oaisim.c 40.4 KB
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#include <string.h>
#include <math.h>
#include <unistd.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <time.h>
#include <cblas.h>
#include <execinfo.h>

#include "SIMULATION/RF/defs.h"
#include "PHY/types.h"
#include "PHY/defs.h"
#include "PHY/LTE_TRANSPORT/proto.h"
#include "PHY/vars.h"
#include "MAC_INTERFACE/vars.h"

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#include "SIMULATION/ETH_TRANSPORT/proto.h"

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//#ifdef OPENAIR2
#include "LAYER2/MAC/defs.h"
#include "LAYER2/MAC/vars.h"
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#include "pdcp.h"
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#ifndef CELLULAR
#include "RRC/LITE/vars.h"
#endif
#include "PHY_INTERFACE/vars.h"
//#endif
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#include "RRC/NAS/nas_config.h"
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#include "ARCH/CBMIMO1/DEVICE_DRIVER/vars.h"

#ifdef IFFT_FPGA
//#include "PHY/LTE_REFSIG/mod_table.h"
#endif //IFFT_FPGA
#include "SCHED/defs.h"
#include "SCHED/vars.h"

#ifdef XFORMS
#include "PHY/TOOLS/lte_phy_scope.h"
#endif

#ifdef SMBV
#include "PHY/TOOLS/smbv.h"
char smbv_fname[] = "smbv_config_file.smbv";
unsigned short smbv_nframes = 4; // how many frames to configure 1,..,4
unsigned short config_frames[4] = {2,9,11,13};
// unsigned short config_frames[4] = {1};
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unsigned char smbv_frame_cnt = 0;
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u8 config_smbv = 0;
char smbv_ip[16];
#endif

#include "oaisim_functions.h"

#include "oaisim.h"
#include "oaisim_config.h"
#include "UTIL/OCG/OCG_extern.h"
#include "cor_SF_sim.h"
#include "UTIL/OMG/omg_constants.h"
#include "UTIL/FIFO/pad_list.h"

//#ifdef PROC
#include "../PROC/interface.h"
#include "../PROC/channel_sim_proc.h"
#include "../PROC/Tsync.h"
#include "../PROC/Process.h"
//#endif

#include "UTIL/LOG/vcd_signal_dumper.h"
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#include "UTIL/OTG/otg_kpi.h"

#if defined(ENABLE_ITTI)
# include "intertask_interface_init.h"
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# include "timer.h"
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#endif
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#define RF

//#define DEBUG_SIM

#define MCS_COUNT 24//added for PHY abstraction
#define N_TRIALS 1

/*
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 DCI0_5MHz_TDD0_t          UL_alloc_pdu;
 DCI1A_5MHz_TDD_1_6_t      CCCH_alloc_pdu;
 DCI2_5MHz_2A_L10PRB_TDD_t DLSCH_alloc_pdu1;
 DCI2_5MHz_2A_M10PRB_TDD_t DLSCH_alloc_pdu2;
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 */

#define UL_RB_ALLOC computeRIV(lte_frame_parms->N_RB_UL,0,24)
#define CCCH_RB_ALLOC computeRIV(lte_frame_parms->N_RB_UL,0,3)
#define RA_RB_ALLOC computeRIV(lte_frame_parms->N_RB_UL,0,3)
#define DLSCH_RB_ALLOC 0x1fff

#define DECOR_DIST 100
#define SF_VAR 10

//constant for OAISIM soft realtime calibration
#define SF_DEVIATION_OFFSET_NS 100000 //= 0.1ms : should be as a number of UE
#define SLEEP_STEP_US       100 //  = 0.01ms could be adaptive, should be as a number of UE
#define K 2                  // averaging coefficient 
#define TARGET_SF_TIME_NS 1000000       // 1ms = 1000000 ns
//#ifdef OPENAIR2
//u16 NODE_ID[1];
//u8 NB_INST = 2;
//#endif //OPENAIR2
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u32 frame = 0;
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//int eMBMS_active = 0;
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char stats_buffer[16384];
channel_desc_t *eNB2UE[NUMBER_OF_eNB_MAX][NUMBER_OF_UE_MAX];
channel_desc_t *UE2eNB[NUMBER_OF_UE_MAX][NUMBER_OF_eNB_MAX];
//Added for PHY abstraction
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node_desc_t *enb_data[NUMBER_OF_eNB_MAX];
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node_desc_t *ue_data[NUMBER_OF_UE_MAX];
// Added for PHY abstraction
extern Node_list ue_node_list;
extern Node_list enb_node_list;
extern int pdcp_period, omg_period;

extern double **s_re, **s_im, **r_re, **r_im, **r_re0, **r_im0;
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int map1, map2;
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extern double **ShaF;
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double snr_dB, sinr_dB, snr_direction; //,sinr_direction;
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extern double snr_step;
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extern u8 set_sinr; //,set_snr=0;
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extern u8 ue_connection_test;
extern u8 set_seed;
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u8 cooperation_flag; // for cooperative communication
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extern u8 target_dl_mcs;
extern u8 target_ul_mcs;
u8 rate_adaptation_flag;
extern u8 abstraction_flag, ethernet_flag;
extern u16 Nid_cell;
extern struct timespec time_spec;
extern unsigned long time_last, time_now;
extern int td, td_avg, sleep_time_us;
extern LTE_DL_FRAME_PARMS *frame_parms;
//double sinr_bler_map[MCS_COUNT][2][16];
//double sinr_bler_map_up[MCS_COUNT][2][16];
//extern double SINRpost_eff[301];
//extern int mcsPost; 
//extern int  nrbPost; 
//extern int frbPost;
//extern void kpi_gen();

#ifdef XFORMS
int otg_enabled;
#endif

// this should reflect the channel models in openair1/SIMULATION/TOOLS/defs.h
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mapping small_scale_names[] =
  {
    {"custom", custom},
     {"SCM_A", SCM_A},
     {"SCM_B", SCM_B},
     {"SCM_C", SCM_C},
     {"SCM_D", SCM_D},
     {"EPA", EPA},
     {"EVA", EVA},
     {"ETU", ETU},
     {"Rayleigh8", Rayleigh8},
     {"Rayleigh1", Rayleigh1},
     {"Rayleigh1_800", Rayleigh1_800},
     {"Rayleigh1_corr", Rayleigh1_corr},
     {"Rayleigh1_anticorr", Rayleigh1_anticorr},
     {"Rice8", Rice8},
     {"Rice1", Rice1},
     {"Rice1_corr", Rice1_corr},
     {"Rice1_anticorr", Rice1_anticorr},
     {"AWGN", AWGN},
     {NULL, -1}};
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//static void *sigh(void *arg);
void terminate(void);

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void help(void) {
  printf (
      "Usage: oaisim -h -a -F -C tdd_config -V -R N_RB_DL -e -x transmission_mode -m target_dl_mcs -r(ate_adaptation) -n n_frames -s snr_dB -k ricean_factor -t max_delay -f forgetting factor -A channel_model -z cooperation_flag -u nb_local_ue -U UE mobility -b nb_local_enb -B eNB_mobility -M ethernet_flag -p nb_master -g multicast_group -l log_level -c ocg_enable -T traffic model -D multicast network device\n");
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  printf ("-h provides this help message!\n");
  printf ("-a Activates PHY abstraction mode\n");
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  printf (
      "-A set the multipath channel simulation,  options are: SCM_A, SCM_B, SCM_C, SCM_D, EPA, EVA, ETU, Rayleigh8, Rayleigh1, Rayleigh1_corr,Rayleigh1_anticorr, Rice8,, Rice1, AWGN \n");
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  printf ("-b Set the number of local eNB\n");
  printf ("-B Set the mobility model for eNB, options are: STATIC, RWP, RWALK, \n");
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  printf (
      "-c [1,2,3,4] Activate the config generator (OCG) to process the scenario descriptor, or give the scenario manually: -c template_1.xml \n");
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  printf ("-C [0-6] Sets TDD configuration\n");
  printf ("-e Activates extended prefix mode\n");
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  printf ("-E Random number generator seed\n");
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  printf ("-f Set the forgetting factor for time-variation\n");
  printf ("-F Activates FDD transmission (TDD is default)\n");
  printf ("-g Set multicast group ID (0,1,2,3) - valid if M is set\n");
  printf ("-G Enable background traffic \n");
  printf ("-I Enable CLI interface (to connect use telnet localhost 1352)\n");
  printf ("-k Set the Ricean factor (linear)\n");
  printf ("-l Set the global log level (8:trace, 7:debug, 6:info, 4:warn, 3:error) \n");
  printf ("-L [0-1] 0 to disable new link adaptation, 1 to enable new link adapatation\n");
  printf ("-m Gives a fixed DL mcs\n");
  printf ("-M Set the machine ID for Ethernet-based emulation\n");
  printf ("-n Set the number of frames for the simulation\n");
  printf ("-O [mme ipv4 address] Enable MME mode\n");
  printf ("-p Set the total number of machine in emulation - valid if M is set\n");
  printf ("-P [trace type] Enable protocol analyzer. Possible values for OPT:\n");
  printf ("    - wireshark: Enable tracing of layers above PHY using an UDP socket\n");
  printf ("    - pcap:      Enable tracing of layers above PHY to a pcap file\n");
  printf ("    - tshark:    Not implemented yet\n");
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  printf (
      "-Q Activate and set the MBMS service: 0 : not used (default eMBMS disabled), 1: eMBMS and RRC Connection enabled, 2: eMBMS relaying and RRC Connection enabled, 3: eMBMS enabled, RRC Connection disabled, 4: eMBMS relaying enabled, RRC Connection disabled\n");
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  printf ("-R [6,15,25,50,75,100] Sets N_RB_DL\n");
  printf ("-r Activates rate adaptation (DL for now)\n");
  printf ("-s snr_dB set a fixed (average) SNR, this deactivates the openair channel model generator (OCM)\n");
  printf ("-S snir_dB set a fixed (average) SNIR, this deactivates the openair channel model generator (OCM)\n");
  printf ("-t Set the delay spread (microseconds)\n");
  printf ("-T activate the traffic generator: cbr, mcbr, bcbr, mscbr \n");
  printf ("-u Set the number of local UE\n");
  printf ("-U Set the mobility model for UE, options are: STATIC, RWP, RWALK \n");
  printf ("-V Enable VCD dump, file = openair_vcd_dump.vcd\n");
  printf ("-w number of CBA groups, if not specified or zero, CBA is inactive\n");
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  printf (
      "-W IP address to connect to SMBV and configure SMBV from config file. Requires compilation with SMBV=1, -W0 uses default IP 192.168.12.201\n");
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  printf ("-x Set the transmission mode (1,2,5,6 supported for now)\n");
  printf ("-Y Set the global log verbosity (none, low, medium, high, full) \n");
  printf ("-z Set the cooperation flag (0 for no cooperation, 1 for delay diversity and 2 for distributed alamouti\n");
  printf ("-Z Reserved\n");
}

pthread_t log_thread;

void log_thread_init() {
  //create log_list
  //log_list_init(&log_list);
#ifndef LOG_NO_THREAD

  log_shutdown = 0;

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  if ((pthread_mutex_init (&log_lock, NULL) != 0) || (pthread_cond_init (&log_notify, NULL) != 0)) {
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    return;
  }

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  if (pthread_create (&log_thread, NULL, log_thread_function, (void*) NULL) != 0) {
    log_thread_finalize ();
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    return;
  }
#endif

}

//Call it after the last LOG call
int log_thread_finalize() {
  int err = 0;

#ifndef LOG_NO_THREAD

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  if (pthread_mutex_lock (&log_lock) != 0) {
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    return -1;
  }

  log_shutdown = 1;

  /* Wake up LOG thread */
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  if ((pthread_cond_broadcast (&log_notify) != 0) || (pthread_mutex_unlock (&log_lock) != 0)) {
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    err = -1;
  }
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  if (pthread_join (log_thread, NULL) != 0) {
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    err = -1;
  }
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  if (pthread_mutex_unlock (&log_lock) != 0) {
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    err = -1;
  }

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  if (!err) {
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    //log_list_free(&log_list);
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    pthread_mutex_lock (&log_lock);
    pthread_mutex_destroy (&log_lock);
    pthread_cond_destroy (&log_notify);
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  }
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#endif

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  return err;
}

#ifdef OPENAIR2
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int omv_write(int pfd, Node_list enb_node_list, Node_list ue_node_list, Data_Flow_Unit omv_data) {
  int i, j;
  omv_data.end = 0;
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  //omv_data.total_num_nodes = NB_UE_INST + NB_eNB_INST;
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  for (i = 0; i < NB_eNB_INST; i++) {
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    if (enb_node_list != NULL) {
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      omv_data.geo[i].x = (enb_node_list->node->X_pos < 0.0) ? 0.0 : enb_node_list->node->X_pos;
      omv_data.geo[i].y = (enb_node_list->node->Y_pos < 0.0) ? 0.0 : enb_node_list->node->Y_pos;
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      omv_data.geo[i].z = 1.0;
      omv_data.geo[i].mobility_type = oai_emulation.info.omg_model_enb;
      omv_data.geo[i].node_type = 0; //eNB
      enb_node_list = enb_node_list->next;
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      omv_data.geo[i].Neighbors = 0;
      for (j = NB_eNB_INST; j < NB_UE_INST + NB_eNB_INST; j++) {
        if (is_UE_active (i, j - NB_eNB_INST) == 1) {
          omv_data.geo[i].Neighbor[omv_data.geo[i].Neighbors] = j;
          omv_data.geo[i].Neighbors++;
          LOG_D(
              OMG,
              "[eNB %d][UE %d] is_UE_active(i,j) %d geo (x%d, y%d) num neighbors %d\n", i, j-NB_eNB_INST, is_UE_active(i,j-NB_eNB_INST), omv_data.geo[i].x, omv_data.geo[i].y, omv_data.geo[i].Neighbors);
        }
      }
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    }
  }
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  for (i = NB_eNB_INST; i < NB_UE_INST + NB_eNB_INST; i++) {
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    if (ue_node_list != NULL) {
      omv_data.geo[i].x = (ue_node_list->node->X_pos < 0.0) ? 0.0 : ue_node_list->node->X_pos;
      omv_data.geo[i].y = (ue_node_list->node->Y_pos < 0.0) ? 0.0 : ue_node_list->node->Y_pos;
      omv_data.geo[i].z = 1.0;
      omv_data.geo[i].mobility_type = oai_emulation.info.omg_model_ue;
      omv_data.geo[i].node_type = 1; //UE
      //trial
      omv_data.geo[i].state = 1;
      omv_data.geo[i].rnti = 88;
      omv_data.geo[i].connected_eNB = 0;
      omv_data.geo[i].RSRP = 66;
      omv_data.geo[i].RSRQ = 55;
      omv_data.geo[i].Pathloss = 44;
      omv_data.geo[i].RSSI[0] = 33;
      omv_data.geo[i].RSSI[1] = 22;
      omv_data.geo[i].RSSI[2] = 11;
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      ue_node_list = ue_node_list->next;
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      omv_data.geo[i].Neighbors = 0;
      for (j = 0; j < NB_eNB_INST; j++) {
        if (is_UE_active (j, i - NB_eNB_INST) == 1) {
          omv_data.geo[i].Neighbor[omv_data.geo[i].Neighbors] = j;
          omv_data.geo[i].Neighbors++;
          LOG_D(
              OMG,
              "[UE %d][eNB %d] is_UE_active  %d geo (x%d, y%d) num neighbors %d\n", i-NB_eNB_INST, j, is_UE_active(j,i-NB_eNB_INST), omv_data.geo[i].x, omv_data.geo[i].y, omv_data.geo[i].Neighbors);
        }
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      }
    }
  }
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  LOG_E(OMG, "pfd %d \n", pfd);
  if (write (pfd, &omv_data, sizeof(struct Data_Flow_Unit)) == -1)
    perror ("write omv failed");
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  return 1;
}

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void omv_end(int pfd, Data_Flow_Unit omv_data) {
  omv_data.end = 1;
  if (write (pfd, &omv_data, sizeof(struct Data_Flow_Unit)) == -1)
    perror ("write omv failed");
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}
#endif 

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#ifdef OPENAIR2
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int pfd[2]; // fd for omv : fixme: this could be a local var
#endif
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#ifdef OPENAIR2
static Data_Flow_Unit omv_data;
#endif //ALU
static s32 UE_id = 0, eNB_id = 0;
#ifdef Rel10
static s32 RN_id=0;
#endif
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void *l2l1_task(void *args_p) {
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  // Framing variables
  s32 slot, last_slot, next_slot;

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#ifdef Rel10
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  relaying_type_t r_type=no_relay; // no relaying
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#endif
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  lte_subframe_t direction;

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  char fname[64], vname[64];
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#if defined(ENABLE_ITTI)
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  MessageDef *message_p;
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  itti_mark_task_ready (TASK_L2L1);
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#endif

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  for (frame = 0; frame < oai_emulation.info.n_frames; frame++) {
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#if defined(ENABLE_ITTI)
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    do {
      // Checks if a message has been sent to L2L1 task
      itti_poll_msg (TASK_L2L1, INSTANCE_ALL, &message_p);

      if (message_p != NULL) {
        switch (message_p->header.messageId) {
          case TERMINATE_MESSAGE:
            itti_exit_task ();
            break;

          case MESSAGE_TEST:
            LOG_D(EMU, "Received %s\n", itti_get_message_name(message_p->header.messageId));
            break;

          default:
            LOG_E(EMU, "Received unexpected message %s\n", itti_get_message_name(message_p->header.messageId));
            break;
        }
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        free (message_p);
      }
    } while(message_p != NULL);
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#endif

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    /*
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     // Handling the cooperation Flag
     if (cooperation_flag == 2)
     {
     if ((PHY_vars_eNB_g[0]->eNB_UE_stats[0].mode == PUSCH) && (PHY_vars_eNB_g[0]->eNB_UE_stats[1].mode == PUSCH))
     PHY_vars_eNB_g[0]->cooperation_flag = 2;
     }
     */
    if (ue_connection_test == 1) {
      if ((frame % 20) == 0) {
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        snr_dB += snr_direction;
        sinr_dB -= snr_direction;
      }
      if (snr_dB == -20) {
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        snr_direction = snr_step;
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      }
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      else
        if (snr_dB == 20) {
          snr_direction = -snr_step;
        }
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    }

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    oai_emulation.info.frame = frame;
    //oai_emulation.info.time_ms += 1;
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    oai_emulation.info.time_s += 0.1; // emu time in s, each frame lasts for 10 ms // JNote: TODO check the coherency of the time and frame (I corrected it to 10 (instead of 0.01)
    // if n_frames not set by the user or is greater than max num frame then set adjust the frame counter
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    if ((oai_emulation.info.n_frames_flag == 0) || (oai_emulation.info.n_frames >= 0xffff)) {
      frame %= (oai_emulation.info.n_frames - 1);
    }

    update_omg (); // frequency is defined in the omg_global params configurable by the user
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    update_omg_ocm ();
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#ifdef OPENAIR2
    // check if pipe is still open
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    if ((oai_emulation.info.omv_enabled == 1)) {
      omv_write (pfd[1], enb_node_list, ue_node_list, omv_data);
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    }
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#endif
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#ifdef DEBUG_OMG
    if ((((int) oai_emulation.info.time_s) % 100) == 0) {
      for (UE_id = oai_emulation.info.first_ue_local; UE_id < (oai_emulation.info.first_ue_local + oai_emulation.info.nb_ue_local); UE_id++) {
        get_node_position (UE, UE_id);
      }
    }
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#endif

    update_ocm ();

    for (slot = 0; slot < 20; slot++) {
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      wait_for_slot_isr ();
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      last_slot = (slot - 1) % 20;
      if (last_slot < 0)
        last_slot += 20;
      next_slot = (slot + 1) % 20;
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      oai_emulation.info.time_ms = frame * 10 + (slot >> 1);
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      direction = subframe_select (frame_parms, next_slot >> 1);
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#ifdef PROC
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      if(Channel_Flag==1)
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      Channel_Func(s_re2,s_im2,r_re2,r_im2,r_re02,r_im02,r_re0_d,r_im0_d,r_re0_u,r_im0_u,eNB2UE,UE2eNB,enb_data,ue_data,abstraction_flag,frame_parms,slot);
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      if(Channel_Flag==0)
#endif
      {
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        if ((next_slot % 2) == 0)
          clear_eNB_transport_info (oai_emulation.info.nb_enb_local);
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        for (eNB_id = oai_emulation.info.first_enb_local;
            (eNB_id < (oai_emulation.info.first_enb_local + oai_emulation.info.nb_enb_local))
                && (oai_emulation.info.cli_start_enb[eNB_id] == 1); eNB_id++) {
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          //printf ("debug: Nid_cell %d\n", PHY_vars_eNB_g[eNB_id]->lte_frame_parms.Nid_cell);
          //printf ("debug: frame_type %d,tdd_config %d\n", PHY_vars_eNB_g[eNB_id]->lte_frame_parms.frame_type,PHY_vars_eNB_g[eNB_id]->lte_frame_parms.tdd_config);
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          LOG_D(
              EMU,
              "PHY procedures eNB %d for frame %d, slot %d (subframe TX %d, RX %d) TDD %d/%d Nid_cell %d\n", eNB_id, frame, slot, next_slot >> 1, last_slot>>1, PHY_vars_eNB_g[eNB_id]->lte_frame_parms.frame_type, PHY_vars_eNB_g[eNB_id]->lte_frame_parms.tdd_config, PHY_vars_eNB_g[eNB_id]->lte_frame_parms.Nid_cell);
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          //Appliation: traffic gen
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          update_otg_eNB (eNB_id, oai_emulation.info.time_ms);
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          //IP/OTG to PDCP and PDCP to IP operation
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          pdcp_run (frame, 1, 0, eNB_id); //PHY_vars_eNB_g[eNB_id]->Mod_id

          // PHY_vars_eNB_g[eNB_id]->frame = frame;
          phy_procedures_eNB_lte (last_slot, next_slot, PHY_vars_eNB_g[eNB_id], abstraction_flag, no_relay, NULL);
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#ifdef PRINT_STATS
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          if(last_slot==9 && frame%10==0)
          if(eNB_avg_thr)
          fprintf(eNB_avg_thr,"%d %d\n",PHY_vars_eNB_g[eNB_id]->frame,(PHY_vars_eNB_g[eNB_id]->total_system_throughput)/((PHY_vars_eNB_g[eNB_id]->frame+1)*10));
          if (eNB_stats[eNB_id]) {
            len = dump_eNB_stats(PHY_vars_eNB_g[eNB_id], stats_buffer, 0);
            rewind (eNB_stats[eNB_id]);
            fwrite (stats_buffer, 1, len, eNB_stats[eNB_id]);
            fflush(eNB_stats[eNB_id]);
          }
512
#ifdef OPENAIR2
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          if (eNB_l2_stats) {
            len = dump_eNB_l2_stats (stats_buffer, 0);
            rewind (eNB_l2_stats);
            fwrite (stats_buffer, 1, len, eNB_l2_stats);
            fflush(eNB_l2_stats);
          }
#endif
520 521 522 523 524 525 526 527 528
#endif
        }
        // Call ETHERNET emulation here
        //emu_transport (frame, last_slot, next_slot, direction, oai_emulation.info.frame_type, ethernet_flag);

        if ((next_slot % 2) == 0)
          clear_UE_transport_info (oai_emulation.info.nb_ue_local);

        for (UE_id = oai_emulation.info.first_ue_local;
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            (UE_id < (oai_emulation.info.first_ue_local + oai_emulation.info.nb_ue_local))
                && (oai_emulation.info.cli_start_ue[UE_id] == 1); UE_id++) {
          if (frame >= (UE_id * 20)) { // activate UE only after 20*UE_id frames so that different UEs turn on separately

            LOG_D(
                EMU,
                "PHY procedures UE %d for frame %d, slot %d (subframe TX %d, RX %d)\n", UE_id, frame, slot, next_slot >> 1, last_slot>>1);

            if (PHY_vars_UE_g[UE_id]->UE_mode[0] != NOT_SYNCHED) {
              if (frame > 0) {
                PHY_vars_UE_g[UE_id]->frame = frame;

                //Application
                update_otg_UE (UE_id, oai_emulation.info.time_ms);

                //Access layer
                pdcp_run (frame, 0, UE_id, 0);

                phy_procedures_UE_lte (last_slot, next_slot, PHY_vars_UE_g[UE_id], 0, abstraction_flag, normal_txrx,
                                       no_relay, NULL);
                ue_data[UE_id]->tx_power_dBm = PHY_vars_UE_g[UE_id]->tx_power_dBm;
              }
            }
            else {
              if (abstraction_flag == 1) {
                LOG_E(
                    EMU,
                    "sync not supported in abstraction mode (UE%d,mode%d)\n", UE_id, PHY_vars_UE_g[UE_id]->UE_mode[0]);
                exit (-1);
              }
              if ((frame > 0) && (last_slot == (LTE_SLOTS_PER_FRAME - 2))) {
                initial_sync (PHY_vars_UE_g[UE_id], normal_txrx);

                /*
                 write_output("dlchan00.m","dlch00",&(PHY_vars_UE_g[0]->lte_ue_common_vars.dl_ch_estimates[0][0][0]),(6*(PHY_vars_UE_g[0]->lte_frame_parms.ofdm_symbol_size)),1,1);
                 if (PHY_vars_UE_g[0]->lte_frame_parms.nb_antennas_rx>1)
                 write_output("dlchan01.m","dlch01",&(PHY_vars_UE_g[0]->lte_ue_common_vars.dl_ch_estimates[0][1][0]),(6*(PHY_vars_UE_g[0]->lte_frame_parms.ofdm_symbol_size)),1,1);
                 write_output("dlchan10.m","dlch10",&(PHY_vars_UE_g[0]->lte_ue_common_vars.dl_ch_estimates[0][2][0]),(6*(PHY_vars_UE_g[0]->lte_frame_parms.ofdm_symbol_size)),1,1);
                 if (PHY_vars_UE_g[0]->lte_frame_parms.nb_antennas_rx>1)
                 write_output("dlchan11.m","dlch11",&(PHY_vars_UE_g[0]->lte_ue_common_vars.dl_ch_estimates[0][3][0]),(6*(PHY_vars_UE_g[0]->lte_frame_parms.ofdm_symbol_size)),1,1);
                 write_output("rxsig.m","rxs",PHY_vars_UE_g[0]->lte_ue_common_vars.rxdata[0],PHY_vars_UE_g[0]->lte_frame_parms.samples_per_tti*10,1,1);
                 write_output("rxsigF.m","rxsF",PHY_vars_UE_g[0]->lte_ue_common_vars.rxdataF[0],2*PHY_vars_UE_g[0]->lte_frame_parms.symbols_per_tti*PHY_vars_UE_g[0]->lte_frame_parms.ofdm_symbol_size,2,1);
                 write_output("pbch_rxF_ext0.m","pbch_ext0",PHY_vars_UE_g[0]->lte_ue_pbch_vars[0]->rxdataF_ext[0],6*12*4,1,1);
                 write_output("pbch_rxF_comp0.m","pbch_comp0",PHY_vars_UE_g[0]->lte_ue_pbch_vars[0]->rxdataF_comp[0],6*12*4,1,1);
                 write_output("pbch_rxF_llr.m","pbch_llr",PHY_vars_UE_g[0]->lte_ue_pbch_vars[0]->llr,(frame_parms->Ncp==0) ? 1920 : 1728,1,4);
                 */
              }
            }
577
#ifdef PRINT_STATS
578 579 580 581 582 583 584 585 586
            if(last_slot==2 && frame%10==0)
            if (UE_stats_th[UE_id])
            fprintf(UE_stats_th[UE_id],"%d %d\n",frame, PHY_vars_UE_g[UE_id]->bitrate[0]/1000);
            if (UE_stats[UE_id]) {
              len = dump_ue_stats (PHY_vars_UE_g[UE_id], stats_buffer, 0, normal_txrx, 0);
              rewind (UE_stats[UE_id]);
              fwrite (stats_buffer, 1, len, UE_stats[UE_id]);
              fflush(UE_stats[UE_id]);
            }
587
#endif
588 589
          }
        }
590
#ifdef Rel10
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        for (RN_id=oai_emulation.info.first_rn_local;
            RN_id<oai_emulation.info.first_rn_local+oai_emulation.info.nb_rn_local;
            RN_id++) {
          // UE id and eNB id of the RN
          UE_id= oai_emulation.info.first_ue_local+oai_emulation.info.nb_ue_local + RN_id;// NB_UE_INST + RN_id
          eNB_id= oai_emulation.info.first_enb_local+oai_emulation.info.nb_enb_local + RN_id;// NB_eNB_INST + RN_id
          // currently only works in FDD
          if (oai_emulation.info.eMBMS_active_state == 4) {
            r_type = multicast_relay;
            //LOG_I(EMU,"Activating the multicast relaying\n");
          }
          else {
            LOG_E(EMU,"Not supported eMBMS option when relaying is enabled %d\n", r_type);
            exit(-1);
          }
          PHY_vars_RN_g[RN_id]->frame = frame;
          if ( oai_emulation.info.frame_type == 0) {
            // RN == UE
            if (frame>0) {
              if (PHY_vars_UE_g[UE_id]->UE_mode[0] != NOT_SYNCHED) {
                LOG_D(EMU,"[RN %d] PHY procedures UE %d for frame %d, slot %d (subframe TX %d, RX %d)\n",
                    RN_id, UE_id, frame, slot, next_slot >> 1,last_slot>>1);
                PHY_vars_UE_g[UE_id]->frame = frame;
                phy_procedures_UE_lte (last_slot, next_slot, PHY_vars_UE_g[UE_id], 0, abstraction_flag,normal_txrx,
                    r_type, PHY_vars_RN_g[RN_id]);
              }
              else if (last_slot == (LTE_SLOTS_PER_FRAME-2)) {
                initial_sync(PHY_vars_UE_g[UE_id],normal_txrx);
              }
            }
            // RN == eNB
            LOG_D(EMU,"[RN %d] PHY procedures eNB %d for frame %d, slot %d (subframe TX %d, RX %d)\n",
                RN_id, eNB_id, frame, slot, next_slot >> 1,last_slot>>1);
            phy_procedures_eNB_lte (last_slot, next_slot, PHY_vars_eNB_g[eNB_id], abstraction_flag,
                r_type, PHY_vars_RN_g[RN_id]);
          }
          else {
            LOG_E(EMU,"TDD is not supported for multicast relaying %d\n", r_type);
            exit(-1);
          }
        }
632
#endif
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        emu_transport (frame, last_slot, next_slot, direction, oai_emulation.info.frame_type, ethernet_flag);
        if ((direction == SF_DL) || (frame_parms->frame_type == 0)) {
          // consider only sec id 0
          /*  for (eNB_id=0;eNB_id<NB_eNB_INST;eNB_id++) {
           if (abstraction_flag == 0) {
           do_OFDM_mod(PHY_vars_eNB_g[eNB_id]->lte_eNB_common_vars.txdataF[0],
           PHY_vars_eNB_g[eNB_id]->lte_eNB_common_vars.txdata[0],
           frame,next_slot,
           frame_parms);
           }
           }*/
          for (UE_id = 0; UE_id < NB_UE_INST; UE_id++) {
            do_DL_sig (r_re0, r_im0, r_re, r_im, s_re, s_im, eNB2UE, enb_data, ue_data, next_slot, abstraction_flag,
                       frame_parms, UE_id);
          }
        }
        if ((direction == SF_UL) || (frame_parms->frame_type == 0)) { //if ((subframe<2) || (subframe>4))
          do_UL_sig (r_re0, r_im0, r_re, r_im, s_re, s_im, UE2eNB, enb_data, ue_data, next_slot, abstraction_flag,
                     frame_parms, frame);
652
          /*
653 654 655 656 657 658 659 660
           int ccc;
           fprintf(SINRpost,"SINRdb For eNB New Subframe : \n ");
           for(ccc = 0 ; ccc<301; ccc++)
           {
           fprintf(SINRpost,"_ %f ", SINRpost_eff[ccc]);
           }
           fprintf(SINRpost,"SINRdb For eNB : %f \n ", SINRpost_eff[ccc]);
           */
661
        }
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        if ((direction == SF_S)) { //it must be a special subframe
          if (next_slot % 2 == 0) { //DL part
            /*  for (eNB_id=0;eNB_id<NB_eNB_INST;eNB_id++) {
             if (abstraction_flag == 0) {
             do_OFDM_mod(PHY_vars_eNB_g[eNB_id]->lte_eNB_common_vars.txdataF[0],
             PHY_vars_eNB_g[eNB_id]->lte_eNB_common_vars.txdata[0],
             frame,next_slot,
             frame_parms);
             }
             }*/
            for (UE_id = 0; UE_id < NB_UE_INST; UE_id++) {
              do_DL_sig (r_re0, r_im0, r_re, r_im, s_re, s_im, eNB2UE, enb_data, ue_data, next_slot, abstraction_flag,
                         frame_parms, UE_id);
675
            }
676 677 678 679 680 681
            /*
             for (aarx=0;aarx<UE2eNB[1][0]->nb_rx;aarx++)
             for (aatx=0;aatx<UE2eNB[1][0]->nb_tx;aatx++)
             for (k=0;k<UE2eNB[1][0]->channel_length;k++)
             printf("SB(%d,%d,%d)->(%f,%f)\n",k,aarx,aatx,UE2eNB[1][0]->ch[aarx+(aatx*UE2eNB[1][0]->nb_rx)][k].r,UE2eNB[1][0]->ch[aarx+(aatx*UE2eNB[1][0]->nb_rx)][k].i);
             */
682
          }
683 684 685 686 687 688 689 690 691 692 693 694 695 696 697
          else { // UL part
            do_UL_sig (r_re0, r_im0, r_re, r_im, s_re, s_im, UE2eNB, enb_data, ue_data, next_slot, abstraction_flag,
                       frame_parms, frame);

            /*        int ccc;
             fprintf(SINRpost,"SINRdb For eNB New Subframe : \n ");
             for(ccc = 0 ; ccc<301; ccc++)
             {
             fprintf(SINRpost,"_ %f ", SINRpost_eff[ccc]);
             }
             fprintf(SINRpost,"SINRdb For eNB : %f \n ", SINRpost_eff[ccc]);
             }
             */}
        }
        if ((last_slot == 1) && (frame == 0) && (abstraction_flag == 0) && (oai_emulation.info.n_frames == 1)) {
698

699
          write_output ("dlchan0.m", "dlch0", &(PHY_vars_UE_g[0]->lte_ue_common_vars.dl_ch_estimates[0][0][0]),
700
                        (6 * (PHY_vars_UE_g[0]->lte_frame_parms.ofdm_symbol_size)), 1, 1);
701
          write_output ("dlchan1.m", "dlch1", &(PHY_vars_UE_g[0]->lte_ue_common_vars.dl_ch_estimates[1][0][0]),
702
                        (6 * (PHY_vars_UE_g[0]->lte_frame_parms.ofdm_symbol_size)), 1, 1);
703
          write_output ("dlchan2.m", "dlch2", &(PHY_vars_UE_g[0]->lte_ue_common_vars.dl_ch_estimates[2][0][0]),
704
                        (6 * (PHY_vars_UE_g[0]->lte_frame_parms.ofdm_symbol_size)), 1, 1);
705 706 707 708
          write_output ("pbch_rxF_comp0.m", "pbch_comp0", PHY_vars_UE_g[0]->lte_ue_pbch_vars[0]->rxdataF_comp[0],
                        6 * 12 * 4, 1, 1);
          write_output ("pbch_rxF_llr.m", "pbch_llr", PHY_vars_UE_g[0]->lte_ue_pbch_vars[0]->llr,
                        (frame_parms->Ncp == 0) ? 1920 : 1728, 1, 4);
709 710 711 712 713 714
        }
        /*
         if ((last_slot==1) && (frame==1)) {
         write_output("dlsch_rxF_comp0.m","dlsch0_rxF_comp0",PHY_vars_UE->lte_ue_pdsch_vars[eNB_id]->rxdataF_comp[0],300*(-(PHY_vars_UE->lte_frame_parms.Ncp*2)+14),1,1);
         write_output("pdcch_rxF_comp0.m","pdcch0_rxF_comp0",PHY_vars_UE->lte_ue_pdcch_vars[eNB_id]->rxdataF_comp[0],4*300,1,1);
         }
715
         */
716

717
        if (next_slot % 2 == 0) {
718 719 720 721
          clock_gettime (CLOCK_REALTIME, &time_spec);
          time_last = time_now;
          time_now = (unsigned long) time_spec.tv_nsec;
          td = (int) (time_now - time_last);
722 723 724 725 726
          if (td > 0) {
            td_avg = (int) (((K * (long) td) + (((1 << 3) - K) * ((long) td_avg))) >> 3); // in us
            LOG_T(
                EMU,
                "sleep frame %d, time_now %ldus,time_last %ldus,average time difference %ldns, CURRENT TIME DIFF %dus, avgerage difference from the target %dus\n", frame, time_now, time_last, td_avg, td/1000, (td_avg-TARGET_SF_TIME_NS)/1000);
727
          }
728
          if (td_avg < (TARGET_SF_TIME_NS - SF_DEVIATION_OFFSET_NS)) {
729
            sleep_time_us += SLEEP_STEP_US;
730
            LOG_D(EMU, "Faster than realtime increase the avg sleep time for %d us, frame %d\n", sleep_time_us, frame);
731 732
            // LOG_D(EMU,"Faster than realtime increase the avg sleep time for %d us, frame %d, time_now %ldus,time_last %ldus,average time difference %ldns, CURRENT TIME DIFF %dus, avgerage difference from the target %dus\n",    sleep_time_us,frame, time_now,time_last,td_avg, td/1000,(td_avg-TARGET_SF_TIME_NS)/1000);
          }
733 734 735 736 737 738 739 740
          else
            if (td_avg > (TARGET_SF_TIME_NS + SF_DEVIATION_OFFSET_NS)) {
              sleep_time_us -= SLEEP_STEP_US;
              LOG_D(
                  EMU,
                  "Slower than realtime reduce the avg sleep time for %d us, frame %d, time_now\n", sleep_time_us, frame);
              //LOG_T(EMU,"Slower than realtime reduce the avg sleep time for %d us, frame %d, time_now %ldus,time_last %ldus,average time difference %ldns, CURRENT TIME DIFF %dus, avgerage difference from the target %dus\n",     sleep_time_us,frame, time_now,time_last,td_avg, td/1000,(td_avg-TARGET_SF_TIME_NS)/1000);
            }
741
        } // end if next_slot%2
742 743 744
      } // if Channel_Flag==0

    } //end of slot
745

746
    if ((frame >= 1) && (frame <= 9) && (abstraction_flag == 0)
747
#ifdef PROC
748
        &&(Channel_Flag==0)
749
#endif
750 751 752 753 754 755 756 757 758 759 760 761 762 763 764 765 766
        ) {
      write_output ("UEtxsig0.m", "txs0", PHY_vars_UE_g[0]->lte_ue_common_vars.txdata[0], FRAME_LENGTH_COMPLEX_SAMPLES,
                    1, 1);
      sprintf (fname, "eNBtxsig%d.m", frame);
      sprintf (vname, "txs%d", frame);
      write_output (fname, vname, PHY_vars_eNB_g[0]->lte_eNB_common_vars.txdata[0][0], FRAME_LENGTH_COMPLEX_SAMPLES, 1,
                    1);
      write_output (
          "eNBtxsigF0.m", "txsF0", PHY_vars_eNB_g[0]->lte_eNB_common_vars.txdataF[0][0],
          PHY_vars_eNB_g[0]->lte_frame_parms.symbols_per_tti * PHY_vars_eNB_g[0]->lte_frame_parms.ofdm_symbol_size, 1,
          1);

      write_output ("UErxsig0.m", "rxs0", PHY_vars_UE_g[0]->lte_ue_common_vars.rxdata[0], FRAME_LENGTH_COMPLEX_SAMPLES,
                    1, 1);
      write_output ("eNBrxsig0.m", "rxs0", PHY_vars_eNB_g[0]->lte_eNB_common_vars.rxdata[0][0],
                    FRAME_LENGTH_COMPLEX_SAMPLES, 1, 1);
    }
767 768 769 770

#ifdef XFORMS
    eNB_id = 0;
    for (UE_id = 0; UE_id < NB_UE_INST; UE_id++) {
771 772 773 774 775 776 777 778 779 780
      phy_scope_UE(form_ue[UE_id],
          PHY_vars_UE_g[UE_id],
          eNB_id,
          UE_id,
          7);

      phy_scope_eNB(form_enb[UE_id],
          PHY_vars_eNB_g[eNB_id],
          UE_id);

781
    }
782
#endif
783 784

    // calibrate at the end of each frame if there is some time  left
785 786 787 788
    if ((sleep_time_us > 0) && (ethernet_flag == 0)) {
      LOG_I(EMU, "[TIMING] Adjust average frame duration, sleep for %d us\n", sleep_time_us);
      usleep (sleep_time_us);
      sleep_time_us = 0; // reset the timer, could be done per n SF
789 790 791
    }
#ifdef SMBV
    if ((frame == config_frames[0]) || (frame == config_frames[1]) || (frame == config_frames[2]) || (frame == config_frames[3])) {
792 793 794 795 796 797 798 799 800 801 802 803 804 805 806 807 808 809 810 811 812 813 814 815 816 817 818 819 820 821 822 823 824 825 826 827 828 829 830 831 832 833 834 835 836 837 838 839 840 841 842 843 844 845 846 847 848 849 850 851 852 853 854 855 856 857 858 859 860 861 862 863 864 865 866 867 868 869 870 871 872 873 874 875 876 877 878 879 880 881 882 883 884 885 886 887 888 889 890 891 892 893 894
      smbv_frame_cnt++;
    }
#endif
  } //end of frame

#if defined(ENABLE_ITTI)
  itti_terminate_tasks(TASK_L2L1);
#endif

  return NULL;
}

Packet_OTG_List *otg_pdcp_buffer;

int main(int argc, char **argv) {

  s32 i;
  // pointers signal buffers (s = transmit, r,r0 = receive)
  clock_t t;

  //FILE *SINRpost;
  //char SINRpost_fname[512];
  // sprintf(SINRpost_fname,"postprocSINR.m");
  //SINRpost = fopen(SINRpost_fname,"w");
  // variables/flags which are set by user on command-line

#ifdef SMBV
  strcpy(smbv_ip,DEFAULT_SMBV_IP);
#endif

  // time calibration for soft realtime mode  

  // u8 awgn_flag = 0;
#ifdef XFORMS
  // current status is that every UE has a DL scope for a SINGLE eNB (eNB_id=0)
  // at eNB 0, an UL scope for every UE 
  FD_lte_phy_scope_ue *form_ue[NUMBER_OF_UE_MAX];
  FD_lte_phy_scope_enb *form_enb[NUMBER_OF_UE_MAX];
  char title[255];
#endif

#ifdef PRINT_STATS
  int len;
  FILE *UE_stats[NUMBER_OF_UE_MAX], *UE_stats_th[NUMBER_OF_UE_MAX], *eNB_stats[NUMBER_OF_eNB_MAX], *eNB_avg_thr, *eNB_l2_stats;
  char UE_stats_filename[255];
  char eNB_stats_filename[255];
  char UE_stats_th_filename[255];
  char eNB_stats_th_filename[255];
#endif

  //time_t t0,t1;
  //clock_t start, stop;

#ifdef PROC
  int node_id;
  int port,Process_Flag=0,wgt,Channel_Flag=0,temp;
#endif
  //double **s_re2[MAX_eNB+MAX_UE], **s_im2[MAX_eNB+MAX_UE], **r_re2[MAX_eNB+MAX_UE], **r_im2[MAX_eNB+MAX_UE], **r_re02, **r_im02;
  //double **r_re0_d[MAX_UE][MAX_eNB], **r_im0_d[MAX_UE][MAX_eNB], **r_re0_u[MAX_eNB][MAX_UE],**r_im0_u[MAX_eNB][MAX_UE];
  //default parameters
  rate_adaptation_flag = 0;
  oai_emulation.info.n_frames = 0xffff; //1024;          //10;
  oai_emulation.info.n_frames_flag = 0; //fixme
  snr_dB = 30;
  cooperation_flag = 0; // default value 0 for no cooperation, 1 for Delay diversity, 2 for Distributed Alamouti

  //Default values if not changed by the user in get_simulation_options();
  pdcp_period = 1;
  omg_period = 1;
  // start thread for log gen
  log_thread_init ();

  init_oai_emulation (); // to initialize everything !!!

  // get command-line options
  get_simulation_options (argc, argv); //Command-line options

  // Initialize VCD LOG module
  vcd_signal_dumper_init ("openair_dump.vcd");

  /*  pthread_t sigth;
   sigset_t sigblock;
   sigemptyset(&sigblock);
   sigaddset(&sigblock, SIGHUP);
   sigaddset(&sigblock, SIGINT);
   sigaddset(&sigblock, SIGTERM);
   pthread_sigmask(SIG_BLOCK, &sigblock, NULL);
   if (pthread_create(&sigth, NULL, sigh, NULL)) {
   msg("Pthread for tracing Signals is not created!\n");
   return -1;
   } else {
   msg("Pthread for tracing Signals is created!\n");
   }*/
  // configure oaisim with OCG
  oaisim_config (); // config OMG and OCG, OPT, OTG, OLG

  if (ue_connection_test == 1) {
    snr_direction = -snr_step;
    snr_dB = 20;
    sinr_dB = -20;
  }

#if defined(ENABLE_ITTI)
895
  itti_init(THREAD_MAX, MESSAGES_ID_MAX, threads_name, messages_info, messages_definition_xml, oai_emulation.info.itti_dump_file);
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#endif

#ifdef OPENAIR2
  init_omv ();
#endif
  //Before this call, NB_UE_INST and NB_eNB_INST are not set correctly

  check_and_adjust_params ();

#ifdef PRINT_STATS
  for (UE_id=0;UE_id<NB_UE_INST;UE_id++) {
    sprintf(UE_stats_filename,"UE_stats%d.txt",UE_id);
    UE_stats[UE_id] = fopen (UE_stats_filename, "w");
  }
  for (eNB_id=0;eNB_id<NB_eNB_INST;eNB_id++) {
    sprintf(eNB_stats_filename,"eNB_stats%d.txt",eNB_id);
    eNB_stats[eNB_id] = fopen (eNB_stats_filename, "w");
  }

  if(abstraction_flag==0) {
    for (UE_id=0;UE_id<NB_UE_INST;UE_id++) {
      sprintf(UE_stats_th_filename,"UE_stats_th%d_tx%d.txt",UE_id,oai_emulation.info.transmission_mode);
      UE_stats_th[UE_id] = fopen (UE_stats_th_filename, "w");
    }
    sprintf(eNB_stats_th_filename,"eNB_stats_th_tx%d.txt",oai_emulation.info.transmission_mode);
    eNB_avg_thr = fopen (eNB_stats_th_filename, "w");
  }
  else {
    for (UE_id=0;UE_id<NB_UE_INST;UE_id++) {
      sprintf(UE_stats_th_filename,"UE_stats_abs_th%d_tx%d.txt",UE_id,oai_emulation.info.transmission_mode);
      UE_stats_th[UE_id] = fopen (UE_stats_th_filename, "w");
    }
    sprintf(eNB_stats_th_filename,"eNB_stats_abs_th_tx%d.txt",oai_emulation.info.transmission_mode);
    eNB_avg_thr = fopen (eNB_stats_th_filename, "w");
  }
#ifdef OPENAIR2
  eNB_l2_stats = fopen ("eNB_l2_stats.txt", "w");
  LOG_I(EMU,"eNB_l2_stats=%p\n", eNB_l2_stats);
#endif 

#endif

  set_seed = oai_emulation.emulation_config.seed.value;

  init_otg_pdcp_buffer ();

  init_seed (set_seed);

  init_openair1 ();

  init_openair2 ();

  init_ocm ();

#ifdef XFORMS
  eNB_id = 0;
  for (UE_id = 0; UE_id < NB_UE_INST; UE_id++) {
    // DL scope at UEs
    fl_initialize (&argc, argv, NULL, 0, 0);
    form_ue[UE_id] = create_lte_phy_scope_ue();
    sprintf (title, "LTE DL SCOPE eNB %d to UE %d", eNB_id, UE_id);
    fl_show_form (form_ue[UE_id]->lte_phy_scope_ue, FL_PLACE_HOTSPOT, FL_FULLBORDER, title);

    // UL scope at eNB 0
    fl_initialize (&argc, argv, NULL, 0, 0);
    form_enb[UE_id] = create_lte_phy_scope_enb();
    sprintf (title, "LTE UL SCOPE UE %d to eNB %d", UE_id, eNB_id);
    fl_show_form (form_enb[UE_id]->lte_phy_scope_enb, FL_PLACE_HOTSPOT, FL_FULLBORDER, title);

    if (openair_daq_vars.use_ia_receiver == 1) {
      fl_set_button(form_ue[UE_id]->button_0,1);
      fl_set_object_label(form_ue[UE_id]->button_0, "IA Receiver ON");
      fl_set_object_color(form_ue[UE_id]->button_0, FL_GREEN, FL_GREEN);
969
    }
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  }
#endif

#ifdef SMBV
  smbv_init_config(smbv_fname, smbv_nframes);
  smbv_write_config_from_frame_parms(smbv_fname, &PHY_vars_eNB_g[0]->lte_frame_parms);
#endif

  init_time ();

  init_slot_isr ();

  t = clock ();

  LOG_N(EMU, "\n\n>>>>>>>>>>>>>>>>>>>>>>>>>>> OAIEMU initialization done <<<<<<<<<<<<<<<<<<<<<<<<<<\n\n");

#if defined(ENABLE_ITTI)
988
  if (itti_create_task(TASK_L2L1, l2l1_task, NULL) < 0) {
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    LOG_E(EMU, "Create task failed");
    LOG_D(EMU, "Initializing L2L1 task interface: FAILED\n");
    return -1;
  }

  // Handle signals until all tasks are terminated
  itti_wait_tasks_end();
#else
  l2l1_task (NULL);
998 999
#endif

1000 1001
  t = clock () - t;
  printf ("rrc Duration of the simulation: %f seconds\n", ((float) t) / CLOCKS_PER_SEC);
1002 1003

  //  fclose(SINRpost);
1004
  LOG_I(EMU, ">>>>>>>>>>>>>>>>>>>>>>>>>>> OAIEMU Ending <<<<<<<<<<<<<<<<<<<<<<<<<<\n\n");
1005

1006
  free (otg_pdcp_buffer);
1007 1008 1009

#ifdef SMBV
  if (config_smbv) {
1010
    smbv_send_config (smbv_fname,smbv_ip);
1011 1012 1013 1014
  }
#endif

  //Perform KPI measurements
1015 1016
  if (oai_emulation.info.otg_enabled == 1)
    kpi_gen ();
1017 1018 1019 1020 1021 1022 1023

  // relase all rx state
  if (ethernet_flag == 1) {
    emu_transport_release ();
  }

#ifdef PROC
1024
  if (abstraction_flag == 0 && Channel_Flag==0 && Process_Flag==0)
1025
#else
1026
  if (abstraction_flag == 0)
1027
#endif
1028
      {
1029
    /*
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     #ifdef IFFT_FPGA
     free(txdataF2[0]);
     free(txdataF2[1]);
     free(txdataF2);
     free(txdata[0]);
     free(txdata[1]);
     free(txdata);
     #endif
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     */

    for (i = 0; i < 2; i++) {
      free (s_re[i]);
      free (s_im[i]);
      free (r_re[i]);
      free (r_im[i]);
    }
    free (s_re);
    free (s_im);
    free (r_re);
    free (r_im);

    lte_sync_time_free ();
  }
  //  pthread_join(sigth, NULL);

  // added for PHY abstraction
  if (oai_emulation.info.ocm_enabled == 1) {
1057 1058 1059
    for (eNB_id = 0; eNB_id < NUMBER_OF_eNB_MAX; eNB_id++)
      free (enb_data[eNB_id]);

1060
    for (UE_id = 0; UE_id < NUMBER_OF_UE_MAX; UE_id++)
1061
      free (ue_data[UE_id]);
1062 1063 1064
  } //End of PHY abstraction changes

#ifdef OPENAIR2
1065
  mac_top_cleanup ();
1066
#endif 
1067

1068
#ifdef PRINT_STATS
1069
  for (UE_id=0;UE_id<NB_UE_INST;UE_id++) {
1070 1071
    if (UE_stats[UE_id])
    fclose (UE_stats[UE_id]);
1072
    if(UE_stats_th[UE_id])
1073
    fclose (UE_stats_th[UE_id]);
1074
  }
1075 1076
  for (eNB_id=0;eNB_id<NB_eNB_INST;eNB_id++) {
    if (eNB_stats[eNB_id])
1077
    fclose (eNB_stats[eNB_id]);
1078
  }
1079
  if (eNB_avg_thr)
1080
  fclose (eNB_avg_thr);
1081
  if (eNB_l2_stats)
1082 1083
  fclose (eNB_l2_stats);

1084 1085 1086
#endif

  // stop OMG
1087
  stop_mobility_generator (oai_emulation.info.omg_model_ue); //omg_param_list.mobility_type
1088 1089
#ifdef OPENAIR2
  if (oai_emulation.info.omv_enabled == 1)
1090
    omv_end (pfd[1], omv_data);
1091
#endif
1092 1093 1094 1095 1096
  if ((oai_emulation.info.ocm_enabled == 1) && (ethernet_flag == 0) && (ShaF != NULL))
    destroyMat (ShaF, map1, map2);

  if ((oai_emulation.info.opt_enabled == 1))
    terminate_opt ();
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  if (oai_emulation.info.cli_enabled)
1099
    cli_server_cleanup ();
1100 1101

  //bring oai if down
1102 1103 1104 1105 1106 1107
  terminate ();
  log_thread_finalize ();
  logClean ();
  vcd_signal_dumper_close ();

  return (0);
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}

/*
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 static void *sigh(void *arg) {

 int signum;
 sigset_t sigcatch;
 sigemptyset(&sigcatch);
 sigaddset(&sigcatch, SIGHUP);
 sigaddset(&sigcatch, SIGINT);
 sigaddset(&sigcatch, SIGTERM);

 for (;;) {
 sigwait(&sigcatch, &signum);
 switch (signum) {
 case SIGHUP:
 case SIGINT:
 case SIGTERM:
 terminate();
 default:
 break;
 }
 }
 pthread_exit(NULL);
 }
 */
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void terminate(void) {
  int i;
  char interfaceName[8];
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  for (i = 0; i < NUMBER_OF_eNB_MAX + NUMBER_OF_UE_MAX; i++)
    if (oai_emulation.info.oai_ifup[i] == 1) {
      sprintf (interfaceName, "oai%d", i);
      bringInterfaceUp (interfaceName, 0);
    }
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}