mirror of
https://github.com/dj0abr/SSB_HighSpeed_Modem.git
synced 2024-11-22 12:19:49 -05:00
141 lines
3.8 KiB
C
141 lines
3.8 KiB
C
/*
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* High Speed modem to transfer data in a 2,7kHz SSB channel
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* =========================================================
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* Author: DJ0ABR
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*
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* (c) DJ0ABR
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* www.dj0abr.de
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
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*
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*/
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#include "qo100modem.h"
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#include <fftw3.h>
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#include <math.h>
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#define AUDIOSAMPLERATE 8000
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double *din = NULL; // input data for fft
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fftw_complex *cpout = NULL; // ouput data from fft
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fftw_plan plan = NULL;
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#define fft_rate (AUDIOSAMPLERATE / 10) // resolution: 10 Hz
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int fftidx = 0;
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int fftcnt = fft_rate/2+1; // number of output values
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uint16_t fftout[AUDIOSAMPLERATE / 10/2+1];
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uint16_t *make_waterfall(uint8_t *pdata, int len, int *retlen)
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{
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int fftrdy = 0;
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// get the real sample in float (imag is not required for the FFT)
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int re=0;
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// GR sends 8 Bytes containing 4x 0x000003e8 (marker) and 4x input-samples (real integer)
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#define dlen 8
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static uint8_t rbuf[dlen];
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for(int i=0; i<len; i++)
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{
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// insert new byte in rbuf
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for(int sh = (dlen-1); sh > 0; sh--)
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rbuf[sh] = rbuf[sh - 1];
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rbuf[0] = pdata[i];
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// check for BIG/LITTLE endian
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if(rbuf[0] == 0 && rbuf[1] == 0 && rbuf[2] == 3 && rbuf[3] == 0xe8)
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{
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re = rbuf[4];
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re <<= 24;
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re += rbuf[5];
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re <<= 16;
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re += rbuf[6];
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re <<= 8;
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re += rbuf[7];
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}
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else if(rbuf[0] == 0xe8 && rbuf[1] == 3 && rbuf[2] == 0 && rbuf[3] == 0)
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{
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re = rbuf[7];
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re <<= 24;
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re += rbuf[6];
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re <<= 16;
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re += rbuf[5];
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re <<= 8;
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re += rbuf[4];
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}
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else
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continue;
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// the value was scaled in GR by 2^24 = 16777216
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// in order to send it in an INT
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// undo this scaling
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float fre = (float)re / 16777216;
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// fre are the float samples
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// fill into the fft input buffer
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din[fftidx++] = fre;
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if(fftidx == fft_rate)
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{
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fftidx = 0;
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// the fft buffer is full, execute the FFT
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fftw_execute(plan);
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for (int j = 0; j < fftcnt; j++)
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{
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// calculate absolute value (magnitute without phase)
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float fre = cpout[j][0];
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float fim = cpout[j][1];
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float mag = sqrt((fre * fre) + (fim * fim));
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fftout[j] = (uint16_t)mag;
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fftrdy = 1;
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}
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}
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}
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if(fftrdy == 1)
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{
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*retlen = fftcnt;
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return fftout;
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}
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return NULL;
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}
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void init_fft()
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{
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char fn[300];
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sprintf(fn, "capture_fft_%d", fft_rate); // wisdom file for each capture rate
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fftw_import_wisdom_from_filename(fn);
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din = (double *)fftw_malloc(sizeof(double) * fft_rate);
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cpout = (fftw_complex *)fftw_malloc(sizeof(fftw_complex) * fft_rate);
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plan = fftw_plan_dft_r2c_1d(fft_rate, din, cpout, FFTW_MEASURE);
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fftw_export_wisdom_to_filename(fn);
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}
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void exit_fft()
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{
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if(plan) fftw_destroy_plan(plan);
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if(din) fftw_free(din);
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if(cpout) fftw_free(cpout);
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}
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