Commit cdb3116c authored by Robert Schmidt's avatar Robert Schmidt

Make dci_pdu in PDCCH PDU an array

SCF222 says that dci_pdu in PDCCH PDU
(nfapi_nr_dl_tti_pdcch_pdu_rel15_t) should be an array, and not its
members.
parent 0fff2923
...@@ -630,30 +630,30 @@ typedef struct { ...@@ -630,30 +630,30 @@ typedef struct {
typedef struct { typedef struct {
// The RNTI used for identifying the UE when receiving the PDU Value: 1 -> 65535. // The RNTI used for identifying the UE when receiving the PDU Value: 1 -> 65535.
uint16_t RNTI[MAX_DCI_CORESET]; uint16_t RNTI;
// For a UE-specific search space it equals the higher-layer parameter PDCCH-DMRSScrambling-ID if configured, // For a UE-specific search space it equals the higher-layer parameter PDCCH-DMRSScrambling-ID if configured,
// otherwise it should be set to the phy cell ID. [TS38.211, sec 7.3.2.3] Value: 0->65535 // otherwise it should be set to the phy cell ID. [TS38.211, sec 7.3.2.3] Value: 0->65535
uint16_t ScramblingId[MAX_DCI_CORESET]; uint16_t ScramblingId;
// For a UE-specific search space where PDCCH-DMRSScrambling- ID is configured This param equals the CRNTI. // For a UE-specific search space where PDCCH-DMRSScrambling- ID is configured This param equals the CRNTI.
// Otherwise, it should be set to 0. [TS38.211, sec 7.3.2.3] Value: 0 -> 65535 // Otherwise, it should be set to 0. [TS38.211, sec 7.3.2.3] Value: 0 -> 65535
uint16_t ScramblingRNTI[MAX_DCI_CORESET]; uint16_t ScramblingRNTI;
// CCE start Index used to send the DCI Value: 0->135 // CCE start Index used to send the DCI Value: 0->135
uint8_t CceIndex[MAX_DCI_CORESET]; uint8_t CceIndex;
// Aggregation level used [TS38.211, sec 7.3.2.1] Value: 1,2,4,8,16 // Aggregation level used [TS38.211, sec 7.3.2.1] Value: 1,2,4,8,16
uint8_t AggregationLevel[MAX_DCI_CORESET]; uint8_t AggregationLevel;
// Precoding and Beamforming structure See Table 3-43 // Precoding and Beamforming structure See Table 3-43
nfapi_nr_tx_precoding_and_beamforming_t precodingAndBeamforming[MAX_DCI_CORESET]; nfapi_nr_tx_precoding_and_beamforming_t precodingAndBeamforming;
// PDCCH power value used for PDCCH Format 1_0 with CRC scrambled by SI-RNTI, PI-RNTI or RA-RNTI. // PDCCH power value used for PDCCH Format 1_0 with CRC scrambled by SI-RNTI, PI-RNTI or RA-RNTI.
// This is ratio of SSB/PBCH EPRE to PDCCH and PDCCH DMRS EPRE [TS38.213, sec 4.1] // This is ratio of SSB/PBCH EPRE to PDCCH and PDCCH DMRS EPRE [TS38.213, sec 4.1]
// Value :0->17 Report title: 5G FAPI: PHY API Specification Issue date: 29 June 2019 Version: 222.10.17 68 Field Type Description representing -8 to 8 dB in 1dB steps // Value :0->17 Report title: 5G FAPI: PHY API Specification Issue date: 29 June 2019 Version: 222.10.17 68 Field Type Description representing -8 to 8 dB in 1dB steps
uint8_t beta_PDCCH_1_0[MAX_DCI_CORESET]; uint8_t beta_PDCCH_1_0;
// PDCCH power value used for all other PDCCH Formats. // PDCCH power value used for all other PDCCH Formats.
// This is ratio of SSB/PBCH block EPRE to PDCCH and PDCCH DMRS EPRE [TS38.214, sec 4.1] Values: 0: -3dB,1: 0dB,2: 3dB,3: 6dB // This is ratio of SSB/PBCH block EPRE to PDCCH and PDCCH DMRS EPRE [TS38.214, sec 4.1] Values: 0: -3dB,1: 0dB,2: 3dB,3: 6dB
uint8_t powerControlOffsetSS[MAX_DCI_CORESET]; uint8_t powerControlOffsetSS;
// The total DCI length (in bits) including padding bits [TS38.212 sec 7.3.1] Range 0->DCI_PAYLOAD_BYTE_LEN*8 // The total DCI length (in bits) including padding bits [TS38.212 sec 7.3.1] Range 0->DCI_PAYLOAD_BYTE_LEN*8
uint16_t PayloadSizeBits[MAX_DCI_CORESET]; uint16_t PayloadSizeBits;
// DCI payload, where the actual size is defined by PayloadSizeBits. The bit order is as following bit0-bit7 are mapped to first byte of MSB - LSB // DCI payload, where the actual size is defined by PayloadSizeBits. The bit order is as following bit0-bit7 are mapped to first byte of MSB - LSB
uint8_t Payload[MAX_DCI_CORESET][DCI_PAYLOAD_BYTE_LEN]; uint8_t Payload[DCI_PAYLOAD_BYTE_LEN];
} nfapi_nr_dl_dci_pdu_t; } nfapi_nr_dl_dci_pdu_t;
...@@ -698,7 +698,7 @@ typedef struct { ...@@ -698,7 +698,7 @@ typedef struct {
///Number of DCIs in this CORESET.Value: 0->MaxDciPerSlot ///Number of DCIs in this CORESET.Value: 0->MaxDciPerSlot
uint16_t numDlDci; uint16_t numDlDci;
///DL DCI PDU ///DL DCI PDU
nfapi_nr_dl_dci_pdu_t dci_pdu; nfapi_nr_dl_dci_pdu_t dci_pdu[MAX_DCI_CORESET];
} nfapi_nr_dl_tti_pdcch_pdu_rel15_t; } nfapi_nr_dl_tti_pdcch_pdu_rel15_t;
typedef struct { typedef struct {
......
...@@ -98,6 +98,7 @@ void nr_generate_dci(PHY_VARS_gNB *gNB, ...@@ -98,6 +98,7 @@ void nr_generate_dci(PHY_VARS_gNB *gNB,
* in frequency: the first subcarrier is obtained by adding the first CRB overlapping the SSB and the rb_offset for coreset 0 * in frequency: the first subcarrier is obtained by adding the first CRB overlapping the SSB and the rb_offset for coreset 0
* or the rb_offset for other coresets * or the rb_offset for other coresets
* in time: by its first slot and its first symbol*/ * in time: by its first slot and its first symbol*/
const nfapi_nr_dl_dci_pdu_t *dci_pdu = &pdcch_pdu_rel15->dci_pdu[d];
cset_start_symb = pdcch_pdu_rel15->StartSymbolIndex; cset_start_symb = pdcch_pdu_rel15->StartSymbolIndex;
cset_nsymb = pdcch_pdu_rel15->DurationSymbols; cset_nsymb = pdcch_pdu_rel15->DurationSymbols;
...@@ -108,8 +109,8 @@ void nr_generate_dci(PHY_VARS_gNB *gNB, ...@@ -108,8 +109,8 @@ void nr_generate_dci(PHY_VARS_gNB *gNB,
AssertFatal(pdcch_pdu_rel15->CceRegMappingType == NFAPI_NR_CCE_REG_MAPPING_NON_INTERLEAVED, AssertFatal(pdcch_pdu_rel15->CceRegMappingType == NFAPI_NR_CCE_REG_MAPPING_NON_INTERLEAVED,
"Interleaved CCE REG MAPPING not supported\n"); "Interleaved CCE REG MAPPING not supported\n");
uint32_t dmrs_length = (pdcch_pdu_rel15->CceRegMappingType == NFAPI_NR_CCE_REG_MAPPING_NON_INTERLEAVED)? uint32_t dmrs_length = (pdcch_pdu_rel15->CceRegMappingType == NFAPI_NR_CCE_REG_MAPPING_NON_INTERLEAVED)?
(n_rb*6) : (pdcch_pdu_rel15->dci_pdu.AggregationLevel[d]*36/cset_nsymb); //2(QPSK)*3(per RB)*6(REG per CCE) (n_rb*6) : (dci_pdu->AggregationLevel*36/cset_nsymb); //2(QPSK)*3(per RB)*6(REG per CCE)
uint32_t encoded_length = pdcch_pdu_rel15->dci_pdu.AggregationLevel[d]*108; //2(QPSK)*9(per RB)*6(REG per CCE) uint32_t encoded_length = dci_pdu->AggregationLevel*108; //2(QPSK)*9(per RB)*6(REG per CCE)
LOG_D(PHY, "DMRS length per symbol %d\t DCI encoded length %d (precoder_granularity %d,reg_mapping %d)\n", dmrs_length, encoded_length,pdcch_pdu_rel15->precoderGranularity,pdcch_pdu_rel15->CceRegMappingType); LOG_D(PHY, "DMRS length per symbol %d\t DCI encoded length %d (precoder_granularity %d,reg_mapping %d)\n", dmrs_length, encoded_length,pdcch_pdu_rel15->precoderGranularity,pdcch_pdu_rel15->CceRegMappingType);
dmrs_length += rb_offset*6; // To accommodate more DMRS symbols in case of rb offset dmrs_length += rb_offset*6; // To accommodate more DMRS symbols in case of rb offset
...@@ -131,19 +132,19 @@ void nr_generate_dci(PHY_VARS_gNB *gNB, ...@@ -131,19 +132,19 @@ void nr_generate_dci(PHY_VARS_gNB *gNB,
// CRC attachment + Scrambling + Channel coding + Rate matching // CRC attachment + Scrambling + Channel coding + Rate matching
uint32_t encoder_output[NR_MAX_DCI_SIZE_DWORD]; uint32_t encoder_output[NR_MAX_DCI_SIZE_DWORD];
uint16_t n_RNTI = pdcch_pdu_rel15->dci_pdu.RNTI[d]; uint16_t n_RNTI = dci_pdu->RNTI;
uint16_t Nid = pdcch_pdu_rel15->dci_pdu.ScramblingId[d]; uint16_t Nid = dci_pdu->ScramblingId;
uint16_t scrambling_RNTI = pdcch_pdu_rel15->dci_pdu.ScramblingRNTI[d]; uint16_t scrambling_RNTI = dci_pdu->ScramblingRNTI;
t_nrPolar_params *currentPtr = nr_polar_params(NR_POLAR_DCI_MESSAGE_TYPE, t_nrPolar_params *currentPtr = nr_polar_params(NR_POLAR_DCI_MESSAGE_TYPE,
pdcch_pdu_rel15->dci_pdu.PayloadSizeBits[d], dci_pdu->PayloadSizeBits,
pdcch_pdu_rel15->dci_pdu.AggregationLevel[d], dci_pdu->AggregationLevel,
0,NULL); 0,NULL);
polar_encoder_fast((uint64_t*)pdcch_pdu_rel15->dci_pdu.Payload[d], (void*)encoder_output, n_RNTI,1,currentPtr); polar_encoder_fast((uint64_t*)dci_pdu->Payload, (void*)encoder_output, n_RNTI,1,currentPtr);
#ifdef DEBUG_CHANNEL_CODING #ifdef DEBUG_CHANNEL_CODING
printf("polar rnti %x,length %d, L %d\n",n_RNTI, pdcch_pdu_rel15->dci_pdu.PayloadSizeBits[d],pdcch_pdu_rel15->dci_pdu.AggregationLevel[d]); printf("polar rnti %x,length %d, L %d\n",n_RNTI, dci_pdu->PayloadSizeBits,pdcch_pdu_rel15->dci_pdu.AggregationLevel[d]);
printf("DCI PDU: [0]->0x%lx \t [1]->0x%lx\n", printf("DCI PDU: [0]->0x%lx \t [1]->0x%lx\n",
((uint64_t*)pdcch_pdu_rel15->dci_pdu.Payload[d])[0], ((uint64_t*)pdcch_pdu_rel15->dci_pdu.Payload[d])[1]); ((uint64_t*)dci_pdu->Payload)[0], ((uint64_t*)dci_pdu->Payload)[1]);
printf("Encoded Payload (length:%d dwords):\n", encoded_length>>5); printf("Encoded Payload (length:%d dwords):\n", encoded_length>>5);
for (int i=0; i<encoded_length>>5; i++) for (int i=0; i<encoded_length>>5; i++)
...@@ -176,8 +177,8 @@ void nr_generate_dci(PHY_VARS_gNB *gNB, ...@@ -176,8 +177,8 @@ void nr_generate_dci(PHY_VARS_gNB *gNB,
cset_start_sc -= frame_parms.ofdm_symbol_size; cset_start_sc -= frame_parms.ofdm_symbol_size;
/*Reorder REG list for a freq first mapping*/ /*Reorder REG list for a freq first mapping*/
uint8_t reg_idx0 = pdcch_pdu_rel15->dci_pdu.CceIndex[d]*NR_NB_REG_PER_CCE; uint8_t reg_idx0 = dci_pdu->CceIndex*NR_NB_REG_PER_CCE;
uint8_t nb_regs = pdcch_pdu_rel15->dci_pdu.AggregationLevel[d]*NR_NB_REG_PER_CCE; uint8_t nb_regs = dci_pdu->AggregationLevel*NR_NB_REG_PER_CCE;
/*Mapping the encoded DCI along with the DMRS */ /*Mapping the encoded DCI along with the DMRS */
for (int reg_idx=reg_idx0; reg_idx<(nb_regs+reg_idx0); reg_idx++) { for (int reg_idx=reg_idx0; reg_idx<(nb_regs+reg_idx0); reg_idx++) {
......
...@@ -142,7 +142,7 @@ void nr_fill_cce_list(PHY_VARS_gNB *gNB, uint8_t m, nfapi_nr_dl_tti_pdcch_pdu_r ...@@ -142,7 +142,7 @@ void nr_fill_cce_list(PHY_VARS_gNB *gNB, uint8_t m, nfapi_nr_dl_tti_pdcch_pdu_r
AssertFatal(N_reg > 0,"N_reg cannot be 0\n"); AssertFatal(N_reg > 0,"N_reg cannot be 0\n");
for (int d=0;d<pdcch_pdu_rel15->numDlDci;d++) { for (int d=0;d<pdcch_pdu_rel15->numDlDci;d++) {
int L = pdcch_pdu_rel15->dci_pdu.AggregationLevel[d]; int L = pdcch_pdu_rel15->dci_pdu[d].AggregationLevel;
if (pdcch_pdu_rel15->CoreSetType == NFAPI_NR_CSET_CONFIG_MIB_SIB1) if (pdcch_pdu_rel15->CoreSetType == NFAPI_NR_CSET_CONFIG_MIB_SIB1)
AssertFatal(L>=4, "Invalid aggregation level for SIB1 configured PDCCH %d\n", L); AssertFatal(L>=4, "Invalid aggregation level for SIB1 configured PDCCH %d\n", L);
...@@ -153,10 +153,10 @@ void nr_fill_cce_list(PHY_VARS_gNB *gNB, uint8_t m, nfapi_nr_dl_tti_pdcch_pdu_r ...@@ -153,10 +153,10 @@ void nr_fill_cce_list(PHY_VARS_gNB *gNB, uint8_t m, nfapi_nr_dl_tti_pdcch_pdu_r
C = N_reg/(bsize*R); C = N_reg/(bsize*R);
} }
LOG_D(PHY, "CCE list generation for candidate %d: bundle size %d ilv size %d CceIndex %d\n", m, bsize, R, pdcch_pdu_rel15->dci_pdu.CceIndex[d]); LOG_D(PHY, "CCE list generation for candidate %d: bundle size %d ilv size %d CceIndex %d\n", m, bsize, R, pdcch_pdu_rel15->dci_pdu[d].CceIndex);
for (uint8_t cce_idx=0; cce_idx<L; cce_idx++) { for (uint8_t cce_idx=0; cce_idx<L; cce_idx++) {
cce = &gNB->cce_list[d][cce_idx]; cce = &gNB->cce_list[d][cce_idx];
cce->cce_idx = pdcch_pdu_rel15->dci_pdu.CceIndex[d] + cce_idx; cce->cce_idx = pdcch_pdu_rel15->dci_pdu[d].CceIndex + cce_idx;
LOG_D(PHY, "cce_idx %d\n", cce->cce_idx); LOG_D(PHY, "cce_idx %d\n", cce->cce_idx);
if (pdcch_pdu_rel15->CceRegMappingType == NFAPI_NR_CCE_REG_MAPPING_INTERLEAVED) { if (pdcch_pdu_rel15->CceRegMappingType == NFAPI_NR_CCE_REG_MAPPING_INTERLEAVED) {
...@@ -236,11 +236,11 @@ void nr_fill_dci(PHY_VARS_gNB *gNB, ...@@ -236,11 +236,11 @@ void nr_fill_dci(PHY_VARS_gNB *gNB,
for (int i=0;i<pdcch_pdu_rel15->numDlDci;i++) { for (int i=0;i<pdcch_pdu_rel15->numDlDci;i++) {
//uint64_t *dci_pdu = (uint64_t*)pdcch_pdu_rel15->dci_pdu.Payload[i]; //uint64_t *dci_pdu = (uint64_t*)pdcch_pdu_rel15->dci_pdu[i].Payload;
int dlsch_id = find_nr_dlsch(pdcch_pdu_rel15->dci_pdu.RNTI[i],gNB,SEARCH_EXIST_OR_FREE); int dlsch_id = find_nr_dlsch(pdcch_pdu_rel15->dci_pdu[i].RNTI,gNB,SEARCH_EXIST_OR_FREE);
if( (dlsch_id<0) || (dlsch_id>=NUMBER_OF_NR_DLSCH_MAX) ){ if( (dlsch_id<0) || (dlsch_id>=NUMBER_OF_NR_DLSCH_MAX) ){
LOG_E(PHY,"illegal dlsch_id found!!! rnti %04x dlsch_id %d\n",(unsigned int)pdcch_pdu_rel15->dci_pdu.RNTI[i],dlsch_id); LOG_E(PHY,"illegal dlsch_id found!!! rnti %04x dlsch_id %d\n",(unsigned int)pdcch_pdu_rel15->dci_pdu[i].RNTI,dlsch_id);
return; return;
} }
...@@ -254,7 +254,7 @@ void nr_fill_dci(PHY_VARS_gNB *gNB, ...@@ -254,7 +254,7 @@ void nr_fill_dci(PHY_VARS_gNB *gNB,
"illegal harq_pid %d\n",harq_pid); "illegal harq_pid %d\n",harq_pid);
dlsch->harq_mask |= (1<<harq_pid); dlsch->harq_mask |= (1<<harq_pid);
dlsch->rnti = pdcch_pdu_rel15->dci_pdu.RNTI[i]; dlsch->rnti = pdcch_pdu_rel15->dci_pdu[i].RNTI;
// nr_fill_cce_list(gNB,0); // nr_fill_cce_list(gNB,0);
/* /*
...@@ -300,7 +300,7 @@ void nr_fill_ul_dci(PHY_VARS_gNB *gNB, ...@@ -300,7 +300,7 @@ void nr_fill_ul_dci(PHY_VARS_gNB *gNB,
for (int i=0;i<pdcch_pdu_rel15->numDlDci;i++) { for (int i=0;i<pdcch_pdu_rel15->numDlDci;i++) {
//uint64_t *dci_pdu = (uint64_t*)pdcch_pdu_rel15->dci_pdu.Payload[i]; //uint64_t *dci_pdu = (uint64_t*)pdcch_pdu_rel15->dci_pdu[i].Payload;
// if there's no DL DCI then generate CCE list // if there's no DL DCI then generate CCE list
// nr_fill_cce_list(gNB,0); // nr_fill_cce_list(gNB,0);
......
...@@ -936,7 +936,7 @@ void nr_generate_Msg2(module_id_t module_idP, ...@@ -936,7 +936,7 @@ void nr_generate_Msg2(module_id_t module_idP,
rnti_types[0] = NR_RNTI_RA; rnti_types[0] = NR_RNTI_RA;
LOG_I(MAC, "[RAPROC] DCI params: rnti %d, rnti_type %d, dci_format %d coreset params: FreqDomainResource %llx, start_symbol %d n_symb %d\n", LOG_I(MAC, "[RAPROC] DCI params: rnti %d, rnti_type %d, dci_format %d coreset params: FreqDomainResource %llx, start_symbol %d n_symb %d\n",
pdcch_pdu_rel15->dci_pdu.RNTI[0], pdcch_pdu_rel15->dci_pdu[0].RNTI,
rnti_types[0], rnti_types[0],
dci_formats[0], dci_formats[0],
(unsigned long long)pdcch_pdu_rel15->FreqDomainResource, (unsigned long long)pdcch_pdu_rel15->FreqDomainResource,
......
...@@ -561,7 +561,7 @@ void config_uldci(NR_BWP_Uplink_t *ubwp, ...@@ -561,7 +561,7 @@ void config_uldci(NR_BWP_Uplink_t *ubwp,
"%s() ULDCI type 0 payload: PDCCH CCEIndex %d, freq_alloc %d, " "%s() ULDCI type 0 payload: PDCCH CCEIndex %d, freq_alloc %d, "
"time_alloc %d, freq_hop_flag %d, mcs %d tpc %d ndi %d rv %d\n", "time_alloc %d, freq_hop_flag %d, mcs %d tpc %d ndi %d rv %d\n",
__func__, __func__,
pdcch_pdu_rel15->dci_pdu.CceIndex[pdcch_pdu_rel15->numDlDci], pdcch_pdu_rel15->dci_pdu[pdcch_pdu_rel15->numDlDci].CceIndex,
dci_pdu_rel15->frequency_domain_assignment.val, dci_pdu_rel15->frequency_domain_assignment.val,
dci_pdu_rel15->time_domain_assignment.val, dci_pdu_rel15->time_domain_assignment.val,
dci_pdu_rel15->frequency_hopping_flag.val, dci_pdu_rel15->frequency_hopping_flag.val,
...@@ -631,25 +631,25 @@ void nr_configure_pdcch(gNB_MAC_INST *nr_mac, ...@@ -631,25 +631,25 @@ void nr_configure_pdcch(gNB_MAC_INST *nr_mac,
//precoderGranularity //precoderGranularity
pdcch_pdu->precoderGranularity = coreset->precoderGranularity; pdcch_pdu->precoderGranularity = coreset->precoderGranularity;
pdcch_pdu->dci_pdu.RNTI[pdcch_pdu->numDlDci]=rnti; pdcch_pdu->dci_pdu[pdcch_pdu->numDlDci].RNTI = rnti;
if (coreset->pdcch_DMRS_ScramblingID != NULL && if (coreset->pdcch_DMRS_ScramblingID != NULL &&
ss->searchSpaceType->present == NR_SearchSpace__searchSpaceType_PR_ue_Specific) { ss->searchSpaceType->present == NR_SearchSpace__searchSpaceType_PR_ue_Specific) {
pdcch_pdu->dci_pdu.ScramblingId[pdcch_pdu->numDlDci] = *coreset->pdcch_DMRS_ScramblingID; pdcch_pdu->dci_pdu[pdcch_pdu->numDlDci].ScramblingId = *coreset->pdcch_DMRS_ScramblingID;
pdcch_pdu->dci_pdu.ScramblingRNTI[pdcch_pdu->numDlDci]=rnti; pdcch_pdu->dci_pdu[pdcch_pdu->numDlDci].ScramblingRNTI = rnti;
} }
else { else {
pdcch_pdu->dci_pdu.ScramblingId[pdcch_pdu->numDlDci] = *scc->physCellId; pdcch_pdu->dci_pdu[pdcch_pdu->numDlDci].ScramblingId = *scc->physCellId;
pdcch_pdu->dci_pdu.ScramblingRNTI[pdcch_pdu->numDlDci]=0; pdcch_pdu->dci_pdu[pdcch_pdu->numDlDci].ScramblingRNTI = 0;
} }
pdcch_pdu->dci_pdu.AggregationLevel[pdcch_pdu->numDlDci] = aggregation_level; pdcch_pdu->dci_pdu[pdcch_pdu->numDlDci].AggregationLevel = aggregation_level;
pdcch_pdu->dci_pdu.CceIndex[pdcch_pdu->numDlDci] = CCEIndex; pdcch_pdu->dci_pdu[pdcch_pdu->numDlDci].CceIndex = CCEIndex;
if (ss->searchSpaceType->choice.ue_Specific->dci_Formats==NR_SearchSpace__searchSpaceType__ue_Specific__dci_Formats_formats0_0_And_1_0) if (ss->searchSpaceType->choice.ue_Specific->dci_Formats==NR_SearchSpace__searchSpaceType__ue_Specific__dci_Formats_formats0_0_And_1_0)
pdcch_pdu->dci_pdu.beta_PDCCH_1_0[pdcch_pdu->numDlDci]=0; pdcch_pdu->dci_pdu[pdcch_pdu->numDlDci].beta_PDCCH_1_0 = 0;
pdcch_pdu->dci_pdu.powerControlOffsetSS[pdcch_pdu->numDlDci]=1; pdcch_pdu->dci_pdu[pdcch_pdu->numDlDci].powerControlOffsetSS = 1;
pdcch_pdu->numDlDci++; pdcch_pdu->numDlDci++;
} }
else { // this is for InitialBWP else { // this is for InitialBWP
...@@ -956,10 +956,10 @@ void fill_dci_pdu_rel15(NR_ServingCellConfigCommon_t *scc, ...@@ -956,10 +956,10 @@ void fill_dci_pdu_rel15(NR_ServingCellConfigCommon_t *scc,
for (int d=0;d<pdcch_pdu_rel15->numDlDci;d++) { for (int d=0;d<pdcch_pdu_rel15->numDlDci;d++) {
uint64_t *dci_pdu = (uint64_t *)pdcch_pdu_rel15->dci_pdu.Payload[d]; uint64_t *dci_pdu = (uint64_t *)pdcch_pdu_rel15->dci_pdu[d].Payload;
int dci_size = nr_dci_size(scc,secondaryCellGroup,&dci_pdu_rel15[d],dci_formats[d],rnti_types[d],N_RB,bwp_id); int dci_size = nr_dci_size(scc,secondaryCellGroup,&dci_pdu_rel15[d],dci_formats[d],rnti_types[d],N_RB,bwp_id);
pdcch_pdu_rel15->dci_pdu.PayloadSizeBits[d] = dci_size; pdcch_pdu_rel15->dci_pdu[d].PayloadSizeBits = dci_size;
AssertFatal(pdcch_pdu_rel15->dci_pdu.PayloadSizeBits[d]<=64, "DCI sizes above 64 bits not yet supported"); AssertFatal(pdcch_pdu_rel15->dci_pdu[d].PayloadSizeBits<=64, "DCI sizes above 64 bits not yet supported");
if(dci_formats[d]==NR_DL_DCI_FORMAT_1_1 || dci_formats[d]==NR_UL_DCI_FORMAT_0_1) if(dci_formats[d]==NR_DL_DCI_FORMAT_1_1 || dci_formats[d]==NR_UL_DCI_FORMAT_0_1)
prepare_dci(secondaryCellGroup,&dci_pdu_rel15[d],dci_formats[d],bwp_id); prepare_dci(secondaryCellGroup,&dci_pdu_rel15[d],dci_formats[d],bwp_id);
......
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