/* * Copyright © 2014 Kosma Moczek * This program is free software. It comes without any warranty, to the extent * permitted by applicable law. You can redistribute it and/or modify it under * the terms of the Do What The Fuck You Want To Public License, Version 2, as * published by Sam Hocevar. See the COPYING file for more details. */ #include "minmea.h" #include #include #include #define boolstr(s) ((s) ? "true" : "false") static int hex2int(char c) { if(c >= '0' && c <= '9') return c - '0'; if(c >= 'A' && c <= 'F') return c - 'A' + 10; if(c >= 'a' && c <= 'f') return c - 'a' + 10; return -1; } uint8_t minmea_checksum(const char* sentence) { // Support senteces with or without the starting dollar sign. if(*sentence == '$') sentence++; uint8_t checksum = 0x00; // The optional checksum is an XOR of all bytes between "$" and "*". while(*sentence && *sentence != '*') checksum ^= *sentence++; return checksum; } bool minmea_check(const char* sentence, bool strict) { uint8_t checksum = 0x00; // A valid sentence starts with "$". if(*sentence++ != '$') return false; // The optional checksum is an XOR of all bytes between "$" and "*". while(*sentence && *sentence != '*' && isprint((unsigned char)*sentence)) checksum ^= *sentence++; // If checksum is present... if(*sentence == '*') { // Extract checksum. sentence++; int upper = hex2int(*sentence++); if(upper == -1) return false; int lower = hex2int(*sentence++); if(lower == -1) return false; int expected = upper << 4 | lower; // Check for checksum mismatch. if(checksum != expected) return false; } else if(strict) { // Discard non-checksummed frames in strict mode. return false; } // The only stuff allowed at this point is a newline. while(*sentence == '\r' || *sentence == '\n') { sentence++; } if(*sentence) { return false; } return true; } bool minmea_scan(const char* sentence, const char* format, ...) { bool result = false; bool optional = false; if(sentence == NULL) return false; va_list ap; va_start(ap, format); const char* field = sentence; #define next_field() \ do { \ /* Progress to the next field. */ \ while(minmea_isfield(*sentence)) sentence++; \ /* Make sure there is a field there. */ \ if(*sentence == ',') { \ sentence++; \ field = sentence; \ } else { \ field = NULL; \ } \ } while(0) while(*format) { char type = *format++; if(type == ';') { // All further fields are optional. optional = true; continue; } if(!field && !optional) { // Field requested but we ran out if input. Bail out. goto parse_error; } switch(type) { case 'c': { // Single character field (char). char value = '\0'; if(field && minmea_isfield(*field)) value = *field; *va_arg(ap, char*) = value; } break; case 'd': { // Single character direction field (int). int value = 0; if(field && minmea_isfield(*field)) { switch(*field) { case 'N': case 'E': value = 1; break; case 'S': case 'W': value = -1; break; default: goto parse_error; } } *va_arg(ap, int*) = value; } break; case 'f': { // Fractional value with scale (struct minmea_float). int sign = 0; int_least32_t value = -1; int_least32_t scale = 0; if(field) { while(minmea_isfield(*field)) { if(*field == '+' && !sign && value == -1) { sign = 1; } else if(*field == '-' && !sign && value == -1) { sign = -1; } else if(isdigit((unsigned char)*field)) { int digit = *field - '0'; if(value == -1) value = 0; if(value > (INT_LEAST32_MAX - digit) / 10) { /* we ran out of bits, what do we do? */ if(scale) { /* truncate extra precision */ break; } else { /* integer overflow. bail out. */ goto parse_error; } } value = (10 * value) + digit; if(scale) scale *= 10; } else if(*field == '.' && scale == 0) { scale = 1; } else if(*field == ' ') { /* Allow spaces at the start of the field. Not NMEA * conformant, but some modules do this. */ if(sign != 0 || value != -1 || scale != 0) goto parse_error; } else { goto parse_error; } field++; } } if((sign || scale) && value == -1) goto parse_error; if(value == -1) { /* No digits were scanned. */ value = 0; scale = 0; } else if(scale == 0) { /* No decimal point. */ scale = 1; } if(sign) value *= sign; *va_arg(ap, struct minmea_float*) = (struct minmea_float){value, scale}; } break; case 'i': { // Integer value, default 0 (int). int value = 0; if(field) { char* endptr; value = strtol(field, &endptr, 10); if(minmea_isfield(*endptr)) goto parse_error; } *va_arg(ap, int*) = value; } break; case 's': { // String value (char *). char* buf = va_arg(ap, char*); if(field) { while(minmea_isfield(*field)) *buf++ = *field++; } *buf = '\0'; } break; case 't': { // NMEA talker+sentence identifier (char *). // This field is always mandatory. if(!field) goto parse_error; if(field[0] != '$') goto parse_error; for(int f = 0; f < 5; f++) if(!minmea_isfield(field[1 + f])) goto parse_error; char* buf = va_arg(ap, char*); memcpy(buf, field + 1, 5); buf[5] = '\0'; } break; case 'D': { // Date (int, int, int), -1 if empty. struct minmea_date* date = va_arg(ap, struct minmea_date*); int d = -1, m = -1, y = -1; if(field && minmea_isfield(*field)) { // Always six digits. for(int f = 0; f < 6; f++) if(!isdigit((unsigned char)field[f])) goto parse_error; char dArr[] = {field[0], field[1], '\0'}; char mArr[] = {field[2], field[3], '\0'}; char yArr[] = {field[4], field[5], '\0'}; d = strtol(dArr, NULL, 10); m = strtol(mArr, NULL, 10); y = strtol(yArr, NULL, 10); } date->day = d; date->month = m; date->year = y; } break; case 'T': { // Time (int, int, int, int), -1 if empty. struct minmea_time* time_ = va_arg(ap, struct minmea_time*); int h = -1, i = -1, s = -1, u = -1; if(field && minmea_isfield(*field)) { // Minimum required: integer time. for(int f = 0; f < 6; f++) if(!isdigit((unsigned char)field[f])) goto parse_error; char hArr[] = {field[0], field[1], '\0'}; char iArr[] = {field[2], field[3], '\0'}; char sArr[] = {field[4], field[5], '\0'}; h = strtol(hArr, NULL, 10); i = strtol(iArr, NULL, 10); s = strtol(sArr, NULL, 10); field += 6; // Extra: fractional time. Saved as microseconds. if(*field++ == '.') { uint32_t value = 0; uint32_t scale = 1000000LU; while(isdigit((unsigned char)*field) && scale > 1) { value = (value * 10) + (*field++ - '0'); scale /= 10; } u = value * scale; } else { u = 0; } } time_->hours = h; time_->minutes = i; time_->seconds = s; time_->microseconds = u; } break; case '_': { // Ignore the field. } break; default: { // Unknown. goto parse_error; } } next_field(); } result = true; parse_error: va_end(ap); return result; } bool minmea_talker_id(char talker[3], const char* sentence) { char type[6]; if(!minmea_scan(sentence, "t", type)) return false; talker[0] = type[0]; talker[1] = type[1]; talker[2] = '\0'; return true; } enum minmea_sentence_id minmea_sentence_id(const char* sentence, bool strict) { if(!minmea_check(sentence, strict)) return MINMEA_INVALID; char type[6]; if(!minmea_scan(sentence, "t", type)) return MINMEA_INVALID; if(!strcmp(type + 2, "GBS")) return MINMEA_SENTENCE_GBS; if(!strcmp(type + 2, "GGA")) return MINMEA_SENTENCE_GGA; if(!strcmp(type + 2, "GLL")) return MINMEA_SENTENCE_GLL; if(!strcmp(type + 2, "GSA")) return MINMEA_SENTENCE_GSA; if(!strcmp(type + 2, "GST")) return MINMEA_SENTENCE_GST; if(!strcmp(type + 2, "GSV")) return MINMEA_SENTENCE_GSV; if(!strcmp(type + 2, "RMC")) return MINMEA_SENTENCE_RMC; if(!strcmp(type + 2, "VTG")) return MINMEA_SENTENCE_VTG; if(!strcmp(type + 2, "ZDA")) return MINMEA_SENTENCE_ZDA; return MINMEA_UNKNOWN; } bool minmea_parse_gbs(struct minmea_sentence_gbs* frame, const char* sentence) { // $GNGBS,170556.00,3.0,2.9,8.3,,,,*5C char type[6]; if(!minmea_scan( sentence, "tTfffifff", type, &frame->time, &frame->err_latitude, &frame->err_longitude, &frame->err_altitude, &frame->svid, &frame->prob, &frame->bias, &frame->stddev)) return false; if(strcmp(type + 2, "GBS")) return false; return true; } bool minmea_parse_rmc(struct minmea_sentence_rmc* frame, const char* sentence) { // $GPRMC,081836,A,3751.65,S,14507.36,E,000.0,360.0,130998,011.3,E*62 char type[6]; char validity; int latitude_direction; int longitude_direction; int variation_direction; if(!minmea_scan( sentence, "tTcfdfdffDfd", type, &frame->time, &validity, &frame->latitude, &latitude_direction, &frame->longitude, &longitude_direction, &frame->speed, &frame->course, &frame->date, &frame->variation, &variation_direction)) return false; if(strcmp(type + 2, "RMC")) return false; frame->valid = (validity == 'A'); frame->latitude.value *= latitude_direction; frame->longitude.value *= longitude_direction; frame->variation.value *= variation_direction; return true; } bool minmea_parse_gga(struct minmea_sentence_gga* frame, const char* sentence) { // $GPGGA,123519,4807.038,N,01131.000,E,1,08,0.9,545.4,M,46.9,M,,*47 char type[6]; int latitude_direction; int longitude_direction; if(!minmea_scan( sentence, "tTfdfdiiffcfcf_", type, &frame->time, &frame->latitude, &latitude_direction, &frame->longitude, &longitude_direction, &frame->fix_quality, &frame->satellites_tracked, &frame->hdop, &frame->altitude, &frame->altitude_units, &frame->height, &frame->height_units, &frame->dgps_age)) return false; if(strcmp(type + 2, "GGA")) return false; frame->latitude.value *= latitude_direction; frame->longitude.value *= longitude_direction; return true; } bool minmea_parse_gsa(struct minmea_sentence_gsa* frame, const char* sentence) { // $GPGSA,A,3,04,05,,09,12,,,24,,,,,2.5,1.3,2.1*39 char type[6]; if(!minmea_scan( sentence, "tciiiiiiiiiiiiifff", type, &frame->mode, &frame->fix_type, &frame->sats[0], &frame->sats[1], &frame->sats[2], &frame->sats[3], &frame->sats[4], &frame->sats[5], &frame->sats[6], &frame->sats[7], &frame->sats[8], &frame->sats[9], &frame->sats[10], &frame->sats[11], &frame->pdop, &frame->hdop, &frame->vdop)) return false; if(strcmp(type + 2, "GSA")) return false; return true; } bool minmea_parse_gll(struct minmea_sentence_gll* frame, const char* sentence) { // $GPGLL,3723.2475,N,12158.3416,W,161229.487,A,A*41$; char type[6]; int latitude_direction; int longitude_direction; if(!minmea_scan( sentence, "tfdfdTc;c", type, &frame->latitude, &latitude_direction, &frame->longitude, &longitude_direction, &frame->time, &frame->status, &frame->mode)) return false; if(strcmp(type + 2, "GLL")) return false; frame->latitude.value *= latitude_direction; frame->longitude.value *= longitude_direction; return true; } bool minmea_parse_gst(struct minmea_sentence_gst* frame, const char* sentence) { // $GPGST,024603.00,3.2,6.6,4.7,47.3,5.8,5.6,22.0*58 char type[6]; if(!minmea_scan( sentence, "tTfffffff", type, &frame->time, &frame->rms_deviation, &frame->semi_major_deviation, &frame->semi_minor_deviation, &frame->semi_major_orientation, &frame->latitude_error_deviation, &frame->longitude_error_deviation, &frame->altitude_error_deviation)) return false; if(strcmp(type + 2, "GST")) return false; return true; } bool minmea_parse_gsv(struct minmea_sentence_gsv* frame, const char* sentence) { // $GPGSV,3,1,11,03,03,111,00,04,15,270,00,06,01,010,00,13,06,292,00*74 // $GPGSV,3,3,11,22,42,067,42,24,14,311,43,27,05,244,00,,,,*4D // $GPGSV,4,2,11,08,51,203,30,09,45,215,28*75 // $GPGSV,4,4,13,39,31,170,27*40 // $GPGSV,4,4,13*7B char type[6]; if(!minmea_scan( sentence, "tiii;iiiiiiiiiiiiiiii", type, &frame->total_msgs, &frame->msg_nr, &frame->total_sats, &frame->sats[0].nr, &frame->sats[0].elevation, &frame->sats[0].azimuth, &frame->sats[0].snr, &frame->sats[1].nr, &frame->sats[1].elevation, &frame->sats[1].azimuth, &frame->sats[1].snr, &frame->sats[2].nr, &frame->sats[2].elevation, &frame->sats[2].azimuth, &frame->sats[2].snr, &frame->sats[3].nr, &frame->sats[3].elevation, &frame->sats[3].azimuth, &frame->sats[3].snr)) { return false; } if(strcmp(type + 2, "GSV")) return false; return true; } bool minmea_parse_vtg(struct minmea_sentence_vtg* frame, const char* sentence) { // $GPVTG,054.7,T,034.4,M,005.5,N,010.2,K*48 // $GPVTG,156.1,T,140.9,M,0.0,N,0.0,K*41 // $GPVTG,096.5,T,083.5,M,0.0,N,0.0,K,D*22 // $GPVTG,188.36,T,,M,0.820,N,1.519,K,A*3F char type[6]; char c_true, c_magnetic, c_knots, c_kph, c_faa_mode; if(!minmea_scan( sentence, "t;fcfcfcfcc", type, &frame->true_track_degrees, &c_true, &frame->magnetic_track_degrees, &c_magnetic, &frame->speed_knots, &c_knots, &frame->speed_kph, &c_kph, &c_faa_mode)) return false; if(strcmp(type + 2, "VTG")) return false; // values are only valid with the accompanying characters if(c_true != 'T') frame->true_track_degrees.scale = 0; if(c_magnetic != 'M') frame->magnetic_track_degrees.scale = 0; if(c_knots != 'N') frame->speed_knots.scale = 0; if(c_kph != 'K') frame->speed_kph.scale = 0; frame->faa_mode = (enum minmea_faa_mode)c_faa_mode; return true; } bool minmea_parse_zda(struct minmea_sentence_zda* frame, const char* sentence) { // $GPZDA,201530.00,04,07,2002,00,00*60 char type[6]; if(!minmea_scan( sentence, "tTiiiii", type, &frame->time, &frame->date.day, &frame->date.month, &frame->date.year, &frame->hour_offset, &frame->minute_offset)) return false; if(strcmp(type + 2, "ZDA")) return false; // check offsets if(abs(frame->hour_offset) > 13 || frame->minute_offset > 59 || frame->minute_offset < 0) return false; return true; } int minmea_getdatetime( struct tm* tm, const struct minmea_date* date, const struct minmea_time* time_) { if(date->year == -1 || time_->hours == -1) return -1; memset(tm, 0, sizeof(*tm)); if(date->year < 80) { tm->tm_year = 2000 + date->year - 1900; // 2000-2079 } else if(date->year >= 1900) { tm->tm_year = date->year - 1900; // 4 digit year, use directly } else { tm->tm_year = date->year; // 1980-1999 } tm->tm_mon = date->month - 1; tm->tm_mday = date->day; tm->tm_hour = time_->hours; tm->tm_min = time_->minutes; tm->tm_sec = time_->seconds; return 0; } int minmea_gettime( struct timespec* ts, const struct minmea_date* date, const struct minmea_time* time_) { struct tm tm; if(minmea_getdatetime(&tm, date, time_)) return -1; time_t timestamp = mktime(&tm); /* See README.md if your system lacks timegm(). */ if(timestamp != (time_t)-1) { ts->tv_sec = timestamp; ts->tv_nsec = time_->microseconds * 1000; return 0; } else { return -1; } } /* vim: set ts=4 sw=4 et: */