oaisim_functions.c 61.7 KB
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/*
 * Licensed to the OpenAirInterface (OAI) Software Alliance under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The OpenAirInterface Software Alliance licenses this file to You under
 * the OAI Public License, Version 1.0  (the "License"); you may not use this file
 * except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *      http://www.openairinterface.org/?page_id=698
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 *-------------------------------------------------------------------------------
 * For more information about the OpenAirInterface (OAI) Software Alliance:
 *      contact@openairinterface.org
 */
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/*! \file oaisim_functions.c
* \brief function primitives of oaisim
* \author Navid Nikaein 
* \date 2013-2015
* \version 1.0
* \company Eurecom
* \email: openair_tech@eurecom.fr
* \note
* \warning
*/
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#include <stdlib.h>
#include <unistd.h>
#include <stdio.h>
#include <signal.h>
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#include <execinfo.h>
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#include <time.h>
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#include <mcheck.h>
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#include <sys/timerfd.h>
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#include "assertions.h"
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#include "oaisim_functions.h"

#include "PHY/extern.h"
#include "LAYER2/MAC/extern.h"
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#ifdef OPENAIR2
#include "LAYER2/MAC/proto.h"
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#endif
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#include "LAYER2/PDCP_v10.1.0/pdcp.h"
#include "LAYER2/PDCP_v10.1.0/pdcp_primitives.h"
#include "RRC/LITE/extern.h"
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#include "RRC/L2_INTERFACE/openair_rrc_L2_interface.h"
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#include "PHY_INTERFACE/extern.h"
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//#include "ARCH/CBMIMO1/DEVICE_DRIVER/extern.h"
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#include "SCHED/extern.h"
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#include "SIMULATION/ETH_TRANSPORT/proto.h"
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#include "UTIL/OCG/OCG_extern.h"
#include "UTIL/LOG/vcd_signal_dumper.h"
#include "UTIL/OPT/opt.h"
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#include "UTIL/OTG/otg_config.h"
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#include "UTIL/OTG/otg_tx.h"
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#if ENABLE_RAL
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#include "lteRALenb.h"
#include "lteRALue.h"
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#endif
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#include "cor_SF_sim.h"
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#include "enb_config.h"
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#if defined(ENABLE_ITTI)
# include "intertask_interface.h"
#endif

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#if defined(ENABLE_USE_MME)
# include "s1ap_eNB.h"
#endif

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#ifdef SMBV
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extern uint8_t config_smbv;
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extern char smbv_ip[16];
#endif

//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

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int           otg_times             = 0;
int           if_times              = 0;
int           for_times             = 0;

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uint16_t           Nid_cell              = 0; //needed by init_lte_vars
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int           nb_antennas_rx_ue        = 1; // //
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uint8_t            target_dl_mcs         = 16; // max mcs used by MAC scheduler
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uint8_t            rate_adaptation_flag  = 0;
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uint8_t        set_snr         = 0;
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uint8_t            set_sinr              = 0;
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double             snr_dB=0, sinr_dB=0;
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uint8_t            set_seed              = 0;
uint8_t            cooperation_flag;          // for cooperative communication
uint8_t            abstraction_flag      = 0;
uint8_t            ethernet_flag         = 0;
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double        snr_step              = 1.0;
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uint8_t            ue_connection_test    = 0;
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double        forgetting_factor     = 0.0;
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uint8_t            beta_ACK              = 0;
uint8_t            beta_RI               = 0;
uint8_t            beta_CQI              = 2;
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uint8_t            target_ul_mcs         = 16;
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LTE_DL_FRAME_PARMS *frame_parms[MAX_NUM_CCs];
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int           map1,map2;
double      **ShaF                  = NULL;
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// pointers signal buffers (s = transmit, r,r0 = receive)
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double      **s_re, **s_im, **r_re, **r_im, **r_re0, **r_im0;
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node_list*     ue_node_list          = NULL;
node_list*     enb_node_list         = NULL;
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int           omg_period            = 10000;
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int           pdcp_period           = 0;
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int           cba_backoff           = 30;
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// time calibration for soft realtime mode
struct timespec time_spec;
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unsigned long   time_last           = 0;
unsigned long   time_now            = 0;
int             td                  = 0;
int             td_avg              = 0;
int             sleep_time_us       = 0;
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int phy_test = 0;

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#ifdef OPENAIR2
// omv related info
//pid_t omv_pid;
char full_name[200];
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extern int pfd[2]; // fd for omv : fixme: this could be a local var
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char fdstr[10];
char frames[10];
char num_enb[10];
char num_ue[10];
//area_x, area_y and area_z for omv
char x_area[20];
char y_area[20];
char z_area[20];
char nb_antenna[20];
char frame_type[10];
char tdd_config[10];
#endif

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Packet_OTG_List_t *otg_pdcp_buffer = NULL;
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extern node_desc_t *enb_data[NUMBER_OF_eNB_MAX];
extern node_desc_t *ue_data[NUMBER_OF_UE_MAX];
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extern channel_desc_t *eNB2UE[NUMBER_OF_eNB_MAX][NUMBER_OF_UE_MAX][MAX_NUM_CCs];
extern channel_desc_t *UE2eNB[NUMBER_OF_UE_MAX][NUMBER_OF_eNB_MAX][MAX_NUM_CCs];
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extern mapping small_scale_names[];
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#if defined(Rel10)
extern pdcp_mbms_t pdcp_mbms_array_ue[NUMBER_OF_UE_MAX][maxServiceCount][maxSessionPerPMCH];
extern pdcp_mbms_t pdcp_mbms_array_eNB[NUMBER_OF_eNB_MAX][maxServiceCount][maxSessionPerPMCH];
#endif
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extern time_stats_t dl_chan_stats;
extern time_stats_t ul_chan_stats;
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extern int xforms;

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extern uint32_t          downlink_frequency[MAX_NUM_CCs][4];
extern int32_t           uplink_frequency_offset[MAX_NUM_CCs][4];

void init_eNB(eNB_func_t node_function[], eNB_timing_t node_timing[],int nb_inst);
void stop_eNB(int nb_inst);

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const Enb_properties_array_t *enb_properties;

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void get_simulation_options(int argc, char *argv[])
{
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  int                           option;
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  char  *conf_config_file_name = NULL;
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  enum long_option_e {
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    LONG_OPTION_START = 0x100, /* Start after regular single char options */
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    LONG_OPTION_ENB_CONF,
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    LONG_OPTION_PDNC_PERIOD,
    LONG_OPTION_OMG_PERIOD,
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    LONG_OPTION_OEH_ENABLED,
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    LONG_OPTION_ENB_RAL_LISTENING_PORT,
    LONG_OPTION_ENB_RAL_IP_ADDRESS,
    LONG_OPTION_ENB_RAL_LINK_ID,
    LONG_OPTION_ENB_RAL_LINK_ADDRESS,
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    LONG_OPTION_ENB_MIHF_REMOTE_PORT,
    LONG_OPTION_ENB_MIHF_IP_ADDRESS,
    LONG_OPTION_ENB_MIHF_ID,
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    LONG_OPTION_UE_RAL_LISTENING_PORT,
    LONG_OPTION_UE_RAL_IP_ADDRESS,
    LONG_OPTION_UE_RAL_LINK_ID,
    LONG_OPTION_UE_RAL_LINK_ADDRESS,
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    LONG_OPTION_UE_MIHF_REMOTE_PORT,
    LONG_OPTION_UE_MIHF_IP_ADDRESS,
    LONG_OPTION_UE_MIHF_ID,
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    LONG_OPTION_MALLOC_TRACE_ENABLED,
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    LONG_OPTION_CBA_BACKOFF_TIMER,
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    LONG_OPTION_PHYTEST,
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    LONG_OPTION_XFORMS,
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#if T_TRACER
    LONG_OPTION_T_PORT,
    LONG_OPTION_T_NOWAIT,
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    LONG_OPTION_T_DONT_FORK,
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#endif
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  };
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  static struct option long_options[] = {
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    {"enb-conf",               required_argument, 0, LONG_OPTION_ENB_CONF},
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    {"pdcp-period",            required_argument, 0, LONG_OPTION_PDNC_PERIOD},
    {"omg-period",             required_argument, 0, LONG_OPTION_OMG_PERIOD},
    {"oeh-enabled",            no_argument, 0, LONG_OPTION_OEH_ENABLED},
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    {"enb-ral-listening-port", required_argument, 0, LONG_OPTION_ENB_RAL_LISTENING_PORT},
    {"enb-ral-ip-address",     required_argument, 0, LONG_OPTION_ENB_RAL_IP_ADDRESS},
    {"enb-ral-link-id",        required_argument, 0, LONG_OPTION_ENB_RAL_LINK_ID},
    {"enb-ral-link-address",   required_argument, 0, LONG_OPTION_ENB_RAL_LINK_ADDRESS},
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    {"enb-mihf-remote-port",   required_argument, 0, LONG_OPTION_ENB_MIHF_REMOTE_PORT},
    {"enb-mihf-ip-address",    required_argument, 0, LONG_OPTION_ENB_MIHF_IP_ADDRESS},
    {"enb-mihf-id",            required_argument, 0, LONG_OPTION_ENB_MIHF_ID},
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    {"ue-ral-listening-port",  required_argument, 0, LONG_OPTION_UE_RAL_LISTENING_PORT},
    {"ue-ral-ip-address",      required_argument, 0, LONG_OPTION_UE_RAL_IP_ADDRESS},
    {"ue-ral-link-id",         required_argument, 0, LONG_OPTION_UE_RAL_LINK_ID},
    {"ue-ral-link-address",    required_argument, 0, LONG_OPTION_UE_RAL_LINK_ADDRESS},
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    {"ue-mihf-remote-port",    required_argument, 0, LONG_OPTION_UE_MIHF_REMOTE_PORT},
    {"ue-mihf-ip-address",     required_argument, 0, LONG_OPTION_UE_MIHF_IP_ADDRESS},
    {"ue-mihf-id",             required_argument, 0, LONG_OPTION_UE_MIHF_ID},
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    {"malloc-trace-enabled",   no_argument,       0, LONG_OPTION_MALLOC_TRACE_ENABLED},
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    {"cba-backoff",            required_argument, 0, LONG_OPTION_CBA_BACKOFF_TIMER},
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    {"phy-test", no_argument, NULL, LONG_OPTION_PHYTEST},
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    {"xforms",                 no_argument,       0, LONG_OPTION_XFORMS},
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#if T_TRACER
    {"T_port",                 required_argument, 0, LONG_OPTION_T_PORT},
    {"T_nowait",               no_argument,       0, LONG_OPTION_T_NOWAIT},
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    {"T_dont_fork",            no_argument,       0, LONG_OPTION_T_DONT_FORK},
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#endif

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    {NULL, 0, NULL, 0}
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  };
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  while ((option = getopt_long (argc, argv, "aA:b:B:c:C:D:d:eE:f:FGg:hHi:IJ:j:k:K:l:L:m:M:n:N:oO:p:P:qQ:rR:s:S:t:T:u:U:vV:w:W:x:X:y:Y:z:Z:", long_options, NULL)) != -1) {
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    switch (option) {
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    case LONG_OPTION_PHYTEST:
      phy_test = 1;
      break;

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    case LONG_OPTION_ENB_CONF:
      if (optarg) {
        free(conf_config_file_name); // prevent memory leak if option is used multiple times
        conf_config_file_name = strdup(optarg);
        printf("eNB configuration file is %s\n", conf_config_file_name);
      }
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      break;
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    case LONG_OPTION_PDNC_PERIOD:
      if (optarg) {
        pdcp_period = atoi(optarg);
        printf("PDCP period is %d\n", pdcp_period);
      }

      break;

    case LONG_OPTION_OMG_PERIOD:
      if (optarg) {
        omg_period = atoi(optarg);
        printf("OMG period is %d\n", omg_period);
      }

      break;

    case LONG_OPTION_OEH_ENABLED:
      oai_emulation.info.oeh_enabled = 1;
      break;

    case LONG_OPTION_MALLOC_TRACE_ENABLED:
      mtrace();
      break;

    case LONG_OPTION_CBA_BACKOFF_TIMER:
      oai_emulation.info.cba_backoff=atoi(optarg);
      cba_backoff=atoi(optarg);
      printf("setting CBA backoff to %d\n", cba_backoff);
      break;
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#if ENABLE_RAL
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    case LONG_OPTION_ENB_RAL_LISTENING_PORT:
      if (optarg) {
        g_conf_enb_ral_listening_port = strdup(optarg);
        printf("eNB RAL listening port is %s\n", g_conf_enb_ral_listening_port);
      }

      break;

    case LONG_OPTION_ENB_RAL_IP_ADDRESS:
      if (optarg) {
        g_conf_enb_ral_ip_address = strdup(optarg);
        printf("eNB RAL IP address is %s\n", g_conf_enb_ral_ip_address);
      }

      break;

    case LONG_OPTION_ENB_RAL_LINK_ADDRESS:
      if (optarg) {
        g_conf_enb_ral_link_address = strdup(optarg);
        printf("eNB RAL link address is %s\n", g_conf_enb_ral_link_address);
      }

      break;

    case LONG_OPTION_ENB_RAL_LINK_ID:
      if (optarg) {
        g_conf_enb_ral_link_id = strdup(optarg);
        printf("eNB RAL link id is %s\n", g_conf_enb_ral_link_id);
      }

      break;

    case LONG_OPTION_ENB_MIHF_REMOTE_PORT:
      if (optarg) {
        g_conf_enb_mihf_remote_port = strdup(optarg);
        printf("eNB MIH-F remote port is %s\n", g_conf_enb_mihf_remote_port);
      }

      break;

    case LONG_OPTION_ENB_MIHF_IP_ADDRESS:
      if (optarg) {
        g_conf_enb_mihf_ip_address = strdup(optarg);
        printf("eNB MIH-F IP address is %s\n", g_conf_enb_mihf_ip_address);
      }

      break;

    case LONG_OPTION_ENB_MIHF_ID:
      if (optarg) {
        g_conf_enb_mihf_id = strdup(optarg);
        printf("eNB MIH-F id is %s\n", g_conf_enb_mihf_id);
      }

      break;

    case LONG_OPTION_UE_RAL_LISTENING_PORT:
      if (optarg) {
        g_conf_ue_ral_listening_port = strdup(optarg);
        printf("UE RAL listening port is %s\n", g_conf_ue_ral_listening_port);
      }

      break;

    case LONG_OPTION_UE_RAL_IP_ADDRESS:
      if (optarg) {
        g_conf_ue_ral_ip_address = strdup(optarg);
        printf("UE RAL IP address is %s\n", g_conf_ue_ral_ip_address);
      }

      break;

    case LONG_OPTION_UE_RAL_LINK_ID:
      if (optarg) {
        g_conf_ue_ral_link_id = strdup(optarg);
        printf("UE RAL link id is %s\n", g_conf_ue_ral_link_id);
      }

      break;

    case LONG_OPTION_UE_RAL_LINK_ADDRESS:
      if (optarg) {
        g_conf_ue_ral_link_address = strdup(optarg);
        printf("UE RAL link address is %s\n", g_conf_ue_ral_link_address);
      }

      break;

    case LONG_OPTION_UE_MIHF_REMOTE_PORT:
      if (optarg) {
        g_conf_ue_mihf_remote_port = strdup(optarg);
        printf("UE MIH-F remote port is %s\n", g_conf_ue_mihf_remote_port);
      }

      break;

    case LONG_OPTION_UE_MIHF_IP_ADDRESS:
      if (optarg) {
        g_conf_ue_mihf_ip_address = strdup(optarg);
        printf("UE MIH-F IP address is %s\n", g_conf_ue_mihf_ip_address);
      }

      break;

    case LONG_OPTION_UE_MIHF_ID:
      if (optarg) {
        g_conf_ue_mihf_id = strdup(optarg);
        printf("UE MIH-F id is %s\n", g_conf_ue_mihf_id);
      }

      break;
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#endif
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    case LONG_OPTION_XFORMS:
      xforms=1;
      break;

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#if T_TRACER
    case LONG_OPTION_T_PORT: {
      extern int T_port;
      if (optarg == NULL) abort();  /* should not happen */
      T_port = atoi(optarg);
      break;
    }

    case LONG_OPTION_T_NOWAIT: {
      extern int T_wait;
      T_wait = 0;
      break;
    }
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    case LONG_OPTION_T_DONT_FORK: {
      extern int T_dont_fork;
      T_dont_fork = 1;
      break;
    }
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#endif

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    case 'a':
      abstraction_flag = 1;
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      printf("FATAL: -a flag not functional for the moment.\nWe are working on fixing the abstraction mode.\n");
      exit(1);
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      break;

    case 'A':

      //oai_emulation.info.ocm_enabled=1;
      if (optarg == NULL)
        oai_emulation.environment_system_config.fading.small_scale.selected_option="AWGN";
      else
        oai_emulation.environment_system_config.fading.small_scale.selected_option= optarg;

      //awgn_flag = 1;
      break;

    case 'b':
      oai_emulation.info.nb_enb_local = atoi (optarg);
      break;

    case 'B':
      oai_emulation.topology_config.mobility.eNB_mobility.eNB_mobility_type.selected_option = optarg;
      //oai_emulation.info.omg_model_enb = atoi (optarg);
      break;

    case 'c':
      //strcpy(oai_emulation.info.local_server, optarg);
      strncpy(oai_emulation.info.local_server, optarg, sizeof(oai_emulation.info.local_server));
      oai_emulation.info.local_server[sizeof(oai_emulation.info.local_server) - 1] = 0; // terminate string
      oai_emulation.info.ocg_enabled=1;
      break;

    case 'C':
      oai_emulation.info.tdd_config[0] = atoi (optarg);
      AssertFatal (oai_emulation.info.tdd_config[0] <= TDD_Config__subframeAssignment_sa6, "Illegal tdd_config %d (should be 0-%d)!",
                   oai_emulation.info.tdd_config[0], TDD_Config__subframeAssignment_sa6);
      break;

    case 'D':
      oai_emulation.info.multicast_ifname = strdup(optarg);
      break;

    case 'e':
      oai_emulation.info.extended_prefix_flag[0] = 1;
      break;

    case 'E':
      set_seed = 1;
      oai_emulation.info.seed = atoi (optarg);
      break;

    case 'f':
      forgetting_factor = atof (optarg);
      break;

    case 'F':                   // set FDD
      printf("Setting Frame to FDD\n");
      oai_emulation.info.frame_type[0] = 0;
      oai_emulation.info.frame_type_name[0] = "FDD";
      break;

    case 'g':
      oai_emulation.info.multicast_group = atoi (optarg);
      break;

    case 'G' :
      oai_emulation.info.otg_bg_traffic_enabled = 1;
      break;

    case 'h':
      help ();
      exit (1);
      break;

    case 'H':
      oai_emulation.info.handover_active=1;
      printf("Activate the handover procedure at RRC\n");
      break;

    case 'i':
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#ifdef PROC
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      Process_Flag=1;
      node_id = wgt+atoi(optarg);
      port+=atoi(optarg);
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#endif
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      break;

    case 'I':
      oai_emulation.info.cli_enabled = 1;
      break;

    case 'j' :
      // number of relay nodes: currently only applicable to eMBMS
      oai_emulation.info.nb_rn_local = atoi (optarg);
      break;

    case 'J':
      ue_connection_test=1;
      oai_emulation.info.ocm_enabled=0;
      snr_step = atof(optarg);
      break;

    case 'k':
      //ricean_factor = atof (optarg);
      printf("[SIM] Option k is no longer supported on the command line. Please specify your channel model in the xml template\n");
      exit(-1);
      break;

    case 'K':
      oai_emulation.info.itti_dump_file = optarg;
      break;

    case 'l':
      oai_emulation.info.g_log_level = atoi(optarg);
      break;

    case 'L':                   // set FDD
      flag_LA = atoi(optarg);
      break;

    case 'm':
      target_dl_mcs = atoi (optarg);
      printf("Max target downlink MCS used by MAC scheduler is set to %d\n", target_dl_mcs);
      break;

    case 'M':
      abstraction_flag = 1;
      ethernet_flag = 1;
      oai_emulation.info.ethernet_id = atoi (optarg);
      oai_emulation.info.master_id = oai_emulation.info.ethernet_id;
      oai_emulation.info.ethernet_flag = 1;
      break;

    case 'n':
      oai_emulation.info.n_frames = atoi (optarg);
      oai_emulation.emulation_config.emulation_time_ms= oai_emulation.info.n_frames * 10; // 10 ms frame
      //n_frames = (n_frames >1024) ? 1024: n_frames; // adjust the n_frames if higher that 1024
      oai_emulation.info.n_frames_flag = 1;
      break;

    case 'N':
      Nid_cell = atoi (optarg);

      if (Nid_cell > 503) {
        printf("Illegal Nid_cell %d (should be 0 ... 503)\n", Nid_cell);
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        exit(-1);
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      }
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      break;

    case 'O':
      if (optarg) {
        free(conf_config_file_name); // prevent memory leak if option is used multiple times
        conf_config_file_name = strdup(optarg);
      }

      break;

    case 'o':
      oai_emulation.info.slot_isr = 1;
      break;

    case 'p':
      oai_emulation.info.nb_master = atoi (optarg);
      break;

    case 'P':
      oai_emulation.info.opt_enabled = 1;
      opt_enabled = 1;

      if (strcmp(optarg, "wireshark") == 0) {
        opt_type = OPT_WIRESHARK;
        printf("Enabling OPT for wireshark\n");
      } else if (strcmp(optarg, "pcap") == 0) {
        opt_type = OPT_PCAP;
        printf("Enabling OPT for pcap\n");
      } else {
        printf("Unrecognized option for OPT module. -> Disabling it\n");
        printf("Possible values are either wireshark or pcap\n");
        opt_type = OPT_NONE;
        oai_emulation.info.opt_enabled = 0;
        opt_enabled = 0;
      }

      oai_emulation.info.opt_mode = opt_type;
      break;

    case 'q':
      // openair performane profiler
      oai_emulation.info.opp_enabled = 1; // this var is used for OCG
      opp_enabled = 1; // this is the global var used by oaisim
      break;

    case 'Q':
      //eMBMS_active=1;
      // 0 : not used (default), 1: eMBMS and RRC enabled, 2: eMBMS relaying and RRC enabled, 3: eMBMS enabled, RRC disabled, 4: eMBMS relaying enabled, RRC disabled
      oai_emulation.info.eMBMS_active_state = atoi (optarg);
      break;

    case 'r':
      rate_adaptation_flag = 1;
      break;

    case 'R':
      oai_emulation.info.N_RB_DL[0] = atoi (optarg);

      if ((oai_emulation.info.N_RB_DL[0] != 6) && (oai_emulation.info.N_RB_DL[0] != 15) && (oai_emulation.info.N_RB_DL[0] != 25)
          && (oai_emulation.info.N_RB_DL[0] != 50) && (oai_emulation.info.N_RB_DL[0] != 75) && (oai_emulation.info.N_RB_DL[0] != 100)) {
        printf("Illegal N_RB_DL %d (should be one of 6,15,25,50,75,100)\n", oai_emulation.info.N_RB_DL[0]);
        exit (-1);
      }

      break;

    case 's':
      snr_dB = atoi (optarg);
      //      set_snr = 1;
      oai_emulation.info.ocm_enabled=0;
      break;

    case 'S':
      sinr_dB = atoi (optarg);
      set_sinr = 1;
      oai_emulation.info.ocm_enabled=0;
      break;

    case 't':
      target_ul_mcs = atoi (optarg);
      printf("Max target uplink MCS used by MAC scheduler is set to %d\n", target_ul_mcs);
      break;

    case 'T':
      oai_emulation.info.otg_enabled = 1;
      oai_emulation.info.otg_traffic = optarg;
      break;

    case 'u':
      oai_emulation.info.nb_ue_local = atoi (optarg);
      break;

    case 'U':
      oai_emulation.topology_config.mobility.UE_mobility.UE_mobility_type.selected_option = optarg;
      break;

    case 'v':
      oai_emulation.info.omv_enabled = 1;
      break;

    case 'V':
      ouput_vcd = 1;
      oai_emulation.info.vcd_enabled = 1;
      oai_emulation.info.vcd_file = optarg;
      break;

    case 'w':
      oai_emulation.info.cba_group_active = atoi (optarg);
      break;

    case 'W':
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      config_smbv = 1;

      if(atoi(optarg)!=0)
        strcpy(smbv_ip,optarg);

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#endif
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      break;
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    case 'x':
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      /*
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      oai_emulation.info.transmission_mode[0] = atoi (optarg);

      if ((oai_emulation.info.transmission_mode[0] != 1) &&  (oai_emulation.info.transmission_mode[0] != 2) && (oai_emulation.info.transmission_mode[0] != 3)
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          && (oai_emulation.info.transmission_mode[0] != 5) && (oai_emulation.info.transmission_mode[0] != 6) && (oai_emulation.info.transmission_mode[0] !=7)) {
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        printf("Unsupported transmission mode %d\n",oai_emulation.info.transmission_mode[0]);
        exit(-1);
      }
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      */
      printf("Option -x deprecated. Please set transmission mode in eNB config file\n");
      exit(-1);
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      break;

    case 'X':
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#ifdef PROC
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      temp=atoi(optarg);

      if(temp==0) {
        port=CHANNEL_PORT;
        Channel_Flag=1;
        Process_Flag=0;
        wgt=0;
      } else if(temp==1) {
        port=eNB_PORT;
        wgt=0;
      } else {
        port=UE_PORT;
        wgt=MAX_eNB;
      }

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#endif
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      break;
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    case 'y':
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      nb_antennas_rx_ue=atoi(optarg);
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      if (nb_antennas_rx_ue>4) {
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        printf("Cannot have more than 4 antennas\n");
        exit(-1);
      }
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      break;
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    case 'Y':
      oai_emulation.info.g_log_verbosity_option = strdup(optarg);
      break;
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    case 'z':
      cooperation_flag = atoi (optarg);
      break;

    case 'Z':
      /* Sebastien ROUX: Reserved for future use (currently used in ltenow branch) */
      break;

    default:
      help ();
      exit (-1);
      break;
    }
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  }
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  if ((oai_emulation.info.nb_enb_local > 0) && (conf_config_file_name != NULL)) {
    /* Read eNB configuration file */
    enb_properties = enb_config_init(conf_config_file_name);
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    AssertFatal (oai_emulation.info.nb_enb_local <= enb_properties->number,
                 "Number of eNB is greater than eNB defined in configuration file %s (%d/%d)!",
                 conf_config_file_name, oai_emulation.info.nb_enb_local, enb_properties->number);
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    /* Update some simulation parameters */
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    oai_emulation.info.frame_type[0]           = enb_properties->properties[0]->frame_type[0];
    oai_emulation.info.tdd_config[0]           = enb_properties->properties[0]->tdd_config[0];
    oai_emulation.info.tdd_config_S[0]         = enb_properties->properties[0]->tdd_config_s[0];
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    oai_emulation.info.extended_prefix_flag[0] = enb_properties->properties[0]->prefix_type[0];
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    oai_emulation.info.node_function[0]        = enb_properties->properties[0]->cc_node_function[0];
    oai_emulation.info.node_timing[0]          = enb_properties->properties[0]->cc_node_timing[0];
    downlink_frequency[0][0]                   = enb_properties->properties[0]->downlink_frequency[0];
    uplink_frequency_offset[0][0]              = enb_properties->properties[0]->uplink_frequency_offset[0];
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  }
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  free(conf_config_file_name);
  conf_config_file_name = 0;
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}

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void check_and_adjust_params(void)
{
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  int32_t ret;
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  int i,j;

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  if (oai_emulation.info.nb_ue_local  + oai_emulation.info.nb_rn_local > NUMBER_OF_UE_MAX) {
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    LOG_E(EMU,"Enter fewer than %d UEs/RNs for the moment or change the NUMBER_OF_UE_MAX\n", NUMBER_OF_UE_MAX);
    exit(EXIT_FAILURE);
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  }

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  if (oai_emulation.info.nb_enb_local + oai_emulation.info.nb_rn_local > NUMBER_OF_eNB_MAX) {
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    LOG_E(EMU,"Enter fewer than %d eNBs/RNs for the moment or change the NUMBER_OF_UE_MAX\n", NUMBER_OF_eNB_MAX);
    exit(EXIT_FAILURE);
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  }
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  if (oai_emulation.info.nb_rn_local > NUMBER_OF_RN_MAX) {
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    LOG_E(EMU,"Enter fewer than %d RNs for the moment or change the NUMBER_OF_RN_MAX\n", NUMBER_OF_RN_MAX);
    exit(EXIT_FAILURE);
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  }
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  // fix ethernet and abstraction with RRC_CELLULAR Flag
#ifdef RRC_CELLULAR
  abstraction_flag = 1;
  ethernet_flag = 1;
#endif

  if (set_sinr == 0)
    sinr_dB = snr_dB - 20;

  // setup netdevice interface (netlink socket)
  LOG_I(EMU,"[INIT] Starting NAS netlink interface\n");
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  ret = netlink_init();
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  if (ret < 0)
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    LOG_W(EMU,"[INIT] Netlink not available, careful ...\n");
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  if (ethernet_flag == 1) {
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    oai_emulation.info.master[oai_emulation.info.master_id].nb_ue = oai_emulation.info.nb_ue_local + oai_emulation.info.nb_rn_local;
    oai_emulation.info.master[oai_emulation.info.master_id].nb_enb = oai_emulation.info.nb_enb_local + oai_emulation.info.nb_rn_local;
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    if (oai_emulation.info.nb_rn_local>0)
      LOG_N(EMU,"Ethernet emulation is not yet tested with the relay nodes\n");

    if (!oai_emulation.info.master_id)
      oai_emulation.info.is_primary_master = 1;

    j = 1;

    for (i = 0; i < oai_emulation.info.nb_master; i++) {
      if (i != oai_emulation.info.master_id)
        oai_emulation.info.master_list = oai_emulation.info.master_list + j;

      LOG_I (EMU, "Index of master id i=%d  MASTER_LIST %d\n", i, oai_emulation.info.master_list);
      j *= 2;
    }

    LOG_I (EMU, " Total number of master %d my master id %d\n", oai_emulation.info.nb_master, oai_emulation.info.master_id);
    init_bypass ();

    while (emu_tx_status != SYNCED_TRANSPORT) {
      LOG_I (EMU, " Waiting for EMU Transport to be synced\n");
      emu_transport_sync ();    //emulation_tx_rx();
    }
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  } // ethernet flag

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  //
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  NB_UE_INST = oai_emulation.info.nb_ue_local + oai_emulation.info.nb_ue_remote;
  NB_eNB_INST = oai_emulation.info.nb_enb_local + oai_emulation.info.nb_enb_remote;
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  NB_RN_INST = oai_emulation.info.nb_rn_local + oai_emulation.info.nb_rn_remote;

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#if defined(PDCP_USE_NETLINK_QUEUES) && defined(OPENAIR2)
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  pdcp_netlink_init();
#endif

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  if (NB_RN_INST > 0 ) {
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    LOG_N(EMU,"Total number of RN %d (local %d, remote %d) mobility (the same as eNB) %s  \n", NB_RN_INST,oai_emulation.info.nb_rn_local,oai_emulation.info.nb_rn_remote,
          oai_emulation.topology_config.mobility.eNB_mobility.eNB_mobility_type.selected_option);
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    LOG_N(EMU,"Adjust the number of eNB inst (%d->%d) and UE inst (%d->%d)\n ",
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          NB_eNB_INST, NB_eNB_INST+NB_RN_INST,
          NB_UE_INST, NB_UE_INST+NB_RN_INST);
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    NB_eNB_INST+=NB_RN_INST;
    NB_UE_INST+=NB_RN_INST;
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  }
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  LOG_I(EMU,"Total number of UE %d (first local %d , num local %d, remote %d, relay %d) mobility %s \n",
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        NB_UE_INST,oai_emulation.info.first_ue_local, oai_emulation.info.nb_ue_local,oai_emulation.info.nb_ue_remote,
        NB_RN_INST,
        oai_emulation.topology_config.mobility.UE_mobility.UE_mobility_type.selected_option);
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  LOG_I(EMU,"Total number of eNB %d (local %d, remote %d, relay %d) mobility %s \n",
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        NB_RN_INST,
        oai_emulation.topology_config.mobility.eNB_mobility.eNB_mobility_type.selected_option);
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}

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#ifdef OPENAIR2
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void init_omv(void)
{
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  if (oai_emulation.info.omv_enabled == 1) {

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    if(pipe(pfd) == -1)
      perror("pipe error \n");

    snprintf( full_name, sizeof(full_name), "%s/UTIL/OMV/OMV",getenv("OPENAIR2_DIR") );
    LOG_I(EMU,"Stating the OMV path %s pfd[0] %d pfd[1] %d \n", full_name, pfd[0],pfd[1]);

    switch(fork()) {
    case -1 :
      perror("fork failed \n");
      break;

    case 0 : // child is going to be the omv, it is the reader
      if(close(pfd[1]) == -1 ) // we close the write desc.
        perror("close on write\n" );

      sprintf(fdstr, "%d", pfd[0] );
      sprintf(num_enb, "%d", NB_eNB_INST);
      sprintf(num_ue, "%d", NB_UE_INST);
      sprintf(x_area, "%f", oai_emulation.topology_config.area.x_m );
      sprintf(y_area, "%f", oai_emulation.topology_config.area.y_m );
      sprintf(z_area, "%f", 200.0 );
      sprintf(frames, "%d", oai_emulation.info.n_frames);
      sprintf(nb_antenna, "%d", 4);
      sprintf(frame_type, "%s", (oai_emulation.info.frame_type[0] == 0) ? "FDD" : "TDD");
      sprintf(tdd_config, "%d", oai_emulation.info.tdd_config[0]);
      // execl is used to launch the visualisor
      execl(full_name,"OMV", fdstr, frames, num_enb, num_ue, x_area, y_area, z_area, nb_antenna, frame_type, tdd_config,NULL );
      perror( "error in execl the OMV" );
    }

    //parent
    if(close( pfd[0] ) == -1 ) // we close the write desc.
      perror("close on read\n" );
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  }
}
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void init_seed(uint8_t set_seed)
{
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  if(set_seed) {

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    randominit (oai_emulation.info.seed);
    set_taus_seed (oai_emulation.info.seed);
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  } else {
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    randominit (0);
    set_taus_seed (0);
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  }
}

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openair0_timestamp current_eNB_rx_timestamp[NUMBER_OF_eNB_MAX][MAX_NUM_CCs];
openair0_timestamp current_UE_rx_timestamp[NUMBER_OF_UE_MAX][MAX_NUM_CCs];
openair0_timestamp last_eNB_rx_timestamp[NUMBER_OF_eNB_MAX][MAX_NUM_CCs];
openair0_timestamp last_UE_rx_timestamp[NUMBER_OF_UE_MAX][MAX_NUM_CCs];

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int eNB_trx_start(openair0_device *device) {
  return(0);
}

void eNB_trx_end(openair0_device *device) {
  return;
}

int eNB_trx_stop(openair0_device *device) {
  return(0);
}
int UE_trx_start(openair0_device *device) {
  return(0);
}
int UE_trx_end(openair0_device *device) {
  return(0);
}
int UE_trx_stop(openair0_device *device) {
  return(0);
}
int eNB_trx_set_freq(openair0_device *device, openair0_config_t *openair0_cfg, int dummy) {
  return(0);
}
int eNB_trx_set_gains(openair0_device *device, openair0_config_t *openair0_cfg) {
  return(0);
}
int UE_trx_set_freq(openair0_device *device, openair0_config_t *openair0_cfg, int dummy) {
  return(0);
}
int UE_trx_set_gains(openair0_device *device, openair0_config_t *openair0_cfg) {
  return(0);
}

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extern pthread_mutex_t subframe_mutex;
extern int subframe_eNB_mask,subframe_UE_mask;
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int eNB_trx_read(openair0_device *device, openair0_timestamp *ptimestamp, void **buff, int nsamps, int cc) {
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  int eNB_id = device->Mod_id;
  int CC_id  = device->CC_id;

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  int subframe;
  int sample_count=0;

  *ptimestamp = last_eNB_rx_timestamp[eNB_id][CC_id];

  LOG_D(PHY,"eNB_trx_read nsamps %d TS(%llu,%llu) => subframe %d\n",nsamps,
        (unsigned long long)current_eNB_rx_timestamp[eNB_id][CC_id],
        (unsigned long long)last_eNB_rx_timestamp[eNB_id][CC_id],
	(*ptimestamp/PHY_vars_eNB_g[eNB_id][CC_id]->frame_parms.samples_per_tti)%10);
  // if we're at a subframe boundary generate UL signals for this eNB

  while (sample_count<nsamps) {
    while (current_eNB_rx_timestamp[eNB_id][CC_id]<
	   (nsamps+last_eNB_rx_timestamp[eNB_id][CC_id])) {
      LOG_D(EMU,"eNB: current TS %llu, last TS %llu, sleeping\n",current_eNB_rx_timestamp[eNB_id][CC_id],last_eNB_rx_timestamp[eNB_id][CC_id]);
      usleep(500);
    }

    // tell top-level we are busy
    pthread_mutex_lock(&subframe_mutex);
    subframe_eNB_mask|=(1<<eNB_id);
    pthread_mutex_unlock(&subframe_mutex); 
    
    subframe = (last_eNB_rx_timestamp[eNB_id][CC_id]/PHY_vars_eNB_g[eNB_id][CC_id]->frame_parms.samples_per_tti)%10;
    LOG_D(PHY,"eNB_trx_read generating UL subframe %d (Ts %llu, current TS %llu)\n",
	  subframe,(unsigned long long)*ptimestamp,
	  (unsigned long long)current_eNB_rx_timestamp[eNB_id][CC_id]);
    
    do_UL_sig(UE2eNB,
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	      enb_data,
	      ue_data,
	      subframe,
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	      0,  // abstraction_flag
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	      &PHY_vars_eNB_g[eNB_id][CC_id]->frame_parms,
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	      0,  // frame is only used for abstraction
	      eNB_id,
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	      CC_id);
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    last_eNB_rx_timestamp[eNB_id][CC_id] += PHY_vars_eNB_g[eNB_id][CC_id]->frame_parms.samples_per_tti;
    sample_count += PHY_vars_eNB_g[eNB_id][CC_id]->frame_parms.samples_per_tti;
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  }
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  return(nsamps);
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}

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int UE_trx_read(openair0_device *device, openair0_timestamp *ptimestamp, void **buff, int nsamps, int cc) {
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  int UE_id = device->Mod_id;
  int CC_id  = device->CC_id;
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  int subframe;
  int sample_count=0;
  int read_size;

  *ptimestamp = last_UE_rx_timestamp[UE_id][CC_id];

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  LOG_D(EMU,"UE_trx_read nsamps %d TS(%llu,%llu) antenna %d\n",nsamps,
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        (unsigned long long)current_UE_rx_timestamp[UE_id][CC_id],
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        (unsigned long long)last_UE_rx_timestamp[UE_id][CC_id],
	cc);
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  if (nsamps < PHY_vars_UE_g[UE_id][CC_id]->frame_parms.samples_per_tti)
    read_size = nsamps;
  else
    read_size = PHY_vars_UE_g[UE_id][CC_id]->frame_parms.samples_per_tti;

  while (sample_count<nsamps) {
    while (current_UE_rx_timestamp[UE_id][CC_id] < 
	   (last_UE_rx_timestamp[UE_id][CC_id]+read_size)) {
      LOG_D(EMU,"UE_trx_read : current TS %d, last TS %d, sleeping\n",current_UE_rx_timestamp[UE_id][CC_id],last_UE_rx_timestamp[UE_id][CC_id]);
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      usleep(500);
    }
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    LOG_D(EMU,"UE_trx_read : current TS %d, last TS %d, sleeping\n",current_UE_rx_timestamp[UE_id][CC_id],last_UE_rx_timestamp[UE_id][CC_id]);
      
    // tell top-level we are busy 
    pthread_mutex_lock(&subframe_mutex);
    subframe_UE_mask|=(1<<UE_id);
    pthread_mutex_unlock(&subframe_mutex);
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    // otherwise we have one subframe here so generate the received signal
    subframe = (last_UE_rx_timestamp[UE_id][CC_id]/PHY_vars_UE_g[UE_id][CC_id]->frame_parms.samples_per_tti)%10;
    if ((last_UE_rx_timestamp[UE_id][CC_id]%PHY_vars_UE_g[UE_id][CC_id]->frame_parms.samples_per_tti) > 0)
      subframe++;

    last_UE_rx_timestamp[UE_id][CC_id] += read_size;
    sample_count += read_size;
 
    if (subframe > 9) 
      return(nsamps);

    LOG_D(PHY,"UE_trx_read generating DL subframe %d (Ts %llu, current TS %llu)\n",
	  subframe,(unsigned long long)*ptimestamp,
	  (unsigned long long)current_UE_rx_timestamp[UE_id][CC_id]);    
    do_DL_sig(eNB2UE,
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	      enb_data,
	      ue_data,
	      subframe,
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	      0, //abstraction_flag,
	      &PHY_vars_UE_g[UE_id][CC_id]->frame_parms,
	      UE_id,
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	      CC_id);
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  }
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  return(nsamps);
}

int eNB_trx_write(openair0_device *device,openair0_timestamp timestamp, void **buff, int nsamps, int cc, int flags) {

  return(nsamps);
}

int UE_trx_write(openair0_device *device,openair0_timestamp timestamp, void **buff, int nsamps, int cc, int flags) {

  return(nsamps);
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}

void init_devices(void){

  module_id_t UE_id, eNB_id;
  uint8_t CC_id;

  for (CC_id=0; CC_id<MAX_NUM_CCs; CC_id++) {
    for (eNB_id=0;eNB_id<NB_eNB_INST;eNB_id++) {
      PHY_vars_eNB_g[eNB_id][CC_id]->rfdevice.Mod_id             = eNB_id;
      PHY_vars_eNB_g[eNB_id][CC_id]->rfdevice.CC_id              = CC_id;
      PHY_vars_eNB_g[eNB_id][CC_id]->rfdevice.trx_start_func     = eNB_trx_start;
      PHY_vars_eNB_g[eNB_id][CC_id]->rfdevice.trx_read_func      = eNB_trx_read;
      PHY_vars_eNB_g[eNB_id][CC_id]->rfdevice.trx_write_func     = eNB_trx_write;
      PHY_vars_eNB_g[eNB_id][CC_id]->rfdevice.trx_end_func       = eNB_trx_end;
      PHY_vars_eNB_g[eNB_id][CC_id]->rfdevice.trx_stop_func      = eNB_trx_stop;
      PHY_vars_eNB_g[eNB_id][CC_id]->rfdevice.trx_set_freq_func  = eNB_trx_set_freq;
      PHY_vars_eNB_g[eNB_id][CC_id]->rfdevice.trx_set_gains_func = eNB_trx_set_gains;
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      current_eNB_rx_timestamp[eNB_id][CC_id] = PHY_vars_eNB_g[eNB_id][CC_id]->frame_parms.samples_per_tti;
      last_eNB_rx_timestamp[eNB_id][CC_id] = 0;
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    }
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    for (UE_id=0;UE_id<NB_UE_INST;UE_id++) {
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      PHY_vars_UE_g[UE_id][CC_id]->rfdevice.Mod_id               = UE_id;
      PHY_vars_UE_g[UE_id][CC_id]->rfdevice.CC_id                = CC_id;
      PHY_vars_UE_g[UE_id][CC_id]->rfdevice.trx_start_func       = UE_trx_start;
      PHY_vars_UE_g[UE_id][CC_id]->rfdevice.trx_read_func        = UE_trx_read;
      PHY_vars_UE_g[UE_id][CC_id]->rfdevice.trx_write_func       = UE_trx_write;
      PHY_vars_UE_g[UE_id][CC_id]->rfdevice.trx_end_func         = UE_trx_end;
      PHY_vars_UE_g[UE_id][CC_id]->rfdevice.trx_stop_func        = UE_trx_stop;
      PHY_vars_UE_g[UE_id][CC_id]->rfdevice.trx_set_freq_func    = UE_trx_set_freq;
      PHY_vars_UE_g[UE_id][CC_id]->rfdevice.trx_set_gains_func   = UE_trx_set_gains;
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      current_UE_rx_timestamp[UE_id][CC_id] = PHY_vars_UE_g[UE_id][CC_id]->frame_parms.samples_per_tti;
      last_UE_rx_timestamp[UE_id][CC_id] = 0;

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    }
  }
}

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void init_openair1(void)
{
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  module_id_t UE_id, eNB_id;
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  uint8_t CC_id;
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#if ENABLE_RAL
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  int list_index;
#endif
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  // change the nb_connected_eNB
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  for (CC_id=0; CC_id<MAX_NUM_CCs; CC_id++) {
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    init_lte_vars (&frame_parms[CC_id], 
		   oai_emulation.info.frame_type[CC_id], 
		   oai_emulation.info.tdd_config[CC_id], 
		   oai_emulation.info.tdd_config_S[CC_id],
		   oai_emulation.info.extended_prefix_flag[CC_id],
                   oai_emulation.info.N_RB_DL[CC_id], 
		   Nid_cell, 
		   cooperation_flag, 
		   enb_properties->properties[0]->nb_antenna_ports[CC_id], 
		   abstraction_flag,
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		   enb_properties->properties[0]->nb_antennas_rx[CC_id],
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		   enb_properties->properties[0]->nb_antennas_tx[CC_id],
		   nb_antennas_rx_ue,
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		   oai_emulation.info.eMBMS_active_state);
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  }
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  for (eNB_id=0; eNB_id<NB_eNB_INST; eNB_id++) {
    for (UE_id=0; UE_id<NB_UE_INST; UE_id++) {
      for (CC_id=0; CC_id<MAX_NUM_CCs; CC_id++) {
        PHY_vars_eNB_g[eNB_id][CC_id]->pusch_config_dedicated[UE_id].betaOffset_ACK_Index = beta_ACK;
        PHY_vars_eNB_g[eNB_id][CC_id]->pusch_config_dedicated[UE_id].betaOffset_RI_Index  = beta_RI;
        PHY_vars_eNB_g[eNB_id][CC_id]->pusch_config_dedicated[UE_id].betaOffset_CQI_Index = beta_CQI;
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        PHY_vars_eNB_g[eNB_id][CC_id]->frame_parms.pdsch_config_common.p_b = (frame_parms[CC_id]->nb_antenna_ports_eNB>1) ? 1 : 0; // rho_A = rho_B
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        PHY_vars_UE_g[UE_id][CC_id]->pusch_config_dedicated[eNB_id].betaOffset_ACK_Index = beta_ACK;
        PHY_vars_UE_g[UE_id][CC_id]->pusch_config_dedicated[eNB_id].betaOffset_RI_Index  = beta_RI;
        PHY_vars_UE_g[UE_id][CC_id]->pusch_config_dedicated[eNB_id].betaOffset_CQI_Index = beta_CQI;
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        PHY_vars_UE_g[UE_id][CC_id]->frame_parms.pdsch_config_common.p_b = (frame_parms[CC_id]->nb_antenna_ports_eNB>1) ? 1 : 0; // rho_A = rho_B
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      }
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    }
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  }

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  printf ("AFTER init: MAX_NUM_CCs %d, Nid_cell %d frame_type %d,tdd_config %d\n",
          MAX_NUM_CCs,
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          PHY_vars_eNB_g[0][0]->frame_parms.Nid_cell,
          PHY_vars_eNB_g[0][0]->frame_parms.frame_type,
          PHY_vars_eNB_g[0][0]->frame_parms.tdd_config);
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  number_of_cards = 1;

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//  openair_daq_vars.rx_rf_mode = 1;
//  openair_daq_vars.tdd = 1;
//  openair_daq_vars.rx_gain_mode = DAQ_AGC_ON;
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//  openair_daq_vars.dlsch_transmission_mode = oai_emulation.info.transmission_mode[0];
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//#warning "NN->FK: OAI EMU channel abstraction does not work for MCS higher than"
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//  openair_daq_vars.target_ue_dl_mcs = cmin(target_dl_mcs,16);
//  openair_daq_vars.target_ue_ul_mcs = target_ul_mcs;
//  openair_daq_vars.ue_dl_rb_alloc=0x1fff;
//  openair_daq_vars.ue_ul_nb_rb=6;
//  openair_daq_vars.dlsch_rate_adaptation = rate_adaptation_flag;
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  //N_TA_offset
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  for (CC_id=0; CC_id<MAX_NUM_CCs; CC_id++) {
    for (UE_id=0; UE_id<NB_UE_INST; UE_id++) {
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      PHY_vars_UE_g[UE_id][CC_id]->use_ia_receiver      = 0;
      PHY_vars_UE_g[UE_id][CC_id]->mode                 = normal_txrx;
      PHY_vars_UE_g[UE_id][CC_id]->mac_enabled          = 1;
      PHY_vars_UE_g[UE_id][CC_id]->no_timing_correction = 1;
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      if (PHY_vars_UE_g[UE_id][CC_id]->frame_parms.frame_type == TDD) {
        if (PHY_vars_UE_g[UE_id][CC_id]->frame_parms.N_RB_DL == 100)
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        else if (PHY_vars_UE_g[UE_id][CC_id]->frame_parms.N_RB_DL == 25)
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          PHY_vars_UE_g[UE_id][CC_id]->N_TA_offset = 624/4;
      } else {
        PHY_vars_UE_g[UE_id][CC_id]->N_TA_offset = 0;
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      }
    }
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    for (eNB_id=0; eNB_id<NB_eNB_INST; eNB_id++) {
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      if (PHY_vars_eNB_g[eNB_id][CC_id]->frame_parms.frame_type == TDD) {
        if (PHY_vars_eNB_g[eNB_id][CC_id]->frame_parms.N_RB_DL == 100)
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        else if (PHY_vars_eNB_g[eNB_id][CC_id]->frame_parms.N_RB_DL == 50)
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          PHY_vars_eNB_g[eNB_id][CC_id]->N_TA_offset = 624/2;
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        else if (PHY_vars_eNB_g[eNB_id][CC_id]->frame_parms.N_RB_DL == 25)
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          PHY_vars_eNB_g[eNB_id][CC_id]->N_TA_offset = 624/4;
      } else {
        PHY_vars_eNB_g[eNB_id][CC_id]->N_TA_offset = 0;
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      }
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    } // eNB_id
  } // CC_id
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  for (eNB_id=0; eNB_id<NB_eNB_INST; eNB_id++) {
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    for (CC_id=0; CC_id<MAX_NUM_CCs; CC_id++) {
      if (phy_test==1)
	PHY_vars_eNB_g[eNB_id][CC_id]->mac_enabled=0;
      else
	PHY_vars_eNB_g[eNB_id][CC_id]->mac_enabled=1;
    }
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  }

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  init_devices ();

  init_eNB(oai_emulation.info.node_function,oai_emulation.info.node_timing,NB_eNB_INST);
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  // init_ue_status();
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