/*******************************************************************************
OpenAirInterface
Copyright(c) 1999 - 2014 Eurecom
OpenAirInterface is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
OpenAirInterface is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with OpenAirInterface.The full GNU General Public License is
included in this distribution in the file called "COPYING". If not,
see .
Contact Information
OpenAirInterface Admin: openair_admin@eurecom.fr
OpenAirInterface Tech : openair_tech@eurecom.fr
OpenAirInterface Dev : openair4g-devel@lists.eurecom.fr
Address : Eurecom, Campus SophiaTech, 450 Route des Chappes, CS 50193 - 06904 Biot Sophia Antipolis cedex, FRANCE
*******************************************************************************/
/*! \file phy_procedures_lte_eNB.c
* \brief Implementation of eNB procedures from 36.213 LTE specifications
* \author R. Knopp, F. Kaltenberger, N. Nikaein
* \date 2011
* \version 0.1
* \company Eurecom
* \email: knopp@eurecom.fr,florian.kaltenberger@eurecom.fr,navid.nikaein@eurecom.fr
* \note
* \warning
*/
#include "PHY/defs.h"
#include "PHY/extern.h"
#include "SCHED/defs.h"
#include "SCHED/extern.h"
#include "PHY/LTE_TRANSPORT/if4_tools.h"
#include "PHY/LTE_TRANSPORT/if5_tools.h"
#ifdef EMOS
#include "SCHED/phy_procedures_emos.h"
#endif
//#define DEBUG_PHY_PROC (Already defined in cmake)
//#define DEBUG_ULSCH
#include "LAYER2/MAC/extern.h"
#include "LAYER2/MAC/defs.h"
#include "UTIL/LOG/log.h"
#include "UTIL/LOG/vcd_signal_dumper.h"
#include "T.h"
#include "assertions.h"
#include "msc.h"
#include
#if defined(ENABLE_ITTI)
# include "intertask_interface.h"
#endif
//#define DIAG_PHY
#define NS_PER_SLOT 500000
#define PUCCH 1
void exit_fun(const char* s);
extern int exit_openair;
// Fix per CC openair rf/if device update
// extern openair0_device openair0;
unsigned char dlsch_input_buffer[2700] __attribute__ ((aligned(32)));
int eNB_sync_buffer0[640*6] __attribute__ ((aligned(32)));
int eNB_sync_buffer1[640*6] __attribute__ ((aligned(32)));
int *eNB_sync_buffer[2] = {eNB_sync_buffer0, eNB_sync_buffer1};
extern uint16_t hundred_times_log10_NPRB[100];
unsigned int max_peak_val;
int max_sync_pos;
//DCI_ALLOC_t dci_alloc[8];
#ifdef EMOS
fifo_dump_emos_eNB emos_dump_eNB;
#endif
#if defined(SMBV)
extern const char smbv_fname[];
extern unsigned short config_frames[4];
extern uint8_t smbv_frame_cnt;
#endif
#ifdef DIAG_PHY
extern int rx_sig_fifo;
#endif
uint8_t is_SR_subframe(PHY_VARS_eNB *eNB,eNB_rxtx_proc_t *proc,uint8_t UE_id)
{
const int subframe = proc->subframe_rx;
const int frame = proc->frame_rx;
LOG_D(PHY,"[eNB %d][SR %x] Frame %d subframe %d Checking for SR TXOp(sr_ConfigIndex %d)\n",
eNB->Mod_id,eNB->ulsch[UE_id]->rnti,frame,subframe,
eNB->scheduling_request_config[UE_id].sr_ConfigIndex);
if (eNB->scheduling_request_config[UE_id].sr_ConfigIndex <= 4) { // 5 ms SR period
if ((subframe%5) == eNB->scheduling_request_config[UE_id].sr_ConfigIndex)
return(1);
} else if (eNB->scheduling_request_config[UE_id].sr_ConfigIndex <= 14) { // 10 ms SR period
if (subframe==(eNB->scheduling_request_config[UE_id].sr_ConfigIndex-5))
return(1);
} else if (eNB->scheduling_request_config[UE_id].sr_ConfigIndex <= 34) { // 20 ms SR period
if ((10*(frame&1)+subframe) == (eNB->scheduling_request_config[UE_id].sr_ConfigIndex-15))
return(1);
} else if (eNB->scheduling_request_config[UE_id].sr_ConfigIndex <= 74) { // 40 ms SR period
if ((10*(frame&3)+subframe) == (eNB->scheduling_request_config[UE_id].sr_ConfigIndex-35))
return(1);
} else if (eNB->scheduling_request_config[UE_id].sr_ConfigIndex <= 154) { // 80 ms SR period
if ((10*(frame&7)+subframe) == (eNB->scheduling_request_config[UE_id].sr_ConfigIndex-75))
return(1);
}
return(0);
}
int32_t add_ue(int16_t rnti, PHY_VARS_eNB *eNB)
{
uint8_t i;
LOG_D(PHY,"[eNB %d/%d] Adding UE with rnti %x\n",
eNB->Mod_id,
eNB->CC_id,
(uint16_t)rnti);
for (i=0; idlsch[i]==NULL) || (eNB->ulsch[i]==NULL)) {
MSC_LOG_EVENT(MSC_PHY_ENB, "0 Failed add ue %"PRIx16" (ENOMEM)", rnti);
LOG_E(PHY,"Can't add UE, not enough memory allocated\n");
return(-1);
} else {
if (eNB->UE_stats[i].crnti==0) {
MSC_LOG_EVENT(MSC_PHY_ENB, "0 Add ue %"PRIx16" ", rnti);
LOG_D(PHY,"UE_id %d associated with rnti %x\n",i, (uint16_t)rnti);
eNB->dlsch[i][0]->rnti = rnti;
eNB->ulsch[i]->rnti = rnti;
eNB->UE_stats[i].crnti = rnti;
eNB->UE_stats[i].Po_PUCCH1_below = 0;
eNB->UE_stats[i].Po_PUCCH1_above = (int32_t)pow(10.0,.1*(eNB->frame_parms.ul_power_control_config_common.p0_NominalPUCCH+eNB->rx_total_gain_dB));
eNB->UE_stats[i].Po_PUCCH = (int32_t)pow(10.0,.1*(eNB->frame_parms.ul_power_control_config_common.p0_NominalPUCCH+eNB->rx_total_gain_dB));
LOG_D(PHY,"Initializing Po_PUCCH: p0_NominalPUCCH %d, gain %d => %d\n",
eNB->frame_parms.ul_power_control_config_common.p0_NominalPUCCH,
eNB->rx_total_gain_dB,
eNB->UE_stats[i].Po_PUCCH);
return(i);
}
}
}
return(-1);
}
int mac_phy_remove_ue(module_id_t Mod_idP,rnti_t rntiP) {
uint8_t i;
int CC_id;
PHY_VARS_eNB *eNB;
for (CC_id=0;CC_iddlsch[i]==NULL) || (eNB->ulsch[i]==NULL)) {
MSC_LOG_EVENT(MSC_PHY_ENB, "0 Failed remove ue %"PRIx16" (ENOMEM)", rnti);
LOG_E(PHY,"Can't remove UE, not enough memory allocated\n");
return(-1);
} else {
if (eNB->UE_stats[i].crnti==rntiP) {
MSC_LOG_EVENT(MSC_PHY_ENB, "0 Removed ue %"PRIx16" ", rntiP);
LOG_D(PHY,"eNB %d removing UE %d with rnti %x\n",eNB->Mod_id,i,rntiP);
//LOG_D(PHY,("[PHY] UE_id %d\n",i);
clean_eNb_dlsch(eNB->dlsch[i][0]);
clean_eNb_ulsch(eNB->ulsch[i]);
//eNB->UE_stats[i].crnti = 0;
memset(&eNB->UE_stats[i],0,sizeof(LTE_eNB_UE_stats));
// mac_exit_wrapper("Removing UE");
return(i);
}
}
}
}
MSC_LOG_EVENT(MSC_PHY_ENB, "0 Failed remove ue %"PRIx16" (not found)", rntiP);
return(-1);
}
int8_t find_next_ue_index(PHY_VARS_eNB *eNB)
{
uint8_t i;
for (i=0; iUE_stats[i].crnti==0) {
/*if ((eNB->dlsch[i]) &&
(eNB->dlsch[i][0]) &&
(eNB->dlsch[i][0]->rnti==0))*/
LOG_D(PHY,"Next free UE id is %d\n",i);
return(i);
}
}
return(-1);
}
int get_ue_active_harq_pid(const uint8_t Mod_id,const uint8_t CC_id,const uint16_t rnti, const int frame, const uint8_t subframe,uint8_t *harq_pid,uint8_t *round,const uint8_t ul_flag)
{
LTE_eNB_DLSCH_t *DLSCH_ptr;
LTE_eNB_ULSCH_t *ULSCH_ptr;
uint8_t ulsch_subframe,ulsch_frame;
int i;
int8_t UE_id = find_ue(rnti,PHY_vars_eNB_g[Mod_id][CC_id]);
if (UE_id==-1) {
LOG_D(PHY,"Cannot find UE with rnti %x (Mod_id %d, CC_id %d)\n",rnti, Mod_id, CC_id);
*round=0;
return(-1);
}
if (ul_flag == 0) {// this is a DL request
DLSCH_ptr = PHY_vars_eNB_g[Mod_id][CC_id]->dlsch[(uint32_t)UE_id][0];
/* let's go synchronous for the moment - maybe we can change at some point */
i = (frame * 10 + subframe) % 8;
if (DLSCH_ptr->harq_processes[i]->status == ACTIVE) {
*harq_pid = i;
*round = DLSCH_ptr->harq_processes[i]->round;
} else if (DLSCH_ptr->harq_processes[i]->status == SCH_IDLE) {
*harq_pid = i;
*round = 0;
} else {
printf("%s:%d: bad state for harq process - PLEASE REPORT!!\n", __FILE__, __LINE__);
abort();
}
} else { // This is a UL request
ULSCH_ptr = PHY_vars_eNB_g[Mod_id][CC_id]->ulsch[(uint32_t)UE_id];
ulsch_subframe = pdcch_alloc2ul_subframe(&PHY_vars_eNB_g[Mod_id][CC_id]->frame_parms,subframe);
ulsch_frame = pdcch_alloc2ul_frame(&PHY_vars_eNB_g[Mod_id][CC_id]->frame_parms,frame,subframe);
// Note this is for TDD configuration 3,4,5 only
*harq_pid = subframe2harq_pid(&PHY_vars_eNB_g[Mod_id][CC_id]->frame_parms,
ulsch_frame,
ulsch_subframe);
*round = ULSCH_ptr->harq_processes[*harq_pid]->round;
LOG_T(PHY,"[eNB %d][PUSCH %d] Frame %d subframe %d Checking HARQ, round %d\n",Mod_id,*harq_pid,frame,subframe,*round);
}
return(0);
}
int16_t get_target_pusch_rx_power(const module_id_t module_idP, const uint8_t CC_id)
{
return PHY_vars_eNB_g[module_idP][CC_id]->frame_parms.ul_power_control_config_common.p0_NominalPUSCH;
}
int16_t get_target_pucch_rx_power(const module_id_t module_idP, const uint8_t CC_id)
{
return PHY_vars_eNB_g[module_idP][CC_id]->frame_parms.ul_power_control_config_common.p0_NominalPUCCH;
}
#ifdef EMOS
void phy_procedures_emos_eNB_TX(unsigned char subframe, PHY_VARS_eNB *eNB)
{
}
#endif
void phy_procedures_eNB_S_RX(PHY_VARS_eNB *eNB,eNB_rxtx_proc_t *proc,relaying_type_t r_type)
{
UNUSED(r_type);
int subframe = proc->subframe_rx;
#ifdef DEBUG_PHY_PROC
LOG_D(PHY,"[eNB %d] Frame %d: Doing phy_procedures_eNB_S_RX(%d)\n", eNB->Mod_id,proc->frame_rx, subframe);
#endif
if (eNB->abstraction_flag == 0) {
lte_eNB_I0_measurements(eNB,
subframe,
0,
eNB->first_run_I0_measurements);
}
#ifdef PHY_ABSTRACTION
else {
lte_eNB_I0_measurements_emul(eNB,
0);
}
#endif
}
#ifdef EMOS
void phy_procedures_emos_eNB_RX(unsigned char subframe,PHY_VARS_eNB *eNB)
{
uint8_t aa;
uint16_t last_subframe_emos;
uint16_t pilot_pos1 = 3 - eNB->frame_parms.Ncp, pilot_pos2 = 10 - 2*eNB->frame_parms.Ncp;
uint32_t bytes;
last_subframe_emos=0;
#ifdef EMOS_CHANNEL
//if (last_slot%2==1) // this is for all UL subframes
if (subframe==3)
for (aa=0; aaframe_parms.nb_antennas_rx; aa++) {
memcpy(&emos_dump_eNB.channel[aa][last_subframe_emos*2*eNB->frame_parms.N_RB_UL*12],
&eNB->pusch_vars[0]->drs_ch_estimates[0][aa][eNB->frame_parms.N_RB_UL*12*pilot_pos1],
eNB->frame_parms.N_RB_UL*12*sizeof(int));
memcpy(&emos_dump_eNB.channel[aa][(last_subframe_emos*2+1)*eNB->frame_parms.N_RB_UL*12],
&eNB->pusch_vars[0]->drs_ch_estimates[0][aa][eNB->frame_parms.N_RB_UL*12*pilot_pos2],
eNB->frame_parms.N_RB_UL*12*sizeof(int));
}
#endif
if (subframe==4) {
emos_dump_eNB.timestamp = rt_get_time_ns();
emos_dump_eNB.frame_tx = eNB->proc[subframe].frame_rx;
emos_dump_eNB.rx_total_gain_dB = eNB->rx_total_gain_dB;
emos_dump_eNB.mimo_mode = eNB->transmission_mode[0];
memcpy(&emos_dump_eNB.measurements,
&eNB->measurements[0],
sizeof(PHY_MEASUREMENTS_eNB));
memcpy(&emos_dump_eNB.UE_stats[0],&eNB->UE_stats[0],NUMBER_OF_UE_MAX*sizeof(LTE_eNB_UE_stats));
bytes = rtf_put(CHANSOUNDER_FIFO_MINOR, &emos_dump_eNB, sizeof(fifo_dump_emos_eNB));
//bytes = rtf_put(CHANSOUNDER_FIFO_MINOR, "test", sizeof("test"));
if (bytes!=sizeof(fifo_dump_emos_eNB)) {
LOG_W(PHY,"[eNB %d] Frame %d, subframe %d, Problem writing EMOS data to FIFO (bytes=%d, size=%d)\n",
eNB->Mod_id,eNB->proc[(subframe+1)%10].frame_rx, subframe,bytes,sizeof(fifo_dump_emos_eNB));
} else {
if (eNB->proc[(subframe+1)%10].frame_tx%100==0) {
LOG_I(PHY,"[eNB %d] Frame %d (%d), subframe %d, Writing %d bytes EMOS data to FIFO\n",
eNB->Mod_id,eNB->proc[(subframe+1)%10].frame_rx, ((fifo_dump_emos_eNB*)&emos_dump_eNB)->frame_tx, subframe, bytes);
}
}
}
}
#endif
#define AMP_OVER_SQRT2 ((AMP*ONE_OVER_SQRT2_Q15)>>15)
#define AMP_OVER_2 (AMP>>1)
int QPSK[4]= {AMP_OVER_SQRT2|(AMP_OVER_SQRT2<<16),AMP_OVER_SQRT2|((65536-AMP_OVER_SQRT2)<<16),((65536-AMP_OVER_SQRT2)<<16)|AMP_OVER_SQRT2,((65536-AMP_OVER_SQRT2)<<16)|(65536-AMP_OVER_SQRT2)};
int QPSK2[4]= {AMP_OVER_2|(AMP_OVER_2<<16),AMP_OVER_2|((65536-AMP_OVER_2)<<16),((65536-AMP_OVER_2)<<16)|AMP_OVER_2,((65536-AMP_OVER_2)<<16)|(65536-AMP_OVER_2)};
unsigned int taus(void);
DCI_PDU DCI_pdu_tmp;
void pmch_procedures(PHY_VARS_eNB *eNB,eNB_rxtx_proc_t *proc,PHY_VARS_RN *rn,relaying_type_t r_type) {
#ifdef Rel10
MCH_PDU *mch_pduP;
MCH_PDU mch_pdu;
// uint8_t sync_area=255;
#endif
int subframe = proc->subframe_tx;
if (eNB->abstraction_flag==0) {
// This is DL-Cell spec pilots in Control region
generate_pilots_slot(eNB,
eNB->common_vars.txdataF[0],
AMP,
subframe<<1,1);
}
#ifdef Rel10
// if mcch is active, send regardless of the node type: eNB or RN
// when mcch is active, MAC sched does not allow MCCH and MTCH multiplexing
mch_pduP = mac_xface->get_mch_sdu(eNB->Mod_id,
eNB->CC_id,
proc->frame_tx,
subframe);
switch (r_type) {
case no_relay:
if ((mch_pduP->Pdu_size > 0) && (mch_pduP->sync_area == 0)) // TEST: only transmit mcch for sync area 0
LOG_I(PHY,"[eNB%"PRIu8"] Frame %d subframe %d : Got MCH pdu for MBSFN (MCS %"PRIu8", TBS %d) \n",
eNB->Mod_id,proc->frame_tx,subframe,mch_pduP->mcs,
eNB->dlsch_MCH->harq_processes[0]->TBS>>3);
else {
LOG_D(PHY,"[DeNB %"PRIu8"] Frame %d subframe %d : Do not transmit MCH pdu for MBSFN sync area %"PRIu8" (%s)\n",
eNB->Mod_id,proc->frame_tx,subframe,mch_pduP->sync_area,
(mch_pduP->Pdu_size == 0)? "Empty MCH PDU":"Let RN transmit for the moment");
mch_pduP = NULL;
}
break;
case multicast_relay:
if ((mch_pduP->Pdu_size > 0) && ((mch_pduP->mcch_active == 1) || mch_pduP->msi_active==1)) {
LOG_I(PHY,"[RN %"PRIu8"] Frame %d subframe %d: Got the MCH PDU for MBSFN sync area %"PRIu8" (MCS %"PRIu8", TBS %"PRIu16")\n",
rn->Mod_id,rn->frame, subframe,
mch_pduP->sync_area,mch_pduP->mcs,mch_pduP->Pdu_size);
} else if (rn->mch_avtive[subframe%5] == 1) { // SF2 -> SF7, SF3 -> SF8
mch_pduP= &mch_pdu;
memcpy(&mch_pduP->payload, // could be a simple copy
rn->dlsch_rn_MCH[subframe%5]->harq_processes[0]->b,
rn->dlsch_rn_MCH[subframe%5]->harq_processes[0]->TBS>>3);
mch_pduP->Pdu_size = (uint16_t) (rn->dlsch_rn_MCH[subframe%5]->harq_processes[0]->TBS>>3);
mch_pduP->mcs = rn->dlsch_rn_MCH[subframe%5]->harq_processes[0]->mcs;
LOG_I(PHY,"[RN %"PRIu8"] Frame %d subframe %d: Forward the MCH PDU for MBSFN received on SF %d sync area %"PRIu8" (MCS %"PRIu8", TBS %"PRIu16")\n",
rn->Mod_id,rn->frame, subframe,subframe%5,
rn->sync_area[subframe%5],mch_pduP->mcs,mch_pduP->Pdu_size);
} else {
mch_pduP=NULL;
}
rn->mch_avtive[subframe]=0;
break;
default:
LOG_W(PHY,"[eNB %"PRIu8"] Frame %d subframe %d: unknown relaying type %d \n",
eNB->Mod_id,proc->frame_tx,subframe,r_type);
mch_pduP=NULL;
break;
}// switch
if (mch_pduP) {
fill_eNB_dlsch_MCH(eNB,mch_pduP->mcs,1,0);
// Generate PMCH
generate_mch(eNB,proc,(uint8_t*)mch_pduP->payload);
} else {
LOG_D(PHY,"[eNB/RN] Frame %d subframe %d: MCH not generated \n",proc->frame_tx,subframe);
}
#endif
}
void common_signal_procedures (PHY_VARS_eNB *eNB,eNB_rxtx_proc_t *proc) {
LTE_DL_FRAME_PARMS *fp=&eNB->frame_parms;
int **txdataF = eNB->common_vars.txdataF[0];
uint8_t *pbch_pdu=&eNB->pbch_pdu[0];
int subframe = proc->subframe_tx;
int frame = proc->frame_tx;
// generate Cell-Specific Reference Signals for both slots
if (eNB->abstraction_flag==0) {
VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME(VCD_SIGNAL_DUMPER_FUNCTIONS_PHY_ENB_RS_TX,1);
generate_pilots_slot(eNB,
txdataF,
AMP,
subframe<<1,0);
// check that 2nd slot is for DL
if (subframe_select(fp,subframe) == SF_DL)
generate_pilots_slot(eNB,
txdataF,
AMP,
(subframe<<1)+1,0);
VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME(VCD_SIGNAL_DUMPER_FUNCTIONS_PHY_ENB_RS_TX,0);
}
// First half of PSS/SSS (FDD, slot 0)
if (subframe == 0) {
if ((fp->frame_type == FDD) &&
(eNB->abstraction_flag==0)) {
generate_pss(txdataF,
AMP,
fp,
(fp->Ncp==NORMAL) ? 6 : 5,
0);
generate_sss(txdataF,
AMP,
fp,
(fp->Ncp==NORMAL) ? 5 : 4,
0);
}
// generate PBCH (Physical Broadcast CHannel) info
if ((frame&3) == 0) {
pbch_pdu[2] = 0;
// FIXME setting pbch_pdu[2] to zero makes the switch statement easier: remove all the or-operators
switch (fp->N_RB_DL) {
case 6:
pbch_pdu[2] = (pbch_pdu[2]&0x1f) | (0<<5);
break;
case 15:
pbch_pdu[2] = (pbch_pdu[2]&0x1f) | (1<<5);
break;
case 25:
pbch_pdu[2] = (pbch_pdu[2]&0x1f) | (2<<5);
break;
case 50:
pbch_pdu[2] = (pbch_pdu[2]&0x1f) | (3<<5);
break;
case 75:
pbch_pdu[2] = (pbch_pdu[2]&0x1f) | (4<<5);
break;
case 100:
pbch_pdu[2] = (pbch_pdu[2]&0x1f) | (5<<5);
break;
default:
// FIXME if we get here, this should be flagged as an error, right?
pbch_pdu[2] = (pbch_pdu[2]&0x1f) | (2<<5);
break;
}
pbch_pdu[2] = (pbch_pdu[2]&0xef) |
((fp->phich_config_common.phich_duration << 4)&0x10);
switch (fp->phich_config_common.phich_resource) {
case oneSixth:
pbch_pdu[2] = (pbch_pdu[2]&0xf3) | (0<<2);
break;
case half:
pbch_pdu[2] = (pbch_pdu[2]&0xf3) | (1<<2);
break;
case one:
pbch_pdu[2] = (pbch_pdu[2]&0xf3) | (2<<2);
break;
case two:
pbch_pdu[2] = (pbch_pdu[2]&0xf3) | (3<<2);
break;
default:
// unreachable
break;
}
pbch_pdu[2] = (pbch_pdu[2]&0xfc) | ((frame>>8)&0x3);
pbch_pdu[1] = frame&0xfc;
pbch_pdu[0] = 0;
}
/// First half of SSS (TDD, slot 1)
if ((fp->frame_type == TDD)&&
(eNB->abstraction_flag==0)){
generate_sss(txdataF,
AMP,
fp,
(fp->Ncp==NORMAL) ? 6 : 5,
1);
}
/// generate PBCH
if (eNB->abstraction_flag==0) {
generate_pbch(&eNB->pbch,
txdataF,
AMP,
fp,
pbch_pdu,
frame&3);
}
#ifdef PHY_ABSTRACTION
else {
generate_pbch_emul(eNB,pbch_pdu);
}
#endif
}
else if ((subframe == 1) &&
(fp->frame_type == TDD)&&
(eNB->abstraction_flag==0)) {
generate_pss(txdataF,
AMP,
fp,
2,
2);
}
// Second half of PSS/SSS (FDD, slot 10)
else if ((subframe == 5) &&
(fp->frame_type == FDD) &&
(eNB->abstraction_flag==0)) {
generate_pss(txdataF,
AMP,
&eNB->frame_parms,
(fp->Ncp==NORMAL) ? 6 : 5,
10);
generate_sss(txdataF,
AMP,
&eNB->frame_parms,
(fp->Ncp==NORMAL) ? 5 : 4,
10);
}
// Second-half of SSS (TDD, slot 11)
else if ((subframe == 5) &&
(fp->frame_type == TDD) &&
(eNB->abstraction_flag==0)) {
generate_sss(txdataF,
AMP,
fp,
(fp->Ncp==NORMAL) ? 6 : 5,
11);
}
// Second half of PSS (TDD, slot 12)
else if ((subframe == 6) &&
(fp->frame_type == TDD) &&
(eNB->abstraction_flag==0)) {
generate_pss(txdataF,
AMP,
fp,
2,
12);
}
}
void generate_eNB_dlsch_params(PHY_VARS_eNB *eNB,eNB_rxtx_proc_t *proc,DCI_ALLOC_t *dci_alloc,const int UE_id) {
LTE_DL_FRAME_PARMS *fp=&eNB->frame_parms;
int frame = proc->frame_tx;
int subframe = proc->subframe_tx;
// if we have SI_RNTI, configure dlsch parameters and CCE index
if (dci_alloc->rnti == SI_RNTI) {
LOG_D(PHY,"Generating dlsch params for SI_RNTI\n");
generate_eNB_dlsch_params_from_dci(frame,
subframe,
&dci_alloc->dci_pdu[0],
dci_alloc->rnti,
dci_alloc->format,
&eNB->dlsch_SI,
fp,
eNB->pdsch_config_dedicated,
SI_RNTI,
0,
P_RNTI,
eNB->UE_stats[0].DL_pmi_single);
eNB->dlsch_SI->nCCE[subframe] = dci_alloc->firstCCE;
LOG_T(PHY,"[eNB %"PRIu8"] Frame %d subframe %d : CCE resource for common DCI (SI) => %"PRIu8"\n",eNB->Mod_id,frame,subframe,
eNB->dlsch_SI->nCCE[subframe]);
#if defined(SMBV)
// configure SI DCI
if (smbv_is_config_frame(frame) && (smbv_frame_cnt < 4)) {
LOG_D(PHY,"[SMBV] Frame %3d, SI in SF %d DCI %"PRIu32"\n",frame,subframe,i);
smbv_configure_common_dci(smbv_fname,(smbv_frame_cnt*10) + (subframe), "SI", dci_alloc, i);
}
#endif
} else if (dci_alloc->ra_flag == 1) { // This is format 1A allocation for RA
// configure dlsch parameters and CCE index
LOG_D(PHY,"Generating dlsch params for RA_RNTI\n");
generate_eNB_dlsch_params_from_dci(frame,
subframe,
&dci_alloc->dci_pdu[0],
dci_alloc->rnti,
dci_alloc->format,
&eNB->dlsch_ra,
fp,
eNB->pdsch_config_dedicated,
SI_RNTI,
dci_alloc->rnti,
P_RNTI,
eNB->UE_stats[0].DL_pmi_single);
eNB->dlsch_ra->nCCE[subframe] = dci_alloc->firstCCE;
LOG_D(PHY,"[eNB %"PRIu8"] Frame %d subframe %d : CCE resource for common DCI (RA) => %"PRIu8"\n",eNB->Mod_id,frame,subframe,
eNB->dlsch_ra->nCCE[subframe]);
#if defined(SMBV)
// configure RA DCI
if (smbv_is_config_frame(frame) && (smbv_frame_cnt < 4)) {
LOG_D(PHY,"[SMBV] Frame %3d, RA in SF %d DCI %"PRIu32"\n",frame,subframe,i);
smbv_configure_common_dci(smbv_fname,(smbv_frame_cnt*10) + (subframe), "RA", dci_alloc, i);
}
#endif
}
else if ((dci_alloc->format != format0)&&
(dci_alloc->format != format3)&&
(dci_alloc->format != format3A)&&
(dci_alloc->format != format4)){ // this is a normal DLSCH allocation
if (UE_id>=0) {
#if defined(SMBV)
// Configure this user
if (smbv_is_config_frame(frame) && (smbv_frame_cnt < 4)) {
LOG_D(PHY,"[SMBV] Frame %3d, SF %d (SMBV SF %d) Configuring user %d with RNTI %"PRIu16" in TM%"PRIu8"\n",frame,subframe,(smbv_frame_cnt*10) + (subframe),UE_id+1,
dci_alloc->rnti,eNB->transmission_mode[(uint8_t)UE_id]);
smbv_configure_user(smbv_fname,UE_id+1,eNB->transmission_mode[(uint8_t)UE_id],dci_alloc->rnti);
}
#endif
LOG_D(PHY,"Generating dlsch params for RNTI %x\n",dci_alloc->rnti);
generate_eNB_dlsch_params_from_dci(frame,
subframe,
&dci_alloc->dci_pdu[0],
dci_alloc->rnti,
dci_alloc->format,
eNB->dlsch[(uint8_t)UE_id],
fp,
eNB->pdsch_config_dedicated,
SI_RNTI,
0,
P_RNTI,
eNB->UE_stats[(uint8_t)UE_id].DL_pmi_single);
LOG_D(PHY,"[eNB %"PRIu8"][PDSCH %"PRIx16"/%"PRIu8"] Frame %d subframe %d: Generated dlsch params\n",
eNB->Mod_id,dci_alloc->rnti,eNB->dlsch[(uint8_t)UE_id][0]->current_harq_pid,frame,subframe);
T(T_ENB_PHY_DLSCH_UE_DCI, T_INT(eNB->Mod_id), T_INT(frame), T_INT(subframe), T_INT(UE_id),
T_INT(dci_alloc->rnti), T_INT(dci_alloc->format),
T_INT(eNB->dlsch[(int)UE_id][0]->current_harq_pid));
eNB->dlsch[(uint8_t)UE_id][0]->nCCE[subframe] = dci_alloc->firstCCE;
LOG_D(PHY,"[eNB %"PRIu8"] Frame %d subframe %d : CCE resource for ue DCI (PDSCH %"PRIx16") => %"PRIu8"/%u\n",eNB->Mod_id,frame,subframe,
dci_alloc->rnti,eNB->dlsch[(uint8_t)UE_id][0]->nCCE[subframe]);
#if defined(SMBV)
// configure UE-spec DCI
if (smbv_is_config_frame(frame) && (smbv_frame_cnt < 4)) {
LOG_D(PHY,"[SMBV] Frame %3d, PDSCH in SF %d DCI %"PRIu32"\n",frame,subframe,i);
smbv_configure_ue_spec_dci(smbv_fname,(smbv_frame_cnt*10) + (subframe), UE_id+1,dci_alloc, i);
}
#endif
LOG_D(PHY,"[eNB %"PRIu8"][DCI][PDSCH %"PRIx16"] Frame %d subframe %d UE_id %"PRId8" Generated DCI format %d, aggregation %d\n",
eNB->Mod_id, dci_alloc->rnti,
frame, subframe,UE_id,
dci_alloc->format,
1<L);
} else {
LOG_D(PHY,"[eNB %"PRIu8"][PDSCH] Frame %d : No UE_id with corresponding rnti %"PRIx16", dropping DLSCH\n",
eNB->Mod_id,frame,dci_alloc->rnti);
}
}
}
void generate_eNB_ulsch_params(PHY_VARS_eNB *eNB,eNB_rxtx_proc_t *proc,DCI_ALLOC_t *dci_alloc,const int UE_id) {
int harq_pid;
LTE_DL_FRAME_PARMS *fp=&eNB->frame_parms;
int frame = proc->frame_tx;
int subframe = proc->subframe_tx;
LOG_D(PHY,
"[eNB %"PRIu8"][PUSCH %"PRIu8"] Frame %d subframe %d UL Frame %"PRIu32", UL Subframe %"PRIu8", Generated ULSCH (format0) DCI (rnti %"PRIx16", dci %"PRIx8"), aggregation %d\n",
eNB->Mod_id,
subframe2harq_pid(fp,
pdcch_alloc2ul_frame(fp,frame,subframe),
pdcch_alloc2ul_subframe(fp,subframe)),
frame,
subframe,
pdcch_alloc2ul_frame(fp,frame,subframe),
pdcch_alloc2ul_subframe(fp,subframe),
dci_alloc->rnti,
dci_alloc->dci_pdu[0],
1<L);
generate_eNB_ulsch_params_from_dci(eNB,
proc,
&dci_alloc->dci_pdu[0],
dci_alloc->rnti,
format0,
UE_id,
SI_RNTI,
0,
P_RNTI,
CBA_RNTI,
0); // do_srs
LOG_T(PHY,"[eNB %"PRIu8"] Frame %d subframe %d : CCE resources for UE spec DCI (PUSCH %"PRIx16") => %d\n",
eNB->Mod_id,frame,subframe,dci_alloc->rnti,
dci_alloc->firstCCE);
#if defined(SMBV)
// configure UE-spec DCI for UL Grant
if (smbv_is_config_frame(frame) && (smbv_frame_cnt < 4)) {
LOG_D(PHY,"[SMBV] Frame %3d, SF %d UL DCI %"PRIu32"\n",frame,subframe,i);
smbv_configure_ue_spec_dci(smbv_fname,(smbv_frame_cnt*10) + (subframe), UE_id+1, &DCI_pdu->dci_alloc[i], i);
}
#endif
// get the hard_pid for this subframe
harq_pid = subframe2harq_pid(fp,
pdcch_alloc2ul_frame(fp,frame,subframe),
pdcch_alloc2ul_subframe(fp,subframe));
if (harq_pid==255) { // should not happen, log an error and exit, this is a fatal error
LOG_E(PHY,"[eNB %"PRIu8"] Frame %d: Bad harq_pid for ULSCH allocation\n",eNB->Mod_id,frame);
mac_xface->macphy_exit("FATAL\n");
}
if ((dci_alloc->rnti >= CBA_RNTI) && (dci_alloc->rnti < P_RNTI))
eNB->ulsch[(uint32_t)UE_id]->harq_processes[harq_pid]->subframe_cba_scheduling_flag = 1;
else
eNB->ulsch[(uint32_t)UE_id]->harq_processes[harq_pid]->subframe_scheduling_flag = 1;
T(T_ENB_PHY_ULSCH_UE_DCI, T_INT(eNB->Mod_id), T_INT(frame), T_INT(subframe), T_INT(UE_id),
T_INT(dci_alloc->rnti), T_INT(harq_pid));
}
void pdsch_procedures(PHY_VARS_eNB *eNB,eNB_rxtx_proc_t *proc,LTE_eNB_DLSCH_t *dlsch, LTE_eNB_DLSCH_t *dlsch1,LTE_eNB_UE_stats *ue_stats,int ra_flag,int num_pdcch_symbols) {
int frame=proc->frame_tx;
int subframe=proc->subframe_tx;
int harq_pid = dlsch->current_harq_pid;
LTE_DL_eNB_HARQ_t *dlsch_harq=dlsch->harq_processes[harq_pid];
int input_buffer_length = dlsch_harq->TBS/8;
LTE_DL_FRAME_PARMS *fp=&eNB->frame_parms;
uint8_t *DLSCH_pdu=NULL;
uint8_t DLSCH_pdu_tmp[768*8];
uint8_t DLSCH_pdu_rar[256];
int i;
LOG_D(PHY,
"[eNB %"PRIu8"][PDSCH %"PRIx16"/%"PRIu8"] Frame %d, subframe %d: Generating PDSCH/DLSCH with input size = %"PRIu16", G %d, nb_rb %"PRIu16", mcs %"PRIu8", pmi_alloc %"PRIx16", rv %"PRIu8" (round %"PRIu8")\n",
eNB->Mod_id, dlsch->rnti,harq_pid,
frame, subframe, input_buffer_length,
get_G(fp,
dlsch_harq->nb_rb,
dlsch_harq->rb_alloc,
get_Qm(dlsch_harq->mcs),
dlsch_harq->Nl,
num_pdcch_symbols,frame,subframe),
dlsch_harq->nb_rb,
dlsch_harq->mcs,
pmi2hex_2Ar1(dlsch_harq->pmi_alloc),
dlsch_harq->rvidx,
dlsch_harq->round);
#if defined(MESSAGE_CHART_GENERATOR_PHY)
MSC_LOG_TX_MESSAGE(
MSC_PHY_ENB,MSC_PHY_UE,
NULL,0,
"%05u:%02u PDSCH/DLSCH input size = %"PRIu16", G %d, nb_rb %"PRIu16", mcs %"PRIu8", pmi_alloc %"PRIx16", rv %"PRIu8" (round %"PRIu8")",
frame, subframe,
input_buffer_length,
get_G(fp,
dlsch_harq->nb_rb,
dlsch_harq->rb_alloc,
get_Qm(dlsch_harq->mcs),
dlsch_harq->Nl,
num_pdcch_symbols,frame,subframe),
dlsch_harq->nb_rb,
dlsch_harq->mcs,
pmi2hex_2Ar1(dlsch_harq->pmi_alloc),
dlsch_harq->rvidx,
dlsch_harq->round);
#endif
if (ue_stats) ue_stats->dlsch_sliding_cnt++;
if (dlsch_harq->round == 0) {
if (ue_stats)
ue_stats->dlsch_trials[harq_pid][0]++;
if (eNB->mac_enabled==1) {
if (ra_flag == 0) {
DLSCH_pdu = mac_xface->get_dlsch_sdu(eNB->Mod_id,
eNB->CC_id,
frame,
dlsch->rnti,
0);
}
else {
int16_t crnti = mac_xface->fill_rar(eNB->Mod_id,
eNB->CC_id,
frame,
DLSCH_pdu_rar,
fp->N_RB_UL,
input_buffer_length);
DLSCH_pdu = DLSCH_pdu_rar;
int UE_id;
if (crnti!=0)
UE_id = add_ue(crnti,eNB);
else
UE_id = -1;
if (UE_id==-1) {
LOG_W(PHY,"[eNB] Max user count reached.\n");
mac_xface->cancel_ra_proc(eNB->Mod_id,
eNB->CC_id,
frame,
crnti);
} else {
eNB->UE_stats[(uint32_t)UE_id].mode = RA_RESPONSE;
// Initialize indicator for first SR (to be cleared after ConnectionSetup is acknowledged)
eNB->first_sr[(uint32_t)UE_id] = 1;
generate_eNB_ulsch_params_from_rar(DLSCH_pdu,
frame,
(subframe),
eNB->ulsch[(uint32_t)UE_id],
fp);
eNB->ulsch[(uint32_t)UE_id]->Msg3_active = 1;
get_Msg3_alloc(fp,
subframe,
frame,
&eNB->ulsch[(uint32_t)UE_id]->Msg3_frame,
&eNB->ulsch[(uint32_t)UE_id]->Msg3_subframe);
LOG_D(PHY,"[eNB][RAPROC] Frame %d subframe %d, Activated Msg3 demodulation for UE %"PRId8" in frame %"PRIu32", subframe %"PRIu8"\n",
frame,
subframe,
UE_id,
eNB->ulsch[(uint32_t)UE_id]->Msg3_frame,
eNB->ulsch[(uint32_t)UE_id]->Msg3_subframe);
}
if (ue_stats) ue_stats->total_TBS_MAC += dlsch_harq->TBS;
}
}
else {
DLSCH_pdu = DLSCH_pdu_tmp;
for (i=0; irnti,eNB)+1, DLSCH_pdu, input_buffer_length);
}
#endif
#ifdef DEBUG_PHY_PROC
#ifdef DEBUG_DLSCH
LOG_T(PHY,"eNB DLSCH SDU: \n");
//eNB->dlsch[(uint8_t)UE_id][0]->nCCE[subframe] = DCI_pdu->dci_alloc[i].firstCCE;
LOG_D(PHY,"[eNB %"PRIu8"] Frame %d subframe %d : CCE resource for ue DCI (PDSCH %"PRIx16") => %"PRIu8"/%u\n",eNB->Mod_id,eNB->proc[sched_subframe].frame_tx,subframe,
DCI_pdu->dci_alloc[i].rnti,eNB->dlsch[(uint8_t)UE_id][0]->nCCE[subframe],DCI_pdu->dci_alloc[i].firstCCE);
for (i=0; iTBS>>3; i++)
LOG_T(PHY,"%"PRIx8".",DLSCH_pdu[i]);
LOG_T(PHY,"\n");
#endif
#endif
} else {
ue_stats->dlsch_trials[harq_pid][dlsch_harq->round]++;
#ifdef DEBUG_PHY_PROC
#ifdef DEBUG_DLSCH
LOG_D(PHY,"[eNB] This DLSCH is a retransmission\n");
#endif
#endif
}
if (eNB->abstraction_flag==0) {
LOG_D(PHY,"Generating DLSCH/PDSCH %d\n",ra_flag);
// 36-212
start_meas(&eNB->dlsch_encoding_stats);
dlsch_encoding(DLSCH_pdu,
fp,
num_pdcch_symbols,
dlsch,
frame,subframe,
&eNB->dlsch_rate_matching_stats,
&eNB->dlsch_turbo_encoding_stats,
&eNB->dlsch_interleaving_stats);
stop_meas(&eNB->dlsch_encoding_stats);
// 36-211
start_meas(&eNB->dlsch_scrambling_stats);
dlsch_scrambling(fp,
0,
dlsch,
get_G(fp,
dlsch_harq->nb_rb,
dlsch_harq->rb_alloc,
get_Qm(dlsch_harq->mcs),
dlsch_harq->Nl,
num_pdcch_symbols,frame,subframe),
0,
subframe<<1);
stop_meas(&eNB->dlsch_scrambling_stats);
start_meas(&eNB->dlsch_modulation_stats);
dlsch_modulation(eNB->common_vars.txdataF[0],
AMP,
subframe,
fp,
num_pdcch_symbols,
dlsch,
dlsch1);
stop_meas(&eNB->dlsch_modulation_stats);
}
#ifdef PHY_ABSTRACTION
else {
start_meas(&eNB->dlsch_encoding_stats);
dlsch_encoding_emul(eNB,
DLSCH_pdu,
dlsch);
stop_meas(&eNB->dlsch_encoding_stats);
}
#endif
dlsch->active = 0;
}
void phy_procedures_eNB_TX(PHY_VARS_eNB *eNB,
eNB_rxtx_proc_t *proc,
relaying_type_t r_type,
PHY_VARS_RN *rn)
{
UNUSED(rn);
int frame=proc->frame_tx;
int subframe=proc->subframe_tx;
// uint16_t input_buffer_length;
uint32_t i,aa;
uint8_t harq_pid;
DCI_PDU *DCI_pdu;
DCI_PDU DCI_pdu_tmp;
int8_t UE_id=0;
uint8_t num_pdcch_symbols=0;
uint8_t ul_subframe;
uint32_t ul_frame;
LTE_DL_FRAME_PARMS *fp=&eNB->frame_parms;
DCI_ALLOC_t *dci_alloc=(DCI_ALLOC_t *)NULL;
#if defined(SMBV)
// counts number of allocations in subframe
// there is at least one allocation for PDCCH
uint8_t smbv_alloc_cnt = 1;
#endif
if ((fp->frame_type == TDD) && (subframe_select(fp,subframe)!=SF_DL)) return;
VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME(VCD_SIGNAL_DUMPER_FUNCTIONS_PHY_PROCEDURES_ENB_TX+(subframe&1),1);
start_meas(&eNB->phy_proc_tx);
T(T_ENB_PHY_DL_TICK, T_INT(eNB->Mod_id), T_INT(frame), T_INT(subframe));
for (i=0; iUE_stats[i].crnti > 0) {
LOG_I(PHY,"UE %d : rnti %x\n",i,eNB->UE_stats[i].crnti);
}
}
if (eNB->UE_stats[i].ulsch_consecutive_errors == ULSCH_max_consecutive_errors) {
LOG_W(PHY,"[eNB %d, CC %d] frame %d, subframe %d, UE %d: ULSCH consecutive error count reached %u, triggering UL Failure\n",
eNB->Mod_id,eNB->CC_id,frame,subframe, i, eNB->UE_stats[i].ulsch_consecutive_errors);
eNB->UE_stats[i].ulsch_consecutive_errors=0;
mac_xface->UL_failure_indication(eNB->Mod_id,
eNB->CC_id,
frame,
eNB->UE_stats[i].crnti,
subframe);
}
}
// Get scheduling info for next subframe
// This is called only for the CC_id = 0 and triggers scheduling for all CC_id's
if (eNB->mac_enabled==1) {
if (eNB->CC_id == 0) {
mac_xface->eNB_dlsch_ulsch_scheduler(eNB->Mod_id,0,frame,subframe);//,1);
}
}
// clear the transmit data array for the current subframe
if (eNB->abstraction_flag==0) {
for (aa=0; aanb_antennas_tx_eNB; aa++) {
memset(&eNB->common_vars.txdataF[0][aa][subframe*fp->ofdm_symbol_size*(fp->symbols_per_tti)],
0,fp->ofdm_symbol_size*(fp->symbols_per_tti)*sizeof(int32_t));
}
}
if (is_pmch_subframe(frame,subframe,fp)) {
pmch_procedures(eNB,proc,rn,r_type);
}
else {
// this is not a pmch subframe, so generate PSS/SSS/PBCH
common_signal_procedures(eNB,proc);
}
#if defined(SMBV)
// PBCH takes one allocation
if (smbv_is_config_frame(frame) && (smbv_frame_cnt < 4)) {
if (subframe==0)
smbv_alloc_cnt++;
}
#endif
if (eNB->mac_enabled==1) {
// Parse DCI received from MAC
VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME(VCD_SIGNAL_DUMPER_FUNCTIONS_PHY_ENB_PDCCH_TX,1);
DCI_pdu = mac_xface->get_dci_sdu(eNB->Mod_id,
eNB->CC_id,
frame,
subframe);
}
else {
DCI_pdu = &DCI_pdu_tmp;
#ifdef EMOS_CHANNEL
fill_dci_emos(DCI_pdu,eNB);
#else
fill_dci(DCI_pdu,eNB,proc);
#endif
}
// clear existing ulsch dci allocations before applying info from MAC (this is table
ul_subframe = pdcch_alloc2ul_subframe(fp,subframe);
ul_frame = pdcch_alloc2ul_frame(fp,frame,subframe);
if ((subframe_select(fp,ul_subframe)==SF_UL) ||
(fp->frame_type == FDD)) {
harq_pid = subframe2harq_pid(fp,ul_frame,ul_subframe);
// clear DCI allocation maps for new subframe
for (i=0; iulsch[i]) {
eNB->ulsch[i]->harq_processes[harq_pid]->dci_alloc=0;
eNB->ulsch[i]->harq_processes[harq_pid]->rar_alloc=0;
}
}
// clear previous allocation information for all UEs
for (i=0; idlsch[i][0])
eNB->dlsch[i][0]->subframe_tx[subframe] = 0;
}
num_pdcch_symbols = DCI_pdu->num_pdcch_symbols;
LOG_D(PHY,"num_pdcch_symbols %"PRIu8",(dci common %"PRIu8", dci uespec %"PRIu8"\n",num_pdcch_symbols,
DCI_pdu->Num_common_dci,DCI_pdu->Num_ue_spec_dci);
#if defined(SMBV)
// Sets up PDCCH and DCI table
if (smbv_is_config_frame(frame) && (smbv_frame_cnt < 4) && ((DCI_pdu->Num_common_dci+DCI_pdu->Num_ue_spec_dci)>0)) {
LOG_D(PHY,"[SMBV] Frame %3d, SF %d PDCCH, number of DCIs %d\n",frame,subframe,DCI_pdu->Num_common_dci+DCI_pdu->Num_ue_spec_dci);
dump_dci(fp,&DCI_pdu->dci_alloc[0]);
smbv_configure_pdcch(smbv_fname,(smbv_frame_cnt*10) + (subframe),num_pdcch_symbols,DCI_pdu->Num_common_dci+DCI_pdu->Num_ue_spec_dci);
}
#endif
VCD_SIGNAL_DUMPER_DUMP_VARIABLE_BY_NAME(VCD_SIGNAL_DUMPER_VARIABLES_DCI_INFO,DCI_pdu->num_pdcch_symbols);
// loop over all DCIs for this subframe to generate DLSCH allocations
for (i=0; iNum_common_dci + DCI_pdu->Num_ue_spec_dci ; i++) {
LOG_D(PHY,"[eNB] Subframe %d: DCI %d/%d : rnti %x, CCEind %d\n",subframe,i,DCI_pdu->Num_common_dci+DCI_pdu->Num_ue_spec_dci,DCI_pdu->dci_alloc[i].rnti,DCI_pdu->dci_alloc[i].firstCCE);
VCD_SIGNAL_DUMPER_DUMP_VARIABLE_BY_NAME(VCD_SIGNAL_DUMPER_VARIABLES_DCI_INFO,DCI_pdu->dci_alloc[i].rnti);
VCD_SIGNAL_DUMPER_DUMP_VARIABLE_BY_NAME(VCD_SIGNAL_DUMPER_VARIABLES_DCI_INFO,DCI_pdu->dci_alloc[i].format);
VCD_SIGNAL_DUMPER_DUMP_VARIABLE_BY_NAME(VCD_SIGNAL_DUMPER_VARIABLES_DCI_INFO,DCI_pdu->dci_alloc[i].firstCCE);
dci_alloc = &DCI_pdu->dci_alloc[i];
if ((dci_alloc->rnti<= P_RNTI) &&
(dci_alloc->ra_flag!=1)) {
if (eNB->mac_enabled==1)
UE_id = find_ue((int16_t)dci_alloc->rnti,eNB);
else
UE_id = i;
}
else UE_id=0;
generate_eNB_dlsch_params(eNB,proc,dci_alloc,UE_id);
}
VCD_SIGNAL_DUMPER_DUMP_VARIABLE_BY_NAME(VCD_SIGNAL_DUMPER_VARIABLES_DCI_INFO,(frame*10)+subframe);
// Apply physicalConfigDedicated if needed
// This is for UEs that have received this IE, which changes these DL and UL configuration, we apply after a delay for the eNodeB UL parameters
phy_config_dedicated_eNB_step2(eNB);
// Now loop again over the DCIs for UL configuration
for (i=0; iNum_common_dci + DCI_pdu->Num_ue_spec_dci ; i++) {
dci_alloc = &DCI_pdu->dci_alloc[i];
if (dci_alloc->format == format0) { // this is a ULSCH allocation
if (eNB->mac_enabled==1)
UE_id = find_ue((int16_t)dci_alloc->rnti,eNB);
else
UE_id = i;
if (UE_id<0) { // should not happen, log an error and exit, this is a fatal error
LOG_E(PHY,"[eNB %"PRIu8"] Frame %d: Unknown UE_id for rnti %"PRIx16"\n",eNB->Mod_id,frame,dci_alloc->rnti);
mac_xface->macphy_exit("FATAL\n");
}
generate_eNB_ulsch_params(eNB,proc,dci_alloc,UE_id);
}
}
// if we have DCI to generate do it now
if ((DCI_pdu->Num_common_dci + DCI_pdu->Num_ue_spec_dci)>0) {
} else { // for emulation!!
eNB->num_ue_spec_dci[(subframe)&1]=0;
eNB->num_common_dci[(subframe)&1]=0;
}
if (eNB->abstraction_flag == 0) {
if (DCI_pdu->Num_ue_spec_dci+DCI_pdu->Num_common_dci > 0) {
LOG_D(PHY,"[eNB %"PRIu8"] Frame %d, subframe %d: Calling generate_dci_top (pdcch) (common %"PRIu8",ue_spec %"PRIu8")\n",eNB->Mod_id,frame, subframe,
DCI_pdu->Num_common_dci,DCI_pdu->Num_ue_spec_dci);
}
num_pdcch_symbols = generate_dci_top(DCI_pdu->Num_ue_spec_dci,
DCI_pdu->Num_common_dci,
DCI_pdu->dci_alloc,
0,
AMP,
fp,
eNB->common_vars.txdataF[0],
subframe);
}
#ifdef PHY_ABSTRACTION // FIXME this ifdef seems suspicious
else {
LOG_D(PHY,"[eNB %"PRIu8"] Frame %d, subframe %d: Calling generate_dci_to_emul\n",eNB->Mod_id,frame, subframe);
num_pdcch_symbols = generate_dci_top_emul(eNB,DCI_pdu->Num_ue_spec_dci,DCI_pdu->Num_common_dci,DCI_pdu->dci_alloc,subframe);
}
#endif
VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME(VCD_SIGNAL_DUMPER_FUNCTIONS_PHY_ENB_PDCCH_TX,0);
// Check for SI activity
if ((eNB->dlsch_SI) && (eNB->dlsch_SI->active == 1)) {
pdsch_procedures(eNB,proc,eNB->dlsch_SI,(LTE_eNB_DLSCH_t*)NULL,(LTE_eNB_UE_stats*)NULL,0,num_pdcch_symbols);
#if defined(SMBV)
// Configures the data source of allocation (allocation is configured by DCI)
if (smbv_is_config_frame(frame) && (smbv_frame_cnt < 4)) {
LOG_D(PHY,"[SMBV] Frame %3d, Configuring SI payload in SF %d alloc %"PRIu8"\n",frame,(smbv_frame_cnt*10) + (subframe),smbv_alloc_cnt);
smbv_configure_datalist_for_alloc(smbv_fname, smbv_alloc_cnt++, (smbv_frame_cnt*10) + (subframe), DLSCH_pdu, input_buffer_length);
}
#endif
}
// Check for RA activity
if ((eNB->dlsch_ra) && (eNB->dlsch_ra->active == 1)) {
#if defined(SMBV)
// Configures the data source of allocation (allocation is configured by DCI)
if (smbv_is_config_frame(frame) && (smbv_frame_cnt < 4)) {
LOG_D(PHY,"[SMBV] Frame %3d, Configuring RA payload in SF %d alloc %"PRIu8"\n",frame,(smbv_frame_cnt*10) + (subframe),smbv_alloc_cnt);
smbv_configure_datalist_for_alloc(smbv_fname, smbv_alloc_cnt++, (smbv_frame_cnt*10) + (subframe), dlsch_input_buffer, input_buffer_length);
}
#endif
LOG_D(PHY,"[eNB %"PRIu8"][RAPROC] Frame %d, subframe %d: Calling generate_dlsch (RA),Msg3 frame %"PRIu32", Msg3 subframe %"PRIu8"\n",
eNB->Mod_id,
frame, subframe,
eNB->ulsch[(uint32_t)UE_id]->Msg3_frame,
eNB->ulsch[(uint32_t)UE_id]->Msg3_subframe);
pdsch_procedures(eNB,proc,eNB->dlsch_ra,(LTE_eNB_DLSCH_t*)NULL,(LTE_eNB_UE_stats*)NULL,1,num_pdcch_symbols);
eNB->dlsch_ra->active = 0;
}
// Now scan UE specific DLSCH
for (UE_id=0; UE_iddlsch[(uint8_t)UE_id][0])&&
(eNB->dlsch[(uint8_t)UE_id][0]->rnti>0)&&
(eNB->dlsch[(uint8_t)UE_id][0]->active == 1)) {
pdsch_procedures(eNB,proc,eNB->dlsch[(uint8_t)UE_id][0],eNB->dlsch[(uint8_t)UE_id][1],&eNB->UE_stats[(uint32_t)UE_id],0,num_pdcch_symbols);
}
else if ((eNB->dlsch[(uint8_t)UE_id][0])&&
(eNB->dlsch[(uint8_t)UE_id][0]->rnti>0)&&
(eNB->dlsch[(uint8_t)UE_id][0]->active == 0)) {
// clear subframe TX flag since UE is not scheduled for PDSCH in this subframe (so that we don't look for PUCCH later)
eNB->dlsch[(uint8_t)UE_id][0]->subframe_tx[subframe]=0;
}
}
// if we have PHICH to generate
if (is_phich_subframe(fp,subframe))
{
generate_phich_top(eNB,
proc,
AMP,
0);
}
#ifdef EMOS
phy_procedures_emos_eNB_TX(subframe, eNB);
#endif
VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME(VCD_SIGNAL_DUMPER_FUNCTIONS_PHY_PROCEDURES_ENB_TX+(subframe&1),0);
stop_meas(&eNB->phy_proc_tx);
}
void process_Msg3(PHY_VARS_eNB *eNB,eNB_rxtx_proc_t *proc,uint8_t UE_id, uint8_t harq_pid)
{
// this prepares the demodulation of the first PUSCH of a new user, containing Msg3
int subframe = proc->subframe_rx;
int frame = proc->frame_rx;
LOG_D(PHY,"[eNB %d][RAPROC] frame %d : subframe %d : process_Msg3 UE_id %d (active %d, subframe %d, frame %d)\n",
eNB->Mod_id,
frame,subframe,
UE_id,eNB->ulsch[(uint32_t)UE_id]->Msg3_active,
eNB->ulsch[(uint32_t)UE_id]->Msg3_subframe,
eNB->ulsch[(uint32_t)UE_id]->Msg3_frame);
eNB->ulsch[(uint32_t)UE_id]->Msg3_flag = 0;
if ((eNB->ulsch[(uint32_t)UE_id]->Msg3_active == 1) &&
(eNB->ulsch[(uint32_t)UE_id]->Msg3_subframe == subframe) &&
(eNB->ulsch[(uint32_t)UE_id]->Msg3_frame == (uint32_t)frame)) {
// harq_pid = 0;
eNB->ulsch[(uint32_t)UE_id]->Msg3_active = 0;
eNB->ulsch[(uint32_t)UE_id]->Msg3_flag = 1;
eNB->ulsch[(uint32_t)UE_id]->harq_processes[harq_pid]->subframe_scheduling_flag=1;
LOG_D(PHY,"[eNB %d][RAPROC] frame %d, subframe %d: Setting subframe_scheduling_flag (Msg3) for UE %d\n",
eNB->Mod_id,
frame,subframe,UE_id);
}
}
// This function retrieves the harq_pid of the corresponding DLSCH process
// and updates the error statistics of the DLSCH based on the received ACK
// info from UE along with the round index. It also performs the fine-grain
// rate-adaptation based on the error statistics derived from the ACK/NAK process
void process_HARQ_feedback(uint8_t UE_id,
PHY_VARS_eNB *eNB,
eNB_rxtx_proc_t *proc,
uint8_t pusch_flag,
uint8_t *pucch_payload,
uint8_t pucch_sel,
uint8_t SR_payload)
{
LTE_DL_FRAME_PARMS *fp=&eNB->frame_parms;
uint8_t dl_harq_pid[8],dlsch_ACK[8],dl_subframe;
LTE_eNB_DLSCH_t *dlsch = eNB->dlsch[(uint32_t)UE_id][0];
LTE_eNB_UE_stats *ue_stats = &eNB->UE_stats[(uint32_t)UE_id];
LTE_DL_eNB_HARQ_t *dlsch_harq_proc;
uint8_t subframe_m4,M,m;
int mp;
int all_ACKed=1,nb_alloc=0,nb_ACK=0;
int frame = proc->frame_rx;
int subframe = proc->subframe_rx;
int harq_pid = subframe2harq_pid( fp,frame,subframe);
if (fp->frame_type == FDD) { //FDD
subframe_m4 = (subframe<4) ? subframe+6 : subframe-4;
dl_harq_pid[0] = dlsch->harq_ids[subframe_m4];
M=1;
if (pusch_flag == 1) {
dlsch_ACK[0] = eNB->ulsch[(uint8_t)UE_id]->harq_processes[harq_pid]->o_ACK[0];
if (dlsch->subframe_tx[subframe_m4]==1)
LOG_D(PHY,"[eNB %d] Frame %d: Received ACK/NAK %d on PUSCH for subframe %d\n",eNB->Mod_id,
frame,dlsch_ACK[0],subframe_m4);
}
else {
dlsch_ACK[0] = pucch_payload[0];
LOG_D(PHY,"[eNB %d] Frame %d: Received ACK/NAK %d on PUCCH for subframe %d\n",eNB->Mod_id,
frame,dlsch_ACK[0],subframe_m4);
/*
if (dlsch_ACK[0]==0)
AssertFatal(0,"Exiting on NAK on PUCCH\n");
*/
}
#if defined(MESSAGE_CHART_GENERATOR_PHY)
MSC_LOG_RX_MESSAGE(
MSC_PHY_ENB,MSC_PHY_UE,
NULL,0,
"%05u:%02u %s received %s rnti %x harq id %u tx SF %u",
frame,subframe,
(pusch_flag == 1)?"PUSCH":"PUCCH",
(dlsch_ACK[0])?"ACK":"NACK",
dlsch->rnti,
dl_harq_pid[0],
subframe_m4
);
#endif
} else { // TDD Handle M=1,2 cases only
M=ul_ACK_subframe2_M(fp,
subframe);
// Now derive ACK information for TDD
if (pusch_flag == 1) { // Do PUSCH ACK/NAK first
// detect missing DAI
//FK: this code is just a guess
//RK: not exactly, yes if scheduled from PHICH (i.e. no DCI format 0)
// otherwise, it depends on how many of the PDSCH in the set are scheduled, we can leave it like this,
// but we have to adapt the code below. For example, if only one out of 2 are scheduled, only 1 bit o_ACK is used
dlsch_ACK[0] = eNB->ulsch[(uint8_t)UE_id]->harq_processes[harq_pid]->o_ACK[0];
dlsch_ACK[1] = (eNB->pucch_config_dedicated[UE_id].tdd_AckNackFeedbackMode == bundling)
?eNB->ulsch[(uint8_t)UE_id]->harq_processes[harq_pid]->o_ACK[0]:eNB->ulsch[(uint8_t)UE_id]->harq_processes[harq_pid]->o_ACK[1];
}
else { // PUCCH ACK/NAK
if ((SR_payload == 1)&&(pucch_sel!=2)) { // decode Table 7.3 if multiplexing and SR=1
nb_ACK = 0;
if (M == 2) {
if ((pucch_payload[0] == 1) && (pucch_payload[1] == 1)) // b[0],b[1]
nb_ACK = 1;
else if ((pucch_payload[0] == 1) && (pucch_payload[1] == 0))
nb_ACK = 2;
} else if (M == 3) {
if ((pucch_payload[0] == 1) && (pucch_payload[1] == 1))
nb_ACK = 1;
else if ((pucch_payload[0] == 1) && (pucch_payload[1] == 0))
nb_ACK = 2;
else if ((pucch_payload[0] == 0) && (pucch_payload[1] == 1))
nb_ACK = 3;
}
} else if (pucch_sel == 2) { // bundling or M=1
dlsch_ACK[0] = pucch_payload[0];
dlsch_ACK[1] = pucch_payload[0];
} else { // multiplexing with no SR, this is table 10.1
if (M==1)
dlsch_ACK[0] = pucch_payload[0];
else if (M==2) {
if (((pucch_sel == 1) && (pucch_payload[0] == 1) && (pucch_payload[1] == 1)) ||
((pucch_sel == 0) && (pucch_payload[0] == 0) && (pucch_payload[1] == 1)))
dlsch_ACK[0] = 1;
else
dlsch_ACK[0] = 0;
if (((pucch_sel == 1) && (pucch_payload[0] == 1) && (pucch_payload[1] == 1)) ||
((pucch_sel == 1) && (pucch_payload[0] == 0) && (pucch_payload[1] == 0)))
dlsch_ACK[1] = 1;
else
dlsch_ACK[1] = 0;
}
}
}
}
// handle case where positive SR was transmitted with multiplexing
if ((SR_payload == 1)&&(pucch_sel!=2)&&(pusch_flag == 0)) {
nb_alloc = 0;
for (m=0; msubframe_tx[dl_subframe]==1)
nb_alloc++;
}
if (nb_alloc == nb_ACK)
all_ACKed = 1;
else
all_ACKed = 0;
}
for (m=0,mp=-1; msubframe_tx[dl_subframe]==1) {
if (pusch_flag == 1)
mp++;
else
mp = m;
dl_harq_pid[m] = dlsch->harq_ids[dl_subframe];
if ((pucch_sel != 2)&&(pusch_flag == 0)) { // multiplexing
if ((SR_payload == 1)&&(all_ACKed == 1))
dlsch_ACK[m] = 1;
else
dlsch_ACK[m] = 0;
}
if (dl_harq_pid[m]Mdlharq) {
dlsch_harq_proc = dlsch->harq_processes[dl_harq_pid[m]];
#ifdef DEBUG_PHY_PROC
LOG_D(PHY,"[eNB %d][PDSCH %x/%d] subframe %d, status %d, round %d (mcs %d, rv %d, TBS %d)\n",eNB->Mod_id,
dlsch->rnti,dl_harq_pid[m],dl_subframe,
dlsch_harq_proc->status,dlsch_harq_proc->round,
dlsch->harq_processes[dl_harq_pid[m]]->mcs,
dlsch->harq_processes[dl_harq_pid[m]]->rvidx,
dlsch->harq_processes[dl_harq_pid[m]]->TBS);
if (dlsch_harq_proc->status==DISABLED)
LOG_E(PHY,"dlsch_harq_proc is disabled? \n");
#endif
if ((dl_harq_pid[m]Mdlharq) &&
(dlsch_harq_proc->status == ACTIVE)) {
// dl_harq_pid of DLSCH is still active
if ( dlsch_ACK[mp]==0) {
// Received NAK
#ifdef DEBUG_PHY_PROC
LOG_D(PHY,"[eNB %d][PDSCH %x/%d] M = %d, m= %d, mp=%d NAK Received in round %d, requesting retransmission\n",eNB->Mod_id,
dlsch->rnti,dl_harq_pid[m],M,m,mp,dlsch_harq_proc->round);
#endif
T(T_ENB_PHY_DLSCH_UE_NACK, T_INT(eNB->Mod_id), T_INT(frame), T_INT(subframe), T_INT(UE_id), T_INT(dlsch->rnti),
T_INT(dl_harq_pid[m]));
if (dlsch_harq_proc->round == 0)
ue_stats->dlsch_NAK_round0++;
ue_stats->dlsch_NAK[dl_harq_pid[m]][dlsch_harq_proc->round]++;
// then Increment DLSCH round index
dlsch_harq_proc->round++;
if (dlsch_harq_proc->round == dlsch->Mlimit) {
// This was the last round for DLSCH so reset round and increment l2_error counter
#ifdef DEBUG_PHY_PROC
LOG_W(PHY,"[eNB %d][PDSCH %x/%d] DLSCH retransmissions exhausted, dropping packet\n",eNB->Mod_id,
dlsch->rnti,dl_harq_pid[m]);
#endif
#if defined(MESSAGE_CHART_GENERATOR_PHY)
MSC_LOG_EVENT(MSC_PHY_ENB, "0 HARQ DLSCH Failed RNTI %"PRIx16" round %u",
dlsch->rnti,
dlsch_harq_proc->round);
#endif
dlsch_harq_proc->round = 0;
ue_stats->dlsch_l2_errors[dl_harq_pid[m]]++;
dlsch_harq_proc->status = SCH_IDLE;
dlsch->harq_ids[dl_subframe] = dlsch->Mdlharq;
}
} else {
#ifdef DEBUG_PHY_PROC
LOG_D(PHY,"[eNB %d][PDSCH %x/%d] ACK Received in round %d, resetting process\n",eNB->Mod_id,
dlsch->rnti,dl_harq_pid[m],dlsch_harq_proc->round);
#endif
T(T_ENB_PHY_DLSCH_UE_ACK, T_INT(eNB->Mod_id), T_INT(frame), T_INT(subframe), T_INT(UE_id), T_INT(dlsch->rnti),
T_INT(dl_harq_pid[m]));
ue_stats->dlsch_ACK[dl_harq_pid[m]][dlsch_harq_proc->round]++;
// Received ACK so set round to 0 and set dlsch_harq_pid IDLE
dlsch_harq_proc->round = 0;
dlsch_harq_proc->status = SCH_IDLE;
dlsch->harq_ids[dl_subframe] = dlsch->Mdlharq;
ue_stats->total_TBS = ue_stats->total_TBS +
eNB->dlsch[(uint8_t)UE_id][0]->harq_processes[dl_harq_pid[m]]->TBS;
/*
ue_stats->total_transmitted_bits = ue_stats->total_transmitted_bits +
eNB->dlsch[(uint8_t)UE_id][0]->harq_processes[dl_harq_pid[m]]->TBS;
*/
}
// Do fine-grain rate-adaptation for DLSCH
if (ue_stats->dlsch_NAK_round0 > dlsch->error_threshold) {
if (ue_stats->dlsch_mcs_offset == 1)
ue_stats->dlsch_mcs_offset=0;
else
ue_stats->dlsch_mcs_offset=-1;
}
#ifdef DEBUG_PHY_PROC
LOG_D(PHY,"[process_HARQ_feedback] Frame %d Setting round to %d for pid %d (subframe %d)\n",frame,
dlsch_harq_proc->round,dl_harq_pid[m],subframe);
#endif
// Clear NAK stats and adjust mcs offset
// after measurement window timer expires
if (ue_stats->dlsch_sliding_cnt == dlsch->ra_window_size) {
if ((ue_stats->dlsch_mcs_offset == 0) && (ue_stats->dlsch_NAK_round0 < 2))
ue_stats->dlsch_mcs_offset = 1;
if ((ue_stats->dlsch_mcs_offset == 1) && (ue_stats->dlsch_NAK_round0 > 2))
ue_stats->dlsch_mcs_offset = 0;
if ((ue_stats->dlsch_mcs_offset == 0) && (ue_stats->dlsch_NAK_round0 > 2))
ue_stats->dlsch_mcs_offset = -1;
if ((ue_stats->dlsch_mcs_offset == -1) && (ue_stats->dlsch_NAK_round0 < 2))
ue_stats->dlsch_mcs_offset = 0;
ue_stats->dlsch_NAK_round0 = 0;
ue_stats->dlsch_sliding_cnt = 0;
}
}
}
}
}
}
void get_n1_pucch_eNB(PHY_VARS_eNB *eNB,
eNB_rxtx_proc_t *proc,
uint8_t UE_id,
int16_t *n1_pucch0,
int16_t *n1_pucch1,
int16_t *n1_pucch2,
int16_t *n1_pucch3)
{
LTE_DL_FRAME_PARMS *frame_parms=&eNB->frame_parms;
uint8_t nCCE0,nCCE1;
int sf;
int frame = proc->frame_rx;
int subframe = proc->subframe_rx;
if (frame_parms->frame_type == FDD ) {
sf = (subframe<4) ? (subframe+6) : (subframe-4);
if (eNB->dlsch[(uint32_t)UE_id][0]->subframe_tx[sf]>0) {
*n1_pucch0 = frame_parms->pucch_config_common.n1PUCCH_AN + eNB->dlsch[(uint32_t)UE_id][0]->nCCE[sf];
*n1_pucch1 = -1;
} else {
*n1_pucch0 = -1;
*n1_pucch1 = -1;
}
} else {
switch (frame_parms->tdd_config) {
case 1: // DL:S:UL:UL:DL:DL:S:UL:UL:DL
if (subframe == 2) { // ACK subframes 5 and 6
/* if (eNB->dlsch[(uint32_t)UE_id][0]->subframe_tx[6]>0) {
nCCE1 = eNB->dlsch[(uint32_t)UE_id][0]->nCCE[6];
*n1_pucch1 = get_Np(frame_parms->N_RB_DL,nCCE1,1) + nCCE1 + frame_parms->pucch_config_common.n1PUCCH_AN;
}
else
*n1_pucch1 = -1;*/
if (eNB->dlsch[(uint32_t)UE_id][0]->subframe_tx[5]>0) {
nCCE0 = eNB->dlsch[(uint32_t)UE_id][0]->nCCE[5];
*n1_pucch0 = get_Np(frame_parms->N_RB_DL,nCCE0,0) + nCCE0+ frame_parms->pucch_config_common.n1PUCCH_AN;
} else
*n1_pucch0 = -1;
*n1_pucch1 = -1;
} else if (subframe == 3) { // ACK subframe 9
if (eNB->dlsch[(uint32_t)UE_id][0]->subframe_tx[9]>0) {
nCCE0 = eNB->dlsch[(uint32_t)UE_id][0]->nCCE[9];
*n1_pucch0 = get_Np(frame_parms->N_RB_DL,nCCE0,0) + nCCE0 +frame_parms->pucch_config_common.n1PUCCH_AN;
} else
*n1_pucch0 = -1;
*n1_pucch1 = -1;
} else if (subframe == 7) { // ACK subframes 0 and 1
//harq_ack[0].nCCE;
//harq_ack[1].nCCE;
if (eNB->dlsch[(uint32_t)UE_id][0]->subframe_tx[0]>0) {
nCCE0 = eNB->dlsch[(uint32_t)UE_id][0]->nCCE[0];
*n1_pucch0 = get_Np(frame_parms->N_RB_DL,nCCE0,0) + nCCE0 + frame_parms->pucch_config_common.n1PUCCH_AN;
} else
*n1_pucch0 = -1;
*n1_pucch1 = -1;
} else if (subframe == 8) { // ACK subframes 4
//harq_ack[4].nCCE;
if (eNB->dlsch[(uint32_t)UE_id][0]->subframe_tx[4]>0) {
nCCE0 = eNB->dlsch[(uint32_t)UE_id][0]->nCCE[4];
*n1_pucch0 = get_Np(frame_parms->N_RB_DL,nCCE0,0) + nCCE0 + frame_parms->pucch_config_common.n1PUCCH_AN;
} else
*n1_pucch0 = -1;
*n1_pucch1 = -1;
} else {
LOG_D(PHY,"[eNB %d] frame %d: phy_procedures_lte.c: get_n1pucch, illegal subframe %d for tdd_config %d\n",
eNB->Mod_id,
frame,
subframe,frame_parms->tdd_config);
return;
}
break;
case 3: // DL:S:UL:UL:UL:DL:DL:DL:DL:DL
if (subframe == 2) { // ACK subframes 5,6 and 1 (S in frame-2), forget about n-11 for the moment (S-subframe)
if (eNB->dlsch[(uint32_t)UE_id][0]->subframe_tx[6]>0) {
nCCE1 = eNB->dlsch[(uint32_t)UE_id][0]->nCCE[6];
*n1_pucch1 = get_Np(frame_parms->N_RB_DL,nCCE1,1) + nCCE1 + frame_parms->pucch_config_common.n1PUCCH_AN;
} else
*n1_pucch1 = -1;
if (eNB->dlsch[(uint32_t)UE_id][0]->subframe_tx[5]>0) {
nCCE0 = eNB->dlsch[(uint32_t)UE_id][0]->nCCE[5];
*n1_pucch0 = get_Np(frame_parms->N_RB_DL,nCCE0,0) + nCCE0+ frame_parms->pucch_config_common.n1PUCCH_AN;
} else
*n1_pucch0 = -1;
} else if (subframe == 3) { // ACK subframes 7 and 8
LOG_D(PHY,"get_n1_pucch_eNB : subframe 3, subframe_tx[7] %d, subframe_tx[8] %d\n",
eNB->dlsch[(uint32_t)UE_id][0]->subframe_tx[7],eNB->dlsch[(uint32_t)UE_id][0]->subframe_tx[8]);
if (eNB->dlsch[(uint32_t)UE_id][0]->subframe_tx[8]>0) {
nCCE1 = eNB->dlsch[(uint32_t)UE_id][0]->nCCE[8];
*n1_pucch1 = get_Np(frame_parms->N_RB_DL,nCCE1,1) + nCCE1 + frame_parms->pucch_config_common.n1PUCCH_AN;
LOG_D(PHY,"nCCE1 %d, n1_pucch1 %d\n",nCCE1,*n1_pucch1);
} else
*n1_pucch1 = -1;
if (eNB->dlsch[(uint32_t)UE_id][0]->subframe_tx[7]>0) {
nCCE0 = eNB->dlsch[(uint32_t)UE_id][0]->nCCE[7];
*n1_pucch0 = get_Np(frame_parms->N_RB_DL,nCCE0,0) + nCCE0 +frame_parms->pucch_config_common.n1PUCCH_AN;
LOG_D(PHY,"nCCE0 %d, n1_pucch0 %d\n",nCCE0,*n1_pucch0);
} else
*n1_pucch0 = -1;
} else if (subframe == 4) { // ACK subframes 9 and 0
if (eNB->dlsch[(uint32_t)UE_id][0]->subframe_tx[0]>0) {
nCCE1 = eNB->dlsch[(uint32_t)UE_id][0]->nCCE[0];
*n1_pucch1 = get_Np(frame_parms->N_RB_DL,nCCE1,1) + nCCE1 + frame_parms->pucch_config_common.n1PUCCH_AN;
} else
*n1_pucch1 = -1;
if (eNB->dlsch[(uint32_t)UE_id][0]->subframe_tx[9]>0) {
nCCE0 = eNB->dlsch[(uint32_t)UE_id][0]->nCCE[9];
*n1_pucch0 = get_Np(frame_parms->N_RB_DL,nCCE0,0) + nCCE0 +frame_parms->pucch_config_common.n1PUCCH_AN;
} else
*n1_pucch0 = -1;
} else {
LOG_D(PHY,"[eNB %d] Frame %d: phy_procedures_lte.c: get_n1pucch, illegal subframe %d for tdd_config %d\n",
eNB->Mod_id,frame,subframe,frame_parms->tdd_config);
return;
}
break;
} // switch tdd_config
// Don't handle the case M>2
*n1_pucch2 = -1;
*n1_pucch3 = -1;
}
}
void prach_procedures(PHY_VARS_eNB *eNB) {
LTE_DL_FRAME_PARMS *fp=&eNB->frame_parms;
uint16_t preamble_energy_list[64],preamble_delay_list[64];
uint16_t preamble_max,preamble_energy_max;
uint16_t i;
int8_t UE_id;
int subframe = eNB->proc.subframe_prach;
int frame = eNB->proc.frame_prach;
uint8_t CC_id = eNB->CC_id;
VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME(VCD_SIGNAL_DUMPER_FUNCTIONS_PHY_ENB_PRACH_RX,1);
memset(&preamble_energy_list[0],0,64*sizeof(uint16_t));
memset(&preamble_delay_list[0],0,64*sizeof(uint16_t));
if (eNB->abstraction_flag == 0) {
LOG_D(PHY,"[eNB %d][RAPROC] Frame %d, Subframe %d : PRACH RX Signal Power : %d dBm\n",eNB->Mod_id,
frame,subframe,dB_fixed(signal_energy(&eNB->common_vars.rxdata[0][0][subframe*fp->samples_per_tti],512)) - eNB->rx_total_gain_dB);
rx_prach(eNB,
preamble_energy_list,
preamble_delay_list,
frame,
0);
} else {
for (UE_id=0; UE_idgenerate_prach,
PHY_vars_UE_g[UE_id][CC_id]->frame_parms.prach_config_common.rootSequenceIndex,
fp->prach_config_common.rootSequenceIndex,
PHY_vars_UE_g[UE_id][CC_id]->prach_PreambleIndex);
if ((PHY_vars_UE_g[UE_id][CC_id]->generate_prach==1) &&
(PHY_vars_UE_g[UE_id][CC_id]->frame_parms.prach_config_common.rootSequenceIndex ==
fp->prach_config_common.rootSequenceIndex) ) {
preamble_energy_list[PHY_vars_UE_g[UE_id][CC_id]->prach_PreambleIndex] = 800;
preamble_delay_list[PHY_vars_UE_g[UE_id][CC_id]->prach_PreambleIndex] = 5;
}
}
}
preamble_energy_max = preamble_energy_list[0];
preamble_max = 0;
for (i=1; i<64; i++) {
if (preamble_energy_max < preamble_energy_list[i]) {
preamble_energy_max = preamble_energy_list[i];
preamble_max = i;
}
}
#ifdef DEBUG_PHY_PROC
LOG_D(PHY,"[RAPROC] Most likely preamble %d, energy %d dB delay %d\n",
preamble_max,
preamble_energy_list[preamble_max],
preamble_delay_list[preamble_max]);
#endif
if (preamble_energy_list[preamble_max] > 580) {
UE_id = find_next_ue_index(eNB);
if (UE_id>=0) {
eNB->UE_stats[(uint32_t)UE_id].UE_timing_offset = preamble_delay_list[preamble_max]&0x1FFF; //limit to 13 (=11+2) bits
eNB->UE_stats[(uint32_t)UE_id].sector = 0;
LOG_D(PHY,"[eNB %d/%d][RAPROC] Frame %d, subframe %d Initiating RA procedure (UE_id %d) with preamble %d, energy %d.%d dB, delay %d\n",
eNB->Mod_id,
eNB->CC_id,
frame,
subframe,
UE_id,
preamble_max,
preamble_energy_max/10,
preamble_energy_max%10,
preamble_delay_list[preamble_max]);
if (eNB->mac_enabled==1) {
uint8_t update_TA=4;
switch (fp->N_RB_DL) {
case 6:
update_TA = 16;
break;
case 25:
update_TA = 4;
break;
case 50:
update_TA = 2;
break;
case 100:
update_TA = 1;
break;
}
mac_xface->initiate_ra_proc(eNB->Mod_id,
eNB->CC_id,
frame,
preamble_max,
preamble_delay_list[preamble_max]*update_TA,
0,subframe,0);
}
} else {
MSC_LOG_EVENT(MSC_PHY_ENB, "0 RA Failed add user, too many");
LOG_I(PHY,"[eNB %d][RAPROC] frame %d, subframe %d: Unable to add user, max user count reached\n",
eNB->Mod_id,frame, subframe);
}
}
VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME(VCD_SIGNAL_DUMPER_FUNCTIONS_PHY_ENB_PRACH_RX,0);
}
void pucch_procedures(PHY_VARS_eNB *eNB,eNB_rxtx_proc_t *proc,int UE_id,int harq_pid) {
LTE_DL_FRAME_PARMS *fp=&eNB->frame_parms;
uint8_t SR_payload = 0,*pucch_payload=NULL,pucch_payload0[2]= {0,0},pucch_payload1[2]= {0,0};
int16_t n1_pucch0,n1_pucch1,n1_pucch2,n1_pucch3;
uint8_t do_SR = 0;
uint8_t pucch_sel = 0;
int32_t metric0=0,metric1=0,metric0_SR=0;
ANFBmode_t bundling_flag;
PUCCH_FMT_t format;
const int subframe = proc->subframe_rx;
const int frame = proc->frame_rx;
if ((eNB->dlsch[UE_id][0]) &&
(eNB->dlsch[UE_id][0]->rnti>0) &&
(eNB->ulsch[UE_id]->harq_processes[harq_pid]->subframe_scheduling_flag==0)) {
// check SR availability
do_SR = is_SR_subframe(eNB,proc,UE_id);
// do_SR = 0;
// Now ACK/NAK
// First check subframe_tx flag for earlier subframes
get_n1_pucch_eNB(eNB,
proc,
UE_id,
&n1_pucch0,
&n1_pucch1,
&n1_pucch2,
&n1_pucch3);
LOG_D(PHY,"[eNB %d][PDSCH %x] Frame %d, subframe %d Checking for PUCCH (%d,%d,%d,%d) SR %d\n",
eNB->Mod_id,eNB->dlsch[UE_id][0]->rnti,
frame,subframe,
n1_pucch0,n1_pucch1,n1_pucch2,n1_pucch3,do_SR);
if ((n1_pucch0==-1) && (n1_pucch1==-1) && (do_SR==0)) { // no TX PDSCH that have to be checked and no SR for this UE_id
} else {
// otherwise we have some PUCCH detection to do
// Null out PUCCH PRBs for noise measurement
switch(fp->N_RB_UL) {
case 6:
eNB->rb_mask_ul[0] |= (0x1 | (1<<5)); //position 5
break;
case 15:
eNB->rb_mask_ul[0] |= (0x1 | (1<<14)); // position 14
break;
case 25:
eNB->rb_mask_ul[0] |= (0x1 | (1<<24)); // position 24
break;
case 50:
eNB->rb_mask_ul[0] |= 0x1;
eNB->rb_mask_ul[1] |= (1<<17); // position 49 (49-32)
break;
case 75:
eNB->rb_mask_ul[0] |= 0x1;
eNB->rb_mask_ul[2] |= (1<<10); // position 74 (74-64)
break;
case 100:
eNB->rb_mask_ul[0] |= 0x1;
eNB->rb_mask_ul[3] |= (1<<3); // position 99 (99-96)
break;
default:
LOG_E(PHY,"Unknown number for N_RB_UL %d\n",fp->N_RB_UL);
break;
}
if (do_SR == 1) {
eNB->UE_stats[UE_id].sr_total++;
if (eNB->abstraction_flag == 0)
metric0_SR = rx_pucch(eNB,
pucch_format1,
UE_id,
eNB->scheduling_request_config[UE_id].sr_PUCCH_ResourceIndex,
0, // n2_pucch
0, // shortened format, should be use_srs flag, later
&SR_payload,
frame,
subframe,
PUCCH1_THRES);
#ifdef PHY_ABSTRACTION
else {
metric0_SR = rx_pucch_emul(eNB,
proc,
UE_id,
pucch_format1,
0,
&SR_payload);
LOG_D(PHY,"[eNB %d][SR %x] Frame %d subframe %d Checking SR (UE SR %d/%d)\n",eNB->Mod_id,
eNB->ulsch[UE_id]->rnti,frame,subframe,SR_payload,eNB->scheduling_request_config[UE_id].sr_PUCCH_ResourceIndex);
}
#endif
if (SR_payload == 1) {
LOG_D(PHY,"[eNB %d][SR %x] Frame %d subframe %d Got SR for PUSCH, transmitting to MAC\n",eNB->Mod_id,
eNB->ulsch[UE_id]->rnti,frame,subframe);
eNB->UE_stats[UE_id].sr_received++;
if (eNB->first_sr[UE_id] == 1) { // this is the first request for uplink after Connection Setup, so clear HARQ process 0 use for Msg4
eNB->first_sr[UE_id] = 0;
eNB->dlsch[UE_id][0]->harq_processes[0]->round=0;
eNB->dlsch[UE_id][0]->harq_processes[0]->status=SCH_IDLE;
LOG_D(PHY,"[eNB %d][SR %x] Frame %d subframe %d First SR\n",
eNB->Mod_id,
eNB->ulsch[UE_id]->rnti,frame,subframe);
}
if (eNB->mac_enabled==1) {
mac_xface->SR_indication(eNB->Mod_id,
eNB->CC_id,
frame,
eNB->dlsch[UE_id][0]->rnti,subframe);
}
}
}// do_SR==1
if ((n1_pucch0==-1) && (n1_pucch1==-1)) { // just check for SR
} else if (eNB->frame_parms.frame_type==FDD) { // FDD
// if SR was detected, use the n1_pucch from SR, else use n1_pucch0
// n1_pucch0 = (SR_payload==1) ? eNB->scheduling_request_config[UE_id].sr_PUCCH_ResourceIndex:n1_pucch0;
LOG_D(PHY,"Demodulating PUCCH for ACK/NAK: n1_pucch0 %d (%d), SR_payload %d\n",n1_pucch0,eNB->scheduling_request_config[UE_id].sr_PUCCH_ResourceIndex,SR_payload);
if (eNB->abstraction_flag == 0) {
metric0 = rx_pucch(eNB,
pucch_format1a,
UE_id,
(uint16_t)n1_pucch0,
0, //n2_pucch
0, // shortened format
pucch_payload0,
frame,
subframe,
PUCCH1a_THRES);
if (metric0 < metric0_SR)
metric0=rx_pucch(eNB,
pucch_format1a,
UE_id,
eNB->scheduling_request_config[UE_id].sr_PUCCH_ResourceIndex,
0, //n2_pucch
0, // shortened format
pucch_payload0,
frame,
subframe,
PUCCH1a_THRES);
}
if (eNB->mac_enabled==1) {
mac_xface->SR_indication(eNB->Mod_id,
eNB->CC_id,
frame,
eNB->dlsch[UE_id][0]->rnti,subframe);
}
}
}// do_SR==1
if ((n1_pucch0==-1) && (n1_pucch1==-1)) { // just check for SR
} else if (fp->frame_type==FDD) { // FDD
// if SR was detected, use the n1_pucch from SR, else use n1_pucch0
// n1_pucch0 = (SR_payload==1) ? eNB->scheduling_request_config[UE_id].sr_PUCCH_ResourceIndex:n1_pucch0;
LOG_D(PHY,"Demodulating PUCCH for ACK/NAK: n1_pucch0 %d (%d), SR_payload %d\n",n1_pucch0,eNB->scheduling_request_config[UE_id].sr_PUCCH_ResourceIndex,SR_payload);
if (eNB->abstraction_flag == 0) {
metric0 = rx_pucch(eNB,
pucch_format1a,
UE_id,
(uint16_t)n1_pucch0,
0, //n2_pucch
0, // shortened format
pucch_payload0,
frame,
subframe,
PUCCH1a_THRES);
if (metric0 < metric0_SR)
metric0=rx_pucch(eNB,
pucch_format1a,
UE_id,
eNB->scheduling_request_config[UE_id].sr_PUCCH_ResourceIndex,
0, //n2_pucch
0, // shortened format
pucch_payload0,
frame,
subframe,
PUCCH1a_THRES);
}
else {
#ifdef PHY_ABSTRACTION
metric0 = rx_pucch_emul(eNB,
proc,
UE_id,
pucch_format1a,
0,
pucch_payload0);
#endif
}
#ifdef DEBUG_PHY_PROC
LOG_D(PHY,"[eNB %d][PDSCH %x] Frame %d subframe %d pucch1a (FDD) payload %d (metric %d)\n",
eNB->Mod_id,
eNB->dlsch[UE_id][0]->rnti,
frame,subframe,
pucch_payload0[0],metric0);
#endif
process_HARQ_feedback(UE_id,eNB,proc,
0,// pusch_flag
pucch_payload0,
2,
SR_payload);
} // FDD
else { //TDD
bundling_flag = eNB->pucch_config_dedicated[UE_id].tdd_AckNackFeedbackMode;
// fix later for 2 TB case and format1b
if ((fp->frame_type==FDD) ||
(bundling_flag==bundling) ||
((fp->frame_type==TDD)&&(fp->tdd_config==1)&&((subframe!=2)||(subframe!=7)))) {
format = pucch_format1a;
} else {
format = pucch_format1b;
}
// if SR was detected, use the n1_pucch from SR
if (SR_payload==1) {
#ifdef DEBUG_PHY_PROC
LOG_D(PHY,"[eNB %d][PDSCH %x] Frame %d subframe %d Checking ACK/NAK (%d,%d,%d,%d) format %d with SR\n",eNB->Mod_id,
eNB->dlsch[UE_id][0]->rnti,
frame,subframe,
n1_pucch0,n1_pucch1,n1_pucch2,n1_pucch3,format);
#endif
if (eNB->abstraction_flag == 0)
metric0_SR = rx_pucch(eNB,
format,
UE_id,
eNB->scheduling_request_config[UE_id].sr_PUCCH_ResourceIndex,
0, //n2_pucch
0, // shortened format
pucch_payload0,
frame,
subframe,
PUCCH1a_THRES);
else {
#ifdef PHY_ABSTRACTION
metric0 = rx_pucch_emul(eNB,proc,
UE_id,
format,
0,
pucch_payload0);
#endif
}
} else { //using n1_pucch0/n1_pucch1 resources
#ifdef DEBUG_PHY_PROC
LOG_D(PHY,"[eNB %d][PDSCH %x] Frame %d subframe %d Checking ACK/NAK (%d,%d,%d,%d) format %d\n",eNB->Mod_id,
eNB->dlsch[UE_id][0]->rnti,
frame,subframe,
n1_pucch0,n1_pucch1,n1_pucch2,n1_pucch3,format);
#endif
metric0=0;
metric1=0;
// Check n1_pucch0 metric
if (n1_pucch0 != -1) {
if (eNB->abstraction_flag == 0)
metric0 = rx_pucch(eNB,
format,
UE_id,
(uint16_t)n1_pucch0,
0, // n2_pucch
0, // shortened format
pucch_payload0,
frame,
subframe,
PUCCH1a_THRES);
else {
#ifdef PHY_ABSTRACTION
metric0 = rx_pucch_emul(eNB,
proc,
UE_id,
format,
0,
pucch_payload0);
#endif
}
}
// Check n1_pucch1 metric
if (n1_pucch1 != -1) {
if (eNB->abstraction_flag == 0)
metric1 = rx_pucch(eNB,
format,
UE_id,
(uint16_t)n1_pucch1,
0, //n2_pucch
0, // shortened format
pucch_payload1,
frame,
subframe,
PUCCH1a_THRES);
else {
#ifdef PHY_ABSTRACTION
metric1 = rx_pucch_emul(eNB,
proc,
UE_id,
format,
1,
pucch_payload1);
#endif
}
}
}
if (SR_payload == 1) {
pucch_payload = pucch_payload0;
if (bundling_flag == bundling)
pucch_sel = 2;
} else if (bundling_flag == multiplexing) { // multiplexing + no SR
pucch_payload = (metric1>metric0) ? pucch_payload1 : pucch_payload0;
pucch_sel = (metric1>metric0) ? 1 : 0;
} else { // bundling + no SR
if (n1_pucch1 != -1)
pucch_payload = pucch_payload1;
else if (n1_pucch0 != -1)
pucch_payload = pucch_payload0;
pucch_sel = 2; // indicate that this is a bundled ACK/NAK
}
#ifdef DEBUG_PHY_PROC
LOG_D(PHY,"[eNB %d][PDSCH %x] Frame %d subframe %d ACK/NAK metric 0 %d, metric 1 %d, sel %d, (%d,%d)\n",eNB->Mod_id,
eNB->dlsch[UE_id][0]->rnti,
frame,subframe,
metric0,metric1,pucch_sel,pucch_payload[0],pucch_payload[1]);
#endif
process_HARQ_feedback(UE_id,eNB,proc,
0,// pusch_flag
pucch_payload,
pucch_sel,
SR_payload);
}
}
}
void cba_procedures(PHY_VARS_eNB *eNB,eNB_rxtx_proc_t *proc,int UE_id,int harq_pid) {
uint8_t access_mode;
int num_active_cba_groups;
const int subframe = proc->subframe_rx;
const int frame = proc->frame_rx;
uint16_t rnti=0;
int ret=0;
LTE_DL_FRAME_PARMS *fp=&eNB->frame_parms;
num_active_cba_groups = eNB->ulsch[UE_id]->num_active_cba_groups;
if ((eNB->ulsch[UE_id]) &&
(num_active_cba_groups > 0) &&
(eNB->ulsch[UE_id]->cba_rnti[UE_id%num_active_cba_groups]>0) &&
(eNB->ulsch[UE_id]->harq_processes[harq_pid]->subframe_cba_scheduling_flag==1)) {
rnti=0;
#ifdef DEBUG_PHY_PROC
LOG_D(PHY,"[eNB %d][PUSCH %d] frame %d subframe %d Checking PUSCH/ULSCH CBA Reception for UE %d with cba rnti %x mode %s\n",
eNB->Mod_id,harq_pid,
frame,subframe,
UE_id, (uint16_t)eNB->ulsch[UE_id]->cba_rnti[UE_id%num_active_cba_groups],mode_string[eNB->UE_stats[UE_id].mode]);
#endif
if (eNB->abstraction_flag==0) {
rx_ulsch(eNB,proc,
eNB->UE_stats[UE_id].sector, // this is the effective sector id
UE_id,
eNB->ulsch,
0);
}
#ifdef PHY_ABSTRACTION
else {
rx_ulsch_emul(eNB,proc,
eNB->UE_stats[UE_id].sector, // this is the effective sector id
UE_id);
}
#endif
if (eNB->abstraction_flag == 0) {
ret = ulsch_decoding(eNB,proc,
UE_id,
0, // control_only_flag
eNB->ulsch[UE_id]->harq_processes[harq_pid]->V_UL_DAI,
eNB->ulsch[UE_id]->harq_processes[harq_pid]->nb_rb>20 ? 1 : 0);
}
#ifdef PHY_ABSTRACTION
else {
ret = ulsch_decoding_emul(eNB,
proc,
UE_id,
&rnti);
}
#endif
if (eNB->ulsch[UE_id]->harq_processes[harq_pid]->cqi_crc_status == 1) {
#ifdef DEBUG_PHY_PROC
print_CQI(eNB->ulsch[UE_id]->harq_processes[harq_pid]->o,eNB->ulsch[UE_id]->harq_processes[harq_pid]->uci_format,0,fp->N_RB_DL);
#endif
access_mode = UNKNOWN_ACCESS;
extract_CQI(eNB->ulsch[UE_id]->harq_processes[harq_pid]->o,
eNB->ulsch[UE_id]->harq_processes[harq_pid]->uci_format,
&eNB->UE_stats[UE_id],
fp->N_RB_DL,
&rnti, &access_mode);
eNB->UE_stats[UE_id].rank = eNB->ulsch[UE_id]->harq_processes[harq_pid]->o_RI[0];
}
eNB->ulsch[UE_id]->harq_processes[harq_pid]->subframe_cba_scheduling_flag=0;
eNB->ulsch[UE_id]->harq_processes[harq_pid]->status= SCH_IDLE;
if ((num_active_cba_groups > 0) &&
(UE_id + num_active_cba_groups < NUMBER_OF_UE_MAX) &&
(eNB->ulsch[UE_id+num_active_cba_groups]->cba_rnti[UE_id%num_active_cba_groups] > 0 ) &&
(eNB->ulsch[UE_id+num_active_cba_groups]->num_active_cba_groups> 0)) {
#ifdef DEBUG_PHY_PROC
LOG_D(PHY,"[eNB %d][PUSCH %d] frame %d subframe %d UE %d harq_pid %d resetting the subframe_scheduling_flag for Ue %d cba groups %d members\n",
eNB->Mod_id,harq_pid,frame,subframe,UE_id,harq_pid,
UE_id+num_active_cba_groups, UE_id%eNB->ulsch[UE_id]->num_active_cba_groups);
#endif
eNB->ulsch[UE_id+num_active_cba_groups]->harq_processes[harq_pid]->subframe_cba_scheduling_flag=1;
eNB->ulsch[UE_id+num_active_cba_groups]->harq_processes[harq_pid]->status= CBA_ACTIVE;
eNB->ulsch[UE_id+num_active_cba_groups]->harq_processes[harq_pid]->TBS=eNB->ulsch[UE_id]->harq_processes[harq_pid]->TBS;
}
if (ret == (1+MAX_TURBO_ITERATIONS)) {
eNB->UE_stats[UE_id].ulsch_round_errors[harq_pid][eNB->ulsch[UE_id]->harq_processes[harq_pid]->round]++;
eNB->ulsch[UE_id]->harq_processes[harq_pid]->phich_active = 1;
eNB->ulsch[UE_id]->harq_processes[harq_pid]->phich_ACK = 0;
eNB->ulsch[UE_id]->harq_processes[harq_pid]->round++;
} // ulsch in error
else {
LOG_D(PHY,"[eNB %d][PUSCH %d] Frame %d subframe %d ULSCH received, setting round to 0, PHICH ACK\n",
eNB->Mod_id,harq_pid,
frame,subframe);
eNB->ulsch[UE_id]->harq_processes[harq_pid]->phich_active = 1;
eNB->ulsch[UE_id]->harq_processes[harq_pid]->phich_ACK = 1;
eNB->ulsch[UE_id]->harq_processes[harq_pid]->round = 0;
eNB->UE_stats[UE_id].ulsch_consecutive_errors = 0;
#ifdef DEBUG_PHY_PROC
#ifdef DEBUG_ULSCH
LOG_D(PHY,"[eNB] Frame %d, Subframe %d : ULSCH SDU (RX harq_pid %d) %d bytes:",
frame,subframe,
harq_pid,eNB->ulsch[UE_id]->harq_processes[harq_pid]->TBS>>3);
for (j=0; julsch[UE_id]->harq_processes[harq_pid]->TBS>>3; j++)
LOG_T(PHY,"%x.",eNB->ulsch[UE_id]->harq_processes[harq_pid]->b[j]);
LOG_T(PHY,"\n");
#endif
#endif
if (access_mode > UNKNOWN_ACCESS) {
LOG_D(PHY,"[eNB %d] Frame %d, Subframe %d : received ULSCH SDU from CBA transmission, UE (%d,%x), CBA (group %d, rnti %x)\n",
eNB->Mod_id, frame,subframe,
UE_id, eNB->ulsch[UE_id]->rnti,
UE_id % eNB->ulsch[UE_id]->num_active_cba_groups, eNB->ulsch[UE_id]->cba_rnti[UE_id%num_active_cba_groups]);
// detect if there is a CBA collision
if (eNB->cba_last_reception[UE_id%num_active_cba_groups] == 0 ) {
mac_xface->rx_sdu(eNB->Mod_id,
eNB->CC_id,
frame,subframe,
eNB->ulsch[UE_id]->rnti,
eNB->ulsch[UE_id]->harq_processes[harq_pid]->b,
eNB->ulsch[UE_id]->harq_processes[harq_pid]->TBS>>3,
harq_pid,
NULL);
eNB->cba_last_reception[UE_id%num_active_cba_groups]+=1;//(subframe);
} else {
if (eNB->cba_last_reception[UE_id%num_active_cba_groups] == 1 )
LOG_N(PHY,"[eNB%d] Frame %d subframe %d : first CBA collision detected \n ",
eNB->Mod_id,frame,subframe);
LOG_N(PHY,"[eNB%d] Frame %d subframe %d : CBA collision set SR for UE %d in group %d \n ",
eNB->Mod_id,frame,subframe,
eNB->cba_last_reception[UE_id%num_active_cba_groups],UE_id%num_active_cba_groups );
eNB->cba_last_reception[UE_id%num_active_cba_groups]+=1;
mac_xface->SR_indication(eNB->Mod_id,
eNB->CC_id,
frame,
eNB->dlsch[UE_id][0]->rnti,subframe);
}
} // UNKNOWN_ACCESS
} // ULSCH CBA not in error
}
}
void eNB_fep_full(PHY_VARS_eNB *eNB) {
eNB_proc_t *proc = &eNB->proc;
int l;
LTE_DL_FRAME_PARMS *fp=&eNB->frame_parms;
VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME(VCD_SIGNAL_DUMPER_FUNCTIONS_ENB_SLOT_FEP,1);
remove_7_5_kHz(eNB,proc->subframe_rx<<1);
remove_7_5_kHz(eNB,1+(proc->subframe_rx<<1));
for (l=0; lsymbols_per_tti/2; l++) {
slot_fep_ul(fp,
&eNB->common_vars,
l,
proc->subframe_rx<<1,
0,
0
);
slot_fep_ul(fp,
&eNB->common_vars,
l,
1+(proc->subframe_rx<<1),
0,
0
);
}
VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME(VCD_SIGNAL_DUMPER_FUNCTIONS_ENB_SLOT_FEP,0);
if (eNB->node_function == NGFI_RRU_IF4p5) {
/// **** send_IF4 of rxdataF to RCC (no prach now) **** ///
send_IF4p5(eNB, proc->frame_rx, proc->subframe_rx, IF4p5_PULFFT, 0);
}
}
void eNB_fep_rru_if5(PHY_VARS_eNB *eNB) {
eNB_proc_t *proc=&eNB->proc;
uint8_t seqno=0;
/// **** send_IF5 of rxdata to BBU **** ///
VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME( VCD_SIGNAL_DUMPER_FUNCTIONS_SEND_IF5, 1 );
send_IF5(eNB, proc->timestamp_rx, proc->subframe_rx, &seqno, IF5_RRH_GW_UL);
VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME( VCD_SIGNAL_DUMPER_FUNCTIONS_SEND_IF5, 0 );
}
void do_prach(PHY_VARS_eNB *eNB) {
eNB_proc_t *proc = &eNB->proc;
LTE_DL_FRAME_PARMS *fp=&eNB->frame_parms;
// check if we have to detect PRACH first
if (is_prach_subframe(fp,proc->frame_rx,proc->subframe_rx)>0) {
/* accept some delay in processing - up to 5ms */
int i;
for (i = 0; i < 10 && proc->instance_cnt_prach == 0; i++) {
LOG_W(PHY,"[eNB] Frame %d Subframe %d, eNB PRACH thread busy (IC %d)!!\n", proc->frame_rx,proc->subframe_rx,proc->instance_cnt_prach);
usleep(500);
}
if (proc->instance_cnt_prach == 0) {
exit_fun( "PRACH thread busy" );
return;
}
// wake up thread for PRACH RX
if (pthread_mutex_lock(&proc->mutex_prach) != 0) {
LOG_E( PHY, "[eNB] ERROR pthread_mutex_lock for eNB PRACH thread %d (IC %d)\n", proc->instance_cnt_prach );
exit_fun( "error locking mutex_prach" );
return;
}
++proc->instance_cnt_prach;
// set timing for prach thread
proc->frame_prach = proc->frame_rx;
proc->subframe_prach = proc->subframe_rx;
// the thread can now be woken up
if (pthread_cond_signal(&proc->cond_prach) != 0) {
LOG_E( PHY, "[eNB] ERROR pthread_cond_signal for eNB PRACH thread %d\n", proc->thread_index);
exit_fun( "ERROR pthread_cond_signal" );
return;
}
pthread_mutex_unlock( &proc->mutex_prach );
}
}
void phy_procedures_eNB_common_RX(PHY_VARS_eNB *eNB){
eNB_proc_t *proc = &eNB->proc;
LTE_DL_FRAME_PARMS *fp=&eNB->frame_parms;
const int subframe = proc->subframe_rx;
const int frame = proc->frame_rx;
if ((fp->frame_type == TDD) && (subframe_select(fp,subframe)!=SF_UL)) return;
VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME( VCD_SIGNAL_DUMPER_FUNCTIONS_PHY_PROCEDURES_ENB_RX_COMMON+(subframe&1), 1 );
start_meas(&eNB->phy_proc_rx);
LOG_D(PHY,"[eNB %d] Frame %d: Doing phy_procedures_eNB_common_RX(%d)\n",eNB->Mod_id,frame,subframe);
if (eNB->fep) eNB->fep(eNB);
if (eNB->do_prach) eNB->do_prach(eNB);
VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME( VCD_SIGNAL_DUMPER_FUNCTIONS_PHY_PROCEDURES_ENB_RX_COMMON+(subframe&1), 0 );
}
void phy_procedures_eNB_uespec_RX(PHY_VARS_eNB *eNB,eNB_rxtx_proc_t *proc,const relaying_type_t r_type)
{
//RX processing for ue-specific resources (i
UNUSED(r_type);
uint32_t ret=0,i,j,k;
uint32_t harq_pid, harq_idx, round;
uint8_t nPRS;
int sync_pos;
uint16_t rnti=0;
uint8_t access_mode;
LTE_DL_FRAME_PARMS *fp=&eNB->frame_parms;
const int subframe = proc->subframe_rx;
const int frame = proc->frame_rx;
if ((fp->frame_type == TDD) && (subframe_select(fp,subframe)!=SF_UL)) return;
VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME( VCD_SIGNAL_DUMPER_FUNCTIONS_PHY_PROCEDURES_ENB_RX_UESPEC+(subframe&1), 1 );
start_meas(&eNB->phy_proc_rx);
#ifdef DEBUG_PHY_PROC
LOG_D(PHY,"[eNB %d] Frame %d: Doing phy_procedures_eNB_uespec_RX(%d)\n",eNB->Mod_id,frame, subframe);
#endif
T(T_ENB_PHY_UL_TICK, T_INT(eNB->Mod_id), T_INT(frame), T_INT(subframe));
T(T_ENB_PHY_INPUT_SIGNAL, T_INT(eNB->Mod_id), T_INT(frame), T_INT(subframe), T_INT(0),
T_BUFFER(&eNB->common_vars.rxdata[0][0][subframe*eNB->frame_parms.samples_per_tti],
eNB->frame_parms.samples_per_tti * 4));
eNB->rb_mask_ul[0]=0;
eNB->rb_mask_ul[1]=0;
eNB->rb_mask_ul[2]=0;
eNB->rb_mask_ul[3]=0;
// Check for active processes in current subframe
harq_pid = subframe2harq_pid(fp,
frame,subframe);
// reset the cba flag used for collision detection
for (i=0; i < NUM_MAX_CBA_GROUP; i++) {
eNB->cba_last_reception[i]=0;
}
// Do PUCCH processing first
for (i=0; imac_enabled==1) {
if (eNB->UE_stats[i].mode == RA_RESPONSE) {
process_Msg3(eNB,proc,i,harq_pid);
}
}
eNB->pusch_stats_rb[i][(frame*10)+subframe] = -63;
eNB->pusch_stats_round[i][(frame*10)+subframe] = 0;
eNB->pusch_stats_mcs[i][(frame*10)+subframe] = -63;
if ((eNB->ulsch[i]) &&
(eNB->ulsch[i]->rnti>0) &&
(eNB->ulsch[i]->harq_processes[harq_pid]->subframe_scheduling_flag==1)) {
// UE is has ULSCH scheduling
round = eNB->ulsch[i]->harq_processes[harq_pid]->round;
for (int rb=0;
rb<=eNB->ulsch[i]->harq_processes[harq_pid]->nb_rb;
rb++) {
int rb2 = rb+eNB->ulsch[i]->harq_processes[harq_pid]->first_rb;
eNB->rb_mask_ul[rb2>>5] |= (1<<(rb2&31));
}
if (eNB->ulsch[i]->Msg3_flag == 1) {
LOG_D(PHY,"[eNB %d] frame %d, subframe %d: Scheduling ULSCH Reception for Msg3 in Sector %d\n",
eNB->Mod_id,
frame,
subframe,
eNB->UE_stats[i].sector);
VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME(VCD_SIGNAL_DUMPER_FUNCTIONS_PHY_ENB_ULSCH_MSG3,1);
} else {
LOG_D(PHY,"[eNB %d] frame %d, subframe %d: Scheduling ULSCH Reception for UE %d Mode %s\n",
eNB->Mod_id,
frame,
subframe,
i,
mode_string[eNB->UE_stats[i].mode]);
}
nPRS = fp->pusch_config_common.ul_ReferenceSignalsPUSCH.nPRS[subframe<<1];
eNB->ulsch[i]->cyclicShift = (eNB->ulsch[i]->harq_processes[harq_pid]->n_DMRS2 + fp->pusch_config_common.ul_ReferenceSignalsPUSCH.cyclicShift +
nPRS)%12;
if (fp->frame_type == FDD ) {
int sf = (subframe<4) ? (subframe+6) : (subframe-4);
if (eNB->dlsch[i][0]->subframe_tx[sf]>0) { // we have downlink transmission
eNB->ulsch[i]->harq_processes[harq_pid]->O_ACK = 1;
} else {
eNB->ulsch[i]->harq_processes[harq_pid]->O_ACK = 0;
}
}
LOG_D(PHY,
"[eNB %d][PUSCH %d] Frame %d Subframe %d Demodulating PUSCH: dci_alloc %d, rar_alloc %d, round %d, first_rb %d, nb_rb %d, mcs %d, TBS %d, rv %d, cyclic_shift %d (n_DMRS2 %d, cyclicShift_common %d, nprs %d), O_ACK %d \n",
eNB->Mod_id,harq_pid,frame,subframe,
eNB->ulsch[i]->harq_processes[harq_pid]->dci_alloc,
eNB->ulsch[i]->harq_processes[harq_pid]->rar_alloc,
eNB->ulsch[i]->harq_processes[harq_pid]->round,
eNB->ulsch[i]->harq_processes[harq_pid]->first_rb,
eNB->ulsch[i]->harq_processes[harq_pid]->nb_rb,
eNB->ulsch[i]->harq_processes[harq_pid]->mcs,
eNB->ulsch[i]->harq_processes[harq_pid]->TBS,
eNB->ulsch[i]->harq_processes[harq_pid]->rvidx,
eNB->ulsch[i]->cyclicShift,
eNB->ulsch[i]->harq_processes[harq_pid]->n_DMRS2,
fp->pusch_config_common.ul_ReferenceSignalsPUSCH.cyclicShift,
nPRS,
eNB->ulsch[i]->harq_processes[harq_pid]->O_ACK);
eNB->pusch_stats_rb[i][(frame*10)+subframe] = eNB->ulsch[i]->harq_processes[harq_pid]->nb_rb;
eNB->pusch_stats_round[i][(frame*10)+subframe] = eNB->ulsch[i]->harq_processes[harq_pid]->round;
eNB->pusch_stats_mcs[i][(frame*10)+subframe] = eNB->ulsch[i]->harq_processes[harq_pid]->mcs;
start_meas(&eNB->ulsch_demodulation_stats);
if (eNB->abstraction_flag==0) {
rx_ulsch(eNB,proc,
eNB->UE_stats[i].sector, // this is the effective sector id
i,
eNB->ulsch,
0);
}
#ifdef PHY_ABSTRACTION
else {
rx_ulsch_emul(eNB,proc,
eNB->UE_stats[i].sector, // this is the effective sector id
i);
}
#endif
stop_meas(&eNB->ulsch_demodulation_stats);
start_meas(&eNB->ulsch_decoding_stats);
if (eNB->abstraction_flag == 0) {
ret = ulsch_decoding(eNB,proc,
i,
0, // control_only_flag
eNB->ulsch[i]->harq_processes[harq_pid]->V_UL_DAI,
eNB->ulsch[i]->harq_processes[harq_pid]->nb_rb>20 ? 1 : 0);
}
#ifdef PHY_ABSTRACTION
else {
ret = ulsch_decoding_emul(eNB,
proc,
i,
&rnti);
}
#endif
stop_meas(&eNB->ulsch_decoding_stats);
LOG_D(PHY,"[eNB %d][PUSCH %d] frame %d subframe %d RNTI %x RX power (%d,%d) RSSI (%d,%d) N0 (%d,%d) dB ACK (%d,%d), decoding iter %d\n",
eNB->Mod_id,harq_pid,
frame,subframe,
eNB->ulsch[i]->rnti,
dB_fixed(eNB->pusch_vars[i]->ulsch_power[0]),
dB_fixed(eNB->pusch_vars[i]->ulsch_power[1]),
eNB->UE_stats[i].UL_rssi[0],
eNB->UE_stats[i].UL_rssi[1],
eNB->measurements->n0_power_dB[0],
eNB->measurements->n0_power_dB[1],
eNB->ulsch[i]->harq_processes[harq_pid]->o_ACK[0],
eNB->ulsch[i]->harq_processes[harq_pid]->o_ACK[1],
ret);
//compute the expected ULSCH RX power (for the stats)
eNB->ulsch[(uint32_t)i]->harq_processes[harq_pid]->delta_TF =
get_hundred_times_delta_IF_eNB(eNB,i,harq_pid, 0); // 0 means bw_factor is not considered
eNB->UE_stats[i].ulsch_decoding_attempts[harq_pid][eNB->ulsch[i]->harq_processes[harq_pid]->round]++;
#ifdef DEBUG_PHY_PROC
LOG_D(PHY,"[eNB %d][PUSCH %d] frame %d subframe %d UE %d harq_pid %d Clearing subframe_scheduling_flag\n",
eNB->Mod_id,harq_pid,frame,subframe,i,harq_pid);
#endif
eNB->ulsch[i]->harq_processes[harq_pid]->subframe_scheduling_flag=0;
if (eNB->ulsch[i]->harq_processes[harq_pid]->cqi_crc_status == 1) {
#ifdef DEBUG_PHY_PROC
//if (((frame%10) == 0) || (frame < 50))
print_CQI(eNB->ulsch[i]->harq_processes[harq_pid]->o,eNB->ulsch[i]->harq_processes[harq_pid]->uci_format,0,fp->N_RB_DL);
#endif
extract_CQI(eNB->ulsch[i]->harq_processes[harq_pid]->o,
eNB->ulsch[i]->harq_processes[harq_pid]->uci_format,
&eNB->UE_stats[i],
fp->N_RB_DL,
&rnti, &access_mode);
eNB->UE_stats[i].rank = eNB->ulsch[i]->harq_processes[harq_pid]->o_RI[0];
}
if (eNB->ulsch[i]->Msg3_flag == 1)
VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME(VCD_SIGNAL_DUMPER_FUNCTIONS_PHY_ENB_ULSCH_MSG3,0);
if (ret == (1+MAX_TURBO_ITERATIONS)) {
T(T_ENB_PHY_ULSCH_UE_NACK, T_INT(eNB->Mod_id), T_INT(frame), T_INT(subframe), T_INT(i), T_INT(eNB->ulsch[i]->rnti),
T_INT(harq_pid));
eNB->UE_stats[i].ulsch_round_errors[harq_pid][eNB->ulsch[i]->harq_processes[harq_pid]->round]++;
eNB->ulsch[i]->harq_processes[harq_pid]->phich_active = 1;
eNB->ulsch[i]->harq_processes[harq_pid]->phich_ACK = 0;
eNB->ulsch[i]->harq_processes[harq_pid]->round++;
LOG_D(PHY,"[eNB][PUSCH %d] Increasing to round %d\n",harq_pid,eNB->ulsch[i]->harq_processes[harq_pid]->round);
if (eNB->ulsch[i]->Msg3_flag == 1) {
LOG_D(PHY,"[eNB %d/%d][RAPROC] frame %d, subframe %d, UE %d: Error receiving ULSCH (Msg3), round %d/%d\n",
eNB->Mod_id,
eNB->CC_id,
frame,subframe, i,
eNB->ulsch[i]->harq_processes[harq_pid]->round-1,
fp->maxHARQ_Msg3Tx-1);
LOG_D(PHY,"[eNB %d][PUSCH %d] frame %d subframe %d RNTI %x RX power (%d,%d) RSSI (%d,%d) N0 (%d,%d) dB ACK (%d,%d), decoding iter %d\n",
eNB->Mod_id,harq_pid,
frame,subframe,
eNB->ulsch[i]->rnti,
dB_fixed(eNB->pusch_vars[i]->ulsch_power[0]),
dB_fixed(eNB->pusch_vars[i]->ulsch_power[1]),
eNB->UE_stats[i].UL_rssi[0],
eNB->UE_stats[i].UL_rssi[1],
eNB->measurements->n0_power_dB[0],
eNB->measurements->n0_power_dB[1],
eNB->ulsch[i]->harq_processes[harq_pid]->o_ACK[0],
eNB->ulsch[i]->harq_processes[harq_pid]->o_ACK[1],
ret);
if (eNB->ulsch[i]->harq_processes[harq_pid]->round ==
fp->maxHARQ_Msg3Tx) {
LOG_D(PHY,"[eNB %d][RAPROC] maxHARQ_Msg3Tx reached, abandoning RA procedure for UE %d\n",
eNB->Mod_id, i);
eNB->UE_stats[i].mode = PRACH;
if (eNB->mac_enabled==1) {
mac_xface->cancel_ra_proc(eNB->Mod_id,
eNB->CC_id,
frame,
eNB->UE_stats[i].crnti);
}
mac_phy_remove_ue(eNB->Mod_id,eNB->UE_stats[i].crnti);
eNB->ulsch[(uint32_t)i]->Msg3_active = 0;
//eNB->ulsch[i]->harq_processes[harq_pid]->phich_active = 0;
} else {
// activate retransmission for Msg3 (signalled to UE PHY by PHICH (not MAC/DCI)
eNB->ulsch[(uint32_t)i]->Msg3_active = 1;
get_Msg3_alloc_ret(fp,
subframe,
frame,
&eNB->ulsch[i]->Msg3_frame,
&eNB->ulsch[i]->Msg3_subframe);
}
LOG_D(PHY,"[eNB] Frame %d, Subframe %d: Msg3 in error, i = %d \n", frame,subframe,i);
} // This is Msg3 error
else { //normal ULSCH
LOG_D(PHY,"[eNB %d][PUSCH %d] frame %d subframe %d UE %d Error receiving ULSCH, round %d/%d (ACK %d,%d)\n",
eNB->Mod_id,harq_pid,
frame,subframe, i,
eNB->ulsch[i]->harq_processes[harq_pid]->round-1,
eNB->ulsch[i]->Mlimit,
eNB->ulsch[i]->harq_processes[harq_pid]->o_ACK[0],
eNB->ulsch[i]->harq_processes[harq_pid]->o_ACK[1]);
#if defined(MESSAGE_CHART_GENERATOR_PHY)
MSC_LOG_RX_DISCARDED_MESSAGE(
MSC_PHY_ENB,MSC_PHY_UE,
NULL,0,
"%05u:%02u ULSCH received rnti %x harq id %u round %d",
frame,subframe,
eNB->ulsch[i]->rnti,harq_pid,
eNB->ulsch[i]->harq_processes[harq_pid]->round-1
);
#endif
if (eNB->ulsch[i]->harq_processes[harq_pid]->round== eNB->ulsch[i]->Mlimit) {
LOG_D(PHY,"[eNB %d][PUSCH %d] frame %d subframe %d UE %d ULSCH Mlimit %d reached\n",
eNB->Mod_id,harq_pid,
frame,subframe, i,
eNB->ulsch[i]->Mlimit);
eNB->ulsch[i]->harq_processes[harq_pid]->round=0;
eNB->ulsch[i]->harq_processes[harq_pid]->phich_active=0;
eNB->UE_stats[i].ulsch_errors[harq_pid]++;
eNB->UE_stats[i].ulsch_consecutive_errors++;
// indicate error to MAC
mac_xface->rx_sdu(eNB->Mod_id,
eNB->CC_id,
frame,subframe,
eNB->ulsch[i]->rnti,
NULL,
0,
harq_pid,
&eNB->ulsch[i]->Msg3_flag);
}
}
} // ulsch in error
else {
T(T_ENB_PHY_ULSCH_UE_ACK, T_INT(eNB->Mod_id), T_INT(frame), T_INT(subframe), T_INT(i), T_INT(eNB->ulsch[i]->rnti),
T_INT(harq_pid));
if (eNB->ulsch[i]->Msg3_flag == 1) {
LOG_D(PHY,"[eNB %d][PUSCH %d] Frame %d subframe %d ULSCH received, setting round to 0, PHICH ACK\n",
eNB->Mod_id,harq_pid,
frame,subframe);
LOG_D(PHY,"[eNB %d][PUSCH %d] frame %d subframe %d RNTI %x RX power (%d,%d) RSSI (%d,%d) N0 (%d,%d) dB ACK (%d,%d), decoding iter %d\n",
eNB->Mod_id,harq_pid,
frame,subframe,
eNB->ulsch[i]->rnti,
dB_fixed(eNB->pusch_vars[i]->ulsch_power[0]),
dB_fixed(eNB->pusch_vars[i]->ulsch_power[1]),
eNB->UE_stats[i].UL_rssi[0],
eNB->UE_stats[i].UL_rssi[1],
eNB->measurements->n0_power_dB[0],
eNB->measurements->n0_power_dB[1],
eNB->ulsch[i]->harq_processes[harq_pid]->o_ACK[0],
eNB->ulsch[i]->harq_processes[harq_pid]->o_ACK[1],
ret);
}
#if defined(MESSAGE_CHART_GENERATOR_PHY)
MSC_LOG_RX_MESSAGE(
MSC_PHY_ENB,MSC_PHY_UE,
NULL,0,
"%05u:%02u ULSCH received rnti %x harq id %u",
frame,subframe,
eNB->ulsch[i]->rnti,harq_pid
);
#endif
for (j=0; jnb_antennas_rx; j++)
//this is the RSSI per RB
eNB->UE_stats[i].UL_rssi[j] =
dB_fixed(eNB->pusch_vars[i]->ulsch_power[j]*
(eNB->ulsch[i]->harq_processes[harq_pid]->nb_rb*12)/
fp->ofdm_symbol_size) -
eNB->rx_total_gain_dB -
hundred_times_log10_NPRB[eNB->ulsch[i]->harq_processes[harq_pid]->nb_rb-1]/100 -
get_hundred_times_delta_IF_eNB(eNB,i,harq_pid, 0)/100;
eNB->ulsch[i]->harq_processes[harq_pid]->phich_active = 1;
eNB->ulsch[i]->harq_processes[harq_pid]->phich_ACK = 1;
eNB->ulsch[i]->harq_processes[harq_pid]->round = 0;
eNB->UE_stats[i].ulsch_consecutive_errors = 0;
if (eNB->ulsch[i]->Msg3_flag == 1) {
if (eNB->mac_enabled==1) {
LOG_I(PHY,"[eNB %d][RAPROC] Frame %d Terminating ra_proc for harq %d, UE %d\n",
eNB->Mod_id,
frame,harq_pid,i);
mac_xface->rx_sdu(eNB->Mod_id,
eNB->CC_id,
frame,subframe,
eNB->ulsch[i]->rnti,
eNB->ulsch[i]->harq_processes[harq_pid]->b,
eNB->ulsch[i]->harq_processes[harq_pid]->TBS>>3,
harq_pid,
&eNB->ulsch[i]->Msg3_flag);
// one-shot msg3 detection by MAC: empty PDU (e.g. CRNTI)
if (eNB->ulsch[i]->Msg3_flag == 0 ) {
eNB->UE_stats[i].mode = PRACH;
mac_xface->cancel_ra_proc(eNB->Mod_id,
eNB->CC_id,
frame,
eNB->UE_stats[i].crnti);
mac_phy_remove_ue(eNB->Mod_id,eNB->UE_stats[i].crnti);
eNB->ulsch[(uint32_t)i]->Msg3_active = 0;
} // Msg3_flag == 0
} // mac_enabled==1
eNB->UE_stats[i].mode = PUSCH;
eNB->ulsch[i]->Msg3_flag = 0;
LOG_D(PHY,"[eNB %d][RAPROC] Frame %d : RX Subframe %d Setting UE %d mode to PUSCH\n",eNB->Mod_id,frame,subframe,i);
for (k=0; k<8; k++) { //harq_processes
for (j=0; jdlsch[i][0]->Mlimit; j++) {
eNB->UE_stats[i].dlsch_NAK[k][j]=0;
eNB->UE_stats[i].dlsch_ACK[k][j]=0;
eNB->UE_stats[i].dlsch_trials[k][j]=0;
}
eNB->UE_stats[i].dlsch_l2_errors[k]=0;
eNB->UE_stats[i].ulsch_errors[k]=0;
eNB->UE_stats[i].ulsch_consecutive_errors=0;
for (j=0; julsch[i]->Mlimit; j++) {
eNB->UE_stats[i].ulsch_decoding_attempts[k][j]=0;
eNB->UE_stats[i].ulsch_decoding_attempts_last[k][j]=0;
eNB->UE_stats[i].ulsch_round_errors[k][j]=0;
eNB->UE_stats[i].ulsch_round_fer[k][j]=0;
}
}
eNB->UE_stats[i].dlsch_sliding_cnt=0;
eNB->UE_stats[i].dlsch_NAK_round0=0;
eNB->UE_stats[i].dlsch_mcs_offset=0;
} // Msg3_flag==1
else { // Msg3_flag == 0
#ifdef DEBUG_PHY_PROC
#ifdef DEBUG_ULSCH
LOG_D(PHY,"[eNB] Frame %d, Subframe %d : ULSCH SDU (RX harq_pid %d) %d bytes:",frame,subframe,
harq_pid,eNB->ulsch[i]->harq_processes[harq_pid]->TBS>>3);
for (j=0; julsch[i]->harq_processes[harq_pid]->TBS>>3; j++)
LOG_T(PHY,"%x.",eNB->ulsch[i]->harq_processes[harq_pid]->b[j]);
LOG_T(PHY,"\n");
#endif
#endif
if (eNB->mac_enabled==1) {
mac_xface->rx_sdu(eNB->Mod_id,
eNB->CC_id,
frame,subframe,
eNB->ulsch[i]->rnti,
eNB->ulsch[i]->harq_processes[harq_pid]->b,
eNB->ulsch[i]->harq_processes[harq_pid]->TBS>>3,
harq_pid,
NULL);
#ifdef LOCALIZATION
start_meas(&eNB->localization_stats);
aggregate_eNB_UE_localization_stats(eNB,
i,
frame,
subframe,
get_hundred_times_delta_IF_eNB(eNB,i,harq_pid, 1)/100);
stop_meas(&eNB->localization_stats);
#endif
} // mac_enabled==1
} // Msg3_flag == 0
// estimate timing advance for MAC
if (eNB->abstraction_flag == 0) {
sync_pos = lte_est_timing_advance_pusch(eNB,i);
eNB->UE_stats[i].timing_advance_update = sync_pos - fp->nb_prefix_samples/4; //to check
}
#ifdef DEBUG_PHY_PROC
LOG_D(PHY,"[eNB %d] frame %d, subframe %d: user %d: timing advance = %d\n",
eNB->Mod_id,
frame, subframe,
i,
eNB->UE_stats[i].timing_advance_update);
#endif
} // ulsch not in error
// process HARQ feedback
#ifdef DEBUG_PHY_PROC
LOG_D(PHY,"[eNB %d][PDSCH %x] Frame %d subframe %d, Processing HARQ feedback for UE %d (after PUSCH)\n",eNB->Mod_id,
eNB->dlsch[i][0]->rnti,
frame,subframe,
i);
#endif
process_HARQ_feedback(i,
eNB,proc,
1, // pusch_flag
0,
0,
0);
#ifdef DEBUG_PHY_PROC
LOG_D(PHY,"[eNB %d] Frame %d subframe %d, sect %d: received ULSCH harq_pid %d for UE %d, ret = %d, CQI CRC Status %d, ACK %d,%d, ulsch_errors %d/%d\n",
eNB->Mod_id,frame,subframe,
eNB->UE_stats[i].sector,
harq_pid,
i,
ret,
eNB->ulsch[i]->harq_processes[harq_pid]->cqi_crc_status,
eNB->ulsch[i]->harq_processes[harq_pid]->o_ACK[0],
eNB->ulsch[i]->harq_processes[harq_pid]->o_ACK[1],
eNB->UE_stats[i].ulsch_errors[harq_pid],
eNB->UE_stats[i].ulsch_decoding_attempts[harq_pid][0]);
#endif
// dump stats to VCD
if (i==0) {
VCD_SIGNAL_DUMPER_DUMP_VARIABLE_BY_NAME(VCD_SIGNAL_DUMPER_VARIABLES_UE0_MCS0+harq_pid,eNB->pusch_stats_mcs[0][(frame*10)+subframe]);
VCD_SIGNAL_DUMPER_DUMP_VARIABLE_BY_NAME(VCD_SIGNAL_DUMPER_VARIABLES_UE0_RB0+harq_pid,eNB->pusch_stats_rb[0][(frame*10)+subframe]);
VCD_SIGNAL_DUMPER_DUMP_VARIABLE_BY_NAME(VCD_SIGNAL_DUMPER_VARIABLES_UE0_ROUND0+harq_pid,eNB->pusch_stats_round[0][(frame*10)+subframe]);
VCD_SIGNAL_DUMPER_DUMP_VARIABLE_BY_NAME(VCD_SIGNAL_DUMPER_VARIABLES_UE0_RSSI0+harq_pid,dB_fixed(eNB->pusch_vars[0]->ulsch_power[0]));
VCD_SIGNAL_DUMPER_DUMP_VARIABLE_BY_NAME(VCD_SIGNAL_DUMPER_VARIABLES_UE0_RES0+harq_pid,ret);
VCD_SIGNAL_DUMPER_DUMP_VARIABLE_BY_NAME(VCD_SIGNAL_DUMPER_VARIABLES_UE0_SFN0+harq_pid,(frame*10)+subframe);
}
} // ulsch[0] && ulsch[0]->rnti>0 && ulsch[0]->subframe_scheduling_flag == 1
// update ULSCH statistics for tracing
if ((frame % 100 == 0) && (subframe == 4)) {
for (harq_idx=0; harq_idx<8; harq_idx++) {
for (round=0; roundulsch[i]->Mlimit; round++) {
if ((eNB->UE_stats[i].ulsch_decoding_attempts[harq_idx][round] -
eNB->UE_stats[i].ulsch_decoding_attempts_last[harq_idx][round]) != 0) {
eNB->UE_stats[i].ulsch_round_fer[harq_idx][round] =
(100*(eNB->UE_stats[i].ulsch_round_errors[harq_idx][round] -
eNB->UE_stats[i].ulsch_round_errors_last[harq_idx][round]))/
(eNB->UE_stats[i].ulsch_decoding_attempts[harq_idx][round] -
eNB->UE_stats[i].ulsch_decoding_attempts_last[harq_idx][round]);
} else {
eNB->UE_stats[i].ulsch_round_fer[harq_idx][round] = 0;
}
eNB->UE_stats[i].ulsch_decoding_attempts_last[harq_idx][round] =
eNB->UE_stats[i].ulsch_decoding_attempts[harq_idx][round];
eNB->UE_stats[i].ulsch_round_errors_last[harq_idx][round] =
eNB->UE_stats[i].ulsch_round_errors[harq_idx][round];
}
}
}
if ((frame % 100 == 0) && (subframe==4)) {
eNB->UE_stats[i].dlsch_bitrate = (eNB->UE_stats[i].total_TBS -
eNB->UE_stats[i].total_TBS_last);
eNB->UE_stats[i].total_TBS_last = eNB->UE_stats[i].total_TBS;
}
// CBA (non-LTE)
cba_procedures(eNB,proc,i,harq_pid);
} // loop i=0 ... NUMBER_OF_UE_MAX-1
if (eNB->abstraction_flag == 0) {
lte_eNB_I0_measurements(eNB,
subframe,
0,
eNB->first_run_I0_measurements);
eNB->first_run_I0_measurements = 0;
}
#ifdef PHY_ABSTRACTION
else {
lte_eNB_I0_measurements_emul(eNB,
0);
}
#endif
//}
#ifdef EMOS
phy_procedures_emos_eNB_RX(subframe,eNB);
#endif
VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME( VCD_SIGNAL_DUMPER_FUNCTIONS_PHY_PROCEDURES_ENB_RX_UESPEC+(subframe&1), 0 );
stop_meas(&eNB->phy_proc_rx);
}
#undef DEBUG_PHY_PROC
#ifdef Rel10
int phy_procedures_RN_eNB_TX(unsigned char last_slot, unsigned char next_slot, relaying_type_t r_type)
{
int do_proc=0;// do nothing
switch(r_type) {
case no_relay:
do_proc= no_relay; // perform the normal eNB operation
break;
case multicast_relay:
if (((next_slot >>1) < 6) || ((next_slot >>1) > 8))
do_proc = 0; // do nothing
else // SF#6, SF#7 and SF#8
do_proc = multicast_relay; // do PHY procedures eNB TX
break;
default: // should'not be here
LOG_W(PHY,"Not supported relay type %d, do nothing\n", r_type);
do_proc=0;
break;
}
return do_proc;
}
#endif