#include "lrg.x" /* layer management typedefs for MAC */
#include "mac_sch_interface.h"
#include "sch.h"
+#include "sch_tmr.h"
#include "sch_utils.h"
#include "math.h"
{ 31, 6, 0}}; /* mcs index 31 */
/* PUCCH resource sets before dedicated PUCCH resource configuration */
-/* Table 9.2.1-1 spec 38.213 */
-uint8_t pucchResourceSet[MAX_PUCCH_RES_SET_IDX][4] = {
-{ 0, 12, 2, 0 }, /* index 0 */
-{ 0, 12, 2, 0 }, /* index 1 */
-{ 0, 12, 2, 3 }, /* index 2 */
-{ 1, 10, 4, 0 }, /* index 3 */
-{ 1, 10, 4, 0 }, /* index 4 */
-{ 1, 10, 4, 2 }, /* index 5 */
-{ 1, 10, 4, 4 }, /* index 6 */
-{ 1, 4, 10, 0 }, /* index 7 */
-{ 1, 4, 10, 0 }, /* index 8 */
-{ 1, 4, 10, 2 }, /* index 9 */
-{ 1, 4, 10, 4 }, /* index 10 */
-{ 1, 0, 14, 0 }, /* index 11 */
-{ 1, 0, 14, 0 }, /* index 12 */
-{ 1, 0, 14, 2 }, /* index 13 */
-{ 1, 0, 14, 4 }, /* index 14 */
-{ 1, 0, 14, 0 }, /* index 15 */
+/* Table 9.2.1-1 spec 38.213 */
+/*{PUCCH_Format, 1stSym, NumSym, PRBOffset, Num_CyclicShift}*/
+uint8_t pucchResourceSet[MAX_PUCCH_RES_SET_IDX][5] = {
+{ 0, 12, 2, 0, 2 }, /* index 0 */
+{ 0, 12, 2, 0, 3 }, /* index 1 */
+{ 0, 12, 2, 3, 3 }, /* index 2 */
+{ 1, 10, 4, 0, 2 }, /* index 3 */
+{ 1, 10, 4, 0, 4 }, /* index 4 */
+{ 1, 10, 4, 2, 4 }, /* index 5 */
+{ 1, 10, 4, 4, 4 }, /* index 6 */
+{ 1, 4, 10, 0, 2 }, /* index 7 */
+{ 1, 4, 10, 0, 4 }, /* index 8 */
+{ 1, 4, 10, 2, 4 }, /* index 9 */
+{ 1, 4, 10, 4, 4 }, /* index 10 */
+{ 1, 0, 14, 0, 2 }, /* index 11 */
+{ 1, 0, 14, 0, 4 }, /* index 12 */
+{ 1, 0, 14, 2, 4 }, /* index 13 */
+{ 1, 0, 14, 4, 4 }, /* index 14 */
+{ 1, 0, 14, (MAX_NUM_RB/4), 4 }, /* index 15 */
};
+/*CQI Table From Spec 38.214 Table 5.2.2.1-2
+ * {Modulation Scheme, CodeRate, Efficiency(bits per symbol)}
+ * Modulation Scheme is numbered based on bit rate as follows
+ * QPSK = 2, 16QAM = 4, 64QAM = 6
+ * */
+float cqiTable1[MAX_NUM_CQI_IDX][3] = {
+{ 0, 0, 0}, /*index 0*/
+{ 2, 78, 0.1523}, /*index 1*/
+{ 2, 120, 0.2344}, /*index 2*/
+{ 2, 193, 0.3770}, /*index 3*/
+{ 2, 308, 0.6016}, /*index 4*/
+{ 2, 449, 0.8770}, /*index 5*/
+{ 2, 602, 1.1758}, /*index 6*/
+{ 4, 378, 1.4766}, /*index 7*/
+{ 4, 490, 1.9141}, /*index 8*/
+{ 4, 616, 2.4063}, /*index 9*/
+{ 6, 466, 2.7305}, /*index 10*/
+{ 6, 567, 3.3223}, /*index 11*/
+{ 6, 666, 3.9023}, /*index 12*/
+{ 6, 772, 4.5234}, /*index 13*/
+{ 6, 873, 5.1152}, /*index 14*/
+{ 6, 948, 5.5547}, /*index 15*/
+};
+
+/*As per Spec 38.211 Table 7.3.2.1-1, using number of CCE per AggLevel
+ * Num of RE for Agg Level = numCCEPerAggLevel * (6 REG) * (12 Subcarriers)
+ */
+uint16_t totalRE_PerAggLevel[MAX_NUM_AGG_LVL]= {72, 144, 288, 576, 1152};
+
+
/* Minimum Msg3 scheduling time should be calculated based on N1+N2+NTAmax+0.5
* ms formula.
* Refer spec 38.213 section 8.3.
uint8_t defaultUlAckTbl[DEFAULT_UL_ACK_LIST_COUNT]= {1, 2, 3 , 4, 5, 6, 7, 8};
+uint8_t schCmnDlRvTbl[4] = {0, 2, 3, 1};
/**
* @brief Function to find first DMRS symbol in PDSCH
*
/* Check if requested number of blocks can be allocated from the current block */
if(freeBlock->numFreePrb < numPrb)
+ {
+ DU_LOG("\nINFO --> SCH: In isPrbAvailable, numFreePrb:%d is less than reqPrb:%d", freeBlock->numFreePrb, numPrb);
+ node = node->next;
continue;
-
+ }
+
/* Check if requested PRBs belong within the range of current free block */
if(((startPrb >= freeBlock->startPrb) && (startPrb <= freeBlock->endPrb)) && \
((endPrb >= freeBlock->startPrb) && (endPrb <= freeBlock->endPrb)))
**/
void schInitUlSlot(SchUlSlotInfo *schUlSlotInfo)
{
+ uint8_t ueIdx = 0;
CmLList *node = NULLP, *next = NULLP;
FreePrbBlock *freeBlock;
freeBlock->endPrb = MAX_NUM_RB-1;
addNodeToLList(&schUlSlotInfo->prbAlloc.freePrbBlockList, freeBlock, NULL);
}
-
- schUlSlotInfo->puschCurrentPrb = PUSCH_START_RB;
- schUlSlotInfo->schPuschInfo = NULLP;
+
+ for(ueIdx = 0; ueIdx < MAX_NUM_UE; ueIdx++)
+ {
+ schUlSlotInfo->schPuschInfo[ueIdx] = NULLP;
+ }
}
/**
uint8_t updateLcListReqPRB(CmLListCp *lcLL, uint8_t lcId, uint32_t payloadSize)
{
LcInfo *lcNode = NULLP;
-
lcNode = handleLcLList(lcLL, lcId, CREATE);
if(lcNode == NULLP)
DU_LOG("\nERROR --> SCH : LC is neither present nor able to create in List lcId:%d",lcId);
return RFAILED;
}
+
lcNode->reqBO = payloadSize;
- lcNode->allocBO = 0;
+ lcNode->allocBO = 0;
lcNode->allocPRB = 0; /*Re-Initializing the AllocPRB*/
return ROK;
}
*
*
*************************************************************************/
-uint32_t calculateEstimateTBSize(uint32_t reqBO, uint16_t mcsIdx,uint8_t numSymbols,\
+uint32_t calculateEstimateTBSize(uint32_t reqBO, uint16_t mcsIdx, uint8_t numSymbols,\
uint16_t maxPRB, uint16_t *estPrb)
{
uint32_t tbs = 0, effecBO = 0;
effecBO = MIN(tbs,reqBO);
return (effecBO);
}
+
+
+/*******************************************************************
+*
+* @brief deleting Page Info node from PageInfo List
+*
+* @details
+*
+* Function : schDeleteFromPageInfoList
+*
+* Functionality: deleting page Info node from Page Info List
+*
+* @params[in] CmLListCp *list, CmLList *node
+*
+* @return void
+*
+* ****************************************************************/
+void schDeleteFromPageInfoList(CmLListCp *list, CmLList *node)
+{
+ SchPageInfo *pageInfo;
+
+ if(node != NULLP)
+ {
+ pageInfo = (SchPageInfo *)node->node;
+ if(deleteNodeFromLList(list, node) == ROK)
+ SCH_FREE(pageInfo, sizeof(SchPageInfo));
+ }
+}
+
+/*******************************************************************
+*
+* @brief searching for Page at a particular SFN
+*
+* @details
+*
+* Function : schPageInfoSearchFromPageList
+*
+* Functionality: searching for Page at a particular SFN
+*
+* @params[in] SlotTimingInfo slotInfo, CmLListCp *storedPageList
+*
+* @return pointer to SchPageInfo
+*
+* ****************************************************************/
+CmLList *schPageInfoSearchFromPageList(SlotTimingInfo slotInfo, CmLListCp *storedPageList)
+{
+ CmLList *node = NULLP;
+ SchPageInfo *pageInfo = NULLP;
+
+ if(storedPageList->count)
+ {
+ CM_LLIST_FIRST_NODE(storedPageList, node);
+ while(node)
+ {
+ pageInfo = (SchPageInfo*)node->node;
+ if(pageInfo == NULLP)
+ {
+ DU_LOG("\nERROR --> SCH: PageInfo empty");
+ }
+ else if(pageInfo->pageTxTime.sfn == slotInfo.sfn &&
+ (pageInfo->pageTxTime.slot == slotInfo.slot))
+ {
+ return node;
+ }
+ node = node->next;
+ }
+ }
+ return NULLP;
+}
+
/*Below function for printing will be used in future so disabling it for now*/
#if 0
/****************************************************************************
}
#endif
+/**
+ * @brief Function to find start Symbol Index of Coreset defined in SearchSpace(SS)
+ *
+ * @details
+ *
+ * Function: findSsStartSymbol
+ *
+ * This function finds first the startSymbol Index of a CORESET
+ * which is defined in SearchSpace.monitoringSymbolWithinSlot parameter
+ *
+ * @param[in] uint8_t mSymbolsWithinSlot[2]
+ * mSymbolsWithinSlot[0] >> MSB as 7th Symbol to LSB as 0th Symbol
+ * mSymbolsWithinSlot[1] >> 0th bit as 8th Symbol, 1st bit as 9th,
+ * ...,5th bit as 13th symbol
+ * @return Success : First SS Symbol Index
+ * Failure : MAX_SYMB_PER_SLOT(Invalid value of SymbolIndex = 14)
+**/
+uint8_t findSsStartSymbol(uint8_t *mSymbolsWithinSlot)
+{
+ uint8_t symbolIdx = 0;
+ uint8_t i = 1, symPos = 0;
+
+ for(symbolIdx = 0; symbolIdx < MONITORING_SYMB_WITHIN_SLOT_SIZE; symbolIdx++)
+ {
+ i = 1, symPos = 0;
+ while(i)
+ {
+ /*The first Symbol(or bit) enabled(set) is the StartSymbol of SS thus
+ *returning if we find that bitPosition */
+ if(mSymbolsWithinSlot[symbolIdx] & i)
+ {
+ /*Adding (SymbolIdx*8) for SymbolIndex between 8 and 13*/
+ return (symPos + (symbolIdx * 8));
+ }
+ i = i << 1;
+ symPos++;
+ }
+ }
+ return(MAX_SYMB_PER_SLOT);
+}
+
/*
- * As per FAPI spec,
- * Frequency domain resources is a bitmap defining non-overlapping groups of 6 PRBs in ascending order.
- * [TS38.213 10.1]. Bitmap of uint8 array. 45 bits.
- *
- * As per IAPI,
- * CORESET-freqdom.frequencyDomainResources : The bits of the bitmap have a one-to-one mapping with
- * non-overlapping groups of 6 RBs. The most significant bit of the first word corresponds to
- * the most significant bit defined in 38.331.
- *
- * FAPI and IAPI both are 45 bits. Mapped from bit 0 LS Byte for the FAPI and
- * bit 0 LS U32 entry for IAPI.
- * FAPI is to be filled in following format such that Intel L1 is able to decode it :
- *
- * FAPI IAPI
- * FreqDomainResource[0] bits 7-0 -> nFreqDomain[0] bits 7-0
- * FreqDomainResource[1] bits 7-0 -> nFreqDomain[0] bits 15-8
- * FreqDomainResource[2] bits 7-0 -> nFreqDomain[0] bits 23-16
- * FreqDomainResource[3] bits 7-0 -> nFreqDomain[0] bits 31-24
- * FreqDomainResource[4] bits 7-0 -> nFreqDomain[1] bits 7-0
- * FreqDomainResource[5] bits 7-0 -> nFreqDomain[1] bits 15-8
- *
- * where for the last entry bits 7,6 and 5 are don't care in the FAPI and bits
- * 31-13 are don't care in the IAPI.
- */
-void covertFreqDomRsrcMapToIAPIFormat(uint8_t *sourceBitMap, uint8_t *destBitMap)
+ * @brief: Function will extract the StartPrb as per the given RBGIndex
+ *
+ * Function: extractStartPrbForRBG
+ *
+ * This function will extract the StartPrb of a rbgIndex. This RbgIndex doesnt
+ * have direct mapping with index in FreqDomRsrc instead it is mapping with
+ * those rbg which is set(i.e. available for PDCCH)
+ *
+ * @param[in] uint8_t freqDomainRsrc[6] (As per Spec 38.331, ControlResourceSet.frequencyDomainResources)
+ * freqDomainRsrc[0] =RBG0 to RBG7
+ * freqDomainRsrc[1] =RBG8 to RBG15
+ * ...
+ * freqDomainRsrc[5] =RBG40 to RBG47
+ * (Every RBG has 6 PRBs)
+ *
+ * uint8_t rbgIndex
+ *
+ *
+ * [return]: startPrb of that rbgIndex
+ * */
+uint16_t extractStartPrbForRBG(uint8_t *freqDomainRsrc, uint8_t rbgIndex)
{
- int8_t idx;
- uint8_t numBitsToShift = 0;
- uint64_t freqDomainResources = 0;
+ uint8_t freqIdx = 0, idx = 0;
+ uint8_t count = 0, bitPos = 0;
+ uint8_t totalPrbPerFreqIdx = NUM_PRBS_PER_RBG * 8; /*8 = no. of Bits in uint8_t*/
+ uint16_t startPrb = MAX_NUM_RB;
- /* Bit operation to create a 64-bit integer that has
- * 48 LSBs [Bit 47 to Bit 0] mapped to sourceBitMap[0] to sourceBitMap[5]
- */
- for(idx = FREQ_DOM_RSRC_SIZE-1; idx >=0; idx--)
+ for(freqIdx = 0; freqIdx < FREQ_DOM_RSRC_SIZE; freqIdx++)
{
- freqDomainResources |= ((uint64_t)sourceBitMap[idx] << numBitsToShift);
- numBitsToShift += 8;
+ if(freqDomainRsrc[freqIdx] & 0xFF)
+ {
+ /*Tracking from the 7th Bit because in FreqDomRsrc , lowestPRB is
+ * stored in MSB and so on*/
+ idx = 128;
+ bitPos = 0;
+ while(idx)
+ {
+ if(freqDomainRsrc[freqIdx] & idx)
+ {
+ if(count == rbgIndex)
+ {
+ startPrb = (totalPrbPerFreqIdx * freqIdx) + (bitPos * NUM_PRBS_PER_RBG);
+ return startPrb;
+ }
+ count++;
+ }
+ bitPos++;
+ idx = idx >> 1;
+ }
+ }
}
+ return startPrb;
+}
+/**
+ * @brief Function to count number of RBG from Coreset's FreqDomainResource
+ *
+ * @details
+ *
+ * Function: countRBGFrmCoresetFreqRsrc
+ *
+ * This function counts RBG for calculating the coresetSize using CORESET.freqDomainResource
+ * In this, we will find the number of RBG groups which are allowed for this
+ * coreset
+ *
+ * @param[in] uint8_t freqDomainRsrc[6] (As per Spec 38.331, ControlResourceSet.frequencyDomainResources)
+ * freqDomainRsrc[0] =RBG0 to RBG7
+ * freqDomainRsrc[1] =RBG8 to RBG15
+ * ...
+ * freqDomainRsrc[5] =RBG40 to RBG47
+ * (Every RBG has 6 PRBs)
+ * @return Success : Total Number of RGBs in CORESET which can be allocated
+ * Failure : 0
+**/
+uint8_t countRBGFrmCoresetFreqRsrc(uint8_t *freqDomainRsrc)
+{
+ uint8_t freqIdx = 0, idx = 0;
+ uint8_t count = 0;
- /* Right shift 3 bits because bits[2-0] are unused in sourceBitMap[5] */
- freqDomainResources = freqDomainResources >> 3;
+ for(freqIdx = 0; freqIdx < FREQ_DOM_RSRC_SIZE; freqIdx++)
+ {
+ if(freqDomainRsrc[freqIdx] & 0xFF)
+ {
+ idx = 1;
+ while(idx)
+ {
+ if(freqDomainRsrc[freqIdx] & idx)
+ {
+ count++;
+ }
+ idx = idx << 1;
+ }
+ }
+ }
+ return count;
+}
+
+/*
+ * @brief Function to calculate the DciSize in bits for format 1_0
+ *
+ * @details
+ *
+ * Function: calcUeDciSizeFormat1_0
+ * Calculates the totalBit Size for sending this DCI format 1_0
+ * Spec Reference: 38.212, Format 1_0 scrambled using C_RNTI
+ *
+ * @Params[in] : CoresetSize (for calculating Frequency domain
+ * resource assignment)
+ **/
+
+uint16_t calcUeDciSizeFormat1_0(uint16_t coresetSize)
+{
+ uint16_t dciSizeInBits = 0;
+
+ /* Size(in bits) of each field in DCI format 1_0 */
+ /*Below fields are identified from 3gpp spec 38.212, 38.213, 38.214*/
+ uint8_t dciFormatIdSize = 1;
+ uint8_t freqDomResAssignSize = 0;
+ uint8_t timeDomResAssignSize = 4;
+ uint8_t VRB2PRBMapSize = 1;
+ uint8_t modNCodSchemeSize = 5;
+ uint8_t ndiSize = 1;
+ uint8_t redundancyVerSize = 2;
+ uint8_t harqProcessNumSize = 4;
+ uint8_t dlAssignmentIdxSize = 2;
+ uint8_t pucchTpcSize = 2;
+ uint8_t pucchResoIndSize = 3;
+ uint8_t harqFeedbackIndSize = 3;
+
+ freqDomResAssignSize = ceil(log2(coresetSize * (coresetSize + 1) / 2));
+
+ dciSizeInBits = (dciFormatIdSize + freqDomResAssignSize\
+ + timeDomResAssignSize + VRB2PRBMapSize + modNCodSchemeSize\
+ + ndiSize + redundancyVerSize + harqProcessNumSize + dlAssignmentIdxSize\
+ + pucchTpcSize + pucchResoIndSize + harqFeedbackIndSize);
+
+ return(dciSizeInBits);
+}
- /* Filling destBitMap such that LSB bit 0 of freqDomainResources maps to LSB
- * of first word of destBitMap */
- numBitsToShift = 0;
- for(idx=0; idx<FREQ_DOM_RSRC_SIZE; idx++)
+/*
+ * @brief Function to calculate the aggLvl mapping with CQI index
+ *
+ * @details
+ *
+ * Function: fillCqiAggLvlMapping
+ *
+ * Fills the CQI index and Agg level mapping based on 3gpp 38.214,Table 5.2.2.1-2
+ * The mapping will be later during PDCCH allocation
+ * [Step 1]: Calculate the DciSize in bits. This will be UE-specific as it depends
+ * on CORESETsize
+ * [Step 2]: Starting from CqiIdx = 0, calculate the efficientPdcchBits which
+ * can be sent for that CQI and check if the availBits for each agg level is
+ * sufficient for that pdcch required bits.
+ * > If the bits required by PDCCH can be contained with Agg Level's
+ * availBits then that is assigned.
+ * Note:: Good channel, CQI (high value) then Aggrevation level is assigned
+ * less(less number of CCE is sufficient) and vice versa for low CQI
+ *
+ * @param[in]: PDCCH Info inside ueCb
+ *
+ * [return]: void
+ **/
+
+void fillCqiAggLvlMapping(SchPdcchInfo *pdcchInfo)
+{
+ uint8_t cqiIdx = 0, aggLvlIdx =0;
+ uint16_t numOfBitsAvailForAggLevel = 0, dciSize = 0, pdcchBits = 0;
+
+ /*[Step 1]:*/
+ dciSize = calcUeDciSizeFormat1_0(pdcchInfo->totalPrbs);
+
+ /* Initializing the map array*/
+ memset(pdcchInfo->cqiIndxAggLvlMap, 0, MAX_NUM_CQI_IDX);
+
+ /*Note: For CqiIdx = 0, aggLevel is marked as 0 which means that Channel
+ * Quality is not suitable for any transmission*/
+ for(cqiIdx = 1; cqiIdx < MAX_NUM_CQI_IDX; cqiIdx++)
{
- destBitMap[idx] = freqDomainResources >> numBitsToShift;
- numBitsToShift += 8;
+ /*CQI table number 1 is used Spec 38.214 Table 5.2.2.1-2 by default.
+ *TODO: cqi-table param in CSI-RepotConfig(3gpp 38.331) will report
+ * which table to be used*/
+ pdcchBits = ceil(dciSize / cqiTable1[cqiIdx][2]);
+ for(aggLvlIdx = 0; (aggLvlIdx < MAX_NUM_AGG_LVL) && (pdcchBits != 0); aggLvlIdx++)
+ {
+ numOfBitsAvailForAggLevel = (totalRE_PerAggLevel[aggLvlIdx] * cqiTable1[cqiIdx][0]);
+ /*Check if AggLevel has sufficient bits available for pdcchBits*/
+ if(pdcchBits < numOfBitsAvailForAggLevel)
+ {
+ pdcchInfo->cqiIndxAggLvlMap[cqiIdx] = 1 << aggLvlIdx;
+ break;
+ }
+ }
+
+ /*Below case will hit when required pdcchBits is not accomated by any Agg
+ * Levl which means Channel quality is worse. Thus transmission has to be
+ * most aggressive thus highest value of Agg level will be used.*/
+ if(!pdcchInfo->cqiIndxAggLvlMap[cqiIdx])
+ pdcchInfo->cqiIndxAggLvlMap[cqiIdx] = 16;
+ }
+}
+
+/*
+ * @brief Function to calculate Value Y
+ *
+ * Function: schCalY
+ *
+ * Calculates value of YpKp as per [10.1,TS38.213].
+ * A0 is for first CS, A1 for second CS and A2 is for third CS
+ *
+ * @params[in]: coresetId and Previous Y
+ * */
+uint32_t schCalY(uint8_t csId, uint32_t prevY)
+{
+ uint32_t A0 = 39827, A1 = 39829, A2 = 39839;
+ uint32_t D = 65537;
+
+ switch(csId % 3)
+ {
+ case 0:
+ {
+ return((A0 * prevY) % D);
+ }
+ case 1:
+ {
+ return((A1 * prevY) % D);
+ }
+ case 2:
+ {
+ return((A2 * prevY) % D);
+ }
+ default:
+ {
+ DU_LOG("\nERROR --> SCH: Issue in calculating value of Y");
+ return(0);
+ }
+ }
+ return 0;
+}
+
+/*
+ * @brief Function to calculate the value Y used for CCE Index formula
+ *
+ * Function: schUpdValY
+ *
+ * As per Spec 38.213, Sec 10.1 Formula for CCE Index contains a coefficient
+ * value called 'Y' and storing the same in the ueCb which will be later used
+ * in pdcch allocation
+ *
+ * @params[in] : SchUeCb, PdcchInfo
+ * [return] : uint8_t ROK, RFAILED : Memory allocation status
+ *
+ * */
+uint8_t schUpdValY(SchUeCb *ueCb, SchPdcchInfo *pdcchInfo)
+{
+ uint8_t slotIdx = 0;
+ if(pdcchInfo->y == NULLP)
+ {
+ SCH_ALLOC(pdcchInfo->y, (sizeof(uint32_t) * ueCb->cellCb->numSlots));
+ if(pdcchInfo->y == NULLP)
+ {
+ DU_LOG("\nERROR --> SCH: Memory Allocation of Y failed");
+ return RFAILED;
+ }
+ }
+
+ for(slotIdx= 0 ; slotIdx < ueCb->cellCb->numSlots; slotIdx++)
+ {
+ if(slotIdx == 0)
+ {
+ pdcchInfo->y[slotIdx] = schCalY(pdcchInfo->cRSetRef->cRSetId, ueCb->crnti);
+ }
+ else
+ {
+ pdcchInfo->y[slotIdx] = schCalY(pdcchInfo->cRSetRef->cRSetId, pdcchInfo->y[slotIdx - 1]);
+ }
+ }
+ return ROK;
+}
+
+/*
+ * @brief : Function to convert SlotPeriodicity to Value
+ *
+ * Function: schConvertSlotPeriodicityEnumToValue
+ *
+ * @param[IN]: SchMSlotPeriodicity enum
+ * [return]: slotOffsetVal
+ * */
+uint16_t schConvertSlotPeriodicityEnumToValue(SchMSlotPeriodicity slotPeriod)
+{
+ uint16_t slotPeriodVal = 0;
+
+ switch(slotPeriod)
+ {
+ case SLOT_PERIODICITY_SL_1:
+ {
+ slotPeriodVal = 1;
+ break;
+ }
+ case SLOT_PERIODICITY_SL_2:
+ {
+ slotPeriodVal = 2;
+ break;
+ }
+ case SLOT_PERIODICITY_SL_4:
+ {
+ slotPeriodVal = 4;
+ break;
+ }
+ case SLOT_PERIODICITY_SL_5:
+ {
+ slotPeriodVal = 5;
+ break;
+ }
+ case SLOT_PERIODICITY_SL_8:
+ {
+ slotPeriodVal = 8;
+ break;
+ }
+ case SLOT_PERIODICITY_SL_10:
+ {
+ slotPeriodVal = 10;
+ break;
+ }
+ case SLOT_PERIODICITY_SL_16:
+ {
+ slotPeriodVal = 16;
+ break;
+ }
+ case SLOT_PERIODICITY_SL_20:
+ {
+ slotPeriodVal = 20;
+ break;
+ }
+ case SLOT_PERIODICITY_SL_40:
+ {
+ slotPeriodVal = 40;
+ break;
+ }
+ case SLOT_PERIODICITY_SL_80:
+ {
+ slotPeriodVal = 80;
+ break;
+ }
+ case SLOT_PERIODICITY_SL_160:
+ {
+ slotPeriodVal = 160;
+ break;
+ }
+ case SLOT_PERIODICITY_SL_320:
+ {
+ slotPeriodVal = 320;
+ break;
+ }
+ case SLOT_PERIODICITY_SL_640:
+ {
+ slotPeriodVal = 640;
+ break;
+ }
+ case SLOT_PERIODICITY_SL_1280:
+ {
+ slotPeriodVal = 1280;
+ break;
+ }
+ case SLOT_PERIODICITY_SL_2560:
+ {
+ slotPeriodVal = 2560;
+ break;
+ }
+ default:
+ {
+ slotPeriodVal = 0;
+ break;
+ }
+ }
+ return slotPeriodVal;
+}
+
+/*
+ * @brief: Function to extract the numCandidates from aggLevel.
+ *
+ * Function: extractNumOfCandForAggLvl
+ *
+ * @params[IN]: SearchSpace, aggLevel
+ * [RETURN]: numCandidates.
+ * */
+uint8_t extractNumOfCandForAggLvl(SchSearchSpace *searchSpace, uint8_t aggLvl)
+{
+ uint8_t numCand = 0;
+
+ switch(aggLvl)
+ {
+ case 1:
+ {
+ numCand = searchSpace->numCandidatesAggLevel1;
+ break;
+ }
+ case 2:
+ {
+ numCand = searchSpace->numCandidatesAggLevel2;
+ break;
+ }
+ case 4:
+ {
+ numCand = searchSpace->numCandidatesAggLevel4;
+ break;
+ }
+ case 8:
+ {
+ numCand = searchSpace->numCandidatesAggLevel8;
+ break;
+ }
+ case 16:
+ {
+ numCand = searchSpace->numCandidatesAggLevel16;
+ break;
+ }
+ default:
+ {
+ numCand = 0;
+ }
+ /*AGGREGATION_LEVEL_N8 enum Value is 7 thus hardcoding the correct Value
+ * (8)*/
+ if(numCand == AGGREGATION_LEVEL_N8)
+ {
+ numCand = 8;
+ }
}
+ return numCand;
}
/**********************************************************************
End of file