(
Pst* pst,
SuId suId,
-U8 status
+uint8_t status
)
#else
S16 cmPkRgrBndCfm(pst, suId, status)
Pst* pst;
SuId suId;
-U8 status;
+uint8_t status;
#endif
{
Buffer *mBuf = NULLP;
#endif
{
SuId suId;
- U8 status;
+ uint8_t status;
if (SUnpkS16(&suId, mBuf) != ROK) {
(
Pst* pst,
RgrCfgTransId transId,
-U8 status
+uint8_t status
)
#else
S16 cmPkRgrCfgCfm(pst, transId, status)
Pst* pst;
RgrCfgTransId transId;
-U8 status;
+uint8_t status;
#endif
{
Buffer *mBuf = NULLP;
#endif
{
RgrCfgTransId transId;
- U8 status;
+ uint8_t status;
if (cmUnpkRgrCfgTransId(&transId, mBuf) != ROK) {
Pst* pst,
SuId suId,
RgrCfgTransId transId,
-U8 status
+uint8_t status
)
#else
S16 cmPkRgrSiCfgCfm(pst, suId, transId, status)
Pst* pst;
SuId suId;
RgrCfgTransId transId;
-U8 status;
+uint8_t status;
#endif
{
Buffer *mBuf = NULLP;
{
SuId suId;
RgrCfgTransId transId;
- U8 status;
+ uint8_t status;
if (SUnpkS16(&suId, mBuf) != ROK) {
{
S32 i;
- U32 tmpEnum;
- CMCHKUNPK(oduPackUInt8, ¶m->numSi, mBuf);
+ uint32_t tmpEnum;
+ CMCHKUNPK(oduPackUInt8, ¶m->numSi, mBuf);
- for (i=0; i < param->numSi ; i++) {
- CMCHKUNPK(oduPackUInt32,(U32*)&tmpEnum,mBuf);
- param->siPeriodicity[i] = (RgrSiPeriodicity) tmpEnum;
+ for (i=0; i < param->numSi ; i++)
+ {
+ CMCHKUNPK(oduPackUInt32,(uint32_t*)&tmpEnum,mBuf);
+ param->siPeriodicity[i] = (RgrSiPeriodicity) tmpEnum;
}
- for (i=0; i < param->numSi ; i++) {
- CMCHKUNPK(oduPackUInt16, ¶m->schdInfo[i].emtcSiTbs, mBuf);
- CMCHKUNPK(oduPackUInt8, ¶m->schdInfo[i].emtcSiNarrowBand, mBuf);
+ for (i=0; i < param->numSi ; i++)
+ {
+ CMCHKUNPK(oduPackUInt16, ¶m->schdInfo[i].emtcSiTbs, mBuf);
+ CMCHKUNPK(oduPackUInt8, ¶m->schdInfo[i].emtcSiNarrowBand, mBuf);
}
//CMCHKUNPK(oduPackUInt16, ¶m->fddDlOrTddSfBitmapBR, mBuf);
CMCHKUNPK(oduPackUInt8, ¶m->fddDLOrTddSfBitmapLC.sfnPtnChoice, mBuf);
CMCHKUNPK(oduPackUInt8, ¶m->siRepetition, mBuf);
CMCHKUNPK(oduPackUInt8, ¶m->sib1Repetition, mBuf);
CMCHKUNPK(oduPackUInt8, ¶m->siWinSizeBr, mBuf);
- CMCHKUNPK(oduPackUInt32, (U32*)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t*)&tmpEnum, mBuf);
param->modPrd = (RgrModPeriodicity) tmpEnum;
CMCHKUNPK(oduPackUInt8, ¶m->siHoppingEnable, mBuf);
Buffer *mBuf;
#endif
{
- U32 tmpEnum;
+ uint32_t tmpEnum;
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->ngEnum = (RgrPhichNg) tmpEnum;
CMCHKUNPK(oduPackUInt8, ¶m->isDurExtend, mBuf);
return ROK;
Buffer *mBuf;
#endif
{
- U32 tmpEnum;
+ uint32_t tmpEnum;
CMCHKUNPK(oduPackUInt8, ¶m->isSrsCfgSetup, mBuf);
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->srsCfgPrdEnum = (RgrSrsCfgPrd) tmpEnum;
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->srsBwEnum = (RgrSrsBwCfg) tmpEnum;
CMCHKUNPK(oduPackUInt8, ¶m->srsSubFrameCfg, mBuf);
return ROK;
Buffer *mBuf;
#endif
{
- U32 tmpEnum;
+ uint32_t tmpEnum;
S32 i;
#ifdef RGR_V1
CMCHKUNPK(oduPackUInt8, ¶m->preambleFormat, mBuf);
CMCHKUNPK(oduPackUInt8, ¶m->raWinSize, mBuf);
CMCHKUNPK(oduPackUInt8, ¶m->raOccasion.size, mBuf);
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->raOccasion.sfnEnum = (RgrRaSfn) tmpEnum;
for (i=0; i<param->raOccasion.size; i++) {
CMCHKUNPK(oduPackUInt8, ¶m->raOccasion.subFrameNum[i], mBuf);
sizeof(param->siPeriodicity[0]);
for (idx=param->numSi-1; idx >= 0; idx--) {
- /* Enum to be packed/unpacked as U32 instead of S32 */
+ /* Enum to be packed/unpacked as uint32_t instead of S32 */
CMCHKPK(oduUnpackUInt32, param->siPeriodicity[idx], mBuf);
}
CMCHKPK(oduUnpackUInt8, param->numSi, mBuf);
/*rgr_c_001.main_9 ccpu00115364 MOD changed modPrd to enum*/
- CMCHKPK(oduUnpackUInt32, (U32)param->modPrd, mBuf);
+ CMCHKPK(oduUnpackUInt32, (uint32_t)param->modPrd, mBuf);
#endif/*RGR_SI_SCH*/
CMCHKPK(oduUnpackUInt8, param->retxCnt, mBuf);
CMCHKPK(oduUnpackUInt8, param->siWinSize, mBuf);
Buffer *mBuf;
#endif
{
- U32 tmpEnum;
+ uint32_t tmpEnum;
/* rgr_c_001.main_4:MOD-Modified for SI Enhancement. */
#ifdef RGR_SI_SCH
S16 idx;
CMCHKUNPK(oduPackUInt8, ¶m->retxCnt, mBuf);
#ifdef RGR_SI_SCH
/*rgr_c_001.main_9 ccpu00115364 MOD changed modPrd to enum*/
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->modPrd = (RgrModPeriodicity) tmpEnum;
CMCHKUNPK(oduPackUInt8, ¶m->numSi, mBuf);
param->numSi = sizeof(param->siPeriodicity)/
sizeof(param->siPeriodicity[0]);
- /* Enum to be packed/unpacked as U32 instead of S32 */
+ /* Enum to be packed/unpacked as uint32_t instead of S32 */
for (idx=0; idx < param->numSi; idx++) {
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->siPeriodicity[idx] = (RgrSiPeriodicity) tmpEnum;
}
#endif/*RGR_SI_SCH*/
Buffer *mBuf;
#endif
{
- U32 tmpEnum;
+ uint32_t tmpEnum;
CMCHKUNPK(SUnpkS8, ¶m->p0NominalPusch, mBuf);
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->alpha = (RgrPwrAlpha) tmpEnum;
CMCHKUNPK(SUnpkS8, ¶m->p0NominalPucch, mBuf);
CMCHKUNPK(SUnpkS8, ¶m->deltaPreambleMsg3, mBuf);
Buffer *mBuf;
#endif
{
- U32 tmpEnum;
+ uint32_t tmpEnum;
CMCHKUNPK(oduPackUInt8, ¶m->freqIdx, mBuf);
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->sfn = tmpEnum;
CMCHKUNPK(oduPackUInt8, ¶m->halfFrm, mBuf);
CMCHKUNPK(oduPackUInt8, ¶m->ulStartSfIdx, mBuf);
for (idx = MAX_5GTF_SUBFRAME_INFO - 1; idx >= 0 ;--idx)
{
- CMCHKPK(oduUnpackUInt32, param->dynConfig[(U8)idx], mBuf);
+ CMCHKPK(oduUnpackUInt32, param->dynConfig[(uint8_t)idx], mBuf);
}
CMCHKPK(oduUnpackUInt8, param->uePerGrp, mBuf);
CMCHKPK(oduUnpackUInt8, param->ueGrpPerTti, mBuf);
for (idx = 0; idx < MAX_5GTF_SUBFRAME_INFO ; ++idx)
{
- CMCHKUNPK(oduPackUInt32, ¶m->dynConfig[(U8)idx], mBuf);
+ CMCHKUNPK(oduPackUInt32, ¶m->dynConfig[(uint8_t)idx], mBuf);
}
return ROK;
}
{
S8 indx = 0;
- CMCHKPK(oduUnpackUInt32, (U32)param->status, mBuf);
+ CMCHKPK(oduUnpackUInt32, (uint32_t)param->status, mBuf);
for (indx = RGR_ABS_PATTERN_LEN-1; indx >= 0; indx--)
{
- CMCHKPK(oduUnpackUInt8, param->absPattern[(U8)indx], mBuf);
+ CMCHKPK(oduUnpackUInt8, param->absPattern[(uint8_t)indx], mBuf);
}
CMCHKPK(oduUnpackUInt32, param->absPatternType, mBuf);
#endif
{
- CMCHKPK(oduUnpackUInt32, (U32)param->status, mBuf);
+ CMCHKPK(oduUnpackUInt32, (uint32_t)param->status, mBuf);
#ifdef TFU_UPGRADE
CMCHKPK(oduUnpackUInt32, param->pwrThreshold.pHigh, mBuf);
CMCHKPK(oduUnpackUInt32, param->pwrThreshold.pLow, mBuf);
#endif
{
- CMCHKPK(oduUnpackUInt32, (U32)param->status, mBuf);
+ CMCHKPK(oduUnpackUInt32, (uint32_t)param->status, mBuf);
return ROK;
#endif
{
- CMCHKUNPK(oduPackUInt32, (U32 *)¶m->status, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)¶m->status, mBuf);
return ROK;
}
CMCHKUNPK(oduPackUInt32, ¶m->absPatternType, mBuf);
for (indx = 0; indx <RGR_ABS_PATTERN_LEN; indx++)
{
- CMCHKUNPK(oduPackUInt8, ¶m->absPattern[(U8)indx], mBuf);
+ CMCHKUNPK(oduPackUInt8, ¶m->absPattern[(uint8_t)indx], mBuf);
}
- CMCHKUNPK(oduPackUInt32, (U32*)¶m->status, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t*)¶m->status, mBuf);
return ROK;
CMCHKUNPK(oduPackUInt8, ¶m->cellEdgeRbRange.startRb, mBuf);
CMCHKUNPK(oduPackUInt8, ¶m->cellEdgeRbRange.endRb, mBuf);
#ifdef TFU_UPGRADE
- CMCHKUNPK(oduPackUInt32, (U32*)¶m->pwrThreshold.pLow, mBuf);
- CMCHKUNPK(oduPackUInt32, (U32*)¶m->pwrThreshold.pHigh, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t*)¶m->pwrThreshold.pLow, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t*)¶m->pwrThreshold.pHigh, mBuf);
#endif
- CMCHKUNPK(oduPackUInt32, (U32*)¶m->status, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t*)¶m->status, mBuf);
return ROK;
}
CMCHKPK(oduPackUInt16, ¶m->phichTxPwrOffset, mBuf);
CMCHKUNPK(oduPackUInt8, ¶m->isDynCfiEnb, mBuf);
CMCHKUNPK(oduPackUInt8, ¶m->isAutoCfgModeEnb, mBuf);
- CMCHKPK(oduPackUInt32, (U32*)¶m->msg4pAVal, mBuf);
+ CMCHKPK(oduPackUInt32, (uint32_t*)¶m->msg4pAVal, mBuf);
/*LAA: Unpack LAA Cell params*/
CMCHKUNPK(cmUnpkRgrLteUCellCfg, ¶m->lteUCfg, mBuf);
#ifdef LTE_ADV
Buffer *mBuf;
#endif
{
- U32 tmpEnum;
+ uint32_t tmpEnum;
CMCHKUNPK(oduPackUInt8, ¶m->pres, mBuf);
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->aprdModeEnum = (RgrAprdCqiMode) tmpEnum;
#ifdef LTE_ADV
Buffer *mBuf;
#endif
{
- U32 tmpEnum;
+ uint32_t tmpEnum;
CMCHKUNPK(oduPackUInt8, ¶m->pres, mBuf);
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->prdModeEnum = tmpEnum;
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->prdicityEnum = tmpEnum;
CMCHKUNPK(oduPackUInt8, ¶m->subframeOffst, mBuf);
CMCHKUNPK(SUnpkS8, ¶m->cqiOffst, mBuf);
Buffer *mBuf;
#endif
{
- U32 tmpEnum;
+ uint32_t tmpEnum;
CMCHKUNPK(oduPackUInt16, ¶m->cqiPResIdx, mBuf);
/*rgr_c_001.main_9 DEL removed unwanted comments*/
CMCHKUNPK(oduPackUInt16, ¶m->riCfgIdx, mBuf);
CMCHKUNPK(oduPackUInt8, ¶m->sANCQI, mBuf);
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->prdModeEnum = (RgrPrdCqiMode) tmpEnum;
return ROK;
}
Buffer *mBuf;
#endif
{
- U32 tmpEnum;
+ uint32_t tmpEnum;
/*rgr_c_001.main_9 DEL removed unwanted comments*/
CMCHKUNPK(oduPackUInt16, ¶m->srsCfgIdx, mBuf);
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->srsBw = (RgrUlSrsBwInfo) tmpEnum;
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->srsHopBw = (RgrUlSrsHoBwInfo) tmpEnum;
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->cycShift = (RgrUlSrsCycShiftInfo) tmpEnum;
CMCHKUNPK(oduPackUInt8, ¶m->duration, mBuf);
CMCHKUNPK(oduPackUInt8, ¶m->sANSrs, mBuf);
Buffer *mBuf;
#endif
{
- U32 tmpEnum;
+ uint32_t tmpEnum;
CMCHKUNPK(oduPackUInt8, ¶m->isAckNackEnabled, mBuf);
CMCHKUNPK(oduPackUInt16, ¶m->pucchAckNackRep, mBuf);
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->ackNackRepFactor = (RgrAckNackRepFactor) tmpEnum;
return ROK;
}
Buffer *mBuf;
#endif
{
- U32 tmpEnum;
+ uint32_t tmpEnum;
CMCHKUNPK(oduPackUInt8, ¶m->pres, mBuf);
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->tmTrnstnState = (RgrTxModeTrnstn) tmpEnum;
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->txModeEnum = (RgrTxMode) tmpEnum;
return ROK;
}
Buffer *mBuf;
#endif
{
- U32 tmpEnum;
+ uint32_t tmpEnum;
S32 i;
for (i=0; i<param->numPucchVal; i++) {
CMCHKUNPK(oduPackUInt32, ¶m->n1PucchVal[i], mBuf);
}
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->dlSpsPrdctyEnum = tmpEnum;
CMCHKUNPK(oduPackUInt16, ¶m->explicitRelCnt, mBuf);
return ROK;
Buffer *mBuf;
#endif
{
- U32 tmpEnum;
+ uint32_t tmpEnum;
S32 i;
CMCHKUNPK(oduPackUInt8, ¶m->isUlSpsEnabled, mBuf);
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->implicitRelCnt = tmpEnum;
#ifdef LTE_TDD
CMCHKUNPK(oduPackUInt8, ¶m->pwrCfgPres, mBuf);
CMCHKUNPK(SUnpkS8, ¶m->pwrCfg.p0NominalPuschVal, mBuf);
CMCHKUNPK(SUnpkS8, ¶m->pwrCfg.p0UePuschVal, mBuf);
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->ulSpsPrdctyEnum = tmpEnum;
CMCHKUNPK(oduPackUInt8, ¶m->lcCnt, mBuf);
for (i=0; i<param->lcCnt; i++) {
Buffer *mBuf;
#endif
{
- U32 tmpEnum;
+ uint32_t tmpEnum;
CMCHKUNPK(oduPackUInt8, ¶m->pres, mBuf);
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->selType = (RgrUeTxAntSelType) tmpEnum;
return ROK;
}
CMCHKUNPK(oduPackUInt8,&(epdcchAddModLst->extaddgrp2.mpddchPdschHop),mBuf);
CMCHKUNPK(oduPackUInt8,&(epdcchAddModLst->extaddgrp2.csiNumRep),mBuf);
CMCHKUNPK(oduPackUInt8,&(epdcchAddModLst->extaddgrp2.pres),mBuf);
- CMCHKUNPK(cmUnpkTknU8,&(epdcchAddModLst->mpdcchNumPRBpair),mBuf);
- CMCHKUNPK(cmUnpkTknU32,&(epdcchAddModLst->pdschRemapQLcfgId),mBuf);
+ CMCHKUNPK(cmUnpkTknUInt8,&(epdcchAddModLst->mpdcchNumPRBpair),mBuf);
+ CMCHKUNPK(cmUnpkTknUInt32,&(epdcchAddModLst->pdschRemapQLcfgId),mBuf);
CMCHKUNPK(oduPackUInt32,&(epdcchAddModLst->pucchResStartoffset),mBuf);
CMCHKUNPK(oduPackUInt32,&(epdcchAddModLst->dmrsScrambSeq),mBuf);
for(idx = 0; idx < 5; idx++)
CMCHKUNPK(oduPackUInt8,&(epdcchAddModLst->setConfigId),mBuf);
}
- CMCHKUNPK(cmUnpkTknU32,&(emtcEpdcchCfg->startSymbolr11),mBuf);
+ CMCHKUNPK(cmUnpkTknUInt32,&(emtcEpdcchCfg->startSymbolr11),mBuf);
for(indx = 0; indx < 5; indx++)
{
CMCHKUNPK(oduPackUInt8,&(emtcEpdcchCfg->sfPtn.measSfPatFDD[indx]),mBuf);
{
CMCHKPK(oduUnpackUInt8,emtcEpdcchCfg->sfPtn.measSfPatFDD[indx],mBuf);
}
- CMCHKPK(cmPkTknU32,&emtcEpdcchCfg->startSymbolr11,mBuf);
+ CMCHKPK(cmPkTknUInt32,&emtcEpdcchCfg->startSymbolr11,mBuf);
for(indx = RGR_MAX_EPDCCH_SET-1 ; indx >= 0; indx--)
{
epdcchAddModLst = &(emtcEpdcchCfg->epdcchAddModLst[indx]);
}
CMCHKPK(oduUnpackUInt32,epdcchAddModLst->dmrsScrambSeq,mBuf);
CMCHKPK(oduUnpackUInt32,epdcchAddModLst->pucchResStartoffset,mBuf);
- CMCHKPK(cmPkTknU32,&(epdcchAddModLst->pdschRemapQLcfgId),mBuf);
- CMCHKPK(cmPkTknU8,&(epdcchAddModLst->mpdcchNumPRBpair),mBuf);
+ CMCHKPK(cmPkTknUInt32,&(epdcchAddModLst->pdschRemapQLcfgId),mBuf);
+ CMCHKPK(cmPkTknUInt8,&(epdcchAddModLst->mpdcchNumPRBpair),mBuf);
CMCHKPK(oduUnpackUInt8,epdcchAddModLst->extaddgrp2.pres,mBuf);
CMCHKPK(oduUnpackUInt8,epdcchAddModLst->extaddgrp2.csiNumRep,mBuf);
CMCHKPK(oduUnpackUInt8,epdcchAddModLst->extaddgrp2.mpddchPdschHop,mBuf);
CMCHKPK(oduUnpackUInt32, param->ackNackModeEnum, mBuf);
#endif
- CMCHKPK(cmPkTknU8, ¶m->dedPreambleId, mBuf);
+ CMCHKPK(cmPkTknUInt8, ¶m->dedPreambleId, mBuf);
CMCHKPK(cmPkRgrCodeBookRstCfg, ¶m->ueCodeBookRstCfg, mBuf);
CMCHKPK(cmPkRgrUeCapCfg, ¶m->ueCapCfg, mBuf);
CMCHKPK(cmPkRgrUeMeasGapCfg, ¶m->ueMesGapCfg, mBuf);
Buffer *mBuf;
#endif
{
- U32 tmpEnum;
+ uint32_t tmpEnum;
CMCHKUNPK(cmUnpkLteCellId, ¶m->cellId, mBuf);
* retxBSR-timer */
CMCHKUNPK(cmUnpkRgrUeBsrTmrCfg, ¶m->ueBsrTmrCfg, mBuf);
#endif
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->ueCatEnum = (CmLteUeCategory) tmpEnum;
/*rgr_c_001.main_9 ADD added changes for DRX*/
CMCHKUNPK(cmUnpkRgrUeMeasGapCfg, ¶m->ueMesGapCfg, mBuf);
CMCHKUNPK(cmUnpkRgrUeCapCfg, ¶m->ueCapCfg, mBuf);
CMCHKUNPK(cmUnpkRgrCodeBookRstCfg, ¶m->ueCodeBookRstCfg, mBuf);
- CMCHKUNPK(cmUnpkTknU8, ¶m->dedPreambleId, mBuf);
+ CMCHKUNPK(cmUnpkTknUInt8, ¶m->dedPreambleId, mBuf);
#ifdef LTE_TDD
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->ackNackModeEnum = tmpEnum;
#endif
/* LTE_ADV_FLAG_REMOVED_START */
CMCHKUNPK(cmUnpkRgrLteAdvancedUeConfig, ¶m->ueLteAdvCfg, mBuf);
/* LTE_ADV_FLAG_REMOVED_END */
- CMCHKUNPK(oduPackUInt32, (U32 *)¶m->accessStratumRls, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)¶m->accessStratumRls, mBuf);
CMCHKUNPK(oduPackUInt8, ¶m->csgMmbrSta, mBuf);
#ifdef EMTC_ENABLE
CMCHKPK(cmPkRgrUeAprdDlCqiCfg, ¶m->aprdDlCqiRecfg, mBuf);
CMCHKPK(cmPkRgrUeTxModeCfg, ¶m->txMode, mBuf);
- /*rgr_c_001.main_9: changing ueRecfgTypes to U32 */
+ /*rgr_c_001.main_9: changing ueRecfgTypes to uint32_t */
/* LTE_ADV_FLAG_REMOVED_START */
/* KW fix for LTE_ADV */
CMCHKPK(oduUnpackUInt32, param->ueRecfgTypes, mBuf);
Buffer *mBuf;
#endif
{
- U32 tmpEnum;
+ uint32_t tmpEnum;
CMCHKUNPK(cmUnpkLteCellId, ¶m->cellId, mBuf);
CMCHKUNPK(cmUnpkLteRnti, ¶m->oldCrnti, mBuf);
CMCHKUNPK(cmUnpkLteRnti, ¶m->newCrnti, mBuf);
/* LTE_ADV_FLAG_REMOVED_START */
- /*rgr_c_001.main_9: changing ueRecfgTypes to U32 */
+ /*rgr_c_001.main_9: changing ueRecfgTypes to uint32_t */
/* KW fix for LTE_ADV */
CMCHKUNPK(oduPackUInt32, ¶m->ueRecfgTypes, mBuf);
/* LTE_ADV_FLAG_REMOVED_END */
CMCHKUNPK(cmUnpkRgrUeMeasGapCfg, ¶m->ueMeasGapRecfg, mBuf);
CMCHKUNPK(cmUnpkRgrCodeBookRstCfg, ¶m->ueCodeBookRstRecfg, mBuf);
/* rgr_c_001.main_7 - Changes for UE category Reconfiguration */
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->ueCatEnum = (CmLteUeCategory) tmpEnum;
CMCHKUNPK(cmUnpkRgrUeTxAntSelCfg, ¶m->ulTxAntSel, mBuf);
/*rgr_c_001.main_7 - Added support for SPS*/
CMCHKUNPK(cmUnpkRgrUeSCellAckPucchCfg, ¶m->sCellAckN1ResCfg,mBuf);
CMCHKUNPK(oduPackUInt8, ¶m->simulAckNackCQIFormat3, mBuf);
#endif
- CMCHKUNPK(oduPackUInt32, (U32 *)¶m->accessStratumRls, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)¶m->accessStratumRls, mBuf);
CMCHKUNPK(oduPackUInt8, ¶m->csgMmbrSta, mBuf);
#ifdef EMTC_ENABLE
S8 idx;
for(idx = param->numSCells - 1; idx >= 0; idx--)
{
- CMCHKPK(cmPkRgrUeDlSecCellRelInfo, ¶m->ueSCellRelDedCfg[(U8)idx],mBuf);
+ CMCHKPK(cmPkRgrUeDlSecCellRelInfo, ¶m->ueSCellRelDedCfg[(uint8_t)idx],mBuf);
}
CMCHKPK(oduUnpackUInt8, param->numSCells, mBuf);
Buffer *mBuf;
#endif
{
- U8 idx;
+ uint8_t idx;
CMCHKUNPK(oduPackUInt8, ¶m->numSCells, mBuf);
}
for(count = 0; count < RGR_SCH_MAX_PA_PER_PRB; count ++)
{
- CMCHKUNPK(oduPackUInt32,(U32 *) ¶m->paLevelPerPrb[count], mBuf);
+ CMCHKUNPK(oduPackUInt32,(uint32_t *) ¶m->paLevelPerPrb[count], mBuf);
}
return ROK;
}
#endif
{
- CMCHKUNPK(oduPackUInt32, (U32 *)¶m->cfgType, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)¶m->cfgType, mBuf);
switch(param->cfgType)
{
case RGR_SON_PRB_CFG :
#endif
{
- U8 idx;
+ uint8_t idx;
CMCHKUNPK(cmUnpkLteRnti, ¶m->crnti, mBuf);
CMCHKUNPK(oduPackUInt8, ¶m->numOfSCells, mBuf);
S8 idx;
for(idx = param->numOfSCells - 1; idx >= 0; idx--)
{
- CMCHKPK(cmPkRgrSCellActDeactInfo, ¶m->sCellActDeactInfo[(U8)idx], mBuf);
+ CMCHKPK(cmPkRgrSCellActDeactInfo, ¶m->sCellActDeactInfo[(uint8_t)idx], mBuf);
}
CMCHKPK(oduUnpackUInt8, param->numOfSCells, mBuf);
#endif
{
MsgLen msgLen;
- U32 count;
+ uint32_t count;
CmLList *node, *prevNode;
RgrSegmentInfo *pdu;
#endif
{
MsgLen msgLen, totalMsgLen;
- U32 count, loopCnt;
+ uint32_t count, loopCnt;
Buffer *pdu;
CmLList *node;
Pst *pst,
SpId spId,
RgrCfgTransId transId,
-U8 siId
+uint8_t siId
)
#else
S16 cmPkRgrWarningSiStopReq(pst,spId, transId, siId)
Pst *pst;
SpId spId;
RgrCfgTransId transId;
-U8 siId;
+uint8_t siId;
#endif
{
Buffer *mBuf = NULLP;
#endif
{
SpId spId;
- U8 siId;
+ uint8_t siId;
RgrCfgTransId transId;
Pst* pst,
SuId suId,
RgrCfgTransId transId,
-U8 siId,
-U8 status
+uint8_t siId,
+uint8_t status
)
#else
S16 cmPkRgrWarningSiCfgCfm(pst, suId, transId, siId, status)
Pst* pst;
SuId suId;
RgrCfgTransId transId;
-U8 siId;
-U8 status;
+uint8_t siId;
+uint8_t status;
#endif
{
Buffer *mBuf = NULLP;
#endif
{
SuId suId;
- U8 siId;
+ uint8_t siId;
RgrCfgTransId transId;
- U8 status;
+ uint8_t status;
if (SUnpkS16(&suId, mBuf) != ROK)
#endif
{
- U8 idx;
+ uint8_t idx;
CMCHKUNPK(oduPackUInt8, ¶m->numCqiRept, mBuf);
for (idx = 0; idx < param->numCqiRept; idx++)
#endif
{
S8 idx;
- U8 count;
+ uint8_t count;
CMCHKPK(oduUnpackUInt8, param->cqi[0], mBuf);
Buffer *mBuf;
#endif
{
- U8 idx;
+ uint8_t idx;
CMCHKUNPK(oduPackUInt8, ¶m->numSubBand, mBuf);
for (idx = 0; idx < param->numSubBand; idx++)
Buffer *mBuf;
#endif
{
- U8 idx;
+ uint8_t idx;
CMCHKPK(cmPkLteCellId, param->cellId, mBuf);
CMCHKPK(oduUnpackUInt16, param->bw, mBuf);
/* dsfr_pal_fixes ** 21-March-2013 ** SKS */
TknStrOSXL *tknStr;
- U16 ndx;
+ uint16_t ndx;
CMCHKUNPK(oduPackUInt32, ¶m->type, mBuf);
{
for(idx = RGR_ABS_PATTERN_LEN -1 ; idx >= 0; idx--)
{
- CMCHKUNPK(oduPackUInt32, ¶m->u.absLoadInfo[(U8)idx], mBuf);
+ CMCHKUNPK(oduPackUInt32, ¶m->u.absLoadInfo[(uint8_t)idx], mBuf);
}
}
else
Buffer *mBuf;
#endif
{
- U32 tmpEnum;
+ uint32_t tmpEnum;
- CMCHKUNPK(oduPackUInt8, (U8 *)¶m->pAPrsnt, mBuf);
+ CMCHKUNPK(oduPackUInt8, (uint8_t *)¶m->pAPrsnt, mBuf);
if (param->pAPrsnt)
{
- CMCHKUNPK(oduPackUInt32, (U32*)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t*)&tmpEnum, mBuf);
param->pA = (RgrUeDlPwrCntrlPaCfg) tmpEnum;
}
CMCHKPK(cmPkRgrUePdschDedCfg, ¶m->uePdschDedCfg, mBuf);
#endif
CMCHKPK(cmPkRgrUeDlCqiCfg,¶m->ueSCellDlCqiCfg, mBuf);
- CMCHKPK(cmPkTknU32, ¶m->sCellDeActTmr, mBuf);
+ CMCHKPK(cmPkTknUInt32, ¶m->sCellDeActTmr, mBuf);
CMCHKPK(oduUnpackUInt16, param->sCellId, mBuf);
CMCHKPK(oduUnpackUInt8, param->sCellIdx, mBuf);
S8 idx;
for(idx = param->numSCells - 1; idx >= 0; idx--)
{
- CMCHKPK(cmPkRgrUeSecCellCfg, ¶m->ueSCellDedCfg[(U8)idx],mBuf);
+ CMCHKPK(cmPkRgrUeSecCellCfg, ¶m->ueSCellDedCfg[(uint8_t)idx],mBuf);
}
CMCHKPK(oduUnpackUInt8, param->numSCells, mBuf);
{
CMCHKUNPK(oduPackUInt8, ¶m->sCellIdx, mBuf);
CMCHKUNPK(oduPackUInt16, ¶m->sCellId, mBuf);
- CMCHKUNPK(cmUnpkTknU32, ¶m->sCellDeActTmr, mBuf);
+ CMCHKUNPK(cmUnpkTknUInt32, ¶m->sCellDeActTmr, mBuf);
CMCHKUNPK(cmUnpkRgrUeDlCqiCfg, ¶m->ueSCellDlCqiCfg, mBuf);
#ifdef TFU_UPGRADE
CMCHKUNPK(cmUnpkRgrUePdschDedCfg, ¶m->uePdschDedCfg, mBuf);
Buffer *mBuf;
#endif
{
- U8 idx;
+ uint8_t idx;
CMCHKUNPK(oduPackUInt8, ¶m->useExtBSRSizes, mBuf);
CMCHKUNPK(oduPackUInt8, ¶m->numSCells, mBuf);
{
for(idx = param->u.format1Bcs.sCellAckN1ResTb2Count - 1; idx >=0 ;idx--)
{
- CMCHKPK(oduUnpackUInt16, param->u.format1Bcs.sCellAckN1ResTb2[(U8)idx], mBuf);
+ CMCHKPK(oduUnpackUInt16, param->u.format1Bcs.sCellAckN1ResTb2[(uint8_t)idx], mBuf);
}
CMCHKPK(oduUnpackUInt8, param->u.format1Bcs.sCellAckN1ResTb2Count, mBuf);
for(idx = param->u.format1Bcs.sCellAckN1ResTb1Count - 1; idx >=0 ;idx--)
{
- CMCHKPK(oduUnpackUInt16, param->u.format1Bcs.sCellAckN1ResTb1[(U8)idx], mBuf);
+ CMCHKPK(oduUnpackUInt16, param->u.format1Bcs.sCellAckN1ResTb1[(uint8_t)idx], mBuf);
}
CMCHKPK(oduUnpackUInt8, param->u.format1Bcs.sCellAckN1ResTb1Count, mBuf);
{
for(idx = param->u.format3.sCellAckN3ResAntP1Count - 1; idx >=0 ;idx--)
{
- CMCHKPK(oduUnpackUInt16, param->u.format3.sCellAckN3ResAntP1[(U8)idx], mBuf);
+ CMCHKPK(oduUnpackUInt16, param->u.format3.sCellAckN3ResAntP1[(uint8_t)idx], mBuf);
}
CMCHKPK(oduUnpackUInt8, param->u.format3.sCellAckN3ResAntP1Count, mBuf);
for(idx = param->u.format3.sCellAckN3ResAntP0Count- 1; idx >=0 ;idx--)
{
- CMCHKPK(oduUnpackUInt16, param->u.format3.sCellAckN3ResAntP0[(U8)idx], mBuf);
+ CMCHKPK(oduUnpackUInt16, param->u.format3.sCellAckN3ResAntP0[(uint8_t)idx], mBuf);
}
CMCHKPK(oduUnpackUInt8, param->u.format3.sCellAckN3ResAntP0Count, mBuf);
Buffer *mBuf;
#endif
{
- U8 idx;
+ uint8_t idx;
- CMCHKUNPK(oduPackUInt32, (U32*)¶m->pucchFormatType, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t*)¶m->pucchFormatType, mBuf);
//if (param->pucchFormatType == RG_SCH_UCI_FORMAT1B_CS)
if (param->pucchFormatType == RG_SCH_UCI_FORMAT1B_CS || param->pucchFormatType == RG_SCH_UCI_FORMAT1A_1B)
{
Buffer *mBuf;
#endif
{
- U32 tmpEnum;
+ uint32_t tmpEnum;
CMCHKUNPK(oduPackUInt32, &tmpEnum, mBuf);