/* * Copyright © 2017 Keith Packard * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. */ #ifndef _AO_EEPROM_READ_H_ #define _AO_EEPROM_READ_H_ #include #include #include #define AO_MAX_CALLSIGN 8 #define AO_AES_LEN 16 #define AO_PYRO_NUM 8 /* required functions from the underlying log system */ #define AO_LOG_FORMAT_UNKNOWN 0 /* unknown; altosui will have to guess */ #define AO_LOG_FORMAT_FULL 1 /* 8 byte typed log records */ #define AO_LOG_FORMAT_TINY 2 /* two byte state/baro records */ #define AO_LOG_FORMAT_TELEMETRY 3 /* 32 byte ao_telemetry records */ #define AO_LOG_FORMAT_TELESCIENCE 4 /* 32 byte typed telescience records */ #define AO_LOG_FORMAT_TELEMEGA_OLD 5 /* 32 byte typed telemega records */ #define AO_LOG_FORMAT_EASYMINI1 6 /* 16-byte MS5607 baro only, 3.0V supply */ #define AO_LOG_FORMAT_TELEMETRUM 7 /* 16-byte typed telemetrum records */ #define AO_LOG_FORMAT_TELEMINI2 8 /* 16-byte MS5607 baro only, 3.3V supply, cc1111 SoC */ #define AO_LOG_FORMAT_TELEGPS 9 /* 32 byte telegps records */ #define AO_LOG_FORMAT_TELEMEGA 10 /* 32 byte typed telemega records with 32 bit gyro cal */ #define AO_LOG_FORMAT_DETHERM 11 /* 16-byte MS5607 baro only, no ADC */ #define AO_LOG_FORMAT_TELEMINI3 12 /* 16-byte MS5607 baro only, 3.3V supply, stm32f042 SoC */ #define AO_LOG_FORMAT_TELEFIRETWO 13 /* 32-byte test stand data */ #define AO_LOG_FORMAT_EASYMINI2 14 /* 16-byte MS5607 baro only, 3.3V supply, stm32f042 SoC */ #define AO_LOG_FORMAT_TELEMEGA_3 15 /* 32 byte typed telemega records with 32 bit gyro cal and mpu9250 */ #define AO_LOG_FORMAT_EASYMEGA_2 16 /* 32 byte typed telemega records with 32 bit gyro cal, mpu9250 rotated 90° and adxl375 */ #define AO_LOG_FORMAT_TELESTATIC 17 /* 32 byte typed telestatic records */ #define AO_LOG_FORMAT_MICROPEAK2 18 /* 2-byte baro values with header */ #define AO_LOG_FORMAT_TELEMEGA_4 19 /* 32 byte typed telemega records with 32 bit gyro cal and Bmx160 */ #define AO_LOG_FORMAT_EASYMOTOR 20 /* 16 byte typed easymotor records with pressure sensor and adxl375 */ #define AO_LOG_FORMAT_TELEMEGA_5 21 /* 32 byte typed telemega records with 32 bit gyro cal, mpu6000 and mmc5983 */ #define AO_LOG_FORMAT_TELEMEGA_6 22 /* 32 byte typed telemega records with 32 bit gyro cal, bmi088 and mmc5983 */ #define AO_LOG_FORMAT_NONE 127 /* No log at all */ enum ao_pyro_flag { ao_pyro_none = 0x00000000, ao_pyro_accel_less = 0x00000001, ao_pyro_accel_greater = 0x00000002, ao_pyro_speed_less = 0x00000004, ao_pyro_speed_greater = 0x00000008, ao_pyro_height_less = 0x00000010, ao_pyro_height_greater = 0x00000020, ao_pyro_orient_less = 0x00000040, ao_pyro_orient_greater = 0x00000080, ao_pyro_time_less = 0x00000100, ao_pyro_time_greater = 0x00000200, ao_pyro_ascending = 0x00000400, ao_pyro_descending = 0x00000800, ao_pyro_after_motor = 0x00001000, ao_pyro_delay = 0x00002000, ao_pyro_state_less = 0x00004000, ao_pyro_state_greater_or_equal = 0x00008000, }; struct ao_pyro { enum ao_pyro_flag flags; int16_t accel_less, accel_greater; int16_t speed_less, speed_greater; int16_t height_less, height_greater; int16_t orient_less, orient_greater; int16_t time_less, time_greater; int16_t delay; uint8_t state_less, state_greater_or_equal; int16_t motor; uint16_t delay_done; uint8_t _unused; /* was 'fired' */ }; struct ao_config { uint8_t major; uint8_t minor; uint16_t main_deploy; int16_t accel_plus_g; /* changed for minor version 2 */ uint8_t _legacy_radio_channel; char callsign[AO_MAX_CALLSIGN + 1]; uint8_t apogee_delay; /* minor version 1 */ int16_t accel_minus_g; /* minor version 2 */ uint32_t radio_cal; /* minor version 3 */ uint32_t flight_log_max; /* minor version 4 */ uint8_t ignite_mode; /* minor version 5 */ uint8_t pad_orientation; /* minor version 6 */ uint32_t radio_setting; /* minor version 7 */ uint8_t radio_enable; /* minor version 8 */ uint8_t aes_key[AO_AES_LEN]; /* minor version 9 */ uint32_t frequency; /* minor version 10 */ uint16_t apogee_lockout; /* minor version 11 */ struct ao_pyro pyro[AO_PYRO_NUM]; /* minor version 12 */ uint16_t aprs_interval; /* minor version 13 */ uint8_t radio_power; /* minor version 14 */ uint8_t radio_amp; /* minor version 14 */ int16_t accel_zero_along; /* minor version 15 */ int16_t accel_zero_across; /* minor version 15 */ int16_t accel_zero_through; /* minor version 15 */ uint8_t mid_beep; /* minor version 16 */ uint16_t tracker_motion; /* minor version 17 */ uint8_t tracker_interval; /* minor version 17 */ uint16_t pyro_time; /* minor version 18 */ uint8_t aprs_ssid; /* minor version 19 */ uint8_t radio_rate; /* minor version 20 */ uint32_t send_frequency; /* minor version 21 */ uint8_t aprs_format; /* minor version 22 */ uint8_t pad_box; /* minor version 22 */ uint8_t pad_idle; /* minor version 23 */ }; /* * ao_log_big.c */ /* * The data log is recorded in the eeprom as a sequence * of data packets. * * Each packet starts with a 4-byte header that has the * packet type, the packet checksum and the tick count. Then * they all contain 2 16 bit values which hold packet-specific * data. * * For each flight, the first packet * is FLIGHT packet, indicating the serial number of the * device and a unique number marking the number of flights * recorded by this device. * * During flight, data from the accelerometer and barometer * are recorded in SENSOR packets, using the raw 16-bit values * read from the A/D converter. * * Also during flight, but at a lower rate, the deployment * sensors are recorded in DEPLOY packets. The goal here is to * detect failure in the deployment circuits. * * STATE packets hold state transitions as the flight computer * transitions through different stages of the flight. */ #define AO_LOG_FLIGHT 'F' #define AO_LOG_SENSOR 'A' #define AO_LOG_TEMP_VOLT 'T' #define AO_LOG_DEPLOY 'D' #define AO_LOG_STATE 'S' #define AO_LOG_GPS_TIME 'G' #define AO_LOG_GPS_LAT 'N' #define AO_LOG_GPS_LON 'W' #define AO_LOG_GPS_ALT 'H' #define AO_LOG_GPS_SAT 'V' #define AO_LOG_GPS_DATE 'Y' #define AO_LOG_GPS_POS 'P' #define AO_LOG_POS_NONE (~0UL) /* Common header in all log formats */ struct ao_log_header { char type; /* 0 */ uint8_t csum; /* 1 */ uint16_t tick; /* 2 */ }; struct ao_log_record { char type; /* 0 */ uint8_t csum; /* 1 */ uint16_t tick; /* 2 */ union { struct { int16_t ground_accel; /* 4 */ uint16_t flight; /* 6 */ } flight; struct { int16_t accel; /* 4 */ int16_t pres; /* 6 */ } sensor; struct { int16_t temp; int16_t v_batt; } temp_volt; struct { int16_t drogue; int16_t main; } deploy; struct { uint16_t state; uint16_t reason; } state; struct { uint8_t hour; uint8_t minute; uint8_t second; uint8_t flags; } gps_time; int32_t gps_latitude; int32_t gps_longitude; struct { uint16_t altitude_low; int16_t altitude_high; } gps_altitude; struct { uint16_t svid; uint8_t unused; uint8_t c_n; } gps_sat; struct { uint8_t year; uint8_t month; uint8_t day; uint8_t extra; } gps_date; struct { uint16_t d0; uint16_t d1; } anon; } u; }; struct ao_log_mega { char type; /* 0 */ uint8_t csum; /* 1 */ uint16_t tick; /* 2 */ union { /* 4 */ /* AO_LOG_FLIGHT */ struct { uint16_t flight; /* 4 */ int16_t ground_accel; /* 6 */ uint32_t ground_pres; /* 8 */ int16_t ground_accel_along; /* 12 */ int16_t ground_accel_across; /* 14 */ int16_t ground_accel_through; /* 16 */ int16_t pad_18; /* 18 */ int32_t ground_roll; /* 20 */ int32_t ground_pitch; /* 24 */ int32_t ground_yaw; /* 28 */ } flight; /* 32 */ struct { uint16_t flight; /* 4 */ int16_t ground_accel; /* 6 */ uint32_t ground_pres; /* 8 */ int16_t ground_accel_along; /* 12 */ int16_t ground_accel_across; /* 14 */ int16_t ground_accel_through; /* 16 */ int16_t ground_roll; /* 18 */ int16_t ground_pitch; /* 20 */ int16_t ground_yaw; /* 22 */ } flight_old; /* 24 */ /* AO_LOG_STATE */ struct { uint16_t state; uint16_t reason; } state; /* AO_LOG_SENSOR */ struct { uint32_t pres; /* 4 */ uint32_t temp; /* 8 */ int16_t accel_x; /* 12 */ int16_t accel_y; /* 14 */ int16_t accel_z; /* 16 */ int16_t gyro_x; /* 18 */ int16_t gyro_y; /* 20 */ int16_t gyro_z; /* 22 */ int16_t mag_x; /* 24 */ int16_t mag_z; /* 26 */ int16_t mag_y; /* 28 */ int16_t accel; /* 30 */ } sensor; /* 32 */ /* AO_LOG_TEMP_VOLT */ struct { int16_t v_batt; /* 4 */ int16_t v_pbatt; /* 6 */ int16_t n_sense; /* 8 */ int16_t sense[10]; /* 10 */ uint16_t pyro; /* 30 */ } volt; /* 32 */ /* AO_LOG_GPS_TIME */ struct { int32_t latitude; /* 4 */ int32_t longitude; /* 8 */ uint16_t altitude_low; /* 12 */ uint8_t hour; /* 14 */ uint8_t minute; /* 15 */ uint8_t second; /* 16 */ uint8_t flags; /* 17 */ uint8_t year; /* 18 */ uint8_t month; /* 19 */ uint8_t day; /* 20 */ uint8_t course; /* 21 */ uint16_t ground_speed; /* 22 */ int16_t climb_rate; /* 24 */ uint8_t pdop; /* 26 */ uint8_t hdop; /* 27 */ uint8_t vdop; /* 28 */ uint8_t mode; /* 29 */ int16_t altitude_high; /* 30 */ } gps; /* 32 */ /* AO_LOG_GPS_SAT */ struct { uint16_t channels; /* 4 */ struct { uint8_t svid; uint8_t c_n; } sats[12]; /* 6 */ } gps_sat; /* 30 */ } u; }; #define AO_LOG_MEGA_GPS_ALTITUDE(l) ((int32_t) ((l)->u.gps.altitude_high << 16) | ((l)->u.gps.altitude_low)) #define AO_LOG_MEGA_SET_GPS_ALTITUDE(l,a) (((l)->u.gps.mode |= AO_GPS_MODE_ALTITUDE_24), \ ((l)->u.gps.altitude_high = (a) >> 16), \ (l)->u.gps.altitude_low = (a)) struct ao_log_firetwo { char type; /* 0 */ uint8_t csum; /* 1 */ uint16_t tick; /* 2 */ union { /* 4 */ /* AO_LOG_FLIGHT */ struct { uint16_t flight; /* 4 */ } flight; /* 6 */ /* AO_LOG_STATE */ struct { uint16_t state; /* 4 */ uint16_t reason; /* 6 */ } state; /* 8 */ /* AO_LOG_SENSOR */ struct { uint16_t pressure; /* 4 */ uint16_t thrust; /* 6 */ uint16_t thermistor[4]; /* 8 */ } sensor; /* 24 */ uint8_t align[28]; /* 4 */ } u; /* 32 */ }; struct ao_log_telestatic { char type; /* 0 */ uint8_t csum; /* 1 */ uint16_t tick; /* 2 */ union { /* 4 */ /* AO_LOG_FLIGHT */ struct { uint16_t flight; /* 4 */ } flight; /* 6 */ /* AO_LOG_STATE */ struct { uint16_t state; /* 4 */ uint16_t reason; /* 6 */ } state; /* 8 */ /* AO_LOG_SENSOR */ struct { uint32_t pressure; /* 4 */ uint32_t pressure2; /* 8 */ uint32_t thrust; /* 12 */ uint32_t mass; /* 16 */ uint16_t t_low; /* 20 */ uint16_t t_high[4]; /* 22 */ } sensor; /* 30 */ uint8_t align[28]; /* 4 */ } u; /* 32 */ }; struct ao_log_metrum { char type; /* 0 */ uint8_t csum; /* 1 */ uint16_t tick; /* 2 */ union { /* 4 */ /* AO_LOG_FLIGHT */ struct { uint16_t flight; /* 4 */ int16_t ground_accel; /* 6 */ uint32_t ground_pres; /* 8 */ uint32_t ground_temp; /* 12 */ } flight; /* 16 */ /* AO_LOG_STATE */ struct { uint16_t state; /* 4 */ uint16_t reason; /* 6 */ } state; /* 8 */ /* AO_LOG_SENSOR */ struct { uint32_t pres; /* 4 */ uint32_t temp; /* 8 */ int16_t accel; /* 12 */ } sensor; /* 14 */ /* AO_LOG_TEMP_VOLT */ struct { int16_t v_batt; /* 4 */ int16_t sense_a; /* 6 */ int16_t sense_m; /* 8 */ } volt; /* 10 */ /* AO_LOG_GPS_POS */ struct { int32_t latitude; /* 4 */ int32_t longitude; /* 8 */ uint16_t altitude_low; /* 12 */ int16_t altitude_high; /* 14 */ } gps; /* 16 */ /* AO_LOG_GPS_TIME */ struct { uint8_t hour; /* 4 */ uint8_t minute; /* 5 */ uint8_t second; /* 6 */ uint8_t flags; /* 7 */ uint8_t year; /* 8 */ uint8_t month; /* 9 */ uint8_t day; /* 10 */ uint8_t pdop; /* 11 */ } gps_time; /* 12 */ /* AO_LOG_GPS_SAT (up to three packets) */ struct { uint8_t channels; /* 4 */ uint8_t more; /* 5 */ struct { uint8_t svid; uint8_t c_n; } sats[4]; /* 6 */ } gps_sat; /* 14 */ uint8_t raw[12]; /* 4 */ } u; /* 16 */ }; struct ao_log_mini { char type; /* 0 */ uint8_t csum; /* 1 */ uint16_t tick; /* 2 */ union { /* 4 */ /* AO_LOG_FLIGHT */ struct { uint16_t flight; /* 4 */ uint16_t r6; uint32_t ground_pres; /* 8 */ } flight; /* AO_LOG_STATE */ struct { uint16_t state; /* 4 */ uint16_t reason; /* 6 */ } state; /* AO_LOG_SENSOR */ struct { uint8_t pres[3]; /* 4 */ uint8_t temp[3]; /* 7 */ int16_t sense_a; /* 10 */ int16_t sense_m; /* 12 */ int16_t v_batt; /* 14 */ } sensor; /* 16 */ } u; /* 16 */ }; /* 16 */ #define ao_log_pack24(dst,value) do { \ (dst)[0] = (value); \ (dst)[1] = (value) >> 8; \ (dst)[2] = (value) >> 16; \ } while (0) struct ao_log_gps { char type; /* 0 */ uint8_t csum; /* 1 */ uint16_t tick; /* 2 */ union { /* 4 */ /* AO_LOG_FLIGHT */ struct { uint16_t flight; /* 4 */ int16_t start_altitude; /* 6 */ int32_t start_latitude; /* 8 */ int32_t start_longitude; /* 12 */ } flight; /* 16 */ /* AO_LOG_GPS_TIME */ struct { int32_t latitude; /* 4 */ int32_t longitude; /* 8 */ uint16_t altitude_low; /* 12 */ uint8_t hour; /* 14 */ uint8_t minute; /* 15 */ uint8_t second; /* 16 */ uint8_t flags; /* 17 */ uint8_t year; /* 18 */ uint8_t month; /* 19 */ uint8_t day; /* 20 */ uint8_t course; /* 21 */ uint16_t ground_speed; /* 22 */ int16_t climb_rate; /* 24 */ uint8_t pdop; /* 26 */ uint8_t hdop; /* 27 */ uint8_t vdop; /* 28 */ uint8_t mode; /* 29 */ int16_t altitude_high; /* 30 */ } gps; /* 31 */ /* AO_LOG_GPS_SAT */ struct { uint16_t channels; /* 4 */ struct { uint8_t svid; uint8_t c_n; } sats[12]; /* 6 */ } gps_sat; /* 30 */ } u; }; struct ao_log_motor { char type; /* 0 */ uint8_t csum; /* 1 */ uint16_t tick; /* 2 */ union { /* 4 */ /* AO_LOG_FLIGHT */ struct { uint16_t flight; /* 4 */ int16_t ground_accel; /* 6 */ int16_t ground_accel_along; /* 8 */ int16_t ground_accel_across; /* 10 */ int16_t ground_accel_through; /* 12 */ int16_t ground_motor_pressure; /* 14 */ } flight; /* 16 */ /* AO_LOG_STATE */ struct { uint16_t state; /* 4 */ uint16_t reason; /* 6 */ } state; /* AO_LOG_SENSOR */ struct { uint16_t pressure; /* 4 */ uint16_t v_batt; /* 6 */ int16_t accel; /* 8 */ int16_t accel_across; /* 10 */ int16_t accel_along; /* 12 */ int16_t accel_through; /* 14 */ } sensor; /* 16 */ } u; }; struct ao_eeprom { struct ao_config config; struct ao_ms5607_prom ms5607_prom; int log_format; uint16_t serial_number; uint8_t *data; uint32_t len; }; struct ao_eeprom *ao_eeprom_read(FILE *file); struct ao_eeprom *ao_eeprom_read_old(FILE *file); void ao_eeprom_free_data(struct ao_eeprom *ao_eeprom); #endif /* _AO_EEPROM_READ_H_ */