Version 0.1.7 from FTP

git-svn-id: https://origsvn.digium.com/svn/asterisk/trunk@255 65c4cc65-6c06-0410-ace0-fbb531ad65f3

fskmodem.c

@@ -0,0 +1,283 @@
+/*
+ * Asterisk -- A telephony toolkit for Linux.
+ *
+ * FSK Modulator/Demodulator 
+ * 
+ * Copyright (C) 1999, Mark Spencer
+ *
+ * Mark Spencer <markster@linux-support.net>
+ *
+ * This program is free software, distributed under the terms of
+ * the GNU General Public License.
+ *
+ * Includes code and algorithms from the Zapata library.
+ *
+ */
+
+#include <asterisk/fskmodem.h>
+
+#include <stdio.h>
+
+#define NBW	2
+#define BWLIST	{75,800}
+#define	NF	4
+#define	FLIST {1400,1800,1200,2200}
+
+#define STATE_SEARCH_STARTBIT	0
+#define STATE_SEARCH_STARTBIT2	1
+#define STATE_SEARCH_STARTBIT3	2
+#define STATE_GET_BYTE			3
+
+static inline float get_sample(short **buffer, int *len)
+{
+	float retval;
+	retval = (float) **buffer / 256;
+	(*buffer)++;
+	(*len)--;
+	return retval;
+}
+
+#define GET_SAMPLE get_sample(&buffer, len)
+
+/* Coeficientes para filtros de entrada					*/
+/* Tabla de coeficientes, generada a partir del programa "mkfilter"	*/
+/* Formato: coef[IDX_FREC][IDX_BW][IDX_COEF]				*/
+/* IDX_COEF=0	=>	1/GAIN						*/
+/* IDX_COEF=1-6	=>	Coeficientes y[n]				*/
+
+static double coef_in[NF][NBW][8]={
+#include "coef_in.h"
+};
+
+/* Coeficientes para filtro de salida					*/
+/* Tabla de coeficientes, generada a partir del programa "mkfilter"	*/
+/* Formato: coef[IDX_BW][IDX_COEF]					*/
+/* IDX_COEF=0	=>	1/GAIN						*/
+/* IDX_COEF=1-6	=>	Coeficientes y[n]				*/
+
+static double coef_out[NBW][8]={
+#include "coef_out.h"
+};
+
+
+/* Filtro pasa-banda para frecuencia de MARCA */
+static inline float filtroM(fsk_data *fskd,float in)
+{
+	int i,j;
+	double s;
+	double *pc;
+	
+	pc=&coef_in[fskd->f_mark_idx][fskd->bw][0];
+	fskd->fmxv[(fskd->fmp+6)&7]=in*(*pc++);
+	
+	s=(fskd->fmxv[(fskd->fmp+6)&7] - fskd->fmxv[fskd->fmp]) + 3 * (fskd->fmxv[(fskd->fmp+2)&7] - fskd->fmxv[(fskd->fmp+4)&7]);
+	for (i=0,j=fskd->fmp;i<6;i++,j++) s+=fskd->fmyv[j&7]*(*pc++);
+	fskd->fmyv[j&7]=s;
+	fskd->fmp++; fskd->fmp&=7;
+	return s;
+}
+
+/* Filtro pasa-banda para frecuencia de ESPACIO */
+static inline float filtroS(fsk_data *fskd,float in)
+{
+	int i,j;
+	double s;
+	double *pc;
+	
+	pc=&coef_in[fskd->f_space_idx][fskd->bw][0];
+	fskd->fsxv[(fskd->fsp+6)&7]=in*(*pc++);
+	
+	s=(fskd->fsxv[(fskd->fsp+6)&7] - fskd->fsxv[fskd->fsp]) + 3 * (fskd->fsxv[(fskd->fsp+2)&7] - fskd->fsxv[(fskd->fsp+4)&7]);
+	for (i=0,j=fskd->fsp;i<6;i++,j++) s+=fskd->fsyv[j&7]*(*pc++);
+	fskd->fsyv[j&7]=s;
+	fskd->fsp++; fskd->fsp&=7;
+	return s;
+}
+
+/* Filtro pasa-bajos para datos demodulados */
+static inline float filtroL(fsk_data *fskd,float in)
+{
+	int i,j;
+	double s;
+	double *pc;
+	
+	pc=&coef_out[fskd->bw][0];
+	fskd->flxv[(fskd->flp + 6) & 7]=in * (*pc++); 
+	
+	s=     (fskd->flxv[fskd->flp]       + fskd->flxv[(fskd->flp+6)&7]) +
+	  6  * (fskd->flxv[(fskd->flp+1)&7] + fskd->flxv[(fskd->flp+5)&7]) +
+	  15 * (fskd->flxv[(fskd->flp+2)&7] + fskd->flxv[(fskd->flp+4)&7]) +
+	  20 *  fskd->flxv[(fskd->flp+3)&7]; 
+	
+	for (i=0,j=fskd->flp;i<6;i++,j++) s+=fskd->flyv[j&7]*(*pc++);
+	fskd->flyv[j&7]=s;
+	fskd->flp++; fskd->flp&=7;
+	return s;
+}
+
+static inline int demodulador(fsk_data *fskd, float *retval, float x)
+{
+	float xS,xM;
+
+	fskd->cola_in[fskd->pcola]=x;
+	
+	xS=filtroS(fskd,x);
+	xM=filtroM(fskd,x);
+
+	fskd->cola_filtro[fskd->pcola]=xM-xS;
+
+	x=filtroL(fskd,xM*xM - xS*xS);
+	
+	fskd->cola_demod[fskd->pcola++]=x;
+	fskd->pcola &= (NCOLA-1);
+
+	*retval = x;
+	return(0);
+}
+
+static int get_bit_raw(fsk_data *fskd, short *buffer, int *len)
+{
+	/* Esta funcion implementa un DPLL para sincronizarse con los bits */
+	float x,spb,spb2,ds;
+	int f;
+
+	spb=fskd->spb; 
+	if (fskd->spb == 7) spb = 8000.0 / 1200.0;
+	ds=spb/32.;
+	spb2=spb/2.;
+
+	for (f=0;;){
+		if (demodulador(fskd,&x, GET_SAMPLE)) return(-1);
+		if ((x*fskd->x0)<0) {	/* Transicion */
+			if (!f) {
+				if (fskd->cont<(spb2)) fskd->cont+=ds; else fskd->cont-=ds;
+				f=1;
+			}
+		}
+		fskd->x0=x;
+		fskd->cont+=1.;
+		if (fskd->cont>spb) {
+			fskd->cont-=spb;
+			break;
+		}
+	}
+	f=(x>0)?0x80:0;
+	return(f);
+}
+
+int fsk_serie(fsk_data *fskd, short *buffer, int *len, int *outbyte)
+{
+	int a;
+	int i,j,n1,r;
+	int samples=0;
+	int olen;
+	switch(fskd->state) {
+		/* Pick up where we left off */
+	case STATE_SEARCH_STARTBIT2:
+		goto search_startbit2;
+	case STATE_SEARCH_STARTBIT3:
+		goto search_startbit3;
+	case STATE_GET_BYTE:
+		goto getbyte;
+	}
+	/* Esperamos bit de start	*/
+	do {
+/* this was jesus's nice, reasonable, working (at least with RTTY) code
+to look for the beginning of the start bit. Unfortunately, since TTY/TDD's
+just start sending a start bit with nothing preceding it at the beginning
+of a transmission (what a LOSING design), we cant do it this elegantly */
+/*
+		if (demodulador(zap,&x1)) return(-1);
+		for(;;) {
+			if (demodulador(zap,&x2)) return(-1);
+			if (x1>0 && x2<0) break;
+			x1=x2;
+		}
+*/
+/* this is now the imprecise, losing, but functional code to detect the
+beginning of a start bit in the TDD sceanario. It just looks for sufficient
+level to maybe, perhaps, guess, maybe that its maybe the beginning of
+a start bit, perhaps. This whole thing stinks! */
+		if (demodulador(fskd,&fskd->x1,GET_SAMPLE)) return(-1);
+		samples++;
+		for(;;)
+		   {
+search_startbit2:		   
+			if (!*len) {
+				fskd->state = STATE_SEARCH_STARTBIT2;
+				return 0;
+			}
+			samples++;
+			if (demodulador(fskd,&fskd->x2,GET_SAMPLE)) return(-1);
+#if 0
+			printf("x2 = %5.5f ", fskd->x2);
+#endif			
+			if (fskd->x2 < -0.5) break; 
+		   }
+search_startbit3:		   
+		/* Esperamos 0.5 bits antes de usar DPLL */
+		i=fskd->spb/2;
+		if (*len < i) {
+			fskd->state = STATE_SEARCH_STARTBIT3;
+			return 0;
+		}
+		for(;i;i--) { if (demodulador(fskd,&fskd->x1,GET_SAMPLE)) return(-1); 
+#if 0
+			printf("x1 = %5.5f ", fskd->x1);
+#endif			
+	samples++; }
+
+		/* x1 debe ser negativo (confirmaci<63>n del bit de start) */
+
+	} while (fskd->x1>0);
+	fskd->state = STATE_GET_BYTE;
+
+getbyte:
+
+	/* Need at least 80 samples to be sure we'll have a byte */
+	if (*len < 80)
+		return 0;
+
+	/* Leemos ahora los bits de datos */
+	j=fskd->nbit;
+	for (a=n1=0;j;j--) {
+		olen = *len;
+		i=get_bit_raw(fskd, buffer, len);
+		buffer += (olen - *len);
+		if (i == -1) return(-1);
+		if (i) n1++;
+		a>>=1; a|=i;
+	}
+	j=8-fskd->nbit;
+	a>>=j;
+
+	/* Leemos bit de paridad (si existe) y la comprobamos */
+	if (fskd->paridad) {
+		olen = *len;
+		i=get_bit_raw(fskd, buffer, len); 
+		buffer += (olen - *len);
+		if (i == -1) return(-1);
+		if (i) n1++;
+		if (fskd->paridad==1) {	/* paridad=1 (par) */
+			if (n1&1) a|=0x100;		/* error */
+		} else {			/* paridad=2 (impar) */
+			if (!(n1&1)) a|=0x100;	/* error */
+		}
+	}
+	
+	/* Leemos bits de STOP. Todos deben ser 1 */
+	
+	for (j=fskd->nstop;j;j--) {
+		r = get_bit_raw(fskd, buffer, len);
+		if (r == -1) return(-1);
+		if (!r) a|=0x200;
+	}
+
+	/* Por fin retornamos  */
+	/* Bit 8 : Error de paridad */
+	/* Bit 9 : Error de Framming */
+
+	*outbyte = a;
+	fskd->state = STATE_SEARCH_STARTBIT;
+	return 1;
+}

include/asterisk/fskmodem.h

@@ -0,0 +1,63 @@
+/*
+ * Asterisk -- A telephony toolkit for Linux.
+ *
+ * FSK Modem Support 
+ * 
+ * Copyright (C) 1999, Mark Spencer
+ *
+ * Mark Spencer <markster@linux-support.net>
+ *
+ * This program is free software, distributed under the terms of
+ * the GNU General Public License.
+ *
+ * Includes code and algorithms from the Zapata library.
+ *
+ */
+
+#ifndef _FSKMODEM_H
+#define _FSKMODEM_H
+
+#define PARITY_NONE		0
+#define PARITY_EVEN		1
+#define PARITY_ODD		2
+
+
+#define NCOLA 0x4000
+
+typedef struct {
+	float spb;	/* Samples / Bit */
+	int nbit;	/* Number of Data Bits (5,7,8) */
+	float nstop;	/* Number of Stop Bits 1,1.5,2  */
+	int paridad;	/* Parity 0=none 1=even 2=odd */
+	int hdlc;	/* Modo Packet */
+	float x0;
+	float x1;
+	float x2;
+	float cont;
+	int bw;		/* Ancho de Banda */
+	double fmxv[8],fmyv[8];	/* filter stuff for M filter */
+	int	fmp;		/* pointer for M filter */
+	double fsxv[8],fsyv[8];	/* filter stuff for S filter */
+	int	fsp;		/* pointer for S filter */
+	double flxv[8],flyv[8];	/* filter stuff for L filter */
+	int	flp;		/* pointer for L filter */
+	int f_mark_idx;	/* Indice de frecuencia de marca (f_M-500)/5 */
+	int f_space_idx;/* Indice de frecuencia de espacio (f_S-500)/5 */
+	int state;
+	int pcola;	/* Puntero de las colas de datos */
+	float cola_in[NCOLA];		/* Cola de muestras de entrada */
+	float cola_filtro[NCOLA];	/* Cola de muestras tras filtros */
+	float cola_demod[NCOLA];	/* Cola de muestras demoduladas */
+} fsk_data;
+
+/* Retrieve a serial byte into outbyte.  Buffer is a pointer into a series of 
+   shorts and len records the number of bytes in the buffer.  len will be 
+   overwritten with the number of bytes left that were not consumed, and the
+   return value is as follows:
+     0: Still looking for something...  
+	 1: An output byte was received and stored in outbyte
+	 -1: An error occured in the transmission
+   He must be called with at least 80 bytes of buffer. */
+extern int fsk_serie(fsk_data *fskd, short *buffer, int *len, int *outbyte);
+
+#endif