/*FUNCTION**********************************************************************
*
* Function Name : OSA_MsgQDestroy
* Description : This function is used to destroy the message queue.
* Return kStatus_OSA_Success if the message queue is destroyed successfully,
* otherwise return kStatus_OSA_Error.
*
*END**************************************************************************/
osa_status_t OSA_MsgQDestroy(msg_queue_handler_t handler)
{
#if OS_CRITICAL_METHOD == 3u
OS_CPU_SR cpu_sr = 0u;
#endif
INT8U err;
OS_MEM* pMem;
OSQDel(handler->pQueue, OS_DEL_ALWAYS, &err);
if (OS_ERR_NONE != err)
{
return kStatus_OSA_Error;
}
/* return OS_MEM to OS */
OS_ENTER_CRITICAL();
pMem = handler->pMem;
pMem->OSMemFreeList = OSMemFreeList;
OSMemFreeList = pMem;
OS_EXIT_CRITICAL();
handler->pMem = (OS_MEM *)0;
handler->pQueue = (OS_EVENT *)0;
return kStatus_OSA_Success;
}
//............................................................................
void QActive::stop(void) {
m_running = (uint8_t)0; // clear the loop variable used in QActive::run()
INT8U err;
OSQDel(m_eQueue, OS_DEL_ALWAYS, &err); // cleanup the uC/OS-II queue
Q_ASSERT(err == OS_NO_ERR);
}
/*FUNCTION**********************************************************************
*
* Function Name : OSA_MsgQCreate
* Description : This function is used to create a message queue.
* Return the handle to the message queue if create successfully, otherwise
* return 0.
*
*END**************************************************************************/
msg_queue_handler_t OSA_MsgQCreate(msg_queue_t *queue,
uint16_t message_number,
uint16_t message_size)
{
INT8U err;
queue->pQueue = OSQCreate(queue->msgTbl, message_number);
if (!queue->pQueue)
{
return (msg_queue_handler_t)0;
}
/* Use OS_MEM to manage the memory which is used to save messages*/
queue->pMem = OSMemCreate(queue->msgs,
message_number,
message_size*sizeof(int32_t),
&err);
if (!queue->pMem)
{
OSQDel(queue->pQueue, OS_DEL_ALWAYS, &err);
return (msg_queue_handler_t)0;
}
queue->size = message_size;
return (msg_queue_handler_t)queue;
}
int msgfree(msg_q_t msgid)
{
int i;
INT8U perr;
for (i = 0; i < OS_MAX_QS; i++)
{
if (q_man[i].msg == msgid)
break;
}
if (i >= OS_MAX_QS)
{
p_err("msgfree: err no match msg_q %x", msgid);
return - 1;
}
OSQDel((OS_EVENT*)msgid, OS_DEL_ALWAYS, &perr);
if (OS_ERR_NONE != perr)
{
p_err("msgfree: free err %d", perr);
return - 1;
}
if (!q_man[i].q_start)
{
assert(0);
}
mem_free(q_man[i].q_start);
q_man[i].q_start = 0;
q_man[i].msg = 0;
return 0;
}
/*FUNCTION**********************************************************************
*
* Function Name : OSA_MsgQCreate
* Description : This function is used to create a message queue.
* Return the handle to the message queue if create successfully, otherwise
* return 0.
*
*END**************************************************************************/
msg_queue_handler_t OSA_MsgQCreate(msg_queue_t *queue,
uint16_t message_number,
uint16_t message_size)
{
OS_ERR err;
OSQCreate(&(queue->queue), "queue", message_number, &err);
if (OS_ERR_NONE != err)
{
return (msg_queue_handler_t)0;
}
/* Use OS_MEM to manage the memory which is used to save messages */
OSMemCreate(&(queue->mem),
"queue_mem",
queue->msgs,
message_number,
message_size*sizeof(int32_t),
&err);
if (OS_ERR_NONE != err)
{
OSQDel(&(queue->queue), OS_OPT_DEL_ALWAYS, &err);
return (msg_queue_handler_t)0;
}
queue->size = message_size;
return (msg_queue_handler_t)queue;
}
void sys_mbox_free(sys_mbox_t * mbox)
{
u8_t ucErr;
(void)OSQDel((*mbox)->pQ, OS_DEL_ALWAYS, &ucErr);
LWIP_ASSERT( "OSQDel ",ucErr == OS_ERR_NONE );
free((*mbox));
*mbox=NULL;
}
/*********************************************************************************************************
** Function name: zyMsgCreate
** Descriptions: 创建消息通道
** input parameters: ulMsgs: 可以缓存消息数目
** ulMsgSize: 消息大小
** output parameters: none
** Returned value: 消息通道标识
** 0: 不成功
** Created by: Chenmingji
** Created Date: 2009-07-23
**--------------------------------------------------------------------------------------------------------
** Modified by:
** Modified date:
*********************************************************************************************************/
unsigned long zyMsgCreate (INT32S ulMsgs, INT32U ulMsgSize)
{
INT32U ulSize; /* 需要的内存空间 */
INT8U ucErr; /* 错误代码 */
__ZY_IF_MSG *pimTmp1;
INT8U *pucTmp2;
/*
* 参数校验
*/
if (ulMsgs == 0) {
return 0;
}
if (ulMsgSize == 0) {
return 0;
}
/*
* 分配存储空间
*/
ulSize = sizeof(__ZY_IF_MSG) + ulMsgs * sizeof(void *) + ulMsgs * ulMsgSize;
pucTmp2 = (INT8U *)zyHeapMalloc(ulSize);
if (pucTmp2 == NULL) {
return 0;
}
pimTmp1 = (__ZY_IF_MSG *)pucTmp2;
/*
* 创建消息队列
*/
pimTmp1->poeQ = OSQCreate((void **)(pucTmp2 + sizeof(__ZY_IF_MSG)), (INT16U)ulMsgs);
if (pimTmp1->poeQ == NULL) {
zyHeapFree(pucTmp2);
return 0;
}
/*
* 创建内存管理单元
*/
pimTmp1->pomMsg = OSMemCreate((void *)(pucTmp2 + sizeof(__ZY_IF_MSG) * ulMsgs),
(INT16U)ulMsgs,
ulMsgSize,
&ucErr
);
if (pimTmp1->pomMsg == NULL) {
OSQDel(pimTmp1->poeQ, OS_DEL_ALWAYS, &ucErr);
zyHeapFree(pucTmp2);
return 0;
}
pimTmp1->ulMsgSize = ulMsgSize;
return (unsigned long)pimTmp1;
}
//========================================================
//Function Name:msgQDelete
//Syntax: void msgQDelete (MSG_Q_ID msgQId)
//Purpose: delete a message queue
//Note:
//Parameters: MSG_Q_ID msgQId /* message queue to delete */
//Return:
//=======================================================
void msgQDelete (MSG_Q_ID msgQId)
{
INT8U err;
MSG_Q_LOCK();
OSQDel(msgQId->pEvent, OS_DEL_ALWAYS, &err);
gp_free((void *)msgQId);
MSG_Q_UNLOCK();
}
/*
Deallocates a mailbox. If there are messages still present in the
mailbox when the mailbox is deallocated, it is an indication of a
programming error in lwIP and the developer should be notified.
*/
void _sys_mbox_free(sys_mbox_t *mbox)
{
u8_t ucErr;
LWIP_ASSERT( "sys_mbox_free ", *mbox != SYS_MBOX_NULL );
//clear OSQ EVENT
OSQFlush( (*mbox)->pQ );
//del OSQ EVENT
(void)OSQDel( (*mbox)->pQ, OS_DEL_NO_PEND, &ucErr);
LWIP_ASSERT( "OSQDel ", ucErr == OS_ERR_NONE );
//put mem back to mem queue
ucErr = OSMemPut( pQueueMem, (*mbox) );
LWIP_ASSERT( "OSMemPut ", ucErr == OS_ERR_NONE );
}
/*********************************************************************************************************
** Function name: zyMsgDel
** Descriptions: 删除消息通道
** input parameters: ulMsg: zyMsgCreate返回值
** output parameters: none
** Returned value: ZY_OK: 成功
** 负数: 错误,绝对值参考zy_if.h
** Created by: Chenmingji
** Created Date: 2009-07-23
**--------------------------------------------------------------------------------------------------------
** Modified by:
** Modified date:
*********************************************************************************************************/
INT32S zyMsgDel (unsigned long ulMsg)
{
__ZY_IF_MSG *pimThis; /* 消息通道信息 */
INT8U ucErr; /* 错误代码 */
if (ulMsg == 0) {
return -ZY_PARAMETER_ERR;
}
pimThis = (__ZY_IF_MSG *)ulMsg;
if (pimThis->poeQ != NULL) {
OSQDel(pimThis->poeQ, OS_DEL_ALWAYS, &ucErr);
}
zyHeapFree((void *)pimThis);
return -ZY_NOT_OK;
}
/*
*******************************************************************************
**
** This function destroys a previously created message mailqueue.
**
*******************************************************************************
*/
RTOS_Status RTOS_MailqueueDestroy( RTOS_Mailqueue mailqueue )
{
INT8U error = OS_NO_ERR;
void** array = 0;
if( ! RTOS_MailqueueIsValid( mailqueue ) )
return( RTOS_MAILQUEUE_FAILURE );
array = ((OS_Q*)mailqueue)->OSQStart;
if( OSQDel( (OS_EVENT*)mailqueue, OS_DEL_NO_PEND, &error ) == 0 )
{
if( array )
RTOS_SysMemoryRelease( (RTOS_Memory) array );
return( RTOS_OK );
}
return( RTOS_FAILURE );
}
/*
Deallocates a mailbox. If there are messages still present in the
mailbox when the mailbox is deallocated, it is an indication of a
programming error in lwIP and the developer should be notified.
*/
void
sys_mbox_free(sys_mbox_t mbox)
{
u8_t ucErr;
LWIP_ASSERT( "sys_mbox_free ", mbox != SYS_MBOX_NULL );
/* clear OSQ EVENT */
OSQFlush( mbox->pQ );
/* del OSQ EVENT */
(void)OSQDel( mbox->pQ, OS_DEL_NO_PEND, &ucErr);
LWIP_ASSERT( "OSQDel ", ucErr == OS_ERR_NONE );
/* put mem back to mem queue */
ucErr = OSMemPut( pQueueMem, mbox );
LWIP_ASSERT( "OSMemPut ", ucErr == OS_ERR_NONE );
}
/*FUNCTION**********************************************************************
*
* Function Name : OSA_MsgQDestroy
* Description : This function is used to destroy the message queue.
* Return kStatus_OSA_Success if the message queue is destroyed successfully,
* otherwise return kStatus_OSA_Error.
*
*END**************************************************************************/
osa_status_t OSA_MsgQDestroy(msg_queue_handler_t handler)
{
OS_ERR err;
#if (CPU_CFG_CRITICAL_METHOD == CPU_CRITICAL_METHOD_STATUS_LOCAL)
CPU_SR cpu_sr = (CPU_SR)0;
#endif
OSQDel(&(handler->queue), OS_OPT_DEL_ALWAYS, &err);
if (OS_ERR_NONE == err)
{
OS_CRITICAL_ENTER();
OSMemQty--;
OS_CRITICAL_EXIT_NO_SCHED();
return kStatus_OSA_Success;
}
else
{
return kStatus_OSA_Error;
}
}
void TaskTwoRiscSystemMonitorRisc0(void *data)
{
unsigned char err;
unsigned int msg;
unsigned short ret = 0;
OS_TCB tcb_data;
unsigned int temp;
unsigned int vstd = 0;
BspStartTicker(OS_TICKS_PER_SEC);
OSStatInit();
#ifdef PRINT_IN_TASK
print_init_buffer();
#ifdef CHIP_CFG_STACK_CHECK
OSTaskCreateExt(TaskTwoRiscPrint, (void *)0, (void *)&StkTaskTwoRiscPrint[sizeof(StkTaskTwoRiscPrint) / sizeof(StkTaskTwoRiscPrint[0]) - 1], PRIOR_TASK_PRINT,\
PRIOR_TASK_PRINT, (void *)&StkTaskTwoRiscPrint[0], sizeof(StkTaskTwoRiscPrint) / sizeof(StkTaskTwoRiscPrint[0]), (void *)0, OS_TASK_OPT_STK_CHK+OS_TASK_OPT_STK_CLR);
#else
OSTaskCreate(TaskTwoRiscPrint, (void *)0, (void *)&StkTaskTwoRiscPrint[STK_SIZE_TaskTwoRiscPrint - 1], PRIOR_TASK_PRINT);
#endif
#endif
printf("\r\n");
printf("**********************************************************************\r\n");
printf("* Risc%d: Two Risc System Monitor Task *\r\n", RiscRdID());
printf("**********************************************************************\r\n");
printf("\r\n");
#ifdef AUDIO_MODULE_INCLUDE
gptAudioTaskReady = 0;
#endif
#ifdef VIDEO_MODULE_INCLUDE
tVideoLinuxToUcos *pVideoPackage;
unsigned int VideoStatusBak;
unsigned int *pInt;
Risc_Packet_t risc_packet;
VideoStatusBak = 0;
gVideoStatus = 0;
/*******************************************************************
the code below is to fix the audio input channel 0 queue underflow bug,
details see bug number 5 in "avsyncbuglist.xls" in buglist.
*******************************************************************/
McScMap(VSC_RD_Y0_M, VSC_RD_Y0_S);
McScMap(VSC_RD_U0_M, VSC_RD_U0_S);
McScMap(VSC_RD_V0_M, VSC_RD_V0_S);
McScMap(VSC_RD_Y1_M, VSC_RD_Y1_S);
McScMap(VSC_RD_U1_M, VSC_RD_U1_S);
McScMap(VSC_RD_V1_M, VSC_RD_V1_S);
/*******************************************************************/
gtVinFormat.yuv_format = YUV420;
gtVinFormat.camera_format = NTSC; //0: NTSC mode, 1: PAL mode
if(gtVinFormat.camera_format == PAL) {
gtVinFormat.width = 704;
gtVinFormat.height = 576;
} else {
gtVinFormat.width = 704;
gtVinFormat.height = 480;
}
decode_flag = MPEG_ENCODE; //20071129;indicate the encode mode of the bit stream default is MPEG mode
#ifdef DVR
gChecksumEnabled = TRUE; // enable checksum
#else
gChecksumEnabled = FALSE; // please do not change the default value
#endif
#ifdef DVR
gImage_Mode = EVENODD_IMAGE;//MERGED_IMAGE;
#else
gImage_Mode = EVENODD_IMAGE;
#endif
gImgEncodeMode = ENCODEBOTH;
#endif
#ifdef DVR
MM74HC595Init();
#endif
gtPrintMsgControl.en_print_all_msg = 1;
gtPrintMsgControl.en_print_periodical_msg = 1;
memset((void *)>Statistics, 0, sizeof(gtStatistics));
/* David's email on Dec 12 to improve performance for video & mpeg */
*(volatile int *)0xa8040000 = 0x1680596;
*(volatile int *)0xa8020000 = 0x11115;
*(volatile int *)0xa8020004 = 0x0a77;
RiscIntrInit();
RiscFlagIntrInit();
IICinit();
TwoRiscCommInit();
#ifdef DUAL_CPU_MODE
RiscSemUnLock(7); // tell risc1 ISR table has been created!
#endif
gptQMsgTwoRiscSystemMonitor = OSQCreate(&ArrayQMsgSysMonitor[0], ArrayQMsgSysMonitor_MAX);
#ifdef VIDEO_MODULE_INCLUDE
gRvoDisplayMode = RVO_DISPLAY_BOTH;
gFreqFromCrystal = TRUE; //TRUE: external, FALSE:internal
gVoutClkSet = FALSE;
gCameraSelectDigital = TRUE;//TRUE:digital,FALSE:analog
extern unsigned int gVinOddEvenFrameSelect;
extern unsigned int gVscOddEvenFrameSelect;
gVinOddEvenFrameSelect = ODD_FRAME_FIRST;
#ifdef DVR
gVscOddEvenFrameSelect = ODD_FRAME_FIRST;
#else
gVscOddEvenFrameSelect = EVEN_FRAME_FIRST;
#endif
#ifdef MOTION_DETECTION //wy:motion detect init
gMotionSensi = 0; //default disable motion detection.
gIsMDEnabled = FALSE; //default disable motion detection.
gMdType = mdtemporalDif; //default motion detection method.
#endif
#ifdef BAND_WIDTH_CONTROL
set_cbr_default();
#endif
#ifdef AV_SYNC
set_avsync_default();
#endif
#ifdef DISPLAY_INCLUDE
#ifdef VIDEO_JITTER_BUFFER
QEeventVodeoL2U = OSQCreate(pQVideoL2UPackage, VIDEO_L2U_PKG_NUMBER);
if(QEeventVodeoL2U == NULL)
_PRINTF("\r\nxxxxxxxx: Risc0: OSQCreate QEeventVodeoL2U error!\r\n");
#endif
#ifdef STARTUP_PICTURE
err = OSQPost(gptQMsgTwoRiscSystemMonitor, (void *)TWO_RISC_SYSTEM_OPEN_VOUT);
if(err != OS_NO_ERR)
printf("\r\nRISC0: OSMboxPost error! err = %d!\r\n", err);
#endif
#endif
#endif
#ifdef TASK_STATISTIC_EN
if(
#ifdef CHIP_CFG_STACK_CHECK
OSTaskCreateExt(TaskStatistics, (void *)0, (void *)&StkTaskStatistics[sizeof(StkTaskStatistics) / sizeof(StkTaskStatistics[0]) - 1], PRIOR_TASK_STATISTICS,\
PRIOR_TASK_STATISTICS, (void *)&StkTaskStatistics[0], sizeof(StkTaskStatistics) / sizeof(StkTaskStatistics[0]), (void *)0, OS_TASK_OPT_STK_CHK+OS_TASK_OPT_STK_CLR) != OS_NO_ERR
#else
OSTaskCreate(TaskStatistics, (void *)0, (void *)&StkTaskStatistics[STK_SIZE_TaskStatistics - 1], PRIOR_TASK_STATISTICS) != OS_NO_ERR
#endif
)
{
debug ("\r\nTaskCreate TaskCount1s error\r\n");
}
#endif
//RiscTimerInit(1000000);
while(1) {
#if 0
//#ifdef VIDEO_JITTER_BUFFER
pVideoPackage = (tVideoLinuxToUcos *)OSQPend(QEeventVodeoL2U, 200 * OS_TICKS_PER_SEC /1000, &err);
if(err == OS_NO_ERR) {
VideoFrameReceive.addr = pVideoPackage->addr;
VideoFrameReceive.size = pVideoPackage->len;
VideoFrameReceive.TimeStamp = pVideoPackage->tstamp;
err = VBufSaveOneFrame(&VideoBuffer1, &VideoFrameReceive);
if(err)
printf("xxx save viedo frame to buffer error! err = %d\n", err);
else
{
//printf("depth = %d, space = %d\n", VideoFrameReceive.CurrentDepth, VideoFrameReceive.CurrentSpace);
//printf("w = 0x%8.8x, %d, %d\n", VideoFrameReceive.addr, VideoFrameReceive.size, VideoFrameReceive.TimeStamp);
}
RiscDecCNT(VIDEO_LINUX_TO_UCOS_CNT, 1);
if(OSSemPost(gptVideoLinuxToUcosMbox) != OS_NO_ERR)
printf("Risc0:OSMboxPost error!\r\n");
}
else if(err == OS_TIMEOUT)
;//printf("ucos receive video package time out!\n");
msg = (unsigned int)OSQAccept(gptQMsgTwoRiscSystemMonitor);
if(msg)
#else
msg = (unsigned int)OSQPend(gptQMsgTwoRiscSystemMonitor, 200 * OS_TICKS_PER_SEC /1000, &err);
if(err == OS_NO_ERR)
#endif
{
switch(msg) {
case TWO_RISC_SYSTEM_RECEIVE_LINUX_MSG:
while(1) {
if(TwoRiscCommRecPacket() != SUCCESSFUL) {
break;
}
}
break;
#ifdef VIDEO_MODULE_INCLUDE
#ifdef DISPLAY_INCLUDE
case TWO_RISC_SYSTEM_CLOSE_VOUT:
gVoutEnable = 0;
break;
case TWO_RISC_SYSTEM_CLOSE_DISPLAY_TASK:
gVoutEnable = 0;
printf("Close Display Task!\n");
//del task
if(OSTaskDel(PRIOR_TASK_DISPLAY) != OS_NO_ERR )
printf("OSTaskDel failed!\n");
else
printf("OSTaskDel OK!\n");
OSSemDel_w(gptMpegDecodeReadyToStart, OS_DEL_ALWAYS, &err);
OSSemDel_w(gptVideoLinuxToUcosMbox, OS_DEL_ALWAYS, &err);
#ifdef AV_SYNC
OSSemDel_w(gptRiscTimerIntrOccur, OS_DEL_ALWAYS, &err);
#endif
OSQDel(gptMpeg4DecodeOutputReady, OS_DEL_ALWAYS, &err);
if(err != OS_NO_ERR)
printf("OSQDel failed!\n");
#ifdef PIP_ENABLE
OSQDel (gptMqueueVideoInFrame, OS_DEL_ALWAYS, &err);
if(err != OS_NO_ERR)
printf("OSQDel failed, err = %d!", err);
gVideoStatus &= ~tPipEn;
#endif
break;
case TWO_RISC_SYSTEM_OPEN_VOUT:
if(OSTaskQuery(PRIOR_TASK_DISPLAY, &tcb_data) == OS_NO_ERR) {
//if(OSTaskCreate(TaskTwoRiscDisplay, (void *)0, (void *)&StkTaskTwoRiscDisplay[STK_SIZE_TaskTwoRiscDisplay - 1], PRIOR_TASK_DISPLAY) != OS_NO_ERR) {
if(gVoutEnable == 0) {
gVoutEnable = 1;
GetVoutInterface();
VoutInterfaceIntialize(gtDisplayFormat.vout_format);
/*
printf("Init 7171 ");
if(HwADV7171Initialize(gtDisplayFormat.vout_format) == SUCCESSFUL) // 0: NTSC mode,1: pal mode
printf("ok\n");
else
printf("failed\n");
*/
if(gtDisplayFormat.vout_format == LCD) {
gtDisplayFormat.vout_interlaced = FALSE;
} else { // NTSC or PAL
gtDisplayFormat.vout_interlaced = TRUE;
}
#ifdef OSD_ENABLE
unsigned int task_rollstr_flag = 0;
if(gtOsdCurrent.osd_format!=gtDisplayFormat.vout_format){
if(OSTaskQuery(PRIOR_TASK_ROLLSTR, &tcb_data) == OS_NO_ERR){
task_rollstr_flag = 1;
if(OSTaskDel(PRIOR_TASK_ROLLSTR) != OS_NO_ERR )
debug("OSTaskDel(PRIOR_TASK_ROLLSTR) failed!\n");
}
if(gtDisplayFormat.vout_format == NTSC){
gtOsdCurrent.osd_format = NTSC;
gtOsdCurrent.width = 704;
gtOsdCurrent.height = 480;
} else if(gtDisplayFormat.vout_format == PAL){
gtOsdCurrent.osd_format = PAL;
gtOsdCurrent.width = 704;
gtOsdCurrent.height = 576;
} else if(gtDisplayFormat.vout_format == LCD){
gtOsdCurrent.osd_format = LCD;
gtOsdCurrent.width = 480;
gtOsdCurrent.height = 240;
}
//printf("\ngtOsdCurrent.width=%d,gtOsdCurrent.height=%d\n", gtOsdCurrent.width, gtOsdCurrent.height);
gtOsdCurrent.start_pixel = 0;
gtOsdCurrent.start_line = 0;
gtOsdCurrent.backgroundColor = 15;
gtOsdCurrent.OSD_T_Mask = 15;
gtOsdCurrent.fill_addr = (((unsigned int)OSD_memory_0)&0x1fffffff);
gtOsdCurrent.display_addr = (((unsigned int)OSD_memory_0)&0x1fffffff);
InitOsdMemory(gtOsdCurrent.start_pixel ,gtOsdCurrent.start_line, gtOsdCurrent.width, gtOsdCurrent.height , gtOsdCurrent.backgroundColor, gtOsdCurrent.fill_addr, gtOsdCurrent.OSD_T_Mask);
if(task_rollstr_flag == 1){
if(
#ifdef CHIP_CFG_STACK_CHECK
OSTaskCreateExt(TaskRollString, (void *)0, (void *)&StkTaskRollStr[sizeof(StkTaskRollStr) / sizeof(StkTaskRollStr[0]) - 1], PRIOR_TASK_ROLLSTR,\
PRIOR_TASK_ROLLSTR, (void *)&StkTaskRollStr[0], sizeof(StkTaskRollStr) / sizeof(StkTaskRollStr[0]), (void *)0, OS_TASK_OPT_STK_CHK+OS_TASK_OPT_STK_CLR) != OS_NO_ERR
#else
OSTaskCreate(TaskRollString, (void *)0, (void *)&StkTaskRollStr[STK_SIZE_ROLLSTR - 1], PRIOR_TASK_ROLLSTR) != OS_NO_ERR
#endif
)
debug ("\r\nTaskCreate TaskRollString error!\r\n");
else{
debug("\r\nTaskCreate TaskRollString OK!\r\n");
}
}
}
#endif
VscInit();
AppVscStart();
gVideoStatus |= tVoutEn;
}
} else {
TwoRiscDisplayRvoPipOsdInit();
if(
#ifdef CHIP_CFG_STACK_CHECK
OSTaskCreateExt(TaskTwoRiscDisplay, (void *)0, (void *)&StkTaskTwoRiscDisplay[sizeof(StkTaskTwoRiscDisplay) / sizeof(StkTaskTwoRiscDisplay[0]) - 1], PRIOR_TASK_DISPLAY,\
PRIOR_TASK_DISPLAY, (void *)&StkTaskTwoRiscDisplay[0], sizeof(StkTaskTwoRiscDisplay) / sizeof(StkTaskTwoRiscDisplay[0]), (void *)0, OS_TASK_OPT_STK_CHK+OS_TASK_OPT_STK_CLR) != OS_NO_ERR
#else
OSTaskCreate(TaskTwoRiscDisplay, (void *)0, (void *)&StkTaskTwoRiscDisplay[STK_SIZE_TaskTwoRiscDisplay - 1], PRIOR_TASK_DISPLAY) != OS_NO_ERR
#endif
)
printf("\r\nTaskTwoRiscDisplay create error!\r\n");
}
break;
case TWO_RISC_SYSTEM_CLOSE_PIP:
gPipEnable = 0;
break;
case TWO_RISC_SYSTEM_CLOSE_RVO:
gRvoEnable = 0;
break;
case TWO_RISC_SYSTEM_CLOSE_OSD:
gOsdEnable = 0;
break;
case TWO_RISC_SYSTEM_OPEN_RVO:
if(gRvoEnable == 0) {
if(gVoutEnable == 1) {
gVoutReEnable = 1;
}
gRvoEnable = 1;
}
break;
case TWO_RISC_SYSTEM_OPEN_PIP:
if(gPipEnable == 0) {
if(gVoutEnable == 1) {
gVoutReEnable = 1;
}
gPipEnable = 1;
}
break;
#ifdef OSD_ENABLE
case TWO_RISC_SYSTEM_OPEN_OSD:
if(gOsdEnable==0) {
if(gVoutEnable == 1)
gVoutReEnable = 1;
gOsdEnable =1;
}
/*if (OSTaskCreate(TaskRollString, (void *)0, (void *)&StkTaskRollStr[STK_SIZE_ROLLSTR - 1], PRIOR_TASK_ROLLSTR) != OS_NO_ERR)
{
debug ("\r\nTaskCreate TaskRollString error!\r\n");
} else
printf("\r\nTaskCreate TaskRollString succed!\r\n");*/
break;
#endif
#endif
case TWO_RISC_SYSTEM_OPEN_VIN:
#ifdef CHIP_CFG_STACK_CHECK
OSTaskCreateExt(TaskTwoRiscVinMpegEncode, (void *)0, (void *)&StkTaskTwoRisc0IPCamera[sizeof(StkTaskTwoRisc0IPCamera) / sizeof(StkTaskTwoRisc0IPCamera[0]) - 1], PRIOR_TASK_IPCAM,\
PRIOR_TASK_IPCAM, (void *)&StkTaskTwoRisc0IPCamera[0], sizeof(StkTaskTwoRisc0IPCamera) / sizeof(StkTaskTwoRisc0IPCamera[0]), (void *)0, OS_TASK_OPT_STK_CHK+OS_TASK_OPT_STK_CLR);
#else
OSTaskCreate(TaskTwoRiscVinMpegEncode, (void *)0, (void *)&StkTaskTwoRisc0IPCamera[TaskTwoRiscMpegEncode_STK_SIZE - 1], PRIOR_TASK_IPCAM);
#endif
#ifdef CHIP_CFG_STACK_CHECK
OSTaskCreateExt(TaskTwoRiscSendMpegH263Encode, (void *)0, (void *)&StkTaskTwoRiscSendMpegH263Encode[sizeof(StkTaskTwoRiscSendMpegH263Encode) / sizeof(StkTaskTwoRiscSendMpegH263Encode[0]) - 1], PRIOR_TASK_TWO_RISC_SEND_MPEG_H263_ENCODE,\
PRIOR_TASK_TWO_RISC_SEND_MPEG_H263_ENCODE, (void *)&StkTaskTwoRiscSendMpegH263Encode[0], sizeof(StkTaskTwoRiscSendMpegH263Encode) / sizeof(StkTaskTwoRiscSendMpegH263Encode[0]), (void *)0, OS_TASK_OPT_STK_CHK+OS_TASK_OPT_STK_CLR);
#else
OSTaskCreate(TaskTwoRiscSendMpegH263Encode, (void *)0, (void *)&StkTaskTwoRiscSendMpegH263Encode[TaskTwoRiscSendMpegh263Encode_STK_SIZE - 1], PRIOR_TASK_TWO_RISC_SEND_MPEG_H263_ENCODE);
#endif
break;
case TWO_RISC_SYSTEM_REOPEN_VIN_TASK:
{
INT8U dret = 0;
DIS_VIN_VIDEO();
debug("before OSTaskDel(PRIOR_TASK_IPCAM).\n");
OSTaskDel(PRIOR_TASK_TWO_RISC_SEND_MPEG_H263_ENCODE);
dret = OSTaskDel(PRIOR_TASK_IPCAM);
debug("after OSTaskDel(PRIOR_TASK_IPCAM).\n");
if (dret != OS_NO_ERR )
debug("OSTaskDel(PRIOR_TASK_IPCAM) failed.\n");
else
debug("OSTaskDel(PRIOR_TASK_IPCAM) success.\n");
OSSemDel_w(gptSemMpegEncodeReady, OS_DEL_ALWAYS, &err);
OSSemDel_w(gptSemMp4EncodeOutBufReady, OS_DEL_ALWAYS, &err);
OSMboxDel_w(gptMboxVideoInFrame, OS_DEL_ALWAYS, &err);
OSMboxDel_w(gptMboxMpegEncodeOutFrame, OS_DEL_ALWAYS, &err);
gVideoStatus &= ~tVinEn;
#if 0
#ifdef PIP_ENABLE
OSQDel (gptMqueueVideoInFrame, OS_DEL_ALWAYS, &err);
if(err != OS_NO_ERR)
printf("OSQDel failed, err = %d!", err);
#endif
#endif
#ifdef CHIP_CFG_STACK_CHECK
OSTaskCreateExt(TaskTwoRiscVinMpegEncode, (void *)0, (void *)&StkTaskTwoRisc0IPCamera[sizeof(StkTaskTwoRisc0IPCamera) / sizeof(StkTaskTwoRisc0IPCamera[0]) - 1], PRIOR_TASK_IPCAM,\
PRIOR_TASK_IPCAM, (void *)&StkTaskTwoRisc0IPCamera[0], sizeof(StkTaskTwoRisc0IPCamera) / sizeof(StkTaskTwoRisc0IPCamera[0]), (void *)0, OS_TASK_OPT_STK_CHK+OS_TASK_OPT_STK_CLR);
#else
OSTaskCreate(TaskTwoRiscVinMpegEncode, (void *)0, (void *)&StkTaskTwoRisc0IPCamera[TaskTwoRiscMpegEncode_STK_SIZE - 1], PRIOR_TASK_IPCAM);
#endif
#ifdef CHIP_CFG_STACK_CHECK
OSTaskCreateExt(TaskTwoRiscSendMpegH263Encode, (void *)0, (void *)&StkTaskTwoRiscSendMpegH263Encode[sizeof(StkTaskTwoRiscSendMpegH263Encode) / sizeof(StkTaskTwoRiscSendMpegH263Encode[0]) - 1], PRIOR_TASK_TWO_RISC_SEND_MPEG_H263_ENCODE,\
PRIOR_TASK_TWO_RISC_SEND_MPEG_H263_ENCODE, (void *)&StkTaskTwoRiscSendMpegH263Encode[0], sizeof(StkTaskTwoRiscSendMpegH263Encode) / sizeof(StkTaskTwoRiscSendMpegH263Encode[0]), (void *)0, OS_TASK_OPT_STK_CHK+OS_TASK_OPT_STK_CLR);
#else
OSTaskCreate(TaskTwoRiscSendMpegH263Encode, (void *)0, (void *)&StkTaskTwoRiscSendMpegH263Encode[TaskTwoRiscSendMpegh263Encode_STK_SIZE - 1], PRIOR_TASK_TWO_RISC_SEND_MPEG_H263_ENCODE);
#endif
}
break;
case TWO_RISC_SYSTEM_DEL_VIN_TASK:
DIS_VIN_VIDEO();
INT8U dret = 0;
debug("before OSTaskDel(PRIOR_TASK_IPCAM).\n");
OSTaskDel(PRIOR_TASK_TWO_RISC_SEND_MPEG_H263_ENCODE);
dret = OSTaskDel(PRIOR_TASK_IPCAM);
debug("after OSTaskDel(PRIOR_TASK_IPCAM).\n");
if (dret != OS_NO_ERR )
debug("OSTaskDel(PRIOR_TASK_IPCAM) failed.\n");
else
debug("OSTaskDel(PRIOR_TASK_IPCAM) success.\n");
OSSemDel_w(gptSemMpegEncodeReady, OS_DEL_ALWAYS, &err);
OSSemDel_w(gptSemMp4EncodeOutBufReady, OS_DEL_ALWAYS, &err);
OSMboxDel_w(gptMboxVideoInFrame, OS_DEL_ALWAYS, &err);
OSMboxDel_w(gptMboxMpegEncodeOutFrame, OS_DEL_ALWAYS, &err);
gVideoStatus &= ~tVinEn;
break;
#endif /*VIDEO_MODULE_INCLUDE*/
#ifdef DVR
/* wg add for DVR 2007.08.16 */
case TWO_RISC_SYSTEM_DVR_READ_MOTION_DETECTION:
Hw2835ReadMDRegister();
#endif
break;
#ifdef VIDEO_MODULE_INCLUDE
case TWO_RISC_SYSTEM_SET_CLOCK:
if(gFreqFromCrystal == FALSE) {
printf("\nTaskTwoRiscVinMpegEncode: camera clock is created from Vout!\n");
CctlVoutClkSet();
} else {
printf("\nTaskTwoRiscVinMpegEncode: camera clock is created from external crystal!\n");
CctlVoutClkSet();
}
gCameraSelectDigital = -1; //initialize it to avoid default FALSE
pcurrent_camera = GetDigitCamera();
if(pcurrent_camera) {
gCameraSelectDigital = TRUE;
}else {
pcurrent_camera = GetAnalogCamera();
if(pcurrent_camera) {
gCameraSelectDigital = FALSE;
if(pcurrent_camera != NULL) //has found digital camera or 7181
pcurrent_camera->camera_init();
else { //
printf("\nTaskTwoRiscVinMpegEncode: no analog cameras found!\n");
}
if(pcurrent_camera->GetCamVideoStd) { //is the chip support video standard detection?
if(pcurrent_camera->GetCamVideoStd(&vstd) == SUCCESSFUL) { //get analog camera and video standard
if((gtVinFormat.camera_format != vstd)) {
gtVinFormat.camera_format = vstd;
}
}
}
}
}
break;
#endif
default:
printf("\nTaskTwoRiscSystemMonitorRisc0: type(%d) error!\n", msg);
break;
}
}
#ifdef VIDEO_MODULE_INCLUDE
#ifdef DISPLAY_INCLUDE
if(gVoutEnable == 0)
gVideoStatus &= ~tVoutEn;
#endif
if(VideoStatusBak != gVideoStatus)
{
debug("\n>>>>>>>>>>>>>>>>>>\n");
VideoStatusBak = gVideoStatus;
//don't send gVideoStatus, it will be change in other task while you send!
pInt = (unsigned int *)&risc_packet;
risc_packet.start = RISC_PKT_START;
risc_packet.main_type = tVideo;
risc_packet.sub_type = tCheckVideoStatus;
risc_packet.length = 0x8;
risc_packet.status = 0;
*(pInt + 2) = VideoStatusBak;
risc_packet.end = RISC_PKT_END;
if(TwoRiscCommSendPacket((unsigned int *)&risc_packet, RPACKET_LEN) == SUCCESSFUL)
RiscFlagSet(); // Set risc1 flag to interrupt risc1
else
debug("\r\nSend Video Status error!\r\n");
}
#endif /* VIDEO_MODULE_INCLUDE */
}
}
/*..........................................................................*/
void QActive_stop(QActive *me) {
INT8U err;
me->running = (uint8_t)0; /* stop the thread loop */
OSQDel(me->eQueue, OS_DEL_ALWAYS, &err); /* cleanup the queue */
Q_ASSERT(err == OS_NO_ERR);
}
