X-Git-Url: https://git.gag.com/?p=fw%2Faltos;a=blobdiff_plain;f=src%2Fdrivers%2Fao_aprs.c;h=c327c89702e8fc8a34c772a4752830a0c39a8d9f;hp=b8d17bd94b257dfcd4cd45268091e3fe5fe236d5;hb=6367ab2dec718c512073f70dfab86dbd1656b1fe;hpb=74969483736381858484dca9ebb528d9d2d73f5b diff --git a/src/drivers/ao_aprs.c b/src/drivers/ao_aprs.c index b8d17bd9..c327c897 100644 --- a/src/drivers/ao_aprs.c +++ b/src/drivers/ao_aprs.c @@ -144,31 +144,14 @@ #endif #include - -typedef int bool_t; -typedef int32_t int32; -#define false 0 -#define true 1 +#include // Public methods, constants, and data structures for each class. -void ddsInit(); -void ddsSetAmplitude (uint8_t amplitude); -void ddsSetOutputScale (uint16_t amplitude); -void ddsSetFSKFreq (uint32_t ftw0, uint32_t ftw1); -void ddsSetFreq (uint32_t freq); -void ddsSetFTW (uint32_t ftw); - -uint16_t sysCRC16(uint8_t *buffer, uint8_t length, uint16_t crc); - -void timeInit(); -void timeSetDutyCycle (uint8_t dutyCycle); -void timeUpdate(); +static void timeInit(void); -void tncInit(); -void tnc1200TimerTick(); -void tncTxByte (uint8_t value); -void tncTxPacket(void); +static void tncInit(void); +static void tnc1200TimerTick(void); /** @} */ @@ -190,7 +173,7 @@ void tncTxPacket(void); * * @return CRC-16 of buffer[0 .. length] */ -uint16_t sysCRC16(uint8_t *buffer, uint8_t length, uint16_t crc) +static uint16_t sysCRC16(const uint8_t *buffer, uint8_t length, uint16_t crc) { uint8_t i, bit, value; @@ -220,21 +203,17 @@ uint16_t sysCRC16(uint8_t *buffer, uint8_t length, uint16_t crc) */ /// 16-bit NCO where the upper 8-bits are used to index into the frequency generation table. -uint16_t timeNCO; +static uint16_t timeNCO; /// Audio tone NCO update step (phase). -uint16_t timeNCOFreq; - -/// Counter used to deciminate down from the 104uS to 833uS interrupt rate. (9600 to 1200 baud) -uint8_t timeLowRateCount; +static uint16_t timeNCOFreq; /** * Initialize the real-time clock. */ -void timeInit() +static void timeInit() { timeNCO = 0x00; - timeLowRateCount = 0; timeNCOFreq = 0x2000; } @@ -252,7 +231,7 @@ void timeInit() #define TNC_TX_DELAY 45 /// The size of the TNC output buffer. -#define TNC_BUFFER_SIZE 80 +#define TNC_BUFFER_SIZE 40 /// States that define the current mode of the 1200 bps (A-FSK) state machine. typedef enum @@ -275,44 +254,59 @@ typedef enum /// AX.25 compliant packet header that contains destination, station call sign, and path. /// 0x76 for SSID-11, 0x78 for SSID-12 -uint8_t TNC_AX25_HEADER[30] = { - 'A' << 1, 'P' << 1, 'R' << 1, 'S' << 1, ' ' << 1, ' ' << 1, 0x60, \ - 'K' << 1, 'D' << 1, '7' << 1, 'S' << 1, 'Q' << 1, 'G' << 1, 0x76, \ - 'G' << 1, 'A' << 1, 'T' << 1, 'E' << 1, ' ' << 1, ' ' << 1, 0x60, \ - 'W' << 1, 'I' << 1, 'D' << 1, 'E' << 1, '3' << 1, ' ' << 1, 0x67, \ +static uint8_t TNC_AX25_HEADER[] = { + 'A' << 1, 'P' << 1, 'A' << 1, 'M' << 1, ' ' << 1, ' ' << 1, 0x60, + 'N' << 1, '0' << 1, 'C' << 1, 'A' << 1, 'L' << 1, 'L' << 1, 0x78, + 'W' << 1, 'I' << 1, 'D' << 1, 'E' << 1, '2' << 1, ' ' << 1, 0x65, 0x03, 0xf0 }; +#define TNC_CALLSIGN_OFF 7 +#define TNC_CALLSIGN_LEN 6 + +static void +tncSetCallsign(void) +{ +#ifndef AO_APRS_TEST + uint8_t i; + + for (i = 0; i < TNC_CALLSIGN_LEN; i++) { + if (!ao_config.callsign[i]) + break; + TNC_AX25_HEADER[TNC_CALLSIGN_OFF + i] = ao_config.callsign[i] << 1; + } + for (; i < TNC_CALLSIGN_LEN; i++) + TNC_AX25_HEADER[TNC_CALLSIGN_OFF + i] = ' ' << 1; +#endif +} + /// The next bit to transmit. -uint8_t tncTxBit; +static uint8_t tncTxBit; /// Current mode of the 1200 bps state machine. -TNC_TX_1200BPS_STATE tncMode; +static TNC_TX_1200BPS_STATE tncMode; /// Counter for each bit (0 - 7) that we are going to transmit. -uint8_t tncBitCount; +static uint8_t tncBitCount; /// A shift register that holds the data byte as we bit shift it for transmit. -uint8_t tncShift; +static uint8_t tncShift; /// Index into the APRS header and data array for each byte as we transmit it. -uint8_t tncIndex; +static uint8_t tncIndex; /// The number of bytes in the message portion of the AX.25 message. -uint8_t tncLength; +static uint8_t tncLength; /// A copy of the last 5 bits we've transmitted to determine if we need to bit stuff on the next bit. -uint8_t tncBitStuff; - -/// Pointer to TNC buffer as we save each byte during message preparation. -uint8_t *tncBufferPnt; +static uint8_t tncBitStuff; /// Buffer to hold the message portion of the AX.25 packet as we prepare it. -uint8_t tncBuffer[TNC_BUFFER_SIZE]; +static uint8_t tncBuffer[TNC_BUFFER_SIZE]; /** * Initialize the TNC internal variables. */ -void tncInit() +static void tncInit() { tncTxBit = 0; tncMode = TNC_TX_READY; @@ -322,7 +316,7 @@ void tncInit() * Method that is called every 833uS to transmit the 1200bps A-FSK data stream. * The provides the pre and postamble as well as the bit stuffed data stream. */ -void tnc1200TimerTick() +static void tnc1200TimerTick() { // Set the A-FSK frequency. if (tncTxBit == 0x00) @@ -486,55 +480,101 @@ void tnc1200TimerTick() } // END switch } +static void tncCompressInt(uint8_t *dest, int32_t value, int len) { + int i; + for (i = len - 1; i >= 0; i--) { + dest[i] = value % 91 + 33; + value /= 91; + } +} + +static int ao_num_sats(void) +{ + int i; + int n = 0; + + for (i = 0; i < ao_gps_tracking_data.channels; i++) { + if (ao_gps_tracking_data.sats[i].svid) + n++; + } + return n; +} + +static int tncComment(uint8_t *buf) +{ +#if HAS_ADC + struct ao_data packet; + + ao_arch_critical(ao_data_get(&packet);); + + int16_t battery = ao_battery_decivolt(packet.adc.v_batt); + int16_t apogee = ao_ignite_decivolt(AO_SENSE_DROGUE(&packet)); + int16_t main = ao_ignite_decivolt(AO_SENSE_MAIN(&packet)); + + return sprintf((char *) buf, + "S: %d B:%d.%d A:%d.%d M:%d.%d", + ao_num_sats(), + battery/10, + battery % 10, + apogee/10, + apogee%10, + main/10, + main%10); +#else + return sprintf((char *) buf, + "S: %d", ao_num_sats()); +#endif +} + /** - * Generate the plain text position packet. Data is written through the tncTxByte - * callback function + * Generate the plain text position packet. */ -void tncPositionPacket(void) +static int tncPositionPacket(void) { - int32_t latitude = 45.4694766 * 10000000; - int32_t longitude = -122.7376250 * 10000000; - uint32_t altitude = 10000; - uint16_t lat_deg; - uint16_t lon_deg; - uint16_t lat_min; - uint16_t lat_frac; - uint16_t lon_min; - uint16_t lon_frac; - int c; - - char lat_sign = 'N', lon_sign = 'E'; - - if (latitude < 0) { - lat_sign = 'S'; - latitude = -latitude; + int32_t latitude = 0; + int32_t longitude = 0; + int32_t altitude = 0; + uint8_t *buf; + + if (ao_gps_data.flags & AO_GPS_VALID) { + latitude = ao_gps_data.latitude; + longitude = ao_gps_data.longitude; + altitude = ao_gps_data.altitude; + if (altitude < 0) + altitude = 0; } - if (longitude < 0) { - lon_sign = 'W'; - longitude = -longitude; - } + altitude = (altitude * (int32_t) 10000 + (3048/2)) / (int32_t) 3048; + + buf = tncBuffer; + *buf++ = '!'; + + /* Symbol table ID */ + *buf++ = '/'; + + latitude = ((uint64_t) 380926 * (900000000 - latitude)) / 10000000; + longitude = ((uint64_t) 190463 * (1800000000 + longitude)) / 10000000; + +#define ALTITUDE_LOG_BASE 0.001998002662673f /* log(1.002) */ + + altitude = logf((float) altitude) * (1/ALTITUDE_LOG_BASE); - lat_deg = latitude / 10000000; - latitude -= lat_deg * 10000000; - latitude *= 60; - lat_min = latitude / 10000000; - latitude -= lat_min * 10000000; - lat_frac = (latitude + 50000) / 100000; - - lon_deg = longitude / 10000000; - longitude -= lon_deg * 10000000; - longitude *= 60; - lon_min = longitude / 10000000; - longitude -= lon_min * 10000000; - lon_frac = (longitude + 50000) / 100000; - - c = sprintf ((char *) tncBufferPnt, "=%02u%02u.%02u%c\\%03u%02u.%02u%cO /A=%06u\015", - lat_deg, lat_min, lat_frac, lat_sign, - lon_deg, lon_min, lon_frac, lon_sign, - altitude * 100 / 3048); - tncBufferPnt += c; - tncLength += c; + tncCompressInt(buf, latitude, 4); + buf += 4; + tncCompressInt(buf, longitude, 4); + buf += 4; + + /* Symbol code */ + *buf++ = '\''; + + tncCompressInt(buf, altitude, 2); + buf += 2; + + *buf++ = 33 + ((1 << 5) | (2 << 3)); + + buf += tncComment(buf); + + return buf - tncBuffer; } static int16_t @@ -565,28 +605,23 @@ tncFill(uint8_t *buf, int16_t len) * * @param dataMode enumerated type that specifies 1200bps A-FSK or 9600bps FSK */ -void tncTxPacket(void) +void ao_aprs_send(void) { uint16_t crc; - // Set a pointer to our TNC output buffer. - tncBufferPnt = tncBuffer; - - // Set the message length counter. - tncLength = 0; + timeInit(); + tncInit(); + tncSetCallsign(); - tncPositionPacket(); + tncLength = tncPositionPacket(); // Calculate the CRC for the header and message. crc = sysCRC16(TNC_AX25_HEADER, sizeof(TNC_AX25_HEADER), 0xffff); crc = sysCRC16(tncBuffer, tncLength, crc ^ 0xffff); // Save the CRC in the message. - *tncBufferPnt++ = crc & 0xff; - *tncBufferPnt = (crc >> 8) & 0xff; - - // Update the length to include the CRC bytes. - tncLength += 2; + tncBuffer[tncLength++] = crc & 0xff; + tncBuffer[tncLength++] = (crc >> 8) & 0xff; // Prepare the variables that are used in the real-time clock interrupt. tncBitCount = 0; @@ -595,9 +630,7 @@ void tncTxPacket(void) tncIndex = 0; tncMode = TNC_TX_SYNC; - timeInit(); - - ao_radio_send_lots(tncFill); + ao_radio_send_aprs(tncFill); } /** @} */