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/*******************************************************************************
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    OpenAirInterface 
    Copyright(c) 1999 - 2014 Eurecom
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    OpenAirInterface is free software: you can redistribute it and/or modify
    it under the terms of the GNU General Public License as published by
    the Free Software Foundation, either version 3 of the License, or
    (at your option) any later version.
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    OpenAirInterface is distributed in the hope that it will be useful,
    but WITHOUT ANY WARRANTY; without even the implied warranty of
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    GNU General Public License for more details.
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    You should have received a copy of the GNU General Public License
    along with OpenAirInterface.The full GNU General Public License is 
   included in this distribution in the file called "COPYING". If not, 
   see <http://www.gnu.org/licenses/>.
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  Contact Information
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  OpenAirInterface Admin: openair_admin@eurecom.fr
  OpenAirInterface Tech : openair_tech@eurecom.fr
  OpenAirInterface Dev  : openair4g-devel@eurecom.fr
  
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  Address      : Eurecom, Campus SophiaTech, 450 Route des Chappes, CS 50193 - 06904 Biot Sophia Antipolis cedex, FRANCE
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 *******************************************************************************/
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/*! \file PHY/LTE_TRANSPORT/print_stats.c
* \brief PHY statstic logging function
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* \author R. Knopp, F. Kaltenberger, navid nikaein
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* \date 2011
* \version 0.1
* \company Eurecom
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* \email: knopp@eurecom.fr,florian.kaltenberger@eurecom.fr, navid.nikaein@eurecom.fr
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* \note
* \warning
*/

#include "PHY/LTE_TRANSPORT/proto.h"

#include "PHY/defs.h"
#include "PHY/extern.h"
#include "SCHED/extern.h"

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#ifdef OPENAIR2
#include "../openair2/LAYER2/MAC/proto.h"
#endif
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extern int mac_get_rrc_status(uint8_t Mod_id,uint8_t eNB_flag,uint8_t index);

#ifdef EXMIMO
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#include "common_lib.h"
extern openair0_config_t openair0_cfg[];
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#endif

int dump_ue_stats(PHY_VARS_UE *phy_vars_ue, char* buffer, int length, runmode_t mode, int input_level_dBm) {

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  uint8_t eNB=0;
  uint32_t RRC_status;
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  int len=length;

  if (phy_vars_ue==NULL)
    return 0;

  if ((mode == normal_txrx) || (mode == no_L2_connect)) {
  len += sprintf(&buffer[len], "[UE_PROC] UE %d, RNTI %x\n",phy_vars_ue->Mod_id, phy_vars_ue->lte_ue_pdcch_vars[0]->crnti);
  len += sprintf(&buffer[len], "[UE PROC] Frame count: %d\neNB0 RSSI %d dBm (%d dB, %d dB)\neNB1 RSSI %d dBm (%d dB, %d dB)\neNB2 RSSI %d dBm (%d dB, %d dB)\nN0 %d dBm (%d dB, %d dB)\n",
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		 phy_vars_ue->frame_rx,
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		 phy_vars_ue->PHY_measurements.rx_rssi_dBm[0],
		 phy_vars_ue->PHY_measurements.rx_power_dB[0][0],
		 phy_vars_ue->PHY_measurements.rx_power_dB[0][1],
		 phy_vars_ue->PHY_measurements.rx_rssi_dBm[1],
		 phy_vars_ue->PHY_measurements.rx_power_dB[1][0],
		 phy_vars_ue->PHY_measurements.rx_power_dB[1][1],
		 phy_vars_ue->PHY_measurements.rx_rssi_dBm[2],
		 phy_vars_ue->PHY_measurements.rx_power_dB[2][0],
		 phy_vars_ue->PHY_measurements.rx_power_dB[2][1],
		 phy_vars_ue->PHY_measurements.n0_power_tot_dBm,
		 phy_vars_ue->PHY_measurements.n0_power_dB[0],
		 phy_vars_ue->PHY_measurements.n0_power_dB[1]);
#ifdef EXMIMO
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  len += sprintf(&buffer[len], "[UE PROC] RX Gain %d dB (LNA %d, vga %d dB)\n",phy_vars_ue->rx_total_gain_dB, openair0_cfg[0].rxg_mode[0],(int)openair0_cfg[0].rx_gain[0]);
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#else
    len += sprintf(&buffer[len], "[UE PROC] RX Gain %d dB\n",phy_vars_ue->rx_total_gain_dB);
#endif
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  len += sprintf(&buffer[len], "[UE_PROC] Frequency offset %d Hz (%d)\n",phy_vars_ue->lte_ue_common_vars.freq_offset,openair_daq_vars.freq_offset);
  len += sprintf(&buffer[len], "[UE PROC] UE mode = %s (%d)\n",mode_string[phy_vars_ue->UE_mode[0]],phy_vars_ue->UE_mode[0]);
  len += sprintf(&buffer[len], "[UE PROC] timing_advance = %d\n",phy_vars_ue->timing_advance);
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  len += sprintf(&buffer[len], "[UE PROC] UE tx power = %d\n", PHY_vars_UE_g[0][0]->tx_power_dBm);  
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  //for (eNB=0;eNB<NUMBER_OF_eNB_MAX;eNB++) {
  for (eNB=0;eNB<1;eNB++) {
    len += sprintf(&buffer[len], "[UE PROC] RX spatial power eNB%d: [%d %d; %d %d] dB\n",
		   eNB,
		   phy_vars_ue->PHY_measurements.rx_spatial_power_dB[eNB][0][0],
		   phy_vars_ue->PHY_measurements.rx_spatial_power_dB[eNB][0][1],
		   phy_vars_ue->PHY_measurements.rx_spatial_power_dB[eNB][1][0],
		   phy_vars_ue->PHY_measurements.rx_spatial_power_dB[eNB][1][1]);

    len += sprintf(&buffer[len], "[UE PROC] RX total power eNB%d: %d dB, avg: %d dB\n",eNB,phy_vars_ue->PHY_measurements.rx_power_tot_dB[eNB],phy_vars_ue->PHY_measurements.rx_power_avg_dB[eNB]);
    len += sprintf(&buffer[len], "[UE PROC] RX total power lin: %d, avg: %d, RX total noise lin: %d, avg: %d\n",phy_vars_ue->PHY_measurements.rx_power_tot[eNB], phy_vars_ue->PHY_measurements.rx_power_avg[eNB], phy_vars_ue->PHY_measurements.n0_power_tot, phy_vars_ue->PHY_measurements.n0_power_avg);
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    len += sprintf(&buffer[len], "[UE PROC] effective SINR %.2f dB\n",phy_vars_ue->sinr_eff);
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    len += sprintf(&buffer[len], "[UE PROC] Wideband CQI eNB %d: %d dB, avg: %d dB\n",eNB,phy_vars_ue->PHY_measurements.wideband_cqi_tot[eNB],phy_vars_ue->PHY_measurements.wideband_cqi_avg[eNB]);

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    switch (phy_vars_ue->lte_frame_parms.N_RB_DL) {
    case 6:
      len += sprintf(&buffer[len], "[UE PROC] Subband CQI eNB%d (Ant 0): [%d %d %d %d %d %d] dB\n",
		     eNB,
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][0][0],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][0][1],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][0][2],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][0][3],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][0][4],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][0][5]);
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      len += sprintf(&buffer[len], "[UE PROC] Subband CQI eNB%d (Ant 1): [%d %d %d %d %d %d] dB\n",
		     eNB,
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][1][0],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][1][1],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][1][2],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][1][3],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][1][4],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][1][5]);
      
      
      len += sprintf(&buffer[len], "[UE PROC] Subband PMI eNB%d (Ant 0): [(%d %d) (%d %d) (%d %d) (%d %d) (%d %d) (%d %d)]\n",
		     eNB,
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][0][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][0][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][1][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][1][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][2][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][2][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][3][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][3][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][4][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][4][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][5][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][5][0]);
      
      len += sprintf(&buffer[len], "[UE PROC] Subband PMI eNB%d (Ant 1): [(%d %d) (%d %d) (%d %d) (%d %d) (%d %d) (%d %d)]\n",
		     eNB,
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][0][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][0][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][1][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][1][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][2][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][2][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][3][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][3][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][4][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][4][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][5][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][5][1]);
      
      len += sprintf(&buffer[len], "[UE PROC] PMI Antenna selection eNB%d : [%d %d %d %d %d %d]\n",
		     eNB,
		     phy_vars_ue->PHY_measurements.selected_rx_antennas[eNB][0],
		     phy_vars_ue->PHY_measurements.selected_rx_antennas[eNB][1],
		     phy_vars_ue->PHY_measurements.selected_rx_antennas[eNB][2],
		     phy_vars_ue->PHY_measurements.selected_rx_antennas[eNB][3],
		     phy_vars_ue->PHY_measurements.selected_rx_antennas[eNB][4],
		     phy_vars_ue->PHY_measurements.selected_rx_antennas[eNB][5]);
      
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      len += sprintf(&buffer[len], "[UE PROC] Quantized PMI eNB %d (max): %jx\n",eNB,pmi2hex_2Ar1(quantize_subband_pmi(&phy_vars_ue->PHY_measurements,eNB,6)));
      len += sprintf(&buffer[len], "[UE PROC] Quantized PMI eNB %d (both): %jx,%jx\n",eNB,
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		     pmi2hex_2Ar1(quantize_subband_pmi2(&phy_vars_ue->PHY_measurements,eNB,0,6)),
		     pmi2hex_2Ar1(quantize_subband_pmi2(&phy_vars_ue->PHY_measurements,eNB,1,6)));
      break;
    case 25:
      len += sprintf(&buffer[len], "[UE PROC] Subband CQI eNB%d (Ant 0): [%d %d %d %d %d %d %d] dB\n",
		     eNB,
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][0][0],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][0][1],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][0][2],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][0][3],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][0][4],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][0][5],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][0][6]);
      
      len += sprintf(&buffer[len], "[UE PROC] Subband CQI eNB%d (Ant 1): [%d %d %d %d %d %d %d] dB\n",
		     eNB,
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][1][0],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][1][1],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][1][2],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][1][3],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][1][4],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][1][5],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][1][6]);
      
      
      len += sprintf(&buffer[len], "[UE PROC] Subband PMI eNB%d (Ant 0): [(%d %d) (%d %d) (%d %d) (%d %d) (%d %d) (%d %d) (%d %d)]\n",
		     eNB,
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][0][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][0][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][1][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][1][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][2][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][2][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][3][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][3][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][4][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][4][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][5][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][5][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][6][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][6][0]);
      
      len += sprintf(&buffer[len], "[UE PROC] Subband PMI eNB%d (Ant 1): [(%d %d) (%d %d) (%d %d) (%d %d) (%d %d) (%d %d) (%d %d)]\n",
		     eNB,
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][0][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][0][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][1][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][1][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][2][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][2][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][3][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][3][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][4][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][4][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][5][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][5][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][6][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][6][1]);
      
      len += sprintf(&buffer[len], "[UE PROC] PMI Antenna selection eNB%d : [%d %d %d %d %d %d %d]\n",
		     eNB,
		     phy_vars_ue->PHY_measurements.selected_rx_antennas[eNB][0],
		     phy_vars_ue->PHY_measurements.selected_rx_antennas[eNB][1],
		     phy_vars_ue->PHY_measurements.selected_rx_antennas[eNB][2],
		     phy_vars_ue->PHY_measurements.selected_rx_antennas[eNB][3],
		     phy_vars_ue->PHY_measurements.selected_rx_antennas[eNB][4],
		     phy_vars_ue->PHY_measurements.selected_rx_antennas[eNB][5],
		     phy_vars_ue->PHY_measurements.selected_rx_antennas[eNB][6]);
      
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      len += sprintf(&buffer[len], "[UE PROC] Quantized PMI eNB %d (max): %jx\n",eNB,pmi2hex_2Ar1(quantize_subband_pmi(&phy_vars_ue->PHY_measurements,eNB,7)));
      len += sprintf(&buffer[len], "[UE PROC] Quantized PMI eNB %d (both): %jx,%jx\n",eNB,
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		     pmi2hex_2Ar1(quantize_subband_pmi2(&phy_vars_ue->PHY_measurements,eNB,0,7)),
		     pmi2hex_2Ar1(quantize_subband_pmi2(&phy_vars_ue->PHY_measurements,eNB,1,7)));
      break;
    case 50:
      len += sprintf(&buffer[len], "[UE PROC] Subband CQI eNB%d (Ant 0): [%d %d %d %d %d %d %d %d %d] dB\n",
		     eNB,
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][0][0],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][0][1],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][0][2],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][0][3],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][0][4],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][0][5],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][0][6],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][0][7],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][0][8]);
      
      len += sprintf(&buffer[len], "[UE PROC] Subband CQI eNB%d (Ant 1): [%d %d %d %d %d %d %d %d %d] dB\n",
		     eNB,
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][1][0],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][1][1],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][1][2],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][1][3],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][1][4],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][1][5],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][1][6],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][1][7],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][1][8]);
      
      
      len += sprintf(&buffer[len], "[UE PROC] Subband PMI eNB%d (Ant 0): [(%d %d) (%d %d) (%d %d) (%d %d) (%d %d) (%d %d) (%d %d) (%d %d) (%d %d)]\n",
		     eNB,
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][0][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][0][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][1][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][1][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][2][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][2][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][3][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][3][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][4][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][4][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][5][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][5][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][6][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][6][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][7][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][7][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][8][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][8][0]);
      
      len += sprintf(&buffer[len], "[UE PROC] Subband PMI eNB%d (Ant 1): [(%d %d) (%d %d) (%d %d) (%d %d) (%d %d) (%d %d) (%d %d) (%d %d) (%d %d)]\n",
		     eNB,
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][0][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][0][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][1][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][1][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][2][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][2][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][3][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][3][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][4][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][4][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][5][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][5][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][6][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][6][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][7][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][7][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][8][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][8][1]);
      
      len += sprintf(&buffer[len], "[UE PROC] PMI Antenna selection eNB%d : [%d %d %d %d %d %d %d %d %d]\n",
		     eNB,
		     phy_vars_ue->PHY_measurements.selected_rx_antennas[eNB][0],
		     phy_vars_ue->PHY_measurements.selected_rx_antennas[eNB][1],
		     phy_vars_ue->PHY_measurements.selected_rx_antennas[eNB][2],
		     phy_vars_ue->PHY_measurements.selected_rx_antennas[eNB][3],
		     phy_vars_ue->PHY_measurements.selected_rx_antennas[eNB][4],
		     phy_vars_ue->PHY_measurements.selected_rx_antennas[eNB][5],
		     phy_vars_ue->PHY_measurements.selected_rx_antennas[eNB][6],
		     phy_vars_ue->PHY_measurements.selected_rx_antennas[eNB][7],
		     phy_vars_ue->PHY_measurements.selected_rx_antennas[eNB][8]);
      
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      len += sprintf(&buffer[len], "[UE PROC] Quantized PMI eNB %d (max): %jx\n",eNB,pmi2hex_2Ar1(quantize_subband_pmi(&phy_vars_ue->PHY_measurements,eNB,9)));
      len += sprintf(&buffer[len], "[UE PROC] Quantized PMI eNB %d (both): %jx,%jx\n",eNB,
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		     pmi2hex_2Ar1(quantize_subband_pmi2(&phy_vars_ue->PHY_measurements,eNB,0,9)),
		     pmi2hex_2Ar1(quantize_subband_pmi2(&phy_vars_ue->PHY_measurements,eNB,1,9)));
      break;
    case 100:
      len += sprintf(&buffer[len], "[UE PROC] Subband CQI eNB%d (Ant 0): [%d %d %d %d %d %d %d %d %d %d %d %d %d] dB\n",
		     eNB,
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][0][0],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][0][1],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][0][2],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][0][3],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][0][4],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][0][5],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][0][6],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][0][7],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][0][8],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][0][9],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][0][10],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][0][11],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][0][12]);
      
      len += sprintf(&buffer[len], "[UE PROC] Subband CQI eNB%d (Ant 1): [%d %d %d %d %d %d %d %d %d %d %d %d %d] dB\n",
		     eNB,
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][1][0],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][1][1],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][1][2],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][1][3],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][1][4],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][1][5],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][1][6],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][1][7],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][1][8],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][1][9],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][1][10],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][1][11],
		     phy_vars_ue->PHY_measurements.subband_cqi_dB[eNB][1][12]);
      
      
      len += sprintf(&buffer[len], "[UE PROC] Subband PMI eNB%d (Ant 0): [(%d %d) (%d %d) (%d %d) (%d %d) (%d %d) (%d %d) (%d %d) (%d %d) (%d %d) (%d %d) (%d %d) (%d %d) (%d %d)]\n",
		     eNB,
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][0][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][0][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][1][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][1][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][2][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][2][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][3][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][3][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][4][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][4][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][5][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][5][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][6][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][6][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][7][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][7][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][8][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][8][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][9][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][9][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][10][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][10][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][11][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][11][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][12][0],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][12][0]);
      
      len += sprintf(&buffer[len], "[UE PROC] Subband PMI eNB%d (Ant 1): [(%d %d) (%d %d) (%d %d) (%d %d) (%d %d) (%d %d) (%d %d) (%d %d) (%d %d) (%d %d) (%d %d) (%d %d) (%d %d)]\n",
		     eNB,
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][0][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][0][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][1][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][1][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][2][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][2][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][3][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][3][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][4][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][4][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][5][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][5][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][6][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][6][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][7][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][7][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][8][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][8][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][9][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][9][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][10][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][10][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][11][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][11][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_re[eNB][12][1],
		     phy_vars_ue->PHY_measurements.subband_pmi_im[eNB][12][1]);
      
      len += sprintf(&buffer[len], "[UE PROC] PMI Antenna selection eNB%d : [%d %d %d %d %d %d %d %d %d %d %d %d %d]\n",
		     eNB,
		     phy_vars_ue->PHY_measurements.selected_rx_antennas[eNB][0],
		     phy_vars_ue->PHY_measurements.selected_rx_antennas[eNB][1],
		     phy_vars_ue->PHY_measurements.selected_rx_antennas[eNB][2],
		     phy_vars_ue->PHY_measurements.selected_rx_antennas[eNB][3],
		     phy_vars_ue->PHY_measurements.selected_rx_antennas[eNB][4],
		     phy_vars_ue->PHY_measurements.selected_rx_antennas[eNB][5],
		     phy_vars_ue->PHY_measurements.selected_rx_antennas[eNB][6],
		     phy_vars_ue->PHY_measurements.selected_rx_antennas[eNB][7],
		     phy_vars_ue->PHY_measurements.selected_rx_antennas[eNB][8],
		     phy_vars_ue->PHY_measurements.selected_rx_antennas[eNB][9],
		     phy_vars_ue->PHY_measurements.selected_rx_antennas[eNB][10],
		     phy_vars_ue->PHY_measurements.selected_rx_antennas[eNB][11],
		     phy_vars_ue->PHY_measurements.selected_rx_antennas[eNB][12]);
      
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      len += sprintf(&buffer[len], "[UE PROC] Quantized PMI eNB %d (max): %jx\n",eNB,pmi2hex_2Ar1(quantize_subband_pmi(&phy_vars_ue->PHY_measurements,eNB,13)));
      len += sprintf(&buffer[len], "[UE PROC] Quantized PMI eNB %d (both): %jx,%jx\n",eNB,
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		     pmi2hex_2Ar1(quantize_subband_pmi2(&phy_vars_ue->PHY_measurements,eNB,0,13)),
		     pmi2hex_2Ar1(quantize_subband_pmi2(&phy_vars_ue->PHY_measurements,eNB,1,13)));
      break;
    }
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#ifdef OPENAIR2    
      RRC_status = mac_get_rrc_status(phy_vars_ue->Mod_id,0,0);
      len += sprintf(&buffer[len],"[UE PROC] RRC status = %d\n",RRC_status);
#endif
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      len += sprintf(&buffer[len],"[UE PROC] RSRP[0] %d, RSSI %d, RSRQ[0] %d\n",phy_vars_ue->PHY_measurements.rsrp[0], phy_vars_ue->PHY_measurements.rssi, phy_vars_ue->PHY_measurements.rsrq[0]);
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    len += sprintf(&buffer[len], "[UE PROC] Transmission Mode %d (mode1_flag %d)\n",phy_vars_ue->transmission_mode[eNB],phy_vars_ue->lte_frame_parms.mode1_flag);
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    len += sprintf(&buffer[len], "[UE PROC] PBCH err conseq %d, PBCH error total %d, PBCH FER %d\n",
		   phy_vars_ue->lte_ue_pbch_vars[eNB]->pdu_errors_conseq,
		   phy_vars_ue->lte_ue_pbch_vars[eNB]->pdu_errors,
		   phy_vars_ue->lte_ue_pbch_vars[eNB]->pdu_fer);

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    if (phy_vars_ue->transmission_mode[eNB] == 6)
      len += sprintf(&buffer[len], "[UE PROC] Mode 6 Wideband CQI eNB %d : %d dB\n",eNB,phy_vars_ue->PHY_measurements.precoded_cqi_dB[eNB][0]);
    if (phy_vars_ue->dlsch_ue[0] && phy_vars_ue->dlsch_ue[0][0] && phy_vars_ue->dlsch_ue[0][1]) {
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      len += sprintf(&buffer[len], "[UE PROC] Saved PMI for DLSCH eNB %d : %jx (%p)\n",eNB,pmi2hex_2Ar1(phy_vars_ue->dlsch_ue[0][0]->pmi_alloc),phy_vars_ue->dlsch_ue[0][0]);
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      len += sprintf(&buffer[len], "[UE PROC] eNB %d: dl_power_off = %d\n",eNB,phy_vars_ue->dlsch_ue[0][0]->harq_processes[0]->dl_power_off);

      len += sprintf(&buffer[len], "[UE PROC] DL mcs1 (dlsch cw1) %d\n",phy_vars_ue->dlsch_ue[0][0]->harq_processes[0]->mcs);
      len += sprintf(&buffer[len], "[UE PROC] DL mcs2 (dlsch cw2) %d\n",phy_vars_ue->dlsch_ue[0][1]->harq_processes[0]->mcs);
    }
    len += sprintf(&buffer[len], "[UE PROC] DLSCH Total %d, Error %d, FER %d\n",phy_vars_ue->dlsch_received[0],phy_vars_ue->dlsch_errors[0],phy_vars_ue->dlsch_fer[0]);
    len += sprintf(&buffer[len], "[UE PROC] DLSCH (SI) Total %d, Error %d\n",phy_vars_ue->dlsch_SI_received[0],phy_vars_ue->dlsch_SI_errors[0]);
    len += sprintf(&buffer[len], "[UE PROC] DLSCH (RA) Total %d, Error %d\n",phy_vars_ue->dlsch_ra_received[0],phy_vars_ue->dlsch_ra_errors[0]);
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#ifdef Rel10
    int i=0;
    //len += sprintf(&buffer[len], "[UE PROC] MCH  Total %d\n", phy_vars_ue->dlsch_mch_received[0]);
     for(i=0; i <phy_vars_ue->lte_frame_parms.num_MBSFN_config; i++ ){
      len += sprintf(&buffer[len], "[UE PROC] MCH (MCCH MBSFN %d) Total %d, Error %d, Trials %d\n",
		     i, phy_vars_ue->dlsch_mcch_received[i][0],phy_vars_ue->dlsch_mcch_errors[i][0],phy_vars_ue->dlsch_mcch_trials[i][0]);   
      len += sprintf(&buffer[len], "[UE PROC] MCH (MTCH MBSFN %d) Total %d, Error %d, Trials %d\n",
		     i, phy_vars_ue->dlsch_mtch_received[i][0],phy_vars_ue->dlsch_mtch_errors[i][0],phy_vars_ue->dlsch_mtch_trials[i][0]);  
    }
#endif 
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    len += sprintf(&buffer[len], "[UE PROC] DLSCH Bitrate %dkbps\n",(phy_vars_ue->bitrate[0]/1000));
    len += sprintf(&buffer[len], "[UE PROC] Total Received Bits %dkbits\n",(phy_vars_ue->total_received_bits[0]/1000));
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    len += sprintf(&buffer[len], "[UE PROC] IA receiver %d\n",openair_daq_vars.use_ia_receiver);
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  }

  }
  else {
    len += sprintf(&buffer[len], "[UE PROC] Frame count: %d, RSSI %3.2f dB (%d dB, %d dB), N0 %3.2f dB (%d dB, %d dB)\n",
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		   phy_vars_ue->frame_rx,
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		   10*log10(phy_vars_ue->PHY_measurements.rssi),
		   phy_vars_ue->PHY_measurements.rx_power_dB[0][0],
		   phy_vars_ue->PHY_measurements.rx_power_dB[0][1],
		   10*log10(phy_vars_ue->PHY_measurements.n0_power_tot),
		   phy_vars_ue->PHY_measurements.n0_power_dB[0],
		   phy_vars_ue->PHY_measurements.n0_power_dB[1]);
#ifdef EXMIMO
    phy_vars_ue->rx_total_gain_dB = ((int)(10*log10(phy_vars_ue->PHY_measurements.rssi)))-input_level_dBm;
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    len += sprintf(&buffer[len], "[UE PROC] rxg_mode %d, input level (set by user) %d dBm, VGA gain %d dB ==> total gain %3.2f dB, noise figure %3.2f dB\n",
		   openair0_cfg[0].rxg_mode[0],
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		   input_level_dBm, 
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		   (int)openair0_cfg[0].rx_gain[0],
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		   10*log10(phy_vars_ue->PHY_measurements.rssi)-input_level_dBm,
		   10*log10(phy_vars_ue->PHY_measurements.n0_power_tot)-phy_vars_ue->rx_total_gain_dB+105);
#endif
  }

  len += sprintf(&buffer[len],"EOF\n");
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  len += sprintf(&buffer[len],"\0");
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  return len;
} // is_clusterhead

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int dump_eNB_stats(PHY_VARS_eNB *phy_vars_eNB, char* buffer, int length) {

  unsigned int success=0;
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  uint8_t eNB,UE_id,i,j,number_of_cards_l=1;
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  uint32_t ulsch_errors=0,dlsch_errors=0;
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  uint32_t ulsch_round_attempts[4]={0,0,0,0},ulsch_round_errors[4]={0,0,0,0};
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  uint32_t dlsch_round_attempts[4]={0,0,0,0},dlsch_round_errors[4]={0,0,0,0};
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  uint32_t UE_id_mac, RRC_status;
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  if (phy_vars_eNB==NULL)
    return 0;

  int len = length;

  //  if(phy_vars_eNB->frame==0){
  phy_vars_eNB->total_dlsch_bitrate = 0;//phy_vars_eNB->eNB_UE_stats[UE_id].dlsch_bitrate + phy_vars_eNB->total_dlsch_bitrate;
  phy_vars_eNB->total_transmitted_bits = 0;// phy_vars_eNB->eNB_UE_stats[UE_id].total_transmitted_bits +  phy_vars_eNB->total_transmitted_bits;
  phy_vars_eNB->total_system_throughput = 0;//phy_vars_eNB->eNB_UE_stats[UE_id].total_transmitted_bits + phy_vars_eNB->total_system_throughput;
  // }

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  for (eNB=0;eNB<number_of_cards_l;eNB++) {
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    len += sprintf(&buffer[len],"[eNB PROC] eNB %d/%d Frame %d: RX Gain %d dB, I0 %d dBm (%d,%d) dB \n",
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		   eNB,number_of_cards_l,
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		   phy_vars_eNB->proc[0].frame_tx,
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		   phy_vars_eNB->rx_total_gain_eNB_dB,
		   phy_vars_eNB->PHY_measurements_eNB[eNB].n0_power_tot_dBm,
		   phy_vars_eNB->PHY_measurements_eNB[eNB].n0_power_dB[0],
		   phy_vars_eNB->PHY_measurements_eNB[eNB].n0_power_dB[1]);
    
    len += sprintf(&buffer[len],"[eNB PROC] Subband I0: ");
    for (i=0;i<25;i++)
      len += sprintf(&buffer[len],"%2d ",
		     phy_vars_eNB->PHY_measurements_eNB[eNB].n0_subband_power_tot_dB[i]);
    len += sprintf(&buffer[len],"\n");
    len += sprintf(&buffer[len],"\n[eNB PROC] PERFORMANCE PARAMETERS\n");
    /*
    len += sprintf(&buffer[len],"[eNB PROC] Total DLSCH Bitrate for the System %dkbps\n",((phy_vars_eNB->eNB_UE_stats[0].dlsch_bitrate + phy_vars_eNB->eNB_UE_stats[1].dlsch_bitrate)/1000));
    len += sprintf(&buffer[len],"[eNB PROC] Total Bits successfully transitted %dKbits in %dframe(s)\n",((phy_vars_eNB->eNB_UE_stats[0].total_transmitted_bits + phy_vars_eNB->eNB_UE_stats[1].total_transmitted_bits)/1000),phy_vars_eNB->frame+1);
    len += sprintf(&buffer[len],"[eNB PROC] Average System Throughput %dKbps\n",(phy_vars_eNB->eNB_UE_stats[0].total_transmitted_bits + phy_vars_eNB->eNB_UE_stats[1].total_transmitted_bits)/((phy_vars_eNB->frame+1)*10));
    */

    for (UE_id=0;UE_id<NUMBER_OF_UE_MAX;UE_id++) {
#ifdef OPENAIR2
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      if (phy_vars_eNB->dlsch_eNB[(uint8_t)UE_id][0]->rnti>0) {
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	phy_vars_eNB->total_dlsch_bitrate = phy_vars_eNB->eNB_UE_stats[UE_id].dlsch_bitrate + phy_vars_eNB->total_dlsch_bitrate;
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	phy_vars_eNB->total_transmitted_bits = phy_vars_eNB->eNB_UE_stats[UE_id].total_TBS + phy_vars_eNB->total_transmitted_bits;
	//phy_vars_eNB->total_system_throughput = phy_vars_eNB->eNB_UE_stats[UE_id].total_transmitted_bits + phy_vars_eNB->total_system_throughput;
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	if (phy_vars_eNB->eNB_UE_stats[UE_id].mode == PUSCH) 
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	  for (i=0;i<8;i++)
	    success = success + (phy_vars_eNB->eNB_UE_stats[UE_id].dlsch_trials[i][0] - phy_vars_eNB->eNB_UE_stats[UE_id].dlsch_l2_errors[i]);
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      }
#else
      phy_vars_eNB->total_dlsch_bitrate = phy_vars_eNB->eNB_UE_stats[UE_id].dlsch_bitrate + phy_vars_eNB->total_dlsch_bitrate;
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      phy_vars_eNB->total_transmitted_bits = phy_vars_eNB->eNB_UE_stats[UE_id].total_TBS +  phy_vars_eNB->total_transmitted_bits;
      //phy_vars_eNB->total_system_throughput = phy_vars_eNB->eNB_UE_stats[UE_id].total_transmitted_bits + phy_vars_eNB->total_system_throughput;
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      for (i=0;i<8;i++)
	success = success + (phy_vars_eNB->eNB_UE_stats[UE_id].dlsch_trials[i][0] - phy_vars_eNB->eNB_UE_stats[UE_id].dlsch_l2_errors[i]);
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#endif
    }

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    len += sprintf(&buffer[len],"[eNB PROC] Total DLSCH bits successfully transmitted %d kbits in %d frame(s)\n",(phy_vars_eNB->total_transmitted_bits/1000),phy_vars_eNB->proc[0].frame_tx+1);
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    len += sprintf(&buffer[len],"[eNB PROC] Total DLSCH average system throughput %d kbps\n",(phy_vars_eNB->total_dlsch_bitrate/1000));
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    len += sprintf(&buffer[len],"[eNB PROC] Total DLSCH successful transmissions %d in %d frame(s)\n",success,phy_vars_eNB->proc[0].frame_tx+1);
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    //len += sprintf(&buffer[len],"[eNB PROC] FULL MU-MIMO Transmissions/Total Transmissions = %d/%d\n",phy_vars_eNB->FULL_MUMIMO_transmissions,phy_vars_eNB->check_for_total_transmissions);
    //len += sprintf(&buffer[len],"[eNB PROC] MU-MIMO Transmissions/Total Transmissions = %d/%d\n",phy_vars_eNB->check_for_MUMIMO_transmissions,phy_vars_eNB->check_for_total_transmissions);
    //len += sprintf(&buffer[len],"[eNB PROC] SU-MIMO Transmissions/Total Transmissions = %d/%d\n",phy_vars_eNB->check_for_SUMIMO_transmissions,phy_vars_eNB->check_for_total_transmissions);
     
  }
  
  len += sprintf(&buffer[len],"\n");

  for (UE_id=0;UE_id<NUMBER_OF_UE_MAX;UE_id++) {
#ifdef OPENAIR2
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    if (phy_vars_eNB->dlsch_eNB[(uint8_t)UE_id][0]->rnti>0) {
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#endif
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      len += sprintf(&buffer[len],"[eNB PROC] UE %d (%x) Power: (%d,%d) dB, RSSI: (%d,%d) dBm, Sector %d\n", 
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		     UE_id,
		     phy_vars_eNB->eNB_UE_stats[UE_id].crnti,
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		     dB_fixed(phy_vars_eNB->lte_eNB_pusch_vars[UE_id]->ulsch_power[0]),
		     dB_fixed(phy_vars_eNB->lte_eNB_pusch_vars[UE_id]->ulsch_power[1]),
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		     phy_vars_eNB->eNB_UE_stats[UE_id].UL_rssi[0],
		     phy_vars_eNB->eNB_UE_stats[UE_id].UL_rssi[1],
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		     phy_vars_eNB->eNB_UE_stats[UE_id].sector);

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    for(i=0;i<8;i++)
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      len+= sprintf(&buffer[len],"   harq %d: DL mcs %d, UL mcs %d, UL rb %d, delta_TF %d\n",
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		    i,
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		    phy_vars_eNB->dlsch_eNB[(uint8_t)UE_id][0]->harq_processes[i]->mcs,
		    phy_vars_eNB->ulsch_eNB[(uint8_t)UE_id]->harq_processes[i]->mcs,
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		    phy_vars_eNB->ulsch_eNB[(uint8_t)UE_id]->harq_processes[i]->nb_rb,
		    phy_vars_eNB->ulsch_eNB[(uint8_t)UE_id]->harq_processes[i]->delta_TF);
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      len += sprintf(&buffer[len],"[eNB PROC] Wideband CQI: (%d,%d) dB\n",
		     phy_vars_eNB->PHY_measurements_eNB[eNB].wideband_cqi_dB[UE_id][0],
		     phy_vars_eNB->PHY_measurements_eNB[eNB].wideband_cqi_dB[UE_id][1]);
      
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      len += sprintf(&buffer[len],"[eNB PROC] Subband CQI:    ");
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      for (i=0;i<25;i++)
	len += sprintf(&buffer[len],"%2d ",
		       phy_vars_eNB->PHY_measurements_eNB[eNB].subband_cqi_tot_dB[UE_id][i]);
      len += sprintf(&buffer[len],"\n");
      
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      len += sprintf(&buffer[len],"[eNB PROC] DL TM %d, DL_cqi %d, DL_pmi_single %jx\n",
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		     phy_vars_eNB->transmission_mode[UE_id],
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		     phy_vars_eNB->eNB_UE_stats[UE_id].DL_cqi[0],
		     pmi2hex_2Ar1(phy_vars_eNB->eNB_UE_stats[UE_id].DL_pmi_single));
      
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      len += sprintf(&buffer[len],"[eNB PROC] DL Subband CQI: ");
      for (i=0;i<13;i++)
	len += sprintf(&buffer[len],"%2d ",
		       phy_vars_eNB->eNB_UE_stats[UE_id].DL_subband_cqi[0][i]);
      len += sprintf(&buffer[len],"\n");
      
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      len += sprintf(&buffer[len],"[eNB PROC] Timing advance %d samples (%d 16Ts), update %d\n",
		     phy_vars_eNB->eNB_UE_stats[UE_id].UE_timing_offset,
		     phy_vars_eNB->eNB_UE_stats[UE_id].UE_timing_offset>>2,
		     phy_vars_eNB->eNB_UE_stats[UE_id].timing_advance_update);
      
      len += sprintf(&buffer[len],"[eNB PROC] Mode = %s(%d)\n",
		     mode_string[phy_vars_eNB->eNB_UE_stats[UE_id].mode],
		     phy_vars_eNB->eNB_UE_stats[UE_id].mode);
#ifdef OPENAIR2
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      UE_id_mac = find_UE_id(phy_vars_eNB->Mod_id,phy_vars_eNB->dlsch_eNB[(uint8_t)UE_id][0]->rnti);
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      if (UE_id_mac != -1) {
          RRC_status = mac_get_rrc_status(phy_vars_eNB->Mod_id,1,UE_id_mac);
          len += sprintf(&buffer[len],"[eNB PROC] UE_id_mac = %d, RRC status = %d\n",UE_id_mac,RRC_status);
      } else
          len += sprintf(&buffer[len],"[eNB PROC] UE_id_mac = -1\n");
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#endif
      
#ifdef OPENAIR2
      if (phy_vars_eNB->eNB_UE_stats[UE_id].mode == PUSCH) {
#endif
	len += sprintf(&buffer[len],"[eNB PROC] SR received/total: %d/%d (diff %d)\n",
		       phy_vars_eNB->eNB_UE_stats[UE_id].sr_received,
		       phy_vars_eNB->eNB_UE_stats[UE_id].sr_total,
		       phy_vars_eNB->eNB_UE_stats[UE_id].sr_total-phy_vars_eNB->eNB_UE_stats[UE_id].sr_received);
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	ulsch_errors = 0;
	for (j=0;j<4;j++) {
	  ulsch_round_attempts[j]=0;
	  ulsch_round_errors[j]=0;
	}
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	len += sprintf(&buffer[len],"[eNB PROC] ULSCH errors/attempts per harq (per round): \n");
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	for (i=0;i<8;i++) {
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	  len += sprintf(&buffer[len],"   harq %d: %d/%d (fer %d) (%d/%d, %d/%d, %d/%d, %d/%d)\n",
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			 i,
			 phy_vars_eNB->eNB_UE_stats[UE_id].ulsch_errors[i],
			 phy_vars_eNB->eNB_UE_stats[UE_id].ulsch_decoding_attempts[i][0],
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			 phy_vars_eNB->eNB_UE_stats[UE_id].ulsch_round_fer[i][0],
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			 phy_vars_eNB->eNB_UE_stats[UE_id].ulsch_round_errors[i][0],
			 phy_vars_eNB->eNB_UE_stats[UE_id].ulsch_decoding_attempts[i][0],
			 phy_vars_eNB->eNB_UE_stats[UE_id].ulsch_round_errors[i][1],
			 phy_vars_eNB->eNB_UE_stats[UE_id].ulsch_decoding_attempts[i][1],
			 phy_vars_eNB->eNB_UE_stats[UE_id].ulsch_round_errors[i][2],
			 phy_vars_eNB->eNB_UE_stats[UE_id].ulsch_decoding_attempts[i][2],
			 phy_vars_eNB->eNB_UE_stats[UE_id].ulsch_round_errors[i][3],
			 phy_vars_eNB->eNB_UE_stats[UE_id].ulsch_decoding_attempts[i][3]);
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	  ulsch_errors+=phy_vars_eNB->eNB_UE_stats[UE_id].ulsch_errors[i];
	  for (j=0;j<4;j++) {
	    ulsch_round_attempts[j]+=phy_vars_eNB->eNB_UE_stats[UE_id].ulsch_decoding_attempts[i][j];
	    ulsch_round_errors[j]+=phy_vars_eNB->eNB_UE_stats[UE_id].ulsch_round_errors[i][j];
	  }
	}
	len += sprintf(&buffer[len],"[eNB PROC] ULSCH errors/attempts total %d/%d (%d/%d, %d/%d, %d/%d, %d/%d): \n",
		       ulsch_errors,ulsch_round_attempts[0],
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		       ulsch_round_errors[0],ulsch_round_attempts[0],
		       ulsch_round_errors[1],ulsch_round_attempts[1],
		       ulsch_round_errors[2],ulsch_round_attempts[2],
		       ulsch_round_errors[3],ulsch_round_attempts[3]);
 
	dlsch_errors = 0;
	for (j=0;j<4;j++) {
	  dlsch_round_attempts[j]=0;
	  dlsch_round_errors[j]=0;
	}
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	len += sprintf(&buffer[len],"[eNB PROC] DLSCH errors/attempts per harq (per round): \n");
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	for (i=0;i<8;i++) {
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	  len += sprintf(&buffer[len],"   harq %d: %d/%d (%d/%d/%d, %d/%d/%d, %d/%d/%d, %d/%d/%d)\n",
			 i,
			 phy_vars_eNB->eNB_UE_stats[UE_id].dlsch_l2_errors[i],
			 phy_vars_eNB->eNB_UE_stats[UE_id].dlsch_trials[i][0],
			 phy_vars_eNB->eNB_UE_stats[UE_id].dlsch_ACK[i][0],
			 phy_vars_eNB->eNB_UE_stats[UE_id].dlsch_NAK[i][0],
			 phy_vars_eNB->eNB_UE_stats[UE_id].dlsch_trials[i][0],
			 phy_vars_eNB->eNB_UE_stats[UE_id].dlsch_ACK[i][1],
			 phy_vars_eNB->eNB_UE_stats[UE_id].dlsch_NAK[i][1],
			 phy_vars_eNB->eNB_UE_stats[UE_id].dlsch_trials[i][1],
			 phy_vars_eNB->eNB_UE_stats[UE_id].dlsch_ACK[i][2],
			 phy_vars_eNB->eNB_UE_stats[UE_id].dlsch_NAK[i][2],
			 phy_vars_eNB->eNB_UE_stats[UE_id].dlsch_trials[i][2],
			 phy_vars_eNB->eNB_UE_stats[UE_id].dlsch_ACK[i][3],
			 phy_vars_eNB->eNB_UE_stats[UE_id].dlsch_NAK[i][3],
			 phy_vars_eNB->eNB_UE_stats[UE_id].dlsch_trials[i][3]);
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	  dlsch_errors+=phy_vars_eNB->eNB_UE_stats[UE_id].dlsch_l2_errors[i];
	  for (j=0;j<4;j++) {
	    dlsch_round_attempts[j]+=phy_vars_eNB->eNB_UE_stats[UE_id].dlsch_trials[i][j];
	    dlsch_round_errors[j]+=phy_vars_eNB->eNB_UE_stats[UE_id].dlsch_NAK[i][j];
	  }
	}
	len += sprintf(&buffer[len],"[eNB PROC] DLSCH errors/attempts total %d/%d (%d/%d, %d/%d, %d/%d, %d/%d): \n",
		       dlsch_errors,dlsch_round_attempts[0],
		       dlsch_round_errors[0],dlsch_round_attempts[0],
		       dlsch_round_errors[1],dlsch_round_attempts[1],
		       dlsch_round_errors[2],dlsch_round_attempts[2],
		       dlsch_round_errors[3],dlsch_round_attempts[3]);

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	len += sprintf(&buffer[len],"[eNB PROC] DLSCH total bits from MAC: %dkbit\n",(phy_vars_eNB->eNB_UE_stats[UE_id].total_TBS_MAC)/1000);
	len += sprintf(&buffer[len],"[eNB PROC] DLSCH total bits ack'ed: %dkbit\n",(phy_vars_eNB->eNB_UE_stats[UE_id].total_TBS)/1000);
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	len += sprintf(&buffer[len],"[eNB PROC] DLSCH Average throughput (100 frames): %dkbps\n",(phy_vars_eNB->eNB_UE_stats[UE_id].dlsch_bitrate/1000));
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	len += sprintf(&buffer[len],"[eNB PROC] Transmission Mode %d\n",phy_vars_eNB->transmission_mode[UE_id]);
 
	if(phy_vars_eNB->transmission_mode[UE_id] == 5){
	  if(phy_vars_eNB->mu_mimo_mode[UE_id].dl_pow_off == 0)
	    len += sprintf(&buffer[len],"[eNB PROC] ****UE %d is in MU-MIMO mode****\n",UE_id);
	  else if(phy_vars_eNB->mu_mimo_mode[UE_id].dl_pow_off == 1)
	    len += sprintf(&buffer[len],"[eNB PROC] ****UE %d is in SU-MIMO mode****\n",UE_id);
	  else
	    len += sprintf(&buffer[len],"[eNB PROC] ****UE %d is not scheduled****\n",UE_id);
	}
	len += sprintf(&buffer[len],"[eNB PROC] RB Allocation on Sub-bands: ");
	
    //	for (j=0;j< mac_xface->lte_frame_parms->N_RBGS;j++)
	for (j=0;j<7;j++)
	  len += sprintf(&buffer[len],"%d ",
			 phy_vars_eNB->mu_mimo_mode[UE_id].rballoc_sub[j]);
	len += sprintf(&buffer[len],"\n");
	len += sprintf(&buffer[len],"[eNB PROC] Total Number of Allocated PRBs = %d\n",phy_vars_eNB->mu_mimo_mode[UE_id].pre_nb_available_rbs);
	
#ifdef OPENAIR2
      }
    }
#endif
    len += sprintf(&buffer[len],"\n");
  }
  len += sprintf(&buffer[len],"EOF\n");
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  len += sprintf(&buffer[len],"\0");
  
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  return len;
}