MBOOL
Pass2NodeImpl::
dequePass2()
{
NG_TRACE_CALL();
MBOOL ret = MFALSE;
QParams dequeParams;
Vector<Input>::const_iterator iterIn;
Vector<Output>::const_iterator iterOut;
//
MY_LOGV("type(%d) cnt %d: deque", mPass2Type, muDeqFrameCnt);
if( !mpPostProcPipe->deque(dequeParams, PASS2_TIMEOUT) )
{
MY_LOGE("type(%d) pass2 cnt %d: deque fail", mPass2Type, muDeqFrameCnt);
AEE_ASSERT("ISP pass2 deque fail");
goto lbExit;
}
if( !handleP2Done(dequeParams) )
{
MY_LOGE("handle p2 callback failed");
goto lbExit;
}
ret = MTRUE;
lbExit:
NG_TRACE_FMT_END();
return ret;
}
MBOOL
Pass2NodeImpl::
handleP2Done(QParams& rParams)
{
NG_TRACE_FMT_BEGIN("deqP2:%d", muDeqFrameCnt);
MBOOL ret = MFALSE;
Vector<Input>::const_iterator iterIn;
Vector<Output>::const_iterator iterOut;
vector<IImageBuffer*> vpDstBufAddr;
//
if(rParams.mDequeSuccess == MFALSE)
{
MY_LOGE("type %d pass2 cnt %d: deque fail",
mPass2Type,
muDeqFrameCnt);
AEE_ASSERT("ISP pass2 deque fail");
}
//
MY_LOGD("type %d: cnt %d in %d out %d",
mPass2Type,
muDeqFrameCnt,
rParams.mvIn.size(),
rParams.mvOut.size());
//
if( !mpIspSyncCtrlHw->unlockHw(IspSyncControlHw::HW_PASS2) )
{
MY_LOGE("isp sync unlock pass2 failed");
goto lbExit;
}
//
for( iterIn = rParams.mvIn.begin() ; iterIn != rParams.mvIn.end() ; iterIn++ )
{
//MY_LOGD("In PortID(0x%08X)",portId);
MUINT32 nodeDataType = mapToNodeDataType( iterIn->mPortID );
handleReturnBuffer( nodeDataType, (MUINT32)iterIn->mBuffer, 0 );
//
}
//
vpDstBufAddr.clear();
for( iterOut = rParams.mvOut.begin() ; iterOut != rParams.mvOut.end() ; iterOut++ )
{
MBOOL bFind = MFALSE;
for(MUINT32 i=0; i<vpDstBufAddr.size(); i++)
{
if(vpDstBufAddr[i] == iterOut->mBuffer)
{
MY_LOGD("Buf(0x%08X) has been posted",(MUINT32)iterOut->mBuffer);
bFind = MTRUE;
break;
}
}
if(!bFind)
{
//MY_LOGD("Out PortID(0x%08X)",portId);
MUINT32 nodeDataType = mapToNodeDataType( iterOut->mPortID );
handlePostBuffer( nodeDataType, (MUINT32)iterOut->mBuffer, 0 );
vpDstBufAddr.push_back(iterOut->mBuffer);
}
}
{
Mutex::Autolock lock(mLock);
muDeqFrameCnt += rParams.mvIn.size();
mCondDeque.broadcast();
}
ret = MTRUE;
lbExit:
NG_TRACE_FMT_END();
return ret;
}
MBOOL
Pass2NodeImpl::
enquePass2(MBOOL const doCallback)
{
//workaround for start/stop recording
Mutex::Autolock lock(mRecordingLock);
NG_TRACE_CALL();
QParams enqueParams;
vector<p2data> vP2data;
MUINT32 trace_begin = muEnqFrameCnt;
if( !getPass2Buffer(vP2data) )
{
// no dst buffers
return MTRUE;
}
if( vP2data.size() == 0 )
{
MY_LOGE("no src/dst buf");
return MFALSE;
}
enqueParams.mvIn.reserve( vP2data.size() );
//enqueParams.mvOut.reserve(dstCount);
MUINT32 index = 0;
vector<p2data>::const_iterator pData = vP2data.begin();
while( pData != vP2data.end() )
{
MUINT32 magicNum;
MVOID* pPrivateData;
MUINT32 privateDataSize;
MCropRect p2InCrop;
MSize srcSize;
MINT64 timestamp;
// input
Input src;
//
src.mPortID = mapToPortID(pData->src.data);
src.mPortID.group = index;
src.mBuffer = pData->src.buf;
//
if( pData->doCrop )
{
mpIspSyncCtrlHw->getPass2Info(
src.mBuffer,
pData->dstSize,
magicNum,
pPrivateData,
privateDataSize,
p2InCrop);
}
else
{
MBOOL isRrzo;
mpIspSyncCtrlHw->queryImgBufInfo(
src.mBuffer,
magicNum,
isRrzo,
pPrivateData,
privateDataSize);
p2InCrop.p_integral = MPoint(0, 0);
p2InCrop.p_fractional = MPoint(0, 0);
p2InCrop.s = src.mBuffer->getImgSize();
}
//
if( !isPreviewPath() )
magicNum = SetCap(magicNum);
//
enqueParams.mvPrivaData.push_back(pPrivateData);
enqueParams.mvMagicNo.push_back(magicNum);
enqueParams.mvIn.push_back(src);
//
srcSize = src.mBuffer->getImgSize();
timestamp = src.mBuffer->getTimestamp();
//
MY_LOGD("i %d data %d, buf 0x%x, va 0x%x, # 0x%X, type %d cnt %d",
index,
pData->src.data,
src.mBuffer,
src.mBuffer->getBufVA(0),
magicNum,
mPass2Type,
muEnqFrameCnt);
//output
//
MCrpRsInfo crop1;
crop1.mGroupID = 1;
crop1.mCropRect.s = srcSize;
crop1.mResizeDst = srcSize;
//
MCrpRsInfo crop2;
crop2.mGroupID = 2;
crop2.mCropRect = p2InCrop;
//crop2.mResizeDst = MSize(0,0);
// output
MUINT32 i = 0;
for( vector<ImgRequest>::const_iterator pOutReq = pData->vDstReq.begin();
pOutReq != pData->vDstReq.end(); pOutReq++, i++ )
{
const MUINT32 dstDataType = pData->vDstData[i];
Output dst;
IImageBuffer* pDstBuf = const_cast<IImageBuffer*>(pOutReq->mBuffer);
//
MY_LOGD("data %d, buf 0x%x, va 0x%x, tans %d usg %d",
dstDataType,
pDstBuf,
pDstBuf->getBufVA(0),
pOutReq->mTransform,
pOutReq->mUsage);
//
dst.mPortID = mapToPortID(dstDataType);
dst.mPortID.group = index;
dst.mPortID.capbility = (NSIoPipe::EPortCapbility)(pOutReq->mUsage);
//
dst.mBuffer = pDstBuf;
dst.mTransform = pOutReq->mTransform;
//
dst.mBuffer->setTimestamp(timestamp);
//
enqueParams.mvOut.push_back(dst);
//
if(mapToPortID(dstDataType) == IMG2O)
{
crop1.mCropRect = p2InCrop;
crop1.mResizeDst = dst.mBuffer->getImgSize();
MY_LOGD("IMG2O:B(%p),S(%dx%d),C(%d,%d,%dx%d)",
dst.mBuffer,
crop1.mResizeDst.w,
crop1.mResizeDst.h,
crop1.mCropRect.p_integral.x,
crop1.mCropRect.p_integral.y,
crop1.mCropRect.s.w,
crop1.mCropRect.s.h);
}
}
//
enqueParams.mvCropRsInfo.push_back( crop1 );
enqueParams.mvCropRsInfo.push_back( crop2 );
//
// next src/dst pair
pData++;
muEnqFrameCnt++;
index++;
}
//
configFeature();
//
#if PASS2_CALLBACL_ENABLE
if( doCallback )
{
enqueParams.mpfnCallback = pass2CbFunc;
enqueParams.mpCookie = this;
}
else
#endif
{
enqueParams.mpfnCallback = NULL;
enqueParams.mpCookie = NULL;
}
//
if( !mpIspSyncCtrlHw->lockHw(IspSyncControlHw::HW_PASS2) )
{
MY_LOGE("isp sync lock pass2 failed");
return MFALSE;
}
//
NG_TRACE_FMT_BEGIN("enqP2:%d", trace_begin);
if( !mpPostProcPipe->enque(enqueParams) )
{
NG_TRACE_FMT_END();
MY_LOGE("enque pass2 failed");
AEE_ASSERT("ISP pass2 enque fail");
return MFALSE;
}
NG_TRACE_FMT_END();
return MTRUE;
}
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;
}