#if 0
RgCellCb *cell;
RgUeCb *ue;
- U8 idx1,idx2;
+ uint8_t idx1,idx2;
RgDlHqProcCb *hqProc;
- U8 hqPId;
+ uint8_t hqPId;
RgErrInfo err;
Pst schPst;
RgInfDedBoRpt boRpt;
#ifdef LTEMAC_DLUE_TMGOPTMZ
S16 ret;
#endif
- U32 idx;
- //U8 datReqFailCnt = 0;
+ uint32_t idx;
+ //uint8_t datReqFailCnt = 0;
if (((cell = rgCb[inst].cell) == NULLP)
for(idx = 0; idx < datReq->nmbOfUeGrantPerTti; idx++)
{
- timingInfo.slot = (U8)((datReq->datReq[idx].transId >> 8) & 0XFF);
- timingInfo.sfn = (U16)((datReq->datReq[idx].transId >> 16) & 0xFFFF);
+ timingInfo.slot = (uint8_t)((datReq->datReq[idx].transId >> 8) & 0XFF);
+ timingInfo.sfn = (uint16_t)((datReq->datReq[idx].transId >> 16) & 0xFFFF);
sf = &cell->subFrms[(timingInfo.slot % RG_NUM_SUB_FRAMES)];
if( (sf->txDone == TRUE) ||
rgUpdtRguDedSts(inst,cell->rguDlSap,RG_RGU_SDU_DROP, datReq);
#ifdef CA_DBG
{
- EXTERN U32 dbgDelayedDatReqInMac;
+ EXTERN uint32_t dbgDelayedDatReqInMac;
dbgDelayedDatReqInMac++;
}
#endif /* CA_DBG */
continue;
}
- hqPId = (U8)(datReq->datReq[idx].transId);
+ hqPId = (uint8_t)(datReq->datReq[idx].transId);
hqPId = hqPId >> 2;
/* get harq process and invoke DHM */
rgDHMGetHqProcFrmId(ue, hqPId, &hqProc);
/*Get the timing Info*/
/* ADD Changes for Downlink UE Timing Optimization */
#ifdef LTEMAC_DLUE_TMGOPTMZ
- timingInfo.slot = (U8)((datReq->transId >> 8) & 0XFF);
- timingInfo.sfn = (U16)((datReq->transId >> 16) & 0xFFFF);
+ timingInfo.slot = (uint8_t)((datReq->transId >> 8) & 0XFF);
+ timingInfo.sfn = (uint16_t)((datReq->transId >> 16) & 0xFFFF);
#endif
}
else
/*Get the timing Info*/
/* ADD Changes for Downlink UE Timing Optimization */
#ifdef LTEMAC_DLUE_TMGOPTMZ
- timingInfo.slot = (U8)(datReq->transId & 0XFF);
- timingInfo.sfn = (U16)((datReq->transId >> 8) & 0xFFFF);
+ timingInfo.slot = (uint8_t)(datReq->transId & 0XFF);
+ timingInfo.sfn = (uint16_t)((datReq->transId >> 8) & 0xFFFF);
#endif
}
{
Inst inst = cell->macInst - RG_INST_START;
RgUeCb *ue;
- U8 hqPId;
+ uint8_t hqPId;
RgDlHqProcCb *hqProc;
CmLteTimingInfo timingInfo;
RgDlSf *sf;
}
}
- timingInfo.slot = (U8)((datReq->transId >> 8) & 0XFF);
- timingInfo.sfn = (U16)((datReq->transId >> 16) & 0xFFFF);
+ timingInfo.slot = (uint8_t)((datReq->transId >> 8) & 0XFF);
+ timingInfo.sfn = (uint16_t)((datReq->transId >> 16) & 0xFFFF);
sf = &cell->subFrms[(timingInfo.slot % RG_NUM_SUB_FRAMES)];
if( (sf->txDone == TRUE) ||
return RFAILED;
}
- hqPId = (U8)(datReq->transId);
+ hqPId = (uint8_t)(datReq->transId);
hqPId = hqPId >> 2;
/* get harq process and invoke DHM */
RgUstaDgn dgn; /* Alarm diagnostics structure */
#endif
- timingInfo.slot = (U8)(datReq->transId & 0XFF);
- timingInfo.sfn = (U16)((datReq->transId >> 8) & 0xFFFF);
+
+ timingInfo.slot = (uint8_t)(datReq->transId & 0XFF);
+ timingInfo.sfn = (uint16_t)((datReq->transId >> 8) & 0xFFFF);
sf = &cell->subFrms[(timingInfo.slot % RG_NUM_SUB_FRAMES)];
if( (sf->txDone == TRUE) ||
{
RgCellCb *cell;
RgUeCb *ue;
- U8 lcgId;
- U8 loop;
+ uint8_t lcgId;
+ uint8_t loop;
if(((cell = rgCb[inst].cell) != NULLP)
&&(cell->cellId == measReq->cellId))
This assumes that BO is not received more than 4 frames in advance from the enodeb application */
if (cell->bcchBchInfo.lcId == staRsp->lcId)
{
- U16 nextBchSfn;
+ uint16_t nextBchSfn;
nextBchSfn = (cell->crntTime.sfn + 4 - (cell->crntTime.sfn%4)) % RG_MAX_SFN;
if ((staRsp->u.timeToTx.sfn != nextBchSfn) ||