OS_TASK_FLAG_SYSTEM_TASK) { OsBackTrace(); return LOS_ERRNO_EVENT_READ_IN_SYSTEM_TASK; } return LOS_OK; } LITE_OS_SEC_TEXT STATIC UINT32 OsEventReadImp(PEVENT_CB_S eventCB, UINT32 eventMask, UINT32 mode, UINT32 timeout, BOOL once) { UINT32 ret = 0; LosTaskCB *runTask = OsCurrTaskGet(); if (once == FALSE) { ret = OsEventPoll(&eventCB->uwEventID, eventMask, mode); } if (ret == 0) { if (timeout == 0) { return ret; } if (!OsPreemptableInSched()) { return LOS_ERRNO_EVENT_READ_IN_LOCK; } runTask->eventMask = eventMask; runTask->eventMode = mode; runTask->taskEvent = eventCB; OsTaskWaitSetPendMask(OS_TASK_WAIT_EVENT, eventMask, timeout); ret = OsSchedTaskWait(&eventCB->stEventList, timeout, TRUE); if (ret == LOS_ERRNO_TSK_TIMEOUT) { return LOS_ERRNO_EVENT_READ_TIMEOUT; } ret = OsEventPoll(&eventCB->uwEventID, eventMask, mode); } return ret; } LITE_OS_SEC_TEXT STATIC UINT32 OsEventRead(PEVENT_CB_S eventCB, UINT32 eventMask, UINT32 mode, UINT32 timeout, BOOL once) { UINT32 ret; UINT32 intSave; ret = OsEventReadCheck(eventCB, eventMask, mode); if (ret != LOS_OK) { return ret; } SCHEDULER_LOCK(intSave); ret = OsEventReadImp(eventCB, eventMask, mode, timeout, once); SCHEDULER_UNLOCK(intSave); return ret; } LITE_OS_SEC_TEXT STATIC UINT8 OsEventResume(LosTaskCB *resumedTask, const PEVENT_CB_S eventCB, UINT32 events) { UINT8 exitFlag = 0; if (((resumedTask->eventMode & LOS_WAITMODE_OR) && ((resumedTask->eventMask & events) != 0)) || ((resumedTask->eventMode & LOS_WAITMODE_AND) && ((resumedTask->eventMask & eventCB->uwEventID) == resumedTask->eventMask))) { exitFlag = 1; resumedTask->taskEvent = NULL; OsTaskWakeClearPendMask(resumedTask); OsSchedTaskWake(resumedTask); } return exitFlag; } LITE_OS_SEC_TEXT VOID OsEventWriteUnsafe(PEVENT_CB_S eventCB, UINT32 events, BOOL once, UINT8 *exitFlag) { LosTaskCB *resumedTask = NULL; LosTaskCB *nextTask = NULL; BOOL schedFlag = FALSE; eventCB->uwEventID |= events; if (!LOS_ListEmpty(&eventCB->stEventList)) { for (resumedTask = LOS_DL_LIST_ENTRY((&eventCB->stEventList)->pstNext, LosTaskCB, pendList); &resumedTask->pendList != &eventCB->stEventList;) { nextTask = LOS_DL_LIST_ENTRY(resumedTask->pendList.pstNext, LosTaskCB, pendList); if (OsEventResume(resumedTask, eventCB, events)) { schedFlag = TRUE; } if (once == TRUE) { break; } resumedTask = nextTask; } } if ((exitFlag != NULL) && (schedFlag == TRUE)) { *exitFlag = 1; } } LITE_OS_SEC_TEXT STATIC UINT32 OsEventWrite(PEVENT_CB_S eventCB, UINT32 events, BOOL once) { UINT32 intSave; UINT8 exitFlag = 0; if (eventCB == NULL) { return LOS_ERRNO_EVENT_PTR_NULL; } if (events & LOS_ERRTYPE_ERROR) { return LOS_ERRNO_EVENT_SETBIT_INVALID; } SCHEDULER_LOCK(intSave); OsEventWriteUnsafe(eventCB, events, once, &exitFlag); SCHEDULER_UNLOCK(intSave); if (exitFlag == 1) { LOS_MpSchedule(OS_MP_CPU_ALL); LOS_Schedule(); } return LOS_OK; } LITE_OS_SEC_TEXT UINT32 LOS_EventPoll(UINT32 *eventID, UINT32 eventMask, UINT32 mode) { UINT32 ret; UINT32 intSave; ret = OsEventParamCheck((VOID *)eventID, eventMask, mode); if (ret != LOS_OK) { return ret; } SCHEDULER_LOCK(intSave); ret = OsEventPoll(eventID, eventMask, mode); SCHEDULER_UNLOCK(intSave); return ret; } LITE_OS_SEC_TEXT UINT32 LOS_EventRead(PEVENT_CB_S eventCB, UINT32 eventMask, UINT32 mode, UINT32 timeout) { return OsEventRead(eventCB, eventMask, mode, timeout, FALSE); } LITE_OS_SEC_TEXT UINT32 LOS_EventWrite(PEVENT_CB_S eventCB, UINT32 events) { return OsEventWrite(eventCB, events, FALSE); } LITE_OS_SEC_TEXT_MINOR UINT32 OsEventReadOnce(PEVENT_CB_S eventCB, UINT32 eventMask, UINT32 mode, UINT32 timeout) { return OsEventRead(eventCB, eventMask, mode, timeout, TRUE); } LITE_OS_SEC_TEXT_MINOR UINT32 OsEventWriteOnce(PEVENT_CB_S eventCB, UINT32 events) { return OsEventWrite(eventCB, events, TRUE); } LITE_OS_SEC_TEXT_INIT UINT32 LOS_EventDestroy(PEVENT_CB_S eventCB) { UINT32 intSave; if (eventCB == NULL) { return LOS_ERRNO_EVENT_PTR_NULL; } SCHEDULER_LOCK(intSave); if (!LOS_ListEmpty(&eventCB->stEventList)) { SCHEDULER_UNLOCK(intSave); return LOS_ERRNO_EVENT_SHOULD_NOT_DESTROY; } eventCB->uwEventID = 0; LOS_ListDelInit(&eventCB->stEventList); SCHEDULER_UNLOCK(intSave); return LOS_OK; } LITE_OS_SEC_TEXT_MINOR UINT32 LOS_EventClear(PEVENT_CB_S eventCB, UINT32 eventMask) { UINT32 intSave; if (eventCB == NULL) { return LOS_ERRNO_EVENT_PTR_NULL; } SCHEDULER_LOCK(intSave); eventCB->uwEventID &= eventMask; SCHEDULER_UNLOCK(intSave); return LOS_OK; } #ifdef LOSCFG_COMPAT_POSIX LITE_OS_SEC_TEXT UINT32 OsEventReadWithCond(const EventCond *cond, PEVENT_CB_S eventCB, UINT32 eventMask, UINT32 mode, UINT32 timeout) { UINT32 ret; UINT32 intSave; ret = OsEventReadCheck(eventCB, eventMask, mode); if (ret != LOS_OK) { return ret; } SCHEDULER_LOCK(intSave); if (*cond->realValue != cond->value) { eventCB->uwEventID &= cond->clearEvent; goto OUT; } ret = OsEventReadImp(eventCB, eventMask, mode, timeout, FALSE); OUT: SCHEDULER_UNLOCK(intSave); return ret; } #endif