/******************************************************************************* ################################################################################ # Copyright (c) [2017-2019] [Radisys] # # # # Licensed under the Apache License, Version 2.0 (the "License"); # # you may not use this file except in compliance with the License. # # You may obtain a copy of the License at # # # # http://www.apache.org/licenses/LICENSE-2.0 # # # # Unless required by applicable law or agreed to in writing, software # # distributed under the License is distributed on an "AS IS" BASIS, # # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # # See the License for the specific language governing permissions and # # limitations under the License. # ################################################################################ *******************************************************************************/ /************************************************************************ Name: LTE-MAC layer Type: C source file Desc: C source code for Entry point fucntions File: rg_sch_tom.c **********************************************************************/ /** @file rg_sch_tom.c @brief This module does processing related to handling of lower interface APIs invoked by PHY towards scheduler. */ static const char* RLOG_MODULE_NAME="MAC"; static int RLOG_FILE_ID=228; static int RLOG_MODULE_ID=4096; /* header include files -- defines (.h) */ #include "common_def.h" #include "tfu.h" /* RGU defines */ #include "lrg.h" /* layer management defines for LTE-MAC */ #include "rgr.h" /* layer management defines for LTE-MAC */ #include "rgm.h" /* layer management defines for LTE-MAC */ #include "rg_env.h" /* defines and macros for MAC */ #include "rg_sch_err.h" /* defines and macros for MAC */ #include "rg_sch_inf.h" /* defines and macros for MAC */ #include "rg_sch.h" /* defines and macros for MAC */ #include "rg_sch_cmn.h" /* typedefs for MAC */ #include "rl_interface.h" #include "rl_common.h" /* header/extern include files (.x) */ #include "tfu.x" /* RGU types */ #include "lrg.x" /* layer management typedefs for MAC */ #include "rgr.x" /* layer management typedefs for MAC */ #include "rgm.x" /* layer management typedefs for MAC */ #include "rg_sch_inf.x" /* typedefs for Scheduler */ #include "rg_sch.x" /* typedefs for MAC */ #include "rg_sch_cmn.x" /* typedefs for MAC */ #ifdef EMTC_ENABLE #include "rg_sch_emtc_ext.x" #endif U8 rgSCHCmnCalcPcqiBitSz(RgSchUeCb *ueCb,U8 numTxAnt); PUBLIC S16 rgSCHDhm5gtfHqFdbkInd(RgSchUeCb *ue,RgSchCellCb *cell,CmLteTimingInfo timingInfo,TfuHqFdbk fdbk,RgSchErrInfo *err); /* local defines */ #ifdef EMTC_ENABLE EXTERN Bool rgSCHEmtcChkEmtcUe ARGS( ( RgSchCellCb *cell, U16 rapId )); EXTERN Void rgSchTomTtiEmtcSched ARGS( ( RgSchCellCb *cell )); EXTERN S16 rgSCHEmtcRamVldtProcRaReq ( U8 raRntiCnt, U8 raReqCnt, RgSchCellCb *cell, TfuRaReqIndInfo *raReqInd, RgSchUeCb *ue, Bool *isEmtcUe, RgSchErrInfo *err ); EXTERN Void rgSCHEmtcUpdCqiInfo ( RgSchUeCb *ue, RgSchUePCqiCb *cqiCb, U16 *cqiIdx ); EXTERN Void rgSCHEmtcUpdSRInfo ( RgSchUeCb *ue, U16 *srIdx ); EXTERN Void rgSCHCmnEmtcHdlCrcFailInd ( RgSchCellCb *cell, RgSchRaCb *raCb ); EXTERN S16 rgSCHEmtcTomUtlProcAtCrc ( RgSchCellCb *cell, CmLteTimingInfo crntHiDci0Frm, TfuCntrlReqInfo *cntrlInfo, RgSchErrInfo *err ); EXTERN Void rgSCHEmtcInitUeRecpReqLst ( TfuRecpReqInfo *recpReqInfo ); EXTERN Void rgSCHEmtcFillPucchRecpInfo ( RgSchCellCb *cell, RgSchDlHqProcCb *hqCb, U16 *hqRes ); EXTERN Bool rgSCHEmtcAddRecpInfoToLst ( RgSchDlHqProcCb *hqCb, TfuRecpReqInfo *recpReqInfo, TfuUeRecpReqInfo *pucchRecpInfo, Bool isEmtcUe ); EXTERN Void rgSCHEmtcWillUeRptCqi ( RgSchUeCb *ue, Bool *willUeRprtCqi ); EXTERN Void rgSchEmtcTomTtiCnsldtSfAlloc ( RgSchCellCb *cell ); EXTERN S16 rgSchEmtcTomTtiL1DlAndUlCfg ( RgSchCellCb *cell, RgTfuCntrlReqInfo *cntrlInfo ); EXTERN S16 rgSCHTomEmtcUtlFillDatRecpReq ( TfuRecpReqInfo *recpReqInfo, RgSchCellCb *cell, U16 validIdx, RgSchErrInfo *err ); EXTERN S16 rgSCHEmtcTomUtlFillHqFdbkRecpReq ( TfuRecpReqInfo *recpReqInfo, RgSchCellCb *cell, U16 validIdx, RgSchErrInfo *err ); EXTERN S16 rgSCHEmtcDhmRlsDlsfHqProc ( RgSchCellCb *cell, CmLteTimingInfo timingInfo ); EXTERN Void rgSCHEmtcCmnUlSch ( RgSchCellCb *cell ); #ifdef RG_ULSCHED_AT_CRC EXTERN S16 rgSCHEmtcTomUtlProcDlSfAtCrc ( RgSchEmtcDlSf *ulSf, CmLteTimingInfo crntUlFrm, RgSchCellCb *cell, TfuCntrlReqInfo *cntrlInfo, RgSchErrInfo *err ); EXTERN RgSchEmtcDlSf* rgSCHEmtcUtlSubFrmGet ( RgSchCellCb *cell, CmLteTimingInfo frm ); #endif EXTERN U32 gDlMpdcchBlank; EXTERN U32 gUlMpdcchBlank; EXTERN S16 rgSCHUtlIotResPrcTti ( RgSchCellCb *cell ); #endif EXTERN RgSchUeCb* rgSCHCmnGetHoUe ( RgSchCellCb *cell, U16 rapId ); EXTERN RgSchUeCb* rgSCHCmnGetPoUe ( RgSchCellCb *cell, U16 rapId, CmLteTimingInfo timingInfo ); PUBLIC S16 rgSCHTomUtlFillDatAperRecpReq ARGS( ( RgSchCellCb *cell, U8 cqiReq, RgSchUlAlloc *alloc, TfuUeRecpReqInfo *datRecpInfo, CmLteTimingInfo *timeInfo, Bool hqPres, U16 validIdx )); PUBLIC S16 rgSCHTomUtlFillDatPriRecpReq ARGS( ( RgSchCellCb *cell, RgSchUlAlloc *alloc, TfuUeRecpReqInfo *datRecpInfo, CmLteTimingInfo *timeInfo, Bool hqPres, U16 validIdx )); PUBLIC S16 rgSCHTomUtlFillDatPCqiRecpReq ARGS( ( RgSchCellCb *cell, RgSchUlAlloc *alloc, TfuUeRecpReqInfo *datRecpInfo, CmLteTimingInfo *timeInfo, Bool hqPres, U16 validIdx )); PUBLIC S16 rgSCHTomUtlFillDatSrsRecpReq ARGS( ( RgSchCellCb *cell, RgSchUlAlloc *alloc, TfuUeRecpReqInfo *datRecpInfo, CmLteTimingInfo *timeInfo, Bool hqPres )); PUBLIC void schFillCrntTime( SlotIndInfo slotInd, Inst schInst); #ifdef CA_DBG EXTERN U32 delayedApiCnt; U32 gPCellTb1AckCount=0,gPCellTb2AckCount=0,gPCellTb1NackCount=0,gPCellTb2NackCount=0; U32 gSCellSchedCount=0,gPrimarySchedCount=0; U32 gSCellTb1AckCount=0,gSCellTb2AckCount=0,gSCellTb1NackCount=0,gSCellTb2NackCount=0; U32 gPCellTb1DtxCount = 0, gPCellTb2DtxCount = 0, gSCellTb1DtxCount = 0, gSCellTb2DtxCount = 0; U32 gHqFdbkCount = 0; U32 gCqiRecpCount = 0; U32 gCqiRecpPuschCount = 0; U32 gCqiRcvdCount = 0; Bool gF1bCsPres = FALSE; U32 gRiReqCount = 0; U32 gCqiReqCount = 0; U32 gF1bCsCount = 0; U32 gACqiRcvdCount = 0; U32 gCqiReptToAppCount = 0; U32 gRawACqiCount= 0; U32 gCqiDropCount,gPucchDropCount; U32 gCqiPucchLowSnrDropCount,gCqiPucchConfMaskDropCount,gCqiPuschConfMaskDropCount; U32 gDci0Count = 0; U32 gUlCrcFailCount = 0; U32 gUlCrcPassCount = 0; U32 gPuschCqiDropCount = 0; U32 gCaDbgCaFrmt = 0; U32 gCaDbgNonCaFrmt = 0; U32 gPcellZeroBoOcc=0,gScellZeroBoOcc=0, dbgDelayedDatReqInMac=0,gDropDatReqCnt=0, gIccPktRcvrMemDropCnt=0; #endif #ifdef EMTC_ENABLE U32 gUlCrcFailCounter = 0; U32 gUlCrcPassCounter = 0; #endif #ifdef RG_5GTF EXTERN U32 gUl5gtfPdcchSend; #endif #ifdef UNUSED_FUNC #ifdef TFU_UPGRADE PRIVATE S16 rgSCHTomUtlFillCqiSrsWithSr ARGS (( RgSchCellCb *cell, RgSchUeCb *ue, TfuRecpReqInfo *recpReqInfo, TfuUeRecpReqInfo *pucchRecpInfo, U16 validIdx )); PRIVATE Bool rgSCHTomUtlFillDatHarqRecpReq ARGS (( RgSchCellCb *cell, RgSchUlAlloc *alloc, TfuUeRecpReqInfo *datRecpInfo, TfuRecpReqInfo *recpReqInfo )); PRIVATE S16 rgSCHTomUtlFillSrRecpReq ARGS(( TfuRecpReqInfo *recpReq, RgSchCellCb *cell, U16 validIdx, RgSchErrInfo *err)); PRIVATE S16 rgSCHTomUtlFillRiRecpReq ARGS(( TfuRecpReqInfo *recpReq, RgSchCellCb *cell, U16 validIdx, RgSchErrInfo *err)); PRIVATE S16 rgSCHTomUtlFillPcqiRecpReq ARGS(( TfuRecpReqInfo *recpReq, RgSchCellCb *cell, U16 validIdx, RgSchErrInfo *err)); PRIVATE S16 rgSCHTomUtlFillSrsRecpReq ARGS(( TfuRecpReqInfo *recpReq, RgSchCellCb *cell, U16 validIdx, RgSchErrInfo *err)); PRIVATE S16 rgSCHTomUtlGenIndices ARGS(( U32 label, U8 posM, U8 valN, U8 valK, TfuSubbandInfo* sbInfo)); #endif PRIVATE S16 rgSCHTomUtlFillCqiRiRecpReq ARGS( ( TfuRecpReqInfo *recpReqInfo, RgSchCellCb *cell, U16 validIdx, RgSchErrInfo *err )); PRIVATE Void rgSchTomFillCellTtiInfo ARGS (( TfuTtiIndInfo *ttiInd, Inst schInst, U8 *nCell, RgSchCellCb *cells[] )); #endif /* local typedefs */ PUBLIC U32 rgBwAlloInfo[RGSCH_NUM_SUB_FRAMES]; /* Num of Rbs Allocated in each SF */ PUBLIC U32 rgBwAlcnt[RGSCH_NUM_SUB_FRAMES]; /*Num of times Allocation done in each Subframe */ /* local externs */ /* rg006.201: [ccpu000111706, ccpu00112394]: Separated UL and DL TTI * processing */ #ifdef LTE_L2_MEAS U64 glblTtiCnt = 0; #endif U32 ri1Cnt ; U32 ri2Cnt ; U32 gDlNumUePerTti[20] = {0}; U32 gUlNumUePerTti[20] = {0}; PRIVATE S16 rgSCHTomUtlProcDlSf ARGS(( RgSchDlSf *dlSf, RgSchDlSf *ulSf, RgSchCellCb *cell, RgTfuCntrlReqInfo *cntrlInfo, RgSchErrInfo *err)); #ifdef RG_ULSCHED_AT_CRC PRIVATE S16 rgSCHTomUtlProcDlSfAtCrc ARGS(( RgSchDlSf *ulSf, CmLteTimingInfo crntUlFrm, RgSchCellCb *cell, TfuCntrlReqInfo *cntrlInfo, RgSchErrInfo *err)); #endif /* RG_ULSCHED_AT_CRC */ #ifdef LTE_TDD #ifdef TFU_UPGRADE PRIVATE S16 rgSCHTomUtlPrcUlTddSpclSf ARGS(( RgSchCellCb *cell, RgSchErrInfo *err)); #endif /* TFU_UPGRADE */ #endif PRIVATE S16 rgSCHTomUtlFillPhich ARGS(( RgSchCellCb *cell, TfuCntrlReqInfo *cntrlInfo, RgSchDlSf *dlSf, RgSchErrInfo *err)); PRIVATE S16 rgSCHTomUtlFillDlPdcch ARGS(( RgSchCellCb *cell, TfuCntrlReqInfo *cntrlInfo, RgSchDlSf *dlSf, RgSchErrInfo *err)); PRIVATE S16 rgSCHTomUtlFillUlPdcch ARGS(( RgSchCellCb *cell, TfuCntrlReqInfo *cntrlInfo, RgSchDlSf *ulSf, RgSchErrInfo *err)); PRIVATE S16 rgSCHTomUtlProcTA ARGS(( RgSchCellCb *cell)); #ifdef TFU_UPGRADE PRIVATE S16 rgSCHTomUtlFillHqFdbkRecpReq ARGS(( TfuRecpReqInfo *recpReq, RgSchCellCb *cell, U16 validIdx, RgSchErrInfo *err)); #else PRIVATE S16 rgSCHTomUtlFillHqFdbkRecpReq ARGS(( TfuRecpReqInfo *recpReq, RgSchCellCb *cell, RgSchErrInfo *err)); #endif #ifdef TFU_UPGRADE PUBLIC S16 rgSCHTomFillOnlySrsRecpReq ARGS (( RgSchCellCb *cell, RgSchUlAlloc *alloc, TfuUeRecpReqInfo *datRecpInfo )); PRIVATE S16 rgSCHTomUtlFillCqiSrSrsWithHq ARGS (( RgSchCellCb *cell, TfuRecpReqInfo *recpReqInfo, RgSchUeCb *ue, TfuUeRecpReqInfo *pucchRecpInfo, U16 validIdx, Bool isDatPresOnSecCell )); PUBLIC S16 rgSCHTomUtlFillRiBitWidthInfo ARGS (( RgSchUeCb *ueCb )); PUBLIC U8 rgSCHTomUtlFetchPcqiBitSz ARGS (( RgSchUeCb *ueCb, U8 numTxAnt, U8 *ri )); PUBLIC U8 rgSCHTomUtlFetchPcqiBitSzPucchMode21 ARGS (( RgSchUeCb *ueCb, TfuCqiPucchMode21 *mode21Info, U8 numTxAnt, U8 *ri )); PUBLIC S16 rgSCHTomUtlMoveNxtOccasion ARGS (( RgSchCellCb *cell, RgSchUeCb *ueCb, U16 validIdx )); PRIVATE S16 rgSCHTomUtlMovePcqiNxtOccasion ARGS (( RgSchCellCb *cell, RgSchUeCb *ue, RgSchUePCqiCb *cqiCb )); PRIVATE S16 rgSCHTomUtlMovePriNxtOccasion ARGS (( RgSchCellCb *cell, RgSchUeCb *ue, RgSchUePCqiCb *riCb )); PRIVATE S16 rgSCHTomUtlMoveSrNxtOccasion ARGS (( RgSchCellCb *cell, RgSchUeCb *ue )); PRIVATE S16 rgSCHTomUtlMoveSrsNxtOccasion ARGS (( RgSchCellCb *cell, RgSchUeCb *ue )); PRIVATE S16 rgSCHTomUtlWillUeRprtCqiRi ARGS(( RgSchUeCb *ue, Bool *willueRprtCqiRii)); #endif #ifdef TFU_UPGRADE PRIVATE S16 rgSCHTomUtlFillDatRecpReq ARGS(( TfuRecpReqInfo *recpReq, RgSchCellCb *cell, U16 validIdx, RgSchErrInfo *err)); #else PRIVATE S16 rgSCHTomUtlFillDatRecpReq ARGS(( TfuRecpReqInfo *recpReq, RgSchCellCb *cell, RgSchErrInfo *err)); #endif #ifdef LTE_TDD #ifdef TFU_UPGRADE PRIVATE S16 rgSCHTomUtlFillSfRepHqFdbk ARGS(( TfuRecpReqInfo *recpReqInfo, RgSchCellCb *cell, RgSchErrInfo *err, RgSchDlSf *dlSf, U8 noFdbks, CmMemListCp *memCp, U8 elemIdx, RgSchDlSf *nxtDlsf, U16 validIdx )); #else PRIVATE S16 rgSCHTomUtlFillSfRepHqFdbk ARGS(( TfuRecpReqInfo *recpReqInfo, RgSchCellCb *cell, RgSchErrInfo *err, RgSchDlSf *dlSf, U8 noFdbks, CmMemListCp *memCp, U8 elemIdx, RgSchDlSf *nxtDlsf )); #endif #ifdef TFU_UPGRADE PRIVATE S16 rgSCHTomUtlFillSfHqFdbk ARGS(( TfuRecpReqInfo *recpReqInfo, RgSchCellCb *cell, RgSchErrInfo *err, RgSchDlSf *dlSf, U8 noFdbks, CmMemListCp *memCp, U8 elemIdx, RgSchDlSf *nxtDlsf, U16 validIdx )); #else PRIVATE S16 rgSCHTomUtlFillSfHqFdbk ARGS(( TfuRecpReqInfo *recpReqInfo, RgSchCellCb *cell, RgSchErrInfo *err, RgSchDlSf *dlSf, U8 noFdbks, CmMemListCp *memCp, U8 elemIdx, RgSchDlSf *nxtDlsf )); #endif PRIVATE S16 rgSCHTomUtlFillSfHqFdbkForOneUe ARGS(( RgSchDlHqProcCb *hqCb, TfuRecpReqInfo *recpReqInfo, RgSchCellCb *cellCb, RgSchErrInfo *err, RgSchDlSf *dlSf, U8 noFdbks, CmMemListCp *memCp, U8 elemIdx, RgSchDlSf *nxtDlsf, CmLteRnti rnti, RgrTddAckNackMode ackNackMode, RgSchUePucchRecpInfo **pucchInfoRef, RgSchPdcch *pdcch, TknU16 n1PucchTkn, Bool *allocRef, U8 hqSz )); #endif #ifdef LTEMAC_SPS EXTERN PUBLIC Void rgSCHCmnDlSpsSch (RgSchCellCb *cell); #ifndef LTE_TDD #ifdef UNUSED_FUNC #ifdef TFU_UPGRADE PRIVATE S16 rgSCHTomCnsdrRelPdcch ARGS (( RgSchCellCb *cell, RgSchDlSf *dlSf, TfuRecpReqInfo *recpReqInfo, U16 validIdx, RgSchErrInfo *err )); #else PRIVATE S16 rgSCHTomCnsdrRelPdcch ARGS (( RgSchCellCb *cell, RgSchDlSf *dlSf, TfuRecpReqInfo *recpReqInfo, RgSchErrInfo *err )); #endif #endif #endif #endif PRIVATE Void rgSchTomTtiMiscFunctions ARGS (( RgSchCellCb *cell )); PRIVATE Void rgSchTomTtiUlAndDlCmnChSch ARGS (( RgSchCellCb *cell )); PRIVATE Void rgSchTomTtiDlSch ARGS (( RgSchCellCb *cell )); PRIVATE Void rgSchTomTtiCnsldtSfAlloc ARGS (( RgSchCellCb *cell )); PRIVATE Void rgSchTomTtiL1DlAndUlCfg ARGS (( RgSchCellCb *cell, RgTfuCntrlReqInfo *cntrlInfo )); #ifdef RGR_RRM_TICK PRIVATE Void rgSCHTomUtlSendSfnTick ARGS (( RgSchCellCb *cell )); #endif #ifdef LTE_TDD PRIVATE Void rgSchTomUtlTddRlsSfAndHarq ARGS (( RgSchCellCb *cell )); PRIVATE Void rgSCHTomUtlProcTddUlSf ARGS (( RgSchCellCb *cell )); #ifdef LTE_ADV PRIVATE Void rgSCHTomUtlGethqRes ARGS (( U8 noFdbks, RgSchDlSf *dlSf, RgSchPdcch *pdcch, RgSchCellCb *cellCb, U16 *hqRes )); PRIVATE Void rgSCHTomUtlFillSfHqFdbkForFrmt1BCSForM1 ARGS (( RgSchDlHqProcCb *hqCb, TfuUePucchRecpReq *hqRecpReq, U8 noFdbks, RgSchDlSf *dlSf, RgSchPdcch *pdcch, RgSchCellCb *cellCb )); PRIVATE Void rgSCHTomUtlFillSfHqFdbkForFrmt1BCSForM234 ARGS (( RgSchDlHqProcCb *hqCb, TfuUePucchRecpReq *hqRecpReq, U8 noFdbks, RgSchDlSf *dlSf, RgSchPdcch *pdcch, RgSchCellCb *cellCb, U8 elemIdx )); #endif/*LTE_ADV*/ #endif/*LTE_TDD*/ PUBLIC U32 rgDlCqiRptCnt[16], rgTotDlCqiRpt; #ifdef RG_5GTF U32 rgSch5gtfCqi2Mcs[15] = {0,1,2,3,4,5,6,7,8,9,10,11,12,13,14}; #endif /* forward references */ #ifdef TFU_UPGRADE /*HARQ Feedback interpretation in accordance with Femto Forum. Note: There is no value as '0' in Femto Forum Spec but in order to retain the existing usage in MAC (and its Acceptance), its being considered*/ //CONSTANT PRIVATE U8 rgSchTomHqFbkMap[8] = {0,1,0,0,4,4,4,4}; /*added #defines instead of magic numbers*/ /*CONSTANT PRIVATE U32 rgSCHTomBinCoe[RG_SCH_MAX_NUM_UE_SEL_SUBBANDS][RG_SCH_MAX_TOT_NUM_SUBBANDS]={ {1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28}, {0,1,3,6,10,15,21,28,36,45,55,66,78,91,105,120,136,153,171,190,210,231,253,276,300,325,351,378}, {0,0,1,4,10,20,35,56,84,120,165,220,286,364,455,560,680,816,969,1140,1330,1540,1771,2024,2300,2600,2925,3276}, {0,0,0,1,5,15,35,70,126,210,330,495,715,1001,1365,1820,2380,3060,3876,4845,5985,7315,8855,10626,12650,14950,17550,20475}, {0,0,0,0,1,6,21,56,126,252,462,792,1287,2002,3003,4368,6188,8568,11628,15504,20349,26334,33649,42504,53130,65780,80730,98280}, {0,0,0,0,0,1,7,28,84,210,462,924,1716,3003,5005,8008,12376,18564,27132,38760,54264,74613,100947,134596,177100,230230,296010,376740} }; */ /*ccpu00116923 - ADD - SRS present support*/ /*Tables Derived from 3GPP TS 36.211 Section 5.5.3.3 */ /* Table 5.5.3.3-1 */ #ifndef LTE_TDD CONSTANT PUBLIC RgSchFddCellSpSrsSubfrmTbl rgSchFddCellSpSrsSubfrmTbl = { {TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE}, {TRUE, FALSE, TRUE, FALSE, TRUE, FALSE, TRUE, FALSE, TRUE, FALSE}, {FALSE, TRUE, FALSE, TRUE, FALSE, TRUE, FALSE, TRUE, FALSE, TRUE}, {TRUE, FALSE, FALSE, FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, FALSE}, {FALSE, TRUE, FALSE, FALSE, FALSE, FALSE, TRUE, FALSE, FALSE, FALSE}, {FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, FALSE, TRUE, FALSE, FALSE}, {FALSE, FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, FALSE, TRUE, FALSE}, {TRUE, TRUE, FALSE, FALSE, FALSE, TRUE, TRUE, FALSE, FALSE, FALSE}, {FALSE, FALSE, TRUE, TRUE, FALSE, FALSE, FALSE, TRUE, TRUE, FALSE}, {TRUE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE}, {FALSE, TRUE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE}, {FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE}, {FALSE, FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE}, {TRUE, TRUE, TRUE, TRUE, TRUE, FALSE, TRUE, FALSE, TRUE, FALSE}, {TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, FALSE, TRUE, FALSE}, {FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE} }; #else /* Table 5.5.3.3-2 */ CONSTANT PUBLIC RgSchTddCellSpSrsSubfrmTbl rgSchTddCellSpSrsSubfrmTbl = { {FALSE, TRUE, FALSE, FALSE, FALSE, FALSE, TRUE, FALSE, FALSE, FALSE}, {FALSE, TRUE, TRUE, FALSE, FALSE, FALSE, TRUE, TRUE, FALSE, FALSE}, {FALSE, TRUE, FALSE, TRUE, FALSE, FALSE, TRUE, FALSE, TRUE, FALSE}, {FALSE, TRUE, FALSE, FALSE, TRUE, FALSE, TRUE, FALSE, FALSE, TRUE}, {FALSE, TRUE, TRUE, TRUE, FALSE, FALSE, TRUE, TRUE, TRUE, FALSE}, {FALSE, TRUE, TRUE, FALSE, TRUE, FALSE, TRUE, TRUE, FALSE, TRUE}, {FALSE, TRUE, FALSE, TRUE, TRUE, FALSE, TRUE, FALSE, TRUE, TRUE}, {FALSE, TRUE, TRUE, TRUE, TRUE, FALSE, TRUE, TRUE, TRUE, TRUE}, {FALSE, TRUE, TRUE, FALSE, FALSE, FALSE, TRUE, FALSE, FALSE, FALSE}, {FALSE, TRUE, FALSE, TRUE, FALSE, FALSE, TRUE, FALSE, FALSE, FALSE}, {FALSE, TRUE, FALSE, FALSE, FALSE, FALSE, TRUE, TRUE, FALSE, FALSE}, {FALSE, TRUE, TRUE, FALSE, FALSE, FALSE, TRUE, FALSE, TRUE, FALSE}, {FALSE, TRUE, FALSE, TRUE, FALSE, FALSE, TRUE, FALSE, FALSE, TRUE}, {FALSE, TRUE, FALSE, FALSE, TRUE, FALSE, TRUE, TRUE, FALSE, FALSE}, {FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE}, {FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE} }; #endif PUBLIC S8 rgSchCmnAper20n22DiffCqi[4] = {1, 2, 3, 4}; PUBLIC S8 rgSchCmnAper30n31DiffCqi[4] = {0, 1, 2, -1}; #endif /** * @brief get Ue for dedicated preamble rach * * @details * * Function: rgSCHGetDedPrmUe * * Invoked by: rgSCHTomRaReqInd * * @param[in] RgSchCellCb *cell * @param[in] TfuRaReqIndInfo *raReqInd * @return S16 * -# ROK * -# RFAILED **/ #ifdef ANSI PUBLIC S16 rgSCHGetDedPrmUe ( RgSchCellCb *cell, U16 rapId, CmLteTimingInfo timingInfo, RgSchUeCb **ue ) #else PUBLIC S16 rgSCHGetDedPrmUe(cell, rapId, timingInfo, ue) RgSchCellCb *cell; U16 rapId; CmLteTimingInfo timingInfo; RgSchUeCb **ue; #endif { RgSchCmnCell *cellSch = (RgSchCmnCell *)(cell->sc.sch); printf("rapId[%d] cellSch->rachCfg.dedPrmStart[%d] cellSch->rachCfg.numDedPrm[%d]\n",rapId,cellSch->rachCfg.dedPrmStart,cellSch->rachCfg.numDedPrm); /* Finding UE in handOver List */ if ((rapId < cellSch->rachCfg.dedPrmStart) || (rapId > cellSch->rachCfg.dedPrmStart + cellSch->rachCfg.numDedPrm - 1)) { /* This ded Preamble corresponds to handover */ *ue = rgSCHCmnGetHoUe(cell, rapId); printf(" his ded Preamble corresponds to hando\n"); } else/* Finding UE from PDCCH Order Mappings */ { /* Get the UE which has transmitted this RaReq */ *ue = rgSCHCmnGetPoUe(cell, rapId, timingInfo); printf(" ==== inding UE from PDCCH Order Mapping\n"); } return ROK; } /** * @brief Handler for processing Random Access request indication * recieved from PHY. * * @details * * Function: rgSCHTomRaReqInd * * Handler for processing Random Access request indication recieved from * PHY. * * Invoked by: RgLiTfuRaReqInd of LIM * * Processing Steps: * - Validate the information received: cellId value and raRnti values * - Process the request: Call rgSCHRamProcRaReq (cell, raRnti, raReqInd) * * @param[in] RgSchCellCb *cell * @param[in] TfuRaReqIndInfo *raReqInd * @return S16 * -# ROK * -# RFAILED **/ #ifdef ANSI PUBLIC S16 rgSCHTomRaReqInd ( RgSchCellCb *cell, TfuRaReqIndInfo *raReqInd ) #else PUBLIC S16 rgSCHTomRaReqInd(cell, raReqInd) RgSchCellCb *cell; TfuRaReqIndInfo *raReqInd; #endif { S16 ret; U8 raRntiCnt; U8 raReqCnt; RgSchErrInfo err; Bool isEmtcUe = FALSE; U16 rapId; RgSchUeCb *ue = NULLP; TRC2(rgSCHTomRaReqInd); if(cell->cellId != raReqInd->cellId) { err.errType = RGSCHERR_TOM_RAREQIND; err.errCause = RGSCHERR_TOM_INV_CELL_ID; RLOG_ARG3(L_ERROR,DBG_CELLID,cell->cellId, "rgSCHTomRaReqInd(): No cell found with raReq cellId = (%d) errorType (%d)" " errorCause(%d)",raReqInd->cellId, err.errType, err.errCause); return RFAILED; } for (raRntiCnt = 0; raRntiCnt < raReqInd->nmbOfRaRnti; raRntiCnt++) { for (raReqCnt = 0; raReqCnt < raReqInd->rachInfoArr->numRaReqInfo; raReqCnt++) { rapId = raReqInd->rachInfoArr[raRntiCnt].raReqInfoArr[raReqCnt].rapId; if(RGSCH_IS_DEDPRM(cell, rapId)) { rgSCHGetDedPrmUe(cell, rapId, raReqInd->timingInfo, &ue); if(NULLP == ue) { /* Since rapId is within dedicated range and No ue context * is found means it is a spurious rach. So ignore it.*/ continue; } } if(FALSE == isEmtcUe) { #if (ERRCLASS & ERRCLS_DEBUG) if(raReqInd->rachInfoArr[raRntiCnt].raRnti > RGSCH_MAX_RA_RNTI) { RGSCHLOGERROR(cell->instIdx, ERRCLS_INT_PAR, ERG013, (ErrVal)raReqInd->rachInfoArr[raRntiCnt].raRnti, ("rgSCHTomRaReqInd(): raRnti is out of range\n")); continue; } #endif ret = rgSCHRamProcRaReq(raReqCnt, cell, raReqInd->rachInfoArr[raRntiCnt].raRnti, (TfuRachInfo *)&raReqInd->rachInfoArr[raRntiCnt], raReqInd->timingInfo, ue, &err); if(ret == RFAILED) { err.errType = RGSCHERR_TOM_RAREQIND; RLOG_ARG3(L_ERROR,DBG_CELLID,cell->cellId, "RARNTI:%d rgSCHTomRaReqInd(): RAM processing failed errType(%d) " "errCause(%d)", raReqInd->rachInfoArr[raRntiCnt].raRnti, err.errType, err.errCause); continue; } } } } return ROK; } /* rgSCHTomRaReqInd */ /** * @brief Handler for processing uplink CQI indication recieved from PHY. * * @details * * Function: rgSCHTomUlCqiInd * * Handler for processing uplink CQI indication recieved from PHY. * * Invoked by: RgLiTfuUlCqiInd * * Processing Steps: * - Gets UE * - Invoke scheduler to push reported CQI info rgSCHUtlUlCqiInd * * @param[in] RgSchCellCb *cell * @param[in] TfuUlCqiIndInfo *ulCqiInd * @return S16 * -# ROK * -# RFAILED **/ #ifdef ANSI PUBLIC S16 rgSCHTomUlCqiInd ( RgSchCellCb *cell, TfuUlCqiIndInfo *ulCqiInd ) #else PUBLIC S16 rgSCHTomUlCqiInd(cell, ulCqiInd) RgSchCellCb *cell; TfuUlCqiIndInfo *ulCqiInd; #endif { RgSchUeCb *ue; CmLList *node; TfuUlCqiRpt *ulCqiInfo; TRC2(rgSCHTomUlCqiInd); node = ulCqiInd->ulCqiRpt.first; if(cell->cellId != ulCqiInd->cellId) { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId, "rgSCHTomUlCqiInd() Unable to get the ulCqiInd cell with id(%d)", ulCqiInd->cellId); return RFAILED; } for (;node; node=node->next) { ulCqiInfo = (TfuUlCqiRpt *)node->node; #if (ERRCLASS & ERRCLS_DEBUG) if(ulCqiInfo->numSubband == 0) { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"Num Subband is" "out of range RNTI:%d",ulCqiInfo->rnti); continue; } #endif if((ue = rgSCHDbmGetUeCb(cell, ulCqiInfo->rnti)) == NULLP) { #ifdef LTEMAC_SPS if((ue = rgSCHDbmGetSpsUeCb(cell, ulCqiInfo->rnti)) == NULLP) #endif { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"Unable to get " "the ue for RNTI:%d", ulCqiInfo->rnti); continue; } } /* wideband cqi is directly reported now. and also isTxPort0 */ rgSCHUtlUlCqiInd(cell, ue, ulCqiInfo); } return ROK; } /* rgSCHTomUlCqiInd */ /** * @brief Handler for processing PUCCH power adjustment indication * * @details * * Function: rgSCHTomPucchDeltaPwrInd * * Handler for processing PUCCH power adjustment indication * received from PHY. * * Invoked by: RgLiTfuPucchDeltaPwrInd * * Processing Steps: * - Gets UE * - Invoke scheduler to push reported CQI info rgSCHUtlPucchDeltaPwrInd * * @param[in] RgSchCellCb *cell * @param[in] TfuPucchDeltaPwrIndInfo *pucchDeltaPwr * @return S16 * -# ROK * -# RFAILED **/ #ifdef ANSI PUBLIC S16 rgSCHTomPucchDeltaPwrInd ( RgSchCellCb *cell, TfuPucchDeltaPwrIndInfo *pucchDeltaPwr ) #else PUBLIC S16 rgSCHTomPucchDeltaPwrInd(cell, pucchDeltaPwr) RgSchCellCb *cell; TfuPucchDeltaPwrIndInfo *pucchDeltaPwr; #endif { RgSchUeCb *ue; CmLList *node; TfuPucchDeltaPwr *ueElem; TRC2(rgSCHTomPucchDeltaPwrInd); if(cell->cellId != pucchDeltaPwr->cellId) { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId, "rgSCHTomPucchDeltaPwrInd() Unable to get the pucchDeltaPwr cell with id(%d)", pucchDeltaPwr->cellId); return RFAILED; } node = pucchDeltaPwr->pucchDeltaPwrLst.first; for (;node; node=node->next) { ueElem = (TfuPucchDeltaPwr *)node->node; if((ue = rgSCHDbmGetUeCb(cell, ueElem->rnti)) == NULLP) { #ifdef LTEMAC_SPS if((ue = rgSCHDbmGetSpsUeCb(cell, ueElem->rnti)) == NULLP) #endif { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"RNTI:%d " "rgSCHTomPucchDeltaPwrInd() Unable to get the ue ", ueElem->rnti); continue; } } rgSCHUtlPucchDeltaPwrInd(cell, ue, ueElem->pucchDeltaPwr); } return ROK; } /* rgSCHTomPucchDeltaPwrInd */ /** * @brief Handler for processing harq ACK/NACK indication recieved from PHY. * * @details * * Function: rgSCHTomHarqAckInd * * Handler for processing harq ACK/NACK indication recieved from PHY. * * Invoked by: RgLiTfuHqInd * * Processing Steps: * For each HqAckInfo received * - Get UE * - If UE doesnt exist look for a RaCb and invoke rgSCHRamMsg4FdbkInd * - Invoke HARQ module to pass HARQ-ACK info rgSCHDhmHqFdbkInd * * @param[in] TfuHqIndInfo *harqAckInd * @return S16 * -# ROK * -# RFAILED **/ #ifdef ANSI PUBLIC S16 rgSCHTomHarqAckInd ( RgSchCellCb *cell, TfuHqIndInfo *harqAckInd ) #else PUBLIC S16 rgSCHTomHarqAckInd(cell, harqAckInd) RgSchCellCb *cell; TfuHqIndInfo *harqAckInd; #endif { RgSchErrInfo err; RgSchUeCb *ue; RgSchRaCb *raCb; CmLList *node; TfuHqInfo *hqInfo; Pst pst; // U8 tbCnt; RgInfRlsHqInfo *rlsHqBufs = &(cell->rlsHqArr[cell->crntHqIdx]); U32 cellIdx; RgSchCellCb *iterCellP; TRC2(rgSCHTomHarqAckInd); if(cell->cellId != harqAckInd->cellId) { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"rgSCHTomHarqAckInd() Unable to get" " the cell for cellId (%d)", harqAckInd->cellId); err.errType = RGSCHERR_TOM_HARQACKIND; err.errCause = RGSCHERR_TOM_INV_CELL_ID; return RFAILED; } #ifdef RG_5GTF node = harqAckInd->hqIndLst.first; for (;node; node=node->next) { hqInfo = (TfuHqInfo *)node->node; { rlsHqBufs = &(cell->rlsHqArr[cell->crntHqIdx]); TfuHqFdbk fdbk = hqInfo->isAck[0]; raCb = rgSCHDbmGetRaCb (cell, hqInfo->rnti); ue = rgSCHDbmGetUeCb (cell, hqInfo->rnti); if (ue != NULLP && raCb == NULLP) { if ((rgSCHDhm5gtfHqFdbkInd (ue, cell, harqAckInd->timingInfo, fdbk, &err)) != ROK) { err.errType = RGSCHERR_TOM_HARQACKIND; RLOG_ARG2(L_ERROR,DBG_CELLID,cell->cellId,"rgSCHTomHarqAckInd() " "HARQ feedback processing failed errType(%d)errCause(%d)n", err.errType, err.errCause); continue; } } } } if ((rgSCHDhmRlsDlsfHqProc (cell, harqAckInd->timingInfo)) != ROK) { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"Unable to Release Downlink " "subframe for cellId (%d) ", cell->cellId); err.errType = RGSCHERR_TOM_HARQACKIND; } for (cellIdx = 0; cellIdx < CM_LTE_MAX_CELLS; cellIdx++) { if (NULLP != rgSchCb[cell->instIdx].cells[cellIdx]) { iterCellP = rgSchCb[cell->instIdx].cells[cellIdx]; rlsHqBufs = &(iterCellP->rlsHqArr[iterCellP->crntHqIdx]); if(rlsHqBufs->numUes) { rgSCHUtlGetPstToLyr(&pst, &rgSchCb[cell->instIdx], iterCellP->macInst); RgSchMacRlsHq (&pst, rlsHqBufs); } rlsHqBufs->numUes = 0; } } #else rlsHqBufs->numUes = 0; node = harqAckInd->hqIndLst.first; for (;node; node=node->next) { hqInfo = (TfuHqInfo *)node->node; for(tbCnt=0; tbCntisAck[tbCnt]=(TfuHqFdbk)rgSchTomHqFbkMap[hqInfo->isAck[tbCnt]]; } raCb = rgSCHDbmGetRaCb (cell, hqInfo->rnti); ue = rgSCHDbmGetUeCb (cell, hqInfo->rnti); if (ue == NULLP && raCb != NULLP) { #ifdef RG_UNUSED rgSCHRamMsg4FdbkInd (raCb); #endif if ((rgSCHDhmHqFdbkInd (raCb, RGSCH_HQ_FDB_IND_CB_TYPE_RA_CB, cell, harqAckInd->timingInfo, hqInfo, rlsHqBufs, &err)) != ROK) { err.errType = RGSCHERR_TOM_HARQACKIND; RLOG_ARG2(L_ERROR,DBG_CELLID,cell->cellId,"rgSCHTomHarqAckInd() HARQ" " feedback processing failed errType(%d) errCause(%d)", err.errType, err.errCause); continue; } continue; } else if (ue != NULLP && raCb == NULLP) { /* Get the Downlink HARQ entity from ue */ if ((rgSCHDhmHqFdbkInd (ue, RGSCH_HQ_FDB_IND_CB_TYPE_HQ_ENT, cell, harqAckInd->timingInfo, hqInfo, rlsHqBufs, &err)) != ROK) { err.errType = RGSCHERR_TOM_HARQACKIND; RLOG_ARG2(L_ERROR,DBG_CELLID,cell->cellId,"rgSCHTomHarqAckInd() " "HARQ feedback processing failed errType(%d)errCause(%d)n", err.errType, err.errCause); continue; } } else if (ue != NULLP && raCb != NULLP) { if ((rgSCHDhmHqFdbkInd (raCb, RGSCH_HQ_FDB_IND_CB_TYPE_RA_CB, cell, harqAckInd->timingInfo, hqInfo, rlsHqBufs, &err)) != ROK) { err.errType = RGSCHERR_TOM_HARQACKIND; RLOG_ARG2(L_ERROR,DBG_CELLID,cell->cellId,"rgSCHTomHarqAckInd() HARQ" " feedback processing failed errType(%d) errCause(%d).", err.errType, err.errCause); continue; } } else { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"RNTI:%d Unable to get the " "UE CB or RA CB ", hqInfo->rnti); err.errType = RGSCHERR_TOM_HARQACKIND; continue; } } /* Check with TDD call DHM*/ if ((rgSCHDhmRlsDlsfHqProc (cell, harqAckInd->timingInfo)) != ROK) { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"Unable to Release Downlink " "subframe for cellId (%d) ", harqAckInd->cellId); err.errType = RGSCHERR_TOM_HARQACKIND; } for (cellIdx = 0; cellIdx < CM_LTE_MAX_CELLS; cellIdx++) { if (NULLP != rgSchCb[cell->instIdx].cells[cellIdx]) { iterCellP = rgSchCb[cell->instIdx].cells[cellIdx]; rlsHqBufs = &(iterCellP->rlsHqArr[iterCellP->crntHqIdx]); if(rlsHqBufs->numUes) { rgSCHUtlGetPstToLyr(&pst, &rgSchCb[cell->instIdx], iterCellP->macInst); RgSchMacRlsHq (&pst, rlsHqBufs); } rlsHqBufs->numUes = 0; } } #endif return ROK; } /* rgSCHTomHarqAckInd */ /** * @brief Handler for processing Scheduling Request indication * recieved from PHY for a list of UEs. * * @details * * Function: rgSCHTomSrInd * * Handler for processing Scheduling Request indication recieved from PHY * for UEs. * * Invoked by: RgLiTfuSrInd * * Processing Steps: * - Get UE * - Invoke scheduler to indicate SR rgSCHUtlSrRcvd * * @param[in] TfuSrIndInfo *srInd * @return S16 * -# ROK * -# RFAILED **/ #ifdef ANSI PUBLIC S16 rgSCHTomSrInd ( RgSchCellCb *cell, TfuSrIndInfo *srInd ) #else PUBLIC S16 rgSCHTomSrInd(cell, srInd) RgSchCellCb *cell; TfuSrIndInfo *srInd; #endif { S16 ret = RFAILED; RgSchErrInfo err; RgSchUeCb *ue; CmLList *node; TfuSrInfo *srInfo; TRC2(rgSCHTomSrInd); if(cell->cellId != srInd->cellId) { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"Unable to get the cell for srcInd cellId" ":%d ", srInd->cellId); err.errType = RGSCHERR_TOM_SRIND; err.errCause = RGSCHERR_TOM_INV_CELL_ID; return RFAILED; } node = srInd->srLst.first; for (;node; node=node->next) { rgNumSrRecvd++; srInfo = (TfuSrInfo *)node->node; ue = rgSCHDbmGetUeCb (cell, srInfo->rnti); if (ue == NULLP) { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"RNTI:%d Unable to get the UE CB", srInfo->rnti); continue; } rgSCHUtlHdlUlTransInd(cell, ue, srInd->timingInfo); /*Need to activate UE as SR received*/ if (ue->isDrxEnabled) { rgSCHDrxSrInd(cell, ue); } ret = rgSCHUtlSrRcvd (cell, ue, srInd->timingInfo, &err); if (ret != ROK) { err.errType = RGSCHERR_TOM_SRIND; RLOG_ARG3(L_ERROR,DBG_CELLID,cell->cellId,"Scheduler processing failed " "errType(%d) errCause(%d) RNTI:%d", err.errType, err.errCause,srInfo->rnti); continue; } } return ROK; } /* end of rgSCHTomSrInd */ /** * @brief Handler for processing downlink CQI indication recieved from * PHY for a UE. * * @details * * Function: rgSCHTomDoaInd * * Handler for processing DOA recieved from PHY * for a set of UEs. * * Invoked by: RgLiTfuDoaInd * * Processing Steps: * - Get UE * - Invoke scheduler to indicate DOA rgSCHUtlDoaInd * * @param[in] TfuDoaIndInfo *doaInd * @return S16 * -# ROK * -# RFAILED **/ #ifdef ANSI PUBLIC S16 rgSCHTomDoaInd ( RgSchCellCb *cell, TfuDoaIndInfo *doaInd ) #else PUBLIC S16 rgSCHTomDoaInd(cell, doaInd ) RgSchCellCb *cell; TfuDoaIndInfo *doaInd; #endif { RgSchUeCb *ue; CmLList *node; TfuDoaRpt *doaInfo; TRC2(rgSCHTomDoaInd); if(cell->cellId != doaInd->cellId) { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"Unable to get the cell for doaInd cellId" ":%d", doaInd->cellId); return RFAILED; } node = doaInd->doaRpt.first; for (;node; node=node->next) { doaInfo = (TfuDoaRpt *)node->node; ue = rgSCHDbmGetUeCb (cell, doaInfo->rnti); if (ue == NULLP) { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"RNTI:%d Unable to get the UE CB", doaInfo->rnti); continue; } rgSCHUtlDoaInd(cell, ue, doaInfo); } return ROK; } /* rgSCHTomDoaInd */ /** * @brief Handler for processing downlink CQI indication recieved from * PHY for a UE. * * @details * * Function: rgSCHTomDlCqiInd * * Handler for processing downlink CQI indication recieved from PHY * for a set of UEs. * * Invoked by: RgLiTfuDlCqiInd * * Processing Steps: * - Get UE * - Invoke scheduler to indicate DL CQI rgSCHUtlDlCqiInd * * @param[in] TfuDlCqiIndInfo *dlCqiInd * @return S16 * -# ROK * -# RFAILED **/ #ifdef ANSI PUBLIC S16 rgSCHTomDlCqiInd ( RgSchCellCb *cell, TfuDlCqiIndInfo *dlCqiInd ) #else PUBLIC S16 rgSCHTomDlCqiInd(cell, dlCqiInd) RgSchCellCb *cell; TfuDlCqiIndInfo *dlCqiInd; #endif { RgSchUeCb *ue; CmLList *node; TfuDlCqiRpt *dlCqiInfo; TRC2(rgSCHTomDlCqiInd); if(cell->cellId != dlCqiInd->cellId) { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"Unable to get the cell for cellId" ":%d", dlCqiInd->cellId); return RFAILED; } node = dlCqiInd->dlCqiRptsLst.first; for (;node; node=node->next) { dlCqiInfo = (TfuDlCqiRpt *)node->node; ue = rgSCHDbmGetUeCb (cell, dlCqiInfo->rnti); if (ue == NULLP) { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"RNTI:%dUnable to get the UE CB", dlCqiInfo->rnti); continue; } rgSCHUtlDlCqiInd(cell, ue, dlCqiInfo, dlCqiInd->timingInfo); rgSCHUtlHdlUlTransInd(cell, ue, dlCqiInd->timingInfo); } return ROK; } /* rgSCHTomDlCqiInd */ /** * @brief Handler for moving PCQI instance for the next periodic occasion * * @details * * Function: rgSCHTomUtlMovePcqiNxtOccasion * * Handler for moving PCQI instance for the next periodic occasion * * Invoked by: rgSCHTomUtlFill* * * Processing Steps: * - For a UE move its occurence instance to next occasion * depending on its periodicity * - Remove it from the current list and insert it to the list * having the index matching with the derived number. * * @param[in] RgSchCellCb *cell, * [in] RgSchUeCb *ue * @return S16 * -# ROK * -# RFAILED **/ #ifdef ANSI PRIVATE S16 rgSCHTomUtlMovePcqiNxtOccasion ( RgSchCellCb *cell, RgSchUeCb *ue, RgSchUePCqiCb *cqiCb ) #else PRIVATE S16 rgSCHTomUtlMovePcqiNxtOccasion(cell, ue, cqiCb) RgSchCellCb *cell; RgSchUeCb *ue; RgSchUePCqiCb *cqiCb; #endif { U16 cqiIdx = 0; CmLteTimingInfo timingInfo; TRC2(rgSCHTomUtlMovePcqiNxtOccasion); if(cqiCb->cqiCfg.cqiSetup.cqiRepType == RGR_UE_PCQI_SB_REP) { #ifdef xLTE_TDD RG_SCH_ADD_TO_CRNT_TIME(cell->crntTime, timingInfo, TFU_DELTA); #else RG_SCH_ADD_TO_CRNT_TIME(cell->crntTime, timingInfo, TFU_RECPREQ_DLDELTA); #endif RG_SCH_ADD_TO_CRNT_TIME(timingInfo,timingInfo,cqiCb->cqiPeri); rgSCHTomUtlPcqiSbCalcBpIdx(timingInfo,ue,cqiCb); } /* Compute Next Transmission Instance */ cqiIdx = cqiCb->cqiPeri + cqiCb->nCqiTrIdx; cqiIdx = cqiIdx%RG_SCH_PCQI_SRS_SR_TRINS_SIZE; /* Delete from current List and move to new list */ if (NULLP == cmLListDelFrm(&cell->pCqiSrsSrLst[cqiCb->nCqiTrIdx].cqiLst, &cqiCb->cqiLstEnt)) { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"RNTI:%d Unable to remove node", ue->ueId); } cqiCb->nCqiTrIdx = cqiIdx; cmLListAdd2Tail(&(cell->pCqiSrsSrLst[cqiCb->nCqiTrIdx].cqiLst), &(cqiCb->cqiLstEnt)); #ifdef LTE_ADV rgSCHUtlSCellHndlCqiCollsn(cqiCb); #endif return ROK; } /* rgSCHTomUtlMovePcqiNxtOccasion */ /** * @brief Handler for moving RI instance for the next periodic occasion * * @details * * Function: rgSCHTomUtlMovePriNxtOccasion * * Handler for moving PCQI instance for the next periodic occasion * * Invoked by: rgSCHTomUtlFill* * * Processing Steps: * - For a UE move its occurence instance to next occasion * depending on its periodicity * - Remove it from the current list and insert it to the list * having the index matching with the derived number. * * @param[in] RgSchCellCb *cell, * [in] RgSchUeCb *ue * @return S16 * -# ROK * -# RFAILED **/ #ifdef ANSI PRIVATE S16 rgSCHTomUtlMovePriNxtOccasion ( RgSchCellCb *cell, RgSchUeCb *ue, RgSchUePCqiCb *riCb ) #else PRIVATE S16 rgSCHTomUtlMovePriNxtOccasion(cell, ue, riCb) RgSchCellCb *cell; RgSchUeCb *ue; RgSchUePCqiCb *riCb; #endif { U16 riIdx; U16 riDist=0; U16 effPeriodicity; U16 riTrInsTime; U16 crntTime; U16 tempIdx; TRC2(rgSCHTomUtlMovePriNxtOccasion); crntTime = (cell->crntTime.sfn * RGSCH_NUM_SUB_FRAMES_5G) +(cell->crntTime.slot); #ifdef XEON_SPECIFIC_CHANGES RGSCHCPYTIMEINFO(cell->crntTime, ue->riRecpTime); #endif /* Compute Next Transmission Instance */ if (riCb->cqiCfg.cqiSetup.cqiRepType == RGR_UE_PCQI_WB_REP) { effPeriodicity = riCb->cqiPeri * riCb->riPeri; tempIdx = effPeriodicity + riCb->nRiTrIdx; } else { effPeriodicity = (riCb->h * riCb->cqiPeri * riCb->riPeri); /* In case of SFN wraparound, the SB CQI reporting cycle breaks * and RI->WB CQI->SBCQI.. should resume. RI is repositioned * accordingly. WBCQI handling is naturally accomplished */ if ((crntTime + TFU_RECPREQ_DLDELTA + effPeriodicity) > (RGSCH_MAX_SUBFRM_5G - 1)) { riTrInsTime = (effPeriodicity - riCb->cqiOffset + riCb->riOffset) % effPeriodicity; tempIdx = RGSCH_MAX_SUBFRM_5G + (effPeriodicity - riTrInsTime); /* In case of SFN wraparound, riDist should be distance from crntTime * + TFU_RECPREQ_DLDELTA to tempIdx. Updating effPeriodicity * to make riDist calculation consistent for both SFN wraparound * case and normal case */ effPeriodicity = tempIdx - TFU_RECPREQ_DLDELTA - crntTime; } else { tempIdx = effPeriodicity + riCb->nRiTrIdx; } } riIdx = tempIdx % RG_SCH_PCQI_SRS_SR_TRINS_SIZE; if (effPeriodicity >= RG_SCH_PCQI_SRS_SR_TRINS_SIZE) { riDist = rgSCHUtlFindDist((U16)(crntTime + TFU_RECPREQ_DLDELTA), (U16)(crntTime + TFU_RECPREQ_DLDELTA + effPeriodicity)); } else { riDist = 0; } /* ccpu00138306- If Periodicity is equal to Queue Size or multiple of it * then the next occasion idx will be same as current Idx, Hence need not * to delete and add */ if((effPeriodicity%RG_SCH_PCQI_SRS_SR_TRINS_SIZE) != 0) { /* Delete from current List and move to new list */ if (NULLP == cmLListDelFrm(&cell->pCqiSrsSrLst[riCb->nRiTrIdx].riLst, &riCb->riLstEnt)) { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"[%d]UEID:Unable to remove node", ue->ueId); } RG_SCH_RECORD(&riCb->histElem,RGSCH_ACTION_DEL, &cell->pCqiSrsSrLst[riCb->nRiTrIdx].riLst); cmLListAdd2Tail(&cell->pCqiSrsSrLst[riIdx].riLst, &riCb->riLstEnt); RG_SCH_RECORD(&riCb->histElem,RGSCH_ACTION_ADD, &cell->pCqiSrsSrLst[riIdx].riLst); } else { if(riDist > 0) { riDist--; } } riCb->nRiTrIdx = riIdx; riCb->riDist = riDist; #ifdef LTE_ADV rgSCHUtlSCellHndlRiCollsn(riCb); #endif return ROK; } /* rgSCHTomUtlMovePriNxtOccasion */ /** * @brief Handler for moving SR instance for the next periodic occasion * * @details * * Function: rgSCHTomUtlMoveSrNxtOccasion * * Handler for moving SR instance for the next periodic occasion * * Invoked by: rgSCHTomUtlFill* * * Processing Steps: * - For a UE move its occurence instance to next occasion * depending on its periodicity * - Remove it from the current list and insert it to the list * having the index matching with the derived number. * * @param[in] RgSchCellCb *cell, * [in] RgSchUeCb *ue * @return S16 * -# ROK * -# RFAILED **/ #ifdef ANSI PRIVATE S16 rgSCHTomUtlMoveSrNxtOccasion ( RgSchCellCb *cell, RgSchUeCb *ue ) #else PRIVATE S16 rgSCHTomUtlMoveSrNxtOccasion(cell, ue) RgSchCellCb *cell; RgSchUeCb *ue; #endif { U16 srIdx = 0; TRC2(rgSCHTomUtlMoveSrNxtOccasion); /* Compute Next Transmission Instance */ srIdx = ue->srCb.peri + ue->srCb.nSrTrIdx; srIdx = srIdx%RG_SCH_PCQI_SRS_SR_TRINS_SIZE; /* Delete from current List and move to new list */ if (NULLP == cmLListDelFrm(&cell->pCqiSrsSrLst[ue->srCb.nSrTrIdx].srLst, &ue->srCb.srLstEnt)) { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"RNTI:%d Unable to remove node", ue->ueId); } ue->srCb.nSrTrIdx = srIdx; cmLListAdd2Tail(&cell->pCqiSrsSrLst[ue->srCb.nSrTrIdx].srLst, &ue->srCb.srLstEnt); return ROK; } /* rgSCHTomUtlMoveSrNxtOccasion */ /** * @brief Handler for moving SRS instance for the next periodic occasion * * @details * * Function: rgSCHTomUtlMoveSrsNxtOccasion * * Handler for moving SRS instance for the next periodic occasion * * Invoked by: rgSCHTomUtlFill* * * Processing Steps: * - For a UE move its occurence instance to next occasion * depending on its periodicity * - Remove it from the current list and insert it to the list * having the index matching with the derived number. * * @param[in] RgSchCellCb *cell, * [in] RgSchUeCb *ue * @return S16 * -# ROK * -# RFAILED **/ #ifdef ANSI PRIVATE S16 rgSCHTomUtlMoveSrsNxtOccasion ( RgSchCellCb *cell, RgSchUeCb *ue ) #else PRIVATE S16 rgSCHTomUtlMoveSrsNxtOccasion(cell, ue) RgSchCellCb *cell; RgSchUeCb *ue; #endif { U16 srsIdx; U16 srsDist; U16 tempIdx; U16 crntTime; TRC2(rgSCHTomUtlMoveSrsNxtOccasion); crntTime = (cell->crntTime.sfn * RGSCH_NUM_SUB_FRAMES_5G) +(cell->crntTime.slot); /* Compute Next Transmission Instance */ tempIdx = ue->srsCb.peri + ue->srsCb.nSrsTrIdx; srsIdx = tempIdx %RG_SCH_PCQI_SRS_SR_TRINS_SIZE; if (ue->srsCb.peri > RG_SCH_PCQI_SRS_SR_TRINS_SIZE) { srsDist = rgSCHUtlFindDist((U16)(crntTime + TFU_RECPREQ_DLDELTA), (U16)(crntTime + TFU_RECPREQ_DLDELTA + ue->srsCb.peri)); } else { srsDist =0; } /* ccpu00138306- If Periodicity is equal to Queue Size or multiple of it * then the next occasion idx will be same as current Idx, Hence need not * to delete and add */ if((ue->srsCb.peri%RG_SCH_PCQI_SRS_SR_TRINS_SIZE) != 0) { /* Delete from current List and move to new list */ if (NULLP == cmLListDelFrm(&cell->pCqiSrsSrLst[ue->srsCb.nSrsTrIdx].srsLst, &ue->srsCb.srsLstEnt)) { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"RNTI:%d Unable to remove node", ue->ueId); } cmLListAdd2Tail(&cell->pCqiSrsSrLst[srsIdx].srsLst, &ue->srsCb.srsLstEnt); } else { if(srsDist > 0) { srsDist--; } } ue->srsCb.nSrsTrIdx = srsIdx; ue->srsCb.srsDist = srsDist; return ROK; } /* rgSCHTomUtlMoveSrsNxtOccasion */ /** * @brief Handler for processing RAW CQI indication recieved from * PHY for a UE. * * @details * * Function: rgSCHTomRawCqiInd * * Handler for processing RAW CQI indication recieved from PHY * for a set of UEs. * * Invoked by: RgLiTfuRawCqiInd * * Processing Steps: * - Get UE * - Invoke scheduler to indicate Raw CQI rgSCHUtlRawCqiInd * * @param[in] TfuRawCqiIndInfo *rawCqiInd * @return S16 * -# ROK * -# RFAILED **/ #ifdef ANSI PUBLIC S16 rgSCHTomRawCqiInd ( RgSchCellCb *cell, TfuRawCqiIndInfo *rawCqiInd ) #else PUBLIC S16 rgSCHTomRawCqiInd(cell, rawCqiInd) RgSchCellCb *cell; TfuRawCqiIndInfo *rawCqiInd; #endif { RgSchUeCb *ue; CmLList *node; TfuRawCqiRpt* rawCqiInfo; RgSchErrInfo err; U32 cellIdx; RgInfRlsHqInfo *rlsHqBufs = &(cell->rlsHqArr[cell->crntHqIdx]); RgSchCellCb *iterCellP; #if DL_LA RgSchCmnDlUe *ueDl; #endif U8 cqi; U8 ri; U8 hqAck; Pst pst; RgSchRaCb *raCb; TfuHqInfo hqInfo; TRC2(rgSCHTomRawCqiInd); if(cell->cellId != rawCqiInd->cellId) { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"Unable to get the cell for cellId" ":%d", rawCqiInd->cellId); return RFAILED; } node = rawCqiInd->rawCqiRpt.first; for (;node; node=node->next) { rawCqiInfo = (TfuRawCqiRpt *)node->node; ue = rgSCHDbmGetUeCb (cell, rawCqiInfo->crnti); raCb = rgSCHDbmGetRaCb (cell, rawCqiInfo->crnti); /* if (ue == NULLP) { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"CRNTI:%d Unable to get the UECB", rawCqiInfo->crnti); continue; } */ #ifdef RG_5GTF /* if (rawCqiInfo->numBits >= 5) printf("cellId [%d] crnti [%d] numBits [%d] uciPayload [0x%08x] sfn/sf [%d:%d]\n", cell->cellId, rawCqiInfo->crnti, rawCqiInfo->numBits, rawCqiInfo->uciPayload, rawCqiInd->timingInfo.sfn, rawCqiInd->timingInfo.slot); */ if (rawCqiInfo->numBits == 1) { rlsHqBufs = &(cell->rlsHqArr[cell->crntHqIdx]); U8 fdbk = TFU_HQFDB_NACK; /* Process HARQ FdbkInd */ hqAck = (rawCqiInfo->uciPayload >> 31) & 0x1; if (hqAck) { fdbk = TFU_HQFDB_ACK; hqInfo.isAck[0] = fdbk; } if (ue != NULLP && raCb == NULLP) { if ((rgSCHDhm5gtfHqFdbkInd (ue, cell, rawCqiInd->timingInfo, fdbk, &err)) != ROK) { err.errType = RGSCHERR_TOM_HARQACKIND; RLOG_ARG2(L_ERROR,DBG_CELLID,cell->cellId,"rgSCHTomHarqAckInd() " "HARQ feedback processing failed errType(%d)errCause(%d)n", err.errType, err.errCause); continue; } } else if (ue == NULLP && raCb != NULLP) { if ((rgSCHDhmHqFdbkInd (raCb, RGSCH_HQ_FDB_IND_CB_TYPE_RA_CB, cell, rawCqiInd->timingInfo, &hqInfo, rlsHqBufs, &err)) != ROK) { err.errType = RGSCHERR_TOM_HARQACKIND; RLOG_ARG2(L_ERROR,DBG_CELLID,cell->cellId,"rgSCHTomHarqAckInd() HARQ" " feedback processing failed errType(%d) errCause(%d)", err.errType, err.errCause); continue; } continue; } else if (ue != NULLP && raCb != NULLP) { if ((rgSCHDhmHqFdbkInd (raCb, RGSCH_HQ_FDB_IND_CB_TYPE_RA_CB, cell, rawCqiInd->timingInfo, &hqInfo, rlsHqBufs, &err)) != ROK) { err.errType = RGSCHERR_TOM_HARQACKIND; RLOG_ARG2(L_ERROR,DBG_CELLID,cell->cellId,"rgSCHTomHarqAckInd() HARQ" " feedback processing failed errType(%d) errCause(%d).", err.errType, err.errCause); continue; } } else { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"RNTI:%d Unable to get the " "UE CB or RA CB ", rawCqiInfo->crnti); err.errType = RGSCHERR_TOM_HARQACKIND; continue; } /* printf("rawCqiInfo->numBits [%d] uciPayload [0x%08x] sfn/sf [%d:%d]\n", rawCqiInfo->numBits, rawCqiInfo->uciPayload, rawCqiInd->timingInfo.sfn, rawCqiInd->timingInfo.slot); */ } else if (rawCqiInfo->numBits == 5) { /* Process CQI-RI Ind*/ ri = (rawCqiInfo->uciPayload >> 27) & 0x1; cqi = (rawCqiInfo->uciPayload >> 28) & 0xF; if(ue) { if (cqi == 0) { printf("\n UE[%d] CQI[%d] Invalid\n", ue->ueId, cqi); cqi = 15; } ue->ue5gtfCb.mcs = rgSch5gtfCqi2Mcs[cqi - 1]; ue->ue5gtfCb.rank = ri + 1; #ifdef DL_LA if (rawCqiInfo->numBits > 1) { ueDl = RG_SCH_CMN_GET_DL_UE(ue,cell); ueDl->mimoInfo.cwInfo[0].cqi = cqi; ueDl->cqiFlag = TRUE; rgSCHCmnDlSetUeAllocLmtLa(cell, ue); // rgSCHCheckAndSetTxScheme(cell, ue); } #endif } /* printf("UE[%d] CQI[%d] MCS[%d] RI[%d]\n", ue->ueId, cqi, ue->ue5gtfCb.mcs, ri); */ } else if (rawCqiInfo->numBits == 6) { rlsHqBufs = &(cell->rlsHqArr[cell->crntHqIdx]); TfuHqFdbk fdbk = TFU_HQFDB_NACK; /* Process both HARQ and CQI-RI Ind*/ ri = (rawCqiInfo->uciPayload >> 26) & 0x1; cqi = (rawCqiInfo->uciPayload >> 27) & 0xF; hqAck = (rawCqiInfo->uciPayload >> 31) & 0x1; if (cqi == 0) { printf("UE[%d] CQI[%d] Invalid\n", ue->ueId, cqi); cqi = 13; } ue->ue5gtfCb.mcs = rgSch5gtfCqi2Mcs[cqi - 1]; ue->ue5gtfCb.rank = ri + 1; #ifdef DL_LA if (rawCqiInfo->numBits > 1) { ueDl = RG_SCH_CMN_GET_DL_UE(ue,cell); ueDl->mimoInfo.cwInfo[0].cqi = cqi; ueDl->cqiFlag = TRUE; rgSCHCmnDlSetUeAllocLmtLa(cell, ue); // rgSCHCheckAndSetTxScheme(cell, ue); } #endif if (hqAck) { fdbk = TFU_HQFDB_ACK; hqInfo.isAck[0] = fdbk; } if (ue != NULLP && raCb == NULLP) { if ((rgSCHDhm5gtfHqFdbkInd (ue, cell, rawCqiInd->timingInfo, fdbk, &err)) != ROK) { err.errType = RGSCHERR_TOM_HARQACKIND; RLOG_ARG2(L_ERROR,DBG_CELLID,cell->cellId,"rgSCHTomHarqAckInd() " "HARQ feedback processing failed errType(%d)errCause(%d)n", err.errType, err.errCause); continue; } } else if (ue == NULLP && raCb != NULLP) { if ((rgSCHDhmHqFdbkInd (raCb, RGSCH_HQ_FDB_IND_CB_TYPE_RA_CB, cell, rawCqiInd->timingInfo, &hqInfo, rlsHqBufs, &err)) != ROK) { err.errType = RGSCHERR_TOM_HARQACKIND; RLOG_ARG2(L_ERROR,DBG_CELLID,cell->cellId,"rgSCHTomHarqAckInd() HARQ" " feedback processing failed errType(%d) errCause(%d)", err.errType, err.errCause); continue; } continue; } else if (ue != NULLP && raCb != NULLP) { if ((rgSCHDhmHqFdbkInd (raCb, RGSCH_HQ_FDB_IND_CB_TYPE_RA_CB, cell, rawCqiInd->timingInfo, &hqInfo, rlsHqBufs, &err)) != ROK) { err.errType = RGSCHERR_TOM_HARQACKIND; RLOG_ARG2(L_ERROR,DBG_CELLID,cell->cellId,"rgSCHTomHarqAckInd() HARQ" " feedback processing failed errType(%d) errCause(%d).", err.errType, err.errCause); continue; } } else { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"RNTI:%d Unable to get the " "UE CB or RA CB ", rawCqiInfo->crnti); err.errType = RGSCHERR_TOM_HARQACKIND; continue; } /* printf("\nUE[%u] CQI[%u] MCS[%u] RI[%u] HQ[%u]\n", ue->ueId, cqi, ue->ue5gtfCb.mcs, ri, hqAck); */ } } if ((rgSCHDhmRlsDlsfHqProc (cell, rawCqiInd->timingInfo)) != ROK) { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"Unable to Release Downlink " "subframe for cellId (%d) ", cell->cellId); err.errType = RGSCHERR_TOM_HARQACKIND; } for (cellIdx = 0; cellIdx < CM_LTE_MAX_CELLS; cellIdx++) { if (NULLP != rgSchCb[cell->instIdx].cells[cellIdx]) { iterCellP = rgSchCb[cell->instIdx].cells[cellIdx]; rlsHqBufs = &(iterCellP->rlsHqArr[iterCellP->crntHqIdx]); if(rlsHqBufs->numUes) { rgSCHUtlGetPstToLyr(&pst, &rgSchCb[cell->instIdx], iterCellP->macInst); RgSchMacRlsHq (&pst, rlsHqBufs); } rlsHqBufs->numUes = 0; } } return ROK; } /* rgSCHTomRawCqiInd */ /** * @brief Handler for processing SRS indication recieved from * PHY for a UE. * * @details * * Function: rgSCHTomSrsInd * * Handler for SRS indication recieved from PHY * for a set of UEs. * * Invoked by: RgLiTfuSrsInd * * Processing Steps: * - Get UE * - Invoke scheduler to indicate UL SRS rgSCHUtlSrsInd * * @param[in] TfuSrsIndInfo *srsInd * @return S16 * -# ROK * -# RFAILED **/ #ifdef ANSI PUBLIC S16 rgSCHTomSrsInd ( RgSchCellCb *cell, TfuSrsIndInfo *srsInd ) #else PUBLIC S16 rgSCHTomSrsInd(cell, srsInd) RgSchCellCb *cell; TfuSrsIndInfo *srsInd; #endif { RgSchUeCb *ue; CmLList *node; TfuSrsRpt* srsInfo; TRC2(rgSCHTomSrsInd); if(cell->cellId != srsInd->cellId) { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"Unable to get the cell for cellId" ":%d", srsInd->cellId); return RFAILED; } node = srsInd->srsRpt.first; for (;node; node=node->next) { srsInfo = (TfuSrsRpt *)node->node; ue = rgSCHDbmGetUeCb (cell, srsInfo->ueId); if (ue == NULLP) { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"RNTI:%d Unable to get the " "UE CB", srsInfo->ueId); continue; } rgSCHUtlSrsInd(cell, ue, srsInfo, srsInd->timingInfo); rgSCHUtlHdlUlTransInd(cell, ue, srsInd->timingInfo); } return ROK; } /* rgSCHTomSrsInd */ /* * * Fun: rgSCHTomUtlGenIndices * * Desc: This function reconstructs the Subband Indices for * of M selected Subbands conveyed by the UE for APeriodic Modes * 2-0 and 2-2. It decodes the Label which uniquely encodes M out * of N subbands. * * * Ret: ROK * * Notes: None * * File: rg_sch_utl.c * */ #ifdef UNUSED_FUNC #ifdef ANSI PRIVATE S16 rgSCHTomUtlGenIndices ( U32 label, U8 posM, U8 valN, U8 valK, TfuSubbandInfo* sbInfo ) #else PRIVATE S16 rgSCHTomUtlGenIndices(label, posM, valN, valK, sbInfo) U32 label; U8 posM; U8 valN; U8 valK; TfuSubbandInfo* sbInfo; #endif { U8 idx, kval, xval, xmin; U32 binCoe; xmin =1; for(kval=0; kvallabel) { xval = xval+1; RGSCH_ARRAY_BOUND_CHECK_WITH_POS_IDX(0, rgSCHTomBinCoe[posM-kval-1], (valN-xval-1)); binCoe = rgSCHTomBinCoe[posM-kval-1][valN-xval-1]; } idx = xval; sbInfo[kval].numRb = valK; sbInfo[kval].rbStart = idx*valK; xmin = idx+1; label = label-binCoe; } return ROK; } /* end of rgSCHTomUtlGenIndices*/ #endif #endif /** * @brief Handler for processing decode failure indication recieved from * PHY for a UE. * * @details * * Function: rgSCHTomCrcInd * * Handler for processing decode failure indication recieved from * PHY for a set of UEs. * * Invoked by: RgLiTfuCrcInd of rg_sch.x * * Processing Steps: * - Validate the information received and retrieve cell and ue. * - Process Decode failure Indication: Call rgSCHUhmProcHqFailure(). * * @param[in] TfuCrcIndInfo *crcInd * @return S16 * -# ROK * -# RFAILED **/ #ifdef ANSI PUBLIC S16 rgSCHTomCrcInd ( RgSchCellCb *cell, TfuCrcIndInfo *crcInd ) #else PUBLIC S16 rgSCHTomCrcInd(cell, crcInd) RgSchCellCb *cell; TfuCrcIndInfo *crcInd; #endif { RgSchUeCb *ue = NULLP; RgSchRaCb *raCb = NULLP; CmLList *node; TfuCrcInfo *crcInfo; #ifdef RG_ULSCHED_AT_CRC RgSchErrInfo err; RgSchDlSf *ulSf; CmLteTimingInfo crntHiDci0Frm; //RgSchCmnUlCell *cellUl; Inst inst = cell->instIdx; TfuCntrlReqInfo *cntrlInfo; U32 ret; #ifdef LTE_TDD U8 Mval; U8 idx; #endif #endif #ifdef LTE_TDD RgSchUlHqProcCb *hqProc; #endif #ifdef LTE_L2_MEAS RgSchUlHqProcCb *ulHqProc; #endif TRC2(rgSCHTomCrcInd); if(cell->cellId != crcInd->cellId) { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"Unable to get the cell for cellId" ":%d", crcInd->cellId); return RFAILED; } #ifdef RG_ULSCHED_AT_CRC #ifndef LTE_ADV { static CmLteTimingInfo lastCrc = {2000,0}; CmLteTimingInfo crntCrc = cell->crntTime; if (RGSCH_TIMEINFO_SAME(lastCrc, crntCrc)) { /*Removed the WA to drop 2nd CRC*/ RLOG_ARG2(L_ERROR,DBG_CELLID,cell->cellId,"Recieved CRC " "twice per TTI @(%u,%u)", cell->crntTime.sfn, cell->crntTime.slot); } lastCrc = crntCrc; } #endif #endif node = crcInd->crcLst.first; for (;node; node=node->next) { crcInfo = (TfuCrcInfo*)node->node; ue = rgSCHDbmGetUeCb (cell, crcInfo->rnti); if (ue == NULLP) { #ifdef LTEMAC_SPS /* Fetch from SPS List */ ue = rgSCHDbmGetSpsUeCb(cell, crcInfo->rnti); if (ue == NULLP) #endif { raCb = rgSCHDbmGetRaCb (cell, crcInfo->rnti); if (raCb == NULLP) { continue; } } } /* Added Ul TB count for Uplink data scheduled*/ #ifdef LTE_L2_MEAS if(raCb) { ulHqProc = &(raCb->msg3HqProc); if(ulHqProc->remTx == (cell->rachCfg.maxMsg3Tx -1)) { cell->dlUlTbCnt.tbTransUlTotalCnt++; } } else { rgSCHUtlUlHqProcForUe(cell, crcInd->timingInfo, ue, &ulHqProc); if(ulHqProc->remTx == ((RgUeUlHqCb*)ulHqProc->hqEnt)->maxHqRetx) { cell->dlUlTbCnt.tbTransUlTotalCnt++; } } #endif if (crcInfo->isFailure == FALSE) { if(raCb) { rgSCHRamMsg3DatInd(raCb); #ifdef LTE_TDD /*ccpu00128820 - MOD - Msg3 alloc double delete issue*/ hqProc = &(raCb->msg3HqProc); RGSCH_UPD_PHICH(cell->ulDlCfgIdx, crcInd->timingInfo.slot, hqProc); #endif raCb = NULLP; } else { #ifdef EMTC_ENABLE gUlCrcPassCounter++; #endif #ifdef CA_DBG gUlCrcPassCount++; #endif RGSCHCPYTIMEINFO(crcInd->timingInfo, ue->datIndTime); #ifndef MAC_SCH_STATS rgSCHUhmProcDatInd(cell, ue, crcInd->timingInfo); #else /** Stats update over here */ { RgSchCmnUe *cmnUe = RG_SCH_CMN_GET_UE(ue,cell); rgSCHUhmProcDatInd(cell, ue, crcInd->timingInfo, cmnUe->ul.crntUlCqi[0]); } #endif /* MAC_SCH_STATS */ rgSCHUtlHdlUlTransInd(cell, ue, crcInd->timingInfo); #ifdef LTEMAC_SPS rgSCHUtlHdlCrcInd(cell, ue, crcInd->timingInfo); #endif } } else { if(raCb) { /* SR_RACH_STATS : MSG3 Nack / DTX*/ if (crcInfo->isDtx == TRUE) { rgNumMsg3DtxRcvd++; } else { rgNumMsg3CrcFailed++; } rgSCHRamMsg3FailureInd(raCb); #ifdef EMTC_ENABLE rgSCHCmnEmtcHdlCrcFailInd(cell, raCb); #endif /* Added Ul TB count for CRC Failure of MSG3 */ #ifdef LTE_L2_MEAS ulHqProc = &(raCb->msg3HqProc); if(ulHqProc->remTx == (cell->rachCfg.maxMsg3Tx -1)) { cell->dlUlTbCnt.tbTransUlFaulty++; } #endif raCb = NULLP; } else { #ifdef EMTC_ENABLE gUlCrcFailCounter++; #endif #ifdef CA_DBG gUlCrcFailCount++; #endif #ifndef MAC_SCH_STATS rgSCHUhmProcHqFailure (cell, ue, crcInd->timingInfo, crcInfo->rv); #else { RgSchCmnUe *cmnUe = RG_SCH_CMN_GET_UE(ue,cell); rgSCHUhmProcHqFailure (cell, ue, crcInd->timingInfo, crcInfo->rv, cmnUe->ul.crntUlCqi[0]); } #endif /* MAC_SCH_STATS */ rgSCHUtlHdlUlTransInd(cell, ue, crcInd->timingInfo); #ifdef LTEMAC_SPS rgSCHUtlHdlCrcFailInd(cell, ue, crcInd->timingInfo); #endif /* Added Ul TB count for CRC Failure of Uplink data */ #ifdef LTE_L2_MEAS rgSCHUtlUlHqProcForUe(cell, crcInd->timingInfo, ue, &ulHqProc); if(ulHqProc->remTx == ((RgUeUlHqCb*)ulHqProc->hqEnt)->maxHqRetx) { cell->dlUlTbCnt.tbTransUlFaulty++; } #endif } } } /* ccpu00132653-ADD Added Sched_At_Crc Changes for TDD and optimized here the codebase across TDD and FDD*/ #ifdef RG_ULSCHED_AT_CRC /* Changes to do uplink scheduling at CRC Indication */ //cellUl = RG_SCH_CMN_GET_UL_CELL(cell); RG_SCH_ADD_TO_CRNT_TIME(cell->crntTime, crntHiDci0Frm, TFU_ULCNTRL_DLDELTA); rgSCHCmnRlsUlSf(cell,0); /* Allocating memory for CntrlReq as it required for both EMTC and * Normal UEs */ if ((ret = rgSCHUtlAllocEventMem(inst, (Ptr *)&cntrlInfo, sizeof(TfuCntrlReqInfo))) != ROK) { RLOG_ARG0(L_ERROR,DBG_CELLID,cell->cellId,"Unable to Allocate TfuCntrlReqInfo " "for cell"); return ret; } rgSCHCmnUlSch(cell); #ifdef LTE_L2_MEAS rgSCHL2Meas(cell,TRUE); #endif /* Also, sending UL DCI and PHICH for just scheduled subframe */ ulSf = rgSCHUtlSubFrmGet (cell, crntHiDci0Frm); if ((rgSCHTomUtlProcDlSfAtCrc (ulSf, crntHiDci0Frm, cell, cntrlInfo, &err)) != ROK) { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"rgSCHTomCrcInd() Unable to process" " downlink subframe for cellId %d", crcInd->cellId); err.errType = RGSCHERR_TOM_TTIIND; return RFAILED; } #endif /* RG_ULSCHED_AT_CRC */ return ROK; } /* rgSCHTomCrcInd */ /** * @brief Handler for processing timing Advance indication recieved from * PHY for a UE. * * @details * * Function: rgSCHTomTimingAdvInd * * Handler for processing timing advance indication recieved from PHY * for a set of UEs. * * Invoked by: RgLiTfuTimingAdvInd * * Processing Steps: * - Get UE. * - Call DHM to update value of Timing Advance rgSCHDhmUpdTa. * * @param[in] TfuTimingAdvIndInfo *timingAdvInd * @return S16 * -# ROK * -# RFAILED **/ #ifdef ANSI PUBLIC S16 rgSCHTomTimingAdvInd ( RgSchCellCb *cell, TfuTimingAdvIndInfo *timingAdvInd ) #else PUBLIC S16 rgSCHTomTimingAdvInd(cell, timingAdvInd) RgSchCellCb *cell; TfuTimingAdvIndInfo *timingAdvInd; #endif { RgSchUeCb *ue; CmLList *node; TfuTimingAdvInfo *timingAdvInfo; TRC2(rgSCHTomTimingAdvInd); if(cell->cellId != timingAdvInd->cellId) { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"Unable to get the cell for cellId" "=(%d)", timingAdvInd->cellId); return RFAILED; } node = timingAdvInd->timingAdvLst.first; for (;node; node=node->next) { timingAdvInfo = (TfuTimingAdvInfo *)node->node; ue = rgSCHDbmGetUeCb (cell, timingAdvInfo->rnti); if (ue == NULLP) { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"RNTI:%d Unable to get the UE CB", timingAdvInfo->rnti); continue; } rgSCHDhmUpdTa (cell, ue, timingAdvInfo->timingAdv); } return ROK; } /* rgSCHTomTimingAdvInd */ /** * @brief Handler for processing TTI indication recieved from * PHY for 'n' cells. * * @details * * Function: rgSCHTomTtiInd * * Handler for processing slot indication recieved from MAC * for a cell. This is split into the below Steps. * * 1: Complete the Uplink and Common Channel Scheduling for each Cell * 2: Complete the UE specific Scheduling for each Cell / across Cells. * 3: Consolidate the subframe allocations and send to each MAC instance * 4: Fill the Tfu structures for DL and UL Config requests * 5: Handle the RGR Config messages per Cell * * @param[in] SlotIndInfo *slotInd * @param[in] Inst schInst * @return Void **/ #ifdef ANSI PUBLIC Void rgSCHTomTtiInd ( SlotIndInfo *slotInd, Inst schInst ) #else PUBLIC Void rgSCHTomTtiInd(slotInd, schInst) SlotIndInfo *slotInd; Inst schInst; #endif { RgInfSfAlloc *subfrmAlloc; RgTfuCntrlReqInfo *cntrlInfo = NULLP; S16 ret = ROK; U8 i; U8 nCell = 0; RgSchCellCb *cell[CM_LTE_MAX_CELLS]; RgSchCellCb *cellLst[CM_LTE_MAX_CELLS]; TRC2(rgSCHTomTtiInd); #ifdef LTE_L2_MEAS glblTtiCnt++; #endif //rgSchTomFillCellTtiInfo(slotInd, schInst, &nCell, &cell[0]); schFillCrntTime(*slotInd,schInst); for (i = 0; i < nCell; i++) { /* Perform UL and DL Common Channel scheduling */ rgSchTomTtiUlAndDlCmnChSch (cell[i]); } /* Perform scheduling in Order of * 1. SPS * 2. CEs * 3. Retx */ for (i = 0; i < nCell; i++) { if (cell[i]->isDlDataAllwd && (cell[i]->stopDlSch == FALSE)) { RgSchCmnCell *cellSch = RG_SCH_CMN_GET_CELL(cell[i]); /* Perform DL Retx scheduling */ cellSch->apisDl->rgSCHDlRetxSched(cell[i], &cellSch->allocInfo); } } rgSchCmnPreDlSch(cell, nCell, cellLst); for (i = 0; i < nCell; i++) { /* Perform DL scheduling */ rgSchTomTtiDlSch (cellLst[i]); } rgSchCmnPstDlSch(cell[0]); for (i = 0; i < nCell; i++) { #ifdef LTE_TDD #ifndef RG_ULSCHED_AT_CRC /* Perform UL scheduling for TDD */ rgSCHCmnUlSch (cell[i]); #endif #endif } /* Init SF Alloc info per Cell */ for (i = 0; i < nCell; i++) { subfrmAlloc = &(cell[i]->sfAllocArr[cell[i]->crntSfIdx]); rgSCHUtlResetSfAlloc(subfrmAlloc,FALSE,TRUE); } for (i = 0; i < nCell; i++) { if (cell[i]->isDlDataAllwd && (cell[i]->stopSiSch == FALSE)) { subfrmAlloc = &(cell[i]->sfAllocArr[cell[i]->crntSfIdx]); /* * TFU_DLDATA_DLDELTA is used in this calculation because the subfrmAlloc * timingInfo which is being calculated here will be used by MAC */ RG_SCH_ADD_TO_CRNT_TIME(cell[i]->crntTime, subfrmAlloc->timingInfo, RG_DL_DELTA - TFU_DLDATA_DLDELTA); /* Consolidate the Allocations and send response to MAC instances */ rgSchTomTtiCnsldtSfAlloc (cell[i]); } } for (i = 0; i < nCell; i++) { if (cell[i]->isDlDataAllwd && (cell[i]->stopSiSch == FALSE)) { /* Send the consolidated Alloc Info to MAC instances */ rgSCHCmnSndCnsldtInfo (cell[i]); } } for (i = 0; i < nCell; i++) { /* Fill control data from scheduler to PHY */ if ((ret = rgSCHUtlAllocEventMem((cell[i]->instIdx), (Ptr *)&cntrlInfo, sizeof(RgTfuCntrlReqInfo))) != ROK) { RLOG_ARG0(L_ERROR,DBG_CELLID,cell[i]->cellId,"Unable to Allocate TfuCntrlReqInfo" " for cell"); RETVOID; } #ifdef EMTC_ENABLE /* Fill the TFU structures and send to CL */ if(TRUE == cell[i]->emtcEnable) { ret = rgSchEmtcTomTtiL1DlAndUlCfg (cell[i], cntrlInfo); } #endif if((ROK == ret) && (NULLP != cntrlInfo)) { /* Fill the TFU structures and send to CL */ rgSchTomTtiL1DlAndUlCfg (cell[i], cntrlInfo); } } #ifdef RGR_RRM_TICK rgSCHTomUtlSendSfnTick(cell[0]); #endif for (i = 0; i < nCell; i++) { /* Invoke non critical functions like measurements, etc */ rgSchTomTtiMiscFunctions (cell[i]); } #ifdef CA_DBG { U32 dbgUeIdChngAndDatReqInClCnt = 0; static U32 gTtiCount = 0; gTtiCount++; if(gTtiCount == 3000) { #ifdef XEON_SPECIFIC_CHANGES printf("SChed:: (P/S)::(%u/%u) \n", gPrimarySchedCount,gSCellSchedCount); printf("\n HQFDBK :: %u\n",gHqFdbkCount); long int total; long int total2 ; total = gPCellTb1AckCount + gPCellTb1NackCount + gPCellTb1DtxCount; total2 = gPCellTb2AckCount + gPCellTb2NackCount + gPCellTb2DtxCount; printf("\n PCell:: TB1:: (A/N/D)::(%u/%u/%u) TB2:: (A/N/D)::(%u/%u/%u)\n", gPCellTb1AckCount,gPCellTb1NackCount,gPCellTb1DtxCount, gPCellTb2AckCount,gPCellTb2NackCount,gPCellTb2DtxCount); if ((total != 0 ) && total2 != 0) { printf("\n PCell:: TB1:: (AP/NP/DP)::(%.2f/%.2f/%.2f) TB2:: (AP/NP/DP)::(%.2f/%.2f/%.2f)\n", (float)gPCellTb1AckCount/total * 100,(float)gPCellTb1NackCount/total * 100,(float)gPCellTb1DtxCount/total * 100, (float)gPCellTb2AckCount/total2 *100 ,(float)gPCellTb2NackCount/total2 *100 ,(float)gPCellTb2DtxCount/total2 *2); } total = gSCellTb1AckCount + gSCellTb1NackCount + gSCellTb1DtxCount; total2 = gSCellTb2AckCount + gSCellTb2NackCount + gSCellTb2DtxCount; printf("\n SCell:: TB1:: (A/N/D)::(%u/%u/%u) TB2:: (A/N/D)::(%u/%u/%u)\n", gSCellTb1AckCount,gSCellTb1NackCount,gSCellTb1DtxCount, gSCellTb2AckCount,gSCellTb2NackCount,gSCellTb2DtxCount); if ((total != 0 ) && total2 != 0) { printf("\n SCell:: TB1:: (AP/NP/DP)::(%.2f/%.2f/%.2f) TB2:: (AP/NP/DP)::(%.2f/%.2f/%.2f)\n", (float)gSCellTb1AckCount/total * 100,(float)gSCellTb1NackCount/total * 100,(float)gSCellTb1DtxCount/total * 100, (float)gSCellTb2AckCount/total2 *100 ,(float)gSCellTb2NackCount/total2 *100 ,(float)gSCellTb2DtxCount/total2 *2); } printf("\n CQI:: Recp(Pucch/Pusch):Rcvd(pcqi/rawacqireport/apcqi/AppReprt)::(%u/%u):(%u/%u/%u/%u)\n", gCqiRecpCount,gCqiRecpPuschCount,gCqiRcvdCount,gRawACqiCount, gACqiRcvdCount,gCqiReptToAppCount); printf("\n (F1BCS Count/Cqi/Ri/CqiDrop/PucchDrop/PuschCqiDrop)::(%u/%u/%u/%u/%u/%u)\n", gF1bCsCount,gCqiReqCount,gRiReqCount,gCqiDropCount,gPucchDropCount,gPuschCqiDropCount); printf("UL::(DCI0/CrcPass/CrcFail)::(%u/%u/%u)\n" "gPcellZeroBoOcc:%u\t gScellZeroBoOcc:%u dbgUeIdChngAndDatReqInClCnt: %u\n" "DelayedDatReqInMac: %u DelayedDatReqInCl : %u gIccPktRcvrMemDropCnt :%u\n", gDci0Count, gUlCrcPassCount, gUlCrcFailCount, gPcellZeroBoOcc, gScellZeroBoOcc, dbgUeIdChngAndDatReqInClCnt, dbgDelayedDatReqInMac, gDropDatReqCnt, gIccPktRcvrMemDropCnt); #else printf("SChed:: (P/S)::(%ld/%ld) \n", gPrimarySchedCount,gSCellSchedCount); printf("\n HQFDBK :: %ld\n",gHqFdbkCount); printf("\n PCell:: TB1:: (A/N/D)::(%ld/%ld/%ld) TB2:: (A/N/D)::(%ld/%ld/%ld)\n", gPCellTb1AckCount,gPCellTb1NackCount,gPCellTb1DtxCount, gPCellTb2AckCount,gPCellTb2NackCount,gPCellTb2DtxCount); printf("\n SCell:: TB1:: (A/N/D)::(%ld/%ld/%ld) TB2:: (A/N/D)::(%ld/%ld/%ld)\n", gSCellTb1AckCount,gSCellTb1NackCount,gSCellTb1DtxCount, gSCellTb2AckCount,gSCellTb2NackCount,gSCellTb2DtxCount); printf("\n CQI:: Recp(Pucch/Pusch):Rcvd(pcqi/rawacqireport/apcqi/AppReprt)::(%ld/%ld):(%ld/%ld/%ld/%ld)\n", gCqiRecpCount,gCqiRecpPuschCount,gCqiRcvdCount,gRawACqiCount, gACqiRcvdCount,gCqiReptToAppCount); printf("\n CQI:: PucchCqiSnrDropCnt/PucchCqiConfBitMaskDropCnt/PuschCqiConfMaskDropCount :: (%ld/%ld/%ld) \n",gCqiPucchLowSnrDropCount,gCqiPucchConfMaskDropCount,gCqiPuschConfMaskDropCount); printf("\n (F1BCS Count/Cqi/Ri/CqiDrop/PucchDrop/PuschCqiDrop)::(%ld/%ld/%ld/%ld/%ld/%ld)\n", gF1bCsCount,gCqiReqCount,gRiReqCount,gCqiDropCount,gPucchDropCount,gPuschCqiDropCount); printf("UL::(DCI0/CrcPass/CrcFail)::(%ld/%ld/%ld)\n" "gPcellZeroBoOcc:%ld\t gScellZeroBoOcc:%ld dbgUeIdChngAndDatReqInClCnt: %ld\n" "DelayedDatReqInMac: %ld DelayedDatReqInCl : %ld gIccPktRcvrMemDropCnt :%ld\n", gDci0Count, gUlCrcPassCount, gUlCrcFailCount, gPcellZeroBoOcc, gScellZeroBoOcc, dbgUeIdChngAndDatReqInClCnt, dbgDelayedDatReqInMac, gDropDatReqCnt, gIccPktRcvrMemDropCnt); //printf ("\n delayedApiCnt:%ld",delayedApiCnt); #endif /*LAA STATS*/ rgSCHLaaPrintStats(); gCaDbgNonCaFrmt = gIccPktRcvrMemDropCnt = 0; gCaDbgCaFrmt = 0; gF1bCsCount = 0; gCqiReqCount = 0; gACqiRcvdCount = 0; gRawACqiCount= 0; gRiReqCount = 0; gCqiDropCount = 0; gPucchDropCount= 0; gCqiPucchLowSnrDropCount = 0; gCqiPucchConfMaskDropCount = 0; gCqiPuschConfMaskDropCount = 0; gPuschCqiDropCount = 0; gDci0Count = 0; gUlCrcPassCount = 0; gUlCrcFailCount = 0; gCqiRecpCount = 0; gCqiRecpPuschCount = 0; gCqiRcvdCount = 0; gCqiReptToAppCount = 0; gTtiCount = 0; gHqFdbkCount = 0; gPrimarySchedCount = 0; gSCellSchedCount = 0; gSCellTb1AckCount = 0; gSCellTb2AckCount = 0; gSCellTb2AckCount = 0; gSCellTb2NackCount = 0; gPCellTb1AckCount = 0; gPCellTb1NackCount = 0; gPCellTb2AckCount = 0; gPCellTb2NackCount = 0; gSCellTb1NackCount=0; gPCellTb1DtxCount = 0; gPCellTb2DtxCount = 0; gSCellTb1DtxCount = 0; gSCellTb2DtxCount = 0; gPcellZeroBoOcc = 0; gScellZeroBoOcc = 0; } } #endif RETVOID; } /* rgSCHTomTtiInd */ /** @brief This function does the TTI processin for the uplink subframe, * already populated by the scheduler. * * @details * * Function: rgSCHTomUtlProcUlSf * * Processing steps: * - Loop through the Uplink allocations present in the uplink subframe. * - For each allocation Fill a data reception request to be sent to PHY * - Also fills the harq reception requests for the expected HQ feedbacks. * * * @param [in] RgSchCellCb *cell * @param [out] RgSchErrInfo *err * @return S16 * -# ROK * -# RFAILED */ #ifdef ANSI PRIVATE S16 rgSCHTomUtlProcUlSf ( RgSchCellCb *cell, RgSchErrInfo *err ) #else PRIVATE S16 rgSCHTomUtlProcUlSf (cell, err) RgSchCellCb *cell; RgSchErrInfo *err; #endif { S16 ret; TfuRecpReqInfo *recpReqInfo; #ifdef TFU_UPGRADE U16 validIdx = 0; /* Index computed from recreq's timing info*/ #endif Inst inst = cell->instIdx; TRC2(rgSCHTomUtlProcUlSf) if ((ret = rgSCHUtlAllocEventMem(inst, (Ptr *)&recpReqInfo, sizeof(TfuRecpReqInfo))) != ROK) { RLOG_ARG0(L_ERROR,DBG_CELLID,cell->cellId,"Unable to Allocate TfuRecpReqInfo " "for cell"); err->errCause = RGSCHERR_TOM_MEM_EXHAUST; return ret; } recpReqInfo->cellId = cell->cellId; cmLListInit(&recpReqInfo->ueRecpReqLst); RG_SCH_ADD_TO_CRNT_TIME(cell->crntTime, recpReqInfo->timingInfo, TFU_RECPREQ_DLDELTA); /* Filling data Reception requests */ ret = rgSCHTomUtlFillDatRecpReq(recpReqInfo, cell, validIdx, err); if (ret != ROK) { RLOG_ARG0(L_ERROR,DBG_CELLID,cell->cellId,"Unable to fill Data recption " "requests for cell"); RGSCH_FREE_MEM(recpReqInfo); return ret; } /* Filling HARQ Reception requests */ ret = rgSCHTomUtlFillHqFdbkRecpReq (recpReqInfo, cell, validIdx,err); if (ret != ROK) { RLOG_ARG0(L_ERROR,DBG_CELLID,cell->cellId,"Unable to fill Harq Feedback " "reception requests for cell"); RGSCH_FREE_MEM(recpReqInfo); return ret; } /* sending the RecpReq to Phy */ if (rgSCHUtlTfuRecpReq(inst, cell->tfuSap->sapCfg.suId, recpReqInfo) != ROK) { RLOG_ARG0(L_ERROR,DBG_CELLID,cell->cellId,"Unable to send Cntrl info for cell"); } return ROK; } /* end of rgSCHTomUtlProcUlSf */ #ifdef LTE_TDD #ifdef TFU_UPGRADE /** @brief This function does the TTI processin for the uplink subframe, * already populated by the scheduler. * * @details * * Function: rgSCHTomUtlPrcUlTddSpclSf * * Processing steps: * - Fill the SRS Info for the Special Subframe in Reception Req. * - Send the Reception Req to TFU * * * @param [in] RgSchCellCb *cell * @param [out] RgSchErrInfo *err * @return S16 * -# ROK * -# RFAILED */ #ifdef ANSI PRIVATE S16 rgSCHTomUtlPrcUlTddSpclSf ( RgSchCellCb *cell, RgSchErrInfo *err ) #else PRIVATE S16 rgSCHTomUtlPrcUlTddSpclSf (cell, err) RgSchCellCb *cell; RgSchErrInfo *err; #endif { S16 ret; TfuRecpReqInfo *recpReqInfo; U16 validIdx; /* Index computed from recreq's timing info*/ Inst inst = cell->instIdx; TRC2(rgSCHTomUtlPrcUlTddSpclSf) if ((ret = rgSCHUtlAllocEventMem(inst, (Ptr *)&recpReqInfo, sizeof(TfuRecpReqInfo))) != ROK) { RLOG_ARG0(L_ERROR,DBG_CELLID,cell->cellId,"rgSCHTomUtlPrcUlTddSpclSf() Unable to " "Allocate TfuRecpReqInfo for cell"); err->errCause = RGSCHERR_TOM_MEM_EXHAUST; return ret; } recpReqInfo->cellId = cell->cellId; cmLListInit(&recpReqInfo->ueRecpReqLst); RG_SCH_ADD_TO_CRNT_TIME(cell->crntTime, recpReqInfo->timingInfo, TFU_RECPREQ_DLDELTA); RG_SCH_GET_IDX_PCQISRSSR(recpReqInfo->timingInfo, validIdx); /*ccpu00130768 */ if(cell->srsCfg.isSrsCfgPres && rgSchTddCellSpSrsSubfrmTbl[cell->srsCfg.srsSubFrameCfg][recpReqInfo->timingInfo.slot]) { recpReqInfo->srsPres = TRUE; } else { recpReqInfo->srsPres = FALSE; } /* Filling SRS Reception requests */ ret = rgSCHTomUtlFillSrsRecpReq (recpReqInfo, cell, validIdx, err); if (ret != ROK) { RLOG_ARG0(L_ERROR,DBG_CELLID,cell->cellId,"rgSCHTomUtlPrcUlTddSpclSf() Unable to fill" " SRS recption requests for cell");; RGSCH_FREE_MEM(recpReqInfo); return ret; } /* sending the RecpReq to Phy */ if (rgSCHUtlTfuRecpReq(inst, cell->tfuSap->sapCfg.suId, recpReqInfo) != ROK) { RLOG_ARG0(L_ERROR,DBG_CELLID,cell->cellId,"rgSCHTomUtlPrcUlTddSpclSf() Unable to send " "Cntrl info for cell"); } return ROK; } /* end of rgSCHTomUtlPrcUlTddSpclSf */ #endif #endif /** @brief This function does all the processing related to a single downlink * subframe. * * @details * * Function: rgSCHTomUtlProcDlSf * * Processing steps: * - collate control data for all UEs and send to PHY * - collate data buffers for all UEs and send to PHY * * @param [in] RgSchDlSf *dlSf * @param [in] RgSchDlSf *ulSf * @param [in] RgSchCellCb *cell * @param [out] RgSchErrInfo *err * @return S16 */ #ifdef ANSI PRIVATE S16 rgSCHTomUtlProcDlSf ( RgSchDlSf *dlSf, RgSchDlSf *ulSf, RgSchCellCb *cell, RgTfuCntrlReqInfo *cntrlInfo, RgSchErrInfo *err ) #else PRIVATE S16 rgSCHTomUtlProcDlSf (dlSf, ulSf, cell, cntrlInfo, err) RgSchDlSf *dlSf; RgSchDlSf *ulSf; RgSchCellCb *cell; RgTfuCntrlReqInfo *cntrlInfo; RgSchErrInfo *err; #endif { Inst inst = cell->instIdx; S16 ret; U8 sfTyp = 1; /* Dl Subframe */ TRC2(rgSCHTomUtlProcDlSf); cmLListInit(&cntrlInfo->phichLst); cmLListInit(&cntrlInfo->dlPdcchLst); cmLListInit(&cntrlInfo->ulPdcchLst); #ifdef TFU_ALLOC_EVENT_NO_INIT cntrlInfo->ulTiming.sfn = cntrlInfo->ulTiming.subframe = 0; #endif cntrlInfo->dlTiming = cell->dlDciTime; cntrlInfo->cellId = cell->cellId; cntrlInfo->ulTiming = cell->hiDci0Time; if((0 == (cntrlInfo->dlTiming.sfn % 30)) && (0 == cntrlInfo->dlTiming.slot)) { //printf("5GTF_CHECK rgSCHTomUtlProcDlSf Cntrl dl (%d : %d) ul (%d : %d)\n", cntrlInfo->dlTiming.sfn, cntrlInfo->dlTiming.subframe, cntrlInfo->ulTiming.sfn, cntrlInfo->ulTiming.subframe); } /* Fill PCFICH info */ /* Fix for DCFI FLE issue: when DL delta is 1 and UL delta is 0 and CFI *change happens in that SF then UL PDCCH allocation happens with old CFI *but CFI in control Req goes updated one since it was stored in the CELL */ cntrlInfo->cfi = dlSf->pdcchInfo.currCfi; #ifndef RG_ULSCHED_AT_CRC U8 Mval = 1; #ifdef LTE_TDD Mval = rgSchTddPhichMValTbl[cell->ulDlCfgIdx] [cell->hiDci0Time.subframe]; if(dlSf->sfType == RG_SCH_SPL_SF_DATA) { RGSCH_GET_SPS_SF_CFI(cell->bwCfg.dlTotalBw, cntrlInfo->cfi); } #endif if(Mval) { /* Fill PHICH info */ if ((ret = rgSCHTomUtlFillPhich (cell, cntrlInfo, ulSf, err)) != ROK) { RGSCHDBGERRNEW(inst,(rgSchPBuf(inst),"Unable to send PHICH info " "for cellId (%d)\n", cell->cellId)); RGSCH_FREE_MEM(cntrlInfo); return ret; } if ((ret = rgSCHTomUtlFillUlPdcch (cell, cntrlInfo, ulSf, err)) != ROK) { RGSCHDBGERRNEW(inst,(rgSchPBuf(inst),"Unable to send PDCCH info " "for cellId (%d)\n", cell->cellId)); RGSCH_FREE_MEM(cntrlInfo); return ret; } } #ifdef EMTC_ENABLE if(0 == cntrlInfo->ulMpdcchLst.count) { gUlMpdcchBlank++; } #endif #endif #ifdef LTE_TDD sfTyp = rgSchTddUlDlSubfrmTbl[cell->ulDlCfgIdx] [cell->dlDciTime.subframe]; #endif if (sfTyp != 2) /* Uplink subframe */ { /* Fill PDCCH info */ if ((ret = rgSCHTomUtlFillDlPdcch(cell,cntrlInfo, dlSf, err)) != ROK) { RGSCHDBGERRNEW(inst,(rgSchPBuf(inst),"Unable to send PDCCH info " "for cellId (%d)\n", cell->cellId)); RGSCH_FREE_MEM(cntrlInfo); return ret; } rgBwAlloInfo[dlSf->sfNum] += dlSf->bwAssigned; rgBwAlcnt[dlSf->sfNum] ++; } #ifdef LTEMAC_SPS /* SPS_NEW_CHGS */ cntrlInfo->isSPSOcc = dlSf->isSPSOcc; #endif cntrlInfo->numDlActvUes += dlSf->numDlActvUes; /* 4UE_TTI_DELTA */ dlSf->numDlActvUes = 0; #ifdef EMTC_ENABLE if(0 == cntrlInfo->dlMpdcchLst.count) { gDlMpdcchBlank++; } #endif /* Now always sending down a cntrl req */ /* sending the cntrl data to Phy */ if (rgSCHUtlTfuCntrlReq(inst, cell->tfuSap->sapCfg.suId, cntrlInfo) != ROK) { RLOG_ARG0(L_ERROR,DBG_CELLID,cell->cellId,"Unable to send Cntrl info " "for cell"); } return ROK; } /** @brief This function handles sending of the PHICH information for the * downlink subframe to be sent in the next TTI. * * @details * * Function: * * Processing steps: * - Loop through the PHICH information present in the downlink * subframe and fill the information in cntrlInfo. * * @param [out] TfuCntrlReqInfo *cntrlInfo * @param [in] RgSchDlSf *dlSf * @param [out] RgSchErrInfo *err * @return S16 * -# ROK * -# RFAILED */ #ifdef ANSI PRIVATE S16 rgSCHTomUtlFillPhich ( RgSchCellCb *cell, TfuCntrlReqInfo *cntrlInfo, RgSchDlSf *dlSf, RgSchErrInfo *err ) #else PRIVATE S16 rgSCHTomUtlFillPhich(cell, cntrlInfo, dlSf, err) RgSchCellCb *cell; TfuCntrlReqInfo *cntrlInfo; RgSchDlSf *dlSf; RgSchErrInfo *err; #endif { S16 ret; CmLList *node; RgSchPhich *phich; TfuPhichInfo *harqAck; #ifdef TFU_UPGRADE RgSchCmnDlCell *cellDl = RG_SCH_CMN_GET_DL_CELL(cell); #endif TRC2(rgSCHTomUtlFillPhich) ret = ROK; /* Traversing the list of Phichs */ node = dlSf->phichInfo.phichs.first; while (node) { phich = (RgSchPhich*)node->node; if ((ret = rgSCHUtlGetEventMem((Ptr *)&harqAck, sizeof(TfuPhichInfo), &(cntrlInfo->memCp))) != ROK) { err->errCause = RGSCHERR_TOM_MEM_EXHAUST; return ret; } #ifdef TFU_ALLOC_EVENT_NO_INIT harqAck->txPower = 0; #endif /* fill in the tfu structure from the information present in the * phich node */ harqAck->rbStart = phich->rbStart; harqAck->nDmrs = phich->nDmrs; harqAck->isAck = phich->hqFeedBack; harqAck->isForMsg3 = phich->isForMsg3; /*SR_RACH_STATS : PHICH ACK/NACK for MSG3 */ #ifdef LTE_TDD /* Changes for passing iPhich at TFU interface*/ harqAck->iPhich = phich->iPhich; #endif /* ccpu00138898 - Added Tx pwr offset for PHICH Tx*/ #ifdef TFU_UPGRADE harqAck->txPower = cellDl->phichTxPwrOffset; #endif cmLListAdd2Tail(&cntrlInfo->phichLst, &(harqAck->lnk)); harqAck->lnk.node = (PTR)harqAck; node = node->next; } /* end of while */ return ret; } /* end of */ #ifdef LTE_ADV /** @brief This function is a utility function to restart * deactivation timer. * * @details * * Function: rgSCHTmrRestartScellDeactTmr * * Processing steps: * - Starts timer at scheduler * * @param[in] RgSchCellCb *cell * @param[in] CmLteRnti rnti * @return Void */ #ifdef ANSI PRIVATE Void rgSCHTmrRestartScellDeactTmr ( RgSchCellCb *cell, RgSchUeCb *ueCb ) #else PRIVATE Void rgSCHTmrRestartScellDeactTmr (cell, ueCb) RgSchCellCb *cell; RgSchUeCb *ueCb; #endif { RgSchUeCellInfo *sCellInfo = NULLP; if(NULLP != ueCb) { if(RG_SCH_IS_CELL_SEC(ueCb, cell)) { sCellInfo = ueCb->cellInfo[(ueCb->cellIdToCellIdxMap[RG_SCH_CELLINDEX(cell)])]; if(sCellInfo->deactTmr.tmrEvnt != TMR_NONE) { rgSCHTmrStopTmr(cell, RG_SCH_TMR_SCELL_DEACT, sCellInfo); } if(PRSNT_NODEF == ueCb->sCellDeactTmrVal.pres) { /* rgSCHTmrStartTmr(cell,sCellInfo,RG_SCH_TMR_SCELL_DEACT, ueCb->sCellDeactTmrVal.val); */ } } } }/*end of rgSCHTmrRestartScellDeactTmr*/ #endif /** @brief This function will send all the PDCCH's for the given downlink * subframe. * * @details * * Function: * * Processing steps: * - Loop through all the scheduled HARQ processes and fill * the PDCCH information in cntrlInfo. * * @param [out] TfuCntrlReqInfo *cntrlInfo * @param [in] RgSchDlSf *dlSf * @param [out] RgSchErrInfo *err * @return S16 * -# ROK * -# RFAILED */ EXTERN U32 numdlSpsRelSentToTf; #ifdef ANSI PRIVATE S16 rgSCHTomUtlFillDlPdcch ( RgSchCellCb *cell, TfuCntrlReqInfo *cntrlInfo, RgSchDlSf *dlSf, RgSchErrInfo *err ) #else PRIVATE S16 rgSCHTomUtlFillDlPdcch(cell,cntrlInfo, dlSf, err) RgSchCellCb *cell; TfuCntrlReqInfo *cntrlInfo; RgSchDlSf *dlSf; RgSchErrInfo *err; #endif { S16 ret; CmLList *node; RgSchPdcch *pdcch; TfuPdcchInfo *tfuPdcch; U8 isDcivld = FALSE; U8 numUePerTti = 0; TRC2(rgSCHTomUtlFillDlPdcch) ret = ROK; /* Traversing the scheduled Harq processes */ node = dlSf->pdcchInfo.pdcchs.first; while (node) { pdcch = (RgSchPdcch*)node->node; switch(pdcch->dci.dciFormat) { case TFU_DCI_FORMAT_3: isDcivld = (pdcch->dci.u.format3Info.isPucch) ? TRUE : FALSE; break; case TFU_DCI_FORMAT_3A: isDcivld = (pdcch->dci.u.format3AInfo.isPucch) ? TRUE : FALSE; break; default: isDcivld = TRUE; break; } if(!isDcivld) { node = node->next; continue; } /*ccpu00117179 - ADD - Build only non DCI format-0 messages */ if((pdcch->dci.dciFormat == TFU_DCI_FORMAT_0) || (pdcch->dci.dciFormat == TFU_DCI_FORMAT_A1) || (pdcch->dci.dciFormat == TFU_DCI_FORMAT_A2)) { node = node->next; continue; } #ifdef RGSCH_SPS_STATS if((pdcch->dci.dciFormat == TFU_DCI_FORMAT_1A) && (pdcch->dci.u.format1aInfo.t.pdschInfo.allocInfo.mcs == 0x1F) && (pdcch->dci.u.format1aInfo.t.pdschInfo.allocInfo.alloc.type == TFU_ALLOC_TYPE_RIV) && (pdcch->dci.u.format1aInfo.t.pdschInfo.allocInfo.alloc.u.riv == 0xFFFFFFFF)) { numdlSpsRelSentToTf++; } #endif if ((ret = rgSCHUtlGetEventMem((Ptr *)&tfuPdcch, sizeof(TfuPdcchInfo), &(cntrlInfo->memCp))) != ROK) { err->errCause = RGSCHERR_TOM_MEM_EXHAUST; return ret; } #ifdef LTEMAC_SPS tfuPdcch->crnti = pdcch->crnti; tfuPdcch->isSpsRnti = pdcch->isSpsRnti; #endif tfuPdcch->rnti = pdcch->rnti; #ifdef LTE_ADV rgSCHTmrRestartScellDeactTmr(cell,pdcch->ue); #endif tfuPdcch->dciNumOfBits = pdcch->dciNumOfBits; tfuPdcch->nCce = pdcch->nCce; tfuPdcch->aggrLvl = pdcch->aggrLvl; tfuPdcch->dci = pdcch->dci; #ifdef RG_5GTF //TODO_SID: Need to check these values during INT tfuPdcch->sectorId = 0; tfuPdcch->sccIdx = 0; tfuPdcch->grpId = #endif /* SR_RACH_STATS : Reset isTBMsg4 */ pdcch->dci.u.format1aInfo.t.pdschInfo.isTBMsg4 = FALSE; /* To be enhanced later for 2.1 */ cmLListAdd2Tail(&cntrlInfo->dlPdcchLst, &(tfuPdcch->lnk)); tfuPdcch->lnk.node = (PTR)tfuPdcch; node = node->next; if((pdcch->rnti > 60) && (pdcch->rnti < 5000)) { #if defined (TENB_STATS) && defined (RG_5GTF) cell->tenbStats->sch.dl5gtfPdcchSend++; #endif numUePerTti++; } } /* end of while */ if((numUePerTti) && (numUePerTti < RG_MAX_NUM_UE_PER_TTI )) { cell->dlNumUeSchedPerTti[numUePerTti-1]++; { gDlNumUePerTti[numUePerTti-1]++; } } return ret; } /* end of rgSCHTomUtlFillDlPdcch*/ #ifdef RGSCH_SPS_STATS extern U32 rgSchSpsRelSentToTf; extern U32 rgSchSpsRelPdcchAllocd; #endif /** @brief This function will send all the UL PDCCH's for the given * subframe. * * @details * * Function: * * Processing steps: * - Loop through all the scheduled HARQ processes and fill * the PDCCH information in cntrlInfo. * * @param [out] TfuCntrlReqInfo *cntrlInfo * @param [in] RgSchDlSf *dlSf * @param [out] RgSchErrInfo *err * @return S16 * -# ROK * -# RFAILED */ #ifdef ANSI PRIVATE S16 rgSCHTomUtlFillUlPdcch ( RgSchCellCb *cell, TfuCntrlReqInfo *cntrlInfo, RgSchDlSf *dlSf, RgSchErrInfo *err ) #else PRIVATE S16 rgSCHTomUtlFillUlPdcch(cntrlInfo, dlSf, err) RgSchCellCb *cell; TfuCntrlReqInfo *cntrlInfo; RgSchDlSf *dlSf; RgSchErrInfo *err; #endif { S16 ret; CmLList *node; RgSchPdcch *pdcch; TfuPdcchInfo *tfuPdcch; U8 isDcivld = FALSE; TRC2(rgSCHTomUtlFillUlPdcch) ret = ROK; /* Traversing the scheduled Harq processes */ node = dlSf->pdcchInfo.pdcchs.first; while (node) { pdcch = (RgSchPdcch*)node->node; node = node->next; /*ccpu00116712- Function should pick only UL allocation related control * info- start */ switch(pdcch->dci.dciFormat) { case TFU_DCI_FORMAT_A1: isDcivld = TRUE; break; case TFU_DCI_FORMAT_A2: isDcivld = TRUE; break; case TFU_DCI_FORMAT_3: isDcivld = (pdcch->dci.u.format3Info.isPucch) ? FALSE : TRUE; break; case TFU_DCI_FORMAT_3A: isDcivld = (pdcch->dci.u.format3AInfo.isPucch) ? FALSE : TRUE; break; default: isDcivld = FALSE; break; } if(!isDcivld) { continue; } #ifdef CA_DBG gDci0Count++; #endif /*ccpu00116712- Function should pick only UL allocation related control * info- end */ if ((ret = rgSCHUtlGetEventMem((Ptr *)&tfuPdcch, sizeof(TfuPdcchInfo), &(cntrlInfo->memCp))) != ROK) { err->errCause = RGSCHERR_TOM_MEM_EXHAUST; return ret; } tfuPdcch->rnti = pdcch->rnti; #ifdef LTE_ADV rgSCHTmrRestartScellDeactTmr(cell,pdcch->ue); #endif tfuPdcch->dciNumOfBits = pdcch->dciNumOfBits; tfuPdcch->nCce = pdcch->nCce; tfuPdcch->aggrLvl = pdcch->aggrLvl; tfuPdcch->dci = pdcch->dci; #ifdef RG_5GTF //TODO_SID: Need to check these values during INT tfuPdcch->sectorId = 0; tfuPdcch->sccIdx = 0; tfuPdcch->grpId = #endif /* To be enhanced later for 2.1 */ gUl5gtfPdcchSend++; #if defined (TENB_STATS) && defined (RG_5GTF) cell->tenbStats->sch.ul5gtfPdcchSend++; #endif cmLListAdd2Tail(&cntrlInfo->ulPdcchLst, &(tfuPdcch->lnk)); tfuPdcch->lnk.node = (PTR)tfuPdcch; } /* end of while */ #ifdef RGSCH_SPS_STATS if (rgSchSpsRelSentToTf != rgSchSpsRelPdcchAllocd) { // abort(); } #endif return ret; } /* end of rgSCHTomUtlFillUlPdcch*/ /** @brief This function does the processing for Timing adjustment. * * @details * * Function: * * Processing steps: * - Loop through the ue present ueTimeLst, decrement the remaining * frames left. * * * @param [in] RgSchCellCb *cell * @return S16 * -# ROK * -# RFAILED */ #ifdef ANSI PRIVATE S16 rgSCHTomUtlProcTA ( RgSchCellCb *cell ) #else PRIVATE S16 rgSCHTomUtlProcTA (cell) RgSchCellCb *cell; #endif { CmLList *node; RgSchUeCb *ue; TRC2(rgSCHTomUtlProcTA); node = cell->taUeLst.first; while (node) { ue = (RgSchUeCb *)node->node; node = node->next; if (ue->dl.taCb.numRemSf == 0) { ue->dl.taCb.state = RGSCH_TA_IDLE; /* If Outstanding Ta is present, schedule it */ if(ue->dl.taCb.outStndngTa == TRUE) { rgSCHUtlReTxTa(cell, ue); } else { /* We need to reset state and also value of TA, * then we start the timer */ ue->dl.taCb.ta = RGSCH_NO_TA_RQD; /* Start the timer only if TA is cfgd as FINITE value */ if (ue->dl.taCb.cfgTaTmr) { rgSCHTmrStartTmr (cell, ue, RG_SCH_TMR_TA, ue->dl.taCb.cfgTaTmr); } } /* need to delete from the link list */ cmLListDelFrm(&(cell->taUeLst), &(ue->taLnk)); ue->taLnk.node = NULLP; } else { ue->dl.taCb.numRemSf--; } } /* end of taUeLst */ return ROK; } /* end of rgSCHTomUtlProcTA */ /** @brief This function handles filling of Hq reception request to * Per Hq Proc. * * @details * * Function: * * Processing steps: * * @return S16 * -# ROK * -# RFAILED */ #ifdef TFU_UPGRADE #ifdef ANSI PUBLIC S16 rgSCHTomUtlFillHqFdbkInfo ( TfuRecpReqInfo *recpReqInfo, RgSchCellCb *cell, U16 validIdx, RgSchDlHqProcCb *hqCb, RgSchDlSf *nxtDlsf, TfuUeRecpReqInfo *pucchRecpInfo, RgSchDlHqProcCb *prvHqCb, RgSchErrInfo *err ) #else PUBLIC S16 rgSCHTomUtlFillHqFdbkInfo (recpReqInfo, cell, validIdx, hqCb, nxtDlsf, pucchRecpInfo, prvHqCb, err) TfuRecpReqInfo *recpReqInfo; RgSchCellCb *cell; U16 validIdx; RgSchDlHqProcCb *hqCb; RgSchDlSf *nxtDlsf; TfuUeRecpReqInfo *pucchRecpInfo; RgSchDlHqProcCb *prvHqCb; RgSchErrInfo *err; #endif #else #ifdef ANSI PUBLIC S16 rgSCHTomUtlFillHqFdbkInfo ( TfuRecpReqInfo *recpReqInfo, RgSchCellCb *cell, RgSchDlHqProcCb *hqCb, RgSchDlSf *nxtDlsf, TfuUeRecpReqInfo *pucchRecpInfo, RgSchDlHqProcCb *prvHqCb, RgSchErrInfo *err ) #else PUBLIC S16 rgSCHTomUtlFillHqFdbkInfo (recpReqInfo, cell, hqCb, nxtDlsf, pucchRecpInfo, prvHqCb, err) TfuRecpReqInfo *recpReqInfo; RgSchCellCb *cell; RgSchDlHqProcCb *hqCb; RgSchDlSf *nxtDlsf; TfuUeRecpReqInfo *pucchRecpInfo; RgSchDlHqProcCb *prvHqCb; RgSchErrInfo *err; #endif #endif { S16 ret; RgSchDlHqTbCb *tbCb; U32 idx; Bool isAddToLst = FALSE; for (idx = 0 ;idx < 2; idx++) { if (HQ_TB_WAITING == hqCb->tbInfo[idx].state) { tbCb = &hqCb->tbInfo[idx]; /* FOR ACK NAK REP */ if ((hqCb->hqE->ue != NULLP) && (hqCb->hqE->ue->measGapCb.isMeasuring == TRUE)) { if ((tbCb->fbkRecpRepCntr) && (--tbCb->fbkRecpRepCntr)) { /* Add to next subfarme */ /* Add this hqCb to the next dlSf's ackNakRepQ */ cmLListAdd2Tail (&(nxtDlsf->ackNakRepQ), &(tbCb->anRepLnk[tbCb->fbkRecpRepCntr])); tbCb->anRepLnk[tbCb->fbkRecpRepCntr].node = (PTR)tbCb; tbCb->crntSubfrm[tbCb->fbkRecpRepCntr] = nxtDlsf; } #ifdef TFU_UPGRADE rgSCHTomUtlMoveNxtOccasion(cell, hqCb->hqE->ue, validIdx); #endif continue; } #ifdef TFU_UPGRADE if (hqCb->tbCnt) { hqCb->tbCnt--; /* Go to the next node */ continue; } #endif //if (hqCb != prvHqCb) { ret = rgSCHUtlGetEventMem((Ptr *)&pucchRecpInfo, sizeof(TfuUeRecpReqInfo), &(recpReqInfo->memCp)); if (ret != ROK) { RLOG_ARG0(L_ERROR,DBG_CELLID,cell->cellId,"Unable to Allocate " "TfuUeRecpReqInfo for cell"); err->errCause = RGSCHERR_TOM_MEM_EXHAUST; return ret; } pucchRecpInfo->type = TFU_RECP_REQ_PUCCH; if ((hqCb->hqE->ue != NULLP) /*&& ((tbCb->lchSchdData[0].lcId != 0) || (tbCb->taSnt == TRUE))*/ ) { pucchRecpInfo->rnti = hqCb->hqE->ue->ueId; } else { if (hqCb->hqE->raCb) { pucchRecpInfo->rnti = hqCb->hqE->raCb->tmpCrnti; } } #ifndef TFU_UPGRADE #ifndef TFU_TDD #ifdef LTEMAC_SPS if (!hqCb->spsN1PucchRes.pres) #endif { pucchRecpInfo->t.pucchRecpReq.hqType = TFU_HQ_RECP_REQ_NORMAL; pucchRecpInfo->t.pucchRecpReq.t.nCce = hqCb->pdcch->nCce; } #ifdef LTEMAC_SPS else { pucchRecpInfo->t.pucchRecpReq.hqType = TFU_HQ_RECP_REQ_N1PUCCH; pucchRecpInfo->t.pucchRecpReq.t.n1Pucch = hqCb->spsN1PucchRes.val; } #endif #endif /* Handling of other types */ pucchRecpInfo->t.pucchRecpReq.type = TFU_UCI_HARQ; #else /* TFU_UPGRADE */ pucchRecpInfo->t.pucchRecpReq.uciInfo = TFU_PUCCH_HARQ; if ((hqCb->tbInfo[0].state == HQ_TB_WAITING) && (hqCb->tbInfo[1].state == HQ_TB_WAITING)) { pucchRecpInfo->t.pucchRecpReq.hqInfo.hqSz = 2; /* MIMO */ } else { pucchRecpInfo->t.pucchRecpReq.hqInfo.hqSz = 1; /* NON-MIMO */ } { #ifdef LTEMAC_SPS /* PucchRecpReq needs to be filled up for n1Pucch resource for SPS * ocassions */ if (hqCb->spsN1PucchRes.pres) { pucchRecpInfo->t.pucchRecpReq.hqInfo.hqRes[0] = hqCb->spsN1PucchRes.val; } else #endif /* LTEMAC_SPS */ { pucchRecpInfo->t.pucchRecpReq.hqInfo.hqRes[0] = (hqCb->pdcch->nCce + cell->pucchCfg.n1PucchAn); } #ifdef EMTC_ENABLE rgSCHEmtcFillPucchRecpInfo(cell, hqCb, &(pucchRecpInfo->t.pucchRecpReq.hqInfo.hqRes[0])); #endif } #endif/*TFU_UPGRADE*/ #ifdef TFU_UPGRADE rgSCHTomUtlFillCqiSrSrsWithHq(cell,recpReqInfo, hqCb->hqE->ue, pucchRecpInfo, validIdx,FALSE); #endif #ifdef EMTC_ENABLE /* Passing last parameter as FALSE in this case as it will be verified from hqCb*/ isAddToLst = rgSCHEmtcAddRecpInfoToLst(hqCb,recpReqInfo, pucchRecpInfo,FALSE); #endif if(!isAddToLst) { cmLListAdd2Tail(&recpReqInfo->ueRecpReqLst, &(pucchRecpInfo->lnk)); } pucchRecpInfo->lnk.node = (PTR)pucchRecpInfo; } if ((tbCb->fbkRecpRepCntr) && (--tbCb->fbkRecpRepCntr)) { /* Add to next subfarme */ /* Add this hqCb to the next dlSf's ackNakRepQ */ cmLListAdd2Tail (&(nxtDlsf->ackNakRepQ), &(tbCb->anRepLnk[tbCb->fbkRecpRepCntr])); tbCb->anRepLnk[tbCb->fbkRecpRepCntr].node = (PTR)tbCb; tbCb->crntSubfrm[tbCb->fbkRecpRepCntr] = nxtDlsf; } break; } } return ROK; }/* end of rgSCHTomUtlFillHqFdbkInfo */ #ifdef RG_5GTF /** @brief This function handles filling of Hq reception request to * Per Hq Proc. * * @details * * Function:rgSCHTomUtlFillHqFdbkFor5gtf * * Processing steps: * * @param [out] TfuRecpReqInfo *recpReqInfo * @param [in] RgSchCellCb *cell * @param [in] U16 validIdx, * @param [in] RgSchDlHqInfo *dlSfHqInfo, * @param [in] RgSchDlSf *dlSf, * @param [in] TfuUeRecpReqInfo *pucchRecpInfo, * @param [out] RgSchErrInfo *err * * @return S16 * -# ROK * -# RFAILED */ #ifdef ANSI PRIVATE S16 rgSCHTomUtlFillHqFdbkFor5gtf ( TfuRecpReqInfo *recpReqInfo, RgSchCellCb *cell, U16 validIdx, RgSchDlHqInfo *dlSfHqInfo, RgSchDlSf *dlSf, TfuUeRecpReqInfo *pucchRecpInfo, RgSchErrInfo *err ) #else PRIVATE S16 rgSCHTomUtlFillHqFdbkFor5gtf (recpReqInfo, cell, validIdx, hqCb, dlSf, pucchRecpInfo, err) TfuRecpReqInfo *recpReqInfo; RgSchCellCb *cell; U16 validIdx; RgSchDlHqInfo *dlSfHqInfo; RgSchDlSf *dlSf; TfuUeRecpReqInfo *pucchRecpInfo; RgSchErrInfo *err; #endif { #ifdef DEBUGP Inst inst = cell->instIdx; #endif S16 ret; RgSchUeCb *ue; TfuUePucchRecpReq *pucchReqInfo = NULLP; ue = (RgSchUeCb*)dlSfHqInfo->dlSfUeLnk.node; if (ue == NULLP) { return RFAILED; } ret = rgSCHUtlGetEventMem((Ptr *)&pucchRecpInfo, sizeof(TfuUeRecpReqInfo), &(recpReqInfo->memCp)); if (ret != ROK) { RGSCHDBGERRNEW(inst,(rgSchPBuf(inst),"Unable to Allocate " "TfuUeRecpReqInfo for cellId=%d \n", cell->cellId)); err->errCause = RGSCHERR_TOM_MEM_EXHAUST; return ret; } pucchRecpInfo->type = TFU_RECP_REQ_PUCCH; pucchRecpInfo->rnti = ue->ueId; /* Even for Rel pdcch also setting CRNTI * instead of SPS-CRNTI */ pucchReqInfo = &(pucchRecpInfo->t.pucchRecpReq); pucchReqInfo->uciInfo = TFU_XPUCCH_UCI_INFO; /* 5gtf TODO : Hardcoded nPUCCHIdx */ pucchReqInfo->uciPduInfo.pucchIndex = 0; pucchReqInfo->uciPduInfo.numBits = 1; /* 5gtf TODO : CQI Periodicity Hardcoded to (n,0)*/ if (RGSCH_TIMEINFO_SAME (recpReqInfo->timingInfo, ue->ue5gtfCb.nxtCqiRiOccn)) { pucchReqInfo->uciPduInfo.numBits += 5; RG_SCH_ADD_TO_CRNT_TIME(recpReqInfo->timingInfo, ue->ue5gtfCb.nxtCqiRiOccn, ue->ue5gtfCb.cqiRiPer); } cmLListAdd2Tail(&recpReqInfo->ueRecpReqLst, &(pucchRecpInfo->lnk)); pucchRecpInfo->lnk.node = (PTR)pucchRecpInfo; return ROK; }/* end of rgSCHTomUtlFillHqFdbkForFrmt1B */ #endif #ifdef LTE_ADV /** @brief This function handles filling of Hq reception request to * Per Hq Proc. * * @details * * Function:rgSCHTomUtlFillHqFdbkForFrmt1B * * Processing steps: * Allocates the N1Pucch Resources based on teh A Value * * @param [out] TfuRecpReqInfo *recpReqInfo * @param [in] RgSchCellCb *cell * @param [in] U16 validIdx, * @param [in] RgSchDlHqInfo *dlSfHqInfo, * @param [in] RgSchDlSf *dlSf, * @param [in] TfuUeRecpReqInfo *pucchRecpInfo, * @param [out] RgSchErrInfo *err * * @return S16 * -# ROK * -# RFAILED */ #ifdef TFU_UPGRADE #ifdef ANSI PRIVATE S16 rgSCHTomUtlFillHqFdbkForFrmt1B ( TfuRecpReqInfo *recpReqInfo, RgSchCellCb *cell, U16 validIdx, RgSchDlHqInfo *dlSfHqInfo, RgSchDlSf *dlSf, TfuUeRecpReqInfo *pucchRecpInfo, RgSchErrInfo *err ) #else PRIVATE S16 rgSCHTomUtlFillHqFdbkForFrmt1B (recpReqInfo, cell, validIdx, hqCb, dlSf, pucchRecpInfo, err) TfuRecpReqInfo *recpReqInfo; RgSchCellCb *cell; U16 validIdx; RgSchDlHqInfo *dlSfHqInfo; RgSchDlSf *dlSf; TfuUeRecpReqInfo *pucchRecpInfo; RgSchErrInfo *err; #endif #else #ifdef ANSI PRIVATE S16 rgSCHTomUtlFillHqFdbkForFrmt1B ( TfuRecpReqInfo *recpReqInfo, RgSchCellCb *cell, RgSchDlHqInfo *dlSfHqInfo, RgSchDlSf *dlSf, TfuUeRecpReqInfo *pucchRecpInfo, RgSchErrInfo *err ) #else PRIVATE S16 rgSCHTomUtlFillHqFdbkForFrmt1B (recpReqInfo, cell, hqCb, dlSf, pucchRecpInfo, err) TfuRecpReqInfo *recpReqInfo; RgSchCellCb *cell; RgSchDlHqInfo *dlSfHqInfo; RgSchDlSf *dlSf; TfuUeRecpReqInfo *pucchRecpInfo; RgSchErrInfo *err; #endif #endif { #ifdef DEBUGP Inst inst = cell->instIdx; #endif S16 ret; CmLList *hqPNode; RgSchDlHqProcCb *hqCb = NULLP; RgSchUeCb *ue; TfuUePucchRecpReq *pucchReqInfo = NULLP; Bool isDatPresOnSecCell = FALSE; U8 primCellTbCount = 0; hqPNode = dlSfHqInfo->hqPLst.first; ue = (RgSchUeCb*)dlSfHqInfo->dlSfUeLnk.node; if (ue == NULLP) { return RFAILED; } ret = rgSCHUtlGetEventMem((Ptr *)&pucchRecpInfo, sizeof(TfuUeRecpReqInfo), &(recpReqInfo->memCp)); if (ret != ROK) { RGSCHDBGERRNEW(inst,(rgSchPBuf(inst),"Unable to Allocate " "TfuUeRecpReqInfo for cellId=%d \n", cell->cellId)); err->errCause = RGSCHERR_TOM_MEM_EXHAUST; return ret; } pucchRecpInfo->type = TFU_RECP_REQ_PUCCH; pucchRecpInfo->rnti = ue->ueId; /* Even for Rel pdcch also setting CRNTI * instead of SPS-CRNTI */ pucchReqInfo = &(pucchRecpInfo->t.pucchRecpReq); #ifndef TFU_UPGRADE pucchReqInfo->hqType = TFU_HQ_RECP_REQ_NORMAL; /* Handling of other types */ pucchReqInfo->type = TFU_UCI_HARQ; #else /* TFU_UPGRADE */ pucchReqInfo->uciInfo = TFU_PUCCH_HARQ; /* Fill hqFdbkMode by using uciFrmtTyp from dlSfHqInfo */ pucchReqInfo->hqInfo.hqFdbkMode = rgSchUtlGetFdbkMode(dlSfHqInfo->uciFrmtTyp); /* Fill HqSz by using totalTbCnt based on the TM mode and * the number of serv cells configured*/ pucchReqInfo->hqInfo.hqSz = ue->f1bCsAVal; pucchReqInfo->hqInfo.pucchResCnt = ue->f1bCsAVal; cmMemset((U8 *)pucchReqInfo->hqInfo.hqRes,0xff,sizeof(U16)*TFU_MAX_HQ_RES); #ifdef LTEMAC_SPS /* Two Resources needs to be configured if the * serving cell is in mimo mode else single * resource */ if ((dlSf->relPdcch != NULLP) && (RGSCH_TIMEINFO_SAME(recpReqInfo->timingInfo, ue->relPdcchFbkTiming))) {/* Pcell is having sps rel pdcch present */ if(rgSCHUtlGetMaxTbSupp(ue->mimoInfo.txMode) > 1) {/* prim cell is in mimo mode, use 0 and 1 */ pucchReqInfo->hqInfo.hqRes[0] = (dlSf->relPdcch->nCce + cell->pucchCfg.n1PucchAn); pucchReqInfo->hqInfo.hqRes[1] = pucchReqInfo->hqInfo.hqRes[0] + 1; }else { pucchReqInfo->hqInfo.hqRes[2] = (dlSf->relPdcch->nCce + cell->pucchCfg.n1PucchAn); } /* Release the pdcch so that it will not further processed */ rgSCHUtlPdcchPut(ue->cell,&dlSf->pdcchInfo, dlSf->relPdcch); dlSf->relPdcch = NULLP;/* only one UE will be scheduled for release pdcch order in one tti */ } #endif/*LTEMAC_SPS*/ #endif/*TFU_UPGRADE*/ while(hqPNode) { hqCb = (RgSchDlHqProcCb *)hqPNode->node; hqPNode = hqPNode->next; /* In case of CSI + 1BCS , CSI will be * dropped if scheduling is present on * seconday cell.36.213 10.1.1 * */ if(RG_SCH_IS_CELL_SEC(ue,hqCb->hqE->cell)) { isDatPresOnSecCell = TRUE; }else { if ((hqCb->tbInfo[0].state == HQ_TB_WAITING) && (hqCb->tbInfo[1].state == HQ_TB_WAITING)) { primCellTbCount = 2; }else { primCellTbCount = 1; } } #ifndef TFU_UPGRADE pucchReqInfo->t.nCce = hqCb->pdcch->nCce; #else { switch(ue->f1bCsAVal) {/* A Value */ case RG_SCH_A_VAL_2: /* harq(0) is primary harq(1) is secondary) */ if(RG_SCH_IS_CELL_SEC(ue,hqCb->hqE->cell)) { pucchReqInfo->hqInfo.hqRes[1] = ue->n1PucchF1bResCb.\ cw1N1Res[hqCb->tpc].n1PucchIdx; } else/* primary cell */ { #ifdef LTEMAC_SPS /* Need to consider only sps occasions */ if (hqCb->spsN1PucchRes.pres) { pucchReqInfo->hqInfo.hqRes[0] = hqCb->spsN1PucchRes.val; } else #endif /* LTEMAC_SPS */ { pucchReqInfo->hqInfo.hqRes[0] = (hqCb->pdcch->nCce + cell->pucchCfg.n1PucchAn); } } break; case RG_SCH_A_VAL_3: /* Serving cell in mimo mode should be * in 0 and 1 and the serving cell in siso * mode should be in 2 indices */ if(RG_SCH_IS_CELL_SEC(ue,hqCb->hqE->cell)) { U8 cellIdx = ue->cellIdToCellIdxMap[RG_SCH_CELLINDEX(hqCb->hqE->cell)]; if(rgSCHUtlGetMaxTbSupp(ue->cellInfo[cellIdx]->txMode.txModeEnum) > 1) {/* Sec cell is in mimo mode, use 0 and 1 */ pucchReqInfo->hqInfo.hqRes[0] = ue->n1PucchF1bResCb.cw1N1Res[hqCb->tpc].n1PucchIdx; pucchReqInfo->hqInfo.hqRes[1] = ue->n1PucchF1bResCb.cw2N1Res[hqCb->tpc].n1PucchIdx; } else {/* Sec cell is in siso mode, use 2 */ pucchReqInfo->hqInfo.hqRes[2] = ue->n1PucchF1bResCb.cw1N1Res[hqCb->tpc].n1PucchIdx; } } else {/* primary cell hq */ if(rgSCHUtlGetMaxTbSupp(ue->mimoInfo.txMode) > 1) {/* prim cell is in mimo mode, use 0 and 1 */ #ifdef LTEMAC_SPS if (hqCb->spsN1PucchRes.pres) {/* SPS occasions */ pucchReqInfo->hqInfo.hqRes[0] = hqCb->spsN1PucchRes.val; pucchReqInfo->hqInfo.hqRes[1] = hqCb->spsN1PucchRes.val + 1; } else #endif /* LTEMAC_SPS */ { pucchReqInfo->hqInfo.hqRes[0] = (hqCb->pdcch->nCce + cell->pucchCfg.n1PucchAn); pucchReqInfo->hqInfo.hqRes[1] = (hqCb->pdcch->nCce + cell->pucchCfg.n1PucchAn + 1); } } else {/* prim cell is in siso mode use 2 */ #ifdef LTEMAC_SPS /* Need to consider only sps occasions */ if (hqCb->spsN1PucchRes.pres) { pucchReqInfo->hqInfo.hqRes[2] = hqCb->spsN1PucchRes.val; } else #endif /* LTEMAC_SPS */ { pucchReqInfo->hqInfo.hqRes[2] = (hqCb->pdcch->nCce + cell->pucchCfg.n1PucchAn); } } } break; case RG_SCH_A_VAL_4: { if(RG_SCH_IS_CELL_SEC(ue,hqCb->hqE->cell)) {/* 2 and 3 for sec cell */ pucchReqInfo->hqInfo.hqRes[2] = ue->n1PucchF1bResCb.cw1N1Res[hqCb->tpc].n1PucchIdx; pucchReqInfo->hqInfo.hqRes[3] = ue->n1PucchF1bResCb.cw2N1Res[hqCb->tpc].n1PucchIdx; } else/* primary cell */ {/* 0 and 1 are for primary cell */ #ifdef LTEMAC_SPS /* Need to consider only sps occasions */ if (hqCb->spsN1PucchRes.pres) { pucchReqInfo->hqInfo.hqRes[0] = hqCb->spsN1PucchRes.val; pucchReqInfo->hqInfo.hqRes[1] = hqCb->spsN1PucchRes.val + 1; } else #endif /* LTEMAC_SPS */ { pucchReqInfo->hqInfo.hqRes[0] = (hqCb->pdcch->nCce + cell->pucchCfg.n1PucchAn); pucchReqInfo->hqInfo.hqRes[1] = (hqCb->pdcch->nCce + cell->pucchCfg.n1PucchAn + 1); } } } break; default: /* TOD:: Add error print */ break; } } #endif/*TFU_UPGRADE*/ } #ifdef TFU_UPGRADE #ifdef CA_DBG { gF1bCsCount++; gF1bCsPres = TRUE; } #endif rgSCHTomUtlFillCqiSrSrsWithHq(cell,recpReqInfo, ue, pucchRecpInfo, validIdx,isDatPresOnSecCell); /* Channel selection wil not be used in case of * CQI + HARQ. if the data was present only on * primary cell */ if((isDatPresOnSecCell == FALSE) && (dlSfHqInfo->uciFrmtTyp == RG_SCH_UCI_FORMAT1B_CS)) {/* Data is present only on primary cell */ switch(pucchReqInfo->uciInfo) { case TFU_PUCCH_HARQ_SRS: case TFU_PUCCH_HARQ_CQI: case TFU_PUCCH_HARQ_SR_SRS: case TFU_PUCCH_HARQ_SR_CQI: { dlSfHqInfo->uciFrmtTyp = RG_SCH_UCI_FORMAT1A_1B; pucchReqInfo->hqInfo.hqSz = primCellTbCount; pucchReqInfo->hqInfo.hqFdbkMode = rgSchUtlGetFdbkMode(dlSfHqInfo->uciFrmtTyp); } break; default: { break; } } } #endif/*TFU_UPGRADE*/ cmLListAdd2Tail(&recpReqInfo->ueRecpReqLst, &(pucchRecpInfo->lnk)); pucchRecpInfo->lnk.node = (PTR)pucchRecpInfo; return ROK; }/* end of rgSCHTomUtlFillHqFdbkForFrmt1B */ /** @brief This function handles filling of Hq reception request to * Per Hq Proc. * * @details * * Function:rgSCHTomUtlFillHqFdbkForFrmt3 * * Processing steps: * Allocates the N1Pucch Resources based on teh A Value * * @param [out] TfuRecpReqInfo *recpReqInfo * @param [in] RgSchCellCb *cell * @param [in] U16 validIdx, * @param [in] RgSchDlHqInfo *dlSfHqInfo, * @param [in] RgSchDlSf *dlSf, * @param [in] TfuUeRecpReqInfo *pucchRecpInfo, * @param [out] RgSchErrInfo *err * * @return S16 * -# ROK * -# RFAILED */ #ifdef TFU_UPGRADE #ifdef ANSI PRIVATE S16 rgSCHTomUtlFillHqFdbkForFrmt3 ( TfuRecpReqInfo *recpReqInfo, RgSchCellCb *cell, U16 validIdx, RgSchDlHqInfo *dlSfHqInfo, RgSchDlSf *dlSf, TfuUeRecpReqInfo *pucchRecpInfo, RgSchErrInfo *err ) #else PRIVATE S16 rgSCHTomUtlFillHqFdbkForFrmt3 (recpReqInfo, cell, validIdx, hqCb, dlSf, pucchRecpInfo, err) TfuRecpReqInfo *recpReqInfo; RgSchCellCb *cell; U16 validIdx; RgSchDlHqInfo *dlSfHqInfo; RgSchDlSf *dlSf; TfuUeRecpReqInfo *pucchRecpInfo; RgSchErrInfo *err; #endif #else #ifdef ANSI PRIVATE S16 rgSCHTomUtlFillHqFdbkForFrmt3 ( TfuRecpReqInfo *recpReqInfo, RgSchCellCb *cell, RgSchDlHqInfo *dlSfHqInfo, RgSchDlSf *dlSf, TfuUeRecpReqInfo *pucchRecpInfo, RgSchErrInfo *err ) #else PRIVATE S16 rgSCHTomUtlFillHqFdbkForFrmt3 (recpReqInfo, cell, hqCb, dlSf, pucchRecpInfo, err) TfuRecpReqInfo *recpReqInfo; RgSchCellCb *cell; RgSchDlHqInfo *dlSfHqInfo; RgSchDlSf *dlSf; TfuUeRecpReqInfo *pucchRecpInfo; RgSchErrInfo *err; #endif #endif { #ifdef DEBUGP Inst inst = cell->instIdx; #endif S16 ret; //CmLList *hqPNode; RgSchUeCb *ue; TfuUePucchRecpReq *pucchReqInfo = NULLP; //hqPNode = dlSfHqInfo->hqPLst.first; ue = (RgSchUeCb*)dlSfHqInfo->dlSfUeLnk.node; if (ue == NULLP) { return RFAILED; } ret = rgSCHUtlGetEventMem((Ptr *)&pucchRecpInfo, sizeof(TfuUeRecpReqInfo), &(recpReqInfo->memCp)); if (ret != ROK) { RGSCHDBGERRNEW(inst,(rgSchPBuf(inst),"Unable to Allocate " "TfuUeRecpReqInfo for cellId=%d \n", cell->cellId)); err->errCause = RGSCHERR_TOM_MEM_EXHAUST; return ret; } pucchRecpInfo->type = TFU_RECP_REQ_PUCCH; pucchRecpInfo->rnti = ue->ueId; /* Even for Rel pdcch also setting CRNTI * instead of SPS-CRNTI */ pucchReqInfo = &(pucchRecpInfo->t.pucchRecpReq); #ifndef TFU_UPGRADE pucchReqInfo->hqType = TFU_HQ_RECP_REQ_NORMAL; /* Handling of other types */ pucchReqInfo->type = TFU_UCI_HARQ; #else /* TFU_UPGRADE */ pucchReqInfo->uciInfo = TFU_PUCCH_HARQ; /* Fill hqFdbkMode by using uciFrmtTyp from dlSfHqInfo */ pucchReqInfo->hqInfo.hqFdbkMode = rgSchUtlGetFdbkMode(dlSfHqInfo->uciFrmtTyp); /* Fill HqSz by using totalTbCnt based on the TM mode and * the number of serv cells configured*/ pucchReqInfo->hqInfo.hqSz = ue->f1bCsAVal; pucchReqInfo->hqInfo.pucchResCnt = 1; cmMemset((U8 *)pucchReqInfo->hqInfo.hqRes,0xff,sizeof(U16)*TFU_MAX_HQ_RES); #endif/*TFU_UPGRADE*/ pucchReqInfo->hqInfo.hqRes[0] = dlSfHqInfo->n3ScellPucch.n3PucchIdx; #ifdef TFU_UPGRADE rgSCHTomUtlFillCqiSrSrsWithHq(cell,recpReqInfo, ue, pucchRecpInfo, validIdx,TRUE); #endif/*TFU_UPGRADE*/ cmLListAdd2Tail(&recpReqInfo->ueRecpReqLst, &(pucchRecpInfo->lnk)); pucchRecpInfo->lnk.node = (PTR)pucchRecpInfo; return ROK; }/* end of rgSCHTomUtlFillHqFdbkForFrmt3 */ #endif/*LTE_ADV*/ /** @brief This function handles filling of HARQ feedback recption request to * PHY. * * @details * * Function: * * Processing steps: * * @param [out] TfuRecpReqInfo *recpReqInfo * @param [in] RgSchCellCb *cell * @param [out] RgSchErrInfo *err * @return S16 * -# ROK * -# RFAILED */ #ifdef TFU_UPGRADE #ifdef ANSI PRIVATE S16 rgSCHTomUtlFillHqFdbkRecpReq ( TfuRecpReqInfo *recpReqInfo, RgSchCellCb *cell, U16 validIdx, RgSchErrInfo *err ) #else PRIVATE S16 rgSCHTomUtlFillHqFdbkRecpReq (recpReqInfo, cell, validIdx, err) TfuRecpReqInfo *recpReqInfo; RgSchCellCb *cell; U16 validIdx; RgSchErrInfo *err; #endif #else #ifdef ANSI PRIVATE S16 rgSCHTomUtlFillHqFdbkRecpReq ( TfuRecpReqInfo *recpReqInfo, RgSchCellCb *cell, RgSchErrInfo *err ) #else PRIVATE S16 rgSCHTomUtlFillHqFdbkRecpReq (recpReqInfo, cell, err) TfuRecpReqInfo *recpReqInfo; RgSchCellCb *cell; RgSchErrInfo *err; #endif #endif { CmLList *node; RgSchDlHqProcCb *hqCb; CmLteTimingInfo futTime; RgSchDlSf *dlSf; RgSchDlSf *nxtDlsf; TfuUeRecpReqInfo *pucchRecpInfo = NULLP; RgSchUeCb *ue; RgSchDlHqProcCb *prvHqCb=NULLP; TRC2(rgSCHTomUtlFillHqFdbkRecpReq); #ifdef CA_DBG { gF1bCsPres = FALSE; } #endif /* ccpu00133109: Removed RGSCHSUBFRMCRNTTIME as it is not giving proper output * if diff is more than 10. Instead using RGSCHDECRFRMCRNTTIME() as it is * serving the purpose */ RGSCHDECRFRMCRNTTIME(cell->crntTime, futTime, (RG_SCH_CMN_HARQ_INTERVAL - TFU_RECPREQ_DLDELTA)); dlSf = rgSCHUtlSubFrmGet (cell, futTime); /* Get the next dlsf as well */ RG_SCH_ADD_TO_CRNT_TIME(futTime, futTime, 1) nxtDlsf = rgSCHUtlSubFrmGet (cell, futTime); prvHqCb = NULLP; if (dlSf->ueLst.count != 0) { node = dlSf->ueLst.first; while (node) { ue = (RgSchUeCb *)(node->node); node = node->next; if(ue->dl.dlSfHqInfo[cell->cellId][dlSf->dlIdx].isPuschHarqRecpPres == TRUE) {/* This UE is already considered for PUSCH Ignore for PUCCH */ continue; } rgSCHTomUtlFillHqFdbkFor5gtf(recpReqInfo, cell, validIdx, &ue->dl.dlSfHqInfo[cell->cellId][dlSf->dlIdx], dlSf, pucchRecpInfo, err); } /* end of while */ } /* If hq is expected */ if (dlSf->msg4HqPLst.count != 0) { prvHqCb = NULLP; node = dlSf->msg4HqPLst.first; while (node) { hqCb = (RgSchDlHqProcCb*)(node->node); node = node->next; //TODO_SID: need to check validIdx rgSCHTomUtlFillHqFdbkInfo (recpReqInfo, cell, validIdx, hqCb, nxtDlsf, pucchRecpInfo, prvHqCb, err); prvHqCb = hqCb; } /* end of while */ } /* Check with TDD Code */ /* FOR ACK NACK REP */ return ROK; } /* end of rgSCHTomUtlFillHqFdbkRecpReq */ #ifdef TFU_UPGRADE /** @brief This function handles filling of SR reception request to * PHY. * * @details * * Function: * * Processing steps: * * @param [out] TfuRecpReqInfo *recpReqInfo * @param [in] RgSchCellCb *cell * @param [out] RgSchErrInfo *err * @return S16 * -# ROK * -# RFAILED */ #ifdef UNUSED_FUNC #ifdef ANSI PRIVATE S16 rgSCHTomUtlFillSrRecpReq ( TfuRecpReqInfo *recpReqInfo, RgSchCellCb *cell, U16 validIdx, RgSchErrInfo *err ) #else PRIVATE S16 rgSCHTomUtlFillSrRecpReq (recpReqInfo, cell, validIdx, err) TfuRecpReqInfo *recpReqInfo; RgSchCellCb *cell; U16 validIdx; RgSchErrInfo *err; #endif { CmLList *node; TfuUeRecpReqInfo *pucchRecpInfo; S16 ret; RgSchUeCb *ue; Bool isAddToLst; #ifdef LTEMAC_SPS RgSchCmnUlUeSpsInfo *ulSpsUe = NULL; #endif TRC2(rgSCHTomUtlFillSrRecpReq); isAddToLst = FALSE; node = cell->pCqiSrsSrLst[validIdx].srLst.first; while(node) { ue = (RgSchUeCb *)(node->node); /* Fix: ccpu00124011: Fix for missing reception request for UE with same offset */ node = node->next; if(ue == NULLP) { continue; } if ((ret = rgSCHUtlGetEventMem((Ptr *)&pucchRecpInfo, sizeof(TfuUeRecpReqInfo),&(recpReqInfo->memCp))) != ROK) { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"Unable to Allocate " "TfuUeRecpReqInfo for cell RNTI:%d",ue->ueId); err->errCause = RGSCHERR_TOM_MEM_EXHAUST; return ret; } #ifdef TFU_ALLOC_EVENT_NO_INIT cmMemset((U8 *)&pucchRecpInfo->t.pucchRecpReq, 0, sizeof(TfuUePucchRecpReq)); pucchRecpInfo->type = TFU_RECP_REQ_PUCCH; #endif /*Fill SR params*/ #ifdef LTEMAC_SPS /* Should we check for Rel8 and above??? * Dont send SR recp req if logicalChannelSR-Mask enabled and UL SPS is * active*/ ulSpsUe = RG_SCH_CMN_GET_UL_SPS_UE(ue, cell); /* Avoiding check for ulSpsEnabled as isUlSpsActv FALSE if sps is not enabled*/ if((ue->ul.ulSpsCfg.isLcSRMaskEnab) && (ulSpsUe->isUlSpsActv)) { rgSCHTomUtlMoveSrNxtOccasion(cell, ue); continue; } #endif pucchRecpInfo->rnti = ue->ueId; pucchRecpInfo->t.pucchRecpReq.srInfo.n1PucchIdx = ue->srCb.srCfg.srSetup.srResIdx; pucchRecpInfo->t.pucchRecpReq.uciInfo = TFU_PUCCH_SR; rgSCHTomUtlMoveSrNxtOccasion(cell, ue); rgSCHTomUtlFillCqiSrsWithSr(cell, ue, recpReqInfo, pucchRecpInfo, validIdx); #ifdef EMTC_ENABLE isAddToLst = rgSCHEmtcAddRecpInfoToLst(NULLP,recpReqInfo, pucchRecpInfo,ue->isEmtcUe); #endif if(!isAddToLst) { cmLListAdd2Tail(&recpReqInfo->ueRecpReqLst, &(pucchRecpInfo->lnk)); } pucchRecpInfo->lnk.node = (PTR)pucchRecpInfo; } return ROK; }/* end of rgSCHTomUtlFillSrRecpReq */ #endif #endif /** @brief This function tells will the UE has a periodic CQI/PMI/RI * reporting * * @details * * Function: * * Processing steps: * * @param [in] RgSchUeCb *ue * @param [out] Bool *willueRprtCqiRi * @return S16 * -# ROK * -# RFAILED */ #ifdef ANSI PRIVATE S16 rgSCHTomUtlWillUeRprtCqiRi ( RgSchUeCb *ue, Bool *willueRprtCqiRi ) #else PRIVATE S16 rgSCHTomUtlWillUeRprtCqiRi ( ue, willueRprtCqiRi) RgSchUeCb *ue; Bool *willueRprtCqiRi; #endif { TRC2(rgSCHTomUtlWillUeRprtCqiRi); /* Intialising Reporting probability as TRUE */ *willueRprtCqiRi = TRUE; /* Checking the cases in which UE will not report CQIPMI/RI */ if(ue->isDrxEnabled && ue->drxCb) { #ifdef LTEMAC_R9 if(ue->drxCb->cqiMask.pres && ue->drxCb->cqiMask.val == RGR_DRX_SETUP) {/*cqiMask is setup by upper layers */ if((ue->drxCb->drxUlInactvMask & RG_SCH_DRX_ONDUR_BITMASK) == RG_SCH_DRX_ONDUR_BITMASK) {/*onDuration NOT running, do not expect cqi/pmi/ri*/ *willueRprtCqiRi = FALSE; } return ROK; } #endif /*end of LTEMAC_R9*/ /* ccpu00134258: Fix for CQI DRX issue*/ if(ue->drxCb->onDurTmrLen > 2) { if ( !RG_SCH_DRX_UL_IS_UE_ACTIVE(ue->drxCb) ) {/*UE is not active, do not expect cqi/pmi/ri*/ *willueRprtCqiRi = FALSE; } } }/*ue->isDrxEnabled*/ return ROK; } /*End of rgSCHTomUtlWillUeRprtCqiRi*/ /** @brief This function handles filling of RI reception request to * PHY. * * @details * * Function: * * Processing steps: * * @param [out] TfuRecpReqInfo *recpReqInfo * @param [in] RgSchCellCb *cell * @param [in] U16 validIdx * @param [out] RgSchErrInfo *err * @return S16 * -# ROK * -# RFAILED */ #ifdef UNUSED_FUNC #ifdef ANSI PRIVATE S16 rgSCHTomUtlFillRiRecpReq ( TfuRecpReqInfo *recpReqInfo, RgSchCellCb *cell, U16 validIdx, RgSchErrInfo *err ) #else PRIVATE S16 rgSCHTomUtlFillRiRecpReq (recpReqInfo, cell, validIdx, err) TfuRecpReqInfo *recpReqInfo; RgSchCellCb *cell; U16 validIdx; RgSchErrInfo *err; #endif { CmLList *node; TfuUeRecpReqInfo *pucchRecpInfo; S16 ret; RgSchUeCb *ue; Bool willUeRprtCqi; /* Flag set due to CQI Mask and UE inactive state (DRX) */ RgSchUePCqiCb *riCb = NULLP; TRC2(rgSCHTomUtlFillRiRecpReq); node = cell->pCqiSrsSrLst[validIdx].riLst.first; while(node) { riCb = (RgSchUePCqiCb *)(node->node); ue = riCb->servCellInfo->ue; /* Fix: ccpu00124011: Fix for missing reception request for UE with same offset */ node = node->next; if(riCb->riRecpPrcsd) { /*ccpu00140578:: RI Proecssing is already done for this TTI * as part of PUSCH reception process or HARQ * Reception processing. Hence skipping this UE * */ riCb->riRecpPrcsd = FALSE; continue; } if(riCb->riDist ==0) { rgSCHTomUtlWillUeRprtCqiRi(ue, &willUeRprtCqi); #ifdef XEON_SPECIFIC_CHANGES if(RGSCH_TIMEINFO_SAME(cell->crntTime, ue->riRecpTime)) { continue; } #endif #ifdef LTE_ADV if((TRUE == riCb->isRiIgnoByCollsn) || (willUeRprtCqi == FALSE)) #else if(willUeRprtCqi == FALSE) #endif { rgSCHTomUtlMovePriNxtOccasion(cell, ue, riCb); continue; } if ((ret = rgSCHUtlGetEventMem((Ptr *)&pucchRecpInfo, sizeof(TfuUeRecpReqInfo),&(recpReqInfo->memCp))) != ROK) { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"Unable to Allocate " "TfuUeRecpReqInfo for cell RNTI:%d",ue->ueId); err->errCause = RGSCHERR_TOM_MEM_EXHAUST; return ret; } #ifdef TFU_ALLOC_EVENT_NO_INIT cmMemset((U8 *)&pucchRecpInfo->t.pucchRecpReq, 0, sizeof(TfuUePucchRecpReq)); pucchRecpInfo->type = TFU_RECP_REQ_PUCCH; #endif /*Fill RI params*/ pucchRecpInfo->rnti = ue->ueId; pucchRecpInfo->t.pucchRecpReq.cqiInfo.n2PucchIdx = riCb->cqiCfg.cqiSetup.cqiPResIdx; pucchRecpInfo->t.pucchRecpReq.cqiInfo.cqiPmiSz = riCb->riNumBits; pucchRecpInfo->t.pucchRecpReq.uciInfo = TFU_PUCCH_CQI; ue->rawCqiBitW[ue->cqiRiWritIdx].recvTime = recpReqInfo->timingInfo; #ifdef LTE_ADV ue->rawCqiBitW[ue->cqiRiWritIdx].u.pucch.sCellIdx = riCb->servCellInfo->sCellIdx; #endif rgSCHTomUtlFillRiBitWidthInfo(ue); rgSCHTomUtlMovePriNxtOccasion(cell, ue, riCb); if (ue->nPCqiCb->nCqiTrIdx == validIdx) { rgSCHTomUtlMovePcqiNxtOccasion(cell, ue, ue->nPCqiCb); } if((ue->srsCb.nSrsTrIdx == validIdx) && (ue->srsCb.srsDist ==0)) { rgSCHTomUtlMoveSrsNxtOccasion(cell, ue); } cmLListAdd2Tail(&recpReqInfo->ueRecpReqLst, &(pucchRecpInfo->lnk)); pucchRecpInfo->lnk.node = (PTR)pucchRecpInfo; } else { riCb->riDist--; } } return ROK; }/* end of rgSCHTomUtlFillRiRecpReq */ #endif #ifdef RG_5GTF /** @brief This function handles filling of 5GTF CQI-RI reception request to * PHY. * * @details * * Function: * * Processing steps: * * @param [out] TfuRecpReqInfo *recpReqInfo * @param [in] RgSchCellCb *cell * @param [in] U16 validIdx * @param [out] RgSchErrInfo *err * @return S16 * -# ROK * -# RFAILED */ #ifdef UNUSED_FUNC #ifdef ANSI PRIVATE S16 rgSCHTomUtlFillCqiRiRecpReq ( TfuRecpReqInfo *recpReqInfo, RgSchCellCb *cell, U16 validIdx, RgSchErrInfo *err ) #else PRIVATE S16 rgSCHTomUtlFillCqiRiRecpReq (recpReqInfo, cell, validIdx, err) TfuRecpReqInfo *recpReqInfo; RgSchCellCb *cell; U16 validIdx; RgSchErrInfo *err; #endif { TfuUeRecpReqInfo *pucchRecpInfo; RgSchUeCb *ue = NULLP; U16 ret; TRC2(rgSCHTomUtlFillCqiRiRecpReq); while ((ue = rgSCHDbmGetNextUeCb(cell, ue)) != NULLP) { if (RGSCH_TIMEINFO_SAME (recpReqInfo->timingInfo, ue->ue5gtfCb.nxtCqiRiOccn)) { if ((ret = rgSCHUtlGetEventMem((Ptr *)&pucchRecpInfo, sizeof(TfuUeRecpReqInfo),&(recpReqInfo->memCp))) != ROK) { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"Unable to Allocate " "TfuUeRecpReqInfo for cell RNTI:%d ", ue->ueId); err->errCause = RGSCHERR_TOM_MEM_EXHAUST; return ret; } #ifdef TFU_ALLOC_EVENT_NO_INIT cmMemset((U8 *)&pucchRecpInfo->t.pucchRecpReq, 0, sizeof(TfuUePucchRecpReq)); pucchRecpInfo->type = TFU_RECP_REQ_PUCCH; #endif pucchRecpInfo->rnti = ue->ueId; pucchRecpInfo->t.pucchRecpReq.uciInfo = TFU_XPUCCH_UCI_INFO; pucchRecpInfo->t.pucchRecpReq.uciPduInfo.pucchIndex = 0; pucchRecpInfo->t.pucchRecpReq.uciPduInfo.numBits = 5; RG_SCH_ADD_TO_CRNT_TIME(recpReqInfo->timingInfo, ue->ue5gtfCb.nxtCqiRiOccn, ue->ue5gtfCb.cqiRiPer); cmLListAdd2Tail(&recpReqInfo->ueRecpReqLst, &(pucchRecpInfo->lnk)); pucchRecpInfo->lnk.node = (PTR)pucchRecpInfo; } } return ROK; }/* end of rgSCHTomUtlFillCqiRiRecpReq */ #endif #endif /** @brief This function handles filling of PCQI reception request to * PHY. * * @details * * Function: * * Processing steps: * * @param [out] TfuRecpReqInfo *recpReqInfo * @param [in] RgSchCellCb *cell * @param [in] U16 validIdx * @param [out] RgSchErrInfo *err * @return S16 * -# ROK * -# RFAILED */ #ifdef UNUSED_FUNC #ifdef ANSI PRIVATE S16 rgSCHTomUtlFillPcqiRecpReq ( TfuRecpReqInfo *recpReqInfo, RgSchCellCb *cell, U16 validIdx, RgSchErrInfo *err ) #else PRIVATE S16 rgSCHTomUtlFillPcqiRecpReq (recpReqInfo, cell, validIdx, err) TfuRecpReqInfo *recpReqInfo; RgSchCellCb *cell; U16 validIdx; RgSchErrInfo *err; #endif { CmLList *node; TfuUeRecpReqInfo *pucchRecpInfo; S16 ret; RgSchUeCb *ue; U8 ri; /*RI value*/ Bool willUeRprtCqi; /* Flag set due to CQI Mask and UE Inactive state (DRX)*/ U8 cqiPmiSz; RgSchUePCqiCb *cqiCb = NULLP; Bool isAddToLst = FALSE; TRC2(rgSCHTomUtlFillPcqiRecpReq); node = cell->pCqiSrsSrLst[validIdx].cqiLst.first; while(node) { cqiCb = (RgSchUePCqiCb*)(node->node); ue = cqiCb->servCellInfo->ue; /* Fix: ccpu00124011: Fix for missing reception request for UE with same offset */ node = node->next; rgSCHTomUtlWillUeRprtCqiRi(ue, &willUeRprtCqi); #ifdef LTE_ADV if ((cqiCb->isCqiIgnoByCollsn == TRUE) || (willUeRprtCqi == FALSE)) #else if(willUeRprtCqi == FALSE) #endif { rgSCHTomUtlMovePcqiNxtOccasion(cell, ue, cqiCb); continue; } ue->rawCqiBitW[ue->cqiRiWritIdx].recvTime = recpReqInfo->timingInfo; #ifdef LTE_ADV ue->rawCqiBitW[ue->cqiRiWritIdx].u.pucch.sCellIdx = cqiCb->servCellInfo->sCellIdx; #endif cqiPmiSz = rgSCHTomUtlFetchPcqiBitSz(ue, cell->numTxAntPorts, &ri); if(!cqiPmiSz) { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"RNTI:%d Unable to Fill CqiPmi " "size", ue->ueId); continue; } if ((ret = rgSCHUtlGetEventMem((Ptr *)&pucchRecpInfo, sizeof(TfuUeRecpReqInfo),&(recpReqInfo->memCp))) != ROK) { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"Unable to Allocate " "TfuUeRecpReqInfo for cell RNTI:%d ", ue->ueId); err->errCause = RGSCHERR_TOM_MEM_EXHAUST; return ret; } #ifdef TFU_ALLOC_EVENT_NO_INIT cmMemset((U8 *)&pucchRecpInfo->t.pucchRecpReq, 0, sizeof(TfuUePucchRecpReq)); pucchRecpInfo->type = TFU_RECP_REQ_PUCCH; #endif /*Fill PCQI params*/ pucchRecpInfo->rnti = ue->ueId; pucchRecpInfo->t.pucchRecpReq.cqiInfo.n2PucchIdx = cqiCb->cqiCfg.cqiSetup.cqiPResIdx; pucchRecpInfo->t.pucchRecpReq.cqiInfo.cqiPmiSz = cqiPmiSz; pucchRecpInfo->t.pucchRecpReq.uciInfo = TFU_PUCCH_CQI; rgSCHTomUtlMovePcqiNxtOccasion(cell, ue, cqiCb); if((ue->srsCb.nSrsTrIdx == validIdx) && (ue->srsCb.srsDist ==0)) { rgSCHTomUtlMoveSrsNxtOccasion(cell, ue); } #ifdef EMTC_ENABLE isAddToLst = rgSCHEmtcAddRecpInfoToLst(NULLP,recpReqInfo, pucchRecpInfo,ue->isEmtcUe); #endif if(!isAddToLst) { cmLListAdd2Tail(&recpReqInfo->ueRecpReqLst, &(pucchRecpInfo->lnk)); } pucchRecpInfo->lnk.node = (PTR)pucchRecpInfo; } return ROK; }/* end of rgSCHTomUtlFillPcqiRecpReq */ /** @brief This function handles filling of SRS reception request to * PHY. * * @details * * Function: * * Processing steps: * * @param [out] TfuRecpReqInfo *recpReqInfo * @param [in] RgSchCellCb *cell * @param [in] U16 validIdx * @param [out] RgSchErrInfo *err * @return S16 * -# ROK * -# RFAILED */ #ifdef ANSI PRIVATE S16 rgSCHTomUtlFillSrsRecpReq ( TfuRecpReqInfo *recpReqInfo, RgSchCellCb *cell, U16 validIdx, RgSchErrInfo *err ) #else PRIVATE S16 rgSCHTomUtlFillSrsRecpReq (recpReqInfo, cell, validIdx, err) TfuRecpReqInfo *recpReqInfo; RgSchCellCb *cell; U16 validIdx; RgSchErrInfo *err; #endif { CmLList *node; TfuUeRecpReqInfo *pucchRecpInfo; S16 ret; RgSchUeCb *ue; TRC2(rgSCHTomUtlFillSrsRecpReq); node = cell->pCqiSrsSrLst[validIdx].srsLst.first; while(node) { ue = (RgSchUeCb *)(node->node); /* Fix: ccpu00124011: Fix for missing reception request for UE with same offset */ node = node->next; if(ue->srsCb.srsRecpPrcsd) { /* ccpu00140578::SRS Proecssing is already done for this TTI * as part of PUSCH or HARQ reception process and * hence skipping this UE */ ue->srsCb.srsRecpPrcsd = FALSE; continue; } if(ue->srsCb.srsDist ==0) { /* We need to add the recp request to be sent on the pucchANRep value. */ if ((ret = rgSCHUtlGetEventMem((Ptr *)&pucchRecpInfo, sizeof(TfuUeRecpReqInfo),&(recpReqInfo->memCp))) != ROK) { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"Unable to Allocate " "TfuUeRecpReqInfo for RNTI:%d ",ue->ueId); err->errCause = RGSCHERR_TOM_MEM_EXHAUST; return ret; } #ifdef TFU_ALLOC_EVENT_NO_INIT pucchRecpInfo->type = TFU_RECP_REQ_PUCCH; #endif /*Fill SRS params*/ pucchRecpInfo->rnti = ue->ueId; pucchRecpInfo->t.pucchRecpReq.srsInfo.srsBw = (TfuUlSrsBwInfo)ue->srsCb.srsCfg.srsSetup.srsBw; pucchRecpInfo->t.pucchRecpReq.srsInfo.nRrc = ue->srsCb.srsCfg.srsSetup.fDomPosi; pucchRecpInfo->t.pucchRecpReq.srsInfo.srsHopBw = (TfuUlSrsHoBwInfo)ue->srsCb.srsCfg.srsSetup.srsHopBw; pucchRecpInfo->t.pucchRecpReq.srsInfo.transComb = ue->srsCb.srsCfg.srsSetup.txComb; pucchRecpInfo->t.pucchRecpReq.srsInfo.srsCfgIdx = ue->srsCb.srsCfg.srsSetup.srsCfgIdx; pucchRecpInfo->t.pucchRecpReq.srsInfo.srsCyclicShft = (TfuUlSrsCycShiftInfo)ue->srsCb.srsCfg.srsSetup.cycShift; pucchRecpInfo->t.pucchRecpReq.uciInfo = TFU_PUCCH_SRS; rgSCHTomUtlMoveSrsNxtOccasion(cell, ue); cmLListAdd2Tail(&recpReqInfo->ueRecpReqLst, &(pucchRecpInfo->lnk)); pucchRecpInfo->lnk.node = (PTR)pucchRecpInfo; } else { ue->srsCb.srsDist--; } } return ROK; }/* end of rgSCHTomUtlFillSrsRecpReq */ #endif #ifndef TFU_UPGRADE /** @brief This function handles filling of data reception requests for * PUSCH and MSG3. * * @details * * Function: * * Processing steps: * * @param [out] TfuRecpReqInfo *recpReqInfo * @param [in] RgSchCellCb *cell * @param [out] RgSchErrInfo *err * @return S16 * -# ROK * -# RFAILED */ #ifdef ANSI PRIVATE S16 rgSCHTomUtlFillDatRecpReq ( TfuRecpReqInfo *recpReqInfo, RgSchCellCb *cell, RgSchErrInfo *err ) #else PRIVATE S16 rgSCHTomUtlFillDatRecpReq (recpReqInfo, cell, err) TfuRecpReqInfo *recpReqInfo; RgSchCellCb *cell; RgSchErrInfo *err; #endif { S16 ret; RgSchUlAlloc *alloc; TfuUeRecpReqInfo *datRecpInfo; TRC2(rgSCHTomUtlFillDatRecpReq) /* processing steps are * - Run through the UL allocations going out in this subframe. * - Run through the UL receptions expected the next subframe. */ alloc = rgSCHUtlFirstRcptnReq (cell); while(alloc) { /* FOR ACK NACK REP */ if (NULLP != alloc->ue) { /* If measuring or ackNakRep we shall not send dat RecpReq */ if ((alloc->ue->measGapCb.isMeasuring == TRUE) || (alloc->ue->ackNakRepCb.isAckNakRep == TRUE)) { alloc = rgSCHUtlNextRcptnReq (cell, alloc); continue; } } if ((ret = rgSCHUtlGetEventMem((Ptr *)&datRecpInfo, sizeof(TfuUeRecpReqInfo), &(recpReqInfo->memCp))) != ROK) { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"Unable to Allocate " "TfuUeRecpReqInfo for RNTI:%d ", alloc->ue->ueId); err->errCause = RGSCHERR_TOM_MEM_EXHAUST; return ret; } if (!alloc->forMsg3) { datRecpInfo->type = TFU_RECP_REQ_PUSCH; rgSCHUtlAllocRcptInfo (alloc, &datRecpInfo->rnti, &datRecpInfo->t.puschRecpReq.mcs, &datRecpInfo->t.puschRecpReq.rbStart, &datRecpInfo->t.puschRecpReq.numRb, &datRecpInfo->t.puschRecpReq.rv, &datRecpInfo->t.puschRecpReq.size, &datRecpInfo->t.puschRecpReq.modType, &datRecpInfo->t.puschRecpReq.isRtx, &datRecpInfo->t.puschRecpReq.nDmrs, &datRecpInfo->t.puschRecpReq.ndi, &datRecpInfo->t.puschRecpReq.harqProcId ); } else { datRecpInfo->type = TFU_RECP_REQ_MSG3; rgSCHUtlAllocRcptInfo (alloc, &datRecpInfo->rnti, &datRecpInfo->t.msg3RecpReq.mcs, &datRecpInfo->t.msg3RecpReq.rbStart, &datRecpInfo->t.msg3RecpReq.numRb, /*ccpu00128993 - MOD - fix for msg3 softcombining bug*/ &datRecpInfo->t.msg3RecpReq.rv, &datRecpInfo->t.msg3RecpReq.size, &datRecpInfo->t.msg3RecpReq.modType, &datRecpInfo->t.msg3RecpReq.isRtx, &datRecpInfo->t.msg3RecpReq.nDmrs, &datRecpInfo->t.msg3RecpReq.ndi, &datRecpInfo->t.msg3RecpReq.harqProcId ); } /* Other fields of datRecpInfo shall be filled * here for new features */ cmLListAdd2Tail(&recpReqInfo->ueRecpReqLst, &(datRecpInfo->lnk)); datRecpInfo->lnk.node = (PTR)datRecpInfo; alloc = rgSCHUtlNextRcptnReq (cell, alloc); } /* end of while */ return ROK; } /* end of rgSCHTomUtlFillDatRecpReq */ #else /** @brief This function handles filling of data reception requests for * PUSCH and MSG3. * * @details * * Function: * * Processing steps: * * @param [out] TfuRecpReqInfo *recpReqInfo * @param [in] RgSchCellCb *cell * @param [in] U16 validIdx * @param [out] RgSchErrInfo *err * @return S16 * -# ROK * -# RFAILED */ #ifdef ANSI PRIVATE S16 rgSCHTomUtlFillDatRecpReq ( TfuRecpReqInfo *recpReqInfo, RgSchCellCb *cell, U16 validIdx, RgSchErrInfo *err ) #else PRIVATE S16 rgSCHTomUtlFillDatRecpReq (recpReqInfo, cell, validIdx, err) TfuRecpReqInfo *recpReqInfo; RgSchCellCb *cell; U16 validIdx; RgSchErrInfo *err; #endif { CmLteTimingInfo dci0Time; U8 idx; S16 ret; RgSchUlAlloc *alloc; TfuUeRecpReqInfo *datRecpInfo; Bool isAperiodic = FALSE; /*Set when Aperiodic CQI is expected */ U8 numUePerTti = 0; TRC2(rgSCHTomUtlFillDatRecpReq); if((0 == (recpReqInfo->timingInfo.sfn % 30)) && (0 == recpReqInfo->timingInfo.slot)) { //printf("5GTF_CHECK rgSCHTomUtlFillDatRecpReq (%d : %d)\n", recpReqInfo->timingInfo.sfn, recpReqInfo->timingInfo.slot); } /* processing steps are * - Run through the UL allocations going out in this subframe. * - Run through the UL receptions expected the next subframe. */ alloc = rgSCHUtlFirstRcptnReq (cell); while(alloc) { isAperiodic = FALSE; ret = rgSCHUtlGetEventMem((Ptr *)&datRecpInfo, sizeof(TfuUeRecpReqInfo), &(recpReqInfo->memCp)); if(ret != ROK) { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"Unable to Allocate " "TfuUeRecpReqInfo for RNTI:%d ", alloc->rnti); err->errCause = RGSCHERR_TOM_MEM_EXHAUST; return ret; } #ifdef TFU_ALLOC_EVENT_NO_INIT datRecpInfo->t.puschRecpReq.initialNSrs.pres = FALSE; datRecpInfo->t.puschRecpReq.initialNumRbs.pres = FALSE; #endif datRecpInfo->type = TFU_RECP_REQ_PUSCH; /* Check if this if for MSG3 - no scope for feedback along with it. */ if ((FALSE == alloc->forMsg3)) { /* Check if any DL HARQ processes has a feedback coming at the time of * this reception request. */ /* ACC-TDD */ if(alloc->ue) { RGSCHDECRFRMCRNTTIME(cell->crntTime,dci0Time,(RGSCH_ULCTRL_RECP_DIST)); idx = (dci0Time.sfn * RGSCH_NUM_SUB_FRAMES_5G + dci0Time.slot)% RGSCH_ULCTRL_RECP_DIST; UNUSED(idx); datRecpInfo->t.puschRecpReq.rcpInfo = TFU_PUSCH_DATA; datRecpInfo->rnti = alloc->rnti; rgSCHUtlAllocRcptInfo (cell,alloc, &recpReqInfo->timingInfo, &datRecpInfo->t.puschRecpReq.ulSchInfo); } } else /*Enters for Msg3 == TRUE condition*/ { /* ccpu00130884 - ADD - HO case when Msg3 alloc and Cqi/Ri/SRS opportunity * occur at same time */ if(NULLP != alloc->ue) { /* Only DATA is expected */ datRecpInfo->t.puschRecpReq.rcpInfo = TFU_PUSCH_DATA; datRecpInfo->rnti = alloc->rnti; rgSCHUtlAllocRcptInfo (cell,alloc, &recpReqInfo->timingInfo, &datRecpInfo->t.puschRecpReq.ulSchInfo); } } if(alloc->ue) { if(datRecpInfo->t.puschRecpReq.rcpInfo != TFU_PUSCH_DATA && datRecpInfo->t.puschRecpReq.rcpInfo != TFU_PUSCH_DATA_SRS && isAperiodic == FALSE) { datRecpInfo->t.puschRecpReq.initialNumRbs.pres = TRUE; datRecpInfo->t.puschRecpReq.initialNumRbs.val = alloc->ue->initNumRbs; } else { datRecpInfo->t.puschRecpReq.initialNumRbs.pres = FALSE; } } cmLListAdd2Tail(&recpReqInfo->ueRecpReqLst, &(datRecpInfo->lnk)); datRecpInfo->lnk.node = (PTR)datRecpInfo; alloc = rgSCHUtlNextRcptnReq (cell, alloc); numUePerTti++; } /* end of while */ if(numUePerTti && (numUePerTti < RG_MAX_NUM_UE_PER_TTI)) { cell->ulNumUeSchedPerTti[numUePerTti-1]++; gUlNumUePerTti[numUePerTti - 1]++; } return ROK; } /* end of rgSCHTomUtlFillDatRecpReq */ #endif /* rg009.201. Added changes of TFU_UPGRADE */ #ifdef TFU_UPGRADE /*********************************************************** * * Func : rgSCHTomUtlFillRiBitWidthInfo * * * Desc : Fills the RI BitWidth and stores it for decoding. * * Ret : S16 * ROK - Success * * Notes: * * File : * **********************************************************/ #ifdef ANSI PUBLIC S16 rgSCHTomUtlFillRiBitWidthInfo ( RgSchUeCb *ueCb ) #else PUBLIC S16 rgSCHTomUtlFillRiBitWidthInfo(ueCb) RgSchUeCb *ueCb; #endif { RgSchUePCqiCb *riCb = ueCb->nPRiCb; TRC2(rgSCHTomUtlFillRiBitWidthInfo); if (ueCb->mimoInfo.txMode != RGR_UE_TM_3 && ueCb->mimoInfo.txMode != RGR_UE_TM_4) { return RFAILED; } ueCb->rawCqiBitW[ueCb->cqiRiWritIdx].type = TFU_RECP_REQ_PUCCH; ueCb->rawCqiBitW[ueCb->cqiRiWritIdx].u.pucch.pucchRawCqiInfo.mode= (TfuDlCqiPucchMode)riCb->cqiCfg.cqiSetup.prdModeEnum; switch(ueCb->rawCqiBitW[ueCb->cqiRiWritIdx].u.pucch.pucchRawCqiInfo.mode) { case TFU_PUCCH_CQI_MODE10: ueCb->rawCqiBitW[ueCb->cqiRiWritIdx].u.pucch.pucchRawCqiInfo.u.mode10Info.type = TFU_RPT_RI; ueCb->rawCqiBitW[ueCb->cqiRiWritIdx].u.pucch.pucchRawCqiInfo.u.mode10Info.u.ri = riCb->riNumBits; break; case TFU_PUCCH_CQI_MODE11: ueCb->rawCqiBitW[ueCb->cqiRiWritIdx].u.pucch.pucchRawCqiInfo.u.mode11Info.type = TFU_RPT_RI; ueCb->rawCqiBitW[ueCb->cqiRiWritIdx].u.pucch.pucchRawCqiInfo.u.mode11Info.u.ri = riCb->riNumBits; break; case TFU_PUCCH_CQI_MODE20: ueCb->rawCqiBitW[ueCb->cqiRiWritIdx].u.pucch.pucchRawCqiInfo.u.mode20Info.type = TFU_RPT_RI; ueCb->rawCqiBitW[ueCb->cqiRiWritIdx].u.pucch.pucchRawCqiInfo.u.mode20Info.u.ri = riCb->riNumBits; break; case TFU_PUCCH_CQI_MODE21: ueCb->rawCqiBitW[ueCb->cqiRiWritIdx].u.pucch.pucchRawCqiInfo.u.mode21Info.type = TFU_RPT_RI; ueCb->rawCqiBitW[ueCb->cqiRiWritIdx].u.pucch.pucchRawCqiInfo.u.mode21Info.u.ri = riCb->riNumBits; break; default: break; } RG_SCH_INCR_CQIRI_INDEX(ueCb->cqiRiWritIdx); return ROK; } /*********************************************************** * * Func : rgSCHTomUtlFetchPcqiBitSz * * * Desc : Fetch the CQI/PMI bits for a UE based on the mode, periodicity. * * Ret : U8 * ROK - Success * * Notes: * * File : * **********************************************************/ #ifdef ANSI PUBLIC U8 rgSCHTomUtlFetchPcqiBitSz ( RgSchUeCb *ueCb, U8 numTxAnt, U8 *ri ) #else PUBLIC U8 rgSCHTomUtlFetchPcqiBitSz(ueCb, numTxAnt, ri) RgSchUeCb *ueCb; U8 numTxAnt; U8 *ri; #endif { U8 confRepMode; U8 pcqiSz; TfuCqiPucchMode10 *mode10Info; TfuCqiPucchMode11 *mode11Info; TfuCqiPucchMode20 *mode20Info; TfuCqiPucchMode21 *mode21Info; RgSchUePCqiCb *cqiCb = ueCb->nPCqiCb; TRC3(rgSCHTomUtlFetchPcqiBitSz); confRepMode = cqiCb->cqiCfg.cqiSetup.prdModeEnum; if((ueCb->mimoInfo.txMode != RGR_UE_TM_3) && (ueCb->mimoInfo.txMode != RGR_UE_TM_4)) { *ri =1; } else { *ri = cqiCb->perRiVal; } ueCb->rawCqiBitW[ueCb->cqiRiWritIdx].type = TFU_RECP_REQ_PUCCH; ueCb->rawCqiBitW[ueCb->cqiRiWritIdx].u.pucch.pucchRawCqiInfo.mode= (TfuDlCqiPucchMode)confRepMode; switch(confRepMode) { case RGR_PRD_CQI_MOD10: { mode10Info = &ueCb->rawCqiBitW[ueCb->cqiRiWritIdx].u.pucch.pucchRawCqiInfo.u.mode10Info; pcqiSz = 4; mode10Info->type = TFU_RPT_CQI; mode10Info->u.cqi = 4; } break; case RGR_PRD_CQI_MOD11: { mode11Info = &ueCb->rawCqiBitW[ueCb->cqiRiWritIdx].u.pucch.pucchRawCqiInfo.u.mode11Info; mode11Info->type = TFU_RPT_CQI; if(numTxAnt == 2) { if (*ri ==1) { pcqiSz = 6; mode11Info->u.cqi.cqi = 4; mode11Info->u.cqi.wideDiffCqi.pres = FALSE; mode11Info->u.cqi.pmi = 2; } else { pcqiSz = 8; mode11Info->u.cqi.cqi = 4; mode11Info->u.cqi.wideDiffCqi.pres = TRUE; mode11Info->u.cqi.wideDiffCqi.val = 3; mode11Info->u.cqi.pmi = 1; } } else if(numTxAnt == 4) { if (*ri ==1) { pcqiSz = 8; mode11Info->u.cqi.cqi = 4; mode11Info->u.cqi.wideDiffCqi.pres = FALSE; mode11Info->u.cqi.pmi = 4; } else { pcqiSz = 11; mode11Info->u.cqi.cqi = 4; mode11Info->u.cqi.wideDiffCqi.pres = TRUE; mode11Info->u.cqi.wideDiffCqi.val = 3; mode11Info->u.cqi.pmi = 4; } } else { /* This is number of antenna case 1. * This is not applicable for Mode 1-1. * So setting it to invalid value */ pcqiSz = 0; } } break; case RGR_PRD_CQI_MOD20: { mode20Info = &ueCb->rawCqiBitW[ueCb->cqiRiWritIdx].u.pucch.pucchRawCqiInfo.u.mode20Info; mode20Info->type = TFU_RPT_CQI; if(cqiCb->isWb) { pcqiSz = 4; mode20Info->u.cqi.isWideband = TRUE; mode20Info->u.cqi.u.wideCqi = 4; } else { pcqiSz = 4 + cqiCb->label; mode20Info->u.cqi.isWideband = FALSE; mode20Info->u.cqi.u.subCqi.cqi = 4; mode20Info->u.cqi.u.subCqi.l = cqiCb->label; } } break; case RGR_PRD_CQI_MOD21: { mode21Info = &ueCb->rawCqiBitW[ueCb->cqiRiWritIdx].u.pucch.pucchRawCqiInfo.u.mode21Info; mode21Info->type = TFU_RPT_CQI; //pcqiSz = rgSCHTomUtlFetchPcqiBitSzPucchMode21(ueCb, // mode21Info, numTxAnt, ri); } break; default: pcqiSz = 0; break; } RG_SCH_INCR_CQIRI_INDEX(ueCb->cqiRiWritIdx); return pcqiSz; } /*********************************************************** * * Func : rgSCHTomUtlPcqiSbCalcBpIdx * * * Desc : Determines the BP index from the timing info * * Ret : S16 * ROK - Success * * Notes: * * File : * **********************************************************/ #ifdef ANSI PUBLIC S16 rgSCHTomUtlPcqiSbCalcBpIdx ( CmLteTimingInfo crntTimInfo, RgSchUeCb *ueCb, RgSchUePCqiCb *cqiCb ) #else PUBLIC S16 rgSCHTomUtlPcqiSbCalcBpIdx(crntTimInfo, ueCb, cqiCb) CmLteTimingInfo crntTimInfo; RgSchUeCb *ueCb; RgSchUePCqiCb *cqiCb; #endif { U16 tti = (crntTimInfo.sfn * RGSCH_NUM_SUB_FRAMES_5G + crntTimInfo.slot); U16 prdNum = tti/cqiCb->cqiPeri; TRC2(rgSCHTomUtlPcqiSbCalcBpIdx); if((prdNum % cqiCb->h) == 0) { cqiCb->isWb = TRUE; #ifdef LTE_ADV cqiCb->prioLvl = RG_SCH_CQI_PRIO_LVL_1; #endif } else { cqiCb->isWb = FALSE; cqiCb->bpIdx = ((prdNum % cqiCb->h) - 1) % cqiCb->J; #ifdef LTE_ADV cqiCb->prioLvl = RG_SCH_CQI_PRIO_LVL_0; #endif } return ROK; } /** * @brief Function which moves PCQI, RI, SR and SRS to next periodicity * Occasions as that needs to be done in case of Ack/Nack repetition * reception request occasions or during Measurement Gap occasions. * * @details * * Function: rgSCHTomUtlMoveNxtOccasion * * Function which moves PCQI, RI, SR and SRS to next perodicity * Occasions as that needs to be done in case of Ack/Nack repetition * reception request occasions or during Measurement Gap occasions. * * Invoked by: rgSCHTomUtlFillDatRecpReq of rg_sch_tom.c * * Processing Steps: * - Check whether the current Tx Instance matches with the rec req time * - If true, then move them to their next Tx Instance * * @param[in] RgSchCellCb *cell, * RgSchUeCb *ue, * U16 validIdx * @return S16 * -# ROK * -# RFAILED **/ #ifdef ANSI PUBLIC S16 rgSCHTomUtlMoveNxtOccasion ( RgSchCellCb *cell, RgSchUeCb *ue, U16 validIdx ) #else PUBLIC S16 rgSCHTomUtlMoveNxtOccasion(cell, ue, validIdx) RgSchCellCb *cell; RgSchUeCb *ue; U16 validIdx; #endif { RgSchUePCqiCb *cqiCb = ue->nPCqiCb; RgSchUePCqiCb *riCb = ue->nPRiCb; TRC2(rgSCHTomUtlMoveNxtOccasion); /* ccpu00140578::Skip the UE if already RI recpetion * is processed in the same subframe */ if ((riCb->nRiTrIdx == validIdx) && (riCb->riRecpPrcsd == FALSE)) { if(riCb->riDist ==0) { rgSCHTomUtlMovePriNxtOccasion(cell, ue, riCb); } else { riCb->riDist--; } /* ccpu00140578:: As this UE is considered for this TTI * Same UE should not get processed for RI reception * or for updating th RI distance.*/ if(riCb->nRiTrIdx == validIdx) { riCb->riRecpPrcsd = TRUE; } } if (cqiCb->nCqiTrIdx == validIdx) { rgSCHTomUtlMovePcqiNxtOccasion(cell, ue, cqiCb); } /* ccpu00140578::Skip the UE if SRS recpetion * is already processed in the same subframe */ if ((ue->srsCb.nSrsTrIdx == validIdx) && (ue->srsCb.srsRecpPrcsd == FALSE)) { if(ue->srsCb.srsDist ==0) { rgSCHTomUtlMoveSrsNxtOccasion(cell, ue); } else { ue->srsCb.srsDist--; } /* ccpu00140578:: As this UE is considered for this TTI * Same UE should not get processed for SRS reception * or for updating th SRS distance.*/ if(ue->srsCb.nSrsTrIdx == validIdx) { ue->srsCb.srsRecpPrcsd = TRUE; } } if (ue->srCb.nSrTrIdx == validIdx) { rgSCHTomUtlMoveSrNxtOccasion(cell, ue); } return ROK; } /* rgSCHTomUtlMoveNxtOccasion */ /*********************************************************** * * Func : rgSCHTomPrepareAcqiRecp * * * Desc : Fetch the CQI/PMI bits for a UE based on the mode and store them * for decoding. Fill RECP request and prepare the scartchpad * to aid decoding of Aperiodic CQI. * * Ret : Void * ROK - RETVOID * * Notes: * * File : * **********************************************************/ #ifdef ANSI PUBLIC Void rgSCHTomPrepareAcqiRecp ( RgSchUeCb *ueCb, RgSchCellCb *cell, TfuUePuschCqiRecpInfo *cqiRecpReqInfo, U8 ccIdx ) #else PUBLIC Void rgSCHTomPrepareAcqiRecp(ueCb, cell, cqiRecpReqInfo, ccIdx) RgSchUeCb *ueCb; RgSchCellCb *cell; TfuUePuschCqiRecpInfo *cqiRecpReqInfo; U8 ccIdx; #endif { U8 confRepMode; RgSchCqiRawPuschMode12 *mode12Info; RgSchCqiRawPuschMode20 *mode20Info; RgSchCqiRawPuschMode22 *mode22Info; RgSchCqiRawPuschMode30 *mode30Info; RgSchCqiRawPuschMode31 *mode31Info; U8 numTxAnt = cell->numTxAntPorts; U8 sCellIdx = ueCb->cellIdToCellIdxMap[RG_SCH_CELLINDEX(cell)]; U8 numOfCells = 0; RgSchUeACqiCb *acqiCb = &ueCb->cellInfo[sCellIdx]->acqiCb; TRC2(rgSCHTomPrepareAcqiRecp); /* Fill TFU Recp */ cqiRecpReqInfo->reportType = TFU_APERIODIC_CQI_TYPE; /* Aperiodic */ if (ueCb->mimoInfo.txMode == RGR_UE_TM_3 || ueCb->mimoInfo.txMode == RGR_UE_TM_4) { cqiRecpReqInfo->riSz[ccIdx].pres = TRUE; cqiRecpReqInfo->riSz[ccIdx].val = acqiCb->riNumBits; } /* This flag will be rmeoved after making changes in BRDCM CL * Sachin is doing the change * */ #if (defined (TENB_T2K3K_SPECIFIC_CHANGES) && defined(LTE_TDD)) //LTE_ADV_ACQI_SUPP cqiRecpReqInfo->cqiPmiSzR1[ccIdx] = acqiCb->cqiPmiSzR1; cqiRecpReqInfo->cqiPmiSzRn1[ccIdx] = acqiCb->cqiPmiSzRn1; #else if(ueCb->nPCqiCb->perRiVal == 1) { cqiRecpReqInfo->cqiPmiSzR1[ccIdx] = acqiCb->cqiPmiSzR1; } else { cqiRecpReqInfo->cqiPmiSzRn1[ccIdx] = acqiCb->cqiPmiSzRn1; } #endif /* Fill scratchpad to aid decoding of aper CQI upon * reception */ confRepMode = acqiCb->aCqiCfg.aprdModeEnum; ueCb->rawCqiBitW[ueCb->cqiRiWritIdx].type = TFU_RECP_REQ_PUSCH; numOfCells = ueCb->rawCqiBitW[ueCb->cqiRiWritIdx].u.pusch.numOfCells; ueCb->rawCqiBitW[ueCb->cqiRiWritIdx].u.pusch.cqiBitWidth[numOfCells].\ puschRawCqiInfo.mode = (TfuDlCqiPuschMode)confRepMode; ueCb->rawCqiBitW[ueCb->cqiRiWritIdx].u.pusch.cqiBitWidth[numOfCells].\ puschRawCqiInfo.ri.pres = cqiRecpReqInfo->riSz[ccIdx].pres; ueCb->rawCqiBitW[ueCb->cqiRiWritIdx].u.pusch.cqiBitWidth[numOfCells].\ puschRawCqiInfo.ri.val = cqiRecpReqInfo->riSz[ccIdx].val; /* Setting the sCellIdx */ ueCb->rawCqiBitW[ueCb->cqiRiWritIdx].u.pusch.cqiBitWidth[numOfCells].\ sCellIdx = sCellIdx; switch(confRepMode) { case RGR_APRD_CQI_MOD12: { mode12Info = &ueCb->rawCqiBitW[ueCb->cqiRiWritIdx].u.pusch.\ cqiBitWidth[numOfCells].puschRawCqiInfo.u.mode12Info; mode12Info->wideBCqiCw0 = 4; mode12Info->r1WideBCqiCw1 = 0; mode12Info->rg1WideBCqiCw1 = 4; if(numTxAnt == 2) { mode12Info->r1TotalPmiBitLen = 2*acqiCb->N; mode12Info->rg1TotalPmiBitLen = acqiCb->N; } else if(numTxAnt == 4) { mode12Info->r1TotalPmiBitLen = 4*acqiCb->N; mode12Info->rg1TotalPmiBitLen = 4*acqiCb->N; } } break; case RGR_APRD_CQI_MOD20: { mode20Info = &ueCb->rawCqiBitW[ueCb->cqiRiWritIdx].u.pusch.\ cqiBitWidth[numOfCells].puschRawCqiInfo.u.mode20Info; mode20Info->wideBCqiCw = 4; mode20Info->subBandDiffCqi = 2; mode20Info->posOfM = acqiCb->L; } break; case RGR_APRD_CQI_MOD22: { mode22Info = &ueCb->rawCqiBitW[ueCb->cqiRiWritIdx].u.pusch.\ cqiBitWidth[numOfCells].puschRawCqiInfo.u.mode22Info; mode22Info->wideBCqiCw0 = 4; mode22Info->sBDiffCqiCw0 = 2; mode22Info->r1WideBCqiCw1 = 0; mode22Info->r1SbDiffCqiCw1 = 0; mode22Info->rg1WideBCqiCw1 = 4; mode22Info->rg1SbDiffCqiCw1 = 2; mode22Info->posOfM = acqiCb->L; if(numTxAnt == 2) { mode22Info->r1PmiBitLen = 4; mode22Info->rg1PmiBitLen = 2; } else if(numTxAnt == 4) { mode22Info->r1PmiBitLen = 8; mode22Info->rg1PmiBitLen = 8; } } break; case RGR_APRD_CQI_MOD30: { mode30Info = &ueCb->rawCqiBitW[ueCb->cqiRiWritIdx].u.pusch.\ cqiBitWidth[numOfCells].puschRawCqiInfo.u.mode30Info; mode30Info->wideBCqiCw = 4; mode30Info->totLenSbDiffCqi = 2*acqiCb->N; } break; case RGR_APRD_CQI_MOD31: { mode31Info = &ueCb->rawCqiBitW[ueCb->cqiRiWritIdx].u.pusch.\ cqiBitWidth[numOfCells].puschRawCqiInfo.u.mode31Info; mode31Info->wideBCqiCw0 = 4; mode31Info->totLenSbDiffCqiCw0 = 2*acqiCb->N; mode31Info->r1WideBCqiCw1 = 0; mode31Info->r1TotLenSbDiffCqiCw1 =0; mode31Info->rg1WideBCqiCw1 = 4; mode31Info->rg1TotLenSbDiffCqiCw1 = 2*acqiCb->N; if(numTxAnt == 2) { mode31Info->r1PmiBitLen = 2; mode31Info->rg1PmiBitLen = 1; } else if(numTxAnt == 4) { mode31Info->r1PmiBitLen = 4; mode31Info->rg1PmiBitLen = 4; } } break; default: break; } RETVOID; } /** * @brief Function which handles the filling of Aperiodic CQI/RI reception * request values * * @details * * Function: rgSCHTomUtlFillDatAperRecpReq * * Function which handles the filling of Aperiodic CQI/RI reception * request values * * Invoked by: rgSCHTomUtlFillDatRecpReq of rg_sch_tom.c * * Processing Steps: * - Fill the reception request for the data arriving on the ULSCH * - Fill the reception request information for the Aperiodic CQI/PMI/RI * * @param[in] RgSchCellCb *cell, * RgSchUlAlloc *alloc, * TfuUeRecpReqInfo *datRecpInfo, * CmLteTimingInfo *timeInfo, * Bool hqPres * @return S16 * -# ROK * -# RFAILED **/ #ifdef ANSI PUBLIC S16 rgSCHTomUtlFillDatAperRecpReq ( RgSchCellCb *cell, U8 cqiReq, RgSchUlAlloc *alloc, TfuUeRecpReqInfo *datRecpInfo, CmLteTimingInfo *timeInfo, Bool hqPres, U16 validIdx ) #else PUBLIC S16 rgSCHTomUtlFillDatAperRecpReq(cell, cqiReq, alloc, datRecpInfo, timeInfo, hqPres, validIdx) RgSchCellCb *cell; U8 cqiReq; RgSchUlAlloc *alloc; TfuUeRecpReqInfo *datRecpInfo; CmLteTimingInfo *timeInfo; Bool hqPres; U16 validIdx; #endif { TfuUePuschCqiRecpInfo *cqiRecpReqInfo; RgSchUeCb *ueCb = alloc->ue; #ifdef LTE_ADV U8 triggerSet = 0; U8 sIdx = 0; #endif TRC2(rgSCHTomUtlFillDatAperRecpReq); /*Fill RI Reception Params*/ cqiRecpReqInfo = &datRecpInfo->t.puschRecpReq.cqiRiInfo; cqiRecpReqInfo->riBetaOff = alloc->ue->ul.betaRiOffst; cqiRecpReqInfo->cqiBetaOff = alloc->ue->ul.betaCqiOffst; cqiRecpReqInfo->cCNum = 0; ueCb->rawCqiBitW[ueCb->cqiRiWritIdx].u.pusch.numOfCells = 0; #ifdef LTE_ADV rgSCHTomUtlGetTrigSet(cell, ueCb, cqiReq, &triggerSet); for (sIdx = 0; sIdx < CM_LTE_MAX_CELLS; sIdx++) { /* The Aperiodic request for SCell index sIdx */ if ((triggerSet >> (7 - sIdx)) & 0x01) { /* The Aperiodic request for SCell index sIdx */ rgSCHTomPrepareAcqiRecp(ueCb, ueCb->cellInfo[sIdx]->cell, cqiRecpReqInfo, cqiRecpReqInfo->cCNum); cqiRecpReqInfo->cCNum++; ueCb->rawCqiBitW[ueCb->cqiRiWritIdx].u.pusch.numOfCells++; } } #else rgSCHTomPrepareAcqiRecp(ueCb, ueCb->cellInfo[0]->cell, cqiRecpReqInfo, cqiRecpReqInfo->cCNum); ueCb->rawCqiBitW[ueCb->cqiRiWritIdx].u.pusch.numOfCells++; #endif RG_SCH_INCR_CQIRI_INDEX(ueCb->cqiRiWritIdx); if((alloc->ue->srsCb.nSrsTrIdx == validIdx) && (alloc->ue->srsCb.srsDist ==0)) { rgSCHTomFillOnlySrsRecpReq(cell,alloc, datRecpInfo); datRecpInfo->t.puschRecpReq.rcpInfo = TFU_PUSCH_DATA_CQI_SRS; } if(hqPres && (datRecpInfo->t.puschRecpReq.rcpInfo == TFU_PUSCH_DATA_CQI_SRS)) { datRecpInfo->t.puschRecpReq.rcpInfo = TFU_PUSCH_DATA_CQI_HARQ_SRS; } else if (hqPres) { datRecpInfo->t.puschRecpReq.rcpInfo = TFU_PUSCH_DATA_CQI_HARQ; } else if(datRecpInfo->t.puschRecpReq.rcpInfo != TFU_PUSCH_DATA_CQI_SRS) { datRecpInfo->t.puschRecpReq.rcpInfo = TFU_PUSCH_DATA_CQI; } datRecpInfo->rnti = alloc->rnti; rgSCHUtlAllocRcptInfo (cell, alloc, timeInfo, &datRecpInfo->t.puschRecpReq.ulSchInfo); return ROK; } /* rgSCHTomUtlFillDatAperRecpReq */ /** * @brief Function which handles the filling of Periodic RI reception * request values which arrives along with UL Data on ULSCH * * @details * * Function: rgSCHTomUtlFillDatPriRecpReq * * Function which handles the filling of Periodic RI reception * request values which arrives along with UL Data on ULSCH * * Invoked by: rgSCHTomUtlFillDatRecpReq of rg_sch_tom.c * * Processing Steps: * - Fill the reception request for the data arriving on the ULSCH * - Fill the reception request information for the Periodic RI * * @param[in] RgSchCellCb *cell, * RgSchUlAlloc *alloc, * TfuUeRecpReqInfo *datRecpInfo, * CmLteTimingInfo *timeInfo, * Bool hqPres * @return S16 * -# ROK * -# RFAILED **/ #ifdef ANSI PUBLIC S16 rgSCHTomUtlFillDatPriRecpReq ( RgSchCellCb *cell, RgSchUlAlloc *alloc, TfuUeRecpReqInfo *datRecpInfo, CmLteTimingInfo *timeInfo, Bool hqPres, U16 validIdx ) #else PUBLIC S16 rgSCHTomUtlFillDatPriRecpReq(cell, alloc, datRecpInfo, timeInfo, hqPres, validIdx) RgSchCellCb *cell; RgSchUlAlloc *alloc; TfuUeRecpReqInfo *datRecpInfo; CmLteTimingInfo *timeInfo; Bool hqPres; U16 validIdx; #endif { TfuUePuschCqiRecpInfo *cqiRecpReqInfo; TRC2(rgSCHTomUtlFillDatPriRecpReq); /*Fill RI Reception Params*/ cqiRecpReqInfo = &datRecpInfo->t.puschRecpReq.cqiRiInfo; #ifdef TFU_ALLOC_EVENT_NO_INIT cqiRecpReqInfo->cqiBetaOff = 0; /* Fill only the first RI index since Periodic can come * only for 1 CC */ cqiRecpReqInfo->cqiPmiSzR1[0] = 0; cqiRecpReqInfo->cqiPmiSzRn1[0] = 0; #endif cqiRecpReqInfo->reportType = TFU_PERIODIC_CQI_TYPE; /* periodic */ cqiRecpReqInfo->riBetaOff = alloc->ue->ul.betaRiOffst; /* Fill only the first RI index since Periodic can come * only for 1 CC */ cqiRecpReqInfo->cCNum = 1; cqiRecpReqInfo->riSz[0].pres = TRUE; cqiRecpReqInfo->riSz[0].val = alloc->ue->nPRiCb->riNumBits; /*Other params*/ rgSCHTomUtlFillRiBitWidthInfo(alloc->ue); if((alloc->ue->srsCb.nSrsTrIdx == validIdx) && (alloc->ue->srsCb.srsDist ==0)) { rgSCHTomFillOnlySrsRecpReq(cell,alloc, datRecpInfo); datRecpInfo->t.puschRecpReq.rcpInfo = TFU_PUSCH_DATA_CQI_SRS; } if(hqPres && (datRecpInfo->t.puschRecpReq.rcpInfo == TFU_PUSCH_DATA_CQI_SRS)) { datRecpInfo->t.puschRecpReq.rcpInfo = TFU_PUSCH_DATA_CQI_HARQ_SRS; } else if (hqPres) { datRecpInfo->t.puschRecpReq.rcpInfo = TFU_PUSCH_DATA_CQI_HARQ; } else if(datRecpInfo->t.puschRecpReq.rcpInfo != TFU_PUSCH_DATA_CQI_SRS) { datRecpInfo->t.puschRecpReq.rcpInfo = TFU_PUSCH_DATA_CQI; } datRecpInfo->rnti = alloc->rnti; rgSCHUtlAllocRcptInfo (cell, alloc, timeInfo, &datRecpInfo->t.puschRecpReq.ulSchInfo); return ROK; } /* rgSCHTomUtlFillDatPriRecpReq */ /** * @brief Function which handles the filling of Periodic CQI/PMI reception * request values which arrives along with UL Data on ULSCH * * @details * * Function: rgSCHTomUtlFillDatPCqiRecpReq * * Function which handles the filling of Periodic CQI/PMI reception * request values which arrives along with UL Data on ULSCH * * Invoked by: rgSCHTomUtlFillDatRecpReq of rg_sch_tom.c * * Processing Steps: * - Fill the reception request for the data arriving on the ULSCH * - Fill the reception request information for the Periodic CQI/PMI * * @param[in] RgSchCellCb *cell, * RgSchUlAlloc *alloc, * TfuUeRecpReqInfo *datRecpInfo, * CmLteTimingInfo *timeInfo, * Bool hqPres * @return S16 * -# ROK * -# RFAILED **/ #ifdef ANSI PUBLIC S16 rgSCHTomUtlFillDatPCqiRecpReq ( RgSchCellCb *cell, RgSchUlAlloc *alloc, TfuUeRecpReqInfo *datRecpInfo, CmLteTimingInfo *timeInfo, Bool hqPres, U16 validIdx ) #else PUBLIC S16 rgSCHTomUtlFillDatPCqiRecpReq(cell, alloc, datRecpInfo, timeInfo, hqPres, validIdx) RgSchCellCb *cell; RgSchUlAlloc *alloc; TfuUeRecpReqInfo *datRecpInfo; CmLteTimingInfo *timeInfo; Bool hqPres; U16 validIdx; #endif { TfuUePuschCqiRecpInfo *cqiRecpReqInfo; U8 cqiPmiSz; /*Raw CQI/PMI Size*/ U8 ri; TRC2(rgSCHTomUtlFillDatPCqiRecpReq); /*Fill CQI Reception Params*/ cqiRecpReqInfo = &datRecpInfo->t.puschRecpReq.cqiRiInfo; #ifdef TFU_ALLOC_EVENT_NO_INIT cqiRecpReqInfo->riBetaOff = 0; #endif cqiRecpReqInfo->cqiBetaOff = alloc->ue->ul.betaCqiOffst; cqiPmiSz = rgSCHTomUtlFetchPcqiBitSz(alloc->ue, cell->numTxAntPorts, &ri); if(0 == cqiPmiSz) { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"Unable to Fill " "CqiPmi size RNTI:%d",alloc->rnti); return RFAILED; } /* Fill only the first RI index since Periodic can come * only for 1 CC */ cqiRecpReqInfo->cCNum = 1; cqiRecpReqInfo->reportType = TFU_PERIODIC_CQI_TYPE; /* Periodic */ /* This flags will be removed once Sachin does changes * in BRDCM CL */ #if (defined (TENB_T2K3K_SPECIFIC_CHANGES) && defined(LTE_TDD)) cqiRecpReqInfo->cqiPmiSzR1[0] = cqiPmiSz; cqiRecpReqInfo->cqiPmiSzRn1[0] = cqiPmiSz; #else if (ri ==1) { cqiRecpReqInfo->cqiPmiSzR1[0] = cqiPmiSz; cqiRecpReqInfo->cqiPmiSzRn1[0] = 0; } else { cqiRecpReqInfo->cqiPmiSzRn1[0] = cqiPmiSz; cqiRecpReqInfo->cqiPmiSzR1[0] = 0; } #endif cqiRecpReqInfo->riSz[0].pres = FALSE; if((alloc->ue->srsCb.nSrsTrIdx == validIdx) && (alloc->ue->srsCb.srsDist ==0)) { rgSCHTomFillOnlySrsRecpReq(cell,alloc, datRecpInfo); datRecpInfo->t.puschRecpReq.rcpInfo = TFU_PUSCH_DATA_CQI_SRS; } if(hqPres && (datRecpInfo->t.puschRecpReq.rcpInfo == TFU_PUSCH_DATA_CQI_SRS)) { datRecpInfo->t.puschRecpReq.rcpInfo = TFU_PUSCH_DATA_CQI_HARQ_SRS; } else if (hqPres) { datRecpInfo->t.puschRecpReq.rcpInfo = TFU_PUSCH_DATA_CQI_HARQ; } else if(datRecpInfo->t.puschRecpReq.rcpInfo != TFU_PUSCH_DATA_CQI_SRS) { datRecpInfo->t.puschRecpReq.rcpInfo = TFU_PUSCH_DATA_CQI; } datRecpInfo->rnti = alloc->rnti; rgSCHUtlAllocRcptInfo (cell, alloc, timeInfo, &datRecpInfo->t.puschRecpReq.ulSchInfo); return ROK; } /* rgSCHTomUtlFillDatPCqiRecpReq */ /** * @brief Function which handles the filling of SRS reception * request values which arrives along with UL Data on ULSCH * * @details * * Function: rgSCHTomUtlFillDatSrsRecpReq * * Function which handles the filling of SRS reception * request values which arrives along with UL Data on ULSCH * * Invoked by: rgSCHTomUtlFillDatRecpReq of rg_sch_tom.c * * Processing Steps: * - Fill the reception request for the data arriving on the ULSCH * - Fill the reception request information for the SRS * * @param[in] RgSchCellCb *cell, * RgSchUlAlloc *alloc, * TfuUeRecpReqInfo *datRecpInfo, * CmLteTimingInfo *timeInfo, * Bool hqPres * @return S16 * -# ROK * -# RFAILED **/ #ifdef ANSI PUBLIC S16 rgSCHTomUtlFillDatSrsRecpReq ( RgSchCellCb *cell, RgSchUlAlloc *alloc, TfuUeRecpReqInfo *datRecpInfo, CmLteTimingInfo *timeInfo, Bool hqPres ) #else PUBLIC S16 rgSCHTomUtlFillDatSrsRecpReq(cell, alloc, datRecpInfo, timeInfo, hqPres) RgSchCellCb *cell; RgSchUlAlloc *alloc; TfuUeRecpReqInfo *datRecpInfo; CmLteTimingInfo *timeInfo; Bool hqPres; #endif { TRC2(rgSCHTomUtlFillDatSrsRecpReq); datRecpInfo->rnti = alloc->rnti; rgSCHTomFillOnlySrsRecpReq(cell,alloc, datRecpInfo); if(hqPres) { datRecpInfo->t.puschRecpReq.rcpInfo = TFU_PUSCH_DATA_HARQ_SRS; } else { datRecpInfo->t.puschRecpReq.rcpInfo = TFU_PUSCH_DATA_SRS; } datRecpInfo->rnti = alloc->rnti; rgSCHUtlAllocRcptInfo (cell, alloc, timeInfo, &datRecpInfo->t.puschRecpReq.ulSchInfo); return ROK; } /* rgSCHTomUtlFillDatSrsRecpReq */ /** * @brief Function which handles the filling of only SRS reception * request values on ULSCH * * @details * * Function: rgSCHTomFillOnlySrsRecpReq * * Function which handles the filling of SRS reception * request values which arrives along with UL Data on ULSCH * * Invoked by: rgSCHTomUtlFillDatSrsRecpReq of rg_sch_tom.c * * Processing Steps: * - Fill the reception request for the data arriving on the ULSCH * - Fill the reception request information for the SRS * * @param[in] RgSchCellCb *cell, * RgSchUlAlloc *alloc, * TfuUeRecpReqInfo *datRecpInfo, * @return S16 * -# ROK * -# RFAILED **/ #ifdef ANSI PUBLIC S16 rgSCHTomFillOnlySrsRecpReq ( RgSchCellCb *cell, RgSchUlAlloc *alloc, TfuUeRecpReqInfo *datRecpInfo ) #else PUBLIC S16 rgSCHTomFillOnlySrsRecpReq(cell, alloc, datRecpInfo) RgSchCellCb *cell; RgSchUlAlloc *alloc; TfuUeRecpReqInfo *datRecpInfo; #endif { TfuUePuschSrsRecpInfo *srsRecpReqInfo; TRC2(rgSCHTomFillOnlySrsRecpReq); srsRecpReqInfo = &datRecpInfo->t.puschRecpReq.srsInfo; srsRecpReqInfo->srsBw = (TfuUlSrsBwInfo)alloc->ue->srsCb.srsCfg.srsSetup.srsBw; srsRecpReqInfo->nRrc = alloc->ue->srsCb.srsCfg.srsSetup.fDomPosi; srsRecpReqInfo->srsHopBw = (TfuUlSrsHoBwInfo)alloc->ue->srsCb.srsCfg.srsSetup.srsHopBw; srsRecpReqInfo->transComb = alloc->ue->srsCb.srsCfg.srsSetup.txComb; srsRecpReqInfo->srsCfgIdx = alloc->ue->srsCb.srsCfg.srsSetup.srsCfgIdx; srsRecpReqInfo->srsCyclicShft = (TfuUlSrsCycShiftInfo)alloc->ue->srsCb.srsCfg.srsSetup.cycShift; /* ccpu00117050 - ADD - nSrs setting * Refer Section 5.2.2.6 of TS 36.212 V8.5.0*/ datRecpInfo->t.puschRecpReq.ulSchInfo.nSrs = 1; return ROK; } /* rgSCHTomFillOnlySrsRecpReq */ /** * @brief Function which handles the filling of PCQI/RI, SRS and SR * Reception Request Information along * with the HARQ reception Request * * @details * * Function: rgSCHTomUtlFillCqiSrSrsWithHq * * Function which handles the filling of PCQI/RI, SRS ans SR * Reception Request Information along * with the HARQ reception Request * * * Invoked by: rgSCHTomUtlFillHqFdbkRecpReq & * rgSCHTomUtlFillSfHqFdbk of rg_sch_tom.c * * Processing Steps: * - Fill the reception request for the Control Info arriving on the PUCCH * - Fill the reception request information for the SR, RI, CQI, SRS * * @param[in] RgSchCellCb *cell, * TfuRecpReqInfo *recpReqInfo, * RgSchDlHqProcCb *hqCb, * @param[out] TfuUeRecpReqInfo *pucchRecpInfo * @param[in] U16 validIdx * @return S16 * -# ROK * -# RFAILED **/ #ifdef ANSI PRIVATE S16 rgSCHTomUtlFillCqiSrSrsWithHq ( RgSchCellCb *cell, TfuRecpReqInfo *recpReqInfo, RgSchUeCb *ue, TfuUeRecpReqInfo *pucchRecpInfo, U16 validIdx, Bool isDatPresOnSecCell ) #else PRIVATE S16 rgSCHTomUtlFillCqiSrSrsWithHq(cell, recpReqInfo, ue, pucchRecpInfo, validIdx,isDatPresOnSecCell) RgSchCellCb *cell; TfuRecpReqInfo *recpReqInfo; RgSchUeCb *ue; TfuUeRecpReqInfo *pucchRecpInfo; U16 validIdx; Bool isDatPresOnSecCell; #endif { RgSchUePCqiCb *cqiCb; RgSchUePCqiCb *riCb; U8 ri; /*To fetch RI value*/ Bool willUeRprtCqi; /* Flag set due to CQI Mask and UE Inactive state (DRX)*/ Bool willUeRprtSr = TRUE; TfuAckNackMode hqFdbkMode; U8 numCqiBit; U8 totalPucchBits; Bool dropCqi = FALSE; #ifdef LTEMAC_SPS RgSchCmnUlUeSpsInfo *ulSpsUe = NULL; #endif #ifdef EMTC_ENABLE RgSchEmtcUeInfo *emtcUe = NULLP; #endif TRC2(rgSCHTomUtlFillCqiSrSrsWithHq); if(ue) { /*Changes for PUCCH Format3 */ hqFdbkMode = pucchRecpInfo->t.pucchRecpReq.hqInfo.hqFdbkMode; numCqiBit = rgSCHCmnCalcPcqiBitSz (ue,cell->numTxAntPorts); totalPucchBits = pucchRecpInfo->t.pucchRecpReq.hqInfo.hqSz + numCqiBit; #ifdef EMTC_ENABLE emtcUe = RG_GET_EMTC_UE_CB(ue); #endif rgSCHTomUtlWillUeRprtCqiRi(ue, &willUeRprtCqi); #ifdef EMTC_ENABLE /*VINU*/ if (ue->isEmtcUe) { if((emtcUe->pucchRepNumFr1 > 1) || (emtcUe->pucchRepNumFr2 > 1)) { willUeRprtCqi = FALSE; willUeRprtSr = FALSE; } } #endif if(ue->srCb.nSrTrIdx == validIdx) { #ifdef LTEMAC_SPS /* Should we check for Rel8 and above??? * Dont send SR recp req if logicalChannelSR-Mask enabled and UL SPS is * active*/ ulSpsUe = RG_SCH_CMN_GET_UL_SPS_UE(ue, cell); /* Avoiding check for ulSpsEnabled as isUlSpsActv FALSE if sps is not enabled*/ if(!((ue->ul.ulSpsCfg.isLcSRMaskEnab) && (ulSpsUe->isUlSpsActv))) { #endif if(willUeRprtSr) { /*Fill SR params*/ pucchRecpInfo->t.pucchRecpReq.srInfo.n1PucchIdx = ue->srCb.srCfg.srSetup.srResIdx; pucchRecpInfo->t.pucchRecpReq.uciInfo = TFU_PUCCH_HARQ_SR; /* FORMAT3: If SR is present it will be appended after HARQ */ totalPucchBits = totalPucchBits + 1; } #ifdef LTEMAC_SPS } #endif rgSCHTomUtlMoveSrNxtOccasion(cell, ue); } /* LTE_ADV:: UE will drop CSI during CSI+1BCS if data is present * on sec cell(isDatPresOnSecCell)*/ #ifdef LTE_TDD if (hqFdbkMode == TFU_ACK_NACK_CHANNEL_SELECTION) #else if (hqFdbkMode == TFU_UCI_FORMAT_1B_CS) #endif { if (isDatPresOnSecCell == TRUE) { dropCqi = TRUE; } } #ifdef LTE_ADV #ifndef LTE_TDD /* Format 3 Changes : If Hq + SR + CQI bits < 22 and simultaneousAckNackAndCQI-Format3 is enabled then CQI will be multiplexed with HQ otherwise CQI will be dropped Spec 36.213 Sec 10.1.1 */ else if (hqFdbkMode == TFU_UCI_FORMAT_3) { if ((isDatPresOnSecCell == TRUE) && ((!ue->simulAckNackCQIFormat3) || (totalPucchBits > 22))) { dropCqi = TRUE; } } #endif #endif riCb = ue->nPRiCb; cqiCb = ue->nPCqiCb; if(riCb->nRiTrIdx == validIdx) { /*ccpu00140578:: Skip the UE if the RI is already processed * for PUSCH */ if(riCb->riRecpPrcsd == FALSE) { if(riCb->riDist == 0) { if((riCb->cqiCfg.cqiSetup.sANCQI == TRUE) && (willUeRprtCqi == TRUE)&& (isDatPresOnSecCell == FALSE)) { /*Fill RI params*/ pucchRecpInfo->t.pucchRecpReq.cqiInfo.n2PucchIdx = riCb->cqiCfg.cqiSetup.cqiPResIdx; pucchRecpInfo->t.pucchRecpReq.cqiInfo.cqiPmiSz = riCb->riNumBits; if(pucchRecpInfo->t.pucchRecpReq.uciInfo == TFU_PUCCH_HARQ_SR) { pucchRecpInfo->t.pucchRecpReq.uciInfo = TFU_PUCCH_HARQ_SR_CQI; } else { pucchRecpInfo->t.pucchRecpReq.uciInfo = TFU_PUCCH_HARQ_CQI; } ue->rawCqiBitW[ue->cqiRiWritIdx].recvTime = recpReqInfo->timingInfo; #ifdef LTE_ADV ue->rawCqiBitW[ue->cqiRiWritIdx].u.pucch.sCellIdx = ue->nPRiCb->servCellInfo->sCellIdx; #endif rgSCHTomUtlFillRiBitWidthInfo(ue); if (ue->nPCqiCb->nCqiTrIdx == validIdx) { rgSCHTomUtlMovePcqiNxtOccasion(cell, ue, ue->nPCqiCb); } #ifdef CA_DBG { if(gF1bCsPres) { gRiReqCount++; } } #endif } rgSCHTomUtlMovePriNxtOccasion(cell, ue, riCb); } else { riCb->riDist--; } /* Skip the UE for RI processing on PUCCH * in the same subframe as it already processed */ if(riCb->nRiTrIdx == validIdx) { /* As the new idx is same is current idx * then PUCCH reception processing will consider * RI also in the same subframe. To block this * below flag is used*/ riCb->riRecpPrcsd = TRUE; } } } else if(cqiCb->nCqiTrIdx == validIdx) { if((cqiCb->cqiCfg.cqiSetup.sANCQI == TRUE) && (willUeRprtCqi == TRUE)&& (isDatPresOnSecCell == FALSE)) { /*Fill CQI Params*/ pucchRecpInfo->t.pucchRecpReq.cqiInfo.n2PucchIdx = cqiCb->cqiCfg.cqiSetup.cqiPResIdx; ue->rawCqiBitW[ue->cqiRiWritIdx].recvTime = recpReqInfo->timingInfo; #ifdef LTE_ADV ue->rawCqiBitW[ue->cqiRiWritIdx].u.pucch.sCellIdx = cqiCb->servCellInfo->sCellIdx; #endif pucchRecpInfo->t.pucchRecpReq.cqiInfo.cqiPmiSz = rgSCHTomUtlFetchPcqiBitSz(ue, cell->numTxAntPorts, &ri); if(0 == pucchRecpInfo->t.pucchRecpReq.cqiInfo.cqiPmiSz) { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"RNTI:%d " "Unable to Fill CqiPmi size", ue->ueId); return RFAILED; } if(pucchRecpInfo->t.pucchRecpReq.uciInfo == TFU_PUCCH_HARQ_SR) { pucchRecpInfo->t.pucchRecpReq.uciInfo = TFU_PUCCH_HARQ_SR_CQI; } else { pucchRecpInfo->t.pucchRecpReq.uciInfo = TFU_PUCCH_HARQ_CQI; } } #ifdef CA_DBG { if(gF1bCsPres) { gCqiReqCount++; } } #endif rgSCHTomUtlMovePcqiNxtOccasion(cell, ue, cqiCb); } if(ue->srsCb.nSrsTrIdx == validIdx) { /* ccpu00140578::Skip the UE for SRS reception processing * if already done as part of PUSCH recpetion * process*/ if(ue->srsCb.srsRecpPrcsd == FALSE) { if(ue->srsCb.srsDist ==0 ) { if((pucchRecpInfo->t.pucchRecpReq.uciInfo != TFU_PUCCH_HARQ_CQI) && (ue->srsCb.srsCfg.srsSetup.sANSrs) && (isDatPresOnSecCell == FALSE)) { /*Fill SRS params*/ pucchRecpInfo->t.pucchRecpReq.srsInfo.srsBw = (TfuUlSrsBwInfo)ue->srsCb.srsCfg.srsSetup.srsBw; pucchRecpInfo->t.pucchRecpReq.srsInfo.nRrc = ue->srsCb.srsCfg.srsSetup.fDomPosi; pucchRecpInfo->t.pucchRecpReq.srsInfo.srsHopBw = (TfuUlSrsHoBwInfo)ue->srsCb.srsCfg.srsSetup.srsHopBw; pucchRecpInfo->t.pucchRecpReq.srsInfo.transComb = ue->srsCb.srsCfg.srsSetup.txComb; pucchRecpInfo->t.pucchRecpReq.srsInfo.srsCfgIdx = ue->srsCb.srsCfg.srsSetup.srsCfgIdx; pucchRecpInfo->t.pucchRecpReq.srsInfo.srsCyclicShft = (TfuUlSrsCycShiftInfo)ue->srsCb.srsCfg.srsSetup.cycShift; /* ccpu00116923 - ADD - New Reception Request types for CQI and SRS with SR */ switch(pucchRecpInfo->t.pucchRecpReq.uciInfo) { case TFU_PUCCH_HARQ_SR: pucchRecpInfo->t.pucchRecpReq.uciInfo = TFU_PUCCH_HARQ_SR_SRS; break; case TFU_PUCCH_HARQ_SR_CQI: pucchRecpInfo->t.pucchRecpReq.uciInfo = TFU_PUCCH_HARQ_SR_CQI_SRS; break; default: pucchRecpInfo->t.pucchRecpReq.uciInfo = TFU_PUCCH_HARQ_SRS; break; } } rgSCHTomUtlMoveSrsNxtOccasion(cell, ue); } else { ue->srsCb.srsDist--; } /* Skip the UE for SRS processing on PUCCH * in the same subframe as it already processed */ if(ue->srsCb.nSrsTrIdx == validIdx) { /* As the new idx is same is current idx * then PUCCH reception processing will consider * SRS also in the same subframe. To block this * below flag is used*/ ue->srsCb.srsRecpPrcsd = TRUE; } } } } UNUSED(dropCqi); return ROK; } /* rgSCHTomUtlFillCqiSrSrsWithHq */ /** * @brief Function which handles the filling of PCQI/RI, SRS * Reception Request Information along with SR reception * Request * * @details * * Function: rgSCHTomUtlFillCqiSrsWithSr * * Function which handles the filling of PCQI/RI, SRS * Reception Request Information along * with the SR reception Request * * * Invoked by: rgSCHTomUtlFillSrRecpReq of rg_sch_tom.c * * Processing Steps: * - Fill the reception request for CQI/RI, SRS if they occur * in the same instance as of SR. * * @param[in] RgSchCellCb *cell, * RgSchUeCb *ue * TfuRecpReqInfo *recpReqInfo, * @param[out] TfuUeRecpReqInfo *pucchRecpInfo * @param[in] U16 validIdx * @return S16 * -# ROK * -# RFAILED **/ #ifdef UNUSED_FUNC #ifdef ANSI PRIVATE S16 rgSCHTomUtlFillCqiSrsWithSr ( RgSchCellCb *cell, RgSchUeCb *ue, TfuRecpReqInfo *recpReqInfo, TfuUeRecpReqInfo *pucchRecpInfo, U16 validIdx ) #else PRIVATE S16 rgSCHTomUtlFillCqiSrsWithSr(cell, ue, recpReqInfo, pucchRecpInfo, validIdx) RgSchCellCb *cell; RgSchUeCb *ue; TfuRecpReqInfo *recpReqInfo; TfuUeRecpReqInfo *pucchRecpInfo; U16 validIdx; #endif { RgSchUePCqiCb *cqiCb; RgSchUePCqiCb *riCb; U8 ri; /*To fetch RI value*/ Bool willUeRprtCqi; /* Flag set due to CQI Mask and UE Inactive state (DRX)*/ TRC2(rgSCHTomUtlFillCqiSrsWithSr); riCb = ue->nPRiCb; cqiCb = ue->nPCqiCb; rgSCHTomUtlWillUeRprtCqiRi(ue, &willUeRprtCqi); #ifdef EMTC_ENABLE rgSCHEmtcWillUeRptCqi(ue, &willUeRprtCqi); #endif if(riCb->nRiTrIdx == validIdx) { /*ccpu00140578:: Skip the UE if the RI is already processed * for PUSCH */ if(riCb->riRecpPrcsd == FALSE) { if(riCb->riDist == 0) { if(willUeRprtCqi == TRUE) { /*Fill RI params*/ pucchRecpInfo->t.pucchRecpReq.cqiInfo.n2PucchIdx = riCb->cqiCfg.cqiSetup.cqiPResIdx; pucchRecpInfo->t.pucchRecpReq.cqiInfo.cqiPmiSz = riCb->riNumBits; pucchRecpInfo->t.pucchRecpReq.uciInfo = TFU_PUCCH_SR_CQI; ue->rawCqiBitW[ue->cqiRiWritIdx].recvTime = recpReqInfo->timingInfo; #ifdef LTE_ADV ue->rawCqiBitW[ue->cqiRiWritIdx].u.pucch.sCellIdx = ue->nPRiCb->servCellInfo->sCellIdx; #endif rgSCHTomUtlFillRiBitWidthInfo(ue); /* TODO:: syed Shouldn't this be done outside this if condition */ if (cqiCb->nCqiTrIdx == validIdx) { rgSCHTomUtlMovePcqiNxtOccasion(cell, ue, cqiCb); } } rgSCHTomUtlMovePriNxtOccasion(cell, ue, riCb); } else { riCb->riDist--; } if(riCb->nRiTrIdx == validIdx) {/* Need to skip this UE during PUCCH RI recpetion process in the current subframe */ riCb->riRecpPrcsd = TRUE; } } } else if(cqiCb->nCqiTrIdx == validIdx) { if(willUeRprtCqi == TRUE) { /*Fill CQI Params*/ pucchRecpInfo->t.pucchRecpReq.cqiInfo.n2PucchIdx = cqiCb->cqiCfg.cqiSetup.cqiPResIdx; ue->rawCqiBitW[ue->cqiRiWritIdx].recvTime = recpReqInfo->timingInfo; #ifdef LTE_ADV ue->rawCqiBitW[ue->cqiRiWritIdx].u.pucch.sCellIdx = cqiCb->servCellInfo->sCellIdx; #endif pucchRecpInfo->t.pucchRecpReq.cqiInfo.cqiPmiSz = rgSCHTomUtlFetchPcqiBitSz(ue, cell->numTxAntPorts, &ri); if(0 == pucchRecpInfo->t.pucchRecpReq.cqiInfo.cqiPmiSz) { RLOG_ARG1(L_ERROR,DBG_CELLID,cell->cellId,"RNTI:%d" " Unable to Fill CqiPmi size", ue->ueId); return RFAILED; } pucchRecpInfo->t.pucchRecpReq.uciInfo = TFU_PUCCH_SR_CQI; } rgSCHTomUtlMovePcqiNxtOccasion(cell, ue, cqiCb); } if(ue->srsCb.nSrsTrIdx == validIdx) { /* ccpu00140578:: Cnsider the SRS processing * only if not done in the same TTI * as part of PUSCH or HARQ reception process*/ if(ue->srsCb.srsRecpPrcsd == FALSE) { if(ue->srsCb.srsDist ==0 ) { if(ue->srsCb.srsCfg.srsSetup.sANSrs) { /*Fill SRS params*/ pucchRecpInfo->t.pucchRecpReq.srsInfo.srsBw = (TfuUlSrsBwInfo)ue->srsCb.srsCfg.srsSetup.srsBw; pucchRecpInfo->t.pucchRecpReq.srsInfo.nRrc = ue->srsCb.srsCfg.srsSetup.fDomPosi; pucchRecpInfo->t.pucchRecpReq.srsInfo.srsHopBw = (TfuUlSrsHoBwInfo)ue->srsCb.srsCfg.srsSetup.srsHopBw; pucchRecpInfo->t.pucchRecpReq.srsInfo.transComb = ue->srsCb.srsCfg.srsSetup.txComb; pucchRecpInfo->t.pucchRecpReq.srsInfo.srsCfgIdx = ue->srsCb.srsCfg.srsSetup.srsCfgIdx; pucchRecpInfo->t.pucchRecpReq.srsInfo.srsCyclicShft = (TfuUlSrsCycShiftInfo)ue->srsCb.srsCfg.srsSetup.cycShift; /* ccpu00116923 - ADD - New Reception Request types for CQI and * SRS with SR */ if(pucchRecpInfo->t.pucchRecpReq.uciInfo == TFU_PUCCH_SR_CQI) { pucchRecpInfo->t.pucchRecpReq.uciInfo = TFU_PUCCH_SR_CQI_SRS; } else { pucchRecpInfo->t.pucchRecpReq.uciInfo = TFU_PUCCH_SR_SRS; } } rgSCHTomUtlMoveSrsNxtOccasion(cell, ue); } else { ue->srsCb.srsDist--; } /* Skip the UE for SRS processing on PUCCH * in the same subframe as it already processed */ if(ue->srsCb.nSrsTrIdx == validIdx) { /* As the new idx is same is current idx * then PUCCH reception processing will consider * SRS also in the same subframe. To block this * below flag is used*/ ue->srsCb.srsRecpPrcsd = TRUE; } } } return ROK; } /* rgSCHTomUtlFillCqiSrsWithSr */ #endif #endif #ifdef LTE_TDD /** @brief This function handles filling of HARQ feedback repetition * recption request for each subframe * * @details * * Function: rgSCHTomUtlFillSfRepHqFdbk * * Processing steps: * * @param [out] TfuRecpReqInfo *recpReqInfo * @param [in] RgSchCellCb *cell * @param [out] RgSchErrInfo *err * @param [in] RgSchDlSf *dlSf * @param [in] U8 noFdbks * @param [in] CmMemListCp *memCp * @param [in] U8 elemIdx * @param [in] RgSchDlSf *nxtDlsf * @return S16 * -# ROK * -# RFAILED */ #ifdef TFU_UPGRADE #ifdef ANSI PRIVATE S16 rgSCHTomUtlFillSfRepHqFdbk ( TfuRecpReqInfo *recpReqInfo, RgSchCellCb *cellCb, RgSchErrInfo *err, RgSchDlSf *dlSf, U8 noFdbks, CmMemListCp *memCp, U8 elemIdx, RgSchDlSf *nxtDlsf, U16 validIdx ) #else PRIVATE S16 rgSCHTomUtlFillSfRepHqFdbk (recpReqInfo, cellCb, err, dlSf, noFdbks, memCp, elemIdx, nxtDlsf, validIdx) TfuRecpReqInfo *recpReqInfo; RgSchCellCb *cellCb; RgSchErrInfo *err; RgSchDlSf *dlSf; U8 noFdbks; CmMemListCp *memCp; U8 elemIdx; RgSchDlSf *nxtDlsf; U16 validIdx; #endif #else #ifdef ANSI PRIVATE S16 rgSCHTomUtlFillSfRepHqFdbk ( TfuRecpReqInfo *recpReqInfo, RgSchCellCb *cellCb, RgSchErrInfo *err, RgSchDlSf *dlSf, U8 noFdbks, CmMemListCp *memCp, U8 elemIdx, RgSchDlSf *nxtDlsf ) #else PRIVATE S16 rgSCHTomUtlFillSfRepHqFdbk (recpReqInfo, cellCb, err, dlSf, noFdbks, memCp, elemIdx, nxtDlsf) TfuRecpReqInfo *recpReqInfo; RgSchCellCb *cellCb; RgSchErrInfo *err; RgSchDlSf *dlSf; U8 noFdbks; CmMemListCp *memCp; U8 elemIdx; RgSchDlSf *nxtDlsf; #endif #endif { RgSchDlHqProcCb *hqCb; CmLList *node; S16 ret; RgSchUeCb *ueCb; TfuUeRecpReqInfo *pucchRecpInfo; #ifdef TFU_UPGRADE TfuUePucchHqRecpInfo *hqRecpReq; #endif RgSchDlHqTbCb *tbCb; RgSchDlHqProcCb *prvHqCb = NULLP; TRC2(rgSCHTomUtlFillSfRepHqFdbk) node = dlSf->ackNakRepQ.first; while (node) { tbCb = (RgSchDlHqTbCb *)(node->node); hqCb = tbCb->hqP; ueCb = hqCb->hqE->ue; if (--tbCb->fbkRecpRepCntr) { /* Add to next subfarme */ /* Add this hqCb to the next dlSf's ackNakRepQ */ cmLListAdd2Tail (&(nxtDlsf->ackNakRepQ), &(tbCb->anRepLnk[tbCb->fbkRecpRepCntr])); tbCb->anRepLnk[tbCb->fbkRecpRepCntr].node = (PTR)tbCb; tbCb->crntSubfrm[tbCb->fbkRecpRepCntr] = nxtDlsf; } #ifdef TFU_UPGRADE if (hqCb->tbCnt) { hqCb->tbCnt--; /* Go to the next node */ node = node->next; continue; } #endif if ((hqCb->hqE->ue != NULLP) && (hqCb->hqE->ue->measGapCb.isMeasuring != TRUE) && (hqCb != prvHqCb) ) { /* We need to add the recp request to be sent on the pucchANRep * value. */ ret = rgSCHUtlGetEventMem((Ptr *)&pucchRecpInfo, sizeof(TfuUeRecpReqInfo), &(recpReqInfo->memCp)); if (ret != ROK) { RLOG_ARG1(L_ERROR,DBG_CELLID,cellCb->cellId,"Unable to" "Allocate TfuUeRecpReqInfo for RNTI:%d ", ueCb->ueId); err->errCause = RGSCHERR_TOM_MEM_EXHAUST; return ret; } pucchRecpInfo->rnti = ueCb->ueId; #ifndef TFU_UPGRADE pucchRecpInfo->t.pucchRecpReq.type = TFU_UCI_HARQ; #else pucchRecpInfo->type = TFU_RECP_REQ_PUCCH; #endif /* FOR repetition Feedback shall come on n1PucchAnRep Configured per * UE. */ #ifndef TFU_UPGRADE pucchRecpInfo->t.pucchRecpReq.hqType = TFU_HQ_RECP_REQ_N1PUCCH; pucchRecpInfo->t.pucchRecpReq.t.n1Pucch = ueCb->ackNakRepCb.pucchRes; #else pucchRecpInfo->t.pucchRecpReq.uciInfo = TFU_PUCCH_HARQ; hqRecpReq = &(pucchRecpInfo->t.pucchRecpReq.hqInfo); /* ACK NACK rep works only in bundling mode . */ hqRecpReq->hqFdbkMode = (TfuAckNackMode)RGR_TDD_ACKNACK_MODE_BUNDL; if ((hqCb->hqPSfLnk.node != NULLP) && (hqCb->hqPSfLnk.node != NULLP)) { hqRecpReq->hqSz = 2; } else { hqRecpReq->hqSz = 1; } hqRecpReq->pucchResCnt = 1; hqRecpReq->hqRes[0] = ueCb->ackNakRepCb.pucchRes; #endif cmLListAdd2Tail(&recpReqInfo->ueRecpReqLst, &(pucchRecpInfo->lnk)); pucchRecpInfo->lnk.node = (PTR)pucchRecpInfo; } /* In a given dlSf, if there is 2 TBs context * stored for a given harq, then they are added * adjacent to each other in the subframe. To avoid * adding duplicate recpnInfo for each TB, store this * hqCb in prvHqCb. If nextHqCb is same as prvHqCb then * do not add reception req info.*/ prvHqCb = hqCb; #ifdef TFU_UPGRADE RGSCH_NULL_CHECK(cellCb->instIdx, hqCb->hqE->ue); rgSCHTomUtlMoveNxtOccasion(cellCb, hqCb->hqE->ue, validIdx); #endif /* Go to the next node */ node = node->next; } return ROK; } /** @brief This function handles filling of HARQ feedback recption request * for each subframe * * @details * * Function: rgSCHTomUtlFillSfHqFdbkInfo * * Processing steps: * * @param [out] TfuRecpReqInfo *recpReqInfo * @param [in] RgSchCellCb *cell * @param [out] RgSchErrInfo *err * @param [in] RgSchDlSf *dlSf * @param [in] U8 noFdbks * @param [in] CmMemListCp *memCp * @param [in] U8 elemIdx * @param [in] RgSchDlSf *nxtDlsf * @param [in] U16 validIdx; * @return S16 * -# ROK * -# RFAILED */ #ifdef TFU_UPGRADE #ifdef ANSI PRIVATE S16 rgSCHTomUtlFillSfHqFdbkInfo ( TfuRecpReqInfo *recpReqInfo, RgSchCellCb *cellCb, RgSchErrInfo *err, RgSchDlSf *dlSf, U8 noFdbks, CmMemListCp *memCp, U8 elemIdx, RgSchDlSf *nxtDlsf, U16 validIdx, RgSchDlHqProcCb *hqCb, RgSchUePucchRecpInfo *pucchInfo, Bool alloc, RgSchDlHqProcCb *prvHqCb ) #else PRIVATE S16 rgSCHTomUtlFillSfHqFdbkInfo (recpReqInfo, cellCb, err, dlSf, noFdbks, memCp, elemIdx, nxtDlsf, validIdx, hqCb, pucchInfo, alloc, prvHqCb) TfuRecpReqInfo *recpReqInfo; RgSchCellCb *cellCb; RgSchErrInfo *err; RgSchDlSf *dlSf; U8 noFdbks; CmMemListCp *memCp; U8 elemIdx; RgSchDlSf *nxtDlsf; U16 validIdx; RgSchDlHqProcCb *hqCb; RgSchUePucchRecpInfo *pucchInfo; Bool alloc; RgSchDlHqProcCb *prvHqCb; #endif #else #ifdef ANSI PRIVATE S16 rgSCHTomUtlFillSfHqFdbkInfo ( TfuRecpReqInfo *recpReqInfo, RgSchCellCb *cellCb, RgSchErrInfo *err, RgSchDlSf *dlSf, U8 noFdbks, CmMemListCp *memCp, U8 elemIdx, RgSchDlSf *nxtDlsf, RgSchDlHqProcCb *hqCb, RgSchUePucchRecpInfo *pucchInfo, Bool alloc, RgSchDlHqProcCb *prvHqCb ) #else PRIVATE S16 rgSCHTomUtlFillSfHqFdbkInfo (recpReqInfo, cellCb, err, dlSf, noFdbks, memCp, elemIdx, nxtDlsf, hqCb, pucchInfo, alloc, prvHqCb) TfuRecpReqInfo *recpReqInfo; RgSchCellCb *cellCb; RgSchErrInfo *err; RgSchDlSf *dlSf; U8 noFdbks; CmMemListCp *memCp; U8 elemIdx; RgSchDlSf *nxtDlsf; RgSchDlHqProcCb *hqCb; RgSchUePucchRecpInfo *pucchInfo; Bool alloc; RgSchDlHqProcCb *prvHqCb; #endif #endif { S16 ret; RgSchUeCb *ueCb = hqCb->hqE->ue; #ifndef TFU_UPGRADE CmLteTimingInfo futTime; RgSchTddANInfo *anInfo; #else #endif RgrTddAckNackMode ackNackMode; RgSchDlHqTbCb *tbCb; CmLteRnti rnti; U8 hqSz = 0; U32 idx = 0; TRC2(rgSCHTomUtlFillSfHqFdbkInfo) #ifndef TFU_UPGRADE RG_SCH_ADD_TO_CRNT_TIME(cellCb->crntTime, futTime, TFU_RECPREQ_DLDELTA); #endif for (idx = 0 ;idx < 2; idx++) { if (HQ_TB_WAITING == hqCb->tbInfo[idx].state) { tbCb = &hqCb->tbInfo[idx]; if (ueCb) { rnti = ueCb->ueId; ackNackMode = ueCb->dl.ackNackMode; #ifndef TFU_UPGRADE if(ackNackMode == RGR_TDD_ACKNACK_MODE_BUNDL) { anInfo = rgSCHUtlGetUeANFdbkInfo(ueCb, &futTime); /* Only the last scheduled TB for the UE is for HARQ * ACK/NACK reception in Bundling case */ if((anInfo == NULLP) || (anInfo->latestMIdx != dlSf->dlFdbkInfo.m)) { return ROK; } } else { /* Get the TFU reception request pointer, if present */ cmHashListFind(&cellCb->ueTfuPendLst, (U8*) &ueCb->ueId, sizeof(ueCb->ueId), 0, (PTR *) &pucchInfo); } #else /* For upgrade we shall use the existing logic of pending list. */ cmHashListFind(&cellCb->ueTfuPendLst, (U8*) &ueCb->ueId, sizeof(ueCb->ueId), 0, (PTR *) &pucchInfo); #endif } else if(hqCb->hqE->raCb != NULLP) { /* For RACH it is set to Bundling */ ackNackMode = RGR_TDD_ACKNACK_MODE_BUNDL; rnti = hqCb->hqE->raCb->tmpCrnti; } else { return ROK; } /* Do not proceed if PUSCH reception req is already filled*/ #ifdef TFU_UPGRADE if (hqCb->tbCnt) { hqCb->tbCnt--; /* Go to the next node */ continue; } #endif if(((ueCb == NULLP) || (ueCb->measGapCb.isMeasuring != TRUE)) &&(hqCb != prvHqCb) ) { TknU16 n1PucchTkn = {FALSE, 0}; RgSchPdcch *pdcch; U8 tbIndx; pdcch = tbCb->hqP->pdcch; #ifdef LTEMAC_SPS n1PucchTkn = hqCb->spsN1PucchRes; #endif for (tbIndx = 0; tbIndx < TFU_MAX_TB; tbIndx++) { if (hqCb->tbInfo[tbIndx].state == HQ_TB_WAITING && (RGSCH_TIMEINFO_SAME(hqCb->tbInfo[tbIndx].fdbkTime, recpReqInfo->timingInfo))) { hqSz++; hqCb->tbInfo[tbIndx].pucchFdbkIdx = hqCb->ulDai; } } ret = rgSCHTomUtlFillSfHqFdbkForOneUe(hqCb,recpReqInfo, cellCb, err, dlSf, noFdbks, memCp, elemIdx, nxtDlsf, rnti, ackNackMode, &pucchInfo, pdcch, n1PucchTkn, &alloc, hqSz); if (ret != ROK) { return ret; } /* TODO:: In case of F1BCS and CSI in same subframe * UE shall drop the CSI if there was at least one * PDSCH transmission in any of the DL subframe * mapping to this UL subframe * */ #ifdef TFU_UPGRADE rgSCHTomUtlFillCqiSrSrsWithHq(cellCb,recpReqInfo, hqCb->hqE->ue, pucchInfo->pucchRecpInfo, validIdx,FALSE); #ifdef LTE_ADV if((hqCb->hqE->ue) && (hqCb->hqE->ue->uciFrmtTyp == RG_SCH_UCI_FORMAT1B_CS)) { if(RG_SCH_IS_CELL_SEC(hqCb->hqE->ue,hqCb->hqE->cell)) { switch(pucchInfo->pucchRecpInfo->t.pucchRecpReq.uciInfo) { case TFU_PUCCH_HARQ_SR_CQI: pucchInfo->pucchRecpInfo->t.pucchRecpReq.uciInfo = TFU_PUCCH_HARQ_SR; RG_SCH_DECR_CQIRI_INDEX(ueCb->cqiRiWritIdx); break; case TFU_PUCCH_HARQ_CQI: pucchInfo->pucchRecpInfo->t.pucchRecpReq.uciInfo = TFU_PUCCH_HARQ; RG_SCH_DECR_CQIRI_INDEX(ueCb->cqiRiWritIdx); break; case TFU_PUCCH_HARQ_SR_CQI_SRS: pucchInfo->pucchRecpInfo->t.pucchRecpReq.uciInfo = TFU_PUCCH_HARQ_SR_SRS; RG_SCH_DECR_CQIRI_INDEX(ueCb->cqiRiWritIdx); break; case TFU_PUCCH_HARQ_SR_SRS: pucchInfo->pucchRecpInfo->t.pucchRecpReq.uciInfo = TFU_PUCCH_HARQ_SR; break; case TFU_PUCCH_HARQ_SRS: pucchInfo->pucchRecpInfo->t.pucchRecpReq.uciInfo = TFU_PUCCH_HARQ; break; default: break; } } } #endif #endif /* TODO antz - pushing the following code (under TFU_UPGRADE) * into the above function (...ForOneUe) did not work (caused * two additional TCs to fail). Don't know why. If this * is done later, make sure that the code branch * for relPdcch (later in this func) is also modified appropriately. */ /* Now add to the recp request or pending list */ //if((elemIdx != (noFdbks - 1))) { cmHashListInsert(&cellCb->ueTfuPendLst, (PTR) pucchInfo, (U8 *)&rnti ,(U16) sizeof(CmLteRnti)); alloc = FALSE; } } /* If measuring */ /* Go to the next node */ if ((tbCb->fbkRecpRepCntr) && (--tbCb->fbkRecpRepCntr)) { /* Add to next subfarme */ /* Add this hqCb to the next dlSf's ackNakRepQ */ cmLListAdd2Tail (&(nxtDlsf->ackNakRepQ), &(tbCb->anRepLnk[tbCb->fbkRecpRepCntr])); tbCb->anRepLnk[tbCb->fbkRecpRepCntr].node = (PTR)tbCb; tbCb->crntSubfrm[tbCb->fbkRecpRepCntr] = nxtDlsf; } /* In a given dlSf, if there is 2 TBs context * stored for a given harq, then they are added * adjacent to each other in the subframe. To avoid * adding duplicate recpnInfo for each TB, store this * hqCb in prvHqCb. If nextHqCb is same as prvHqCb then * do not add reception req info.*/ prvHqCb = hqCb; } } return ROK; } #ifdef LTE_ADV /** @brief This function calculates the pucch resource idx * that is to be filled in harq reception request * * @details * * Function: rgSCHTomUtlGethqRes * * Processing steps: * -Calculate the pucch resource idx * Harq Reception Request for Format 1B with * Channel Selection * * @param [in] U8 noFdbks * @param [in] RgSchDlSf *dlSf * @param [in] RgSchPdcch *pdcch * @param [in] RgSchCellCb *cellCb * @param [out]U16 *hqRes * @return void */ #ifdef ANSI PRIVATE Void rgSCHTomUtlGethqRes ( U8 noFdbks, RgSchDlSf *dlSf, RgSchPdcch *pdcch, RgSchCellCb *cellCb, U16 *hqRes ) #else PRIVATE Void rgSCHTomUtlGethqRes(noFdbks,dlSf,pdcch,cellCb,hqRes) U8 noFdbks; RgSchDlSf *dlSf; RgSchPdcch *pdcch; RgSchCellCb *cellCb; U16 *hqRes; #endif { U8 M; U8 P; U8 m; U8 nP; U8 nPlusOne; U8 nCce; M = noFdbks; m = dlSf->dlFdbkInfo.m; nCce = pdcch->nCce; P = rgSCHCmnGetPValFrmCCE(cellCb, nCce); nP = cellCb->rgSchTddNpValTbl[P]; nPlusOne = cellCb->rgSchTddNpValTbl[P + 1]; *hqRes = (M - m - 1)* nP + (m * nPlusOne) + pdcch->nCce + cellCb->pucchCfg.n1PucchAn; RETVOID; } /** @brief This function fills the harq reception request for * TDD in case of Fomat 1B with CS for M=1 * * @details * * Function: rgSCHTomUtlFillSfHqFdbkForFrmt1BCSForM1 * * Processing steps: * -Fill Harq Reception Request for Format 1B with * Channel Selection * * @param [in] RgSchDlHqProcCb *hqCb * @param [in] TfuUePucchRecpReq *hqRecpReq * @param [in] U8 noFdbks * @param [in] RgSchDlSf *dlSf * @param [in] RgSchPdcch *pdcch * @param [in] RgSchCellCb *cellCb * @return void */ #ifdef ANSI PRIVATE Void rgSCHTomUtlFillSfHqFdbkForFrmt1BCSForM1 ( RgSchDlHqProcCb *hqCb, TfuUePucchRecpReq *hqRecpReq, U8 noFdbks, RgSchDlSf *dlSf, RgSchPdcch *pdcch, RgSchCellCb *cellCb ) #else PRIVATE Void rgSCHTomUtlFillSfHqFdbkForFrmt1BCSForM1(hqCb, hqRecpReq, noFdbks,dlSf,pdcch,cellCb) RgSchDlHqProcCb *hqCb; TfuUePucchRecpReq *hqRecpReq; U8 noFdbks; RgSchDlSf *dlSf; RgSchPdcch *pdcch; RgSchCellCb *cellCb; #endif { RgSchUeCb *ue = NULLP; Bool isCellSec = FALSE; U16 hqRes; /*ccpu00147920: UeCb is NULL for SPS activation*/ if(pdcch && pdcch->ue) {/* SPS Release pdcch or dynamic data */ ue = pdcch->ue; }else {/* SPS occasion */ #ifdef ERRCLS_KW if(hqCb == NULLP) { /* This is not supposed to happen * Error case. hqCB has to be ter * when pdcch is present . Adding * if check bcs of kwork*/ RETVOID; } #endif ue = hqCb->hqE->ue; } if((hqCb != NULLP) && (RG_SCH_IS_CELL_SEC(ue,hqCb->hqE->cell))) { isCellSec = TRUE; } switch(ue->f1bCsAVal) { case RG_SCH_A_VAL_2: /* harq(0) is primary harq(1) is secondary) */ if(isCellSec) { hqRecpReq->hqInfo.hqRes[1] = ue->n1PucchF1bResCb. cw1N1Res[hqCb->tpc].n1PucchIdx; } else/* primary cell */ { #ifdef LTEMAC_SPS /* hqCb will be null in case of sps rel pdcch */ if ((hqCb) && hqCb->spsN1PucchRes.pres) {/* SPS occasion or dyn sched*/ hqRecpReq->hqInfo.hqRes[0] = hqCb->spsN1PucchRes.val; } else #endif /* LTEMAC_SPS */ {/* dyn data or sps release */ #ifdef ERRCLS_KW if(pdcch == NULLP) { /* This is not supposed to happen * Error case. hqCB has to be ter * when pdcch is present . Adding * if check bcs of kwork*/ RETVOID; } #endif rgSCHTomUtlGethqRes(noFdbks,dlSf,pdcch,cellCb,&hqRes); hqRecpReq->hqInfo.hqRes[0] = hqRes; } } break; case RG_SCH_A_VAL_3: { /* Serving cell in mimo mode should be * in 0 and 1 and the serving cell in siso * mode should be in 2 indices */ if(isCellSec) { U8 servCellIdx = rgSchUtlGetServCellIdx(hqCb->hqE->cell->instIdx, hqCb->hqE->cell->cellId, hqCb->hqE->ue); if(rgSCHUtlGetMaxTbSupp(ue->cellInfo[servCellIdx]->txMode.txModeEnum) > 1) {/* Sec cell is in mimo mode, use 0 and 1 */ hqRecpReq->hqInfo.hqRes[0] = ue->n1PucchF1bResCb.cw1N1Res[hqCb->tpc].n1PucchIdx; hqRecpReq->hqInfo.hqRes[1] = ue->n1PucchF1bResCb.cw2N1Res[hqCb->tpc].n1PucchIdx; } else {/* Sec cell is in siso mode, use 2 */ hqRecpReq->hqInfo.hqRes[2] = ue->n1PucchF1bResCb.cw1N1Res[hqCb->tpc].n1PucchIdx; } } else {/* primary cell hq */ if(rgSCHUtlGetMaxTbSupp(ue->mimoInfo.txMode) > 1) {/* prim cell is in mimo mode, use 0 and 1 */ #ifdef LTEMAC_SPS if (hqCb && hqCb->spsN1PucchRes.pres) {/* Not sps release */ hqRecpReq->hqInfo.hqRes[0] = hqCb->spsN1PucchRes.val; } else #endif /* LTEMAC_SPS */ {/* sps rel or dyn */ #ifdef ERRCLS_KW if(pdcch == NULLP) { /* This is not supposed to happen * Error case. hqCB has to be ter * when pdcch is present . Adding * if check bcs of kwork*/ RETVOID; } #endif rgSCHTomUtlGethqRes(noFdbks,dlSf,pdcch,cellCb,&hqRes); hqRecpReq->hqInfo.hqRes[0] = hqRes; hqRecpReq->hqInfo.hqRes[1] = hqRes + 1; } } else {/* prim cell is in siso mode use 2 */ #ifdef LTEMAC_SPS /* Consider sps occasions */ if (hqCb && hqCb->spsN1PucchRes.pres) {/* Not sps release */ hqRecpReq->hqInfo.hqRes[2] = hqCb->spsN1PucchRes.val; } else #endif /* LTEMAC_SPS */ { #ifdef ERRCLS_KW if(pdcch == NULLP) { /* This is not supposed to happen * Error case. hqCB has to be ter * when pdcch is present . Adding * if check bcs of kwork*/ RETVOID; } #endif rgSCHTomUtlGethqRes(noFdbks,dlSf,pdcch,cellCb,&hqRes); hqRecpReq->hqInfo.hqRes[2] = hqRes; } } } } break; case RG_SCH_A_VAL_4: {/* Both the serv cells are in mimo mode */ if(isCellSec) {/* 2 and 3 for sec cell */ hqRecpReq->hqInfo.hqRes[2] = ue->n1PucchF1bResCb.cw1N1Res[hqCb->tpc].n1PucchIdx; hqRecpReq->hqInfo.hqRes[3] = ue->n1PucchF1bResCb.cw2N1Res[hqCb->tpc].n1PucchIdx; } else/* primary cell */ {/* 0 and 1 are for primary cell */ #ifdef LTEMAC_SPS if (hqCb && hqCb->spsN1PucchRes.pres) {/* Not sps release */ hqRecpReq->hqInfo.hqRes[0] = hqCb->spsN1PucchRes.val; } else #endif /* LTEMAC_SPS */ { #ifdef ERRCLS_KW if(pdcch == NULLP) { /* This is not supposed to happen * Error case. hqCB has to be ter * when pdcch is present . Adding * if check bcs of kwork*/ RETVOID; } #endif rgSCHTomUtlGethqRes(noFdbks,dlSf,pdcch,cellCb,&hqRes); hqRecpReq->hqInfo.hqRes[0] = hqRes; hqRecpReq->hqInfo.hqRes[1] = hqRes + 1; } } } break; default: break; } RETVOID; } /** @brief This function fills the harq reception request for * TDD in case of Fomat 1B with CS for M>=2 * * @details * * Function: rgSCHTomUtlFillSfHqFdbkForFrmt1BCSForM234 * * Processing steps: * -Fill Harq Reception Request for Format 1B with * Channel Selection * * @param [in] RgSchDlHqProcCb *hqCb * @param [in] TfuUePucchRecpReq *hqRecpReq * @param [in] U8 noFdbks * @param [in] RgSchDlSf *dlSf * @param [in] RgSchPdcch *pdcch * @param [in] RgSchCellCb *cellCb * @param [in] U8 elemIdx * @return void */ #ifdef ANSI PRIVATE Void rgSCHTomUtlFillSfHqFdbkForFrmt1BCSForM234 ( RgSchDlHqProcCb *hqCb, TfuUePucchRecpReq *hqRecpReq, U8 noFdbks, RgSchDlSf *dlSf, RgSchPdcch *pdcch, RgSchCellCb *cellCb, U8 elemIdx ) #else PRIVATE Void rgSCHTomUtlFillSfHqFdbkForFrmt1BCSForM234( hqCb,hqRecpReq,noFdbks,dlSf,pdcch,cellCb,elemIdx) RgSchDlHqProcCb *hqCb; TfuUePucchRecpReq *hqRecpReq; U8 noFdbks; RgSchDlSf *dlSf; RgSchPdcch *pdcch; RgSchCellCb *cellCb; U8 elemIdx; #endif { RgSchUeCb *ue; Bool isCellSec = FALSE; U16 hqRes = 0; U8 servCellIdx; if(pdcch) {/* SPS Release pdcch or dynamic data */ ue = pdcch->ue; }else {/* SPS occasion */ #ifdef ERRCLS_KW if(hqCb == NULLP) { /* This is not supposed to happen * Error case. hqCB has to be ter * when pdcch is present . Adding * if check bcs of kwork*/ RETVOID; } #endif ue = hqCb->hqE->ue; } if((hqCb != NULLP) && (ue != NULLP) && (RG_SCH_IS_CELL_SEC(ue,hqCb->hqE->cell))) { isCellSec = TRUE; } if(isCellSec) {/* Sec Cell indices are 2 and 3*/ servCellIdx = rgSchUtlGetServCellIdx(hqCb->hqE->cell->instIdx, hqCb->hqE->cell->cellId, hqCb->hqE->ue); hqRecpReq->hqInfo.hqRes[2] = ue->n1PucchF1bResCb.cw1N1Res[hqCb->tpc].n1PucchIdx; if(rgSCHUtlGetMaxTbSupp(ue->cellInfo[servCellIdx]->txMode.txModeEnum) > 1) { hqRecpReq->hqInfo.hqRes[3] = ue->n1PucchF1bResCb.cw2N1Res[hqCb->tpc].n1PucchIdx; } } else {/* Primary cell indices are 0 and 1 */ /* SPS occasions * M > 2 if SPS occasion is present in any of the * DL subframe in the bundle, the n1Pucch(0) is * the SPS resource and n1Pucch(1) is the resource * derived from pdcch with DAI = 1 * If No SPS Occasion * Then n1Pucch(0) is from pdcch with DAI =1 * and n1Pucch(1) is from pdcch with DAI = 2 * */ if(hqCb != NULLP) {/* this is not sps release pdcch */ if(hqCb->spsN1PucchRes.pres == TRUE) {/* SPS occasion*/ hqRes = hqCb->spsN1PucchRes.val; } } if(pdcch) {/*Dynamic scheduling or SPS Release Derive from pdcch */ if(pdcch->dlDai < 3) {/* No need to calcualte from DAI > 2 */ rgSCHTomUtlGethqRes(noFdbks,dlSf,pdcch,cellCb,&hqRes); } } if(2 == noFdbks) {/* M == 2 case */ hqRecpReq->hqInfo.hqRes[elemIdx] = hqRes; } else {/* Pdcch with DAI = 1 and 2 needs to be used for resource calculation*/ if(hqCb && hqCb->spsN1PucchRes.pres == TRUE) {/* dyn or sps occasion */ /* Shift the hqRes[0] if it was filled * if there was a pdcch with DAI 1 before to this * subframe*/ if(hqCb->ulDai > 1) {/* SPS occasion happened in the middle of the bundle */ /* shifting the non SPS resource to n1Pucch(1) */ hqRecpReq->hqInfo.hqRes[1] = hqRecpReq->hqInfo.hqRes[0]; } hqRecpReq->hqInfo.hqRes[0] = hqRes; } #ifdef ERRCLS_KW else if(pdcch && pdcch->dlDai < 3) #else else if(pdcch->dlDai < 3) #endif {/* sps rel or dyn sched */ /* hqCb wil not be present for sps release pdcch */ if(hqCb && (pdcch->dlDai != hqCb->ulDai)) {/* there was a SPS occasion before to this */ if(pdcch->dlDai == 1) { hqRecpReq->hqInfo.hqRes[1] = hqRes; }/* ignore the DAI 2 in this case */ }else {/* There was no SPS occasion before to this */ #ifdef ERRCLS_KW if(pdcch->dlDai) #endif {/* Added check to ignore kwork warning */ hqRecpReq->hqInfo.hqRes[(pdcch->dlDai)-1] = hqRes; } } } } } RETVOID; } /** @brief This function fills the harq reception request for * TDD in case of Fomat 1B with CS * * @details * * Function: rgSCHTomUtlFillSfHqFdbkForFrmt1BCS * * Processing steps: * -Fill Harq Reception Request for Format 1B with * Channel Selection * * @param [in] RgSchDlSf *ulSf * @param [in] RgSchCellCb *cell * @param [out]TfuUePucchRecpReq *hqRecpReq * @return S16 */ #ifdef ANSI PRIVATE S16 rgSCHTomUtlFillSfHqFdbkForFrmt1BCS ( RgSchDlHqProcCb *hqCb, TfuUePucchRecpReq *hqRecpReq, U8 noFdbks, RgSchDlSf *dlSf, RgSchPdcch *pdcch, U8 elemIdx, RgSchCellCb *cellCb ) #else PRIVATE S16 rgSCHTomUtlFillSfHqFdbkForFrmt1BCS(hqCb,hqRecpReq,noFdbks,dlSf,pdcch, n1PucchTkn,elemIdx,cellCb) RgSchDlHqProcCb *hqCb; TfuUePucchRecpReq *hqRecpReq; U8 noFdbks; RgSchDlSf *dlSf; RgSchPdcch *pdcch; U8 elemIdx; RgSchCellCb *cellCb; #endif { /* Update teh fdbk mode if something different is present * in L1 API file for F1BS *//* 1 --> F1BCS */ hqRecpReq->hqInfo.hqFdbkMode = TFU_ACK_NACK_CHANNEL_SELECTION; switch(noFdbks) {/* M Value */ case RG_SCH_M_VAL_1: { rgSCHTomUtlFillSfHqFdbkForFrmt1BCSForM1(hqCb,hqRecpReq, noFdbks,dlSf,pdcch,cellCb); break; } case RG_SCH_M_VAL_2: case RG_SCH_M_VAL_3: case RG_SCH_M_VAL_4: { /* Spatial bundling will be applied */ rgSCHTomUtlFillSfHqFdbkForFrmt1BCSForM234(hqCb,hqRecpReq, noFdbks,dlSf,pdcch,cellCb,elemIdx); break; } default: break; } return ROK; } #endif /*********************************************************** * * Func : rgSCHTomUtlFillSfHqFdbkForOneUe * * Desc : Fill HARQ feedback info for one UE/entry * * Ret : ROK/RFAILED * * Notes: * * File : * **********************************************************/ #ifdef ANSI PRIVATE S16 rgSCHTomUtlFillSfHqFdbkForOneUe ( RgSchDlHqProcCb *hqCb, TfuRecpReqInfo *recpReqInfo, RgSchCellCb *cellCb, RgSchErrInfo *err, RgSchDlSf *dlSf, U8 noFdbks, CmMemListCp *memCp, U8 elemIdx, RgSchDlSf *nxtDlsf, CmLteRnti rnti, RgrTddAckNackMode ackNackMode, RgSchUePucchRecpInfo **pucchInfoRef, RgSchPdcch *pdcch, TknU16 n1PucchTkn, Bool *allocRef, U8 hqSz ) #else PRIVATE S16 rgSCHTomUtlFillSfHqFdbkForOneUe(hqCb,recpReqInfo, cellCb, err, dlSf, noFdbks, memCp, elemIdx, nxtDlsf, rnti, ackNackMode, pucchInfoRef, pdcch, n1PucchTkn, allocRef, hqSz) RgSchDlHqProcCb *hqCb; TfuRecpReqInfo *recpReqInfo; RgSchCellCb *cellCb; RgSchErrInfo *err; RgSchDlSf *dlSf; U8 noFdbks; CmMemListCp *memCp; U8 elemIdx; RgSchDlSf *nxtDlsf; CmLteRnti rnti; RgrTddAckNackMode ackNackMode; RgSchUePucchRecpInfo **pucchInfoRef; RgSchPdcch *pdcch; TknU16 n1PucchTkn; Bool *allocRef; U8 hqSz; #endif { RgSchUePucchRecpInfo *pucchInfo = *pucchInfoRef; Bool alloc = FALSE; S16 ret; TfuUePucchRecpReq *hqRecpReq; #ifdef TFU_UPGRADE U8 M; U8 P; U8 m; U8 nP; U8 nPlusOne; U16 pucchRes; U8 resIdx; U8 nCce; U8 prevHqSize; #else U8 multCnt; #endif #ifdef LTEMAC_SPS Bool isFirstFdbk = FALSE; #endif if(pucchInfo == NULLP) { if ((ret = rgSCHUtlGetEventMem((Ptr *)&pucchInfo, sizeof(RgSchUePucchRecpInfo), memCp)) != ROK) { RLOG_ARG1(L_ERROR,DBG_CELLID,cellCb->cellId,"Unable to " "Allocate TfuUeRecpReqInfo for cell RNTI:%d",rnti); err->errCause = RGSCHERR_TOM_MEM_EXHAUST; return ret; } alloc = TRUE; #ifdef TFU_ALLOC_EVENT_NO_INIT pucchInfo->hashLstEnt.hashVal = 0; pucchInfo->hashLstEnt.keyLen = 0; pucchInfo->hashLstEnt.key = 0; pucchInfo->hashLstEnt.list.prev = pucchInfo->hashLstEnt.list.next = 0; #endif if ((ret = rgSCHUtlGetEventMem((Ptr *)&(pucchInfo->pucchRecpInfo), sizeof(TfuUeRecpReqInfo), &(recpReqInfo->memCp))) != ROK) { RLOG_ARG1(L_ERROR,DBG_CELLID,cellCb->cellId,"Unable to " "Allocate TfuUeRecpReqInfo for cell RNTI:%d",rnti); err->errCause = RGSCHERR_TOM_MEM_EXHAUST; return ret; } cmMemset((U8 *)pucchInfo->pucchRecpInfo->t.pucchRecpReq.hqInfo.hqRes,0xff,sizeof(U16)*TFU_MAX_HQ_RES); #ifdef TFU_ALLOC_EVENT_NO_INIT cmMemset((U8 *)&pucchInfo->pucchRecpInfo->t.pucchRecpReq, 0, sizeof(TfuUePucchRecpReq)); #endif pucchInfo->pucchRecpInfo->type = TFU_RECP_REQ_PUCCH; pucchInfo->pucchRecpInfo->rnti = rnti; #ifdef TFU_UPGRADE pucchInfo->pucchRecpInfo->t.pucchRecpReq.uciInfo=TFU_PUCCH_HARQ; #endif #ifdef LTEMAC_SPS isFirstFdbk = TRUE; #endif } /* Fill m, M, P */ /* Calculation of resources same for both bundling and muxing for M = 1 * */ #ifdef LTE_ADV RgSchUeCb *ue = rgSCHDbmGetUeCb (cellCb, rnti); if((ue) && (1 == ue->numSCells)) { if(ue->uciFrmtTyp == RG_SCH_UCI_FORMAT1B_CS) { hqRecpReq = &(pucchInfo->pucchRecpInfo->t.pucchRecpReq); rgSCHTomUtlFillSfHqFdbkForFrmt1BCS(hqCb,hqRecpReq, noFdbks,dlSf,pdcch,elemIdx,cellCb); if(noFdbks == 1) {/* M = 1 case . size is same as A Value*/ hqRecpReq->hqInfo.hqSz = ue->f1bCsAVal; hqRecpReq->hqInfo.pucchResCnt = hqRecpReq->hqInfo.hqSz; }else {/* M > 1 case */ hqRecpReq->hqInfo.hqSz = (noFdbks * 2); /* M for 2 cells */ hqRecpReq->hqInfo.pucchResCnt = 4; } hqRecpReq->hqInfo.a = ue->f1bCsAVal; /* handling for SPS occasions*/ if(elemIdx == 0) { /* set the datPresinFirstSUbframe to TRUE if this * is for pcell txion*/ #ifdef ERRCLS_KW RgSchTddANInfo *anInfo = NULLP; #endif /* if this txion is on pcell * sps occaion, dyn sched or sps release pdcch * set the sched present in first * dl subframe of the bundle to TRUE. This * is required for mapping the feedbak when SPS occasion * is present in any of the DL subframe in the bundle in * case of M > 2*/ /* SPS will happen only on pcell */ if((hqCb == NULLP) || (!RG_SCH_IS_CELL_SEC(ue,hqCb->hqE->cell))) { #ifdef ERRCLS_KW anInfo = rgSCHUtlGetUeANFdbkInfo(ue, &recpReqInfo->timingInfo,RGSCH_PCELL_INDEX); if(anInfo == NULL) {/* ANInfo must be there. adding block because of kworks*/ RGSCHDBGERRNEW(cellCb->instIdx,(rgSchPBuf(cellCb->instIdx), "ANInfo should not be NULL for cellId=%d \n", cellCb->cellId)); return RFAILED; } #endif } } }else {/* This needs to be revisited while adding support for PUCCH format 3 */ RGSCHDBGERRNEW(cellCb->instIdx,(rgSchPBuf(cellCb->instIdx),"Invalid Pucch format configured..")); return RFAILED; } } else #endif { if((ackNackMode == RGR_TDD_ACKNACK_MODE_BUNDL) || ((noFdbks == 1) && (ackNackMode == RGR_TDD_ACKNACK_MODE_MULT))) { hqRecpReq = &(pucchInfo->pucchRecpInfo->t.pucchRecpReq); #ifdef TFU_UPGRADE prevHqSize = hqRecpReq->hqInfo.hqSz; #endif #ifndef TFU_UPGRADE /* Only one index for bundling case */ hqRecpReq->M = noFdbks; hqRecpReq->hqType = TFU_HQ_RECP_REQ_NORMAL; hqRecpReq->multCnt = 1; hqRecpReq->t.nCce[0] = pdcch->nCce; hqRecpReq->m[0] = dlSf->dlFdbkInfo.m; hqRecpReq->p[0] = rgSCHCmnGetPValFrmCCE(cellCb, pdcch->nCce); hqRecpReq->type = TFU_UCI_HARQ; #else /* TFU_UPGRADE */ #ifdef LTEMAC_SPS if ((TRUE == isFirstFdbk) && (TRUE == n1PucchTkn.pres)) { hqRecpReq->hqInfo.hqFdbkMode = (TfuAckNackMode)ackNackMode; hqRecpReq->hqInfo.pucchResCnt=1; hqRecpReq->hqInfo.hqRes[0] = n1PucchTkn.val; hqRecpReq->hqInfo.hqSz = hqSz; } /* ccpu00139413 */ else if (FALSE == n1PucchTkn.pres) #endif { hqRecpReq->hqInfo.hqFdbkMode = (TfuAckNackMode)ackNackMode; M = noFdbks; P = rgSCHCmnGetPValFrmCCE(cellCb, pdcch->nCce); nP = cellCb->rgSchTddNpValTbl[P]; nPlusOne = cellCb->rgSchTddNpValTbl[P + 1]; m = dlSf->dlFdbkInfo.m; /* In case of no UE */ pucchRes = (M - m - 1)* nP + (m * nPlusOne) + pdcch->nCce + cellCb->pucchCfg.n1PucchAn; /*ccpu00130164:MOD-Changed to maitain value of hqRecpReq->hqInfo.pucchResCnt=1 in case of bundling*/ /*ccpu00132284 -MOD- hqRes need to be updated after pucchReCnt set to 1 * and resource should be update at index-0*/ hqRecpReq->hqInfo.pucchResCnt=1; hqRecpReq->hqInfo.hqRes[hqRecpReq->hqInfo.pucchResCnt-1] = pucchRes; if((ackNackMode == RGR_TDD_ACKNACK_MODE_BUNDL) && (hqSz > prevHqSize)) hqRecpReq->hqInfo.hqSz = hqSz; else if (ackNackMode == RGR_TDD_ACKNACK_MODE_MULT) hqRecpReq->hqInfo.hqSz = hqSz; else hqRecpReq->hqInfo.hqSz = prevHqSize; } #endif /* TFU_UPGRADE */ #ifndef TFU_UPGRADE cmLListAdd2Tail(&recpReqInfo->ueRecpReqLst, &(pucchInfo->pucchRecpInfo->lnk)); pucchInfo->pucchRecpInfo->lnk.node = (PTR)pucchInfo->pucchRecpInfo; #endif } else /* Multiplexing */ { #ifndef TFU_UPGRADE pucchInfo->pucchRecpInfo->t.pucchRecpReq.M = noFdbks; #ifdef LTEMAC_SPS if (n1PucchTkn.pres == TRUE) { pucchInfo->pucchRecpInfo->t.pucchRecpReq.hqType = TFU_HQ_RECP_REQ_N1PUCCH; pucchInfo->pucchRecpInfo->t.pucchRecpReq.t.n1Pucch = n1PucchTkn.val; } else #endif { pucchInfo->pucchRecpInfo->t.pucchRecpReq.hqType = TFU_HQ_RECP_REQ_NORMAL; multCnt = pucchInfo->pucchRecpInfo->t.pucchRecpReq.multCnt; pucchInfo->pucchRecpInfo->t.pucchRecpReq.t.nCce[multCnt] = pdcch->nCce; pucchInfo->pucchRecpInfo->t.pucchRecpReq.m[multCnt] = dlSf->dlFdbkInfo.m; pucchInfo->pucchRecpInfo->t.pucchRecpReq.p[multCnt] = rgSCHCmnGetPValFrmCCE(cellCb, pdcch->nCce); pucchInfo->pucchRecpInfo->t.pucchRecpReq.multCnt++; } #else /* TFU_UPGRADE */ hqRecpReq = &(pucchInfo->pucchRecpInfo->t.pucchRecpReq); hqRecpReq->hqInfo.hqFdbkMode = (TfuAckNackMode)RGR_TDD_ACKNACK_MODE_MULT; hqRecpReq->hqInfo.hqSz = noFdbks; resIdx = hqRecpReq->hqInfo.pucchResCnt; hqRecpReq->hqInfo.pucchResCnt++; #ifdef LTEMAC_SPS if (n1PucchTkn.pres == TRUE) { hqRecpReq->hqInfo.hqRes[resIdx] = n1PucchTkn.val; } else #endif { M = noFdbks; m = dlSf->dlFdbkInfo.m; nCce = pdcch->nCce; P = rgSCHCmnGetPValFrmCCE(cellCb, nCce); nP = cellCb->rgSchTddNpValTbl[P]; nPlusOne = cellCb->rgSchTddNpValTbl[P + 1]; hqRecpReq->hqInfo.hqRes[resIdx] = (M - m - 1)* nP + (m * nPlusOne) + pdcch->nCce + cellCb->pucchCfg.n1PucchAn; } #endif /* TFU_UPGRADE */ /* If all the DL subframes are scanned, then * send TFU request*/ #ifndef TFU_UPGRADE if((elemIdx != noFdbks) && alloc) { cmHashListInsert(&cellCb->ueTfuPendLst, (PTR) pucchInfo, (U8 *)&rnti, (U16) sizeof(rnti)); alloc = FALSE; } else { pucchInfo->pucchRecpInfo->t.pucchRecpReq.type = TFU_UCI_HARQ; cmLListAdd2Tail(&recpReqInfo->ueRecpReqLst, &(pucchInfo->pucchRecpInfo->lnk)); pucchInfo->pucchRecpInfo->lnk.node = (PTR)pucchInfo->pucchRecpInfo; /* Delete the entry after addition to the list */ cmHashListDelete(&cellCb->ueTfuPendLst, (PTR) pucchInfo); } #endif } } *pucchInfoRef = pucchInfo; *allocRef = alloc; return ROK; } #endif #ifdef RG_ULSCHED_AT_CRC /** @brief This function does all the processing related to a single downlink * subframe. * * @details * * Function: rgSCHTomUtlProcDlSfAtCrc * * Processing steps: * - collate control data for all UEs and send to PHY * - collate data buffers for all UEs and send to PHY * * @param [in] RgSchDlSf *ulSf * @param [in] RgSchCellCb *cell * @param [in] TfuCntrlReqInfo *cntrlInfo * @param [out] RgSchErrInfo *err * @return S16 */ #ifdef ANSI PRIVATE S16 rgSCHTomUtlProcDlSfAtCrc ( RgSchDlSf *ulSf, CmLteTimingInfo crntUlFrm, RgSchCellCb *cell, TfuCntrlReqInfo *cntrlInfo, RgSchErrInfo *err ) #else PRIVATE S16 rgSCHTomUtlProcDlSfAtCrc (ulSf, crntUlFrm, cell, cntrlInfo, err) RgSchDlSf *ulSf; CmLteTimingInfo crntUlFrm; RgSchCellCb *cell; TfuCntrlReqInfo *cntrlInfo; RgSchErrInfo *err; #endif { Inst inst = cell->instIdx; S16 ret; TRC2(rgSCHTomUtlProcDlSfAtCrc); cntrlInfo->numDlActvUes = 0; cmLListInit(&cntrlInfo->phichLst); cmLListInit(&cntrlInfo->dlPdcchLst); cmLListInit(&cntrlInfo->ulPdcchLst); #ifdef TFU_ALLOC_EVENT_NO_INIT cntrlInfo->dlTiming.sfn = cntrlInfo->dlTiming.subframe = 0; cntrlInfo->cfi = 0; #endif cntrlInfo->ulTiming = crntUlFrm; RG_SCH_ADD_TO_CRNT_TIME(cell->crntTime, cntrlInfo->ulTiming, TFU_ULCNTRL_DLDELTA); cntrlInfo->cellId = cell->cellId; /* Fill PHICH info */ if ((ret = rgSCHTomUtlFillPhich (cell, cntrlInfo, ulSf, err)) != ROK) { RLOG_ARG0(L_ERROR,DBG_CELLID,cell->cellId,"Unable to send PHICH info for " "cell"); RGSCH_FREE_MEM(cntrlInfo); return ret; } /* Fill UL Pdcch */ if ((ret = rgSCHTomUtlFillUlPdcch (cell, cntrlInfo, ulSf, err)) != ROK) { RLOG_ARG0(L_ERROR,DBG_CELLID,cell->cellId,"Unable to send PDCCH info for " "cell"); RGSCH_FREE_MEM(cntrlInfo); return ret; } #ifdef EMTC_ENABLE if(0 == cntrlInfo->ulMpdcchLst.count) { gUlMpdcchBlank++; } #endif #ifdef EMTC_ENABLE if ((cntrlInfo->ulPdcchLst.count || cntrlInfo->phichLst.count) || RG_SCH_EMTC_GET_PDCCHLST_CNT(cntrlInfo)) #else if (cntrlInfo->ulPdcchLst.count || cntrlInfo->phichLst.count) #endif { if (rgSCHUtlTfuCntrlReq(inst, cell->tfuSap->sapCfg.suId, cntrlInfo) != ROK) { RLOG_ARG0(L_ERROR,DBG_CELLID,cell->cellId,"Unable to send Cntrl info for" " cell"); } } else { RGSCH_FREE_MEM(cntrlInfo); } return ROK; } /* end of */ #endif /* #ifdef RG_ULSCHED_AT_CRC*/ #ifdef RGR_RRM_TICK /** @brief This function sends the SFN Tick to L3 * subframe. * * @details * * Function: rgSCHTomUtlSendSfnTick * * @param [in] RgSchCellCb *cell */ #ifdef ANSI PRIVATE Void rgSCHTomUtlSendSfnTick ( RgSchCellCb *cell ) #else PRIVATE Void rgSCHTomUtlSendSfnTick (cell) RgSchCellCb *cell; #endif { RgrTtiIndInfo *rgrTtiInd; TRC2(rgSCHTomUtlSendSfnTick); /* TTI to be sent to RRM only once per system frame */ /* Added support for period = 0 to disable tick to RRM */ if ((cell->rrmTtiIndPrd != 0) && ((cell->crntTime.sfn % cell->rrmTtiIndPrd) == 0) && (cell->crntTime.slot == 0)) { /* Allocate a TTI indication structure and send to RRM over RGR interface */ if (rgSCHUtlAllocSBuf (cell->instIdx, (Data**)&rgrTtiInd, sizeof(RgrTtiIndInfo)) != ROK) { RGSCHDBGERRNEW(cell->instIdx,(rgSchPBuf(cell->instIdx), "Mem alloc failed for RGR TTI ind, cellId (%d))\n", cell->cellId)); RETVOID; } rgrTtiInd->cellId = cell->cellId; //rgrTtiInd->hSfn = cell->crntTime.hSfn; rgrTtiInd->sfn = cell->crntTime.sfn; if (rgSCHUtlRgrTtiInd (cell, rgrTtiInd) != ROK) { RGSCHDBGERRNEW(cell->instIdx,(rgSchPBuf(cell->instIdx), "Failed to send RGR TTI ind, cellId (%d))\n", cell->cellId)); rgSCHUtlFreeSBuf(cell->instIdx, (Data**)&rgrTtiInd, sizeof(RgrTtiIndInfo)); RETVOID; } } RETVOID; } #endif #ifdef RG_5GTF /* @brief Mark Dyn TDD CrntSfIdx. * * @details * * Function: rgSCHDynTDDMrkCrntSfIdx * Purpose: update the dyn tdd sunframe index * @param[in] Inst schInst * @RETVALUE None */ #ifdef UNUSED_FUNC #ifdef ANSI PRIVATE Void rgSCHDynTDDMrkCrntSfIdx ( Inst schInst ) #else /* ANSI */ PRIVATE Void rgSCHDynTDDMrkCrntSfIdx(schInst) Inst schInst; #endif /* ANSI */ { RgSchDynTddCb *rgSchDynTddInfo = &(rgSchCb[schInst].rgSchDynTdd); TRC2(rgSCHDynTDDMrkCrntSfIdx) RG_SCH_DYN_TDD_MARKTYPE(rgSchDynTddInfo, rgSchDynTddInfo->crntDTddSfIdx, RG_SCH_DYNTDD_NOTDEF); rgSchDynTddInfo->crntDTddSfIdx = (rgSchDynTddInfo->crntDTddSfIdx + 1) % RG_SCH_DYNTDD_MAX_SFINFO; //printf("Initializing Index %d \n", rgSchDynTddInfo->crntDTddSfIdx); RETVOID; } #endif #endif /** @brief This function fills the TTI timinig info for each cell * * @details * * Function: rgSchTomFillCellTtiInfo * * @param [in] TfuTtiIndInfo *ttiInd * @param [in] Inst schInst * @param [out] U8 *nCell * @param [out] RgSchCellCb *cell[] * * Returns: Void * */ #ifdef UNUSED_FUNC #ifdef ANSI PRIVATE Void rgSchTomFillCellTtiInfo ( TfuTtiIndInfo *ttiInd, Inst schInst, U8 *nCell, RgSchCellCb *cells[] ) #else PRIVATE Void rgSchTomFillCellTtiInfo (ttiInd, schInst, nCell, cells) TfuTtiIndInfo *ttiInd; Inst schInst; U8 *nCell; RgSchCellCb *cells[]; #endif { U8 i = 0; U8 strtCellId; TfuTtiCellInfo *cellInfo; RgSchCellCb *cell; U32 Idx1; CmLteTimingInfo frm; TRC2 (rgSchTomFillCellTtiInfo); if (CM_LTE_MAX_CELLS < ttiInd->numCells) { RETVOID; } #ifdef RG_5GTF rgSCHDynTDDMrkCrntSfIdx(schInst); #endif for (i = 0; i < ttiInd->numCells; i++) { cellInfo = &ttiInd->cells[i]; strtCellId = rgSchCb[schInst].genCfg.startCellId; Idx1 = (U8)((cellInfo->cellId - strtCellId)&(CM_LTE_MAX_CELLS-1)); cell = rgSchCb[schInst].cells[Idx1]; /* Validate the cell */ if (cell == NULLP) { /* Use SCH inst 0 print buff */ RGSCHDBGERRNEW(schInst,(rgSchPBuf(schInst), "RgLiTfuTtiInd()No cell exists for cellId %d\n", cellInfo->cellId)); continue; } *nCell = *nCell + 1; cells[i] = (RgSchCellCb *)cell; /* 4UE_TTI_DELTA */ if(cell->schTickDelta != cellInfo->schTickDelta) { printf("\nMukesh: Delta changed for cellId=%d: curr delta=%d new delta=%d\n" "dlblankSf=%d ulblankSf=%d dummyTti=%d \n", cell->cellId, cell->schTickDelta, cellInfo->schTickDelta, cellInfo->dlBlankSf,cellInfo->ulBlankSf, cellInfo->isDummyTti); } RGSCH_UPDATE_DELTA(schInst, cellInfo->schTickDelta); cell->schTickDelta = cellInfo->schTickDelta; /* 4UE_TTI_DELTA */ cell->stopSiSch = cellInfo->dlBlankSf; cell->stopDlSch = cellInfo->dlBlankSf; cell->stopUlSch = cellInfo->ulBlankSf; if (cellInfo->isDummyTti) { cell->stopDlSch = TRUE; } if((0 == (cellInfo->timingInfo.sfn % 30)) && (0 == cellInfo->timingInfo.slot)) { //printf("5GTF_CHECK rgSCHTOMTtiInd (%d : %d)\n", cellInfo->timingInfo.sfn, cellInfo->timingInfo.slot); } #ifndef EMTC_ENABLE RGSCHCPYTIMEINFO(cellInfo->timingInfo, cell->crntTime); RG_SCH_ADD_TO_CRNT_TIME(cell->crntTime, cell->hiDci0Time, TFU_ULCNTRL_DLDELTA); RG_SCH_ADD_TO_CRNT_TIME(cell->crntTime, cell->dlDciTime, TFU_DLCNTRL_DLDELTA); RG_SCH_ADD_TO_CRNT_TIME(cell->crntTime, cell->rcpReqTime, TFU_RECPREQ_DLDELTA); RGSCHDECRFRMCRNTTIME(cell->crntTime, cell->hqRlsTime, TFU_HQFBKIND_ULDELTA); RGSCHDECRFRMCRNTTIME(cell->crntTime, cell->dlSfRlsTime, RGSCH_RLS_SF_IDX); #else RGSCHCPYTIMEINFO_EMTC(cellInfo->timingInfo, cell->crntTime); RG_SCH_ADD_TO_CRNT_TIME_EMTC(cell->crntTime, cell->hiDci0Time, TFU_ULCNTRL_DLDELTA); RG_SCH_ADD_TO_CRNT_TIME_EMTC(cell->crntTime, cell->dlDciTime, TFU_DLCNTRL_DLDELTA); RG_SCH_ADD_TO_CRNT_TIME_EMTC(cell->crntTime, cell->rcpReqTime, TFU_RECPREQ_DLDELTA); RGSCHDECRFRMCRNTTIME_EMTC(cell->crntTime, cell->hqRlsTime, TFU_HQFBKIND_ULDELTA); RGSCHDECRFRMCRNTTIME_EMTC(cell->crntTime, cell->dlSfRlsTime, RGSCH_RLS_SF_IDX); #endif rgSCHCmnUpdVars(cell); cell->isDlDataAllwd = TRUE; /* Get DownLink SubFrame */ RgSchCmnCell *cellSch = RG_SCH_CMN_GET_CELL(cell); frm = cell->crntTime; #ifndef EMTC_ENABLE RGSCH_INCR_SUB_FRAME(frm, RG_SCH_CMN_DL_DELTA); #else RGSCH_INCR_SUB_FRAME_EMTC(frm, RG_SCH_CMN_DL_DELTA); #endif cellSch->dl.time = frm; #ifdef RG_PFS_STATS cell->totalTime++; #endif #ifdef LTE_TDD U8 idx = (cell->crntTime.slot + RG_SCH_CMN_DL_DELTA) % RGSCH_NUM_SUB_FRAMES_5G; cell->isDlDataAllwd = RG_SCH_CMN_CHK_DL_DATA_ALLOWED(cell, idx); /*ccpu00130639 -ADD - used in UL HARQ proc id calculation*/ if((cell->crntTime.sfn == 0) && (cell->crntTime.slot == 0)) { /* sfn Cycle used for Tdd UL Harq Proc Determination. This sfn Cycle will have values from 0 to numUl Harq-1. */ cell->tddHqSfnCycle = (cell->tddHqSfnCycle + 1 ) % (rgSchTddUlNumHarqProcTbl[cell->ulDlCfgIdx]); } #endif #ifdef EMTC_ENABLE if(cell->emtcEnable) { rgSCHUtlEmtcResPrcTti(cell); } #endif } } #endif void schFillCrntTime( SlotIndInfo slotInd, Inst schInst) { U8 cellCount = 0; for(cellCount = 0; cellCount < CM_LTE_MAX_CELLS; cellCount++) { RgSchCellCb *cell; cell = rgSchCb[schInst].cells[cellCount]; RGSCHCPYTIMEINFO(slotInd, cell->crntTime); RG_SCH_ADD_TO_CRNT_TIME(cell->crntTime, cell->hiDci0Time, TFU_ULCNTRL_DLDELTA); RG_SCH_ADD_TO_CRNT_TIME(cell->crntTime, cell->dlDciTime, TFU_DLCNTRL_DLDELTA); RG_SCH_ADD_TO_CRNT_TIME(cell->crntTime, cell->rcpReqTime, TFU_RECPREQ_DLDELTA); RGSCHDECRFRMCRNTTIME(cell->crntTime, cell->hqRlsTime, TFU_HQFBKIND_ULDELTA); RGSCHDECRFRMCRNTTIME(cell->crntTime, cell->dlSfRlsTime, RGSCH_RLS_SF_IDX); RGSCH_INCR_SUB_FRAME(cell->crntTime, RG_SCH_CMN_DL_DELTA); RgSchCmnCell *cellSch = RG_SCH_CMN_GET_CELL(cell); cellSch->dl.time = cell->crntTime; } } /** @brief This function prepares the TTI for scheduling and * invokes the Common channel scheduler. Uplink scheduler * is invoked first if UL Scheduling at CRC is not enabled * * @details * * Function: rgSchTomTtiUlAndDlCmnChSch * * @param [out] RgSchCellCb *cell * * Returns: Void * */ #ifdef ANSI PRIVATE Void rgSchTomTtiUlAndDlCmnChSch ( RgSchCellCb *cell ) #else PRIVATE Void rgSchTomTtiUlAndDlCmnChSch (cell) RgSchCellCb *cell; #endif { TRC2(rgSchTomTtiUlAndDlCmnChSch); cell->rlsHqArr[cell->crntHqIdx].numUes = 0; cell->crntHqIdx++; cell->crntHqIdx = cell->crntHqIdx % RGSCH_NUM_SUB_FRAMES; cmPrcTmr(&cell->tqCp, cell->tq, (PFV)rgSCHTmrProcTmr); rgSCHMeasGapANRepTtiHndl (cell); /* We need to fill the PHICH for the UL Data, first we need to get the UL * SF from Scheduler, next we fill the dlSf that goes out this TTI. * This must be performed prior to any other processing of the TTI * so that we do not wrap around and generate feedback prior to * reception of UL data. */ #ifndef RG_ULSCHED_AT_CRC { U8 Mval = 1; U8 idx; /* Index into Uplink Sf array */ #ifdef LTE_TDD Mval = rgSchTddPhichMValTbl[cell->ulDlCfgIdx] [cell->hiDci0Time.subframe]; #endif if(Mval) { for(idx=0; idx < Mval; idx++) { rgSCHCmnRlsUlSf(cell, idx); } } } #endif /* DTX processing for those Harq's which did not get feedback from L1 */ rgSCHDhmRlsDlsfHqProc (cell, cell->hqRlsTime); /* Re-Init the Downlink subframe */ rgSCHUtlDlRlsSubFrm(cell, cell->dlSfRlsTime); /* Added handling to retransmit * release PDCCH in case of DTX */ /*Check for DRX every TTI*/ rgSCHDrxTtiInd(cell); /* For TDD, UL scheduling should happen after DL scheduling */ #ifndef LTE_TDD #ifndef RG_ULSCHED_AT_CRC /* Perform UL scheduling */ rgSCHCmnUlSch(cell); #endif #endif /* Perform DL scheduling for Common channels */ rgSCHCmnDlCommonChSch(cell); RETVOID; } /** @brief This function invokes the Non critical procedures like measurements, * and RGR configurations. * * @details * * Function: rgSchTomTtiMiscFunctions * * @param [in] RgSchCellCb *cell * * Returns: Void * */ #ifdef ANSI PRIVATE Void rgSchTomTtiMiscFunctions ( RgSchCellCb *cell ) #else PRIVATE Void rgSchTomTtiMiscFunctions (cell) RgSchCellCb *cell; #endif { U8 suId = cell->tfuSap->sapCfg.suId; TRC2(rgSchTomTtiMiscFunctions); /* Invoke RAM Tti Handler */ rgSCHRamTtiHndlr(cell); /* Handle RGR configurations */ rgSCHGomTtiHndlr(cell, suId); #ifdef LTE_L2_MEAS if((RGM_PRB_REPORT_START == cell->prbUsage.prbRprtEnabld) && (!(cell->prbUsage.rprtPeriod) || ((glblTtiCnt % cell->prbUsage.rprtPeriod) == 0))) { rgSCHUtlUpdAvgPrbUsage(cell); } rgSCHL2Meas(cell,FALSE); #endif /* LTE_ADV_FLAG_REMOVED_START */ /* Report ABS Load information to application periodically */ if((RGR_ENABLE == cell->lteAdvCb.absCfg.status) && (cell->lteAdvCb.absCfg.absLoadPeriodicity)) { RgrLoadInfIndInfo *rgrLoadInf; U8 idx; cell->lteAdvCb.absLoadTtiCnt++; if(cell->lteAdvCb.absLoadTtiCnt >= cell->lteAdvCb.absCfg.absLoadPeriodicity) { /* ccpu00134492 */ if(rgSCHUtlAllocSBuf (cell->instIdx,(Data**)&rgrLoadInf, sizeof(RgrLoadInfIndInfo)) != ROK) { RGSCHDBGERRNEW(cell->instIdx,(rgSchPBuf(cell->instIdx),"Could not " "allocate memory for sending LoadInfo\n")); RETVOID; } cell->lteAdvCb.absLoadTtiCnt = 0; rgrLoadInf->cellId = cell->cellId; rgrLoadInf->bw = cell->bwCfg.dlTotalBw; rgrLoadInf->type = RGR_ABS; for(idx= 0; idxu.absLoadInfo[idx] = cell->lteAdvCb.absLoadInfo[idx]; cell->lteAdvCb.absLoadInfo[idx] = 0; } rgSCHUtlRgrLoadInfInd(cell, rgrLoadInf); } } #ifdef LTE_TDD if(cell->isDlDataAllwd) { /* Calling function to update CFI parameters*/ rgSchCmnUpdCfiDb(cell, RG_SCH_CMN_DL_DELTA); } else { /* Incrementing the ttiCnt in case of UL subframe */ if(!cell->dynCfiCb.switchOvrInProgress) { cell->dynCfiCb.ttiCnt++; } } #else rgSchCmnUpdCfiDb(cell, RG_SCH_CMN_DL_DELTA); #endif /* LTE_ADV_FLAG_REMOVED_END */ RETVOID; } /** @brief This function invokes the Downlink scheduler * * @details * * Function: rgSchTomTtiDlSch * * @param [in] RgSchCellCb *cell * * Returns: Void * */ #ifdef ANSI PRIVATE Void rgSchTomTtiDlSch ( RgSchCellCb *cell ) #else PRIVATE Void rgSchTomTtiDlSch (cell) RgSchCellCb *cell; #endif { TRC2(rgSchTomTtiDlSch); if (cell->isDlDataAllwd && (cell->stopDlSch == FALSE)) { rgSCHCmnDlSch(cell); } RETVOID; } /** @brief This function invokes Consolidates the allocations * send the Subframe allocation info to MAC * * @details * * Function: rgSchTomTtiCnsldtSfAlloc * * @param [in] RgSchCellCb *cell * * Returns: Void * */ #ifdef ANSI PRIVATE Void rgSchTomTtiCnsldtSfAlloc ( RgSchCellCb *cell ) #else PRIVATE Void rgSchTomTtiCnsldtSfAlloc (cell) RgSchCellCb *cell; #endif { RgSchDlSf *dlSf; RgSchCmnCell *cellSch = RG_SCH_CMN_GET_CELL(cell); dlSf = rgSCHUtlSubFrmGet(cell, cellSch->dl.time); TRC2(rgSchTomTtiCnsldtSfAlloc); /* Prepare Subframe allocation info and send to MAC */ rgSCHCmnCnsldtSfAlloc(cell); /* Call ACK NACK module to add to dlsf Queue */ rgSCHAckNakRepAddToQ(cell, dlSf); rgSCHTomUtlProcTA(cell); RETVOID; } /** @brief This function prepares the DL and UL Config requests * and sends to CL * * @details * * Function: rgSchTomTtiL1DlAndUlCfg * * @param [in] RgSchCellCb *cell * * Returns: Void * */ #ifdef ANSI PRIVATE Void rgSchTomTtiL1DlAndUlCfg ( RgSchCellCb *cell, RgTfuCntrlReqInfo *cntrlInfo ) #else PRIVATE Void rgSchTomTtiL1DlAndUlCfg (cell, cntrlInfo) RgSchCellCb *cell; RgTfuCntrlReqInfo *cntrlInfo; #endif { RgSchDlSf *dlSf = rgSCHUtlSubFrmGet (cell, cell->dlDciTime); RgSchDlSf *ulSf = rgSCHUtlSubFrmGet (cell, cell->hiDci0Time); RgSchErrInfo err; TRC2(rgSchTomTtiL1DlAndUlCfg); rgSCHTomUtlProcDlSf (dlSf, ulSf, cell, cntrlInfo, &err); /* Mark this frame as sent */ dlSf->txDone = TRUE; rgBwAlloInfo[dlSf->sfNum] += dlSf->bwAssigned; rgBwAlcnt[dlSf->sfNum] ++; #ifdef LTE_TDD rgSCHTomUtlProcTddUlSf(cell); #else rgSCHTomUtlProcUlSf (cell, &err); #endif RETVOID; } #ifdef LTE_TDD /** @brief This function prepares does the Downlink subframe re-init and * Harq DTX processing * * @details * * Function: rgSchTomUtlTddRlsSfAndHarq * * @param [in] RgSchCellCb *cell * * Returns: Void * */ #ifdef ANSI PRIVATE Void rgSchTomUtlTddRlsSfAndHarq ( RgSchCellCb *cell ) #else PRIVATE Void rgSchTomUtlTddRlsSfAndHarq (cell) RgSchCellCb *cell; #endif { TRC2(rgSchTomUtlTddRlsSfAndHarq); /* ccpu00132341-MOD- rgSchTddRlsDlSubfrmTbl is dependent on DELTA(=2). * Instead rgSchTddDlAscSetIdxKTbl can be used as the K set gives proper * UL subframes*/ /* ccpu00133109: Removed RGSCHSUBFRMCRNTTIME as it is not giving proper * output if diff is more than 10. Instead using RGSCHDECRFRMCRNTTIME() * as it is serving the purpose */ if(rgSchTddDlAscSetIdxKTbl[cell->ulDlCfgIdx][cell->hqRlsTime.subframe]. numFdbkSubfrms) { /* ccpu00132341-MOD- Providing the UL SF timing for avoiding * calculation inside the function */ rgSCHDhmTddRlsSubFrm(cell, cell->hqRlsTime); rgSCHDhmRlsDlsfHqProc(cell, cell->hqRlsTime); } RETVOID; } /** @brief This function processes the UL subframe and fills TFU reception * request * * @details * * Function: rgSCHTomUtlProcTddUlSf * * @param [in] RgSchCellCb *cell * * Returns: Void * */ #ifdef ANSI PRIVATE Void rgSCHTomUtlProcTddUlSf ( RgSchCellCb *cell ) #else PRIVATE Void rgSCHTomUtlProcTddUlSf (cell) RgSchCellCb *cell; #endif { RgSchErrInfo err; TRC2(rgSCHTomUtlProcTddUlSf); if(rgSchTddUlDlSubfrmTbl[cell->ulDlCfgIdx] [cell->rcpReqTime.subframe] == RG_SCH_TDD_UL_SUBFRAME) { if (rgSCHTomUtlProcUlSf (cell, &err) != ROK) { /* fill in err type and call sta ind */ RGSCHDBGERRNEW(cell->instIdx, (rgSchPBuf(cell->instIdx), "Unable to process Uplink subframe for cellId (%d))\n", cell->cellId)); } } /* TDD Fix , to allow Special SF SRS CFg */ else if(rgSchTddUlDlSubfrmTbl[cell->ulDlCfgIdx] [cell->rcpReqTime.subframe] == RG_SCH_TDD_SPL_SUBFRAME) { if (rgSCHTomUtlPrcUlTddSpclSf(cell, &err) != ROK) { /* fill in err type and call sta ind */ RGSCHDBGERRNEW(cell->instIdx, (rgSchPBuf(cell->instIdx), "Unable to process Sipceial subframe for cellId (%d))\n", cell->cellId)); } } RETVOID; } #endif /********************************************************************** End of file **********************************************************************/