fskmodem_int.c File Reference

FSK Modulator/Demodulator. More...

#include "asterisk.h"
#include "asterisk/fskmodem.h"

Include dependency graph for fskmodem_int.c:

Go to the source code of this file.

Defines

#define BWLIST   {75,800}
#define FLIST   {1400,1800,1200,2200,1300,2100}
#define IGET_SAMPLE   iget_sample(&buffer, len)
#define NBW   2
#define NF   6
#define STATE_GET_BYTE   3
#define STATE_SEARCH_STARTBIT   0
#define STATE_SEARCH_STARTBIT2   1
#define STATE_SEARCH_STARTBIT3   2

Functions

int fsk_serial (fsk_data *fskd, short *buffer, int *len, int *outbyte)
int fskmodem_init (fsk_data *fskd)
static int get_bit_raw (fsk_data *fskd, short *buffer, int *len)
static int ibpdfilter (struct filter_struct *fs, int in)
static int ibpfilter (struct filter_struct *fs, int in)
static int idemodulator (fsk_data *fskd, int *retval, int x)
static int iget_sample (short **buffer, int *len)

Variables

static double coef_in [NF][NBW][8]
 Coefficients for input filters Coefficients table, generated by program "mkfilter" mkfilter is part of the zapatatelephony.org distribution Format: coef[IDX_FREC][IDX_BW][IDX_COEF] IDX_COEF = 0 => 1/GAIN IDX_COEF = 1-6 => Coefficientes y[n].
static double coef_out [NBW][8]
 Coefficients for output filter Coefficients table, generated by program "mkfilter" Format: coef[IDX_BW][IDX_COEF] IDX_COEF = 0 => 1/GAIN IDX_COEF = 1-6 => Coefficientes y[n].


Detailed Description

FSK Modulator/Demodulator.

Author:
Mark Spencer <markster@digium.com>

Definition in file fskmodem_int.c.


Define Documentation

#define BWLIST   {75,800}

Definition at line 42 of file fskmodem_int.c.

#define FLIST   {1400,1800,1200,2200,1300,2100}

Definition at line 44 of file fskmodem_int.c.

#define IGET_SAMPLE   iget_sample(&buffer, len)

Definition at line 60 of file fskmodem_int.c.

Referenced by fsk_serial(), and get_bit_raw().

#define NBW   2

Definition at line 41 of file fskmodem_int.c.

#define NF   6

Definition at line 43 of file fskmodem_int.c.

#define STATE_GET_BYTE   3

Definition at line 49 of file fskmodem_int.c.

#define STATE_SEARCH_STARTBIT   0

Definition at line 46 of file fskmodem_int.c.

#define STATE_SEARCH_STARTBIT2   1

Definition at line 47 of file fskmodem_int.c.

#define STATE_SEARCH_STARTBIT3   2

Definition at line 48 of file fskmodem_int.c.


Function Documentation

int fsk_serial ( fsk_data fskd,
short *  buffer,
int *  len,
int *  outbyte 
)

Definition at line 224 of file fskmodem_int.c.

References a, get_bit_raw(), idemodulator(), IGET_SAMPLE, fsk_data::instop, fsk_data::ispb, fsk_data::nbit, fsk_data::parity, fsk_data::state, STATE_GET_BYTE, STATE_SEARCH_STARTBIT, STATE_SEARCH_STARTBIT2, STATE_SEARCH_STARTBIT3, fsk_data::xi1, and fsk_data::xi2.

Referenced by callerid_feed(), callerid_feed_jp(), and tdd_feed().

00225 {
00226    int a;
00227    int i, j, n1, r;
00228    int samples = 0;
00229    int olen;
00230    int beginlen = *len;
00231    int beginlenx;
00232 
00233    switch (fskd->state) {
00234       /* Pick up where we left off */
00235    case STATE_SEARCH_STARTBIT2:
00236       goto search_startbit2;
00237    case STATE_SEARCH_STARTBIT3:
00238       goto search_startbit3;
00239    case STATE_GET_BYTE:
00240       goto getbyte;
00241    }
00242    /* We await for start bit  */
00243    do {
00244       /* this was jesus's nice, reasonable, working (at least with RTTY) code
00245       to look for the beginning of the start bit. Unfortunately, since TTY/TDD's
00246       just start sending a start bit with nothing preceding it at the beginning
00247       of a transmission (what a LOSING design), we cant do it this elegantly */
00248       /* NOT USED
00249             if (demodulator(zap,&x1))
00250                return -1;
00251             for(;;) {
00252                if (demodulator(zap,&x2))
00253                   return -1;
00254                if (x1>0 && x2<0) break;
00255                x1=x2;
00256             }
00257       */
00258       /* this is now the imprecise, losing, but functional code to detect the
00259       beginning of a start bit in the TDD sceanario. It just looks for sufficient
00260       level to maybe, perhaps, guess, maybe that its maybe the beginning of
00261       a start bit, perhaps. This whole thing stinks! */
00262       beginlenx = beginlen; /* just to avoid unused war warnings */
00263       if (idemodulator(fskd, &fskd->xi1, IGET_SAMPLE))
00264          return -1;
00265       samples++;
00266       for(;;) {
00267 search_startbit2:
00268          if (*len <= 0) {
00269             fskd->state = STATE_SEARCH_STARTBIT2;
00270             return 0;
00271          }
00272          samples++;
00273          if (idemodulator(fskd, &fskd->xi2, IGET_SAMPLE))
00274             return -1;
00275 #if 0
00276          printf("xi2 = %d ", fskd->xi2);
00277 #endif
00278          if (fskd->xi2 < 512) {
00279             break;
00280          }
00281       }
00282 search_startbit3:
00283       /* We await for 0.5 bits before using DPLL */
00284       i = fskd->ispb / 2;
00285       if (*len < i) {
00286          fskd->state = STATE_SEARCH_STARTBIT3;
00287          return 0;
00288       }
00289       for (; i > 0; i--) {
00290          if (idemodulator(fskd, &fskd->xi1, IGET_SAMPLE))
00291             return(-1);
00292 #if 0
00293          printf("xi1 = %d ", fskd->xi1);
00294 #endif
00295          samples++;
00296       }
00297 
00298       /* x1 must be negative (start bit confirmation) */
00299 
00300    } while (fskd->xi1 > 0);
00301    fskd->state = STATE_GET_BYTE;
00302 
00303 getbyte:
00304 
00305    /* Need at least 80 samples (for 1200) or
00306       1320 (for 45.5) to be sure we'll have a byte */
00307    if (fskd->nbit < 8) {
00308       if (*len < 1320)
00309          return 0;
00310    } else {
00311       if (*len < 80)
00312          return 0;
00313    }
00314 
00315    /* Now we read the data bits */
00316    j = fskd->nbit;
00317    for (a = n1 = 0; j; j--) {
00318       olen = *len;
00319       i = get_bit_raw(fskd, buffer, len);
00320       buffer += (olen - *len);
00321       if (i == -1)
00322          return -1;
00323       if (i)
00324          n1++;
00325       a >>= 1;
00326       a |= i;
00327    }
00328    j = 8 - fskd->nbit;
00329    a >>= j;
00330 
00331    /* We read parity bit (if exists) and check parity */
00332    if (fskd->parity) {
00333       olen = *len;
00334       i = get_bit_raw(fskd, buffer, len);
00335       buffer += (olen - *len);
00336       if (i == -1)
00337          return -1;
00338       if (i)
00339          n1++;
00340       if (fskd->parity == 1) {   /* parity=1 (even) */
00341          if (n1 & 1)
00342             a |= 0x100;       /* error */
00343       } else {             /* parity=2 (odd) */
00344          if (!(n1 & 1))
00345             a |= 0x100;       /* error */
00346       }
00347    }
00348 
00349    /* We read STOP bits. All of them must be 1 */
00350 
00351    for (j = fskd->instop; j; j--) {
00352       r = get_bit_raw(fskd, buffer, len);
00353       if (r == -1)
00354          return -1;
00355       if (!r)
00356          a |= 0x200;
00357    }
00358 
00359    /* And finally we return
00360     * Bit 8 : Parity error
00361     * Bit 9 : Framming error
00362    */
00363 
00364    *outbyte = a;
00365    fskd->state = STATE_SEARCH_STARTBIT;
00366    return 1;
00367 }

int fskmodem_init ( fsk_data fskd  ) 

Definition at line 197 of file fskmodem_int.c.

References fsk_data::bw, fsk_data::demod_filter, fsk_data::f_mark_idx, fsk_data::f_space_idx, filter_struct::icoefs, filter_struct::ip, filter_struct::ixv, filter_struct::iyv, fsk_data::mark_filter, and fsk_data::space_filter.

Referenced by callerid_new(), and tdd_new().

00198 {
00199    int i;
00200 
00201    fskd->space_filter.ip  = 0;
00202    fskd->mark_filter.ip   = 0;
00203    fskd->demod_filter.ip  = 0;
00204 
00205    for ( i = 0 ; i < 7 ; i++ ) {
00206       fskd->space_filter.icoefs[i] =
00207          coef_in[fskd->f_space_idx][fskd->bw][i] * 256;
00208       fskd->space_filter.ixv[i] = 0;;
00209       fskd->space_filter.iyv[i] = 0;;
00210 
00211       fskd->mark_filter.icoefs[i] =
00212          coef_in[fskd->f_mark_idx][fskd->bw][i] * 256;
00213       fskd->mark_filter.ixv[i] = 0;;
00214       fskd->mark_filter.iyv[i] = 0;;
00215 
00216       fskd->demod_filter.icoefs[i] =
00217          coef_out[fskd->bw][i] * 1024;
00218       fskd->demod_filter.ixv[i] = 0;;
00219       fskd->demod_filter.iyv[i] = 0;;
00220    }
00221    return 0;
00222 }

static int get_bit_raw ( fsk_data fskd,
short *  buffer,
int *  len 
) [static]

Definition at line 167 of file fskmodem_int.c.

References f, fsk_data::icont, idemodulator(), IGET_SAMPLE, fsk_data::pllids, fsk_data::pllispb, fsk_data::pllispb2, and fsk_data::xi0.

00168 {
00169    /* This function implements a DPLL to synchronize with the bits */
00170    int f;
00171 
00172    int ix;
00173    /* PLL coeffs are set up in callerid_new */
00174    for (f = 0;;) {
00175       if (idemodulator(fskd, &ix, IGET_SAMPLE)) return(-1);
00176       if ((ix * fskd->xi0) < 0) { /* Transicion */
00177          if (!f) {
00178             if (fskd->icont < (fskd->pllispb2)) {
00179                fskd->icont += fskd->pllids;
00180             } else {
00181                fskd->icont -= fskd->pllids;
00182             }
00183             f = 1;
00184          }
00185       }
00186       fskd->xi0 = ix;
00187       fskd->icont += 32;
00188       if (fskd->icont > fskd->pllispb) {
00189          fskd->icont -= fskd->pllispb;
00190          break;
00191       }
00192    }
00193    f = (ix > 0) ? 0x80 : 0;
00194    return f;
00195 }

static int ibpdfilter ( struct filter_struct fs,
int  in 
) [inline, static]

Integer Pass Band demodulator filter

Definition at line 97 of file fskmodem_int.c.

References filter_struct::icoefs, filter_struct::ip, filter_struct::ixv, and filter_struct::iyv.

Referenced by idemodulator().

00098 {
00099    int i,j;
00100    int s;
00101    int64_t s_interim;
00102 
00103    /* integer filter */
00104    s =  in * fs->icoefs[0];
00105    fs->ixv[(fs->ip + 6) & 7] = s;
00106 
00107    s =      (fs->ixv[fs->ip]           + fs->ixv[(fs->ip + 6) & 7]) +
00108       6  * (fs->ixv[(fs->ip + 1) & 7] + fs->ixv[(fs->ip + 5) & 7]) +
00109       15 * (fs->ixv[(fs->ip + 2) & 7] + fs->ixv[(fs->ip + 4) & 7]) +
00110       20 *  fs->ixv[(fs->ip + 3) & 7];
00111 
00112    for (i = 1, j = fs->ip; i < 7; i++, j++) {
00113       /* Promote operation to 64 bit to prevent overflow that occurred in 32 bit) */
00114       s_interim = (int64_t)(fs->iyv[j & 7]) *
00115             (int64_t)(fs->icoefs[i]) /
00116             (int64_t)(1024);
00117       s += (int) s_interim;
00118    }
00119    fs->iyv[j & 7] = s;
00120    fs->ip++;
00121    fs->ip &= 7;
00122    return s;
00123 }

static int ibpfilter ( struct filter_struct fs,
int  in 
) [inline, static]

Integer Band Pass filter

Definition at line 126 of file fskmodem_int.c.

References filter_struct::icoefs, filter_struct::ip, filter_struct::ixv, and filter_struct::iyv.

Referenced by idemodulator().

00127 {
00128    int i, j;
00129    int s;
00130    int64_t s_interim;
00131 
00132    /* integer filter */
00133    s =  in * fs->icoefs[0] / 256;
00134    fs->ixv[(fs->ip + 6) & 7] = s;
00135 
00136    s = (fs->ixv[(fs->ip + 6) & 7] - fs->ixv[fs->ip])
00137       + 3 * (fs->ixv[(fs->ip + 2) & 7] - fs->ixv[(fs->ip + 4) & 7]);
00138 
00139    for (i = 1, j = fs->ip; i < 7; i++, j++) {
00140       s_interim = (int64_t)(fs->iyv[j & 7]) *
00141             (int64_t)(fs->icoefs[i]) /
00142             (int64_t)(256);
00143       s += (int) s_interim;
00144    }
00145    fs->iyv[j & 7] = s;
00146    fs->ip++;
00147    fs->ip &= 7;
00148    return s;
00149 }

static int idemodulator ( fsk_data fskd,
int *  retval,
int  x 
) [inline, static]

Definition at line 151 of file fskmodem_int.c.

References fsk_data::demod_filter, ibpdfilter(), ibpfilter(), id, fsk_data::mark_filter, and fsk_data::space_filter.

Referenced by fsk_serial(), and get_bit_raw().

00152 {
00153    int is, im, id;
00154    int ilin2;
00155 
00156    is = ibpfilter(&fskd->space_filter, x);
00157    im = ibpfilter(&fskd->mark_filter, x);
00158 
00159    ilin2 = ((im * im) - (is * is)) / (256 * 256);
00160 
00161    id = ibpdfilter(&fskd->demod_filter, ilin2);
00162 
00163    *retval = id;
00164    return 0;
00165 }

static int iget_sample ( short **  buffer,
int *  len 
) [inline, static]

Definition at line 51 of file fskmodem_int.c.

References retval.

00052 {
00053    int retval;
00054    retval = (int) **buffer;
00055    (*buffer)++;
00056    (*len)--;
00057    return retval;
00058 }


Variable Documentation

double coef_in[NF][NBW][8] [static]

Coefficients for input filters Coefficients table, generated by program "mkfilter" mkfilter is part of the zapatatelephony.org distribution Format: coef[IDX_FREC][IDX_BW][IDX_COEF] IDX_COEF = 0 => 1/GAIN IDX_COEF = 1-6 => Coefficientes y[n].

Definition at line 68 of file fskmodem_int.c.

double coef_out[NBW][8] [static]

Initial value:

{
   { 1.3868644653e-08,-6.3283665042e-01,4.0895057217e+00,-1.1020074592e+01,1.5850766191e+01,-1.2835109292e+01,5.5477477340e+00,0.0000000000e+00,
   },  { 3.1262119724e-03,-7.8390522307e-03,8.5209627801e-02,-4.0804129163e-01,1.1157139955e+00,-1.8767603680e+00,1.8916395224e+00,0.0000000000e+00
   },
}
Coefficients for output filter Coefficients table, generated by program "mkfilter" Format: coef[IDX_BW][IDX_COEF] IDX_COEF = 0 => 1/GAIN IDX_COEF = 1-6 => Coefficientes y[n].

Definition at line 90 of file fskmodem_int.c.


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