Commit fe191c7d authored by Thomas Schlichter's avatar Thomas Schlichter

gNB: fix corruption of RBs not used by PDSCH in nr_generate_pdsch()

A memcpy() introduced to optimize for the case of no precoding corrupted RBs which are not allocated to PDSCH in the common txdataF array.
So instead fall back to memcpy() for each PDSCH RB.
parent c5546228
xw2 Fix_SA_SIB1 NRUE_usedlschparallel NR_FR2_initsync_fixes NR_MAC_SSB NR_MCS_BLER NR_SA_F1AP_5GRECORDS NR_SA_F1AP_5GRECORDS_lts NR_SA_F1AP_RFSIMULATOR3_tmp NR_UE_CONFIG_REQ_FIXES NR_UE_SA NR_scheduling_CSIRS NR_scheduling_request RFquality benetel_config_file_fix bugfix-free-ra-process bugfix-nr-t-reordering ci_phytest ci_quectel_support develop develop-CBRA-v3 develop-NR_SA_F1AP_5GRECORDS develop-NR_SA_F1AP_5GRECORDS-v3 develop-SA-CBRA develop-SA-CBRA-Msg5 disable_CSI_measrep docker-improvements-2021-april docker-no-cache-option episys-merge episys/nsa_development fix-realtime fix-x2-without-gnb fix_coreset_dmrs_idx fix_rb_corruption fixgtpu git-dashboard gnb-freerun-txru gnb-realtime-hotfix gnb-realtime-quickfix hack-exit-gnb-when-no-enb-nsa integ-w13-test-rt-issue integration_2020_wk15 integration_2021_wk13_a integration_2021_wk13_b integration_2021_wk13_b_fix_tdas integration_2021_wk13_b_fixed integration_2021_wk13_c integration_2021_wk14_a integration_2021_wk15_a integration_2021_wk16 integration_2021_wk17_a integration_w5GC_CBRA_test migrate-cpp-check-container multiple_ssb_sib1_bugfix new-gtpu nr-dl-mimo-2layer nr-dmrs-fixes nr-pdcp-nia2-integrity nr-pdcp-srb-integrity nr-stats-print nr_ue_pdcp_fix oairu physim-build-deploy prb_based_dl_channel_estimation rh_ci_add_runtime_stats rh_ci_add_uldlharq_stats rh_ci_gsheet_rt_monitoring rh_ci_nsa_test_n310 rh_ci_phy_test_improve sanitize-v1 sanitize-v1-tmp sim-channels small_nr_bugfixes test-panos test_nsa_gtpu_fix test_rt-fix_phy-test ue-dci-false-detection ue-pdsch-pusch-parallel 2021.wk14_a 2021.wk13_d 2021.wk13_c 2021.w16 2021.w15 2021.w14 2021.w13_a
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......@@ -418,92 +418,79 @@ uint8_t nr_generate_pdsch(PHY_VARS_gNB *gNB,
// The Precoding matrix:
// The Codebook Type I and Type II are not supported yet.
// We adopt the precoding matrices of PUSCH for 4 layers.
if ((frame_parms->nb_antennas_tx == 1 && rel15->nrOfLayers == 1) || rel15->precodingAndBeamforming.prgSize == 0) {//No precoding if precoding info is not available
for (int ap=0; ap<frame_parms->nb_antennas_tx; ap++) {//frame_parms->nb_antennas_tx rel15->nrOfLayers
if(ap<rel15->nrOfLayers)
memcpy((void*)&txdataF[ap][rel15->StartSymbolIndex*frame_parms->ofdm_symbol_size + txdataF_offset],
(void*)&txdataF_precoding[ap][2*(rel15->StartSymbolIndex*frame_parms->ofdm_symbol_size + txdataF_offset)],
rel15->NrOfSymbols*frame_parms->ofdm_symbol_size*sizeof(int32_t));
else
memset((void*)&txdataF[ap][rel15->StartSymbolIndex*frame_parms->ofdm_symbol_size + txdataF_offset],
0,
rel15->NrOfSymbols*frame_parms->ofdm_symbol_size*sizeof(int32_t));
}
} else {//apply precoding
uint8_t pmi;
for (int ap=0; ap<frame_parms->nb_antennas_tx; ap++) {
for (int ap=0; ap<frame_parms->nb_antennas_tx; ap++) {
for (int l=rel15->StartSymbolIndex; l<rel15->StartSymbolIndex+rel15->NrOfSymbols; l++) {
uint16_t k = start_sc;
for (int l=rel15->StartSymbolIndex; l<rel15->StartSymbolIndex+rel15->NrOfSymbols; l++) {
uint16_t k = start_sc;
for (int rb=0; rb<rel15->rbSize; rb++) {
//get pmi info
if (rel15->precodingAndBeamforming.prgSize > 0)
pmi = rel15->precodingAndBeamforming.PMIdx[(int)rb/rel15->precodingAndBeamforming.prgSize];
else
pmi = 0;//no precoding
for (int rb=0; rb<rel15->rbSize; rb++) {
//get pmi info
uint8_t pmi;
if (rel15->precodingAndBeamforming.prgSize > 0)
pmi = rel15->precodingAndBeamforming.PMIdx[(int)rb/rel15->precodingAndBeamforming.prgSize];
else
pmi = 0;//no precoding
if (pmi == 0) {//unitary Precoding
if(ap<rel15->nrOfLayers)
memcpy((void*)&txdataF[ap][l*frame_parms->ofdm_symbol_size + txdataF_offset + k],
(void*)&txdataF_precoding[ap][2*(l*frame_parms->ofdm_symbol_size + txdataF_offset+ k)],
NR_NB_SC_PER_RB*sizeof(int32_t));
else
memset((void*)&txdataF[ap][rel15->StartSymbolIndex*frame_parms->ofdm_symbol_size + txdataF_offset +k],
0,
NR_NB_SC_PER_RB*sizeof(int32_t));
k += NR_NB_SC_PER_RB;
if (k >= frame_parms->ofdm_symbol_size) {
k -= frame_parms->ofdm_symbol_size;
}
}
else {
//get the precoding matrix weights:
char *W_prec;
switch (frame_parms->nb_antennas_tx) {
case 1://1 antenna port
W_prec = nr_W_1l_2p[pmi][ap];
break;
case 2://2 antenna ports
if (rel15->nrOfLayers == 1)//1 layer
W_prec = nr_W_1l_2p[pmi][ap];
else//2 layers
W_prec = nr_W_2l_2p[pmi][ap];
break;
case 4://4 antenna ports
if (rel15->nrOfLayers == 1)//1 layer
W_prec = nr_W_1l_4p[pmi][ap];
else if (rel15->nrOfLayers == 2)//2 layers
W_prec = nr_W_2l_4p[pmi][ap];
else if (rel15->nrOfLayers == 3)//3 layers
W_prec = nr_W_3l_4p[pmi][ap];
else//4 layers
W_prec = nr_W_4l_4p[pmi][ap];
break;
default:
LOG_D(PHY,"Precoding 1,2, or 4 antenna ports are currently supported\n");
W_prec = nr_W_1l_2p[pmi][ap];
break;
}
if (pmi == 0) {//unitary Precoding
if(ap<rel15->nrOfLayers)
memcpy((void*)&txdataF[ap][l*frame_parms->ofdm_symbol_size + txdataF_offset + k],
(void*)&txdataF_precoding[ap][2*(l*frame_parms->ofdm_symbol_size + txdataF_offset+ k)],
NR_NB_SC_PER_RB*sizeof(int32_t));
else
memset((void*)&txdataF[ap][rel15->StartSymbolIndex*frame_parms->ofdm_symbol_size + txdataF_offset +k],
0,
NR_NB_SC_PER_RB*sizeof(int32_t));
k += NR_NB_SC_PER_RB;
if (k >= frame_parms->ofdm_symbol_size) {
k -= frame_parms->ofdm_symbol_size;
}
case 2://2 antenna ports
if (rel15->nrOfLayers == 1)//1 layer
W_prec = nr_W_1l_2p[pmi][ap];
else//2 layers
W_prec = nr_W_2l_2p[pmi][ap];
break;
case 4://4 antenna ports
if (rel15->nrOfLayers == 1)//1 layer
W_prec = nr_W_1l_4p[pmi][ap];
else if (rel15->nrOfLayers == 2)//2 layers
W_prec = nr_W_2l_4p[pmi][ap];
else if (rel15->nrOfLayers == 3)//3 layers
W_prec = nr_W_3l_4p[pmi][ap];
else//4 layers
W_prec = nr_W_4l_4p[pmi][ap];
break;
default:
LOG_D(PHY,"Precoding 1,2, or 4 antenna ports are currently supported\n");
W_prec = nr_W_1l_2p[pmi][ap];
break;
}
else {
for (int i=0; i<NR_NB_SC_PER_RB; i++) {
int32_t re_offset = l*frame_parms->ofdm_symbol_size + k;
int32_t precodatatx_F = nr_layer_precoder(txdataF_precoding, W_prec, rel15->nrOfLayers, re_offset+txdataF_offset);
((int16_t*)txdataF[ap])[(re_offset<<1) + (2*txdataF_offset)] = ((int16_t *) &precodatatx_F)[0];
((int16_t*)txdataF[ap])[(re_offset<<1) + 1 + (2*txdataF_offset)] = ((int16_t *) &precodatatx_F)[1];
for (int i=0; i<NR_NB_SC_PER_RB; i++) {
int32_t re_offset = l*frame_parms->ofdm_symbol_size + k;
int32_t precodatatx_F = nr_layer_precoder(txdataF_precoding, W_prec, rel15->nrOfLayers, re_offset+txdataF_offset);
((int16_t*)txdataF[ap])[(re_offset<<1) + (2*txdataF_offset)] = ((int16_t *) &precodatatx_F)[0];
((int16_t*)txdataF[ap])[(re_offset<<1) + 1 + (2*txdataF_offset)] = ((int16_t *) &precodatatx_F)[1];
#ifdef DEBUG_DLSCH_MAPPING
printf("antenna %d\t l %d \t k %d \t txdataF: %d %d\n",
ap, l, k, ((int16_t*)txdataF[ap])[(re_offset<<1) + (2*txdataF_offset)],
((int16_t*)txdataF[ap])[(re_offset<<1) + 1 + (2*txdataF_offset)]);
printf("antenna %d\t l %d \t k %d \t txdataF: %d %d\n",
ap, l, k, ((int16_t*)txdataF[ap])[(re_offset<<1) + (2*txdataF_offset)],
((int16_t*)txdataF[ap])[(re_offset<<1) + 1 + (2*txdataF_offset)]);
#endif
if (++k >= frame_parms->ofdm_symbol_size) {
k -= frame_parms->ofdm_symbol_size;
}
if (++k >= frame_parms->ofdm_symbol_size) {
k -= frame_parms->ofdm_symbol_size;
}
}
} //RB loop
} // symbol loop
}// port loop
}
}
} //RB loop
} // symbol loop
}// port loop
dlsch->slot_tx[slot]=0;
}// dlsch loop
......
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