#include "sch.h"
#include "sch_utils.h"
-SchCb schCb[SCH_MAX_INST];
void SchFillCfmPst(Pst *reqPst,Pst *cfmPst,RgMngmt *cfm);
/* local defines */
packSchCellCfgCfm /* LWLC */
};
+SchSliceCfgRspFunc SchSliceCfgRspOpts[] =
+{
+ packSchSliceCfgRsp, /* LC */
+ MacProcSchSliceCfgRsp, /* TC */
+ packSchSliceCfgRsp /* LWLC */
+
+};
+SchSliceReCfgRspFunc SchSliceReCfgRspOpts[] =
+{
+ packSchSliceReCfgRsp, /* LC */
+ MacProcSchSliceReCfgRsp, /* TC */
+ packSchSliceReCfgRsp /* LWLC */
+};
/**
* @brief Task Initiation function.
*
/* Set Config done in TskInit */
schCb[inst].schInit.cfgDone = TRUE;
- DU_LOG("\nINFO --> SCH : Scheduler gen config done");
+ DU_LOG("\nINFO --> SCH : Scheduler gen config done");
return ret;
}
RgMngmt cfm;
Pst cfmPst;
+#ifdef CALL_FLOW_DEBUG_LOG
+ DU_LOG("\nCall Flow: ENTMAC -> ENTSCH : GENERAL_CFG_REQ\n");
+#endif
+
if(pst->dstInst < SCH_INST_START)
{
DU_LOG("\nERROR --> SCH : Invalid inst ID");
"pst->dstInst=%d SCH_INST_START=%d", pst->dstInst,SCH_INST_START);
return ROK;
}
- DU_LOG("\nINFO --> SCH : Received scheduler gen config");
+ DU_LOG("\nINFO --> SCH : Received scheduler gen config");
/* Fill the post structure for sending the confirmation */
memset(&cfmPst, 0 , sizeof(Pst));
SchFillCfmPst(pst, &cfmPst, cfg);
cfm.cfm.reason = reason;
SchSendCfgCfm(&cfmPst, &cfm);
- /* SPutSBuf(pst->region, pst->pool, (Data *)cfg, sizeof(RgMngmt)); */
+ /* SCH_FREE(pst->region, pst->pool, (Data *)cfg, sizeof(RgMngmt)); */
return ROK;
}/*-- SchProcGenCfgReq --*/
* a cell.
*
* @param[in] Pst *pst
- * @param[in] SlotIndInfo *slotInd
+ * @param[in] SlotTimingInfo *slotInd
* @return S16
* -# ROK
* -# RFAILED
**/
-uint8_t MacSchSlotInd(Pst *pst, SlotIndInfo *slotInd)
+uint8_t MacSchSlotInd(Pst *pst, SlotTimingInfo *slotInd)
{
Inst inst = pst->dstInst-SCH_INST_START;
+#ifdef CALL_FLOW_DEBUG_LOG
+ DU_LOG("\nCall Flow: ENTMAC -> ENTSCH : EVENT_SLOT_IND_TO_SCH\n");
+#endif
+
schProcessSlotInd(slotInd, inst);
return ROK;
uint8_t MacSchRachInd(Pst *pst, RachIndInfo *rachInd)
{
Inst inst = pst->dstInst-SCH_INST_START;
+
+#ifdef CALL_FLOW_DEBUG_LOG
+ DU_LOG("\nCall Flow: ENTMAC -> ENTSCH : EVENT_RACH_IND_TO_SCH\n");
+#endif
+
DU_LOG("\nINFO --> SCH : Received Rach indication");
schProcessRachInd(rachInd, inst);
return ROK;
* ****************************************************************/
uint8_t MacSchCrcInd(Pst *pst, CrcIndInfo *crcInd)
{
+#ifdef CALL_FLOW_DEBUG_LOG
+ DU_LOG("\nCall Flow: ENTMAC -> ENTSCH : EVENT_CRC_IND_TO_SCH\n");
+#endif
+
switch(crcInd->crcInd[0])
{
case CRC_FAILED:
void schInitTddSlotCfg(SchCellCb *cell, SchCellCfg *schCellCfg)
{
uint16_t periodicityInMicroSec = 0;
- uint32_t slotBitPos, symbBitPos, bitMask;
int8_t slotIdx, symbIdx;
periodicityInMicroSec = schGetPeriodicityInMsec(schCellCfg->tddCfg.tddPeriod);
cell->numSlotsInPeriodicity = (periodicityInMicroSec * pow(2, schCellCfg->numerology))/1000;
-cell->slotFrmtBitMap = 0;
+ cell->slotFrmtBitMap = 0;
cell->symbFrmtBitMap = 0;
- slotBitPos = (cell->numSlotsInPeriodicity*2)-1; /* considering 2 bits to represent a slot */
- symbBitPos = (MAX_SYMB_PER_SLOT*2)-1; /* considering 2 bits to represent a symbol */
for(slotIdx = cell->numSlotsInPeriodicity-1; slotIdx >= 0; slotIdx--)
{
symbIdx = 0;
case DL_SLOT:
{
/*BitMap to be set to 00 */
- bitMask = 1<<slotBitPos;
- cell->slotFrmtBitMap = (cell->slotFrmtBitMap & ~(bitMask)) | ((0<<slotBitPos) & bitMask);
- slotBitPos--;
- bitMask = 1<<slotBitPos;
- cell->slotFrmtBitMap = (cell->slotFrmtBitMap & ~(bitMask)) | ((0<<slotBitPos) & bitMask);
- slotBitPos--;
+ cell->slotFrmtBitMap = (cell->slotFrmtBitMap<<2);
break;
}
case UL_SLOT:
{
/*BitMap to be set to 01 */
- bitMask = 1<<slotBitPos;
- cell->slotFrmtBitMap = (cell->slotFrmtBitMap & ~(bitMask)) | ((0<<slotBitPos) & bitMask);
- slotBitPos--;
- bitMask = 1<<slotBitPos;
- cell->slotFrmtBitMap = (cell->slotFrmtBitMap & ~(bitMask)) | ((1<<slotBitPos) & bitMask);
- slotBitPos--;
+ cell->slotFrmtBitMap = ((cell->slotFrmtBitMap<<2) | (UL_SLOT));
break;
}
default:
continue;
}
/* slot config is flexible. First set slotBitMap to 10 */
- bitMask = 1<<slotBitPos;
- cell->slotFrmtBitMap = (cell->slotFrmtBitMap & ~(bitMask)) | ((1<<slotBitPos) & bitMask);
- slotBitPos--;
- bitMask = 1<<slotBitPos;
- cell->slotFrmtBitMap = (cell->slotFrmtBitMap & ~(bitMask)) | ((0<<slotBitPos) & bitMask);
- slotBitPos--;
+ cell->slotFrmtBitMap = ((cell->slotFrmtBitMap<<2) | (FLEXI_SLOT));
+
/* Now set symbol bitmap */
for(symbIdx = MAX_SYMB_PER_SLOT-1; symbIdx >= 0; symbIdx--)
{
case DL_SLOT:
{
/*symbol BitMap to be set to 00 */
- bitMask = 1<<symbBitPos;
- cell->symbFrmtBitMap = (cell->symbFrmtBitMap & ~(bitMask)) | ((0<<symbBitPos) & bitMask);
- symbBitPos--;
- bitMask = 1<<symbBitPos;
- cell->symbFrmtBitMap = (cell->symbFrmtBitMap & ~(bitMask)) | ((0<<symbBitPos) & bitMask);
- symbBitPos--;
+ cell->symbFrmtBitMap = (cell->symbFrmtBitMap<<2);
break;
}
case UL_SLOT:
{
/*symbol BitMap to be set to 01 */
- bitMask = 1<<symbBitPos;
- cell->symbFrmtBitMap = (cell->symbFrmtBitMap & ~(bitMask)) | ((0<<symbBitPos) & bitMask);
- symbBitPos--;
- bitMask = 1<<symbBitPos;
- cell->symbFrmtBitMap = (cell->symbFrmtBitMap & ~(bitMask)) | ((1<<symbBitPos) & bitMask);
- symbBitPos--;
+ cell->symbFrmtBitMap = ((cell->symbFrmtBitMap<<2) | (UL_SLOT));
break;
}
case FLEXI_SLOT:
{
/*symbol BitMap to be set to 10 */
- bitMask = 1<<symbBitPos;
- cell->symbFrmtBitMap = (cell->symbFrmtBitMap & ~(bitMask)) | ((1<<symbBitPos) & bitMask);
- symbBitPos--;
- bitMask = 1<<symbBitPos;
- cell->symbFrmtBitMap = (cell->symbFrmtBitMap & ~(bitMask)) | ((0<<symbBitPos) & bitMask);
- symbBitPos--;
+ cell->symbFrmtBitMap = ((cell->symbFrmtBitMap<<2) | (FLEXI_SLOT));
break;
}
default:
}
}
}
-
}
#endif
for(uint8_t idx=0; idx<cnt; idx++)
{
/* start symbol determined using {2, 8} + 14n */
- ssbStartSymbArr[symbIdx++] = 2 + SCH_SYMBOL_PER_SLOT*idx;
- ssbStartSymbArr[symbIdx++] = 8 + SCH_SYMBOL_PER_SLOT*idx;
+ ssbStartSymbArr[symbIdx++] = 2 + MAX_SYMB_PER_SLOT*idx;
+ ssbStartSymbArr[symbIdx++] = 8 + MAX_SYMB_PER_SLOT*idx;
}
}
break;
for(uint8_t idx=0; idx<cnt; idx++)
{
/* start symbol determined using {4, 8, 16, 20} + 28n */
- ssbStartSymbArr[symbIdx++] = 4 + SCH_SYMBOL_PER_SLOT*idx;
- ssbStartSymbArr[symbIdx++] = 8 + SCH_SYMBOL_PER_SLOT*idx;
- ssbStartSymbArr[symbIdx++] = 16 + SCH_SYMBOL_PER_SLOT*idx;
- ssbStartSymbArr[symbIdx++] = 20 + SCH_SYMBOL_PER_SLOT*idx;
+ ssbStartSymbArr[symbIdx++] = 4 + MAX_SYMB_PER_SLOT*idx;
+ ssbStartSymbArr[symbIdx++] = 8 + MAX_SYMB_PER_SLOT*idx;
+ ssbStartSymbArr[symbIdx++] = 16 + MAX_SYMB_PER_SLOT*idx;
+ ssbStartSymbArr[symbIdx++] = 20 + MAX_SYMB_PER_SLOT*idx;
}
}
break;
SCH_ALLOC(schDlSlotInfo, sizeof(SchDlSlotInfo));
if(!schDlSlotInfo)
{
- DU_LOG("\nERROR --> SCH : Memory allocation failed in schInitCellCb");
- return RFAILED;
+ DU_LOG("\nERROR --> SCH : Memory allocation failed in schInitCellCb");
+ return RFAILED;
}
/* UL Alloc */
cell->firstSsbTransmitted = false;
cell->firstSib1Transmitted = false;
fillSsbStartSymb(cell);
+ cmLListInit(&cell->ueToBeScheduled);
schCb[inst].cells[inst] = cell;
DU_LOG("\nINFO --> SCH : Cell init completed for cellId:%d", cell->cellId);
uint8_t mValue = 0;
uint8_t firstSymbol = 0; /* need to calculate using formula mentioned in 38.213 */
uint8_t slotIndex = 0;
- uint8_t FreqDomainResource[6] = {0};
+ uint8_t FreqDomainResource[FREQ_DOM_RSRC_SIZE] = {0};
uint16_t tbSize = 0;
- uint8_t numPdschSymbols = 11; /* considering pdsch region from symbols 3 to 13 */
uint8_t ssbIdx = 0;
PdcchCfg *pdcch = &(sib1SchCfg->sib1PdcchCfg);
slotIndex = (int)((oValue*pow(2, mu)) + floor(ssbIdx*mValue))%numSlots;
sib1SchCfg->n0 = slotIndex;
- /* calculate the PRBs */
- freqDomRscAllocType0(((offsetPointA-offset)/6), (numRbs/6), FreqDomainResource);
-
/* fill BWP */
switch(bandwidth)
{
pdcch->coresetCfg.coreSetSize = numRbs;
pdcch->coresetCfg.startSymbolIndex = firstSymbol;
pdcch->coresetCfg.durationSymbols = numSymbols;
- memcpy(pdcch->coresetCfg.freqDomainResource,FreqDomainResource,6);
+
+ /* Fill Bitmap for PRBs in coreset */
+ fillCoresetFeqDomAllocMap(((offsetPointA-offset)/6), (numRbs/6), FreqDomainResource);
+ covertFreqDomRsrcMapToIAPIFormat(FreqDomainResource, pdcch->coresetCfg.freqDomainResource);
+
pdcch->coresetCfg.cceRegMappingType = 1; /* coreset0 is always interleaved */
pdcch->coresetCfg.regBundleSize = 6; /* spec-38.211 sec 7.3.2.2 */
pdcch->coresetCfg.interleaverSize = 2; /* spec-38.211 sec 7.3.2.2 */
pdsch->dmrs.dlDmrsScramblingId = pci;
pdsch->dmrs.scid = 0;
pdsch->dmrs.numDmrsCdmGrpsNoData = 1;
- pdsch->dmrs.dmrsPorts = 0;
+ pdsch->dmrs.dmrsPorts = 0x0001;
pdsch->dmrs.mappingType = DMRS_MAP_TYPE_A; /* Type-A */
pdsch->dmrs.nrOfDmrsSymbols = NUM_DMRS_SYMBOLS;
pdsch->dmrs.dmrsAddPos = DMRS_ADDITIONAL_POS;
pdsch->pdschFreqAlloc.resourceAllocType = 1; /* RAT type-1 RIV format */
- pdsch->pdschFreqAlloc.freqAlloc.startPrb = offsetPointA + SCH_SSB_NUM_PRB + 1; /* the RB numbering starts from coreset0,
- and PDSCH is always above SSB */
- pdsch->pdschFreqAlloc.freqAlloc.numPrb = schCalcNumPrb(tbSize,sib1SchCfg->sib1Mcs,numPdschSymbols);
+ /* the RB numbering starts from coreset0, and PDSCH is always above SSB */
+ pdsch->pdschFreqAlloc.freqAlloc.startPrb = offsetPointA + SCH_SSB_NUM_PRB;
+ pdsch->pdschFreqAlloc.freqAlloc.numPrb = schCalcNumPrb(tbSize,sib1SchCfg->sib1Mcs, NUM_PDSCH_SYMBOL);
pdsch->pdschFreqAlloc.vrbPrbMapping = 0; /* non-interleaved */
pdsch->pdschTimeAlloc.rowIndex = 1;
/* This is Intel's requirement. PDSCH should start after PDSCH DRMS symbol */
pdsch->pdschTimeAlloc.timeAlloc.startSymb = 3; /* spec-38.214, Table 5.1.2.1-1 */
- pdsch->pdschTimeAlloc.timeAlloc.numSymb = numPdschSymbols;
+ pdsch->pdschTimeAlloc.timeAlloc.numSymb = NUM_PDSCH_SYMBOL;
pdsch->beamPdschInfo.numPrgs = 1;
pdsch->beamPdschInfo.prgSize = 1;
pdsch->beamPdschInfo.digBfInterfaces = 0;
SchCellCfgCfm schCellCfgCfm;
Pst rspPst;
Inst inst = pst->dstInst-1;
+ uint8_t coreset0Idx = 0;
+ uint8_t numRbs = 0;
+ uint8_t offset = 0;
+ uint8_t freqDomainResource[FREQ_DOM_RSRC_SIZE] = {0};
+ SchPdschConfig pdschCfg;
+
+#ifdef CALL_FLOW_DEBUG_LOG
+ DU_LOG("\nCall Flow: ENTMAC -> ENTSCH : EVENT_SCH_CELL_CFG\n");
+#endif
schInitCellCb(inst, schCellCfg);
cellCb = schCb[inst].cells[inst]; //cells is of MAX_CELLS, why inst
schCellCfg->ssbSchCfg.ssbOffsetPointA);
memcpy(&cellCb->cellCfg, schCellCfg, sizeof(SchCellCfg));
+ /* Fill coreset frequencyDomainResource bitmap */
+ coreset0Idx = cellCb->cellCfg.schInitialDlBwp.pdcchCommon.commonSearchSpace.coresetId;
+ numRbs = coresetIdxTable[coreset0Idx][1];
+ offset = coresetIdxTable[coreset0Idx][3];
+ fillCoresetFeqDomAllocMap(((cellCb->cellCfg.ssbSchCfg.ssbOffsetPointA - offset)/6), (numRbs/6), freqDomainResource);
+ covertFreqDomRsrcMapToIAPIFormat(freqDomainResource, \
+ cellCb->cellCfg.schInitialDlBwp.pdcchCommon.commonSearchSpace.freqDomainRsrc);
+
+ /* Fill K0 - K1 table for common cfg*/
+ BuildK0K1Table(cellCb, &cellCb->cellCfg.schInitialDlBwp.k0K1InfoTbl, true, cellCb->cellCfg.schInitialDlBwp.pdschCommon,
+ pdschCfg, DEFAULT_UL_ACK_LIST_COUNT, defaultUlAckTbl);
+
+ BuildK2InfoTable(cellCb, cellCb->cellCfg.schInitialUlBwp.puschCommon.timeDomRsrcAllocList,\
+ cellCb->cellCfg.schInitialUlBwp.puschCommon.numTimeDomRsrcAlloc, &cellCb->cellCfg.schInitialUlBwp.msg3K2InfoTbl, \
+ &cellCb->cellCfg.schInitialUlBwp.k2InfoTbl);
/* Initializing global variables */
cellCb->actvUeBitMap = 0;
cellCb->boIndBitMap = 0;
schCellCfgCfm.rsp = RSP_OK;
ret = (*SchCellCfgCfmOpts[rspPst.selector])(&rspPst, &schCellCfgCfm);
-
return ret;
}
uint8_t MacSchDlRlcBoInfo(Pst *pst, DlRlcBoInfo *dlBoInfo)
{
uint8_t lcId = 0;
- uint16_t ueIdx = 0;
- uint16_t slot;
+ uint16_t ueId = 0;
+ bool isLcIdValid = false;
SchUeCb *ueCb = NULLP;
SchCellCb *cell = NULLP;
- SchDlSlotInfo *schDlSlotInfo = NULLP;
-
Inst inst = pst->dstInst-SCH_INST_START;
- DU_LOG("\nDEBUG --> SCH : Received RLC BO Status indication");
- cell = schCb[inst].cells[inst];
+ CmLListCp *lcLL = NULLP;
- GET_UE_IDX(dlBoInfo->crnti, ueIdx);
- ueCb = &cell->ueCb[ueIdx-1];
- lcId = dlBoInfo->lcId;
+#ifdef CALL_FLOW_DEBUG_LOG
+ DU_LOG("\nCall Flow: ENTMAC -> ENTSCH : EVENT_DL_RLC_BO_INFO_TO_SCH\n");
+#endif
- if(lcId == SRB1_LCID || lcId == SRB2_LCID || lcId == SRB3_LCID || \
- (lcId >= MIN_DRB_LCID && lcId <= MAX_DRB_LCID))
+ DU_LOG("\nDEBUG --> SCH : Received RLC BO Status indication LCId [%d] BO [%d]", dlBoInfo->lcId, dlBoInfo->dataVolume);
+ cell = schCb[inst].cells[inst];
+
+ if(cell == NULLP)
{
- SET_ONE_BIT(ueIdx, cell->boIndBitMap);
- ueCb->dlInfo.dlLcCtxt[lcId].bo = dlBoInfo->dataVolume;
+ DU_LOG("\nERROR --> SCH : MacSchDlRlcBoInfo(): Cell does not exists");
+ return RFAILED;
}
- else if(lcId != SRB0_LCID)
+
+ GET_UE_ID(dlBoInfo->crnti, ueId);
+ ueCb = &cell->ueCb[ueId-1];
+ lcId = dlBoInfo->lcId;
+ CHECK_LCID(lcId, isLcIdValid);
+ if(isLcIdValid == FALSE)
{
- DU_LOG("\nERROR --> SCH : Invalid LC Id %d in MacSchDlRlcBoInfo", lcId);
+ DU_LOG("ERROR --> SCH: LCID:%d is not valid", lcId);
return RFAILED;
}
- slot = (cell->slotInfo.slot + SCHED_DELTA + PHY_DELTA_DL + BO_DELTA) % cell->numSlots;
- schDlSlotInfo = cell->schDlSlotInfo[slot];
-
- SCH_ALLOC(schDlSlotInfo->dlMsgInfo, sizeof(DlMsgInfo));
- if(!schDlSlotInfo->dlMsgInfo)
+ /*Expected when theres a case of Retransmission Failure or Resetablishment
+ *By Zero BO, the RLC is informing that previous data can be cleared out
+ *Thus clearing out the LC from the Lc priority list*/
+ if(dlBoInfo->dataVolume == 0)
{
- DU_LOG("\nERROR --> SCH : Memory allocation failed for dlMsgInfo");
- schDlSlotInfo = NULL;
- return RFAILED;
+ /*Check the LC is Dedicated or default and accordingly LCList will
+ * be used*/
+ if(ueCb->dlInfo.dlLcCtxt[lcId].isDedicated)
+ {
+ lcLL = &(ueCb->dlLcPrbEst.dedLcInfo->dedLcList);
+ }
+ else
+ {
+ lcLL = &(ueCb->dlLcPrbEst.defLcList);
+ }
+ handleLcLList(lcLL, lcId, DELETE);
+ return ROK;
}
- schDlSlotInfo->dlMsgInfo->crnti = dlBoInfo->crnti;
- schDlSlotInfo->dlMsgInfo->ndi = 1;
- schDlSlotInfo->dlMsgInfo->harqProcNum = 0;
- schDlSlotInfo->dlMsgInfo->dlAssignIdx = 0;
- schDlSlotInfo->dlMsgInfo->pucchTpc = 0;
- schDlSlotInfo->dlMsgInfo->pucchResInd = 0;
- schDlSlotInfo->dlMsgInfo->harqFeedbackInd = 0;
- schDlSlotInfo->dlMsgInfo->dciFormatId = 1;
- if(lcId == SRB0_LCID)
- schDlSlotInfo->dlMsgInfo->isMsg4Pdu = true;
+ if(lcId == SRB0_LCID)
+ {
+ cell->raCb[ueId -1].msg4recvd = true;
+ cell->raCb[ueId -1].dlMsgPduLen = dlBoInfo->dataVolume;
+
+ }
+ else
+ {
+ /* TODO : These part of changes will be corrected during DL scheduling as
+ * per K0 - K1 -K2 */
+ SET_ONE_BIT(ueId, cell->boIndBitMap);
+ if(ueCb->dlInfo.dlLcCtxt[lcId].lcId == lcId)
+ {
+ ueCb->dlInfo.dlLcCtxt[lcId].bo = dlBoInfo->dataVolume;
+ }
+ else
+ {
+ DU_LOG("ERROR --> SCH: LCID:%d is not configured in SCH Cb",lcId);
+ return RFAILED;
+ }
+ }
+
+ /* Adding UE Id to list of pending UEs to be scheduled */
+ addUeToBeScheduled(cell, ueId);
return ROK;
}
Inst schInst = pst->dstInst-SCH_INST_START;
SchCellCb *cellCb = NULLP;
SchUeCb *ueCb = NULLP;
- uint8_t lcgIdx;
+ uint8_t lcgIdx = 0;
+
+#ifdef CALL_FLOW_DEBUG_LOG
+ DU_LOG("\nCall Flow: ENTMAC -> ENTSCH : EVENT_SHORT_BSR\n");
+#endif
DU_LOG("\nDEBUG --> SCH : Received BSR");
+ if(bsrInd == NULLP)
+ {
+ DU_LOG("\nERROR --> SCH : BSR Ind is empty");
+ return RFAILED;
+ }
cellCb = schCb[schInst].cells[schInst];
+ if(cellCb == NULLP)
+ {
+ DU_LOG("\nERROR --> SCH : CellCb is empty");
+ return RFAILED;
+ }
ueCb = schGetUeCb(cellCb, bsrInd->crnti);
+ if(ueCb == NULLP)
+ {
+ DU_LOG("\nERROR --> SCH : UeCB is empty");
+ return RFAILED;
+ }
+
+ ueCb->bsrRcvd = true;
/* store dataVolume per lcg in uecb */
for(lcgIdx = 0; lcgIdx < bsrInd->numLcg; lcgIdx++)
{
- ueCb->bsrInfo[lcgIdx].priority = 1; //TODO: determining LCG priority?
- ueCb->bsrInfo[lcgIdx].dataVol = bsrInd->dataVolInfo[lcgIdx].dataVol;
+ ueCb->bsrInfo[bsrInd->dataVolInfo[lcgIdx].lcgId].priority = 1; //TODO: determining LCG priority?
+ ueCb->bsrInfo[bsrInd->dataVolInfo[lcgIdx].lcgId].dataVol = bsrInd->dataVolInfo[lcgIdx].dataVol;
}
+
+ /* Adding UE Id to list of pending UEs to be scheduled */
+ addUeToBeScheduled(cellCb, ueCb->ueId);
return ROK;
}
SchUeCb *ueCb;
SchCellCb *cellCb = schCb[inst].cells[inst];
+#ifdef CALL_FLOW_DEBUG_LOG
+ DU_LOG("\nCall Flow: ENTMAC -> ENTSCH : EVENT_UCI_IND_TO_SCH\n");
+#endif
+
DU_LOG("\nDEBUG --> SCH : Received SR");
ueCb = schGetUeCb(cellCb, uciInd->crnti);
+
+ if(ueCb->state == SCH_UE_STATE_INACTIVE)
+ {
+ DU_LOG("\nERROR --> SCH : Crnti %d is inactive", uciInd->crnti);
+ return ROK;
+ }
if(uciInd->numSrBits)
{
ueCb->srRcvd = true;
+
+ /* Adding UE Id to list of pending UEs to be scheduled */
+ addUeToBeScheduled(cellCb, ueCb->ueId);
+ }
+ return ROK;
+}
+
+/*******************************************************************
+ *
+ * @brief Allocates requested PRBs for DL
+ *
+ * @details
+ *
+ * Function : allocatePrbDl
+ *
+ * Functionality:
+ * Allocates requested PRBs in DL
+ * Keeps track of allocated PRB (using bitmap) and remaining PRBs
+ *
+ * @params[in] prbAlloc table
+ * Start symbol
+ * Number of symbols
+ * Start PRB
+ * Number of PRBs
+ *
+ * @return ROK - success
+ * RFAILED - failure
+ *
+ * ****************************************************************/
+uint8_t allocatePrbDl(SchCellCb *cell, SlotTimingInfo slotTime, \
+ uint8_t startSymbol, uint8_t symbolLength, uint16_t *startPrb, uint16_t numPrb)
+{
+ uint8_t symbol = 0;
+ uint16_t broadcastPrbStart=0, broadcastPrbEnd=0;
+ FreePrbBlock *freePrbBlock = NULLP;
+ CmLList *freePrbNode = NULLP;
+ PduTxOccsaion ssbOccasion=0, sib1Occasion=0;
+ SchDlSlotInfo *schDlSlotInfo = cell->schDlSlotInfo[slotTime.slot];
+ SchPrbAlloc *prbAlloc = &schDlSlotInfo->prbAlloc;
+
+ /* If startPrb is set to MAX_NUM_RB, it means startPrb is not known currently.
+ * Search for an appropriate location in PRB grid and allocate requested resources */
+ if(*startPrb == MAX_NUM_RB)
+ {
+ /* Check if SSB/SIB1 is also scheduled in this slot */
+ ssbOccasion = schCheckSsbOcc(cell, slotTime);
+ sib1Occasion = schCheckSib1Occ(cell, slotTime);
+
+ if(ssbOccasion && sib1Occasion)
+ {
+ broadcastPrbStart = cell->cellCfg.ssbSchCfg.ssbOffsetPointA;
+ broadcastPrbEnd = broadcastPrbStart + SCH_SSB_NUM_PRB + cell->cellCfg.sib1SchCfg.sib1PdschCfg.pdschFreqAlloc.freqAlloc.numPrb -1;
+ }
+ else if(ssbOccasion)
+ {
+ broadcastPrbStart = cell->cellCfg.ssbSchCfg.ssbOffsetPointA;
+ broadcastPrbEnd = broadcastPrbStart + SCH_SSB_NUM_PRB -1;
+ }
+ else if(sib1Occasion)
+ {
+ broadcastPrbStart = cell->cellCfg.sib1SchCfg.sib1PdschCfg.pdschFreqAlloc.freqAlloc.startPrb;
+ broadcastPrbEnd = broadcastPrbStart + cell->cellCfg.sib1SchCfg.sib1PdschCfg.pdschFreqAlloc.freqAlloc.numPrb -1;
+ }
+
+ /* Iterate through all free PRB blocks */
+ freePrbNode = prbAlloc->freePrbBlockList.first;
+ while(freePrbNode)
+ {
+ freePrbBlock = (FreePrbBlock *)freePrbNode->node;
+
+ /* If broadcast message is scheduled in this slot, then check if its PRBs belong to the current free block.
+ * Since SSB/SIB1 PRB location is fixed, these PRBs cannot be allocated to other message in same slot */
+ if((ssbOccasion || sib1Occasion) &&
+ ((broadcastPrbStart >= freePrbBlock->startPrb) && (broadcastPrbStart <= freePrbBlock->endPrb)) && \
+ ((broadcastPrbEnd >= freePrbBlock->startPrb) && (broadcastPrbEnd <= freePrbBlock->endPrb)))
+ {
+ /* Implmentation is done such that highest-numbered free-RB is allocated first */
+ if((freePrbBlock->endPrb > broadcastPrbEnd) && ((freePrbBlock->endPrb - broadcastPrbEnd) >= numPrb))
+ {
+ /* If sufficient free PRBs are available above bradcast message then,
+ * endPrb = freePrbBlock->endPrb
+ * startPrb = endPrb - numPrb +1;
+ */
+ *startPrb = freePrbBlock->endPrb - numPrb +1;
+ break;
+ }
+ else if((broadcastPrbStart > freePrbBlock->startPrb) && ((broadcastPrbStart - freePrbBlock->startPrb) >= numPrb))
+ {
+ /* If free PRBs are available below broadcast message then,
+ * endPrb = broadcastPrbStart - 1
+ * startPrb = endPrb - numPrb +1
+ */
+ *startPrb = broadcastPrbStart - numPrb;
+ break;
+ }
+ else
+ {
+ freePrbNode = freePrbNode->next;
+ continue;
+ }
+ }
+ else
+ {
+ /* Check if requested number of blocks can be allocated from the current block */
+ if (freePrbBlock->numFreePrb < numPrb)
+ {
+ freePrbNode = freePrbNode->next;
+ continue;
+ }
+ *startPrb = freePrbBlock->endPrb - numPrb +1;
+ break;
+ }
+ }
+
+ /* If no free block can be used to allocated request number of RBs */
+ if(*startPrb == MAX_NUM_RB)
+ return RFAILED;
+ }
+
+ /* If startPrb is known already, check if requested PRBs are available for allocation */
+ else
+ {
+ freePrbNode = isPrbAvailable(&prbAlloc->freePrbBlockList, *startPrb, numPrb);
+ if(!freePrbNode)
+ {
+ DU_LOG("\nERROR --> SCH: Requested DL PRB unavailable");
+ return RFAILED;
+ }
+ }
+
+ /* Update bitmap to allocate PRBs */
+ for(symbol=startSymbol; symbol < (startSymbol+symbolLength); symbol++)
+ {
+ if(fillPrbBitmap(prbAlloc->prbBitMap[symbol], *startPrb, numPrb) != ROK)
+ {
+ DU_LOG("\nERROR --> SCH: fillPrbBitmap() failed for symbol [%d] in DL", symbol);
+ return RFAILED;
+ }
+ }
+
+ /* Update the remaining number for free PRBs */
+ removeAllocatedPrbFromFreePrbList(&prbAlloc->freePrbBlockList, freePrbNode, *startPrb, numPrb);
+
+ return ROK;
+}
+
+/*******************************************************************
+ *
+ * @brief Allocates requested PRBs for UL
+ *
+ * @details
+ *
+ * Function : allocatePrbUl
+ *
+ * Functionality:
+ * Allocates requested PRBs in UL
+ * Keeps track of allocated PRB (using bitmap) and remaining PRBs
+ *
+ * @params[in] prbAlloc table
+ * Start symbol
+ * Number of symbols
+ * Start PRB
+ * Number of PRBs
+ *
+ * @return ROK - success
+ * RFAILED - failure
+ *
+ * ****************************************************************/
+uint8_t allocatePrbUl(SchCellCb *cell, SlotTimingInfo slotTime, \
+ uint8_t startSymbol, uint8_t symbolLength, uint16_t *startPrb, uint16_t numPrb)
+{
+ uint8_t symbol = 0;
+ uint16_t prachStartPrb, prachNumPrb, prachEndPrb;
+ bool isPrachOccasion;
+ FreePrbBlock *freePrbBlock = NULLP;
+ CmLList *freePrbNode = NULLP;
+ SchPrbAlloc *prbAlloc = NULLP;
+
+ if(cell == NULLP)
+ {
+ DU_LOG("\nERROR --> SCH : allocatePrbUl(): Received cellCb is null");
+ return RFAILED;
+ }
+
+ prbAlloc = &cell->schUlSlotInfo[slotTime.slot]->prbAlloc;
+ /* If startPrb is set to MAX_NUM_RB, it means startPrb is not known currently.
+ * Search for an appropriate location in PRB grid and allocate requested resources */
+ if(*startPrb == MAX_NUM_RB)
+ {
+ /* Check if PRACH is also scheduled in this slot */
+ isPrachOccasion = schCheckPrachOcc(cell, slotTime);
+ if(isPrachOccasion)
+ {
+ prachStartPrb = cell->cellCfg.schRachCfg.msg1FreqStart;
+ prachNumPrb = schCalcPrachNumRb(cell);
+ prachEndPrb = prachStartPrb + prachNumPrb -1;
+ }
+
+ /* Iterate through all free PRB blocks */
+ freePrbNode = prbAlloc->freePrbBlockList.first;
+ while(freePrbNode)
+ {
+ freePrbBlock = (FreePrbBlock *)freePrbNode->node;
+
+ /* If PRACH is scheduled in this slot, then check if its PRBs belong to the current free block.
+ * PRBs required for PRACH cannot be allocated to any other message */
+ if((isPrachOccasion) &&
+ ((prachStartPrb >= freePrbBlock->startPrb) && (prachStartPrb <= freePrbBlock->endPrb)) &&
+ ((prachEndPrb >= freePrbBlock->startPrb) && (prachEndPrb <= freePrbBlock->endPrb)))
+ {
+ /* Implmentation is done such that highest-numbered free-RB is allocated first */
+ if((freePrbBlock->endPrb > prachEndPrb) && ((freePrbBlock->endPrb - prachEndPrb) >= numPrb))
+ {
+ /* If sufficient free PRBs are available above PRACH message then,
+ * endPrb = freePrbBlock->endPrb
+ * startPrb = endPrb - numPrb +1;
+ */
+ *startPrb = freePrbBlock->endPrb - numPrb +1;
+ break;
+ }
+ else if((prachStartPrb > freePrbBlock->startPrb) && ((prachStartPrb - freePrbBlock->startPrb) >= numPrb))
+ {
+ /* If free PRBs are available below PRACH message then,
+ * endPrb = prachStartPrb - 1
+ * startPrb = endPrb - numPrb +1
+ */
+ *startPrb = prachStartPrb - numPrb;
+ break;
+ }
+ else
+ {
+ freePrbNode = freePrbNode->next;
+ continue;
+ }
+ }
+ else
+ {
+ /* Check if requested number of PRBs can be allocated from currect block */
+ if(freePrbBlock->numFreePrb < numPrb)
+ {
+ freePrbNode = freePrbNode->next;
+ continue;
+ }
+ *startPrb = freePrbBlock->endPrb - numPrb +1;
+ break;
+ }
+ }
+
+ /* If no free block can be used to allocated requested number of RBs */
+ if(*startPrb == MAX_NUM_RB)
+ return RFAILED;
+ }
+ else
+ {
+ /* If startPrb is known already, check if requested PRBs are available for allocation */
+ freePrbNode = isPrbAvailable(&prbAlloc->freePrbBlockList, *startPrb, numPrb);
+ if(!freePrbNode)
+ {
+ DU_LOG("\nERROR --> SCH: Requested UL PRB unavailable");
+ return RFAILED;
+ }
+ }
+
+ /* Update bitmap to allocate PRBs */
+ for(symbol=startSymbol; symbol < (startSymbol+symbolLength); symbol++)
+ {
+ if(fillPrbBitmap(prbAlloc->prbBitMap[symbol], *startPrb, numPrb) != ROK)
+ {
+ DU_LOG("\nERROR --> SCH: fillPrbBitmap() failed for symbol [%d] in UL", symbol);
+ return RFAILED;
+ }
+ }
+
+ /* Update the remaining number for free PRBs */
+ removeAllocatedPrbFromFreePrbList(&prbAlloc->freePrbBlockList, freePrbNode, *startPrb, numPrb);
+
+ return ROK;
+}
+
+/*******************************************************************
+ *
+ * @brief Add UE to ueToBeScheduled List
+ *
+ * @details
+ *
+ * Function : addUeToBeScheduled
+ *
+ * Functionality:
+ * Search if UE entry present in the list
+ * If yes, return.
+ * If no, add UE to the list
+ *
+ * @params[in] Cell control block
+ * Ue Idx to be added
+ *
+ * @return ROK - success
+ * RFAILED - failure
+ *
+ * ****************************************************************/
+uint8_t addUeToBeScheduled(SchCellCb *cell, uint8_t ueIdToAdd)
+{
+ uint8_t *ueId;
+ CmLList *node;
+
+ /* Search if UE entry is already present in ueToBeScheduled list.
+ * If yes, another entry for same UE not needed. Hence, return */
+ node = cell->ueToBeScheduled.first;
+ while(node)
+ {
+ ueId = (uint8_t *)node->node;
+ if(*ueId == ueIdToAdd)
+ return ROK;
+ node = node->next;
+ }
+
+ /* If UE entry not present already, add UE to the end of ueToBeScheduled list */
+ SCH_ALLOC(ueId, sizeof(uint8_t));
+ if(!ueId)
+ {
+ DU_LOG("\nERROR --> SCH : Memory allocation failure in addUeToBeScheduled");
+ return RFAILED;
+ }
+ *ueId = ueIdToAdd;
+ if(addNodeToLList(&cell->ueToBeScheduled, ueId, NULLP) != ROK)
+ {
+ DU_LOG("\nERROR --> SCH : Failed to add UeIdx to cell->ueToBeScheduled list");
+ return RFAILED;
+ }
+ return ROK;
+}
+
+/*******************************************************************************
+ *
+ * @brief Try to find Best Free Block with Max Num PRB
+ *
+ * @details
+ *
+ * Function : searchLargestFreeBlock
+ *
+ * Functionality:
+ * Finds the FreeBlock with MaxNum of FREE PRB considering SSB/SIB1 ocassions.
+ *
+ * @params[in] I/P > prbAlloc table (FreeBlock list)
+ * I/P > Slot timing Info
+ * O/P > Start PRB
+ * I/P > Direction (UL/DL)
+ *
+ *
+ * @return Max Number of Free PRB
+ * If 0, then no Suitable Free Block
+ *
+ * ********************************************************************************/
+
+uint16_t searchLargestFreeBlock(SchCellCb *cell, SlotTimingInfo slotTime,uint16_t *startPrb, Direction dir)
+{
+ uint16_t reservedPrbStart=0, reservedPrbEnd=0, maxFreePRB = 0;
+ FreePrbBlock *freePrbBlock = NULLP;
+ CmLList *freePrbNode = NULLP;
+ SchPrbAlloc *prbAlloc = NULLP;
+ bool checkOccasion = FALSE;
+
+ *startPrb = 0; /*Initialize the StartPRB to zero*/
+
+ /*Based on Direction, Reserved Messsages will differi.e.
+ * DL >> SSB and SIB1 ocassions wheres for UL, PRACH ocassions to be checked
+ * and reserved before allocation for dedicated DL/UL msg*/
+ if(dir == DIR_DL)
+ {
+ SchDlSlotInfo *schDlSlotInfo = cell->schDlSlotInfo[slotTime.slot];
+ PduTxOccsaion ssbOccasion=0, sib1Occasion=0;
+
+ prbAlloc = &schDlSlotInfo->prbAlloc;
+
+ ssbOccasion = schCheckSsbOcc(cell, slotTime);
+ sib1Occasion = schCheckSib1Occ(cell, slotTime);
+
+ checkOccasion = TRUE;
+ if(ssbOccasion && sib1Occasion)
+ {
+ reservedPrbStart = cell->cellCfg.ssbSchCfg.ssbOffsetPointA;
+ reservedPrbEnd = reservedPrbStart + SCH_SSB_NUM_PRB + \
+ cell->cellCfg.sib1SchCfg.sib1PdschCfg.pdschFreqAlloc.freqAlloc.numPrb -1;
+ }
+ else if(ssbOccasion)
+ {
+ reservedPrbStart = cell->cellCfg.ssbSchCfg.ssbOffsetPointA;
+ reservedPrbEnd = reservedPrbStart + SCH_SSB_NUM_PRB -1;
+ }
+ else if(sib1Occasion)
+ {
+ reservedPrbStart = cell->cellCfg.sib1SchCfg.sib1PdschCfg.pdschFreqAlloc.freqAlloc.startPrb;
+ reservedPrbEnd = reservedPrbStart + cell->cellCfg.sib1SchCfg.sib1PdschCfg.pdschFreqAlloc.freqAlloc.numPrb -1;
+ }
+ else
+ {
+ checkOccasion = FALSE;
+ }
+ }
+ else if(dir == DIR_UL)
+ {
+ prbAlloc = &cell->schUlSlotInfo[slotTime.slot]->prbAlloc;
+
+ /* Check if PRACH is also scheduled in this slot */
+ checkOccasion = schCheckPrachOcc(cell, slotTime);
+ if(checkOccasion)
+ {
+ reservedPrbStart = cell->cellCfg.schRachCfg.msg1FreqStart;
+ reservedPrbEnd = reservedPrbStart + (schCalcPrachNumRb(cell)) -1;
+ }
+ }
+ else
+ {
+ DU_LOG("\nERROR --> SCH: Invalid Direction!");
+ return (maxFreePRB);
+ }
+
+ freePrbNode = prbAlloc->freePrbBlockList.first;
+ while(freePrbNode)
+ {
+ freePrbBlock = (FreePrbBlock *)freePrbNode->node;
+
+ /*For block with same numFreeBlocks, choose the one with HighestPRB range
+ *Since FreeBLockList are arranged in Descending order of PRB range thus Skipping this block*/
+ if(maxFreePRB >= freePrbBlock->numFreePrb)
+ {
+ //skip this block
+ freePrbNode = freePrbNode->next;
+ continue;
+ }
+
+ /* If Broadcast/Prach message is scheduled in this slot, then check if its PRBs belong to the current free block.
+ * Since SSB/SIB1 PRB location is fixed, these PRBs cannot be allocated to other message in same slot */
+ if(checkOccasion &&
+ ((reservedPrbStart >= freePrbBlock->startPrb) && (reservedPrbStart <= freePrbBlock->endPrb)) && \
+ ((reservedPrbEnd >= freePrbBlock->startPrb) && (reservedPrbEnd <= freePrbBlock->endPrb)))
+ {
+
+ /* Implmentation is done such that highest-numbered free-RB is Checked first
+ and freePRB in this block is greater than Max till now */
+ if((freePrbBlock->endPrb > reservedPrbEnd) && ((freePrbBlock->endPrb - reservedPrbEnd) > maxFreePRB))
+ {
+ /* If sufficient free PRBs are available above reserved message*/
+ *startPrb = reservedPrbEnd + 1;
+ maxFreePRB = (freePrbBlock->endPrb - reservedPrbEnd);
+ }
+ /*Also check the other freeBlock (i.e. Above the reserved message) for MAX FREE PRB*/
+ if((reservedPrbStart > freePrbBlock->startPrb) && ((reservedPrbStart - freePrbBlock->startPrb) > maxFreePRB))
+ {
+ /* If free PRBs are available below reserved message*/
+ *startPrb = freePrbBlock->startPrb;
+ maxFreePRB = (reservedPrbStart - freePrbBlock->startPrb);
+ }
+ }
+ else //Best Block
+ {
+ if(maxFreePRB < freePrbBlock->numFreePrb)
+ {
+ *startPrb = freePrbBlock->startPrb;
+ maxFreePRB = freePrbBlock->numFreePrb;
+ }
+
+ }
+ freePrbNode = freePrbNode->next;
+ }
+ return(maxFreePRB);
+}
+
+/*******************************************************************************
+ *
+ * @brief This function is used to send Slice Cfg rsp to MAC
+ *
+ * @details
+ *
+ * Function : SchSendSliceCfgRspToMac
+ *
+ * Functionality:
+ * function is used to send Slice Cfg rsp to MAC
+ *
+ * @params[in] Pst *pst, SchSliceCfgRsp sliceCfgRsp
+ *
+ * @return- void
+ *
+ * ********************************************************************************/
+void SchSendSliceCfgRspToMac(Inst inst, SchSliceCfgRsp sliceCfgRsp)
+{
+ Pst rspPst;
+
+ memset(&rspPst, 0, sizeof(Pst));
+ FILL_PST_SCH_TO_MAC(rspPst, inst);
+ rspPst.event = EVENT_SLICE_CFG_RSP_TO_MAC;
+
+ SchSliceCfgRspOpts[rspPst.selector](&rspPst, &sliceCfgRsp);
+
+}
+/*******************************************************************************
+ *
+ * @brief fill slice configuration response
+ *
+ * @details
+ *
+ * Function : fillSliceCfgRsp
+ *
+ * Functionality:
+ * fill slice configuration response
+ *
+ * @params[in] SchCellCb, SchSliceCfgReq, SchSliceCfgRsp,uint8_t count
+ *
+ * @return
+ * ROK - Success
+ * RFAILED - Failure
+ *
+ * ********************************************************************************/
+uint8_t fillSliceCfgRsp(bool sliceReCfg, SchSliceCfg *storedSliceCfg, SchCellCb *cellCb, SchSliceCfgReq *schSliceCfgReq, SchSliceCfgRsp *schSliceCfgRsp, uint8_t *count)
+{
+ bool sliceFound = false;
+ uint8_t cfgIdx = 0, sliceIdx = 0;
+
+ schSliceCfgRsp->numSliceCfgRsp = schSliceCfgReq->numOfConfiguredSlice;
+ SCH_ALLOC(schSliceCfgRsp->listOfSliceCfgRsp, schSliceCfgRsp->numSliceCfgRsp * sizeof(SliceRsp*));
+ if(schSliceCfgRsp->listOfSliceCfgRsp == NULLP)
+ {
+ DU_LOG("\nERROR --> SCH : Memory allocation failed at fillSliceCfgRsp");
+ return RFAILED;
+ }
+
+ for(cfgIdx = 0; cfgIdx<schSliceCfgRsp->numSliceCfgRsp ; cfgIdx++)
+ {
+ sliceFound = false;
+ /* Here comparing the slice cfg request with the slice stored in cellCfg */
+ if(sliceReCfg != true)
+ {
+ for(sliceIdx = 0; sliceIdx<cellCb->cellCfg.plmnInfoList.numSliceSupport; sliceIdx++)
+ {
+ if(!memcmp(&schSliceCfgReq->listOfConfirguration[cfgIdx]->snssai, cellCb->cellCfg.plmnInfoList.snssai[sliceIdx], sizeof(Snssai)))
+ {
+ (*count)++;
+ sliceFound = true;
+ break;
+ }
+ }
+ }
+ else
+ {
+ /* Here comparing the slice cfg request with the slice stored in SchDb */
+ if(storedSliceCfg->listOfConfirguration)
+ {
+ for(sliceIdx = 0; sliceIdx<storedSliceCfg->numOfSliceConfigured; sliceIdx++)
+ {
+ if(!memcmp(&schSliceCfgReq->listOfConfirguration[cfgIdx]->snssai, &storedSliceCfg->listOfConfirguration[sliceIdx]->snssai,\
+ sizeof(Snssai)))
+ {
+ (*count)++;
+ sliceFound = true;
+ break;
+ }
+ }
+ }
+ }
+
+ SCH_ALLOC(schSliceCfgRsp->listOfSliceCfgRsp[cfgIdx], sizeof(SliceRsp));
+ if(schSliceCfgRsp->listOfSliceCfgRsp[cfgIdx] == NULLP)
+ {
+ DU_LOG("\nERROR --> SCH : Failed to allocate memory in fillSliceCfgRsp");
+ return RFAILED;
+ }
+
+
+ schSliceCfgRsp->listOfSliceCfgRsp[cfgIdx]->snssai = schSliceCfgReq->listOfConfirguration[cfgIdx]->snssai;
+ if(sliceFound == true)
+ schSliceCfgRsp->listOfSliceCfgRsp[cfgIdx]->rsp = RSP_OK;
+ else
+ {
+ schSliceCfgRsp->listOfSliceCfgRsp[cfgIdx]->rsp = RSP_NOK;
+ schSliceCfgRsp->listOfSliceCfgRsp[cfgIdx]->cause = SLICE_NOT_FOUND;
+ }
+ }
+ return ROK;
+}
+
+/*******************************************************************************
+ *
+ * @brief This function is used to store the slice configuration Sch DB
+ *
+ * @details
+ *
+ * Function : addSliceCfgInSchDb
+ *
+ * Functionality:
+ * function is used to store the slice configuration Sch DB
+ *
+ * @params[in] SchSliceCfg *storeSliceCfg, SchSliceCfgReq *cfgReq,
+ * SchSliceCfgRsp cfgRsp, uint8_t count
+ *
+ * @return
+ * ROK - Success
+ * RFAILED - Failure
+ *
+ * ********************************************************************************/
+uint8_t addSliceCfgInSchDb(SchSliceCfg *storeSliceCfg, SchSliceCfgReq *cfgReq, SchSliceCfgRsp cfgRsp, uint8_t count)
+{
+ uint8_t cfgIdx = 0, sliceIdx = 0;
+
+ if(count)
+ {
+ storeSliceCfg->numOfSliceConfigured = count;
+ SCH_ALLOC(storeSliceCfg->listOfConfirguration, storeSliceCfg->numOfSliceConfigured * sizeof(SchRrmPolicyOfSlice*));
+ if(storeSliceCfg->listOfConfirguration == NULLP)
+ {
+ DU_LOG("\nERROR --> SCH : Failed to allocate memory in addSliceCfgInSchDb");
+ return RFAILED;
+ }
+
+ for(cfgIdx = 0; cfgIdx<storeSliceCfg->numOfSliceConfigured; cfgIdx++)
+ {
+ if(cfgRsp.listOfSliceCfgRsp[cfgIdx]->rsp == RSP_OK)
+ {
+ SCH_ALLOC(storeSliceCfg->listOfConfirguration[sliceIdx], sizeof(SchRrmPolicyOfSlice));
+ if(storeSliceCfg->listOfConfirguration[sliceIdx] == NULLP)
+ {
+ DU_LOG("\nERROR --> SCH : Failed to allocate memory in addSliceCfgInSchDb");
+ return RFAILED;
+ }
+
+ SCH_ALLOC(storeSliceCfg->listOfConfirguration[sliceIdx]->rrmPolicyRatioInfo, sizeof(SchRrmPolicyRatio));
+ if(storeSliceCfg->listOfConfirguration[sliceIdx]->rrmPolicyRatioInfo == NULLP)
+ {
+ DU_LOG("\nERROR --> SCH : Failed to allocate memory in addSliceCfgInSchDb");
+ return RFAILED;
+ }
+
+ memcpy(storeSliceCfg->listOfConfirguration[sliceIdx], cfgReq->listOfConfirguration[sliceIdx], sizeof(SchRrmPolicyOfSlice));
+ sliceIdx++;
+ }
+ }
}
return ROK;
}
+
+/*******************************************************************************
+ *
+ * @brief This function is used to free the slice cfg and re cfg request pointer
+ *
+ * @details
+ *
+ * Function : freeSchSliceCfgReq
+ *
+ * Functionality:
+ * function is used to free the slice cfg and re cfg request pointer
+ *
+ * @params[in] Pst *pst, SchSliceCfgReq *schSliceCfgReq
+ *
+ * @return
+ * ROK - Success
+ * RFAILED - Failure
+ * ********************************************************************************/
+void freeSchSliceCfgReq(SchSliceCfgReq *cfgReq)
+{
+ uint8_t cfgIdx = 0;
+
+ if(cfgReq)
+ {
+ if(cfgReq->numOfConfiguredSlice)
+ {
+ for(cfgIdx = 0; cfgIdx<cfgReq->numOfConfiguredSlice; cfgIdx++)
+ {
+ if(cfgReq->listOfConfirguration[cfgIdx])
+ {
+ SCH_FREE(cfgReq->listOfConfirguration[cfgIdx]->rrmPolicyRatioInfo, sizeof(SchRrmPolicyRatio));
+ SCH_FREE(cfgReq->listOfConfirguration[cfgIdx], sizeof(SchRrmPolicyOfSlice));
+ }
+ }
+ SCH_FREE(cfgReq->listOfConfirguration, cfgReq->numOfConfiguredSlice * sizeof(SchRrmPolicyOfSlice*));
+ }
+ SCH_FREE(cfgReq, sizeof(SchSliceCfgReq));
+ }
+}
+/*******************************************************************************
+ *
+ * @brief This function is used to store the slice configuration Sch DB
+ *
+ * @details
+ *
+ * Function : MacSchSliceCfgReq
+ *
+ * Functionality:
+ * function is used to store the slice configuration Sch DB
+ *
+ * @params[in] Pst *pst, SchSliceCfgReq *schSliceCfgReq
+ *
+ * @return
+ * ROK - Success
+ * RFAILED - Failure
+ *
+ * ********************************************************************************/
+uint8_t MacSchSliceCfgReq(Pst *pst, SchSliceCfgReq *schSliceCfgReq)
+{
+ uint8_t count = 0;
+ Inst inst = pst->dstInst - 1;
+ SchSliceCfgRsp sliceCfgRsp;
+
+ DU_LOG("\nINFO --> SCH : Received Slice Cfg request from MAC");
+ if(schSliceCfgReq)
+ {
+ if(schSliceCfgReq->listOfConfirguration)
+ {
+ /* filling the slice configuration response of each slice */
+ if(fillSliceCfgRsp(false, NULLP, schCb[inst].cells[0], schSliceCfgReq, &sliceCfgRsp, &count) != ROK)
+ {
+ DU_LOG("\nERROR --> SCH : Failed to fill the slice cfg rsp");
+ return RFAILED;
+ }
+
+ if(addSliceCfgInSchDb(&schCb[inst].sliceCfg, schSliceCfgReq, sliceCfgRsp, count) != ROK)
+ {
+ DU_LOG("\nERROR --> SCH : Failed to add slice cfg in sch database");
+ return RFAILED;
+ }
+ freeSchSliceCfgReq(schSliceCfgReq);
+ SchSendSliceCfgRspToMac(inst, sliceCfgRsp);
+ }
+ }
+ else
+ {
+ DU_LOG("\nERROR --> SCH : Received SchSliceCfgReq is NULL");
+ }
+ return ROK;
+}
+
+/*******************************************************************************
+ *
+ * @brief This function is used to store the slice reconfiguration Sch DB
+ *
+ * @details
+ *
+ * Function : modifySliceCfgInSchDb
+ *
+ * Functionality:
+ * function is used to store the slice re configuration Sch DB
+ *
+ * @params[in] Pst *pst, SchSliceCfgReq *schSliceCfgReq
+ *
+ * @return
+ * ROK - Success
+ * RFAILED - Failure
+ *
+ * ********************************************************************************/
+uint8_t modifySliceCfgInSchDb(SchSliceCfg *storeSliceCfg, SchSliceCfgReq *cfgReq, SchSliceCfgRsp cfgRsp, uint8_t count)
+{
+ uint8_t cfgIdx = 0, sliceIdx = 0;
+
+ if(count)
+ {
+ if(storeSliceCfg->listOfConfirguration == NULLP)
+ {
+ DU_LOG("\nINFO --> SCH : Memory allocation failed in modifySliceCfgInSchDb");
+ return RFAILED;
+ }
+
+ for(cfgIdx = 0; cfgIdx<cfgReq->numOfConfiguredSlice; cfgIdx++)
+ {
+ if(cfgRsp.listOfSliceCfgRsp[cfgIdx]->rsp == RSP_OK)
+ {
+ for(sliceIdx = 0; sliceIdx<storeSliceCfg->numOfSliceConfigured; sliceIdx++)
+ {
+ if(!memcmp(&storeSliceCfg->listOfConfirguration[sliceIdx]->snssai, &cfgReq->listOfConfirguration[cfgIdx]->snssai, sizeof(Snssai)))
+ {
+ storeSliceCfg->listOfConfirguration[sliceIdx]->rrmPolicyRatioInfo = cfgReq->listOfConfirguration[cfgIdx]->rrmPolicyRatioInfo;
+ break;
+ }
+ }
+ }
+ }
+ }
+ freeSchSliceCfgReq(cfgReq);
+ return ROK;
+}
+/*******************************************************************************
+ *
+ * @brief This function is used to send Slice re Cfg rsp to MAC
+ *
+ * @details
+ *
+ * Function : SchSendSliceCfgRspToMac
+ *
+ * Functionality:
+ * function is used to send Slice re Cfg rsp to MAC
+ *
+ * @params[in] Pst *pst, SchSliceCfgRsp schSliceReCfgRsp
+ *
+ * @return- void
+ *
+ * ********************************************************************************/
+void SchSendSliceReCfgRspToMac(Inst inst, SchSliceCfgRsp schSliceReCfgRsp)
+{
+ Pst rspPst;
+
+ memset(&rspPst, 0, sizeof(Pst));
+ FILL_PST_SCH_TO_MAC(rspPst, inst);
+ rspPst.event = EVENT_SLICE_RECFG_RSP_TO_MAC;
+
+ SchSliceReCfgRspOpts[rspPst.selector](&rspPst, &schSliceReCfgRsp);
+}
+/*******************************************************************************
+ *
+ * @brief This function is used to store the slice reconfiguration Sch DB
+ *
+ * @details
+ *
+ * Function : MacSchSliceReCfgReq
+ *
+ * Functionality:
+ * function is used to store the slice re configuration Sch DB
+ *
+ * @params[in] Pst *pst, SchSliceCfgReq *schSliceReCfgReq
+ *
+ * @return
+ * ROK - Success
+ * RFAILED - Failure
+ *
+ * ********************************************************************************/
+uint8_t MacSchSliceReCfgReq(Pst *pst, SchSliceCfgReq *schSliceReCfgReq)
+{
+ uint8_t count = 0;
+ Inst inst = pst->dstInst - 1;
+ SchSliceCfgRsp schSliceReCfgRsp;
+
+ DU_LOG("\nINFO --> SCH : Received Slice ReCfg request from MAC");
+ if(schSliceReCfgReq)
+ {
+ if(schSliceReCfgReq->listOfConfirguration)
+ {
+ /* filling the slice configuration response of each slice */
+ if(fillSliceCfgRsp(true, &schCb[inst].sliceCfg, NULLP, schSliceReCfgReq, &schSliceReCfgRsp, &count) != ROK)
+ {
+ DU_LOG("\nERROR --> SCH : Failed to fill sch slice cfg response");
+ return RFAILED;
+ }
+
+ /* Modify the slice configuration stored in schCb */
+ if(modifySliceCfgInSchDb(&schCb[inst].sliceCfg, schSliceReCfgReq, schSliceReCfgRsp, count) != ROK)
+ {
+ DU_LOG("\nERROR --> SCH : Failed to modify slice cfg of SchDb");
+ return RFAILED;
+ }
+ SchSendSliceReCfgRspToMac(inst, schSliceReCfgRsp);
+ }
+ }
+ else
+ {
+ DU_LOG("\nERROR --> SCH : Received SchSliceCfgReq is NULL");
+ }
+ return ROK;
+}
+
/**********************************************************************
End of file
**********************************************************************/