/******************************************************************************* ################################################################################ # 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. # ################################################################################ *******************************************************************************/ /* This file contains UE management handling functionality for SCH */ #include "common_def.h" #include "tfu.h" #include "lrg.h" #include "tfu.x" #include "lrg.x" #include "du_log.h" #include "du_app_mac_inf.h" #include "mac_sch_interface.h" #include "sch.h" #include "sch_tmr.h" #include "sch_utils.h" #ifdef NR_DRX #include "sch_drx.h" #endif /******************************************************************* * * @brief Fill and send UE cfg response to MAC * * @details * * Function : SchSendUeCfgRspToMac * * Functionality: Fill and send UE cfg response to MAC * * @params[in] * @return ROK - success * RFAILED - failure * * ****************************************************************/ void SchSendUeCfgRspToMac(SchUeCfgReq *ueCfg, Inst inst,\ SchMacRsp result, SchUeCfgRsp *cfgRsp) { Pst rspPst; cfgRsp->cellId = ueCfg->cellId; cfgRsp->crnti = ueCfg->crnti; cfgRsp->rsp = result; /* Filling response post */ memset(&rspPst, 0, sizeof(Pst)); FILL_PST_SCH_TO_MAC(rspPst, inst); rspPst.event = EVENT_UE_CONFIG_RSP_TO_MAC; DU_LOG("\nINFO --> SCH : Sending UE Config response to MAC"); MacMessageRouter(&rspPst, (void *)cfgRsp); } /******************************************************************* * * @brief Fill and send UE Recfg response to MAC * * @details * * Function : SchSendUeRecfgRspToMac * * Functionality: Fill and send UE Recfg response to MAC * * @params[in] * @return ROK - success * RFAILED - failure * * ****************************************************************/ void SchSendUeRecfgRspToMac(SchUeRecfgReq *ueRecfgReq, Inst inst,\ SchMacRsp result, SchUeRecfgRsp *reCfgRsp) { Pst rspPst; reCfgRsp->cellId = ueRecfgReq->cellId; reCfgRsp->crnti = ueRecfgReq->crnti; reCfgRsp->rsp = result; /* Filling response post */ memset(&rspPst, 0, sizeof(Pst)); FILL_PST_SCH_TO_MAC(rspPst, inst); rspPst.event = EVENT_UE_RECONFIG_RSP_TO_MAC; DU_LOG("\nINFO --> SCH : Sending UE Reconfig response to MAC"); MacMessageRouter(&rspPst, (void *)reCfgRsp); } /******************************************************************* * * @brief Function to fill Dl Lc Context in SCH Ue Cb * * @details * * Function : fillSchDlLcCtxt * * Functionality: Function to fill Dl Lc Context in SCH Ue Cb * * @params[in] SchDlLcCtxt pointer, * SchLcCfg pointer * @return void * * ****************************************************************/ void fillSchDlLcCtxt(SchDlLcCtxt *ueCbLcCfg, SchLcCfg *lcCfg) { ueCbLcCfg->lcId = lcCfg->lcId; ueCbLcCfg->lcp = lcCfg->dlLcCfg.lcp; ueCbLcCfg->lcState = SCH_LC_STATE_ACTIVE; ueCbLcCfg->bo = 0; if(lcCfg->drbQos) { ueCbLcCfg->pduSessionId = lcCfg->drbQos->pduSessionId; } if(lcCfg->snssai) { if(ueCbLcCfg->snssai == NULLP)/*In CONFIG_MOD case, no need to allocate SNSSAI memory*/ { SCH_ALLOC(ueCbLcCfg->snssai, sizeof(Snssai)); } memcpy(ueCbLcCfg->snssai, lcCfg->snssai,sizeof(Snssai)); } } /******************************************************************* * * @brief Function to fill Ul Lc Context in SCH Ue Cb * * @details * * Function : fillSchUlLcCtxt * * Functionality: Function to fill Ul Lc Context in SCH Ue Cb * * @params[in] SchUlLcCtxt pointer, * SchLcCfg pointer * @return void * * ****************************************************************/ void fillSchUlLcCtxt(SchUlLcCtxt *ueCbLcCfg, SchLcCfg *lcCfg) { ueCbLcCfg->lcId = lcCfg->lcId; ueCbLcCfg->lcState = SCH_LC_STATE_ACTIVE; ueCbLcCfg->priority = lcCfg->ulLcCfg.priority; ueCbLcCfg->lcGroup = lcCfg->ulLcCfg.lcGroup; ueCbLcCfg->schReqId = lcCfg->ulLcCfg.schReqId; ueCbLcCfg->pbr = lcCfg->ulLcCfg.pbr; ueCbLcCfg->bsd = lcCfg->ulLcCfg.bsd; if(lcCfg->drbQos) { ueCbLcCfg->pduSessionId = lcCfg->drbQos->pduSessionId; } if(lcCfg->snssai) { /*In CONFIG_MOD case, no need to allocate SNSSAI memory again*/ if(ueCbLcCfg->snssai == NULLP) { SCH_ALLOC(ueCbLcCfg->snssai, sizeof(Snssai)); } memcpy(ueCbLcCfg->snssai, lcCfg->snssai,sizeof(Snssai)); } } /******************************************************************* * * @brief Function to update/allocate dedLC Info * * @details * * Function : updateDedLcInfo * * Functionality: Function to fill DLDedLcInfo * * @params[arg] scheduler instance, * snssai pointer, * SchRrmPolicy pointer, * SchLcPrbEstimate pointer , It will be filled * isDedicated pointer,(Address of isDedicated flag in LC Context) * * @return ROK >> This LC is part of RRM MemberList. * RFAILED >> FATAL Error * ROKIGNORE >> This LC is not part of this RRM MemberList * * ****************************************************************/ uint8_t updateDedLcInfo(Inst inst, Snssai *snssai, uint16_t *rsvdDedicatedPRB, bool *isDedicated) { CmLList *sliceCfg = schCb[inst].sliceCfg.first; SchRrmPolicyOfSlice *rrmPolicyOfSlices; while(sliceCfg) { rrmPolicyOfSlices = (SchRrmPolicyOfSlice*)sliceCfg->node; if(rrmPolicyOfSlices && (memcmp(snssai, &(rrmPolicyOfSlices->snssai), sizeof(Snssai)) == 0)) { /*Updating latest RrmPolicy*/ *rsvdDedicatedPRB = \ (uint16_t)(((rrmPolicyOfSlices->rrmPolicyRatioInfo.dedicatedRatio)*(MAX_NUM_RB))/100); *isDedicated = TRUE; DU_LOG("\nINFO --> SCH : Updated RRM policy, reservedPOOL:%d",*rsvdDedicatedPRB); break; } sliceCfg = sliceCfg->next; } /*case: This LcCtxt is either a Default LC or this LC is part of someother RRM_MemberList*/ if(*isDedicated != TRUE) { DU_LOG("\nINFO --> SCH : This SNSSAI is not a part of this RRMPolicy"); } return ROK; } /******************************************************************* * * @brief Function to fill SpCellCfg in SchUeCb From SchUeCfg Req * * @details * * Function : fillSpCellInSchCb * * Functionality: Function to fill SpCellCfg in SchUeCb * * @params[in] Scheduler instance, * SchUeCb pointer, * SchUeCfg pointer * @return ROK/RFAILED * * ****************************************************************/ void fillSpCellInSchCb(SchSpCellRecfg *destSpCellCfg, SchSpCellCfg *srcSpCellCfg) { destSpCellCfg->servCellIdx = srcSpCellCfg->servCellIdx; memcpy(&destSpCellCfg->servCellRecfg.initDlBwp, &srcSpCellCfg->servCellCfg.initDlBwp, sizeof(SchInitalDlBwp)); destSpCellCfg->servCellRecfg.numDlBwpToAddOrMod = srcSpCellCfg->servCellCfg.numDlBwpToAdd; if(destSpCellCfg->servCellRecfg.numDlBwpToAddOrMod > 0) { memcpy(destSpCellCfg->servCellRecfg.dlBwpToAddOrModList, srcSpCellCfg->servCellCfg.dlBwpToAddList,\ (sizeof(SchDlBwpInfo) * srcSpCellCfg->servCellCfg.numDlBwpToAdd)); } destSpCellCfg->servCellRecfg.firstActvDlBwpId = srcSpCellCfg->servCellCfg.firstActvDlBwpId; destSpCellCfg->servCellRecfg.defaultDlBwpId = srcSpCellCfg->servCellCfg.defaultDlBwpId; destSpCellCfg->servCellRecfg.bwpInactivityTmr = srcSpCellCfg->servCellCfg.bwpInactivityTmr; memcpy(&destSpCellCfg->servCellRecfg.pdschServCellCfg, &srcSpCellCfg->servCellCfg.pdschServCellCfg, sizeof(SchPdschServCellCfg)); memcpy(&destSpCellCfg->servCellRecfg.initUlBwp, &srcSpCellCfg->servCellCfg.initUlBwp, sizeof(SchInitialUlBwp)); destSpCellCfg->servCellRecfg.numDlBwpToAddOrMod = srcSpCellCfg->servCellCfg.numDlBwpToAdd; if(destSpCellCfg->servCellRecfg.numDlBwpToAddOrMod > 0) { memcpy(destSpCellCfg->servCellRecfg.ulBwpToAddOrModList, srcSpCellCfg->servCellCfg.ulBwpToAddList,\ (sizeof(SchUlBwpInfo) * srcSpCellCfg->servCellCfg.numUlBwpToAdd)); } destSpCellCfg->servCellRecfg.firstActvUlBwpId = srcSpCellCfg->servCellCfg.firstActvUlBwpId; return; } /******************************************************************* * * @brief Function to fill SchUeCb From UeCfg Req * * @details * * Function : fillSchUeCbFrmCfgReq * * Functionality: Function to fill SchUeCb * * @params[in] Scheduler instance, * SchUeCb pointer, * SchUeCfg pointer * @return ROK/RFAILED * * ****************************************************************/ uint8_t fillSchUeCbFrmCfgReq(Inst inst, SchUeCb *ueCb, SchUeCfgReq *ueCfg) { uint8_t lcIdx, ueLcIdx, idx; SchPdschCfgCmn pdschCfg; SchPucchDlDataToUlAck *dlDataToUlAck; uint8_t retDL = ROK, retUL = ROK; bool isLcIdValid = FALSE; ueCb->ueCfg.cellId = ueCfg->cellId; ueCb->ueCfg.ueId = ueCb->ueId; ueCb->ueCfg.crnti = ueCfg->crnti; if(ueCfg->macCellGrpCfgPres == true) { memcpy(&ueCb->ueCfg.macCellGrpCfg , &ueCfg->macCellGrpCfg, sizeof(SchMacCellGrpCfg)); ueCb->ueCfg.macCellGrpCfgPres = true; #ifdef NR_DRX if(ueCfg->macCellGrpCfg.drxCfgPresent == true) { if(ueCb->ueDrxInfoPres == false) { ueCb->ueDrxInfoPres = true; /* intialize the drxUeCb */ schInitDrxUeCb(ueCb); /* intialize the Dl drxHarqCb */ for(idx =0; idxdlHqEnt.numHqPrcs; idx++) { schInitDrxHarqCb(&ueCb->dlHqEnt.procs[idx].dlDrxHarqCb); } /* intialize the Ul drxHarqCb */ for(idx =0; idxulHqEnt.numHqPrcs; idx++) { schInitDrxHarqCb(&ueCb->ulHqEnt.procs[idx].ulDrxHarqCb); } /* convert all the drx configuration recived in ms/subms into number of slots and store into the drxUeCb */ schFillDrxUeCb(ueCb->cellCb->numerology, ueCfg->macCellGrpCfg.drxCfg, &ueCb->drxUeCb); /* Calculate the onduration timer and short cycle timer (if shortcycle configuration is present) as soon as we * recived ueCfg request */ schAddUeInOndurationList(ueCb->cellCb, ueCb, 0); } else { /* convert all the drx configuration recived in ms/subms into number * of slots and store into the drxUeCb */ schFillDrxUeCb(ueCb->cellCb->numerology, ueCfg->macCellGrpCfg.drxCfg, &ueCb->drxUeCb); /* Recalculate/Restart timer based on their presence */ schDrxUeReCfgTimer(ueCb->cellCb, ueCb); } } #endif } if(ueCfg->phyCellGrpCfgPres == true) { memcpy(&ueCb->ueCfg.phyCellGrpCfg , &ueCfg->phyCellGrpCfg, sizeof(SchPhyCellGrpCfg)); ueCb->ueCfg.phyCellGrpCfgPres = true; } if(ueCfg->spCellCfgPres == true) { if(ueCfg->spCellCfg.servCellCfg.initDlBwp.pdschCfgPres == true) { if(ueCb->ueCfg.spCellCfgPres && ueCb->ueCfg.spCellCfg.servCellRecfg.initDlBwp.pdschCfgPres == true) { for(idx = 0; idx < ueCfg->spCellCfg.servCellCfg.initDlBwp.pdschCfg.numTimeDomRsrcAlloc; idx++) { if(ueCb->ueCfg.spCellCfg.servCellRecfg.initDlBwp.pdschCfg.timeDomRsrcAllociList[idx].k0 && ueCfg->spCellCfg.servCellCfg.initDlBwp.pdschCfg.timeDomRsrcAllociList[idx].k0) { SCH_FREE(ueCb->ueCfg.spCellCfg.servCellRecfg.initDlBwp.pdschCfg.timeDomRsrcAllociList[idx].k0, sizeof(uint8_t)); } } } } fillSpCellInSchCb(&ueCb->ueCfg.spCellCfg, &ueCfg->spCellCfg); ueCb->ueCfg.spCellCfgPres = true; dlDataToUlAck = ueCfg->spCellCfg.servCellCfg.initUlBwp.pucchCfg.dlDataToUlAck; if(ueCb->cellCb) { if(dlDataToUlAck) { BuildK0K1Table(ueCb->cellCb, &ueCb->k0K1InfoTbl, false, pdschCfg,\ ueCfg->spCellCfg.servCellCfg.initDlBwp.pdschCfg, dlDataToUlAck->dlDataToUlAckListCount,\ dlDataToUlAck->dlDataToUlAckList); } else { BuildK0K1Table(ueCb->cellCb, &ueCb->k0K1InfoTbl, false, pdschCfg,\ ueCfg->spCellCfg.servCellCfg.initDlBwp.pdschCfg, DEFAULT_UL_ACK_LIST_COUNT, defaultUlAckTbl); } ueCb->k0K1TblPrsnt = true; BuildK2InfoTable(ueCb->cellCb, ueCfg->spCellCfg.servCellCfg.initUlBwp.puschCfg.timeDomRsrcAllocList,\ ueCfg->spCellCfg.servCellCfg.initUlBwp.puschCfg.numTimeDomRsrcAlloc,\ NULLP, &ueCb->k2InfoTbl); ueCb->k2TblPrsnt = true; } } if(ueCfg->ambrCfg) { SCH_FREE(ueCb->ueCfg.ambrCfg, sizeof(SchAmbrCfg)); ueCb->ueCfg.ambrCfg = ueCfg->ambrCfg; } memcpy(&ueCb->ueCfg.dlModInfo, &ueCfg->dlModInfo , sizeof(SchModulationInfo)); memcpy(&ueCb->ueCfg.ulModInfo, &ueCfg->ulModInfo , sizeof(SchModulationInfo)); //Updating SchUlCb and SchDlCb DB in SchUeCb for(lcIdx = 0; lcIdx < ueCfg->numLcsToAdd; lcIdx++) { isLcIdValid = FALSE; /*Re-Initializing*/ ueLcIdx = ueCfg->schLcCfg[lcIdx].lcId; CHECK_LCID(ueLcIdx, isLcIdValid); if(isLcIdValid == FALSE) { DU_LOG("ERROR --> SCH: LCID:%d is not Valid",ueLcIdx); continue; } fillSchUlLcCtxt(&ueCb->ulInfo.ulLcCtxt[ueLcIdx], &ueCfg->schLcCfg[lcIdx]); fillSchDlLcCtxt(&ueCb->dlInfo.dlLcCtxt[ueLcIdx], &ueCfg->schLcCfg[lcIdx]); /*Checking whether this LC belong to Dedicated S-NSSAI * and Create the Dedicated LC List & Update the Reserve PRB number*/ if(ueCb->dlInfo.dlLcCtxt[ueLcIdx].snssai != NULLP) { retDL = updateDedLcInfo(inst, ueCb->dlInfo.dlLcCtxt[ueLcIdx].snssai, &(ueCb->dlInfo.dlLcCtxt[ueLcIdx].rsvdDedicatedPRB),\ &(ueCb->dlInfo.dlLcCtxt[ueLcIdx].isDedicated)); } if(ueCb->ulInfo.ulLcCtxt[ueLcIdx].snssai != NULLP) { retUL = updateDedLcInfo(inst, ueCb->ulInfo.ulLcCtxt[ueLcIdx].snssai, &(ueCb->ulInfo.ulLcCtxt[ueLcIdx].rsvdDedicatedPRB),\ &(ueCb->ulInfo.ulLcCtxt[ueLcIdx].isDedicated)); } if(retUL == RFAILED || retDL == RFAILED)/*FATAL error*/ { DU_LOG("\nERROR --> SCH : Failure in updateDedLcInfo"); return RFAILED; } SCH_FREE(ueCfg->schLcCfg[lcIdx].drbQos, sizeof(SchDrbQosInfo)); SCH_FREE(ueCfg->schLcCfg[lcIdx].snssai, sizeof(Snssai)); }/* End of outer for loop */ return ROK; } /******************************************************************* * * @brief Function to fill SchUeCb From UeReconfig Req * * @details * * Function : fillSchUeCbFrmRecfgReq * * Functionality: Function to fill SchUeCb * * @params[in] Scheduler instance, * SchUeCb pointer, * SchUeCfg pointer * @return ROK/RFAILED * * ****************************************************************/ uint8_t fillSchUeCbFrmRecfgReq(Inst inst, SchUeCb *ueCb, SchUeRecfgReq *ueRecfg) { uint8_t lcIdx, ueLcIdx, idx; SchPdschCfgCmn pdschCfg; SchPucchDlDataToUlAck *dlDataToUlAck; uint8_t retDL = ROK, retUL = ROK; bool isLcIdValid = FALSE; ueCb->ueCfg.cellId = ueRecfg->cellId; ueCb->ueCfg.crnti = ueRecfg->crnti; GET_UE_ID(ueRecfg->crnti, ueCb->ueCfg.ueId); ueCb->ueCfg.dataTransmissionAction = ueRecfg->dataTransmissionInfo; if(ueRecfg->macCellGrpRecfgPres == true) { memcpy(&ueCb->ueCfg.macCellGrpCfg , &ueRecfg->macCellGrpRecfg, sizeof(SchMacCellGrpCfg)); ueCb->ueCfg.macCellGrpCfgPres = true; #ifdef NR_DRX if(ueRecfg->macCellGrpRecfg.drxCfgPresent == true) { if(ueCb->ueDrxInfoPres == false) { ueCb->ueDrxInfoPres = true; /* intialize the drxUeCb */ schInitDrxUeCb(ueCb); /* intialize the Dl drxHarqCb */ for(idx =0; idxdlHqEnt.numHqPrcs; idx++) { schInitDrxHarqCb(&ueCb->dlHqEnt.procs[idx].dlDrxHarqCb); } /* intialize the Ul drxHarqCb */ for(idx =0; idxulHqEnt.numHqPrcs; idx++) { schInitDrxHarqCb(&ueCb->ulHqEnt.procs[idx].ulDrxHarqCb); } /* convert all the drx configuration recived in ms/subms into number of slots and store into the drxUeCb */ schFillDrxUeCb(ueCb->cellCb->numerology, ueRecfg->macCellGrpRecfg.drxCfg, &ueCb->drxUeCb); /* Calculate the onduration timer and short cycle timer (if shortcycle configuration is present) as soon as we * recived ueCfg request */ schAddUeInOndurationList(ueCb->cellCb, ueCb, 0); } else { /* convert all the drx configuration recived in ms/subms into number * of slots and store into the drxUeCb */ schFillDrxUeCb(ueCb->cellCb->numerology, ueRecfg->macCellGrpRecfg.drxCfg, &ueCb->drxUeCb); /* Recalculate/Restart timer based on their presence */ schDrxUeReCfgTimer(ueCb->cellCb, ueCb); } } #endif } #ifdef NR_DRX if(ueRecfg->drxConfigIndicatorRelease == true) { if(ueCb->ueDrxInfoPres == true) { schDeleteUeDrxInfo(ueCb->cellCb, ueCb); ueCb->ueDrxInfoPres = false; } } #endif if(ueRecfg->phyCellGrpRecfgPres == true) { memcpy(&ueCb->ueCfg.phyCellGrpCfg , &ueRecfg->phyCellGrpRecfg, sizeof(SchPhyCellGrpCfg)); ueCb->ueCfg.phyCellGrpCfgPres = true; } if(ueRecfg->spCellRecfgPres == true) { if(ueRecfg->spCellRecfg.servCellRecfg.initDlBwp.pdschCfgPres == true) { if(ueCb->ueCfg.spCellCfgPres && ueCb->ueCfg.spCellCfg.servCellRecfg.initDlBwp.pdschCfgPres == true) { for(idx = 0; idx < ueRecfg->spCellRecfg.servCellRecfg.initDlBwp.pdschCfg.numTimeDomRsrcAlloc; idx++) { if(ueCb->ueCfg.spCellCfg.servCellRecfg.initDlBwp.pdschCfg.timeDomRsrcAllociList[idx].k0 && ueRecfg->spCellRecfg.servCellRecfg.initDlBwp.pdschCfg.timeDomRsrcAllociList[idx].k0) { SCH_FREE(ueCb->ueCfg.spCellCfg.servCellRecfg.initDlBwp.pdschCfg.timeDomRsrcAllociList[idx].k0, sizeof(uint8_t)); } } } } memcpy(&ueCb->ueCfg.spCellCfg , &ueRecfg->spCellRecfg, sizeof(SchSpCellRecfg)); ueCb->ueCfg.spCellCfgPres = true; dlDataToUlAck = ueRecfg->spCellRecfg.servCellRecfg.initUlBwp.pucchCfg.dlDataToUlAck; if(ueCb->cellCb) { if(dlDataToUlAck) { BuildK0K1Table(ueCb->cellCb, &ueCb->k0K1InfoTbl, false, pdschCfg,\ ueRecfg->spCellRecfg.servCellRecfg.initDlBwp.pdschCfg, dlDataToUlAck->dlDataToUlAckListCount,\ dlDataToUlAck->dlDataToUlAckList); ueCb->k0K1TblPrsnt = true; BuildK2InfoTable(ueCb->cellCb, ueRecfg->spCellRecfg.servCellRecfg.initUlBwp.puschCfg.timeDomRsrcAllocList,\ ueRecfg->spCellRecfg.servCellRecfg.initUlBwp.puschCfg.numTimeDomRsrcAlloc,\ NULLP, &ueCb->k2InfoTbl); ueCb->k2TblPrsnt = true; } } } if(ueRecfg->ambrRecfg) { SCH_FREE(ueCb->ueCfg.ambrCfg, sizeof(SchAmbrCfg)); ueCb->ueCfg.ambrCfg = ueRecfg->ambrRecfg; } memcpy(&ueCb->ueCfg.dlModInfo, &ueRecfg->dlModInfo , sizeof(SchModulationInfo)); memcpy(&ueCb->ueCfg.ulModInfo, &ueRecfg->ulModInfo , sizeof(SchModulationInfo)); //Updating Num of LC to ADD SchUlCb and SchDlCb DB in SchUeCb for(lcIdx = 0; lcIdx < ueRecfg->numLcsToAdd; lcIdx++) { isLcIdValid = FALSE; /*Re-Initializing*/ ueLcIdx = ueRecfg->schLcCfgAdd[lcIdx].lcId; CHECK_LCID(ueLcIdx, isLcIdValid); if(isLcIdValid == FALSE) { DU_LOG("ERROR --> SCH: LCID:%d is not Valid",ueLcIdx); continue; } fillSchUlLcCtxt(&ueCb->ulInfo.ulLcCtxt[ueLcIdx], &ueRecfg->schLcCfgAdd[lcIdx]); fillSchDlLcCtxt(&ueCb->dlInfo.dlLcCtxt[ueLcIdx], &ueRecfg->schLcCfgAdd[lcIdx]); /*Checking whether this LC belong to Dedicated S-NSSAI * and Create the Dedicated LC List & Update the Reserve PRB number*/ if(ueCb->dlInfo.dlLcCtxt[ueLcIdx].snssai != NULLP) { retDL = updateDedLcInfo(inst, ueCb->dlInfo.dlLcCtxt[ueLcIdx].snssai, &(ueCb->dlInfo.dlLcCtxt[ueLcIdx].rsvdDedicatedPRB),\ &(ueCb->dlInfo.dlLcCtxt[ueLcIdx].isDedicated)); } if(ueCb->ulInfo.ulLcCtxt[ueLcIdx].snssai != NULLP) { retUL = updateDedLcInfo(inst, ueCb->ulInfo.ulLcCtxt[ueLcIdx].snssai, &(ueCb->ulInfo.ulLcCtxt[ueLcIdx].rsvdDedicatedPRB),\ &(ueCb->ulInfo.ulLcCtxt[ueLcIdx].isDedicated)); } if(retUL == RFAILED || retDL == RFAILED)/*FATAL error*/ { DU_LOG("\nERROR --> SCH : Failure in updateDedLcInfo"); return RFAILED; } SCH_FREE(ueRecfg->schLcCfgAdd[lcIdx].drbQos, sizeof(SchDrbQosInfo)); SCH_FREE(ueRecfg->schLcCfgAdd[lcIdx].snssai, sizeof(Snssai)); } //Updating Num of LC to DEL SchUlCb and SchDlCb DB in SchUeCb for(lcIdx = 0; lcIdx < ueRecfg->numLcsToDel; lcIdx++) { ueLcIdx = ueRecfg->lcIdToDel[lcIdx]; if(ueCb->dlInfo.dlLcCtxt[ueLcIdx].lcId == ueRecfg->lcIdToDel[lcIdx]) { /*Delete the LC node from the DL LC List*/ if(ueCb->dlInfo.dlLcCtxt[ueLcIdx].isDedicated) { /*Remove from HARQ Transmission or retransmission*/ } else { } SCH_FREE(ueCb->dlInfo.dlLcCtxt[ueLcIdx].snssai, sizeof(Snssai)); memset(&ueCb->dlInfo.dlLcCtxt[ueLcIdx], 0, sizeof(SchDlLcCtxt)); } if(ueCb->ulInfo.ulLcCtxt[ueLcIdx].lcId == ueRecfg->lcIdToDel[lcIdx]) { /*Delete the LC node from the UL LC List*/ if(ueCb->ulInfo.ulLcCtxt[ueLcIdx].isDedicated) { /*Remove from HARQ Transmission or retransmission*/ } else/*Default LC list*/ { } SCH_FREE(ueCb->ulInfo.ulLcCtxt[ueLcIdx].snssai, sizeof(Snssai)); memset(&ueCb->ulInfo.ulLcCtxt[ueLcIdx], 0, sizeof(SchUlLcCtxt)); } } //Updating Num of LC to DEL SchUlCb and SchDlCb DB in SchUeCb for(lcIdx = 0; lcIdx < ueRecfg->numLcsToMod; lcIdx++) { ueLcIdx = ueRecfg->schLcCfgMod[lcIdx].lcId; if(ueCb->ulInfo.ulLcCtxt[ueLcIdx].lcId == ueRecfg->schLcCfgMod[lcIdx].lcId) { fillSchUlLcCtxt(&ueCb->ulInfo.ulLcCtxt[ueLcIdx], &ueRecfg->schLcCfgMod[lcIdx]); /*Updating the RRM reserved pool PRB count*/ if(ueCb->ulInfo.ulLcCtxt[ueLcIdx].snssai != NULLP) { retUL = updateDedLcInfo(inst, ueCb->ulInfo.ulLcCtxt[ueLcIdx].snssai, &(ueCb->ulInfo.ulLcCtxt[ueLcIdx].rsvdDedicatedPRB),\ &(ueCb->ulInfo.ulLcCtxt[ueLcIdx].isDedicated)); } if(retUL == RFAILED) { DU_LOG("\nERROR --> SCH : Failed in updating Ded Lc info"); return RFAILED; } }/*End of UL LC Ctxt*/ if(ueCb->dlInfo.dlLcCtxt[ueLcIdx].lcId == ueRecfg->schLcCfgMod[lcIdx].lcId) { fillSchDlLcCtxt(&ueCb->dlInfo.dlLcCtxt[ueLcIdx], &ueRecfg->schLcCfgMod[lcIdx]); /*Updating the RRM policy*/ if(ueCb->dlInfo.dlLcCtxt[ueLcIdx].snssai != NULLP) { retDL = updateDedLcInfo(inst, ueCb->dlInfo.dlLcCtxt[ueLcIdx].snssai, &(ueCb->dlInfo.dlLcCtxt[ueLcIdx].rsvdDedicatedPRB), \ &(ueCb->dlInfo.dlLcCtxt[ueLcIdx].isDedicated)); } if(retDL == RFAILED) { DU_LOG("\nERROR --> SCH : Failed in updating Ded Lc info"); return RFAILED; } }/*End of DL LC ctxt*/ SCH_FREE(ueRecfg->schLcCfgMod[lcIdx].drbQos, sizeof(SchDrbQosInfo)); SCH_FREE(ueRecfg->schLcCfgMod[lcIdx].snssai, sizeof(Snssai)); }/* End of outer for loop */ return ROK; } /******************************************************************* * * @brief Function to get SCH Cell Cb * * @details * * Function : getSchCellCb * * Functionality: Function to get SCH Cell Cb * * @params[in] event, SchUeCfg pointer * @return schUeCb pointer - success * NULLP - failure * * ****************************************************************/ SchCellCb *getSchCellCb(uint16_t srcEvent, Inst inst, uint16_t cellId) { uint8_t idx = 0; SchCellCb *cellCb = NULLP; /* Search of cell cb */ for(idx = 0; idx < MAX_NUM_CELL; idx++) { cellCb = schCb[inst].cells[idx]; if((cellCb != NULLP) && (cellCb->cellId == cellId)) break; } if((idx == MAX_NUM_CELL) || (cellCb == NULLP)) { DU_LOG("\nERROR --> SCH : Ue create request failed. Invalid cell id %d", cellId); return NULLP; } /* Check if max number of UE configured */ if(cellCb->numActvUe > MAX_NUM_UE) { DU_LOG("\nERROR --> SCH : Max number of UE [%d] already configured", MAX_NUM_UE); return NULLP; } return cellCb; } /******************************************************************* * * @brief Function to Add Ue Config Request from MAC * * @details * * Function : SchAddUeConfigReq * * Functionality: Function to Add Ue config request from MAC * * @params[in] * @return ROK - success * RFAILED - failure * * ****************************************************************/ uint8_t SchAddUeConfigReq(Pst *pst, SchUeCfgReq *ueCfg) { uint8_t lcIdx = 0, ret = ROK, idx = 0; uint16_t ueId = 0; SchCellCb *cellCb = NULLP; SchUeCb *ueCb = NULLP; SchUeCfgRsp cfgRsp; Inst inst = pst->dstInst - SCH_INST_START; memset(&cfgRsp, 0, sizeof(SchUeCfgRsp)); if(!ueCfg) { DU_LOG("\nERROR --> SCH : Adding UE Config Request failed at SchAddUeConfigReq()"); return RFAILED; } DU_LOG("\nDEBUG --> SCH : Adding UE Config Request for CRNTI[%d]", ueCfg->crnti); cellCb = getSchCellCb(pst->event, inst, ueCfg->cellId); if(cellCb == NULLP) { SchSendUeCfgRspToMac(ueCfg, inst, RSP_NOK, &cfgRsp); return RFAILED; } /* Search if UE already configured */ GET_UE_ID(ueCfg->crnti, ueId); ueCb = &cellCb->ueCb[ueId - 1]; if((ueCb->crnti == ueCfg->crnti) && (ueCb->state == SCH_UE_STATE_ACTIVE)) { DU_LOG("\nDEBUG --> SCH : CRNTI %d already configured ", ueCfg->crnti); SchSendUeCfgRspToMac(ueCfg, inst, RSP_OK, &cfgRsp); return ROK; } /* Fill received Ue Configuration in UeCb */ memset(ueCb, 0, sizeof(SchUeCb)); ueCb->crnti = ueCfg->crnti; GET_UE_ID(ueCb->crnti, ueCb->ueId); ueCb->cellCb = cellCb; schUlHqEntInit(cellCb, &cellCb->ueCb[ueCb->ueId-1]); schDlHqEntInit(cellCb, &cellCb->ueCb[ueCb->ueId-1]); SCH_ALLOC(ueCb->hqDlmap, sizeof(SchHqDlMap*)*(ueCb->cellCb->numSlots)); SCH_ALLOC(ueCb->hqUlmap, sizeof(SchHqUlMap*)*(ueCb->cellCb->numSlots)); if ( (ueCb->hqDlmap == NULLP) || (ueCb->hqUlmap == NULLP) ) { DU_LOG("\nINFO --> SCH : Memory Allocation Failed"); return RFAILED; } for (idx = 0; idxcellCb->numSlots; idx++) { SCH_ALLOC(ueCb->hqDlmap[idx], sizeof(SchHqDlMap)); SCH_ALLOC(ueCb->hqUlmap[idx], sizeof(SchHqUlMap)); if ( (ueCb->hqDlmap[idx] == NULLP) || (ueCb->hqUlmap[idx] == NULLP) ) { DU_LOG("\nINFO --> SCH : Memory Allocation Failed"); return RFAILED; } cmLListInit(&ueCb->hqDlmap[idx]->hqList); cmLListInit(&ueCb->hqUlmap[idx]->hqList); } ret = fillSchUeCbFrmCfgReq(inst, ueCb, ueCfg); if(fillUeCoresetAndSsInfo(ueCb) == RFAILED) { DU_LOG("\nERROR --> SCH : Memory Allocation Failed"); return RFAILED; } if(ret == ROK) { /* If UE has initiated RACH and then UE context is created, it means UE is * active now. * Else if UE context is created before RACH, this means that UE is being * handed-in from source DU */ if(cellCb->raCb[ueCb->ueId-1].tcrnti == ueCb->crnti) { cellCb->numActvUe++; SET_ONE_BIT(ueCb->ueId, cellCb->actvUeBitMap); ueCb->state = SCH_UE_STATE_ACTIVE; } else { ueCb->state = SCH_UE_HANDIN_IN_PROGRESS; } ueCb->srRcvd = false; ueCb->bsrRcvd = false; for(lcIdx=0; lcIdxbsrInfo[lcIdx].dataVol = 0; SchSendUeCfgRspToMac(ueCfg, inst, RSP_OK, &cfgRsp); } cellCb->api->SchAddUeConfigReq(ueCb); return ret; } /******************************************************************* * * @brief Fills PUSCH UL allocation * * @details * * Function : schFillPuschAlloc * * Functionality: fills PUSCH info * * @params[in] SchUeCb *ueCb, SlotTimingInfo puschTime, uint32_t tbSize * @params[in] uint8_t startSymb, uint8_t symbLen, uint16_t startPrb * @params[in] bool isRetx, SchUlHqProcCb *hq * @return ROK - success * RFAILED - failure * * ****************************************************************/ uint8_t schFillPuschAlloc(SchUeCb *ueCb, SlotTimingInfo puschTime, uint32_t tbSize, uint8_t startSymb, uint8_t symbLen, uint16_t startPrb, bool isRetx, SchUlHqProcCb *hqP) { uint8_t numRb = 0; SchCellCb *cellCb = NULLP; SchUlSlotInfo *schUlSlotInfo = NULLP; SchPuschInfo puschInfo; if(ueCb == NULLP) { DU_LOG("\nERROR --> SCH: UE CB is empty"); return RFAILED; } cellCb = ueCb->cellCb; if(cellCb == NULLP) { DU_LOG("\nERROR --> SCH: CELL CB is empty"); return RFAILED; } tbSize += UL_TX_BUFFER_SIZE; /* 2 bytes header + some buffer */ numRb = schCalcNumPrb(tbSize, ueCb->ueCfg.ulModInfo.mcsIndex, symbLen); allocatePrbUl(cellCb, puschTime, startSymb, symbLen, &startPrb, numRb); if (isRetx == FALSE) { puschInfo.harqProcId = SCH_HARQ_PROC_ID; puschInfo.fdAlloc.resAllocType = SCH_ALLOC_TYPE_1; puschInfo.fdAlloc.resAlloc.type1.startPrb = startPrb; puschInfo.fdAlloc.resAlloc.type1.numPrb = numRb; puschInfo.tdAlloc.startSymb = startSymb; puschInfo.tdAlloc.numSymb = symbLen; puschInfo.tbInfo.qamOrder = ueCb->ueCfg.ulModInfo.modOrder; puschInfo.tbInfo.mcs = ueCb->ueCfg.ulModInfo.mcsIndex; puschInfo.tbInfo.mcsTable = ueCb->ueCfg.ulModInfo.mcsTable; puschInfo.tbInfo.ndi = 1; /* new transmission */ puschInfo.tbInfo.rv = 0; puschInfo.tbInfo.tbSize = tbSize; #ifdef INTEL_FAPI puschInfo.dmrsMappingType = DMRS_MAP_TYPE_A; /* Setting Type-A */ puschInfo.nrOfDmrsSymbols = NUM_DMRS_SYMBOLS; puschInfo.dmrsAddPos = DMRS_ADDITIONAL_POS; #endif hqP->puschResType = puschInfo.fdAlloc.resAllocType; hqP->puschStartPrb = puschInfo.fdAlloc.resAlloc.type1.startPrb; hqP->puschNumPrb = puschInfo.fdAlloc.resAlloc.type1.numPrb; hqP->strtSymbl = puschInfo.tdAlloc.startSymb; hqP->numSymbl = puschInfo.tdAlloc.numSymb; hqP->tbInfo.qamOrder = puschInfo.tbInfo.qamOrder; hqP->tbInfo.iMcs = puschInfo.tbInfo.mcs; hqP->tbInfo.mcsTable = puschInfo.tbInfo.mcsTable; hqP->tbInfo.ndi = puschInfo.tbInfo.ndi; hqP->tbInfo.rv = puschInfo.tbInfo.rv; hqP->tbInfo.rvIdx = 0; hqP->tbInfo.tbSzReq = puschInfo.tbInfo.tbSize; #ifdef INTEL_FAPI hqP->dmrsMappingType = puschInfo.dmrsMappingType; hqP->nrOfDmrsSymbols = puschInfo.nrOfDmrsSymbols; hqP->dmrsAddPos = puschInfo.dmrsAddPos; #endif } else { puschInfo.harqProcId = hqP->procId; puschInfo.fdAlloc.resAllocType = hqP->puschResType; puschInfo.fdAlloc.resAlloc.type1.startPrb = hqP->puschStartPrb; puschInfo.fdAlloc.resAlloc.type1.numPrb = hqP->puschNumPrb; puschInfo.tdAlloc.startSymb = hqP->strtSymbl; puschInfo.tdAlloc.numSymb = hqP->numSymbl; puschInfo.tbInfo.qamOrder = hqP->tbInfo.qamOrder; puschInfo.tbInfo.mcs = hqP->tbInfo.iMcs; puschInfo.tbInfo.mcsTable = hqP->tbInfo.mcsTable; puschInfo.tbInfo.ndi = hqP->tbInfo.ndi; /* retransmission */ hqP->tbInfo.rvIdx = (hqP->tbInfo.rvIdx +1) & 0x3; puschInfo.tbInfo.rv = schCmnDlRvTbl[hqP->tbInfo.rvIdx]; puschInfo.tbInfo.tbSize = hqP->tbInfo.tbSzReq; #ifdef INTEL_FAPI puschInfo.dmrsMappingType = hqP->dmrsMappingType; /* Setting Type-A */ puschInfo.nrOfDmrsSymbols = hqP->nrOfDmrsSymbols; puschInfo.dmrsAddPos = hqP->dmrsAddPos; #endif } schUlSlotInfo = cellCb->schUlSlotInfo[puschTime.slot]; SCH_ALLOC(schUlSlotInfo->schPuschInfo, sizeof(SchPuschInfo)); if(!schUlSlotInfo->schPuschInfo) { DU_LOG("\nERROR --> SCH: Memory allocation failed in schAllocMsg3Pusch"); return RFAILED; } memcpy(schUlSlotInfo->schPuschInfo, &puschInfo, sizeof(SchPuschInfo)); return ROK; } /******************************************************************* * * @brief Fills UL DCI information for MSG3 retransmission * * @details * * Function : schFillUlDciForMsg3Retx * * Functionality: fills UL DCI information for MSG3 retransmission * * @params[in] * @return ROK - success * RFAILED - failure * * ****************************************************************/ uint8_t schFillUlDciForMsg3Retx(SchRaCb *raCb, SchPuschInfo *puschInfo, DciInfo *dciInfo) { SchCellCb *cellCb = raCb->cell; dciInfo->crnti = raCb->tcrnti; SchUlHqProcCb *msg3HqProc = &raCb->msg3HqProc; if (msg3HqProc == NULLP) { return RFAILED; } /* fill bwp cfg */ dciInfo->bwpCfg.subcarrierSpacing = cellCb->sib1SchCfg.bwp.subcarrierSpacing; dciInfo->bwpCfg.cyclicPrefix = cellCb->sib1SchCfg.bwp.cyclicPrefix; dciInfo->bwpCfg.freqAlloc.startPrb = cellCb->cellCfg.dlCfgCommon.schInitialDlBwp.bwp.freqAlloc.startPrb; dciInfo->bwpCfg.freqAlloc.numPrb = cellCb->cellCfg.dlCfgCommon.schInitialDlBwp.bwp.freqAlloc.numPrb; /*fill coreset cfg */ //Considering number of RBs in coreset1 is same as coreset0 dciInfo->coresetCfg.coreSetSize = coresetIdxTable[0][1]; //Considering coreset1 also starts from same symbol as coreset0 dciInfo->coresetCfg.startSymbolIndex = searchSpaceIdxTable[0][3]; dciInfo->coresetCfg.durationSymbols = coresetIdxTable[0][2]; memcpy(dciInfo->coresetCfg.freqDomainResource, cellCb->cellCfg.dlCfgCommon.schInitialDlBwp.pdcchCommon.commonSearchSpace.freqDomainRsrc, FREQ_DOM_RSRC_SIZE); dciInfo->coresetCfg.cceRegMappingType = 1; /* coreset0 is always interleaved */ dciInfo->coresetCfg.regBundleSize = 6; /* spec-38.211 sec 7.3.2.2 */ dciInfo->coresetCfg.interleaverSize = 2; /* spec-38.211 sec 7.3.2.2 */ dciInfo->coresetCfg.coreSetType = 0; dciInfo->coresetCfg.coreSetSize = coresetIdxTable[0][1]; dciInfo->coresetCfg.shiftIndex = cellCb->cellCfg.phyCellId; dciInfo->coresetCfg.precoderGranularity = 0; dciInfo->coresetCfg.cceIndex = 0; /* 0-3 for UL and 4-7 for DL */ dciInfo->coresetCfg.aggregationLevel = 4; /* same as for sib1 */ dciInfo->dciFormatInfo.formatType = FORMAT0_0; msg3HqProc->tbInfo.rvIdx++; msg3HqProc->tbInfo.rv = schCmnDlRvTbl[msg3HqProc->tbInfo.rvIdx & 0x03]; /* fill UL grant */ dciInfo->dciFormatInfo.format.format0_0.resourceAllocType = msg3HqProc->puschResType; dciInfo->dciFormatInfo.format.format0_0.freqAlloc.resAllocType = msg3HqProc->puschResType; dciInfo->dciFormatInfo.format.format0_0.freqAlloc.resAlloc.type1.startPrb = msg3HqProc->puschStartPrb; dciInfo->dciFormatInfo.format.format0_0.freqAlloc.resAlloc.type1.numPrb = msg3HqProc->puschNumPrb; dciInfo->dciFormatInfo.format.format0_0.timeAlloc.startSymb = msg3HqProc->strtSymbl; dciInfo->dciFormatInfo.format.format0_0.timeAlloc.numSymb = msg3HqProc->numSymbl; dciInfo->dciFormatInfo.format.format0_0.rowIndex = 0; /* row Index */ dciInfo->dciFormatInfo.format.format0_0.mcs = msg3HqProc->tbInfo.iMcs; dciInfo->dciFormatInfo.format.format0_0.harqProcId = msg3HqProc->procId; dciInfo->dciFormatInfo.format.format0_0.freqHopFlag = FALSE; /* disabled */ dciInfo->dciFormatInfo.format.format0_0.ndi = msg3HqProc->tbInfo.ndi; /* new transmission */ dciInfo->dciFormatInfo.format.format0_0.rvIndex = msg3HqProc->tbInfo.rv; dciInfo->dciFormatInfo.format.format0_0.tpcCmd = 0; //Sphoorthi TODO: check dciInfo->dciFormatInfo.format.format0_0.sulIndicator = FALSE; /* SUL not configured */ /* Fill DCI Structure */ dciInfo->dciInfo.rnti = raCb->tcrnti; dciInfo->dciInfo.scramblingId = cellCb->cellCfg.phyCellId; dciInfo->dciInfo.scramblingRnti = 0; dciInfo->dciInfo.cceIndex = 0; /* 0-3 for UL and 4-7 for DL */ dciInfo->dciInfo.aggregLevel = 4; dciInfo->dciInfo.beamPdcchInfo.numPrgs = 1; dciInfo->dciInfo.beamPdcchInfo.prgSize = 1; dciInfo->dciInfo.beamPdcchInfo.digBfInterfaces = 0; dciInfo->dciInfo.beamPdcchInfo.prg[0].pmIdx = 0; dciInfo->dciInfo.beamPdcchInfo.prg[0].beamIdx[0] = 0; dciInfo->dciInfo.txPdcchPower.beta_pdcch_1_0 = 0; dciInfo->dciInfo.txPdcchPower.powerControlOffsetSS = 0; memset(&dciInfo->dciInfo.pdschCfg, 0, sizeof(PdschCfg)); msg3HqProc->tbInfo.txCntr++; puschInfo->harqProcId = msg3HqProc->procId; puschInfo->fdAlloc.resAllocType = msg3HqProc->puschResType; puschInfo->fdAlloc.resAlloc.type1.startPrb = msg3HqProc->puschStartPrb; puschInfo->fdAlloc.resAlloc.type1.numPrb = msg3HqProc->puschNumPrb; puschInfo->tdAlloc.startSymb = msg3HqProc->strtSymbl; puschInfo->tdAlloc.numSymb = msg3HqProc->numSymbl; puschInfo->tbInfo.qamOrder = msg3HqProc->tbInfo.qamOrder; puschInfo->tbInfo.mcs = msg3HqProc->tbInfo.iMcs; puschInfo->tbInfo.mcsTable = msg3HqProc->tbInfo.mcsTable; puschInfo->tbInfo.ndi = msg3HqProc->tbInfo.ndi; /* retransmission */ puschInfo->tbInfo.rv = msg3HqProc->tbInfo.rvIdx; puschInfo->tbInfo.tbSize = msg3HqProc->tbInfo.tbSzReq; #ifdef INTEL_FAPI puschInfo->dmrsMappingType = msg3HqProc->dmrsMappingType; /* Setting Type-A */ puschInfo->nrOfDmrsSymbols = msg3HqProc->nrOfDmrsSymbols; puschInfo->dmrsAddPos = msg3HqProc->dmrsAddPos; #endif return ROK; } /******************************************************************* * * @brief Fills DCI for UL grant * * @details * * Function : schFillUlDci * * Functionality: fills DCI for UL grant in response to BSR * * @params[in] SchUeCb *ueCb, SchPuschInfo *puschInfo, DciInfo *dciInfo, * @params[in] bool isRetx, SchUlHqProcCb *hqP * @return ROK - success * RFAILED - failure * * ****************************************************************/ uint8_t schFillUlDci(SchUeCb *ueCb, SchPuschInfo *puschInfo, DciInfo *dciInfo, bool isRetx, SchUlHqProcCb *hqP) { SchCellCb *cellCb = ueCb->cellCb; SchControlRsrcSet coreset1 ; memset(&coreset1, 0, sizeof(SchControlRsrcSet)); if(ueCb->ueCfg.spCellCfgPres == true) { coreset1 = ueCb->ueCfg.spCellCfg.servCellRecfg.initDlBwp.pdcchCfg.cRSetToAddModList[0]; } dciInfo->crnti = ueCb->crnti; /* fill bwp cfg */ dciInfo->bwpCfg.subcarrierSpacing = cellCb->sib1SchCfg.bwp.subcarrierSpacing; dciInfo->bwpCfg.cyclicPrefix = cellCb->sib1SchCfg.bwp.cyclicPrefix; dciInfo->bwpCfg.freqAlloc.startPrb = cellCb->cellCfg.dlCfgCommon.schInitialDlBwp.bwp.freqAlloc.startPrb; dciInfo->bwpCfg.freqAlloc.numPrb = cellCb->cellCfg.dlCfgCommon.schInitialDlBwp.bwp.freqAlloc.numPrb; /*fill coreset cfg */ //Considering number of RBs in coreset1 is same as coreset0 dciInfo->coresetCfg.coreSetSize = coresetIdxTable[0][1]; //Considering coreset1 also starts from same symbol as coreset0 dciInfo->coresetCfg.startSymbolIndex = searchSpaceIdxTable[0][3]; dciInfo->coresetCfg.durationSymbols = coreset1.duration; memcpy(dciInfo->coresetCfg.freqDomainResource, coreset1.freqDomainRsrc, FREQ_DOM_RSRC_SIZE); dciInfo->coresetCfg.cceRegMappingType = coreset1.cceRegMappingType; /* non-interleaved */ dciInfo->coresetCfg.regBundleSize = 6; /* must be 6 for non-interleaved */ dciInfo->coresetCfg.interleaverSize = 0; /* NA for non-interleaved */ dciInfo->coresetCfg.coreSetType = 1; /* non PBCH coreset */ dciInfo->coresetCfg.shiftIndex = cellCb->cellCfg.phyCellId; dciInfo->coresetCfg.precoderGranularity = coreset1.precoderGranularity; dciInfo->coresetCfg.cceIndex = 0; /* 0-3 for UL and 4-7 for DL */ dciInfo->coresetCfg.aggregationLevel = 4; /* same as for sib1 */ dciInfo->dciFormatInfo.formatType = FORMAT0_0; /* fill UL grant */ dciInfo->dciFormatInfo.format.format0_0.resourceAllocType = puschInfo->fdAlloc.resAllocType; dciInfo->dciFormatInfo.format.format0_0.freqAlloc.resAllocType = puschInfo->fdAlloc.resAllocType; dciInfo->dciFormatInfo.format.format0_0.freqAlloc.resAlloc.type1.startPrb = \ puschInfo->fdAlloc.resAlloc.type1.startPrb; dciInfo->dciFormatInfo.format.format0_0.freqAlloc.resAlloc.type1.numPrb = \ puschInfo->fdAlloc.resAlloc.type1.numPrb; dciInfo->dciFormatInfo.format.format0_0.timeAlloc.startSymb = puschInfo->tdAlloc.startSymb; dciInfo->dciFormatInfo.format.format0_0.timeAlloc.numSymb = puschInfo->tdAlloc.numSymb; dciInfo->dciFormatInfo.format.format0_0.rowIndex = 0; /* row Index */ dciInfo->dciFormatInfo.format.format0_0.mcs = puschInfo->tbInfo.mcs; dciInfo->dciFormatInfo.format.format0_0.harqProcId = puschInfo->harqProcId; dciInfo->dciFormatInfo.format.format0_0.freqHopFlag = FALSE; /* disabled */ dciInfo->dciFormatInfo.format.format0_0.ndi = puschInfo->tbInfo.ndi; /* new transmission */ dciInfo->dciFormatInfo.format.format0_0.rvIndex = puschInfo->tbInfo.rv; dciInfo->dciFormatInfo.format.format0_0.tpcCmd = 0; //Sphoorthi TODO: check dciInfo->dciFormatInfo.format.format0_0.sulIndicator = FALSE; /* SUL not configured */ /* Fill DCI Structure */ dciInfo->dciInfo.rnti = ueCb->crnti; dciInfo->dciInfo.scramblingId = cellCb->cellCfg.phyCellId; dciInfo->dciInfo.scramblingRnti = 0; dciInfo->dciInfo.cceIndex = 0; /* 0-3 for UL and 4-7 for DL */ dciInfo->dciInfo.aggregLevel = 4; dciInfo->dciInfo.beamPdcchInfo.numPrgs = 1; dciInfo->dciInfo.beamPdcchInfo.prgSize = 1; dciInfo->dciInfo.beamPdcchInfo.digBfInterfaces = 0; dciInfo->dciInfo.beamPdcchInfo.prg[0].pmIdx = 0; dciInfo->dciInfo.beamPdcchInfo.prg[0].beamIdx[0] = 0; dciInfo->dciInfo.txPdcchPower.beta_pdcch_1_0 = 0; dciInfo->dciInfo.txPdcchPower.powerControlOffsetSS = 0; memset(&dciInfo->dciInfo.pdschCfg, 0, sizeof(PdschCfg)); return ROK; } /******************************************************************* * * @brief Function to Modify Ue Config request from MAC * * @details * * Function : SchModUeConfigReq * * Functionality: Function to modify Ue Config request from MAC * * @params[in] * @return ROK - success * RFAILED - failure * * ****************************************************************/ uint8_t SchModUeConfigReq(Pst *pst, SchUeRecfgReq *ueRecfg) { uint8_t ueId, lcIdx, ret = ROK; SchCellCb *cellCb = NULLP; SchUeCb *ueCb = NULLP; SchUeRecfgRsp recfgRsp; Inst inst = pst->dstInst - SCH_INST_START; memset(&recfgRsp, 0, sizeof(SchUeRecfgRsp)); if(!ueRecfg) { DU_LOG("\nERROR --> SCH : Modifying Ue Config request failed at SchModUeConfigReq()"); return RFAILED; } DU_LOG("\nDEBUG --> SCH : Modifying Ue Config Request for CRNTI[%d]", ueRecfg->crnti); cellCb = getSchCellCb(pst->event, inst, ueRecfg->cellId); if(cellCb == NULLP) { SchSendUeRecfgRspToMac(ueRecfg, inst, RSP_NOK, &recfgRsp); return RFAILED; } /* Search if UE already configured */ GET_UE_ID(ueRecfg->crnti, ueId); ueCb = &cellCb->ueCb[ueId -1]; if(!ueCb) { DU_LOG("\nERROR --> SCH : SchUeCb not found at SchModUeConfigReq() "); SchSendUeRecfgRspToMac(ueRecfg, inst, RSP_NOK, &recfgRsp); return RFAILED; } if((ueCb->crnti == ueRecfg->crnti) && (ueCb->state == SCH_UE_STATE_ACTIVE)) { /* Found the UeCb to Reconfig */ ret = fillSchUeCbFrmRecfgReq(inst, ueCb, ueRecfg); if(fillUeCoresetAndSsInfo(ueCb) == RFAILED) { DU_LOG("\nERROR --> SCH : Memory Allocation Failed"); return RFAILED; } if(ret == ROK) { ueCb->cellCb = cellCb; ueCb->srRcvd = false; ueCb->bsrRcvd = false; for(lcIdx=0; lcIdxbsrInfo[lcIdx].dataVol = 0; SchSendUeRecfgRspToMac(ueRecfg, inst, RSP_OK, &recfgRsp); } } return ret; } /******************************************************************* * * @brief Function to delete Sch Pucch ResrcCfg * * @details * * Function : deleteSchPucchResrcCfg * * Functionality: Function to delete Sch Pucch ResrcCfg * * @params[in] SchPucchResrcCfg *resrc * @return void * * ****************************************************************/ void deleteSchPucchResrcCfg(SchPucchResrcCfg *resrc) { uint8_t rsrcIdx=0; for(rsrcIdx=0; rsrcIdx < resrc->resrcToAddModListCount; rsrcIdx++) { switch(resrc->resrcToAddModList[rsrcIdx].pucchFormat) { case PUCCH_FORMAT_0: { SCH_FREE(resrc->resrcToAddModList[rsrcIdx].SchPucchFormat.format0,\ sizeof(SchPucchFormat0)); break; } case PUCCH_FORMAT_1: { SCH_FREE(resrc->resrcToAddModList[rsrcIdx].SchPucchFormat.format1,\ sizeof(SchPucchFormat1)); break; } case PUCCH_FORMAT_2: { SCH_FREE(resrc->resrcToAddModList[rsrcIdx].SchPucchFormat.format2,\ sizeof(SchPucchFormat2_3)); break; } case PUCCH_FORMAT_3: { SCH_FREE(resrc->resrcToAddModList[rsrcIdx].SchPucchFormat.format3,\ sizeof(SchPucchFormat2_3)); break; } case PUCCH_FORMAT_4: { SCH_FREE(resrc->resrcToAddModList[rsrcIdx].SchPucchFormat.format4,\ sizeof(SchPucchFormat4)); break; } } } } /******************************************************************* * * @brief Function to delete SCH Pdsch ServCellCfg * * @details * * Function : deleteSchPdschServCellCfg * * Functionality: Function to delete SCH Pdsch ServCellCfg * * @params[in] SchPdschServCellCfg *pdschServCellCfg * @return void * * ****************************************************************/ void deleteSchPdschServCellCfg(SchPdschServCellCfg *pdschServCellCfg) { SCH_FREE(pdschServCellCfg->maxMimoLayers, sizeof(uint8_t)); SCH_FREE(pdschServCellCfg->maxCodeBlkGrpPerTb, sizeof(SchMaxCodeBlkGrpPerTB)); SCH_FREE(pdschServCellCfg->codeBlkGrpFlushInd, sizeof(bool)); SCH_FREE(pdschServCellCfg->xOverhead, sizeof(SchPdschXOverhead)); } /******************************************************************* * * @brief Function to delete SCH UeCb * * @details * * Function : deleteSchUeCb * * Functionality: Function to delete SCH UeCb * * @params[in] * @return ROK - success * RFAILED - failure * * ****************************************************************/ void deleteSchUeCb(SchUeCb *ueCb) { uint8_t timeDomRsrcIdx = 0, ueLcIdx = 0, slotIdx =0, cRSetIdx = 0; SchPucchCfg *pucchCfg = NULLP; SchPdschConfig *pdschCfg = NULLP; if(ueCb) { if(ueCb->hqDlmap) { for (slotIdx = 0; slotIdxcellCb->numSlots; slotIdx++) { if(ueCb->hqDlmap[slotIdx]) { cmLListDeleteLList(&ueCb->hqDlmap[slotIdx]->hqList); SCH_FREE(ueCb->hqDlmap[slotIdx], sizeof(SchHqDlMap)); } } SCH_FREE(ueCb->hqDlmap, sizeof(SchHqDlMap*)*(ueCb->cellCb->numSlots)); } if(ueCb->hqUlmap) { for (slotIdx = 0; slotIdxcellCb->numSlots; slotIdx++) { if(ueCb->hqUlmap[slotIdx]) { cmLListDeleteLList(&ueCb->hqUlmap[slotIdx]->hqList); SCH_FREE(ueCb->hqUlmap[slotIdx], sizeof(SchHqUlMap)); } } SCH_FREE(ueCb->hqUlmap, sizeof(SchHqUlMap*)*(ueCb->cellCb->numSlots)); } schDlHqEntDelete(ueCb); schUlHqEntDelete(ueCb); SCH_FREE(ueCb->ueCfg.ambrCfg, sizeof(SchAmbrCfg)); if(ueCb->ueCfg.spCellCfgPres) { if(ueCb->ueCfg.spCellCfg.servCellRecfg.initDlBwp.pdschCfgPres == true) { pdschCfg = &ueCb->ueCfg.spCellCfg.servCellRecfg.initDlBwp.pdschCfg; for(timeDomRsrcIdx = 0; timeDomRsrcIdx < pdschCfg->numTimeDomRsrcAlloc; timeDomRsrcIdx++) SCH_FREE(pdschCfg->timeDomRsrcAllociList[timeDomRsrcIdx].k0, sizeof(uint8_t)); } if(ueCb->ueCfg.spCellCfg.servCellRecfg.initUlBwp.pucchCfgPres == true) { pucchCfg = &ueCb->ueCfg.spCellCfg.servCellRecfg.initUlBwp.pucchCfg; SCH_FREE(pucchCfg->resrcSet,sizeof(SchPucchResrcSetCfg)); if(pucchCfg->resrc) { deleteSchPucchResrcCfg(pucchCfg->resrc); SCH_FREE(pucchCfg->resrc, sizeof(SchPucchResrcCfg)); } SCH_FREE(pucchCfg->format1, sizeof(SchPucchFormatCfg)); SCH_FREE(pucchCfg->format2, sizeof(SchPucchFormatCfg)); SCH_FREE(pucchCfg->format3, sizeof(SchPucchFormatCfg)); SCH_FREE(pucchCfg->format4, sizeof(SchPucchFormatCfg)); SCH_FREE(pucchCfg->schedReq, sizeof(SchPucchSchedReqCfg)); SCH_FREE(pucchCfg->multiCsiCfg, sizeof(SchPucchMultiCsiCfg)); SCH_FREE(pucchCfg->spatialInfo, sizeof(SchPucchSpatialCfg)); SCH_FREE(pucchCfg->dlDataToUlAck, sizeof(SchPucchDlDataToUlAck)); SCH_FREE(pucchCfg->powerControl,sizeof(SchPucchPowerControl)); } SCH_FREE(ueCb->ueCfg.spCellCfg.servCellRecfg.bwpInactivityTmr, sizeof(uint8_t)); deleteSchPdschServCellCfg(&ueCb->ueCfg.spCellCfg.servCellRecfg.pdschServCellCfg); } /*Need to Free the memory allocated for S-NSSAI*/ for(ueLcIdx = 0; ueLcIdx < MAX_NUM_LC; ueLcIdx++) { SCH_FREE(ueCb->ulInfo.ulLcCtxt[ueLcIdx].snssai, sizeof(Snssai)); SCH_FREE(ueCb->dlInfo.dlLcCtxt[ueLcIdx].snssai, sizeof(Snssai)); } #ifdef NR_DRX if(ueCb->ueDrxInfoPres) { /* Removing all the calculated drx configuration timer list */ schDeleteUeDrxInfo(ueCb->cellCb, ueCb); ueCb->ueDrxInfoPres = false; } #endif for(cRSetIdx=0; cRSetIdx < MAX_NUM_CRSET; cRSetIdx++) { SCH_FREE(ueCb->pdcchInfo[cRSetIdx].y, (sizeof(uint32_t) * ueCb->cellCb->numSlots)); } memset(ueCb, 0, sizeof(SchUeCb)); } } /******************************************************************* * * @brief Fill and send UE delete response to MAC * * @details * * Function : SchSendUeDeleteRspToMac * * Functionality: Fill and send UE delete response to MAC * * @params[in] Inst inst, SchUeDelete *ueDelete, SchMacRsp result, * CauseOfResult cause * @return ROK - success * RFAILED - failure * * ****************************************************************/ void SchSendUeDeleteRspToMac(Inst inst, SchUeDelete *ueDelete, SchMacRsp result, CauseOfResult cause) { Pst rspPst; SchUeDeleteRsp delRsp; memset(&delRsp, 0, sizeof(SchUeDeleteRsp)); delRsp.cellId = ueDelete->cellId; delRsp.crnti = ueDelete->crnti; delRsp.rsp = result; delRsp.cause = cause; /* Filling response post */ memset(&rspPst, 0, sizeof(Pst)); FILL_PST_SCH_TO_MAC(rspPst, inst); rspPst.event = EVENT_UE_DELETE_RSP_TO_MAC; MacMessageRouter(&rspPst, (void *)&delRsp); } /******************************************************************* * * @brief Function for Ue Delete request from MAC to SCH * * @details * * Function : SchProcUeDeleteReq * * Functionality: Function for Ue Delete request from MAC to SCH * * @params[in] Pst *pst, SchUeDelete *ueDelete * @return ROK - success * RFAILED - failure * * ****************************************************************/ uint8_t SchProcUeDeleteReq(Pst *pst, SchUeDelete *ueDelete) { uint8_t idx=0, ueId=0, ret=ROK; CauseOfResult cause; SchCellCb *cellCb = NULLP; Inst inst = pst->dstInst - SCH_INST_START; if(!ueDelete) { DU_LOG("\nERROR --> SCH : SchProcUeDeleteReq(): Ue Delete request failed"); ret = RFAILED; } DU_LOG("\nDEBUG --> SCH : Ue Delete request received for crnti[%d]", ueDelete->crnti); cellCb = schCb[inst].cells[idx]; if(cellCb->cellId != ueDelete->cellId) { DU_LOG("\nERROR --> SCH : SchProcUeDeleteReq(): cell Id is not available"); cause = CELLID_INVALID; } else { GET_UE_ID(ueDelete->crnti, ueId); if(( cellCb->ueCb[ueId-1].crnti == ueDelete->crnti) && ( cellCb->ueCb[ueId-1].state == SCH_UE_STATE_ACTIVE)) { /* Remove UE from ueToBeScheduled list */ cellCb->api->SchUeDeleteReq(&cellCb->ueCb[ueId-1]); deleteSchUeCb(&cellCb->ueCb[ueId-1]); cellCb->numActvUe--; cause = SUCCESSFUL; } else { DU_LOG("\nERROR --> SCH : SchProcUeDeleteReq(): SchUeCb not found"); cause = UEID_INVALID; } } if(cause == SUCCESSFUL) { SchSendUeDeleteRspToMac(inst, ueDelete, RSP_OK, cause); } else { SchSendUeDeleteRspToMac(inst, ueDelete, RSP_NOK, cause); ret = RFAILED; } return ret; } /******************************************************************* * * @brief Function updates DL HARQ Feedback * * @details * * Function : schUpdateHarqFdbk * * Functionality: Function updates DL HARQ feedback * * @params[in] SchUeCb *ueCb, UE cb struct pointer * @params[in] uint8_t numHarq, number of HARQ processes in feedback * @params[in] uint8_t *harqPayload, harq feedback payload received * @params[in] SlotTimingInfo *slotInd, slot timing information * @return void * * ****************************************************************/ void schUpdateHarqFdbk(SchUeCb *ueCb, uint8_t numHarq, uint8_t *harqPayload, SlotTimingInfo *slotInd) { SchDlHqProcCb *hqP; SchHqDlMap *hqDlMap; CmLList *node = NULLP; uint8_t fdbkPos = 0; hqDlMap = ueCb->hqDlmap[slotInd->slot]; if (ueCb->cellCb->raCb[ueCb->ueId-1].raState == SCH_RA_STATE_MSG2_HANDLE) { return; } while(fdbkPos < numHarq) { node = hqDlMap->hqList.first; if(node == NULLP) { DU_LOG("\nERROR : SCH --> DL HARQ list is empty thus no need to process the dl harq feedback!"); return; } if (ueCb->cellCb->raCb[ueCb->ueId-1].raState != SCH_RA_STATE_MSG4_PENDING) { while(node) { hqP = (SchDlHqProcCb*)node->node; node = node->next; cmLListDelFrm(&hqDlMap->hqList, &hqP->dlSlotLnk); /* Decode harq feedback if needed post FAPI message decoding also or check how to decode this FAPI msg. case 1 semi static harq Ack/Nack codebook //Supported case 2 dynamic harq ACK/NACK codebook //Not supported */ schDlHqFeedbackUpdate(hqP, harqPayload[fdbkPos++], HQ_TB_ACKED);//Marking 2nd TB as ACKED for now as only one TB to be used } } else { hqP = (SchDlHqProcCb*)node->node; cmLListDelFrm(&hqDlMap->hqList, &hqP->dlSlotLnk); schMsg4FeedbackUpdate(hqP, harqPayload[fdbkPos++]); } } } /********************************************************************** End of file **********************************************************************/