Commit 98d642c7 authored by hardy's avatar hardy

Merge remote-tracking branch 'origin/NR_CSIRS_tomerge' into integration_2021_wk28

parents a05e595a fd9e0b64
...@@ -279,7 +279,7 @@ The following features are valid for the gNB and the 5G-NR UE. ...@@ -279,7 +279,7 @@ The following features are valid for the gNB and the 5G-NR UE.
* Generation of NR-PDSCH (including Segmentation, LDPC encoding, rate matching, scrambling, modulation, RB mapping, etc). * Generation of NR-PDSCH (including Segmentation, LDPC encoding, rate matching, scrambling, modulation, RB mapping, etc).
- Single symbol DMRS, DMRS-TypeA-Position Pos2, DMRS configuration type 1 - Single symbol DMRS, DMRS-TypeA-Position Pos2, DMRS configuration type 1
- PDSCH mapping type A - PDSCH mapping type A
* NR-CSI Generation of sequence at PHY (**under integration**) * NR-CSIRS Generation of sequence at PHY
* NR-PUSCH (including Segmentation, LDPC encoding, rate matching, scrambling, modulation, RB mapping, etc). * NR-PUSCH (including Segmentation, LDPC encoding, rate matching, scrambling, modulation, RB mapping, etc).
* NR-PUCCH * NR-PUCCH
- Format 0 (2 bits, mainly for ACK/NACK) - Format 0 (2 bits, mainly for ACK/NACK)
...@@ -309,6 +309,7 @@ The following features are valid for the gNB and the 5G-NR UE. ...@@ -309,6 +309,7 @@ The following features are valid for the gNB and the 5G-NR UE.
- MAC <-> PHY data interface using FAPI P7 interface for BCH PDU, DCI PDU, PDSCH PDU - MAC <-> PHY data interface using FAPI P7 interface for BCH PDU, DCI PDU, PDSCH PDU
- Scheduler procedures for SIB1 - Scheduler procedures for SIB1
- Scheduler procedures for RA - Scheduler procedures for RA
- Scheduler procedures for CSI-RS
- MAC downlink scheduler (fixed allocations) - MAC downlink scheduler (fixed allocations)
- MAC header generation (including timing advance) - MAC header generation (including timing advance)
- ACK / NACK handling and HARQ procedures for downlink - ACK / NACK handling and HARQ procedures for downlink
...@@ -339,7 +340,6 @@ The following features are valid for the gNB and the 5G-NR UE. ...@@ -339,7 +340,6 @@ The following features are valid for the gNB and the 5G-NR UE.
* Generation of NR-PDSCH (including Segmentation, LDPC encoding, rate matching, scrambling, modulation, RB mapping, etc). * Generation of NR-PDSCH (including Segmentation, LDPC encoding, rate matching, scrambling, modulation, RB mapping, etc).
- Single symbol DMRS, DMRS-TypeA-Position Pos2, DMRS configuration type 1 - Single symbol DMRS, DMRS-TypeA-Position Pos2, DMRS configuration type 1
- PDSCH mapping type A - PDSCH mapping type A
* NR-CSI Generation of sequence at PHY (**under integration**)
* NR-PUSCH (including Segmentation, LDPC encoding, rate matching, scrambling, modulation, RB mapping, etc). * NR-PUSCH (including Segmentation, LDPC encoding, rate matching, scrambling, modulation, RB mapping, etc).
* NR-PUCCH * NR-PUCCH
- Format 0 (2 bits, mainly for ACK/NACK) - Format 0 (2 bits, mainly for ACK/NACK)
......
...@@ -1571,8 +1571,7 @@ typedef struct ...@@ -1571,8 +1571,7 @@ typedef struct
{ {
uint8_t csi_part1_crc; uint8_t csi_part1_crc;
uint16_t csi_part1_bit_len; uint16_t csi_part1_bit_len;
//! fixme uint8_t* csi_part1_payload;
uint8_t* csi_part1_payload;//uint8_t[ceil(csiPart1BitLen/8)]
} nfapi_nr_csi_part1_pdu_t; } nfapi_nr_csi_part1_pdu_t;
...@@ -1581,8 +1580,7 @@ typedef struct ...@@ -1581,8 +1580,7 @@ typedef struct
{ {
uint8_t csi_part2_crc; uint8_t csi_part2_crc;
uint16_t csi_part2_bit_len; uint16_t csi_part2_bit_len;
//! fixme uint8_t* csi_part2_payload;
uint8_t* csi_part2_payload;//uint8_t[ceil(csiPart2BitLen/8)]
} nfapi_nr_csi_part2_pdu_t; } nfapi_nr_csi_part2_pdu_t;
//table 3-63 //table 3-63
......
...@@ -227,16 +227,14 @@ int phy_init_nr_gNB(PHY_VARS_gNB *gNB, ...@@ -227,16 +227,14 @@ int phy_init_nr_gNB(PHY_VARS_gNB *gNB,
} }
} }
nr_init_csi_rs(gNB, cfg->cell_config.phy_cell_id.value);
/* Generate low PAPR type 1 sequences for PUSCH DMRS, these are used if transform precoding is enabled. */ /* Generate low PAPR type 1 sequences for PUSCH DMRS, these are used if transform precoding is enabled. */
generate_lowpapr_typ1_refsig_sequences(SHRT_MAX); generate_lowpapr_typ1_refsig_sequences(SHRT_MAX);
nr_init_csi_rs(gNB, 0); // TODO scramblingID currently hardcoded to 0, to be taken from higher layer parameter scramblingID when implemented
/// Transport init necessary for NR synchro /// Transport init necessary for NR synchro
init_nr_transport(gNB); init_nr_transport(gNB);
gNB->first_run_I0_measurements = 1; gNB->first_run_I0_measurements = 1;
common_vars->rxdata = (int32_t **)malloc16(Prx*sizeof(int32_t*)); common_vars->rxdata = (int32_t **)malloc16(Prx*sizeof(int32_t*));
......
...@@ -145,7 +145,7 @@ void nr_init_csi_rs(PHY_VARS_gNB* gNB, uint32_t Nid) ...@@ -145,7 +145,7 @@ void nr_init_csi_rs(PHY_VARS_gNB* gNB, uint32_t Nid)
reset = 1; reset = 1;
x2 = ((1<<10) * (fp->symbols_per_slot*slot+symb+1) * ((Nid<<1)+1) + (Nid)); x2 = ((1<<10) * (fp->symbols_per_slot*slot+symb+1) * ((Nid<<1)+1) + (Nid));
for (uint32_t n=0; n<NR_MAX_PDCCH_DMRS_INIT_LENGTH_DWORD; n++) { for (uint32_t n=0; n<NR_MAX_CSI_RS_INIT_LENGTH_DWORD; n++) {
csi_rs[slot][symb][n] = lte_gold_generic(&x1, &x2, reset); csi_rs[slot][symb][n] = lte_gold_generic(&x1, &x2, reset);
reset = 0; reset = 0;
} }
......
...@@ -22,17 +22,22 @@ ...@@ -22,17 +22,22 @@
#include "PHY/NR_TRANSPORT/nr_transport_proto.h" #include "PHY/NR_TRANSPORT/nr_transport_proto.h"
#include "PHY/MODULATION/nr_modulation.h" #include "PHY/MODULATION/nr_modulation.h"
#include "PHY/NR_REFSIG/nr_refsig.h"
//#define NR_CSIRS_DEBUG //#define NR_CSIRS_DEBUG
int nr_generate_csi_rs(uint32_t **gold_csi_rs,
int32_t** txdataF,
int16_t amp,
NR_DL_FRAME_PARMS frame_parms,
nfapi_nr_dl_tti_csi_rs_pdu_rel15_t csi_params)
{
int16_t mod_csi[frame_parms.symbols_per_slot][NR_MAX_CSI_RS_LENGTH>>1]; void nr_generate_csi_rs(PHY_VARS_gNB *gNB,
int16_t amp,
nfapi_nr_dl_tti_csi_rs_pdu_rel15_t csi_params,
uint16_t cell_id,
int slot){
NR_DL_FRAME_PARMS frame_parms=gNB->frame_parms;
int32_t **txdataF = gNB->common_vars.txdataF;
int txdataF_offset = (slot%2)*frame_parms.samples_per_slot_wCP;
uint32_t **gold_csi_rs = gNB->nr_gold_csi_rs[slot];
int16_t mod_csi[frame_parms.symbols_per_slot][NR_MAX_CSI_RS_LENGTH>>1] __attribute__((aligned(16)));;
uint16_t b = csi_params.freq_domain; uint16_t b = csi_params.freq_domain;
uint16_t n, csi_bw, csi_start, p, k, l, mprime, na, kpn, csi_length; uint16_t n, csi_bw, csi_start, p, k, l, mprime, na, kpn, csi_length;
uint8_t size, ports, kprime, lprime, i, gs; uint8_t size, ports, kprime, lprime, i, gs;
...@@ -45,6 +50,22 @@ int nr_generate_csi_rs(uint32_t **gold_csi_rs, ...@@ -45,6 +50,22 @@ int nr_generate_csi_rs(uint32_t **gold_csi_rs,
AssertFatal(b!=0, "Invalid CSI frequency domain mapping: no bit selected in bitmap\n"); AssertFatal(b!=0, "Invalid CSI frequency domain mapping: no bit selected in bitmap\n");
// pre-computed for scrambling id equel to cell id
// if the scrambling id is not the cell id we need to re-initialize the rs
if (csi_params.scramb_id != cell_id) {
uint8_t reset;
uint32_t x1, x2;
uint32_t Nid = csi_params.scramb_id;
for (uint8_t symb=0; symb<frame_parms.symbols_per_slot; symb++) {
reset = 1;
x2 = ((1<<10) * (frame_parms.symbols_per_slot*slot+symb+1) * ((Nid<<1)+1) + (Nid));
for (uint32_t n=0; n<NR_MAX_CSI_RS_INIT_LENGTH_DWORD; n++) {
gold_csi_rs[symb][n] = lte_gold_generic(&x1, &x2, reset);
reset = 0;
}
}
}
switch (csi_params.row) { switch (csi_params.row) {
// implementation of table 7.4.1.5.3-1 of 38.211 // implementation of table 7.4.1.5.3-1 of 38.211
// lprime and kprime are the max value of l' and k' // lprime and kprime are the max value of l' and k'
...@@ -495,12 +516,12 @@ int nr_generate_csi_rs(uint32_t **gold_csi_rs, ...@@ -495,12 +516,12 @@ int nr_generate_csi_rs(uint32_t **gold_csi_rs,
if (rho < 1) { if (rho < 1) {
if (csi_params.freq_density == 0) if (csi_params.freq_density == 0)
csi_length = (((csi_bw + csi_start)>>1)<<kprime)<<1; csi_length = (((csi_bw + csi_start)>>1)<<kprime)<<1;
else else
csi_length = ((((csi_bw + csi_start)>>1)<<kprime)+1)<<1; csi_length = ((((csi_bw + csi_start)>>1)<<kprime)+1)<<1;
} }
else else
csi_length = (((uint16_t) rho*(csi_bw + csi_start))<<kprime)<<1; csi_length = (((uint16_t) rho*(csi_bw + csi_start))<<kprime)<<1;
#ifdef NR_CSIRS_DEBUG #ifdef NR_CSIRS_DEBUG
printf(" start rb %d, n. rbs %d, csi length %d\n",csi_start,csi_bw,csi_length); printf(" start rb %d, n. rbs %d, csi length %d\n",csi_start,csi_bw,csi_length);
...@@ -514,41 +535,36 @@ int nr_generate_csi_rs(uint32_t **gold_csi_rs, ...@@ -514,41 +535,36 @@ int nr_generate_csi_rs(uint32_t **gold_csi_rs,
// NZP CSI RS // NZP CSI RS
if (csi_params.csi_type == 1) { if (csi_params.csi_type == 1) {
// assuming amp is the amplitude of SSB channels // assuming amp is the amplitude of SSB channels
switch (csi_params.power_control_offset_ss) { switch (csi_params.power_control_offset_ss) {
case 0: case 0:
beta = (amp*ONE_OVER_SQRT2_Q15)>>15; beta = (amp*ONE_OVER_SQRT2_Q15)>>15;
break; break;
case 1:
case 1: beta = amp;
beta = amp; break;
break; case 2:
beta = (amp*ONE_OVER_SQRT2_Q15)>>14;
case 2: break;
beta = (amp*ONE_OVER_SQRT2_Q15)>>14; case 3:
break; beta = amp<<1;
break;
case 3: default:
beta = amp<<1; AssertFatal(0==1, "Invalid SS power offset density index for CSI\n");
break; }
default: for (lp=0; lp<=lprime; lp++){
AssertFatal(0==1, "Invalid SS power offset density index for CSI\n"); symb = csi_params.symb_l0;
} nr_modulation(gold_csi_rs[symb+lp], csi_length, DMRS_MOD_ORDER, mod_csi[symb+lp]);
if ((csi_params.row == 5) || (csi_params.row == 7) || (csi_params.row == 11) || (csi_params.row == 13) || (csi_params.row == 16))
for (lp=0; lp<=lprime; lp++){ nr_modulation(gold_csi_rs[symb+1], csi_length, DMRS_MOD_ORDER, mod_csi[symb+1]);
symb = csi_params.symb_l0; if ((csi_params.row == 14) || (csi_params.row == 13) || (csi_params.row == 16) || (csi_params.row == 17)) {
nr_modulation(gold_csi_rs[symb+lp], csi_length, DMRS_MOD_ORDER, mod_csi[symb+lp]); symb = csi_params.symb_l1;
if ((csi_params.row == 5) || (csi_params.row == 7) || (csi_params.row == 11) || (csi_params.row == 13) || (csi_params.row == 16)) nr_modulation(gold_csi_rs[symb+lp], csi_length, DMRS_MOD_ORDER, mod_csi[symb+lp]);
nr_modulation(gold_csi_rs[symb+1], csi_length, DMRS_MOD_ORDER, mod_csi[symb+1]); if ((csi_params.row == 13) || (csi_params.row == 16))
if ((csi_params.row == 14) || (csi_params.row == 13) || (csi_params.row == 16) || (csi_params.row == 17)) { nr_modulation(gold_csi_rs[symb+1], csi_length, DMRS_MOD_ORDER, mod_csi[symb+1]);
symb = csi_params.symb_l1; }
nr_modulation(gold_csi_rs[symb+lp], csi_length, DMRS_MOD_ORDER, mod_csi[symb+lp]); }
if ((csi_params.row == 13) || (csi_params.row == 16))
nr_modulation(gold_csi_rs[symb+1], csi_length, DMRS_MOD_ORDER, mod_csi[symb+1]);
}
}
} }
uint16_t start_sc = frame_parms.first_carrier_offset; uint16_t start_sc = frame_parms.first_carrier_offset;
...@@ -586,16 +602,17 @@ int nr_generate_csi_rs(uint32_t **gold_csi_rs, ...@@ -586,16 +602,17 @@ int nr_generate_csi_rs(uint32_t **gold_csi_rs,
} }
// ZP CSI RS // ZP CSI RS
if (csi_params.csi_type == 2) { if (csi_params.csi_type == 2) {
((int16_t*)txdataF[p])[(l*frame_parms.ofdm_symbol_size + k)<<1] = 0; ((int16_t*)txdataF[p])[((l*frame_parms.ofdm_symbol_size + k)<<1)+(2*txdataF_offset)] = 0;
((int16_t*)txdataF[p])[((l*frame_parms.ofdm_symbol_size + k)<<1) + 1] = 0; ((int16_t*)txdataF[p])[((l*frame_parms.ofdm_symbol_size + k)<<1)+1+(2*txdataF_offset)] = 0;
} }
else { else {
((int16_t*)txdataF[p])[(l*frame_parms.ofdm_symbol_size + k)<<1] = (beta*wt*wf*mod_csi[l][mprime<<1]) >> 15; ((int16_t*)txdataF[p])[((l*frame_parms.ofdm_symbol_size + k)<<1)+(2*txdataF_offset)] = (beta*wt*wf*mod_csi[l][mprime<<1]) >> 15;
((int16_t*)txdataF[p])[((l*frame_parms.ofdm_symbol_size + k)<<1) + 1] = (beta*wt*wf*mod_csi[l][(mprime<<1) + 1]) >> 15; ((int16_t*)txdataF[p])[((l*frame_parms.ofdm_symbol_size + k)<<1)+1+(2*txdataF_offset)] = (beta*wt*wf*mod_csi[l][(mprime<<1) + 1]) >> 15;
} }
#ifdef NR_CSIRS_DEBUG #ifdef NR_CSIRS_DEBUG
printf("l,k (%d %d) seq. index %d \t port %d \t (%d,%d)\n",l,k-start_sc,mprime,p+3000,((int16_t*)txdataF[p])[(l*frame_parms.ofdm_symbol_size + k)<<1], printf("l,k (%d %d) seq. index %d \t port %d \t (%d,%d)\n",l,k,mprime,p+3000,
((int16_t*)txdataF[p])[((l*frame_parms.ofdm_symbol_size + k)<<1) + 1]); ((int16_t*)txdataF[p])[((l*frame_parms.ofdm_symbol_size + k)<<1)+(2*txdataF_offset)],
((int16_t*)txdataF[p])[((l*frame_parms.ofdm_symbol_size + k)<<1)+1+(2*txdataF_offset)]);
#endif #endif
} }
} }
...@@ -603,6 +620,4 @@ int nr_generate_csi_rs(uint32_t **gold_csi_rs, ...@@ -603,6 +620,4 @@ int nr_generate_csi_rs(uint32_t **gold_csi_rs,
} }
} }
} }
return 0;
} }
...@@ -326,11 +326,11 @@ void init_prach_list(PHY_VARS_gNB *gNB); ...@@ -326,11 +326,11 @@ void init_prach_list(PHY_VARS_gNB *gNB);
void init_prach_ru_list(RU_t *ru); void init_prach_ru_list(RU_t *ru);
void free_nr_ru_prach_entry(RU_t *ru, int prach_id); void free_nr_ru_prach_entry(RU_t *ru, int prach_id);
int nr_generate_csi_rs(uint32_t **gold_csi_rs, void nr_generate_csi_rs(PHY_VARS_gNB *gNB,
int32_t **txdataF, int16_t amp,
int16_t amp, nfapi_nr_dl_tti_csi_rs_pdu_rel15_t csi_params,
NR_DL_FRAME_PARMS frame_parms, uint16_t cell_id,
nfapi_nr_dl_tti_csi_rs_pdu_rel15_t csi_params); int slot);
void free_nr_prach_entry(PHY_VARS_gNB *gNB, int prach_id); void free_nr_prach_entry(PHY_VARS_gNB *gNB, int prach_id);
......
...@@ -289,7 +289,7 @@ void nr_decode_pucch0(PHY_VARS_gNB *gNB, ...@@ -289,7 +289,7 @@ void nr_decode_pucch0(PHY_VARS_gNB *gNB,
int32_t corr_re[2]; int32_t corr_re[2];
int32_t corr_im[2]; int32_t corr_im[2];
//int32_t no_corr = 0;
int seq_index; int seq_index;
int64_t temp; int64_t temp;
int64_t av_corr=0; int64_t av_corr=0;
...@@ -1375,7 +1375,7 @@ void nr_decode_pucch2(PHY_VARS_gNB *gNB, ...@@ -1375,7 +1375,7 @@ void nr_decode_pucch2(PHY_VARS_gNB *gNB,
rp2_im[aa] = (__m256i*)r_im_ext2[aa]; rp2_im[aa] = (__m256i*)r_im_ext2[aa];
} }
__m256i prod_re[Prx2],prod_im[Prx2]; __m256i prod_re[Prx2],prod_im[Prx2];
int64_t corr=0; uint64_t corr=0;
int cw_ML=0; int cw_ML=0;
...@@ -1389,7 +1389,7 @@ void nr_decode_pucch2(PHY_VARS_gNB *gNB, ...@@ -1389,7 +1389,7 @@ void nr_decode_pucch2(PHY_VARS_gNB *gNB,
} }
printf("\n"); printf("\n");
#endif #endif
int64_t corr_tmp = 0; uint64_t corr_tmp = 0;
for (int group=0;group<ngroup;group++) { for (int group=0;group<ngroup;group++) {
// do complex correlation // do complex correlation
...@@ -1421,8 +1421,8 @@ void nr_decode_pucch2(PHY_VARS_gNB *gNB, ...@@ -1421,8 +1421,8 @@ void nr_decode_pucch2(PHY_VARS_gNB *gNB,
prod_im[aa] = _mm256_hadds_epi16(prod_im[aa],prod_im[aa]); prod_im[aa] = _mm256_hadds_epi16(prod_im[aa],prod_im[aa]);
} }
int64_t corr_re=0,corr_im=0; int64_t corr_re=0,corr_im=0;
for (int aa=0;aa<Prx;aa++) { for (int aa=0;aa<Prx;aa++) {
LOG_D(PHY,"pucch2 cw %d group %d aa %d: (%d,%d)+(%d,%d) = (%d,%d)\n",cw,group,aa, LOG_D(PHY,"pucch2 cw %d group %d aa %d: (%d,%d)+(%d,%d) = (%d,%d)\n",cw,group,aa,
corr32_re[group][aa],corr32_im[group][aa], corr32_re[group][aa],corr32_im[group][aa],
...@@ -1499,11 +1499,11 @@ void nr_decode_pucch2(PHY_VARS_gNB *gNB, ...@@ -1499,11 +1499,11 @@ void nr_decode_pucch2(PHY_VARS_gNB *gNB,
if (cw==0) corr += ((int64_t)corr32_re[half_prb>>2][aa]*corr32_re[half_prb>>2][aa])+ if (cw==0) corr += ((int64_t)corr32_re[half_prb>>2][aa]*corr32_re[half_prb>>2][aa])+
((int64_t)corr32_im[half_prb>>2][aa]*corr32_im[half_prb>>2][aa]); ((int64_t)corr32_im[half_prb>>2][aa]*corr32_im[half_prb>>2][aa]);
corr_re = ( corr32_re[half_prb>>2][aa]/(2*nc_group_size*4/2)+((int16_t*)(&prod_re[aa]))[0]); corr_re = ( corr32_re[half_prb>>2][aa]/(2*nc_group_size*4/2)+((int16_t*)(&prod_re[aa]))[0]);
corr_im = ( corr32_im[half_prb>>2][aa]/(2*nc_group_size*4/2)+((int16_t*)(&prod_im[aa]))[0]); corr_im = ( corr32_im[half_prb>>2][aa]/(2*nc_group_size*4/2)+((int16_t*)(&prod_im[aa]))[0]);
corr_tmp += corr_re*corr_re + corr_im*corr_im; corr_tmp += corr_re*corr_re + corr_im*corr_im;
/*
LOG_D(PHY,"pucch2 half_prb %d cw %d (%d,%d) aa %d: (%d,%d,%d,%d,%d,%d,%d,%d)x(%d,%d,%d,%d,%d,%d,%d,%d) (%d,%d)+(%d,%d) = (%d,%d) => %d\n", LOG_D(PHY,"pucch2 half_prb %d cw %d (%d,%d) aa %d: (%d,%d,%d,%d,%d,%d,%d,%d)x(%d,%d,%d,%d,%d,%d,%d,%d) (%d,%d)+(%d,%d) = (%d,%d) => %d\n",
half_prb,cw,cw&15,cw>>4,aa, half_prb,cw,cw&15,cw>>4,aa,
((int16_t*)&pucch2_polar_4bit[cw&15])[0],((int16_t*)&pucch2_polar_4bit[cw>>4])[0], ((int16_t*)&pucch2_polar_4bit[cw&15])[0],((int16_t*)&pucch2_polar_4bit[cw>>4])[0],
...@@ -1520,15 +1520,15 @@ void nr_decode_pucch2(PHY_VARS_gNB *gNB, ...@@ -1520,15 +1520,15 @@ void nr_decode_pucch2(PHY_VARS_gNB *gNB,
corr_re, corr_re,
corr_im, corr_im,
corr_tmp); corr_tmp);
*/
} }
corr16 = _mm_set1_epi16((int16_t)(corr_tmp>>8)); corr16 = _mm_set1_epi16((int16_t)(corr_tmp>>8));
/*
LOG_D(PHY,"half_prb %d cw %d corr16 %d\n",half_prb,cw,corr_tmp>>8); LOG_D(PHY,"half_prb %d cw %d corr16 %d\n",half_prb,cw,corr_tmp>>8);
*/
llr_num = _mm_max_epi16(_mm_mullo_epi16(corr16,pucch2_polar_llr_num_lut[cw]),llr_num); llr_num = _mm_max_epi16(_mm_mullo_epi16(corr16,pucch2_polar_llr_num_lut[cw]),llr_num);
llr_den = _mm_max_epi16(_mm_mullo_epi16(corr16,pucch2_polar_llr_den_lut[cw]),llr_den); llr_den = _mm_max_epi16(_mm_mullo_epi16(corr16,pucch2_polar_llr_den_lut[cw]),llr_den);
/*
LOG_D(PHY,"lut_num (%d,%d,%d,%d,%d,%d,%d,%d)\n", LOG_D(PHY,"lut_num (%d,%d,%d,%d,%d,%d,%d,%d)\n",
((int16_t*)&pucch2_polar_llr_num_lut[cw])[0], ((int16_t*)&pucch2_polar_llr_num_lut[cw])[0],
((int16_t*)&pucch2_polar_llr_num_lut[cw])[1], ((int16_t*)&pucch2_polar_llr_num_lut[cw])[1],
...@@ -1538,7 +1538,7 @@ void nr_decode_pucch2(PHY_VARS_gNB *gNB, ...@@ -1538,7 +1538,7 @@ void nr_decode_pucch2(PHY_VARS_gNB *gNB,
((int16_t*)&pucch2_polar_llr_num_lut[cw])[5], ((int16_t*)&pucch2_polar_llr_num_lut[cw])[5],
((int16_t*)&pucch2_polar_llr_num_lut[cw])[6], ((int16_t*)&pucch2_polar_llr_num_lut[cw])[6],
((int16_t*)&pucch2_polar_llr_num_lut[cw])[7]); ((int16_t*)&pucch2_polar_llr_num_lut[cw])[7]);
LOG_D(PHY,"llr_num (%d,%d,%d,%d,%d,%d,%d,%d)\n", LOG_D(PHY,"llr_num (%d,%d,%d,%d,%d,%d,%d,%d)\n",
((int16_t*)&llr_num)[0], ((int16_t*)&llr_num)[0],
((int16_t*)&llr_num)[1], ((int16_t*)&llr_num)[1],
...@@ -1557,7 +1557,7 @@ void nr_decode_pucch2(PHY_VARS_gNB *gNB, ...@@ -1557,7 +1557,7 @@ void nr_decode_pucch2(PHY_VARS_gNB *gNB,
((int16_t*)&llr_den)[5], ((int16_t*)&llr_den)[5],
((int16_t*)&llr_den)[6], ((int16_t*)&llr_den)[6],
((int16_t*)&llr_den)[7]); ((int16_t*)&llr_den)[7]);
*/
} }
// compute llrs // compute llrs
llrs[half_prb] = _mm_subs_epi16(llr_num,llr_den); llrs[half_prb] = _mm_subs_epi16(llr_num,llr_den);
......
...@@ -120,6 +120,13 @@ typedef struct { ...@@ -120,6 +120,13 @@ typedef struct {
nfapi_nr_dl_tti_pdcch_pdu pdcch_pdu; nfapi_nr_dl_tti_pdcch_pdu pdcch_pdu;
} NR_gNB_PDCCH_t; } NR_gNB_PDCCH_t;
typedef struct {
uint8_t active;
int frame;
int slot;
nfapi_nr_dl_tti_csi_rs_pdu csirs_pdu;
} NR_gNB_CSIRS_t;
typedef struct { typedef struct {
int frame; int frame;
int slot; int slot;
...@@ -760,6 +767,7 @@ typedef struct PHY_VARS_gNB_s { ...@@ -760,6 +767,7 @@ typedef struct PHY_VARS_gNB_s {
NR_gNB_PUSCH *pusch_vars[NUMBER_OF_NR_ULSCH_MAX]; NR_gNB_PUSCH *pusch_vars[NUMBER_OF_NR_ULSCH_MAX];
NR_gNB_PUCCH_t *pucch[NUMBER_OF_NR_PUCCH_MAX]; NR_gNB_PUCCH_t *pucch[NUMBER_OF_NR_PUCCH_MAX];
NR_gNB_PDCCH_t pdcch_pdu[NUMBER_OF_NR_PDCCH_MAX]; NR_gNB_PDCCH_t pdcch_pdu[NUMBER_OF_NR_PDCCH_MAX];
NR_gNB_CSIRS_t csirs_pdu[NUMBER_OF_NR_CSIRS_MAX];
NR_gNB_UL_PDCCH_t ul_pdcch_pdu[NUMBER_OF_NR_PDCCH_MAX]; NR_gNB_UL_PDCCH_t ul_pdcch_pdu[NUMBER_OF_NR_PDCCH_MAX];
NR_gNB_DLSCH_t *dlsch[NUMBER_OF_NR_DLSCH_MAX][2]; // Nusers times two spatial streams NR_gNB_DLSCH_t *dlsch[NUMBER_OF_NR_DLSCH_MAX][2]; // Nusers times two spatial streams
NR_gNB_ULSCH_t *ulsch[NUMBER_OF_NR_ULSCH_MAX][2]; // [Nusers times][2 codewords] NR_gNB_ULSCH_t *ulsch[NUMBER_OF_NR_ULSCH_MAX][2]; // [Nusers times][2 codewords]
......
...@@ -111,10 +111,9 @@ void handle_nfapi_nr_pdcch_pdu(PHY_VARS_gNB *gNB, ...@@ -111,10 +111,9 @@ void handle_nfapi_nr_pdcch_pdu(PHY_VARS_gNB *gNB,
nr_fill_dci(gNB,frame,slot,pdcch_pdu); nr_fill_dci(gNB,frame,slot,pdcch_pdu);
} }
void handle_nfapi_nr_ul_dci_pdu(PHY_VARS_gNB *gNB, void handle_nfapi_nr_ul_dci_pdu(PHY_VARS_gNB *gNB,
int frame, int slot, int frame, int slot,
nfapi_nr_ul_dci_request_pdus_t *ul_dci_request_pdu) { nfapi_nr_ul_dci_request_pdus_t *ul_dci_request_pdu) {
...@@ -128,6 +127,30 @@ void handle_nfapi_nr_ul_dci_pdu(PHY_VARS_gNB *gNB, ...@@ -128,6 +127,30 @@ void handle_nfapi_nr_ul_dci_pdu(PHY_VARS_gNB *gNB,
} }
void handle_nfapi_nr_csirs_pdu(PHY_VARS_gNB *gNB,
int frame, int slot,
nfapi_nr_dl_tti_csi_rs_pdu *csirs_pdu) {
int found = 0;
for (int id=0; id<NUMBER_OF_NR_CSIRS_MAX; id++) {
NR_gNB_CSIRS_t *csirs = &gNB->csirs_pdu[id];
if (csirs->active == 0) {
LOG_D(PHY,"Frame %d Slot %d CSI_RS with ID %d is now active\n",frame,slot,id);
csirs->frame = frame;
csirs->slot = slot;
csirs->active = 1;
memcpy((void*)&csirs->csirs_pdu, (void*)csirs_pdu, sizeof(nfapi_nr_dl_tti_csi_rs_pdu));
found = 1;
break;
}
}
if (found == 0)
LOG_E(MAC,"CSI-RS list is full\n");
}
void handle_nr_nfapi_pdsch_pdu(PHY_VARS_gNB *gNB,int frame,int slot, void handle_nr_nfapi_pdsch_pdu(PHY_VARS_gNB *gNB,int frame,int slot,
nfapi_nr_dl_tti_pdsch_pdu *pdsch_pdu, nfapi_nr_dl_tti_pdsch_pdu *pdsch_pdu,
uint8_t *sdu) uint8_t *sdu)
...@@ -195,6 +218,12 @@ void nr_schedule_response(NR_Sched_Rsp_t *Sched_INFO){ ...@@ -195,6 +218,12 @@ void nr_schedule_response(NR_Sched_Rsp_t *Sched_INFO){
pdcch_received = 1; pdcch_received = 1;
break; break;
case NFAPI_NR_DL_TTI_CSI_RS_PDU_TYPE:
LOG_D(PHY,"frame %d, slot %d, Got NFAPI_NR_DL_TTI_CSI_RS_PDU_TYPE for %d.%d\n",frame,slot,DL_req->SFN,DL_req->Slot);
handle_nfapi_nr_csirs_pdu(gNB,
frame, slot,
&dl_tti_pdu->csi_rs_pdu);
break;
case NFAPI_NR_DL_TTI_PDSCH_PDU_TYPE: case NFAPI_NR_DL_TTI_PDSCH_PDU_TYPE:
{ {
......
...@@ -43,6 +43,10 @@ void handle_nr_nfapi_ssb_pdu(PHY_VARS_gNB *gNB, ...@@ -43,6 +43,10 @@ void handle_nr_nfapi_ssb_pdu(PHY_VARS_gNB *gNB,
void nr_schedule_response(NR_Sched_Rsp_t *Sched_INFO); void nr_schedule_response(NR_Sched_Rsp_t *Sched_INFO);
void handle_nfapi_nr_csirs_pdu(PHY_VARS_gNB *gNB,
int frame, int slot,
nfapi_nr_dl_tti_csi_rs_pdu *csirs_pdu);
void handle_nfapi_nr_pdcch_pdu(PHY_VARS_gNB *gNB, void handle_nfapi_nr_pdcch_pdu(PHY_VARS_gNB *gNB,
int frame, int subframe, int frame, int subframe,
nfapi_nr_dl_tti_pdcch_pdu *dcl_dl_pdu); nfapi_nr_dl_tti_pdcch_pdu *dcl_dl_pdu);
......
...@@ -194,6 +194,18 @@ void phy_procedures_gNB_TX(PHY_VARS_gNB *gNB, ...@@ -194,6 +194,18 @@ void phy_procedures_gNB_TX(PHY_VARS_gNB *gNB,
VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME(VCD_SIGNAL_DUMPER_FUNCTIONS_GENERATE_DLSCH,0); VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME(VCD_SIGNAL_DUMPER_FUNCTIONS_GENERATE_DLSCH,0);
} }
for (int i=0;i<NUMBER_OF_NR_CSIRS_MAX;i++){
NR_gNB_CSIRS_t *csirs = &gNB->csirs_pdu[i];
if ((csirs->active == 1) &&
(csirs->frame == frame) &&
(csirs->slot == slot) ) {
LOG_D(PHY, "CSI-RS generation started in frame %d.%d\n",frame,slot);
nfapi_nr_dl_tti_csi_rs_pdu_rel15_t csi_params = csirs->csirs_pdu.csi_rs_pdu_rel15;
nr_generate_csi_rs(gNB, AMP, csi_params, gNB->gNB_config.cell_config.phy_cell_id.value, slot);
csirs->active = 0;
}
}
if (do_meas==1) stop_meas(&gNB->phy_proc_tx); if (do_meas==1) stop_meas(&gNB->phy_proc_tx);
if ((frame&127) == 0) dump_pdsch_stats(gNB); if ((frame&127) == 0) dump_pdsch_stats(gNB);
...@@ -202,7 +214,7 @@ void phy_procedures_gNB_TX(PHY_VARS_gNB *gNB, ...@@ -202,7 +214,7 @@ void phy_procedures_gNB_TX(PHY_VARS_gNB *gNB,
for (aa=0; aa<cfg->carrier_config.num_tx_ant.value; aa++) { for (aa=0; aa<cfg->carrier_config.num_tx_ant.value; aa++) {
apply_nr_rotation(fp,(int16_t*) &gNB->common_vars.txdataF[aa][txdataF_offset],slot,0,fp->Ncp==EXTENDED?12:14,fp->ofdm_symbol_size); apply_nr_rotation(fp,(int16_t*) &gNB->common_vars.txdataF[aa][txdataF_offset],slot,0,fp->Ncp==EXTENDED?12:14,fp->ofdm_symbol_size);
} }
VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME(VCD_SIGNAL_DUMPER_FUNCTIONS_PHY_PROCEDURES_gNB_TX+offset,0); VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME(VCD_SIGNAL_DUMPER_FUNCTIONS_PHY_PROCEDURES_gNB_TX+offset,0);
} }
......
...@@ -401,6 +401,9 @@ void gNB_dlsch_ulsch_scheduler(module_id_t module_idP, ...@@ -401,6 +401,9 @@ void gNB_dlsch_ulsch_scheduler(module_id_t module_idP,
// This schedule SR // This schedule SR
nr_sr_reporting(module_idP, frame, slot); nr_sr_reporting(module_idP, frame, slot);
// Schedule CSI-RS transmission
nr_csirs_scheduling(module_idP, frame, slot, nr_slots_per_frame[*scc->ssbSubcarrierSpacing]);
// Schedule CSI measurement reporting: check in slot 0 for the whole frame // Schedule CSI measurement reporting: check in slot 0 for the whole frame
if (slot == 0) if (slot == 0)
nr_csi_meas_reporting(module_idP, frame, slot); nr_csi_meas_reporting(module_idP, frame, slot);
......
...@@ -2041,6 +2041,205 @@ void get_pdsch_to_harq_feedback(int Mod_idP, ...@@ -2041,6 +2041,205 @@ void get_pdsch_to_harq_feedback(int Mod_idP,
} }
void nr_csirs_scheduling(int Mod_idP,
frame_t frame,
sub_frame_t slot,
int n_slots_frame){
int CC_id = 0;
NR_UE_info_t *UE_info = &RC.nrmac[Mod_idP]->UE_info;
NR_list_t *UE_list = &UE_info->list;
gNB_MAC_INST *gNB_mac = RC.nrmac[Mod_idP];
uint16_t *vrb_map = gNB_mac->common_channels[CC_id].vrb_map;
for (int UE_id = UE_list->head; UE_id >= 0; UE_id = UE_list->next[UE_id]) {
NR_NZP_CSI_RS_Resource_t *nzpcsi;
int period, offset;
NR_UE_sched_ctrl_t *sched_ctrl = &UE_info->UE_sched_ctrl[UE_id];
NR_CellGroupConfig_t *CellGroup = UE_info->CellGroup[UE_id];
if (!CellGroup || !CellGroup->spCellConfig || !CellGroup->spCellConfig->spCellConfigDedicated ||
!CellGroup->spCellConfig->spCellConfigDedicated->csi_MeasConfig) continue;
NR_CSI_MeasConfig_t *csi_measconfig = CellGroup->spCellConfig->spCellConfigDedicated->csi_MeasConfig->choice.setup;
nfapi_nr_dl_tti_request_body_t *dl_req = &gNB_mac->DL_req[CC_id].dl_tti_request_body;
NR_BWP_Downlink_t *bwp=CellGroup->spCellConfig->spCellConfigDedicated->downlinkBWP_ToAddModList->list.array[sched_ctrl->active_bwp->bwp_Id-1];
AssertFatal(csi_measconfig->nzp_CSI_RS_ResourceToAddModList->list.count>0,"NO CSI report configuration available");
for (int id = 0; id < csi_measconfig->nzp_CSI_RS_ResourceToAddModList->list.count; id++){
nzpcsi = csi_measconfig->nzp_CSI_RS_ResourceToAddModList->list.array[id];
NR_CSI_RS_ResourceMapping_t resourceMapping = nzpcsi->resourceMapping;
csi_period_offset(NULL,nzpcsi,&period,&offset);
if((frame*n_slots_frame+slot-offset)%period == 0) {
LOG_I(MAC,"Scheduling CSI-RS in frame %d slot %d\n",frame,slot);
nfapi_nr_dl_tti_request_pdu_t *dl_tti_csirs_pdu = &dl_req->dl_tti_pdu_list[dl_req->nPDUs];
memset((void*)dl_tti_csirs_pdu,0,sizeof(nfapi_nr_dl_tti_request_pdu_t));
dl_tti_csirs_pdu->PDUType = NFAPI_NR_DL_TTI_CSI_RS_PDU_TYPE;
dl_tti_csirs_pdu->PDUSize = (uint8_t)(2+sizeof(nfapi_nr_dl_tti_csi_rs_pdu));
nfapi_nr_dl_tti_csi_rs_pdu_rel15_t *csirs_pdu_rel15 = &dl_tti_csirs_pdu->csi_rs_pdu.csi_rs_pdu_rel15;
csirs_pdu_rel15->bwp_size = NRRIV2BW(bwp->bwp_Common->genericParameters.locationAndBandwidth,275);
csirs_pdu_rel15->bwp_start = NRRIV2PRBOFFSET(bwp->bwp_Common->genericParameters.locationAndBandwidth,275);
csirs_pdu_rel15->subcarrier_spacing = bwp->bwp_Common->genericParameters.subcarrierSpacing;
if (bwp->bwp_Common->genericParameters.cyclicPrefix)
csirs_pdu_rel15->cyclic_prefix = *bwp->bwp_Common->genericParameters.cyclicPrefix;
else
csirs_pdu_rel15->cyclic_prefix = 0;
csirs_pdu_rel15->start_rb = resourceMapping.freqBand.startingRB;
csirs_pdu_rel15->nr_of_rbs = resourceMapping.freqBand.nrofRBs;
csirs_pdu_rel15->csi_type = 1; // NZP-CSI-RS
csirs_pdu_rel15->symb_l0 = resourceMapping.firstOFDMSymbolInTimeDomain;
if (resourceMapping.firstOFDMSymbolInTimeDomain2)
csirs_pdu_rel15->symb_l1 = *resourceMapping.firstOFDMSymbolInTimeDomain2;
csirs_pdu_rel15->cdm_type = resourceMapping.cdm_Type;
csirs_pdu_rel15->freq_density = resourceMapping.density.present;
if ((resourceMapping.density.present == NR_CSI_RS_ResourceMapping__density_PR_dot5)
&& (resourceMapping.density.choice.dot5 == NR_CSI_RS_ResourceMapping__density__dot5_evenPRBs))
csirs_pdu_rel15->freq_density--;
csirs_pdu_rel15->scramb_id = nzpcsi->scramblingID;
csirs_pdu_rel15->power_control_offset = nzpcsi->powerControlOffset + 8;
if (nzpcsi->powerControlOffsetSS)
csirs_pdu_rel15->power_control_offset_ss = *nzpcsi->powerControlOffsetSS;
else
csirs_pdu_rel15->power_control_offset_ss = 1; // 0 dB
switch(resourceMapping.frequencyDomainAllocation.present){
case NR_CSI_RS_ResourceMapping__frequencyDomainAllocation_PR_row1:
csirs_pdu_rel15->row = 1;
csirs_pdu_rel15->freq_domain = ((resourceMapping.frequencyDomainAllocation.choice.row1.buf[0])>>4)&0x0f;
for (int rb = csirs_pdu_rel15->start_rb; rb < (csirs_pdu_rel15->start_rb + csirs_pdu_rel15->nr_of_rbs); rb++)
vrb_map[rb] |= (1 << csirs_pdu_rel15->symb_l0);
break;
case NR_CSI_RS_ResourceMapping__frequencyDomainAllocation_PR_row2:
csirs_pdu_rel15->row = 2;
csirs_pdu_rel15->freq_domain = (((resourceMapping.frequencyDomainAllocation.choice.row2.buf[1]>>4)&0x0f) |
((resourceMapping.frequencyDomainAllocation.choice.row2.buf[0]<<8)&0xff0));
for (int rb = csirs_pdu_rel15->start_rb; rb < (csirs_pdu_rel15->start_rb + csirs_pdu_rel15->nr_of_rbs); rb++)
vrb_map[rb] |= (1 << csirs_pdu_rel15->symb_l0);
break;
case NR_CSI_RS_ResourceMapping__frequencyDomainAllocation_PR_row4:
csirs_pdu_rel15->row = 4;
csirs_pdu_rel15->freq_domain = ((resourceMapping.frequencyDomainAllocation.choice.row4.buf[0])>>5)&0x07;
for (int rb = csirs_pdu_rel15->start_rb; rb < (csirs_pdu_rel15->start_rb + csirs_pdu_rel15->nr_of_rbs); rb++)
vrb_map[rb] |= (1 << csirs_pdu_rel15->symb_l0);
break;
case NR_CSI_RS_ResourceMapping__frequencyDomainAllocation_PR_other:
csirs_pdu_rel15->freq_domain = ((resourceMapping.frequencyDomainAllocation.choice.other.buf[0])>>2)&0x3f;
// determining the row of table 7.4.1.5.3-1 in 38.211
switch(resourceMapping.nrofPorts){
case NR_CSI_RS_ResourceMapping__nrofPorts_p1:
break;
case NR_CSI_RS_ResourceMapping__nrofPorts_p2:
csirs_pdu_rel15->row = 3;
for (int rb = csirs_pdu_rel15->start_rb; rb < (csirs_pdu_rel15->start_rb + csirs_pdu_rel15->nr_of_rbs); rb++)
vrb_map[rb] |= (1 << csirs_pdu_rel15->symb_l0);
break;
case NR_CSI_RS_ResourceMapping__nrofPorts_p4:
csirs_pdu_rel15->row = 5;
for (int rb = csirs_pdu_rel15->start_rb; rb < (csirs_pdu_rel15->start_rb + csirs_pdu_rel15->nr_of_rbs); rb++)
vrb_map[rb] |= ((1 << csirs_pdu_rel15->symb_l0) | (2 << csirs_pdu_rel15->symb_l0));
break;
case NR_CSI_RS_ResourceMapping__nrofPorts_p8:
if (resourceMapping.cdm_Type == NR_CSI_RS_ResourceMapping__cdm_Type_cdm4_FD2_TD2) {
csirs_pdu_rel15->row = 8;
for (int rb = csirs_pdu_rel15->start_rb; rb < (csirs_pdu_rel15->start_rb + csirs_pdu_rel15->nr_of_rbs); rb++)
vrb_map[rb] |= ((1 << csirs_pdu_rel15->symb_l0) | (2 << csirs_pdu_rel15->symb_l0));
}
else{
int num_k = 0;
for (int k=0; k<6; k++)
num_k+=(((csirs_pdu_rel15->freq_domain)>>k)&0x01);
if(num_k==4) {
csirs_pdu_rel15->row = 6;
for (int rb = csirs_pdu_rel15->start_rb; rb < (csirs_pdu_rel15->start_rb + csirs_pdu_rel15->nr_of_rbs); rb++)
vrb_map[rb] |= (1 << csirs_pdu_rel15->symb_l0);
}
else {
csirs_pdu_rel15->row = 7;
for (int rb = csirs_pdu_rel15->start_rb; rb < (csirs_pdu_rel15->start_rb + csirs_pdu_rel15->nr_of_rbs); rb++)
vrb_map[rb] |= ((1 << csirs_pdu_rel15->symb_l0) | (2 << csirs_pdu_rel15->symb_l0));
}
}
break;
case NR_CSI_RS_ResourceMapping__nrofPorts_p12:
if (resourceMapping.cdm_Type == NR_CSI_RS_ResourceMapping__cdm_Type_cdm4_FD2_TD2) {
csirs_pdu_rel15->row = 10;
for (int rb = csirs_pdu_rel15->start_rb; rb < (csirs_pdu_rel15->start_rb + csirs_pdu_rel15->nr_of_rbs); rb++)
vrb_map[rb] |= ((1 << csirs_pdu_rel15->symb_l0) | (2 << csirs_pdu_rel15->symb_l0));
}
else {
csirs_pdu_rel15->row = 9;
for (int rb = csirs_pdu_rel15->start_rb; rb < (csirs_pdu_rel15->start_rb + csirs_pdu_rel15->nr_of_rbs); rb++)
vrb_map[rb] |= (1 << csirs_pdu_rel15->symb_l0);
}
break;
case NR_CSI_RS_ResourceMapping__nrofPorts_p16:
if (resourceMapping.cdm_Type == NR_CSI_RS_ResourceMapping__cdm_Type_cdm4_FD2_TD2)
csirs_pdu_rel15->row = 12;
else
csirs_pdu_rel15->row = 11;
for (int rb = csirs_pdu_rel15->start_rb; rb < (csirs_pdu_rel15->start_rb + csirs_pdu_rel15->nr_of_rbs); rb++)
vrb_map[rb] |= ((1 << csirs_pdu_rel15->symb_l0) | (2 << csirs_pdu_rel15->symb_l0));
break;
case NR_CSI_RS_ResourceMapping__nrofPorts_p24:
if (resourceMapping.cdm_Type == NR_CSI_RS_ResourceMapping__cdm_Type_cdm4_FD2_TD2) {
csirs_pdu_rel15->row = 14;
for (int rb = csirs_pdu_rel15->start_rb; rb < (csirs_pdu_rel15->start_rb + csirs_pdu_rel15->nr_of_rbs); rb++)
vrb_map[rb] |= ((3 << csirs_pdu_rel15->symb_l0) | (3 << csirs_pdu_rel15->symb_l1));
}
else{
if (resourceMapping.cdm_Type == NR_CSI_RS_ResourceMapping__cdm_Type_cdm8_FD2_TD4) {
csirs_pdu_rel15->row = 15;
for (int rb = csirs_pdu_rel15->start_rb; rb < (csirs_pdu_rel15->start_rb + csirs_pdu_rel15->nr_of_rbs); rb++)
vrb_map[rb] |= (7 << csirs_pdu_rel15->symb_l0);
}
else {
csirs_pdu_rel15->row = 13;
for (int rb = csirs_pdu_rel15->start_rb; rb < (csirs_pdu_rel15->start_rb + csirs_pdu_rel15->nr_of_rbs); rb++)
vrb_map[rb] |= ((3 << csirs_pdu_rel15->symb_l0) | (3 << csirs_pdu_rel15->symb_l1));
}
}
break;
case NR_CSI_RS_ResourceMapping__nrofPorts_p32:
if (resourceMapping.cdm_Type == NR_CSI_RS_ResourceMapping__cdm_Type_cdm4_FD2_TD2) {
csirs_pdu_rel15->row = 17;
for (int rb = csirs_pdu_rel15->start_rb; rb < (csirs_pdu_rel15->start_rb + csirs_pdu_rel15->nr_of_rbs); rb++)
vrb_map[rb] |= ((3 << csirs_pdu_rel15->symb_l0) | (3 << csirs_pdu_rel15->symb_l1));
}
else{
if (resourceMapping.cdm_Type == NR_CSI_RS_ResourceMapping__cdm_Type_cdm8_FD2_TD4) {
csirs_pdu_rel15->row = 18;
for (int rb = csirs_pdu_rel15->start_rb; rb < (csirs_pdu_rel15->start_rb + csirs_pdu_rel15->nr_of_rbs); rb++)
vrb_map[rb] |= (7 << csirs_pdu_rel15->symb_l0);
}
else {
csirs_pdu_rel15->row = 16;
for (int rb = csirs_pdu_rel15->start_rb; rb < (csirs_pdu_rel15->start_rb + csirs_pdu_rel15->nr_of_rbs); rb++)
vrb_map[rb] |= ((3 << csirs_pdu_rel15->symb_l0) | (3 << csirs_pdu_rel15->symb_l1));
}
}
break;
default:
AssertFatal(1==0,"Invalid number of ports in CSI-RS resource\n");
}
break;
default:
AssertFatal(1==0,"Invalid freqency domain allocation in CSI-RS resource\n");
}
dl_req->nPDUs++;
}
}
}
}
bool find_free_CCE(module_id_t module_id, bool find_free_CCE(module_id_t module_id,
sub_frame_t slot, sub_frame_t slot,
int UE_id){ int UE_id){
...@@ -2066,6 +2265,7 @@ bool find_free_CCE(module_id_t module_id, ...@@ -2066,6 +2265,7 @@ bool find_free_CCE(module_id_t module_id,
return true; return true;
} }
/*void fill_nfapi_coresets_and_searchspaces(NR_CellGroupConfig_t *cg, /*void fill_nfapi_coresets_and_searchspaces(NR_CellGroupConfig_t *cg,
nfapi_nr_coreset_t *coreset, nfapi_nr_coreset_t *coreset,
nfapi_nr_search_space_t *search_space) { nfapi_nr_search_space_t *search_space) {
......
...@@ -36,6 +36,7 @@ ...@@ -36,6 +36,7 @@
extern RAN_CONTEXT_t RC; extern RAN_CONTEXT_t RC;
void nr_fill_nfapi_pucch(module_id_t mod_id, void nr_fill_nfapi_pucch(module_id_t mod_id,
frame_t frame, frame_t frame,
sub_frame_t slot, sub_frame_t slot,
...@@ -168,278 +169,263 @@ uint8_t number_of_bits_set (uint8_t buf,uint8_t * max_ri){ ...@@ -168,278 +169,263 @@ uint8_t number_of_bits_set (uint8_t buf,uint8_t * max_ri){
} }
void compute_rsrp_bitlen(struct NR_CSI_ReportConfig *csi_reportconfig,
uint8_t nb_resources,
nr_csi_report_t *csi_report){
if (NR_CSI_ReportConfig__groupBasedBeamReporting_PR_disabled == csi_reportconfig->groupBasedBeamReporting.present) {
if (NULL != csi_reportconfig->groupBasedBeamReporting.choice.disabled->nrofReportedRS)
csi_report->CSI_report_bitlen.nb_ssbri_cri = *(csi_reportconfig->groupBasedBeamReporting.choice.disabled->nrofReportedRS)+1;
else
/*! From Spec 38.331
* nrofReportedRS
* The number (N) of measured RS resources to be reported per report setting in a non-group-based report. N <= N_max, where N_max is either 2 or 4 depending on UE
* capability. FFS: The signaling mechanism for the gNB to select a subset of N beams for the UE to measure and report.
* When the field is absent the UE applies the value 1
*/
csi_report->CSI_report_bitlen.nb_ssbri_cri= 1;
} else
csi_report->CSI_report_bitlen.nb_ssbri_cri= 2;
if (nb_resources) {
csi_report->CSI_report_bitlen.cri_ssbri_bitlen =ceil(log2 (nb_resources));
csi_report->CSI_report_bitlen.rsrp_bitlen = 7; //From spec 38.212 Table 6.3.1.1.2-6: CRI, SSBRI, and RSRP
csi_report->CSI_report_bitlen.diff_rsrp_bitlen =4; //From spec 38.212 Table 6.3.1.1.2-6: CRI, SSBRI, and RSRP
} else {
csi_report->CSI_report_bitlen.cri_ssbri_bitlen =0;
csi_report->CSI_report_bitlen.rsrp_bitlen = 0;
csi_report->CSI_report_bitlen.diff_rsrp_bitlen =0;
}
}
uint8_t compute_ri_bitlen(struct NR_CSI_ReportConfig *csi_reportconfig,
nr_csi_report_t *csi_report){
struct NR_CodebookConfig *codebookConfig = csi_reportconfig->codebookConfig;
uint8_t nb_allowed_ri, ri_restriction,ri_bitlen;
uint8_t max_ri = 0;
if (codebookConfig == NULL) {
csi_report->csi_meas_bitlen.ri_bitlen=0;
return max_ri;
}
// codebook type1 single panel
if (NR_CodebookConfig__codebookType__type1__subType_PR_typeI_SinglePanel==codebookConfig->codebookType.choice.type1->subType.present){
struct NR_CodebookConfig__codebookType__type1__subType__typeI_SinglePanel *type1single = codebookConfig->codebookType.choice.type1->subType.choice.typeI_SinglePanel;
if (type1single->nrOfAntennaPorts.present == NR_CodebookConfig__codebookType__type1__subType__typeI_SinglePanel__nrOfAntennaPorts_PR_two){
// two antenna ports case
/* From Spec 38.212
* If the higher layer parameter nrofCQIsPerReport=1, nRI in Table 6.3.1.1.2-3 is the number of allowed rank indicator
* values in the 4 LSBs of the higher layer parameter typeI-SinglePanel-ri-Restriction according to Subclause 5.2.2.2.1 [6,
* TS 38.214]; otherwise nRI in Table 6.3.1.1.2-3 is the number of allowed rank indicator values according to Subclause
* 5.2.2.2.1 [6, TS 38.214].
*
* But from Current RRC ASN structures nrofCQIsPerReport is not present. Present a dummy variable is present so using it to
* calculate RI for antennas equal or more than two.
* */
AssertFatal (NULL!=csi_reportconfig->dummy, "nrofCQIsPerReport is not present");
ri_restriction = csi_reportconfig->codebookConfig->codebookType.choice.type1->subType.choice.typeI_SinglePanel->typeI_SinglePanel_ri_Restriction.buf[0];
/* Replace dummy with the nrofCQIsPerReport from the CSIreport
config when equalent ASN structure present */
if (0==*(csi_reportconfig->dummy)){
nb_allowed_ri = number_of_bits_set((ri_restriction & 0xf0), &max_ri);
ri_bitlen = ceil(log2(nb_allowed_ri));
}
else{
nb_allowed_ri = number_of_bits_set(ri_restriction, &max_ri);
ri_bitlen = ceil(log2(nb_allowed_ri));
}
ri_bitlen = ri_bitlen<1?ri_bitlen:1; //from the spec 38.212 and table 6.3.1.1.2-3: RI, LI, CQI, and CRI of codebookType=typeI-SinglePanel
csi_report->csi_meas_bitlen.ri_bitlen=ri_bitlen;
}
if (type1single->nrOfAntennaPorts.present == NR_CodebookConfig__codebookType__type1__subType__typeI_SinglePanel__nrOfAntennaPorts_PR_moreThanTwo){
if (type1single->nrOfAntennaPorts.choice.moreThanTwo->n1_n2.present ==
NR_CodebookConfig__codebookType__type1__subType__typeI_SinglePanel__nrOfAntennaPorts__moreThanTwo__n1_n2_PR_two_one_TypeI_SinglePanel_Restriction) {
// 4 ports
AssertFatal (NULL!=csi_reportconfig->dummy, "nrofCQIsPerReport is not present");
ri_restriction = csi_reportconfig->codebookConfig->codebookType.choice.type1->subType.choice.typeI_SinglePanel->typeI_SinglePanel_ri_Restriction.buf[0];
/* Replace dummy with the nrofCQIsPerReport from the CSIreport
config when equalent ASN structure present*/
if (0==*(csi_reportconfig->dummy)){
nb_allowed_ri = number_of_bits_set((ri_restriction & 0xf0), &max_ri);
ri_bitlen = ceil(log2(nb_allowed_ri));
}
else{
nb_allowed_ri = number_of_bits_set(ri_restriction,&max_ri);
ri_bitlen = ceil(log2(nb_allowed_ri));
}
ri_bitlen = ri_bitlen<2?ri_bitlen:2; //from the spec 38.212 and table 6.3.1.1.2-3: RI, LI, CQI, and CRI of codebookType=typeI-SinglePanel
csi_report->csi_meas_bitlen.ri_bitlen=ri_bitlen;
}
else {
// more than 4 ports
AssertFatal (NULL!=csi_reportconfig->dummy, "nrofCQIsPerReport is not present");
ri_restriction = csi_reportconfig->codebookConfig->codebookType.choice.type1->subType.choice.typeI_SinglePanel->typeI_SinglePanel_ri_Restriction.buf[0];
/* Replace dummy with the nrofCQIsPerReport from the CSIreport
config when equalent ASN structure present */
if (0==*(csi_reportconfig->dummy)){
nb_allowed_ri = number_of_bits_set((ri_restriction & 0xf0),&max_ri);
ri_bitlen = ceil(log2(nb_allowed_ri));
}
else{
nb_allowed_ri = number_of_bits_set(ri_restriction, &max_ri);
ri_bitlen = ceil(log2(nb_allowed_ri));
}
csi_report->csi_meas_bitlen.ri_bitlen=ri_bitlen;
}
}
return max_ri;
}
else
AssertFatal(1==0,"Other configurations not yet implemented\n");
}
void compute_li_bitlen(struct NR_CSI_ReportConfig *csi_reportconfig,
uint8_t max_ri,
nr_csi_report_t *csi_report){
struct NR_CodebookConfig *codebookConfig = csi_reportconfig->codebookConfig;
if (codebookConfig == NULL) {
csi_report->csi_meas_bitlen.li_bitlen=0;
return;
}
// codebook type1 single panel
if (NR_CodebookConfig__codebookType__type1__subType_PR_typeI_SinglePanel==codebookConfig->codebookType.choice.type1->subType.present){
/* From Spec 38.212
* If the higher layer parameter nrofCQIsPerReport=1, nRI in Table 6.3.1.1.2-3 is the number of allowed rank indicator
* values in the 4 LSBs of the higher layer parameter typeI-SinglePanel-ri-Restriction according to Subclause 5.2.2.2.1 [6,
* TS 38.214]; otherwise nRI in Table 6.3.1.1.2-3 is the number of allowed rank indicator values according to Subclause
* 5.2.2.2.1 [6, TS 38.214].
*
* But from Current RRC ASN structures nrofCQIsPerReport is not present. Present a dummy variable is present so using it to
* calculate RI for antennas equal or more than two.
*/
//! TODO: The bit length of LI is as follows LI = log2(RI), Need to confirm wheather we should consider maximum RI can be reported from ri_restricted
// or we should consider reported RI. If we need to consider reported RI for calculating LI bit length then we need to modify the code.
csi_report->csi_meas_bitlen.li_bitlen=ceil(log2(max_ri))<2?ceil(log2(max_ri)):2;
}
else
AssertFatal(1==0,"Other configurations not yet implemented\n");
}
void compute_cqi_bitlen(struct NR_CSI_ReportConfig *csi_reportconfig,
uint8_t max_ri,
nr_csi_report_t *csi_report){
struct NR_CodebookConfig *codebookConfig = csi_reportconfig->codebookConfig;
struct NR_CSI_ReportConfig__reportFreqConfiguration *freq_config = csi_reportconfig->reportFreqConfiguration;
if (*freq_config->cqi_FormatIndicator == NR_CSI_ReportConfig__reportFreqConfiguration__cqi_FormatIndicator_widebandCQI) {
csi_report->csi_meas_bitlen.cqi_bitlen = 4;
if(codebookConfig != NULL) {
if (NR_CodebookConfig__codebookType__type1__subType_PR_typeI_SinglePanel == codebookConfig->codebookType.choice.type1->subType.present){
struct NR_CodebookConfig__codebookType__type1__subType__typeI_SinglePanel *type1single = codebookConfig->codebookType.choice.type1->subType.choice.typeI_SinglePanel;
if (type1single->nrOfAntennaPorts.present == NR_CodebookConfig__codebookType__type1__subType__typeI_SinglePanel__nrOfAntennaPorts_PR_moreThanTwo) {
if (type1single->nrOfAntennaPorts.choice.moreThanTwo->n1_n2.present >
NR_CodebookConfig__codebookType__type1__subType__typeI_SinglePanel__nrOfAntennaPorts__moreThanTwo__n1_n2_PR_two_one_TypeI_SinglePanel_Restriction) {
// more than 4 antenna ports
if (max_ri > 4)
csi_report->csi_meas_bitlen.cqi_bitlen += 4; // CQI for second TB
}
}
}
}
}
else
AssertFatal(1==0,"Sub-band CQI reporting not yet supported");
}
//!TODO : same function can be written to handle csi_resources //!TODO : same function can be written to handle csi_resources
void compute_csi_bitlen(NR_CSI_MeasConfig_t *csi_MeasConfig, NR_UE_info_t *UE_info, int UE_id, module_id_t Mod_idP){ void compute_csi_bitlen(NR_CSI_MeasConfig_t *csi_MeasConfig, NR_UE_info_t *UE_info, int UE_id, module_id_t Mod_idP){
uint8_t csi_report_id = 0; uint8_t csi_report_id = 0;
uint8_t csi_resourceidx =0; uint8_t nb_resources = 0;
uint8_t csi_ssb_idx =0; uint8_t max_ri = 0;
NR_CSI_ReportConfig__reportQuantity_PR reportQuantity_type; NR_CSI_ReportConfig__reportQuantity_PR reportQuantity_type;
NR_CSI_ResourceConfigId_t csi_ResourceConfigId; NR_CSI_ResourceConfigId_t csi_ResourceConfigId;
struct NR_CSI_ResourceConfig *csi_resourceconfig;
// for each CSI measurement report configuration (list of CSI-ReportConfig)
for (csi_report_id=0; csi_report_id < csi_MeasConfig->csi_ReportConfigToAddModList->list.count; csi_report_id++){ for (csi_report_id=0; csi_report_id < csi_MeasConfig->csi_ReportConfigToAddModList->list.count; csi_report_id++){
struct NR_CSI_ReportConfig *csi_reportconfig = csi_MeasConfig->csi_ReportConfigToAddModList->list.array[csi_report_id]; struct NR_CSI_ReportConfig *csi_reportconfig = csi_MeasConfig->csi_ReportConfigToAddModList->list.array[csi_report_id];
nr_csi_report_t *csi_report = &UE_info->csi_report_template[UE_id][csi_report_id]; // MAC structure for CSI measurement reports (per UE and per report)
csi_ResourceConfigId=csi_reportconfig->resourcesForChannelMeasurement; nr_csi_report_t *csi_report = &UE_info->csi_report_template[UE_id][csi_report_id];
// csi-ResourceConfigId of a CSI-ResourceConfig included in the configuration
// (either CSI-RS or SSB)
csi_ResourceConfigId = csi_reportconfig->resourcesForChannelMeasurement;
// looking for CSI-ResourceConfig
int found_resource = 0;
int csi_resourceidx = 0;
while (found_resource == 0 && csi_resourceidx < csi_MeasConfig->csi_ResourceConfigToAddModList->list.count) {
csi_resourceconfig = csi_MeasConfig->csi_ResourceConfigToAddModList->list.array[csi_resourceidx];
if ( csi_resourceconfig->csi_ResourceConfigId == csi_ResourceConfigId)
found_resource = 1;
csi_resourceidx++;
}
AssertFatal(found_resource==1,"Not able to found any CSI-ResourceConfig with csi-ResourceConfigId %ld\n",
csi_ResourceConfigId);
long resourceType = csi_resourceconfig->resourceType;
reportQuantity_type = csi_reportconfig->reportQuantity.present; reportQuantity_type = csi_reportconfig->reportQuantity.present;
csi_report->reportQuantity_type = reportQuantity_type; csi_report->reportQuantity_type = reportQuantity_type;
for ( csi_resourceidx = 0; csi_resourceidx < csi_MeasConfig->csi_ResourceConfigToAddModList->list.count; csi_resourceidx++) { // setting the CSI or SSB index list
struct NR_CSI_ResourceConfig *csi_resourceconfig = csi_MeasConfig->csi_ResourceConfigToAddModList->list.array[csi_resourceidx]; if (NR_CSI_ReportConfig__reportQuantity_PR_ssb_Index_RSRP == csi_report->reportQuantity_type) {
if ( csi_resourceconfig->csi_ResourceConfigId != csi_ResourceConfigId) AssertFatal(csi_MeasConfig->csi_SSB_ResourceSetToAddModList != NULL,
continue; "Wrong settings! Report quantity is SSB-RSRP but csi_MeasConfig->csi_SSB_ResourceSetToAddModList is NULL\n");
else { for (int csi_idx = 0; csi_idx < csi_MeasConfig->csi_SSB_ResourceSetToAddModList->list.count; csi_idx++) {
uint8_t nb_ssb_resources =0; if (csi_MeasConfig->csi_SSB_ResourceSetToAddModList->list.array[csi_idx]->csi_SSB_ResourceSetId ==
//Finding the CSI_RS or SSB Resources *(csi_resourceconfig->csi_RS_ResourceSetList.choice.nzp_CSI_RS_SSB->csi_SSB_ResourceSetList->list.array[0])){
if (NR_CSI_ReportConfig__reportQuantity_PR_cri_RSRP == reportQuantity_type || //We can configure only one SSB resource set from spec 38.331 IE CSI-ResourceConfig
NR_CSI_ReportConfig__reportQuantity_PR_ssb_Index_RSRP == reportQuantity_type) { nb_resources = csi_MeasConfig->csi_SSB_ResourceSetToAddModList->list.array[csi_idx]->csi_SSB_ResourceList.list.count;
csi_report->SSB_Index_list = csi_MeasConfig->csi_SSB_ResourceSetToAddModList->list.array[csi_idx]->csi_SSB_ResourceList.list.array;
if (NR_CSI_ReportConfig__groupBasedBeamReporting_PR_disabled == csi_reportconfig->groupBasedBeamReporting.present) { csi_report->CSI_Index_list = NULL;
if (NULL != csi_reportconfig->groupBasedBeamReporting.choice.disabled->nrofReportedRS) break;
csi_report->CSI_report_bitlen.nb_ssbri_cri = *(csi_reportconfig->groupBasedBeamReporting.choice.disabled->nrofReportedRS)+1;
else
/*! From Spec 38.331
* nrofReportedRS
* The number (N) of measured RS resources to be reported per report setting in a non-group-based report. N <= N_max, where N_max is either 2 or 4 depending on UE
* capability. FFS: The signaling mechanism for the gNB to select a subset of N beams for the UE to measure and report.
* When the field is absent the UE applies the value 1
*/
csi_report->CSI_report_bitlen.nb_ssbri_cri= 1;
}else
csi_report->CSI_report_bitlen.nb_ssbri_cri= 2;
if (NR_CSI_ReportConfig__reportQuantity_PR_ssb_Index_RSRP == csi_report->reportQuantity_type) {
for ( csi_ssb_idx = 0; csi_ssb_idx < csi_MeasConfig->csi_SSB_ResourceSetToAddModList->list.count; csi_ssb_idx++) {
if (csi_MeasConfig->csi_SSB_ResourceSetToAddModList->list.array[csi_ssb_idx]->csi_SSB_ResourceSetId ==
*(csi_resourceconfig->csi_RS_ResourceSetList.choice.nzp_CSI_RS_SSB->csi_SSB_ResourceSetList->list.array[0])){
///We can configure only one SSB resource set from spec 38.331 IE CSI-ResourceConfig
nb_ssb_resources= csi_MeasConfig->csi_SSB_ResourceSetToAddModList->list.array[csi_ssb_idx]->csi_SSB_ResourceList.list.count;
csi_report->SSB_Index_list = csi_MeasConfig->csi_SSB_ResourceSetToAddModList->list.array[csi_ssb_idx]->csi_SSB_ResourceList.list.array;
csi_report->CSI_Index_list = NULL;
break;
}
}
} else /*if (NR_CSI_ReportConfig__reportQuantity_PR_cri_RSRP == UE_info->csi_report_template[UE_id][csi_report_id].reportQuantity_type)*/{
for ( csi_ssb_idx = 0; csi_ssb_idx < csi_MeasConfig->nzp_CSI_RS_ResourceSetToAddModList->list.count; csi_ssb_idx++) {
if (csi_MeasConfig->nzp_CSI_RS_ResourceSetToAddModList->list.array[csi_ssb_idx]->nzp_CSI_ResourceSetId ==
*(csi_resourceconfig->csi_RS_ResourceSetList.choice.nzp_CSI_RS_SSB->nzp_CSI_RS_ResourceSetList->list.array[0])) {
///For periodic and semi-persistent CSI Resource Settings, the number of CSI-RS Resource Sets configured is limited to S=1 for spec 38.212
nb_ssb_resources= csi_MeasConfig->nzp_CSI_RS_ResourceSetToAddModList->list.array[csi_ssb_idx]->nzp_CSI_RS_Resources.list.count;
csi_report->CSI_Index_list = csi_MeasConfig->nzp_CSI_RS_ResourceSetToAddModList->list.array[csi_ssb_idx]->nzp_CSI_RS_Resources.list.array;
csi_report->SSB_Index_list = NULL;
break;
}
}
}
if (nb_ssb_resources) {
csi_report->CSI_report_bitlen.cri_ssbri_bitlen =ceil(log2 (nb_ssb_resources));
csi_report->CSI_report_bitlen.rsrp_bitlen = 7; //From spec 38.212 Table 6.3.1.1.2-6: CRI, SSBRI, and RSRP
csi_report->CSI_report_bitlen.diff_rsrp_bitlen =4; //From spec 38.212 Table 6.3.1.1.2-6: CRI, SSBRI, and RSRP
} else {
csi_report->CSI_report_bitlen.cri_ssbri_bitlen =0;
csi_report->CSI_report_bitlen.rsrp_bitlen = 0;
csi_report->CSI_report_bitlen.diff_rsrp_bitlen =0;
}
LOG_I (MAC, "UCI: CSI_bit len : ssbri %d, rsrp: %d, diff_rsrp: %d\n",
csi_report->CSI_report_bitlen.cri_ssbri_bitlen,
csi_report->CSI_report_bitlen.rsrp_bitlen,
csi_report->CSI_report_bitlen.diff_rsrp_bitlen);
} }
}
uint8_t ri_restriction; }
uint8_t ri_bitlen; else {
uint8_t nb_allowed_ri; if (resourceType == NR_CSI_ResourceConfig__resourceType_periodic) {
uint8_t max_ri; AssertFatal(csi_MeasConfig->nzp_CSI_RS_ResourceSetToAddModList != NULL,
"Wrong settings! Report quantity requires CSI-RS but csi_MeasConfig->nzp_CSI_RS_ResourceSetToAddModList is NULL\n");
if (NR_CSI_ReportConfig__reportQuantity_PR_cri_RI_PMI_CQI == reportQuantity_type || for (int csi_idx = 0; csi_idx < csi_MeasConfig->nzp_CSI_RS_ResourceSetToAddModList->list.count; csi_idx++) {
NR_CSI_ReportConfig__reportQuantity_PR_cri_RI_LI_PMI_CQI==reportQuantity_type || if (csi_MeasConfig->nzp_CSI_RS_ResourceSetToAddModList->list.array[csi_idx]->nzp_CSI_ResourceSetId ==
NR_CSI_ReportConfig__reportQuantity_PR_cri_RI_CQI==reportQuantity_type || *(csi_resourceconfig->csi_RS_ResourceSetList.choice.nzp_CSI_RS_SSB->nzp_CSI_RS_ResourceSetList->list.array[0])) {
NR_CSI_ReportConfig__reportQuantity_PR_cri_RI_i1_CQI==reportQuantity_type|| //For periodic and semi-persistent CSI Resource Settings, the number of CSI-RS Resource Sets configured is limited to S=1 for spec 38.212
NR_CSI_ReportConfig__reportQuantity_PR_cri_RI_i1==reportQuantity_type){ nb_resources = csi_MeasConfig->nzp_CSI_RS_ResourceSetToAddModList->list.array[csi_idx]->nzp_CSI_RS_Resources.list.count;
csi_report->CSI_Index_list = csi_MeasConfig->nzp_CSI_RS_ResourceSetToAddModList->list.array[csi_idx]->nzp_CSI_RS_Resources.list.array;
for ( csi_ssb_idx = 0; csi_ssb_idx < csi_MeasConfig->csi_SSB_ResourceSetToAddModList->list.count; csi_ssb_idx++) { csi_report->SSB_Index_list = NULL;
if (csi_MeasConfig->nzp_CSI_RS_ResourceSetToAddModList->list.array[csi_ssb_idx]->nzp_CSI_ResourceSetId ==
*(csi_resourceconfig->csi_RS_ResourceSetList.choice.nzp_CSI_RS_SSB->nzp_CSI_RS_ResourceSetList->list.array[0])) {
///For periodic and semi-persistent CSI Resource Settings, the number of CSI-RS Resource Sets configured is limited to S=1 for spec 38.212
nb_ssb_resources= csi_MeasConfig->nzp_CSI_RS_ResourceSetToAddModList->list.array[csi_ssb_idx]->nzp_CSI_RS_Resources.list.count;
csi_report->CSI_Index_list = csi_MeasConfig->nzp_CSI_RS_ResourceSetToAddModList->list.array[csi_ssb_idx]->nzp_CSI_RS_Resources.list.array;
csi_report->SSB_Index_list = NULL;
}
break; break;
} }
csi_report->csi_meas_bitlen.cri_bitlen=ceil(log2 (nb_ssb_resources));
if (NR_CodebookConfig__codebookType__type1__subType_PR_typeI_SinglePanel==csi_reportconfig->codebookConfig->codebookType.choice.type1->subType.present){
switch (RC.nrmac[Mod_idP]->config[0].carrier_config.num_tx_ant.value) {
case 1:;
csi_report->csi_meas_bitlen.ri_bitlen=0;
break;
case 2:
/* From Spec 38.212
* If the higher layer parameter nrofCQIsPerReport=1, nRI in Table 6.3.1.1.2-3 is the number of allowed rank indicator
* values in the 4 LSBs of the higher layer parameter typeI-SinglePanel-ri-Restriction according to Subclause 5.2.2.2.1 [6,
* TS 38.214]; otherwise nRI in Table 6.3.1.1.2-3 is the number of allowed rank indicator values according to Subclause
* 5.2.2.2.1 [6, TS 38.214].
*
* But from Current RRC ASN structures nrofCQIsPerReport is not present. Present a dummy variable is present so using it to
* calculate RI for antennas equal or more than two.
* */
AssertFatal (NULL!=csi_reportconfig->dummy, "nrofCQIsPerReport is not present");
ri_restriction = csi_reportconfig->codebookConfig->codebookType.choice.type1->subType.choice.typeI_SinglePanel->typeI_SinglePanel_ri_Restriction.buf[0];
/* Replace dummy with the nrofCQIsPerReport from the CSIreport
config when equalent ASN structure present */
if (0==*(csi_reportconfig->dummy)){
nb_allowed_ri = number_of_bits_set((ri_restriction & 0xf0), &max_ri);
ri_bitlen = ceil(log2(nb_allowed_ri));
}
else{
nb_allowed_ri = number_of_bits_set(ri_restriction, &max_ri);
ri_bitlen = ceil(log2(nb_allowed_ri));
}
ri_bitlen = ri_bitlen<1?ri_bitlen:1; //from the spec 38.212 and table 6.3.1.1.2-3: RI, LI, CQI, and CRI of codebookType=typeI-SinglePanel
csi_report->csi_meas_bitlen.ri_bitlen=ri_bitlen;
break;
case 4:
AssertFatal (NULL!=csi_reportconfig->dummy, "nrofCQIsPerReport is not present");
ri_restriction = csi_reportconfig->codebookConfig->codebookType.choice.type1->subType.choice.typeI_SinglePanel->typeI_SinglePanel_ri_Restriction.buf[0];
/* Replace dummy with the nrofCQIsPerReport from the CSIreport
config when equalent ASN structure present */
if (0==*(csi_reportconfig->dummy)){
nb_allowed_ri = number_of_bits_set((ri_restriction & 0xf0), &max_ri);
ri_bitlen = ceil(log2(nb_allowed_ri));
}
else{
nb_allowed_ri = number_of_bits_set(ri_restriction,&max_ri);
ri_bitlen = ceil(log2(nb_allowed_ri));
}
ri_bitlen = ri_bitlen<2?ri_bitlen:2; //from the spec 38.212 and table 6.3.1.1.2-3: RI, LI, CQI, and CRI of codebookType=typeI-SinglePanel
csi_report->csi_meas_bitlen.ri_bitlen=ri_bitlen;
break;
case 6:
case 8:
AssertFatal (NULL!=csi_reportconfig->dummy, "nrofCQIsPerReport is not present");
ri_restriction = csi_reportconfig->codebookConfig->codebookType.choice.type1->subType.choice.typeI_SinglePanel->typeI_SinglePanel_ri_Restriction.buf[0];
/* Replace dummy with the nrofCQIsPerReport from the CSIreport
config when equalent ASN structure present */
if (0==*(csi_reportconfig->dummy)){
nb_allowed_ri = number_of_bits_set((ri_restriction & 0xf0),&max_ri);
ri_bitlen = ceil(log2(nb_allowed_ri));
}
else{
nb_allowed_ri = number_of_bits_set(ri_restriction, &max_ri);
ri_bitlen = ceil(log2(nb_allowed_ri));
}
csi_report->csi_meas_bitlen.ri_bitlen=ri_bitlen;
break;
default:
AssertFatal(RC.nrmac[Mod_idP]->config[0].carrier_config.num_tx_ant.value>8,"Number of antennas %d are out of range", RC.nrmac[Mod_idP]->config[0].carrier_config.num_tx_ant.value);
}
}
csi_report->csi_meas_bitlen.li_bitlen=0;
csi_report->csi_meas_bitlen.cqi_bitlen=0;
csi_report->csi_meas_bitlen.pmi_x1_bitlen=0;
csi_report->csi_meas_bitlen.pmi_x2_bitlen=0;
}
if( NR_CSI_ReportConfig__reportQuantity_PR_cri_RI_LI_PMI_CQI==reportQuantity_type ){
if (NR_CodebookConfig__codebookType__type1__subType_PR_typeI_SinglePanel==csi_reportconfig->codebookConfig->codebookType.choice.type1->subType.present){
switch (RC.nrmac[Mod_idP]->config[0].carrier_config.num_tx_ant.value) {
case 1:;
csi_report->csi_meas_bitlen.li_bitlen=0;
break;
case 2:
case 4:
case 6:
case 8:
/* From Spec 38.212
* If the higher layer parameter nrofCQIsPerReport=1, nRI in Table 6.3.1.1.2-3 is the number of allowed rank indicator
* values in the 4 LSBs of the higher layer parameter typeI-SinglePanel-ri-Restriction according to Subclause 5.2.2.2.1 [6,
* TS 38.214]; otherwise nRI in Table 6.3.1.1.2-3 is the number of allowed rank indicator values according to Subclause
* 5.2.2.2.1 [6, TS 38.214].
*
* But from Current RRC ASN structures nrofCQIsPerReport is not present. Present a dummy variable is present so using it to
* calculate RI for antennas equal or more than two.
* */
//! TODO: The bit length of LI is as follows LI = log2(RI), Need to confirm wheather we should consider maximum RI can be reported from ri_restricted
// or we should consider reported RI. If we need to consider reported RI for calculating LI bit length then we need to modify the code.
csi_report->csi_meas_bitlen.li_bitlen=ceil(log2(max_ri))<2?ceil(log2(max_ri)):2;
break;
default:
AssertFatal(RC.nrmac[Mod_idP]->config[0].carrier_config.num_tx_ant.value>8,"Number of antennas %d are out of range", RC.nrmac[Mod_idP]->config[0].carrier_config.num_tx_ant.value);
}
}
} }
}
else AssertFatal(1==0,"Only periodic resource configuration currently supported\n");
}
if (NR_CSI_ReportConfig__reportQuantity_PR_cri_RI_PMI_CQI == reportQuantity_type || // computation of bit length depending on the report type
NR_CSI_ReportConfig__reportQuantity_PR_cri_RI_LI_PMI_CQI==reportQuantity_type || switch(reportQuantity_type){
NR_CSI_ReportConfig__reportQuantity_PR_cri_RI_CQI==reportQuantity_type || case (NR_CSI_ReportConfig__reportQuantity_PR_ssb_Index_RSRP):
NR_CSI_ReportConfig__reportQuantity_PR_cri_RI_i1_CQI==reportQuantity_type){ compute_rsrp_bitlen(csi_reportconfig, nb_resources, csi_report);
switch (RC.nrmac[Mod_idP]->config[0].carrier_config.num_tx_ant.value){
case 1:
case 2:
case 4:
case 6:
case 8:
/* From Spec 38.212
* If the higher layer parameter nrofCQIsPerReport=1, nRI in Table 6.3.1.1.2-3 is the number of allowed rank indicator
* values in the 4 LSBs of the higher layer parameter typeI-SinglePanel-ri-Restriction according to Subclause 5.2.2.2.1 [6,
* TS 38.214]; otherwise nRI in Table 6.3.1.1.2-3 is the number of allowed rank indicator values according to Subclause
* 5.2.2.2.1 [6, TS 38.214].
*
* But from Current RRC ASN structures nrofCQIsPerReport is not present. Present a dummy variable is present so using it to
* calculate RI for antennas equal or more than two.
* */
if (max_ri > 4 && max_ri < 8){
if (NR_CodebookConfig__codebookType__type1__subType_PR_typeI_SinglePanel==csi_reportconfig->codebookConfig->codebookType.choice.type1->subType.present){
if (NR_CSI_ReportConfig__reportFreqConfiguration__cqi_FormatIndicator_widebandCQI==csi_reportconfig->reportFreqConfiguration->cqi_FormatIndicator)
csi_report->csi_meas_bitlen.cqi_bitlen = 8;
else
csi_report->csi_meas_bitlen.cqi_bitlen = 4;
}
}else{ //This condition will work even for type1-multipanel.
if (NR_CSI_ReportConfig__reportFreqConfiguration__cqi_FormatIndicator_widebandCQI==csi_reportconfig->reportFreqConfiguration->cqi_FormatIndicator)
csi_report->csi_meas_bitlen.cqi_bitlen = 4;
else
csi_report->csi_meas_bitlen.cqi_bitlen = 2;
}
break;
default:
AssertFatal(RC.nrmac[Mod_idP]->config[0].carrier_config.num_tx_ant.value>8,"Number of antennas %d are out of range", RC.nrmac[Mod_idP]->config[0].carrier_config.num_tx_ant.value);
}
}
if (NR_CSI_ReportConfig__reportQuantity_PR_cri_RI_PMI_CQI == reportQuantity_type ||
NR_CSI_ReportConfig__reportQuantity_PR_cri_RI_LI_PMI_CQI==reportQuantity_type){
if (NR_CodebookConfig__codebookType__type1__subType_PR_typeI_SinglePanel==csi_reportconfig->codebookConfig->codebookType.choice.type1->subType.present){
switch (csi_reportconfig->codebookConfig->codebookType.choice.type1->subType.choice.typeI_SinglePanel->nrOfAntennaPorts.present){
case NR_CodebookConfig__codebookType__type1__subType__typeI_SinglePanel__nrOfAntennaPorts_PR_two:
if (max_ri ==1)
csi_report->csi_meas_bitlen.pmi_x1_bitlen = 2;
else if (max_ri ==2)
csi_report->csi_meas_bitlen.pmi_x1_bitlen = 1;
break;
default:
AssertFatal(csi_reportconfig->codebookConfig->codebookType.choice.type1->subType.choice.typeI_SinglePanel->nrOfAntennaPorts.present!=
NR_CodebookConfig__codebookType__type1__subType__typeI_SinglePanel__nrOfAntennaPorts_PR_two,
"Not handled Yet %d", csi_reportconfig->codebookConfig->codebookType.choice.type1->subType.choice.typeI_SinglePanel->nrOfAntennaPorts.present);
break;
}
}
}
break; break;
} case (NR_CSI_ReportConfig__reportQuantity_PR_cri_RSRP):
compute_rsrp_bitlen(csi_reportconfig, nb_resources, csi_report);
break;
case (NR_CSI_ReportConfig__reportQuantity_PR_cri_RI_CQI):
csi_report->csi_meas_bitlen.cri_bitlen=ceil(log2(nb_resources));
max_ri = compute_ri_bitlen(csi_reportconfig, csi_report);
compute_cqi_bitlen(csi_reportconfig, max_ri, csi_report);
break;
default:
AssertFatal(1==0,"Not yet supported CSI report quantity type");
} }
} }
} }
...@@ -471,10 +457,9 @@ uint16_t nr_get_csi_bitlen(int Mod_idP, ...@@ -471,10 +457,9 @@ uint16_t nr_get_csi_bitlen(int Mod_idP,
void nr_csi_meas_reporting(int Mod_idP, void nr_csi_meas_reporting(int Mod_idP,
frame_t frame, frame_t frame,
sub_frame_t slot) sub_frame_t slot) {
{
NR_ServingCellConfigCommon_t *scc = NR_ServingCellConfigCommon_t *scc = RC.nrmac[Mod_idP]->common_channels->ServingCellConfigCommon;
RC.nrmac[Mod_idP]->common_channels->ServingCellConfigCommon;
const int n_slots_frame = nr_slots_per_frame[*scc->ssbSubcarrierSpacing]; const int n_slots_frame = nr_slots_per_frame[*scc->ssbSubcarrierSpacing];
NR_UE_info_t *UE_info = &RC.nrmac[Mod_idP]->UE_info; NR_UE_info_t *UE_info = &RC.nrmac[Mod_idP]->UE_info;
...@@ -490,18 +475,18 @@ void nr_csi_meas_reporting(int Mod_idP, ...@@ -490,18 +475,18 @@ void nr_csi_meas_reporting(int Mod_idP,
NR_PUCCH_Config_t *pucch_Config = sched_ctrl->active_ubwp->bwp_Dedicated->pucch_Config->choice.setup; NR_PUCCH_Config_t *pucch_Config = sched_ctrl->active_ubwp->bwp_Dedicated->pucch_Config->choice.setup;
for (int csi_report_id = 0; csi_report_id < csi_measconfig->csi_ReportConfigToAddModList->list.count; csi_report_id++){ for (int csi_report_id = 0; csi_report_id < csi_measconfig->csi_ReportConfigToAddModList->list.count; csi_report_id++){
const NR_CSI_ReportConfig_t *csirep = csi_measconfig->csi_ReportConfigToAddModList->list.array[csi_report_id]; NR_CSI_ReportConfig_t *csirep = csi_measconfig->csi_ReportConfigToAddModList->list.array[csi_report_id];
AssertFatal(csirep->reportConfigType.choice.periodic, AssertFatal(csirep->reportConfigType.choice.periodic,
"Only periodic CSI reporting is implemented currently\n"); "Only periodic CSI reporting is implemented currently\n");
int period, offset; int period, offset;
csi_period_offset(csirep, &period, &offset); csi_period_offset(csirep, NULL, &period, &offset);
const int sched_slot = (period + offset) % n_slots_frame; const int sched_slot = (period + offset) % n_slots_frame;
// prepare to schedule csi measurement reception according to 5.2.1.4 in 38.214 // prepare to schedule csi measurement reception according to 5.2.1.4 in 38.214
// preparation is done in first slot of tdd period // preparation is done in first slot of tdd period
if (frame % (period / n_slots_frame) != offset / n_slots_frame) if (frame % (period / n_slots_frame) != offset / n_slots_frame)
continue; continue;
LOG_D(MAC, "CSI in frame %d slot %d\n", frame, sched_slot); LOG_I(MAC, "CSI reporting in frame %d slot %d\n", frame, sched_slot);
const NR_PUCCH_CSI_Resource_t *pucchcsires = csirep->reportConfigType.choice.periodic->pucch_CSI_ResourceList.list.array[0]; const NR_PUCCH_CSI_Resource_t *pucchcsires = csirep->reportConfigType.choice.periodic->pucch_CSI_ResourceList.list.array[0];
const NR_PUCCH_ResourceSet_t *pucchresset = pucch_Config->resourceSetToAddModList->list.array[1]; // set with formats >1 const NR_PUCCH_ResourceSet_t *pucchresset = pucch_Config->resourceSetToAddModList->list.array[1]; // set with formats >1
...@@ -863,99 +848,168 @@ void tci_handling(module_id_t Mod_idP, int UE_id, frame_t frame, slot_t slot) { ...@@ -863,99 +848,168 @@ void tci_handling(module_id_t Mod_idP, int UE_id, frame_t frame, slot_t slot) {
}//is-triggering_beam_switch }//is-triggering_beam_switch
}//tci handling }//tci handling
void reverse_n_bits(uint8_t *value, uint16_t bitlen) { uint8_t pickandreverse_bits(uint8_t *payload, uint16_t bitlen, uint8_t start_bit) {
uint16_t j; uint8_t rev_bits = 0;
uint8_t i; for (int i=0; i<bitlen; i++)
for(j = bitlen - 1,i = 0; j > i; j--, i++) { rev_bits |= ((payload[(start_bit+i)/8]>>((start_bit+i)%8))&0x01)<<(bitlen-i-1);
if(((*value>>j)&1) != ((*value>>i)&1)) { return rev_bits;
*value ^= (1<<j);
*value ^= (1<<i);
}
}
} }
void extract_pucch_csi_report (NR_CSI_MeasConfig_t *csi_MeasConfig,
const nfapi_nr_uci_pucch_pdu_format_2_3_4_t *uci_pdu,
frame_t frame,
slot_t slot,
int UE_id,
module_id_t Mod_idP) {
/** From Table 6.3.1.1.2-3: RI, LI, CQI, and CRI of codebookType=typeI-SinglePanel */ void evaluate_rsrp_report(NR_UE_info_t *UE_info,
uint8_t idx = 0; NR_UE_sched_ctrl_t *sched_ctrl,
uint8_t payload_size = ceil(((double)uci_pdu->csi_part1.csi_part1_bit_len)/8); int UE_id,
uint8_t *payload = uci_pdu->csi_part1.csi_part1_payload; uint8_t csi_report_id,
NR_CSI_ReportConfig__reportQuantity_PR reportQuantity_type = NR_CSI_ReportConfig__reportQuantity_PR_NOTHING; uint8_t *payload,
NR_UE_info_t *UE_info = &(RC.nrmac[Mod_idP]->UE_info); int *cumul_bits,
NR_UE_sched_ctrl_t *sched_ctrl = &UE_info->UE_sched_ctrl[UE_id]; NR_CSI_ReportConfig__reportQuantity_PR reportQuantity_type){
uint8_t csi_report_id = 0;
UE_info->csi_report_template[UE_id][csi_report_id].nb_of_csi_ssb_report = 0; uint8_t cri_ssbri_bitlen = UE_info->csi_report_template[UE_id][csi_report_id].CSI_report_bitlen.cri_ssbri_bitlen;
for ( csi_report_id =0; csi_report_id < csi_MeasConfig->csi_ReportConfigToAddModList->list.count; csi_report_id++ ) { uint16_t curr_payload;
//Has to implement according to reportSlotConfig type
/*reportQuantity must be considered according to the current scheduled /*! As per the spec 38.212 and table: 6.3.1.1.2-12 in a single UCI sequence we can have multiple CSI_report
CSI-ReportConfig if multiple CSI-ReportConfigs present*/ * the number of CSI_report will depend on number of CSI resource sets that are configured in CSI-ResourceConfig RRC IE
reportQuantity_type = UE_info->csi_report_template[UE_id][csi_report_id].reportQuantity_type; * From spec 38.331 from the IE CSI-ResourceConfig for SSB RSRP reporting we can configure only one resource set
LOG_D(PHY,"SFN/SF:%d%d reportQuantity type = %d\n",frame,slot,reportQuantity_type); * From spec 38.214 section 5.2.1.2 For periodic and semi-persistent CSI Resource Settings, the number of CSI-RS Resource Sets configured is limited to S=1
*/
if (NR_CSI_ReportConfig__reportQuantity_PR_ssb_Index_RSRP == reportQuantity_type ||
NR_CSI_ReportConfig__reportQuantity_PR_cri_RSRP == reportQuantity_type) {
uint8_t csi_ssb_idx = 0;
uint8_t diff_rsrp_idx = 0;
uint8_t cri_ssbri_bitlen = UE_info->csi_report_template[UE_id][csi_report_id].CSI_report_bitlen.cri_ssbri_bitlen;
/*! As per the spec 38.212 and table: 6.3.1.1.2-12 in a single UCI sequence we can have multiple CSI_report
* the number of CSI_report will depend on number of CSI resource sets that are configured in CSI-ResourceConfig RRC IE
* From spec 38.331 from the IE CSI-ResourceConfig for SSB RSRP reporting we can configure only one resource set
* From spec 38.214 section 5.2.1.2 For periodic and semi-persistent CSI Resource Settings, the number of CSI-RS Resource Sets configured is limited to S=1
*/
/** from 38.214 sec 5.2.1.4.2 /** from 38.214 sec 5.2.1.4.2
- if the UE is configured with the higher layer parameter groupBasedBeamReporting set to 'disabled', the UE is - if the UE is configured with the higher layer parameter groupBasedBeamReporting set to 'disabled', the UE is
not required to update measurements for more than 64 CSI-RS and/or SSB resources, and the UE shall report in not required to update measurements for more than 64 CSI-RS and/or SSB resources, and the UE shall report in
a single report nrofReportedRS (higher layer configured) different CRI or SSBRI for each report setting a single report nrofReportedRS (higher layer configured) different CRI or SSBRI for each report setting
- if the UE is configured with the higher layer parameter groupBasedBeamReporting set to 'enabled', the UE is not - if the UE is configured with the higher layer parameter groupBasedBeamReporting set to 'enabled', the UE is not
required to update measurements for more than 64 CSI-RS and/or SSB resources, and the UE shall report in a required to update measurements for more than 64 CSI-RS and/or SSB resources, and the UE shall report in a
single reporting instance two different CRI or SSBRI for each report setting, where CSI-RS and/or SSB single reporting instance two different CRI or SSBRI for each report setting, where CSI-RS and/or SSB
resources can be received simultaneously by the UE either with a single spatial domain receive filter, or with resources can be received simultaneously by the UE either with a single spatial domain receive filter, or with
multiple simultaneous spatial domain receive filter multiple simultaneous spatial domain receive filter
*/ */
idx = 0; //Since for SSB RSRP reporting in RRC can configure only one ssb resource set per one report config int idx = 0; //Since for SSB RSRP reporting in RRC can configure only one ssb resource set per one report config
sched_ctrl->CSI_report[idx].choice.ssb_cri_report.nr_ssbri_cri = UE_info->csi_report_template[UE_id][csi_report_id].CSI_report_bitlen.nb_ssbri_cri; sched_ctrl->CSI_report[idx].choice.ssb_cri_report.nr_ssbri_cri = UE_info->csi_report_template[UE_id][csi_report_id].CSI_report_bitlen.nb_ssbri_cri;
for (csi_ssb_idx = 0; csi_ssb_idx < sched_ctrl->CSI_report[idx].choice.ssb_cri_report.nr_ssbri_cri ; csi_ssb_idx++) { for (int csi_ssb_idx = 0; csi_ssb_idx < sched_ctrl->CSI_report[idx].choice.ssb_cri_report.nr_ssbri_cri ; csi_ssb_idx++) {
if(cri_ssbri_bitlen > 1) curr_payload = pickandreverse_bits(payload, cri_ssbri_bitlen, *cumul_bits);
reverse_n_bits(payload, cri_ssbri_bitlen);
if (NR_CSI_ReportConfig__reportQuantity_PR_ssb_Index_RSRP == reportQuantity_type) if (NR_CSI_ReportConfig__reportQuantity_PR_ssb_Index_RSRP == reportQuantity_type)
sched_ctrl->CSI_report[idx].choice.ssb_cri_report.CRI_SSBRI [csi_ssb_idx] = sched_ctrl->CSI_report[idx].choice.ssb_cri_report.CRI_SSBRI [csi_ssb_idx] =
*(UE_info->csi_report_template[UE_id][csi_report_id].SSB_Index_list[cri_ssbri_bitlen>0?((*payload)&~(~1<<(cri_ssbri_bitlen-1))):cri_ssbri_bitlen]); *(UE_info->csi_report_template[UE_id][csi_report_id].SSB_Index_list[cri_ssbri_bitlen>0?((curr_payload)&~(~1<<(cri_ssbri_bitlen-1))):cri_ssbri_bitlen]);
else else
sched_ctrl->CSI_report[idx].choice.ssb_cri_report.CRI_SSBRI [csi_ssb_idx] = sched_ctrl->CSI_report[idx].choice.ssb_cri_report.CRI_SSBRI [csi_ssb_idx] =
*(UE_info->csi_report_template[UE_id][csi_report_id].CSI_Index_list[cri_ssbri_bitlen>0?((*payload)&~(~1<<(cri_ssbri_bitlen-1))):cri_ssbri_bitlen]); *(UE_info->csi_report_template[UE_id][csi_report_id].CSI_Index_list[cri_ssbri_bitlen>0?((curr_payload)&~(~1<<(cri_ssbri_bitlen-1))):cri_ssbri_bitlen]);
*payload >>= cri_ssbri_bitlen; *cumul_bits += cri_ssbri_bitlen;
LOG_D(PHY,"SSB_index = %d\n",sched_ctrl->CSI_report[idx].choice.ssb_cri_report.CRI_SSBRI [csi_ssb_idx]); LOG_D(MAC,"SSB_index = %d\n",sched_ctrl->CSI_report[idx].choice.ssb_cri_report.CRI_SSBRI [csi_ssb_idx]);
} }
curr_payload = pickandreverse_bits(payload, 7, *cumul_bits);
sched_ctrl->CSI_report[idx].choice.ssb_cri_report.RSRP = curr_payload & 0x7f;
*cumul_bits += 7;
for (int diff_rsrp_idx =0; diff_rsrp_idx < sched_ctrl->CSI_report[idx].choice.ssb_cri_report.nr_ssbri_cri - 1; diff_rsrp_idx++ ) {
curr_payload = pickandreverse_bits(payload, 4, *cumul_bits);
sched_ctrl->CSI_report[idx].choice.ssb_cri_report.diff_RSRP[diff_rsrp_idx] = curr_payload & 0x0f;
*cumul_bits += 4;
}
UE_info->csi_report_template[UE_id][csi_report_id].nb_of_csi_ssb_report++;
LOG_D(MAC,"rsrp_id = %d rsrp = %d\n",
sched_ctrl->CSI_report[idx].choice.ssb_cri_report.RSRP,
get_measured_rsrp(sched_ctrl->CSI_report[idx].choice.ssb_cri_report.RSRP));
}
reverse_n_bits(payload, 7);
sched_ctrl->CSI_report[idx].choice.ssb_cri_report.RSRP = (*payload) & 0x7f;
*payload >>= 7;
for ( diff_rsrp_idx =0; diff_rsrp_idx < sched_ctrl->CSI_report[idx].choice.ssb_cri_report.nr_ssbri_cri - 1; diff_rsrp_idx++ ) { void evaluate_cri_report(uint8_t *payload,
reverse_n_bits(payload,4); uint8_t cri_bitlen,
sched_ctrl->CSI_report[idx].choice.ssb_cri_report.diff_RSRP[diff_rsrp_idx] = (*payload) & 0x0f; int cumul_bits,
*payload >>= 4; NR_UE_sched_ctrl_t *sched_ctrl){
int idx = 0; // FIXME not sure about this index. Should it be the same as csi_report_id?
uint8_t temp_cri = pickandreverse_bits(payload, cri_bitlen, cumul_bits);
sched_ctrl->CSI_report[idx].choice.cri_ri_li_pmi_cqi_report.cri = temp_cri;
}
void evaluate_ri_report(uint8_t *payload,
uint8_t ri_bitlen,
NR_UE_sched_ctrl_t *sched_ctrl){
AssertFatal(1==0,"Evaluation of RI report not yet implemented\n");
}
void evaluate_cqi_report(uint8_t *payload,
uint8_t cqi_bitlen,
int *cumul_bits,
NR_UE_sched_ctrl_t *sched_ctrl){
//TODO sub-band CQI report not yet implemented
int idx = 0; // FIXME not sure about this index. Should it be the same as csi_report_id?
uint8_t temp_cqi = pickandreverse_bits(payload, 4, *cumul_bits);
sched_ctrl->CSI_report[idx].choice.cri_ri_li_pmi_cqi_report.wb_cqi_1tb = temp_cqi;
*cumul_bits += 4;
LOG_I(MAC,"Wide-band CQI for the first TB %d\n", temp_cqi);
if (cqi_bitlen > 4) {
temp_cqi = pickandreverse_bits(payload, 4, *cumul_bits);
sched_ctrl->CSI_report[idx].choice.cri_ri_li_pmi_cqi_report.wb_cqi_2tb = temp_cqi;
LOG_D(MAC,"Wide-band CQI for the second TB %d\n", temp_cqi);
}
}
void extract_pucch_csi_report(NR_CSI_MeasConfig_t *csi_MeasConfig,
const nfapi_nr_uci_pucch_pdu_format_2_3_4_t *uci_pdu,
frame_t frame,
slot_t slot,
int UE_id,
module_id_t Mod_idP) {
/** From Table 6.3.1.1.2-3: RI, LI, CQI, and CRI of codebookType=typeI-SinglePanel */
NR_ServingCellConfigCommon_t *scc =
RC.nrmac[Mod_idP]->common_channels->ServingCellConfigCommon;
const int n_slots_frame = nr_slots_per_frame[*scc->ssbSubcarrierSpacing];
uint8_t *payload = uci_pdu->csi_part1.csi_part1_payload;
NR_CSI_ReportConfig__reportQuantity_PR reportQuantity_type = NR_CSI_ReportConfig__reportQuantity_PR_NOTHING;
NR_UE_info_t *UE_info = &(RC.nrmac[Mod_idP]->UE_info);
NR_UE_sched_ctrl_t *sched_ctrl = &UE_info->UE_sched_ctrl[UE_id];
int cumul_bits = 0;
for (int csi_report_id = 0; csi_report_id < csi_MeasConfig->csi_ReportConfigToAddModList->list.count; csi_report_id++ ) {
UE_info->csi_report_template[UE_id][csi_report_id].nb_of_csi_ssb_report = 0;
uint8_t cri_bitlen = 0;
uint8_t ri_bitlen = 0;
uint8_t cqi_bitlen = 0;
NR_CSI_ReportConfig_t *csirep = csi_MeasConfig->csi_ReportConfigToAddModList->list.array[csi_report_id];
int period, offset;
csi_period_offset(csirep, NULL, &period, &offset);
// verify if report with current id has been scheduled for this frame and slot
if ((n_slots_frame*frame + slot - offset)%period == 0) {
reportQuantity_type = UE_info->csi_report_template[UE_id][csi_report_id].reportQuantity_type;
LOG_I(MAC,"SFN/SF:%d/%d reportQuantity type = %d\n",frame,slot,reportQuantity_type);
switch(reportQuantity_type){
case NR_CSI_ReportConfig__reportQuantity_PR_cri_RSRP:
evaluate_rsrp_report(UE_info,sched_ctrl,UE_id,csi_report_id,payload,&cumul_bits,reportQuantity_type);
break;
case NR_CSI_ReportConfig__reportQuantity_PR_ssb_Index_RSRP:
evaluate_rsrp_report(UE_info,sched_ctrl,UE_id,csi_report_id,payload,&cumul_bits,reportQuantity_type);
break;
case NR_CSI_ReportConfig__reportQuantity_PR_cri_RI_CQI:
cri_bitlen = UE_info->csi_report_template[UE_id][csi_report_id].csi_meas_bitlen.cri_bitlen;
if(cri_bitlen)
evaluate_cri_report(payload,cri_bitlen,cumul_bits,sched_ctrl);
cumul_bits += cri_bitlen;
ri_bitlen = UE_info->csi_report_template[UE_id][csi_report_id].csi_meas_bitlen.ri_bitlen;
if(ri_bitlen)
evaluate_ri_report(payload,ri_bitlen,sched_ctrl);
cumul_bits += ri_bitlen;
//TODO add zero padding bits when needed
cqi_bitlen = UE_info->csi_report_template[UE_id][csi_report_id].csi_meas_bitlen.cqi_bitlen;
if(cqi_bitlen)
evaluate_cqi_report(payload,cqi_bitlen,&cumul_bits,sched_ctrl);
break;
default:
AssertFatal(1==0, "Invalid or not supported CSI measurement report\n");
} }
UE_info->csi_report_template[UE_id][csi_report_id].nb_of_csi_ssb_report++;
LOG_D(MAC,"csi_payload size = %d, rsrp_id = %d\n",payload_size, sched_ctrl->CSI_report[idx].choice.ssb_cri_report.RSRP);
} }
} }
if ( !(reportQuantity_type))
AssertFatal(reportQuantity_type, "reportQuantity is not configured");
} }
static NR_UE_harq_t *find_harq(module_id_t mod_id, frame_t frame, sub_frame_t slot, int UE_id) static NR_UE_harq_t *find_harq(module_id_t mod_id, frame_t frame, sub_frame_t slot, int UE_id)
...@@ -1308,10 +1362,75 @@ int nr_acknack_scheduling(int mod_id, ...@@ -1308,10 +1362,75 @@ int nr_acknack_scheduling(int mod_id,
return 0; return 0;
} }
void csi_period_offset(NR_CSI_ReportConfig_t *csirep,
void csi_period_offset(const NR_CSI_ReportConfig_t *csirep, NR_NZP_CSI_RS_Resource_t *nzpcsi,
int *period, int *offset) { int *period, int *offset) {
if(nzpcsi != NULL) {
NR_CSI_ResourcePeriodicityAndOffset_PR p_and_o = nzpcsi->periodicityAndOffset->present;
switch(p_and_o){
case NR_CSI_ResourcePeriodicityAndOffset_PR_slots4:
*period = 4;
*offset = nzpcsi->periodicityAndOffset->choice.slots4;
break;
case NR_CSI_ResourcePeriodicityAndOffset_PR_slots5:
*period = 5;
*offset = nzpcsi->periodicityAndOffset->choice.slots5;
break;
case NR_CSI_ResourcePeriodicityAndOffset_PR_slots8:
*period = 8;
*offset = nzpcsi->periodicityAndOffset->choice.slots8;
break;
case NR_CSI_ResourcePeriodicityAndOffset_PR_slots10:
*period = 10;
*offset = nzpcsi->periodicityAndOffset->choice.slots10;
break;
case NR_CSI_ResourcePeriodicityAndOffset_PR_slots16:
*period = 16;
*offset = nzpcsi->periodicityAndOffset->choice.slots16;
break;
case NR_CSI_ResourcePeriodicityAndOffset_PR_slots20:
*period = 20;
*offset = nzpcsi->periodicityAndOffset->choice.slots20;
break;
case NR_CSI_ResourcePeriodicityAndOffset_PR_slots32:
*period = 32;
*offset = nzpcsi->periodicityAndOffset->choice.slots32;
break;
case NR_CSI_ResourcePeriodicityAndOffset_PR_slots40:
*period = 40;
*offset = nzpcsi->periodicityAndOffset->choice.slots40;
break;
case NR_CSI_ResourcePeriodicityAndOffset_PR_slots64:
*period = 64;
*offset = nzpcsi->periodicityAndOffset->choice.slots64;
break;
case NR_CSI_ResourcePeriodicityAndOffset_PR_slots80:
*period = 80;
*offset = nzpcsi->periodicityAndOffset->choice.slots80;
break;
case NR_CSI_ResourcePeriodicityAndOffset_PR_slots160:
*period = 160;
*offset = nzpcsi->periodicityAndOffset->choice.slots160;
break;
case NR_CSI_ResourcePeriodicityAndOffset_PR_slots320:
*period = 320;
*offset = nzpcsi->periodicityAndOffset->choice.slots320;
break;
case NR_CSI_ResourcePeriodicityAndOffset_PR_slots640:
*period = 640;
*offset = nzpcsi->periodicityAndOffset->choice.slots640;
break;
default:
AssertFatal(1==0,"No periodicity and offset found in CSI resource");
}
}
if(csirep != NULL) {
NR_CSI_ReportPeriodicityAndOffset_PR p_and_o = csirep->reportConfigType.choice.periodic->reportSlotConfig.present; NR_CSI_ReportPeriodicityAndOffset_PR p_and_o = csirep->reportConfigType.choice.periodic->reportSlotConfig.present;
switch(p_and_o){ switch(p_and_o){
...@@ -1358,6 +1477,7 @@ void csi_period_offset(const NR_CSI_ReportConfig_t *csirep, ...@@ -1358,6 +1477,7 @@ void csi_period_offset(const NR_CSI_ReportConfig_t *csirep,
default: default:
AssertFatal(1==0,"No periodicity and offset resource found in CSI report"); AssertFatal(1==0,"No periodicity and offset resource found in CSI report");
} }
}
} }
uint16_t compute_pucch_prb_size(uint8_t format, uint16_t compute_pucch_prb_size(uint8_t format,
......
...@@ -178,7 +178,13 @@ void nr_schedule_pucch(int Mod_idP, ...@@ -178,7 +178,13 @@ void nr_schedule_pucch(int Mod_idP,
frame_t frameP, frame_t frameP,
sub_frame_t slotP); sub_frame_t slotP);
void csi_period_offset(const NR_CSI_ReportConfig_t *csirep, void nr_csirs_scheduling(int Mod_idP,
frame_t frame,
sub_frame_t slot,
int n_slots_frame);
void csi_period_offset(NR_CSI_ReportConfig_t *csirep,
NR_NZP_CSI_RS_Resource_t *nzpcsi,
int *period, int *offset); int *period, int *offset);
void nr_csi_meas_reporting(int Mod_idP, void nr_csi_meas_reporting(int Mod_idP,
......
...@@ -439,7 +439,8 @@ struct CRI_RI_LI_PMI_CQI { ...@@ -439,7 +439,8 @@ struct CRI_RI_LI_PMI_CQI {
uint8_t li; uint8_t li;
uint8_t pmi_x1; uint8_t pmi_x1;
uint8_t pmi_x2; uint8_t pmi_x2;
uint8_t cqi; uint8_t wb_cqi_1tb;
uint8_t wb_cqi_2tb;
}; };
typedef struct CRI_SSB_RSRP { typedef struct CRI_SSB_RSRP {
......
...@@ -1108,9 +1108,49 @@ void fill_default_secondaryCellGroup(NR_ServingCellConfigCommon_t *servingcellco ...@@ -1108,9 +1108,49 @@ void fill_default_secondaryCellGroup(NR_ServingCellConfigCommon_t *servingcellco
csi_MeasConfig->csi_IM_ResourceToReleaseList = NULL; csi_MeasConfig->csi_IM_ResourceToReleaseList = NULL;
csi_MeasConfig->csi_IM_ResourceSetToAddModList = NULL; csi_MeasConfig->csi_IM_ResourceSetToAddModList = NULL;
csi_MeasConfig->csi_IM_ResourceSetToReleaseList = NULL; csi_MeasConfig->csi_IM_ResourceSetToReleaseList = NULL;
csi_MeasConfig->nzp_CSI_RS_ResourceSetToAddModList = NULL;
csi_MeasConfig->nzp_CSI_RS_ResourceSetToAddModList = calloc(1,sizeof(*csi_MeasConfig->nzp_CSI_RS_ResourceSetToAddModList));
NR_NZP_CSI_RS_ResourceSet_t *nzpcsirs0 = calloc(1,sizeof(*nzpcsirs0));
nzpcsirs0->nzp_CSI_ResourceSetId = 0;
NR_NZP_CSI_RS_ResourceId_t *nzpid0 = calloc(1,sizeof(*nzpid0));
*nzpid0 = 0;
ASN_SEQUENCE_ADD(&nzpcsirs0->nzp_CSI_RS_Resources,nzpid0);
nzpcsirs0->repetition = NULL;
nzpcsirs0->aperiodicTriggeringOffset = NULL;
nzpcsirs0->trs_Info = NULL;
ASN_SEQUENCE_ADD(&csi_MeasConfig->nzp_CSI_RS_ResourceSetToAddModList->list,nzpcsirs0);
csi_MeasConfig->nzp_CSI_RS_ResourceSetToReleaseList = NULL; csi_MeasConfig->nzp_CSI_RS_ResourceSetToReleaseList = NULL;
csi_MeasConfig->nzp_CSI_RS_ResourceToAddModList = NULL;
csi_MeasConfig->nzp_CSI_RS_ResourceToAddModList = calloc(1,sizeof(*csi_MeasConfig->nzp_CSI_RS_ResourceToAddModList));
NR_NZP_CSI_RS_Resource_t *nzpcsi0 = calloc(1,sizeof(*nzpcsi0));
nzpcsi0->nzp_CSI_RS_ResourceId = 0;
NR_CSI_RS_ResourceMapping_t resourceMapping;
resourceMapping.frequencyDomainAllocation.present = NR_CSI_RS_ResourceMapping__frequencyDomainAllocation_PR_row2;
resourceMapping.frequencyDomainAllocation.choice.row2.buf = calloc(2, sizeof(uint8_t));
resourceMapping.frequencyDomainAllocation.choice.row2.size = 2;
resourceMapping.frequencyDomainAllocation.choice.row2.bits_unused = 4;
resourceMapping.frequencyDomainAllocation.choice.row2.buf[0]=0;
resourceMapping.frequencyDomainAllocation.choice.row2.buf[1]=16;
resourceMapping.nrofPorts = NR_CSI_RS_ResourceMapping__nrofPorts_p1;
resourceMapping.firstOFDMSymbolInTimeDomain = 6;
resourceMapping.firstOFDMSymbolInTimeDomain2 = NULL;
resourceMapping.cdm_Type = NR_CSI_RS_ResourceMapping__cdm_Type_noCDM;
resourceMapping.density.present = NR_CSI_RS_ResourceMapping__density_PR_one;
resourceMapping.density.choice.one = (NULL_t)0;
resourceMapping.freqBand.startingRB = 0;
resourceMapping.freqBand.nrofRBs = 104;
nzpcsi0->resourceMapping = resourceMapping;
nzpcsi0->powerControlOffset = 0;
nzpcsi0->powerControlOffsetSS=calloc(1,sizeof(*nzpcsi0->powerControlOffsetSS));
*nzpcsi0->powerControlOffsetSS = NR_NZP_CSI_RS_Resource__powerControlOffsetSS_db0;
nzpcsi0->scramblingID = *servingcellconfigcommon->physCellId;
nzpcsi0->periodicityAndOffset = calloc(1,sizeof(*nzpcsi0->periodicityAndOffset));
nzpcsi0->periodicityAndOffset->present = NR_CSI_ResourcePeriodicityAndOffset_PR_slots320;
nzpcsi0->periodicityAndOffset->choice.slots320 = 0;
nzpcsi0->qcl_InfoPeriodicCSI_RS = NULL;
ASN_SEQUENCE_ADD(&csi_MeasConfig->nzp_CSI_RS_ResourceToAddModList->list,nzpcsi0);
csi_MeasConfig->csi_SSB_ResourceSetToAddModList = calloc(1,sizeof(*csi_MeasConfig->csi_SSB_ResourceSetToAddModList)); csi_MeasConfig->csi_SSB_ResourceSetToAddModList = calloc(1,sizeof(*csi_MeasConfig->csi_SSB_ResourceSetToAddModList));
csi_MeasConfig->csi_SSB_ResourceSetToReleaseList = NULL; csi_MeasConfig->csi_SSB_ResourceSetToReleaseList = NULL;
...@@ -1134,15 +1174,26 @@ void fill_default_secondaryCellGroup(NR_ServingCellConfigCommon_t *servingcellco ...@@ -1134,15 +1174,26 @@ void fill_default_secondaryCellGroup(NR_ServingCellConfigCommon_t *servingcellco
csires0->csi_ResourceConfigId=0; csires0->csi_ResourceConfigId=0;
csires0->csi_RS_ResourceSetList.present = NR_CSI_ResourceConfig__csi_RS_ResourceSetList_PR_nzp_CSI_RS_SSB; csires0->csi_RS_ResourceSetList.present = NR_CSI_ResourceConfig__csi_RS_ResourceSetList_PR_nzp_CSI_RS_SSB;
csires0->csi_RS_ResourceSetList.choice.nzp_CSI_RS_SSB = calloc(1,sizeof(*csires0->csi_RS_ResourceSetList.choice.nzp_CSI_RS_SSB)); csires0->csi_RS_ResourceSetList.choice.nzp_CSI_RS_SSB = calloc(1,sizeof(*csires0->csi_RS_ResourceSetList.choice.nzp_CSI_RS_SSB));
csires0->csi_RS_ResourceSetList.choice.nzp_CSI_RS_SSB->nzp_CSI_RS_ResourceSetList = NULL; csires0->csi_RS_ResourceSetList.choice.nzp_CSI_RS_SSB->nzp_CSI_RS_ResourceSetList = calloc(1,sizeof(*csires0->csi_RS_ResourceSetList.choice.nzp_CSI_RS_SSB->nzp_CSI_RS_ResourceSetList));
csires0->csi_RS_ResourceSetList.choice.nzp_CSI_RS_SSB->csi_SSB_ResourceSetList = calloc(1,sizeof(*csires0->csi_RS_ResourceSetList.choice.nzp_CSI_RS_SSB->csi_SSB_ResourceSetList)); NR_NZP_CSI_RS_ResourceSetId_t *nzp0 = calloc(1,sizeof(*nzp0));
NR_CSI_SSB_ResourceSetId_t *ssbres00 = calloc(1,sizeof(*ssbres00)); *nzp0 = 0;
*ssbres00 = 0; ASN_SEQUENCE_ADD(&csires0->csi_RS_ResourceSetList.choice.nzp_CSI_RS_SSB->nzp_CSI_RS_ResourceSetList->list,nzp0);
ASN_SEQUENCE_ADD(&csires0->csi_RS_ResourceSetList.choice.nzp_CSI_RS_SSB->csi_SSB_ResourceSetList->list,ssbres00);
csires0->bwp_Id = 1; csires0->bwp_Id = 1;
csires0->resourceType = NR_CSI_ResourceConfig__resourceType_periodic; csires0->resourceType = NR_CSI_ResourceConfig__resourceType_periodic;
ASN_SEQUENCE_ADD(&csi_MeasConfig->csi_ResourceConfigToAddModList->list,csires0); ASN_SEQUENCE_ADD(&csi_MeasConfig->csi_ResourceConfigToAddModList->list,csires0);
NR_CSI_ResourceConfig_t *csires1 = calloc(1,sizeof(*csires1));
csires1->csi_ResourceConfigId=1;
csires1->csi_RS_ResourceSetList.present = NR_CSI_ResourceConfig__csi_RS_ResourceSetList_PR_nzp_CSI_RS_SSB;
csires1->csi_RS_ResourceSetList.choice.nzp_CSI_RS_SSB = calloc(1,sizeof(*csires1->csi_RS_ResourceSetList.choice.nzp_CSI_RS_SSB));
csires1->csi_RS_ResourceSetList.choice.nzp_CSI_RS_SSB->csi_SSB_ResourceSetList = calloc(1,sizeof(*csires1->csi_RS_ResourceSetList.choice.nzp_CSI_RS_SSB->csi_SSB_ResourceSetList));
NR_CSI_SSB_ResourceSetId_t *ssbres00 = calloc(1,sizeof(*ssbres00));
*ssbres00 = 0;
ASN_SEQUENCE_ADD(&csires1->csi_RS_ResourceSetList.choice.nzp_CSI_RS_SSB->csi_SSB_ResourceSetList->list,ssbres00);
csires1->bwp_Id = 1;
csires1->resourceType = NR_CSI_ResourceConfig__resourceType_periodic;
ASN_SEQUENCE_ADD(&csi_MeasConfig->csi_ResourceConfigToAddModList->list,csires1);
csi_MeasConfig->csi_ReportConfigToAddModList = calloc(1,sizeof(*csi_MeasConfig->csi_ReportConfigToAddModList)); csi_MeasConfig->csi_ReportConfigToAddModList = calloc(1,sizeof(*csi_MeasConfig->csi_ReportConfigToAddModList));
csi_MeasConfig->csi_ReportConfigToReleaseList = NULL; csi_MeasConfig->csi_ReportConfigToReleaseList = NULL;
NR_CSI_ReportConfig_t *csirep1 = calloc(1,sizeof(*csirep1)); NR_CSI_ReportConfig_t *csirep1 = calloc(1,sizeof(*csirep1));
...@@ -1154,56 +1205,67 @@ void fill_default_secondaryCellGroup(NR_ServingCellConfigCommon_t *servingcellco ...@@ -1154,56 +1205,67 @@ void fill_default_secondaryCellGroup(NR_ServingCellConfigCommon_t *servingcellco
csirep1->reportConfigType.present = NR_CSI_ReportConfig__reportConfigType_PR_periodic; csirep1->reportConfigType.present = NR_CSI_ReportConfig__reportConfigType_PR_periodic;
csirep1->reportConfigType.choice.periodic = calloc(1,sizeof(*csirep1->reportConfigType.choice.periodic)); csirep1->reportConfigType.choice.periodic = calloc(1,sizeof(*csirep1->reportConfigType.choice.periodic));
csirep1->reportConfigType.choice.periodic->reportSlotConfig.present=NR_CSI_ReportPeriodicityAndOffset_PR_slots320; csirep1->reportConfigType.choice.periodic->reportSlotConfig.present=NR_CSI_ReportPeriodicityAndOffset_PR_slots320;
csirep1->reportConfigType.choice.periodic->reportSlotConfig.choice.slots320 = 9 + (10 * uid) % 320; csirep1->reportConfigType.choice.periodic->reportSlotConfig.choice.slots320 = 9 + (20 * uid) % 320;
NR_PUCCH_CSI_Resource_t *pucchcsires1 = calloc(1,sizeof(*pucchcsires1)); NR_PUCCH_CSI_Resource_t *pucchcsires1 = calloc(1,sizeof(*pucchcsires1));
pucchcsires1->uplinkBandwidthPartId=1; pucchcsires1->uplinkBandwidthPartId=1;
pucchcsires1->pucch_Resource=2; pucchcsires1->pucch_Resource=2;
ASN_SEQUENCE_ADD(&csirep1->reportConfigType.choice.periodic->pucch_CSI_ResourceList.list,pucchcsires1); ASN_SEQUENCE_ADD(&csirep1->reportConfigType.choice.periodic->pucch_CSI_ResourceList.list,pucchcsires1);
csirep1->reportQuantity.present = NR_CSI_ReportConfig__reportQuantity_PR_ssb_Index_RSRP; csirep1->reportQuantity.present = NR_CSI_ReportConfig__reportQuantity_PR_cri_RSRP;
csirep1->reportQuantity.choice.ssb_Index_RSRP=(NULL_t)0; csirep1->reportQuantity.choice.cri_RSRP=(NULL_t)0;
csirep1->reportFreqConfiguration = calloc(1,sizeof(*csirep1->reportFreqConfiguration)); csirep1->reportFreqConfiguration = calloc(1,sizeof(*csirep1->reportFreqConfiguration));
csirep1->reportFreqConfiguration->cqi_FormatIndicator=NR_CSI_ReportConfig__reportFreqConfiguration__cqi_FormatIndicator_widebandCQI; csirep1->reportFreqConfiguration->cqi_FormatIndicator = NULL;
csirep1->reportFreqConfiguration->pmi_FormatIndicator=NR_CSI_ReportConfig__reportFreqConfiguration__pmi_FormatIndicator_widebandPMI; csirep1->reportFreqConfiguration->pmi_FormatIndicator=NULL;
csirep1->reportFreqConfiguration->csi_ReportingBand=NULL; csirep1->reportFreqConfiguration->csi_ReportingBand=NULL;
csirep1->timeRestrictionForChannelMeasurements= NR_CSI_ReportConfig__timeRestrictionForChannelMeasurements_configured; csirep1->timeRestrictionForChannelMeasurements= NR_CSI_ReportConfig__timeRestrictionForChannelMeasurements_configured;
csirep1->timeRestrictionForInterferenceMeasurements=NR_CSI_ReportConfig__timeRestrictionForInterferenceMeasurements_configured; csirep1->timeRestrictionForInterferenceMeasurements=NR_CSI_ReportConfig__timeRestrictionForInterferenceMeasurements_configured;
csirep1->codebookConfig=calloc(1,sizeof(*csirep1->codebookConfig)); csirep1->codebookConfig=NULL;
csirep1->codebookConfig->codebookType.present = NR_CodebookConfig__codebookType_PR_type1;
csirep1->codebookConfig->codebookType.choice.type1 = calloc(1,sizeof(*csirep1->codebookConfig->codebookType.choice.type1));
csirep1->codebookConfig->codebookType.choice.type1->subType.present=NR_CodebookConfig__codebookType__type1__subType_PR_typeI_SinglePanel;
csirep1->codebookConfig->codebookType.choice.type1->subType.choice.typeI_SinglePanel=calloc(1,sizeof(*csirep1->codebookConfig->codebookType.choice.type1->subType.choice.typeI_SinglePanel));
csirep1->codebookConfig->codebookType.choice.type1->subType.choice.typeI_SinglePanel->nrOfAntennaPorts.present=NR_CodebookConfig__codebookType__type1__subType__typeI_SinglePanel__nrOfAntennaPorts_PR_two;
csirep1->codebookConfig->codebookType.choice.type1->subType.choice.typeI_SinglePanel->nrOfAntennaPorts.choice.two=
calloc(1,sizeof(*csirep1->codebookConfig->codebookType.choice.type1->subType.choice.typeI_SinglePanel->nrOfAntennaPorts.choice.two));
csirep1->codebookConfig->codebookType.choice.type1->subType.choice.typeI_SinglePanel->nrOfAntennaPorts.choice.two->twoTX_CodebookSubsetRestriction.size=1;
csirep1->codebookConfig->codebookType.choice.type1->subType.choice.typeI_SinglePanel->nrOfAntennaPorts.choice.two->twoTX_CodebookSubsetRestriction.bits_unused=2;
csirep1->codebookConfig->codebookType.choice.type1->subType.choice.typeI_SinglePanel->nrOfAntennaPorts.choice.two->twoTX_CodebookSubsetRestriction.buf=malloc(1);
csirep1->codebookConfig->codebookType.choice.type1->subType.choice.typeI_SinglePanel->nrOfAntennaPorts.choice.two->twoTX_CodebookSubsetRestriction.buf[0]=0xfc;
//'111111'B
csirep1->codebookConfig->codebookType.choice.type1->subType.choice.typeI_SinglePanel->typeI_SinglePanel_ri_Restriction.size=1;
csirep1->codebookConfig->codebookType.choice.type1->subType.choice.typeI_SinglePanel->typeI_SinglePanel_ri_Restriction.bits_unused=0;
csirep1->codebookConfig->codebookType.choice.type1->subType.choice.typeI_SinglePanel->typeI_SinglePanel_ri_Restriction.buf=malloc(1);
csirep1->codebookConfig->codebookType.choice.type1->subType.choice.typeI_SinglePanel->typeI_SinglePanel_ri_Restriction.buf[0]=0xc0; //'00000011'B
csirep1->codebookConfig->codebookType.choice.type1->codebookMode=1;
csirep1->dummy = NULL; csirep1->dummy = NULL;
csirep1->groupBasedBeamReporting.present = NR_CSI_ReportConfig__groupBasedBeamReporting_PR_disabled; csirep1->groupBasedBeamReporting.present = NR_CSI_ReportConfig__groupBasedBeamReporting_PR_disabled;
csirep1->groupBasedBeamReporting.choice.disabled=calloc(1,sizeof(*csirep1->groupBasedBeamReporting.choice.disabled)); csirep1->groupBasedBeamReporting.choice.disabled=calloc(1,sizeof(*csirep1->groupBasedBeamReporting.choice.disabled));
csirep1->groupBasedBeamReporting.choice.disabled->nrofReportedRS = calloc(1,sizeof(*csirep1->groupBasedBeamReporting.choice.disabled->nrofReportedRS)); csirep1->groupBasedBeamReporting.choice.disabled->nrofReportedRS = calloc(1,sizeof(*csirep1->groupBasedBeamReporting.choice.disabled->nrofReportedRS));
*csirep1->groupBasedBeamReporting.choice.disabled->nrofReportedRS=NR_CSI_ReportConfig__groupBasedBeamReporting__disabled__nrofReportedRS_n1; *csirep1->groupBasedBeamReporting.choice.disabled->nrofReportedRS=NR_CSI_ReportConfig__groupBasedBeamReporting__disabled__nrofReportedRS_n1;
// this corresponds to: csirep1->cqi_Table = NULL;
//if the UE is configured with the higher layer parameter groupBasedBeamReporting set to 'disabled', the UE is not required to update measurements for more than 64 CSI-RS and/or SSB resources, and the UE shall report in a single report nrofReportedRS (higher layer configured) different CRI or SSBRI for each report setting.
csirep1->cqi_Table = calloc(1,sizeof(*csirep1->cqi_Table));
*csirep1->cqi_Table = NR_CSI_ReportConfig__cqi_Table_table1;
csirep1->subbandSize = NR_CSI_ReportConfig__subbandSize_value1; csirep1->subbandSize = NR_CSI_ReportConfig__subbandSize_value1;
csirep1->non_PMI_PortIndication = NULL; csirep1->non_PMI_PortIndication = NULL;
csirep1->ext1 = NULL; csirep1->ext1 = NULL;
ASN_SEQUENCE_ADD(&csi_MeasConfig->csi_ReportConfigToAddModList->list,csirep1); ASN_SEQUENCE_ADD(&csi_MeasConfig->csi_ReportConfigToAddModList->list,csirep1);
NR_CSI_ReportConfig_t *csirep2 = calloc(1,sizeof(*csirep2));
csirep2->reportConfigId=1;
csirep2->carrier=NULL;
csirep2->resourcesForChannelMeasurement=1;
csirep2->csi_IM_ResourcesForInterference=NULL;
csirep2->nzp_CSI_RS_ResourcesForInterference=NULL;
csirep2->reportConfigType.present = NR_CSI_ReportConfig__reportConfigType_PR_periodic;
csirep2->reportConfigType.choice.periodic = calloc(1,sizeof(*csirep2->reportConfigType.choice.periodic));
csirep2->reportConfigType.choice.periodic->reportSlotConfig.present=NR_CSI_ReportPeriodicityAndOffset_PR_slots320;
csirep2->reportConfigType.choice.periodic->reportSlotConfig.choice.slots320 = 29 + (20 * uid) % 320;
ASN_SEQUENCE_ADD(&csirep2->reportConfigType.choice.periodic->pucch_CSI_ResourceList.list,pucchcsires1);
csirep2->reportQuantity.present = NR_CSI_ReportConfig__reportQuantity_PR_ssb_Index_RSRP;
csirep2->reportQuantity.choice.ssb_Index_RSRP=(NULL_t)0;
csirep2->reportFreqConfiguration = calloc(1,sizeof(*csirep2->reportFreqConfiguration));
csirep2->reportFreqConfiguration->cqi_FormatIndicator=NR_CSI_ReportConfig__reportFreqConfiguration__cqi_FormatIndicator_widebandCQI;
csirep2->reportFreqConfiguration->pmi_FormatIndicator=NR_CSI_ReportConfig__reportFreqConfiguration__pmi_FormatIndicator_widebandPMI;
csirep2->reportFreqConfiguration->csi_ReportingBand=NULL;
csirep2->timeRestrictionForChannelMeasurements= NR_CSI_ReportConfig__timeRestrictionForChannelMeasurements_configured;
csirep2->timeRestrictionForInterferenceMeasurements=NR_CSI_ReportConfig__timeRestrictionForInterferenceMeasurements_configured;
csirep2->codebookConfig= NULL;
csirep2->dummy = NULL;
csirep2->groupBasedBeamReporting.present = NR_CSI_ReportConfig__groupBasedBeamReporting_PR_disabled;
csirep2->groupBasedBeamReporting.choice.disabled=calloc(1,sizeof(*csirep2->groupBasedBeamReporting.choice.disabled));
csirep2->groupBasedBeamReporting.choice.disabled->nrofReportedRS = calloc(1,sizeof(*csirep2->groupBasedBeamReporting.choice.disabled->nrofReportedRS));
*csirep2->groupBasedBeamReporting.choice.disabled->nrofReportedRS=NR_CSI_ReportConfig__groupBasedBeamReporting__disabled__nrofReportedRS_n1;
csirep2->cqi_Table = calloc(1,sizeof(*csirep2->cqi_Table));
*csirep2->cqi_Table = NR_CSI_ReportConfig__cqi_Table_table1;
csirep2->subbandSize = NR_CSI_ReportConfig__subbandSize_value1;
csirep2->non_PMI_PortIndication = NULL;
csirep2->ext1 = NULL;
ASN_SEQUENCE_ADD(&csi_MeasConfig->csi_ReportConfigToAddModList->list,csirep2);
secondaryCellGroup->spCellConfig->spCellConfigDedicated->sCellDeactivationTimer=NULL; secondaryCellGroup->spCellConfig->spCellConfigDedicated->sCellDeactivationTimer=NULL;
secondaryCellGroup->spCellConfig->spCellConfigDedicated->crossCarrierSchedulingConfig=NULL; secondaryCellGroup->spCellConfig->spCellConfigDedicated->crossCarrierSchedulingConfig=NULL;
secondaryCellGroup->spCellConfig->spCellConfigDedicated->tag_Id=0; secondaryCellGroup->spCellConfig->spCellConfigDedicated->tag_Id=0;
......
...@@ -13,7 +13,8 @@ ...@@ -13,7 +13,8 @@
# define NUMBER_OF_NR_ULSCH_MAX 8 # define NUMBER_OF_NR_ULSCH_MAX 8
# define NUMBER_OF_NR_DLSCH_MAX 8 # define NUMBER_OF_NR_DLSCH_MAX 8
# define NUMBER_OF_NR_UCI_MAX 16 # define NUMBER_OF_NR_UCI_MAX 16
# define nUMBER_OF_NR_SRS_MAX 16 # define NUMBER_OF_NR_SRS_MAX 16
# define NUMBER_OF_NR_CSIRS_MAX 16
# define NUMBER_OF_SCH_STATS_MAX 16 # define NUMBER_OF_SCH_STATS_MAX 16
# define NUMBER_OF_NR_SCH_STATS_MAX 16 # define NUMBER_OF_NR_SCH_STATS_MAX 16
......
...@@ -263,7 +263,7 @@ RUs = ( ...@@ -263,7 +263,7 @@ RUs = (
max_pdschReferenceSignalPower = -27; max_pdschReferenceSignalPower = -27;
max_rxgain = 118; max_rxgain = 118;
eNB_instances = [0]; eNB_instances = [0];
clock_src = "external"; clock_src = "internal";
} }
); );
......
...@@ -249,7 +249,7 @@ RUs = ( ...@@ -249,7 +249,7 @@ RUs = (
max_pdschReferenceSignalPower = -27; max_pdschReferenceSignalPower = -27;
max_rxgain = 114; max_rxgain = 114;
eNB_instances = [0]; eNB_instances = [0];
#clock_src = "external"; clock_src = "internal";
} }
); );
......
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