gCb->u.ulCb->rlcL2Cb.rlcNumMeas=0;
for(cntr = 0; cntr < LKW_MAX_L2MEAS; cntr++)
{
- cmMemset((U8 *)&(gCb->u.ulCb->rlcL2Cb.rlcL2EvtCb[cntr]), 0, sizeof(RlcL2MeasEvtCb));
+ memset(&(gCb->u.ulCb->rlcL2Cb.rlcL2EvtCb[cntr]), 0, sizeof(RlcL2MeasEvtCb));
}
gCb->u.ulCb->rlcL2Cb.rlcL2EvtCb[RLC_L2MEAS_UL_IP].measCb.measType = LKW_L2MEAS_UL_IP;
return ROK;
#endif
{
VOLATILE U32 startTime = 0;
- TRC2(rlcUtlCalUlIpThrPutIncTTI)
/*starting Task*/
SStartTask(&startTime, PID_RLC_IP_TPT_INCTTI);
{
MsgLen rlcSduSz = 0; /*Holds length of Rlc Sdu*/
VOLATILE U32 startTime = 0;
- TRC2(rlcUtlCalUlIpThrPut)
-
/*starting Task*/
SStartTask(&startTime, PID_RLC_IP_TPT_INCVOL);
RlcL2MeasEvtCb *measEvtCb;
#endif
{
- TRC3(rlcUtlHdlL2TmrExp)
#ifdef LTE_L2_MEAS_RLC
U16 qciIdx;
U32 cfmIdx =0;
/* Discard new changes ends */
- TRC3(rlcUtlSndUlL2MeasCfm)
-
/* kw006.201 ccpu00120058 emoved 64 bit compilation warning */
#ifndef ALIGN_64BIT
RLOG1(L_DEBUG,"rlcUtlSndUlL2MeasCfm(transId(%ld))", measEvtCb->transId);
/* Clean up the RB data structures */
measCb = &measEvtCb->measCb;
- cmMemset((U8*)&measCfmEvt, 0, sizeof(RlcL2MeasCfmEvt));
+ memset(&measCfmEvt, 0, sizeof(RlcL2MeasCfmEvt));
measCfmEvt.transId = measEvtCb->transId;
measCfmEvt.measType = measCb->measType;
RlcL2MeasCfmEvt *measCfmEvt;
#endif
{
- TRC3(rlcUtlSndUlL2MeasNCfm)
RlcMiLkwL2MeasCfm(&gCb->genCfg.lmPst, measCfmEvt);
return ROK;
U8 msbNibble = 0;
U8 numFaild = 0;
-
- TRC3(rlcUtlValidateL2Meas)
-
idx = 0;
rbCb = NULLP;
ret = ROK;
U8 lsbNibble = 0;
U8 msbNibble = 0;
- TRC3(rlcUtlValidateIpThL2Meas)
-
measType = measReqEvt->measReq.measType;
/* Check for the range of measType */
/* LKW_L2MEAS_DL_IP+ LKW_L2MEAS_UL_IP = 0x0030*/
U8 measType;
#endif
{
- TRC3(rlcUtlPlcMeasDatInL2Sts)
-
/* We should check the number of measType in the request. This can be done
* by looking at each bit in the measType. Also store the measData in the
* correct index of l2Sts in RbCb.