@brief This file implements the schedulers main access to MAC layer code.
*/
-static const char* RLOG_MODULE_NAME="MAC";
-static int RLOG_MODULE_ID=4096;
-static int RLOG_FILE_ID=177;
/* header include files -- defines (.h) */
#include "common_def.h"
#include "lrg.h"
#include "rgr.h"
#include "tfu.h"
+#include "sch_utils.h"
#include "rg_env.h"
#include "rg_sch_err.h"
#include "rg_sch_inf.h"
#include "rg_sch.h"
#include "rg_sch_cmn.h"
#include "rgm.h"
-#include "rl_interface.h"
-#include "rl_common.h"
/* header/extern include files (.x) */
#include "tfu.x" /* TFU types */
/* SR_RACH_STATS */
-U32 rgNumPrachRecvd =0; /* Num of Rach Req received including dedicated preambles */
-U32 rgNumRarSched =0; /* Num of RARs sent */
-U32 rgNumBI =0; /* Num of BackOff Ind sent */
-U32 rgNumMsg3CrcPassed =0; /* Num of CRC success for Msg3 */
-U32 rgNumMsg3CrcFailed =0; /* Num of CRC fail for Msg 3 */
-U32 rgNumMsg3FailMaxRetx =0; /* Num of Msg3 fail after Max Retx attempts */
-U32 rgNumMsg4Ack =0; /* Num of Acks for Msg4 Tx */
-U32 rgNumMsg4Nack =0;
+uint32_t rgNumPrachRecvd =0; /* Num of Rach Req received including dedicated preambles */
+uint32_t rgNumRarSched =0; /* Num of RARs sent */
+uint32_t rgNumBI =0; /* Num of BackOff Ind sent */
+uint32_t rgNumMsg3CrcPassed =0; /* Num of CRC success for Msg3 */
+uint32_t rgNumMsg3CrcFailed =0; /* Num of CRC fail for Msg 3 */
+uint32_t rgNumMsg3FailMaxRetx =0; /* Num of Msg3 fail after Max Retx attempts */
+uint32_t rgNumMsg4Ack =0; /* Num of Acks for Msg4 Tx */
+uint32_t rgNumMsg4Nack =0;
/* Num of Nacks for Msg4 Tx */
-U32 rgNumMsg4FailMaxRetx =0; /* Num of Msg4 Tx failed after Max Retx attempts */
-U32 rgNumSrRecvd =0; /* Num of Sched Req received */
-U32 rgNumSrGrant =0; /* Num of Sched Req Grants sent */
-U32 rgNumMsg3CrntiCE =0; /* Num of Msg 3 CRNTI CE received */
-U32 rgNumDedPream =0; /* Num of Dedicated Preambles recvd */
-U32 rgNumMsg3CCCHSdu =0; /* Num of Msg 3 CCCH Sdus recvd */
-U32 rgNumCCCHSduCrntiNotFound =0; /*UE Ctx not found for CCCH SDU Msg 3 */
-U32 rgNumCrntiCeCrntiNotFound =0; /*UE Ctx not found for CRNTI CE Msg 3 */
-U32 rgNumMsg4WithCCCHSdu =0; /* Num of Msg4 with CCCH Sdu */
-U32 rgNumMsg4WoCCCHSdu =0; /* Num of Msg4 without CCCH Sdu */
-U32 rgNumMsg4Dtx =0; /* Num of DTX received for Msg 4 */
-U32 rgNumMsg3AckSent =0; /* Num of PHICH Ack sent for Msg 3 */
-U32 rgNumMsg3NackSent =0; /* Num of PHICH Nack sent for Msg 3 */
-U32 rgNumMsg4PdcchWithCrnti =0; /* Num of PDCCH for CRNTI based contention resolution */
-U32 rgNumRarFailDuetoRntiExhaustion =0; /* Num of RACH Failures due to RNTI pool exhaution */
-U32 rgNumTAModified =0; /* Num of times TA received is different from prev value */
-U32 rgNumTASent =0; /* Num of TA Command sent */
-U32 rgNumMsg4ToBeTx =0; /* Num of times MSG4 that should be sent */
-U32 rgNumMsg4Txed =0; /* Num of MSG4 actually sent *//* ysNumMsg4ToBeTx -ysNumMsg4Txed == Failed MSG4 TX */
-U32 rgNumMsg3DtxRcvd =0; /* CRC Fail with SINR < 0 */
-
-U32 rgNumDedPreamUECtxtFound =0; /* Num of Dedicated Preambles recvd */
-
-PRIVATE U8 rgSchDciAmbigSizeTbl[61] = {0,0,0,0,0,0,0,0,0,0,0,
+uint32_t rgNumMsg4FailMaxRetx =0; /* Num of Msg4 Tx failed after Max Retx attempts */
+uint32_t rgNumSrRecvd =0; /* Num of Sched Req received */
+uint32_t rgNumSrGrant =0; /* Num of Sched Req Grants sent */
+uint32_t rgNumMsg3CrntiCE =0; /* Num of Msg 3 CRNTI CE received */
+uint32_t rgNumDedPream =0; /* Num of Dedicated Preambles recvd */
+uint32_t rgNumMsg3CCCHSdu =0; /* Num of Msg 3 CCCH Sdus recvd */
+uint32_t rgNumCCCHSduCrntiNotFound =0; /*UE Ctx not found for CCCH SDU Msg 3 */
+uint32_t rgNumCrntiCeCrntiNotFound =0; /*UE Ctx not found for CRNTI CE Msg 3 */
+uint32_t rgNumMsg4WithCCCHSdu =0; /* Num of Msg4 with CCCH Sdu */
+uint32_t rgNumMsg4WoCCCHSdu =0; /* Num of Msg4 without CCCH Sdu */
+uint32_t rgNumMsg4Dtx =0; /* Num of DTX received for Msg 4 */
+uint32_t rgNumMsg3AckSent =0; /* Num of PHICH Ack sent for Msg 3 */
+uint32_t rgNumMsg3NackSent =0; /* Num of PHICH Nack sent for Msg 3 */
+uint32_t rgNumMsg4PdcchWithCrnti =0; /* Num of PDCCH for CRNTI based contention resolution */
+uint32_t rgNumRarFailDuetoRntiExhaustion =0; /* Num of RACH Failures due to RNTI pool exhaution */
+uint32_t rgNumTAModified =0; /* Num of times TA received is different from prev value */
+uint32_t rgNumTASent =0; /* Num of TA Command sent */
+uint32_t rgNumMsg4ToBeTx =0; /* Num of times MSG4 that should be sent */
+uint32_t rgNumMsg4Txed =0; /* Num of MSG4 actually sent *//* ysNumMsg4ToBeTx -ysNumMsg4Txed == Failed MSG4 TX */
+uint32_t rgNumMsg3DtxRcvd =0; /* CRC Fail with SINR < 0 */
+
+uint32_t rgNumDedPreamUECtxtFound =0; /* Num of Dedicated Preambles recvd */
+
+static uint8_t rgSchDciAmbigSizeTbl[61] = {0,0,0,0,0,0,0,0,0,0,0,
0,1,0,1,0,1,0,0,0,1,
0,0,0,1,0,1,0,0,0,0,
0,1,0,0,0,0,0,0,0,1,
/* local defines */
-EXTERN U32 rgSchCmnBetaCqiOffstTbl[16];
-EXTERN U32 rgSchCmnBetaRiOffstTbl[16];
-EXTERN RgSchdApis rgSchCmnApis;
-EXTERN S16 RgUiRgmSendPrbRprtInd ARGS((
+uint32_t rgSchCmnBetaCqiOffstTbl[16];
+uint32_t rgSchCmnBetaRiOffstTbl[16];
+RgSchdApis rgSchCmnApis;
+S16 RgUiRgmSendPrbRprtInd ARGS((
Pst* pst,
SuId suId,
RgmPrbRprtInd *prbRprtInd
));
-EXTERN S16 RgUiRgmSendTmModeChangeInd ARGS((
+S16 RgUiRgmSendTmModeChangeInd ARGS((
Pst* pst,
SuId suId,
RgmTransModeInd *txModeChngInd
));
#ifdef EMTC_ENABLE
-EXTERN S16 rgSCHEmtcUtlGetSfAlloc ARGS((
+S16 rgSCHEmtcUtlGetSfAlloc ARGS((
RgSchCellCb *cell
));
-EXTERN S16 rgSCHEmtcUtlPutSfAlloc ARGS((
+S16 rgSCHEmtcUtlPutSfAlloc ARGS((
RgSchCellCb *cell
));
-EXTERN Void rgSCHEmtcUtlUpdUeDciSize ARGS((
+Void rgSCHEmtcUtlUpdUeDciSize ARGS((
RgSchCellCb *cell,
RgSchUeCb *ueCb
));
-EXTERN Void rgSCHEmtcGetDciFrmt61ASize ARGS((
+Void rgSCHEmtcGetDciFrmt61ASize ARGS((
RgSchCellCb *cell
));
-EXTERN Void rgSCHEmtcGetDciFrmt60ASize ARGS((
+Void rgSCHEmtcGetDciFrmt60ASize ARGS((
RgSchCellCb *cell
));
-EXTERN S16 rgSCHEmtcUtlFillPdschDciInfo ARGS((
+S16 rgSCHEmtcUtlFillPdschDciInfo ARGS((
TfuPdschDciInfo *pdsch,
TfuDciInfo *pdcchDci
));
-EXTERN Void rgSCHEmtcUtlRlsRnti ARGS((
+Void rgSCHEmtcUtlRlsRnti ARGS((
RgSchCellCb *cell,
RgSchRntiLnk *rntiLnk,
-U8 *isLegacy
+uint8_t *isLegacy
));
-EXTERN S16 rgSCHEmtcPdcchAlloc ARGS((
+S16 rgSCHEmtcPdcchAlloc ARGS((
RgSchCellCb *cell,
RgSchPdcch *pdcch
));
-EXTERN Void rgSCHEmtcPdcchFree ARGS((
+Void rgSCHEmtcPdcchFree ARGS((
RgSchCellCb *cell,
RgSchPdcch *pdcch
));
/* Functions specific to TM1/TM2/TM6/TM7 for PRB calculation*/
Void rgSchUtlDlCalc1CwPrb ARGS(( RgSchCellCb *cell,
RgSchUeCb *ue,
- U32 bo,
- U32 *prbReqrd));
+ uint32_t bo,
+ uint32_t *prbReqrd));
/* Functions specific to TM3/TM4 for PRB calculation*/
Void rgSchUtlDlCalc2CwPrb ARGS(( RgSchCellCb *cell,
RgSchUeCb *ue,
- U32 bo,
- U32 *prbReqrd));
+ uint32_t bo,
+ uint32_t *prbReqrd));
#ifdef LTE_ADV
RgSchCellCb* rgSchUtlGetCellCb ARGS(( Inst inst,
- U16 cellId
+ uint16_t cellId
));
#endif
typedef Void (*RgSchUtlDlCalcPrbFunc) ARGS((RgSchCellCb *cell, RgSchUeCb *ue,
- U32 bo, U32 *prbRequrd));
+ uint32_t bo, uint32_t *prbRequrd));
#ifndef LTE_ADV
/* Functions specific to each transmission mode for PRB calculation*/
RgSchUtlDlCalcPrbFunc dlCalcPrbFunc[7] = {rgSchUtlDlCalc1CwPrb,
#ifdef LTE_TDD
/* The below table will be used to map the UL SF number in a TDD Cfg 0
frame to the ul Sf array maintained in cellCb */
-PRIVATE U8 rgSchTddCfg0UlSfTbl[] = {2, 3, 4, 7, 8, 9};
+static uint8_t rgSchTddCfg0UlSfTbl[] = {2, 3, 4, 7, 8, 9};
#endif
-PRIVATE S16 rgSCHUtlUlAllocDbInit ARGS((
+static S16 rgSCHUtlUlAllocDbInit ARGS((
RgSchCellCb *cell,
RgSchUlAllocDb *db,
- U8 maxAllocs
+ uint8_t maxAllocs
));
-PRIVATE Void rgSCHUtlUlAllocDbDeinit ARGS((
+static Void rgSCHUtlUlAllocDbDeinit ARGS((
RgSchCellCb *cell,
RgSchUlAllocDb *db
));
-PRIVATE S16 rgSCHUtlUlHoleDbInit ARGS((
+static S16 rgSCHUtlUlHoleDbInit ARGS((
RgSchCellCb *cell,
RgSchUlHoleDb *db,
- U8 maxHoles,
- U8 start,
- U8 num
+ uint8_t maxHoles,
+ uint8_t start,
+ uint8_t num
));
-PRIVATE Void rgSCHUtlUlHoleDbDeinit ARGS((
+static Void rgSCHUtlUlHoleDbDeinit ARGS((
RgSchCellCb *cell,
RgSchUlHoleDb *db
));
-PRIVATE S16 rgSCHChkBoUpdate ARGS((
+static S16 rgSCHChkBoUpdate ARGS((
RgSchCellCb *cell,
RgInfCmnBoRpt *boUpdt
));
#ifdef UNUSE_FUN
#ifdef TFU_UPGRADE
-PRIVATE U8 rgSCHUtlFetchPcqiBitSz ARGS((
+static uint8_t rgSCHUtlFetchPcqiBitSz ARGS((
RgSchCellCb *cell,
- RgSchUeCb *ueCb,
- U8 numTxAnt
+ RgSchUeCb *ueCb,
+ uint8_t numTxAnt
));
#endif
#endif
/* sorted in ascending order of tbSz */
-CONSTANT struct rgSchUtlBcchPcchTbSz
+const struct rgSchUtlBcchPcchTbSz
{
- U8 rbIndex; /* RB index {2,3} */
- U16 tbSz; /* one of the Transport block size in bits of
+ uint8_t rbIndex; /* RB index {2,3} */
+ uint16_t tbSz; /* one of the Transport block size in bits of
* rbIndex 2 or 3 */
/* Corrected allocation for common channels */
- U8 mcs; /* imcs */
+ uint8_t mcs; /* imcs */
} rgSchUtlBcchPcchTbSzTbl[44] = {
{ 2, 32, 0 }, { 2, 56, 1 }, { 2, 72, 2 }, { 3, 88, 1 },
{ 2, 104, 3 }, { 2, 120, 4 }, { 2, 144, 5 }, { 2, 176, 6 },
/* forward references */
#ifdef LTE_TDD
-PRIVATE Void rgSCHUtlUpdPrachOcc ARGS((
+static Void rgSCHUtlUpdPrachOcc ARGS((
RgSchCellCb *cell,
RgrTddPrachInfo *cellCfg));
#endif
}
#ifdef TFU_UPGRADE
-#define RGSCH_GETBIT(a, b) ((((U8*)a)[(b)>>3] >> ((7-((b)&7)))) & 1)
+#define RGSCH_GETBIT(a, b) ((((uint8_t*)a)[(b)>>3] >> ((7-((b)&7)))) & 1)
/*
*
* File: rg_sch_utl.c
*
*/
-#ifdef ANSI
-F64 rgSCHUtlPower
-(
-F64 x,
-F64 n
-)
-#else
-F64 rgSCHUtlPower(x, n)
-F64 x;
-F64 n;
-#endif
+F64 rgSCHUtlPower(F64 x,F64 n)
{
if( n==0 )
{
* File: rg_sch_utl.c
*
*/
-#ifdef ANSI
-U32 rgSCHUtlParse
-(
-U8 *buff,
-U8 startPos,
-U8 endPos,
-U8 buffSize
-)
-#else
-U32 rgSCHUtlParse(buff, startPos, endPos, buffSize)
-U8 *buff;
-U8 startPos;
-U8 endPos;
-U8 buffSize;
-#endif
+uint32_t rgSCHUtlParse(uint8_t *buff,uint8_t startPos,uint8_t endPos,uint8_t buffSize)
{
- U8 pointToChar,pointToEnd, loop;
- U8 size = endPos - startPos;
+ uint8_t pointToChar,pointToEnd, loop;
+ uint8_t size = endPos - startPos;
F64 result = 0;
pointToEnd = (startPos)%8;
for ( loop=0; loop<size; loop++)
}
pointToEnd++;
}
- return ((U32)result);
+ return ((uint32_t)result);
} /* end of rgSCHUtlParse*/
/*
* File: rg_sch_utl.c
*
*/
-#ifdef ANSI
-U8 rgSCHUtlFindDist
-(
-U16 crntTime,
-U16 tempIdx
-)
-#else
-U8 rgSCHUtlFindDist(crntTime, tempIdx)
-U16 crntTime;
-U16 tempIdx;
-#endif
+uint8_t rgSCHUtlFindDist(uint16_t crntTime,uint16_t tempIdx)
{
- U8 dist =0;
+ uint8_t dist =0;
/* ccpu00137113- Distance is not estimated properly if the periodicity is
* equal to RG_SCH_PCQI_SRS_SR_TRINS_SIZE.
*/
*
* @param[in] RgSchCellCb* cell
* @param[in] RgSchPdcchInfo* pdcchInfo
- * @param[in] U8 loc
- * @param[in] U8 aggrLvl
+ * @param[in] uint8_t loc
+ * @param[in] uint8_t aggrLvl
* @param[out] RgSchPdcch** pdcch
* @return Boolean
* -# TRUE if available
* -# FALSE otherwise
*
**/
-#ifdef ANSI
Bool rgSCHUtlPdcchAvail
(
-RgSchCellCb *cell,
-RgSchPdcchInfo *pdcchInfo,
-CmLteAggrLvl aggrLvl,
-RgSchPdcch **pdcch
+RgSchCellCb *cell,
+RgSchPdcchInfo *pdcchInfo,
+CmLteAggrLvl aggrLvl,
+RgSchPdcch **pdcch
)
-#else
-Bool rgSCHUtlPdcchAvail(cell, pdcchInfo, aggrLvl, pdcch)
-RgSchCellCb *cell;
-RgSchPdcchInfo *pdcchInfo;
-CmLteAggrLvl aggrLvl;
-RgSchPdcch **pdcch;
-#endif
{
- U8 *byte;
- U16 offset;
- U16 initMask;
- U16 currMask;
+ uint8_t *byte;
+ uint16_t offset;
+ uint16_t initMask;
+ uint16_t currMask;
Inst inst = cell->instIdx;
S16 ret;
- U16 offsetStepMask;
+ uint16_t offsetStepMask;
/* V5G_213 : 10.1 */
offset = 0;
* Invoked by: scheduler
*
* @param[in] RgSchPdcchInfo* pdcchInfo
- * @param[in] U8 loc
- * @param[in] U8 aggrLvl
+ * @param[in] uint8_t loc
+ * @param[in] uint8_t aggrLvl
* @return Void
*
**/
-#ifdef ANSI
-Void rgSCHUtlPdcchPut
-(
-RgSchCellCb *cell,
-RgSchPdcchInfo *pdcchInfo,
-RgSchPdcch *pdcch
-)
-#else
-Void rgSCHUtlPdcchPut(cell, pdcchInfo, pdcch)
-RgSchCellCb *cell;
-RgSchPdcchInfo *pdcchInfo;
-RgSchPdcch *pdcch;
-#endif
+Void rgSCHUtlPdcchPut(RgSchCellCb *cell,RgSchPdcchInfo *pdcchInfo,RgSchPdcch *pdcch)
{
- U8 *byte;
- U8 offset;
+ uint8_t *byte;
+ uint8_t offset;
uint16_t mask;
switch(pdcch->aggrLvl)
mask = 0xffff;
break;
default:
- RETVOID;
+ return;
}
/* Placing common computation of byte from all the cases above here
for optimization */
pdcch->ue = NULLP;
(*byte) &= ~mask;
- RETVOID;
+ return;
}
\f
* @return Void
*
**/
-#ifdef ANSI
-Void rgSCHUtlPdcchInit
-(
-RgSchCellCb *cell,
-RgSchDlSf *subFrm,
-U16 nCce
-)
-#else
-Void rgSCHUtlPdcchInit(cell, subFrm, nCce)
-RgSchCellCb *cell;
-RgSchDlSf *subFrm;
-U16 nCce;
-#endif
+Void rgSCHUtlPdcchInit(RgSchCellCb *cell,RgSchDlSf *subFrm,uint16_t nCce)
{
RgSchPdcchInfo *pdcchInfo;
RgSchPdcch *pdcch;
Inst inst = cell->instIdx;
- U8 extraBits;
- U32 cceMapSz;
+ uint8_t extraBits;
+ uint32_t cceMapSz;
pdcchInfo = &subFrm->pdcchInfo;
while(pdcchInfo->pdcchs.first != NULLP)
if (pdcchInfo->map == NULLP)
{
/* Generate log error here */
- RETVOID;
+ return;
}
}
extraBits = (cceMapSz)*8 - pdcchInfo->nCce;
subFrm->pdcchInfo.map[cceMapSz - 1] |=
((1 << extraBits) - 1) << (8 - extraBits);
- RETVOID;
+ return;
}
/* LTE_ADV_FLAG_REMOVED_START */
* @return Void
*
**/
-#ifdef ANSI
-Void rgSchSFRTotalPoolFree
-(
- RgSchSFRTotalPoolInfo *sfrTotalPoolInfo,
- RgSchCellCb *cell
- )
-#else
-Void rgSchSFRTotalPoolFree(sfrTotalPoolInfo, cell)
- RgSchSFRTotalPoolInfo *sfrTotalPoolInfo;
- RgSchCellCb *cell;
-#endif
+Void rgSchSFRTotalPoolFree(RgSchSFRTotalPoolInfo *sfrTotalPoolInfo,RgSchCellCb *cell)
{
CmLListCp *l;
CmLList *n;
* @return Void
*
**/
-#ifdef ANSI
-S16 rgSchSFRTotalPoolInit
-(
- RgSchCellCb *cell,
- RgSchDlSf *sf
- )
-#else
-PRIVATE Void rgSchSFRTotalPoolInit(cell, sf)
- RgSchCellCb *cell;
- RgSchDlSf *sf;
-#endif
+S16 rgSchSFRTotalPoolInit(RgSchCellCb *cell,RgSchDlSf *sf)
{
/* Initialise the variables */
RgSchSFRPoolInfo *sfrCCPool;
ret = rgSCHUtlAllocSBuf(cell->instIdx, (Data **)&temp, sizeof(CmLList));
if (ret != ROK)
{
- RLOG_ARG0(L_ERROR,DBG_CELLID,cell->cellId,
- "CE Pool memory allocation FAILED for cell");
+ DU_LOG("\nERROR --> SCH : CE Pool memory allocation FAILED for cell");
rgSchSFRTotalPoolFree(&sf->sfrTotalPoolInfo, cell);
return RFAILED;
}
ret = rgSCHUtlAllocSBuf(cell->instIdx, (Data **)&temp->node, sizeof(RgSchSFRPoolInfo));
if (ret != ROK)
{
- RLOG_ARG0(L_ERROR,DBG_CELLID,cell->cellId,
- "CE Pool memory allocation FAILED for cell ");
+ DU_LOG("\nERROR --> SCH : CE Pool memory allocation FAILED for cell ");
rgSchSFRTotalPoolFree(&sf->sfrTotalPoolInfo,cell);
return RFAILED;
}
ret = rgSCHUtlAllocSBuf(cell->instIdx, (Data **)&temp, sizeof(CmLList));
if (ret != ROK)
{
- RLOG_ARG0(L_ERROR,DBG_CELLID,cell->cellId,
- "CC Pool memory allocation FAILED for cell ");
+ DU_LOG("\nERROR --> SCH : CC Pool memory allocation FAILED for cell ");
rgSchSFRTotalPoolFree(&sf->sfrTotalPoolInfo,cell);
return RFAILED;
}
ret = rgSCHUtlAllocSBuf(cell->instIdx, (Data **)&temp->node, sizeof(RgSchSFRPoolInfo));
if (ret != ROK)
{
- RLOG_ARG0(L_ERROR,DBG_CELLID,cell->cellId,
- "CC Pool memory allocation FAILED for cell ");
+ DU_LOG("\nERROR --> SCH : CC Pool memory allocation FAILED for cell ");
rgSchSFRTotalPoolFree(&sf->sfrTotalPoolInfo,cell);
return RFAILED;
}
ret = rgSCHUtlAllocSBuf(cell->instIdx, (Data **)&temp, sizeof(CmLList));
if (ret != ROK)
{
- RLOG_ARG0(L_ERROR,DBG_CELLID,cell->cellId,
- "CC Pool memory allocation FAILED for cell ");
+ DU_LOG("\nERROR --> SCH : CC Pool memory allocation FAILED for cell ");
rgSchSFRTotalPoolFree(&sf->sfrTotalPoolInfo,cell);
return RFAILED;
}
ret = rgSCHUtlAllocSBuf(cell->instIdx, (Data **)&temp->node, sizeof(RgSchSFRPoolInfo));
if (ret != ROK)
{
- RLOG_ARG0(L_ERROR,DBG_CELLID,cell->cellId,
- "CC Pool memory allocation FAILED for cell ");
+ DU_LOG("\nERROR --> SCH : CC Pool memory allocation FAILED for cell ");
rgSchSFRTotalPoolFree(&sf->sfrTotalPoolInfo,cell);
return RFAILED;
}
* @return S16
*
**/
-#ifdef ANSI
-S16 rgSchDSFRRntpInfoInit
-(
- TknStrOSXL *rntpPtr,
- RgSchCellCb *cell,
- U16 bw
- )
-#else
-PRIVATE Void rgSchDSFRRntpInfoInit(rntpPtr, cell, bw)
- TknStrOSXL *rntpPtr;
- RgSchCellCb *cell;
- U16 bw;
-#endif
+S16 rgSchDSFRRntpInfoInit(TknStrOSXL *rntpPtr,RgSchCellCb *cell,uint16_t bw)
{
Inst inst = cell->instIdx;
- U16 len;
+ uint16_t len;
rntpPtr->pres = PRSNT_NODEF;
/* Allocate memory for "scheduled UE" Info */
if((rgSCHUtlAllocSBuf(inst, (Data**)&(rntpPtr->val),
- (len * sizeof(U8)))) != ROK)
+ (len * sizeof(uint8_t)))) != ROK)
{
- RLOG_ARG0(L_ERROR,DBG_CELLID,cell->cellId,"Memory allocation FAILED for RNTP Alloc");
+ DU_LOG("\nERROR --> SCH : Memory allocation FAILED for RNTP Alloc");
return RFAILED;
}
* @return S16
*
**/
-#ifdef ANSI
-S16 rgSchDSFRRntpInfoFree
-(
- TknStrOSXL *rntpPtr,
- RgSchCellCb *cell,
- U16 bw
- )
-#else
-PRIVATE Void rgSchDSFRRntpInfoFree(rntpPtr, cell, bw)
- TknStrOSXL *rntpPtr;
- RgSchCellCb *cell;
- U16 bw;
-#endif
+S16 rgSchDSFRRntpInfoFree(TknStrOSXL *rntpPtr,RgSchCellCb *cell,uint16_t bw)
{
Inst inst = cell->instIdx;
- U16 len;
+ uint16_t len;
len = (bw % 8 == 0) ? (bw/8) : (bw/8 + 1);
if(rntpPtr->pres == PRSNT_NODEF)
{
- rgSCHUtlFreeSBuf(inst, (Data **)(&(rntpPtr->val)),(len * sizeof(U8)));
+ rgSCHUtlFreeSBuf(inst, (Data **)(&(rntpPtr->val)),(len * sizeof(uint8_t)));
rntpPtr->pres = NOTPRSNT;
rntpPtr->len = 0;
}
* @return Void
*
**/
-#ifdef ANSI
-PRIVATE Void rgSchSFRResetPoolVariables
-(
- RgSchCellCb *cell,
- RgSchSFRPoolInfo *pool
- )
-#else
-PRIVATE Void rgSchSFRResetPoolVariables(cell, pool)
- RgSchCellCb *cell;
- RgSchSFRPoolInfo *pool;
-#endif
+static Void rgSchSFRResetPoolVariables(RgSchCellCb *cell,RgSchSFRPoolInfo *pool)
{
pool->bwAlloced = 0;
pool->type2Start = pool->poolstartRB;
pool->bw = pool->poolendRB - pool->poolstartRB + 1;
- RETVOID;
+ return;
}
/**
* @brief This function resets SFR Pool information for frame
* @return Void
*
**/
-#ifdef ANSI
-PRIVATE Void rgSCHSFRUtlTotalPoolReset
-(
- RgSchCellCb *cell,
- RgSchDlSf *subFrm
- )
-#else
-PRIVATE Void rgSCHSFRUtlTotalPoolReset(cell, subFrm)
- RgSchCellCb *cell;
- RgSchDlSf *subFrm;
-#endif
+static Void rgSCHSFRUtlTotalPoolReset(RgSchCellCb *cell,RgSchDlSf *subFrm)
{
RgSchSFRTotalPoolInfo *totalPoolInfo = &subFrm->sfrTotalPoolInfo;
CmLListCp *ccPool = &totalPoolInfo->ccPool;
totalPoolInfo->CEPoolBwAvlbl = tempPool->bw;
}
- RETVOID;
+ return;
}
/* LTE_ADV_FLAG_REMOVED_END */
/**
*
* @param[in] RgSchCellCb* cell
* @param[in] RgSubFrm* subFrm
- * @param[in] U8 hqFeedBack
- * @param[in] U8 nDmrs
- * @param[in] U8 rbStart
+ * @param[in] uint8_t hqFeedBack
+ * @param[in] uint8_t nDmrs
+ * @param[in] uint8_t rbStart
* @return S16
* -# ROK
* -# RFAILED
**/
#ifdef LTE_TDD
-#ifdef ANSI
S16 rgSCHUtlAddPhich
(
-RgSchCellCb *cell,
-CmLteTimingInfo frm,
-U8 hqFeedBack,
-U8 nDmrs,
-U8 rbStart,
-U8 iPhich
+RgSchCellCb *cell,
+CmLteTimingInfo frm,
+uint8_t hqFeedBack,
+uint8_t nDmrs,
+uint8_t rbStart,
+uint8_t iPhich
)
#else
-S16 rgSCHUtlAddPhich(cell, frm, hqFeedBack, nDmrs, rbStart, iPhich)
-RgSchCellCb *cell;
-CmLteTimingInfo frm;
-U8 hqFeedBack;
-U8 nDmrs;
-U8 rbStart;
-U8 iPhich;
-#endif
-#else
-#ifdef ANSI
S16 rgSCHUtlAddPhich
(
-RgSchCellCb *cell,
-CmLteTimingInfo frm,
-U8 hqFeedBack,
-U8 nDmrs,
-U8 rbStart,
-Bool isForMsg3
+RgSchCellCb *cell,
+CmLteTimingInfo frm,
+uint8_t hqFeedBack,
+uint8_t nDmrs,
+uint8_t rbStart,
+Bool isForMsg3
)
-#else
-S16 rgSCHUtlAddPhich(cell, frm, hqFeedBack, nDmrs, rbStart, isForMsg3)
-RgSchCellCb *cell;
-CmLteTimingInfo frm;
-U8 hqFeedBack;
-U8 nDmrs;
-U8 rbStart;
-Bool isForMsg3;
-#endif
#endif
{
S16 ret;
if(ret != ROK)
{
- RLOG_ARG0(L_ERROR,DBG_CELLID,cell->cellId, " rgSCHUtlAddPhich(): "
+ DU_LOG("\nERROR --> SCH : rgSCHUtlAddPhich(): "
"Allocation of RgSchPhich failed");
return RFAILED;
}
* @return Void
*
**/
-#ifdef ANSI
-PRIVATE Void rgSCHUtlPhichReset
-(
-RgSchCellCb *cell,
-RgSchDlSf *subFrm
-)
-#else
-PRIVATE Void rgSCHUtlPhichReset(cell, subFrm)
-RgSchCellCb *cell;
-RgSchDlSf *subFrm;
-#endif
+static Void rgSCHUtlPhichReset(RgSchCellCb *cell,RgSchDlSf *subFrm)
{
RgSchPhichInfo *phichInfo;
RgSchPhich *phich;
RGSCH_PHICH_FREE(cell->instIdx, phich, sizeof(RgSchPhich));
}
cmLListInit(&phichInfo->phichs);
- RETVOID;
+ return;
} /* rgSCHUtlPhichReset */
\f
* @return Void
*
**/
-#ifdef ANSI
-RgSchDlSf* rgSCHUtlSubFrmGet
-(
-RgSchCellCb *cell,
-CmLteTimingInfo frm
-)
-#else
-RgSchDlSf* rgSCHUtlSubFrmGet(cell, frm)
-RgSchCellCb *cell;
-CmLteTimingInfo frm;
-#endif
+RgSchDlSf* rgSCHUtlSubFrmGet(RgSchCellCb *cell,CmLteTimingInfo frm)
{
RgSchDlSf *sf;
- U8 dlIdx;
+ uint8_t dlIdx;
#ifdef LTE_TDD
dlIdx = rgSCHUtlGetDlSfIdx(cell, &frm);
* @return Void
*
**/
-#ifdef ANSI
-Void rgSCHUtlSubFrmPut
-(
-RgSchCellCb *cell,
-RgSchDlSf *sf
-)
-#else
-Void rgSCHUtlSubFrmPut(cell, sf)
-RgSchCellCb *cell;
-RgSchDlSf *sf;
-#endif
+Void rgSCHUtlSubFrmPut(RgSchCellCb *cell,RgSchDlSf *sf)
{
- U8 i;
- U8 noRaRsps;
+ uint8_t i;
+ uint8_t noRaRsps;
#ifdef LTE_TDD
/* Release all the held PDCCH information */
sf->cceCnt = 0;
sf->isCceFailure = FALSE;
sf->dlUlBothCmplt = 0;
- RETVOID;
+ return;
}
\f
*
* Invoked by: Scheduler
*
- * @param[in] U32 n
- * @return U8
+ * @param[in] uint32_t n
+ * @return uint8_t
*
**/
-#ifdef ANSI
-U8 rgSCHUtlLog32bitNbase2
-(
-U32 n
-)
-#else
-U8 rgSCHUtlLog32bitNbase2(n)
-U32 n;
-#endif
+uint8_t rgSCHUtlLog32bitNbase2(uint32_t n)
{
- U32 b[] = {0x2, 0xc, 0xf0, 0xff00, 0xffff0000};
- U32 s[] = {1, 2, 4, 8, 16};
- S16 i;
- U8 ret = 0;
+ uint32_t b[] = {0x2, 0xc, 0xf0, 0xff00, 0xffff0000};
+ uint32_t s[] = {1, 2, 4, 8, 16};
+ S16 i;
+ uint8_t ret = 0;
for (i=4; i >= 0; i--)
{
*
* @param[in] RgSchCellCb *cell
* @param[in] RgSchUeCb *ue
- * @param[in] U8 isAck
+ * @param[in] uint8_t isAck
* @return Void
*
**/
-#ifdef ANSI
-Void rgSCHUtlDlRelPdcchFbk
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue,
-U8 isAck
-)
-#else
-Void rgSCHUtlDlRelPdcchFbk(cell, ue, isAck)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-U8 isAck;
-#endif
+Void rgSCHUtlDlRelPdcchFbk(RgSchCellCb *cell,RgSchUeCb *ue,uint8_t isAck)
{
cell->sc.apis->rgSCHDlRelPdcchFbk(cell, ue, isAck);
- RETVOID;
+ return;
}
* @return Void
*
**/
-#ifdef ANSI
-Void rgSCHUtlDlProcAck
-(
-RgSchCellCb *cell,
-RgSchDlHqProcCb *hqP
-)
-#else
-Void rgSCHUtlDlProcAck(cell, hqP)
-RgSchCellCb *cell;
-RgSchDlHqProcCb *hqP;
-#endif
+Void rgSCHUtlDlProcAck(RgSchCellCb *cell,RgSchDlHqProcCb *hqP)
{
cell->sc.apis->rgSCHDlProcAck(cell, hqP);
- RETVOID;
+ return;
}
/**
* @param[out] RgSchErrInfo *err
* @return Void
**/
-#ifdef ANSI
-Void rgSCHUtlHdlCrntiCE
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue
-)
-#else
-Void rgSCHUtlHdlCrntiCE(cell, ue)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-#endif
+Void rgSCHUtlHdlCrntiCE(RgSchCellCb *cell,RgSchUeCb *ue)
{
cell->sc.apis->rgSCHHdlCrntiCE(cell, ue);
- RETVOID;
+ return;
} /* rgSCHUtlHdlCrntiCE */
#endif /* LTEMAC_SPS */
* Desc : Calculate total REGs, given a bandwidth, CFI
* and number of antennas.
*
- * Ret : Total REGs (U16)
+ * Ret : Total REGs (uint16_t)
*
* Notes: Could optimise if bw values are limited
* (taken from RRC spec) by indexing values from
* File :
*
**********************************************************/
-#ifdef ANSI
-PRIVATE U16 rgSCHUtlCalcTotalRegs
-(
-U8 bw,
-U8 cfi,
-U8 numAntna,
-Bool isEcp
-)
-#else
-PRIVATE U16 rgSCHUtlCalcTotalRegs(bw, cfi, numAntna, isEcp)
-U8 bw;
-U8 cfi;
-U8 numAntna;
-Bool isEcp;
-#endif
+static uint16_t rgSCHUtlCalcTotalRegs(uint8_t bw,uint8_t cfi,uint8_t numAntna,Bool isEcp)
{
- U16 regs = 0;
+ uint16_t regs = 0;
/*ccpu00116757- removed check for (ERRCLASS & ERRCLS_DEBUG)*/
*
* Desc : Calculates number of PHICH REGs
*
- * Ret : Number of PHICH REGs (U8)
+ * Ret : Number of PHICH REGs (uint8_t)
*
* Notes: ng6 is Ng multiplied by 6
*
* File :
*
**********************************************************/
-#ifdef ANSI
-PRIVATE U16 rgSCHUtlCalcPhichRegs
-(
-U8 bw,
-U8 ng6
-)
-#else
-PRIVATE U16 rgSCHUtlCalcPhichRegs(bw, ng6)
-U8 bw;
-U8 ng6;
-#endif
+static uint16_t rgSCHUtlCalcPhichRegs(uint8_t bw,uint8_t ng6)
{
/* ccpu00115330: Corrected the calculation for number of PHICH groups*/
return (RGSCH_CEIL((bw * ng6) ,(8 * 6)) * RGSCH_NUM_REG_PER_PHICH_GRP);
*
* Invoked by: Scheduler
*
- * @param[in] U8 bw
- * @param[in] U8 ng6
- * @param[in] U8 cfi
- * @param[in] U8 mPhich
- * @param[in] U8 numAntna
+ * @param[in] uint8_t bw
+ * @param[in] uint8_t ng6
+ * @param[in] uint8_t cfi
+ * @param[in] uint8_t mPhich
+ * @param[in] uint8_t numAntna
* @param[in] Bool isEcp
- * @return N_cce (U8)
+ * @return N_cce (uint8_t)
*
**/
-#ifdef ANSI
-U8 rgSCHUtlCalcNCce
-(
-U8 bw,
-RgrPhichNg ng,
-U8 cfi,
-U8 mPhich,
-U8 numAntna,
-Bool isEcp
-)
-#else
-U8 rgSCHUtlCalcNCce(bw, ng, cfi, mPhich, numAntna, isEcp)
-U8 bw;
-RgrPhichNg ng;
-U8 cfi;
-U8 mPhich;
-U8 numAntna;
-Bool isEcp;
-#endif
+uint8_t rgSCHUtlCalcNCce(uint8_t bw,RgrPhichNg ng,uint8_t cfi,uint8_t mPhich,uint8_t numAntna,Bool isEcp)
{
- U16 totalRegs;
- U16 phichRegs;
- U16 cceRegs;
- U8 ng6;
+ uint16_t totalRegs;
+ uint16_t phichRegs;
+ uint16_t cceRegs;
+ uint8_t ng6;
/*ccpu00116757- removed check for (ERRCLASS & ERRCLS_DEBUG)*/
phichRegs = rgSCHUtlCalcPhichRegs(bw, ng6);
cceRegs = totalRegs - mPhich*phichRegs - RGSCH_NUM_PCFICH_REG;
- return ((U8)(cceRegs/RGSCH_NUM_REG_PER_CCE));
+ return ((uint8_t)(cceRegs/RGSCH_NUM_REG_PER_CCE));
}
#else
*
* Invoked by: Scheduler
*
- * @param[in] U8 bw
- * @param[in] U8 ng6
- * @param[in] U8 cfi
- * @param[in] U8 numAntna
- * @return N_cce (U8)
+ * @param[in] uint8_t bw
+ * @param[in] uint8_t ng6
+ * @param[in] uint8_t cfi
+ * @param[in] uint8_t numAntna
+ * @return N_cce (uint8_t)
*
**/
-#ifdef ANSI
-U8 rgSCHUtlCalcNCce
-(
-U8 bw,
-RgrPhichNg ng,
-U8 cfi,
-U8 numAntna,
-Bool isEcp
-)
-#else
-U8 rgSCHUtlCalcNCce(bw, ng, cfi, numAntna, isEcp)
-U8 bw;
-RgrPhichNg ng;
-U8 cfi;
-U8 numAntna;
-Bool isEcp;
-#endif
+uint8_t rgSCHUtlCalcNCce(uint8_t bw,RgrPhichNg ng,uint8_t cfi,uint8_t numAntna,Bool isEcp)
{
- U16 totalRegs;
- U16 phichRegs;
- U16 cceRegs;
- U8 ng6;
+ uint16_t totalRegs;
+ uint16_t phichRegs;
+ uint16_t cceRegs;
+ uint8_t ng6;
/*ccpu00116757- removed check for (ERRCLASS & ERRCLS_DEBUG)*/
phichRegs = rgSCHUtlCalcPhichRegs(bw, ng6);
cceRegs = totalRegs - phichRegs - RGSCH_NUM_PCFICH_REG;
- return ((U8)(cceRegs/RGSCH_NUM_REG_PER_CCE));
+ return ((uint8_t)(cceRegs/RGSCH_NUM_REG_PER_CCE));
}
#endif
* comprises RB start and N_dmrs.
*
* @param[in] RgSchUlHqProcCb *hqProc
- * @param[out] U8 *rbStartRef
- * @param[out] U8 *nDmrsRef
+ * @param[out] uint8_t *rbStartRef
+ * @param[out] uint8_t *nDmrsRef
* @return S16
**/
#ifdef LTE_TDD
-#ifdef ANSI
-S16 rgSCHUtlGetPhichInfo
-(
-RgSchUlHqProcCb *hqProc,
-U8 *rbStartRef,
-U8 *nDmrsRef,
-U8 *iPhich
-)
-#else
-S16 rgSCHUtlGetPhichInfo(hqProc, rbStartRef, nDmrsRef, iPhich)
-RgSchUlHqProcCb *hqProc;
-U8 *rbStartRef;
-U8 *nDmrsRef;
-U8 *iPhich;
-#endif
-#else
-#ifdef ANSI
-S16 rgSCHUtlGetPhichInfo
-(
-RgSchUlHqProcCb *hqProc,
-U8 *rbStartRef,
-U8 *nDmrsRef
-)
+S16 rgSCHUtlGetPhichInfo(RgSchUlHqProcCb *hqProc,uint8_t *rbStartRef,uint8_t *nDmrsRef,uint8_t *iPhich)
#else
-S16 rgSCHUtlGetPhichInfo(hqProc, rbStartRef, nDmrsRef)
-RgSchUlHqProcCb *hqProc;
-U8 *rbStartRef;
-U8 *nDmrsRef;
-#endif
+S16 rgSCHUtlGetPhichInfo(RgSchUlHqProcCb *hqProc,uint8_t *rbStartRef,uint8_t *nDmrsRef)
#endif
{
/* ACC-TDD */
* - RV
*
* @param[in] RgSchUlAlloc *alloc
- * @param[out] U8 *rbStartRef
- * @param[out] U8 *numRbRef
- * @param[out] U8 *rvRef
- * @param[out] U16 *size
+ * @param[out] uint8_t *rbStartRef
+ * @param[out] uint8_t *numRbRef
+ * @param[out] uint8_t *rvRef
+ * @param[out] uint16_t *size
* @param[out] TfuModScheme *modType
* @param[out] Bool *isRtx
- * @param[out] U8 *nDmrs
+ * @param[out] uint8_t *nDmrs
* @param[out] Bool *ndi
- * @param[out] U8 *hqPId
+ * @param[out] uint8_t *hqPId
* @return S16
**/
-#ifdef ANSI
S16 rgSCHUtlAllocRcptInfo
(
RgSchUlAlloc *alloc,
CmLteRnti *rnti,
-U8 *iMcsRef,
-U8 *rbStartRef,
-U8 *numRbRef,
-U8 *rvRef,
-U16 *size,
+uint8_t *iMcsRef,
+uint8_t *rbStartRef,
+uint8_t *numRbRef,
+uint8_t *rvRef,
+uint16_t *size,
TfuModScheme *modType,
Bool *isRtx,
-U8 *nDmrs,
+uint8_t *nDmrs,
Bool *ndi,
-U8 *hqPId
+uint8_t *hqPId
)
-#else
-S16 rgSCHUtlAllocRcptInfo(alloc, rnti, iMcsRef, rbStartRef, numRbRef,
- rvRef, size, modType, isRtx, nDmrs, ndi,
- hqPId)
-RgSchUlAlloc *alloc;
-CmLteRnti *rnti;
-U8 *iMcsRef;
-U8 *rbStartRef;
-U8 *numRbRef;
-U8 *rvRef;
-U16 *size;
-TfuModScheme *modType;
-Bool *isRtx;
-U8 *nDmrs;
-Bool *ndi;
-U8 *hqPId;
-#endif
{
/* Modulation order for 16qam UEs would be
* min(4,modulation order in grant). Please refer to 36.213-8.6.1*/
{
if ( ((alloc->ue) == NULLP) || (RG_SCH_CMN_GET_UE(alloc->ue, alloc->ue->cell) == NULLP))
{
- RLOG_ARG2(L_ERROR,DBG_CELLID,alloc->ue->cell->cellId,
- "Failed: ue->sch is null RNTI:%d,isRetx=%d",
+ DU_LOG("\nERROR --> SCH : Failed: ue->sch is null RNTI:%d,isRetx=%d",
alloc->rnti, alloc->grnt.isRtx);
return RFAILED;
}
* - RV
*
* @param[in] RgSchUlAlloc *alloc
- * @param[out] U8 *rbStartRef
- * @param[out] U8 *numRbRef
- * @param[out] U8 *rvRef
- * @param[out] U16 *size
+ * @param[out] uint8_t *rbStartRef
+ * @param[out] uint8_t *numRbRef
+ * @param[out] uint8_t *rvRef
+ * @param[out] uint16_t *size
* @param[out] TfuModScheme *modType
* @return S16
**/
-#ifdef ANSI
-S16 rgSCHUtlAllocRcptInfo
-(
-RgSchCellCb *cell,
-RgSchUlAlloc *alloc,
-CmLteTimingInfo *timeInfo,
-TfuUeUlSchRecpInfo *recpReq
-)
-#else
-S16 rgSCHUtlAllocRcptInfo(cell, alloc, timeInfo, recpReq)
-RgSchCellCb *cell;
-RgSchUlAlloc *alloc;
-CmLteTimingInfo *timeInfo;
-TfuUeUlSchRecpInfo *recpReq;
-#endif
+S16 rgSCHUtlAllocRcptInfo(RgSchCellCb *cell,RgSchUlAlloc *alloc,CmLteTimingInfo *timeInfo,TfuUeUlSchRecpInfo *recpReq)
{
#if (ERRCLASS & ERRCLS_DEBUG)
if ((alloc == NULLP) || (alloc->hqProc == NULLP))
* @return Void
*
**/
-#ifdef ANSI
-PRIVATE Void rgSCHUtlUpdPrachOcc
-(
-RgSchCellCb *cell,
-RgrTddPrachInfo *cellCfg
-)
-#else
-PRIVATE Void rgSCHUtlUpdPrachOcc(cell, cellCfg)
-RgSchCellCb *cell;
-RgrTddPrachInfo *cellCfg;
-#endif
+static Void rgSCHUtlUpdPrachOcc(RgSchCellCb *cell,RgrTddPrachInfo *cellCfg)
{
- U8 idx;
- U8 count = 0;
- U8 size;
- U8 startIdx;
- U8 endIdx;
+ uint8_t idx;
+ uint8_t count = 0;
+ uint8_t size;
+ uint8_t startIdx;
+ uint8_t endIdx;
/* In the 1st half frame */
if(cellCfg->halfFrm == 0)
count ++;
}
}
- RETVOID;
+ return;
}
/**
* @return Void
*
**/
-#ifdef ANSI
-Void rgSCHUtlPrachCfgInit
-(
-RgSchCellCb *cell,
-RgrCellCfg *cellCfg
-)
-#else
-Void rgSCHUtlPrachCfgInit(cell, cellCfg)
-RgSchCellCb *cell;
-RgrCellCfg *cellCfg;
-#endif
+Void rgSCHUtlPrachCfgInit(RgSchCellCb *cell,RgrCellCfg *cellCfg)
{
- U8 idx;
- U8 subfrmIdx;
- U8 splFrm;
+ uint8_t idx;
+ uint8_t subfrmIdx;
+ uint8_t splFrm;
if(cellCfg->prachRscInfo.numRsc <= 0)
{
- RLOG_ARG0(L_ERROR,DBG_CELLID,cell->cellId, "Invalid"
+ DU_LOG("\nERROR --> SCH : Invalid"
"PRACH resources Configuration ");
- RETVOID;
+ return;
}
/* Update SFN occasions */
}
}
}
- RETVOID;
+ return;
}
/**
* @return Void
*
**/
-#ifdef ANSI
-S16 rgSCHUtlRgrCellCfg
-(
-RgSchCellCb *cell,
-RgrCellCfg *cellCfg,
-RgSchErrInfo *errInfo
-)
-#else
-S16 rgSCHUtlRgrCellCfg(cell, cellCfg, errInfo)
-RgSchCellCb *cell;
-RgrCellCfg *cellCfg;
-RgSchErrInfo *errInfo;
-#endif
+S16 rgSCHUtlRgrCellCfg(RgSchCellCb *cell,RgrCellCfg *cellCfg,RgSchErrInfo *errInfo)
{
- U8 i;
- U8 sfn=0;
- U8 sfNum = 0;
+ uint8_t i;
+ uint8_t sfn=0;
+ uint8_t sfNum = 0;
RgSchDlSf *sf;
CmLteTimingInfo frm;
- U8 ulDlCfgIdx = cellCfg->ulDlCfgIdx;
- U8 maxslots ;
- U8 maxDlslots;
+ uint8_t ulDlCfgIdx = cellCfg->ulDlCfgIdx;
+ uint8_t maxslots ;
+ uint8_t maxDlslots;
S16 ret = ROK;
- U16 bw; /*!< Number of RBs in the cell */
+ uint16_t bw; /*!< Number of RBs in the cell */
memset(&frm,0,sizeof(CmLteTimingInfo));
* @return Void
*
**/
-#ifdef ANSI
-S16 rgSCHUtlRgrCellCfg
-(
-RgSchCellCb *cell,
-RgrCellCfg *cellCfg,
-RgSchErrInfo *errInfo
-)
-#else
-S16 rgSCHUtlRgrCellCfg(cell, cellCfg, errInfo)
-RgSchCellCb *cell;
-RgrCellCfg *cellCfg;
-RgSchErrInfo *errInfo;
-#endif
+S16 rgSCHUtlRgrCellCfg(RgSchCellCb *cell,RgrCellCfg *cellCfg,RgSchErrInfo *errInfo)
{
- U8 i;
+ uint8_t i;
RgSchDlSf *sf;
CmLteTimingInfo frm;
S16 ret;
Inst inst = cell->instIdx;
/* LTE_ADV_FLAG_REMOVED_START */
- U16 len;
- len = (U16)((cell->bwCfg.dlTotalBw % 8 == 0) ? (cell->bwCfg.dlTotalBw/8) : (cell->bwCfg.dlTotalBw/8 + 1)); /*KW fix for LTE_ADV */
+ uint16_t len;
+ len = (uint16_t)((cell->bwCfg.dlTotalBw % 8 == 0) ? (cell->bwCfg.dlTotalBw/8) : (cell->bwCfg.dlTotalBw/8 + 1)); /*KW fix for LTE_ADV */
/* LTE_ADV_FLAG_REMOVED_END */
memset(&frm,0,sizeof(CmLteTimingInfo));
if (cell->lteAdvCb.dsfrCfg.status == RGR_ENABLE)
{
if((rgSCHUtlAllocSBuf(inst, (Data**)&(cell->rntpAggrInfo.val),
- (len * sizeof(U8)))) != ROK)
+ (len * sizeof(uint8_t)))) != ROK)
{
- RLOG_ARG0(L_ERROR,DBG_CELLID,cell->cellId,"Memory allocation FAILED for RNTP Alloc");
+ DU_LOG("\nERROR --> SCH : Memory allocation FAILED for RNTP Alloc");
return RFAILED;
}
cell->rntpAggrInfo.pres = PRSNT_NODEF;
* @return Void
*
**/
-#ifdef ANSI
-S16 rgSCHUtlRgrCellRecfg
-(
-RgSchCellCb *cell,
-RgrCellRecfg *recfg,
-RgSchErrInfo *err
-)
-#else
-S16 rgSCHUtlRgrCellRecfg(cell, recfg, err)
-RgSchCellCb *cell;
-RgrCellRecfg *recfg;
-RgSchErrInfo *err;
-#endif
+S16 rgSCHUtlRgrCellRecfg(RgSchCellCb *cell,RgrCellRecfg *recfg,RgSchErrInfo *err)
{
return (cell->sc.apis->rgSCHRgrCellRecfg(cell, recfg, err));
}
* @return Void
*
**/
-#ifdef ANSI
-S16 rgSCHUtlFreeCell
-(
-RgSchCellCb *cell
-)
-#else
-S16 rgSCHUtlFreeCell(cell)
-RgSchCellCb *cell;
-#endif
+S16 rgSCHUtlFreeCell(RgSchCellCb *cell)
{
- U8 i;
+ uint8_t i;
CmLListCp *lst;
RgSchPdcch *pdcch;
RgSchPdcchInfo *pdcchInfo;
RgSchPhichInfo *phichInfo;
RgSchPhich *phich;
Inst inst = cell->instIdx;
- U8 maxslots;
+ uint8_t maxslots;
#ifdef LTE_TDD
RgSchRaReqInfo *raReqInfo;
- U8 idx;
+ uint8_t idx;
#endif
#ifdef LTE_TDD
* @return S16
*
**/
-#ifdef ANSI
-S16 rgSCHUtlRgrUeCfg
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue,
-RgrUeCfg *cfg,
-RgSchErrInfo *err
-)
-#else
-S16 rgSCHUtlRgrUeCfg(cell, ue, cfg, err)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-RgrUeCfg *cfg;
-RgSchErrInfo *err;
-#endif
+S16 rgSCHUtlRgrUeCfg(RgSchCellCb *cell,RgSchUeCb *ue,RgrUeCfg *cfg,RgSchErrInfo *err)
{
/* Assign TM 1 as UE's default TM */
* @return S16
*
**/
-#ifdef ANSI
-S16 rgSCHUtlRgrLcCfg
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue,
-RgSchDlLcCb *dlLc,
-RgrLchCfg *cfg,
-RgSchErrInfo *errInfo
-)
-#else
-S16 rgSCHUtlRgrLcCfg(cell, ue, dlLc, cfg, errInfo)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-RgSchDlLcCb *dlLc;
-RgrLchCfg *cfg;
-RgSchErrInfo *errInfo;
-#endif
+S16 rgSCHUtlRgrLcCfg(RgSchCellCb *cell,RgSchUeCb *ue,RgSchDlLcCb *dlLc,RgrLchCfg *cfg,RgSchErrInfo *errInfo)
{
return (cell->sc.apis->rgSCHRgrLchCfg(cell, ue, dlLc, cfg, errInfo));
}
* @return S16
*
**/
-#ifdef ANSI
-S16 rgSCHUtlRgrLcRecfg
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue,
-RgSchDlLcCb *dlLc,
-RgrLchRecfg *recfg,
-RgSchErrInfo *err
-)
-#else
-S16 rgSCHUtlRgrLcRecfg(cell, ue, dlLc, recfg, err)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-RgSchDlLcCb *dlLc;
-RgrLchRecfg *recfg;
-RgSchErrInfo *err;
-#endif
+S16 rgSCHUtlRgrLcRecfg(RgSchCellCb *cell,RgSchUeCb *ue,RgSchDlLcCb *dlLc,RgrLchRecfg *recfg,RgSchErrInfo *err)
{
return (cell->sc.apis->rgSCHRgrLchRecfg(cell, ue, dlLc, recfg, err));
}
* @param[in] RgSchCellCb *cell
* @param[in] RgSchUeCb *ue
* @param[in] CmLteLcId lcId
- * @param[in] U8 lcgId
+ * @param[in] uint8_t lcgId
* @return S16
*
**/
-#ifdef ANSI
-S16 rgSCHUtlRgrLcDel
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue,
-CmLteLcId lcId,
-U8 lcgId
-)
-#else
-S16 rgSCHUtlRgrLcDel(cell, ue, lcId, lcgId)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-CmLteLcId lcId;
-U8 lcgId;
-#endif
+S16 rgSCHUtlRgrLcDel(RgSchCellCb *cell,RgSchUeCb *ue,CmLteLcId lcId,uint8_t lcgId)
{
cell->sc.apis->rgSCHRgrLchDel(cell, ue, lcId, lcgId);
* @return S16
*
**/
-#ifdef ANSI
-S16 rgSCHUtlRgrLcgCfg
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue,
-RgrLcgCfg *cfg,
-RgSchErrInfo *errInfo
-)
-#else
-S16 rgSCHUtlRgrLcgCfg(cell, ue, cfg, errInfo)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-RgrLcgCfg *cfg;
-RgSchErrInfo *errInfo;
-#endif
+S16 rgSCHUtlRgrLcgCfg(RgSchCellCb *cell,RgSchUeCb *ue,RgrLcgCfg *cfg,RgSchErrInfo *errInfo)
{
return (cell->sc.apis->rgSCHRgrLcgCfg(cell, ue, &(ue->ul.lcgArr[cfg->ulInfo.lcgId]), cfg, errInfo));
}
* @return S16
*
**/
-#ifdef ANSI
-S16 rgSCHUtlRgrLcgRecfg
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue,
-RgrLcgRecfg *recfg,
-RgSchErrInfo *err
-)
-#else
-S16 rgSCHUtlRgrLcgRecfg(cell, ue, recfg, err)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-RgrLcgRecfg *recfg;
-RgSchErrInfo *err;
-#endif
+S16 rgSCHUtlRgrLcgRecfg(RgSchCellCb *cell,RgSchUeCb *ue,RgrLcgRecfg *recfg,RgSchErrInfo *err)
{
return (cell->sc.apis->rgSCHRgrLcgRecfg(cell, ue, &(ue->ul.lcgArr[recfg->ulRecfg.lcgId]), recfg, err));
} /* rgSCHUtlRgrLcRecfg */
* @return S16
*
**/
-#ifdef ANSI
-Void rgSCHUtlRgrLcgDel
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue,
-U8 lcgId
-)
-#else
-Void rgSCHUtlRgrLcgDel(cell, ue, lcgId)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-U8 lcgId;
-#endif
+Void rgSCHUtlRgrLcgDel(RgSchCellCb *cell,RgSchUeCb *ue,uint8_t lcgId)
{
cell->sc.apis->rgSCHFreeLcg(cell, ue, &ue->ul.lcgArr[lcgId]);
/* Stack Crash problem for TRACE5 changes. added the return below . */
- RETVOID;
+ return;
} /* rgSCHUtlRgrLcgDel */
* @return Void
*
**/
-#ifdef ANSI
-Void rgSCHUtlDoaInd
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue,
-TfuDoaRpt *doaRpt
-)
-#else
-Void rgSCHUtlDoaInd(cell, ue, doaRpt)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-TfuDoaRpt *doaRpt;
-#endif
+Void rgSCHUtlDoaInd(RgSchCellCb *cell,RgSchUeCb *ue,TfuDoaRpt *doaRpt)
{
ue->mimoInfo.doa.pres = PRSNT_NODEF;
ue->mimoInfo.doa.val = doaRpt->doa;
- RETVOID;
+ return;
}
\f
/**
* @return Void
*
**/
-#ifdef ANSI
-Void rgSCHUtlDlCqiInd
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue,
-TfuDlCqiRpt *dlCqiRpt,
-CmLteTimingInfo timingInfo
-)
-#else
-Void rgSCHUtlDlCqiInd(cell, ue, dlCqiRpt, timingInfo)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-TfuDlCqiRpt *dlCqiRpt;
-CmLteTimingInfo timingInfo;
-#endif
+Void rgSCHUtlDlCqiInd(RgSchCellCb *cell,RgSchUeCb *ue,TfuDlCqiRpt *dlCqiRpt,CmLteTimingInfo timingInfo)
{
RgSchCellCb *sCellCb = NULLP;
if (dlCqiRpt->isPucchInfo)
}
else
{
- U32 idx;
+ uint32_t idx;
for (idx = 0; idx < dlCqiRpt->dlCqiInfo.pusch.numOfCells; idx++)
{
sCellCb = ue->cellInfo[dlCqiRpt->dlCqiInfo.pusch.puschCqi[idx].cellIdx]->cell;
(Void *)&dlCqiRpt->dlCqiInfo.pusch.puschCqi[idx], timingInfo);
}
}
- RETVOID;
+ return;
}
\f
* @return Void
*
**/
-#ifdef ANSI
-Void rgSCHUtlSrsInd
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue,
-TfuSrsRpt *srsRpt,
-CmLteTimingInfo timingInfo
-)
-#else
-Void rgSCHUtlSrsInd(cell, ue, srsRpt, timingInfo)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-TfuSrsRpt *srsRpt;
-CmLteTimingInfo timingInfo;
-#endif
+Void rgSCHUtlSrsInd(RgSchCellCb *cell,RgSchUeCb *ue,TfuSrsRpt *srsRpt,CmLteTimingInfo timingInfo)
{
cell->sc.apis->rgSCHSrsInd(cell, ue, srsRpt, timingInfo);
- RETVOID;
+ return;
}
#endif
* @return Void
*
**/
-#ifdef ANSI
-Void rgSCHUtlDlTARpt
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue
-)
-#else
-Void rgSCHUtlDlTARpt(cell, ue)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-#endif
+Void rgSCHUtlDlTARpt(RgSchCellCb *cell,RgSchUeCb *ue)
{
cell->sc.apis->rgSCHDlTARpt(cell, ue);
- RETVOID;
+ return;
}
\f
* @return Void
*
**/
-#ifdef ANSI
-Void rgSCHUtlDlRlsSubFrm
-(
-RgSchCellCb *cell,
-CmLteTimingInfo subFrm
-)
-#else
-Void rgSCHUtlDlRlsSubFrm(cell, subFrm)
-RgSchCellCb *cell;
-CmLteTimingInfo subFrm;
-#endif
+Void rgSCHUtlDlRlsSubFrm(RgSchCellCb *cell,CmLteTimingInfo subFrm)
{
cell->sc.apis->rgSCHDlRlsSubFrm(cell, subFrm);
- RETVOID;
+ return;
}
#ifdef TFU_UPGRADE
* grant req for APERCQI to SCH.
*
* @param[in] RgSchUeCb *ue
- * @param[in] U8 isAck
+ * @param[in] uint8_t isAck
*
* @return Void
**/
-#ifdef ANSI
-Void rgSCHUtlUpdACqiTrigWt
-(
-RgSchUeCb *ue,
-RgSchUeCellInfo *cellInfo,
-U8 isAck
-)
-#else
-Void rgSCHUtlUpdACqiTrigWt(ue,cellInfo, isAck)
-RgSchUeCb *ue;
-RgSchUeCellInfo *cellInfo;
-U8 isAck;
-#endif
+Void rgSCHUtlUpdACqiTrigWt(RgSchUeCb *ue,RgSchUeCellInfo *cellInfo,uint8_t isAck )
{
#ifdef LTE_ADV
- U8 triggerSet = 0;
- U8 sIdx = 0;
+ uint8_t triggerSet = 0;
+ uint8_t sIdx = 0;
#endif
if (isAck == TFU_HQFDB_ACK)
/* Already one ACQI trigger procedure is going on
* which is not yet satisfied. Delaying this request till
* the previous is getting satisfied*/
- RETVOID;
+ return;
}
ue->dl.reqForCqi = TRUE;
rgSCHUtlSrRcvd(cell, ue, cell->crntTime, &unUsed);
}
- RETVOID;
+ return;
}
#endif
*
* @return Void
**/
-#ifdef ANSI
-Void rgSCHUtlHdlUlTransInd
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue,
-CmLteTimingInfo timingInfo
-)
-#else
-Void rgSCHUtlHdlUlTransInd(cell, ue, timingInfo)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-CmLteTimingInfo timingInfo;
-#endif
+Void rgSCHUtlHdlUlTransInd(RgSchCellCb *cell,RgSchUeCb *ue,CmLteTimingInfo timingInfo)
{
cell->sc.apis->rgSCHHdlUlTransInd(cell, ue, timingInfo);
- RETVOID;
+ return;
}
#ifdef LTEMAC_SPS
/**
*
* @return Void
**/
-#ifdef ANSI
-Void rgSCHUtlHdlCrcInd
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue,
-CmLteTimingInfo timingInfo
-)
-#else
-Void rgSCHUtlHdlCrcInd(cell, ue, timingInfo)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-CmLteTimingInfo timingInfo;
-#endif
+Void rgSCHUtlHdlCrcInd(RgSchCellCb *cell,RgSchUeCb *ue,CmLteTimingInfo timingInfo)
{
cell->sc.apis->rgSCHUlCrcInd(cell, ue, timingInfo);
- RETVOID;
+ return;
} /* end of rgSCHUtlHdlCrcFailInd */
/**
*
* @return Void
**/
-#ifdef ANSI
-Void rgSCHUtlHdlCrcFailInd
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue,
-CmLteTimingInfo timingInfo
-)
-#else
-Void rgSCHUtlHdlCrcFailInd(cell, ue, timingInfo)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-CmLteTimingInfo timingInfo;
-#endif
+Void rgSCHUtlHdlCrcFailInd(RgSchCellCb *cell,RgSchUeCb *ue,CmLteTimingInfo timingInfo)
{
cell->sc.apis->rgSCHUlCrcFailInd(cell, ue, timingInfo);
- RETVOID;
+ return;
} /* end of rgSCHUtlHdlCrcFailInd */
#endif /* LTEMAC_SPS */
* @return Void
*
**/
-#ifdef ANSI
-Void rgSCHUtlDlProcAddToRetx
-(
-RgSchCellCb *cell,
-RgSchDlHqProcCb *hqP
-)
-#else
-Void rgSCHUtlDlProcAddToRetx(cell, hqP)
-RgSchCellCb *cell;
-RgSchDlHqProcCb *hqP;
-#endif
+Void rgSCHUtlDlProcAddToRetx(RgSchCellCb *cell,RgSchDlHqProcCb *hqP)
{
cell->sc.apis->rgSCHDlProcAddToRetx(cell, hqP);
- RETVOID;
+ return;
}
\f
*
* @param[in] RgSubFrm* subFrm
* @param[in] RgDlHqProc* hqP
- * @param[in] U8 tbIdx
+ * @param[in] uint8_t tbIdx
* @return Void
*
**/
-#ifdef ANSI
-Void rgSCHUtlDlHqPTbAddToTx
-(
-RgSchDlSf *subFrm,
-RgSchDlHqProcCb *hqP,
-U8 tbIdx
-)
-#else
-Void rgSCHUtlDlHqPTbAddToTx(subFrm, hqP, tbIdx)
-RgSchDlSf *subFrm;
-RgSchDlHqProcCb *hqP;
-U8 tbIdx;
-#endif
+Void rgSCHUtlDlHqPTbAddToTx(RgSchDlSf *subFrm,RgSchDlHqProcCb *hqP,uint8_t tbIdx)
{
RgSchUeCb *ue = NULLP;
RgSchCellCb *cell = hqP->hqE->cell;
cmLListAdd2Tail(&ue->dl.dlSfHqInfo[cell->cellId][subFrm->dlIdx].hqPLst,&hqP->hqPSfLnk);
#ifdef CA_DBG
{
- extern U32 gSCellSchedCount,gPrimarySchedCount;
+ uint32_t gSCellSchedCount,gPrimarySchedCount;
if(RG_SCH_IS_CELL_SEC(hqP->hqE->ue,hqP->hqE->cell))
{
gSCellSchedCount++;
hqP->subFrm = subFrm;
/* CA Dev End */
- RETVOID;
+ return;
}
*
* @param[in] RgSubFrm* subFrm
* @param[in] RgDlHqProc* hqP
- * @param[in] U8 tbIdx
+ * @param[in] uint8_t tbIdx
* @param[in] Bool isRepeting
* @return Void
*
**/
-#ifdef ANSI
-Void rgSCHUtlDlHqPTbRmvFrmTx
-(
-RgSchDlSf *subFrm,
-RgSchDlHqProcCb *hqP,
-U8 tbIdx,
-Bool isRepeting
-)
-#else
-Void rgSCHUtlDlHqPTbRmvFrmTx(subFrm, hqP, tbIdx, isRepeting)
-RgSchDlSf *subFrm;
-RgSchDlHqProcCb *hqP;
-U8 tbIdx;
-Bool isRepeting;
-#endif
+Void rgSCHUtlDlHqPTbRmvFrmTx(RgSchDlSf *subFrm,RgSchDlHqProcCb *hqP,uint8_t tbIdx,Bool isRepeting)
{
RgSchCellCb *cell = NULLP;
/* Check with TDD */
}
hqP->subFrm = NULLP;
}
- RETVOID;
+ return;
}
#ifdef LTE_ADV
* @param[in] ueId
* @return RgSchUeCb*
**/
-#ifdef ANSI
-RgSchCellCb* rgSchUtlGetCellCb
-(
- Inst inst,
- U16 cellId
-)
-#else
-RgSchCellCb* rgSchUtlGetCellCb(inst, cellId)
- Inst inst;
- U16 cellId;
-#endif
+RgSchCellCb* rgSchUtlGetCellCb(Inst inst,uint16_t cellId)
{
- RgSchCellCb *cellCb = NULLP;
- U8 strtCellId;
-
+ RgSchCellCb *cellCb = NULLP;
+ uint8_t strtCellId;
strtCellId = rgSchCb[inst].genCfg.startCellId;
cellCb = rgSchCb[inst].cells[cellId - strtCellId];
*
* @param[in] *cellId
* @param[in] RgSchUeCb *ue
- * @return U8 servCellIdx
+ * @return uint8_t servCellIdx
**/
-#ifdef ANSI
-U8 rgSchUtlGetServCellIdx
-(
- Inst inst,
- U16 cellId,
- RgSchUeCb *ue
-)
-#else
-U8 rgSchUtlGetServCellIdx(inst,cellId,ue)
- Inst inst;
- U16 cellId;
- RgSchUeCb *ue;
-#endif
+uint8_t rgSchUtlGetServCellIdx(Inst inst, uint16_t cellId, RgSchUeCb *ue)
{
- U8 servCellIdx;
- U16 strtCellId;
+ uint8_t servCellIdx;
+ uint16_t strtCellId;
strtCellId = rgSchCb[inst].genCfg.startCellId;
-
servCellIdx = ue->cellIdToCellIdxMap[cellId - strtCellId];
-
return (servCellIdx);
} /* rgSchUtlGetCellCb */
* @param[in] ueId
* @return RgSchUeCb*
**/
-#ifdef ANSI
-S16 rgSchUtlVldtCellId
-(
- Inst inst,
- U16 cellId
-)
-#else
-S16 rgSchUtlVldtCellId(inst, cellId)
- Inst inst;
- U16 cellId;
-#endif
+S16 rgSchUtlVldtCellId(Inst inst,uint16_t cellId)
{
- U8 strtCellId;
+ uint8_t strtCellId;
strtCellId = rgSchCb[inst].genCfg.startCellId;
if((cellId >= strtCellId) && ((cellId - strtCellId) < CM_LTE_MAX_CELLS))
* -# ROK
* -# RFAILED
**/
-#ifdef ANSI
-S16 rgSCHUtlRgrUeRecfg
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue,
-RgrUeRecfg *ueRecfg,
-RgSchErrInfo *err
-)
-#else
-S16 rgSCHUtlRgrUeRecfg(cell, ue, ueRecfg, err)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-RgrUeRecfg *ueRecfg;
-RgSchErrInfo *err;
-#endif
+S16 rgSCHUtlRgrUeRecfg(RgSchCellCb *cell,RgSchUeCb *ue,RgrUeRecfg *ueRecfg,RgSchErrInfo *err)
{
/* Changes for UE Category Reconfiguration feature addition */
RgSchCmnUe *ueSch = RG_SCH_CMN_GET_UE(ue, cell);
ue->f1bCsAVal += rgSCHUtlGetMaxTbSupp(ueRecfg->txMode.txModeEnum);
- RLOG1(L_INFO,"UeReCfg A valie is %d\n",ue->f1bCsAVal);
+ DU_LOG("\nINFO --> SCH : UeReCfg A valie is %d\n",ue->f1bCsAVal);
}
#endif
ue->mimoInfo.txMode = ueRecfg->txMode.txModeEnum;
* @param[in] RgSchDlLcCb* svc
* @return Void
**/
-#ifdef ANSI
-Void rgSCHUtlFreeDlLc
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue,
-RgSchDlLcCb *svc
-)
-#else
-Void rgSCHUtlFreeDlLc(cell, ue, svc)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-RgSchDlLcCb *svc;
-#endif
+Void rgSCHUtlFreeDlLc(RgSchCellCb *cell,RgSchUeCb *ue,RgSchDlLcCb *svc)
{
cell->sc.apis->rgSCHFreeDlLc(cell, ue, svc);
/* Stack Crash problem for TRACE5 changes. added the return below . */
- RETVOID;
+ return;
}
* @param[in] RgSchUeCb *ue
* @return Void
**/
-#ifdef ANSI
-Void rgSCHUtlFreeUe
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue
-)
-#else
-Void rgSCHUtlFreeUe(cell, ue)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-#endif
+Void rgSCHUtlFreeUe(RgSchCellCb *cell,RgSchUeCb *ue)
{
#ifdef LTE_TDD
rgSCHUtlDelUeANFdbkInfo(ue,RGSCH_PCELL_INDEX);
cell->sc.apis->rgSCHFreeUe(cell, ue);
/* Stack Crash problem for TRACE5 changes. added the return below . */
- RETVOID;
+ return;
} /* rgSCHUtlFreeUe */
* @param[in] RgSchDlLcCb* lc
* @return Void
**/
-#ifdef ANSI
-Void rgSCHUtlDlDedBoUpd
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue,
-RgSchDlLcCb *lc
-)
-#else
-Void rgSCHUtlDlDedBoUpd(cell, ue, lc)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-RgSchDlLcCb *lc;
-#endif
+Void rgSCHUtlDlDedBoUpd(RgSchCellCb *cell,RgSchUeCb *ue,RgSchDlLcCb *lc)
{
cell->sc.apis->rgSCHDlDedBoUpd(cell, ue, lc);
- RETVOID;
+ return;
}
/**
* @brief Record MSG3 allocation into the UE
* @param[in] RgSchRaCb *raCb
*
**/
-#ifdef ANSI
-Void rgSCHUtlRecMsg3Alloc
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue,
-RgSchRaCb *raCb
-)
-#else
-Void rgSCHUtlRecMsg3Alloc(cell, ue, raCb)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-RgSchRaCb *raCb;
-#endif
+Void rgSCHUtlRecMsg3Alloc(RgSchCellCb *cell,RgSchUeCb *ue,RgSchRaCb *raCb)
{
cell->sc.apis->rgSCHUlRecMsg3Alloc(cell, ue, raCb);
- RETVOID;
+ return;
} /* rgSCHRecMsg3Alloc */
* -# ROK
* -# RFAILED
**/
-#ifdef ANSI
-S16 rgSCHUtlUpdUlHqProc
-(
-RgSchCellCb *cell,
-RgSchUlHqProcCb *curProc,
-RgSchUlHqProcCb *oldProc
-)
-#else
-S16 rgSCHUtlUpdUlHqProc(cell, curProc, oldProc)
-RgSchCellCb *cell;
-RgSchUlHqProcCb *curProc;
-RgSchUlHqProcCb *oldProc;
-#endif
+S16 rgSCHUtlUpdUlHqProc(RgSchCellCb *cell,RgSchUlHqProcCb *curProc,RgSchUlHqProcCb *oldProc)
{
return (cell->sc.apis->rgSCHUpdUlHqProc(cell, curProc, oldProc));
} /* rgSCHUtlUpdUlHqProc */
* -# ROK
* -# RFAILED
**/
-#ifdef ANSI
-S16 rgSCHUtlContResUlGrant
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue,
-RgSchErrInfo *err
-)
-#else
-S16 rgSCHUtlContResUlGrant(cell, ue, err)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-RgSchErrInfo *err;
-#endif
+S16 rgSCHUtlContResUlGrant(RgSchCellCb *cell,RgSchUeCb *ue,RgSchErrInfo *err)
{
ue->isMsg4PdcchWithCrnti = TRUE;
-
return (cell->sc.apis->rgSCHContResUlGrant(cell, ue, err));
} /* rgSCHUtlContResUlGrant */
* -# ROK
* -# RFAILED
**/
-#ifdef ANSI
-S16 rgSCHUtlSrRcvd
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue,
-CmLteTimingInfo frm,
-RgSchErrInfo *err
-)
-#else
-S16 rgSCHUtlSrRcvd(cell, ue, frm, err)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-CmLteTimingInfo frm;
-RgSchErrInfo *err;
-#endif
+S16 rgSCHUtlSrRcvd(RgSchCellCb *cell,RgSchUeCb *ue,CmLteTimingInfo frm,RgSchErrInfo *err)
{
return (cell->sc.apis->rgSCHSrRcvd(cell, ue, frm, err));
} /* rgSCHUtlSrRcvd */
*
* @param[in] RgSchCellCb *cell
* @param[in] RgSchUeCb *ue
- * @param[in] U8 lcgId
- * @param[in] U8 bsr
+ * @param[in] uint8_t lcgId
+ * @param[in] uint8_t bsr
* @param[out] RgSchErrInfo *err
* @return Void
* -# ROK
* -# RFAILED
**/
-#ifdef ANSI
-Void rgSCHUtlUpdBsrShort
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue,
-U8 lcgId,
-U8 bsr,
-RgSchErrInfo *err
-)
-#else
-Void rgSCHUtlUpdBsrShort(cell, ue, lcgId, bsr, err)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-U8 lcgId;
-U8 bsr;
-RgSchErrInfo *err;
-#endif
+Void rgSCHUtlUpdBsrShort(RgSchCellCb *cell,RgSchUeCb *ue,uint8_t lcgId,uint8_t bsr,RgSchErrInfo *err)
{
cell->sc.apis->rgSCHUpdBsrShort(cell, ue, &ue->ul.lcgArr[lcgId], bsr, err);
- RETVOID;
+ return;
} /* rgSCHUtlUpdBsrShort */
*
* @param[in] RgSchCellCb *cell
* @param[in] RgSchUeCb *ue
- * @param[in] U8 lcgId
- * @param[in] U8 bsr
+ * @param[in] uint8_t lcgId
+ * @param[in] uint8_t bsr
* @param[out] RgSchErrInfo *err
* @return Void
* -# ROK
* -# RFAILED
**/
-#ifdef ANSI
-Void rgSCHUtlUpdBsrTrunc
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue,
-U8 lcgId,
-U8 bsr,
-RgSchErrInfo *err
-)
-#else
-Void rgSCHUtlUpdBsrTrunc(cell, ue, lcgId, bsr, err)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-U8 lcgId;
-U8 bsr;
-RgSchErrInfo *err;
-#endif
+Void rgSCHUtlUpdBsrTrunc(RgSchCellCb *cell,RgSchUeCb *ue,uint8_t lcgId,uint8_t bsr,RgSchErrInfo *err)
{
cell->sc.apis->rgSCHUpdBsrTrunc(cell, ue, &ue->ul.lcgArr[lcgId], bsr, err);
- RETVOID;
+ return;
} /* rgSCHUtlUpdBsrTrunc */
*
* @param[in] RgSchCellCb *cell
* @param[in] RgSchUeCb *ue
- * @param[in] U8 bsr0
- * @param[in] U8 bsr1
- * @param[in] U8 bsr2
- * @param[in] U8 bsr3
+ * @param[in] uint8_t bsr0
+ * @param[in] uint8_t bsr1
+ * @param[in] uint8_t bsr2
+ * @param[in] uint8_t bsr3
* @param[out] RgSchErrInfo *err
* @return Void
* -# ROK
* -# RFAILED
**/
-#ifdef ANSI
-Void rgSCHUtlUpdBsrLong
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue,
-U8 bsr0,
-U8 bsr1,
-U8 bsr2,
-U8 bsr3,
-RgSchErrInfo *err
-)
-#else
-Void rgSCHUtlUpdBsrLong(cell, ue, bsr0, bsr1, bsr2, bsr3, err)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-U8 bsr0;
-U8 bsr1;
-U8 bsr2;
-U8 bsr3;
-RgSchErrInfo *err;
-#endif
+Void rgSCHUtlUpdBsrLong(RgSchCellCb *cell,RgSchUeCb *ue,uint8_t bsr0,uint8_t bsr1,uint8_t bsr2,uint8_t bsr3,RgSchErrInfo *err)
{
- U8 bsArr[4];
-
+ uint8_t bsArr[4];
bsArr[0] = bsr0;
bsArr[1] = bsr1;
bsArr[2] = bsr2;
bsArr[3] = bsr3;
cell->sc.apis->rgSCHUpdBsrLong(cell, ue, bsArr, err);
- RETVOID;
+ return;
} /* rgSCHUtlUpdBsrLong */
/**
*
* @param[in] RgSchCellCb *cell
* @param[in] RgSchUeCb *ue
- * @param[in] U8 phr
+ * @param[in] uint8_t phr
* @param[out] RgSchErrInfo *err
* @return S16
* -# ROK
* -# RFAILED
**/
-#ifdef ANSI
-S16 rgSCHUtlUpdExtPhr
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue,
-RgInfExtPhrCEInfo * extPhr,
-RgSchErrInfo *err
-)
-#else
-S16 rgSCHUtlUpdExtPhr(cell, ue, extPhr, err)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-RgInfExtPhrCEInfo * extPhr;
-RgSchErrInfo *err;
-#endif
+S16 rgSCHUtlUpdExtPhr(RgSchCellCb *cell,RgSchUeCb *ue,RgInfExtPhrCEInfo *extPhr,RgSchErrInfo *err)
{
return (cell->sc.apis->rgSCHUpdExtPhr(cell, ue, extPhr, err));
} /* rgSCHUtlUpdExtPhr */
*
* @param[in] RgSchCellCb *cell
* @param[in] RgSchUeCb *ue
- * @param[in] U8 phr
+ * @param[in] uint8_t phr
* @param[out] RgSchErrInfo *err
* @return S16
* -# ROK
* -# RFAILED
**/
-#ifdef ANSI
-S16 rgSCHUtlUpdPhr
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue,
-U8 phr,
-RgSchErrInfo *err
-)
-#else
-S16 rgSCHUtlUpdPhr(cell, ue, phr, err)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-U8 phr;
-RgSchErrInfo *err;
-#endif
+S16 rgSCHUtlUpdPhr(RgSchCellCb *cell,RgSchUeCb *ue,uint8_t phr,RgSchErrInfo *err)
{
return (cell->sc.apis->rgSCHUpdPhr(cell, ue, phr, err));
} /* rgSCHUtlUpdPhr */
* @param[in] TfuUlCqiRpt *ulCqiInfo
* @return Void
**/
-#ifdef ANSI
-Void rgSCHUtlUlCqiInd
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue,
-TfuUlCqiRpt *ulCqiInfo
-)
-#else
-Void rgSCHUtlUlCqiInd(cell, ue, ulCqiInfo)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-TfuUlCqiRpt *ulCqiInfo;
-#endif
+Void rgSCHUtlUlCqiInd(RgSchCellCb *cell,RgSchUeCb *ue,TfuUlCqiRpt *ulCqiInfo)
{
cell->sc.apis->rgSCHUlCqiInd(cell, ue, ulCqiInfo);
- RETVOID;
+ return;
} /* rgSCHUtlUlCqiInd */
/**
*
* @param[in] RgSchCellCb *cell
* @param[in] RgSchUeCb *ue
- * @param[in] U8 delta
+ * @param[in] uint8_t delta
* @return Void
**/
-#ifdef ANSI
-Void rgSCHUtlPucchDeltaPwrInd
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue,
-S8 delta
-)
-#else
-Void rgSCHUtlPucchDeltaPwrInd(cell, ue, delta)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-S8 delta;
-#endif
+Void rgSCHUtlPucchDeltaPwrInd(RgSchCellCb *cell,RgSchUeCb *ue,S8 delta)
{
cell->sc.apis->rgSCHPucchDeltaPwrInd(cell, ue, delta);
- RETVOID;
+ return;
} /* rgSCHUtlPucchDeltaPwrInd */
/* Start: LTEMAC_2.1_DEV_CFG */
* @param[in] RgSchUeCb *ue
* @return S16
**/
-#ifdef ANSI
-Void rgSCHUtlUeReset
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue
-)
-#else
-Void rgSCHUtlUeReset(cell, ue)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-#endif
+Void rgSCHUtlUeReset(RgSchCellCb *cell,RgSchUeCb *ue)
{
ue->remBoCnt = 0;
cell->sc.apis->rgSCHUeReset(cell, ue);
- RETVOID;
+ return;
} /* rgSCHUtlUeReset */
/* End: LTEMAC_2.1_DEV_CFG */
* @param[out] RgSchUlHqProcCb **procRef
* @return Void
**/
-#ifdef ANSI
-Void rgSCHUtlUlHqProcForUe
-(
-RgSchCellCb *cell,
-CmLteTimingInfo frm,
-RgSchUeCb *ue,
-RgSchUlHqProcCb **procRef
-)
-#else
-Void rgSCHUtlUlHqProcForUe(cell, frm, ue, procRef)
-RgSchCellCb *cell;
-CmLteTimingInfo frm;
-RgSchUeCb *ue;
-RgSchUlHqProcCb **procRef;
-#endif
+Void rgSCHUtlUlHqProcForUe(RgSchCellCb *cell,CmLteTimingInfo frm,RgSchUeCb *ue,RgSchUlHqProcCb **procRef)
{
cell->sc.apis->rgSCHUlHqProcForUe(cell, frm, ue, procRef);
/* Stack Crash problems for TRACE5 changes. added the return below */
- RETVOID;
+ return;
}
* @param[in] RgSchCellCb *cell
* @return RgSchUlAlloc*
**/
-#ifdef ANSI
-RgSchUlAlloc *rgSCHUtlFirstRcptnReq
-(
-RgSchCellCb *cell
-)
-#else
-RgSchUlAlloc *rgSCHUtlFirstRcptnReq(cell)
-RgSchCellCb *cell;
-#endif
+RgSchUlAlloc *rgSCHUtlFirstRcptnReq(RgSchCellCb *cell)
{
return (cell->sc.apis->rgSCHFirstRcptnReq(cell));
}
* @param[in] RgSchCellCb *cell
* @return RgSchUlAlloc*
**/
-#ifdef ANSI
-RgSchUlAlloc *rgSCHUtlNextRcptnReq
-(
-RgSchCellCb *cell,
-RgSchUlAlloc *alloc
-)
-#else
-RgSchUlAlloc *rgSCHUtlNextRcptnReq(cell, alloc)
-RgSchCellCb *cell;
-RgSchUlAlloc *alloc;
-#endif
+RgSchUlAlloc *rgSCHUtlNextRcptnReq(RgSchCellCb *cell,RgSchUlAlloc *alloc)
{
return (cell->sc.apis->rgSCHNextRcptnReq(cell, alloc));
}
* Invoked by: TOM
*
* @param[in] RgSchCellCb *cell
- * @param[in] U8 idx
+ * @param[in] uint8_t idx
* @return RgSchUlAlloc*
**/
-#ifdef ANSI
-RgSchUlAlloc *rgSCHUtlFirstHqFdbkAlloc
-(
-RgSchCellCb *cell,
-U8 idx
-)
-#else
-RgSchUlAlloc *rgSCHUtlFirstHqFdbkAlloc(cell, idx)
-RgSchCellCb *cell;
-U8 idx;
-#endif
+RgSchUlAlloc *rgSCHUtlFirstHqFdbkAlloc(RgSchCellCb *cell,uint8_t idx)
{
return (cell->sc.apis->rgSCHFirstHqFdbkAlloc(cell, idx));
}
* @param[in] RgSchCellCb *cell
* @return RgSchUlAlloc*
**/
-#ifdef ANSI
-RgSchUlAlloc *rgSCHUtlNextHqFdbkAlloc
-(
-RgSchCellCb *cell,
-RgSchUlAlloc *alloc,
-U8 idx
-)
-#else
-RgSchUlAlloc *rgSCHUtlNextHqFdbkAlloc(cell, alloc, idx)
-RgSchCellCb *cell;
-RgSchUlAlloc *alloc;
-U8 idx;
-#endif
+RgSchUlAlloc *rgSCHUtlNextHqFdbkAlloc(RgSchCellCb *cell,RgSchUlAlloc *alloc,uint8_t idx)
{
return (cell->sc.apis->rgSCHNextHqFdbkAlloc(cell, alloc, idx));
}
-/***********************************
-***********************************/
-/**
- * @brief This API is invoked to send TFU SAP bind request to PHY.
- *
- * @details
- *
- * Function : rgSCHUtlTfuBndReq
- *
- * This API is invoked to send TFU SAP bind request to PHY from scheduler
- * isntance. It fills in the Pst structure, spId and suId values and
- * invokes bind request primitive at TFU.
- *
- * @param[in] Inst instId
- * @param[in] SuId suId
- * @param[in] SpId spId
- * @return S16
- * -# ROK
- * -# RFAILED
- **/
-#ifdef ANSI
-S16 rgSCHUtlTfuBndReq
-(
-Inst instId,
-SuId suId,
-SpId spId
-)
-#else
-S16 rgSCHUtlTfuBndReq(instId, suId, spId)
-Inst instId;
-SuId suId;
-SpId spId;
-#endif
-{
- S16 ret;
- RgSchLowSapCb *tfuSap;
- Pst pst;
-
- /* Get the lower SAP control block from the layer control block. */
- tfuSap = &(rgSchCb[instId].tfuSap[suId]);
- memcpy (&pst, &(tfuSap->sapCfg.sapPst), sizeof(Pst));
- if((ret = RgLiTfuSchBndReq (&pst, suId, spId)) != ROK)
- {
- RLOG_ARG0(L_ERROR,DBG_INSTID,instId,"rgSCHUtlTfuBndReq() Call to RgLiTfuBndReq()"
- " failed");
- }
- return (ret);
-} /* rgSCHUtlTfuBndReq */
-
-/**
- * @brief This API is invoked to send TFU SAP unbind request to PHY.
- *
- * @details
- *
- * Function : rgSCHUtlTfuUBndReq
- * This API is invoked to send TFU SAP unbind request to PHY from Scheduler
- * isntance. It fills in the Pst structure and spId value and invokes
- * unbind request primitive at TFU.
- *
- * @param[in] SpId spId
- * @return S16
- * -# ROK
- * -# RFAILED
- **/
-#ifdef ANSI
-S16 rgSCHUtlTfuUBndReq
-(
-Inst inst,
-RgSchLowSapCfgInfo sapCfg,
-Reason reason
-)
-#else
-S16 rgSCHUtlTfuUBndReq(inst, sapCfg, reason)
-Inst inst;
-RgSchLowSapCfgInfo sapCfg;
-Reason reason;
-#endif
-{
- S16 ret;
- Pst pst;
-
- /* Get the lower SAP control block from the layer control block. */
- memcpy (&pst, &(sapCfg.sapPst), sizeof(Pst));
- if((ret = RgLiTfuSchUbndReq (&pst, sapCfg.spId, reason)) != ROK)
- {
- RLOG_ARG0(L_ERROR,DBG_INSTID,inst,"rgSCHUtlTfuUBndReq() Call to"
- " RgLiTfuUbndReq() failed");
- }
- return (ret);
-
-} /* rgSCHUtlTfuUBndReq */
-
/***********************************************************
*
* Func : rgSCHUtlResetSfAlloc
* File : rg_utl.c
*
**********************************************************/
-#ifdef ANSI
-S16 rgSCHUtlResetSfAlloc
-(
-RgInfSfAlloc *sfAlloc,
-Bool resetCmnLcInfo,
-Bool restAlloc
-)
-#else
-S16 rgSCHUtlResetSfAlloc(sfAlloc,resetCmnLcInfo,restAlloc)
-RgInfSfAlloc *sfAlloc;
-Bool resetCmnLcInfo;
-Bool restAlloc;
-#endif
+S16 rgSCHUtlResetSfAlloc(RgInfSfAlloc *sfAlloc,Bool resetCmnLcInfo,Bool restAlloc)
{
if(TRUE == restAlloc)
{
* File : rg_utl.c
*
**********************************************************/
-#ifdef ANSI
-S16 rgSCHUtlGetRlsHqAlloc
-(
-RgSchCellCb *cell
-)
-#else
-S16 rgSCHUtlGetRlsHqAlloc(cell)
-RgSchCellCb *cell;
-#endif
+S16 rgSCHUtlGetRlsHqAlloc(RgSchCellCb *cell)
{
- U8 idx = 0;
+ uint8_t idx = 0;
Inst inst = cell->instIdx;
for(idx=0; idx < RGSCH_NUM_SUB_FRAMES; idx++)
{
(Data**)&(cell->rlsHqArr[idx].ueHqInfo),
(sizeof(RgInfUeHqInfo)*RGSCH_MAX_UE_PER_DL_SF))) != ROK)
{
- RLOG_ARG0(L_ERROR,DBG_CELLID,cell->cellId,"Memory allocation FAILED for "
+ DU_LOG("\nERROR --> SCH : Memory allocation FAILED for "
"UE Alloc");
return RFAILED;
}
* File : rg_utl.c
*
**********************************************************/
-#ifdef ANSI
-S16 rgSCHUtlPutRlsHqAlloc
-(
-RgSchCellCb *cell
-)
-#else
-S16 rgSCHUtlPutRlsHqAlloc(cell)
-RgSchCellCb *cell;
-#endif
+S16 rgSCHUtlPutRlsHqAlloc(RgSchCellCb *cell)
{
- U8 idx = 0;
+ uint8_t idx = 0;
Inst inst = cell->instIdx;
for(idx=0; idx < RGSCH_NUM_SUB_FRAMES; idx++)
* File : rg_utl.c
*
**********************************************************/
-#ifdef ANSI
-S16 rgSCHUtlGetSfAlloc
-(
-RgSchCellCb *cell
-)
-#else
-S16 rgSCHUtlGetSfAlloc(cell)
-RgSchCellCb *cell;
-#endif
+S16 rgSCHUtlGetSfAlloc(RgSchCellCb *cell)
{
- U8 idx;
- U8 indx;
+ uint8_t idx;
+ uint8_t indx;
Inst inst = cell->instIdx;
RgSchCmnUlCell *cellUl = RG_SCH_CMN_GET_UL_CELL(cell);
(Data**)&(cell->sfAllocArr[idx].ueInfo.allocInfo),
(sizeof(RgInfUeAlloc)*RGSCH_MAX_UE_PER_DL_SF))) != ROK)
{
- RLOG_ARG0(L_ERROR,DBG_CELLID,cell->cellId,"Memory allocation FAILED for "
+ DU_LOG("\nERROR --> SCH : Memory allocation FAILED for "
"UE Alloc");
return RFAILED;
}
(Data**)&(cell->sfAllocArr[idx].rarInfo.raRntiInfo),
(sizeof(RgInfRaRntiInfo)*RGSCH_MAX_RARNTI_PER_DL_SF))) != ROK)
{
- RLOG_ARG0(L_ERROR,DBG_CELLID,cell->cellId,"Memory allocation FAILED for "
+ DU_LOG("\nERROR --> SCH : Memory allocation FAILED for "
"RARNTI");
return RFAILED;
}
(Data**)&(cell->sfAllocArr[idx].rarInfo.raRntiInfo[indx].crntiInfo),
(sizeof(RgInfCrntiInfo)* (cellUl->maxMsg3PerUlSf)))) != ROK)
{
- RLOG_ARG0(L_ERROR,DBG_CELLID,cell->cellId,"Memory allocation FAILED for "
+ DU_LOG("\nERROR --> SCH : Memory allocation FAILED for "
"RNTI");
return RFAILED;
}
* File : rg_utl.c
*
**********************************************************/
-#ifdef ANSI
-S16 rgSCHUtlPutSfAlloc
-(
-RgSchCellCb *cell
-)
-#else
-S16 rgSCHUtlPutSfAlloc(cell)
-RgSchCellCb *cell;
-#endif
+S16 rgSCHUtlPutSfAlloc(RgSchCellCb *cell)
{
- U8 idx;
- U8 indx;
+ uint8_t idx;
+ uint8_t indx;
Inst inst = cell->instIdx;
RgSchCmnUlCell *cellUl = RG_SCH_CMN_GET_UL_CELL(cell);
* File : rg_utl.c
*
**********************************************************/
-#ifdef ANSI
S16 rgSCHUtlAllocSBuf
(
Inst inst, /* Instance of the invoking scheduler */
Data **pData, /* Pointer of the data to be returned */
Size size /* size */
)
-#else
-S16 rgSCHUtlAllocSBuf(inst, pData, size)
-Inst inst; /* Instance of the invoking scheduler */
-Data **pData; /* Pointer of the data to be returned */
-Size size; /* size */
-#endif
{
/* Moving alarm diagnostics to available scope */
#ifdef MS_MBUF_CORRUPTION /* Should be enabled when debugging mbuf corruption */
MS_BUF_ADD_ALLOC_CALLER();
#endif /* */
- if (SGetSBuf(rgSchCb[inst].rgSchInit.region, rgSchCb[inst].rgSchInit.pool,
- pData, size) != ROK)
+ SCH_ALLOC(pData, size);
+ if(pData == NULLP)
{
RgUstaDgn dgn; /* Alarm diagnostics structure */
dgn.type = LRG_USTA_DGNVAL_MEM;
/* Send an alarm to Layer Manager */
rgSCHLmmStaInd(inst, LCM_CATEGORY_RESOURCE, LCM_EVENT_SMEM_ALLOC_FAIL,
LCM_CAUSE_MEM_ALLOC_FAIL, &dgn);
- RGSCHLOGERROR(inst, ERRCLS_DEBUG, ERG015, 0, "Unable to Allocate Buffer");
- RLOG_ARG0(L_ERROR,DBG_INSTID,inst, "Unable to Allocate the Buffer");
+ DU_LOG("\nERROR --> SCH : Unable to Allocate the Buffer");
return RFAILED;
}
* previously allocated by rgSCHUtlAllocSBuf() and size. It
* deallocates the memory.
*
-* Ret: RETVOID
+* Ret: void
*
* Notes: None
* File: rg_utl.c
*/
-#ifdef ANSI
Void rgSCHUtlFreeSBuf
(
Inst inst, /* Instance of the invoking scheduler */
Data **data, /* pointer to data */
Size size /* size */
)
-#else
-Void rgSCHUtlFreeSBuf(inst, data, size)
-Inst inst; /* Instance of the invoking scheduler */
-Data **data; /* pointer to data */
-Size size; /* size */
-#endif
{
- S16 ret;
-
if ((data == NULLP) || (*data == NULLP) || (size == 0))
{
- RETVOID;
+ return;
}
MS_BUF_ADD_CALLER();
#endif /* */
/* Deallocate buffer */
- ret = SPutSBuf(rgSchCb[inst].rgSchInit.region,
- rgSchCb[inst].rgSchInit.pool, (*data), size);
+ SCH_FREE((*data), size);
- if (ret != ROK)
+ if (data ==NULLP)
{
- RGSCHLOGERROR(inst, ERRCLS_DEBUG, ERG016, (ErrVal) 0,
- "rgSCHUtlFreeSBuf failed.\n");
- RLOG_ARG0(L_ERROR,DBG_INSTID,inst, "rgSCHUtlFreeSBuf failed");
- RETVOID;
+ DU_LOG("\nERROR --> SCH : rgSCHUtlFreeSBuf failed");
+ return;
}
/* ccpu00117052 - ADD - Assigning the pointer to NULLP */
*data = NULLP;
- RETVOID;
+ return;
} /* end of rgSCHUtlFreeSBuf */
\f
*
* Desc: This is used to deallocate Warning SI Seg.
*
-* Ret: RETVOID
+* Ret: void
*
* Notes: None
*
* File: rg_utl.c
*/
-#ifdef ANSI
-Void rgSCHUtlFreeWarningSiSeg
-(
-Region reg,
-Pool pool,
-CmLListCp *siPduLst
-)
-#else
-Void rgSCHUtlFreeWarningSiSeg(reg, pool, siPduLst)
-Region reg;
-Pool pool;
-CmLListCp *siPduLst;
-#endif
+Void rgSCHUtlFreeWarningSiSeg(Region reg,Pool pool,CmLListCp *siPduLst)
{
CmLList *node;
Buffer *pdu;
- while (siPduLst->first != NULLP)
- {
- node = siPduLst->first;
- pdu = (Buffer *)node->node;
- cmLListDelFrm(siPduLst, node);
- RGSCH_FREE_MSG(pdu);
- SPutSBuf(reg, pool, (Data *)node,sizeof(CmLList));
- node = NULLP;
- }
+ while (siPduLst->first != NULLP)
+ {
+ node = siPduLst->first;
+ pdu = (Buffer *)node->node;
+ cmLListDelFrm(siPduLst, node);
+ RGSCH_FREE_MSG(pdu);
+ SCH_FREE(node,sizeof(CmLList));
+ node = NULLP;
+ }
- RETVOID;
+ return;
} /* end of rgSCHUtlFreeWarningSiSeg */
\f
*
* Desc: This is used to deallocate Warning SI PDU.
*
-* Ret: RETVOID
+* Ret: void
*
* Notes: None
*
* File: rg_utl.c
*/
-#ifdef ANSI
-Void rgSCHUtlFreeWarningSiPdu
-(
-RgSchCellCb *cell
-)
-#else
-Void rgSCHUtlFreeWarningSiPdu(cell)
-RgSchCellCb *cell;
-#endif
+Void rgSCHUtlFreeWarningSiPdu(RgSchCellCb *cell)
{
CmLList *node;
Buffer *pdu;
CM_LLIST_FIRST_NODE(&warningSi->warningSiMsg.segLstCp, node);
if (node == NULLP)
{
- RETVOID;
+ return;
}
warningSiPdu = (RgSchWarningSiPdu *)node->node;
warningSi->warningSiMsg.transId, RGR_CFG_CFM_TX_COMPLETE);
}
- RETVOID;
+ return;
} /* end of rgSCHUtlFreeWarningSiPdu */
*
* File: rg_utl.c
*/
-#ifdef ANSI
-Buffer *rgSCHUtlGetWarningSiPdu
-(
-RgSchCellCb *cell
-)
-#else
-Buffer *rgSCHUtlGetWarningSiPdu(cell)
-RgSchCellCb *cell;
-#endif
+Buffer *rgSCHUtlGetWarningSiPdu(RgSchCellCb *cell)
{
RgSchWarningSiInfo *warningSi;
RgSchWarningSiPdu *warningSiPdu;
*
* File: rg_utl.c
*/
-#ifdef ANSI
-S16 rgSCHUtlGetMcsAndNPrb
-(
-RgSchCellCb *cell,
-U8 *nPrb,
-U8 *mcs,
-MsgLen *msgLen
-)
-#else
-S16 rgSCHUtlGetMcsAndNPrb(cell, nPrb, mcs, msgLen)
-RgSchCellCb *cell;
-U8 *nPrb;
-U8 *mcs;
-MsgLen *msgLen;
-#endif
+S16 rgSCHUtlGetMcsAndNPrb(RgSchCellCb *cell,uint8_t *nPrb,uint8_t *mcs,MsgLen *msgLen)
{
RgSchWarningSiInfo *warningSi;
RgSchWarningSiPdu *warningSiPdu;
*
* File: rg_utl.c
*/
-#ifdef ANSI
-S16 rgSCHUtlCalMcsAndNPrb
-(
-RgSchCellCb *cell,
-U8 cfgType,
-MsgLen msgLen,
-U8 siId
-)
-#else
-S16 rgSCHUtlCalMcsAndNPrb(cell, nPrb, mcs, msgLen)
-RgSchCellCb *cell;
-U8 cfgType;
-MsgLen msgLen;
-U8 siId;
-#endif
+S16 rgSCHUtlCalMcsAndNPrb(RgSchCellCb *cell,uint8_t cfgType,MsgLen msgLen,uint8_t siId)
{
- U8 mcs = 0;
- U8 nPrb = 0;
+ uint8_t mcs = 0;
+ uint8_t nPrb = 0;
/*Get the nPrb and mcs parametr values */
if (rgSCHUtlGetAllwdCchTbSz(msgLen*8, &nPrb, &mcs) != (msgLen*8))
{
- RLOG_ARG0(L_ERROR,DBG_CELLID,cell->cellId, "msgLen does "
+ DU_LOG("\nERROR --> SCH : msgLen does "
"not match any valid TB Size");
return RFAILED;
}
* File : rg_utl.c
*
**********************************************************/
-#ifdef ANSI
-Void rgSCHUtlFillDgnParams
-(
-Inst inst,
-RgUstaDgn *dgn,
-U8 dgnType
-)
-#else
-Void rgSCHUtlFillDgnParams(inst, dgn, dgnType)
-Inst inst;
-RgUstaDgn *dgn;
-U8 dgnType;
-#endif
+Void rgSCHUtlFillDgnParams(Inst inst,RgUstaDgn *dgn,uint8_t dgnType)
{
switch(dgnType)
{
case LRG_USTA_DGNVAL_MEM:
- dgn->type = (U8) LRG_USTA_DGNVAL_MEM;
+ dgn->type = (uint8_t) LRG_USTA_DGNVAL_MEM;
dgn->u.mem.region = rgSchCb[inst].rgSchInit.region;
dgn->u.mem.pool = rgSchCb[inst].rgSchInit.pool;
break;
break;
}
- RETVOID;
+ return;
} /* end of rgSCHUtlFillDgnParams */
/***********************************************************
* File : rg_utl.c
*
**********************************************************/
-#ifdef ANSI
-Void rgSCHUtlGetPstToLyr
-(
-Pst *pst,
-RgSchCb *schCb,
-Inst macInst
-)
-#else
-Void rgSCHUtlGetPstToLyr (pst, schCb, macInst)
-Pst *pst;
-RgSchCb *schCb;
-Inst macInst;
-#endif
+Void rgSCHUtlGetPstToLyr(Pst *pst,RgSchCb *schCb,Inst macInst)
{
/* Only the needed params are filled */
pst->intfVer = 0;
pst->route = RTESPEC;
- RETVOID;
+ return;
} /* end of rgSCHUtlGetPstToLyr */
/** @brief This function fills in the common lc information to be sent to MAC
* -# ROK
* -# RFAILED
*/
-#ifdef ANSI
-S16 rgSCHUtlFillRgInfCmnLcInfo
-(
-RgSchDlSf *sf,
-RgInfSfAlloc *sfAlloc,
-CmLteLcId lcId,
-Bool sendInd
-)
-#else
-S16 rgSCHUtlFillRgInfCmnLcInfo(sf, sfAlloc, lcId, sendInd)
-RgSchDlSf *sf;
-RgInfSfAlloc *sfAlloc;
-CmLteLcId lcId;
-Bool sendInd;
-#endif
+S16 rgSCHUtlFillRgInfCmnLcInfo(RgSchDlSf *sf,RgInfSfAlloc *sfAlloc,CmLteLcId lcId,Bool sendInd)
{
if((sf->bch.tbSize)&&
* -# ROK
* -# RFAILED
*/
-#ifdef ANSI
-S16 rgSCHUtlFillRgInfRarInfo
-(
-RgSchDlSf *sf,
-RgInfSfAlloc *sfAlloc,
-RgSchCellCb *cell
-)
-#else
-S16 rgSCHUtlFillRgInfRarInfo(sf, sfAlloc, cell)
-RgSchDlSf *sf;
-RgInfSfAlloc *sfAlloc;
-RgSchCellCb *cell;
-#endif
+S16 rgSCHUtlFillRgInfRarInfo(RgSchDlSf *sf,RgInfSfAlloc *sfAlloc,RgSchCellCb *cell)
{
- U8 idx;
+ uint8_t idx;
CmLListCp *lnkLst;
CmLList *tmp;
RgSchRaCb *raCb;
RgSchUeCb *ue;
RgInfRaRntiInfo *raRntiAlloc;
- U8 noRaRsps;
+ uint8_t noRaRsps;
RgSchCmnDlCell *cellDl = RG_SCH_CMN_GET_DL_CELL(cell);
#ifdef LTE_TDD
* -# ROK
* -# RFAILED
*/
-#ifdef ANSI
-S16 rgSCHUtlFillPdschDciInfo
-(
-TfuPdschDciInfo *pdsch,
-TfuDciInfo *pdcchDci
-)
-#else
-S16 rgSCHUtlFillPdschDciInfo(pdsch, pdcchDci)
-TfuPdschDciInfo *pdsch;
-TfuDciInfo *pdcchDci;
-#endif
+S16 rgSCHUtlFillPdschDciInfo(TfuPdschDciInfo *pdsch,TfuDciInfo *pdcchDci)
{
#ifdef EMTC_ENABLE
* @return Void
*
**/
-#ifdef ANSI
-Void rgSchDSFRPwrCheck
-(
- RgSchDlSf *sf,
- Bool *isAllUePwrHigh
- )
-#else
-PRIVATE Void rgSchDSFRPwrCheck(sf, isAllUePwrHigh)
- RgSchDlSf *sf;
- Bool *isAllUePwrHigh;
-
-#endif
+Void rgSchDSFRPwrCheck(RgSchDlSf *sf,Bool *isAllUePwrHigh)
{
RgSchSFRPoolInfo *sfrCCPool;
* Desc : Utility Function to fill the allocation info of each Tb
*
*
- * Ret : RETVOID
+ * Ret : void
*
*
* Notes: This function should be called while sending a msg from
* File : rg_utl.c
*
**********************************************************/
-#ifdef ANSI
-PRIVATE Void rgSCHUtlFillRgInfTbInfo
-(
-RgSchDlHqProcCb *hqP,
-RgInfUeAlloc *allocInfo,
-RgSchCellCb *cell
-)
-#else
-PRIVATE Void rgSCHUtlFillRgInfTbInfo (hqP, allocInfo, cell)
-RgSchDlHqProcCb *hqP;
-RgInfUeAlloc *allocInfo;
-RgSchCellCb *cell;
-#endif
+static Void rgSCHUtlFillRgInfTbInfo(RgSchDlHqProcCb *hqP,RgInfUeAlloc *allocInfo,RgSchCellCb *cell)
{
RgSchDlSf *sf;
- U8 idx;
+ uint8_t idx;
RgInfUeTbInfo *tbInfo;
- U8 tbCnt;
+ uint8_t tbCnt;
/* LTE_ADV_FLAG_REMOVED_START */
#ifdef TFU_UPGRADE
- PRIVATE U32 tmpCnt = 0;
+ static uint32_t tmpCnt = 0;
Bool isAllUePwrHigh = FALSE;
#endif
/* LTE_ADV_FLAG_REMOVED_END */
RgSchDlLcCb *dlLcCb = NULLP;
- U16 rlcHdrEstmt;
- U8 lcId;
+ uint16_t rlcHdrEstmt;
+ uint8_t lcId;
/* RRM_RBC_X */
#ifdef LTE_L2_MEAS
- U8 prbUsed = 0;
+ uint8_t prbUsed = 0;
#endif
/* RRM_RBC_Y */
#ifdef TFU_UPGRADE
/*if SFR is enabled*/
- allocInfo->isEnbSFR = (U8)RG_SCH_CMN_IS_SFR_ENB(ue->cell); /* KW fix for LTE_ADV */
+ allocInfo->isEnbSFR = (uint8_t)RG_SCH_CMN_IS_SFR_ENB(ue->cell); /* KW fix for LTE_ADV */
if((ue->cell->lteAdvCb.dsfrCfg.status == RGR_ENABLE) &&
(ue->lteAdvUeCb.rgrLteAdvUeCfg.isUeCellEdge == FALSE))
{
}
if(isAllUePwrHigh)
{
- allocInfo->pa = (U8)ue->cell->lteAdvCb.sfrCfg.pwrThreshold.pHigh; /* KW fix for LTE_ADV */
+ allocInfo->pa = (uint8_t)ue->cell->lteAdvCb.sfrCfg.pwrThreshold.pHigh; /* KW fix for LTE_ADV */
if(tmpCnt++ == 100000)
{
- RLOG_ARG2(L_DEBUG,DBG_CELLID,ue->cell->cellId,
- "DSFR::ll UEs can go HIGH, PHigh(%d) for UE(%d)",allocInfo->pa, ue->ueId);
+ DU_LOG("\nDEBUG --> SCH : DSFR::ll UEs can go HIGH, PHigh(%d) for UE(%d)",allocInfo->pa, ue->ueId);
tmpCnt = 0;
}
}
allocInfo->pa = ue->cell->lteAdvCb.sfrCfg.pwrThreshold.pHigh;
if(tmpCnt++ == 100000)
{
- RLOG_ARG2(L_DEBUG,DBG_CELLID,ue->cell->cellId,
- "SFR::UE is CELL EDGE, PHigh(%d) for UE(%d)",allocInfo->pa, ue->ueId);
+ DU_LOG("\nDEBUG --> SCH : SFR::UE is CELL EDGE, PHigh(%d) for UE(%d)",allocInfo->pa, ue->ueId);
tmpCnt = 0;
}
allocInfo->pa = ue->cell->lteAdvCb.sfrCfg.pwrThreshold.pLow;
if(tmpCnt++ == 100000)
{
- RLOG_ARG2(L_DEBUG,DBG_CELLID,ue->cell->cellId,
- "SFR::UE is CELL CENTRE, PLow(%d) for UE(%d)\n",allocInfo->pa, ue->ueId);
+ DU_LOG("\nDEBUG --> SCH : SFR::UE is CELL CENTRE, PLow(%d) for UE(%d)\n",allocInfo->pa, ue->ueId);
tmpCnt = 0;
}
}
//if(!(hqP->hqE->ue->pfsStats.lcStats[lcId-1].isLcCntSet))
if(tbCnt == 0)
{
- U8 idx = 0;
+ uint8_t idx = 0;
if (hqP->hqE->ue->cell == hqP->hqE->cell)
{
idx = RGSCH_PCELL_INDEX;
rgSCHLaaResetDlHqProcCb(hqP);
#endif
- RETVOID;
+ return;
}
/***********************************************************
*
*
**********************************************************/
/* CA dev Start */
-#ifdef ANSI
-Void rgSCHUtlFillRgInfUeInfo
-(
-RgSchDlSf *sf,
-RgSchCellCb *cell,
-CmLListCp *dlDrxInactvTmrLst,
-CmLListCp *dlInActvLst,
-CmLListCp *ulInActvLst
-)
-#else
-Void rgSCHUtlFillRgInfUeInfo (sf,cell, dlDrxInactvTmrLst, dlInActvLst, ulInActvLst)
-{
-RgSchDlSf *sf;
-RgSchCellCb *cell;
-CmLListCp *dlDrxInactvTmrLst;
-CmLListCp *dlInActvLst;
-CmLListCp *ulInActvLst;
-#endif
+Void rgSCHUtlFillRgInfUeInfo(RgSchDlSf *sf,RgSchCellCb *cell,CmLListCp *dlDrxInactvTmrLst,CmLListCp *dlInActvLst,CmLListCp *ulInActvLst)
{
RgInfSfAlloc *sfAlloc;
CmLListCp *lnkLst; /* lnkLst assignment */
CM_LLIST_FIRST_NODE(lnkLst, tmp);
while(NULLP != tmp)
{
- printf("5GTF_ERROR MSG4 Consolidation\n");
+ DU_LOG("\nINFO --> SCH : 5GTF_ERROR MSG4 Consolidation\n");
hqCb = (RgSchDlHqProcCb *)(tmp->node);
CM_LLIST_NEXT_NODE(lnkLst, tmp);
#endif
}
- RETVOID;
+ return;
} /* end of rgSCHUtlFillRgInfUeInfo */
/* CA dev End */
* -# ROK
* -# RFAILED
*/
-#ifdef ANSI
-S16 rgSCHUtlUpdSch
-(
-RgInfSfDatInd *subfrmInfo,
-RgSchCellCb *cellCb,
-RgSchUeCb *ueCb,
-RgInfUeDatInd *pdu,
-RgSchErrInfo *err
-)
-#else
-S16 rgSCHUtlUpdSch (subfrmInfo, cellCb, ueCb, pdu, err)
-RgInfSfDatInd *subfrmInfo;
-RgSchCellCb *cellCb;
-RgSchUeCb *ueCb;
-RgInfUeDatInd *pdu;
-RgSchErrInfo *err;
-#endif
+S16 rgSCHUtlUpdSch(RgInfSfDatInd *subfrmInfo,RgSchCellCb *cellCb,RgSchUeCb *ueCb,RgInfUeDatInd *pdu,RgSchErrInfo *err)
{
S16 ret;
-
#ifdef LTEMAC_SPS
if (RGSCH_UL_SPS_ACT_PRSENT & pdu->ceInfo.bitMask)
{
/*ccpu00129922 - MOD - Deleted return value
* checking since it returns void*/
rgSCHUtlUpdBsrTrunc (cellCb, ueCb,
- (U8)(pdu->ceInfo.ces.bsr.truncBsr >> 6),
- (U8)(pdu->ceInfo.ces.bsr.truncBsr & 0x3F), err);
+ (uint8_t)(pdu->ceInfo.ces.bsr.truncBsr >> 6),
+ (uint8_t)(pdu->ceInfo.ces.bsr.truncBsr & 0x3F), err);
}
else
{
/*ccpu00129922 - MOD - Deleted return value
checking since it returns void*/
rgSCHUtlUpdBsrShort (cellCb, ueCb,
- (U8)(pdu->ceInfo.ces.bsr.shortBsr >> 6),
- (U8)(pdu->ceInfo.ces.bsr.shortBsr & 0x3F), err);
+ (uint8_t)(pdu->ceInfo.ces.bsr.shortBsr >> 6),
+ (uint8_t)(pdu->ceInfo.ces.bsr.shortBsr & 0x3F), err);
}
else
{
* @return S16
* -# ROK
**/
-#ifdef ANSI
-S16 rgSCHUtlAddUeToCcchSduLst
-(
-RgSchCellCb *cell,
-RgSchUeCb *ueCb
-)
-#else
-S16 rgSCHUtlAddUeToCcchSduLst(cell, ueCb)
-RgSchCellCb *cell;
-RgSchUeCb *ueCb;
-#endif
+S16 rgSCHUtlAddUeToCcchSduLst(RgSchCellCb *cell,RgSchUeCb *ueCb)
{
RgSchCmnDlUe *ueDl = RG_SCH_CMN_GET_DL_UE(ueCb, cell);
RgSchDlHqProcCb *hqP = (RgSchDlHqProcCb *)ueDl->proc;
((!(ueCb->dl.dlInactvMask & RG_HQENT_INACTIVE)) &&
((hqP != NULLP) && (hqP->hqE->ccchSduProc))))
{
- RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"RNTI:%d Unexpected CCCH SDU BO",
+ DU_LOG("\nINFO --> SCH : RNTI:%d Unexpected CCCH SDU BO",
ueCb->ueId);
return ROK;
}
* @return S16
* -# ROK
**/
-#ifdef ANSI
-S16 rgSCHUtlUpdtBo
-(
-RgSchCellCb *cell,
-RgInfCmnBoRpt *staRsp
-)
-#else
-S16 rgSCHUtlUpdtBo(cell, staRsp)
-RgSchCellCb *cell;
-RgInfCmnBoRpt *staRsp;
-#endif
+S16 rgSCHUtlUpdtBo(RgSchCellCb *cell,RgInfCmnBoRpt *staRsp)
{
RgSchUeCb *ueCb;
if ((ueCb = rgSCHDbmGetUeCb(cell, staRsp->u.rnti)) == NULLP)
{
/* Handle Ue fetch failure */
- RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"Invalid UEID:%d",staRsp->u.rnti);
+ DU_LOG("\nERROR --> SCH : Invalid UEID:%d",staRsp->u.rnti);
return RFAILED;
}
/* Update Bo in ueCb */
- ueCb->dlCcchInfo.bo = (U32)(staRsp->bo);
+ ueCb->dlCcchInfo.bo = (uint32_t)(staRsp->bo);
#ifdef EMTC_ENABLE
if(ueCb->isEmtcUe)
{
* -# ROK
* -# RFAILED
**/
-#ifdef ANSI
-S16 rgSCHUtlHndlCcchBoUpdt
-(
-RgSchCellCb *cell,
-RgInfCmnBoRpt *boRpt
-)
-#else
-S16 rgSCHUtlHndlCcchBoUpdt(cell, boRpt)
-RgSchCellCb *cell;
-RgInfCmnBoRpt *boRpt;
-#endif
+S16 rgSCHUtlHndlCcchBoUpdt(RgSchCellCb *cell,RgInfCmnBoRpt *boRpt)
{
RgSchRaCb *raCb;
RgSchUeCb *ueCb;
return (rgSCHUtlUpdtBo(cell, boRpt));
#else
/* Handle RaCb fetch failure */
- RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,
- "Invalid RNTI:%d to fetch raCb",boRpt->u.rnti);
+ DU_LOG("\nERROR --> SCH : Invalid RNTI:%d to fetch raCb",boRpt->u.rnti);
return RFAILED;
#endif
}
if ((ueCb = rgSCHDbmGetUeCb(cell, boRpt->u.rnti)) == NULLP)
{
/* Handle Ue fetch failure */
- RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"Invalid RNTI:%d",boRpt->u.rnti);
+ DU_LOG("\nERROR --> SCH : Invalid RNTI:%d",boRpt->u.rnti);
return RFAILED;
}
/* Update Bo in ueCb */
- ueCb->dlCcchInfo.bo = (U32)(boRpt->bo);
+ ueCb->dlCcchInfo.bo = (uint32_t)(boRpt->bo);
}
#else
* accordingly set.
*
*
- * @param[in] U32 bo
- * @param[out] U8 *nPrb
+ * @param[in] uint32_t bo
+ * @param[out] uint8_t *nPrb
* @return S32
* -# ROK
* -# RFAILED
**/
-#ifdef ANSI
-S32 rgSCHUtlGetAllwdCchTbSz
-(
-U32 bo,
-U8 *nPrb,
-U8 *mcs
-)
-#else
-S32 rgSCHUtlGetAllwdCchTbSz(bo, nPrb, mcs)
-U32 bo;
-U8 *nPrb;
-U8 *mcs;
-#endif
+S32 rgSCHUtlGetAllwdCchTbSz(uint32_t bo,uint8_t *nPrb,uint8_t *mcs)
{
S32 lt;
S32 cn;
* -# ROK
* -# RFAILED
**/
-#ifdef ANSI
-S16 rgSCHUtlHndlBcchPcchBoUpdt
-(
-RgSchCellCb *cell,
-RgInfCmnBoRpt *boUpdt
-)
-#else
-S16 rgSCHUtlHndlBcchPcchBoUpdt(cell, boUpdt)
-RgSchCellCb *cell;
-RgInfCmnBoRpt *boUpdt;
-#endif
+S16 rgSCHUtlHndlBcchPcchBoUpdt(RgSchCellCb *cell,RgInfCmnBoRpt *boUpdt)
{
RgSchClcDlLcCb *dlLc;
RgSchClcBoRpt *boRpt;
Inst inst = cell->instIdx;
- U8 nPrb=0;
- U8 mcs=0;
+ uint8_t nPrb=0;
+ uint8_t mcs=0;
dlLc = rgSCHDbmGetBcchOnBch(cell);
if (dlLc == NULLP)
{
- RLOG_ARG2(L_ERROR,DBG_CELLID,cell->cellId,
- "No Logical Channel dlLc is NULLP for RNTI:%d LCID:%d",boUpdt->u.rnti,boUpdt->lcId);
+ DU_LOG("\nERROR --> SCH : No Logical Channel dlLc is NULLP for RNTI:%d LCID:%d",boUpdt->u.rnti,boUpdt->lcId);
return RFAILED;
}
if (boUpdt->lcId != dlLc->lcId)
if (rgSCHUtlGetAllwdCchTbSz(boUpdt->bo*8, &nPrb, &mcs)
!= (boUpdt->bo*8))
{
- RLOG_ARG3(L_ERROR,DBG_CELLID,cell->cellId,"[%ld]BO: does not match any "
+ DU_LOG("\nERROR --> SCH : [%d]BO: does not match any "
"valid TB Size RNTI:%d LCID:%d", boUpdt->bo,boUpdt->u.rnti,boUpdt->lcId);
return RFAILED;
}
if ((dlLc = rgSCHDbmGetCmnLcCb(cell, boUpdt->lcId)) == NULLP)
{
/* Handle lcCb fetch failure */
- RLOG_ARG2(L_ERROR,DBG_CELLID,cell->cellId,
- "LCID:%d Invalid for RNTI:%d",boUpdt->lcId,boUpdt->u.rnti);
+ DU_LOG("\nERROR --> SCH : LCID:%d Invalid for RNTI:%d",boUpdt->lcId,boUpdt->u.rnti);
}
if (((rgSCHUtlAllocSBuf(inst, (Data **)(&boRpt), sizeof(RgSchClcBoRpt))) ==RFAILED) ||
(!boRpt))
{
- RLOG_ARG3(L_ERROR,DBG_CELLID,cell->cellId, "Allocation of common bo %dreport "
+ DU_LOG("\nERROR --> SCH : Allocation of common bo %dreport "
"failed RNTI:%d LCID:%d", boUpdt->bo,boUpdt->u.rnti,boUpdt->lcId);
return RFAILED;
}
* bind confirm API towards RRM.
*
* @param[in] SuId suId
- * @param[in] U8 status
+ * @param[in] uint8_t status
* @return S16
* -# ROK
* -# RFAILED
**/
-#ifdef ANSI
-S16 rgSCHUtlRgrBndCfm
-(
-Inst instId,
-SuId suId,
-U8 status
-)
-#else
-S16 rgSCHUtlRgrBndCfm(instId, suId, status)
-Inst instId;
-SuId suId;
-U8 status;
-#endif
+S16 rgSCHUtlRgrBndCfm(Inst instId,SuId suId,uint8_t status)
{
S16 ret = ROK;
ret = RgUiRgrBndCfm(&rgSchCb[instId].rgrSap[suId].sapCfg.sapPst, rgSchCb[instId].rgrSap[suId].sapCfg.suId, status);
if (ret != ROK)
{
- RLOG_ARG0(L_ERROR,DBG_INSTID,instId,"rgSCHUtlRgrBndCfm: RgUiRgrBndCfm Failed ");
+ DU_LOG("\nERROR --> SCH : rgSCHUtlRgrBndCfm: RgUiRgrBndCfm Failed ");
return (ret);
}
return (ret);
* This API fills in Pst structure and SAP Ids and invokes
*
* @param[in] SuId suId
- * @param[in] U8 status
+ * @param[in] uint8_t status
* @return S16
* -# ROK
* -# RFAILED
**/
-#ifdef ANSI
-S16 rgSCHUtlRgmBndCfm
-(
-Inst instId,
-SuId suId,
-U8 status
-)
-#else
-S16 rgSCHUtlRgmBndCfm(instId, suId, status)
-Inst instId;
-SuId suId;
-U8 status;
-#endif
+S16 rgSCHUtlRgmBndCfm(Inst instId,SuId suId,uint8_t status)
{
S16 ret = ROK;
ret = RgUiRgmBndCfm(&rgSchCb[instId].rgmSap[suId].sapCfg.sapPst, rgSchCb[instId].rgmSap[suId].sapCfg.suId, status);
if (ret != ROK)
{
- RLOG_ARG0(L_ERROR,DBG_INSTID,instId,"rgSCHUtlRgmBndCfm: RgUiRgrBndCfm Failed ");
+ DU_LOG("\nERROR --> SCH : rgSCHUtlRgmBndCfm: RgUiRgrBndCfm Failed ");
return (ret);
}
return (ret);
*
* @param[in] Pst pst
* @param[in] RgrCfgTransId transId
- * @param[in] U8 status
+ * @param[in] uint8_t status
* @return S16
* -# ROK
* -# RFAILED
**/
-#ifdef ANSI
-S16 schSendCfgCfm
-(
-Region reg,
-Pool pool,
-RgrCfgTransId transId,
-U8 status
-)
-#else
-S16 schSendCfgCfm(reg, pool, transId, status)
-Region reg;
-Pool pool;
-RgrCfgTransId transId;
-U8 status;
-#endif
+S16 schSendCfgCfm(Region reg,Pool pool,RgrCfgTransId transId,uint8_t status)
{
Pst cfmPst;
- Inst inst = 0;
memset((&cfmPst), 0, sizeof(Pst));
if(RgUiRgrCfgCfm(&cfmPst,transId, status) != ROK)
{
- RLOG_ARG0(L_ERROR,DBG_INSTID,inst,"schSendCfgCfm: RgUiRgrCfgCfm Failed");
- printf("\nschSendCfgCfm: RgUiRgrCfgCfm Failed ");
+ DU_LOG("\nERROR --> SCH : schSendCfgCfm: RgUiRgrCfgCfm Failed ");
return RFAILED;
}
return ROK;
* -# ROK
* -# RFAILED
**/
-#ifdef ANSI
-S16 rgSCHUtlRgrTtiInd
-(
-RgSchCellCb *cell,
-RgrTtiIndInfo *rgrTti
-)
-#else
-S16 rgSCHUtlRgrTtiInd(cell, rgrTti)
-RgSchCellCb *cell;
-RgrTtiIndInfo *rgrTti;
-#endif
+S16 rgSCHUtlRgrTtiInd(RgSchCellCb *cell,RgrTtiIndInfo *rgrTti)
{
S16 ret = ROK;
RgSchUpSapCb *rgrSap; /*!< RGR SAP Control Block */
#ifdef L2_L3_SPLIT
- extern Bool g_usettitmr;
- extern Void mtTmrHdlrPublic(void);
+ Bool g_usettitmr;
+ Void mtTmrHdlrPublic(void);
#endif
rgrSap = cell->rgrSap;
if (rgrSap->sapSta.sapState != LRG_BND)
{
- RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,
- "rgSCHUtlRgrTtiInd() Upper SAP not bound (%d) ",
+ DU_LOG("\nERROR --> SCH : rgSCHUtlRgrTtiInd() Upper SAP not bound (%d) ",
rgrSap->sapSta.sapState);
return RFAILED;
}
* -# ROK
* -# RFAILED
*/
-#ifdef ANSI
S16 rgSCHUtlProcMsg3
(
RgInfSfDatInd *subfrmInfo,
CmLteRnti rnti,
RgInfUeDatInd *pdu,
RgSchErrInfo *err
- )
-#else
-S16 rgSCHUtlProcMsg3 (subfrmInfo, cellCb, ueCb, rnti, pdu, err)
-RgInfSfDatInd *subfrmInfo;
-RgSchCellCb *cellCb;
-RgSchUeCb *ueCb;
-CmLteRnti rnti;
-RgInfUeDatInd *pdu;
-RgSchErrInfo *err;
-#endif
+)
{
S16 ret;
RgSchRaCb *raCb;
raCb = rgSCHDbmGetRaCb (cellCb, rnti);
if (raCb == NULLP)
{
- RLOG_ARG1(L_ERROR,DBG_CELLID,cellCb->cellId, "RNTI:%d Received MSG3, unable to "
+ DU_LOG("\nERROR --> SCH : RNTI:%d Received MSG3, unable to "
"find raCb",rnti);
return RFAILED;
}
ret = rgSCHRamProcMsg3 (cellCb, ueCb, raCb, pdu, err);
if (ret != ROK)
{
- RLOG_ARG1(L_ERROR,DBG_CELLID,cellCb->cellId,"Processing failed in the RAM "
+ DU_LOG("\nERROR --> SCH : Processing failed in the RAM "
"RNTI:%d ",rnti);
return (ret);
}
* -# ROK
* -# RFAILED
*/
-#ifdef ANSI
-S16 rgSCHUtlSpsRelInd
-(
-RgSchCellCb *cellCb,
-RgSchUeCb *ueCb,
-Bool isExplRel
-)
-#else
-S16 rgSCHUtlSpsRelInd (cellCb, ueCb, isExplRel)
-RgSchCellCb *cellCb;
-RgSchUeCb *ueCb;
-Bool isExplRel;
-#endif
+S16 rgSCHUtlSpsRelInd(RgSchCellCb *cellCb,RgSchUeCb *ueCb,Bool isExplRel)
{
cellCb->sc.apis->rgSCHUlSpsRelInd(cellCb, ueCb, isExplRel);
return ROK;
*
* @param [in] RgSchCellCb *cellCb
* @param [in] RgSchUeCb *ueCb
- * @param [in] U16 spsSduSize
+ * @param [in] uint16_t spsSduSize
* @param
* @return S16
* -# ROK
* -# RFAILED
*/
-#ifdef ANSI
-S16 rgSCHUtlSpsActInd
-(
-RgSchCellCb *cellCb,
-RgSchUeCb *ueCb,
-U16 spsSduSize
-)
-#else
-S16 rgSCHUtlSpsActInd (cellCb, ueCb, spsSduSize)
-RgSchCellCb *cellCb;
-RgSchUeCb *ueCb;
-U16 spsSduSize;
-#endif
+S16 rgSCHUtlSpsActInd(RgSchCellCb *cellCb,RgSchUeCb *ueCb,uint16_t spsSduSize)
{
cellCb->sc.apis->rgSCHUlSpsActInd(cellCb, ueCb, spsSduSize);
return ROK;
* -# ROK
* -# RFAILED
**/
-#ifdef ANSI
-S16 rgSCHUtlTfuGrpPwrCntrlReq
-(
-Inst inst,
-S16 sapId,
-TfuGrpPwrCntrlReqInfo *grpPwrCntrlReq
-)
-#else
-S16 rgSCHUtlTfuGrpPwrCntrlReq(inst, sapId, grpPwrCntrlReq)
-Inst inst;
-S16 sapId;
-TfuGrpPwrCntrlReqInfo *grpPwrCntrlReq;
-#endif
+S16 rgSCHUtlTfuGrpPwrCntrlReq(Inst inst,S16 sapId,TfuGrpPwrCntrlReqInfo *grpPwrCntrlReq)
{
S16 ret;
RgSchLowSapCb *tfuSap;
Pst pst;
-
/* Get the lower SAP control block from the layer control block. */
tfuSap = &(rgSchCb[inst].tfuSap[sapId]);
if (tfuSap->sapSta.sapState != LRG_BND)
{
- RLOG_ARG1(L_ERROR,DBG_CELLID,grpPwrCntrlReq->cellId,
- "rgSCHUtlTfuGrpPwrCntrlReq() Lower SAP not bound (%d) ",tfuSap->sapSta.sapState);
+ DU_LOG("\nERROR --> SCH : rgSCHUtlTfuGrpPwrCntrlReq() Lower SAP not bound (%d) ",tfuSap->sapSta.sapState);
return RFAILED;
}
memcpy (&pst, &(tfuSap->sapCfg.sapPst), sizeof(Pst));
if((ret = RgLiTfuGrpPwrCntrlReq (&pst, tfuSap->sapCfg.spId, grpPwrCntrlReq)) != ROK)
{
- RLOG_ARG0(L_ERROR,DBG_CELLID,grpPwrCntrlReq->cellId,
- "rgSCHUtlTfuGrpPwrCntrlReq() Call to RgLiTfuGrpPwrCntrlReq() failed");
+ DU_LOG("\nERROR --> SCH : rgSCHUtlTfuGrpPwrCntrlReq() Call to RgLiTfuGrpPwrCntrlReq() failed");
}
return (ret);
} /* rgSCHUtlTfuGrpPwrCntrlReq */
#endif
-/**
- * @brief This API is invoked to send Control Info to PHY.
- *
- * @details
- *
- * Function : rgSCHUtlTfuCntrlReq
- *
- * This API is invoked to send Control Info to PHY. It
- * fills in the Pst structure, spId value and invokes Cntrl
- * request primitive at TFU.
- *
- * @param[in] TfuCntrlReqInfo *cntrlReq
- * @return S16
- * -# ROK
- * -# RFAILED
- **/
-#ifdef ANSI
-S16 rgSCHUtlTfuCntrlReq
-(
-Inst inst,
-S16 sapId,
-TfuCntrlReqInfo *cntrlReq
-)
-#else
-S16 rgSCHUtlTfuCntrlReq(inst, sapId, cntrlReq)
-Inst inst;
-S16 sapId;
-TfuCntrlReqInfo *cntrlReq;
-#endif
-{
- S16 ret;
- RgSchLowSapCb *tfuSap;
-
- /* Get the lower SAP control block from the layer control block. */
- tfuSap = &(rgSchCb[inst].tfuSap[sapId]);
-
-#ifndef NO_ERRCLS
- if (tfuSap->sapSta.sapState != LRG_BND)
- {
- RLOG_ARG1(L_ERROR,DBG_INSTID,inst,"rgSCHUtlTfuCntrlReq() Lower SAP not bound (%d) ",
- tfuSap->sapSta.sapState);
- RGSCH_FREE_MEM(cntrlReq);
- return RFAILED;
- }
-#endif
-
- /* Using local variable for pst is unnecessary - for optimization */
- if((ret = RgLiTfuCntrlReq(&tfuSap->sapCfg.sapPst, tfuSap->sapCfg.spId,
- cntrlReq)) != ROK)
- {
- RLOG_ARG0(L_ERROR,DBG_INSTID,inst,"rgSCHUtlTfuCntrlReq() Call to RgLiTfuCntrlReq() failed");
- }
- return (ret);
-} /* rgSCHUtlTfuCntrlReq*/
-
-
/* FOR ACK NACK REP */
/**
* -# ROK
* -# RFAILED
**/
-#ifdef ANSI
-S16 rgSCHUtlDlActvtUe
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue
-)
-#else
-S16 rgSCHUtlDlActvtUe(cell, ue)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-#endif
+S16 rgSCHUtlDlActvtUe(RgSchCellCb *cell,RgSchUeCb *ue)
{
cell->sc.apis->rgSCHActvtDlUe(cell, ue);
return ROK;
* -# ROK
* -# RFAILED
**/
-#ifdef ANSI
-S16 rgSCHUtlUlActvtUe
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue
-)
-#else
-S16 rgSCHUtlUlActvtUe(cell, ue)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-#endif
+S16 rgSCHUtlUlActvtUe(RgSchCellCb *cell,RgSchUeCb *ue)
{
cell->sc.apis->rgSCHActvtUlUe(cell, ue);
return ROK;
}
-/**
- * @brief This API is invoked to send Reception Request Info to PHY.
- *
- * @details
- *
- * Function : rgSCHUtlTfuRecpReq
- *
- * This API is invoked to send Reception Request Info to PHY. It
- * fills in the Pst structure, spId value and invokes Reception
- * request primitive at TFU.
- *
- * @param[in] TfuRecpReqInfo *recpReq
- * @return S16
- * -# ROK
- * -# RFAILED
- **/
-#ifdef ANSI
-S16 rgSCHUtlTfuRecpReq
-(
-Inst inst,
-S16 sapId,
-TfuRecpReqInfo *recpReq
-)
-#else
-S16 rgSCHUtlTfuRecpReq(inst, sapId, recpReq)
-Inst inst;
-S16 sapId;
-TfuRecpReqInfo *recpReq;
-#endif
-{
- S16 ret;
- RgSchLowSapCb *tfuSap;
-
-
- /* Get the lower SAP control block from the layer control block. */
- tfuSap = &(rgSchCb[inst].tfuSap[sapId]);
-
-#ifndef NO_ERRCLS
- if (tfuSap->sapSta.sapState != LRG_BND)
- {
- RLOG_ARG1(L_ERROR,DBG_INSTID,inst,"rgSCHUtlTfuRecpReq() Lower SAP not bound (%d) ",
- tfuSap->sapSta.sapState);
- RGSCH_FREE_MEM(recpReq);
- return RFAILED;
- }
-#endif
-
- /* Using local variable for pst is unnecessary - for optimization */
- if((ret = RgLiTfuRecpReq(&tfuSap->sapCfg.sapPst, tfuSap->sapCfg.spId,
- recpReq)) != ROK)
- {
- RLOG_ARG0(L_ERROR,DBG_INSTID,inst,"rgSCHUtlTfuRecpReq() Call to RgLiTfuRecpReq() failed");
- }
- return (ret);
-} /* rgSCHUtlTfuRecpReq */
-
/** @brief This function Validates the SAP information received along with the
* primitive from the lower layer.
*
* -# ROK
* -# RFAILED
*/
-#ifdef ANSI
-S16 rgSCHUtlValidateTfuSap
-(
-Inst inst,
-SuId suId
-)
-#else
-S16 rgSCHUtlValidateTfuSap(inst, suId)
-Inst inst;
-SuId suId;
-#endif
+S16 rgSCHUtlValidateTfuSap(Inst inst,SuId suId)
{
RgSchLowSapCb *tfuSap;
if(suId >= rgSchCb[inst].numSaps)
{
- RLOG_ARG0(L_ERROR,DBG_INSTID,inst, "Incorrect SuId");
+ DU_LOG("\nERROR --> SCH : Incorrect SuId");
return RFAILED;
}
tfuSap = &(rgSchCb[inst].tfuSap[suId]);
/* First lets check the suId */
if( suId != tfuSap->sapCfg.suId)
{
- RLOG_ARG2(L_ERROR,DBG_INSTID,inst,"Incorrect SuId. Configured (%d) Recieved (%d)",
+ DU_LOG("\nERROR --> SCH : Incorrect SuId. Configured (%d) Recieved (%d)",
tfuSap->sapCfg.suId, suId);
return RFAILED;
}
if (tfuSap->sapSta.sapState != LRG_BND)
{
- RLOG_ARG1(L_ERROR,DBG_INSTID,inst,"Lower SAP not enabled SuId (%d)",
+ DU_LOG("\nERROR --> SCH : Lower SAP not enabled SuId (%d)",
tfuSap->sapCfg.suId);
return RFAILED;
}
* File: rg_utl.c
*
*/
-#ifdef ANSI
-S16 rgSCHUtlAllocEventMem
-(
-Inst inst,
-Ptr *memPtr,
-Size memSize
-)
-#else
-S16 rgSCHUtlAllocEventMem(inst, memPtr, memSize)
-Inst inst;
-Ptr *memPtr;
-Size memSize;
-#endif
+S16 rgSCHUtlAllocEventMem(Inst inst,Ptr *memPtr,Size memSize)
{
- Mem sMem;
- VOLATILE U32 startTime=0;
+ Mem sMem;
+ volatile uint32_t startTime=0;
+
sMem.region = rgSchCb[inst].rgSchInit.region;
sMem.pool = rgSchCb[inst].rgSchInit.pool;
#if (ERRCLASS & ERRCLS_DEBUG)
if (memSize<= 0)
{
- RGSCHLOGERROR(inst, ERRCLS_INT_PAR, ERG022, memSize,
- "rgAllocEventMem(): memSize invalid\n");
+ DU_LOG("\nERROR --> SCH : rgAllocEventMem(): memSize invalid\n");
return (RFAILED);
}
#endif /* ERRCLASS & ERRCLS_DEBUG */
if(ROK != cmAllocEvnt(memSize, TFU_MAX_MEMBLK_SIZE, &sMem, memPtr))
#endif /* */
{
- RLOG_ARG0(L_ERROR,DBG_INSTID,inst,"cmAllocEvnt Failed.");
+ DU_LOG("\nERROR --> SCH : cmAllocEvnt Failed.");
return RFAILED;
}
/*stoping Task*/
* File: rg_utl.c
*
*/
-#ifdef ANSI
-S16 rgSCHUtlGetEventMem
-(
-Ptr *ptr,
-Size len,
-Ptr memCp
-)
-#else
-S16 rgSCHUtlGetEventMem(ptr, len, memCp)
-Ptr *ptr;
-Size len;
-Ptr memCp;
-#endif
+S16 rgSCHUtlGetEventMem(Ptr *ptr,Size len,Ptr memCp)
{
S16 ret;
* @param[in] RgSchUeCb *ue
* @return S16
**/
-#ifdef ANSI
-S16 rgSCHUtlAllocUeANFdbkInfo
-(
-RgSchUeCb *ue,
-U8 servCellIdx
-)
-#else
-S16 rgSCHUtlAllocUeANFdbkInfo(ue,servCellIdx)
-RgSchUeCb *ue;
-U8 servCellIdx;
-#endif
+S16 rgSCHUtlAllocUeANFdbkInfo(RgSchUeCb *ue,uint8_t servCellIdx)
{
- U8 idx;
+ uint8_t idx;
if (rgSCHUtlAllocSBuf(ue->cell->instIdx,
(Data **) &(ue->cellInfo[servCellIdx]->anInfo), sizeof(RgSchTddANInfo) * \
- ue->cell->ackNackFdbkArrSize) != ROK)
+ ue->cell->ackNackFdbkArrSize) != ROK)
{
return RFAILED;
}
* @param[in] RgSchUeCb *ue
* @return Void
**/
-#ifdef ANSI
-Void rgSCHUtlDelUeANFdbkInfo
-(
-RgSchUeCb *ue,
-U8 servCellIdx
-)
-#else
-Void rgSCHUtlDelUeANFdbkInfo(ue,servCellIdx)
-RgSchUeCb *ue;
-U8 servCellIdx;
-#endif
+Void rgSCHUtlDelUeANFdbkInfo(RgSchUeCb *ue,uint8_t servCellIdx)
{
/* ccpu00117052 - MOD - Passing double pointer
(Data **)(&( ue->cellInfo[servCellIdx]->anInfo)), sizeof(RgSchTddANInfo) * \
ue->cell->ackNackFdbkArrSize);
- RETVOID;
+ return;
} /* rgSCHUtlDelUeANFdbkInfo */
/**
* @param[in] RgSchTddANInfo *anFdInfo
* @return S16
**/
-#ifdef ANSI
-S16 rgSCHUtlInitUeANFdbkInfo
-(
-RgSchTddANInfo *anFdInfo
-)
-#else
-S16 rgSCHUtlInitUeANFdbkInfo(anFdInfo)
-RgSchTddANInfo *anFdInfo;
-#endif
+S16 rgSCHUtlInitUeANFdbkInfo(RgSchTddANInfo *anFdInfo)
{
anFdInfo->sfn = RGSCH_MAX_SFN+1; /* defensively setting invalid sfn */
* @param[in] CmLteTimingInfo *time
* @return RgSchTddANInfo*
**/
-#ifdef ANSI
-RgSchTddANInfo* rgSCHUtlGetUeANFdbkInfo
-(
-RgSchUeCb *ueCb,
-CmLteTimingInfo *timeInfo,
-U8 servCellIdx
-)
-#else
-RgSchTddANInfo* rgSCHUtlGetUeANFdbkInfo(ueCb, timeInfo,servCellIdx)
-RgSchUeCb *ueCb;
-CmLteTimingInfo *timeInfo;
-U8 servCellIdx;
-#endif
+RgSchTddANInfo* rgSCHUtlGetUeANFdbkInfo(RgSchUeCb *ueCb,CmLteTimingInfo *timeInfo,uint8_t servCellIdx)
{
- U8 idx;
+ uint8_t idx;
for (idx = 0; idx < ueCb->cell->ackNackFdbkArrSize; ++idx)
{
*
* @param[in] CmLteTimingInfo *timeInfo
* @param[in] RgSchCellCb *cell
- * @return U8
+ * @return uint8_t
*
**/
-#ifdef ANSI
-U8 rgSCHUtlGetDlSfIdx
-(
-RgSchCellCb *cell,
-CmLteTimingInfo *timeInfo
-)
-#else
-U8 rgSCHUtlGetDlSfIdx(cell, timeInfo)
-RgSchCellCb *cell;
-CmLteTimingInfo *timeInfo;
-#endif
+uint8_t rgSCHUtlGetDlSfIdx(RgSchCellCb *cell,CmLteTimingInfo *timeInfo)
{
- U16 idx = 0;
+ uint16_t idx = 0;
idx = RGSCH_NUM_SUB_FRAMES - \
rgSchTddNumUlSubfrmTbl[cell->ulDlCfgIdx][RGSCH_NUM_SUB_FRAMES-1];
rgSchTddNumDlSubfrmTbl[cell->ulDlCfgIdx][timeInfo->slot]) - 1;
idx = idx % cell->numDlSubfrms;
- return ((U8)idx);
+ return ((uint8_t)idx);
}
/**
* @param[in] RgSchDlSf *dlSf
* @param[in] RgSchDlSf **nxtDlsf
* @param[in] CmLteTimingInfo *nxtDlTime
- * @return U8
+ * @return uint8_t
*
**/
-#ifdef ANSI
-Void rgSCHUtlGetNxtDlSfInfo
-(
-CmLteTimingInfo curDlTime,
-RgSchCellCb *cell,
-RgSchDlSf *dlSf,
-RgSchDlSf **nxtDlsf,
-CmLteTimingInfo *nxtDlTime
-)
-#else
-Void rgSCHUtlGetNxtDlSfInfo(curDlTime, cell, dlSf, nxtDlsf, nxtDlTime)
-CmLteTimingInfo curDlTime;
-RgSchCellCb *cell;
-RgSchDlSf *dlSf;
-RgSchDlSf **nxtDlsf;
-CmLteTimingInfo *nxtDlTime;
-#endif
+Void rgSCHUtlGetNxtDlSfInfo(CmLteTimingInfo curDlTime,RgSchCellCb *cell,RgSchDlSf *dlSf,RgSchDlSf **nxtDlsf,CmLteTimingInfo *nxtDlTime)
{
- U16 idx = curDlTime.slot;
- U8 count = 0;
+ uint16_t idx = curDlTime.slot;
+ uint8_t count = 0;
while(TRUE)
{
break;
}
}
- RETVOID;
+ return;
}
/**
* @param[in] RgSchCellCb *cell
* @param[in] CmLteTimingInfo curDlTime
* @param[in] CmLteTimingInfo *prevDlTime
- * @param[in] U8 *numSubfrm
- * @return U8
+ * @param[in] uint8_t *numSubfrm
+ * @return uint8_t
*
**/
-#ifdef ANSI
-Void rgSCHUtlGetPrevDlSfInfo
-(
-RgSchCellCb *cell,
-CmLteTimingInfo curDlTime,
-CmLteTimingInfo *prevDlTime,
-U8 *numSubfrm
-)
-#else
-Void rgSCHUtlGetPrevDlSfInfo(cell, curDlTime, prevDlTime, numSubfrm)
-RgSchCellCb *cell;
-CmLteTimingInfo curDlTime;
-CmLteTimingInfo *prevDlTime;
-U8 *numSubfrm;
-#endif
+Void rgSCHUtlGetPrevDlSfInfo(RgSchCellCb *cell,CmLteTimingInfo curDlTime,CmLteTimingInfo *prevDlTime,uint8_t *numSubfrm)
{
S16 idx = curDlTime.slot;
- U8 count = 0;
+ uint8_t count = 0;
do
{
!= RG_SCH_TDD_DL_slot);
*numSubfrm = count;
RGSCHDECRFRMCRNTTIME(curDlTime, (*prevDlTime), count);
- RETVOID;
+ return;
}
#endif
* File :
*
**********************************************************/
-#ifdef ANSI
-S16 rgSCHUtlUlSfInit
-(
-RgSchCellCb *cell,
-RgSchUlSf *sf,
-U8 idx,
-U8 maxUePerSf
-)
-#else
-S16 rgSCHUtlUlSfInit(cell, sf, idx, maxUePerSf)
-RgSchCellCb *cell;
-RgSchUlSf *sf;
-U8 idx;
-U8 maxUePerSf;
-#endif
+S16 rgSCHUtlUlSfInit(RgSchCellCb *cell,RgSchUlSf *sf,uint8_t idx,uint8_t maxUePerSf)
{
S16 ret=ROK;
sf->idx = idx;
#ifdef RG_5GTF
- U8 index;
+ uint8_t index;
#endif
#ifdef LTE_TDD
return (ret);
}
/* Initialize the hole with CFI 1 Pusch Bw Info */
- ret = rgSCHUtlUlHoleDbInit(cell, sf->holeDb, (U8)(maxUePerSf + 2), \
+ ret = rgSCHUtlUlHoleDbInit(cell, sf->holeDb, (uint8_t)(maxUePerSf + 2), \
0, cell->dynCfiCb.bwInfo[1].numSb);
if (ret != ROK)
* File :
*
**********************************************************/
-#ifdef ANSI
-Void rgSCHUtlUlSfDeinit
-(
-RgSchCellCb *cell,
-RgSchUlSf *sf
-)
-#else
-Void rgSCHUtlUlSfDeinit(cell, sf)
-RgSchCellCb *cell;
-RgSchUlSf *sf;
-#endif
+Void rgSCHUtlUlSfDeinit(RgSchCellCb *cell,RgSchUlSf *sf)
{
if (sf->allocDb)
{
rgSCHUtlFreeSBuf(cell->instIdx, (Data **)(&(sf->holeDb)),
sizeof(RgSchUlHoleDb));
}
- RETVOID;
+ return;
}
/***********************************************************
* File :
*
**********************************************************/
-#ifdef ANSI
-PRIVATE S16 rgSCHUtlUlAllocDbInit
-(
-RgSchCellCb *cell,
-RgSchUlAllocDb *allocDb,
-U8 maxAllocs
-)
-#else
-PRIVATE S16 rgSCHUtlUlAllocDbInit(cell, allocDb, maxAllocs)
-RgSchCellCb *cell;
-RgSchUlAllocDb *allocDb;
-U8 maxAllocs;
-#endif
+static S16 rgSCHUtlUlAllocDbInit(RgSchCellCb *cell,RgSchUlAllocDb *allocDb,uint8_t maxAllocs)
{
S16 ret = rgSCHUtlUlAllocMemInit(cell, &allocDb->mem, maxAllocs);
if (ret != ROK)
* File :
*
**********************************************************/
-#ifdef ANSI
-PRIVATE Void rgSCHUtlUlAllocDbDeinit
-(
-RgSchCellCb *cell,
-RgSchUlAllocDb *allocDb
-)
-#else
-PRIVATE Void rgSCHUtlUlAllocDbDeinit(cell, allocDb)
-RgSchCellCb *cell;
-RgSchUlAllocDb *allocDb;
-#endif
+static Void rgSCHUtlUlAllocDbDeinit(RgSchCellCb *cell,RgSchUlAllocDb *allocDb)
{
rgSCHUtlUlAllocMemDeinit(cell, &allocDb->mem);
allocDb->count = 0;
allocDb->first = NULLP;
- RETVOID;
+ return;
}
/***********************************************************
* File :
*
**********************************************************/
-#ifdef ANSI
-PRIVATE S16 rgSCHUtlUlHoleDbInit
-(
-RgSchCellCb *cell,
-RgSchUlHoleDb *holeDb,
-U8 maxHoles,
-U8 start,
-U8 num
-)
-#else
-PRIVATE S16 rgSCHUtlUlHoleDbInit(cell, holeDb, maxHoles, start, num)
-RgSchCellCb *cell;
-RgSchUlHoleDb *holeDb;
-U8 maxHoles;
-U8 start;
-U8 num;
-#endif
+static S16 rgSCHUtlUlHoleDbInit(RgSchCellCb *cell,RgSchUlHoleDb *holeDb,uint8_t maxHoles,uint8_t start,uint8_t num)
{
S16 ret;
RgSchUlHole *hole = NULLP;
* File :
*
**********************************************************/
-#ifdef ANSI
-PRIVATE Void rgSCHUtlUlHoleDbDeinit
-(
-RgSchCellCb *cell,
-RgSchUlHoleDb *holeDb
-)
-#else
-PRIVATE Void rgSCHUtlUlHoleDbDeinit(cell, holeDb)
-RgSchCellCb *cell;
-RgSchUlHoleDb *holeDb;
-#endif
+static Void rgSCHUtlUlHoleDbDeinit(RgSchCellCb *cell,RgSchUlHoleDb *holeDb)
{
rgSCHUtlUlHoleMemDeinit(cell, &holeDb->mem);
holeDb->count = 0;
holeDb->first = NULLP;
- RETVOID;
+ return;
}
* File :
*
**********************************************************/
-#ifdef ANSI
-RgSchUlAlloc *rgSCHUtlUlAllocGetHole
-(
-RgSchUlSf *sf,
-U8 numSb,
-RgSchUlHole *hole
-)
-#else
-RgSchUlAlloc *rgSCHUtlUlAllocGetHole(sf, numSb, hole)
-RgSchUlSf *sf;
-U8 numSb;
-RgSchUlHole *hole;
-#endif
+RgSchUlAlloc *rgSCHUtlUlAllocGetHole(RgSchUlSf *sf,uint8_t numSb,RgSchUlHole *hole)
{
if (numSb < hole->num)
{
* File :
*
**********************************************************/
-#ifdef ANSI
-RgSchUlAlloc *rgSCHUtlUlAllocGetCompHole
-(
-RgSchUlSf *sf,
-RgSchUlHole *hole
-)
-#else
-RgSchUlAlloc *rgSCHUtlUlAllocGetCompHole(sf, hole)
-RgSchUlSf *sf;
-RgSchUlHole *hole;
-#endif
+RgSchUlAlloc *rgSCHUtlUlAllocGetCompHole(RgSchUlSf *sf,RgSchUlHole *hole)
{
RgSchUlAlloc *alloc;
/* alloc = rgSCHUtlUlAllocGetAndIns(sf->allocDb, hole->prvAlloc, hole->nxtAlloc); */
* File :
*
**********************************************************/
-#ifdef ANSI
-RgSchUlAlloc *rgSCHUtlUlAllocGetPartHole
-(
-RgSchUlSf *sf,
-U8 numSb,
-RgSchUlHole *hole
-)
-#else
-RgSchUlAlloc *rgSCHUtlUlAllocGetPartHole(sf, numSb, hole)
-RgSchUlSf *sf;
-U8 numSb;
-RgSchUlHole *hole;
-#endif
+RgSchUlAlloc *rgSCHUtlUlAllocGetPartHole(RgSchUlSf *sf,uint8_t numSb,RgSchUlHole *hole)
{
RgSchUlAlloc *alloc;
/* alloc = rgSCHUtlUlAllocGetAndIns(sf->allocDb, hole->prvAlloc, hole->nxtAlloc); */
* File :
*
**********************************************************/
-#ifdef ANSI
-RgSchUlAlloc *rgSCHUtlUlAllocFirst
-(
-RgSchUlSf *sf
-)
-#else
-RgSchUlAlloc *rgSCHUtlUlAllocFirst(sf)
-RgSchUlSf *sf;
-#endif
+RgSchUlAlloc *rgSCHUtlUlAllocFirst(RgSchUlSf *sf)
{
return (sf->allocDb->first);
}
* File :
*
**********************************************************/
-#ifdef ANSI
-RgSchUlAlloc *rgSCHUtlUlAllocNxt
-(
-RgSchUlSf *sf,
-RgSchUlAlloc *alloc
-)
-#else
-RgSchUlAlloc *rgSCHUtlUlAllocNxt(sf, alloc)
-RgSchUlSf *sf;
-RgSchUlAlloc *alloc;
-#endif
+RgSchUlAlloc *rgSCHUtlUlAllocNxt(RgSchUlSf *sf,RgSchUlAlloc *alloc)
{
UNUSED(sf);
return (alloc->nxt);
* File :
*
**********************************************************/
-#ifdef ANSI
-RgSchUlAlloc *rgSCHUtlUlAllocGetAdjNxt
-(
-RgSchUlAllocDb *db,
-RgSchUlAlloc *prv
-)
-#else
-RgSchUlAlloc *rgSCHUtlUlAllocGetAdjNxt(db, prv)
-RgSchUlAllocDb *db;
-RgSchUlAlloc *prv;
-#endif
+RgSchUlAlloc *rgSCHUtlUlAllocGetAdjNxt(RgSchUlAllocDb *db,RgSchUlAlloc *prv)
{
RgSchUlAlloc *alloc = rgSCHUtlUlAllocMemGet(&db->mem);
RgSchUlAlloc *nxt = prv->nxt;
* File :
*
**********************************************************/
-#ifdef ANSI
-RgSchUlAlloc *rgSCHUtlUlAllocGetFirst
-(
-RgSchUlAllocDb *db
-)
-#else
-RgSchUlAlloc *rgSCHUtlUlAllocGetFirst(db)
-RgSchUlAllocDb *db;
-#endif
+RgSchUlAlloc *rgSCHUtlUlAllocGetFirst(RgSchUlAllocDb *db)
{
RgSchUlAlloc *alloc = rgSCHUtlUlAllocMemGet(&db->mem);
RgSchUlAlloc *nxt = db->first;
* Notes:
*
* File :
- *
- **********************************************************/
-#ifdef ANSI
-Void rgSCHUtlUlHoleAddAllocation
-(
-RgSchUlAlloc *alloc
-)
-#else
-Void rgSCHUtlUlHoleAddAllocation(alloc)
-RgSchUlAlloc *alloc;
-#endif
+ *
+ **********************************************************/
+Void rgSCHUtlUlHoleAddAllocation(RgSchUlAlloc *alloc)
{
/* Note: rgSchCmnUlHoleUpdAllocLnks function that is used should not exist as
* one, if such excessive branching is done (AllocNone, AllocNoPrv etc).
else
rgSCHUtlUlHoleNew(db, alloc);
}
- RETVOID;
+ return;
}
* File :
*
**********************************************************/
-#ifdef ANSI
-Void rgSCHUtlUlAllocRelease
-(
-RgSchUlAlloc *alloc
-)
-#else
-Void rgSCHUtlUlAllocRelease(alloc)
-RgSchUlAlloc *alloc;
-#endif
+Void rgSCHUtlUlAllocRelease(RgSchUlAlloc *alloc)
{
RgSchUlAllocDb *allocDb = alloc->allocDbRef;
RgSchUlAlloc *prv = alloc->prv;
rgSCHUtlUlHoleAddAllocation(alloc);
rgSCHUtlUlAllocMemRls(&allocDb->mem, alloc);
- RETVOID;
+ return;
}
* File :
*
**********************************************************/
-#ifdef ANSI
-Void rgSCHUtlUlAllocRls
-(
-RgSchUlSf *sf,
-RgSchUlAlloc *alloc
-)
-#else
-Void rgSCHUtlUlAllocRls(sf, alloc)
-RgSchUlSf *sf;
-RgSchUlAlloc *alloc;
-#endif
+Void rgSCHUtlUlAllocRls(RgSchUlSf *sf,RgSchUlAlloc *alloc)
{
RgSchUlAllocDb *allocDb = sf->allocDb;
RgSchUlAlloc *prv = alloc->prv;
else
{
- printf("\nError: allocDb->count is ZERO ====\n");
+ DU_LOG("\nERROR --> SCH : allocDb->count is ZERO ");
}
- //printf("\nallocDb->count:%u\n",allocDb->count);
+ //DU_LOG("\nallocDb->count:%u\n",allocDb->count);
- RETVOID;
+ return;
}
/***********************************************************
* File :
*
**********************************************************/
-#ifdef ANSI
-RgSchUlHole *rgSCHUtlUlHoleFirst
-(
-RgSchUlSf *sf
-)
-#else
-RgSchUlHole *rgSCHUtlUlHoleFirst(sf)
-RgSchUlSf *sf;
-#endif
+RgSchUlHole *rgSCHUtlUlHoleFirst(RgSchUlSf *sf)
{
return (sf->holeDb->first);
}
* File :
*
**********************************************************/
-#ifdef ANSI
-RgSchUlHole *rgSCHUtlUlHoleNxt
-(
-RgSchUlSf *sf,
-RgSchUlHole *hole
-)
-#else
-RgSchUlHole *rgSCHUtlUlHoleNxt(sf, hole)
-RgSchUlSf *sf;
-RgSchUlHole *hole;
-#endif
+RgSchUlHole *rgSCHUtlUlHoleNxt(RgSchUlSf *sf,RgSchUlHole *hole)
{
UNUSED(sf);
return (hole->nxt);
* File :
*
**********************************************************/
-#ifdef ANSI
-Void rgSCHUtlUlHoleAddAlloc
-(
-RgSchUlSf *sf,
-RgSchUlAlloc *alloc
-)
-#else
-Void rgSCHUtlUlHoleAddAlloc(sf, alloc)
-RgSchUlSf *sf;
-RgSchUlAlloc *alloc;
-#endif
+Void rgSCHUtlUlHoleAddAlloc(RgSchUlSf *sf,RgSchUlAlloc *alloc)
{
/* Note: rgSchCmnUlHoleUpdAllocLnks function that is used should not exist as
* one, if such excessive branching is done (AllocNone, AllocNoPrv etc).
/* increment the number of subbands getting freed to total available list */
sf->availSubbands += alloc->numSb;
- RETVOID;
+ return;
}
/***********************************************************
* File :
*
**********************************************************/
-#ifdef ANSI
-Void rgSCHUtlUlHoleJoin
-(
-RgSchUlHoleDb *db,
-RgSchUlHole *prv,
-RgSchUlHole *nxt,
-RgSchUlAlloc *alloc
-)
-#else
-Void rgSCHUtlUlHoleJoin(db, prv, nxt, alloc)
-RgSchUlHoleDb *db;
-RgSchUlHole *prv;
-RgSchUlHole *nxt;
-RgSchUlAlloc *alloc;
-#endif
+Void rgSCHUtlUlHoleJoin(RgSchUlHoleDb *db,RgSchUlHole *prv,RgSchUlHole *nxt,RgSchUlAlloc *alloc)
{
prv->num += alloc->numSb + nxt->num;
rgSCHUtlUlHoleRls(db, nxt);
rgSCHUtlUlHoleIncr(db, prv);
rgSCHUtlUlHoleUpdAllocLnks(prv, alloc->prv, alloc->nxt);
- RETVOID;
+ return;
}
/***********************************************************
* File :
*
**********************************************************/
-#ifdef ANSI
-Void rgSCHUtlUlHoleExtndRight
-(
-RgSchUlHoleDb *db,
-RgSchUlHole *prv,
-RgSchUlAlloc *alloc
-)
-#else
-Void rgSCHUtlUlHoleExtndRight(db, prv, alloc)
-RgSchUlHoleDb *db;
-RgSchUlHole *prv;
-RgSchUlAlloc *alloc;
-#endif
+Void rgSCHUtlUlHoleExtndRight(RgSchUlHoleDb *db,RgSchUlHole *prv,RgSchUlAlloc *alloc)
{
prv->num += alloc->numSb;
rgSCHUtlUlHoleIncr(db, prv);
rgSCHUtlUlHoleUpdAllocLnks(prv, alloc->prv, alloc->nxt);
- RETVOID;
+ return;
}
/***********************************************************
* File :
*
**********************************************************/
-#ifdef ANSI
-Void rgSCHUtlUlHoleExtndLeft
-(
-RgSchUlHoleDb *db,
-RgSchUlHole *nxt,
-RgSchUlAlloc *alloc
-)
-#else
-Void rgSCHUtlUlHoleExtndLeft(db, nxt, alloc)
-RgSchUlHoleDb *db;
-RgSchUlHole *nxt;
-RgSchUlAlloc *alloc;
-#endif
+Void rgSCHUtlUlHoleExtndLeft(RgSchUlHoleDb *db,RgSchUlHole *nxt,RgSchUlAlloc *alloc)
{
nxt->num += alloc->numSb;
nxt->start = alloc->sbStart;
rgSCHUtlUlHoleIncr(db, nxt);
rgSCHUtlUlHoleUpdAllocLnks(nxt, alloc->prv, alloc->nxt);
- RETVOID;
+ return;
}
/***********************************************************
* File :
*
**********************************************************/
-#ifdef ANSI
-Void rgSCHUtlUlHoleNew
-(
-RgSchUlHoleDb *db,
-RgSchUlAlloc *alloc
-)
-#else
-Void rgSCHUtlUlHoleNew(db, alloc)
-RgSchUlHoleDb *db;
-RgSchUlAlloc *alloc;
-#endif
+Void rgSCHUtlUlHoleNew(RgSchUlHoleDb *db,RgSchUlAlloc *alloc)
{
RgSchUlHole *hole = rgSCHUtlUlHoleMemGet(&db->mem);
#if (ERRCLASS & ERRCLS_DEBUG)
if ( hole == NULLP )
{
- RETVOID;
+ return;
}
#endif
hole->start = alloc->sbStart;
++db->count;
rgSCHUtlUlHoleIns(db, hole);
rgSCHUtlUlHoleUpdAllocLnks(hole, alloc->prv, alloc->nxt);
- RETVOID;
+ return;
}
/***********************************************************
* File :
*
**********************************************************/
-#ifdef ANSI
-Void rgSCHUtlUlHoleUpdAllocLnks
-(
-RgSchUlHole *hole,
-RgSchUlAlloc *prvAlloc,
-RgSchUlAlloc *nxtAlloc
-)
-#else
-Void rgSCHUtlUlHoleUpdAllocLnks(hole, prvAlloc, nxtAlloc)
-RgSchUlHole *hole;
-RgSchUlAlloc *prvAlloc;
-RgSchUlAlloc *nxtAlloc;
-#endif
+Void rgSCHUtlUlHoleUpdAllocLnks(RgSchUlHole *hole,RgSchUlAlloc *prvAlloc,RgSchUlAlloc *nxtAlloc)
{
if (prvAlloc)
{
}
hole->prvAlloc = prvAlloc;
hole->nxtAlloc = nxtAlloc;
- RETVOID;
+ return;
}
* File :
*
**********************************************************/
-#ifdef ANSI
-Void rgSCHUtlUlHoleIns
-(
-RgSchUlHoleDb *db,
-RgSchUlHole *hole
-)
-#else
-Void rgSCHUtlUlHoleIns(db, hole)
-RgSchUlHoleDb *db;
-RgSchUlHole *hole;
-#endif
+Void rgSCHUtlUlHoleIns(RgSchUlHoleDb *db,RgSchUlHole *hole)
{
RgSchUlHole *cur;
cur->prv = hole;
db->first = hole;
hole->prv = NULLP;
- RETVOID;
+ return;
}
for (nxt = cur->nxt; nxt; cur = nxt, nxt = nxt->nxt)
hole->prv = cur;
hole->nxt = nxt;
nxt->prv = hole;
- RETVOID;
+ return;
}
}
cur->nxt = hole;
hole->prv = cur;
hole->nxt = NULLP;
- RETVOID;
+ return;
}
/* This is the first hole */
db->first = hole;
hole->prv = NULLP; /* may not be needed */
hole->nxt = NULLP;
- RETVOID;
+ return;
}
* File :
*
**********************************************************/
-#ifdef ANSI
-Void rgSCHUtlUlHoleIncr
-(
-RgSchUlHoleDb *db,
-RgSchUlHole *hole
-)
-#else
-Void rgSCHUtlUlHoleIncr(db, hole)
-RgSchUlHoleDb *db;
-RgSchUlHole *hole;
-#endif
+Void rgSCHUtlUlHoleIncr(RgSchUlHoleDb *db,RgSchUlHole *hole)
{
RgSchUlHole *cur;
if (cur->num > hole->num)
{
- RETVOID;
+ return;
}
/* Remove hole from current position */
hole->prv = prv;
hole->nxt = cur;
cur->prv = hole;
- RETVOID;
+ return;
}
}
cur->prv = hole;
db->first = hole;
hole->prv = NULLP;
- RETVOID;
+ return;
}
- RETVOID;
+ return;
}
/***********************************************************
* File :
*
**********************************************************/
-#ifdef ANSI
-Void rgSCHUtlUlHoleDecr
-(
-RgSchUlHoleDb *db,
-RgSchUlHole *hole
-)
-#else
-Void rgSCHUtlUlHoleDecr(db, hole)
-RgSchUlHoleDb *db;
-RgSchUlHole *hole;
-#endif
+Void rgSCHUtlUlHoleDecr(RgSchUlHoleDb *db,RgSchUlHole *hole)
{
RgSchUlHole *cur;
if (cur->num < hole->num)
{
- RETVOID;
+ return;
}
/* Remove hole from current position */
hole->prv = cur;
hole->nxt = nxt;
nxt->prv = hole;
- RETVOID;
+ return;
}
}
cur->nxt = hole;
hole->prv = cur;
hole->nxt = NULLP;
- RETVOID;
+ return;
}
- RETVOID;
+ return;
}
/***********************************************************
* File :
*
**********************************************************/
-#ifdef ANSI
-Void rgSCHUtlUlHoleRls
-(
-RgSchUlHoleDb *db,
-RgSchUlHole *hole
-)
-#else
-Void rgSCHUtlUlHoleRls(db, hole)
-RgSchUlHoleDb *db;
-RgSchUlHole *hole;
-#endif
+Void rgSCHUtlUlHoleRls(RgSchUlHoleDb *db,RgSchUlHole *hole)
{
RgSchUlHole *prv = hole->prv;
RgSchUlHole *nxt = hole->nxt;
}
rgSCHUtlUlHoleMemRls(&db->mem, hole);
- RETVOID;
+ return;
}
* File :
*
**********************************************************/
-#ifdef ANSI
-S16 rgSCHUtlUlAllocMemInit
-(
-RgSchCellCb *cell,
-RgSchUlAllocMem *mem,
-U8 maxAllocs
-)
-#else
-S16 rgSCHUtlUlAllocMemInit(cell, mem, maxAllocs)
-RgSchCellCb *cell;
-RgSchUlAllocMem *mem;
-U8 maxAllocs;
-#endif
+S16 rgSCHUtlUlAllocMemInit(RgSchCellCb *cell,RgSchUlAllocMem *mem,uint8_t maxAllocs)
{
S16 ret;
RgSchUlAlloc *allocs;
}
else
{
- U8 i;
+ uint8_t i;
allocs[0].prv = NULLP;
allocs[0].nxt = &allocs[1];
for (i = 1; i < mem->maxAllocs - 1; ++i)
* File :
*
**********************************************************/
-#ifdef ANSI
-Void rgSCHUtlUlAllocMemDeinit
-(
-RgSchCellCb *cell,
-RgSchUlAllocMem *mem
-)
-#else
-Void rgSCHUtlUlAllocMemDeinit(cell, mem)
-RgSchCellCb *cell;
-RgSchUlAllocMem *mem;
-#endif
+Void rgSCHUtlUlAllocMemDeinit(RgSchCellCb *cell,RgSchUlAllocMem *mem)
{
/* ccpu00117052 - MOD - Passing double pointer
for proper NULLP assignment*/
mem->maxAllocs * sizeof(*mem->allocs));
mem->maxAllocs = 0;
mem->firstFree = NULLP;
- RETVOID;
+ return;
}
/***********************************************************
* File :
*
**********************************************************/
-#ifdef ANSI
-S16 rgSCHUtlUlHoleMemInit
-(
-RgSchCellCb *cell,
-RgSchUlHoleMem *mem,
-U8 maxHoles,
-RgSchUlHole **holeRef
-)
-#else
-S16 rgSCHUtlUlHoleMemInit(cell, mem, maxHoles, holeRef)
-RgSchCellCb *cell;
-RgSchUlHoleMem *mem;
-U8 maxHoles;
-RgSchUlHole **holeRef;
-#endif
+S16 rgSCHUtlUlHoleMemInit(RgSchCellCb *cell,RgSchUlHoleMem *mem,uint8_t maxHoles,RgSchUlHole **holeRef)
{
S16 ret;
RgSchUlHole *holes;
}
else
{
- U8 i;
+ uint8_t i;
holes[1].prv = NULLP;
holes[0].nxt = &holes[1];
for (i = 1; i < mem->maxHoles - 1; ++i)
* File :
*
**********************************************************/
-#ifdef ANSI
-Void rgSCHUtlUlHoleMemDeinit
-(
-RgSchCellCb *cell,
-RgSchUlHoleMem *mem
-)
-#else
-Void rgSCHUtlUlHoleMemDeinit(cell, mem)
-RgSchCellCb *cell;
-RgSchUlHoleMem *mem;
-#endif
+Void rgSCHUtlUlHoleMemDeinit(RgSchCellCb *cell,RgSchUlHoleMem *mem)
{
/* ccpu00117052 - MOD - Passing double pointer
for proper NULLP assignment*/
mem->maxHoles * sizeof(*mem->holes));
mem->maxHoles = 0;
mem->firstFree = NULLP;
- RETVOID;
+ return;
}
/***********************************************************
* File :
*
**********************************************************/
-#ifdef ANSI
-RgSchUlAlloc *rgSCHUtlUlAllocMemGet
-(
-RgSchUlAllocMem *mem
-)
-#else
-RgSchUlAlloc *rgSCHUtlUlAllocMemGet(mem)
-RgSchUlAllocMem *mem;
-#endif
+RgSchUlAlloc *rgSCHUtlUlAllocMemGet(RgSchUlAllocMem *mem)
{
RgSchUlAlloc *alloc;
* File :
*
**********************************************************/
-#ifdef ANSI
-Void rgSCHUtlUlAllocMemRls
-(
-RgSchUlAllocMem *mem,
-RgSchUlAlloc *alloc
-)
-#else
-Void rgSCHUtlUlAllocMemRls(mem, alloc)
-RgSchUlAllocMem *mem;
-RgSchUlAlloc *alloc;
-#endif
+Void rgSCHUtlUlAllocMemRls(RgSchUlAllocMem *mem,RgSchUlAlloc *alloc)
{
alloc->prv = NULLP;
mem->firstFree->prv = alloc;
}
mem->firstFree = alloc;
- RETVOID;
+ return;
}
/***********************************************************
* File :
*
**********************************************************/
-#ifdef ANSI
-RgSchUlHole *rgSCHUtlUlHoleMemGet
-(
-RgSchUlHoleMem *mem
-)
-#else
-RgSchUlHole *rgSCHUtlUlHoleMemGet(mem)
-RgSchUlHoleMem *mem;
-#endif
+RgSchUlHole *rgSCHUtlUlHoleMemGet(RgSchUlHoleMem *mem)
{
RgSchUlHole *hole;
* File :
*
**********************************************************/
-#ifdef ANSI
-Void rgSCHUtlUlHoleMemRls
-(
-RgSchUlHoleMem *mem,
-RgSchUlHole *hole
-)
-#else
-Void rgSCHUtlUlHoleMemRls(mem, hole)
-RgSchUlHoleMem *mem;
-RgSchUlHole *hole;
-#endif
+Void rgSCHUtlUlHoleMemRls(RgSchUlHoleMem *mem,RgSchUlHole *hole)
{
hole->prv = NULLP;
mem->firstFree->prv = hole;
}
mem->firstFree = hole;
- RETVOID;
+ return;
}
/**
* will always be such hole. And also for efficiency.
*
* @param[in] RgSchUlSf *sf
- * @param[in] U8 startSb
- * @param[in] U8 numSb
+ * @param[in] uint8_t startSb
+ * @param[in] uint8_t numSb
* @return RgSchUlAlloc*
**/
-#ifdef ANSI
-RgSchUlAlloc *rgSCHUtlUlGetSpfcAlloc
-(
-RgSchUlSf *sf,
-U8 startSb,
-U8 numSb
-)
-#else
-RgSchUlAlloc *rgSCHUtlUlGetSpfcAlloc(sf, startSb, numSb)
-RgSchUlSf *sf;
-U8 startSb;
-U8 numSb;
-#endif
+RgSchUlAlloc *rgSCHUtlUlGetSpfcAlloc(RgSchUlSf *sf,uint8_t startSb,uint8_t numSb)
{
RgSchUlHole *hole, *nxtHole;
RgSchUlAlloc *alloc = NULLP;
* Function :rgSCHUtlValidateQci
*
* @param[in] RgSchCellCb *cellCb
- * @param[in] U8 numQci
- * @param[out] U8 *qci
+ * @param[in] uint8_t numQci
+ * @param[out] uint8_t *qci
* @return S16
* ROK
* RFAILED
**/
-#ifdef ANSI
-PRIVATE S16 rgSCHUtlValidateQci
-(
-RgSchCellCb *cellCb,
-U8 numQci,
-U8 *qci
-)
-#else
-PRIVATE S16 rgSCHUtlValidateQci(cellCb, numQci, qci)
-RgSchCellCb *cellCb;
-U8 numQci;
-U8 *qci;
-#endif
+static S16 rgSCHUtlValidateQci(RgSchCellCb *cellCb,uint8_t numQci,uint8_t *qci)
{
- U8 qciIdx;
- U8 qciVal;
-
+ uint8_t qciIdx;
+ uint8_t qciVal;
for(qciIdx = 0; qciIdx < numQci; qciIdx++)
{
* @param[out] RgSchErrInfo *err
* @return RgSchUlAlloc*
**/
-#ifdef ANSI
-S16 rgSCHUtlValidateMeasReq
-(
-RgSchCellCb *cellCb,
-LrgSchMeasReqInfo *schL2MeasInfo,
-RgSchErrInfo *err
-)
-#else
-S16 rgSCHUtlValidateMeasReq(cellCb, schL2MeasInfo, err)
-RgSchCellCb *cellCb;
-LrgSchMeasReqInfo *schL2MeasInfo;
-RgSchErrInfo *err;
-#endif
+S16 rgSCHUtlValidateMeasReq(RgSchCellCb *cellCb, LrgSchMeasReqInfo *schL2MeasInfo,RgSchErrInfo *err)
{
- U16 measType;
+ uint16_t measType;
S16 ret;
-
measType = schL2MeasInfo->measType;
-
if((measType == 0) ||
measType > 2047)
{
* config confirm API towards RRM.
*
* @param[in] RgrCfgTransId transId
- * @param[in] U8 status
+ * @param[in] uint8_t status
* @return S16
* -# ROK
* -# RFAILED
**/
-#ifdef ANSI
-S16 rgSCHUtlRgrSiCfgCfm
-(
-Inst instId,
-SpId spId,
-RgrCfgTransId transId,
-U8 status
-)
-#else
-S16 rgSCHUtlRgrSiCfgCfm(instId, spId, transId, status)
-Inst instId;
-SpId spId;
-RgrCfgTransId transId;
-U8 status;
-#endif
+S16 rgSCHUtlRgrSiCfgCfm(Inst instId,SpId spId,RgrCfgTransId transId,uint8_t status)
{
- U8 prntTrans[RGR_CFG_TRANSID_SIZE+1];
-
+ uint8_t prntTrans[RGR_CFG_TRANSID_SIZE+1];
memcpy(prntTrans, transId.trans, RGR_CFG_TRANSID_SIZE);
prntTrans[RGR_CFG_TRANSID_SIZE] = '\0';
-
-
if(RgUiRgrSiCfgCfm(&rgSchCb[instId].rgrSap[spId].sapCfg.sapPst,
rgSchCb[instId].rgrSap[spId].sapCfg.suId,
transId, status) != ROK)
{
- RLOG_ARG0(L_ERROR,DBG_INSTID,instId,"rgSCHUtlRgrSiCfgCfm: "
+ DU_LOG("\nERROR --> SCH : rgSCHUtlRgrSiCfgCfm: "
"RgUiRgrSiCfgCfm Failed ");
return RFAILED;
}
* config confirm API towards RRM.
*
* @param[in] RgrCfgTransId transId
- * @param[in] U8 status
+ * @param[in] uint8_t status
* @return S16
* -# ROK
* -# RFAILED
**/
-#ifdef ANSI
-S16 rgSCHUtlRgrWarningSiCfgCfm
-(
-Inst instId,
-SpId spId,
-U8 siId,
-RgrCfgTransId transId,
-U8 status
-)
-#else
-S16 rgSCHUtlRgrWarningSiCfgCfm(instId, spId, siId, transId, status)
-Inst instId;
-SpId spId;
-U8 siId;
-RgrCfgTransId transId;
-U8 status;
-#endif
+S16 rgSCHUtlRgrWarningSiCfgCfm(Inst instId,SpId spId,uint8_t siId,RgrCfgTransId transId,uint8_t status)
{
- U8 prntTrans[RGR_CFG_TRANSID_SIZE+1];
-
+ uint8_t prntTrans[RGR_CFG_TRANSID_SIZE+1];
memcpy(prntTrans, transId.trans, RGR_CFG_TRANSID_SIZE);
prntTrans[RGR_CFG_TRANSID_SIZE] = '\0';
-
-
+
if(RgUiRgrWarningSiCfgCfm(&rgSchCb[instId].rgrSap[spId].sapCfg.sapPst,
rgSchCb[instId].rgrSap[spId].sapCfg.suId,
transId, siId, status) != ROK)
{
- RLOG_ARG0(L_ERROR,DBG_INSTID,instId,"rgSCHUtlRgrSiCfgCfm: "
+ DU_LOG("\nERROR --> SCH : rgSCHUtlRgrSiCfgCfm: "
"RgUiRgrSiCfgCfm Failed ");
return RFAILED;
}
* File : rg_utl.c
*
**********************************************************/
-#ifdef ANSI
-Void rgSCHUtlPutSiInfo
-(
-RgSchCellCb *cell
-)
-#else
-Void rgSCHUtlPutSiInfo(cell)
-RgSchCellCb *cell;
-#endif
+Void rgSCHUtlPutSiInfo(RgSchCellCb *cell)
{
- U8 idx = 0;
- U32 sizeOfSiInfo = 0;
+ uint8_t idx = 0;
+ uint32_t sizeOfSiInfo = 0;
/*Free the buffers in crntSiInfo*/
RGSCH_FREE_MSG(cell->siCb.crntSiInfo.mib)
RGSCH_FREE_MSG(cell->siCb.crntSiInfo.sib1Info.sib1)
RGSCH_FREE_MSG(cell->siCb.newSiInfo.siInfo[idx].si)
}
- RETVOID;
+ return;
}
#endif /*RGR_SI_SCH */
* File : rg_utl.c
*
**********************************************************/
-#ifdef ANSI
S16 rgSCHUtlGetDrxSchdUesInDl
(
RgSchCellCb *cellCb,
CmLListCp *dlInActvLst,
CmLListCp *ulInActvLst
)
-#else
-S16 rgSCHUtlGetDrxSchdUesInDl(cellCb, ueCb, dlHq, allocInfo, dlDrxInactvTmrLst, dlInActvLst, ulInActvLst)
-RgSchCellCb *cellCb;
-RgSchUeCb *ueCb;
-RgSchDlHqProcCb *dlHq;
-RgInfUeAlloc *allocInfo;
-CmLListCp *dlDrxInactvTmrLst;
-CmLListCp *dlInActvLst;
-CmLListCp *ulInActvLst;
-#endif
{
Bool isNewTx = FALSE;
- U8 idx;
+ uint8_t idx;
RgSchDrxDlHqProcCb *drxHq;
RgSchDRXCellCb *drxCell = cellCb->drxCb;
RgSchDrxUeCb *drxUe;
-#ifdef DEBUGP
- Inst inst = cellCb->instIdx;
-#endif
- U8 cellIdx = ueCb->cellIdToCellIdxMap[RG_SCH_CELLINDEX(dlHq->hqE->cell)];
- U32 dlInactvMask;
- U32 ulInactvMask;
+ uint8_t cellIdx = ueCb->cellIdToCellIdxMap[RG_SCH_CELLINDEX(dlHq->hqE->cell)];
+ uint32_t dlInactvMask;
+ uint32_t ulInactvMask;
for(idx = 0; idx < allocInfo->nmbOfTBs; idx++)
{
/* This condition should never occur */
if(drxHq->reTxIndx >= RG_SCH_MAX_DRXQ_SIZE)
{
- RGSCHDBGERRNEW(inst,(rgSchPBuf(inst),"[%d]UE:DRXUE RETX IDX[%d]"
+ DU_LOG("\nERROR --> SCH : [%d]UE:DRXUE RETX IDX[%d]"
"is out of bound,dlInactvMask %d,procId %d\n", ueCb->ueId,
- drxHq->reTxIndx,ueCb->dl.dlInactvMask, dlHq->procId));
+ drxHq->reTxIndx,ueCb->dl.dlInactvMask, dlHq->procId);
}
drxUe->drxDlInactvMaskPerCell[cellIdx] |= (RG_SCH_DRX_DLHQ_BITMASK << dlHq->procId);
* @param[in] RgSchCellCb *cell pointer to Cell Control block
* @param[in] RgSchUeCb *ue pointer to Ue Control block
* @param[in] RgrStaIndInfo *staInfo Sta Ind struct to be filled
- * @param[in] U8 numCqiRept NUmber of reports to be filled
+ * @param[in] uint8_t numCqiRept NUmber of reports to be filled
* @return Void
*
**/
-#ifdef ANSI
-S16 rgSCHUtlFillSndStaInd
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue,
-RgrStaIndInfo *staInfo,
-U8 numCqiRept
-)
-#else
-S16 rgSCHUtlFillSndStaInd(cell, ue, staInfo, numCqiRept)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-RgrStaIndInfo *staInfo;
-U8 numCqiRept;
-#endif
+S16 rgSCHUtlFillSndStaInd(RgSchCellCb *cell,RgSchUeCb *ue,RgrStaIndInfo *staInfo,uint8_t numCqiRept)
{
- U8 idxStart;
+ uint8_t idxStart;
/* Fill StaInd for sending collated Latest N CQI rpeorts */
/* Find index in the array from where Latest N
/* Call utility function (rgSCHUtlRgrStaInd) to send rpts to RRM */
if(rgSCHUtlRgrStaInd(cell, staInfo) != ROK)
{
- RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"Could not send "
+ DU_LOG("\nERROR --> SCH : Could not send "
"CQI reports for RNTI:%d",ue->ueId);
return RFAILED;
}
* -# ROK
* -# RFAILED
**/
-#ifdef ANSI
-S16 rgSCHUtlRgrStaInd
-(
-RgSchCellCb *cell,
-RgrStaIndInfo *rgrSta
-)
-#else
-S16 rgSCHUtlRgrStaInd(cell, rgrSta)
-RgSchCellCb *cell;
-RgrStaIndInfo *rgrSta;
-#endif
+S16 rgSCHUtlRgrStaInd(RgSchCellCb *cell,RgrStaIndInfo *rgrSta)
{
S16 ret = ROK;
RgSchUpSapCb *rgrSap; /*!< RGR SAP Control Block */
-
-
-
+
rgrSap = cell->rgrSap;
if (rgrSap->sapSta.sapState != LRG_BND)
{
- RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,
- "rgSCHUtlRgrStaInd() Upper SAP not bound (%d) ",
+ DU_LOG("\nERROR --> SCH : rgSCHUtlRgrStaInd() Upper SAP not bound (%d) ",
rgrSap->sapSta.sapState);
return RFAILED;
}
* @return Void
* -# ROK
**/
-#ifdef ANSI
-Void rgSCHUtlIndRntiRls2Mac
-(
-RgSchCellCb *cell,
-CmLteRnti rnti,
-Bool ueIdChng,
-CmLteRnti newRnti
-)
-#else
-Void rgSCHUtlIndRntiRls2Mac(cell, rnti, ueIdChng, newRnti)
-RgSchCellCb *cell;
-CmLteRnti rnti;
-Bool ueIdChng;
-CmLteRnti newRnti;
-#endif
+Void rgSCHUtlIndRntiRls2Mac(RgSchCellCb *cell,CmLteRnti rnti,Bool ueIdChng,CmLteRnti newRnti)
{
Pst pst;
Inst inst = cell->instIdx;
/* Invoke MAC to release the rnti */
rgSCHUtlGetPstToLyr(&pst, &rgSchCb[inst], cell->macInst);
RgSchMacRlsRnti(&pst, &rntiInfo);
- RETVOID;
+ return;
}
/* LTE_ADV_FLAG_REMOVED_START */
* -# ROK
* -# RFAILED
**/
-#ifdef ANSI
-S16 rgSCHUtlRgrLoadInfInd
-(
- RgSchCellCb *cell,
- RgrLoadInfIndInfo *rgrLoadInf
- )
-#else
-S16 rgSCHUtlRgrLoadInfInd(cell, rgrLoadInf)
- RgSchCellCb *cell;
- RgrLoadInfIndInfo *rgrLoadInf;
-#endif
+S16 rgSCHUtlRgrLoadInfInd(RgSchCellCb *cell,RgrLoadInfIndInfo *rgrLoadInf)
{
S16 ret = ROK;
RgSchUpSapCb *rgrSap; /*!< RGR SAP Control Block */
rgrSap = cell->rgrSap;
if (rgrSap->sapSta.sapState != LRG_BND)
{
- RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,
- "rgSCHUtlRgrLoadInfInd() Upper SAP not bound (%d) ",
+ DU_LOG("\nERROR --> SCH : rgSCHUtlRgrLoadInfInd() Upper SAP not bound (%d) ",
rgrSap->sapSta.sapState);
return RFAILED;
}
* @return Void
**/
-#ifdef ANSI
-Void rgSCHUtlRlsRnti
-(
-RgSchCellCb *cell,
-RgSchRntiLnk *rntiLnk,
-Bool ueIdChngd,
-CmLteRnti newRnti
-)
-#else
-Void rgSCHUtlRlsRnti(cell, rntiLnk, ueIdChngd, newRnti)
-RgSchCellCb *cell;
-RgSchRntiLnk *rntiLnk;
-Bool ueIdChngd;
-CmLteRnti newRnti;
-#endif
+Void rgSCHUtlRlsRnti(RgSchCellCb *cell,RgSchRntiLnk *rntiLnk,Bool ueIdChngd,CmLteRnti newRnti)
{
- U8 isLegacy = 0;
+ uint8_t isLegacy = 0;
#ifdef EMTC_ENABLE
if(cell->emtcEnable)
{
/* Fix: syed Explicitly Inidcate MAC to release RNTI */
rgSCHUtlIndRntiRls2Mac(cell, rntiLnk->rnti, ueIdChngd, newRnti);
- RETVOID;
+ return;
}
*
* @param[in] RgSchCellCb *cell pointer to Cell Control block
* @param[in] RgSchUeCb *ue pointer to Ue Control block
- * @param[in] U8 numCqiRept NUmber of reports to be filled
+ * @param[in] uint8_t numCqiRept NUmber of reports to be filled
* @return Void
*
**/
-#ifdef ANSI
-S16 rgSCHUtlFillSndUeStaInd
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue,
-RgrUeStaIndInfo *ueStaInfo
-)
-#else
-S16 rgSCHUtlFillSndUeStaInd(cell, ue, ueStaInfo)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-RgrUeStaIndInfo *ueStaInfo;
-#endif
+S16 rgSCHUtlFillSndUeStaInd(RgSchCellCb *cell,RgSchUeCb *ue,RgrUeStaIndInfo *ueStaInfo)
{
ueStaInfo->cellId = cell->cellId;
/* Call utility function (rgSCHUtlRgrUeStaInd) to send rpts to RRM */
if(rgSCHUtlRgrUeStaInd(cell, ueStaInfo) != ROK)
{
- RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"Could not send "
+ DU_LOG("\nERROR --> SCH : Could not send "
"UE Sta reports CRNTI:%d",ue->ueId);
return RFAILED;
}
* -# ROK
* -# RFAILED
**/
-#ifdef ANSI
-S16 rgSCHUtlRgrUeStaInd
-(
-RgSchCellCb *cell,
-RgrUeStaIndInfo *rgrUeSta
-)
-#else
-S16 rgSCHUtlRgrUeStaInd(cell, rgrUeSta)
-RgSchCellCb *cell;
-RgrUeStaIndInfo *rgrUeSta;
-#endif
+S16 rgSCHUtlRgrUeStaInd(RgSchCellCb *cell,RgrUeStaIndInfo *rgrUeSta)
{
S16 ret = ROK;
RgSchUpSapCb *rgrSap; /*!< RGR SAP Control Block */
rgrSap = cell->rgrSap;
if (rgrSap->sapSta.sapState != LRG_BND)
{
- RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,
- "rgSCHUtlRgrUeStaInd() Upper SAP not bound (%d) ",
+ DU_LOG("\nERROR --> SCH : rgSCHUtlRgrUeStaInd() Upper SAP not bound (%d) ",
rgrSap->sapSta.sapState);
return RFAILED;
}
* -# ROK
* -# RFAILED
**/
-#ifdef ANSI
-S16 rgSCHUtlUpdAvgPrbUsage
-(
-RgSchCellCb *cell
-)
-#else
-S16 rgSCHUtlUpdAvgPrbUsage(cell)
-RgSchCellCb *cell;
-#endif
+S16 rgSCHUtlUpdAvgPrbUsage(RgSchCellCb *cell)
{
CmLteTimingInfo frm;
RgmPrbRprtInd *prbRprtInd;
S16 ret = ROK;
- U32 idx;
+ uint32_t idx;
#ifdef DBG_MAC_RRM_PRB_PRINT
- static U32 count = 0;
- const U32 reprotForEvery20Sec = 20000/cell->prbUsage.rprtPeriod;
+ static uint32_t count = 0;
+ const uint32_t reprotForEvery20Sec = 20000/cell->prbUsage.rprtPeriod;
count++;
#endif
frm = cell->crntTime;
RGSCH_INCR_SUB_FRAME(frm, RG_SCH_CMN_DL_DELTA);
- U16 numDlSf;
- U16 numUlSf;
+ uint16_t numDlSf;
+ uint16_t numUlSf;
#ifdef LTE_TDD
if(cell->prbUsage.rprtPeriod >= RGSCH_NUM_SUB_FRAMES)
numUlSf = cell->prbUsage.rprtPeriod;
#endif
- if(SGetSBuf(cell->rgmSap->sapCfg.sapPst.region,
- cell->rgmSap->sapCfg.sapPst.pool, (Data**)&prbRprtInd,
- sizeof(RgmPrbRprtInd)) != ROK)
+ SCH_ALLOC(prbRprtInd, sizeof(RgmPrbRprtInd));
+ if(prbRprtInd == NULLP)
{
+ DU_LOG("\nERROR --> SCH : Failed to allocate memory for prbRprtInd");
return RFAILED;
}
#ifdef DBG_MAC_RRM_PRB_PRINT
if((count % reprotForEvery20Sec) == 0 )
{
- printf("\n====================================================================");
- printf("\nMAC: QCI-1[DL:UL] | QCI-2[DL:UL] | QCI-3[DL:UL] | QCI-4[DL:UL] \n");
- printf("======================================================================\n");
- printf(" [%d: %d]\t | [%d: %d]\t | [%d: %d]\t| [%d: %d]\t\n",
+ DU_LOG("\n====================================================================");
+ DU_LOG("\nINFO --> SCH : QCI-1[DL:UL] | QCI-2[DL:UL] | QCI-3[DL:UL] | QCI-4[DL:UL] \n");
+ DU_LOG("======================================================================\n");
+ DU_LOG(" [%d: %d]\t | [%d: %d]\t | [%d: %d]\t| [%d: %d]\t\n",
prbRprtInd->stQciPrbRpts[0].bAvgPrbDlUsage,
prbRprtInd->stQciPrbRpts[0].bAvgPrbUlUsage,
prbRprtInd->stQciPrbRpts[1].bAvgPrbDlUsage,
* @return Void
*
**/
-#ifdef ANSI
-Void rgSCHUtlReTxTa
-(
-RgSchCellCb *cellCb,
-RgSchUeCb *ueCb
-)
-#else
-Void rgSCHUtlReTxTa(cellCb, ueCb)
-RgSchCellCb *cellCb;
-RgSchUeCb *ueCb;
-#endif
+Void rgSCHUtlReTxTa(RgSchCellCb *cellCb,RgSchUeCb *ueCb)
{
/* If TA Timer is running. Stop it */
ueCb->dl.taCb.state = RGSCH_TA_TOBE_SCHEDULED;
rgSCHUtlDlTARpt(cellCb, ueCb);
- RETVOID;
+ return;
}
/* Added function for dropping Paging Message*/
* -# ROK
* -# RFAILED
**/
-#ifdef ANSI
-PRIVATE S16 rgSCHChkBoUpdate
-(
-RgSchCellCb *cell,
-RgInfCmnBoRpt *boUpdt
-)
-#else
-PRIVATE S16 rgSCHChkBoUpdate (cell, boUpdt)
-RgSchCellCb *cell;
-RgInfCmnBoRpt *boUpdt;
-#endif
+static S16 rgSCHChkBoUpdate(RgSchCellCb *cell,RgInfCmnBoRpt *boUpdt)
{
- U32 crntTimeInSubFrms = 0;
- U32 boUpdTimeInSubFrms = 0;
- U32 distance = 0;
+ uint32_t crntTimeInSubFrms = 0;
+ uint32_t boUpdTimeInSubFrms = 0;
+ uint32_t distance = 0;
crntTimeInSubFrms = (cell->crntTime.sfn * RGSCH_NUM_SUB_FRAMES_5G) + cell->crntTime.slot +
RG_SCH_CMN_DL_DELTA + 2; /* As bo received will scheduled in next TTI
*
* @param[in] RgSchCellCb *cell
* @param[in] CmLteTimingInfo phichTime
- * @param[in] U8 hqFdbkIdx
- * @return U8
+ * @param[in] uint8_t hqFdbkIdx
+ * @return uint8_t
**/
-#ifdef ANSI
-U8 rgSchUtlCfg0ReTxIdx
-(
-RgSchCellCb *cell,
-CmLteTimingInfo phichTime,
-U8 hqFdbkIdx
-)
-#else
-U8 rgSchUtlCfg0ReTxIdx (cell, phichTime, hqFdbkIdx)
-RgSchCellCb *cell;
-CmLteTimingInfo phichTime;
-U8 hqFdbkIdx;
-#endif
+uint8_t rgSchUtlCfg0ReTxIdx(RgSchCellCb *cell,CmLteTimingInfo phichTime,uint8_t hqFdbkIdx)
{
- U8 reTxIdx = RGSCH_INVALID_INFO;
- U8 iPhich = 0;
+ uint8_t reTxIdx = RGSCH_INVALID_INFO;
+ uint8_t iPhich = 0;
RgSchCmnUlCell *cellUl = RG_SCH_CMN_GET_UL_CELL(cell);
RgSchUlSf *ulSf;
- U8 ulSF; /* UL SF in the TDD frame */
+ uint8_t ulSF; /* UL SF in the TDD frame */
ulSf = &cellUl->ulSfArr[hqFdbkIdx];
ulSF = ulSf->ulSfIdx;
*
* @param[in] RgSchCellCb *cell
* @param[in] RgSchUeCb *ue
- * @param[in] U32 bo
- * @param[out] U32 *prbReqrd
+ * @param[in] uint32_t bo
+ * @param[out] uint32_t *prbReqrd
* @return Void
**/
-#ifdef ANSI
-Void rgSchUtlDlCalc1CwPrb
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue,
-U32 bo,
-U32 *prbReqrd
-)
-#else
-Void rgSchUtlDlCalc1CwPrb(cell, ue, bo, prbReqrd)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-U32 bo;
-U32 *prbReqrd;
-#endif
+Void rgSchUtlDlCalc1CwPrb(RgSchCellCb *cell,RgSchUeCb *ue,uint32_t bo,uint32_t *prbReqrd)
{
RgSchCmnDlCell *dlCell = RG_SCH_CMN_GET_DL_CELL(cell);
RgSchCmnDlUe *dlUe = RG_SCH_CMN_GET_DL_UE(ue, cell);
- U32 eff;
- U32 noRes;
- U8 iTbs;
- U8 cfi = dlCell->currCfi;
+ uint32_t eff;
+ uint32_t noRes;
+ uint8_t iTbs;
+ uint8_t cfi = dlCell->currCfi;
iTbs = dlUe->mimoInfo.cwInfo[0].iTbs[0];
eff = (*(RgSchCmnTbSzEff *)(dlCell->cqiToEffTbl[0][cfi]))[iTbs];
/* Optimization to convert totalBo (which is in-terms of bytes) to bits
* i.e, << 3 and multiply with 1024 i.e, << 10 */
- noRes = ((U64)((bo << 3) << 10)) / (eff);
+ noRes = ((uint64_t)((bo << 3) << 10)) / (eff);
/* Get the number of RBs needed for this transmission */
/* Number of RBs = No of REs / No of REs per RB */
*prbReqrd = RGSCH_CEIL(noRes, dlCell->noResPerRb[cfi]);
- RETVOID;
+ return;
} /* rgSchUtlDlCalc1CwPrb*/
/**
*
* @param[in] RgSchCellCb *cell
* @param[in] RgSchUeCb *ue
- * @param[in] U32 bo
- * @param[out] U32 *prbReqrd
+ * @param[in] uint32_t bo
+ * @param[out] uint32_t *prbReqrd
* @return Void
**/
-#ifdef ANSI
-Void rgSchUtlDlCalc2CwPrb
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue,
-U32 bo,
-U32 *prbReqrd
-)
-#else
-Void rgSchUtlDlCalc2CwPrb(cell, ue, bo, prbReqrd)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-U32 bo;
-U32 *prbReqrd;
-#endif
+Void rgSchUtlDlCalc2CwPrb(RgSchCellCb *cell,RgSchUeCb *ue,uint32_t bo,uint32_t *prbReqrd)
{
RgSchCmnDlCell *dlCell = RG_SCH_CMN_GET_DL_CELL(cell);
RgSchCmnDlUe *dlUe = RG_SCH_CMN_GET_DL_UE(ue, cell);
- U32 eff1, eff2;
- U32 noRes;
- U8 noLyr1, noLyr2;
- U8 iTbs1, iTbs2;
- U8 cfi = dlCell->currCfi;
+ uint32_t eff1, eff2;
+ uint32_t noRes;
+ uint8_t noLyr1, noLyr2;
+ uint8_t iTbs1, iTbs2;
+ uint8_t cfi = dlCell->currCfi;
if ((dlUe->mimoInfo.forceTD) ||/* Transmit Diversity (TD) */
(dlUe->mimoInfo.ri < 2))/* 1 layer precoding */
/* Optimization to convert totalBo (which is in-terms of bytes) to bits
* i.e, << 3 and multiply with 1024 i.e, << 10 */
- noRes = ((U64)((bo << 3) << 10)) / (eff1);
+ noRes = ((uint64_t)((bo << 3) << 10)) / (eff1);
/* Get the number of RBs needed for this transmission */
/* Number of RBs = No of REs / No of REs per RB */
*prbReqrd = RGSCH_CEIL(noRes, dlCell->noResPerRb[cfi]);
/* Optimization to convert totalBo (which is in-terms of bytes) to bits
* i.e, << 3 and multiply with 1024 i.e, << 10 */
- noRes = ((U64)((bo << 3) << 10)) / (eff1 + eff2);
+ noRes = ((uint64_t)((bo << 3) << 10)) / (eff1 + eff2);
/* Get the number of RBs needed for this transmission */
/* Number of RBs = No of REs / No of REs per RB */
*prbReqrd = RGSCH_CEIL(noRes, dlCell->noResPerRb[cfi]);
}
- RETVOID;
+ return;
} /* rgSchUtlDlCalc2CwPrb */
/**
*
* @param[in] RgSchCellCb *cell
* @param[in] RgSchUeCb *ue
- * @param[in] U32 bo
- * @param[out] U32 *prbReqrd
+ * @param[in] uint32_t bo
+ * @param[out] uint32_t *prbReqrd
* @return Void
**/
-#ifdef ANSI
-Void rgSchUtlCalcTotalPrbReq
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue,
-U32 bo,
-U32 *prbReqrd
-)
-#else
-Void rgSchUtlCalcTotalPrbReq(cell, ue, bo, prbReqrd)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-U32 bo;
-U32 *prbReqrd;
-#endif
+Void rgSchUtlCalcTotalPrbReq(RgSchCellCb *cell,RgSchUeCb *ue,uint32_t bo,uint32_t *prbReqrd)
{
/* Call TM specific Prb calculation routine */
(dlCalcPrbFunc[ue->mimoInfo.txMode - 1])(cell, ue, bo, prbReqrd);
- RETVOID;
+ return;
} /* rgSchUtlCalcTotalPrbReq */
#ifdef UNUSE_FUN
#ifdef TFU_UPGRADE
*
* Desc : Fetch the CQI/PMI bits for a UE based on the mode, periodicity.
*
- * Ret : U8
+ * Ret : uint8_t
* ROK - Success
*
* Notes:
* File :
*
**********************************************************/
-#ifdef ANSI
-PRIVATE U8 rgSCHUtlFetchPcqiBitSz
-(
- RgSchCellCb *cell,
- RgSchUeCb *ueCb,
- U8 numTxAnt
- )
-#else
-PRIVATE U8 rgSCHUtlFetchPcqiBitSz (cell, ueCb, numTxAnt)
-RgSchCellCb *cell;
-RgSchUeCb *ueCb;
-U8 numTxAnt;
-#endif
+static uint8_t rgSCHUtlFetchPcqiBitSz(RgSchCellCb *cell, RgSchUeCb *ueCb,uint8_t numTxAnt)
{
- U8 confRepMode;
- U8 pcqiSz;
- U8 ri;
+ uint8_t confRepMode;
+ uint8_t pcqiSz;
+ uint8_t ri;
RgSchUePCqiCb *cqiCb = RG_SCH_GET_UE_CELL_CQI_CB(ueCb,cell);
confRepMode = cqiCb->cqiCfg.cqiSetup.prdModeEnum;
*
* @param[in] RgSchCellCb *cell
* @param[in] RgSchUeCb *ue
- * @param[in] U32 *numSbs
- * @return U8
+ * @param[in] uint32_t *numSbs
+ * @return uint8_t
**/
-#ifdef ANSI
-U8 rgSchUtlGetNumSbs
-(
-RgSchCellCb *cell,
-RgSchUeCb *ue,
-U32 *numSbs
-)
-#else
-U8 rgSchUtlGetNumSbs (cell, ue, numSbs)
-RgSchCellCb *cell;
-RgSchUeCb *ue;
-U32 *numSbs;
-#endif
+uint8_t rgSchUtlGetNumSbs(RgSchCellCb *cell,RgSchUeCb *ue,uint32_t *numSbs)
{
- U32 nPrb;
+ uint32_t nPrb;
//Currently hardcoding MAX prb for each UE
nPrb = ue->ue5gtfCb.maxPrb;
(*numSbs) = RGSCH_CEIL(nPrb, MAX_5GTF_VRBG_SIZE);
*
* @param[in] RgSchCellCb *cell
* @param[in] RgSchUeCb *ue
- * @return U8
+ * @return uint8_t
**/
-#ifdef ANSI
-U8 rgSchUtlSortInsUeLst
-(
-RgSchCellCb *cell,
-CmLListCp *ueLst,
-CmLList *node,
-U8 vrbgRequired
-)
-#else
-U8 rgSchUtlSortInsUeLst (cell, ueLst, node, vrbgRequired)
-RgSchCellCb *cell;
-CmLListCp *ueLst;
-CmLList *node;
-U8 vrbgRequired;
-#endif
+uint8_t rgSchUtlSortInsUeLst(RgSchCellCb *cell,CmLListCp *ueLst,CmLList *node,uint8_t vrbgRequired)
{
CmLList *ueInLst;
CmLList *firstUeInLst;
*
* @param[in] RgSchCellCb *cell
* @param[in] CmLteRnti crnti
- * @param[in] U8 lcgId
+ * @param[in] uint8_t lcgId
* @param[in] Bool isGbr
* @return S16
* -# ROK
**/
-#ifdef ANSI
-S16 rgSCHUtlBuildNSendLcgReg
-(
-RgSchCellCb *cell,
-CmLteRnti crnti,
-U8 lcgId,
-Bool isGbr
-)
-#else
-S16 rgSCHUtlBuildNSendLcgReg(cell, crnti, lcgId, isGbr)
-RgSchCellCb *cell;
-CmLteRnti crnti;
-U8 lcgId;
-Bool isGbr;
-#endif
+S16 rgSCHUtlBuildNSendLcgReg(RgSchCellCb *cell,CmLteRnti crnti,uint8_t lcgId,Bool isGbr)
{
Pst pst;
RgInfLcgRegReq lcgRegReq;
* @return TfuAckNackMode
* -# ROK
**/
-#ifdef ANSI
-TfuAckNackMode rgSchUtlGetFdbkMode
-(
-RgrSchFrmt1b3TypEnum fdbkType
-)
-#else
-TfuAckNackMode rgSchUtlGetFdbkMode(fdbkType)
-RgrSchFrmt1b3TypEnum fdbkType;
-#endif
+TfuAckNackMode rgSchUtlGetFdbkMode(RgrSchFrmt1b3TypEnum fdbkType)
{
TfuAckNackMode mode = TFU_UCI_FORMAT_1A_1B;
* @return Void
* -# ROK
**/
-#ifdef ANSI
-Void rgSCHUtlSndUeSCellDel2Mac
-(
-RgSchCellCb *cell,
-CmLteRnti rnti
-)
-#else
-Void rgSCHUtlSndUeSCellDel2Mac(cell, rnti)
-RgSchCellCb *cell;
-CmLteRnti rnti;
-#endif
+Void rgSCHUtlSndUeSCellDel2Mac(RgSchCellCb *cell,CmLteRnti rnti)
{
Pst pst;
Inst inst = cell->instIdx;
RgInfRlsRnti rntiInfo;
- RGSCHDBGINFONEW(inst,(rgSchPBuf(inst),"RNTI Release IND for UE(%d)\n", rnti));
+ DU_LOG("\nINFO --> SCH : RNTI Release IND for UE(%d)\n", rnti);
/* Copy the info to rntiInfo */
rntiInfo.cellId = cell->cellId;
rntiInfo.rnti = rnti;
/* Invoke MAC to release the rnti */
rgSCHUtlGetPstToLyr(&pst, &rgSchCb[inst], cell->macInst);
RgSchMacRlsRnti(&pst, &rntiInfo);
- RETVOID;
+ return;
}
/**
*
*
* @param[in] RgrTxMode txMode
- * @return U8 maxTbCount;
+ * @return uint8_t maxTbCount;
* -# ROK
**/
-#ifdef ANSI
-U8 rgSCHUtlGetMaxTbSupp
-(
-RgrTxMode txMode
-)
-#else
-U8 rgSCHUtlGetMaxTbSupp(txMode)
-RgrTxMode txMode
-#endif
+uint8_t rgSCHUtlGetMaxTbSupp(RgrTxMode txMode)
{
- U8 maxTbCount;
+ uint8_t maxTbCount;
/* Primary Cell */
*
* @param[in] RgSchCellCb *cell
* @param[in] RgSchUeCb ueCb
- * @param[in] U8 cqiReq,
- * @param[out] U8 *triggerSet
+ * @param[in] uint8_t cqiReq,
+ * @param[out] uint8_t *triggerSet
*
* @return Void
* -# ROK
**/
-#ifdef ANSI
-Void rgSCHTomUtlGetTrigSet
-(
- RgSchCellCb *cell,
- RgSchUeCb *ueCb,
- U8 cqiReq,
- U8 *triggerSet
- )
-#else
-PRIVATE S16 rgSCHTomUtlGetTrigSet(cell, ueCb, cqiReq, triggerSet)
- RgSchCellCb *cell;
- RgSchUeCb *ueCb;
- U8 cqiReq;
- U8 *triggerSet;
-#endif
+Void rgSCHTomUtlGetTrigSet(RgSchCellCb *cell,RgSchUeCb *ueCb,uint8_t cqiReq,uint8_t *triggerSet)
{
RgSchUeCellInfo *pCellInfo = RG_SCH_CMN_GET_PCELL_INFO(ueCb);
switch(cqiReq)
case RG_SCH_APCQI_SERVING_CC:
{
/* APeriodic CQI request for Current Carrier.*/
- U8 sCellIdx = ueCb->cellIdToCellIdxMap[RG_SCH_CELLINDEX(cell)];
+ uint8_t sCellIdx = ueCb->cellIdToCellIdxMap[RG_SCH_CELLINDEX(cell)];
*triggerSet = 1 << (7 - sCellIdx);
break;
}
break;
}
}
- RETVOID;
+ return;
}
#endif
/**
* @return Void
*
**/
-#ifdef ANSI
-Void rgSCHUtlUpdUeDciSize
-(
-RgSchCellCb *cell,
-RgSchUeCb *ueCb,
-Bool isCsi2Bit
-)
-#else
-Void rgSCHUtlUpdUeDciSize(cell, ueCb, isCsi2Bit)
-RgSchCellCb *cell;
-RgSchUeCb *ueCb;
-Bool isCsi2Bit;
-#endif
+Void rgSCHUtlUpdUeDciSize(RgSchCellCb *cell,RgSchUeCb *ueCb,Bool isCsi2Bit)
{
- U8 dci01aCmnSize = cell->dciSize.baseSize[TFU_DCI_FORMAT_0];
- U8 dci01aDedSize = cell->dciSize.baseSize[TFU_DCI_FORMAT_0];
+ uint8_t dci01aCmnSize = cell->dciSize.baseSize[TFU_DCI_FORMAT_0];
+ uint8_t dci01aDedSize = cell->dciSize.baseSize[TFU_DCI_FORMAT_0];
if ((ueCb->accessStratumRls >= RGR_REL_10) && (cell->bwCfg.dlTotalBw >= cell->bwCfg.ulTotalBw))
{
dci01aCmnSize += 1; /* Resource Allocation Type DCI 0 */
* @return Void
*
**/
-#ifdef ANSI
-Void rgSCHUtlCalcDciSizes
-(
-RgSchCellCb *cell
-)
-#else
-Void rgSCHUtlCalcDciSizes(cell)
-RgSchCellCb *cell;
-#endif
+Void rgSCHUtlCalcDciSizes(RgSchCellCb *cell)
{
- U8 dciSize = 0;
- U8 dci01aSize = 0;
- U32 bits = 0, idx = 0;
+ uint8_t dciSize = 0;
+ uint8_t dci01aSize = 0;
+ uint32_t bits = 0, idx = 0;
switch(TFU_DCI_FORMAT_0) /* Switch case for the purpose of readability */
{
dciSize = 1 /* DCI 0 bit indicator */ + \
1 /* Frequency hoping enable bit field */ + \
- (U8)bits /* For frequency Hopping */ + \
+ (uint8_t)bits /* For frequency Hopping */ + \
5 /* MCS */ + \
1 /* NDI */ + \
2 /* TPC */ + \
dciSize += 1 /* Format 1A */ + \
1 /* Local or Distributed */ + \
- (U8)bits /* Resource block Assignment */ + \
+ (uint8_t)bits /* Resource block Assignment */ + \
5 /* MCS */ +
#ifdef TFU_TDD
4 /* HARQ Proc Id */ +
bits++;
}
- dciSize += (U8)bits /* Resource Allocation bits */ + \
+ dciSize += (uint8_t)bits /* Resource Allocation bits */ + \
5 /* MCS */ +
#ifdef TFU_TDD
4 /* HARQ TDD */ +
dciSize = 1; /* Resource Allocation bit */
}
- dciSize += (U8)bits /* Resource Allocation bits */ + \
+ dciSize += (uint8_t)bits /* Resource Allocation bits */ + \
2 /* TPC */ +
#ifdef TFU_TDD
2 /* DAI */ + \
dciSize = 1; /* Resource Allocation bit */
}
- dciSize += (U8)bits /* Resource Allocation bits */ + \
+ dciSize += (uint8_t)bits /* Resource Allocation bits */ + \
2 /* TPC */ +
#ifdef TFU_TDD
2 /* DAI */ + \
* @param[in] RgSchCellCb *cell
* @return Void
**/
-#ifdef ANSI
-Void rgSCHUtlCpuOvrLdAdjItbsCap
-(
- RgSchCellCb *cell
-)
-#else
-Void rgSCHUtlCpuOvrLdAdjItbsCap(cell)
- RgSchCellCb *cell
-#endif
+Void rgSCHUtlCpuOvrLdAdjItbsCap( RgSchCellCb *cell)
{
- U32 tptDelta;
+ uint32_t tptDelta;
if ((cell->cpuOvrLdCntrl.cpuOvrLdIns) & (RGR_CPU_OVRLD_DL_TPT_UP |
RGR_CPU_OVRLD_DL_TPT_DOWN))
}
}
#ifdef CPU_OL_DBG_PRINTS
- printf("\n DL CPU OL ADJ = %lu, %lu, %d\n", cell->measurements.dlTpt, cell->cpuOvrLdCntrl.tgtDlTpt,
+ DU_LOG("\nINFO --> SCH : DL CPU OL ADJ = %lu, %lu, %d\n", cell->measurements.dlTpt, cell->cpuOvrLdCntrl.tgtDlTpt,
cell->thresholds.maxDlItbs);
#endif
}
}
}
#ifdef CPU_OL_DBG_PRINTS
- printf("\n UL CPU OL ADJ = %lu, %lu, %d\n", cell->measurements.ulTpt, cell->cpuOvrLdCntrl.tgtUlTpt,
+ DU_LOG("\nDEBUG --> SCH : UL CPU OL ADJ = %lu, %lu, %d\n", cell->measurements.ulTpt, cell->cpuOvrLdCntrl.tgtUlTpt,
cell->thresholds.maxUlItbs);
#endif
}
- RETVOID;
+ return;
}
/**
* @brief Handler for the num UE per TTI based CPU OvrLd instr updating
* - If successful, return ROK else RFAILED.
*
* @param[in] RgSchCellCb *cell
- * @param[in] U8 cnrtCpuOvrLdIns
+ * @param[in] uint8_t cnrtCpuOvrLdIns
* @return Void
**/
-#ifdef ANSI
-PRIVATE Void rgSCHUtlChkAndUpdNumUePerTtiCpuOvInstr
-(
- RgSchCellCb *cell,
- U8 crntCpuOvrLdIns
-)
-#else
-PRIVATE S16 rgSCHUtlChkAndUpdNumUePerTtiCpuOvInstr(cell, crntCpuOvrLdIns)
- RgSchCellCb *cell;
- U8 crntCpuOvrLdIns;
-#endif
+static Void rgSCHUtlChkAndUpdNumUePerTtiCpuOvInstr(RgSchCellCb *cell,uint8_t crntCpuOvrLdIns)
{
RgSchCpuOvrLdCntrlCb *cpuInstr = &(cell->cpuOvrLdCntrl);
RgSchCmnCell *cellSch;
- U8 maxUeNewDlTxPerTti;
- U8 maxUeNewUlTxPerTti;
- U8 tmpslot = 0;
+ uint8_t maxUeNewDlTxPerTti;
+ uint8_t maxUeNewUlTxPerTti;
+ uint8_t tmpslot = 0;
#ifdef CPU_OL_DBG_PRINTS
- U8 idx = 0;
+ uint8_t idx = 0;
#endif
- U8 maxDlDecCnt;
- U8 maxUlDecCnt;
+ uint8_t maxDlDecCnt;
+ uint8_t maxUlDecCnt;
cellSch = RG_SCH_CMN_GET_CELL(cell);
else
{
#ifdef CPU_OL_DBG_PRINTS
- printf("CPU_OL_TTI__ERROR\n");
+ DU_LOG("\nERROR --> SCH : CPU_OL_TTI__ERROR\n");
#endif
- RLOG_ARG0(L_ERROR,DBG_CELLID,cell->cellId,"Invalid CPU OL");
+ DU_LOG("\nERROR --> SCH : Invalid CPU OL");
}
}
#ifdef CPU_OL_DBG_PRINTS
- printf("dlNxtIndxDecNumUeTti = %d\n", cpuInstr->dlNxtIndxDecNumUeTti);
+ DU_LOG("\nDEBUG --> SCH : dlNxtIndxDecNumUeTti = %d\n", cpuInstr->dlNxtIndxDecNumUeTti);
#endif
- RLOG_ARG1(L_DEBUG,DBG_CELLID,cell->cellId,"dlNxtIndxDecNumUeTti = %d",
+ DU_LOG("\nDEBUG --> SCH : dlNxtIndxDecNumUeTti = %d",
cpuInstr->dlNxtIndxDecNumUeTti);
}
else if ( crntCpuOvrLdIns & RGR_CPU_OVRLD_DL_INC_NUM_UE_PER_TTI )
else
{
#ifdef CPU_OL_DBG_PRINTS
- printf("CPU_OL_TTI__ERROR\n");
+ DU_LOG("\nERROR --> SCH : CPU_OL_TTI__ERROR\n");
#endif
- RLOG_ARG0(L_ERROR,DBG_CELLID,cell->cellId,"Invalid CPU OL");
+ DU_LOG("\nERROR --> SCH : Invalid CPU OL");
}
}
#ifdef CPU_OL_DBG_PRINTS
- printf("dlNxtIndxDecNumUeTti = %d\n", cpuInstr->dlNxtIndxDecNumUeTti);
+ DU_LOG("\nDEBUG --> SCH : dlNxtIndxDecNumUeTti = %d\n", cpuInstr->dlNxtIndxDecNumUeTti);
#endif
- RLOG_ARG1(L_DEBUG,DBG_CELLID,cell->cellId,"dlNxtIndxDecNumUeTti = %d",
+ DU_LOG("\nERROR --> SCH : dlNxtIndxDecNumUeTti = %d",
cpuInstr->dlNxtIndxDecNumUeTti);
}
/* Check for UL CPU commands */
else
{
#ifdef CPU_OL_DBG_PRINTS
- printf("CPU_OL_TTI__ERROR\n");
+ DU_LOG("\nERROR --> SCH : CPU_OL_TTI__ERROR\n");
#endif
- RLOG_ARG0(L_ERROR,DBG_CELLID,cell->cellId,"Invalid CPU OL");
+ DU_LOG("\nERROR --> SCH : Invalid CPU OL");
}
}
#ifdef CPU_OL_DBG_PRINTS
- printf("ulNxtIndxDecNumUeTti = %d\n", cpuInstr->ulNxtIndxDecNumUeTti);
+ DU_LOG("\nDEBUG --> SCH : ulNxtIndxDecNumUeTti = %d\n", cpuInstr->ulNxtIndxDecNumUeTti);
#endif
- RLOG_ARG1(L_DEBUG,DBG_CELLID,cell->cellId,"dlNxtIndxDecNumUeTti = %d",
+ DU_LOG("\nDEBUG --> SCH : dlNxtIndxDecNumUeTti = %d",
cpuInstr->dlNxtIndxDecNumUeTti);
}
else if ( crntCpuOvrLdIns & RGR_CPU_OVRLD_UL_INC_NUM_UE_PER_TTI )
else
{
#ifdef CPU_OL_DBG_PRINTS
- printf("CPU_OL_TTI__ERROR\n");
+ DU_LOG("\nERROR --> SCH : CPU_OL_TTI__ERROR\n");
#endif
- RLOG_ARG0(L_ERROR,DBG_CELLID,cell->cellId,"Invalid CPU OL");
+ DU_LOG("\nERROR --> SCH : Invalid CPU OL");
}
}
#ifdef CPU_OL_DBG_PRINTS
- printf("ulNxtIndxDecNumUeTti = %d\n", cpuInstr->ulNxtIndxDecNumUeTti);
+ DU_LOG("\nDEBUG --> SCH : ulNxtIndxDecNumUeTti = %d\n", cpuInstr->ulNxtIndxDecNumUeTti);
#endif
- RLOG_ARG1(L_DEBUG,DBG_CELLID,cell->cellId,"dlNxtIndxDecNumUeTti = %d",
+ DU_LOG("\nDEBUG --> SCH : dlNxtIndxDecNumUeTti = %d",
cpuInstr->dlNxtIndxDecNumUeTti);
}
#ifdef CPU_OL_DBG_PRINTS
/* TODO: Debug Information - Shall be moved under CPU_OL_DBG_PRINTS */
- printf("maxUeNewDlTxPerTti = %d, maxUeNewUlTxPerTti = %d\n", maxUeNewDlTxPerTti, maxUeNewUlTxPerTti);
- printf("DL Sf numUePerTti:");
+ DU_LOG("\nDEBUG --> SCH : maxUeNewDlTxPerTti = %d, maxUeNewUlTxPerTti = %d\n", maxUeNewDlTxPerTti, maxUeNewUlTxPerTti);
+ DU_LOG("\nINFO --> SCH : DL Sf numUePerTti:");
for ( idx = 0; idx < 10 ; idx ++ )
{
- printf(" %d", cpuInstr->maxUeNewTxPerTti[idx]);
+ DU_LOG(" %d", cpuInstr->maxUeNewTxPerTti[idx]);
}
- printf("\nUL Sf numUePerTti:");
+ DU_LOG("\nINFO --> SCH : UL Sf numUePerTti:");
for ( idx = 0; idx < 10 ; idx ++ )
{
- printf(" %d", cpuInstr->maxUeNewRxPerTti[idx]);
+ DU_LOG(" %d", cpuInstr->maxUeNewRxPerTti[idx]);
}
- printf("\n");
+ DU_LOG("\n");
#endif
- RETVOID;
+ return;
} /* rgSCHUtlChkAndUpdNumUePerTtiCpuOvInstr */
/**
* - If successful, return ROK else RFAILED.
*
* @param[in] RgSchCellCb *cell
- * @param[in] U8 cnrtCpuOvrLdIns
+ * @param[in] uint8_t cnrtCpuOvrLdIns
* @return S16
* -# ROK
* -# RFAILED
**/
-#ifdef ANSI
-S16 rgSCHUtlResetCpuOvrLdState
-(
- RgSchCellCb *cell,
- U8 crntCpuOvrLdIns
-)
-#else
-S16 rgSCHUtlResetCpuOvrLdState(cell, crntCpuOvrLdIns)
- RgSchCellCb *cell;
- U8 crntCpuOvrLdIns;
-#endif
+S16 rgSCHUtlResetCpuOvrLdState(RgSchCellCb *cell,uint8_t crntCpuOvrLdIns)
{
- U8 crntDlCpuOL=0;
- U8 crntUlCpuOL=0;
- RgSchCmnCell *schCmnCell = (RgSchCmnCell *)(cell->sc.sch);
- U8 idx;
+ uint8_t crntDlCpuOL=0;
+ uint8_t crntUlCpuOL=0;
+ RgSchCmnCell *schCmnCell = (RgSchCmnCell *)(cell->sc.sch);
+ uint8_t idx;
#ifdef CPU_OL_DBG_PRINTS
- printf("\n CPU OVR LD Ins Rcvd = %d\n", (int)crntCpuOvrLdIns);
+ DU_LOG("\nDEBUG --> SCH : CPU OVR LD Ins Rcvd = %d\n", (int)crntCpuOvrLdIns);
#endif
- RLOG_ARG0(L_INFO,DBG_CELLID,cell->cellId,"CPU OVR LD Ins Rcvd");
+ DU_LOG("\nINFO --> SCH : CPU OVR LD Ins Rcvd");
if ( RGR_CPU_OVRLD_RESET == crntCpuOvrLdIns )
{
/* The CPU OL instruction received with RESET (0), hence reset it */
#ifdef CPU_OL_DBG_PRINTS
- printf("rgSCHUtlResetCpuOvrLdState: RESET CPU OL instr\n");
+ DU_LOG("\nDEBUG --> SCH : rgSCHUtlResetCpuOvrLdState: RESET CPU OL instr\n");
#endif
- RLOG_ARG0(L_INFO,DBG_CELLID,cell->cellId,"RESET CPU OVR LD");
+ DU_LOG("\nINFO --> SCH : RESET CPU OVR LD");
cell->cpuOvrLdCntrl.cpuOvrLdIns = 0;
/* Reset the max UL and DL itbs to 26 */
cell->thresholds.maxUlItbs = RG_SCH_UL_MAX_ITBS;
cell->cpuOvrLdCntrl.tgtUlTpt = cell->measurements.ulTpt + \
(cell->measurements.ulTpt * 2 )/100;
}
- RLOG_ARG3(L_DEBUG,DBG_CELLID,cell->cellId,"CPU OVR LD UL Reset to "
- "%d, %lu, %lu", (int)crntUlCpuOL, cell->cpuOvrLdCntrl.tgtUlTpt,cell->measurements.ulTpt);
+ DU_LOG("\nDEBUG --> SCH : CPU OVR LD UL Reset to "
+ "%d, %u, %u", (int)crntUlCpuOL, cell->cpuOvrLdCntrl.tgtUlTpt,cell->measurements.ulTpt);
#ifdef CPU_OL_DBG_PRINTS
- printf("\n CPU OVR LD UL Reset to= %d, %lu, %lu\n", (int)crntUlCpuOL, cell->cpuOvrLdCntrl.tgtUlTpt,
+ DU_LOG("\nDEBUG --> SCH : CPU OVR LD UL Reset to= %d, %u, %u\n", (int)crntUlCpuOL, cell->cpuOvrLdCntrl.tgtUlTpt,
cell->measurements.ulTpt);
#endif
}
cell->cpuOvrLdCntrl.tgtDlTpt = cell->measurements.dlTpt + \
(cell->measurements.dlTpt * 1 )/100;
}
- RLOG_ARG3(L_DEBUG,DBG_CELLID,cell->cellId,"CPU OVR LD DL Reset to "
- "%d, %lu, %lu", (int)crntDlCpuOL, cell->cpuOvrLdCntrl.tgtDlTpt,cell->measurements.dlTpt);
+ DU_LOG("\nDEBUG --> SCH : CPU OVR LD DL Reset to "
+ "%d, %u, %u", (int)crntDlCpuOL, cell->cpuOvrLdCntrl.tgtDlTpt,cell->measurements.dlTpt);
#ifdef CPU_OL_DBG_PRINTS
- printf("\n CPU OVR LD DL Reset to= %d, %lu, %lu\n", (int)crntDlCpuOL, cell->cpuOvrLdCntrl.tgtDlTpt,
+ DU_LOG("\nDEBUG --> SCH : CPU OVR LD DL Reset to= %d, %lu, %lu\n", (int)crntDlCpuOL, cell->cpuOvrLdCntrl.tgtDlTpt,
cell->measurements.dlTpt);
#endif
}
cp = &emtcUe->dlResLst;
}else
{
- RLOG0(L_INFO, "*****restype mismatch");
+ DU_LOG("\nINFO --> SCH : *****restype mismatch");
}
if(cp != NULLP )
{
if(cp->count == 0)
{
- RLOG0(L_INFO,"****error count*****\n");
+ DU_LOG("\nINFO --> SCH : ****error count*****\n");
return ROK;
}
}