if(pst->dstInst < SCH_INST_START)
{
- DU_LOG("\nInvalid inst ID");
- DU_LOG("\nSchProcGenCfgReq(): "
+ 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;
}
- printf("\nReceived scheduler gen config");
+ printf("\nSCH : Received scheduler gen config");
/* Fill the post structure for sending the confirmation */
memset(&cfmPst, 0 , sizeof(Pst));
SchFillCfmPst(pst, &cfmPst, cfg);
default:
ret = LCM_PRIM_NOK;
reason = LCM_REASON_INVALID_ELMNT;
- DU_LOG("\nInvalid Elmnt=%d", cfg->hdr.elmId.elmnt);
+ DU_LOG("\nERROR --> SCH : Invalid Elmnt=%d", cfg->hdr.elmId.elmnt);
break;
}
uint8_t MacSchRachInd(Pst *pst, RachIndInfo *rachInd)
{
Inst inst = pst->dstInst-SCH_INST_START;
- DU_LOG("\nSCH : Received Rach indication");
+ DU_LOG("\nINFO --> SCH : Received Rach indication");
schProcessRachInd(rachInd, inst);
return ROK;
}
switch(crcInd->crcInd[0])
{
case CRC_FAILED:
- DU_LOG("\nSCH : Received CRC indication. CRC Status [FAILURE]");
+ DU_LOG("\nDEBUG --> SCH : Received CRC indication. CRC Status [FAILURE]");
break;
case CRC_PASSED:
- DU_LOG("\nSCH : Received CRC indication. CRC Status [PASS]");
+ DU_LOG("\nDEBUG --> SCH : Received CRC indication. CRC Status [PASS]");
break;
default:
- DU_LOG("\nSCH : Invalid CRC state %d", crcInd->crcInd[0]);
+ DU_LOG("\nDEBUG --> SCH : Invalid CRC state %d", crcInd->crcInd[0]);
return RFAILED;
}
return ROK;
SCH_ALLOC(cell, sizeof(SchCellCb));
if(!cell)
{
- DU_LOG("\nMemory allocation failed in schInitCellCb");
+ DU_LOG("\nERROR --> SCH : Memory allocation failed in schInitCellCb");
return RFAILED;
}
cell->cellId = schCellCfg->cellId;
cell->instIdx = inst;
- switch(schCellCfg->ssbSchCfg.scsCommon)
+ switch(schCellCfg->numerology)
{
- case SCH_SCS_15KHZ:
+ 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_NUM_SLOTS;
+ cell->numSlots = SCH_MU4_NUM_SLOTS;
}
break;
default:
- DU_LOG("\nSCS %d not supported", schCellCfg->ssbSchCfg.scsCommon);
+ DU_LOG("\nERROR --> SCH : Numerology %d not supported", schCellCfg->numerology);
}
- for(uint8_t idx=0; idx<SCH_NUM_SLOTS; idx++)
+ 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; idx<cell->numSlots; idx++)
{
SchDlSlotInfo *schDlSlotInfo;
SchUlSlotInfo *schUlSlotInfo;
SCH_ALLOC(schDlSlotInfo, sizeof(SchDlSlotInfo));
if(!schDlSlotInfo)
{
- DU_LOG("\nMemory allocation failed in schInitCellCb");
+ DU_LOG("\nERROR --> SCH : Memory allocation failed in schInitCellCb");
return RFAILED;
}
SCH_ALLOC(schUlSlotInfo, sizeof(SchUlSlotInfo));
if(!schUlSlotInfo)
{
- DU_LOG("\nMemory allocation failed in schInitCellCb");
+ DU_LOG("\nERROR --> SCH : Memory allocation failed in schInitCellCb");
return RFAILED;
}
}
schCb[inst].cells[inst] = cell;
- DU_LOG("\nCell init completed for cellId:%d", cell->cellId);
+ DU_LOG("\nINFO --> SCH : Cell init completed for cellId:%d", cell->cellId);
return ROK;
}
*
* Fill SIB1 configuration
*
- * @param[in] Inst schInst : scheduler instance
+ * @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(Inst schInst, SchSib1Cfg *sib1SchCfg, uint16_t pci, \
- uint8_t offsetPointA)
+void fillSchSib1Cfg(uint8_t bandwidth, uint8_t numSlots, SchSib1Cfg *sib1SchCfg, uint16_t pci, uint8_t offsetPointA)
{
uint8_t coreset0Idx = 0;
uint8_t searchSpace0Idx = 0;
* [(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;
+ slotIndex = ((oValue * 1) + (0 * mValue)) % numSlots;
sib1SchCfg->n0 = slotIndex;
/* calculate the PRBs */
freqDomRscAllocType0(((offsetPointA-offset)/6), (numRbs/6), FreqDomainResource);
/* fill BWP */
- bwp->freqAlloc.numPrb = MAX_NUM_RB; /* whole of BW */
+ 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 */
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 + SCH_SYMBOL_PER_SLOT*idx;
+ ssbStartSymbArr[symbIdx++] = 8 + SCH_SYMBOL_PER_SLOT*idx;
}
}
break;
default:
- DU_LOG("\nSCS %d is currently not supported", scs);
+ DU_LOG("\nERROR --> 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);
cellCb->macInst = pst->srcInst;
/* derive the SIB1 config parameters */
- fillSchSib1Cfg(
- inst,
- &(schCellCfg->sib1SchCfg),
- schCellCfg->phyCellId,
+ fillSchSib1Cfg(schCellCfg->bandwidth, cellCb->numSlots,
+ &(schCellCfg->sib1SchCfg), schCellCfg->phyCellId,
schCellCfg->ssbSchCfg.ssbOffsetPointA);
memcpy(&cellCb->cellCfg, schCellCfg, sizeof(SchCellCfg));
SchDlSlotInfo *schDlSlotInfo = NULLP;
Inst inst = pst->dstInst-SCH_INST_START;
- DU_LOG("\nSCH : Received RLC BO Status indication");
+ DU_LOG("\nDEBUG --> SCH : Received RLC BO Status indication");
cell = schCb[inst].cells[inst];
GET_UE_IDX(dlBoInfo->crnti, ueIdx);
}
else if(lcId != SRB0_LCID)
{
- DU_LOG("\nSCH : Invalid LC Id %d in MacSchDlRlcBoInfo", lcId);
+ DU_LOG("\nERROR --> SCH : Invalid LC Id %d in MacSchDlRlcBoInfo", lcId);
return RFAILED;
}
- slot = (cell->slotInfo.slot + SCHED_DELTA + PHY_DELTA + BO_DELTA) % SCH_NUM_SLOTS;
+ slot = (cell->slotInfo.slot + SCHED_DELTA + PHY_DELTA + BO_DELTA) % cell->numSlots;
schDlSlotInfo = cell->schDlSlotInfo[slot];
SCH_ALLOC(schDlSlotInfo->dlMsgInfo, sizeof(DlMsgInfo));
if(!schDlSlotInfo->dlMsgInfo)
{
- DU_LOG("\nSCH : Memory allocation failed for dlMsgInfo");
+ DU_LOG("\nERROR --> SCH : Memory allocation failed for dlMsgInfo");
schDlSlotInfo = NULL;
return RFAILED;
}
SchUeCb *ueCb = NULLP;
uint8_t lcgIdx;
- DU_LOG("\nSCH : Received BSR");
+ DU_LOG("\nDEBUG --> SCH : Received BSR");
cellCb = schCb[schInst].cells[schInst];
ueCb = schGetUeCb(cellCb, bsrInd->crnti);
SchUeCb *ueCb;
SchCellCb *cellCb = schCb[inst].cells[inst];
- DU_LOG("\nSCH : Received SR");
+ DU_LOG("\nDEBUG --> SCH : Received SR");
ueCb = schGetUeCb(cellCb, uciInd->crnti);