Commit 64350763 authored by Raymond Knopp's avatar Raymond Knopp

DCI extraction validated for format 1-0 (273 PRBs)

parent 303a463a
......@@ -31,7 +31,7 @@
*/
#include "nr_dci.h"
//#define DEBUG_FILL_DCI
void nr_fill_cce_list(NR_gNB_DCI_ALLOC_t* dci_alloc, uint16_t n_shift, uint8_t m) {
......@@ -112,11 +112,11 @@ void nr_fill_dci_and_dlsch(PHY_VARS_gNB *gNB,
NR_gNB_DCI_ALLOC_t *dci_alloc,
nfapi_nr_dl_config_request_pdu_t *pdu)
{
NR_DL_FRAME_PARMS *fp = &gNB->frame_parms;
uint8_t n_shift;
uint32_t *dci_pdu = dci_alloc->dci_pdu;
memset((void*)dci_pdu,0,4*sizeof(uint32_t));
uint64_t *dci_pdu = (uint64_t*)dci_alloc->dci_pdu;
memset((void*)dci_pdu,0,2*sizeof(uint64_t));
nfapi_nr_dl_config_dci_dl_pdu_rel15_t *pdu_rel15 = &pdu->dci_dl_pdu.dci_dl_pdu_rel15;
nfapi_nr_dl_config_pdcch_parameters_rel15_t *params_rel15 = &pdu->dci_dl_pdu.pdcch_params_rel15;
......@@ -133,259 +133,276 @@ void nr_fill_dci_and_dlsch(PHY_VARS_gNB *gNB,
dci_alloc->pdcch_params.rnti_type,
N_RB,
cfg);
printf("DCI size for n_RB_BWP %d => %d\n",N_RB,dci_alloc->size);
AssertFatal(dci_alloc->size<=64, "DCI sizes above 64 bits not yet supported");
n_shift = (dci_alloc->pdcch_params.config_type == NFAPI_NR_CSET_CONFIG_MIB_SIB1)?
cfg->sch_config.physical_cell_id.value : dci_alloc->pdcch_params.shift_index;
cfg->sch_config.physical_cell_id.value : dci_alloc->pdcch_params.shift_index;
nr_fill_cce_list(dci_alloc, n_shift, cand_idx);
/// Payload generation
switch(params_rel15->dci_format) {
case NFAPI_NR_DL_DCI_FORMAT_1_0:
switch(params_rel15->rnti_type) {
case NFAPI_NR_RNTI_RA:
// Freq domain assignment
fsize = (int)ceil( log2( (N_RB*(N_RB+1))>>1 ) );
for (int i=0; i<fsize; i++)
*dci_pdu |= ((pdu_rel15->frequency_domain_assignment>>(fsize-i-1))&1)<<(dci_alloc->size-pos++);
// Time domain assignment
for (int i=0; i<4; i++)
*dci_pdu |= ((pdu_rel15->time_domain_assignment>>(3-i))&1)<<(dci_alloc->size-pos++);
// VRB to PRB mapping
*dci_pdu |= (pdu_rel15->vrb_to_prb_mapping&1)<<(dci_alloc->size-pos++);
// MCS
for (int i=0; i<5; i++)
*dci_pdu |= ((pdu_rel15->mcs>>(4-i))&1)<<(dci_alloc->size-pos++);
// TB scaling
for (int i=0; i<2; i++)
*dci_pdu |= ((pdu_rel15->tb_scaling>>(1-i))&1)<<(dci_alloc->size-pos++);
break;
case NFAPI_NR_RNTI_C:
// indicating a DL DCI format 1bit
*dci_pdu |= (pdu_rel15->format_indicator&1)<<(dci_alloc->size-pos++);
// Freq domain assignment (275rb >> fsize = 16)
fsize = (int)ceil( log2( (N_RB*(N_RB+1))>>1 ) );
for (int i=0; i<fsize; i++)
*dci_pdu |= ((pdu_rel15->frequency_domain_assignment>>(fsize-i-1))&1)<<(dci_alloc->size-pos++);
if ((pdu_rel15->frequency_domain_assignment+1)&1 ==0) //fsize are all 1 38.212 p86
{
// ra_preamble_index 6 bits
for (int i=0; i<6; i++)
*dci_pdu |= ((pdu_rel15->ra_preamble_index>>(5-i))&1)<<(dci_alloc->size-pos++);
// UL/SUL indicator 1 bit
*dci_pdu |= (pdu_rel15->ul_sul_indicator&1)<<(dci_alloc->size-pos++);
case NFAPI_NR_DL_DCI_FORMAT_1_0:
switch(params_rel15->rnti_type) {
case NFAPI_NR_RNTI_RA:
// printf("dci_pdu %llx\n",(unsigned long long int)*dci_pdu);
// Freq domain assignment
fsize = (int)ceil( log2( (N_RB*(N_RB+1))>>1 ) );
pos=fsize;
*dci_pdu |= ((pdu_rel15->frequency_domain_assignment&((1<<fsize)-1)) << (dci_alloc->size-pos));
#ifdef DEBUG_FILL_DCI
printf("frequency-domain assignment %d (%d bits)=> %d (%llx)\n",pdu_rel15->frequency_domain_assignment,fsize,dci_alloc->size-pos,(unsigned long long int)*dci_pdu);
#endif
// Time domain assignment
pos+=4;
*dci_pdu |= ((pdu_rel15->time_domain_assignment&0xf) << (dci_alloc->size-pos));
#ifdef DEBUG_FILL_DCI
printf("time-domain assignment %d (3 bits)=> %d (%llx)\n",pdu_rel15->time_domain_assignment,dci_alloc->size-pos,(unsigned long long int)*dci_pdu);
#endif
// VRB to PRB mapping
pos++;
*dci_pdu |= (pdu_rel15->vrb_to_prb_mapping&0x1)<<(dci_alloc->size-pos);
#ifdef DEBUG_FILL_DCI
printf("vrb to prb mapping %d (1 bits)=> %d (%llx)\n",pdu_rel15->vrb_to_prb_mapping,dci_alloc->size-pos,(unsigned long long int)*dci_pdu);
#endif
// MCS
pos+=5;
*dci_pdu |= (pdu_rel15->mcs&0x1f)<<(dci_alloc->size-pos);
#ifdef DEBUG_FILL_DCI
printf("mcs %d (5 bits)=> %d (%llx)\n",pdu_rel15->mcs,dci_alloc->size-pos,(unsigned long long int)*dci_pdu);
#endif
// TB scaling
pos+=2;
*dci_pdu |= (pdu_rel15->tb_scaling&0x3)<<(dci_alloc->size-pos);
#ifdef DEBUG_FILL_DCI
printf("tb_scaling %d (2 bits)=> %d (%llx)\n",pdu_rel15->tb_scaling,dci_alloc->size-pos,(unsigned long long int)*dci_pdu);
#endif
break;
case NFAPI_NR_RNTI_C:
// indicating a DL DCI format 1bit
*dci_pdu |= (pdu_rel15->format_indicator&1)<<(dci_alloc->size-pos++);
// Freq domain assignment (275rb >> fsize = 16)
fsize = (int)ceil( log2( (N_RB*(N_RB+1))>>1 ) );
for (int i=0; i<fsize; i++)
*dci_pdu |= ((pdu_rel15->frequency_domain_assignment>>(fsize-i-1))&1)<<(dci_alloc->size-pos++);
if (((pdu_rel15->frequency_domain_assignment+1)&1) ==0) //fsize are all 1 38.212 p86
{
// ra_preamble_index 6 bits
for (int i=0; i<6; i++)
*dci_pdu |= ((pdu_rel15->ra_preamble_index>>(5-i))&1)<<(dci_alloc->size-pos++);
// UL/SUL indicator 1 bit
*dci_pdu |= (pdu_rel15->ul_sul_indicator&1)<<(dci_alloc->size-pos++);
// SS/PBCH index 6 bits
for (int i=0; i<6; i++)
*dci_pdu |= ((pdu_rel15->ss_pbch_index>>(5-i))&1)<<(dci_alloc->size-pos++);
// SS/PBCH index 6 bits
for (int i=0; i<6; i++)
*dci_pdu |= ((pdu_rel15->ss_pbch_index>>(5-i))&1)<<(dci_alloc->size-pos++);
// prach_mask_index 4 bits
for (int i=0; i<4; i++)
*dci_pdu |= ((pdu_rel15->prach_mask_index>>(3-i))&1)<<(dci_alloc->size-pos++);
// prach_mask_index 4 bits
for (int i=0; i<4; i++)
*dci_pdu |= ((pdu_rel15->prach_mask_index>>(3-i))&1)<<(dci_alloc->size-pos++);
} //end if
} //end if
else {
else {
// Time domain assignment 4bit
for (int i=0; i<4; i++)
*dci_pdu |= ((pdu_rel15->time_domain_assignment>>(3-i))&1)<<(dci_alloc->size-pos++);
// Time domain assignment 4bit
for (int i=0; i<4; i++)
*dci_pdu |= ((pdu_rel15->time_domain_assignment>>(3-i))&1)<<(dci_alloc->size-pos++);
// VRB to PRB mapping 1bit
*dci_pdu |= (pdu_rel15->vrb_to_prb_mapping&1)<<(dci_alloc->size-pos++);
// VRB to PRB mapping 1bit
*dci_pdu |= (pdu_rel15->vrb_to_prb_mapping&1)<<(dci_alloc->size-pos++);
// MCS 5bit //bit over 32, so dci_pdu ++
for (int i=0; i<5; i++)
*dci_pdu |= ((pdu_rel15->mcs>>(4-i))&1)<<(dci_alloc->size-pos++);
// MCS 5bit //bit over 32, so dci_pdu ++
for (int i=0; i<5; i++)
*dci_pdu |= ((pdu_rel15->mcs>>(4-i))&1)<<(dci_alloc->size-pos++);
// New data indicator 1bit
*dci_pdu |= (pdu_rel15->ndi&1)<<(dci_alloc->size-pos++);
// New data indicator 1bit
*dci_pdu |= (pdu_rel15->ndi&1)<<(dci_alloc->size-pos++);
// Redundancy version 2bit
for (int i=0; i<2; i++)
*dci_pdu |= ((pdu_rel15->rv>>(1-i))&1)<<(dci_alloc->size-pos++);
// Redundancy version 2bit
for (int i=0; i<2; i++)
*dci_pdu |= ((pdu_rel15->rv>>(1-i))&1)<<(dci_alloc->size-pos++);
// HARQ process number 4bit
for (int i=0; i<4; i++)
*dci_pdu |= ((pdu_rel15->harq_pid>>(3-i))&1)<<(dci_alloc->size-pos++);
// HARQ process number 4bit
for (int i=0; i<4; i++)
*dci_pdu |= ((pdu_rel15->harq_pid>>(3-i))&1)<<(dci_alloc->size-pos++);
// Downlink assignment index 2bit
for (int i=0; i<2; i++)
*dci_pdu |= ((pdu_rel15->dai>>(1-i))&1)<<(dci_alloc->size-pos++);
// Downlink assignment index 2bit
for (int i=0; i<2; i++)
*dci_pdu |= ((pdu_rel15->dai>>(1-i))&1)<<(dci_alloc->size-pos++);
// TPC command for scheduled PUCCH 2bit
for (int i=0; i<2; i++)
*dci_pdu |= ((pdu_rel15->tpc>>(1-i))&1)<<(dci_alloc->size-pos++);
// TPC command for scheduled PUCCH 2bit
for (int i=0; i<2; i++)
*dci_pdu |= ((pdu_rel15->tpc>>(1-i))&1)<<(dci_alloc->size-pos++);
// PUCCH resource indicator 3bit
for (int i=0; i<3; i++)
*dci_pdu |= ((pdu_rel15->pucch_resource_indicator>>(2-i))&1)<<(dci_alloc->size-pos++);
// PUCCH resource indicator 3bit
for (int i=0; i<3; i++)
*dci_pdu |= ((pdu_rel15->pucch_resource_indicator>>(2-i))&1)<<(dci_alloc->size-pos++);
// PDSCH-to-HARQ_feedback timing indicator 3bit
for (int i=0; i<3; i++)
*dci_pdu |= ((pdu_rel15->pdsch_to_harq_feedback_timing_indicator>>(2-i))&1)<<(dci_alloc->size-pos++);
// PDSCH-to-HARQ_feedback timing indicator 3bit
for (int i=0; i<3; i++)
*dci_pdu |= ((pdu_rel15->pdsch_to_harq_feedback_timing_indicator>>(2-i))&1)<<(dci_alloc->size-pos++);
} //end else
break;
} //end else
break;
case NFAPI_NR_RNTI_P:
case NFAPI_NR_RNTI_P:
// Short Messages Indicator – 2 bits
for (int i=0; i<2; i++)
*dci_pdu |= ((pdu_rel15->short_messages_indicator>>(1-i))&1)<<(dci_alloc->size-pos++);
// Short Messages – 8 bits
for (int i=0; i<8; i++)
*dci_pdu |= ((pdu_rel15->short_messages>>(7-i))&1)<<(dci_alloc->size-pos++);
// Freq domain assignment 0-16 bit
fsize = (int)ceil( log2( (N_RB*(N_RB+1))>>1 ) );
for (int i=0; i<fsize; i++)
*dci_pdu |= ((pdu_rel15->frequency_domain_assignment>>(fsize-i-1))&1)<<(dci_alloc->size-pos++);
// Time domain assignment 4 bit
for (int i=0; i<4; i++)
*dci_pdu |= ((pdu_rel15->time_domain_assignment>>(3-i))&1)<<(dci_alloc->size-pos++);
// VRB to PRB mapping 1 bit
*dci_pdu |= (pdu_rel15->vrb_to_prb_mapping&1)<<(dci_alloc->size-pos++);
// MCS 5 bit
for (int i=0; i<5; i++)
*dci_pdu |= ((pdu_rel15->mcs>>(4-i))&1)<<(dci_alloc->size-pos++);
// Short Messages Indicator – 2 bits
for (int i=0; i<2; i++)
*dci_pdu |= ((pdu_rel15->short_messages_indicator>>(1-i))&1)<<(dci_alloc->size-pos++);
// Short Messages – 8 bits
for (int i=0; i<8; i++)
*dci_pdu |= ((pdu_rel15->short_messages>>(7-i))&1)<<(dci_alloc->size-pos++);
// Freq domain assignment 0-16 bit
fsize = (int)ceil( log2( (N_RB*(N_RB+1))>>1 ) );
for (int i=0; i<fsize; i++)
*dci_pdu |= ((pdu_rel15->frequency_domain_assignment>>(fsize-i-1))&1)<<(dci_alloc->size-pos++);
// Time domain assignment 4 bit
for (int i=0; i<4; i++)
*dci_pdu |= ((pdu_rel15->time_domain_assignment>>(3-i))&1)<<(dci_alloc->size-pos++);
// VRB to PRB mapping 1 bit
*dci_pdu |= (pdu_rel15->vrb_to_prb_mapping&1)<<(dci_alloc->size-pos++);
// MCS 5 bit
for (int i=0; i<5; i++)
*dci_pdu |= ((pdu_rel15->mcs>>(4-i))&1)<<(dci_alloc->size-pos++);
// TB scaling 2 bit
for (int i=0; i<2; i++)
*dci_pdu |= ((pdu_rel15->tb_scaling>>(1-i))&1)<<(dci_alloc->size-pos++);
// TB scaling 2 bit
for (int i=0; i<2; i++)
*dci_pdu |= ((pdu_rel15->tb_scaling>>(1-i))&1)<<(dci_alloc->size-pos++);
break;
case NFAPI_NR_RNTI_SI:
// Freq domain assignment 0-16 bit
fsize = (int)ceil( log2( (N_RB*(N_RB+1))>>1 ) );
for (int i=0; i<fsize; i++)
*dci_pdu |= ((pdu_rel15->frequency_domain_assignment>>(fsize-i-1))&1)<<(dci_alloc->size-pos++);
// Time domain assignment 4 bit
for (int i=0; i<4; i++)
*dci_pdu |= ((pdu_rel15->time_domain_assignment>>(3-i))&1)<<(dci_alloc->size-pos++);
// VRB to PRB mapping 1 bit
*dci_pdu |= (pdu_rel15->vrb_to_prb_mapping&1)<<(dci_alloc->size-pos++);
// MCS 5bit //bit over 32, so dci_pdu ++
for (int i=0; i<5; i++)
*dci_pdu |= ((pdu_rel15->mcs>>(4-i))&1)<<(dci_alloc->size-pos++);
// Redundancy version 2bit
for (int i=0; i<2; i++)
*dci_pdu |= ((pdu_rel15->rv>>(1-i))&1)<<(dci_alloc->size-pos++);
case NFAPI_NR_RNTI_SI:
// Freq domain assignment 0-16 bit
fsize = (int)ceil( log2( (N_RB*(N_RB+1))>>1 ) );
for (int i=0; i<fsize; i++)
*dci_pdu |= ((pdu_rel15->frequency_domain_assignment>>(fsize-i-1))&1)<<(dci_alloc->size-pos++);
// Time domain assignment 4 bit
for (int i=0; i<4; i++)
*dci_pdu |= ((pdu_rel15->time_domain_assignment>>(3-i))&1)<<(dci_alloc->size-pos++);
// VRB to PRB mapping 1 bit
*dci_pdu |= (pdu_rel15->vrb_to_prb_mapping&1)<<(dci_alloc->size-pos++);
// MCS 5bit //bit over 32, so dci_pdu ++
for (int i=0; i<5; i++)
*dci_pdu |= ((pdu_rel15->mcs>>(4-i))&1)<<(dci_alloc->size-pos++);
// Redundancy version 2bit
for (int i=0; i<2; i++)
*dci_pdu |= ((pdu_rel15->rv>>(1-i))&1)<<(dci_alloc->size-pos++);
break;
case NFAPI_NR_RNTI_TC:
case NFAPI_NR_RNTI_TC:
// indicating a DL DCI format 1bit
*dci_pdu |= (pdu_rel15->format_indicator&1)<<(dci_alloc->size-pos++);
*dci_pdu |= (pdu_rel15->format_indicator&1)<<(dci_alloc->size-pos++);
// Freq domain assignment 0-16 bit
fsize = (int)ceil( log2( (N_RB*(N_RB+1))>>1 ) );
for (int i=0; i<fsize; i++)
*dci_pdu |= ((pdu_rel15->frequency_domain_assignment>>(fsize-i-1))&1)<<(dci_alloc->size-pos++);
fsize = (int)ceil( log2( (N_RB*(N_RB+1))>>1 ) );
for (int i=0; i<fsize; i++)
*dci_pdu |= ((pdu_rel15->frequency_domain_assignment>>(fsize-i-1))&1)<<(dci_alloc->size-pos++);
// Time domain assignment 4 bit
for (int i=0; i<4; i++)
*dci_pdu |= ((pdu_rel15->time_domain_assignment>>(3-i))&1)<<(dci_alloc->size-pos++);
for (int i=0; i<4; i++)
*dci_pdu |= ((pdu_rel15->time_domain_assignment>>(3-i))&1)<<(dci_alloc->size-pos++);
// VRB to PRB mapping 1 bit
*dci_pdu |= (pdu_rel15->vrb_to_prb_mapping&1)<<(dci_alloc->size-pos++);
*dci_pdu |= (pdu_rel15->vrb_to_prb_mapping&1)<<(dci_alloc->size-pos++);
// MCS 5bit //bit over 32, so dci_pdu ++
for (int i=0; i<5; i++)
*dci_pdu |= ((pdu_rel15->mcs>>(4-i))&1)<<(dci_alloc->size-pos++);
for (int i=0; i<5; i++)
*dci_pdu |= ((pdu_rel15->mcs>>(4-i))&1)<<(dci_alloc->size-pos++);
// New data indicator 1bit
*dci_pdu |= (pdu_rel15->ndi&1)<<(dci_alloc->size-pos++);
*dci_pdu |= (pdu_rel15->ndi&1)<<(dci_alloc->size-pos++);
// Redundancy version 2bit
for (int i=0; i<2; i++)
*dci_pdu |= ((pdu_rel15->rv>>(1-i))&1)<<(dci_alloc->size-pos++);
for (int i=0; i<2; i++)
*dci_pdu |= ((pdu_rel15->rv>>(1-i))&1)<<(dci_alloc->size-pos++);
// HARQ process number 4bit
for (int i=0; i<4; i++)
*dci_pdu |= ((pdu_rel15->harq_pid>>(3-i))&1)<<(dci_alloc->size-pos++);
for (int i=0; i<4; i++)
*dci_pdu |= ((pdu_rel15->harq_pid>>(3-i))&1)<<(dci_alloc->size-pos++);
// Downlink assignment index – 2 bits
for (int i=0; i<2; i++)
*dci_pdu |= ((pdu_rel15->dai>>(1-i))&1)<<(dci_alloc->size-pos++);
for (int i=0; i<2; i++)
*dci_pdu |= ((pdu_rel15->dai>>(1-i))&1)<<(dci_alloc->size-pos++);
// TPC command for scheduled PUCCH – 2 bits
for (int i=0; i<2; i++)
*dci_pdu |= ((pdu_rel15->tpc>>(1-i))&1)<<(dci_alloc->size-pos++);
for (int i=0; i<2; i++)
*dci_pdu |= ((pdu_rel15->tpc>>(1-i))&1)<<(dci_alloc->size-pos++);
// PUCCH resource indicator – 3 bits
for (int i=0; i<3; i++)
*dci_pdu |= ((pdu_rel15->pucch_resource_indicator>>(2-i))&1)<<(dci_alloc->size-pos++);
for (int i=0; i<3; i++)
*dci_pdu |= ((pdu_rel15->pucch_resource_indicator>>(2-i))&1)<<(dci_alloc->size-pos++);
// PDSCH-to-HARQ_feedback timing indicator – 3 bits
for (int i=0; i<3; i++)
*dci_pdu |= ((pdu_rel15->pdsch_to_harq_feedback_timing_indicator>>(2-i))&1)<<(dci_alloc->size-pos++);
for (int i=0; i<3; i++)
*dci_pdu |= ((pdu_rel15->pdsch_to_harq_feedback_timing_indicator>>(2-i))&1)<<(dci_alloc->size-pos++);
break;
}
}
case NFAPI_NR_UL_DCI_FORMAT_0_0:
case NFAPI_NR_UL_DCI_FORMAT_0_0:
switch(params_rel15->rnti_type)
{
{
case NFAPI_NR_RNTI_C:
// indicating a DL DCI format 1bit
*dci_pdu |= (pdu_rel15->format_indicator&1)<<(dci_alloc->size-pos++);
// Freq domain assignment max 16 bit
fsize = (int)ceil( log2( (N_RB*(N_RB+1))>>1 ) );
for (int i=0; i<fsize; i++)
*dci_pdu |= ((pdu_rel15->frequency_domain_assignment>>(fsize-i-1))&1)<<(dci_alloc->size-pos++);
// Time domain assignment 4bit
for (int i=0; i<4; i++)
*dci_pdu |= ((pdu_rel15->time_domain_assignment>>(3-i))&1)<<(dci_alloc->size-pos++);
// Frequency hopping flag – 1 bit
*dci_pdu |= (pdu_rel15->frequency_hopping_flag&1)<<(dci_alloc->size-pos++);
// MCS 5 bit
for (int i=0; i<5; i++)
// indicating a DL DCI format 1bit
*dci_pdu |= (pdu_rel15->format_indicator&1)<<(dci_alloc->size-pos++);
// Freq domain assignment max 16 bit
fsize = (int)ceil( log2( (N_RB*(N_RB+1))>>1 ) );
for (int i=0; i<fsize; i++)
*dci_pdu |= ((pdu_rel15->frequency_domain_assignment>>(fsize-i-1))&1)<<(dci_alloc->size-pos++);
// Time domain assignment 4bit
for (int i=0; i<4; i++)
*dci_pdu |= ((pdu_rel15->time_domain_assignment>>(3-i))&1)<<(dci_alloc->size-pos++);
// Frequency hopping flag – 1 bit
*dci_pdu |= (pdu_rel15->frequency_hopping_flag&1)<<(dci_alloc->size-pos++);
// MCS 5 bit
for (int i=0; i<5; i++)
*dci_pdu |= ((pdu_rel15->mcs>>(4-i))&1)<<(dci_alloc->size-pos++);
// New data indicator 1bit
*dci_pdu |= (pdu_rel15->ndi&1)<<(dci_alloc->size-pos++);
// Redundancy version 2bit
for (int i=0; i<2; i++)
*dci_pdu |= ((pdu_rel15->rv>>(1-i))&1)<<(dci_alloc->size-pos++);
// HARQ process number 4bit
for (int i=0; i<4; i++)
*dci_pdu |= ((pdu_rel15->harq_pid>>(3-i))&1)<<(dci_alloc->size-pos++);
// New data indicator 1bit
*dci_pdu |= (pdu_rel15->ndi&1)<<(dci_alloc->size-pos++);
// Redundancy version 2bit
for (int i=0; i<2; i++)
*dci_pdu |= ((pdu_rel15->rv>>(1-i))&1)<<(dci_alloc->size-pos++);
// HARQ process number 4bit
for (int i=0; i<4; i++)
*dci_pdu |= ((pdu_rel15->harq_pid>>(3-i))&1)<<(dci_alloc->size-pos++);
// TPC command for scheduled PUSCH – 2 bits
// TPC command for scheduled PUSCH – 2 bits
for (int i=0; i<2; i++)
*dci_pdu |= ((pdu_rel15->tpc>>(1-i))&1)<<(dci_alloc->size-pos++);
// Padding bits
// Padding bits
for(int a = pos;a<32;a++)
*dci_pdu |= (pdu_rel15->padding&1)<<(dci_alloc->size-pos++);
// UL/SUL indicator – 1 bit
// UL/SUL indicator – 1 bit
if (cfg->pucch_config.pucch_GroupHopping.value)
*dci_pdu |= (pdu_rel15->ul_sul_indicator&1)<<(dci_alloc->size-pos++);
break;
break;
case NFAPI_NR_RNTI_TC:
// indicating a DL DCI format 1bit
*dci_pdu |= (pdu_rel15->format_indicator&1)<<(dci_alloc->size-pos++);
// Freq domain assignment max 16 bit
fsize = (int)ceil( log2( (N_RB*(N_RB+1))>>1 ) );
for (int i=0; i<fsize; i++)
*dci_pdu |= ((pdu_rel15->frequency_domain_assignment>>(fsize-i-1))&1)<<(dci_alloc->size-pos++);
// Time domain assignment 4bit
for (int i=0; i<4; i++)
*dci_pdu |= ((pdu_rel15->time_domain_assignment>>(3-i))&1)<<(dci_alloc->size-pos++);
// Frequency hopping flag – 1 bit
*dci_pdu |= (pdu_rel15->frequency_hopping_flag&1)<<(dci_alloc->size-pos++);
// MCS 5 bit
for (int i=0; i<5; i++)
// indicating a DL DCI format 1bit
*dci_pdu |= (pdu_rel15->format_indicator&1)<<(dci_alloc->size-pos++);
// Freq domain assignment max 16 bit
fsize = (int)ceil( log2( (N_RB*(N_RB+1))>>1 ) );
for (int i=0; i<fsize; i++)
*dci_pdu |= ((pdu_rel15->frequency_domain_assignment>>(fsize-i-1))&1)<<(dci_alloc->size-pos++);
// Time domain assignment 4bit
for (int i=0; i<4; i++)
*dci_pdu |= ((pdu_rel15->time_domain_assignment>>(3-i))&1)<<(dci_alloc->size-pos++);
// Frequency hopping flag – 1 bit
*dci_pdu |= (pdu_rel15->frequency_hopping_flag&1)<<(dci_alloc->size-pos++);
// MCS 5 bit
for (int i=0; i<5; i++)
*dci_pdu |= ((pdu_rel15->mcs>>(4-i))&1)<<(dci_alloc->size-pos++);
// New data indicator 1bit
*dci_pdu |= (pdu_rel15->ndi&1)<<(dci_alloc->size-pos++);
// Redundancy version 2bit
for (int i=0; i<2; i++)
// New data indicator 1bit
*dci_pdu |= (pdu_rel15->ndi&1)<<(dci_alloc->size-pos++);
// Redundancy version 2bit
for (int i=0; i<2; i++)
*dci_pdu |= ((pdu_rel15->rv>>(1-i))&1)<<(dci_alloc->size-pos++);
// HARQ process number 4bit
for (int i=0; i<4; i++)
// HARQ process number 4bit
for (int i=0; i<4; i++)
*dci_pdu |= ((pdu_rel15->harq_pid>>(3-i))&1)<<(dci_alloc->size-pos++);
// TPC command for scheduled PUSCH – 2 bits
......@@ -394,18 +411,18 @@ void nr_fill_dci_and_dlsch(PHY_VARS_gNB *gNB,
// Padding bits
for(int a = pos;a<32;a++)
*dci_pdu |= (pdu_rel15->padding&1)<<(dci_alloc->size-pos++);
*dci_pdu |= (pdu_rel15->padding&1)<<(dci_alloc->size-pos++);
// UL/SUL indicator – 1 bit
if (cfg->pucch_config.pucch_GroupHopping.value)
*dci_pdu |= (pdu_rel15->ul_sul_indicator&1)<<(dci_alloc->size-pos++);
*dci_pdu |= (pdu_rel15->ul_sul_indicator&1)<<(dci_alloc->size-pos++);
break;
}
break;
break;
}
LOG_I(PHY, "DCI PDU: [0]->0x%16x \t [1]->0x%16x \n",dci_pdu[0], dci_pdu[1]);
LOG_I(PHY, "DCI PDU: [0]->0x%16llxx \t [1]->0x%16llx \n",(long long unsigned int)dci_pdu[0], (long long unsigned int)dci_pdu[1]);
LOG_I(PHY, "DCI type %d payload (size %d) generated on candidate %d\n", dci_alloc->pdcch_params.dci_format, dci_alloc->size, cand_idx);
}
......@@ -1439,7 +1439,7 @@ void nr_dci_decoding_procedure0(int s,
t_nrPolar_paramsPtr currentPtrDCI=nr_polar_params(nrPolar_params, 1, sizeof_bits, L2);
decoderState = polar_decoder_int16((int16_t*)&pdcch_vars[eNB_id]->e_rx[CCEind*9*6*2],
dci_estimation,
(uint64_t*)dci_estimation,
currentPtrDCI);
crc = decoderState;
//crc = (crc16(&dci_decoded_output[current_thread_id][0], sizeof_bits) >> 16) ^ extract_crc(&dci_decoded_output[current_thread_id][0], sizeof_bits);
......
......@@ -30,6 +30,7 @@
* \warning
*/
//#include "PHY/defs.h"
#include <stdint.h>
#include "PHY/defs_nr_UE.h"
//#include "PHY/NR_TRANSPORT/nr_dci.h"
//#include "PHY/NR_UE_TRANSPORT/nr_transport_ue.h"
......@@ -67,18 +68,28 @@ uint16_t nr_dci_field(uint32_t dci_pdu[4],
uint8_t dci_fields_sizes[NBR_NR_DCI_FIELDS],
uint8_t dci_field)
{
uint16_t field_value = 0 ;
// uint16_t field_value = 0 ;
// first_bit_position contains the position of the first bit of the corresponding field within the dci pdu payload
uint16_t first_bit_position = 0;
// last_bit_position contains the position of the last bit of the corresponding field within the dci pdu payload
uint16_t last_bit_position = 0;
uint8_t bit=0;
// uint16_t last_bit_position = 0;
// uint8_t bit=0;
//printf("\tdci_field=%d, \tsize=%d \t|",dci_field,dci_fields_sizes[dci_field]);
for (int i=0; i<dci_field ; i++){
first_bit_position = first_bit_position + dci_fields_sizes[i];
int dci_size=0;
for (int i=0;i<NBR_NR_DCI_FIELDS;i++) dci_size+=dci_fields_sizes[i];
AssertFatal(dci_size<65,"DCI has %d > 64 bits, not supported for now\n",
dci_size);
uint16_t first_bit_position = dci_size;
for (int i=0; i<=dci_field ; i++){
first_bit_position = first_bit_position - dci_fields_sizes[i];
}
last_bit_position = first_bit_position + dci_fields_sizes[dci_field];
// last_bit_position = first_bit_position + dci_fields_sizes[dci_field];
//printf("\tfirst_bit=%d,\tlast_bit=%d",first_bit_position,last_bit_position);
/*
for (int i=0; i<4; i++)
for (int j=0; j<32; j++){
if ((((i*32)+j) >= first_bit_position) && (((i*32)+j) < last_bit_position)){
......@@ -87,7 +98,13 @@ uint16_t nr_dci_field(uint32_t dci_pdu[4],
//printf(" bit(%d)=%d[%d] ",(i*32)+j,bit,field_value);
}
}
return field_value;
*/
uint64_t *dci_pdu64=(uint64_t*)&dci_pdu[0];
printf("pdu %llx, field %d, pos %d, size %d => %u\n",(long long unsigned int)*dci_pdu64,dci_field,first_bit_position,dci_fields_sizes[dci_field],
(unsigned int)((*dci_pdu64>>first_bit_position)&((1<<dci_fields_sizes[dci_field])-1)));
return (uint16_t)((*dci_pdu64>>first_bit_position)&((1<<dci_fields_sizes[dci_field])-1));
}
int nr_extract_dci_info(PHY_VARS_NR_UE *ue,
......
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