MBOOL Pass2NodeImpl:: getDstBuffer( MUINT32 nodeData, ImgRequest* pImgReq) { MBOOL ret = MFALSE; ICamBufHandler* pBufHdl = getBufferHandler(nodeData); if(pBufHdl && pBufHdl->dequeBuffer(nodeData, pImgReq)) { //MY_LOGD("dstDataType(%d)",dstDataType); ret = MTRUE; } return ret; }
MBOOL StereoNodeImpl:: enquePass2(MUINT32 const data, IImageBuffer* const buf, MUINT32 const ext) { CAM_TRACE_CALL(); // get output bufffers MUINT32 dstCount = 0, dstDataType[MAX_DST_PORT_NUM]; ImgRequest outRequest[MAX_DST_PORT_NUM]; IMEM_BUF_INFO feoRequest; vector<MUINT32> vDataDst = getDataConnected(); MSize const srcImgSize = buf->getImgSize(); MSize const dstImgSize = getAlgoImgSize(); // for(MUINT32 i = 0; i < vDataDst.size(); i++) { if ( STEREO_FEO != vDataDst[i] ) { ICamBufHandler* pBufHdl = getBufferHandler( vDataDst[i] ); if( pBufHdl && pBufHdl->dequeBuffer( vDataDst[i], &outRequest[dstCount]) ) { dstDataType[dstCount] = vDataDst[i]; dstCount++; } else { MY_LOGE("no dst buf (0x%x)", vDataDst[i]); } } else { Mutex::Autolock lock(mLock); if( mlFeBufQueue.size() == 0 ) { MY_LOGE("no feo buf"); } else { feoRequest = mlFeBufQueue.front(); mlFeBufQueue.pop_front(); // dstDataType[dstCount] = vDataDst[i]; dstCount++; } } } if( dstCount == 0 ) { MY_LOGW("no dst buffer, skip data(%d), buf(0x%x)", data, buf); handleReturnBuffer(data, (MUINTPTR)buf); return MTRUE; } QParams enqueParams; StaData feoData; MUINT32 magicNum = 0; MVOID* pPrivateData = NULL; MUINT32 privateDataSize = 0; MCropRect p2InCrop; MSize feSize = getFEImgSize(); MINT64 timestamp = 0; //input { IImageBuffer const* pSrcBuf = buf; Input src; // src.mPortID = mapToPortID(data); src.mBuffer = const_cast<IImageBuffer*>(pSrcBuf); // mpIspSyncCtrlHw->getPass2Info( src.mBuffer, srcImgSize, magicNum, pPrivateData, privateDataSize, p2InCrop); // enqueParams.mpPrivaData = pPrivateData; enqueParams.mFrameNo = magicNum; // timestamp = pSrcBuf->getTimestamp(); enqueParams.mvIn.push_back(src); } // MCrpRsInfo crop1; crop1.mGroupID = 1; crop1.mCropRect = p2InCrop; crop1.mResizeDst = dstImgSize; // MCrpRsInfo crop2; crop2.mGroupID = 2; crop2.mCropRect.s = dstImgSize; MY_LOGD("data %d, buf 0x%x,va/pa(0x%x/0x%x),size(%dx%d),crop(%d,%d,%d,%d) # 0x%X, cnt %d; crop1(%d,%d,%d,%d)(%dx%d), crop2(%d,%d,%d,%d)(%dx%d)", data, buf, buf->getBufVA(0), buf->getBufPA(0), buf->getImgSize().w, buf->getImgSize().h, p2InCrop.p_integral.x, p2InCrop.p_integral.y, p2InCrop.s.w, p2InCrop.s.h, magicNum, muEnqFrameCnt, crop1.mCropRect.p_integral.x, crop1.mCropRect.p_integral.y, crop1.mCropRect.s.w, crop1.mCropRect.s.h, crop1.mResizeDst.w, crop1.mResizeDst.h, crop2.mCropRect.p_integral.x, crop2.mCropRect.p_integral.y, crop2.mCropRect.s.w, crop2.mCropRect.s.h, crop2.mResizeDst.w, crop2.mResizeDst.h); // // output for( MUINT32 i = 0 ; i < dstCount ; i++ ) { if(dstDataType[i] != STEREO_FEO) { IImageBuffer const* pDstBuf = outRequest[i].mBuffer; MY_LOGD("data %d, buf 0x%x, va/pa(0x%x/0x%x), size(%dx%d), tans %d", dstDataType[i], pDstBuf, pDstBuf->getBufVA(0), pDstBuf->getBufPA(0), pDstBuf->getImgSize().w, pDstBuf->getImgSize().h, outRequest[i].mTransform); Output dst; dst.mPortID = mapToPortID(dstDataType[i]); dst.mBuffer = const_cast<IImageBuffer*>(pDstBuf); dst.mTransform = outRequest[i].mTransform; dst.mBuffer->setTimestamp(timestamp); // enqueParams.mvOut.push_back(dst); } else { MINT32 idx = muEnqFrameCnt%BUF_COUNT; mpStaParam[idx]->bufInfo.size = feoRequest.size; mpStaParam[idx]->bufInfo.memID = feoRequest.memID; mpStaParam[idx]->bufInfo.virtAddr = feoRequest.virtAddr; mpStaParam[idx]->bufInfo.phyAddr = feoRequest.phyAddr; mpStaParam[idx]->bufInfo.bufSecu = 0; mpStaParam[idx]->bufInfo.bufCohe = 0; mpStaParam[idx]->bufInfo.useNoncache = 0; mpStaParam[idx]->w = feSize.w; mpStaParam[idx]->h = feSize.h; mpStaParam[idx]->stride = feSize.w; mpStaParam[idx]->port_idx = FEO.index; mpStaParam[idx]->port_type = FEO.type; mpStaParam[idx]->port_inout = FEO.inout; /* feoData.bufInfo.size = feoRequest.size; feoData.bufInfo.memID = feoRequest.memID; feoData.bufInfo.virtAddr = feoRequest.virtAddr; feoData.bufInfo.phyAddr = feoRequest.phyAddr; feoData.bufInfo.bufSecu = 0; feoData.bufInfo.bufCohe = 0; feoData.bufInfo.useNoncache = 0; feoData.w = FE_W; feoData.h = FE_H; feoData.stride = FE_W; feoData.port_idx = FEO.index; feoData.port_type = FEO.type; feoData.port_inout = FEO.inout; MY_LOGD("(0x%x)FEO:Size(%d),ID(%d),S(%dx%d,%d),VA(%p)PA(%p),Port(%d/%d/%d)", &feoData, feoData.bufInfo.size, feoData.bufInfo.memID, feoData.w, feoData.h, feoData.stride, feoData.bufInfo.virtAddr, feoData.bufInfo.phyAddr, feoData.port_idx, feoData.port_type, feoData.port_inout);*/ ModuleInfo feoInfo; feoInfo.moduleTag = (MINT32)(EFeatureModule_STA_FEO); feoInfo.moduleStruct = reinterpret_cast<MVOID*>(mpStaParam[idx]); enqueParams.mvModuleData.push_back(feoInfo); mpSrzParam[idx]->in_w = crop1.mResizeDst.w; mpSrzParam[idx]->in_h = crop1.mResizeDst.h; mpSrzParam[idx]->out_w = getFEImgSize().w; mpSrzParam[idx]->out_h = getFEImgSize().h; ModuleInfo srzInfo; srzInfo.moduleTag = (MINT32)(EFeatureModule_SRZ1); srzInfo.moduleStruct = reinterpret_cast<MVOID*>(mpSrzParam[idx]); enqueParams.mvModuleData.push_back(srzInfo); MY_LOGD("[0x%x]FEO:Size(%d),ID(%d),S(%dx%d,%d),VA(%p)PA(%p),Port(%d/%d/%d);[0x%x]SRZ:in(%dx%d),out(%dx%d)", mpStaParam[idx], mpStaParam[idx]->bufInfo.size, mpStaParam[idx]->bufInfo.memID, mpStaParam[idx]->w, mpStaParam[idx]->h, mpStaParam[idx]->stride, mpStaParam[idx]->bufInfo.virtAddr, mpStaParam[idx]->bufInfo.phyAddr, mpStaParam[idx]->port_idx, mpStaParam[idx]->port_type, mpStaParam[idx]->port_inout, mpSrzParam[idx], mpSrzParam[idx]->in_w, mpSrzParam[idx]->in_h, mpSrzParam[idx]->out_w, mpSrzParam[idx]->out_h); } } // enqueParams.mvCropRsInfo.push_back( crop1 ); enqueParams.mvCropRsInfo.push_back( crop2 ); // enqueParams.mpfnCallback = pass2CbFunc; enqueParams.mpCookie = this; // if( !mpIspSyncCtrlHw->lockHw(IspSyncControlHw::HW_PASS2) ) { MY_LOGE("isp sync lock pass2 failed"); return MFALSE; } // CAM_TRACE_FMT_BEGIN("enqP2:%d", muEnqFrameCnt); if( !mpPostProcPipe->enque(enqueParams) ) { CAM_TRACE_FMT_END(); MY_LOGE("enque pass2 failed"); AEE_ASSERT("ISP pass2 enque fail"); if( !mpIspSyncCtrlHw->unlockHw(IspSyncControlHw::HW_PASS2) ) { MY_LOGE("isp sync unlock pass2 failed"); } return MFALSE; } CAM_TRACE_FMT_END(); muEnqFrameCnt++; FUNC_END; return MTRUE; }