if4_tools.c 11.9 KB
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/*******************************************************************************
    OpenAirInterface
    Copyright(c) 1999 - 2014 Eurecom

    OpenAirInterface is free software: you can redistribute it and/or modify
    it under the terms of the GNU General Public License as published by
    the Free Software Foundation, either version 3 of the License, or
    (at your option) any later version.


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

    You should have received a copy of the GNU General Public License
    along with OpenAirInterface.The full GNU General Public License is
   included in this distribution in the file called "COPYING". If not,
   see <http://www.gnu.org/licenses/>.

  Contact Information
  OpenAirInterface Admin: openair_admin@eurecom.fr
  OpenAirInterface Tech : openair_tech@eurecom.fr
  OpenAirInterface Dev  : openair4g-devel@lists.eurecom.fr

  Address      : Eurecom, Campus SophiaTech, 450 Route des Chappes, CS 50193 - 06904 Biot Sophia Antipolis cedex, FRANCE

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

/*! \file PHY/LTE_TRANSPORT/if4_tools.c
* \brief 
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* \author Fredrik Skretteberg, Tobias Schuster, Mauricio Gunther, S. Sandeep Kumar, Raymond Knopp
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* \date 2016
* \version 0.1
* \company Eurecom
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* \email: knopp@eurecom.fr 
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* \note
* \warning
*/

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#include "PHY/defs.h"
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#include "PHY/LTE_TRANSPORT/if4_tools.h"
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#include "PHY/TOOLS/ALAW/alaw_lut.h"
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#include "targets/ARCH/ETHERNET/USERSPACE/LIB/if_defs.h"


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// --- Careful to handle buffer memory --- RAW/UDP modes --- PRACH variables and data
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void send_IF4(PHY_VARS_eNB *eNB, int frame, int subframe, uint16_t packet_type, int k) {
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  LTE_DL_FRAME_PARMS *fp = &eNB->frame_parms;
  int32_t **txdataF = eNB->common_vars.txdataF[0];
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  int32_t **rxdataF = eNB->common_vars.rxdataF[0];
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  int16_t **rxsigF = eNB->prach_vars.rxsigF;  
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  uint16_t symbol_id=0, element_id=0;
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  uint16_t db_fulllength, db_halflength; 
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  int slotoffsetF=0, blockoffsetF=0; 
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  void *tx_buffer=NULL;
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  int16_t *data_block=NULL;
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  if (packet_type == IF4_PDLFFT) {
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    db_fulllength = 12*fp->N_RB_DL;
    db_halflength = (db_fulllength)>>1;
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    slotoffsetF = (subframe)*(fp->ofdm_symbol_size)*((fp->Ncp==1) ? 12 : 14) + 1;
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    blockoffsetF = slotoffsetF + fp->ofdm_symbol_size - db_halflength; 
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    tx_buffer = malloc(MAC_HEADER_SIZE_BYTES + sizeof_IF4_header_t + db_fulllength*sizeof(int16_t));
    IF4_header_t *dl_header = (IF4_header_t *)(tx_buffer + MAC_HEADER_SIZE_BYTES);
    data_block = (int16_t*)(tx_buffer + MAC_HEADER_SIZE_BYTES + sizeof_IF4_header_t);
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    gen_IF4_dl_header(dl_header, frame, subframe);
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    for (symbol_id=0; symbol_id<fp->symbols_per_tti; symbol_id++) {
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      // Do compression of the two parts and generate data blocks			
      for (element_id=0; element_id<db_halflength; element_id++) {
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        data_block[element_id]  = lin2alaw[ (txdataF[0][blockoffsetF+element_id] & 0xffff) + 32768 ];          
        data_block[element_id] |= lin2alaw[ (txdataF[0][blockoffsetF+element_id]>>16) + 32768 ]<<8;  
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        data_block[element_id+db_halflength]  = lin2alaw[ (txdataF[0][slotoffsetF+element_id] & 0xffff) + 32768 ];     
        data_block[element_id+db_halflength] |= lin2alaw[ (txdataF[0][slotoffsetF+element_id]>>16) + 32768 ]<<8;  
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      }
				 		
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      // Update information in generated packet
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      dl_header->frame_status &= ~(0x000f<<26);
      dl_header->frame_status |= (symbol_id&0x000f)<<26; 
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      // Write the packet to the fronthaul
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      if ((eNB->ifdevice.trx_write_func(&eNB->ifdevice,
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                                        symbol_id,
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                                        &tx_buffer,
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                                        db_fulllength,
      			                            1,
                                        IF4_PDLFFT)) < 0) {
        perror("ETHERNET write for IF4_PDLFFT\n");
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      }
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      slotoffsetF  += fp->ofdm_symbol_size;
      blockoffsetF += fp->ofdm_symbol_size;    
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    }
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  } else if (packet_type == IF4_PULFFT) {
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    db_fulllength = 12*fp->N_RB_UL;
    db_halflength = (db_fulllength)>>1;
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    slotoffsetF = (subframe)*(fp->ofdm_symbol_size)*((fp->Ncp==1) ? 12 : 14) + 1;
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    blockoffsetF = slotoffsetF + fp->ofdm_symbol_size - db_halflength; 
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    tx_buffer = malloc(MAC_HEADER_SIZE_BYTES + sizeof_IF4_header_t + db_fulllength*sizeof(int16_t));
    IF4_header_t *ul_header = (IF4_header_t *)(tx_buffer + MAC_HEADER_SIZE_BYTES);
    data_block = (int16_t*)(tx_buffer + MAC_HEADER_SIZE_BYTES + sizeof_IF4_header_t);
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    gen_IF4_ul_header(ul_header, frame, subframe);
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    for (symbol_id=0; symbol_id<fp->symbols_per_tti; symbol_id++) {			
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      // Do compression of the two parts and generate data blocks - rxdataF		
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      for (element_id=0; element_id<db_halflength; element_id++) {
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        data_block[element_id]  = lin2alaw[ (rxdataF[0][blockoffsetF+element_id] & 0xffff) + 32768 ];          
        data_block[element_id] |= lin2alaw[ (rxdataF[0][blockoffsetF+element_id]>>16) + 32768 ]<<8;  
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        data_block[element_id+db_halflength]  = lin2alaw[ (rxdataF[0][slotoffsetF+element_id] & 0xffff) + 32768 ];     
        data_block[element_id+db_halflength] |= lin2alaw[ (rxdataF[0][slotoffsetF+element_id]>>16) + 32768 ]<<8;  
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      }
       			
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      // Update information in generated packet
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      ul_header->frame_status &= ~(0x000f<<26);
      ul_header->frame_status |= (symbol_id&0x000f)<<26; 
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      // Write the packet(s) to the fronthaul 
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      if ((eNB->ifdevice.trx_write_func(&eNB->ifdevice,
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                                        symbol_id,
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                                        &tx_buffer,
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                                        db_fulllength,
      			                            1,
                                        IF4_PULFFT)) < 0) {
        perror("ETHERNET write for IF4_PULFFT\n");
      }
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      slotoffsetF  += fp->ofdm_symbol_size;
      blockoffsetF += fp->ofdm_symbol_size;    
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    }		
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  } else if (packet_type == IF4_PRACH) {
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    // FIX: hard coded prach samples length
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    db_fulllength = 839*2;
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    tx_buffer = malloc(MAC_HEADER_SIZE_BYTES + sizeof_IF4_header_t + db_fulllength*sizeof(int16_t));
    IF4_header_t *prach_header = (IF4_header_t *)(tx_buffer + MAC_HEADER_SIZE_BYTES);
    data_block = (int16_t*)(tx_buffer + MAC_HEADER_SIZE_BYTES + sizeof_IF4_header_t);
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    gen_IF4_prach_header(prach_header, frame, subframe);
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    // Generate uncompressed data blocks
    memcpy(data_block, (rxsigF[0]+k), db_fulllength*sizeof(int16_t));
    			
    //for (element_id=0; element_id<db_fulllength; element_id++) {
    //  data_block[element_id]  = rxsigF[0][prachoffsetF];          
    //  data_block[element_id] |= rxsigF[0][prachoffsetF+1]<<16;
    //  prachoffsetF += 2;  
    //}
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    // Write the packet to the fronthaul
    if ((eNB->ifdevice.trx_write_func(&eNB->ifdevice,
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                                      symbol_id,
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                                      &tx_buffer,
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                                      db_fulllength,
                                      1,
                                      IF4_PRACH)) < 0) {
      perror("ETHERNET write for IF4_PRACH\n");
    }      
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  } else {    
    AssertFatal(1==0, "send_IF4 - Unknown packet_type %x", packet_type);     
  }
  
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  free(tx_buffer);
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  return;  		    
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}
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void recv_IF4(PHY_VARS_eNB *eNB, int *frame, int *subframe, uint16_t *packet_type, uint32_t *symbol_number) {
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  LTE_DL_FRAME_PARMS *fp = &eNB->frame_parms;
  int32_t **txdataF = eNB->common_vars.txdataF[0];
  int32_t **rxdataF = eNB->common_vars.rxdataF[0];
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  int16_t **rxsigF = eNB->prach_vars.rxsigF;  
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  uint16_t element_id;
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  uint16_t db_fulllength, db_halflength; 
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  int slotoffsetF=0, blockoffsetF=0; 
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  if (eNB->node_function == NGFI_RRU_IF4) {
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    db_fulllength = (12*fp->N_RB_DL); 
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  } else {
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    db_fulllength = (12*fp->N_RB_UL);     
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  }  
  db_halflength = db_fulllength>>1;

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  void *rx_buffer=NULL;
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  IF4_header_t *packet_header=NULL;
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  int16_t *data_block=NULL;
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  // Read packet(s) from the fronthaul    
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  if (eNB->ifdevice.trx_read_func(&eNB->ifdevice,
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                                  (int64_t*) packet_type,
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                                  &rx_buffer,
                                  db_fulllength,
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                                  0) < 0) {
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    perror("ETHERNET read");
  }
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  packet_header = (IF4_header_t*) (rx_buffer+MAC_HEADER_SIZE_BYTES);
  data_block = (int16_t*) (rx_buffer+MAC_HEADER_SIZE_BYTES+sizeof_IF4_header_t);
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  *frame = ((packet_header->frame_status)>>6)&0xffff;
  *subframe = ((packet_header->frame_status)>>22)&0x000f; 
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  if (*packet_type == IF4_PDLFFT) {          
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    // Calculate from received packet
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    slotoffsetF = (*subframe)*(fp->ofdm_symbol_size)*((fp->Ncp==1) ? 12 : 14) + 1;
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    blockoffsetF = slotoffsetF + fp->ofdm_symbol_size - db_halflength; 
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    // Do decompression of the two parts and generate txdataF			
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    for (element_id=0; element_id<db_halflength; element_id++) {
      txdataF[0][blockoffsetF+element_id]  = alaw2lin[ (data_block[element_id] & 0xff) ];
      txdataF[0][blockoffsetF+element_id] |= alaw2lin[ (data_block[element_id]>>8) ]<<16;

      txdataF[0][slotoffsetF+element_id]  = alaw2lin[ (data_block[element_id+db_halflength] & 0xff) ];
      txdataF[0][slotoffsetF+element_id] |= alaw2lin[ (data_block[element_id+db_halflength]>>8) ]<<16;
    }
		
    // Find and return symbol_number		 		
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    *symbol_number = ((packet_header->frame_status)>>26)&0x000f;         
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  } else if (*packet_type == IF4_PULFFT) {         
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    // Calculate from received packet
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    slotoffsetF = (*subframe)*(fp->ofdm_symbol_size)*((fp->Ncp==1) ? 12 : 14) + 1;
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    blockoffsetF = slotoffsetF + fp->ofdm_symbol_size - db_halflength; 
    
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    // Do decompression of the two parts and generate rxdataF
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    for (element_id=0; element_id<db_halflength; element_id++) {
      rxdataF[0][blockoffsetF+element_id]  = alaw2lin[ (data_block[element_id] & 0xff) ];
      rxdataF[0][blockoffsetF+element_id] |= alaw2lin[ (data_block[element_id]>>8) ]<<16;

      rxdataF[0][slotoffsetF+element_id]  = alaw2lin[ (data_block[element_id+db_halflength] & 0xff) ];
      rxdataF[0][slotoffsetF+element_id] |= alaw2lin[ (data_block[element_id+db_halflength]>>8) ]<<16;
    }
		
    // Find and return symbol_number		 		
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    *symbol_number = ((packet_header->frame_status)>>26)&0x000f;         
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  } else if (*packet_type == IF4_PRACH) {    
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    // FIX: hard coded prach samples length
    db_fulllength = 839*2;
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    // Generate uncompressed data blocks
    memcpy((rxsigF[0]+slotoffsetF), data_block, db_fulllength*sizeof(int16_t));
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  } else {
    AssertFatal(1==0, "recv_IF4 - Unknown packet_type %x", *packet_type);            
  }
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  free(rx_buffer);
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  return;   
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}

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void gen_IF4_dl_header(IF4_header_t *dl_packet, int frame, int subframe) {      
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  // Set Type and Sub-Type
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  dl_packet->type = IF4_PACKET_TYPE; 
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  dl_packet->sub_type = IF4_PDLFFT;
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  // Reset frame status 
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  dl_packet->rsvd = 0;
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  // Set frame status
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  dl_packet->frame_status = 0;
  dl_packet->frame_status |= (frame&0xffff)<<6;
  dl_packet->frame_status |= (subframe&0x000f)<<22;
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}

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void gen_IF4_ul_header(IF4_header_t *ul_packet, int frame, int subframe) {  
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  // Set Type and Sub-Type
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  ul_packet->type = IF4_PACKET_TYPE; 
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  ul_packet->sub_type = IF4_PULFFT;
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  // Leave reserved as it is 
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  ul_packet->rsvd = 0;
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  // Set frame status
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  ul_packet->frame_status = 0;
  ul_packet->frame_status |= (frame&0xffff)<<6;
  ul_packet->frame_status |= (subframe&0x000f)<<22;
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}

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void gen_IF4_prach_header(IF4_header_t *prach_packet, int frame, int subframe) {
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  // Set Type and Sub-Type
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  prach_packet->type = IF4_PACKET_TYPE; 
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  prach_packet->sub_type = IF4_PRACH;
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  // Leave reserved as it is 
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  prach_packet->rsvd = 0;
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  // Set LTE Prach configuration
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  prach_packet->frame_status = 0;
  prach_packet->frame_status |= (frame&0xffff)<<6;
  prach_packet->frame_status |= (subframe&0x000f)<<22;
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}