#define RG_PACK_CE(_ce, _len, _ceBuf, _ret) {\
MS_BUF_ADD_ALLOC_CALLER(); \
#define RG_PACK_CE(_ce, _len, _ceBuf, _ret) {\
MS_BUF_ADD_ALLOC_CALLER(); \
_lenBytes = (_len <= 255) ? 1 : 2;\
_hdrLen = _lenBytes + RG_SDU_SHDR_LEN;\
_elmTotLen = _hdrLen + _len;\
_lenBytes = (_len <= 255) ? 1 : 2;\
_hdrLen = _lenBytes + RG_SDU_SHDR_LEN;\
_elmTotLen = _hdrLen + _len;\
RG_PACK_SHDR_FIXD_SZ(subHdr, RG_TA_LCID_IDX, ceBuf, ret);
if(ret != ROK)
RG_PACK_SHDR_FIXD_SZ(subHdr, RG_TA_LCID_IDX, ceBuf, ret);
if(ret != ROK)
- RLOG3(L_INFO,"MSG4 is muxed numLch=%ld numPdu=%ld tbaddr =%p", tb->numLch,tb->lchInfo[tb->numLch-1].numPdu, (U32)tb);
+ RLOG3(L_INFO,"MSG4 is muxed numLch=%ld numPdu=%ld tbaddr =%p", tb->numLch,tb->lchInfo[tb->numLch-1].numPdu, (uint32_t)tb);
RguDatReqTb *datReqTb = &dDatReq->datReqTb[1];
tb->numLch = lchIdx = 0;
// prc_trace_format_string(0x40,3,": AddSdus: numOfLch=%d numOfPdu=%d, schdSz=%d", datReqTb->nmbLch, datReqTb->lchData[0].pdu.numPdu, pdu->schdTbSz);
RguDatReqTb *datReqTb = &dDatReq->datReqTb[1];
tb->numLch = lchIdx = 0;
// prc_trace_format_string(0x40,3,": AddSdus: numOfLch=%d numOfPdu=%d, schdSz=%d", datReqTb->nmbLch, datReqTb->lchData[0].pdu.numPdu, pdu->schdTbSz);
RLOG_ARG2(L_DEBUG,DBG_CELLID,cell->cellId,
"Rar,Rapid=%d, Temp CRNTI:%d",
RLOG_ARG2(L_DEBUG,DBG_CELLID,cell->cellId,
"Rar,Rapid=%d, Temp CRNTI:%d",
grnt[2] = msg3Grnt->cqiBit; /* cqi bit is 0, output from sched */
grnt[2] |= (msg3Grnt->delayBit << 1);
grnt[2] = msg3Grnt->cqiBit; /* cqi bit is 0, output from sched */
grnt[2] |= (msg3Grnt->delayBit << 1);
grnt[1] = (msg3Grnt->iMcsCrnt >> 3);
/* Forcing right shift to insert 0 as the LSB:
* since this is assumed in the computation */
grnt[1] = (msg3Grnt->iMcsCrnt >> 3);
/* Forcing right shift to insert 0 as the LSB:
* since this is assumed in the computation */