/* * Copyright (C) 2020-2023 ArtInChip Technology Co. Ltd * * author: * Desc: OMX_VdecComponent */ #include "OMX_VdecComponent.h" #define aic_pthread_mutex_lock(mutex)\ {\ /*loge("before lock\n");*/\ pthread_mutex_lock(mutex);\ /*loge("after lock\n");*/\ } #define aic_pthread_mutex_unlock(mutex)\ {\ /*loge("before unlock\n");*/\ pthread_mutex_unlock(mutex);\ /*loge("after unlock\n");*/\ } #define OMX_VdecListEmpty(list,mutex)\ ({\ int ret = 0;\ aic_pthread_mutex_lock(&mutex);\ ret = mpp_list_empty(list);\ aic_pthread_mutex_unlock(&mutex);\ (ret);\ }) static OMX_ERRORTYPE OMX_VdecSendCommand( OMX_IN OMX_HANDLETYPE hComponent, OMX_IN OMX_COMMANDTYPE Cmd, OMX_IN OMX_U32 nParam1, OMX_IN OMX_PTR pCmdData); static OMX_ERRORTYPE OMX_VdecGetParameter( OMX_IN OMX_HANDLETYPE hComponent, OMX_IN OMX_INDEXTYPE nParamIndex, OMX_INOUT OMX_PTR pComponentParameterStructure); static OMX_ERRORTYPE OMX_VdecSetParameter( OMX_IN OMX_HANDLETYPE hComponent, OMX_IN OMX_INDEXTYPE nIndex, OMX_IN OMX_PTR pComponentParameterStructure); static OMX_ERRORTYPE OMX_VdecGetConfig( OMX_IN OMX_HANDLETYPE hComponent, OMX_IN OMX_INDEXTYPE nIndex, OMX_INOUT OMX_PTR pComponentConfigStructure); static OMX_ERRORTYPE OMX_VdecSetConfig( OMX_IN OMX_HANDLETYPE hComponent, OMX_IN OMX_INDEXTYPE nIndex, OMX_IN OMX_PTR pComponentConfigStructure); static OMX_ERRORTYPE OMX_VdecGetState( OMX_IN OMX_HANDLETYPE hComponent, OMX_OUT OMX_STATETYPE* pState); static OMX_ERRORTYPE OMX_VdecComponentTunnelRequest( OMX_IN OMX_HANDLETYPE hComp, OMX_IN OMX_U32 nPort, OMX_IN OMX_HANDLETYPE hTunneledComp, OMX_IN OMX_U32 nTunneledPort, OMX_INOUT OMX_TUNNELSETUPTYPE* pTunnelSetup); static OMX_ERRORTYPE OMX_VdecEmptyThisBuffer( OMX_IN OMX_HANDLETYPE hComponent, OMX_IN OMX_BUFFERHEADERTYPE* pBuffer); static OMX_ERRORTYPE OMX_VdecFillThisBuffer( OMX_IN OMX_HANDLETYPE hComponent, OMX_IN OMX_BUFFERHEADERTYPE* pBuffer); static OMX_ERRORTYPE OMX_VdecSetCallbacks( OMX_IN OMX_HANDLETYPE hComponent, OMX_IN OMX_CALLBACKTYPE* pCallbacks, OMX_IN OMX_PTR pAppData); static int OMX_VdecGiveBackAllPackets(VDEC_DATA_TYPE *pVdecDataType); static int OMX_VdecGiveBackAllFramesToDecoder(VDEC_DATA_TYPE *pVdecDataType); static OMX_ERRORTYPE OMX_VdecSendCommand( OMX_IN OMX_HANDLETYPE hComponent, OMX_IN OMX_COMMANDTYPE Cmd, OMX_IN OMX_U32 nParam1, OMX_IN OMX_PTR pCmdData) { VDEC_DATA_TYPE *pVdecDataType; OMX_ERRORTYPE eError = OMX_ErrorNone; struct aic_message sMsg; pVdecDataType = (VDEC_DATA_TYPE *)(((OMX_COMPONENTTYPE*)hComponent)->pComponentPrivate); sMsg.message_id = Cmd; sMsg.param = nParam1; sMsg.data_size = 0; //now not use always NULL if (pCmdData != NULL) { sMsg.data = pCmdData; sMsg.data_size = strlen((char*)pCmdData); } aic_msg_put(&pVdecDataType->sMsgQue, &sMsg); return eError; } static void* OMX_VdecComponentThread(void* pThreadData); static OMX_ERRORTYPE OMX_VdecGetParameter( OMX_IN OMX_HANDLETYPE hComponent, OMX_IN OMX_INDEXTYPE nParamIndex, OMX_INOUT OMX_PTR pComponentParameterStructure) { VDEC_DATA_TYPE *pVdecDataType; OMX_ERRORTYPE eError = OMX_ErrorNone; //OMX_U32 tmp1,tmp2; pVdecDataType = (VDEC_DATA_TYPE *)(((OMX_COMPONENTTYPE*)hComponent)->pComponentPrivate); switch (nParamIndex) { case OMX_IndexParamPortDefinition: { OMX_PARAM_PORTDEFINITIONTYPE *port = (OMX_PARAM_PORTDEFINITIONTYPE*)pComponentParameterStructure; if (port->nPortIndex == VDEC_PORT_IN_INDEX) { memcpy(port,&pVdecDataType->sInPortDef,sizeof(OMX_PARAM_PORTDEFINITIONTYPE)); } else if (port->nPortIndex == VDEC_PORT_OUT_INDEX) { memcpy(port,&pVdecDataType->sOutPortDef,sizeof(OMX_PARAM_PORTDEFINITIONTYPE)); } else { eError = OMX_ErrorBadParameter; } break; } case OMX_IndexParamVideoAvc: break; case OMX_IndexParamVideoProfileLevelQuerySupported: break; case OMX_IndexParamVideoPortFormat: break; case OMX_IndexParamVideoProfileLevelCurrent: break; case OMX_IndexParamVideoMpeg4: break; case OMX_IndexParamCompBufferSupplier: { OMX_PARAM_BUFFERSUPPLIERTYPE *sBufferSupplier = (OMX_PARAM_BUFFERSUPPLIERTYPE*)pComponentParameterStructure; if (sBufferSupplier->nPortIndex == 0) { sBufferSupplier->eBufferSupplier = pVdecDataType->sInBufSupplier.eBufferSupplier; } else if (sBufferSupplier->nPortIndex == 1) { sBufferSupplier->eBufferSupplier = pVdecDataType->sOutBufSupplier.eBufferSupplier; } else { loge("error nPortIndex\n"); eError = OMX_ErrorBadPortIndex; } break; } default: eError = OMX_ErrorNotImplemented; break; } return eError; } static OMX_S32 OMX_VdecVideoFormatTrans(enum mpp_codec_type *eDesType,OMX_VIDEO_CODINGTYPE *eSrcType) { OMX_S32 ret = 0; if (eDesType== NULL || eSrcType == NULL) { loge("bad params!!!!\n"); return -1; } if (*eSrcType == OMX_VIDEO_CodingAVC) { *eDesType = MPP_CODEC_VIDEO_DECODER_H264; } else if (*eSrcType == OMX_VIDEO_CodingMJPEG) { *eDesType = MPP_CODEC_VIDEO_DECODER_MJPEG; } else { loge("unsupport codec!!!!\n"); ret = -1; } return ret; } static OMX_S32 OMX_VdecVideoPixelFormatTrans(enum mpp_pixel_format *eDesPixFormat,OMX_COLOR_FORMATTYPE *eSrcPixFormat) { OMX_S32 ret = 0; if (eDesPixFormat== NULL || eSrcPixFormat == NULL) { loge("bad params!!!!\n"); return -1; } if (*eSrcPixFormat == OMX_COLOR_FormatYUV420Planar) { *eDesPixFormat = MPP_FMT_YUV420P; } else if (*eSrcPixFormat == OMX_COLOR_FormatYUV420SemiPlanar) { *eDesPixFormat = MPP_FMT_NV12; } else if (*eSrcPixFormat == OMX_COLOR_FormatYUV420PackedPlanar) { *eDesPixFormat = MPP_FMT_NV21; } else if (*eSrcPixFormat == OMX_COLOR_Format16bitRGB565) { *eDesPixFormat = MPP_FMT_RGB_565; } else if (*eSrcPixFormat == OMX_COLOR_Format32bitARGB8888) { *eDesPixFormat = MPP_FMT_ARGB_8888; } else if (*eSrcPixFormat == OMX_COLOR_Format24bitRGB888) { *eDesPixFormat = MPP_FMT_RGB_888; } else if (*eSrcPixFormat == OMX_COLOR_Format16bitARGB1555) { *eDesPixFormat = MPP_FMT_ARGB_1555; } else { *eDesPixFormat = MPP_FMT_YUV420P; loge("unsupport pixformat!!!!\n"); ret = -1; } return ret; } static OMX_ERRORTYPE OMX_VdecSetParameter( OMX_IN OMX_HANDLETYPE hComponent, OMX_IN OMX_INDEXTYPE nParamIndex, OMX_IN OMX_PTR pComponentParameterStructure) { VDEC_DATA_TYPE *pVdecDataType; OMX_ERRORTYPE eError = OMX_ErrorNone; //OMX_S32 tmp1,tmp2; OMX_U32 index; enum mpp_codec_type eCodecType; enum mpp_pixel_format ePixFormat; pVdecDataType = (VDEC_DATA_TYPE *)(((OMX_COMPONENTTYPE*)hComponent)->pComponentPrivate); switch (nParamIndex) { case OMX_IndexParamVideoPortFormat: { OMX_VIDEO_PARAM_PORTFORMATTYPE *sPortFormat = (OMX_VIDEO_PARAM_PORTFORMATTYPE*)pComponentParameterStructure; index = sPortFormat->nPortIndex; if (index == VDEC_PORT_IN_INDEX) { pVdecDataType->sInPortDef.format.video.eCompressionFormat = sPortFormat->eCompressionFormat; pVdecDataType->sInPortDef.format.video.eColorFormat = sPortFormat->eColorFormat; logw("eCompressionFormat:%d,eColorFormat:%d\n" ,pVdecDataType->sInPortDef.format.video.eCompressionFormat ,pVdecDataType->sInPortDef.format.video.eColorFormat); if (OMX_VdecVideoFormatTrans(&eCodecType,&sPortFormat->eCompressionFormat) != 0) { eError = OMX_ErrorUnsupportedSetting; loge("OMX_ErrorUnsupportedSetting\n"); break; } if (OMX_VdecVideoPixelFormatTrans(&ePixFormat,&sPortFormat->eColorFormat) != 0) { eError = OMX_ErrorUnsupportedSetting; loge("OMX_ErrorUnsupportedSetting\n"); break; } pVdecDataType->eCodeType = eCodecType; pVdecDataType->sDecoderConfig.pix_fmt = ePixFormat; logw("eCompressionFormat:%d,eColorFormat:%d\n" ,pVdecDataType->eCodeType ,pVdecDataType->sDecoderConfig.pix_fmt); /*need to define extened OMX_Index or decide by inner*/ pVdecDataType->sDecoderConfig.bitstream_buffer_size = 1024*1024; pVdecDataType->sDecoderConfig.extra_frame_num = 1; pVdecDataType->sDecoderConfig.packet_count = 10; } else if (index == VDEC_PORT_OUT_INDEX) { logw("now no need to set out port param\n"); eError = OMX_ErrorUnsupportedSetting; } else { loge("OMX_ErrorBadParameter\n"); } break; } case OMX_IndexParamPortDefinition: { OMX_PARAM_PORTDEFINITIONTYPE *port = (OMX_PARAM_PORTDEFINITIONTYPE*)pComponentParameterStructure; index = port->nPortIndex; if (index == VDEC_PORT_IN_INDEX) { pVdecDataType->sInPortDef.format.video.eCompressionFormat = port->format.video.eCompressionFormat; pVdecDataType->sInPortDef.format.video.eColorFormat = port->format.video.eColorFormat; logw("eCompressionFormat:%d,eColorFormat:%d\n" ,pVdecDataType->sInPortDef.format.video.eCompressionFormat ,pVdecDataType->sInPortDef.format.video.eColorFormat); if (OMX_VdecVideoFormatTrans(&eCodecType,&port->format.video.eCompressionFormat) != 0) { eError = OMX_ErrorUnsupportedSetting; loge("OMX_ErrorUnsupportedSetting\n"); break; } if (OMX_VdecVideoPixelFormatTrans(&ePixFormat,& port->format.video.eColorFormat) != 0) { eError = OMX_ErrorUnsupportedSetting; loge("OMX_ErrorUnsupportedSetting\n"); break; } /*need to convert */ pVdecDataType->eCodeType = eCodecType; pVdecDataType->sDecoderConfig.pix_fmt = ePixFormat; logw("eCompressionFormat:%d,eColorFormat:%d\n" ,pVdecDataType->eCodeType ,pVdecDataType->sDecoderConfig.pix_fmt); /*need to define extened OMX_Index or decide by inner*/ pVdecDataType->sDecoderConfig.bitstream_buffer_size = 1024*1024; pVdecDataType->sDecoderConfig.extra_frame_num = 1; pVdecDataType->sDecoderConfig.packet_count = 10; } else if (index == VDEC_PORT_OUT_INDEX) { logw("now no need to set out port param\n"); } else { loge("OMX_ErrorBadParameter\n"); eError = OMX_ErrorBadParameter; } } break; case OMX_IndexParamVideoAvc: break; case OMX_IndexParamVideoProfileLevelQuerySupported: break; case OMX_IndexParamVideoProfileLevelCurrent: break; case OMX_IndexParamVideoMpeg4: break; default: break; } return eError; } static OMX_ERRORTYPE OMX_VdecGetConfig( OMX_IN OMX_HANDLETYPE hComponent, OMX_IN OMX_INDEXTYPE nIndex, OMX_INOUT OMX_PTR pComponentConfigStructure) { OMX_ERRORTYPE eError = OMX_ErrorNone; return eError; } static OMX_ERRORTYPE OMX_VdecSetConfig( OMX_IN OMX_HANDLETYPE hComponent, OMX_IN OMX_INDEXTYPE nIndex, OMX_IN OMX_PTR pComponentConfigStructure) { OMX_ERRORTYPE eError = OMX_ErrorNone; OMX_S32 nParamIndex = (OMX_S32)nIndex; VDEC_DATA_TYPE* pVdecDataType = (VDEC_DATA_TYPE *)(((OMX_COMPONENTTYPE*)hComponent)->pComponentPrivate); switch (nParamIndex) { case OMX_IndexConfigTimePosition: // 1 clear input buffer OMX_VdecGiveBackAllPackets(pVdecDataType); // 2 clear output buffer OMX_VdecGiveBackAllFramesToDecoder(pVdecDataType); // 3 clear flag pVdecDataType->nFlags = 0; pVdecDataType->nPutPacktToDecoderOkNum = 0; pVdecDataType->nGetFrameFromDecoderNum = 0; // 4 clear decoder buff mpp_decoder_reset(pVdecDataType->pDecoder); break; case OMX_IndexConfigTimeSeekMode: break; default: break; } return eError; } static OMX_ERRORTYPE OMX_VdecGetState( OMX_IN OMX_HANDLETYPE hComponent, OMX_OUT OMX_STATETYPE* pState) { VDEC_DATA_TYPE* pVdecDataType; OMX_ERRORTYPE eError = OMX_ErrorNone; pVdecDataType = (VDEC_DATA_TYPE *)(((OMX_COMPONENTTYPE*)hComponent)->pComponentPrivate); aic_pthread_mutex_lock(&pVdecDataType->stateLock); *pState = pVdecDataType->state; aic_pthread_mutex_unlock(&pVdecDataType->stateLock); return eError; } static OMX_ERRORTYPE OMX_VdecComponentTunnelRequest( OMX_IN OMX_HANDLETYPE hComp, OMX_IN OMX_U32 nPort, OMX_IN OMX_HANDLETYPE hTunneledComp, OMX_IN OMX_U32 nTunneledPort, OMX_INOUT OMX_TUNNELSETUPTYPE* pTunnelSetup) { OMX_ERRORTYPE eError = OMX_ErrorNone; OMX_PARAM_PORTDEFINITIONTYPE *pPort; OMX_PORT_TUNNELEDINFO *pTunneledInfo; OMX_PARAM_BUFFERSUPPLIERTYPE *pBufSupplier; VDEC_DATA_TYPE* pVdecDataType; pVdecDataType = (VDEC_DATA_TYPE *)(((OMX_COMPONENTTYPE*)hComp)->pComponentPrivate); if (pVdecDataType->state != OMX_StateLoaded) { loge("Component is not in OMX_StateLoaded,it is in%d,it can not tunnel\n",pVdecDataType->state); return OMX_ErrorInvalidState; } if (nPort == VDEC_PORT_IN_INDEX) { pPort = &pVdecDataType->sInPortDef; pTunneledInfo = &pVdecDataType->sInPortTunneledInfo; pBufSupplier = &pVdecDataType->sInBufSupplier; } else if (nPort == VDEC_PORT_OUT_INDEX) { pPort = &pVdecDataType->sOutPortDef; pTunneledInfo = &pVdecDataType->sOutPortTunneledInfo; pBufSupplier = &pVdecDataType->sOutBufSupplier; } else { loge("component can not find port :%"PRId32"\n",nPort); return OMX_ErrorBadParameter; } // cancle setup tunnel if (NULL == hTunneledComp && 0 == nTunneledPort && NULL == pTunnelSetup) { pTunneledInfo->nTunneledFlag = OMX_FALSE; pTunneledInfo->nTunnelPortIndex = nTunneledPort; pTunneledInfo->pTunneledComp = hTunneledComp; return OMX_ErrorNone; } if (pPort->eDir == OMX_DirOutput) { pTunneledInfo->nTunnelPortIndex = nTunneledPort; pTunneledInfo->pTunneledComp = hTunneledComp; pTunneledInfo->nTunneledFlag = OMX_TRUE; pTunnelSetup->nTunnelFlags = 0; pTunnelSetup->eSupplier = pBufSupplier->eBufferSupplier; } else if (pPort->eDir == OMX_DirInput) { OMX_PARAM_PORTDEFINITIONTYPE sTunneledPort; OMX_PARAM_BUFFERSUPPLIERTYPE sBuffSupplier; sTunneledPort.nPortIndex = nTunneledPort; sBuffSupplier.nPortIndex = nTunneledPort; if (pTunnelSetup->eSupplier == OMX_BufferSupplyMax) { loge("both ports are input.\n"); return OMX_ErrorPortsNotCompatible; } OMX_GetParameter(hTunneledComp, OMX_IndexParamPortDefinition,&sTunneledPort); if (pPort->eDomain != sTunneledPort.eDomain) { loge("ports domain are not compatible: %d %d.\n", pPort->eDomain, sTunneledPort.eDomain); return OMX_ErrorPortsNotCompatible; } if (sTunneledPort.eDir != OMX_DirOutput) { loge("both ports are input.\n"); return OMX_ErrorPortsNotCompatible; } //negotiate buffer supplier OMX_GetParameter(hTunneledComp, OMX_IndexParamCompBufferSupplier,&sBuffSupplier); if (sBuffSupplier.eBufferSupplier != pTunnelSetup->eSupplier) { loge("out_port and in_port supplier are different,please check code!!!!\n"); return OMX_ErrorPortsNotCompatible; } pTunneledInfo->nTunnelPortIndex = nTunneledPort; pTunneledInfo->pTunneledComp = hTunneledComp; pTunneledInfo->nTunneledFlag = OMX_TRUE; pBufSupplier->eBufferSupplier = pTunnelSetup->eSupplier; } else { loge("port is neither output nor input.\n"); return OMX_ErrorPortsNotCompatible; } return eError; } static OMX_ERRORTYPE OMX_VdecEmptyThisBuffer( OMX_IN OMX_HANDLETYPE hComponent, OMX_IN OMX_BUFFERHEADERTYPE* pBuffer) { OMX_ERRORTYPE eError = OMX_ErrorNone; VDEC_DATA_TYPE* pVdecDataType; VDEC_IN_PACKET *pktNode; int ret = 0; struct aic_message sMsg; pVdecDataType = (VDEC_DATA_TYPE *)(((OMX_COMPONENTTYPE*)hComponent)->pComponentPrivate); static int rate = 0; static struct timespec pev = {0,0},cur = {0,0}; aic_pthread_mutex_lock(&pVdecDataType->stateLock); if (pVdecDataType->state != OMX_StateExecuting) { logw("component is not in OMX_StateExecuting,it is in [%d]!!!\n",pVdecDataType->state); aic_pthread_mutex_unlock(&pVdecDataType->stateLock); return OMX_ErrorIncorrectStateOperation; } if (pVdecDataType->sInPortTunneledInfo.nTunneledFlag) { if (pVdecDataType->sInBufSupplier.eBufferSupplier == OMX_BufferSupplyOutput) { if (OMX_VdecListEmpty(&pVdecDataType->sInEmptyPkt,pVdecDataType->sInPktLock)) { if (pVdecDataType->nInPktNodeNum + 1> VDEC_PACKET_NUM_MAX) { loge("empty node has aready increase to max [%"PRId32"]!!!\n",pVdecDataType->nInPktNodeNum); eError = OMX_ErrorInsufficientResources; pVdecDataType->nReceivePacktFailNum++; goto _EXIT; } else { int i; logw("no empty node,need to extend!!!\n"); for(i =0 ; i < VDEC_PACKET_ONE_TIME_CREATE_NUM; i++) { VDEC_IN_PACKET *pPktNode = (VDEC_IN_PACKET*)mpp_alloc(sizeof(VDEC_IN_PACKET)); if (NULL == pPktNode) { break; } memset(pPktNode,0x00,sizeof(VDEC_IN_PACKET)); aic_pthread_mutex_lock(&pVdecDataType->sInPktLock); mpp_list_add_tail(&pPktNode->sList, &pVdecDataType->sInEmptyPkt); aic_pthread_mutex_unlock(&pVdecDataType->sInPktLock); pVdecDataType->nInPktNodeNum++; printf("[%s:%d]nInPktNodeNum:%"PRId32"\n",__FUNCTION__,__LINE__,pVdecDataType->nInPktNodeNum); } if (i == 0) { loge("mpp_alloc empty video node fail\n"); eError = OMX_ErrorInsufficientResources; pVdecDataType->nReceivePacktFailNum++; goto _EXIT; } } } struct mpp_packet pkt; pkt.size = pBuffer->nFilledLen; ret = mpp_decoder_get_packet(pVdecDataType->pDecoder, &pkt, pkt.size); if (ret != 0) { //loge("get pkt from decoder error ret:%d!!!\n",ret); if (ret == DEC_NO_EMPTY_PACKET) { pVdecDataType->nReceivePacktFailNum++; eError = OMX_ErrorOverflow; goto _EXIT; } else { pVdecDataType->nReceivePacktFailNum++; eError = OMX_ErrorInsufficientResources; goto _EXIT; } } memcpy(pkt.data,pBuffer->pBuffer,pkt.size); pkt.flag =pBuffer->nFlags; pkt.pts = pBuffer->nTimeStamp; //mpp_decoder_get_packet is ok then mpp_decoder_put_packet is also ok mpp_decoder_put_packet(pVdecDataType->pDecoder, &pkt); // if (pkt.flag & PACKET_FLAG_EOS) { // printf("[%s:%d]:StreamEndFlag\n",__FUNCTION__,__LINE__); // } rate += pkt.size; if (pev.tv_sec == 0) { clock_gettime(CLOCK_REALTIME,&pev); } else { long diff; clock_gettime(CLOCK_REALTIME,&cur); diff = (cur.tv_sec - pev.tv_sec)*1000*1000 + (cur.tv_nsec - pev.tv_nsec)/1000; if (diff > 42*1000) { //loge(" vbv rate:%d,diff:%ld \n",rate*8,diff); //loge("diff:%ld\n",diff); rate = 0; pev = cur; } } aic_pthread_mutex_lock(&pVdecDataType->sInPktLock); pktNode = mpp_list_first_entry(&pVdecDataType->sInEmptyPkt, VDEC_IN_PACKET, sList); pktNode->sBuff.nOutputPortIndex = pBuffer->nOutputPortIndex; pktNode->sBuff.pBuffer = pBuffer->pBuffer; pktNode->sBuff.nFilledLen = pBuffer->nFilledLen; pktNode->sBuff.nTimeStamp = pBuffer->nTimeStamp; pktNode->sBuff.nFlags = pBuffer->nFlags; mpp_list_del(&pktNode->sList); mpp_list_add_tail(&pktNode->sList, &pVdecDataType->sInProcessedPkt); if (pVdecDataType->nWaitForReadyPkt == 1) { sMsg.message_id = OMX_CommandNops; sMsg.data_size = 0; aic_msg_put(&pVdecDataType->sMsgQue, &sMsg); pVdecDataType->nWaitForReadyPkt = 0; } if (pktNode->sBuff.nFlags & PACKET_FLAG_EOS) { pVdecDataType->nFlags |= VDEC_INPORT_STREAM_END_FLAG; //pVdecDataType->nStreamEndFlag = OMX_TRUE; printf("[%s:%d]:StreamEndFlag\n",__FUNCTION__,__LINE__); } pVdecDataType->nReceivePacktOkNum++; logd("pVdecDataType->nReceivePacktOkNum:%"PRId32"\n",pVdecDataType->nReceivePacktOkNum); aic_pthread_mutex_unlock(&pVdecDataType->sInPktLock); } else if (pVdecDataType->sInBufSupplier.eBufferSupplier == OMX_BufferSupplyInput) { eError = OMX_ErrorNotImplemented; logw("OMX_ErrorNotImplemented\n"); } else { eError = OMX_ErrorNotImplemented; logw("OMX_ErrorNotImplemented\n"); } } else { struct mpp_packet pkt; pkt.size = pBuffer->nFilledLen; ret = mpp_decoder_get_packet(pVdecDataType->pDecoder, &pkt, pkt.size); if (ret != 0) { //loge("get pkt from decoder error ret:%d!!!\n",ret); if (ret == DEC_NO_EMPTY_PACKET) { pVdecDataType->nReceivePacktFailNum++; eError = OMX_ErrorOverflow; goto _EXIT; } else { pVdecDataType->nReceivePacktFailNum++; eError = OMX_ErrorInsufficientResources; goto _EXIT; } } else { //logw("get pkt from decoder ok!!!\n"); } memcpy(pkt.data,pBuffer->pBuffer,pkt.size); pkt.flag =pBuffer->nFlags; pkt.pts = pBuffer->nTimeStamp; //mpp_decoder_get_packet is ok then mpp_decoder_put_packet is also ok mpp_decoder_put_packet(pVdecDataType->pDecoder, &pkt); if (pkt.flag & PACKET_FLAG_EOS) { pVdecDataType->nFlags |= VDEC_INPORT_STREAM_END_FLAG; //pVdecDataType->nStreamEndFlag = OMX_TRUE; logi("StreamEndFlag!!!\n"); } pVdecDataType->nReceivePacktOkNum++; pVdecDataType->nGiveBackPacktOkNum++; } _EXIT: aic_pthread_mutex_unlock(&pVdecDataType->stateLock); return eError; } static OMX_ERRORTYPE OMX_VdecFillThisBuffer( OMX_IN OMX_HANDLETYPE hComponent, OMX_IN OMX_BUFFERHEADERTYPE* pBuffer) { OMX_ERRORTYPE eError = OMX_ErrorNone; VDEC_DATA_TYPE* pVdecDataType; struct mpp_frame *pFrame; VDEC_OUT_FRAME *pFrameNode1 = NULL,*pFrameNode2 = NULL; OMX_BOOL bMatch = OMX_FALSE; OMX_S32 ret; struct aic_message sMsg; pVdecDataType = (VDEC_DATA_TYPE *)(((OMX_COMPONENTTYPE*)hComponent)->pComponentPrivate); if (pBuffer->nOutputPortIndex != VDEC_PORT_OUT_INDEX) { loge("port not match\n"); return OMX_ErrorBadParameter; } if (!OMX_VdecListEmpty(&pVdecDataType->sOutProcessingFrame,pVdecDataType->sOutFrameLock)) { pFrame = (struct mpp_frame *)pBuffer->pBuffer; aic_pthread_mutex_lock(&pVdecDataType->sOutFrameLock); mpp_list_for_each_entry_safe(pFrameNode1,pFrameNode2,&pVdecDataType->sOutProcessingFrame,sList) { if (pFrameNode1->sFrameInfo.id == pFrame->id &&pFrameNode1->sFrameInfo.buf.phy_addr[0] == pFrame->buf.phy_addr[0]) { bMatch = OMX_TRUE; break; } } if (bMatch) {//give frame back to decoder //loge("bMatch:%d\n",bMatch); ret = mpp_decoder_put_frame(pVdecDataType->pDecoder, &pFrameNode1->sFrameInfo); if (ret != 0) {// how to do //ASSERT(); loge("mpp_decoder_put_frame error!!!!\n"); return OMX_ErrorUndefined; } pVdecDataType->nSendBackFrameOkNum++; mpp_list_del(&pFrameNode1->sList); mpp_list_add_tail(&pFrameNode1->sList, &pVdecDataType->sOutEmptyFrame); if (pVdecDataType->nWaitForEmptyFrame == 1) { sMsg.message_id = OMX_CommandNops; sMsg.data_size = 0; aic_msg_put(&pVdecDataType->sMsgQue, &sMsg); pVdecDataType->nWaitForEmptyFrame = 0; } } else { loge("frame not match!!!\n"); eError = OMX_ErrorBadParameter; pVdecDataType->nSendBackFrameErrorNum++; } logi("pVdecDataType->nSendBackFrameOkNum:%"PRId32",pAdecDataType->nSendBackFrameErrorNum:%"PRId32"" ,pVdecDataType->nSendBackFrameOkNum ,pVdecDataType->nSendBackFrameErrorNum); aic_pthread_mutex_unlock(&pVdecDataType->sOutFrameLock); } else { loge("no frame need to back \n"); eError = OMX_ErrorBadParameter; } return eError; } static OMX_ERRORTYPE OMX_VdecSetCallbacks( OMX_IN OMX_HANDLETYPE hComponent, OMX_IN OMX_CALLBACKTYPE* pCallbacks, OMX_IN OMX_PTR pAppData) { OMX_ERRORTYPE eError = OMX_ErrorNone; VDEC_DATA_TYPE* pVdecDataType; pVdecDataType = (VDEC_DATA_TYPE *)(((OMX_COMPONENTTYPE*)hComponent)->pComponentPrivate); pVdecDataType->pCallbacks = pCallbacks; pVdecDataType->pAppData = pAppData; return eError; } OMX_ERRORTYPE OMX_VdecComponentDeInit( OMX_IN OMX_HANDLETYPE hComponent) { OMX_ERRORTYPE eError = OMX_ErrorNone; OMX_COMPONENTTYPE *pComp; VDEC_DATA_TYPE *pVdecDataType; VDEC_IN_PACKET *pPktNode = NULL,*pPktNode1 = NULL; VDEC_OUT_FRAME *pFrameNode = NULL,*pFrameNode1 = NULL; pComp = (OMX_COMPONENTTYPE *)hComponent; struct aic_message sMsg; pVdecDataType = (VDEC_DATA_TYPE *)pComp->pComponentPrivate; aic_pthread_mutex_lock(&pVdecDataType->stateLock); if (pVdecDataType->state != OMX_StateLoaded) { logw("compoent is in %d,but not in OMX_StateLoaded(1),can not FreeHandle.\n",pVdecDataType->state); aic_pthread_mutex_unlock(&pVdecDataType->stateLock); return OMX_ErrorIncorrectStateOperation; } aic_pthread_mutex_unlock(&pVdecDataType->stateLock); sMsg.message_id = OMX_CommandStop; sMsg.data_size = 0; aic_msg_put(&pVdecDataType->sMsgQue, &sMsg); pthread_join(pVdecDataType->threadId, (void*)&eError); aic_pthread_mutex_lock(&pVdecDataType->sInPktLock); if (!mpp_list_empty(&pVdecDataType->sInEmptyPkt)) { mpp_list_for_each_entry_safe(pPktNode, pPktNode1, &pVdecDataType->sInEmptyPkt, sList) { mpp_list_del(&pPktNode->sList); mpp_free(pPktNode); } } if (!mpp_list_empty(&pVdecDataType->sInReadyPkt)) { mpp_list_for_each_entry_safe(pPktNode, pPktNode1, &pVdecDataType->sInReadyPkt, sList) { mpp_list_del(&pPktNode->sList); mpp_free(pPktNode); } } aic_pthread_mutex_unlock(&pVdecDataType->sInPktLock); aic_pthread_mutex_lock(&pVdecDataType->sOutFrameLock); if (!mpp_list_empty(&pVdecDataType->sOutEmptyFrame)) { mpp_list_for_each_entry_safe(pFrameNode, pFrameNode1, &pVdecDataType->sOutEmptyFrame, sList) { mpp_list_del(&pFrameNode->sList); mpp_free(pFrameNode); } } if (!mpp_list_empty(&pVdecDataType->sOutReadyFrame)) { mpp_list_for_each_entry_safe(pFrameNode, pFrameNode1, &pVdecDataType->sOutReadyFrame, sList) { mpp_list_del(&pFrameNode->sList); mpp_free(pFrameNode); } } if (!mpp_list_empty(&pVdecDataType->sOutProcessingFrame)) { mpp_list_for_each_entry_safe(pFrameNode, pFrameNode1, &pVdecDataType->sOutProcessingFrame, sList) { mpp_list_del(&pFrameNode->sList); mpp_free(pFrameNode); } } aic_pthread_mutex_unlock(&pVdecDataType->sOutFrameLock); pthread_mutex_destroy(&pVdecDataType->sInPktLock); pthread_mutex_destroy(&pVdecDataType->sOutFrameLock); pthread_mutex_destroy(&pVdecDataType->stateLock); aic_msg_destroy(&pVdecDataType->sMsgQue); if (pVdecDataType->pDecoder) { mpp_decoder_destory(pVdecDataType->pDecoder); pVdecDataType->pDecoder = NULL; } mpp_free(pVdecDataType); pVdecDataType = NULL; logw("OMX_VideoRenderComponentDeInit\n"); return eError; } static int dec_thread_attr_init(pthread_attr_t *attr) { // default stack size is 2K, it is not enough for decode thread if (attr == NULL) { return EINVAL; } pthread_attr_init(attr); attr->stacksize = 16*1024; //attr->schedparam.sched_priority = 25; //attr->schedparam.sched_priority = 23; attr->schedparam.sched_priority = 22; //attr->schedpolicy = 17; return 0; } OMX_ERRORTYPE OMX_VdecComponentInit( OMX_IN OMX_HANDLETYPE hComponent) { OMX_COMPONENTTYPE *pComp; VDEC_DATA_TYPE *pVdecDataType; OMX_ERRORTYPE eError = OMX_ErrorNone; OMX_U32 err; OMX_U32 i; //OMX_U32 cnt; pthread_attr_t attr; dec_thread_attr_init(&attr); logw("OMX_VdecComponentInit...."); pComp = (OMX_COMPONENTTYPE *)hComponent; pVdecDataType = (VDEC_DATA_TYPE *)mpp_alloc(sizeof(VDEC_DATA_TYPE)); if (NULL == pVdecDataType) { loge("mpp_alloc(sizeof(VDEC_DATA_TYPE) fail!"); eError = OMX_ErrorInsufficientResources; goto _EXIT1; } memset(pVdecDataType, 0x0, sizeof(VDEC_DATA_TYPE)); pComp->pComponentPrivate = (void*) pVdecDataType; pVdecDataType->state = OMX_StateLoaded; pVdecDataType->hSelf = pComp; pComp->SetCallbacks = OMX_VdecSetCallbacks; pComp->SendCommand = OMX_VdecSendCommand; pComp->GetState = OMX_VdecGetState; pComp->GetParameter = OMX_VdecGetParameter; pComp->SetParameter = OMX_VdecSetParameter; pComp->GetConfig = OMX_VdecGetConfig; pComp->SetConfig = OMX_VdecSetConfig; pComp->ComponentTunnelRequest = OMX_VdecComponentTunnelRequest; pComp->ComponentDeInit = OMX_VdecComponentDeInit; pComp->FillThisBuffer = OMX_VdecFillThisBuffer; pComp->EmptyThisBuffer = OMX_VdecEmptyThisBuffer; pVdecDataType->sPortParam.nPorts = 2; pVdecDataType->sPortParam.nStartPortNumber = 0x0; pVdecDataType->sInPortDef.nPortIndex = VDEC_PORT_IN_INDEX; pVdecDataType->sInPortDef.bPopulated = OMX_TRUE; pVdecDataType->sInPortDef.bEnabled = OMX_TRUE; pVdecDataType->sInPortDef.eDomain = OMX_PortDomainVideo; pVdecDataType->sInPortDef.eDir = OMX_DirInput; pVdecDataType->sOutPortDef.nPortIndex = VDEC_PORT_OUT_INDEX; pVdecDataType->sOutPortDef.bPopulated = OMX_TRUE; pVdecDataType->sOutPortDef.bEnabled = OMX_TRUE; pVdecDataType->sOutPortDef.eDomain = OMX_PortDomainVideo; pVdecDataType->sOutPortDef.eDir = OMX_DirOutput; pVdecDataType->sInPortTunneledInfo.nPortIndex = VDEC_PORT_IN_INDEX; pVdecDataType->sInPortTunneledInfo.pSelfComp = hComponent; pVdecDataType->sOutPortTunneledInfo.nPortIndex = VDEC_PORT_OUT_INDEX; pVdecDataType->sOutPortTunneledInfo.pSelfComp = hComponent; //now demux support buffers ,later modify pVdecDataType->sInBufSupplier.nPortIndex = 0x0; pVdecDataType->sInBufSupplier.eBufferSupplier = OMX_BufferSupplyOutput; pVdecDataType->nInPktNodeNum = 0; mpp_list_init(&pVdecDataType->sInEmptyPkt); mpp_list_init(&pVdecDataType->sInReadyPkt); mpp_list_init(&pVdecDataType->sInProcessedPkt); pthread_mutex_init(&pVdecDataType->sInPktLock, NULL); for(i =0 ; i < VDEC_PACKET_ONE_TIME_CREATE_NUM; i++) { VDEC_IN_PACKET *pPktNode = (VDEC_IN_PACKET*)mpp_alloc(sizeof(VDEC_IN_PACKET)); if (NULL == pPktNode) { break; } memset(pPktNode,0x00,sizeof(VDEC_IN_PACKET)); mpp_list_add_tail(&pPktNode->sList, &pVdecDataType->sInEmptyPkt); pVdecDataType->nInPktNodeNum++; } if (pVdecDataType->nInPktNodeNum == 0) { loge("mpp_alloc empty video node fail\n"); eError = OMX_ErrorInsufficientResources; goto _EXIT2; } // vdec support out pot buffer pVdecDataType->sOutBufSupplier.nPortIndex = 0x1; pVdecDataType->sOutBufSupplier.eBufferSupplier = OMX_BufferSupplyOutput; pVdecDataType->nOutFrameNodeNum = 0; mpp_list_init(&pVdecDataType->sOutEmptyFrame); mpp_list_init(&pVdecDataType->sOutReadyFrame); mpp_list_init(&pVdecDataType->sOutProcessingFrame); pthread_mutex_init(&pVdecDataType->sOutFrameLock, NULL); for(i =0 ; i < VDEC_FRAME_ONE_TIME_CREATE_NUM; i++) { VDEC_OUT_FRAME *pFrameNode = (VDEC_OUT_FRAME*)mpp_alloc(sizeof(VDEC_OUT_FRAME)); if (NULL == pFrameNode) { break; } memset(pFrameNode,0x00,sizeof(VDEC_OUT_FRAME)); mpp_list_add_tail(&pFrameNode->sList, &pVdecDataType->sOutEmptyFrame); pVdecDataType->nOutFrameNodeNum++; } if (pVdecDataType->nOutFrameNodeNum == 0) { loge("mpp_alloc empty video node fail\n"); eError = OMX_ErrorInsufficientResources; goto _EXIT3; } if (aic_msg_create(&pVdecDataType->sMsgQue)<0) { loge("aic_msg_create fail!"); eError = OMX_ErrorInsufficientResources; goto _EXIT4; } pthread_mutex_init(&pVdecDataType->stateLock, NULL); // Create the component thread err = pthread_create(&pVdecDataType->threadId, &attr, OMX_VdecComponentThread, pVdecDataType); //if (err || !pVdecDataType->threadId) if (err) { loge("pthread_create fail!"); eError = OMX_ErrorInsufficientResources; goto _EXIT5; } return eError; _EXIT5: aic_msg_destroy(&pVdecDataType->sMsgQue); pthread_mutex_destroy(&pVdecDataType->stateLock); _EXIT4: if (!mpp_list_empty(&pVdecDataType->sInEmptyPkt)) { VDEC_IN_PACKET *pPktNode = NULL,*pPktNode1 = NULL; mpp_list_for_each_entry_safe(pPktNode, pPktNode1, &pVdecDataType->sInEmptyPkt, sList) { mpp_list_del(&pPktNode->sList); mpp_free(pPktNode); } } _EXIT3: if (!mpp_list_empty(&pVdecDataType->sOutEmptyFrame)) { VDEC_OUT_FRAME *pFrameNode = NULL,*pFrameNode1 = NULL; mpp_list_for_each_entry_safe(pFrameNode, pFrameNode1, &pVdecDataType->sOutEmptyFrame, sList) { mpp_list_del(&pFrameNode->sList); mpp_free(pFrameNode); } } _EXIT2: if (pVdecDataType) { mpp_free(pVdecDataType); pVdecDataType = NULL; } _EXIT1: return eError; } static int OMX_VdecGiveBackAllPackets(VDEC_DATA_TYPE *pVdecDataType) { int ret = 0; // ,move sInReadyPkt to sInProcessedPkt logi("Before OMX_VdecComponentThread exit,move node in sInReadyPkt to sInProcessedPkt\n"); if (!OMX_VdecListEmpty(&pVdecDataType->sInReadyPkt,pVdecDataType->sInPktLock)) { logi("sInReadyFrame is not empty\n"); VDEC_IN_PACKET *pktNode1,*pktNode2; aic_pthread_mutex_lock(&pVdecDataType->sInPktLock); mpp_list_for_each_entry_safe(pktNode1, pktNode2, &pVdecDataType->sInReadyPkt, sList) { pVdecDataType->nLeftReadyFrameWhenCompoentExitNum++; mpp_list_del(&pktNode1->sList); mpp_list_add_tail(&pktNode1->sList, &pVdecDataType->sInProcessedPkt); } aic_pthread_mutex_unlock(&pVdecDataType->sInPktLock); } //give back all in port pkts, logi("Before OMX_VdecComponentThread exit,it must give back all in port pkts\n"); if (!OMX_VdecListEmpty(&pVdecDataType->sInProcessedPkt,pVdecDataType->sInPktLock)) { logi("sInProcessedPkt is not empty\n"); VDEC_IN_PACKET *pktNode1; while(!OMX_VdecListEmpty(&pVdecDataType->sInProcessedPkt,pVdecDataType->sInPktLock)) { aic_pthread_mutex_lock(&pVdecDataType->sInPktLock); pktNode1 = mpp_list_first_entry(&pVdecDataType->sInProcessedPkt, VDEC_IN_PACKET, sList); aic_pthread_mutex_unlock(&pVdecDataType->sInPktLock); ret = 0; if (pVdecDataType->sInPortTunneledInfo.nTunneledFlag) { ret = OMX_FillThisBuffer(pVdecDataType->sInPortTunneledInfo.pTunneledComp,&pktNode1->sBuff); if (ret != 0) { // how to do ,deal with problem by TunneledComp, do nothing here loge("OMX_FillThisBuffer error \n"); } } else { if (pVdecDataType->pCallbacks != NULL && pVdecDataType->pCallbacks->EmptyBufferDone!= NULL) { ret = pVdecDataType->pCallbacks->EmptyBufferDone(pVdecDataType->hSelf,pVdecDataType->pAppData,&pktNode1->sBuff); if (ret != 0) {// how to do ,deal with problem by app, do nothing here loge("EmptyBufferDone error \n"); } } } if (ret == 0) { pVdecDataType->nGiveBackPacktOkNum++; } else { pVdecDataType->nGiveBackPacktFailNum++; usleep(5*1000); continue;// must give back ok ,so retry to give back } aic_pthread_mutex_lock(&pVdecDataType->sInPktLock); mpp_list_del(&pktNode1->sList); mpp_list_add_tail(&pktNode1->sList, &pVdecDataType->sInEmptyPkt); logi("pVdecDataType->nGiveBackPacktOkNum:%"PRId32",pVdecDataType->nGiveBackPacktFailNum:%"PRId32"\n" ,pVdecDataType->nGiveBackPacktOkNum ,pVdecDataType->nGiveBackPacktFailNum); aic_pthread_mutex_unlock(&pVdecDataType->sInPktLock); } } return 0; } static int OMX_VdecGiveBackAllFramesToDecoder(VDEC_DATA_TYPE *pVdecDataType) { int ret = 0; //wait for all out port frames from other component or app to back. logi("Before OMX_VdecComponentThread exit,it must wait for sOutProcessingFrame empty\n"); while(!OMX_VdecListEmpty(&pVdecDataType->sOutProcessingFrame,pVdecDataType->sOutFrameLock)) { usleep(1000); } //give back all frames in sOutReadyFrame to decoder logi("Before OMX_VdecComponentThread exit,it must give back all frames in sOutReadyFrame to decoder\n"); if (!OMX_VdecListEmpty(&pVdecDataType->sOutReadyFrame,pVdecDataType->sOutFrameLock)) { logi("sOutReadyFrame is not empty\n"); VDEC_OUT_FRAME *pFrameNode1,*pFrameNode2; aic_pthread_mutex_lock(&pVdecDataType->sOutFrameLock); mpp_list_for_each_entry_safe(pFrameNode1,pFrameNode2,&pVdecDataType->sOutReadyFrame,sList) { ret = mpp_decoder_put_frame(pVdecDataType->pDecoder, &pFrameNode1->sFrameInfo); pVdecDataType->nLeftReadyFrameWhenCompoentExitNum++; if (ret != 0) {// how to do loge("mpp_decoder_put_frame error!!!!\n"); } else { } // now, no matter whether is back to decoder ok,move pFrameNode1 to sOutEmptyFrame mpp_list_del(&pFrameNode1->sList); mpp_list_add_tail(&pFrameNode1->sList, &pVdecDataType->sOutEmptyFrame); } aic_pthread_mutex_unlock(&pVdecDataType->sOutFrameLock); } return 0; } static void OMX_VdecEventNotify( VDEC_DATA_TYPE * pVdecDataType, OMX_EVENTTYPE event, OMX_U32 nData1, OMX_U32 nData2, OMX_PTR pEventData) { if (pVdecDataType && pVdecDataType->pCallbacks && pVdecDataType->pCallbacks->EventHandler) { pVdecDataType->pCallbacks->EventHandler( pVdecDataType->hSelf, pVdecDataType->pAppData,event, nData1, nData2, pEventData); } } static void OMX_VdecStateChangeToInvalid(VDEC_DATA_TYPE * pVdecDataType) { pVdecDataType->state = OMX_StateInvalid; OMX_VdecEventNotify(pVdecDataType ,OMX_EventError ,OMX_ErrorInvalidState,0,NULL); OMX_VdecEventNotify(pVdecDataType ,OMX_EventCmdComplete ,OMX_CommandStateSet ,pVdecDataType->state,NULL); } static void OMX_VdecStateChangeToIdle(VDEC_DATA_TYPE * pVdecDataType) { int ret; if (pVdecDataType->state == OMX_StateLoaded) { //create decoder if (pVdecDataType->pDecoder == NULL) { pVdecDataType->pDecoder = mpp_decoder_create(pVdecDataType->eCodeType); if (pVdecDataType->pDecoder == NULL) { loge("mpp_decoder_create fail!!!!\n "); OMX_VdecEventNotify(pVdecDataType ,OMX_EventError ,OMX_ErrorIncorrectStateTransition ,pVdecDataType->state,NULL); return; } logi("mpp_decoder_create ok!\n "); ret = mpp_decoder_init(pVdecDataType->pDecoder, &pVdecDataType->sDecoderConfig); if (ret) { loge("mpp_decoder_init %d failed", pVdecDataType->eCodeType); mpp_decoder_destory(pVdecDataType->pDecoder); pVdecDataType->pDecoder = NULL; OMX_VdecEventNotify(pVdecDataType ,OMX_EventError ,OMX_ErrorIncorrectStateTransition ,pVdecDataType->state,NULL); return; } logi("mpp_decoder_init ok!\n "); } } else if (pVdecDataType->state == OMX_StatePause) { } else if (pVdecDataType->state == OMX_StateExecuting) { } else { OMX_VdecEventNotify(pVdecDataType ,OMX_EventError ,OMX_ErrorIncorrectStateTransition ,pVdecDataType->state,NULL); loge("OMX_ErrorIncorrectStateTransition\n"); return; } pVdecDataType->state = OMX_StateIdle; OMX_VdecEventNotify(pVdecDataType ,OMX_EventCmdComplete ,OMX_CommandStateSet ,pVdecDataType->state,NULL); } static void OMX_VdecStateChangeToPause(VDEC_DATA_TYPE * pVdecDataType) { if (pVdecDataType->state == OMX_StateLoaded) { } else if (pVdecDataType->state == OMX_StateIdle) { } else if (pVdecDataType->state == OMX_StateExecuting) { } else { OMX_VdecEventNotify(pVdecDataType ,OMX_EventError ,OMX_ErrorIncorrectStateTransition ,pVdecDataType->state,NULL); loge("OMX_ErrorIncorrectStateTransition\n"); return; } pVdecDataType->state = OMX_StatePause; OMX_VdecEventNotify(pVdecDataType ,OMX_EventCmdComplete ,OMX_CommandStateSet ,pVdecDataType->state,NULL); } static void OMX_VdecStateChangeToLoaded(VDEC_DATA_TYPE * pVdecDataType) { if (pVdecDataType->state == OMX_StateIdle) { OMX_VdecGiveBackAllPackets(pVdecDataType); OMX_VdecGiveBackAllFramesToDecoder(pVdecDataType); } else if (pVdecDataType->state == OMX_StateExecuting) { } else if (pVdecDataType->state == OMX_StatePause) { } else { OMX_VdecEventNotify(pVdecDataType ,OMX_EventError ,OMX_ErrorIncorrectStateTransition ,pVdecDataType->state,NULL); loge("OMX_ErrorIncorrectStateTransition\n"); return; } pVdecDataType->state = OMX_StateLoaded; OMX_VdecEventNotify(pVdecDataType ,OMX_EventCmdComplete ,OMX_CommandStateSet ,pVdecDataType->state,NULL); } static void OMX_VdecStateChangeToExecuting(VDEC_DATA_TYPE * pVdecDataType) { if (pVdecDataType->state == OMX_StateLoaded) { OMX_VdecEventNotify(pVdecDataType ,OMX_EventError ,OMX_ErrorIncorrectStateTransition ,pVdecDataType->state,NULL); loge("OMX_ErrorIncorrectStateTransition\n"); return; } else if (pVdecDataType->state == OMX_StateIdle) { } else if (pVdecDataType->state == OMX_StatePause) { } else { OMX_VdecEventNotify(pVdecDataType ,OMX_EventError ,OMX_ErrorIncorrectStateTransition ,pVdecDataType->state,NULL); loge("OMX_ErrorIncorrectStateTransition\n"); return; } pVdecDataType->state = OMX_StateExecuting; OMX_VdecEventNotify(pVdecDataType ,OMX_EventCmdComplete ,OMX_CommandStateSet ,pVdecDataType->state,NULL); } static void* OMX_VdecComponentThread(void* pThreadData) { struct aic_message message; OMX_S32 nCmd; //OMX_COMMANDTYPE OMX_S32 nCmdData; //OMX_STATETYPE VDEC_DATA_TYPE* pVdecDataType = (VDEC_DATA_TYPE*)pThreadData; OMX_S32 ret; OMX_S32 dec_ret; //OMX_S32 i; OMX_S32 bNotifyFrameEnd = 0; VDEC_OUT_FRAME *pFrameNode; struct mpp_frame sFrame; //prctl(PR_SET_NAME,(u32)"Vdec"); while(1) { _AIC_MSG_GET_: if (aic_msg_get(&pVdecDataType->sMsgQue, &message) == 0) { nCmd = message.message_id; nCmdData = message.param; logi("nCmd:%"PRId32", nCmdData:%"PRId32"\n",nCmd,nCmdData); if (OMX_CommandStateSet == nCmd) { aic_pthread_mutex_lock(&pVdecDataType->stateLock); if (pVdecDataType->state == (OMX_STATETYPE)(nCmdData)) { OMX_VdecEventNotify(pVdecDataType,OMX_EventError,OMX_ErrorSameState,0,NULL); aic_pthread_mutex_unlock(&pVdecDataType->stateLock); continue; } switch(nCmdData) { case OMX_StateInvalid: OMX_VdecStateChangeToInvalid(pVdecDataType); break; case OMX_StateLoaded: OMX_VdecStateChangeToLoaded(pVdecDataType); break; case OMX_StateIdle: OMX_VdecStateChangeToIdle(pVdecDataType); break; case OMX_StateExecuting: OMX_VdecStateChangeToExecuting(pVdecDataType); break; case OMX_StatePause: OMX_VdecStateChangeToPause(pVdecDataType); break; default: break; } aic_pthread_mutex_unlock(&pVdecDataType->stateLock); } else if (OMX_CommandFlush == nCmd) { } else if (OMX_CommandPortDisable == nCmd) { } else if (OMX_CommandPortEnable == nCmd) { } else if (OMX_CommandMarkBuffer == nCmd) { } else if (OMX_CommandStop == nCmd) { logw("OMX_VdecComponentThread ready to exit!!!\n"); goto _EXIT; } else { } } if (pVdecDataType->state != OMX_StateExecuting) { //usleep(1000); aic_msg_wait_new_msg(&pVdecDataType->sMsgQue, 0); continue; } if (pVdecDataType->nFlags & VDEC_OUTPORT_SEND_ALL_FRAME_FLAG) {//(pVdecDataType->nFlags & VDEC_OUTPORT_SEND_ALL_FRAME_END_FLAG) if (!bNotifyFrameEnd) { //notify app decoder end OMX_VdecEventNotify(pVdecDataType,OMX_EventBufferFlag,0,0,NULL); /* //notify tunneld component decoder end if (pVdecDataType->sOutPortTunneledInfo.nTunneledFlag) { OMX_PARAM_FRAMEEND sFrameEnd; sFrameEnd.bFrameEnd = OMX_TRUE; OMX_SetParameter(pVdecDataType->sOutPortTunneledInfo.pTunneledComp, OMX_IndexVendorStreamFrameEnd,&sFrameEnd); } */ bNotifyFrameEnd = 1; } //usleep(1000); aic_msg_wait_new_msg(&pVdecDataType->sMsgQue, 0); continue; } bNotifyFrameEnd = 0; //give back packet to demux if ((pVdecDataType->sInPortTunneledInfo.nTunneledFlag) && (!OMX_VdecListEmpty(&pVdecDataType->sInProcessedPkt,pVdecDataType->sInPktLock))) { VDEC_IN_PACKET *pktNode1 = NULL; while(!OMX_VdecListEmpty(&pVdecDataType->sInProcessedPkt,pVdecDataType->sInPktLock)) { aic_pthread_mutex_lock(&pVdecDataType->sInPktLock); pktNode1 = mpp_list_first_entry(&pVdecDataType->sInProcessedPkt, VDEC_IN_PACKET, sList); aic_pthread_mutex_unlock(&pVdecDataType->sInPktLock); ret = OMX_FillThisBuffer(pVdecDataType->sInPortTunneledInfo.pTunneledComp,&pktNode1->sBuff); if (ret == 0) { aic_pthread_mutex_lock(&pVdecDataType->sInPktLock); mpp_list_del(&pktNode1->sList); mpp_list_add_tail(&pktNode1->sList, &pVdecDataType->sInEmptyPkt); pVdecDataType->nGiveBackPacktOkNum++; logd("pAdecDataType->nGiveBackPacktOkNum:%"PRId32",pAdecDataType->nGiveBackPacktFailNum:%"PRId32"\n" ,pVdecDataType->nGiveBackPacktOkNum ,pVdecDataType->nGiveBackPacktFailNum); aic_pthread_mutex_unlock(&pVdecDataType->sInPktLock); } else { logi("OMX_FillThisBuffer error \n"); pVdecDataType->nGiveBackPacktFailNum++; logd("pAdecDataType->nGiveBackPacktOkNum:%"PRId32",pAdecDataType->nGiveBackPacktFailNum:%"PRId32"\n" ,pVdecDataType->nGiveBackPacktOkNum ,pVdecDataType->nGiveBackPacktFailNum); usleep(5*1000); continue; } } } //decode dec_ret = mpp_decoder_decode(pVdecDataType->pDecoder); if (dec_ret == DEC_OK) { logd("mpp_decoder_decode ok!!!\n"); } else if (dec_ret == DEC_NO_READY_PACKET || dec_ret == DEC_NO_EMPTY_FRAME || dec_ret == DEC_NO_RENDER_FRAME) { logd("mpp_decoder_decode:%"PRId32" !!!\n",dec_ret); } else { //ASSERT(); loge("mpp_decoder_decode error serious,do not keep decoding ret:%"PRId32" !!!\n",dec_ret); OMX_VdecEventNotify(pVdecDataType,OMX_EventError,OMX_ErrorMbErrorsInFrame,0,NULL); pVdecDataType->nFlags |= VDEC_OUTPORT_SEND_ALL_FRAME_FLAG; goto _AIC_MSG_GET_; } // get frame from decoder do { OMX_S32 result = 0; OMX_BUFFERHEADERTYPE sBuffHead; ret = mpp_decoder_get_frame(pVdecDataType->pDecoder, &sFrame); if (ret != DEC_OK) { logd("mpp_decoder_get_frame other error ret:%"PRId32" \n",ret); break; } pVdecDataType->nGetFrameFromDecoderNum++; if (OMX_VdecListEmpty(&pVdecDataType->sOutEmptyFrame,pVdecDataType->sOutFrameLock)) { VDEC_OUT_FRAME *pFrameNode = (VDEC_OUT_FRAME*)mpp_alloc(sizeof(VDEC_OUT_FRAME)); if (NULL == pFrameNode) { loge("mpp_alloc error \n"); mpp_decoder_put_frame(pVdecDataType->pDecoder, &sFrame); goto _AIC_MSG_GET_; } memset(pFrameNode,0x00,sizeof(VDEC_OUT_FRAME)); aic_pthread_mutex_lock(&pVdecDataType->sOutFrameLock); mpp_list_add_tail(&pFrameNode->sList, &pVdecDataType->sOutEmptyFrame); aic_pthread_mutex_unlock(&pVdecDataType->sOutFrameLock); pVdecDataType->nOutFrameNodeNum++; } sBuffHead.nOutputPortIndex = VDEC_PORT_OUT_INDEX; sBuffHead.pBuffer = (OMX_U8 *)&sFrame; if (pVdecDataType->sOutPortTunneledInfo.nTunneledFlag) { sBuffHead.nInputPortIndex = pVdecDataType->sOutPortTunneledInfo.nTunnelPortIndex; result = OMX_EmptyThisBuffer(pVdecDataType->sOutPortTunneledInfo.pTunneledComp,&sBuffHead); } else { if (pVdecDataType->pCallbacks != NULL && pVdecDataType->pCallbacks->FillBufferDone != NULL) { result = pVdecDataType->pCallbacks->FillBufferDone(pVdecDataType->hSelf,pVdecDataType->pAppData,&sBuffHead); } } if (result == 0) { aic_pthread_mutex_lock(&pVdecDataType->sOutFrameLock); pFrameNode = mpp_list_first_entry(&pVdecDataType->sOutEmptyFrame, VDEC_OUT_FRAME, sList); pFrameNode->sFrameInfo = sFrame; mpp_list_del(&pFrameNode->sList); mpp_list_add_tail(&pFrameNode->sList, &pVdecDataType->sOutProcessingFrame); aic_pthread_mutex_unlock(&pVdecDataType->sOutFrameLock); pVdecDataType->nSendFrameOkNum++; if (pFrameNode->sFrameInfo.flags & FRAME_FLAG_EOS) { pVdecDataType->nFlags |= VDEC_OUTPORT_SEND_ALL_FRAME_FLAG; if (pVdecDataType->pCallbacks && pVdecDataType->pCallbacks->EventHandler) { pVdecDataType->pCallbacks->EventHandler(pVdecDataType->hSelf,pVdecDataType->pAppData,OMX_EventBufferFlag,0, 0,NULL); } printf("[%s:%d]"\ "in port:nReceivePacktOkNum:%"PRId32",nReceivePacktFailNum:%"PRId32",nPutPacktToDecoderOkNum:%"PRId32","\ "nPutPacktToDecoderFailNum:%"PRId32",nGiveBackPacktOkNum:%"PRId32",nGiveBackPacktFailNum:%"PRId32"\n" ,__FUNCTION__,__LINE__ ,pVdecDataType->nReceivePacktOkNum,pVdecDataType->nReceivePacktFailNum,pVdecDataType->nPutPacktToDecoderOkNum ,pVdecDataType->nPutPacktToDecoderFailNum,pVdecDataType->nGiveBackPacktOkNum,pVdecDataType->nGiveBackPacktFailNum); printf("[%s:%d]"\ "out port:nGetFrameFromDecoderNum:%"PRId32",nDropFrameFromDecoderNum:%"PRId32",nSendFrameOkNum:%"PRId32","\ "nSendFrameErrorNum:%"PRId32",nLeftReadyFrameWhenCompoentExitNum:%"PRId32"\n" ,__FUNCTION__,__LINE__ ,pVdecDataType->nGetFrameFromDecoderNum,pVdecDataType->nDropFrameFromDecoderNum,pVdecDataType->nSendFrameOkNum ,pVdecDataType->nSendFrameErrorNum,pVdecDataType->nLeftReadyFrameWhenCompoentExitNum); } //loge("pVdecDataType->nGetFrameFromDecoderNum:%d\n",pVdecDataType->nGetFrameFromDecoderNum); //loge("pVdecDataType->nSendFrameOkNum:%d\n",pVdecDataType->nSendFrameOkNum); } else { //this may drop last frame,so it must deal with this case result = mpp_decoder_put_frame(pVdecDataType->pDecoder, &sFrame); if (sFrame.flags & FRAME_FLAG_EOS) { printf("[%s:%d]frame end\n",__FUNCTION__,__LINE__); } if (result != 0) {// how to do loge("mpp_decoder_put_frame error!!!!\n"); //ASSERT(); } logw("OMX_EmptyThisBuffer or FillBufferDone fail!\n"); pVdecDataType->nSendFrameErrorNum++; } } while(1); if (dec_ret == DEC_NO_READY_PACKET) { aic_pthread_mutex_lock(&pVdecDataType->sInPktLock); if (!(pVdecDataType->nFlags & VDEC_INPORT_STREAM_END_FLAG)) { pVdecDataType->nWaitForReadyPkt = 1; aic_pthread_mutex_unlock(&pVdecDataType->sInPktLock); aic_msg_wait_new_msg(&pVdecDataType->sMsgQue, 0); } else { aic_pthread_mutex_unlock(&pVdecDataType->sInPktLock); aic_msg_wait_new_msg(&pVdecDataType->sMsgQue, 5*1000); } } else if (dec_ret == DEC_NO_EMPTY_FRAME) { if (!(pVdecDataType->nFlags & VDEC_OUTPORT_SEND_ALL_FRAME_FLAG)) { aic_pthread_mutex_lock(&pVdecDataType->sOutFrameLock); pVdecDataType->nWaitForEmptyFrame = 1; aic_pthread_mutex_unlock(&pVdecDataType->sOutFrameLock); aic_msg_wait_new_msg(&pVdecDataType->sMsgQue, 0); } } // send frame back to decoder in OMX_VdecFillThisBuffer } _EXIT: printf("[%s:%d]in port:nReceivePacktOkNum:%"PRId32","\ "nReceivePacktFailNum:%"PRId32","\ "nPutPacktToDecoderOkNum:%"PRId32","\ "nPutPacktToDecoderFailNum:%"PRId32","\ "nGiveBackPacktOkNum:%"PRId32""\ "nGiveBackPacktFailNum:%"PRId32"\n" ,__FUNCTION__,__LINE__ ,pVdecDataType->nReceivePacktOkNum ,pVdecDataType->nReceivePacktFailNum ,pVdecDataType->nPutPacktToDecoderOkNum ,pVdecDataType->nPutPacktToDecoderFailNum ,pVdecDataType->nGiveBackPacktOkNum ,pVdecDataType->nGiveBackPacktFailNum); printf("[%s:%d]out port:nGetFrameFromDecoderNum:%"PRId32","\ "nDropFrameFromDecoderNum:%"PRId32","\ "nSendFrameOkNum:%"PRId32","\ "nSendFrameErrorNum:%"PRId32","\ "nLeftReadyFrameWhenCompoentExitNum:%"PRId32"\n" ,__FUNCTION__,__LINE__ ,pVdecDataType->nGetFrameFromDecoderNum ,pVdecDataType->nDropFrameFromDecoderNum ,pVdecDataType->nSendFrameOkNum ,pVdecDataType->nSendFrameErrorNum ,pVdecDataType->nLeftReadyFrameWhenCompoentExitNum); printf("[%s:%d]OMX_VdecComponentThread EXIT\n",__FUNCTION__,__LINE__); return (void*)OMX_ErrorNone; }