*
* @param[in] Pst* pst
* @param[in] SuId suId
-* @param[in] U8 status
+* @param[in] uint8_t status
* @return S16
* -# ROK
**/
(
Pst* pst,
SuId suId,
-U8 status
+uint8_t status
)
#else
S16 cmPkCtfBndCfm(pst, suId, status)
Pst* pst;
SuId suId;
-U8 status;
+uint8_t status;
#endif
{
Buffer *mBuf = NULLP;
*
* @param[in] Pst* pst
* @param[in] SuId suId
-* @param[in] U8 status
+* @param[in] uint8_t status
* @return S16
* -# ROK
**/
#endif
{
SuId suId = 0;
- U8 status;
+ uint8_t status;
if (SUnpkS16(&suId, mBuf) != ROK) {
*
**********************************************************/
#ifdef ANSI
-PRIVATE S16 cmRelCtfCfgReq
+static S16 cmRelCtfCfgReq
(
Pst *pst,
CtfCfgReqInfo *cfgReqInfo
)
#else
-PRIVATE S16 cmRelCtfCfgReq(pst,cfgReqInfo)
+static S16 cmRelCtfCfgReq(pst,cfgReqInfo)
Pst *pst;
CtfCfgReqInfo *param;
#endif
{
for(i= param->numOfVendorSpecifcParam-1; i >= 0; i--)
{
- CMCHKPK(oduUnpackUInt32,(U32)param->vendorSpecifcParam[i], mBuf);
+ CMCHKPK(oduUnpackUInt32,(uint32_t)param->vendorSpecifcParam[i], mBuf);
}
}
CMCHKPK(oduUnpackUInt16, param->numOfVendorSpecifcParam, mBuf);
#endif
{
- U8 idx;
+ uint8_t idx;
CMCHKUNPK(oduPackUInt16, ¶m->dlCarrFreq, mBuf);
#endif
{
- U8 idx;
+ uint8_t idx;
CMCHKUNPK(oduPackUInt16, ¶m->dlCarrFreq, mBuf);
#endif
{
- U8 idx;
+ uint8_t idx;
CMCHKUNPK(oduPackUInt8, ¶m->intgAlgoType, mBuf);
* @param[in] Pst* pst
* @param[in] SuId suId
* @param[in] CtfCfgTransId transId
-* @param[in] U8 status
+* @param[in] uint8_t status
* @return S16
* -# ROK
**/
SuId suId,
CtfCfgTransId transId,
CtfKdfCfmInfo *kdfCfmInfo,
-U8 status
+uint8_t status
)
#else
S16 cmPkCtfKdfCfm(pst, suId, transId, status)
Pst* pst;
SuId suId;
CtfCfgTransId transId;
-U8 status;
+uint8_t status;
#endif
{
Buffer *mBuf = NULLP;
* @param[in] Pst* pst
* @param[in] SuId suId
* @param[in] CtfCfgTransId transId
-* @param[in] U8 status
+* @param[in] uint8_t status
* @return S16
* -# ROK
**/
Pst* pst,
SuId suId,
CtfCfgTransId transId,
-U8 status
+uint8_t status
)
#else
S16 cmPkCtfCfgCfm(pst, suId, transId, status)
Pst* pst;
SuId suId;
CtfCfgTransId transId;
-U8 status;
+uint8_t status;
#endif
{
Buffer *mBuf = NULLP;
#endif
{
- U8 idx;
+ uint8_t idx;
for(idx=0;idx<32;idx++)
#endif
{
- U8 idx;
+ uint8_t idx;
for(idx=0;idx<32;idx++)
#endif
{
- U8 idx;
+ uint8_t idx;
for(idx=0;idx<16;idx++)
* @param[in] Pst* pst
* @param[in] SuId suId
* @param[in] CtfCfgTransId transId
-* @param[in] U8 status
+* @param[in] uint8_t status
* @return S16
* -# ROK
**/
{
SuId suId = 0;
CtfCfgTransId transId;
- U8 status;
+ uint8_t status;
CtfKdfCfmInfo kdfCfmInfo;
* @param[in] Pst* pst
* @param[in] SuId suId
* @param[in] CtfCfgTransId transId
-* @param[in] U8 status
+* @param[in] uint8_t status
* @return S16
* -# ROK
**/
{
SuId suId = 0;
CtfCfgTransId transId;
- U8 status;
+ uint8_t status;
if (SUnpkS16(&suId, mBuf) != ROK) {
* @param[in] SuId suId
* @param[in] CtfCfgTransId transId
* @param[in] CtfUeInfo * ueInfo
-* @param[in] U8 status
+* @param[in] uint8_t status
* @return S16
* -# ROK
**/
* @param[in] SuId suId
* @param[in] CtfCfgTransId transId
* @param[in] CtfUeInfo * ueInfo
-* @param[in] U8 status
+* @param[in] uint8_t status
* @return S16
* -# ROK
**/
#endif
{
- U32 tmpEnum;
+ uint32_t tmpEnum;
/* ctf_c_001.main_4: Removed UnPacking of param->pres */
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->dlBw = (CtfBandwidth)tmpEnum;
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->ulBw = (CtfBandwidth)tmpEnum;
CMCHKUNPK(oduPackUInt8, ¶m->eUtraBand, mBuf);
return ROK;
Buffer *mBuf;
#endif
{
- U32 tmpEnum;
+ uint32_t tmpEnum;
/* ctf_c_001.main_4: Removed UnPacking of param->pres */
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->duplexMode = (CtfDuplexMode)tmpEnum;
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->scSpacing = (CtfSCSpacing)tmpEnum;
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->cycPfx = (CtfCPCfg)tmpEnum;
return ROK;
}
Buffer *mBuf;
#endif
{
- U32 tmpEnum;
+ uint32_t tmpEnum;
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->antPortsCnt = (CtfAntennaPortsCount)tmpEnum;
return ROK;
}
Buffer *mBuf;
#endif
{
- U32 tmpEnum;
+ uint32_t tmpEnum;
CMCHKUNPK(oduPackUInt8, ¶m->noOfsubBands, mBuf);
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->hoppingMode = (CtfPuschHoppingMode)tmpEnum;
CMCHKUNPK(oduPackUInt8, ¶m->hoppingOffset, mBuf);
CMCHKUNPK(oduPackUInt8, ¶m->enable64QAM, mBuf);
Buffer *mBuf;
#endif
{
- U32 tmpEnum;
+ uint32_t tmpEnum;
CMCHKUNPK(oduPackUInt8, ¶m->pres, mBuf);
/*ctf_c_001.main_1*/
if(param->pres != FALSE)
{
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->duration = (CtfPhichDuration)tmpEnum;
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->resource = (CtfPhichResource)tmpEnum;
}
return ROK;
Buffer *mBuf;
#endif
{
- U32 tmpEnum;
+ uint32_t tmpEnum;
CMCHKUNPK(oduPackUInt8, ¶m->pres, mBuf);
CMCHKUNPK(oduPackUInt8, ¶m->nRB, mBuf);
CMCHKUNPK(oduPackUInt8, ¶m->nCS, mBuf);
CMCHKUNPK(oduPackUInt16, ¶m->n1PUCCH, mBuf);
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->deltaShift = (CtfPucchDeltaShift)tmpEnum;
}
return ROK;
*
**********************************************************/
#ifdef ANSI
-PRIVATE S16 cmPkCtfUnLicnsdCellParam
+static S16 cmPkCtfUnLicnsdCellParam
(
CtfUnLicnsdCfgInfo *param,
Buffer *mBuf
)
#else
-PRIVATE S16 cmPkCtfUnLicnsdCellParam(param, mBuf)
+static S16 cmPkCtfUnLicnsdCellParam(param, mBuf)
CtfUnLicnsdCfgInfo *param;
Buffer *mBuf;
#endif
{
- U8 idx;
+ uint8_t idx;
CMCHKPK(SPkS32, param->txPowerLimit, mBuf);
*
**********************************************************/
#ifdef ANSI
-PRIVATE S16 cmUnpkCtfUnLicnsdCellParam
+static S16 cmUnpkCtfUnLicnsdCellParam
(
CtfUnLicnsdCfgInfo *param,
Buffer *mBuf
)
#else
-PRIVATE S16 cmUnpkCtfUnLicnsdCellParam(param, mBuf)
+static S16 cmUnpkCtfUnLicnsdCellParam(param, mBuf)
CtfUnLicnsdCfgInfo *param;
Buffer *mBuf;
#endif
{
- U8 idx;
+ uint8_t idx;
CMCHKUNPK(oduPackUInt8, ¶m->numFreq, mBuf);
#endif
{
- U32 tmpEnum;
+ uint32_t tmpEnum;
/* ctf_c_001.main_3: Added the unpack for newly added fileds inside the CFG structure*/
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->ctfReCfgType = (CtfReCfgType)tmpEnum;
CMCHKUNPK(cmUnpkLteCellId, ¶m->cellId, mBuf);
CMCHKUNPK(oduPackUInt8, ¶m->cellIdGrpId, mBuf);
Buffer *mBuf;
#endif
{
- U32 tmpEnum;
+ uint32_t tmpEnum;
CMCHKUNPK(oduPackUInt8, ¶m->pres, mBuf);
/*ctf_c_001.main_1*/
if(param->pres != FALSE)
{
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->pA = (CtfPdschPaParam)tmpEnum;
}
return ROK;
if (param->pucchSetup.repFactPres)
{
- CMCHKUNPK(oduPackUInt32, (U32 *)¶m->pucchSetup.repFact, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)¶m->pucchSetup.repFact, mBuf);
}
#else
- CMCHKUNPK(oduPackUInt32, (U32 *)¶m->pucchSetup.repFact, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)¶m->pucchSetup.repFact, mBuf);
#endif /*CTF_VER3 */
CMCHKUNPK(oduPackUInt16, ¶m->pucchSetup.n1PUCCHRep, mBuf);
#ifdef CTF_VER3
if (param->tddAckNackCfgPres != FALSE)
{
- CMCHKUNPK(oduPackUInt32, (U32 *)¶m->tddAckNackFBMode, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)¶m->tddAckNackFBMode, mBuf);
}
#endif /* CTF_VER3 */
}
/* ctf_c_001.main_2: added packning for cqiMask*/
#ifdef CTF_VER1
- CMCHKPK(oduUnpackUInt32, (U32 )param->cqiSetup.cqiMask.cqiMaskSetup, mBuf);
+ CMCHKPK(oduUnpackUInt32, (uint32_t )param->cqiSetup.cqiMask.cqiMaskSetup, mBuf);
CMCHKPK(oduUnpackUInt8, param->cqiSetup.cqiMask.pres, mBuf);
#endif /* CTF_VER1 */
CMCHKPK(oduUnpackUInt8, param->cqiSetup.simultaneousAckNack, mBuf);
#endif
{
#ifdef CTF_VER1
- U32 tmpEnum;
+ uint32_t tmpEnum;
#endif
CMCHKUNPK(oduPackUInt8, ¶m->cqiPeriodicCfgType, mBuf);
/* ctf_c_001.main_2: added Unpackning for cqiMask*/
#ifdef CTF_VER1
CMCHKUNPK(oduPackUInt8, ¶m->cqiSetup.cqiMask.pres, mBuf);
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->cqiSetup.cqiMask.cqiMaskSetup = tmpEnum;
#endif /* CTF_VER1 */
return ROK;
#endif
{
#if defined (CTF_VER1) || defined (CTF_VER2)
- U32 tmpEnum;
+ uint32_t tmpEnum;
#endif
CMCHKUNPK(oduPackUInt8, ¶m->pres, mBuf);
/* ctf_c_001.main_2: added Unpackning for cqiMask*/
#ifdef CTF_VER1
CMCHKUNPK(oduPackUInt8, ¶m->pmiRiRpt.pres, mBuf);
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->pmiRiRpt.pmiRiRptSetup = tmpEnum;
#endif /* CTF_VER1 */
CMCHKUNPK(oduPackUInt8, ¶m->reportMode.aPeriodicRpt.pres, mBuf)
if(param->reportMode.aPeriodicRpt.pres != FALSE)
{
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->reportMode.aPeriodicRpt.aPeriodicRptMode =
(CtfCqiRptModeAperiodic)tmpEnum;
}
CMCHKUNPK(oduPackUInt8, ¶m->reportingMode, mBuf);
switch(param->reportingMode) {
case CTF_CQI_RPTMODE_APRDIOC:
- CMCHKUNPK(oduPackUInt32, (U32 *)¶m->reportMode.aPeriodicRpt, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)¶m->reportMode.aPeriodicRpt, mBuf);
break;
case CTF_CQI_RPTMODE_PRDIOC:
CMCHKUNPK(cmUnpkCtfCqiRptModePeriodic, ¶m->reportMode.periodicRpt, mBuf);
{
#ifdef CTF_VER2
- U8 idx;
+ uint8_t idx;
#endif /* CTF_VER2 */
CMCHKPK(oduUnpackUInt32, param->ueTxAntSelection.txAntSelect, mBuf);
CMCHKPK(oduUnpackUInt8, param->ueTxAntSelection.cfgType, mBuf);
/* ctf_c_001.main_3 txMode is of type enum and is 32bit length */
- CMCHKPK(oduUnpackUInt32, (U32)param->txMode, mBuf);
+ CMCHKPK(oduUnpackUInt32, (uint32_t)param->txMode, mBuf);
#ifdef CTF_VER2
/*
*ctf_c_001.main_2: Added Packing of CodeBookSubsetRestriction parameter
S16 idx;
#endif /* CTF_VER2 */
- U32 tmpEnum;
+ uint32_t tmpEnum;
CMCHKUNPK(oduPackUInt8, ¶m->pres, mBuf);
/*
* Added Unpacking for CodeBookSubsetRestriction parameter
*/
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->codeBookSubsetRes.ctfCdBkRestType = (CtfCdBkSubsetRestnType)tmpEnum;
switch(param->codeBookSubsetRes.ctfCdBkRestType)
{
}
#endif /* CTF_VER2 */
/* ctf_c_001.main_3 Enum is 32bit length */
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->txMode = (CtfUeTxAntMode)tmpEnum;
CMCHKUNPK(oduPackUInt8, ¶m->ueTxAntSelection.cfgType, mBuf);
- CMCHKUNPK(oduPackUInt32, (U32 *)&tmpEnum, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)&tmpEnum, mBuf);
param->ueTxAntSelection.txAntSelect = (CtfUeTxAntSelectType)tmpEnum;
}
return ROK;
for(idx = param->numSCells - 1; idx >= 0; idx--)
{
- CMCHKPK(cmPkCtfUeSecCellCfgInfo, ¶m->ueSCellDedCfg[(U8)idx], mBuf);
+ CMCHKPK(cmPkCtfUeSecCellCfgInfo, ¶m->ueSCellDedCfg[(uint8_t)idx], mBuf);
}
CMCHKPK(oduUnpackUInt32, param->sCellAction, mBuf);
CMCHKPK(oduUnpackUInt8, param->numSCells, mBuf);
Buffer *mBuf;
#endif
{
- U8 idx;
+ uint8_t idx;
CMCHKUNPK(oduPackUInt8, ¶m->numSCells, mBuf);
- CMCHKUNPK(oduPackUInt32, (U32*)¶m->sCellAction, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t*)¶m->sCellAction, mBuf);
for(idx = 0 ; idx < param->numSCells; idx++)
{
CMCHKUNPK(cmUnpkCtfUeSecCellCfgInfo, ¶m->ueSCellDedCfg[idx], mBuf);
CMCHKUNPK(oduPackUInt8, ¶m->pres, mBuf);
/*ctf_c_001.main_1*/
if(param->pres != FALSE)
- CMCHKUNPK(oduPackUInt32, (U32 *)¶m->ueCategory, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)¶m->ueCategory, mBuf);
return ROK;
}
/* Added the pack for newly added reference signal Power*/
- CMCHKPK(oduUnpackUInt32, (U32)param->ctfCellStatus, mBuf);
+ CMCHKPK(oduUnpackUInt32, (uint32_t)param->ctfCellStatus, mBuf);
CMCHKPK(SPkS16, param->pilotSigPwr, mBuf);
CMCHKPK(SPkS16, param->priSigPwr, mBuf);
CMCHKPK(SPkS16, param->secSigPwr, mBuf);
CMCHKUNPK(SUnpkS16, ¶m->secSigPwr, mBuf);
CMCHKUNPK(SUnpkS16, ¶m->priSigPwr, mBuf);
CMCHKUNPK(SUnpkS16, ¶m->pilotSigPwr, mBuf);
- CMCHKUNPK(oduPackUInt32, (U32 *)¶m->ctfCellStatus, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)¶m->ctfCellStatus, mBuf);
return ROK;
}
/* Added the pack for newly added reference signal Power*/
- CMCHKPK(oduUnpackUInt32, (U32)param->ctfCellStatus, mBuf);
+ CMCHKPK(oduUnpackUInt32, (uint32_t)param->ctfCellStatus, mBuf);
CMCHKPK(SPkS16, param->pilotSigPwr, mBuf);
CMCHKPK(SPkS16, param->priSigPwr, mBuf);
CMCHKPK(SPkS16, param->secSigPwr, mBuf);
CMCHKUNPK(SUnpkS16, ¶m->secSigPwr, mBuf);
CMCHKUNPK(SUnpkS16, ¶m->priSigPwr, mBuf);
CMCHKUNPK(SUnpkS16, ¶m->pilotSigPwr, mBuf);
- CMCHKUNPK(oduPackUInt32, (U32 *)¶m->ctfCellStatus, mBuf);
+ CMCHKUNPK(oduPackUInt32, (uint32_t *)¶m->ctfCellStatus, mBuf);
return ROK;
}