/******************************************************************************* ################################################################################ # 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: sch.c Type: C source file Desc: C source code for scheduler fucntions File: sch.c **********************************************************************/ /** @file sch.c @brief This file implements the schedulers main access to MAC layer code. */ #include "common_def.h" #include "du_app_mac_inf.h" #include "lrg.h" #include "tfu.h" #include "du_log.h" #include "rgr.h" #include "rg_sch_inf.h" #include "rg_sch.h" #include "tfu.x" /* TFU types */ #include "lrg.x" /* layer management typedefs for MAC */ #include "rgr.x" /* layer management typedefs for MAC */ #include "rg_sch_inf.x" /* typedefs for Scheduler */ #include "mac_sch_interface.h" #include "sch.h" #include "sch_utils.h" SchCb schCb[SCH_MAX_INST]; void SchFillCfmPst(Pst *reqPst,Pst *cfmPst,RgMngmt *cfm); /* local defines */ SchCellCfgCfmFunc SchCellCfgCfmOpts[] = { packSchCellCfgCfm, /* LC */ MacProcSchCellCfgCfm, /* TC */ packSchCellCfgCfm /* LWLC */ }; /** * @brief Task Initiation function. * * @details * * Function : schActvInit * * This function is supplied as one of parameters during MAC's * task registration. MAC will invoke this function once, after * it creates and attaches this TAPA Task to a system task. * * @param[in] Ent Entity, the entity ID of this task. * @param[in] Inst Inst, the instance ID of this task. * @param[in] Region Region, the region ID registered for memory * usage of this task. * @param[in] Reason Reason. * @return int * -# ROK **/ uint8_t schActvInit(Ent entity, Inst instId, Region region, Reason reason) { Inst inst = (instId - SCH_INST_START); /* Initialize the MAC TskInit structure to zero */ memset ((uint8_t *)&schCb[inst], 0, sizeof(schCb)); /* Initialize the MAC TskInit with received values */ schCb[inst].schInit.ent = entity; schCb[inst].schInit.inst = inst; schCb[inst].schInit.region = region; schCb[inst].schInit.pool = 0; schCb[inst].schInit.reason = reason; schCb[inst].schInit.cfgDone = FALSE; schCb[inst].schInit.acnt = FALSE; schCb[inst].schInit.usta = FALSE; schCb[inst].schInit.trc = FALSE; schCb[inst].schInit.procId = ODU_GET_PROCID(); return ROK; } /* schActvInit */ /** * @brief Scheduler instance Configuration Handler. * * @details * * Function : SchInstCfg * * This function in called by SchProcGenCfgReq(). It handles the * general configurations of the scheduler instance. Returns * reason for success/failure of this function. * * @param[in] RgCfg *cfg, the Configuaration information * @return uint16_t * -# LCM_REASON_NOT_APPL * -# LCM_REASON_INVALID_MSGTYPE * -# LCM_REASON_MEM_NOAVAIL **/ uint8_t SchInstCfg(RgCfg *cfg, Inst dInst) { uint16_t ret = LCM_REASON_NOT_APPL; Inst inst = (dInst - SCH_INST_START); DU_LOG("\nDEBUG --> SCH : Entered SchInstCfg()"); /* Check if Instance Configuration is done already */ if (schCb[inst].schInit.cfgDone == TRUE) { return LCM_REASON_INVALID_MSGTYPE; } /* Update the Pst structure for LM interface */ memcpy(&schCb[inst].schInit.lmPst, &cfg->s.schInstCfg.genCfg.lmPst, sizeof(Pst)); schCb[inst].schInit.inst = inst; schCb[inst].schInit.lmPst.srcProcId = schCb[inst].schInit.procId; schCb[inst].schInit.lmPst.srcEnt = schCb[inst].schInit.ent; schCb[inst].schInit.lmPst.srcInst = schCb[inst].schInit.inst + SCH_INST_START; schCb[inst].schInit.lmPst.event = EVTNONE; schCb[inst].schInit.region = cfg->s.schInstCfg.genCfg.mem.region; schCb[inst].schInit.pool = cfg->s.schInstCfg.genCfg.mem.pool; schCb[inst].genCfg.tmrRes = cfg->s.schInstCfg.genCfg.tmrRes; #ifdef LTE_ADV schCb[inst].genCfg.forceCntrlSrbBoOnPCel = cfg->s.schInstCfg.genCfg.forceCntrlSrbBoOnPCel; schCb[inst].genCfg.isSCellActDeactAlgoEnable = cfg->s.schInstCfg.genCfg.isSCellActDeactAlgoEnable; #endif schCb[inst].genCfg.startCellId = cfg->s.schInstCfg.genCfg.startCellId; /* Initialzie the timer queue */ memset(&schCb[inst].tmrTq, 0, sizeof(CmTqType) * SCH_TQ_SIZE); /* Initialize the timer control point */ memset(&schCb[inst].tmrTqCp, 0, sizeof(CmTqCp)); schCb[inst].tmrTqCp.tmrLen = RGSCH_TQ_SIZE; /* SS_MT_TMR needs to be enabled as schActvTmr needs instance information */ /* Timer Registration request to system services */ if (ODU_REG_TMR_MT(schCb[inst].schInit.ent, dInst, (int)schCb[inst].genCfg.tmrRes, schActvTmr) != ROK) { DU_LOG("\nERROR --> SCH : SchInstCfg(): Failed to " "register timer."); return (LCM_REASON_MEM_NOAVAIL); } /* Set Config done in TskInit */ schCb[inst].schInit.cfgDone = TRUE; DU_LOG("\nINFO --> SCH : Scheduler gen config done"); return ret; } /** * @brief Layer Manager Configuration request handler. * * @details * * Function : SchProcGenCfgReq * * This function handles the configuration * request received at scheduler instance from the Layer Manager. * -# Based on the cfg->hdr.elmId.elmnt value it invokes one of the * functions rgHdlGenCfg() or rgHdlSapCfg(). * -# Invokes RgMiLrgSchCfgCfm() to send back the confirmation to the LM. * * @param[in] Pst *pst, the post structure * @param[in] RgMngmt *cfg, the configuration parameter's structure * @return S16 * -# ROK **/ uint8_t SchProcGenCfgReq(Pst *pst, RgMngmt *cfg) { uint8_t ret = LCM_PRIM_OK; uint16_t reason = LCM_REASON_NOT_APPL; 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"); DU_LOG("\nERROR --> SCH : SchProcGenCfgReq(): " "pst->dstInst=%d SCH_INST_START=%d", pst->dstInst,SCH_INST_START); return ROK; } 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); memset(&cfm, 0, sizeof(RgMngmt)); #ifdef LMINT3 cfm.hdr.transId = cfg->hdr.transId; #endif cfm.hdr.elmId.elmnt = cfg->hdr.elmId.elmnt; switch(cfg->hdr.elmId.elmnt) { case STSCHINST: reason = SchInstCfg(&cfg->t.cfg,pst->dstInst ); break; default: ret = LCM_PRIM_NOK; reason = LCM_REASON_INVALID_ELMNT; DU_LOG("\nERROR --> SCH : Invalid Elmnt=%d", cfg->hdr.elmId.elmnt); break; } if (reason != LCM_REASON_NOT_APPL) { ret = LCM_PRIM_NOK; } cfm.cfm.status = ret; cfm.cfm.reason = reason; SchSendCfgCfm(&cfmPst, &cfm); /* SCH_FREE(pst->region, pst->pool, (Data *)cfg, sizeof(RgMngmt)); */ return ROK; }/*-- SchProcGenCfgReq --*/ /** * @brief slot indication from MAC to SCH. * * @details * * Function : MacSchSlotInd * * This API is invoked by PHY to indicate slot indication to Scheduler for * a cell. * * @param[in] Pst *pst * @param[in] SlotIndInfo *slotInd * @return S16 * -# ROK * -# RFAILED **/ uint8_t MacSchSlotInd(Pst *pst, SlotIndInfo *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; } /* MacSchSlotInd */ /******************************************************************* * * @brief Processes Rach indication from MAC * * @details * * Function : MacSchRachInd * * Functionality: * Processes Rach indication from MAC * * @params[in] * @return ROK - success * RFAILED - failure * * ****************************************************************/ 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; } /******************************************************************* * * @brief Processes CRC indication from MAC * * @details * * Function : MacSchCrcInd * * Functionality: * Processes CRC indication from MAC * * @params[in] Post structure * Crc Indication * @return ROK - success * RFAILED - failure * * ****************************************************************/ 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: DU_LOG("\nDEBUG --> SCH : Received CRC indication. CRC Status [FAILURE]"); break; case CRC_PASSED: DU_LOG("\nDEBUG --> SCH : Received CRC indication. CRC Status [PASS]"); break; default: DU_LOG("\nDEBUG --> SCH : Invalid CRC state %d", crcInd->crcInd[0]); return RFAILED; } return ROK; } #ifdef NR_TDD /** *@brief Returns TDD periodicity in micro seconds * * @details * * Function : schGetPeriodicityInMsec * * This API retunrs TDD periodicity in micro seconds * * @param[in] DlUlTxPeriodicity * @return periodicityInMsec * **/ uint16_t schGetPeriodicityInMsec(DlUlTxPeriodicity tddPeriod) { uint16_t periodicityInMsec = 0; switch(tddPeriod) { case TX_PRDCTY_MS_0P5: { periodicityInMsec = 500; break; } case TX_PRDCTY_MS_0P625: { periodicityInMsec = 625; break; } case TX_PRDCTY_MS_1: { periodicityInMsec = 1000; break; } case TX_PRDCTY_MS_1P25: { periodicityInMsec = 1250; break; } case TX_PRDCTY_MS_2: { periodicityInMsec = 2000; break; } case TX_PRDCTY_MS_2P5: { periodicityInMsec = 2500; break; } case TX_PRDCTY_MS_5: { periodicityInMsec = 5000; break; } case TX_PRDCTY_MS_10: { periodicityInMsec = 10000; break; } default: { DU_LOG("\nERROR --> SCH : Invalid DlUlTxPeriodicity:%d", tddPeriod); } } return periodicityInMsec; } /** * @brief init TDD slot config * * @details * * Function : schInitTddSlotCfg * * This API is invoked after receiving schCellCfg * * @param[in] schCellCb *cell * @param[in] SchCellCfg *schCellCfg * @return void **/ void schInitTddSlotCfg(SchCellCb *cell, SchCellCfg *schCellCfg) { uint16_t periodicityInMicroSec = 0; int8_t slotIdx, symbIdx; periodicityInMicroSec = schGetPeriodicityInMsec(schCellCfg->tddCfg.tddPeriod); cell->numSlotsInPeriodicity = (periodicityInMicroSec * pow(2, schCellCfg->numerology))/1000; cell->slotFrmtBitMap = 0; cell->symbFrmtBitMap = 0; for(slotIdx = cell->numSlotsInPeriodicity-1; slotIdx >= 0; slotIdx--) { symbIdx = 0; /* If the first and last symbol are the same, the entire slot is the same type */ if((schCellCfg->tddCfg.slotCfg[slotIdx][symbIdx] == schCellCfg->tddCfg.slotCfg[slotIdx][MAX_SYMB_PER_SLOT-1]) && schCellCfg->tddCfg.slotCfg[slotIdx][symbIdx] != FLEXI_SLOT) { switch(schCellCfg->tddCfg.slotCfg[slotIdx][symbIdx]) { case DL_SLOT: { /*BitMap to be set to 00 */ cell->slotFrmtBitMap = (cell->slotFrmtBitMap<<2); break; } case UL_SLOT: { /*BitMap to be set to 01 */ cell->slotFrmtBitMap = ((cell->slotFrmtBitMap<<2) | (UL_SLOT)); break; } default: DU_LOG("\nERROR --> SCH : Invalid slot Config in schInitTddSlotCfg"); } continue; } /* slot config is flexible. First set slotBitMap to 10 */ cell->slotFrmtBitMap = ((cell->slotFrmtBitMap<<2) | (FLEXI_SLOT)); /* Now set symbol bitmap */ for(symbIdx = MAX_SYMB_PER_SLOT-1; symbIdx >= 0; symbIdx--) { switch(schCellCfg->tddCfg.slotCfg[slotIdx][symbIdx]) { case DL_SLOT: { /*symbol BitMap to be set to 00 */ cell->symbFrmtBitMap = (cell->symbFrmtBitMap<<2); break; } case UL_SLOT: { /*symbol BitMap to be set to 01 */ cell->symbFrmtBitMap = ((cell->symbFrmtBitMap<<2) | (UL_SLOT)); break; } case FLEXI_SLOT: { /*symbol BitMap to be set to 10 */ cell->symbFrmtBitMap = ((cell->symbFrmtBitMap<<2) | (FLEXI_SLOT)); break; } default: DU_LOG("\nERROR --> SCH : Invalid slot Config in schInitTddSlotCfg"); } } } } #endif /** * @brief Fill SSB start symbol * * @details * * Function : fillSsbStartSymb * * This API stores SSB start index per beam * * @param[in] SchCellCb *cellCb * @return int * -# ROK * -# RFAILED **/ void fillSsbStartSymb(SchCellCb *cellCb) { uint8_t cnt, scs, symbIdx, ssbStartSymbArr[SCH_MAX_SSB_BEAM]; scs = cellCb->cellCfg.ssbSchCfg.scsCommon; memset(ssbStartSymbArr, 0, sizeof(SCH_MAX_SSB_BEAM)); symbIdx = 0; /* Determine value of "n" based on Section 4.1 of 3GPP TS 38.213 */ switch(scs) { case SCS_15KHZ: { if(cellCb->cellCfg.dlFreq <= 300000) cnt = 2;/* n = 0, 1 */ else cnt = 4; /* n = 0, 1, 2, 3 */ for(uint8_t idx=0; idxcellCfg.dlFreq <= 300000) cnt = 1;/* n = 0 */ else cnt = 2; /* n = 0, 1 */ for(uint8_t idx=0; idx SCH : SCS %d is currently not supported", scs); } memset(cellCb->ssbStartSymbArr, 0, sizeof(SCH_MAX_SSB_BEAM)); memcpy(cellCb->ssbStartSymbArr, ssbStartSymbArr, SCH_MAX_SSB_BEAM); } /** * @brief init cellCb based on cellCfg * * @details * * Function : schInitCellCb * * This API is invoked after receiving schCellCfg * * @param[in] schCellCb *cell * @param[in] SchCellCfg *schCellCfg * @return int * -# ROK * -# RFAILED **/ uint8_t schInitCellCb(Inst inst, SchCellCfg *schCellCfg) { SchCellCb *cell= NULLP; SCH_ALLOC(cell, sizeof(SchCellCb)); if(!cell) { DU_LOG("\nERROR --> SCH : Memory allocation failed in schInitCellCb"); return RFAILED; } cell->cellId = schCellCfg->cellId; cell->instIdx = inst; switch(schCellCfg->numerology) { case SCH_NUMEROLOGY_0: { cell->numSlots = SCH_MU0_NUM_SLOTS; } break; case SCH_NUMEROLOGY_1: { cell->numSlots = SCH_MU1_NUM_SLOTS; } break; case SCH_NUMEROLOGY_2: { cell->numSlots = SCH_MU2_NUM_SLOTS; } break; case SCH_NUMEROLOGY_3: { cell->numSlots = SCH_MU3_NUM_SLOTS; } break; case SCH_NUMEROLOGY_4: { cell->numSlots = SCH_MU4_NUM_SLOTS; } break; default: DU_LOG("\nERROR --> SCH : Numerology %d not supported", schCellCfg->numerology); } #ifdef NR_TDD schInitTddSlotCfg(cell, schCellCfg); #endif SCH_ALLOC(cell->schDlSlotInfo, cell->numSlots * sizeof(SchDlSlotInfo*)); if(!cell->schDlSlotInfo) { DU_LOG("\nERROR --> SCH : Memory allocation failed in schInitCellCb for schDlSlotInfo"); return RFAILED; } SCH_ALLOC(cell->schUlSlotInfo, cell->numSlots * sizeof(SchUlSlotInfo*)); if(!cell->schUlSlotInfo) { DU_LOG("\nERROR --> SCH : Memory allocation failed in schInitCellCb for schUlSlotInfo"); return RFAILED; } for(uint8_t idx=0; idxnumSlots; idx++) { SchDlSlotInfo *schDlSlotInfo; SchUlSlotInfo *schUlSlotInfo; /* DL Alloc */ SCH_ALLOC(schDlSlotInfo, sizeof(SchDlSlotInfo)); if(!schDlSlotInfo) { DU_LOG("\nERROR --> SCH : Memory allocation failed in schInitCellCb"); return RFAILED; } /* UL Alloc */ SCH_ALLOC(schUlSlotInfo, sizeof(SchUlSlotInfo)); if(!schUlSlotInfo) { DU_LOG("\nERROR --> SCH : Memory allocation failed in schInitCellCb"); return RFAILED; } schInitDlSlot(schDlSlotInfo); schInitUlSlot(schUlSlotInfo); cell->schDlSlotInfo[idx] = schDlSlotInfo; cell->schUlSlotInfo[idx] = schUlSlotInfo; } cell->firstSsbTransmitted = false; cell->firstSib1Transmitted = false; fillSsbStartSymb(cell); schCb[inst].cells[inst] = cell; DU_LOG("\nINFO --> SCH : Cell init completed for cellId:%d", cell->cellId); return ROK; } /** * @brief Fill SIB1 configuration * * @details * * Function : fillSchSib1Cfg * * Fill SIB1 configuration * * @param[in] uint8_t bandwidth : total available bandwidth * uint8_t numSlots : total slots per SFN * SchSib1Cfg *sib1SchCfg : cfg to be filled * uint16_t pci : physical cell Id * uint8_t offsetPointA : offset * @return void **/ void fillSchSib1Cfg(uint8_t mu, uint8_t bandwidth, uint8_t numSlots, SchSib1Cfg *sib1SchCfg, uint16_t pci, uint8_t offsetPointA) { uint8_t coreset0Idx = 0; uint8_t searchSpace0Idx = 0; //uint8_t ssbMuxPattern = 0; uint8_t numRbs = 0; uint8_t numSymbols = 0; uint8_t offset = 0; uint8_t oValue = 0; //uint8_t numSearchSpacePerSlot = 0; uint8_t mValue = 0; uint8_t firstSymbol = 0; /* need to calculate using formula mentioned in 38.213 */ uint8_t slotIndex = 0; /* TODO : This should be filled through freqDomRscAllocType0() */ uint8_t FreqDomainResource[6] = {15, 0, 0, 0, 0, 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); PdschCfg *pdsch = &(sib1SchCfg->sib1PdschCfg); BwpCfg *bwp = &(sib1SchCfg->bwp); coreset0Idx = sib1SchCfg->coresetZeroIndex; searchSpace0Idx = sib1SchCfg->searchSpaceZeroIndex; /* derive the sib1 coreset0 params from table 13-1 spec 38.213 */ //ssbMuxPattern = coresetIdxTable[coreset0Idx][0]; numRbs = coresetIdxTable[coreset0Idx][1]; numSymbols = coresetIdxTable[coreset0Idx][2]; offset = coresetIdxTable[coreset0Idx][3]; /* derive the search space params from table 13-11 spec 38.213 */ oValue = searchSpaceIdxTable[searchSpace0Idx][0]; //numSearchSpacePerSlot = searchSpaceIdxTable[searchSpace0Idx][1]; mValue = searchSpaceIdxTable[searchSpace0Idx][2]; firstSymbol = searchSpaceIdxTable[searchSpace0Idx][3]; /* calculate the n0, need to add the formulae, as of now the value is 0 * Need to add the even and odd values of i during configuration * [(O . 2^u + i . M ) ] mod numSlotsPerSubframe * assuming u = 0, i = 0, numSlotsPerSubframe = 10 * Also, from this configuration, coreset0 is only on even subframe */ 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) { case BANDWIDTH_20MHZ: { bwp->freqAlloc.numPrb = TOTAL_PRB_20MHZ_MU0; } break; case BANDWIDTH_100MHZ: { bwp->freqAlloc.numPrb = TOTAL_PRB_100MHZ_MU1; } break; default: DU_LOG("\nERROR --> SCH : Bandwidth %d not supported", bandwidth); } bwp->freqAlloc.startPrb = 0; bwp->subcarrierSpacing = 0; /* 15Khz */ bwp->cyclicPrefix = 0; /* normal */ /* fill the PDCCH PDU */ pdcch->coresetCfg.coreSetSize = numRbs; pdcch->coresetCfg.startSymbolIndex = firstSymbol; pdcch->coresetCfg.durationSymbols = numSymbols; memcpy(pdcch->coresetCfg.freqDomainResource,FreqDomainResource,6); 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 */ pdcch->coresetCfg.coreSetType = 0; pdcch->coresetCfg.shiftIndex = pci; pdcch->coresetCfg.precoderGranularity = 0; /* sameAsRegBundle */ pdcch->numDlDci = 1; pdcch->dci.rnti = SI_RNTI; pdcch->dci.scramblingId = pci; pdcch->dci.scramblingRnti = 0; pdcch->dci.cceIndex = 0; pdcch->dci.aggregLevel = 4; pdcch->dci.beamPdcchInfo.numPrgs = 1; pdcch->dci.beamPdcchInfo.prgSize = 1; pdcch->dci.beamPdcchInfo.digBfInterfaces = 0; pdcch->dci.beamPdcchInfo.prg[0].pmIdx = 0; pdcch->dci.beamPdcchInfo.prg[0].beamIdx[0] = 0; pdcch->dci.txPdcchPower.powerValue = 0; pdcch->dci.txPdcchPower.powerControlOffsetSS = 0; /* Storing pdschCfg pointer here. Required to access pdsch config while fillig up pdcch pdu */ pdcch->dci.pdschCfg = pdsch; /* fill the PDSCH PDU */ uint8_t cwCount = 0; pdsch->pduBitmap = 0; /* PTRS and CBG params are excluded */ pdsch->rnti = 0xFFFF; /* SI-RNTI */ pdsch->pduIndex = 0; pdsch->numCodewords = 1; for(cwCount = 0; cwCount < pdsch->numCodewords; cwCount++) { pdsch->codeword[cwCount].targetCodeRate = 308; pdsch->codeword[cwCount].qamModOrder = 2; pdsch->codeword[cwCount].mcsIndex = sib1SchCfg->sib1Mcs; pdsch->codeword[cwCount].mcsTable = 0; /* notqam256 */ pdsch->codeword[cwCount].rvIndex = 0; tbSize = schCalcTbSize(sib1SchCfg->sib1PduLen + TX_PAYLOAD_HDR_LEN); pdsch->codeword[cwCount].tbSize = tbSize; } pdsch->dataScramblingId = pci; pdsch->numLayers = 1; pdsch->transmissionScheme = 0; pdsch->refPoint = 0; pdsch->dmrs.dlDmrsSymbPos = 4; /* Bitmap value 00000000000100 i.e. using 3rd symbol for PDSCH DMRS */ pdsch->dmrs.dmrsConfigType = 0; /* type-1 */ pdsch->dmrs.dlDmrsScramblingId = pci; pdsch->dmrs.scid = 0; pdsch->dmrs.numDmrsCdmGrpsNoData = 1; 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); 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->beamPdschInfo.numPrgs = 1; pdsch->beamPdschInfo.prgSize = 1; pdsch->beamPdschInfo.digBfInterfaces = 0; pdsch->beamPdschInfo.prg[0].pmIdx = 0; pdsch->beamPdschInfo.prg[0].beamIdx[0] = 0; pdsch->txPdschPower.powerControlOffset = 0; pdsch->txPdschPower.powerControlOffsetSS = 0; } /** * @brief cell config from MAC to SCH. * * @details * * Function : macSchCellCfgReq * * This API is invoked by MAC to send cell config to SCH * * @param[in] Pst *pst * @param[in] SchCellCfg *schCellCfg * @return int * -# ROK * -# RFAILED **/ uint8_t SchHdlCellCfgReq(Pst *pst, SchCellCfg *schCellCfg) { uint8_t ret = ROK; SchCellCb *cellCb; SchCellCfgCfm schCellCfgCfm; Pst rspPst; Inst inst = pst->dstInst-1; 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 cellCb->macInst = pst->srcInst; /* derive the SIB1 config parameters */ fillSchSib1Cfg(schCellCfg->numerology, schCellCfg->bandwidth, cellCb->numSlots, &(schCellCfg->sib1SchCfg), schCellCfg->phyCellId, schCellCfg->ssbSchCfg.ssbOffsetPointA); memcpy(&cellCb->cellCfg, schCellCfg, sizeof(SchCellCfg)); /* 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); /* Initializing global variables */ cellCb->actvUeBitMap = 0; cellCb->boIndBitMap = 0; /* Fill and send Cell config confirm */ memset(&rspPst, 0, sizeof(Pst)); FILL_PST_SCH_TO_MAC(rspPst, pst->dstInst); rspPst.event = EVENT_SCH_CELL_CFG_CFM; schCellCfgCfm.cellId = schCellCfg->cellId; schCellCfgCfm.rsp = RSP_OK; ret = (*SchCellCfgCfmOpts[rspPst.selector])(&rspPst, &schCellCfgCfm); return ret; } /******************************************************************* * * @brief Processes DL RLC BO info from MAC * * @details * * Function : MacSchDlRlcBoInfo * * Functionality: * Processes DL RLC BO info from MAC * * @params[in] * @return ROK - success * RFAILED - failure * * ****************************************************************/ uint8_t MacSchDlRlcBoInfo(Pst *pst, DlRlcBoInfo *dlBoInfo) { uint8_t lcId = 0; uint16_t ueIdx = 0; uint16_t slot; #ifdef NR_TDD uint16_t slotIdx = 0; #endif SchUeCb *ueCb = NULLP; SchCellCb *cell = NULLP; SchDlSlotInfo *schDlSlotInfo = NULLP; Inst inst = pst->dstInst-SCH_INST_START; #ifdef CALL_FLOW_DEBUG_LOG DU_LOG("\nCall Flow: ENTMAC -> ENTSCH : EVENT_DL_RLC_BO_INFO_TO_SCH\n"); #endif DU_LOG("\nDEBUG --> SCH : Received RLC BO Status indication"); cell = schCb[inst].cells[inst]; if(cell == NULLP) { DU_LOG("\nERROR --> SCH : MacSchDlRlcBoInfo(): Cell does not exists"); return RFAILED; } GET_UE_IDX(dlBoInfo->crnti, ueIdx); ueCb = &cell->ueCb[ueIdx-1]; lcId = dlBoInfo->lcId; if(lcId == SRB1_LCID || lcId == SRB2_LCID || lcId == SRB3_LCID || \ (lcId >= MIN_DRB_LCID && lcId <= MAX_DRB_LCID)) { SET_ONE_BIT(ueIdx, cell->boIndBitMap); ueCb->dlInfo.dlLcCtxt[lcId].bo = dlBoInfo->dataVolume; } else if(lcId != SRB0_LCID) { DU_LOG("\nERROR --> SCH : Invalid LC Id %d in MacSchDlRlcBoInfo", lcId); return RFAILED; } slot = (cell->slotInfo.slot + SCHED_DELTA + PHY_DELTA_DL + BO_DELTA) % cell->numSlots; #ifdef NR_TDD while(schGetSlotSymbFrmt(cell->slotFrmtBitMap, slot) != DL_SLOT) { slot = (slot + 1)%cell->numSlots; slotIdx++; if(slotIdx==cell->numSlots) { DU_LOG("\nERROR --> SCH : No DL Slot available"); return RFAILED; } } #endif schDlSlotInfo = cell->schDlSlotInfo[slot]; if(schDlSlotInfo == NULLP) { DU_LOG("\nERROR --> SCH : MacSchDlRlcBoInfo(): schDlSlotInfo does not exists"); return RFAILED; } SCH_ALLOC(schDlSlotInfo->dlMsgInfo, sizeof(DlMsgInfo)); if(schDlSlotInfo->dlMsgInfo == NULLP) { DU_LOG("\nERROR --> SCH : Memory allocation failed for dlMsgInfo"); schDlSlotInfo = NULL; return RFAILED; } 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; schDlSlotInfo->dlMsgInfo->dlMsgPduLen = dlBoInfo->dataVolume; } return ROK; } /******************************************************************* * * @brief Processes BSR indiation from MAC * * @details * * Function : MacSchBsr * * Functionality: * Processes DL BSR from MAC * * @params[in] Pst pst * UlBufferStatusRptInd bsrInd * @return ROK - success * RFAILED - failure * * ****************************************************************/ uint8_t MacSchBsr(Pst *pst, UlBufferStatusRptInd *bsrInd) { Inst schInst = pst->dstInst-SCH_INST_START; SchCellCb *cellCb = NULLP; SchUeCb *ueCb = NULLP; uint8_t lcgIdx; #ifdef CALL_FLOW_DEBUG_LOG DU_LOG("\nCall Flow: ENTMAC -> ENTSCH : EVENT_SHORT_BSR\n"); #endif DU_LOG("\nDEBUG --> SCH : Received BSR"); cellCb = schCb[schInst].cells[schInst]; ueCb = schGetUeCb(cellCb, bsrInd->crnti); /* 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; } return ROK; } /******************************************************************* * * @brief Processes SR UCI indication from MAC * * @details * * Function : MacSchSrUciInd * * Functionality: * Processes SR UCI indication from MAC * * @params[in] Post structure * UCI Indication * @return ROK - success * RFAILED - failure * * ****************************************************************/ uint8_t MacSchSrUciInd(Pst *pst, SrUciIndInfo *uciInd) { Inst inst = pst->dstInst-SCH_INST_START; 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(uciInd->numSrBits) { ueCb->srRcvd = true; } return ROK; } /********************************************************************** End of file **********************************************************************/