diff --git a/auto_rx/auto_rx.py b/auto_rx/auto_rx.py index bfbbf42..1d08878 100644 --- a/auto_rx/auto_rx.py +++ b/auto_rx/auto_rx.py @@ -459,7 +459,7 @@ def telemetry_filter(telemetry): meisei_callsign_valid = False # If Vaisala or DFMs, check the callsigns are valid. If M10, iMet or LMS6, just pass it through. - if vaisala_callsign_valid or dfm_callsign_valid or meisei_callsign_valid or ('M10' in telemetry['type']) or ('MK2LMS' in telemetry['type']) or ('LMS6' in telemetry['type']) or ('iMet' in telemetry['type']) or ('UDP' in telemetry['type']): + if vaisala_callsign_valid or dfm_callsign_valid or meisei_callsign_valid or ('M10' in telemetry['type']) or ('LMS' in telemetry['type']) or ('IMET' in telemetry['type']): return True else: _id_msg = "Payload ID %s is invalid." % telemetry['id'] diff --git a/auto_rx/autorx/aprs.py b/auto_rx/autorx/aprs.py index 3d8a18e..5f40fea 100644 --- a/auto_rx/autorx/aprs.py +++ b/auto_rx/autorx/aprs.py @@ -61,11 +61,11 @@ def telemetry_to_aprs_position(sonde_data, object_name="", aprs_comment="BOM # Use the generated id same as dxlAPRS _object_name = sonde_data['aprsid'] - elif 'iMet' in sonde_data['type']: + elif 'IMET' in sonde_data['type']: # Use the last 5 characters of the unique ID we have generated. _object_name = "IMET" + sonde_data['id'][-5:] - elif ('MK2LMS' in sonde_data['type']) or ('LMS6' in sonde_data['type']): + elif 'LMS' in sonde_data['type']: # Use the last 5 hex digits of the sonde ID. _id_suffix = int(sonde_data['id'].split('-')[1]) _id_hex = hex(_id_suffix).upper() @@ -83,6 +83,7 @@ def telemetry_to_aprs_position(sonde_data, object_name="", aprs_comment="BOM # New Sonde types will be added in here. else: # Unknown sonde type, don't know how to handle this yet. + logging.error('No APRS ID conversion available for sonde type: %s' % sonde_data['type']) return (None, None) else: _object_name = object_name diff --git a/auto_rx/autorx/decode.py b/auto_rx/autorx/decode.py index f97d725..e3a8e5f 100644 --- a/auto_rx/autorx/decode.py +++ b/auto_rx/autorx/decode.py @@ -793,6 +793,12 @@ class SondeDecoder(object): self.log_error("Invalid date/time in telemetry dict - %s (Sonde may not have GPS lock)" % str(e)) return False + if self.sonde_type == 'UDP': + # If we are accepting sondes via UDP, we make use of the 'type' field provided by + # the decoder. + # Note that the types returned by the + self.sonde_type = _telemetry['type'] + # Add in the sonde type field. if 'subtype' in _telemetry: if self.sonde_type == 'RS41': @@ -817,13 +823,15 @@ class SondeDecoder(object): _telemetry['sdr_device_idx'] = self.device_idx # Check for an 'aux' field, this indicates that the sonde has an auxilliary payload, - # which is most likely an Ozone sensor. We append -Ozone to the sonde type field to indicate this. + # which is most likely an Ozone sensor (though could be something different!) + # We append -Ozone to the sonde type field to indicate this. + # TODO: Decode device ID from aux field to indicate what the aux payload actually is? if 'aux' in _telemetry: _telemetry['type'] += "-Ozone" # iMet Specific actions - if self.sonde_type == 'iMet': + if self.sonde_type == 'IMET': # Check we have GPS lock. if _telemetry['sats'] < 4: # No GPS lock means an invalid time, which means we can't accurately calculate a unique ID. @@ -842,8 +850,8 @@ class SondeDecoder(object): _telemetry['station_code'] = self.imet_location - # LMS6 Specific Actions - if self.sonde_type == 'MK2LMS' or self.sonde_type == 'LMS6': + # LMS Specific Actions (LMS6, MK2LMS) + if 'LMS' in self.sonde_type: # We are only provided with HH:MM:SS, so the timestamp needs to be fixed, just like with the iMet sondes _telemetry['datetime_dt'] = fix_datetime(_telemetry['datetime']) diff --git a/auto_rx/autorx/habitat.py b/auto_rx/autorx/habitat.py index d1c1a00..3212cfd 100644 --- a/auto_rx/autorx/habitat.py +++ b/auto_rx/autorx/habitat.py @@ -101,13 +101,6 @@ def sonde_telemetry_to_sentence(telemetry, payload_callsign=None, comment=None): if (telemetry['bt'] != -1) and (telemetry['bt'] != 65535): _sentence += " BT %s" % time.strftime("%H:%M:%S", time.gmtime(telemetry['bt'])) - # NOTE: Disabled as of 2019-09-21 - # Add on the station code, which will only be present if we are receiving an iMet sonde. - # This may assist multiple receiving stations in the vicinity of an iMet launch site coordinate - # the iMet unique ID generation. - #if 'station_code' in telemetry: - # _sentence += " LOC: %s" % telemetry['station_code'] - # Add on any custom comment data if provided. if comment != None: comment = comment.replace(',','_') diff --git a/auto_rx/autorx/scan.py b/auto_rx/autorx/scan.py index 895ef9c..7e7a6f7 100644 --- a/auto_rx/autorx/scan.py +++ b/auto_rx/autorx/scan.py @@ -197,6 +197,7 @@ def detect_sonde(frequency, rs_path="./", dwell_time=10, sdr_fm='rtl_fm', device 'RS92' - Vaisala RS92 'DFM' - Graw DFM06 / DFM09 (similar telemetry formats) 'M10' - MeteoModem M10 + 'M20' - MeteoModem M20 'iMet' - interMet iMet 'MK2LMS' - LMS6, 1680 MHz variant (using MK2A 9600 baud telemetry) @@ -345,9 +346,12 @@ def detect_sonde(frequency, rs_path="./", dwell_time=10, sdr_fm='rtl_fm', device elif 'M10' in _type: logging.debug("Scanner #%s - Detected a M10 Sonde! (Score: %.2f, Offset: %.1f Hz)" % (str(device_idx), _score, _offset_est)) _sonde_type = "M10" + elif 'M20' in _type: + logging.debug("Scanner #%s - Detected a M20 Sonde! (Not yet supported...) (Score: %.2f, Offset: %.1f Hz)" % (str(device_idx), _score, _offset_est)) + _sonde_type = "M20" elif 'IMET4' in _type: logging.debug("Scanner #%s - Detected a iMet-4 Sonde! (Score: %.2f, Offset: %.1f Hz)" % (str(device_idx), _score, _offset_est)) - _sonde_type = "iMet" + _sonde_type = "IMET" elif 'IMET1' in _type: logging.debug("Scanner #%s - Detected a iMet Sonde! (Type %s - Unsupported) (Score: %.2f)" % (str(device_idx), _type, _score)) _sonde_type = "IMET1" @@ -355,7 +359,7 @@ def detect_sonde(frequency, rs_path="./", dwell_time=10, sdr_fm='rtl_fm', device logging.debug("Scanner #%s - Detected a LMS6 Sonde! (Score: %.2f, Offset: %.1f Hz)" % (str(device_idx), _score, _offset_est)) _sonde_type = "LMS6" elif 'C34' in _type: - logging.debug("Scanner #%s - Detected a Meteolabor C34/C50 Sonde! (Unsupported) (Score: %.2f)" % (str(device_idx), _score)) + logging.debug("Scanner #%s - Detected a Meteolabor C34/C50 Sonde! (Not yet supported...) (Score: %.2f)" % (str(device_idx), _score)) _sonde_type = "C34C50" elif 'MK2LMS' in _type: logging.debug("Scanner #%s - Detected a 1680 MHz LMS6 Sonde (MK2A Telemetry)! (Score: %.2f, Offset: %.1f Hz)" % (str(device_idx), _score, _offset_est)) diff --git a/auto_rx/build.sh b/auto_rx/build.sh index 3631730..b3c2a4d 100755 --- a/auto_rx/build.sh +++ b/auto_rx/build.sh @@ -27,6 +27,7 @@ gcc lms6mod.c demod_mod.o bch_ecc_mod.o -lm -o lms6mod -w gcc lms6Xmod.c demod_mod.o bch_ecc_mod.o -lm -o lms6Xmod -w gcc meisei100mod.c demod_mod.o bch_ecc_mod.o -lm -o meisei100mod -w gcc m10mod.c demod_mod.o -lm -o m10mod -w +gcc mXXmod.c demod_mod.o -lm -o mXXmod -w # Build LMS6-1680 Decoder echo "Building LMS6-1680 Demodulator." diff --git a/demod/mod/README.md b/demod/mod/README.md index eef06db..2456c54 100644 --- a/demod/mod/README.md +++ b/demod/mod/README.md @@ -20,9 +20,43 @@ alternative decoders using cross-correlation for better header-synchronization `gcc rs92mod.c demod_mod.o bch_ecc_mod.o -lm -o rs92mod` (needs `RS/rs92/nav_gps_vel.c`) #### Usage/Examples - `./rs41mod --ecc2 --crc -vx --ptu `
- `./dfm09mod --ecc -v --ptu ` (add `-i` for dfm06)
+ `./rs41mod --ecc2 -vx --ptu `
+ `./dfm09mod --ecc -v --ptu ` (add `-i` for dfm06; or use `--auto`)
`./m10mod --dc -vv --ptu -c `
`./lms6Xmod --vit --ecc -v `
+ IQ data:
+ If the IQ data is downsampled and centered (IF band), use
+ `./rs41mod --iq2 `
+ or with lowpass filter
+ `./rs41mod --iq2 --lp `
+ For baseband IQ data, use + `./rs41mod --IQ `
+ where `` is the relative frequency in `-0.5 .. 0.5`; + e.g. if the receiver is tuned to 403MHz and the (complex) sample rate is 2MHz, + a signal at 402.5MHz would be -0.5MHz off, i.e. ` = -0.5/2 = -0.25`.
+ For IQ data (i.e. 2 channels) it is possible to read raw data (without wav header):
+ `./rs41mod --IQ - `
+      ``: sample rate
+      `=8,16,32`: bits per (real) sample (u8, s16 or f32) + +#### Remarks + FM-demodulation is sensitive to noise at higher frequencies. A narrow low-pass filter is needed before demodulation. + For weak signals and higher modulation indices IQ-decoding is usually better. +
+ + DFM:
+ The high modulation index has advantages in IQ-decoding.
+ `--ecc2` uses soft decision for 2-error words. If weak signals frequently produce errors, it is likely that + more than 2 errors occur in a received word. Since there is no additional frame protection (e.g. CRC), the + frames will not be decoded reliably in weak conditions. The `--dist` option has a thredshold for the number + of errors per packet. +
+ + LMS6-403:
+ `lms6Xmod_soft.c` (testing) provides a soft viterbi decoding option `--vit2`; + IQ-decoding is recommended for soft decoding (noisy/spikey FM-signals don't always help soft decision). + The difference between hard and soft viterbi becomes only apparent at lower SNR. The inner convolutional + code does most of the error correction. The concatenated outer Reed-Solomon code kicks in only at low SNR. + diff --git a/demod/mod/bch_ecc_mod.h b/demod/mod/bch_ecc_mod.h index d52a423..da303ad 100644 --- a/demod/mod/bch_ecc_mod.h +++ b/demod/mod/bch_ecc_mod.h @@ -42,35 +42,35 @@ typedef struct { } RS_t; -static GF_t GF256RS = { f : 0x11D, // RS-GF(2^8): X^8 + X^4 + X^3 + X^2 + 1 : 0x11D - ord : 256, // 2^8 - alpha: 0x02, // generator: alpha = X - exp_a: {0}, - log_a: {0} }; +static GF_t GF256RS = { .f = 0x11D, // RS-GF(2^8): X^8 + X^4 + X^3 + X^2 + 1 : 0x11D + .ord = 256, // 2^8 + .alpha = 0x02, // generator: alpha = X + .exp_a = {0}, + .log_a = {0} }; -static GF_t GF256RSccsds = { f : 0x187, // RS-GF(2^8): X^8 + X^7 + X^2 + X + 1 : 0x187 - ord : 256, // 2^8 - alpha: 0x02, // generator: alpha = X - exp_a: {0}, - log_a: {0} }; +static GF_t GF256RSccsds = { .f = 0x187, // RS-GF(2^8): X^8 + X^7 + X^2 + X + 1 : 0x187 + .ord = 256, // 2^8 + .alpha = 0x02, // generator: alpha = X + .exp_a = {0}, + .log_a = {0} }; -static GF_t GF64BCH = { f : 0x43, // BCH-GF(2^6): X^6 + X + 1 : 0x43 - ord : 64, // 2^6 - alpha: 0x02, // generator: alpha = X - exp_a: {0}, - log_a: {0} }; +static GF_t GF64BCH = { .f = 0x43, // BCH-GF(2^6): X^6 + X + 1 : 0x43 + .ord = 64, // 2^6 + .alpha = 0x02, // generator: alpha = X + .exp_a = {0}, + .log_a = {0} }; -static GF_t GF16RS = { f : 0x13, // RS-GF(2^4): X^4 + X + 1 : 0x13 - ord : 16, // 2^4 - alpha: 0x02, // generator: alpha = X - exp_a: {0}, - log_a: {0} }; +static GF_t GF16RS = { .f = 0x13, // RS-GF(2^4): X^4 + X + 1 : 0x13 + .ord = 16, // 2^4 + .alpha = 0x02, // generator: alpha = X + .exp_a = {0}, + .log_a = {0} }; -static GF_t GF256AES = { f : 0x11B, // AES-GF(2^8): X^8 + X^4 + X^3 + X + 1 : 0x11B - ord : 256, // 2^8 - alpha: 0x03, // generator: alpha = X+1 - exp_a: {0}, - log_a: {0} }; +static GF_t GF256AES = { .f = 0x11B, // AES-GF(2^8): X^8 + X^4 + X^3 + X + 1 : 0x11B + .ord = 256, // 2^8 + .alpha = 0x03, // generator: alpha = X+1 + .exp_a = {0}, + .log_a = {0} }; static RS_t RS256 = { 255, 12, 24, 231, 0, 1, 1, {0}, {0} }; diff --git a/demod/mod/demod_mod.c b/demod/mod/demod_mod.c index b9b711c..1d6504d 100644 --- a/demod/mod/demod_mod.c +++ b/demod/mod/demod_mod.c @@ -3,6 +3,10 @@ * sync header: correlation/matched filter * compile: * gcc -c demod_mod.c + * speedup: + * gcc -O2 -c demod_mod.c + * or + * gcc -Ofast -c demod_mod.c * * author: zilog80 */ @@ -509,7 +513,7 @@ static int lowpass_init(float f, int taps, float **pws) { h = (double*)calloc( taps+1, sizeof(double)); if (h == NULL) return -1; w = (double*)calloc( taps+1, sizeof(double)); if (w == NULL) return -1; - ws = (float*)calloc( taps+1, sizeof(float)); if (ws == NULL) return -1; + ws = (float*)calloc( 2*taps+1, sizeof(float)); if (ws == NULL) return -1; for (n = 0; n < taps; n++) { w[n] = 7938/18608.0 - 9240/18608.0*cos(2*M_PI*n/(taps-1)) + 1430/18608.0*cos(4*M_PI*n/(taps-1)); // Blackmann @@ -520,6 +524,9 @@ static int lowpass_init(float f, int taps, float **pws) { for (n = 0; n < taps; n++) { ws[n] /= norm; // 1-norm } + + for (n = 0; n < taps; n++) ws[taps+n] = ws[n]; // duplicate/unwrap + *pws = ws; free(h); h = NULL; @@ -551,13 +558,15 @@ static int lowpass_update(float f, int taps, float *ws) { ws[n] /= norm; // 1-norm } + for (n = 0; n < taps; n++) ws[taps+n] = ws[n]; + free(h); h = NULL; free(w); w = NULL; return taps; } -static float complex lowpass(float complex buffer[], ui32_t sample, ui32_t taps, float *ws) { +static float complex lowpass0(float complex buffer[], ui32_t sample, ui32_t taps, float *ws) { ui32_t n; double complex w = 0; for (n = 0; n < taps; n++) { @@ -565,8 +574,18 @@ static float complex lowpass(float complex buffer[], ui32_t sample, ui32_t taps, } return (float complex)w; } +static float complex lowpass(float complex buffer[], ui32_t sample, ui32_t taps, float *ws) { + ui32_t n; + ui32_t s = sample % taps; + double complex w = 0; + for (n = 0; n < taps; n++) { + w += buffer[n]*ws[taps+s-n]; // ws[taps+s-n] = ws[(taps+sample-n)%taps] + } + return (float complex)w; +// symmetry: ws[n] == ws[taps-1-n] +} -static float re_lowpass(float buffer[], ui32_t sample, ui32_t taps, float *ws) { +static float re_lowpass0(float buffer[], ui32_t sample, ui32_t taps, float *ws) { ui32_t n; double w = 0; for (n = 0; n < taps; n++) { @@ -574,6 +593,15 @@ static float re_lowpass(float buffer[], ui32_t sample, ui32_t taps, float *ws) { } return (float)w; } +static float re_lowpass(float buffer[], ui32_t sample, ui32_t taps, float *ws) { + ui32_t n; + ui32_t s = sample % taps; + double w = 0; + for (n = 0; n < taps; n++) { + w += buffer[n]*ws[taps+s-n]; // ws[taps+s-n] = ws[(taps+sample-n)%taps] + } + return (float)w; +} int f32buf_sample(dsp_t *dsp, int inv) { @@ -807,7 +835,7 @@ int read_slbit(dsp_t *dsp, int *bit, int inv, int ofs, int pos, float l, int spi } sample -= dc; - if ( l < 0 || (mid-l < dsp->sc && dsp->sc < mid+l)) sum -= sample; + if (l < 0 || (mid-l < dsp->sc && dsp->sc < mid+l)) sum -= sample; dsp->sc++; } while (dsp->sc < bg); // n < dsp->sps @@ -825,9 +853,9 @@ int read_slbit(dsp_t *dsp, int *bit, int inv, int ofs, int pos, float l, int spi +dsp->bufs[(dsp->sample_out-dsp->buffered+1 + ofs + dsp->M) % dsp->M]); sample = avg + scale*(sample - avg); // spikes } - sample -= dc; + sample -= dc; - if ( l < 0 || (mid-l < dsp->sc && dsp->sc < mid+l)) sum += sample; + if (l < 0 || (mid-l < dsp->sc && dsp->sc < mid+l)) sum += sample; dsp->sc++; } while (dsp->sc < bg); // n < dsp->sps @@ -839,6 +867,81 @@ int read_slbit(dsp_t *dsp, int *bit, int inv, int ofs, int pos, float l, int spi return 0; } +int read_softbit(dsp_t *dsp, hsbit_t *shb, int inv, int ofs, int pos, float l, int spike) { +// symlen==2: manchester2 10->0,01->1: 2.bit + + float sample; + float avg; + float ths = 0.5, scale = 0.27; + + double sum = 0.0; + double mid; + //double l = 1.0; + + double bg = pos*dsp->symlen*dsp->sps; + double dc = 0.0; + + ui8_t bit = 0; + + + if (dsp->opt_dc && dsp->opt_iq < 2) dc = dsp->dc; + + if (pos == 0) { + bg = 0; + dsp->sc = 0; + } + + + if (dsp->symlen == 2) { + mid = bg + (dsp->sps-1)/2.0; + bg += dsp->sps; + do { + if (dsp->buffered > 0) dsp->buffered -= 1; + else if (f32buf_sample(dsp, inv) == EOF) return EOF; + + sample = dsp->bufs[(dsp->sample_out-dsp->buffered + ofs + dsp->M) % dsp->M]; + if (spike && fabs(sample - avg) > ths) { + avg = 0.5*(dsp->bufs[(dsp->sample_out-dsp->buffered-1 + ofs + dsp->M) % dsp->M] + +dsp->bufs[(dsp->sample_out-dsp->buffered+1 + ofs + dsp->M) % dsp->M]); + sample = avg + scale*(sample - avg); // spikes + } + sample -= dc; + + if (l < 0 || (mid-l < dsp->sc && dsp->sc < mid+l)) sum -= sample; + + dsp->sc++; + } while (dsp->sc < bg); // n < dsp->sps + } + + mid = bg + (dsp->sps-1)/2.0; + bg += dsp->sps; + do { + if (dsp->buffered > 0) dsp->buffered -= 1; + else if (f32buf_sample(dsp, inv) == EOF) return EOF; + + sample = dsp->bufs[(dsp->sample_out-dsp->buffered + ofs + dsp->M) % dsp->M]; + if (spike && fabs(sample - avg) > ths) { + avg = 0.5*(dsp->bufs[(dsp->sample_out-dsp->buffered-1 + ofs + dsp->M) % dsp->M] + +dsp->bufs[(dsp->sample_out-dsp->buffered+1 + ofs + dsp->M) % dsp->M]); + sample = avg + scale*(sample - avg); // spikes + } + sample -= dc; + + if (l < 0 || (mid-l < dsp->sc && dsp->sc < mid+l)) sum += sample; + + dsp->sc++; + } while (dsp->sc < bg); // n < dsp->sps + + + if (sum >= 0) bit = 1; + else bit = 0; + + shb->hb = bit; + shb->sb = (float)sum; + + return 0; +} + /* -------------------------------------------------------------------------- */ #define IF_SAMPLE_RATE 48000 diff --git a/demod/mod/demod_mod.h b/demod/mod/demod_mod.h index addd6cc..bfe3a14 100644 --- a/demod/mod/demod_mod.h +++ b/demod/mod/demod_mod.h @@ -3,6 +3,11 @@ #include #include +#ifndef M_PI + #define M_PI (3.1415926535897932384626433832795) +#endif + + typedef unsigned char ui8_t; typedef unsigned short ui16_t; typedef unsigned int ui32_t; @@ -133,10 +138,17 @@ typedef struct { } pcm_t; +typedef struct { + ui8_t hb; + float sb; +} hsbit_t; + + float read_wav_header(pcm_t *, FILE *); int f32buf_sample(dsp_t *, int); int read_slbit(dsp_t *, int*, int, int, int, float, int); +int read_softbit(dsp_t *, hsbit_t *, int, int, int, float, int ); int init_buffers(dsp_t *); int free_buffers(dsp_t *); diff --git a/demod/mod/dfm09mod.c b/demod/mod/dfm09mod.c index 9bfed88..d5372d5 100644 --- a/demod/mod/dfm09mod.c +++ b/demod/mod/dfm09mod.c @@ -68,7 +68,7 @@ typedef struct { float status[2]; float _frmcnt; char sonde_id[16]; // "ID__:xxxxxxxx\0\0" - char frame_bits[BITFRAME_LEN+4]; + hsbit_t frame[BITFRAME_LEN+4]; // char frame_bits[BITFRAME_LEN+4]; char dat_str[9][13+1]; sn_t snc; pcksts_t pck[9]; @@ -98,6 +98,15 @@ static char dfm_header[] = "0100010111001111"; #define DAT2 (16+160) // 104 bit // frame: 280 bit +static ui8_t G[8][4] = // Generator + {{ 1, 0, 0, 0}, + { 0, 1, 0, 0}, + { 0, 0, 1, 0}, + { 0, 0, 0, 1}, + { 0, 1, 1, 1}, + { 1, 0, 1, 1}, + { 1, 1, 0, 1}, + { 1, 1, 1, 0}}; static ui8_t H[4][8] = // Parity-Check {{ 0, 1, 1, 1, 1, 0, 0, 0}, { 1, 0, 1, 1, 0, 1, 0, 0}, @@ -105,6 +114,28 @@ static ui8_t H[4][8] = // Parity-Check { 1, 1, 1, 0, 0, 0, 0, 1}}; static ui8_t He[8] = { 0x7, 0xB, 0xD, 0xE, 0x8, 0x4, 0x2, 0x1}; // Spalten von H: // 1-bit-error-Syndrome +static ui8_t codewords[16][8]; // (valid) Hamming codewords + +static int nib4bits(ui8_t nib, ui8_t *bits) { // big endian + int j; + + nib &= 0xF; + for (j = 0; j < 4; j++) { + bits[j] = (nib>>(3-j)) & 0x1; + } + return 0; +} + +static int gencode(ui8_t msg[4], ui8_t code[8]) { + int i, j; // Gm=c + for (i = 0; i < 8; i++) { + code[i] = 0; + for (j = 0; j < 4; j++) { + code[i] ^= G[i][j] & msg[j]; + } + } + return 0; +} static ui32_t bits2val(ui8_t *bits, int len) { // big endian int j; @@ -117,18 +148,16 @@ static ui32_t bits2val(ui8_t *bits, int len) { // big endian return val; } -static void deinterleave(char *str, int L, ui8_t *block) { +static void deinterleave(hsbit_t *str, int L, hsbit_t *block) { int i, j; for (j = 0; j < B; j++) { // L = 7, 13 for (i = 0; i < L; i++) { - if (str[L*j+i] >= 0x30 && str[L*j+i] <= 0x31) { - block[B*i+j] = str[L*j+i] - 0x30; // ASCII -> bit - } + block[B*i+j] = str[L*j+i]; } } } -static int check(ui8_t code[8]) { +static int check(int opt_ecc, hsbit_t code[8]) { int i, j; // Bei Demodulierung durch Nulldurchgaenge, wenn durch Fehler ausser Takt, ui32_t synval = 0; // verschieben sich die bits. Fuer Hamming-Decode waere es besser, ui8_t syndrom[4]; // sync zu Beginn mit Header und dann Takt beibehalten fuer decision. @@ -137,7 +166,7 @@ static int check(ui8_t code[8]) { for (i = 0; i < 4; i++) { // S = 4 syndrom[i] = 0; for (j = 0; j < 8; j++) { // B = 8 - syndrom[i] ^= H[i][j] & code[j]; + syndrom[i] ^= H[i][j] & code[j].hb; } } synval = bits2val(syndrom, 4); @@ -151,22 +180,67 @@ static int check(ui8_t code[8]) { } } else ret = 0; - if (ret > 0) code[ret-1] ^= 0x1; + + if (ret > 0) code[ret-1].hb ^= 0x1; // d=1: 1-bit-error + else if (ret < 0 && opt_ecc == 2) { // d=2: 2-bit-error: soft decision + // Hamming(8,4) + // 256 words: + // 16 codewords + // 16*8=128 1-error words (dist=1) + // 16*7=112 2-error words (dist=2) + // each 2-error word has 4 codewords w/ dist=2, + // choose best match/correlation + int n; + int maxn = -1; + int d = 0; + float sum = 0.0; + float maxsum = 0.0; + /* + sum = 0.0; // s<0: h=0 , s>0: h=1 + for (i = 0; i < 8; i++) { // h\in{0,1} -> 2h-1\in{-1,+1} + sum += (2*code[i].hb-1)*code[i].sb; // i.e. sum_i |s_i| + } // original score + */ + for (n = 0; n < 16; n++) { + d = 0; + for (i = 0; i < 8; i++) { // d(a,b) = sum_i a[i]^b[i] + if (code[i].hb != codewords[n][i]) d++; + } + if (d == 2) { // check dist=2 codewords - in principle, all codewords could be tested + // softbits correlation: + // - interleaving + // + no pulse-shaping -> sum + sum = 0.0; + for (i = 0; i < 8; i++) { + sum += (2*codewords[n][i]-1) * code[i].sb; + } + if (sum >= maxsum) { // best match + maxsum = sum; + maxn = n; + } + } + } + if (maxn >= 0) { + for (i = 0; i < 8; i++) { + if (code[i].hb = codewords[maxn][i]); + } + } + } return ret; } -static int hamming(int opt_ecc, ui8_t *ham, int L, ui8_t *sym) { +static int hamming(int opt_ecc, hsbit_t *ham, int L, ui8_t *sym) { int i, j; int ecc = 0, ret = 0; // L = 7, 13 for (i = 0; i < L; i++) { // L * 2 nibble (data+parity) if (opt_ecc) { - ecc = check(ham+B*i); + ecc = check(opt_ecc, ham+B*i); if (ecc > 0) ret |= (1<status[1] = val/100.0; } } + else { + gpx->status[0] = 0; + gpx->status[1] = 0; + } + return ret; } @@ -668,8 +747,12 @@ static void print_gpx(gpx_t *gpx) { } // Print JSON blob // valid sonde_ID? - printf("{ \"frame\": %d, \"id\": \"%s\", \"datetime\": \"%04d-%02d-%02dT%02d:%02d:%06.3fZ\", \"lat\": %.5f, \"lon\": %.5f, \"alt\": %.5f, \"vel_h\": %.5f, \"heading\": %.5f, \"vel_v\": %.5f, \"batt\": %.2f", - gpx->frnr, json_sonde_id, gpx->jahr, gpx->monat, gpx->tag, gpx->std, gpx->min, gpx->sek, gpx->lat, gpx->lon, gpx->alt, gpx->horiV, gpx->dir, gpx->vertV, gpx->status[0]); + printf("{ \"type\": \"%s\"", "DFM"); + printf(", \"frame\": %d, \"id\": \"%s\", \"datetime\": \"%04d-%02d-%02dT%02d:%02d:%06.3fZ\", \"lat\": %.5f, \"lon\": %.5f, \"alt\": %.5f, \"vel_h\": %.5f, \"heading\": %.5f, \"vel_v\": %.5f", + gpx->frnr, json_sonde_id, gpx->jahr, gpx->monat, gpx->tag, gpx->std, gpx->min, gpx->sek, gpx->lat, gpx->lon, gpx->alt, gpx->horiV, gpx->dir, gpx->vertV); + if (gpx->ptu_out >= 0xA && gpx->status[0] > 0) { // DFM>=09(P): Battery (STM32) + printf(", \"batt\": %.2f", gpx->status[0]); + } if (gpx->ptu_out) { // get temperature float t = get_Temp(gpx); // ecc-valid temperature? if (t > -270.0) printf(", \"temp\": %.1f", t); @@ -691,17 +774,17 @@ static int print_frame(gpx_t *gpx) { int ret0, ret1, ret2; int ret = 0; - ui8_t hamming_conf[ 7*B]; // 7*8=56 - ui8_t hamming_dat1[13*B]; // 13*8=104 - ui8_t hamming_dat2[13*B]; + hsbit_t hamming_conf[ 7*B]; // 7*8=56 + hsbit_t hamming_dat1[13*B]; // 13*8=104 + hsbit_t hamming_dat2[13*B]; ui8_t block_conf[ 7*S]; // 7*4=28 ui8_t block_dat1[13*S]; // 13*4=52 ui8_t block_dat2[13*S]; - deinterleave(gpx->frame_bits+CONF, 7, hamming_conf); - deinterleave(gpx->frame_bits+DAT1, 13, hamming_dat1); - deinterleave(gpx->frame_bits+DAT2, 13, hamming_dat2); + deinterleave(gpx->frame+CONF, 7, hamming_conf); + deinterleave(gpx->frame+DAT1, 13, hamming_dat1); + deinterleave(gpx->frame+DAT2, 13, hamming_dat2); ret0 = hamming(gpx->option.ecc, hamming_conf, 7, block_conf); ret1 = hamming(gpx->option.ecc, hamming_dat1, 13, block_dat1); @@ -750,14 +833,14 @@ static int print_frame(gpx_t *gpx) { } else if (gpx->option.ecc) { - if (ret0 == 0 || ret0 > 0) { + if (ret0 == 0 || ret0 > 0 || gpx->option.ecc == 2) { conf_out(gpx, block_conf, ret0); } - if (ret1 == 0 || ret1 > 0) { + if (ret1 == 0 || ret1 > 0 || gpx->option.ecc == 2) { frid = dat_out(gpx, block_dat1, ret1); if (frid == 8) print_gpx(gpx); } - if (ret2 == 0 || ret2 > 0) { + if (ret2 == 0 || ret2 > 0 || gpx->option.ecc == 2) { frid = dat_out(gpx, block_dat2, ret2); if (frid == 8) print_gpx(gpx); } @@ -866,7 +949,7 @@ int main(int argc, char **argv) { int ret = 0; int k; - int bit; + hsbit_t hsbit; int bitpos = 0; int bitQ; int pos; @@ -926,7 +1009,8 @@ int main(int argc, char **argv) { else if ( (strcmp(*argv, "-i") == 0) || (strcmp(*argv, "--invert") == 0) ) { option_inv = 0x1; } - else if ( (strcmp(*argv, "--ecc") == 0) ) { option_ecc = 1; } + else if ( (strcmp(*argv, "--ecc" ) == 0) ) { option_ecc = 1; } + else if ( (strcmp(*argv, "--ecc2") == 0) ) { option_ecc = 2; } else if ( (strcmp(*argv, "--ptu") == 0) ) { option_ptu = 1; //gpx.ptu_out = 1; // force ptu (non PS-15) @@ -1002,9 +1086,31 @@ int main(int argc, char **argv) { } if (!wavloaded) fp = stdin; + // ecc2-soft_decision accepts also 2-error words, + // so the probability for 3 errors is high and will + // produce wrong codewords. hence ecc2 is not recommended + // for reliable frame decoding. + // + if ( option_dist || option_json ) option_ecc = 1; + + + if (option_ecc) + { + ui8_t nib, msg[4], code[8]; + for (nib = 0; nib < 16; nib++) { + nib4bits(nib, msg); + gencode(msg, code); + for (k = 0; k < 8; k++) codewords[nib][k] = code[k]; + } + } // init gpx - strcpy(gpx.frame_bits, dfm_header); //, sizeof(dfm_header); + //strcpy(gpx.frame_bits, dfm_header); //, sizeof(dfm_header); + for (k = 0; k < strlen(dfm_header); k++) { + gpx.frame[k].hb = dfm_header[k] & 1; + gpx.frame[k].sb = 2*gpx.frame[k].hb - 1; + } + for (k = 0; k < 9; k++) gpx.pck[k].ec = -1; // init ecc-status gpx.option.inv = option_inv; @@ -1093,89 +1199,96 @@ int main(int argc, char **argv) { bitofs += shift; - while ( 1 ) + while ( 1 ) + { + if (option_bin) { // aka find_binrawhead() + header_found = find_binhead(fp, &hdb, &_mv); // symbols or bits? + hdrcnt += nfrms; + } + else { // FM-audio: + header_found = find_header(&dsp, thres, 2, bitofs, dsp.opt_dc); // optional 2nd pass: dc=0 + _mv = dsp.mv; + } + if (header_found == EOF) break; + + // mv == correlation score + if (_mv *(0.5-gpx.option.inv) < 0) { + if (gpx.option.aut == 0) header_found = 0; + else gpx.option.inv ^= 0x1; + } + + if (header_found) { - if (option_bin) { // aka find_binrawhead() - header_found = find_binhead(fp, &hdb, &_mv); // symbols or bits? - hdrcnt += nfrms; - } - else { // FM-audio: - header_found = find_header(&dsp, thres, 2, bitofs, dsp.opt_dc); // optional 2nd pass: dc=0 - _mv = dsp.mv; - } - if (header_found == EOF) break; + bitpos = 0; + pos = headerlen; + pos /= 2; - // mv == correlation score - if (_mv *(0.5-gpx.option.inv) < 0) { - if (gpx.option.aut == 0) header_found = 0; - else gpx.option.inv ^= 0x1; - } + //if (fabs(mv) > 0.85) nfrms = 8; else nfrms = 4; // test OK/KO/NO count - if (header_found) - { - bitpos = 0; - pos = headerlen; - pos /= 2; - - //if (fabs(mv) > 0.85) nfrms = 8; else nfrms = 4; // test OK/KO/NO count - - frm = 0; - while ( frm < nfrms ) { // nfrms=1,2,4,8 + frm = 0; + while ( frm < nfrms ) { // nfrms=1,2,4,8 + if (option_bin) { + gpx._frmcnt = hdrcnt + frm; + } + else { + gpx._frmcnt = dsp.mv_pos/(2.0*dsp.sps*BITFRAME_LEN) + frm; + } + while ( pos < BITFRAME_LEN ) + { if (option_bin) { - gpx._frmcnt = hdrcnt + frm; + // symbols or bits? + // manchester1 1->10,0->01: 1.bit (DFM-06) + // manchester2 0->10,1->01: 2.bit (DFM-09) + bitQ = fgetc(fp); + if (bitQ != EOF) { + hsbit.hb = bitQ & 0x1; + bitQ = fgetc(fp); // check: rbit0^rbit1=1 (Manchester) + if (bitQ != EOF) hsbit.hb = bitQ & 0x1; // 2.bit (DFM-09) + hsbit.sb = 2*hsbit.hb - 1; + } } else { - gpx._frmcnt = dsp.mv_pos/(2.0*dsp.sps*BITFRAME_LEN) + frm; - } - while ( pos < BITFRAME_LEN ) - { - if (option_bin) { - // symbols or bits? - // manchester1 1->10,0->01: 1.bit (DFM-06) - // manchester2 0->10,1->01: 2.bit (DFM-09) - bitQ = fgetc(fp); - if (bitQ != EOF) { - bit = bitQ & 0x1; - bitQ = fgetc(fp); // check: rbit0^rbit1=1 (Manchester) - if (bitQ != EOF) bit = bitQ & 0x1; // 2.bit (DFM-09) - } + if (option_iq >= 2) { + float bl = -1; + if (option_iq > 2) bl = 4.0; + bitQ = read_softbit(&dsp, &hsbit, 0, bitofs, bitpos, bl, 0); } else { - if (option_iq >= 2) { - float bl = -1; - if (option_iq > 2) bl = 4.0; - bitQ = read_slbit(&dsp, &bit, 0/*gpx.option.inv*/, bitofs, bitpos, bl, 0); - } - else { - bitQ = read_slbit(&dsp, &bit, 0/*gpx.option.inv*/, bitofs, bitpos, -1, spike); - } + bitQ = read_softbit(&dsp, &hsbit, 0, bitofs, bitpos, -1, spike); } - if ( bitQ == EOF ) { frm = nfrms; break; } // liest 2x EOF + // optional: + // normalize soft bit s_j by + // rhsbit.sb /= dsp._spb+1; // all samples in [-1,+1] - if (gpx.option.inv) bit ^= 1; - - gpx.frame_bits[pos] = 0x30 + bit; - pos++; - bitpos += 1; } - gpx.frame_bits[pos] = '\0'; + if ( bitQ == EOF ) { frm = nfrms; break; } // liest 2x EOF - ret = print_frame(&gpx); - if (pos < BITFRAME_LEN) break; - pos = 0; - frm += 1; - //if (ret < 0) frms += 1; + if (gpx.option.inv) { + hsbit.hb ^= 1; + hsbit.sb = -hsbit.sb; + } + + gpx.frame[pos] = hsbit; + pos++; + bitpos += 1; } + + ret = print_frame(&gpx); + if (pos < BITFRAME_LEN) break; + pos = 0; + frm += 1; + //if (ret < 0) frms += 1; } - - header_found = 0; - pos = headerlen; } - if (!option_bin) free_buffers(&dsp); - else { - if (hdb.buf) { free(hdb.buf); hdb.buf = NULL; } - } + header_found = 0; + pos = headerlen; + } + + if (!option_bin) free_buffers(&dsp); + else { + if (hdb.buf) { free(hdb.buf); hdb.buf = NULL; } + } fclose(fp); diff --git a/demod/mod/lms6Xmod.c b/demod/mod/lms6Xmod.c index 6f9fc59..290db02 100644 --- a/demod/mod/lms6Xmod.c +++ b/demod/mod/lms6Xmod.c @@ -738,11 +738,13 @@ static void print_frame(gpx_t *gpx, int crc_err, int len) { // UTC oder GPS? char sntyp[] = "LMS6-"; if (gpx->typ == 10) sntyp[3] = 'X'; - printf("{ \"frame\": %d, \"id\": \"%s%d\", \"datetime\": \"", gpx->frnr, sntyp, gpx->sn ); + printf("{ \"type\": \"%s\"", "LMS"); + printf(", \"frame\": %d, \"id\": \"%s%d\", \"datetime\": \"", gpx->frnr, sntyp, gpx->sn ); //if (gpx->week > 0) printf("%04d-%02d-%02dT", gpx->jahr, gpx->monat, gpx->tag ); printf("%02d:%02d:%06.3fZ\", \"lat\": %.5f, \"lon\": %.5f, \"alt\": %.5f, \"vel_h\": %.5f, \"heading\": %.5f, \"vel_v\": %.5f", gpx->std, gpx->min, gpx->sek, gpx->lat, gpx->lon, gpx->alt, gpx->vH, gpx->vD, gpx->vV ); printf(", \"gpstow\": %d", gpx->gpstow ); + printf(", \"subtype\": \"%c\"", sntyp[3]); // "6":LMS6-403, "X":lms6X, "MK2A":LMS6-1680/Mk2a printf(" }\n"); printf("\n"); } diff --git a/demod/mod/m10mod.c b/demod/mod/m10mod.c index e9e6d95..1a37f37 100644 --- a/demod/mod/m10mod.c +++ b/demod/mod/m10mod.c @@ -61,6 +61,7 @@ dduudduudduudduu duduudduuduudduu ddududuudduduudd uduuddududududud uudduduuddu //"0111011010011111"; // M10: 76 9F , w/ aux-data //"0110010001001001"; // M10-dop: 64 49 09 //"0110010010101111"; // M10+: 64 AF w/ gtop-GPS + //"0100010100100000"; // M20: 45 20 (baud=9600) static char rawheader[] = "10011001100110010100110010011001"; #define FRAME_LEN (100+1) // 0x64+1 @@ -70,6 +71,11 @@ static char rawheader[] = "10011001100110010100110010011001"; #define BITAUX_LEN (AUX_LEN*BITS) +#define t_M2K2 0x8F +#define t_M10 0x9F +#define t_M10plus 0xAF +#define t_M20 0x20 + typedef struct { int week; int tow_ms; int gpssec; int jahr; int monat; int tag; @@ -78,6 +84,8 @@ typedef struct { double lat; double lon; double alt; double vH; double vD; double vV; double vx; double vy; double vD2; + float T; float _RH; + float Ti; float batV; ui8_t numSV; ui8_t utc_ofs; char SN[12]; @@ -85,7 +93,7 @@ typedef struct { char frame_bits[BITFRAME_LEN+BITAUX_LEN+8]; int auxlen; // 0 .. 0x76-0x64 option_t option; - double bLevel; + ui8_t type; } gpx_t; @@ -201,6 +209,7 @@ M10 w/ Sierra Wireless Airprime X1110 #define stdFLEN 0x64 // pos[0]=0x64 +// Trimble GPS #define pos_GPSTOW 0x0A // 4 byte #define pos_GPSlat 0x0E // 4 byte #define pos_GPSlon 0x12 // 4 byte @@ -212,9 +221,21 @@ M10 w/ Sierra Wireless Airprime X1110 #define pos_GPSvE 0x04 // 2 byte #define pos_GPSvN 0x06 // 2 byte #define pos_GPSvU 0x08 // 2 byte + #define pos_SN 0x5D // 2+3 byte +#define pos_CNT 0x62 // 1 byte #define pos_Check (stdFLEN-1) // 2 byte +// Gtop GPS +#define pos_gtopGPSlat 0x04 // 4 byte +#define pos_gtopGPSlon 0x08 // 4 byte +#define pos_gtopGPSalt 0x0C // 3 byte +#define pos_gtopGPSvE 0x0F // 2 byte +#define pos_gtopGPSvN 0x11 // 2 byte +#define pos_gtopGPSvU 0x13 // 2 byte +#define pos_gtopGPStime 0x15 // 3 byte +#define pos_gtopGPSdate 0x18 // 3 byte + #define ANSI_COLOR_RED "\x1b[31m" #define ANSI_COLOR_GREEN "\x1b[32m" @@ -226,6 +247,7 @@ M10 w/ Sierra Wireless Airprime X1110 #define XTERM_COLOR_BROWN "\x1b[38;5;94m" // 38;5;{0..255}m +#define col_Mtype "\x1b[38;5;250m" // 1 byte #define col_GPSweek "\x1b[38;5;20m" // 2 byte #define col_GPSTOW "\x1b[38;5;27m" // 4 byte #define col_GPSdate "\x1b[38;5;94m" //111 @@ -234,11 +256,12 @@ M10 w/ Sierra Wireless Airprime X1110 #define col_GPSalt "\x1b[38;5;82m" // 4 byte #define col_GPSvel "\x1b[38;5;36m" // 6 byte #define col_SN "\x1b[38;5;58m" // 3 byte +#define col_CNT "\x1b[38;5;172m" // 1 byte #define col_Check "\x1b[38;5;11m" // 2 byte -#define col_TXT "\x1b[38;5;244m" -#define col_FRTXT "\x1b[38;5;244m" #define col_CSok "\x1b[38;5;2m" #define col_CSno "\x1b[38;5;1m" +#define col_TXT "\x1b[38;5;244m" +#define col_FRTXT "\x1b[38;5;244m" /* $ for code in {0..255} @@ -443,19 +466,91 @@ static int get_SN(gpx_t *gpx) { return 0; } -// Battery Voltage -static int get_BatteryLevel(gpx_t *gpx) { +/* -------------------------------------------------------------------------- */ +// +// M10+ w/ Gtop - double batteryLevel = 0.0; +static int get_gtopGPSpos(gpx_t *gpx) { + int i; + ui8_t bytes[4]; + int val; - unsigned short batLvl; - - batLvl = (gpx->frame_bytes[70] << 8) | gpx->frame_bytes[69]; - - // Thanks F5MVO for the formula ! - batteryLevel = (double)batLvl/1000.*6.62; + for (i = 0; i < 4; i++) bytes[i] = gpx->frame_bytes[pos_gtopGPSlat + i]; + val = 0; + for (i = 0; i < 4; i++) val |= bytes[i] << (8*(3-i)); + gpx->lat = val/1e6; - gpx->bLevel = batteryLevel ; + for (i = 0; i < 4; i++) bytes[i] = gpx->frame_bytes[pos_gtopGPSlon + i]; + val = 0; + for (i = 0; i < 4; i++) val |= bytes[i] << (8*(3-i)); + gpx->lon = val/1e6; + + for (i = 0; i < 3; i++) bytes[i] = gpx->frame_bytes[pos_gtopGPSalt + i]; + val = 0; + for (i = 0; i < 3; i++) val |= bytes[i] << (8*(2-i)); + if (val & 0x800000) val -= 0x1000000; // alt: signed 24bit? + gpx->alt = val/1e2; + + return 0; +} + +static int get_gtopGPSvel(gpx_t *gpx) { + int i; + ui8_t bytes[2]; + short vel16; + double vx, vy, vz, dir; + + for (i = 0; i < 2; i++) bytes[i] = gpx->frame_bytes[pos_gtopGPSvE + i]; + vel16 = bytes[0] << 8 | bytes[1]; + vx = vel16 / 1e2; // east + + for (i = 0; i < 2; i++) bytes[i] = gpx->frame_bytes[pos_gtopGPSvN + i]; + vel16 = bytes[0] << 8 | bytes[1]; + vy= vel16 / 1e2; // north + + for (i = 0; i < 2; i++) bytes[i] = gpx->frame_bytes[pos_gtopGPSvU + i]; + vel16 = bytes[0] << 8 | bytes[1]; + vz = vel16 / 1e2; // up + + gpx->vx = vx; + gpx->vy = vy; + gpx->vH = sqrt(vx*vx+vy*vy); + dir = atan2(vx, vy) * 180 / M_PI; + if (dir < 0) dir += 360; + gpx->vD = dir; + gpx->vV = vz; + + return 0; +} + +static int get_gtopGPStime(gpx_t *gpx) { + int i; + ui8_t bytes[4]; + int time; + + for (i = 0; i < 3; i++) bytes[i] = gpx->frame_bytes[pos_gtopGPStime + i]; + time = 0; + for (i = 0; i < 3; i++) time |= bytes[i] << (8*(2-i)); + + gpx->std = time/10000; + gpx->min = (time%10000)/100; + gpx->sek = (time%100)/1.0; + + return 0; +} + +static int get_gtopGPSdate(gpx_t *gpx) { + int i; + ui8_t bytes[4]; + int date; + + for (i = 0; i < 3; i++) bytes[i] = gpx->frame_bytes[pos_gtopGPSdate + i]; + date = 0; + for (i = 0; i < 3; i++) date |= bytes[i] << (8*(2-i)); + + gpx->jahr = 2000 + date%100; + gpx->monat = (date%10000)/100; + gpx->tag = date/10000; return 0; } @@ -526,7 +621,7 @@ static int checkM10(ui8_t *msg, int len) { // Temperatur Sensor // NTC-Thermistor Shibaura PB5-41E // -static float get_Temp(gpx_t *gpx, int csOK) { +static float get_Temp(gpx_t *gpx) { // NTC-Thermistor Shibaura PB5-41E // T00 = 273.15 + 0.0 , R00 = 15e3 // T25 = 273.15 + 25.0 , R25 = 5.369e3 @@ -560,7 +655,7 @@ static float get_Temp(gpx_t *gpx, int csOK) { // range/scale 0, 1, 2: // M10-pcb float Rs[3] = { 12.1e3 , 36.5e3 , 475.0e3 }; // bias/series - float Rp[3] = { 1e20 , 330.0e3 , 3000.0e3 }; // parallel, Rp[0]=inf + float Rp[3] = { 1e20 , 330.0e3 , 2000.0e3 }; // parallel, Rp[0]=inf ui8_t scT; // {0,1,2}, range/scale voltage divider ui16_t ADC_RT; // ADC12 P6.7(A7) , adr_0377h,adr_0376h @@ -582,22 +677,23 @@ static float get_Temp(gpx_t *gpx, int csOK) { if (R > 0) T = 1/( p0 + p1*log(R) + p2*log(R)*log(R) + p3*log(R)*log(R)*log(R) ); - if (gpx->option.vbs >= 3 && csOK) { // on-chip temperature - ui16_t ADC_Ti_raw = (gpx->frame_bytes[0x49] << 8) | gpx->frame_bytes[0x48]; // int.temp.diode, ref: 4095->1.5V - float vti, ti; - // INCH1A (temp.diode), slau144 - vti = ADC_Ti_raw/4095.0 * 1.5; // V_REF+ = 1.5V, no calibration - ti = (vti-0.986)/0.00355; // 0.986/0.00355=277.75, 1.5/4095/0.00355=0.1032 - fprintf(stdout, " (Ti:%.1fC)", ti); - // SegmentA-Calibration: - //ui16_t T30 = adr_10e2h; // CAL_ADC_15T30 - //ui16_t T85 = adr_10e4h; // CAL_ADC_15T85 - //float tic = (ADC_Ti_raw-T30)*(85.0-30.0)/(T85-T30) + 30.0; - //fprintf(stdout, " (Tic:%.1fC)", tic); - } - return T - 273.15; // Celsius } + +static float get_intTemp(gpx_t *gpx) { +// on-chip temperature + ui16_t ADC_Ti_raw = (gpx->frame_bytes[0x49] << 8) | gpx->frame_bytes[0x48]; // int.temp.diode, ref: 4095->1.5V + float vti, ti; + // INCH1A (temp.diode), slau144 + vti = ADC_Ti_raw/4095.0 * 1.5; // V_REF+ = 1.5V, no calibration + ti = (vti-0.986)/0.00355; // 0.986/0.00355=277.75, 1.5/4095/0.00355=0.1032 + gpx->Ti = ti; + // SegmentA-Calibration: + //ui16_t T30 = adr_10e2h; // CAL_ADC_15T30 + //ui16_t T85 = adr_10e4h; // CAL_ADC_15T85 + //float tic = (ADC_Ti_raw-T30)*(85.0-30.0)/(T85-T30) + 30.0; +} + /* frame[0x32]: adr_1074h frame[0x33]: adr_1075h @@ -640,7 +736,7 @@ frame[0x5F]: adr_1084h (SN) frame[0x60]: adr_1080h (SN) frame[0x61]: adr_1081h (SN) */ -static float get_Tntc2(gpx_t *gpx, int csOK) { +static float get_Tntc2(gpx_t *gpx) { // SMD ntc float Rs = 22.1e3; // P5.6=Vcc // float R25 = 2.2e3; @@ -654,14 +750,13 @@ static float get_Tntc2(gpx_t *gpx, int csOK) { float T = 0.0; // T/Kelvin ui16_t ADC_ntc2; // ADC12 P6.4(A4) float x, R; - if (csOK) - { - ADC_ntc2 = (gpx->frame_bytes[0x5A] << 8) | gpx->frame_bytes[0x59]; - x = (4095.0 - ADC_ntc2)/ADC_ntc2; // (Vcc-Vout)/Vout - R = Rs / x; - //if (R > 0) T = 1/(1/T25 + 1/b * log(R/R25)); - if (R > 0) T = 1/( p0 + p1*log(R) + p2*log(R)*log(R) + p3*log(R)*log(R)*log(R) ); - } + + ADC_ntc2 = (gpx->frame_bytes[0x5A] << 8) | gpx->frame_bytes[0x59]; + x = (4095.0 - ADC_ntc2)/ADC_ntc2; // (Vcc-Vout)/Vout + R = Rs / x; + //if (R > 0) T = 1/(1/T25 + 1/b * log(R/R25)); + if (R > 0) T = 1/( p0 + p1*log(R) + p2*log(R)*log(R) + p3*log(R)*log(R)*log(R) ); + return T - 273.15; } @@ -672,7 +767,7 @@ static float get_Tntc2(gpx_t *gpx, int csOK) { #define LN2 0.693147181 #define ADR_108A 1000.0 // 0x3E8=1000 -float get_count_55(gpx_t *gpx) { // CalRef 55%RH , T=20C ? +static float get_count_55(gpx_t *gpx) { // CalRef 55%RH , T=20C ? ui32_t TBCREF_1000 = gpx->frame_bytes[0x32] | (gpx->frame_bytes[0x33]<<8) | (gpx->frame_bytes[0x34]<<16); return TBCREF_1000 / ADR_108A; } @@ -681,26 +776,16 @@ static float get_count_RH(gpx_t *gpx) { // capture 1000 rising edges ui32_t TBCCR1_1000 = gpx->frame_bytes[0x35] | (gpx->frame_bytes[0x36]<<8) | (gpx->frame_bytes[0x37]<<16); return TBCCR1_1000 / ADR_108A; } -static float get_TLC555freq(gpx_t *gpx, float count) { +static float get_TLC555freq(gpx_t *gpx) { return FREQ_CAPCLK / get_count_RH(gpx); } - -float get_C_RH(float freq, float T) { // TLC555 astable: R_A=3.65k, R_B=338k - float R_B = 338e3; - float R_A = 3.65e3; - float td = 0; - float C_RH = (1/freq - 2*td) / (LN2 * (R_A + 2*R_B)); - // freq/T compensation ... - return C_RH; -} - -float cRHc55_RH(gpx_t *gpx, float cRHc55) { // C_RH / C_55 +static float cRHc55_RH(gpx_t *gpx, float cRHc55) { // C_RH / C_55 // U.P.S.I. // C_RH/C_55 = 0.8955 + 0.002*RH , T=20C // C_RH = C_RH(RH,T) , RH = RH(C_RH,T) // C_RH/C_55 approx.eq. count_RH/count_ref - float TH = get_Tntc2(gpx, 0); - float Tc = get_Temp(gpx, 0); + float TH = get_Tntc2(gpx); + float Tc = get_Temp(gpx); float rh = (cRHc55-0.8955)/0.002; // UPSI linear transfer function // temperature compensation float T0 = 0.0, T1 = -30.0; // T/C @@ -712,17 +797,7 @@ float cRHc55_RH(gpx_t *gpx, float cRHc55) { // C_RH / C_55 return rh; } -float get_RHc(gpx_t *gpx, int csOK) { // experimental/raw, errors~10% - float Tc = get_Temp(gpx, 0); - float count_ref = get_count_55(gpx); // CalRef 55%RH , T=20C ? - float count_RH = get_count_RH(gpx); - float C_55 = get_C_RH(get_TLC555freq(gpx, count_ref), 20.0); // CalRef 55%RH , T=20C ? - float C_RH = get_C_RH(get_TLC555freq(gpx, count_RH), Tc); // Tc == T_555 ? - float cRHc55 = C_RH / C_55; - return cRHc55_RH(gpx, cRHc55); -} - -float get_RH(gpx_t *gpx, int csOK) { // experimental/raw, errors~10% +static float get_RH(gpx_t *gpx) { //ui32_t TBCREF_1000 = frame_bytes[0x32] | (frame_bytes[0x33]<<8) | (frame_bytes[0x34]<<16); // CalRef 55%RH , T=20C ? //ui32_t TBCCR1_1000 = frame_bytes[0x35] | (frame_bytes[0x36]<<8) | (frame_bytes[0x37]<<16); // FrqCnt TLC555 //float cRHc55 = TBCCR1_1000 / (float)TBCREF_1000; // CalRef 55%RH , T=20C ? @@ -730,28 +805,77 @@ float get_RH(gpx_t *gpx, int csOK) { // experimental/raw, errors~10% return cRHc55_RH(gpx, cRHc55); } +/* +static float get_C_RH() { // TLC555 astable: R_A=3.65k, R_B=338k + double R_B = 338e3; + double R_A = 3.65e3; + double C_RH = 1/get_TLC555freq() / (LN2 * (R_A + 2*R_B)); + return C_RH; +} +*/ + +// Battery Voltage +// M10 batteries: 4xAA +static double get_BatV(gpx_t *gpx) { + float batV = 0.0; + ui32_t batADC = 0; + + // ADC12_A5/4, V_R+=2.5V : 4096/4 + // 0..1023 <-> 0V .. 2.5V + batADC = (gpx->frame_bytes[0x46] << 8) | gpx->frame_bytes[0x45]; + // R1=[06D]=113kOhm + // R2=[30D]=200kOhm + // f=(R1+R2)/R2=2.77 + + //batV = 6.62*batADC/1000.0; + batV = 2.709 * batADC*2.5/1023.0; + + //fprintf(stdout, " (bat0:%d/1023=%.2f)", batADC, batADC/1023.0); + + return batV; +} + /* -------------------------------------------------------------------------- */ static int print_pos(gpx_t *gpx, int csOK) { int err, err2; err = 0; - err |= get_GPSweek(gpx); - err |= get_GPStime(gpx); - err |= get_GPSlat(gpx); - err |= get_GPSlon(gpx); - err |= get_GPSalt(gpx); - err2 = get_GPSvel(gpx); - err |= get_BatteryLevel(gpx); + + if (gpx->type == t_M10) { + err |= get_GPSweek(gpx); + err |= get_GPStime(gpx); + err |= get_GPSlat(gpx); + err |= get_GPSlon(gpx); + err |= get_GPSalt(gpx); + err2 = get_GPSvel(gpx); + } + else if (gpx->type == t_M10plus) { + err |= get_gtopGPStime(gpx); + err |= get_gtopGPSdate(gpx); + err |= get_gtopGPSpos(gpx); + err2 = get_gtopGPSvel(gpx); + } + else err = 0xFF; if (!err) { - Gps2Date(gpx->week, gpx->gpssec, &gpx->jahr, &gpx->monat, &gpx->tag); + if (gpx->type == t_M10) { + Gps2Date(gpx->week, gpx->gpssec, &gpx->jahr, &gpx->monat, &gpx->tag); + } + gpx->T = get_Temp(gpx); + gpx->_RH = get_RH(gpx); + gpx->Ti = get_intTemp(gpx); + gpx->batV = get_BatV(gpx); + if (gpx->option.col) { fprintf(stdout, col_TXT); - if (gpx->option.vbs >= 3) fprintf(stdout, " (W "col_GPSweek"%d"col_TXT") ", gpx->week); - fprintf(stdout, col_GPSTOW"%s"col_TXT" ", weekday[gpx->wday]); + if (gpx->type == t_M10) + { + if (gpx->option.vbs >= 3) fprintf(stdout, " (W "col_GPSweek"%d"col_TXT") ", gpx->week); + fprintf(stdout, col_GPSTOW"%s"col_TXT" ", weekday[gpx->wday]); + } fprintf(stdout, col_GPSdate"%04d-%02d-%02d"col_TXT" "col_GPSTOW"%02d:%02d:%06.3f"col_TXT" ", gpx->jahr, gpx->monat, gpx->tag, gpx->std, gpx->min, gpx->sek); fprintf(stdout, " lat: "col_GPSlat"%.5f"col_TXT" ", gpx->lat); @@ -759,7 +883,7 @@ static int print_pos(gpx_t *gpx, int csOK) { fprintf(stdout, " alt: "col_GPSalt"%.2f"col_TXT" ", gpx->alt); if (!err2) { //if (gpx->option.vbs == 2) fprintf(stdout, " "col_GPSvel"(%.1f , %.1f : %.1f)"col_TXT" ", gpx->vx, gpx->vy, gpx->vD2); - fprintf(stdout, " vH: "col_GPSvel"%.1f"col_TXT" D: "col_GPSvel"%.1f"col_TXT" vV: "col_GPSvel"%.1f"col_TXT" BV: "col_GPSvel"%.2f"col_TXT, gpx->vH, gpx->vD, gpx->vV, gpx->bLevel); + fprintf(stdout, " vH: "col_GPSvel"%.1f"col_TXT" D: "col_GPSvel"%.1f"col_TXT" vV: "col_GPSvel"%.1f"col_TXT" ", gpx->vH, gpx->vD, gpx->vV); } if (gpx->option.vbs >= 2) { get_SN(gpx); @@ -770,23 +894,27 @@ static int print_pos(gpx_t *gpx, int csOK) { if (csOK) fprintf(stdout, " "col_CSok"[OK]"col_TXT); else fprintf(stdout, " "col_CSno"[NO]"col_TXT); } - if (gpx->option.ptu) { - float t = get_Temp(gpx, csOK); - float rh = get_RH(gpx, csOK); - if (t > -270.0) fprintf(stdout, " T=%.1fC ", t); - if (gpx->option.vbs >= 3) { if (rh > -0.5) fprintf(stdout, "_RH=%.0f%% ", rh); } + if (gpx->option.ptu && csOK) { + if (gpx->T > -270.0) fprintf(stdout, " T=%.1fC", gpx->T); + if (gpx->option.vbs >= 2) { if (gpx->_RH > -0.5) fprintf(stdout, " _RH=%.0f%%", gpx->_RH); } if (gpx->option.vbs >= 3) { - float t2 = get_Tntc2(gpx, csOK); - float fq555 = get_TLC555freq(gpx, get_count_RH(gpx)); - if (t2 > -270.0) fprintf(stdout, " (T2:%.1fC) (%.3fkHz) ", t2, fq555/1e3); - fprintf(stdout, "(cRH=%.1f%%) ", get_RHc(gpx,csOK)); + float t2 = get_Tntc2(gpx); + float fq555 = get_TLC555freq(gpx); + fprintf(stdout, " (Ti:%.1fC)", gpx->Ti); + if (t2 > -270.0) fprintf(stdout, " (T2:%.1fC) (%.3fkHz)", t2, fq555/1e3); } } + if (gpx->option.vbs >= 3 && csOK) { + fprintf(stdout, " (bat:%.2fV)", gpx->batV); + } fprintf(stdout, ANSI_COLOR_RESET""); } else { - if (gpx->option.vbs >= 3) fprintf(stdout, " (W %d) ", gpx->week); - fprintf(stdout, "%s ", weekday[gpx->wday]); + if (gpx->type == t_M10) + { + if (gpx->option.vbs >= 3) fprintf(stdout, " (W %d) ", gpx->week); + fprintf(stdout, "%s ", weekday[gpx->wday]); + } fprintf(stdout, "%04d-%02d-%02d %02d:%02d:%06.3f ", gpx->jahr, gpx->monat, gpx->tag, gpx->std, gpx->min, gpx->sek); fprintf(stdout, " lat: %.5f ", gpx->lat); @@ -794,7 +922,7 @@ static int print_pos(gpx_t *gpx, int csOK) { fprintf(stdout, " alt: %.2f ", gpx->alt); if (!err2) { //if (gpx->option.vbs == 2) fprintf(stdout, " (%.1f , %.1f : %.1f) ", gpx->vx, gpx->vy, gpx->vD2); - fprintf(stdout, " vH: %.1f D: %.1f vV: %.1f BV: %.2f", gpx->vH, gpx->vD, gpx->vV, gpx->bLevel); + fprintf(stdout, " vH: %.1f D: %.1f vV: %.1f ", gpx->vH, gpx->vD, gpx->vV); } if (gpx->option.vbs >= 2) { get_SN(gpx); @@ -804,18 +932,19 @@ static int print_pos(gpx_t *gpx, int csOK) { fprintf(stdout, " # "); if (csOK) fprintf(stdout, " [OK]"); else fprintf(stdout, " [NO]"); } - if (gpx->option.ptu) { - float t = get_Temp(gpx, csOK); - float rh = get_RH(gpx, csOK); - if (t > -270.0) fprintf(stdout, " T=%.1fC ", t); - if (gpx->option.vbs >= 3) { if (rh > -0.5) fprintf(stdout, "_RH=%.0f%% ", rh); } + if (gpx->option.ptu && csOK) { + if (gpx->T > -270.0) fprintf(stdout, " T=%.1fC", gpx->T); + if (gpx->option.vbs >= 2) { if (gpx->_RH > -0.5) fprintf(stdout, " _RH=%.0f%%", gpx->_RH); } if (gpx->option.vbs >= 3) { - float t2 = get_Tntc2(gpx, csOK); - float fq555 = get_TLC555freq(gpx,get_count_RH(gpx)); - if (t2 > -270.0) fprintf(stdout, " (T2:%.1fC) (%.3fkHz) ", t2, fq555/1e3); - fprintf(stdout, "(cRH=%.1f%%) ", get_RHc(gpx,csOK)); + float t2 = get_Tntc2(gpx); + float fq555 = get_TLC555freq(gpx); + fprintf(stdout, " (Ti:%.1fC)", gpx->Ti); + if (t2 > -270.0) fprintf(stdout, " (T2:%.1fC) (%.3fkHz)", t2, fq555/1e3); } } + if (gpx->option.vbs >= 3 && csOK) { + fprintf(stdout, " (bat:%.2fV)", gpx->batV); + } } fprintf(stdout, "\n"); @@ -836,35 +965,45 @@ static int print_pos(gpx_t *gpx, int csOK) { utc_week -= 1; utc_s += 604800; // 604800sec = 1week } - Gps2Date(utc_week, utc_s, &utc_jahr, &utc_monat, &utc_tag); - utc_s %= (24*3600); // 86400sec = 1day - utc_std = utc_s/3600; - utc_min = (utc_s%3600)/60; - utc_sek = utc_s%60 + (gpx->tow_ms % 1000)/1000.0; + if (gpx->type == t_M10) { + Gps2Date(utc_week, utc_s, &utc_jahr, &utc_monat, &utc_tag); + utc_s %= (24*3600); // 86400sec = 1day + utc_std = utc_s/3600; + utc_min = (utc_s%3600)/60; + utc_sek = utc_s%60 + (gpx->tow_ms % 1000)/1000.0; + } + else { + utc_jahr = gpx->jahr; + utc_monat = gpx->monat; + utc_tag = gpx->tag; + utc_std = gpx->std; + utc_min = gpx->min; + utc_sek = gpx->sek; + } strncpy(sn_id+4, gpx->SN, 12); sn_id[15] = '\0'; for (j = 0; sn_id[j]; j++) { if (sn_id[j] == ' ') sn_id[j] = '-'; } - fprintf(stdout, "{ "); - fprintf(stdout, "\"frame\": %lu ,", (unsigned long)(sec_gps0+0.5)); - fprintf(stdout, "\"id\": \"%s\", \"datetime\": \"%04d-%02d-%02dT%02d:%02d:%06.3fZ\", \"lat\": %.5f, \"lon\": %.5f, \"alt\": %.5f, \"vel_h\": %.5f, \"heading\": %.5f, \"vel_v\": %.5f, \"sats\": %d, \"batt\": %.2f", - sn_id, utc_jahr, utc_monat, utc_tag, utc_std, utc_min, utc_sek, gpx->lat, gpx->lon, gpx->alt, gpx->vH, gpx->vD, gpx->vV, gpx->numSV, gpx->bLevel); - float rh = get_RH(gpx, csOK); - if (gpx->option.ptu && rh > -0.5) { - fprintf(stdout, ", \"humidity\": %.1f", rh ); - } + fprintf(stdout, "{ \"type\": \"%s\"", "M10"); + fprintf(stdout, ", \"frame\": %lu ,", (unsigned long)(sec_gps0+0.5)); + fprintf(stdout, "\"id\": \"%s\", \"datetime\": \"%04d-%02d-%02dT%02d:%02d:%06.3fZ\", \"lat\": %.5f, \"lon\": %.5f, \"alt\": %.5f, \"vel_h\": %.5f, \"heading\": %.5f, \"vel_v\": %.5f, \"sats\": %d", + sn_id, utc_jahr, utc_monat, utc_tag, utc_std, utc_min, utc_sek, gpx->lat, gpx->lon, gpx->alt, gpx->vH, gpx->vD, gpx->vV, gpx->numSV); // APRS id, 9 characters aprs_id[0] = gpx->frame_bytes[pos_SN+2]; aprs_id[1] = gpx->frame_bytes[pos_SN] & 0xF; aprs_id[2] = gpx->frame_bytes[pos_SN+4]; aprs_id[3] = gpx->frame_bytes[pos_SN+3]; fprintf(stdout, ", \"aprsid\": \"ME%02X%1X%02X%02X\"", aprs_id[0], aprs_id[1], aprs_id[2], aprs_id[3]); - // temperature + fprintf(stdout, ", \"batt\": %.2f", gpx->batV); + // temperature (and humidity) if (gpx->option.ptu) { - float t = get_Temp(gpx, 0); - if (t > -273.0) fprintf(stdout, ", \"temp\": %.1f", t); + if (gpx->T > -273.0) fprintf(stdout, ", \"temp\": %.1f", gpx->T); + if (gpx->option.vbs >= 2) { + if (gpx->_RH > -0.5) fprintf(stdout, ", \"humidity\": %.1f", gpx->_RH); + } } + fprintf(stdout, ", \"subtype\": \"0x%02X\"", gpx->type); fprintf(stdout, " }\n"); fprintf(stdout, "\n"); } @@ -892,20 +1031,40 @@ static int print_frame(gpx_t *gpx, int pos) { cs1 = (gpx->frame_bytes[pos_Check+gpx->auxlen] << 8) | gpx->frame_bytes[pos_Check+gpx->auxlen+1]; cs2 = checkM10(gpx->frame_bytes, pos_Check+gpx->auxlen); + switch (gpx->frame_bytes[1]) { + case 0x8F: gpx->type = t_M2K2; break; + case 0x9F: gpx->type = t_M10; break; + case 0xAF: gpx->type = t_M10plus; break; + case 0x20: gpx->type = t_M20; break; + default : gpx->type = t_M10; + } + if (gpx->option.raw) { - if (gpx->option.col && gpx->frame_bytes[1] != 0x49) { + if (gpx->option.col && gpx->frame_bytes[1] != 0x49 && (gpx->type == t_M10 || gpx->type == t_M10plus)) { fprintf(stdout, col_FRTXT); for (i = 0; i < FRAME_LEN+gpx->auxlen; i++) { byte = gpx->frame_bytes[i]; - if ((i >= pos_GPSTOW) && (i < pos_GPSTOW+4)) fprintf(stdout, col_GPSTOW); - if ((i >= pos_GPSlat) && (i < pos_GPSlat+4)) fprintf(stdout, col_GPSlat); - if ((i >= pos_GPSlon) && (i < pos_GPSlon+4)) fprintf(stdout, col_GPSlon); - if ((i >= pos_GPSalt) && (i < pos_GPSalt+4)) fprintf(stdout, col_GPSalt); - if ((i >= pos_GPSweek) && (i < pos_GPSweek+2)) fprintf(stdout, col_GPSweek); - if ((i >= pos_GPSvE) && (i < pos_GPSvE+6)) fprintf(stdout, col_GPSvel); - if ((i >= pos_SN) && (i < pos_SN+5)) fprintf(stdout, col_SN); - if ((i >= pos_Check+gpx->auxlen) && (i < pos_Check+gpx->auxlen+2)) fprintf(stdout, col_Check); + if (i == 1) fprintf(stdout, col_Mtype); + if (gpx->type == t_M10) { + if ((i >= pos_GPSTOW) && (i < pos_GPSTOW+4)) fprintf(stdout, col_GPSTOW); + if ((i >= pos_GPSlat) && (i < pos_GPSlat+4)) fprintf(stdout, col_GPSlat); + if ((i >= pos_GPSlon) && (i < pos_GPSlon+4)) fprintf(stdout, col_GPSlon); + if ((i >= pos_GPSalt) && (i < pos_GPSalt+4)) fprintf(stdout, col_GPSalt); + if ((i >= pos_GPSweek) && (i < pos_GPSweek+2)) fprintf(stdout, col_GPSweek); + if ((i >= pos_GPSvE) && (i < pos_GPSvE+6)) fprintf(stdout, col_GPSvel); + } + else { + if ((i >= pos_gtopGPSlat) && (i < pos_gtopGPSlat+4)) fprintf(stdout, col_GPSlat); + if ((i >= pos_gtopGPSlon) && (i < pos_gtopGPSlon+4)) fprintf(stdout, col_GPSlon); + if ((i >= pos_gtopGPSalt) && (i < pos_gtopGPSalt+3)) fprintf(stdout, col_GPSalt); + if ((i >= pos_gtopGPSvE) && (i < pos_gtopGPSvE+6)) fprintf(stdout, col_GPSvel); + if ((i >= pos_gtopGPStime) && (i < pos_gtopGPStime+3)) fprintf(stdout, col_GPSTOW); + if ((i >= pos_gtopGPSdate) && (i < pos_gtopGPSdate+3)) fprintf(stdout, col_GPSweek); + } + if ((i >= pos_SN) && (i < pos_SN+5)) fprintf(stdout, col_SN); + if (i == pos_CNT) fprintf(stdout, col_CNT); + if ((i >= pos_Check+gpx->auxlen) && (i < pos_Check+gpx->auxlen+2)) fprintf(stdout, col_Check); fprintf(stdout, "%02x", byte); fprintf(stdout, col_FRTXT); } @@ -1215,7 +1374,6 @@ int main(int argc, char **argv) { } } - free_buffers(&dsp); fclose(fp); diff --git a/demod/mod/mXXmod.c b/demod/mod/mXXmod.c new file mode 100644 index 0000000..8749229 --- /dev/null +++ b/demod/mod/mXXmod.c @@ -0,0 +1,970 @@ + +/* + * mXX m18/m20 (test) + * + * (cf. mXX_20180919.c) + * sync header: correlation/matched filter + * files: mXXmod.c demod_mod.h demod_mod.c + * compile: + * gcc -c demod_mod.c + * gcc mXXmod.c demod_mod.o -lm -o mXXmod + * + * 2018-09-19 Ury: (len=0x43) ./mXX -c -vv --br 9600 mXX_20180919.wav + * 2019-11-06 Ury: (len=0x45) ./mXX -c -vv --br 9600 mXX_20191106.wav + * 2020-02-14 Ury: (len=0x45) ./mXX -c -vv --br 9600 mXX_20200214.wav + * 2020-05-11 Wien: (len=0x45) ./mXX -c -vv --br 9603 mXX_20200511.wav + * + * author: zilog80 + */ + +#include +#include +#include +#include + +#ifdef CYGWIN + #include // cygwin: _setmode() + #include +#endif + + +#include "demod_mod.h" + + +typedef struct { + i8_t vbs; // verbose output + i8_t raw; // raw frames + i8_t crc; // CRC check output + i8_t ecc; // Reed-Solomon ECC + i8_t sat; // GPS sat data + i8_t ptu; // PTU: temperature + i8_t inv; + i8_t aut; + i8_t col; // colors + i8_t jsn; // JSON output (auto_rx) +} option_t; + + +// ? 9600 baud M20 <-> 9616 baud M10 ? +#define BAUD_RATE 9600 // 9600..9604 // 9614..9616 + +/* -------------------------------------------------------------------------- */ + +/* +Header = Sync-Header + Sonde-Header: +1100110011001100 1010011001001100 1101010011010011 0100110101010101 0011010011001100 +uudduudduudduudd ududduuddudduudd uudududduududduu dudduudududududu dduududduudduudd (oder:) +dduudduudduudduu duduudduuduudduu ddududuudduduudd uduuddududududud uudduduudduudduu (komplement) + 0 0 0 0 0 0 0 0 1 1 - - - 0 0 0 0 1 1 0 0 1 0 0 1 0 0 1 1 1 1 1 0 0 1 0 0 0 0 0 +*/ + +#define BITS 8 +#define HEADLEN 32 // HEADLEN+HEADOFS=32 <= strlen(header) +#define HEADOFS 0 + // Sync-Header (raw) // Sonde-Header (bits) +//char head[] = "11001100110011001010011001001100"; //"0110010010011111"; // M10: 64 9F , M2K2: 64 8F + //"0111011010011111"; // M10: 76 9F , w/ aux-data + //"0110010001001001"; // M10-dop: 64 49 09 + //"0110010010101111"; // M10+: 64 AF w/ gtop-GPS +static char rawheader[] = "10011001100110010100110010011001"; + +#define FRAME_LEN (100+1) // 0x64+1 +#define BITFRAME_LEN (FRAME_LEN*BITS) + +#define AUX_LEN 20 +#define BITAUX_LEN (AUX_LEN*BITS) + + +typedef struct { + int week; int tow_ms; int gpssec; + 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 vx; double vy; double vD2; + ui8_t numSV; + ui8_t utc_ofs; + char SN[12]; + ui8_t frame_bytes[FRAME_LEN+AUX_LEN+4]; + char frame_bits[BITFRAME_LEN+BITAUX_LEN+8]; + int auxlen; // 0 .. 0x76-0x64 + option_t option; +} gpx_t; + + +/* -------------------------------------------------------------------------- */ +#define SECONDS_IN_WEEK (604800.0) // 7*86400 +/* + * Convert GPS Week and Seconds to Modified Julian Day. + * - Adapted from sci.astro FAQ. + * - Ignores UTC leap seconds. + */ +static void Gps2Date(long GpsWeek, long GpsSeconds, int *Year, int *Month, int *Day) { + + long GpsDays, Mjd; + long J, C, Y, M; + + GpsDays = GpsWeek * 7 + (GpsSeconds / 86400); + Mjd = 44244 + GpsDays; + + J = Mjd + 2468570; + C = 4 * J / 146097; + J = J - (146097 * C + 3) / 4; + Y = 4000 * (J + 1) / 1461001; + J = J - 1461 * Y / 4 + 31; + M = 80 * J / 2447; + *Day = J - 2447 * M / 80; + J = M / 11; + *Month = M + 2 - (12 * J); + *Year = 100 * (C - 49) + Y + J; +} +/* -------------------------------------------------------------------------- */ + +static int bits2bytes(char *bitstr, ui8_t *bytes) { + int i, bit, d, byteval; + int bitpos, bytepos; + + bitpos = 0; + bytepos = 0; + + while (bytepos < FRAME_LEN+AUX_LEN) { + + byteval = 0; + d = 1; + for (i = 0; i < BITS; i++) { + //bit=*(bitstr+bitpos+i); /* little endian */ + bit=*(bitstr+bitpos+7-i); /* big endian */ + // bit == 'x' ? + if (bit == '1') byteval += d; + else /*if ((bit == '0') || (bit == 'x'))*/ byteval += 0; + d <<= 1; + } + bitpos += BITS; + bytes[bytepos++] = byteval & 0xFF; + + } + + //while (bytepos < FRAME_LEN+AUX_LEN) bytes[bytepos++] = 0; + + return 0; +} + +/* -------------------------------------------------------------------------- */ + +/* +M20 + +GPS data: Big Endian +PTU/ADC data: little endian + +frame[0x0] = framelen // (0x43,) 0x45 +frame[0x1] = 0x20 (type M20) + +frame[0x02..0x18]: most important data at beginning (incl. counter + M10check) +frame[0x02..0x03]: ADC +frame[0x04..0x05]: ADC +frame[0x06..0x07]: ADC temperature +frame[0x08..0x0A]: GPS altitude +frame[0x0B..0x0E]: GPS hor.Vel. (velE,velN) +frame[0x0F..0x11]: GPS TOW +frame[0x15]: counter +frame[0x16..0x17]: block check + +frame[0x18..0x19]: GPS ver.Vel. (velU) +frame[0x1A..0x1B]: GPS week +frame[0x1C..0x1F]: GPS latitude +frame[0x20..0x23]: GPS longitude + +frame[0x44..0x45]: frame check + +*/ + +#define stdFLEN 0x64 // pos[0]=0x45 // M20: 0x45 (0x43) M10: 0x64 +#define pos_GPSTOW 0x0F // 3 byte +#define pos_GPSlat 0x1C // 4 byte +#define pos_GPSlon 0x20 // 4 byte +#define pos_GPSalt 0x08 // 3 byte +//#define pos_GPSsats 0xXX // 1 byte +//#define pos_GPSutc 0xXX // 1 byte +#define pos_GPSweek 0x1A // 2 byte +//Velocity East-North-Up (ENU) +#define pos_GPSvE 0x0B // 2 byte +#define pos_GPSvN 0x0D // 2 byte +#define pos_GPSvU 0x18 // 2 byte +#define pos_Cnt 0x15 // 1 byte +#define pos_BlkChk 0x16 // 2 byte +#define pos_Check (stdFLEN-1) // 2 byte + +#define len_BlkChk 0x16 // frame[0x02..0x17] , incl. chk16 + + +#define ANSI_COLOR_RED "\x1b[31m" +#define ANSI_COLOR_GREEN "\x1b[32m" +#define ANSI_COLOR_YELLOW "\x1b[33m" +#define ANSI_COLOR_BLUE "\x1b[34m" +#define ANSI_COLOR_MAGENTA "\x1b[35m" +#define ANSI_COLOR_CYAN "\x1b[36m" +#define ANSI_COLOR_RESET "\x1b[0m" + +#define XTERM_COLOR_BROWN "\x1b[38;5;94m" // 38;5;{0..255}m + +#define col_GPSweek "\x1b[38;5;20m" // 2 byte +#define col_GPSTOW "\x1b[38;5;27m" // 3 byte +#define col_GPSdate "\x1b[38;5;94m" //111 +#define col_GPSlat "\x1b[38;5;34m" // 4 byte +#define col_GPSlon "\x1b[38;5;70m" // 4 byte +#define col_GPSalt "\x1b[38;5;82m" // 3 byte +#define col_GPSvel "\x1b[38;5;36m" // 6 byte +#define col_SN "\x1b[38;5;58m" // 3 byte +#define col_Check "\x1b[38;5;11m" // 2 byte +#define col_TXT "\x1b[38;5;244m" +#define col_FRTXT "\x1b[38;5;244m" +#define col_CSok "\x1b[38;5;2m" +#define col_CSno "\x1b[38;5;1m" +#define col_CNST "\x1b[38;5;58m" // 3 byte + +/* +$ for code in {0..255} +> do echo -e "\e[38;5;${code}m"'\\e[38;5;'"$code"m"\e[0m" +> done +*/ + +static int get_GPSweek(gpx_t *gpx) { + int i; + unsigned byte; + ui8_t gpsweek_bytes[2]; + int gpsweek; + + //gpx->numSV = gpx->frame_bytes[pos_GPSsats]; + //gpx->utc_ofs = gpx->frame_bytes[pos_GPSutc]; + + for (i = 0; i < 2; i++) { + byte = gpx->frame_bytes[pos_GPSweek + i]; + gpsweek_bytes[i] = byte; + } + + gpsweek = (gpsweek_bytes[0] << 8) + gpsweek_bytes[1]; + + if (gpsweek > 4000) return -1; + + // Trimble Copernicus II WNRO (AirPrime XM1110 OK) + if (gpsweek < 1304 /*2005-01-02*/ ) gpsweek += 1024; + + gpx->week = gpsweek; + + return 0; +} + +//char weekday[7][3] = { "So", "Mo", "Di", "Mi", "Do", "Fr", "Sa"}; +static char weekday[7][4] = { "Sun", "Mon", "Tue", "Wed", "Thu", "Fri", "Sat"}; + +static int get_GPStime(gpx_t *gpx) { + int i; + unsigned byte; + ui8_t gpstime_bytes[4]; + int gpstime, day; + int ms; + + for (i = 0; i < 3; i++) { + byte = gpx->frame_bytes[pos_GPSTOW + i]; + gpstime_bytes[i] = byte; + } + + gpstime = 0; + for (i = 0; i < 3; i++) { + gpstime |= gpstime_bytes[i] << (8*(2-i)); + } + + gpx->tow_ms = gpstime*1000; + ms = 0;//gpstime % 1000; + //gpstime /= 1000; + gpx->gpssec = gpstime; + + day = gpstime / (24 * 3600); + if ((day < 0) || (day > 6)) return -1; + + gpstime %= (24*3600); + + gpx->wday = day; + gpx->std = gpstime/3600; + gpx->min = (gpstime%3600)/60; + gpx->sek = gpstime%60 + ms/1000.0; + + return 0; +} + +//static double B60B60 = (1<<30)/90.0; // 2^32/360 = 2^30/90 = 0xB60B60.711x // M10 +static double B60B60 = 1e6; // M20 + +static int get_GPSlat(gpx_t *gpx) { + int i; + unsigned byte; + ui8_t gpslat_bytes[4]; + int gpslat; + double lat; + + for (i = 0; i < 4; i++) { + byte = gpx->frame_bytes[pos_GPSlat + i]; + 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; +} + +static int get_GPSlon(gpx_t *gpx) { + int i; + unsigned byte; + ui8_t gpslon_bytes[4]; + int gpslon; + double lon; + + for (i = 0; i < 4; i++) { + byte = gpx->frame_bytes[pos_GPSlon + i]; + 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; +} + +static int get_GPSalt(gpx_t *gpx) { // 24 bit + int i; + unsigned byte; + ui8_t gpsalt_bytes[4]; + int gpsalt; + double alt; + + for (i = 0; i < 3; i++) { + byte = gpx->frame_bytes[pos_GPSalt + i]; + gpsalt_bytes[i] = byte; + } + + gpsalt = 0; + for (i = 0; i < 3; i++) { + gpsalt |= gpsalt_bytes[i] << (8*(2-i)); + } + alt = gpsalt / 100.0; + gpx->alt = alt; + + return 0; +} + +static int get_GPSvel(gpx_t *gpx) { + int i; + unsigned byte; + ui8_t gpsVel_bytes[2]; + short vel16; + double vx, vy, dir, alpha; + const double ms2kn100 = 1e2; //2e2; // m/s -> knots: 1 m/s = 3.6/1.852 kn = 1.94 kn + + for (i = 0; i < 2; i++) { + byte = gpx->frame_bytes[pos_GPSvE + i]; + gpsVel_bytes[i] = byte; + } + vel16 = gpsVel_bytes[0] << 8 | gpsVel_bytes[1]; + vx = vel16 / ms2kn100; // ost + + for (i = 0; i < 2; i++) { + byte = gpx->frame_bytes[pos_GPSvN + i]; + gpsVel_bytes[i] = byte; + } + vel16 = gpsVel_bytes[0] << 8 | gpsVel_bytes[1]; + vy= vel16 / ms2kn100; // nord + + gpx->vx = vx; + gpx->vy = vy; + 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; + + for (i = 0; i < 2; i++) { + byte = gpx->frame_bytes[pos_GPSvU + i]; + gpsVel_bytes[i] = byte; + } + vel16 = gpsVel_bytes[0] << 8 | gpsVel_bytes[1]; + gpx->vV = vel16 / ms2kn100; + + return 0; +} + + +/* -------------------------------------------------------------------------- */ +/* +g : F^n -> F^16 // checksum, linear +g(m||b) = f(g(m),b) + +// update checksum +f : F^16 x F^8 -> F^16 linear + +010100001000000101000000 +001010000100000010100000 +000101000010000001010000 +000010100001000000101000 +000001010000100000010100 +100000100000010000001010 +000000011010100000000100 +100000000101010000000010 +000000001000000000000000 +000000000100000000000000 +000000000010000000000000 +000000000001000000000000 +000000000000100000000000 +000000000000010000000000 +000000000000001000000000 +000000000000000100000000 +*/ + +static int update_checkM10(int c, ui8_t b) { + int c0, c1, t, t6, t7, s; + + c1 = c & 0xFF; + + // B + b = (b >> 1) | ((b & 1) << 7); + b ^= (b >> 2) & 0xFF; + + // A1 + t6 = ( c & 1) ^ ((c>>2) & 1) ^ ((c>>4) & 1); + t7 = ((c>>1) & 1) ^ ((c>>3) & 1) ^ ((c>>5) & 1); + t = (c & 0x3F) | (t6 << 6) | (t7 << 7); + + // A2 + s = (c >> 7) & 0xFF; + s ^= (s >> 2) & 0xFF; + + + c0 = b ^ t ^ s; + + return ((c1<<8) | c0) & 0xFFFF; +} + +static int checkM10(ui8_t *msg, int len) { + int i, cs; // msg[0] = len+1 + + cs = 0; + for (i = 0; i < len; i++) { + cs = update_checkM10(cs, msg[i]); + } + + return cs & 0xFFFF; +} +// checkM10(frame, frame[0]-1) = blk_checkM10(frame[0], frame+1) +static int blk_checkM10(int len, ui8_t *msg) { + int i, cs; + ui8_t pre = len & 0xFF; // len(block+chk16) + cs = 0; + + cs = update_checkM10(cs, pre); + + for (i = 0; i < len-2; i++) { + cs = update_checkM10(cs, msg[i]); + } + + return cs & 0xFFFF; +} + +/* -------------------------------------------------------------------------- */ + +static float get_Tntc0(gpx_t *gpx) { +// SMD ntc + float Rs = 22.1e3; // P5.6=Vcc + float R25 = 2.2e3;// 0.119e3; //2.2e3; + float b = 3650.0; // B/Kelvin + float T25 = 25.0 + 273.15; // T0=25C, R0=R25=5k +// -> Steinhart–Hart coefficients (polyfit): + float p0 = 4.42606809e-03, + p1 = -6.58184309e-04, + p2 = 8.95735557e-05, + p3 = -2.84347503e-06; + float T = 0.0; // T/Kelvin + ui16_t ADC_ntc0; // M10: ADC12 P6.4(A4) + float x, R; + + ADC_ntc0 = (gpx->frame_bytes[0x07] << 8) | gpx->frame_bytes[0x06]; // M10: 0x40,0x3F + x = (4095.0 - ADC_ntc0)/ADC_ntc0; // (Vcc-Vout)/Vout + R = Rs / x; + if (R > 0) T = 1/(1/T25 + 1/b * log(R/R25)); + //if (R > 0) T = 1/( p0 + p1*log(R) + p2*log(R)*log(R) + p3*log(R)*log(R)*log(R) ); + + return T - 273.15; +} + +/* -------------------------------------------------------------------------- */ + +static int print_pos(gpx_t *gpx, int bcOK, int csOK) { + int err, err2; + + err = 0; + err |= get_GPSweek(gpx); + err |= get_GPStime(gpx); + err |= get_GPSlat(gpx); + err |= get_GPSlon(gpx); + err |= get_GPSalt(gpx); + err2 = get_GPSvel(gpx); + + if (!err) { + + Gps2Date(gpx->week, gpx->gpssec, &gpx->jahr, &gpx->monat, &gpx->tag); + + if (gpx->option.col) { + fprintf(stdout, col_TXT); + if (gpx->option.vbs >= 3) { + fprintf(stdout, "[%3d]", gpx->frame_bytes[pos_Cnt]); + fprintf(stdout, " (W "col_GPSweek"%d"col_TXT") ", gpx->week); + } + fprintf(stdout, col_GPSTOW"%s"col_TXT" ", weekday[gpx->wday]); + fprintf(stdout, col_GPSdate"%04d-%02d-%02d"col_TXT" "col_GPSTOW"%02d:%02d:%06.3f"col_TXT" ", + gpx->jahr, gpx->monat, gpx->tag, gpx->std, gpx->min, gpx->sek); + fprintf(stdout, " lat: "col_GPSlat"%.5f"col_TXT" ", gpx->lat); + fprintf(stdout, " lon: "col_GPSlon"%.5f"col_TXT" ", gpx->lon); + fprintf(stdout, " alt: "col_GPSalt"%.2f"col_TXT" ", gpx->alt); + if (!err2) { + fprintf(stdout, " vH: "col_GPSvel"%.1f"col_TXT" D: "col_GPSvel"%.1f"col_TXT" vV: "col_GPSvel"%.1f"col_TXT" ", gpx->vH, gpx->vD, gpx->vV); + } + if (gpx->option.vbs >= 3 && bcOK) { + ui32_t byte = (gpx->frame_bytes[0x14]<<8) | gpx->frame_bytes[0x13]; + fprintf(stdout, " ( %04u)", (byte>>2)&0x1FFF); + } + if (gpx->option.vbs >= 2) { + fprintf(stdout, " # "); + if (bcOK) fprintf(stdout, " "col_CSok"(ok)"col_TXT); + else fprintf(stdout, " "col_CSno"(no)"col_TXT); + if (csOK) fprintf(stdout, " "col_CSok"[OK]"col_TXT); + else fprintf(stdout, " "col_CSno"[NO]"col_TXT); + } + if (gpx->option.ptu && csOK) { + if (gpx->option.vbs >= 3) { + float t0 = get_Tntc0(gpx); + if (t0 > -270.0) fprintf(stdout, " (T0:%.1fC) ", t0); + } + } + fprintf(stdout, ANSI_COLOR_RESET""); + } + else { + if (gpx->option.vbs >= 3) { + fprintf(stdout, "[%3d]", gpx->frame_bytes[pos_Cnt]); + fprintf(stdout, " (W %d) ", gpx->week); + } + fprintf(stdout, "%s ", weekday[gpx->wday]); + fprintf(stdout, "%04d-%02d-%02d %02d:%02d:%06.3f ", + gpx->jahr, gpx->monat, gpx->tag, gpx->std, gpx->min, gpx->sek); + fprintf(stdout, " lat: %.5f ", gpx->lat); + fprintf(stdout, " lon: %.5f ", gpx->lon); + fprintf(stdout, " alt: %.2f ", gpx->alt); + if (!err2) { + fprintf(stdout, " vH: %.1f D: %.1f vV: %.1f ", gpx->vH, gpx->vD, gpx->vV); + } + if (gpx->option.vbs >= 2) { + fprintf(stdout, " # "); + if (bcOK) fprintf(stdout, " (ok)"); else fprintf(stdout, " (no)"); + if (csOK) fprintf(stdout, " [OK]"); else fprintf(stdout, " [NO]"); + } + if (gpx->option.ptu && csOK) { + if (gpx->option.vbs >= 3) { + float t0 = get_Tntc0(gpx); + if (t0 > -270.0) fprintf(stdout, " (T0:%.1fC) ", t0); + } + } + } + fprintf(stdout, "\n"); + + + } + + return err; +} + +static int print_frame(gpx_t *gpx, int pos) { + int i; + ui8_t byte; + int cs1, cs2; + int bc1, bc2; + int flen = stdFLEN; // stdFLEN=0x64, auxFLEN=0x76; M20:0x45 ? + + bits2bytes(gpx->frame_bits, gpx->frame_bytes); + flen = gpx->frame_bytes[0]; + if (flen == stdFLEN) gpx->auxlen = 0; + else { + gpx->auxlen = flen - stdFLEN; + //if (gpx->auxlen < 0 || gpx->auxlen > AUX_LEN) gpx->auxlen = 0; + } + + cs1 = (gpx->frame_bytes[pos_Check+gpx->auxlen] << 8) | gpx->frame_bytes[pos_Check+gpx->auxlen+1]; + cs2 = checkM10(gpx->frame_bytes, pos_Check+gpx->auxlen); + + bc1 = (gpx->frame_bytes[pos_BlkChk] << 8) | gpx->frame_bytes[pos_BlkChk+1]; + bc2 = blk_checkM10(len_BlkChk, gpx->frame_bytes+2); // len(essentialBlock+chk16) = 0x16 + + if (gpx->option.raw) { + + if (gpx->option.col && gpx->frame_bytes[1] != 0x49) { + fprintf(stdout, col_FRTXT); + for (i = 0; i < FRAME_LEN+gpx->auxlen; i++) { + byte = gpx->frame_bytes[i]; + if ((i >= pos_GPSTOW) && (i < pos_GPSTOW+3)) fprintf(stdout, col_GPSTOW); + if ((i >= pos_GPSlat) && (i < pos_GPSlat+4)) fprintf(stdout, col_GPSlat); + if ((i >= pos_GPSlon) && (i < pos_GPSlon+4)) fprintf(stdout, col_GPSlon); + if ((i >= pos_GPSalt) && (i < pos_GPSalt+3)) fprintf(stdout, col_GPSalt); + if ((i >= pos_GPSweek) && (i < pos_GPSweek+2)) fprintf(stdout, col_GPSweek); + if ((i >= pos_GPSvE) && (i < pos_GPSvE+2)) fprintf(stdout, col_GPSvel); + if ((i >= pos_GPSvN) && (i < pos_GPSvN+2)) fprintf(stdout, col_GPSvel); + if ((i >= pos_GPSvU) && (i < pos_GPSvU+2)) fprintf(stdout, col_GPSvel); + if ((i >= pos_BlkChk) && (i < pos_BlkChk+2)) fprintf(stdout, col_Check); + if ((i >= pos_Check+gpx->auxlen) && (i < pos_Check+gpx->auxlen+2)) fprintf(stdout, col_Check); + fprintf(stdout, "%02x", byte); + fprintf(stdout, col_FRTXT); + } + if (gpx->option.vbs) { + fprintf(stdout, " # "col_Check"%04x"col_FRTXT, cs2); + if (bc1 == bc2) fprintf(stdout, " "col_CSok"(ok)"col_TXT); + else fprintf(stdout, " "col_CSno"(no)"col_TXT); + if (cs1 == cs2) fprintf(stdout, " "col_CSok"[OK]"col_TXT); + else fprintf(stdout, " "col_CSno"[NO]"col_TXT); + } + fprintf(stdout, ANSI_COLOR_RESET"\n"); + } + else { + for (i = 0; i < FRAME_LEN+gpx->auxlen; i++) { + byte = gpx->frame_bytes[i]; + fprintf(stdout, "%02x", byte); + } + if (gpx->option.vbs) { + fprintf(stdout, " # %04x", cs2); + if (bc1 == bc2) fprintf(stdout, " (ok)"); else fprintf(stdout, " (no)"); + if (cs1 == cs2) fprintf(stdout, " [OK]"); else fprintf(stdout, " [NO]"); + } + fprintf(stdout, "\n"); + } + + } + else if (gpx->frame_bytes[1] == 0x49) { + if (gpx->option.vbs == 3) { + for (i = 0; i < FRAME_LEN+gpx->auxlen; i++) { + byte = gpx->frame_bytes[i]; + fprintf(stdout, "%02x", byte); + } + fprintf(stdout, "\n"); + } + } + else print_pos(gpx, bc1 == bc2, cs1 == cs2); + + return (gpx->frame_bytes[0]<<8)|gpx->frame_bytes[1]; +} + + +int main(int argc, char **argv) { + + int option_verbose = 0; // ausfuehrliche Anzeige + int option_raw = 0; // rohe Frames + int option_inv = 0; // invertiert Signal + //int option_res = 0; // genauere Bitmessung + int option_color = 0; + int option_ptu = 0; + int option_min = 0; + int option_iq = 0; + int option_lp = 0; + int option_dc = 0; + int option_pcmraw = 0; + int wavloaded = 0; + int sel_wavch = 0; // audio channel: left + int spike = 0; + + float baudrate = -1; + + FILE *fp = NULL; + char *fpname = NULL; + + int k; + + int bit, bit0; + int bitpos = 0; + int bitQ; + int pos; + + //int headerlen = 0; + + int header_found = 0; + + float thres = 0.76; + float _mv = 0.0; + + int symlen = 2; + int bitofs = 0; // 0 .. +2 + int shift = 0; + + pcm_t pcm = {0}; + dsp_t dsp = {0}; //memset(&dsp, 0, sizeof(dsp)); + + gpx_t gpx = {0}; + + +#ifdef CYGWIN + _setmode(fileno(stdin), _O_BINARY); // _setmode(_fileno(stdin), _O_BINARY); +#endif + setbuf(stdout, NULL); + + + 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"); + fprintf(stderr, " -c, --color\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, "-vvv") == 0) ) option_verbose = 3; + 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; // nicht noetig + } + else if ( (strcmp(*argv, "-c") == 0) || (strcmp(*argv, "--color") == 0) ) { + option_color = 1; + } + else if ( (strcmp(*argv, "--br") == 0) ) { + ++argv; + if (*argv) { + baudrate = atof(*argv); + if (baudrate < 9000 || baudrate > 10000) baudrate = BAUD_RATE; // default: 9615 + } + else return -1; + } + //else if (strcmp(*argv, "--res") == 0) { option_res = 1; } + else if ( (strcmp(*argv, "--ptu") == 0) ) { + option_ptu = 1; + } + else if ( (strcmp(*argv, "--spike") == 0) ) { + spike = 1; + } + else if ( (strcmp(*argv, "--ch2") == 0) ) { sel_wavch = 1; } // right channel (default: 0=left) + else if ( (strcmp(*argv, "--ths") == 0) ) { + ++argv; + if (*argv) { + thres = atof(*argv); + } + else return -1; + } + else if ( (strcmp(*argv, "-d") == 0) ) { + ++argv; + if (*argv) { + shift = atoi(*argv); + if (shift > 4) shift = 4; + if (shift < -4) shift = -4; + } + else return -1; + } + else if (strcmp(*argv, "--iq0") == 0) { option_iq = 1; } // differential/FM-demod + else if (strcmp(*argv, "--iq2") == 0) { option_iq = 2; } + else if (strcmp(*argv, "--iq3") == 0) { option_iq = 3; } // iq2==iq3 + else if (strcmp(*argv, "--IQ") == 0) { // fq baseband -> IF (rotate from and decimate) + double fq = 0.0; // --IQ , -0.5 < fq < 0.5 + ++argv; + if (*argv) fq = atof(*argv); + else return -1; + if (fq < -0.5) fq = -0.5; + if (fq > 0.5) fq = 0.5; + dsp.xlt_fq = -fq; // S(t) -> S(t)*exp(-f*2pi*I*t) + option_iq = 5; + } + else if (strcmp(*argv, "--lp") == 0) { option_lp = 1; } // IQ lowpass + else if (strcmp(*argv, "--dc") == 0) { option_dc = 1; } + else if (strcmp(*argv, "--min") == 0) { + option_min = 1; + } + else if (strcmp(*argv, "--json") == 0) { gpx.option.jsn = 1; } + else if (strcmp(*argv, "-") == 0) { + int sample_rate = 0, bits_sample = 0, channels = 0; + ++argv; + if (*argv) sample_rate = atoi(*argv); else return -1; + ++argv; + if (*argv) bits_sample = atoi(*argv); else return -1; + channels = 2; + if (sample_rate < 1 || (bits_sample != 8 && bits_sample != 16 && bits_sample != 32)) { + fprintf(stderr, "- \n"); + return -1; + } + pcm.sr = sample_rate; + pcm.bps = bits_sample; + pcm.nch = channels; + option_pcmraw = 1; + } + else { + fp = fopen(*argv, "rb"); + if (fp == NULL) { + fprintf(stderr, "error: open %s\n", *argv); + return -1; + } + wavloaded = 1; + } + ++argv; + } + if (!wavloaded) fp = stdin; + + + gpx.option.inv = option_inv; // irrelevant + gpx.option.vbs = option_verbose; + gpx.option.raw = option_raw; + gpx.option.ptu = option_ptu; + gpx.option.col = option_color; + + + // init gpx + + if (option_iq == 0 && option_pcmraw) { + fclose(fp); + fprintf(stderr, "error: raw data not IQ\n"); + return -1; + } + if (option_iq) sel_wavch = 0; + + pcm.sel_ch = sel_wavch; + if (option_pcmraw == 0) { + k = read_wav_header(&pcm, fp); + if ( k < 0 ) { + fclose(fp); + fprintf(stderr, "error: wav header\n"); + return -1; + } + } + + // m10: BT>1?, h=1.2 ? + symlen = 2; + + // init dsp + // + dsp.fp = fp; + dsp.sr = pcm.sr; + dsp.bps = pcm.bps; + dsp.nch = pcm.nch; + dsp.ch = pcm.sel_ch; + dsp.br = (float)BAUD_RATE; + dsp.sps = (float)dsp.sr/dsp.br; + dsp.symlen = symlen; + dsp.symhd = 1; // M10!header + dsp._spb = dsp.sps*symlen; + dsp.hdr = rawheader; + dsp.hdrlen = strlen(rawheader); + dsp.BT = 1.8; // bw/time (ISI) // 1.0..2.0 // M20 ? + dsp.h = 0.9; // 1.2 modulation index // M20 ? + dsp.opt_iq = option_iq; + dsp.opt_lp = option_lp; + dsp.lpIQ_bw = 24e3; // IF lowpass bandwidth + dsp.lpFM_bw = 10e3; // FM audio lowpass + dsp.opt_dc = option_dc; + dsp.opt_IFmin = option_min; + + if ( dsp.sps < 8 ) { + fprintf(stderr, "note: sample rate low (%.1f sps)\n", dsp.sps); + } + + if (baudrate > 0) { + dsp.br = (float)baudrate; + dsp.sps = (float)dsp.sr/dsp.br; + fprintf(stderr, "sps corr: %.4f\n", dsp.sps); + } + + //headerlen = dsp.hdrlen; + + k = init_buffers(&dsp); + if ( k < 0 ) { + fprintf(stderr, "error: init buffers\n"); + return -1; + }; + + + bitofs += shift; + + while ( 1 ) + { + // FM-audio: + header_found = find_header(&dsp, thres, 2, bitofs, dsp.opt_dc); // optional 2nd pass: dc=0 + _mv = dsp.mv; + + if (header_found == EOF) break; + + // mv == correlation score + if (_mv*(0.5-gpx.option.inv) < 0) { + gpx.option.inv ^= 0x1; // M10: irrelevant + } + + if (header_found) { + + bitpos = 0; + pos = 0; + pos /= 2; + bit0 = '0'; // oder: _mv[j] > 0 + + while ( pos < BITFRAME_LEN+BITAUX_LEN ) { + + if (option_iq >= 2) { + float bl = -1; + if (option_iq > 2) bl = 4.0; + bitQ = read_slbit(&dsp, &bit, 0/*gpx.option.inv*/, bitofs, bitpos, bl, 0); + } + else { + bitQ = read_slbit(&dsp, &bit, 0/*gpx.option.inv*/, bitofs, bitpos, -1, spike); // symlen=2 + } + + if ( bitQ == EOF ) { break; } + + gpx.frame_bits[pos] = 0x31 ^ (bit0 ^ bit); + pos++; + bit0 = bit; + bitpos += 1; + } + gpx.frame_bits[pos] = '\0'; + print_frame(&gpx, pos); + if (pos < BITFRAME_LEN) break; + + header_found = 0; + + // bis Ende der Sekunde vorspulen; allerdings Doppel-Frame alle 10 sek + if (gpx.option.vbs < 3) { // && (regulare frame) // print_frame-return? + while ( bitpos < 5*BITFRAME_LEN ) { + bitQ = read_slbit(&dsp, &bit, 0/*gpx.option.inv*/, bitofs, bitpos, -1, spike); // symlen=2 + if ( bitQ == EOF) break; + bitpos++; + } + } + + pos = 0; + } + } + + + free_buffers(&dsp); + + fclose(fp); + + return 0; +} + diff --git a/demod/mod/meisei100mod.c b/demod/mod/meisei100mod.c index be996dd..128eccf 100644 --- a/demod/mod/meisei100mod.c +++ b/demod/mod/meisei100mod.c @@ -720,7 +720,8 @@ int main(int argc, char **argv) { if (gpx.sn > 0 && gpx.sn < 1e9) { sprintf(id_str, "%.0f", gpx.sn); } - printf("{ \"frame\": %d, \"id\": \"IMS100-%s\", \"datetime\": \"%04d-%02d-%02dT%02d:%02d:%06.3fZ\", \"lat\": %.5f, \"lon\": %.5f, \"alt\": %.5f, \"vel_h\": %.5f, \"heading\": %.5f }\n", + printf("{ \"type\": \"%s\"", "IMS100"); + printf(", \"frame\": %d, \"id\": \"IMS100-%s\", \"datetime\": \"%04d-%02d-%02dT%02d:%02d:%06.3fZ\", \"lat\": %.5f, \"lon\": %.5f, \"alt\": %.5f, \"vel_h\": %.5f, \"heading\": %.5f }\n", gpx.frnr, id_str, gpx.jahr, gpx.monat, gpx.tag, gpx.std, gpx.min, gpx.sek, gpx.lat, gpx.lon, gpx.alt, gpx.vH, gpx.vD ); printf("\n"); } diff --git a/demod/mod/rs41mod.c b/demod/mod/rs41mod.c index 02e5bff..d176c58 100644 --- a/demod/mod/rs41mod.c +++ b/demod/mod/rs41mod.c @@ -2,7 +2,7 @@ /* * rs41 * sync header: correlation/matched filter - * files: rs41mod.c bch_ecc_mod.c demod_mod.c demod_mod.h + * files: rs41mod.c bch_ecc_mod.c bch_ecc_mod.h demod_mod.c demod_mod.h * compile, either (a) or (b): * (a) * gcc -c demod_mod.c @@ -1327,7 +1327,8 @@ static int print_position(gpx_t *gpx, int ec) { // Print out telemetry data as JSON if ((!err && !err1 && !err3) || (!err && encrypted)) { // frame-nb/id && gps-time && gps-position (crc-)ok; 3 CRCs, RS not needed // eigentlich GPS, d.h. UTC = GPS - 18sec (ab 1.1.2017) - fprintf(stdout, "{ \"frame\": %d, \"id\": \"%s\", \"datetime\": \"%04d-%02d-%02dT%02d:%02d:%06.3fZ\", \"lat\": %.5f, \"lon\": %.5f, \"alt\": %.5f, \"vel_h\": %.5f, \"heading\": %.5f, \"vel_v\": %.5f, \"sats\": %d, \"bt\": %d, \"batt\": %.2f", + fprintf(stdout, "{ \"type\": \"%s\"", "RS41"); + fprintf(stdout, ", \"frame\": %d, \"id\": \"%s\", \"datetime\": \"%04d-%02d-%02dT%02d:%02d:%06.3fZ\", \"lat\": %.5f, \"lon\": %.5f, \"alt\": %.5f, \"vel_h\": %.5f, \"heading\": %.5f, \"vel_v\": %.5f, \"sats\": %d, \"bt\": %d, \"batt\": %.2f", gpx->frnr, gpx->id, gpx->jahr, gpx->monat, gpx->tag, gpx->std, gpx->min, gpx->sek, gpx->lat, gpx->lon, gpx->alt, gpx->vH, gpx->vD, gpx->vV, gpx->numSV, gpx->conf_cd, gpx->batt ); if (gpx->option.ptu && !err0 && gpx->T > -273.0) { fprintf(stdout, ", \"temp\": %.1f", gpx->T ); diff --git a/demod/mod/rs92mod.c b/demod/mod/rs92mod.c index a6ec8ff..a28b840 100644 --- a/demod/mod/rs92mod.c +++ b/demod/mod/rs92mod.c @@ -2,7 +2,7 @@ /* * rs92 * sync header: correlation/matched filter - * files: rs92mod.c nav_gps_vel.c bch_ecc_mod.c demod_mod.c demod_mod.h + * files: rs92mod.c nav_gps_vel.c bch_ecc_mod.c bch_ecc_mod.h demod_mod.c demod_mod.h * compile: * (a) * gcc -c demod_mod.c @@ -1177,7 +1177,9 @@ static int print_position(gpx_t *gpx, int ec) { // GPS-Hoehe ueber Ellipsoid // Print out telemetry data as JSON //even if we don't have a valid GPS lock if ((gpx->crc & (crc_FRAME | crc_GPS))==0 && (gpx->gps.almanac || gpx->gps.ephem)) //(!err1 && !err3) { // eigentlich GPS, d.h. UTC = GPS - UTC_OFS (UTC_OFS=18sec ab 1.1.2017) - fprintf(stdout, "\n{ \"frame\": %d, \"id\": \"%s\", \"datetime\": \"%04d-%02d-%02dT%02d:%02d:%06.3fZ\", \"lat\": %.5f, \"lon\": %.5f, \"alt\": %.5f, \"vel_h\": %.5f, \"heading\": %.5f, \"vel_v\": %.5f", + fprintf(stdout, "\n"); + fprintf(stdout, "{ \"type\": \"%s\"", "RS92"); + fprintf(stdout, ", \"frame\": %d, \"id\": \"%s\", \"datetime\": \"%04d-%02d-%02dT%02d:%02d:%06.3fZ\", \"lat\": %.5f, \"lon\": %.5f, \"alt\": %.5f, \"vel_h\": %.5f, \"heading\": %.5f, \"vel_v\": %.5f", gpx->frnr, gpx->id, gpx->jahr, gpx->monat, gpx->tag, gpx->std, gpx->min, gpx->sek, gpx->lat, gpx->lon, gpx->alt, gpx->vH, gpx->vD, gpx->vU); if ((gpx->crc & crc_AUX)==0 && (gpx->aux[0] != 0 || gpx->aux[1] != 0 || gpx->aux[2] != 0 || gpx->aux[3] != 0)) { fprintf(stdout, ", \"aux\": \"%04x%04x%04x%04x\"", gpx->aux[0], gpx->aux[1], gpx->aux[2], gpx->aux[3]); diff --git a/imet/imet1rs_dft.c b/imet/imet1rs_dft.c index f56681c..cc749e7 100644 --- a/imet/imet1rs_dft.c +++ b/imet/imet1rs_dft.c @@ -427,7 +427,8 @@ int print_frame(int len) { if (option_json) { if (gpx.gps_valid && gpx.ptu_valid) // frameNb part of PTU-pck { - fprintf(stdout, "{ \"frame\": %d, \"id\": \"iMet\", \"datetime\": \"%02d:%02d:%02dZ\", \"lat\": %.5f, \"lon\": %.5f, \"alt\": %d, \"sats\": %d, \"temp\": %.2f, \"humidity\": %.2f, \"pressure\": %.2f, \"batt\": %.1f }\n", + fprintf(stdout, "{ \"type\": \"%s\"", "IMET"); + fprintf(stdout, ", \"frame\": %d, \"id\": \"iMet\", \"datetime\": \"%02d:%02d:%02dZ\", \"lat\": %.5f, \"lon\": %.5f, \"alt\": %d, \"sats\": %d, \"temp\": %.2f, \"humidity\": %.2f, \"pressure\": %.2f, \"batt\": %.1f }\n", gpx.frame, gpx.hour, gpx.min, gpx.sec, gpx.lat, gpx.lon, gpx.alt, gpx.sats, gpx.temp, gpx.humidity, gpx.pressure, gpx.batt); } } diff --git a/mk2a/mk2a_lms1680.c b/mk2a/mk2a_lms1680.c index c2f8005..1438c56 100644 --- a/mk2a/mk2a_lms1680.c +++ b/mk2a/mk2a_lms1680.c @@ -634,14 +634,17 @@ void print_frame(int len) { if (option_jsn) { // Print JSON output required by auto_rx. - if (gpx.prev_frnr != gpx.frnr){ - if (crc_err==0 && (gpx.id & 0xFFFF0000)) { // CRC-OK and FullID + if (crc_err==0 && (gpx.id & 0xFFFF0000)) { // CRC-OK and FullID + if (gpx.prev_frnr != gpx.frnr) { //|| gpx.id != _id0 // UTC oder GPS? - 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 }\n", + 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"); + printf(" }\n"); printf("\n"); + gpx.prev_frnr = gpx.frnr; } - gpx.prev_frnr = gpx.frnr; } } diff --git a/scan/dft_detect.c b/scan/dft_detect.c index c38caaf..2acaabc 100644 --- a/scan/dft_detect.c +++ b/scan/dft_detect.c @@ -1,10 +1,22 @@ +/* + * compile: + * gcc dft_detect.c -lm -o dft_detect + * speedup: + * gcc -Ofast dft_detect.c -lm -o dft_detect + * + * author: zilog80 + */ + #include #include #include #include #include +#ifndef M_PI + #define M_PI (3.1415926535897932384626433832795) +#endif typedef unsigned char ui8_t; typedef unsigned short ui16_t; @@ -46,11 +58,12 @@ static char mk2a_header[] = "0010100111""0010100111""0001001001""0010010101"; //int m10_sps = 9600; static char m10_header[] = "10011001100110010100110010011001"; -// frame byte[0..1]: byte[0]=framelen-1, byte[1]=type(8F=M2K2,9F=M10,AF=M10+) -// M2K2 : 64 8F : 0110010010001111 -// M10 : 64 9F : 0110010010011111 (framelen 0x64+1) -// M10-aux: 76 9F : 0111011010011111 (framelen 0x76+1) -// M10+ : 64 AF : 0110010010101111 (w/ gtop-GPS) +// frame byte[0..1]: byte[0]=framelen-1, byte[1]=type(8F=M2K2,9F=M10,AF=M10+,20=M20) +// M2K2 : 64 8F : 01100100 10001111 +// M10 : 64 9F : 01100100 10011111 (framelen 0x64+1) (baud=9616) +// M10-aux: 76 9F : 01110110 10011111 (framelen 0x76+1) +// M10+ : 64 AF : 01100100 10101111 (w/ gtop-GPS) +// M20 : 45 20 : 01000101 00100000 (framelen 0x45+1) (baud=9600) //int meisei_sps = 2400; // 0xFB6230 = static char meisei_header[] = "110011001101001101001101010100101010110010101010"; // 11111011 01100010 00110000 @@ -102,25 +115,35 @@ static float lpFM_bw[2] = { 4e3, 10e3 }; // FM-audio lowpass bandwidth static float lpIQ_bw[3] = { 12e3, 22e3, 200e3 }; // IF iq lowpass bandwidth static float set_lpIQ = 0.0; +#define tn_DFM 2 +#define tn_RS41 3 +#define tn_RS92 4 +#define tn_M10 5 +#define tn_M20 6 +#define tn_LMS6 8 +#define tn_MEISEI 9 +#define tn_C34C50 10 +#define tn_MK2LMS 21 +#define tn_IMET 15 // IMET4=+1, IMET1RS=+3, IMET1AB=+4 + #define Nrs 12 #define idxIMETs 8 #define idxAB 9 #define idxRS 10 #define idxI4 11 -// Thresholds modified by VK5QI 2019-10-04 static rsheader_t rs_hdr[Nrs] = { - { 2500, 0, 0, dfm_header, 1.0, 0.0, 0.62, 2, NULL, "DFM9", 2 , 0, 0, 0.0}, // DFM6: -2 ? - { 4800, 0, 0, rs41_header, 0.5, 0.0, 0.53, 2, NULL, "RS41", 3 , 0, 0, 0.0}, - { 4800, 0, 0, rs92_header, 0.5, 0.0, 0.54, 3, NULL, "RS92", 4 , 0, 0, 0.0}, // RS92NGP: 1680/400=4.2 - { 4800, 0, 0, lms6_header, 1.0, 0.0, 0.70, 2, NULL, "LMS6", 8 , 0, 0, 0.0}, // lmsX: 7? - { 9616, 0, 0, mk2a_header, 1.0, 0.0, 0.70, 2, NULL, "MK2LMS", 21 , 1, 2, 0.0}, // Mk2a/LMS6-1680 , --IQ: decimate > 170kHz ... - { 9616, 0, 0, m10_header, 1.0, 0.0, 0.76, 2, NULL, "M10", 5 , 1, 1, 0.0}, - { 2400, 0, 0, meisei_header, 1.0, 0.0, 0.70, 2, NULL, "MEISEI", 9 , 0, 1, 0.0}, - { 5800, 0, 0, c34_preheader, 1.5, 0.0, 0.80, 2, NULL, "C34C50", 10 , 0, 1, 0.0}, // C34/C50 2900 Hz tone - { 9600, 0, 0, imet_preamble, 0.5, 0.0, 0.80, 4, NULL, "IMET", 15 , 1, 0, 0.0}, // IMET1AB=19, IMET1RS=18 (IQ)IMET4=16 - { 9600, 0, 0, imet1ab_header, 1.0, 0.0, 0.80, 2, NULL, "IMET1AB", 19 , 1, 2, 0.0}, // (rs_hdr[idxAB]) - { 9600, 0, 0, imet1rs_header, 0.5, 0.0, 0.80, 2, NULL, "IMET1RS", 18 , 0, 2, 0.0}, // (rs_hdr[idxRS]) IMET4: lpIQ=0 ... - { 9600, 0, 0, imet1rs_header, 0.5, 0.0, 0.80, 2, NULL, "IMET4", 16 , 1, 0, 0.0} // (rs_hdr[idxI4]) + { 2500, 0, 0, dfm_header, 1.0, 0.0, 0.65, 2, NULL, "DFM9", tn_DFM, 0, 0, 0.0}, // DFM6: -2 ? + { 4800, 0, 0, rs41_header, 0.5, 0.0, 0.70, 2, NULL, "RS41", tn_RS41, 0, 0, 0.0}, + { 4800, 0, 0, rs92_header, 0.5, 0.0, 0.70, 3, NULL, "RS92", tn_RS92, 0, 0, 0.0}, // RS92NGP: 1680/400=4.2 + { 4800, 0, 0, lms6_header, 1.0, 0.0, 0.70, 2, NULL, "LMS6", tn_LMS6, 0, 0, 0.0}, // lmsX: 7? + { 9616, 0, 0, mk2a_header, 1.0, 0.0, 0.70, 2, NULL, "MK2LMS", tn_MK2LMS, 1, 2, 0.0}, // Mk2a/LMS6-1680 , --IQ: decimate > 170kHz ... + { 9616, 0, 0, m10_header, 1.0, 0.0, 0.76, 2, NULL, "M10", tn_M10, 1, 1, 0.0}, // M10.tn=5 (baud=9616) , M20.tn=6 (baud=9600) + { 2400, 0, 0, meisei_header, 1.0, 0.0, 0.70, 2, NULL, "MEISEI", tn_MEISEI, 0, 1, 0.0}, + { 5800, 0, 0, c34_preheader, 1.5, 0.0, 0.80, 2, NULL, "C34C50", tn_C34C50, 0, 1, 0.0}, // C34/C50 2900 Hz tone + { 9600, 0, 0, imet_preamble, 0.5, 0.0, 0.80, 4, NULL, "IMET", tn_IMET , 1, 0, 0.0}, // IMET1AB=19, IMET1RS=18 (IQ)IMET4=16 + { 9600, 0, 0, imet1ab_header, 1.0, 0.0, 0.80, 2, NULL, "IMET1AB", tn_IMET+4, 1, 2, 0.0}, // (rs_hdr[idxAB]) + { 9600, 0, 0, imet1rs_header, 0.5, 0.0, 0.80, 2, NULL, "IMET1RS", tn_IMET+3, 0, 2, 0.0}, // (rs_hdr[idxRS]) IMET4: lpIQ=0 ... + { 9600, 0, 0, imet1rs_header, 0.5, 0.0, 0.80, 2, NULL, "IMET4", tn_IMET+1, 1, 0, 0.0}, // (rs_hdr[idxI4]) }; @@ -268,7 +291,7 @@ static int getCorrDFT(int K, unsigned int pos, float *maxv, unsigned int *maxvpo double xnorm = 1.0; unsigned int mpos = 0; - double dc = 0.0; + float dc = 0.0; rshd->dc = 0.0; if (K + rshd->L > N_DFT) return -1; @@ -575,7 +598,7 @@ static int lowpass_init(float f, int taps, float **pws) { h = (double*)calloc( taps+1, sizeof(double)); if (h == NULL) return -1; w = (double*)calloc( taps+1, sizeof(double)); if (w == NULL) return -1; - ws = (float*)calloc( taps+1, sizeof(float)); if (ws == NULL) return -1; + ws = (float*)calloc( 2*taps+1, sizeof(float)); if (ws == NULL) return -1; for (n = 0; n < taps; n++) { w[n] = 7938/18608.0 - 9240/18608.0*cos(2*M_PI*n/(taps-1)) + 1430/18608.0*cos(4*M_PI*n/(taps-1)); // Blackmann @@ -586,6 +609,9 @@ static int lowpass_init(float f, int taps, float **pws) { for (n = 0; n < taps; n++) { ws[n] /= norm; // 1-norm } + + for (n = 0; n < taps; n++) ws[taps+n] = ws[n]; // duplicate/unwrap + *pws = ws; free(h); h = NULL; @@ -595,7 +621,7 @@ static int lowpass_init(float f, int taps, float **pws) { } // struct { int taps; double *ws} -static float complex lowpass(float complex buffer[], ui32_t sample, ui32_t taps, float *ws) { +static float complex lowpass0(float complex buffer[], ui32_t sample, ui32_t taps, float *ws) { ui32_t n; double complex w = 0; for (n = 0; n < taps; n++) { @@ -603,6 +629,16 @@ static float complex lowpass(float complex buffer[], ui32_t sample, ui32_t taps, } return (float complex)w; } +static float complex lowpass(float complex buffer[], ui32_t sample, ui32_t taps, float *ws) { + ui32_t n; + ui32_t s = sample % taps; + double complex w = 0; + for (n = 0; n < taps; n++) { + w += buffer[n]*ws[taps+s-n]; // ws[taps+s-n] = ws[(taps+sample-n)%taps] + } + return (float complex)w; +// symmetry: ws[n] == ws[taps-1-n] +} static int f32buf_sample(FILE *fp, int inv) { @@ -721,10 +757,9 @@ static int headcmp(int symlen, unsigned int mvp, int inv, rsheader_t *rshd) { int errs = 0; int pos; int step = 1; - char sign = 0; int len = 0; - - double dc = 0.0; + char sign = 0; + float dc = 0.0; if (option_dc) { @@ -755,6 +790,61 @@ static int headcmp(int symlen, unsigned int mvp, int inv, rsheader_t *rshd) { return errs; } + +static ui8_t bits2byte(char *bitstr) { + int i, bit, d, byteval; + int bitpos; + + bitpos = 0; + byteval = 0; + d = 1; + for (i = 0; i < 8; i++) { + //bit=*(bitstr+bitpos+i); /* little endian */ + bit=*(bitstr+bitpos+7-i); /* big endian */ + if (bit == '1') byteval += d; + else /*if ((bit == '0')*/ byteval += 0; + d <<= 1; + } + + return byteval & 0xFF; +} + +static int hw(ui8_t byte) { + int i; + int d = 0; + for (i = 0; i < 8; i++) { + d += (byte & 1); + byte >>= 1; + } + return d; +} + +static ui32_t frm_M10(unsigned int mvp, int inv, rsheader_t *rshd) { + float dc = 0.0; + int pos2; + char bit0 = '0'; + char mb[2]; + char frmbit[16+1]; + ui8_t b[2]; + ui32_t bytes; + + if (option_dc) dc = rshd->dc; + + bit0 = 0x30 + (inv > 0); + for (pos2 = 0; pos2 < 16; pos2 += 1) { + read_bufbit(2, mb, mvp, pos2==0, dc, rshd); + frmbit[pos2] = 0x31 ^ (bit0 ^ mb[0]); + bit0 = mb[0]; + } + frmbit[pos2] = '\0'; + + b[0] = bits2byte(frmbit); + b[1] = bits2byte(frmbit+8); + bytes = (b[0]<<8) | b[1]; + + return bytes; +} + /* -------------------------------------------------------------------------- */ #define IF_SAMPLE_RATE 48000 @@ -1198,7 +1288,7 @@ int main(int argc, char **argv) { else { fp = fopen(*argv, "rb"); if (fp == NULL) { - fprintf(stderr, "%s konnte nicht geoeffnet werden\n", *argv); + fprintf(stderr, "error: open %s\n", *argv); return -50; } wavloaded = 1; @@ -1229,7 +1319,7 @@ int main(int argc, char **argv) { }; for (j = 0; j < Nrs; j++) { - mv[j] = 0; + mv[j] = 0.0; mv_pos[j] = 0; mp[j] = 0; } @@ -1266,7 +1356,22 @@ int main(int argc, char **argv) { if (mv_pos[j] > mv0_pos[j]) { herrs = headcmp(1, mv_pos[j], mv[j]<0, rs_hdr+j); - if (herrs < rs_hdr[j].herrs) { // max bit-errors in header + if (herrs < rs_hdr[j].herrs) // max bit-errors in header + { + if ( strncmp(rs_hdr[j].type, "M10", 3) == 0 || strncmp(rs_hdr[j].type, "M20", 3) == 0) + { + ui32_t bytes = frm_M10(mv_pos[j], mv[j]<0, rs_hdr+j); + int len = (bytes >> 8) & 0xFF; + int h = hw(bytes & 0x0F); + if (h < 2 || h == 2 && (bytes&0xF0) == 0x20) { + rs_hdr[j].type = "M20"; + rs_hdr[j].tn = tn_M20; // M20: 45 20 + } + else { + rs_hdr[j].type = "M10"; + rs_hdr[j].tn = tn_M10; // M10: 64 9F , M10+: 64 AF , M10-dop: 64 49 (len > 0x60) + } + } if ( strncmp(rs_hdr[j].type, "IMET", 4) == 0 ) // ? j == idxIMETs { @@ -1322,13 +1427,13 @@ int main(int argc, char **argv) { mv_pos[j] = mv_pos[_j0]; rs_hdr[j].dc = rs_hdr[_j0].dc; rs_hdr[j].df = rs_hdr[_j0].df; - mv[_j0] = 0; + mv[_j0] = 0.0; header_found = 1; } else mv[j] = 0.0; } else { // IMET -> IMET1AB ? - mv[j] = 0; + mv[j] = 0.0; j = idxAB; mv_pos[j] = sample_out; n = 0;