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gnss-sdr/drivers/gr-gn3s/lib/gn3s_source.cc

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/*----------------------------------------------------------------------------------------------*/
/*! \file gps_source.cpp
//
// FILENAME: gps_source.cpp
//
// DESCRIPTION: Implements member functions of the GPS_Source class.
//
// DEVELOPERS: Gregory W. Heckler (2003-2009), Javier Arribas (2012)
//
// LICENSE TERMS: Copyright (c) Gregory W. Heckler 2009
//
// This file is part of the GPS Software Defined Radio (GPS-SDR)
//
// The GPS-SDR 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 2 of
// the License, or (at your option) any later version. The GPS-SDR 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.
//
// Note: Comments within this file follow a syntax that is compatible with
// DOXYGEN and are utilized for automated document extraction
//
// Reference:
*/
/*----------------------------------------------------------------------------------------------*/
#include "gn3s_source.h"
#include <time.h>
/*----------------------------------------------------------------------------------------------*/
gn3s_Source::gn3s_Source()
{
Open_GN3S();
overflw = soverflw = 0;
agc_scale = 1;
/* Assign to base */
ms_count = 0;
flag_first_read=true;
fprintf(stdout,"Creating GPS Source\n");
}
/*----------------------------------------------------------------------------------------------*/
/*----------------------------------------------------------------------------------------------*/
gn3s_Source::~gn3s_Source()
{
Close_GN3S();
fprintf(stdout,"Destructing GPS Source\n");
}
/*----------------------------------------------------------------------------------------------*/
/*----------------------------------------------------------------------------------------------*/
void gn3s_Source::Read(gn3s_ms_packet *_p,int n_samples)
{
Read_GN3S(_p,n_samples);
ms_count++;
}
/*----------------------------------------------------------------------------------------------*/
/*----------------------------------------------------------------------------------------------*/
void gn3s_Source::Open_GN3S()
{
/* Create the object */
gn3s_a = new gn3s(0);
/* Everything is super! */
//fprintf(stdout,"GN3S Start\n");
}
/*----------------------------------------------------------------------------------------------*/
/*----------------------------------------------------------------------------------------------*/
void gn3s_Source::Close_GN3S()
{
if(gn3s_a != NULL) delete gn3s_a;
//fprintf(stdout,"Destructing GN3S\n");
}
/*----------------------------------------------------------------------------------------------*/
/*----------------------------------------------------------------------------------------------*/
void gn3s_Source::Read_GN3S(gn3s_ms_packet *_p,int n_samples)
{
int bread;
int started=0;
int check;
bool overrun;
short int LUT4120[2] = {1,-1};
char shift = 0;
char endshift = 0;
short int *pbuff;
int BUFSIZE=n_samples*2;
if (flag_first_read==true)
{
/* Start transfer */
while(!started)
{
usleep(100);
started = gn3s_a->usrp_xfer(VRQ_XFER, 1);
}
fprintf(stdout,"started TX\n");
flag_first_read=false;
}
/* Check the overrun */
overrun = gn3s_a->check_rx_overrun();
if(overrun)
{
time(&rawtime);
timeinfo = localtime (&rawtime);
fprintf(stdout, "GN3S overflow at time %s\n", asctime(timeinfo));
fflush(stdout);
}
/* Read 5 ms */
bread = gn3s_a->read((void *)&gbuff[0], BUFSIZE);
// FUSB Read...
//ret = fx2c.d_ephandle->read (buf, bufsize);
if (bread != BUFSIZE) {
fprintf (stderr, "fusb_read: ret = %d (bufsize: %d) \n", bread, BUFSIZE);
fprintf (stderr, "%s\n", usb_strerror());
}
// Store IF data as 8bit signed values
pbuff = (short int *)&buff[0];
/* Make sure we are reading I0,Q0,I1,Q1,I2,Q2.... etc */
if ((gbuff[0] & 0x2) == 2) //if true, we don't have to shift data
{ shift = 0; }
else
{ shift = 1; }
if ((gbuff[BUFSIZE-1] & 0x02) == 0) //if true, we don't drop last data byte
{ endshift = 0; }
else
{ endshift = 1; }
for (int j=0;j<BUFSIZE;j++)
{
if (shift == 1)
{
if ((j == (BUFSIZE-1)) && (endshift == 0))
{ pbuff[j] = 0; }
else if ((j == (BUFSIZE-1)) && (endshift == 1))
{ pbuff[j-1] = 0; }
else
{
//printf("%i.",j);
pbuff[j] = LUT4120[gbuff[j+1] & 0x1];
}
} else if (shift == 0)
{
if ((j == (BUFSIZE-1)) && (endshift == 1))
{ pbuff[j] = 0; }
else
{ pbuff[j] = LUT4120[gbuff[j] & 0x1]; }
}
}
/* Copy to destination */
memcpy(_p->data, pbuff, n_samples*sizeof(GN3S_CPX));
}
// gregory way... with CUSTOM firmware!
//if (flag_first_read==true)
//{
// /* Start transfer */
// while(!started)
// {
// usleep(100);
// started = gn3s_a->usrp_xfer(VRQ_XFER, 1);
// }
// fprintf(stdout,"started TX\n");
// /* Make sure we are reading I0,Q0,I1,Q1,I2,Q2.... etc */
// bread = gn3s_a->read((void*)(&gbuff[0]),1);
// //fprintf(stdout,"R1\n");
// check = (gbuff[0] & 0x3); //0 or 1 -> I sample , 2 or 3 -> Q sample
// if(check < 2)
// {
// fprintf(stdout,"Shifted one sample");
// bread = gn3s_a->read((void*)(&gbuff[0]),1);
// }
// //fprintf(stdout,"R2\n");
// flag_first_read=false;
//}else{
//
// pbuff = (short int *)&buff[0];
//
// /* Read up to 5 ms */
// bread = gn3s_a->read((void *)&gbuff[0], n_samples*2);
//
// /* Convert to +-1 using Look Up Table*/
// for(lcv = 0; lcv < (n_samples*2); lcv++)
// pbuff[lcv] = LUT[gbuff[lcv] & 0x3];
//
// /* Check the overrun */
// overrun = gn3s_a->check_rx_overrun();
// if(overrun)
// {
// time(&rawtime);
// timeinfo = localtime (&rawtime);
// fprintf(stdout, "GN3S overflow at time %s\n", asctime(timeinfo));
// fflush(stdout);
// }
//}
///* Copy to destination */
//memcpy(_p->data, pbuff, n_samples*sizeof(GN3S_CPX));