lte-softmodem.c 82.6 KB
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/*******************************************************************************

  Eurecom OpenAirInterface
  Copyright(c) 1999 - 2011 Eurecom

  This program is free software; you can redistribute it and/or modify it
  under the terms and conditions of the GNU General Public License,
  version 2, as published by the Free Software Foundation.

  This program is distributed in the hope it will be useful, but WITHOUT
  ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
  FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License for
  more details.

  You should have received a copy of the GNU General Public License along with
  this program; if not, write to the Free Software Foundation, Inc.,
  51 Franklin St - Fifth Floor, Boston, MA 02110-1301 USA.

  The full GNU General Public License is included in this distribution in
  the file called "COPYING".

  Contact Information
  Openair Admin: openair_admin@eurecom.fr
  Openair Tech : openair_tech@eurecom.fr
  Forums       : http://forums.eurecom.fsr/openairinterface
  Address      : Eurecom, 2229, route des crêtes, 06560 Valbonne Sophia Antipolis, France

*******************************************************************************/

/*! \file lte-softmodem.c
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 * \brief main program to control HW and scheduling
 * \author R. Knopp, F. Kaltenberger
 * \date 2012
 * \version 0.1
 * \company Eurecom
 * \email: knopp@eurecom.fr,florian.kaltenberger@eurecom.fr
 * \note
 * \warning
 */
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#define _GNU_SOURCE
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#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <string.h>
#include <sys/ioctl.h>
#include <sys/types.h>
#include <sys/mman.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <sched.h>
#include <signal.h>
#include <execinfo.h>
#include <getopt.h>

#include "rt_wrapper.h"
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#undef MALLOC //there are two conflicting definitions, so we better make sure we don't use it at all

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#ifdef USRP
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static int hw_subframe;
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#endif
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#include "assertions.h"
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#ifdef EMOS
#include <gps.h>
#endif

#include "PHY/types.h"
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#include "PHY/defs.h"
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#undef MALLOC //there are two conflicting definitions, so we better make sure we don't use it at all
#undef FRAME_LENGTH_COMPLEX_SAMPLES //there are two conflicting definitions, so we better make sure we don't use it at all

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#ifndef USRP
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#include "openair0_lib.h"
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#else
#include "../../ARCH/COMMON/common_lib.h"
#endif

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#undef FRAME_LENGTH_COMPLEX_SAMPLES //there are two conflicting definitions, so we better make sure we don't use it at all
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#include "PHY/vars.h"
#include "MAC_INTERFACE/vars.h"
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//#include "SCHED/defs.h"
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#include "SCHED/vars.h"
#include "LAYER2/MAC/vars.h"

#include "../../SIMU/USER/init_lte.h"

#ifdef EMOS
#include "SCHED/phy_procedures_emos.h"
#endif

#ifdef OPENAIR2
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#include "otg_tx.h"
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#include "LAYER2/MAC/defs.h"
#include "LAYER2/MAC/vars.h"
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#include "LAYER2/MAC/proto.h"
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#ifndef CELLULAR
#include "RRC/LITE/vars.h"
#endif
#include "PHY_INTERFACE/vars.h"
#endif

#ifdef SMBV
#include "PHY/TOOLS/smbv.h"
unsigned short config_frames[4] = {2,9,11,13};
#endif
#include "UTIL/LOG/log_extern.h"
#include "UTIL/OTG/otg.h"
#include "UTIL/OTG/otg_vars.h"
#include "UTIL/MATH/oml.h"
#include "UTIL/LOG/vcd_signal_dumper.h"
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#include "enb_config.h"
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#if defined(ENABLE_ITTI)
# include "intertask_interface_init.h"
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# include "create_tasks.h"
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# if defined(ENABLE_USE_MME)
#   include "s1ap_eNB.h"
# endif
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#endif

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

#define FRAME_PERIOD    100000000ULL
#define DAQ_PERIOD      66667ULL

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#define DEBUG_THREADS 1

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struct timing_info_t {
  //unsigned int frame, hw_slot, last_slot, next_slot;
  RTIME time_min, time_max, time_avg, time_last, time_now;
  //unsigned int mbox0, mbox1, mbox2, mbox_target;
  unsigned int n_samples;
} timing_info;

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extern int16_t* sync_corr_ue0;
extern int16_t prach_ifft[4][1024*2];
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int init_dlsch_threads(void);
void cleanup_dlsch_threads(void);
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int32_t init_rx_pdsch_thread(void);
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void cleanup_rx_pdsch_thread(void);
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int32_t *rxdata;
int32_t *txdata;
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void setup_ue_buffers(PHY_VARS_UE *phy_vars_ue, LTE_DL_FRAME_PARMS *frame_parms, int carrier);
void setup_eNB_buffers(PHY_VARS_eNB *phy_vars_eNB, LTE_DL_FRAME_PARMS *frame_parms, int carrier);

#ifdef XFORMS
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// 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];
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FD_stats_form                  *form_stats=NULL;
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char title[255];
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unsigned char                   scope_enb_num_ue = 1;
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#endif //XFORMS

#ifdef RTAI
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static SEM                     *mutex;
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//static CND *cond;

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static int                      thread0;
static int                      thread1;
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#ifdef USRP
static SEM *sync_sem; // to sync rx & tx streaming
#endif
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//static int sync_thread;
#else
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pthread_t                       thread0;
pthread_t                       thread1;
pthread_attr_t                  attr_dlsch_threads;
struct sched_param              sched_param_dlsch;
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#ifdef USRP
pthread_cond_t sync_cond;
pthread_mutex_t sync_mutex;
#endif
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#endif

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pthread_attr_t                  attr_eNB_proc_tx[MAX_NUM_CCs][10];
pthread_attr_t                  attr_eNB_proc_rx[MAX_NUM_CCs][10];
struct sched_param              sched_param_eNB_proc_tx[MAX_NUM_CCs][10];
struct sched_param              sched_param_eNB_proc_rx[MAX_NUM_CCs][10];
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#ifdef XFORMS
static pthread_t                thread2; //xforms
#endif
#ifdef EMOS
static pthread_t                thread3; //emos
#endif
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openair0_device openair0;
openair0_timestamp timestamp;

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/*
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  static int instance_cnt=-1; //0 means worker is busy, -1 means its free
  int instance_cnt_ptr_kern,*instance_cnt_ptr_user;
  int pci_interface_ptr_kern;
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*/
//extern unsigned int bigphys_top;
//extern unsigned int mem_base;

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int                             card = 0;
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#if defined(ENABLE_ITTI)
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static volatile int             start_eNB = 0;
static volatile int             start_UE = 0;
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#endif
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volatile int                    oai_exit = 0;

//static int                      time_offset[4] = {-138,-138,-138,-138};
//static int                      time_offset[4] = {-145,-145,-145,-145};
static int                      time_offset[4] = {0,0,0,0};

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static char                     UE_flag=0;
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static uint8_t                       eNB_id=0,UE_id=0;
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uint32_t                             carrier_freq[4] =           {1907600000,1907600000,1907600000,1907600000}; /* For UE! */
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static uint32_t          downlink_frequency[4] =     {1907600000,1907600000,1907600000,1907600000};
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static int32_t                      uplink_frequency_offset[4]= {-120000000,-120000000,-120000000,-120000000};
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static char                    *conf_config_file_name = NULL;

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#if defined(ENABLE_ITTI)
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static char                    *itti_dump_file = NULL;
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#endif

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#ifndef USRP
double tx_gain = 20;
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double rx_gain = 10;
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#else
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double tx_gain = 120;
double rx_gain = 30;
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#endif
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double sample_rate=30.72e6;
double bw = 14e6;
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#ifndef USRP
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static unsigned int             rxg_max[4] =    {133,133,133,133};
static unsigned int             rxg_med[4] =    {127,127,127,127};
static unsigned int             rxg_byp[4] =    {120,120,120,120};
static int                      tx_max_power =  0;
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#else
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static unsigned int             rxg_max[4] =    {133,133,133,133};
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//static unsigned int            rxg_med[4] =    {127,127,127,127};
//static unsigned int            rxg_byp[4] =    {120,120,120,120};
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static int                      tx_max_power =  0;
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char ref[128] = "internal";
char channels[128] = "0";

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unsigned int samples_per_frame = 307200;
unsigned int samples_per_packets = 2048; // samples got every recv or send
unsigned int tx_forward_nsamps;
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int sf_bounds_5[10] = {8, 15, 23, 30, 38, 45, 53, 60, 68, 75};
int sf_bounds_10[10] = {8, 15, 23, 30, 38, 45, 53, 60, 68, 75};
int sf_bounds_20[10] = {15, 30, 45, 60, 75, 90, 105, 120, 135, 150};
int *sf_bounds;
int max_cnt;
int tx_delay;

#endif
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/*
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  uint32_t rf_mode_max[4]     = {55759,55759,55759,55759};
  uint32_t rf_mode_med[4]     = {39375,39375,39375,39375};
  uint32_t rf_mode_byp[4]     = {22991,22991,22991,22991};
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*/
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//static uint32_t                      rf_mode[4] =        {MY_RF_MODE,0,0,0};
//static uint32_t                      rf_local[4] =       {8255000,8255000,8255000,8255000}; // UE zepto
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//{8254617, 8254617, 8254617, 8254617}; //eNB khalifa
//{8255067,8254810,8257340,8257340}; // eNB PETRONAS
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//static uint32_t                      rf_vcocal[4] =      {910,910,910,910};
//static uint32_t                      rf_vcocal_850[4] =  {2015, 2015, 2015, 2015};
//static uint32_t                      rf_rxdc[4] =        {32896,32896,32896,32896};
//static uint32_t                      rxgain[4] =         {20,20,20,20};
//static uint32_t                      txgain[4] =         {20,20,20,20};
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static runmode_t                mode;
static int                      rx_input_level_dBm;
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static int                      online_log_messages=0;
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#ifdef XFORMS
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extern int                      otg_enabled;
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static char                     do_forms=0;
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#else
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int                             otg_enabled;
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#endif
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//int                             number_of_cards =   1;
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#ifndef USRP
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static int                      mbox_bounds[20] =   {8,16,24,30,38,46,54,60,68,76,84,90,98,106,114,120,128,136,144, 0}; ///boundaries of slots in terms ob mbox counter rounded up to even numbers
//static int                      mbox_bounds[20] =   {6,14,22,28,36,44,52,58,66,74,82,88,96,104,112,118,126,134,142, 148}; ///boundaries of slots in terms ob mbox counter rounded up to even numbers
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#endif
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static LTE_DL_FRAME_PARMS      *frame_parms;
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int multi_thread=1;
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int N_RB_DL=25;
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unsigned int build_rflocal(int txi, int txq, int rxi, int rxq)
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{
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  return (txi + (txq<<6) + (rxi<<12) + (rxq<<18));
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}
unsigned int build_rfdc(int dcoff_i_rxfe, int dcoff_q_rxfe)
{
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  return (dcoff_i_rxfe + (dcoff_q_rxfe<<8));
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}

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#if !defined(ENABLE_ITTI)
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void signal_handler(int sig)
{
  void *array[10];
  size_t size;

  if (sig==SIGSEGV) {
    // get void*'s for all entries on the stack
    size = backtrace(array, 10);
    
    // print out all the frames to stderr
    fprintf(stderr, "Error: signal %d:\n", sig);
    backtrace_symbols_fd(array, size, 2);
    exit(-1);
  }
  else {
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    oai_exit = 1;
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  }
}
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#endif
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void exit_fun(const char* s)
{
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  if (s != NULL) {
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    printf("%s %s() Exiting: %s\n",__FILE__, __FUNCTION__, s);
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  }

  oai_exit = 1;

#if defined(ENABLE_ITTI)
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  itti_terminate_tasks (TASK_UNKNOWN);
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#endif
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  //rt_sleep_ns(FRAME_PERIOD);

  //exit (-1);
}

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static int latency_target_fd = -1;
static int32_t latency_target_value = 0;
/* Latency trick - taken from cyclictest.c 
* if the file /dev/cpu_dma_latency exists,
* open it and write a zero into it. This will tell
* the power management system not to transition to
* a high cstate (in fact, the system acts like idle=poll)
* When the fd to /dev/cpu_dma_latency is closed, the behavior
* goes back to the system default.
*
* Documentation/power/pm_qos_interface.txt
*/
static void set_latency_target(void)
{
  struct stat s;
  int ret;
  if (stat("/dev/cpu_dma_latency", &s) == 0) {
    latency_target_fd = open("/dev/cpu_dma_latency", O_RDWR);
    if (latency_target_fd == -1)
      return;
    ret = write(latency_target_fd, &latency_target_value, 4);
    if (ret == 0) {
      printf("# error setting cpu_dma_latency to %d!: %s\n", latency_target_value, strerror(errno));
      close(latency_target_fd);
      return;
    }
    printf("# /dev/cpu_dma_latency set to %dus\n", latency_target_value);
  }
}

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#ifdef XFORMS
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static void *scope_thread(void *arg) {
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  char stats_buffer[16384];
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# ifdef ENABLE_XFORMS_WRITE_STATS
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  FILE *UE_stats, *eNB_stats;
  int len = 0;
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# endif
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  struct sched_param sched_param;
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  sched_param.sched_priority = sched_get_priority_min(SCHED_FIFO)+1; 
  sched_setscheduler(0, SCHED_FIFO,&sched_param);
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  printf("Scope thread has priority %d\n",sched_param.sched_priority);
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  /*
    if (UE_flag==1) 
    UE_stats  = fopen("UE_stats.txt", "w");
    else 
    eNB_stats = fopen("eNB_stats.txt", "w");
  */
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  while (!oai_exit) {
    if (UE_flag==1) {
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# ifdef ENABLE_XFORMS_WRITE_STATS
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      len =
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# endif
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	dump_ue_stats (PHY_vars_UE_g[0], stats_buffer, 0, mode,rx_input_level_dBm);
      fl_set_object_label(form_stats->stats_text, stats_buffer);
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# ifdef ENABLE_XFORMS_WRITE_STATS
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      rewind (UE_stats);
      fwrite (stats_buffer, 1, len, UE_stats);
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# endif
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      phy_scope_UE(form_ue[UE_id], 
		   PHY_vars_UE_g[UE_id],
		   eNB_id,
		   UE_id,7);
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    } else {
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# ifdef ENABLE_XFORMS_WRITE_STATS
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      len =
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# endif
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	dump_eNB_stats (PHY_vars_eNB_g[0][0], stats_buffer, 0);
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      fl_set_object_label(form_stats->stats_text, stats_buffer);
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# ifdef ENABLE_XFORMS_WRITE_STATS
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      rewind (eNB_stats);
      fwrite (stats_buffer, 1, len, eNB_stats);
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# endif
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      for(UE_id=0;UE_id<scope_enb_num_ue;UE_id++) {
	phy_scope_eNB(form_enb[UE_id], 
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		      PHY_vars_eNB_g[eNB_id][0],
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		      UE_id);
      }
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    }
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    //printf("doing forms\n");
    usleep(100000); // 100 ms
  }
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# ifdef ENABLE_XFORMS_WRITE_STATS
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  fclose (UE_stats);
  fclose (eNB_stats);
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# endif
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  pthread_exit((void*)arg);
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}
#endif

#ifdef EMOS
#define NO_ESTIMATES_DISK 100 //No. of estimates that are aquired before dumped to disk

void *emos_thread (void *arg)
{
  char c;
  char *fifo2file_buffer, *fifo2file_ptr;

  int fifo, counter=0, bytes;

  FILE  *dumpfile_id;
  char  dumpfile_name[1024];
  time_t starttime_tmp;
  struct tm starttime;
  
  int channel_buffer_size;
  
  time_t timer;
  struct tm *now;

  struct gps_data_t *gps_data = NULL;
  struct gps_fix_t dummy_gps_data;
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  struct sched_param sched_param;
  
  sched_param.sched_priority = sched_get_priority_max(SCHED_FIFO)-1; 
  sched_setscheduler(0, SCHED_FIFO,&sched_param);
  
  printf("EMOS thread has priority %d\n",sched_param.sched_priority);
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  timer = time(NULL);
  now = localtime(&timer);

  memset(&dummy_gps_data,1,sizeof(struct gps_fix_t));
  
  gps_data = gps_open("127.0.0.1","2947");
  if (gps_data == NULL) 
    {
      printf("[EMOS] Could not open GPS\n");
      //exit(-1);
    }
#if GPSD_API_MAJOR_VERSION>=4
  else if (gps_stream(gps_data, WATCH_ENABLE,NULL) != 0)
#else
  else if (gps_query(gps_data, "w+x") != 0)
#endif
    {
      //sprintf(tmptxt,"Error sending command to GPS, gps_data = %x", gps_data);
      printf("[EMOS] Error sending command to GPS\n");
      //exit(-1);
    }
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  else 
    printf("[EMOS] Opened GPS, gps_data=%p\n");
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  if (UE_flag==0)
    channel_buffer_size = sizeof(fifo_dump_emos_eNB);
  else
    channel_buffer_size = sizeof(fifo_dump_emos_UE);

  // allocate memory for NO_FRAMES_DISK channes estimations
  fifo2file_buffer = malloc(NO_ESTIMATES_DISK*channel_buffer_size);
  fifo2file_ptr = fifo2file_buffer;

  if (fifo2file_buffer == NULL)
    {
      printf("[EMOS] Cound not allocate memory for fifo2file_buffer\n");
      exit(EXIT_FAILURE);
    }

  if ((fifo = open(CHANSOUNDER_FIFO_DEV, O_RDONLY)) < 0)
    {
      fprintf(stderr, "[EMOS] Error opening the fifo\n");
      exit(EXIT_FAILURE);
    }


  time(&starttime_tmp);
  localtime_r(&starttime_tmp,&starttime);
  snprintf(dumpfile_name,1024,"/tmp/%s_data_%d%02d%02d_%02d%02d%02d.EMOS",
	   (UE_flag==0) ? "eNB" : "UE",
	   1900+starttime.tm_year, starttime.tm_mon+1, starttime.tm_mday, starttime.tm_hour, starttime.tm_min, starttime.tm_sec);

  dumpfile_id = fopen(dumpfile_name,"w");
  if (dumpfile_id == NULL)
    {
      fprintf(stderr, "[EMOS] Error opening dumpfile %s\n",dumpfile_name);
      exit(EXIT_FAILURE);
    }


  printf("[EMOS] starting dump, channel_buffer_size=%d ...\n",channel_buffer_size);
  while (!oai_exit)
    {
      bytes = rtf_read_timed(fifo, fifo2file_ptr, channel_buffer_size,100);
      if (bytes==0)
	continue;

      /*
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	if (UE_flag==0)
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	printf("eNB: count %d, frame %d, read: %d bytes from the fifo\n",counter, ((fifo_dump_emos_eNB*)fifo2file_ptr)->frame_tx,bytes);
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	else
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	printf("UE: count %d, frame %d, read: %d bytes from the fifo\n",counter, ((fifo_dump_emos_UE*)fifo2file_ptr)->frame_rx,bytes);
      */

      fifo2file_ptr += channel_buffer_size;
      counter ++;

      if (counter == NO_ESTIMATES_DISK)
        {
          //reset stuff
          fifo2file_ptr = fifo2file_buffer;
          counter = 0;

          //flush buffer to disk
	  if (UE_flag==0)
	    printf("[EMOS] eNB: count %d, frame %d, flushing buffer to disk\n",
		   counter, ((fifo_dump_emos_eNB*)fifo2file_ptr)->frame_tx);
	  else
	    printf("[EMOS] UE: count %d, frame %d, flushing buffer to disk\n",
		   counter, ((fifo_dump_emos_UE*)fifo2file_ptr)->frame_rx);


          if (fwrite(fifo2file_buffer, sizeof(char), NO_ESTIMATES_DISK*channel_buffer_size, dumpfile_id) != NO_ESTIMATES_DISK*channel_buffer_size)
            {
              fprintf(stderr, "[EMOS] Error writing to dumpfile\n");
              exit(EXIT_FAILURE);
            }
	  if (gps_data)
	    {
	      if (gps_poll(gps_data) != 0) {
		printf("[EMOS] problem polling data from gps\n");
	      }
	      else {
		printf("[EMOS] lat %g, lon %g\n",gps_data->fix.latitude,gps_data->fix.longitude);
	      }
	      if (fwrite(&(gps_data->fix), sizeof(char), sizeof(struct gps_fix_t), dumpfile_id) != sizeof(struct gps_fix_t))
		{
		  printf("[EMOS] Error writing to dumpfile, stopping recording\n");
		  exit(EXIT_FAILURE);
		}
	    }
	  else
	    {
	      printf("[EMOS] WARNING: No GPS data available, storing dummy packet\n");
	      if (fwrite(&(dummy_gps_data), sizeof(char), sizeof(struct gps_fix_t), dumpfile_id) != sizeof(struct gps_fix_t))
		{
		  printf("[EMOS] Error writing to dumpfile, stopping recording\n");
		  exit(EXIT_FAILURE);
		}
	    } 
        }
    }
  
  free(fifo2file_buffer);
  fclose(dumpfile_id);
  close(fifo);
  
  pthread_exit((void*) arg);

}
#endif

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#if defined(ENABLE_ITTI)
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static void wait_system_ready (char *message, volatile int *start_flag)
{
  /* Wait for eNB application initialization to be complete (eNB registration to MME) */
  {
    static char *indicator[] = {".    ", "..   ", "...  ", ".... ", ".....",
                                " ....", "  ...", "   ..", "    .", "     "};
    int i = 0;

    while ((!oai_exit) && (*start_flag == 0)) {
      LOG_N(EMU, message, indicator[i]);
      i = (i + 1) % (sizeof(indicator) / sizeof(indicator[0]));
      usleep(200000);
    }
    LOG_D(EMU,"\n");
  }
}
#endif

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#if defined(ENABLE_ITTI)
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void *l2l1_task(void *arg)
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{
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  MessageDef *message_p = NULL;
  int         result;

  itti_set_task_real_time(TASK_L2L1);
  itti_mark_task_ready(TASK_L2L1);
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  if (UE_flag == 0) {
    /* Wait for the initialize message */
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    do {
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      if (message_p != NULL) {
	result = itti_free (ITTI_MSG_ORIGIN_ID(message_p), message_p);
	AssertFatal (result == EXIT_SUCCESS, "Failed to free memory (%d)!\n", result);
      }
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      itti_receive_msg (TASK_L2L1, &message_p);

      switch (ITTI_MSG_ID(message_p)) {
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      case INITIALIZE_MESSAGE:
	/* Start eNB thread */
	LOG_D(EMU, "L2L1 TASK received %s\n", ITTI_MSG_NAME(message_p));
	start_eNB = 1;
	break;

      case TERMINATE_MESSAGE:
	oai_exit=1;
	itti_exit_task ();
	break;

      default:
	LOG_E(EMU, "Received unexpected message %s\n", ITTI_MSG_NAME(message_p));
	break;
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      }
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    } while (ITTI_MSG_ID(message_p) != INITIALIZE_MESSAGE);
    result = itti_free (ITTI_MSG_ORIGIN_ID(message_p), message_p);
    AssertFatal (result == EXIT_SUCCESS, "Failed to free memory (%d)!\n", result);
  }

  do {
    // Wait for a message
    itti_receive_msg (TASK_L2L1, &message_p);

    switch (ITTI_MSG_ID(message_p)) {
    case TERMINATE_MESSAGE:
      oai_exit=1;
      itti_exit_task ();
      break;

    case ACTIVATE_MESSAGE:
      start_UE = 1;
      break;

    case DEACTIVATE_MESSAGE:
      start_UE = 0;
      break;
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    case MESSAGE_TEST:
      LOG_I(EMU, "Received %s\n", ITTI_MSG_NAME(message_p));
      break;

    default:
      LOG_E(EMU, "Received unexpected message %s\n", ITTI_MSG_NAME(message_p));
      break;
    }

    result = itti_free (ITTI_MSG_ORIGIN_ID(message_p), message_p);
    AssertFatal (result == EXIT_SUCCESS, "Failed to free memory (%d)!\n", result);
  } while(1);
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  return NULL;
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}
#endif

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void do_OFDM_mod(int subframe,PHY_VARS_eNB *phy_vars_eNB) {

  unsigned int aa,slot_offset, slot_offset_F;
  int dummy_tx_b[7680*4] __attribute__((aligned(16)));
  int i, tx_offset;
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  int slot_sizeF = (phy_vars_eNB->lte_frame_parms.ofdm_symbol_size)*
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    ((phy_vars_eNB->lte_frame_parms.Ncp==1) ? 6 : 7);
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  slot_offset_F = (subframe<<1)*slot_sizeF;
    
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  slot_offset = subframe*phy_vars_eNB->lte_frame_parms.samples_per_tti;

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  if ((subframe_select(&phy_vars_eNB->lte_frame_parms,subframe)==SF_DL)||
      ((subframe_select(&phy_vars_eNB->lte_frame_parms,subframe)==SF_S))) {
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    //	  LOG_D(HW,"Frame %d: Generating slot %d\n",frame,next_slot);
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    for (aa=0; aa<phy_vars_eNB->lte_frame_parms.nb_antennas_tx; aa++) {
      if (phy_vars_eNB->lte_frame_parms.Ncp == EXTENDED){ 
	PHY_ofdm_mod(&phy_vars_eNB->lte_eNB_common_vars.txdataF[0][aa][slot_offset_F],
		     dummy_tx_b,
		     phy_vars_eNB->lte_frame_parms.log2_symbol_size,
		     6,
		     phy_vars_eNB->lte_frame_parms.nb_prefix_samples,
		     phy_vars_eNB->lte_frame_parms.twiddle_ifft,
		     phy_vars_eNB->lte_frame_parms.rev,
		     CYCLIC_PREFIX);
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	PHY_ofdm_mod(&phy_vars_eNB->lte_eNB_common_vars.txdataF[0][aa][slot_offset_F+slot_sizeF],
		     dummy_tx_b+(phy_vars_eNB->lte_frame_parms.samples_per_tti>>1),
		     phy_vars_eNB->lte_frame_parms.log2_symbol_size,
		     6,
		     phy_vars_eNB->lte_frame_parms.nb_prefix_samples,
		     phy_vars_eNB->lte_frame_parms.twiddle_ifft,
		     phy_vars_eNB->lte_frame_parms.rev,
		     CYCLIC_PREFIX);
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      }
      else {
	normal_prefix_mod(&phy_vars_eNB->lte_eNB_common_vars.txdataF[0][aa][slot_offset_F],
			  dummy_tx_b,
			  7,
			  &(phy_vars_eNB->lte_frame_parms));
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	normal_prefix_mod(&phy_vars_eNB->lte_eNB_common_vars.txdataF[0][aa][slot_offset_F+slot_sizeF],
			  dummy_tx_b+(phy_vars_eNB->lte_frame_parms.samples_per_tti>>1),
			  7,
			  &(phy_vars_eNB->lte_frame_parms));
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      }
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      for (i=0; i<phy_vars_eNB->lte_frame_parms.samples_per_tti; i++) {
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	tx_offset = (int)slot_offset+time_offset[aa]+i;
	if (tx_offset<0)
	  tx_offset += LTE_NUMBER_OF_SUBFRAMES_PER_FRAME*phy_vars_eNB->lte_frame_parms.samples_per_tti;
	if (tx_offset>=(LTE_NUMBER_OF_SUBFRAMES_PER_FRAME*phy_vars_eNB->lte_frame_parms.samples_per_tti))
	  tx_offset -= LTE_NUMBER_OF_SUBFRAMES_PER_FRAME*phy_vars_eNB->lte_frame_parms.samples_per_tti;
	((short*)&phy_vars_eNB->lte_eNB_common_vars.txdata[0][aa][tx_offset])[0]=
	  ((short*)dummy_tx_b)[2*i]<<4;
	((short*)&phy_vars_eNB->lte_eNB_common_vars.txdata[0][aa][tx_offset])[1]=
	  ((short*)dummy_tx_b)[2*i+1]<<4;
      }
    }
  }
}


int eNB_thread_tx_status[10];
static void * eNB_thread_tx(void *param) {
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  //unsigned long cpuid;
  eNB_proc_t *proc = (eNB_proc_t*)param;
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  //  RTIME time_in,time_out;
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#ifdef RTAI
  RT_TASK *task;
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  char task_name[8];
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#endif
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#if defined(ENABLE_ITTI)
  /* Wait for eNB application initialization to be complete (eNB registration to MME) */
  wait_system_ready ("Waiting for eNB application to be ready %s\r", &start_eNB);
#endif

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#ifdef RTAI
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  sprintf(task_name,"eNTX%d",proc->subframe);
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  task = rt_task_init_schmod(nam2num(task_name), 0, 0, 0, SCHED_FIFO, 0xF);

  if (task==NULL) {
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    LOG_E(PHY,"[SCHED][eNB] Problem starting eNB_proc_TX thread_index %d (%s)!!!!\n",proc->subframe,task_name);
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    return 0;
  }
  else {
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    LOG_I(PHY,"[SCHED][eNB] eNB TX thread %d started with id %p\n",
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	  proc->subframe,
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	  task);
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  }
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#else
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  //  LOG_I(PHY,
	printf("[SCHED][eNB] eNB TX thread %d started on CPU %d\n",
	       proc->subframe,sched_getcpu());
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#endif

  mlockall(MCL_CURRENT | MCL_FUTURE);

  //rt_set_runnable_on_cpuid(task,1);
  //cpuid = rtai_cpuid();

#ifdef HARD_RT
  rt_make_hard_real_time();
#endif

  while (!oai_exit){
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    vcd_signal_dumper_dump_function_by_name(VCD_SIGNAL_DUMPER_FUNCTIONS_eNB_PROC_TX0+(2*proc->subframe),0);
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    //    LOG_I(PHY,"Locking mutex for eNB proc %d (IC %d,mutex %p)\n",proc->subframe,proc->instance_cnt,&proc->mutex);
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    //printf("Locking mutex for eNB proc %d (subframe_tx %d))\n",proc->subframe,subframe_tx);

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    if (pthread_mutex_lock(&proc->mutex_tx) != 0) {
      LOG_E(PHY,"[SCHED][eNB] error locking mutex for eNB TX proc %d\n",proc->subframe);
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    }
    else {
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      while (proc->instance_cnt_tx < 0) {
	//	LOG_I(PHY,"Waiting and unlocking mutex for eNB proc %d (IC %d,lock %d)\n",proc->subframe,proc->instance_cnt,pthread_mutex_trylock(&proc->mutex));
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	//printf("Waiting and unlocking mutex for eNB proc %d (subframe_tx %d)\n",proc->subframe,subframe_tx);
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	pthread_cond_wait(&proc->cond_tx,&proc->mutex_tx);
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      }
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      //      LOG_I(PHY,"Waking up and unlocking mutex for eNB proc %d\n",proc->subframe);
      if (pthread_mutex_unlock(&proc->mutex_tx) != 0) {	
	LOG_E(PHY,"[SCHED][eNB] error unlocking mutex for eNB TX proc %d\n",proc->subframe);
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      }
    }
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    vcd_signal_dumper_dump_function_by_name(VCD_SIGNAL_DUMPER_FUNCTIONS_eNB_PROC_TX0+(2*proc->subframe),1);    
    vcd_signal_dumper_dump_variable_by_name(VCD_SIGNAL_DUMPER_VARIABLES_FRAME_NUMBER_ENB, proc->frame_tx);
    vcd_signal_dumper_dump_variable_by_name(VCD_SIGNAL_DUMPER_VARIABLES_SLOT_NUMBER_ENB, proc->subframe*2);
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    if (oai_exit) break;
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    if ((((PHY_vars_eNB_g[0][proc->CC_id]->lte_frame_parms.frame_type == TDD)&&
	  (subframe_select(&PHY_vars_eNB_g[0][proc->CC_id]->lte_frame_parms,proc->subframe_tx)==SF_DL))||
	 (PHY_vars_eNB_g[0][proc->CC_id]->lte_frame_parms.frame_type == FDD))) {
      
      phy_procedures_eNB_TX(proc->subframe,PHY_vars_eNB_g[0][proc->CC_id],0,no_relay,NULL);
      
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    }
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    if ((subframe_select(&PHY_vars_eNB_g[0][proc->CC_id]->lte_frame_parms,proc->subframe_tx)==SF_S)) {
      phy_procedures_eNB_TX(proc->subframe,PHY_vars_eNB_g[0][proc->CC_id],0,no_relay,NULL);
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    }
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    do_OFDM_mod(proc->subframe_tx,PHY_vars_eNB_g[0][proc->CC_id]);  
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    if (pthread_mutex_lock(&proc->mutex_tx) != 0) {
      printf("[openair][SCHED][eNB] error locking mutex for eNB TX proc %d\n",proc->subframe);
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    }
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    else {
      proc->instance_cnt_tx--;
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      if (pthread_mutex_unlock(&proc->mutex_tx) != 0) {	
	printf("[openair][SCHED][eNB] error unlocking mutex for eNB TX proc %d\n",proc->subframe);
      }
    }
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    proc->frame_tx++;
    if (proc->frame_tx==1024)
      proc->frame_tx=0;
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  }    
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  vcd_signal_dumper_dump_function_by_name(VCD_SIGNAL_DUMPER_FUNCTIONS_eNB_PROC_TX0+(2*proc->subframe),0);        
#ifdef HARD_RT
  rt_make_soft_real_time();
#endif
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#ifdef DEBUG_THREADS
  printf("Exiting eNB thread TX %d\n",proc->subframe);
#endif
  // clean task
#ifdef RTAI
  rt_task_delete(task);
#else
  eNB_thread_tx_status[proc->subframe]=0;
  pthread_exit(&eNB_thread_tx_status[proc->subframe]);
#endif
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#ifdef DEBUG_THREADS
  printf("Exiting eNB TX thread %d\n",proc->subframe);
#endif
}

int eNB_thread_rx_status[10];
static void * eNB_thread_rx(void *param) {

  //unsigned long cpuid;
  eNB_proc_t *proc = (eNB_proc_t*)param;
  //  RTIME time_in,time_out;
#ifdef RTAI
  RT_TASK *task;
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  char task_name[8];
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#endif

#if defined(ENABLE_ITTI)
  /* Wait for eNB application initialization to be complete (eNB registration to MME) */
  wait_system_ready ("Waiting for eNB application to be ready %s\r", &start_eNB);
#endif

#ifdef RTAI
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  sprintf(task_name,"eNRX%d",proc->subframe);
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  task = rt_task_init_schmod(nam2num(task_name), 0, 0, 0, SCHED_FIFO, 0xF);

  if (task==NULL) {
    LOG_E(PHY,"[SCHED][eNB] Problem starting eNB_proc_RX thread_index %d (%s)!!!!\n",proc->subframe,task_name);
    return 0;
  }
  else {
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    LOG_I(PHY,"[SCHED][eNB] eNB RX thread %d started with id %p\n", /*  on CPU %d*/
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	  proc->subframe,
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	  task); /*,rtai_cpuid()*/
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  }
#else
  LOG_I(PHY,"[SCHED][eNB] eNB RX thread %d started on CPU %d\n",
	proc->subframe,sched_getcpu());
#endif

  mlockall(MCL_CURRENT | MCL_FUTURE);

  //rt_set_runnable_on_cpuid(task,1);
  //cpuid = rtai_cpuid();

#ifdef HARD_RT
  rt_make_hard_real_time();
#endif

  while (!oai_exit){

    vcd_signal_dumper_dump_function_by_name(VCD_SIGNAL_DUMPER_FUNCTIONS_eNB_PROC_RX0+(2*proc->subframe),0);


    //    LOG_I(PHY,"Locking mutex for eNB proc %d (IC %d,mutex %p)\n",proc->subframe,proc->instance_cnt,&proc->mutex);
    if (pthread_mutex_lock(&proc->mutex_rx) != 0) {
      LOG_E(PHY,"[SCHED][eNB] error locking mutex for eNB RX proc %d\n",proc->subframe);
    }
    else {
        
      while (proc->instance_cnt_rx < 0) {
	//	LOG_I(PHY,"Waiting and unlocking mutex for eNB proc %d (IC %d,lock %d)\n",proc->subframe,proc->instance_cnt,pthread_mutex_trylock(&proc->mutex));

	pthread_cond_wait(&proc->cond_rx,&proc->mutex_rx);
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      }
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      //      LOG_I(PHY,"Waking up and unlocking mutex for eNB proc %d\n",proc->subframe);
      if (pthread_mutex_unlock(&proc->mutex_rx) != 0) {	
	LOG_E(PHY,"[SCHED][eNB] error unlocking mutex for eNB RX proc %d\n",proc->subframe);
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      }
    }
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    vcd_signal_dumper_dump_function_by_name(VCD_SIGNAL_DUMPER_FUNCTIONS_eNB_PROC_RX0+(2*proc->subframe),1);    

    if (oai_exit) break;
    
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    if ((((PHY_vars_eNB_g[0][proc->CC_id]->lte_frame_parms.frame_type == TDD )&&(subframe_select(&PHY_vars_eNB_g[0][proc->CC_id]->lte_frame_parms,proc->subframe_rx)==SF_UL)) ||
	 (PHY_vars_eNB_g[0][proc->CC_id]->lte_frame_parms.frame_type == FDD))){
      phy_procedures_eNB_RX(proc->subframe,PHY_vars_eNB_g[0][proc->CC_id],0,no_relay);
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    }
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    if ((subframe_select(&PHY_vars_eNB_g[0][proc->CC_id]->lte_frame_parms,proc->subframe_rx)==SF_S)){
      phy_procedures_eNB_S_RX(proc->subframe,PHY_vars_eNB_g[0][proc->CC_id],0,no_relay);
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    }
      
    if (pthread_mutex_lock(&proc->mutex_rx) != 0) {
      printf("[openair][SCHED][eNB] error locking mutex for eNB RX proc %d\n",proc->subframe);
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    }
    else {
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      proc->instance_cnt_rx--;
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      if (pthread_mutex_unlock(&proc->mutex_rx) != 0) {	
	printf("[openair][SCHED][eNB] error unlocking mutex for eNB RX proc %d\n",proc->subframe);
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      }
    }
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    proc->frame_rx++;
    if (proc->frame_rx==1024)
      proc->frame_rx=0;
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  }
  vcd_signal_dumper_dump_function_by_name(VCD_SIGNAL_DUMPER_FUNCTIONS_eNB_PROC_RX0+(2*proc->subframe),0);        
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#ifdef HARD_RT
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  rt_make_soft_real_time();
#endif

#ifdef DEBUG_THREADS
  printf("Exiting eNB thread RX %d\n",proc->subframe);
#endif
  // clean task
#ifdef RTAI
  rt_task_delete(task);
#else
  eNB_thread_rx_status[proc->subframe]=0;
  pthread_exit(&eNB_thread_rx_status[proc->subframe]);
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#endif

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#ifdef DEBUG_THREADS
  printf("Exiting eNB RX thread %d\n",proc->subframe);
#endif
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}



void init_eNB_proc() {

  int i;
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  int CC_id;

  for (CC_id=0;CC_id<MAX_NUM_CCs;CC_id++) {
    for (i=0;i<10;i++) {
      pthread_attr_init (&attr_eNB_proc_tx[CC_id][i]);
      pthread_attr_setstacksize(&attr_eNB_proc_tx[CC_id][i],OPENAIR_THREAD_STACK_SIZE);
      //attr_dlsch_threads.priority = 1;
      sched_param_eNB_proc_tx[CC_id][i].sched_priority = sched_get_priority_max(SCHED_FIFO)-1; //OPENAIR_THREAD_PRIORITY;
      pthread_attr_setschedparam  (&attr_eNB_proc_tx[CC_id][i], &sched_param_eNB_proc_tx[CC_id][i]);
      pthread_attr_setschedpolicy (&attr_eNB_proc_tx[CC_id][i], SCHED_FIFO);
      
      pthread_attr_init (&attr_eNB_proc_rx[CC_id][i]);
      pthread_attr_setstacksize(&attr_eNB_proc_rx[CC_id][i],OPENAIR_THREAD_STACK_SIZE);
      //attr_dlsch_threads.priority = 1;
      sched_param_eNB_proc_rx[CC_id][i].sched_priority = sched_get_priority_max(SCHED_FIFO)-1; //OPENAIR_THREAD_PRIORITY;
      pthread_attr_setschedparam  (&attr_eNB_proc_rx[CC_id][i], &sched_param_eNB_proc_rx[CC_id][i]);
      pthread_attr_setschedpolicy (&attr_eNB_proc_rx[CC_id][i], SCHED_FIFO);
      
      for (CC_id=0;CC_id<MAX_NUM_CCs;CC_id++) {
	PHY_vars_eNB_g[0][CC_id]->proc[i].instance_cnt_tx=-1;
	PHY_vars_eNB_g[0][CC_id]->proc[i].instance_cnt_rx=-1;
	PHY_vars_eNB_g[0][CC_id]->proc[i].subframe=i;
	PHY_vars_eNB_g[0][CC_id]->proc[i].CC_id = CC_id;
	pthread_mutex_init(&PHY_vars_eNB_g[0][CC_id]->proc[i].mutex_tx,NULL);
	pthread_mutex_init(&PHY_vars_eNB_g[0][CC_id]->proc[i].mutex_rx,NULL);
	pthread_cond_init(&PHY_vars_eNB_g[0][CC_id]->proc[i].cond_tx,NULL);
	pthread_cond_init(&PHY_vars_eNB_g[0][CC_id]->proc[i].cond_rx,NULL);
	pthread_create(&PHY_vars_eNB_g[0][CC_id]->proc[i].pthread_tx,NULL,eNB_thread_tx,(void*)&PHY_vars_eNB_g[0][CC_id]->proc[i]);
	pthread_create(&PHY_vars_eNB_g[0][CC_id]->proc[i].pthread_rx,NULL,eNB_thread_rx,(void*)&PHY_vars_eNB_g[0][CC_id]->proc[i]);
	PHY_vars_eNB_g[0][CC_id]->proc[i].frame_tx = 0;
	PHY_vars_eNB_g[0][CC_id]->proc[i].frame_rx = 0;
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#ifndef USRP
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	PHY_vars_eNB_g[0][CC_id]->proc[i].subframe_rx = (i+9)%10;
	PHY_vars_eNB_g[0][CC_id]->proc[i].subframe_tx = (i+1)%10;
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#else
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	PHY_vars_eNB_g[0][CC_id]->proc[i].subframe_rx = i;
	PHY_vars_eNB_g[0][CC_id]->proc[i].subframe_tx = (i+2)%10;
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#endif
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      }
    }
  
  
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#ifndef USRP
  // TX processes subframe + 1, RX subframe -1
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  // Note this inialization is because the first process awoken for frame 0 is number 1 and so processes 9 and 0 have to start with frame 1
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  //PHY_vars_eNB_g[0][CC_id]->proc[0].frame_rx = 1023;
    PHY_vars_eNB_g[0][CC_id]->proc[9].frame_tx = 1;
    PHY_vars_eNB_g[0][CC_id]->proc[0].frame_tx = 1;
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#else
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    // TX processes subframe +2, RX subframe
    // Note this inialization is because the first process awoken for frame 0 is number 1 and so processes 8,9 and 0 have to start with frame 1
    PHY_vars_eNB_g[0][CC_id]->proc[8].frame_tx = 1;
    PHY_vars_eNB_g[0][CC_id]->proc[9].frame_tx = 1;
    PHY_vars_eNB_g[0][CC_id]->proc[0].frame_tx = 1;
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#endif
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  }
}
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void kill_eNB_proc() {

  int i;
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  int *status_tx,*status_rx;
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  int CC_id;
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  for (CC_id=0;CC_id<MAX_NUM_CCs;CC_id++) 
    for (i=0;i<10;i++) {
      
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#ifdef DEBUG_THREADS
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      printf("Killing TX CC_id %d thread %d\n",CC_id,i);
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#endif
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      PHY_vars_eNB_g[0][CC_id]->proc[i].instance_cnt_tx=0; 
      pthread_cond_signal(&PHY_vars_eNB_g[0][CC_id]->proc[i].cond_tx);
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#ifdef DEBUG_THREADS
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      printf("Joining eNB TX CC_id %d thread %d...",CC_id,i);
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#endif
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      pthread_join(PHY_vars_eNB_g[0][CC_id]->proc[i].pthread_tx,(void**)status_tx);
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#ifdef DEBUG_THREADS
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      if (status_tx) printf("status %d...",*status_tx);
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#endif
#ifdef DEBUG_THREADS
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      printf("Killing RX CC_id %d thread %d\n",CC_id,i);
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#endif
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      PHY_vars_eNB_g[0][CC_id]->proc[i].instance_cnt_rx=0; 
      pthread_cond_signal(&PHY_vars_eNB_g[0][CC_id]->proc[i].cond_rx);
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#ifdef DEBUG_THREADS
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      printf("Joining eNB RX CC_id %d thread %d...",CC_id,i);
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#endif
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      pthread_join(PHY_vars_eNB_g[0][CC_id]->proc[i].pthread_rx,(void**)status_rx);
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#ifdef DEBUG_THREADS 
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      if (status_rx) printf("status %d...",*status_rx);
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#endif
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      pthread_mutex_destroy(&PHY_vars_eNB_g[0][CC_id]->proc[i].mutex_tx);
      pthread_mutex_destroy(&PHY_vars_eNB_g[0][CC_id]->proc[i].mutex_rx);
      pthread_cond_destroy(&PHY_vars_eNB_g[0][CC_id]->proc[i].cond_tx);
      pthread_cond_destroy(&PHY_vars_eNB_g[0][CC_id]->proc[i].cond_rx);
    }
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}


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/* This is the main eNB thread. */
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int eNB_thread_status;

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static void *eNB_thread(void *arg)
{
#ifdef RTAI
  RT_TASK *task;
#endif
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#ifndef USRP
  unsigned char slot=0;
#else
  unsigned char slot=1;
#endif
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  int frame=0;
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  int CC_id;
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  RTIME time_in, time_diff;
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  int sf;
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#ifndef USRP
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  volatile unsigned int *DAQ_MBOX = openair0_daq_cnt();
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  int mbox_target=0,mbox_current=0;
  int hw_slot,delay_cnt;
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  int diff;
  int ret;

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#else
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  unsigned int rx_cnt = 0;
  unsigned int tx_cnt = tx_delay;
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  //  int tx_offset;
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  int CC_id;
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  hw_subframe = 0;
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#endif
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#if defined(ENABLE_ITTI)
  /* Wait for eNB application initialization to be complete (eNB registration to MME) */
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  wait_system_ready ("Waiting for eNB application to be ready %s\r", &start_eNB);
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#endif

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#ifdef RTAI
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  task = rt_task_init_schmod(nam2num("TASK0"), 0, 0, 0, SCHED_FIFO, 0xF);
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#endif

  if (!oai_exit) {
#ifdef RTAI
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    printf("[SCHED][eNB] Started eNB thread (id %p)\n",task);
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#else
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    printf("[SCHED][eNB] Started eNB thread on CPU %d\n",
	   sched_getcpu());
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#endif

#ifdef HARD_RT
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    rt_make_hard_real_time();
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#endif

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    printf("eNB_thread: mlockall in ...\n");
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    mlockall(MCL_CURRENT | MCL_FUTURE);
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    printf("eNB_thread: mlockall out ...\n");
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    timing_info.time_min = 100000000ULL;
    timing_info.time_max = 0;
    timing_info.time_avg = 0;
    timing_info.n_samples = 0;
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#ifdef USRP
    printf("waiting for USRP sync \n");
#ifdef RTAI
    rt_sem_wait(sync_sem);
#else
    //pthread_mutex_lock(&sync_mutex);
    pthread_cond_wait(&sync_cond, &sync_mutex);
    //pthread_mutex_unlock(&sync_mutex);
#endif
    //    printf("starting eNB thread @ %llu\n",get_usrp_time(&openair0));
#endif

  while (!oai_exit) {
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#ifndef USRP
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      hw_slot = (((((volatile unsigned int *)DAQ_MBOX)[0]+1)%150)<<1)/15;
      //        LOG_D(HW,"eNB frame %d, time %llu: slot %d, hw_slot %d (mbox %d)\n",frame,rt_get_time_ns(),slot,hw_slot,((unsigned int *)DAQ_MBOX)[0]);
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      vcd_signal_dumper_dump_variable_by_name(VCD_SIGNAL_DUMPER_VARIABLES_HW_SUBFRAME, hw_slot>>1);
      vcd_signal_dumper_dump_variable_by_name(VCD_SIGNAL_DUMPER_VARIABLES_HW_FRAME, frame);
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      //this is the mbox counter where we should be
      mbox_target = mbox_bounds[slot];
      //this is the mbox counter where we are
      mbox_current = ((volatile unsigned int *)DAQ_MBOX)[0];
      //this is the time we need to sleep in order to synchronize with the hw (in multiples of DAQ_PERIOD)
      if ((mbox_current>=135) && (mbox_target<15)) //handle the frame wrap-arround
	diff = 150-mbox_current+mbox_target;
      else if ((mbox_current<15) && (mbox_target>=135))
	diff = -150+mbox_target-mbox_current;
      else
	diff = mbox_target - mbox_current;
      
      if (((slot%2==0) && (diff < (-14))) || ((slot%2==1) && (diff < (-7)))) {
	// at the eNB, even slots have double as much time since most of the processing is done here and almost nothing in odd slots
	LOG_D(HW,"eNB Frame %d, time %llu: missed slot, proceeding with next one (slot %d, hw_slot %d, diff %d)\n",frame, rt_get_time_ns(), slot, hw_slot, diff);
	slot++;
	if (frame > 0) {
	  exit_fun("[HW][eNB] missed slot");
	}
	if (slot==20){
	  slot=0;
	  frame++;
	}
	continue;
      }
      if (diff>8)
	LOG_D(HW,"eNB Frame %d, time %llu: skipped slot, waiting for hw to catch up (slot %d, hw_slot %d, mbox_current %d, mbox_target %d, diff %d)\n",frame, rt_get_time_ns(), slot, hw_slot, mbox_current, mbox_target, diff);
      
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      vcd_signal_dumper_dump_variable_by_name(VCD_SIGNAL_DUMPER_VARIABLES_DAQ_MBOX, *DAQ_MBOX);
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      vcd_signal_dumper_dump_variable_by_name(VCD_SIGNAL_DUMPER_VARIABLES_DIFF, diff);
      
      delay_cnt = 0;
      while ((diff>0) && (!oai_exit)) {
	time_in = rt_get_time_ns();
	//LOG_D(HW,"eNB Frame %d delaycnt %d : hw_slot %d (%d), slot %d, (slot+1)*15=%d, diff %d, time %llu\n",frame,delay_cnt,hw_slot,((unsigned int *)DAQ_MBOX)[0],slot,(((slot+1)*15)>>1),diff,time_in);
	//LOG_D(HW,"eNB Frame %d, time %llu: sleeping for %llu (slot %d, hw_slot %d, diff %d, mbox %d, delay_cnt %d)\n", frame, time_in, diff*DAQ_PERIOD,slot,hw_slot,diff,((volatile unsigned int *)DAQ_MBOX)[0],delay_cnt);
	vcd_signal_dumper_dump_function_by_name(VCD_SIGNAL_DUMPER_FUNCTIONS_RT_SLEEP,1);
	ret = rt_sleep_ns(diff*DAQ_PERIOD);
	vcd_signal_dumper_dump_function_by_name(VCD_SIGNAL_DUMPER_FUNCTIONS_RT_SLEEP,0);
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	vcd_signal_dumper_dump_variable_by_name(VCD_SIGNAL_DUMPER_VARIABLES_DAQ_MBOX, *DAQ_MBOX);
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	if (ret)
	  LOG_D(HW,"eNB Frame %d, time %llu: rt_sleep_ns returned %d\n",frame, time_in);
	hw_slot = (((((volatile unsigned int *)DAQ_MBOX)[0]+1)%150)<<1)/15;
	//LOG_D(HW,"eNB Frame %d : hw_slot %d, time %llu\n",frame,hw_slot,rt_get_time_ns());
	delay_cnt++;
	if (delay_cnt == 10) {
	  LOG_D(HW,"eNB Frame %d: HW stopped ... \n",frame);
	  exit_fun("[HW][eNB] HW stopped");
	}
	mbox_current = ((volatile unsigned int *)DAQ_MBOX)[0];
	if ((mbox_current>=135) && (mbox_target<15)) //handle the frame wrap-ar