/* Sippican MkIIa LMS-6 (1680 MHz) */ #include #include #include #include // optional JSON "version" // (a) set global // gcc -DVERSION_JSN [-I] ... #ifdef VERSION_JSN #include "version_jsn.h" #endif // or // (b) set local compiler option, e.g. // gcc -DVER_JSN_STR=\"0.0.2\" ... typedef unsigned char ui8_t; typedef unsigned short ui16_t; typedef unsigned int ui32_t; int option_verbose = 0, // ausfuehrliche Anzeige option_raw = 0, // rohe Frames option_inv = 0, // invertiert Signal option_crc = 0, // check CRC option_res = 0, // genauere Bitmessung option_b = 0, option_jsn = 0, // JSON output (auto_rx) wavloaded = 0; /* -------------------------------------------------------------------------- */ #define BAUD_RATE 9616 // 9616..9618 int sample_rate = 0, bits_sample = 0, channels = 0; float samples_per_bit = 0; int findstr(char *buf, char *str, int pos) { int i; for (i = 0; i < 4; i++) { if (buf[(pos+i)%4] != str[i]) break; } return i; } int read_wav_header(FILE *fp) { char txt[4+1] = "\0\0\0\0"; unsigned char dat[4]; int byte, p=0; if (fread(txt, 1, 4, fp) < 4) return -1; if (strncmp(txt, "RIFF", 4)) return -1; if (fread(txt, 1, 4, fp) < 4) return -1; // pos_WAVE = 8L if (fread(txt, 1, 4, fp) < 4) return -1; if (strncmp(txt, "WAVE", 4)) return -1; // pos_fmt = 12L for ( ; ; ) { if ( (byte=fgetc(fp)) == EOF ) return -1; txt[p % 4] = byte; p++; if (p==4) p=0; if (findstr(txt, "fmt ", p) == 4) break; } if (fread(dat, 1, 4, fp) < 4) return -1; if (fread(dat, 1, 2, fp) < 2) return -1; if (fread(dat, 1, 2, fp) < 2) return -1; channels = dat[0] + (dat[1] << 8); if (fread(dat, 1, 4, fp) < 4) return -1; memcpy(&sample_rate, dat, 4); //sample_rate = dat[0]|(dat[1]<<8)|(dat[2]<<16)|(dat[3]<<24); if (fread(dat, 1, 4, fp) < 4) return -1; if (fread(dat, 1, 2, fp) < 2) return -1; //byte = dat[0] + (dat[1] << 8); if (fread(dat, 1, 2, fp) < 2) return -1; bits_sample = dat[0] + (dat[1] << 8); // pos_dat = 36L + info for ( ; ; ) { if ( (byte=fgetc(fp)) == EOF ) return -1; txt[p % 4] = byte; p++; if (p==4) p=0; if (findstr(txt, "data", p) == 4) break; } if (fread(dat, 1, 4, fp) < 4) return -1; fprintf(stderr, "sample_rate: %d\n", sample_rate); fprintf(stderr, "bits : %d\n", bits_sample); fprintf(stderr, "channels : %d\n", channels); if ((bits_sample != 8) && (bits_sample != 16)) return -1; samples_per_bit = sample_rate/(float)BAUD_RATE; fprintf(stderr, "samples/bit: %.2f\n", samples_per_bit); return 0; } #define EOF_INT 0x1000000 unsigned long sample_count = 0; int read_signed_sample(FILE *fp) { // int = i32_t int byte, i, ret; // EOF -> 0x1000000 for (i = 0; i < channels; i++) { // i = 0: links bzw. mono byte = fgetc(fp); if (byte == EOF) return EOF_INT; if (i == 0) ret = byte; if (bits_sample == 16) { byte = fgetc(fp); if (byte == EOF) return EOF_INT; if (i == 0) ret += byte << 8; } } sample_count++; if (bits_sample == 8) return ret-128; // 8bit: 00..FF, centerpoint 0x80=128 if (bits_sample == 16) return (short)ret; return ret; } int par=1, par_alt=1; int read_bits_fsk(FILE *fp, int *bit, int *len) { static int sample; int n, y0; float l, x1; static float x0; n = 0; do{ y0 = sample; sample = read_signed_sample(fp); if (sample == EOF_INT) return EOF; //sample_count++; par_alt = par; par = (sample >= 0) ? 1 : -1; // 8bit: 0..127,128..255 (-128..-1,0..127) n++; } while (par*par_alt > 0); if (!option_res) l = (float)n / samples_per_bit; else { // genauere Bitlaengen-Messung x1 = sample/(float)(sample-y0); // hilft bei niedriger sample rate l = (n+x0-x1) / samples_per_bit; // meist mehr frames (nicht immer) x0 = x1; } *len = (int)(l+0.5); if (!option_inv) *bit = (1+par_alt)/2; // oben 1, unten -1 else *bit = (1-par_alt)/2; // sdr#= 0) ? 1 : -1; // 8bit: 0..127,128..255 (-128..-1,0..127) sum += sample; scount++; } while (scount < bitgrenze); // n < samples_per_bit if (sum >= 0) *bit = 1; else *bit = 0; if (option_inv) *bit ^= 1; return 0; } /* -------------------------------------------------------------------------- */ #define BITS (1+8+1) // 8N1 = 10bit/byte #define HEADLEN 40 #define HEADOFS 0 // CA CA CA 24 52 char header[] = "0010100111""0010100111""0010100111""0001001001"; //"0010010101"; // moeglicherweise auch anderes sync-byte als 0xCA moeglich char sync[] = "0010100111""0010100111""0010100111""0010100111"; // CA CA CA CA #define FRAMESTART 0 #define FRAME_LEN (960+2) // max; min 36+3 GPS #define BITFRAME_LEN (FRAME_LEN*BITS) char buf[HEADLEN]; int bufpos = -1; ui8_t frame_bytes[FRAME_LEN] = { 0x24 }; // = { 0x24, 0x52, ... }; char frame_bits[BITFRAME_LEN+4]; void inc_bufpos() { bufpos = (bufpos+1) % HEADLEN; } char cb_inv(char c) { if (c == '0') return '1'; if (c == '1') return '0'; return c; } int compare2() { int i, j; i = 0; j = bufpos; while (i < HEADLEN) { if (j < 0) j = HEADLEN-1; if (buf[j] != header[HEADOFS+HEADLEN-1-i]) break; j--; i++; } if (i == HEADLEN) return 1; /* i = 0; j = bufpos; while (i < HEADLEN) { if (j < 0) j = HEADLEN-1; if (buf[j] != cb_inv(header[HEADOFS+HEADLEN-1-i])) break; j--; i++; } if (i == HEADLEN) return -1; */ return 0; } int findsync() { int i, j; i = 0; j = bufpos; // SYNCLEN=HEADLEN while (i < HEADLEN) { if (j < 0) j = HEADLEN-1; if (buf[j] != sync[HEADLEN-1-i]) break; j--; i++; } if (i == HEADLEN) return 1; return 0; } int bits2bytes(char *bitstr, ui8_t *bytes) { int i, bit, d, byteval; int bitpos, bytepos; bitpos = 0; bytepos = 0; while (bytepos < FRAME_LEN) { byteval = 0; d = 1; for (i = 1; i < BITS-1; i++) { bit = *(bitstr+bitpos+i); /* little endian */ //bit = *(bitstr+bitpos+BITS-1-i); /* big endian */ if (bit == '\0') goto frame_end; if (bit == '1') byteval += d; else /*if ((bit == '0') */ byteval += 0; d <<= 1; } bitpos += BITS; bytes[bytepos++] = byteval; } frame_end: for (i = bytepos; i < FRAME_LEN; i++) bytes[i] = 0; return bytepos; } /* -------------------------------------------------------------------------- */ int crc16_0(ui8_t frame[], int len) { int crc16poly = 0x1021; int rem = 0x0, i, j; int byte; for (i = 0; i < len; i++) { byte = frame[i]; rem = rem ^ (byte << 8); for (j = 0; j < 8; j++) { if (rem & 0x8000) { rem = (rem << 1) ^ crc16poly; } else { rem = (rem << 1); } rem &= 0xFFFF; } } return rem; } typedef struct { int frnr; int prev_frnr; ui32_t id; int week; int gpstow; int jahr; int monat; int tag; int wday; int std; int min; float sek; double lat; double lon; double alt; double vH; double vD; double vV; double vE; double vN; double vU; //int freq; int jsn_freq; // freq/kHz (SDR) } gpx_t; gpx_t gpx; #define OFS 2 // (0x2452 ..) #define pos_SondeID (OFS+0x02) // 2 byte (LSB) #define pos_FrameNb (OFS+0x04) // 2 byte //GPS Position #define pos_GPSTOW (OFS+0x08) // 4 byte, subframe 0x(2452)54 #define pos_GPSlat (OFS+0x10) // 4 byte, subframe 0x(2452)54 #define pos_GPSlon (OFS+0x14) // 4 byte, subframe 0x(2452)54 #define pos_GPSalt (OFS+0x18) // 4 byte, subframe 0x(2452)54 //GPS Velocity East-North-Up (ENU) #define pos_GPSvO (OFS+0x1C) // 3 byte, subframe 0x(2452)54 #define pos_GPSvN (OFS+0x1F) // 3 byte, subframe 0x(2452)54 #define pos_GPSvV (OFS+0x22) // 3 byte, subframe 0x(2452)54 // full 1680MHz-ID, config-subblock:sonde_id #define pos_FullID (OFS+0x30) // 2+2 byte (LSB,MSB), subframe 0x(2452)4D int check_CRC(int len) { ui32_t crclen = 0, crcdat = 0; /* if (frame_bytes[OFS] == 0x4D) crclen = 67; else if (frame_bytes[OFS] == 0x54) crclen = 172; // 172, 146? variable? Mk2a, LMS6-1680? else crclen = len; */ crclen = len; crcdat = (frame_bytes[crclen]<<8) | frame_bytes[crclen+1]; if ( crcdat != crc16_0(frame_bytes, crclen) ) { return 1; // CRC NO } else return 0; // CRC OK } int get_FrameNb() { int i; unsigned byte; ui8_t frnr_bytes[2]; int frnr; for (i = 0; i < 2; i++) { byte = frame_bytes[pos_FrameNb + i]; frnr_bytes[i] = byte; } frnr = (frnr_bytes[0] << 8) + frnr_bytes[1] ; gpx.frnr = frnr; return 0; } //char weekday[7][3] = { "So", "Mo", "Di", "Mi", "Do", "Fr", "Sa"}; char weekday[7][4] = { "Sun", "Mon", "Tue", "Wed", "Thu", "Fri", "Sat"}; int get_GPStime() { int i; unsigned byte; ui8_t gpstime_bytes[4]; int gpstime = 0, // 32bit day; float ms; for (i = 0; i < 4; i++) { byte = frame_bytes[pos_GPSTOW + i]; gpstime_bytes[i] = byte; } gpstime = 0; for (i = 0; i < 4; i++) { gpstime |= gpstime_bytes[i] << (8*(3-i)); } gpx.gpstow = gpstime; ms = gpstime % 1000; gpstime /= 1000; day = gpstime / (24 * 3600); gpstime %= (24*3600); if ((day < 0) || (day > 6)) return -1; gpx.wday = day; gpx.std = gpstime / 3600; gpx.min = (gpstime % 3600) / 60; gpx.sek = gpstime % 60 + ms/1000.0; return 0; } double B60B60 = 0xB60B60; // 2^32/360 = 0xB60B60.xxx int get_GPSlat() { int i; unsigned byte; ui8_t gpslat_bytes[4]; int gpslat; double lat; for (i = 0; i < 4; i++) { byte = frame_bytes[pos_GPSlat + i]; if (byte > 0xFF) return -1; gpslat_bytes[i] = byte; } gpslat = 0; for (i = 0; i < 4; i++) { gpslat |= gpslat_bytes[i] << (8*(3-i)); } lat = gpslat / B60B60; gpx.lat = lat; return 0; } int get_GPSlon() { int i; unsigned byte; ui8_t gpslon_bytes[4]; int gpslon; double lon; for (i = 0; i < 4; i++) { byte = frame_bytes[pos_GPSlon + i]; if (byte > 0xFF) return -1; gpslon_bytes[i] = byte; } gpslon = 0; for (i = 0; i < 4; i++) { gpslon |= gpslon_bytes[i] << (8*(3-i)); } lon = gpslon / B60B60; gpx.lon = lon; return 0; } int get_GPSalt() { int i; unsigned byte; ui8_t gpsheight_bytes[4]; int gpsheight; double height; for (i = 0; i < 4; i++) { byte = frame_bytes[pos_GPSalt + i]; if (byte > 0xFF) return -1; gpsheight_bytes[i] = byte; } gpsheight = 0; for (i = 0; i < 4; i++) { gpsheight |= gpsheight_bytes[i] << (8*(3-i)); } height = gpsheight / 1000.0; gpx.alt = height; if (height < -100 || height > 60000) return -1; return 0; } int get_GPSvel24() { int i; unsigned byte; ui8_t gpsVel_bytes[3]; int vel24; double vx, vy, vz, dir; //, alpha; for (i = 0; i < 3; i++) { byte = frame_bytes[pos_GPSvO + i]; if (byte > 0xFF) return -1; gpsVel_bytes[i] = byte; } vel24 = gpsVel_bytes[0] << 16 | gpsVel_bytes[1] << 8 | gpsVel_bytes[2]; if (vel24 > (0x7FFFFF)) vel24 -= 0x1000000; vx = vel24 / 1e3; // ost for (i = 0; i < 3; i++) { byte = frame_bytes[pos_GPSvN + i]; if (byte > 0xFF) return -1; gpsVel_bytes[i] = byte; } vel24 = gpsVel_bytes[0] << 16 | gpsVel_bytes[1] << 8 | gpsVel_bytes[2]; if (vel24 > (0x7FFFFF)) vel24 -= 0x1000000; vy= vel24 / 1e3; // nord for (i = 0; i < 3; i++) { byte = frame_bytes[pos_GPSvV + i]; if (byte > 0xFF) return -1; gpsVel_bytes[i] = byte; } vel24 = gpsVel_bytes[0] << 16 | gpsVel_bytes[1] << 8 | gpsVel_bytes[2]; if (vel24 > (0x7FFFFF)) vel24 -= 0x1000000; vz = vel24 / 1e3; // hoch gpx.vE = vx; gpx.vN = vy; gpx.vU = vz; gpx.vH = sqrt(vx*vx+vy*vy); /* alpha = atan2(vy, vx)*180/M_PI; // ComplexPlane (von x-Achse nach links) - GeoMeteo (von y-Achse nach rechts) dir = 90-alpha; // z=x+iy= -> i*conj(z)=y+ix=re(i(pi/2-t)), Achsen und Drehsinn vertauscht if (dir < 0) dir += 360; // atan2(y,x)=atan(y/x)=pi/2-atan(x/y) , atan(1/t) = pi/2 - atan(t) gpx.vD2 = dir; */ dir = atan2(vx, vy) * 180 / M_PI; if (dir < 0) dir += 360; gpx.vD = dir; gpx.vV = vz; return 0; } void print_frame(int len) { int i, crc_err = 0; int flen = len/BITS; for (i = len; i < BITFRAME_LEN; i++) frame_bits[i] = 0; // oder: '0' bits2bytes(frame_bits, frame_bytes+1); while (flen > 2 && frame_bytes[flen-1] == 0xCA) flen--; // if crc != 0xYYCA ... crc_err = check_CRC(flen-2); if (crc_err) { // crc_bytes == sync_bytes? crc_err = check_CRC(flen-1); if (crc_err == 0) flen += 1; else { crc_err = check_CRC(flen); if (crc_err == 0) flen += 2; } } if (option_raw) { for (i = 0; i < flen; i++) printf("%02x ", frame_bytes[i]); if (option_crc) { if (crc_err==0) printf(" [OK]"); else printf(" [NO]"); } printf("\n"); } else { if (frame_bytes[OFS] == 0x4D && len/BITS > pos_FullID+4) { if ( !crc_err ) { if (frame_bytes[pos_SondeID] == frame_bytes[pos_FullID] && frame_bytes[pos_SondeID+1] == frame_bytes[pos_FullID+1]) { ui32_t __id = (frame_bytes[pos_FullID+2]<<24) | (frame_bytes[pos_FullID+3]<<16) | (frame_bytes[pos_FullID] << 8) | frame_bytes[pos_FullID+1]; gpx.id = __id; } } } if (frame_bytes[OFS] == 0x54 && len/BITS > pos_GPSalt+4) { get_FrameNb(); get_GPStime(); get_GPSlat(); get_GPSlon(); get_GPSalt(); if ( !crc_err ) { ui32_t _id = (frame_bytes[pos_SondeID]<<8) | frame_bytes[pos_SondeID+1]; if ((gpx.id & 0xFFFF) != _id) gpx.id = _id; } if (option_verbose && !crc_err) { if (gpx.id & 0xFFFF0000) printf(" (%u)", gpx.id); else if (gpx.id) printf(" (0x%04X)", gpx.id); } printf(" [%5d] ", gpx.frnr); printf("%s ", weekday[gpx.wday]); printf("%02d:%02d:%06.3f ", gpx.std, gpx.min, gpx.sek); // falls Rundung auf 60s: Ueberlauf printf(" lat: %.5f ", gpx.lat); printf(" lon: %.5f ", gpx.lon); printf(" alt: %.2fm ", gpx.alt); get_GPSvel24(); printf(" vH: %.1fm/s D: %.1f vV: %.1fm/s ", gpx.vH, gpx.vD, gpx.vV); //if (option_verbose == 2) printf(" (%.1f ,%.1f,%.1f) ", gpx.vE, gpx.vN, gpx.vU); if (option_crc) { if (crc_err==0) printf(" [OK]"); else printf(" [NO]"); } printf("\n"); if (option_jsn) { // Print JSON output required by auto_rx. if (crc_err==0 && (gpx.id & 0xFFFF0000)) { // CRC-OK and FullID if (gpx.prev_frnr != gpx.frnr) { //|| gpx.id != _id0 // UTC oder GPS? char *ver_jsn = NULL; printf("{ \"type\": \"%s\"", "LMS"); printf(", \"frame\": %d, \"id\": \"LMS6-%d\", \"datetime\": \"%02d:%02d:%06.3fZ\", \"lat\": %.5f, \"lon\": %.5f, \"alt\": %.5f, \"vel_h\": %.5f, \"heading\": %.5f, \"vel_v\": %.5f", gpx.frnr, gpx.id, gpx.std, gpx.min, gpx.sek, gpx.lat, gpx.lon, gpx.alt, gpx.vH, gpx.vD, gpx.vV ); printf(", \"subtype\": \"%s\"", "MK2A"); if (gpx.jsn_freq > 0) { printf(", \"freq\": %d", gpx.jsn_freq); } #ifdef VER_JSN_STR ver_jsn = VER_JSN_STR; #endif if (ver_jsn && *ver_jsn != '\0') printf(", \"version\": \"%s\"", ver_jsn); printf(" }\n"); printf("\n"); gpx.prev_frnr = gpx.frnr; } } } } } } int main(int argc, char **argv) { FILE *fp; char *fpname; int i, bit, len; int pos; int header_found = 0; int cfreq = -1; fpname = argv[0]; ++argv; while ((*argv) && (!wavloaded)) { if ( (strcmp(*argv, "-h") == 0) || (strcmp(*argv, "--help") == 0) ) { fprintf(stderr, "%s [options] audio.wav\n", fpname); fprintf(stderr, " options:\n"); fprintf(stderr, " -v, --verbose\n"); fprintf(stderr, " -r, --raw\n"); return 0; } else if ( (strcmp(*argv, "-v") == 0) || (strcmp(*argv, "--verbose") == 0) ) { option_verbose = 1; } //else if ( (strcmp(*argv, "-vv") == 0) ) option_verbose = 2; else if ( (strcmp(*argv, "-r") == 0) || (strcmp(*argv, "--raw") == 0) ) { option_raw = 1; } else if ( (strcmp(*argv, "-i") == 0) || (strcmp(*argv, "--invert") == 0) ) { option_inv = 1; } else if (strcmp(*argv, "-b" ) == 0) { option_b = 1; } else if (strcmp(*argv, "--crc") == 0) { option_crc = 1; } else if (strcmp(*argv, "--res") == 0) { option_res = 1; } else if (strcmp(*argv, "--json") == 0) { option_jsn = 1; option_crc = 1; option_verbose = 1; } else if (strcmp(*argv, "--jsn_cfq") == 0) { int frq = -1; // center frequency / Hz ++argv; if (*argv) frq = atoi(*argv); else return -1; if (frq < 300000000) frq = -1; cfreq = frq; } else { fp = fopen(*argv, "rb"); if (fp == NULL) { fprintf(stderr, "%s konnte nicht geoeffnet werden\n", *argv); return -1; } wavloaded = 1; } ++argv; } if (!wavloaded) fp = stdin; gpx.jsn_freq = 0; if (cfreq > 0) gpx.jsn_freq = (cfreq+500)/1000; i = read_wav_header(fp); if (i) { fclose(fp); return -1; } pos = FRAMESTART; while (!read_bits_fsk(fp, &bit, &len)) { if (len == 0) { // reset_frame(); if (pos > BITS*(pos_GPSalt+4)) { print_frame(pos); header_found = 0; pos = FRAMESTART; } //inc_bufpos(); //buf[bufpos] = 'x'; continue; // ... } for (i = 0; i < len; i++) { inc_bufpos(); buf[bufpos] = bit + 0x30; if (!header_found) { header_found = compare2(); } else { frame_bits[pos] = bit + 0x30; pos++; if ( pos == BITFRAME_LEN || findsync() ) { print_frame(pos);//FRAME_LEN header_found = 0; pos = FRAMESTART; } } } if (header_found && option_b==1) { bitstart = 1; while ( pos < BITFRAME_LEN && !findsync()) { if (read_rawbit(fp, &bit) == EOF) break; inc_bufpos(); buf[bufpos] = bit + 0x30; frame_bits[pos] = bit + 0x30; pos++; } frame_bits[pos] = '\0'; print_frame(pos);//FRAME_LEN header_found = 0; pos = FRAMESTART; } } printf("\n"); fclose(fp); return 0; }