#include "du_app_mac_inf.h"
#include "mac_sch_interface.h"
#include "sch.h"
+#include "sch_utils.h"
#include "du_log.h"
extern SchCb schCb[SCH_MAX_INST];
+extern int8_t coresetIdxTable[MAX_CORESET_INDEX][4];
+extern int8_t searchSpaceIdxTable[MAX_SEARCH_SPACE_INDEX][4];
/* local defines */
SchCellCfgCfmFunc SchCellCfgCfmOpts[] =
{
packSchCellCfgCfm /* LWLC */
};
+
/**
* @brief Task Initiation function.
*
cell->cellId = schCellCfg->cellId;
cell->instIdx = inst;
- switch(schCellCfg->scsCommon)
+ switch(schCellCfg->ssbSchCfg.scsCommon)
{
case SCH_SCS_15KHZ:
{
}
break;
default:
- DU_LOG("\nSCS %d not supported", schCellCfg->scsCommon);
+ DU_LOG("\nSCS %d not supported", schCellCfg->ssbSchCfg.scsCommon);
}
for(uint8_t idx=0; idx<SCH_NUM_SLOTS; idx++)
return RFAILED;
}
- schDlAlloc->totalPrb = ((schCellCfg->bandwidth *
- 1000)/(schCellCfg->scsCommon))/SCH_NUM_SC_PRB;
+ schDlAlloc->totalPrb = MAX_NUM_RB;
+
for(uint8_t itr=0; itr<MAX_SSB_IDX; itr++)
{
schDlAlloc->assignedPrb[itr] = 0;
return ROK;
}
+void fillSib1SchCfg(
+Inst schInst,
+Sib1SchCfg *sib1SchCfg,
+uint8_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;
+ uint8_t FreqDomainResource[6] = {0};
+
+ Sib1PdcchCfg *pdcch = &(sib1SchCfg->sib1PdcchCfg);
+ Sib1PdschCfg *pdsch = &(sib1SchCfg->sib1PdschCfg);
+
+ 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 = ((oValue * 1) + (0 * mValue)) % 10;
+ sib1SchCfg->n0 = slotIndex;
+
+ /* calculate the PRBs */
+ freqDomResourceAlloc((offsetPointA-offset),numRbs,FreqDomainResource);
+
+ /* fill the PDCCH PDU */
+ pdcch->sib1PdcchBwpCfg.BWPSize = MAX_NUM_RB; /* whole of BW */
+ pdcch->sib1PdcchBwpCfg.BWPStart = 0;
+ pdcch->subcarrierSpacing = 0; /* 15Khz */
+ pdcch->cyclicPrefix = 0; /* normal */
+ pdcch->sib1Coreset0Cfg.startSymbolIndex = firstSymbol;
+ pdcch->sib1Coreset0Cfg.durationSymbols = numSymbols;
+ memcpy(pdcch->sib1Coreset0Cfg.freqDomainResource,FreqDomainResource,6);
+ pdcch->sib1Coreset0Cfg.cceRegMappingType = 1; /* coreset0 is always interleaved */
+ pdcch->sib1Coreset0Cfg.regBundleSize = 6; /* spec-38.211 sec 7.3.2.2 */
+ pdcch->sib1Coreset0Cfg.interleaverSize = 2; /* spec-38.211 sec 7.3.2.2 */
+ pdcch->sib1Coreset0Cfg.coreSetType = 0;
+ pdcch->sib1Coreset0Cfg.shiftIndex = pci;
+ pdcch->sib1Coreset0Cfg.precoderGranularity = 0; /* sameAsRegBundle */
+ pdcch->numDlDci = 1;
+ pdcch->sib1DlDci.rnti = 0xFFFF; /* SI-RNTI */
+ pdcch->sib1DlDci.scramblingId = pci;
+ pdcch->sib1DlDci.scramblingRnti = 0;
+ pdcch->sib1DlDci.cceIndex = 0;
+ pdcch->sib1DlDci.aggregLevel = 4;
+ pdcch->sib1DlDci.beamPdcchInfo.numPrgs = 1;
+ pdcch->sib1DlDci.beamPdcchInfo.prgSize = 1;
+ pdcch->sib1DlDci.beamPdcchInfo.digBfInterfaces = 0;
+ pdcch->sib1DlDci.beamPdcchInfo.prg[0].pmIdx = 0;
+ pdcch->sib1DlDci.beamPdcchInfo.prg[0].beamIdx[0] = 0;
+ pdcch->sib1DlDci.txPdcchPower.powerValue = 0;
+ pdcch->sib1DlDci.txPdcchPower.powerControlOffsetSS = 0;
+
+ /* 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->sib1PdschBwpCfg.BWPSize = MAX_NUM_RB; /* whole of BW */
+ pdsch->sib1PdschBwpCfg.BWPStart = 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;
+ pdsch->codeword[cwCount].tbSize = 768;
+ }
+ pdsch->dataScramblingId = pci;
+ pdsch->numLayers = 1;
+ pdsch->transmissionScheme = 0;
+ pdsch->refPoint = 0;
+ pdsch->dmrs.dlDmrsSymbPos = 2;
+ pdsch->dmrs.dmrsConfigType = 0; /* type-1 */
+ pdsch->dmrs.dlDmrsScramblingId = pci;
+ pdsch->dmrs.scid = 0;
+ pdsch->dmrs.numDmrsCdmGrpsNoData = 1;
+ pdsch->dmrs.dmrsPorts = 0;
+ pdsch->sib1FreqAlloc.resourceAlloc = 1; /* RAT type-1 RIV format */
+ pdsch->sib1FreqAlloc.rbStart = offset + SCH_SSB_PRB_DURATION; /* the RB numbering starts from coreset0, and PDSCH is always above SSB */
+ /* formula used for calculation of rbSize, 38.213 section 5.1.3.2 *
+ * Ninfo = Nre . R . Qm . v *
+ * Nre' = Nsc . NsymPdsch - NdmrsSymb - Noh *
+ * Nre = min(156,Nre') . nPrb */
+ pdsch->sib1FreqAlloc.rbSize = 10; /* This value is calculated from above formulae */
+ pdsch->sib1FreqAlloc.vrbPrbMapping = 0; /* non-interleaved */
+ pdsch->sib1TimeAlloc.startSymbolIndex = 2; /* spec-38.214, Table 5.1.2.1-1 */
+ pdsch->sib1TimeAlloc.numSymbols = 12;
+ 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.
*
Inst inst = pst->dstInst-1;
InitSchCellCb(inst, schCellCfg);
- cellCb = schCb[inst].cells[inst];
+ cellCb = schCb[inst].cells[inst]; //cells is of MAX_CELLS, why inst
cellCb->macInst = pst->srcInst;
memcpy(&cellCb->cellCfg, schCellCfg, sizeof(SchCellCfg));
+ /* derive the SIB1 config parameters */
+ fillSib1SchCfg(
+ inst,
+ &(schCellCfg->sib1SchCfg),
+ schCellCfg->phyCellId,
+ schCellCfg->ssbSchCfg.ssbOffsetPointA);
+
memset(&rspPst, 0, sizeof(Pst));
SCH_FILL_RSP_PST(rspPst, inst);
rspPst.event = EVENT_SCH_CELL_CFG_CFM;