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demod_x10.c
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demod_x10.c
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/*
* demod_x10.c -- dump data in CSV format
*
* Written and placed into the public domain by
* Peter Shipley < [email protected] >
*/
/*
* Useful for piping to gnuplot
* format is in time,value
* where :
* time is a float in ms
* value is a float from the current data stream
*
*/
/* ---------------------------------------------------------------------- */
#include "multimon.h"
#include <string.h>
#include <stdio.h>
/* ---------------------------------------------------------------------- */
static const char housecode[] = "MECKOGAINFDLPHBJ";
/* ---------------------------------------------------------------------- */
#define SAMPLING_RATE 22050
/* Samples in a MS */
#define SAMPLE_MS 22.050f
#define SAMPLING_THRESHOLD_HIGH 13000
#define SAMPLING_THRESHOLD_LOW 9000
#define SAMPLING_THRESHOLD_PULSE_WIDTH 40
#define SAMPLING_TIMEOUT 220
/* ---------------------------------------------------------------------- */
static void x10_init(struct demod_state *s)
{
memset(&s->l1.x10, 0, sizeof(s->l1.x10));
}
/* ---------------------------------------------------------------------- */
/*
struct l1_state_x10 {
uint32_t current_sequence;
uint32_t last_rise;
short current_state;
short current_stage;
} x10;
current_state indicates if the last sample was "high" or "low"
current_stage stage indicator :
0 = waiting for sync header
1 = sync part 1
2 = sync part 2
3 = reading data
*/
void printbits(unsigned char v) {
int i; // for C89 compatability
for(i = 7; i >= 0; i--) fputc( ('0' + ((v >> i) & 1)), stderr);
}
static void x10_report(struct demod_state *s, int clr) {
char h, u;
if (s->l1.x10.bi == 0)
return;
fprintf(stderr, "bstring = %s\n", s->l1.x10.bstring);
fprintf(stderr, "bytes = ");
printbits(s->l1.x10.b[0]);
fputs(" ", stderr);
printbits(s->l1.x10.b[1]);
fputs(" ", stderr);
printbits(s->l1.x10.b[2]);
fputs(" ", stderr);
printbits(s->l1.x10.b[3]);
fputs("\n", stderr);
fprintf(stderr, "\t %.2hhX %.2hhX %.2hhX %.2hhX\n", s->l1.x10.b[0], s->l1.x10.b[1], s->l1.x10.b[2], s->l1.x10.b[3]);
if ( s->l1.x10.bi == 32 ) {
u = 0;
h = housecode[(s->l1.x10.b[0] & 0x0f)];
if ( s->l1.x10.b[2] & 0x08 )
u |= 0x01;
if ( s->l1.x10.b[2] & 0x10 )
u |= 0x02;
if ( s->l1.x10.b[2] & 0x02 )
u |= 0x04;
if ( s->l1.x10.b[0] & 0x20 )
u |= 0x08;
u++;
fprintf(stderr, "housecode = %c %d\n", h, u);
}
if ( clr || s->l1.x10.bi == 32 ) {
s->l1.x10.bi = 0;
memset(s->l1.x10.bstring, 0, sizeof(s->l1.x10.bstring));
memset(s->l1.x10.b, 0, sizeof(s->l1.x10.b));
}
}
static void x10_demod(struct demod_state *s, buffer_t buffer, int length)
{
const short *src;
int i;
int bits = 0;
verbprintf(2, "x10_demod length=%d, current_sequence=%d\n", length, s->l1.x10.current_sequence);
src = buffer.sbuffer;
for ( i=0 ; i < length ; i++, src++) {
// Start of 9ms high preable (part 1)
if ( s->l1.x10.current_stage == 0 ) {
if ( *src >= SAMPLING_THRESHOLD_HIGH ) {
s->l1.x10.last_rise = i + s->l1.x10.current_sequence;
s->l1.x10.current_state = 1;
s->l1.x10.current_stage = 1;
}
continue;
// Start of 4.5ms low preable (part 2)
} else if ( s->l1.x10.current_stage == 1 ) {
if ( *src <= SAMPLING_THRESHOLD_LOW ) {
int j;
s->l1.x10.current_state = 0;
j = i + s->l1.x10.current_sequence - s->l1.x10.last_rise;
/*
fprintf(stderr, "stage 1->2 drop (%d) %0.4f ms\n",
j, (float) (j / SAMPLE_MS) );
*/
if ( j >= 176 && j <= 210 ) {
s->l1.x10.current_stage = 2;
s->l1.x10.last_rise = i + s->l1.x10.current_sequence;
} else {
verbprintf(9, "stage 1 fail1\n");
s->l1.x10.current_stage = 0;
}
continue;
} else {
continue;
}
// End of preable? start of data
} else if ( s->l1.x10.current_stage == 2 ) {
if ( *src >= SAMPLING_THRESHOLD_HIGH ) {
int j;
s->l1.x10.current_state = 1;
j = i + s->l1.x10.current_sequence - s->l1.x10.last_rise;
/*
fprintf(stderr, "stage 2->3 drop (%d) %0.4f ms\n",
j, (float) (j / SAMPLE_MS) );
*/
// End of 4.5ms low preable
if ( j >= 90 && j <= 104 ) {
// fprintf(stderr, "stage 3 drop\n");
s->l1.x10.current_stage = 3;
s->l1.x10.last_rise = i + s->l1.x10.current_sequence;
} else {
verbprintf(2, "preamble 2nd stage fail\n");
s->l1.x10.current_stage = 0;
}
}
continue;
// Data stage
} else if ( s->l1.x10.current_stage == 3 ) {
if ( s->l1.x10.current_state == 0 ) {
int j;
j = (i + s->l1.x10.current_sequence) - s->l1.x10.last_rise;
if ( *src >= SAMPLING_THRESHOLD_HIGH ) {
s->l1.x10.current_state = 1;
bits++;
verbprintf(3, "stage 3 rise (%d) %0.4f ms\n", j, (float) (j / SAMPLE_MS) );
// fprintf(stderr, "stage 3 b %d %d %x\n", ( s->l1.x10.bi / 8 ), ( s->l1.x10.bi % 8 ), ( 1<< ( s->l1.x10.bi % 8 ) ) );
s->l1.x10.last_rise = i + s->l1.x10.current_sequence;
if ( j > SAMPLING_THRESHOLD_PULSE_WIDTH ) {
s->l1.x10.bstring[(int)s->l1.x10.bi] = '1';
s->l1.x10.b[ ( s->l1.x10.bi / 8 ) ] |= ( 1<< ( s->l1.x10.bi % 8 ) );
} else {
s->l1.x10.bstring[(int)s->l1.x10.bi] = '0';
}
s->l1.x10.bi++;
} else {
if ( j > SAMPLING_TIMEOUT ) { // if low for more then 10ms (appox)
verbprintf(2, "Data stage end ( timeout )\n");
s->l1.x10.current_stage = 0;
// fprintf(stderr, "bits = %d\n", bits);
x10_report(s, 1);
}
}
} else if ( s->l1.x10.current_state == 1 ) {
if ( *src < SAMPLING_THRESHOLD_LOW ) {
s->l1.x10.current_state = 0;
}
continue;
} else {
fprintf(stderr, "bad state = %d\n", s->l1.x10.current_state );
s->l1.x10.current_stage = 0;
continue;
}
}
}
// Save current count
s->l1.x10.current_sequence = s->l1.x10.current_sequence + i;
if ( bits ) {
fprintf(stderr, "Bits = %d\n", bits);
x10_report(s, 0);
}
}
/* ---------------------------------------------------------------------- */
const struct demod_param demod_x10 = {
"X10", false, SAMPLING_RATE, 0, x10_init, x10_demod, NULL
};
/* ---------------------------------------------------------------------- */