#pragma once #include // if you add any new types, units or multipliers, please update README.md /* Format characters in the format string for binary log messages a : int16_t[32] b : int8_t B : uint8_t h : int16_t H : uint16_t i : int32_t I : uint32_t f : float d : double n : char[4] N : char[16] Z : char[64] c : int16_t * 100 C : uint16_t * 100 e : int32_t * 100 E : uint32_t * 100 L : int32_t latitude/longitude M : uint8_t flight mode q : int64_t Q : uint64_t */ struct UnitStructure { const char ID; const char *unit; }; struct MultiplierStructure { const char ID; const double multiplier; }; // all units here should be base units // This does mean battery capacity is here as "amp*second" // Please keep the names consistent with Tools/autotest/param_metadata/param.py:33 const struct UnitStructure log_Units[] = { { '-', "" }, // no units e.g. Pi, or a string { '?', "UNKNOWN" }, // Units which haven't been worked out yet.... { 'A', "A" }, // Ampere { 'a', "Ah" }, // Ampere hours { 'd', "deg" }, // of the angular variety, -180 to 180 { 'b', "B" }, // bytes { 'k', "deg/s" }, // degrees per second. Degrees are NOT SI, but is some situations more user-friendly than radians { 'D', "deglatitude" }, // degrees of latitude { 'e', "deg/s/s" }, // degrees per second per second. Degrees are NOT SI, but is some situations more user-friendly than radians { 'E', "rad/s" }, // radians per second { 'G', "Gauss" }, // Gauss is not an SI unit, but 1 tesla = 10000 gauss so a simple replacement is not possible here { 'h', "degheading" }, // 0.? to 359.? { 'i', "A.s" }, // Ampere second { 'J', "W.s" }, // Joule (Watt second) // { 'l', "l" }, // litres { 'L', "rad/s/s" }, // radians per second per second { 'm', "m" }, // metres { 'n', "m/s" }, // metres per second // { 'N', "N" }, // Newton { 'o', "m/s/s" }, // metres per second per second { 'O', "degC" }, // degrees Celsius. Not SI, but Kelvin is too cumbersome for most users { '%', "%" }, // percent { 'S', "satellites" }, // number of satellites { 's', "s" }, // seconds { 'q', "rpm" }, // rounds per minute. Not SI, but sometimes more intuitive than Hertz { 'r', "rad" }, // radians { 'U', "deglongitude" }, // degrees of longitude { 'u', "ppm" }, // pulses per minute { 'v', "V" }, // Volt { 'P', "Pa" }, // Pascal { 'w', "Ohm" }, // Ohm { 'W', "Watt" }, // Watt { 'X', "W.h" }, // Watt hour { 'Y', "us" }, // pulse width modulation in microseconds { 'z', "Hz" }, // Hertz { '#', "instance" } // (e.g.)Sensor instance number }; // this multiplier information applies to the raw value present in the // log. Any adjustment implied by the format field (e.g. the "centi" // in "centidegrees" is *IGNORED* for the purposes of scaling. // Essentially "format" simply tells you the C-type, and format-type h // (int16_t) is equivalent to format-type c (int16_t*100) // tl;dr a GCS shouldn't/mustn't infer any scaling from the unit name const struct MultiplierStructure log_Multipliers[] = { { '-', 0 }, // no multiplier e.g. a string { '?', 1 }, // multipliers which haven't been worked out yet.... // { '2', 1e2 }, { '1', 1e1 }, { '0', 1e0 }, { 'A', 1e-1 }, { 'B', 1e-2 }, { 'C', 1e-3 }, { 'D', 1e-4 }, { 'E', 1e-5 }, { 'F', 1e-6 }, { 'G', 1e-7 }, // { '!', 3.6 }, // (ampere*second => milliampere*hour) and (km/h => m/s) { '/', 3600 }, // (ampere*second => ampere*hour) }; /* unfortunately these need to be macros because of a limitation of named member structure initialisation in g++ */ #define LOG_PACKET_HEADER uint8_t head1, head2, msgid; #define LOG_PACKET_HEADER_INIT(id) head1 : HEAD_BYTE1, head2 : HEAD_BYTE2, msgid : id #define LOG_PACKET_HEADER_LEN 3 // bytes required for LOG_PACKET_HEADER // once the logging code is all converted we will remove these from // this header #define HEAD_BYTE1 0xA3 // Decimal 163 #define HEAD_BYTE2 0x95 // Decimal 149 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include // structure used to define logging format struct PACKED LogStructure { uint8_t msg_type; uint8_t msg_len; const char *name; const char *format; const char *labels; const char *units; const char *multipliers; bool streaming; // can be rate limited }; // maximum lengths of fields in LogStructure, including trailing nulls static const uint8_t LS_NAME_SIZE = 5; static const uint8_t LS_FORMAT_SIZE = 17; static const uint8_t LS_LABELS_SIZE = 65; static const uint8_t LS_UNITS_SIZE = 17; static const uint8_t LS_MULTIPLIERS_SIZE = 17; /* log structures common to all vehicle types */ struct PACKED log_Format { LOG_PACKET_HEADER; uint8_t type; uint8_t length; char name[4]; char format[16]; char labels[64]; }; struct PACKED log_Unit { LOG_PACKET_HEADER; uint64_t time_us; char type; char unit[64]; // you know, this might be overkill... }; struct PACKED log_Format_Multiplier { LOG_PACKET_HEADER; uint64_t time_us; char type; double multiplier; }; struct PACKED log_Format_Units { LOG_PACKET_HEADER; uint64_t time_us; uint8_t format_type; char units[16]; char multipliers[16]; }; struct PACKED log_Parameter { LOG_PACKET_HEADER; uint64_t time_us; char name[16]; float value; }; struct PACKED log_DSF { LOG_PACKET_HEADER; uint64_t time_us; uint32_t dropped; uint16_t blocks; uint32_t bytes; uint32_t buf_space_min; uint32_t buf_space_max; uint32_t buf_space_avg; }; struct PACKED log_Event { LOG_PACKET_HEADER; uint64_t time_us; uint8_t id; }; struct PACKED log_Error { LOG_PACKET_HEADER; uint64_t time_us; uint8_t sub_system; uint8_t error_code; }; struct PACKED log_Message { LOG_PACKET_HEADER; uint64_t time_us; char msg[64]; }; struct PACKED log_RCIN { LOG_PACKET_HEADER; uint64_t time_us; uint16_t chan1; uint16_t chan2; uint16_t chan3; uint16_t chan4; uint16_t chan5; uint16_t chan6; uint16_t chan7; uint16_t chan8; uint16_t chan9; uint16_t chan10; uint16_t chan11; uint16_t chan12; uint16_t chan13; uint16_t chan14; }; struct PACKED log_RCIN2 { LOG_PACKET_HEADER; uint64_t time_us; uint16_t chan15; uint16_t chan16; uint16_t override_mask; }; struct PACKED log_RCOUT { LOG_PACKET_HEADER; uint64_t time_us; uint16_t chan1; uint16_t chan2; uint16_t chan3; uint16_t chan4; uint16_t chan5; uint16_t chan6; uint16_t chan7; uint16_t chan8; uint16_t chan9; uint16_t chan10; uint16_t chan11; uint16_t chan12; uint16_t chan13; uint16_t chan14; }; struct PACKED log_MAV { LOG_PACKET_HEADER; uint64_t time_us; uint8_t chan; uint16_t packet_tx_count; uint16_t packet_rx_success_count; uint16_t packet_rx_drop_count; uint8_t flags; uint16_t stream_slowdown_ms; uint16_t times_full; }; struct PACKED log_RSSI { LOG_PACKET_HEADER; uint64_t time_us; float RXRSSI; float RXLQ; }; struct PACKED log_Optflow { LOG_PACKET_HEADER; uint64_t time_us; uint8_t surface_quality; float flow_x; float flow_y; float body_x; float body_y; }; struct PACKED log_POWR { LOG_PACKET_HEADER; uint64_t time_us; float Vcc; float Vservo; uint16_t flags; uint16_t accumulated_flags; uint8_t safety_and_arm; float MCU_temp; float MCU_voltage; float MCU_voltage_min; float MCU_voltage_max; }; struct PACKED log_Cmd { LOG_PACKET_HEADER; uint64_t time_us; uint16_t command_total; uint16_t sequence; uint16_t command; float param1; float param2; float param3; float param4; int32_t latitude; int32_t longitude; float altitude; uint8_t frame; }; struct PACKED log_MAVLink_Command { LOG_PACKET_HEADER; uint64_t time_us; uint8_t target_system; uint8_t target_component; uint8_t source_system; uint8_t source_component; uint8_t frame; uint16_t command; float param1; float param2; float param3; float param4; int32_t x; int32_t y; float z; uint8_t result; bool was_command_long; }; struct PACKED log_Radio { LOG_PACKET_HEADER; uint64_t time_us; uint8_t rssi; uint8_t remrssi; uint8_t txbuf; uint8_t noise; uint8_t remnoise; uint16_t rxerrors; uint16_t fixed; }; struct PACKED log_PID { LOG_PACKET_HEADER; uint64_t time_us; float target; float actual; float error; float P; float I; float D; float FF; float Dmod; float slew_rate; uint8_t limit; }; struct PACKED log_WheelEncoder { LOG_PACKET_HEADER; uint64_t time_us; float distance_0; uint8_t quality_0; float distance_1; uint8_t quality_1; }; struct PACKED log_ADSB { LOG_PACKET_HEADER; uint64_t time_us; uint32_t ICAO_address; int32_t lat; int32_t lng; int32_t alt; uint16_t heading; uint16_t hor_velocity; int16_t ver_velocity; uint16_t squawk; }; struct PACKED log_MAG { LOG_PACKET_HEADER; uint64_t time_us; uint8_t instance; int16_t mag_x; int16_t mag_y; int16_t mag_z; int16_t offset_x; int16_t offset_y; int16_t offset_z; int16_t motor_offset_x; int16_t motor_offset_y; int16_t motor_offset_z; uint8_t health; uint32_t SUS; }; struct PACKED log_Mode { LOG_PACKET_HEADER; uint64_t time_us; uint8_t mode; uint8_t mode_num; uint8_t mode_reason; }; /* rangefinder - support for 4 sensors */ struct PACKED log_RFND { LOG_PACKET_HEADER; uint64_t time_us; uint8_t instance; uint16_t dist; uint8_t status; uint8_t orient; }; /* terrain log structure */ struct PACKED log_TERRAIN { LOG_PACKET_HEADER; uint64_t time_us; uint8_t status; int32_t lat; int32_t lng; uint16_t spacing; float terrain_height; float current_height; uint16_t pending; uint16_t loaded; }; struct PACKED log_CSRV { LOG_PACKET_HEADER; uint64_t time_us; uint8_t id; float position; float force; float speed; uint8_t power_pct; }; struct PACKED log_ARSP { LOG_PACKET_HEADER; uint64_t time_us; uint8_t instance; float airspeed; float diffpressure; int16_t temperature; float rawpressure; float offset; bool use; bool healthy; float health_prob; uint8_t primary; }; struct PACKED log_MAV_Stats { LOG_PACKET_HEADER; uint64_t timestamp; uint32_t seqno; uint32_t dropped; uint32_t retries; uint32_t resends; uint8_t state_free_avg; uint8_t state_free_min; uint8_t state_free_max; uint8_t state_pending_avg; uint8_t state_pending_min; uint8_t state_pending_max; uint8_t state_sent_avg; uint8_t state_sent_min; uint8_t state_sent_max; // uint8_t state_retry_avg; // uint8_t state_retry_min; // uint8_t state_retry_max; }; struct PACKED log_RPM { LOG_PACKET_HEADER; uint64_t time_us; float rpm1; float rpm2; }; struct PACKED log_Rally { LOG_PACKET_HEADER; uint64_t time_us; uint8_t total; uint8_t sequence; int32_t latitude; int32_t longitude; int16_t altitude; }; struct PACKED log_Beacon { LOG_PACKET_HEADER; uint64_t time_us; uint8_t health; uint8_t count; float dist0; float dist1; float dist2; float dist3; float posx; float posy; float posz; }; // proximity sensor logging struct PACKED log_Proximity { LOG_PACKET_HEADER; uint64_t time_us; uint8_t instance; uint8_t health; float dist0; float dist45; float dist90; float dist135; float dist180; float dist225; float dist270; float dist315; float distup; float closest_angle; float closest_dist; }; struct PACKED log_Proximity_raw { LOG_PACKET_HEADER; uint64_t time_us; uint8_t instance; float raw_dist0; float raw_dist45; float raw_dist90; float raw_dist135; float raw_dist180; float raw_dist225; float raw_dist270; float raw_dist315; }; struct PACKED log_Performance { LOG_PACKET_HEADER; uint64_t time_us; uint16_t num_long_running; uint16_t num_loops; uint32_t max_time; uint32_t mem_avail; uint16_t load; uint16_t internal_error_last_line; uint32_t internal_errors; uint32_t internal_error_count; uint32_t spi_count; uint32_t i2c_count; uint32_t i2c_isr_count; uint32_t extra_loop_us; }; struct PACKED log_SRTL { LOG_PACKET_HEADER; uint64_t time_us; uint8_t active; uint16_t num_points; uint16_t max_points; uint8_t action; float N; float E; float D; }; struct PACKED log_DSTL { LOG_PACKET_HEADER; uint64_t time_us; uint8_t stage; float target_heading; int32_t target_lat; int32_t target_lng; int32_t target_alt; int16_t crosstrack_error; int16_t travel_distance; float l1_i; int32_t loiter_sum_cd; float desired; float P; float I; float D; }; struct PACKED log_Arm_Disarm { LOG_PACKET_HEADER; uint64_t time_us; uint8_t arm_state; uint32_t arm_checks; uint8_t forced; uint8_t method; }; struct PACKED log_Winch { LOG_PACKET_HEADER; uint64_t time_us; uint8_t healthy; uint8_t thread_end; uint8_t moving; uint8_t clutch; uint8_t mode; float desired_length; float length; float desired_rate; uint16_t tension; float voltage; int8_t temp; }; // position controller North axis logging struct PACKED log_PSCN { LOG_PACKET_HEADER; uint64_t time_us; float pos_target; float pos; float vel_desired; float vel_target; float vel; float accel_desired; float accel_target; float accel; }; // position controller East axis logging struct PACKED log_PSCE { LOG_PACKET_HEADER; uint64_t time_us; float pos_target; float pos; float vel_desired; float vel_target; float vel; float accel_desired; float accel_target; float accel; }; // position controller Down axis logging struct PACKED log_PSCD { LOG_PACKET_HEADER; uint64_t time_us; float pos_target; float pos; float vel_desired; float vel_target; float vel; float accel_desired; float accel_target; float accel; }; // thread stack usage struct PACKED log_STAK { LOG_PACKET_HEADER; uint64_t time_us; uint8_t thread_id; uint8_t priority; uint16_t stack_total; uint16_t stack_free; char name[16]; }; struct PACKED log_File { LOG_PACKET_HEADER; char filename[16]; uint16_t offset; uint16_t length; char data[64]; }; struct PACKED log_Scripting { LOG_PACKET_HEADER; uint64_t time_us; char name[16]; uint32_t run_time; int32_t total_mem; int32_t run_mem; }; // FMT messages define all message formats other than FMT // UNIT messages define units which can be referenced by FMTU messages // FMTU messages associate types (e.g. centimeters/second/second) to FMT message fields #define PID_LABELS "TimeUS,Tar,Act,Err,P,I,D,FF,Dmod,SRate,Limit" #define PID_FMT "QfffffffffB" #define PID_UNITS "s----------" #define PID_MULTS "F----------" // @LoggerMessage: ADSB // @Description: Automatic Dependant Serveillance - Broadcast detected vehicle information // @Field: TimeUS: Time since system startup // @Field: ICAO_address: Transponder address // @Field: Lat: Vehicle latitude // @Field: Lng: Vehicle longitude // @Field: Alt: Vehicle altitude // @Field: Heading: Vehicle heading // @Field: Hor_vel: Vehicle horizontal velocity // @Field: Ver_vel: Vehicle vertical velocity // @Field: Squark: Transponder squawk code // @LoggerMessage: ARM // @Description: Arming status changes // @Field: TimeUS: Time since system startup // @Field: ArmState: true if vehicle is now armed // @Field: ArmChecks: arming bitmask at time of arming // @Field: Forced: true if arm/disarm was forced // @Field: Method: method used for arming // @LoggerMessage: ARSP // @Description: Airspeed sensor data // @Field: TimeUS: Time since system startup // @Field: I: Airspeed sensor instance number // @Field: Airspeed: Current airspeed // @Field: DiffPress: Pressure difference between static and dynamic port // @Field: Temp: Temperature used for calculation // @Field: RawPress: Raw pressure less offset // @Field: Offset: Offset from parameter // @Field: U: True if sensor is being used // @Field: H: True if sensor is healthy // @Field: Hfp: Probability sensor has failed // @Field: Pri: True if sensor is the primary sensor // @LoggerMessage: BCN // @Description: Beacon information // @Field: TimeUS: Time since system startup // @Field: Health: True if beacon sensor is healthy // @Field: Cnt: Number of beacons being used // @Field: D0: Distance to first beacon // @Field: D1: Distance to second beacon // @Field: D2: Distance to third beacon // @Field: D3: Distance to fourth beacon // @Field: PosX: Calculated beacon position, x-axis // @Field: PosY: Calculated beacon position, y-axis // @Field: PosZ: Calculated beacon position, z-axis // @LoggerMessage: CMD // @Description: Executed mission command information // @Field: TimeUS: Time since system startup // @Field: CTot: Total number of mission commands // @Field: CNum: This command's offset in mission // @Field: CId: Command type // @Field: Prm1: Parameter 1 // @Field: Prm2: Parameter 2 // @Field: Prm3: Parameter 3 // @Field: Prm4: Parameter 4 // @Field: Lat: Command latitude // @Field: Lng: Command longitude // @Field: Alt: Command altitude // @Field: Frame: Frame used for position // @LoggerMessage: CSRV // @Description: Servo feedback data // @Field: TimeUS: Time since system startup // @Field: Id: Servo number this data relates to // @Field: Pos: Current servo position // @Field: Force: Force being applied // @Field: Speed: Current servo movement speed // @Field: Pow: Amount of rated power being applied // @LoggerMessage: DMS // @Description: DataFlash-Over-MAVLink statistics // @Field: TimeUS: Time since system startup // @Field: N: Current block number // @Field: Dp: Number of times we rejected a write to the backend // @Field: RT: Number of blocks sent from the retry queue // @Field: RS: Number of resends of unacknowledged data made // @Field: Fa: Average number of blocks on the free list // @Field: Fmn: Minimum number of blocks on the free list // @Field: Fmx: Maximum number of blocks on the free list // @Field: Pa: Average number of blocks on the pending list // @Field: Pmn: Minimum number of blocks on the pending list // @Field: Pmx: Maximum number of blocks on the pending list // @Field: Sa: Average number of blocks on the sent list // @Field: Smn: Minimum number of blocks on the sent list // @Field: Smx: Maximum number of blocks on the sent list // @LoggerMessage: DSF // @Description: Onboard logging statistics // @Field: TimeUS: Time since system startup // @Field: Dp: Number of times we rejected a write to the backend // @Field: Blk: Current block number // @Field: Bytes: Current write offset // @Field: FMn: Minimum free space in write buffer in last time period // @Field: FMx: Maximum free space in write buffer in last time period // @Field: FAv: Average free space in write buffer in last time period // @LoggerMessage: DSTL // @Description: Deepstall Landing data // @Field: TimeUS: Time since system startup // @Field: Stg: Deepstall landing stage // @Field: THdg: Target heading // @Field: Lat: Landing point latitude // @Field: Lng: Landing point longitude // @Field: Alt: Landing point altitude // @Field: XT: Crosstrack error // @Field: Travel: Expected travel distance vehicle will travel from this point // @Field: L1I: L1 controller crosstrack integrator value // @Field: Loiter: wind estimate loiter angle flown // @Field: Des: Deepstall steering PID desired value // @Field: P: Deepstall steering PID Proportional response component // @Field: I: Deepstall steering PID Integral response component // @Field: D: Deepstall steering PID Derivative response component // @LoggerMessage: ERR // @Description: Specifically coded error messages // @Field: TimeUS: Time since system startup // @Field: Subsys: Subsystem in which the error occurred // @Field: ECode: Subsystem-specific error code // @LoggerMessage: EV // @Description: Specifically coded event messages // @Field: TimeUS: Time since system startup // @Field: Id: Event identifier // @LoggerMessage: FMT // @Description: Message defining the format of messages in this file // @URL: https://ardupilot.org/dev/docs/code-overview-adding-a-new-log-message.html // @Field: Type: unique-to-this-log identifier for message being defined // @Field: Length: the number of bytes taken up by this message (including all headers) // @Field: Name: name of the message being defined // @Field: Format: character string defining the C-storage-type of the fields in this message // @Field: Columns: the labels of the message being defined // @LoggerMessage: FMTU // @Description: Message defining units and multipliers used for fields of other messages // @Field: TimeUS: Time since system startup // @Field: FmtType: numeric reference to associated FMT message // @Field: UnitIds: each character refers to a UNIT message. The unit at an offset corresponds to the field at the same offset in FMT.Format // @Field: MultIds: each character refers to a MULT message. The multiplier at an offset corresponds to the field at the same offset in FMT.Format // @LoggerMessage: LGR // @Description: Landing gear information // @Field: TimeUS: Time since system startup // @Field: LandingGear: Current landing gear state // @Field: WeightOnWheels: True if there is weight on wheels // @LoggerMessage: MAG // @Description: Information received from compasses // @Field: TimeUS: Time since system startup // @Field: I: magnetometer sensor instance number // @Field: MagX: magnetic field strength in body frame // @Field: MagY: magnetic field strength in body frame // @Field: MagZ: magnetic field strength in body frame // @Field: OfsX: magnetic field offset in body frame // @Field: OfsY: magnetic field offset in body frame // @Field: OfsZ: magnetic field offset in body frame // @Field: MOX: motor interference magnetic field offset in body frame // @Field: MOY: motor interference magnetic field offset in body frame // @Field: MOZ: motor interference magnetic field offset in body frame // @Field: Health: true if the compass is considered healthy // @Field: S: time measurement was taken // @LoggerMessage: MAV // @Description: GCS MAVLink link statistics // @Field: TimeUS: Time since system startup // @Field: chan: mavlink channel number // @Field: txp: transmitted packet count // @Field: rxp: received packet count // @Field: rxdp: perceived number of packets we never received // @Field: flags: compact representation of some stage of the channel // @Field: ss: stream slowdown is the number of ms being added to each message to fit within bandwidth // @Field: tf: times buffer was full when a message was going to be sent // @LoggerMessage: MAVC // @Description: MAVLink command we have just executed // @Field: TimeUS: Time since system startup // @Field: TS: target system for command // @Field: TC: target component for command // @Field: SS: target system for command // @Field: SC: target component for command // @Field: Fr: command frame // @Field: Cmd: mavlink command enum value // @Field: P1: first parameter from mavlink packet // @Field: P2: second parameter from mavlink packet // @Field: P3: third parameter from mavlink packet // @Field: P4: fourth parameter from mavlink packet // @Field: X: X coordinate from mavlink packet // @Field: Y: Y coordinate from mavlink packet // @Field: Z: Z coordinate from mavlink packet // @Field: Res: command result being returned from autopilot // @Field: WL: true if this command arrived via a COMMAND_LONG rather than COMMAND_INT // @LoggerMessage: MODE // @Description: vehicle control mode information // @Field: TimeUS: Time since system startup // @Field: Mode: vehicle-specific mode number // @Field: ModeNum: alias for Mode // @Field: Rsn: reason for entering this mode; enumeration value // @LoggerMessage: MON // @Description: Main loop stuck data // @Field: TimeUS: Time since system startup // @Field: LDelay: Time main loop has been stuck for // @Field: Task: Current scheduler task number // @Field: IErr: Internal error mask; which internal errors have been detected // @Field: IErrCnt: Internal error count; how many internal errors have been detected // @Field: IErrLn: Line on which internal error ocurred // @Field: MavMsg: Id of the last mavlink message processed // @Field: MavCmd: Id of the last mavlink command processed // @Field: SemLine: Line number of semaphore most recently taken // @Field: SPICnt: Number of SPI transactions processed // @Field: I2CCnt: Number of i2c transactions processed // @LoggerMessage: MSG // @Description: Textual messages // @Field: TimeUS: Time since system startup // @Field: Message: message text // @LoggerMessage: MULT // @Description: Message mapping from single character to numeric multiplier // @Field: TimeUS: Time since system startup // @Field: Id: character referenced by FMTU // @Field: Mult: numeric multiplier // @LoggerMessage: OF // @Description: Optical flow sensor data // @Field: TimeUS: Time since system startup // @Field: Qual: Estimated sensor data quality // @Field: flowX: Sensor flow rate, X-axis // @Field: flowY: Sensor flow rate,Y-axis // @Field: bodyX: derived velocity, X-axis // @Field: bodyY: derived velocity, Y-axis // @LoggerMessage: PARM // @Description: parameter value // @Field: TimeUS: Time since system startup // @Field: Name: parameter name // @Field: Value: parameter value // @LoggerMessage: PIDR,PIDP,PIDY,PIDA,PIDS // @Description: Proportional/Integral/Derivative gain values for Roll/Pitch/Yaw/Altitude/Steering // @Field: TimeUS: Time since system startup // @Field: Tar: desired value // @Field: Act: achieved value // @Field: Err: error between target and achieved // @Field: P: proportional part of PID // @Field: I: integral part of PID // @Field: D: derivative part of PID // @Field: FF: controller feed-forward portion of response // @Field: Dmod: scaler applied to D gain to reduce limit cycling // @Field: SRate: slew rate used in slew limiter // @Field: Limit: 1 if I term is limited due to output saturation // @LoggerMessage: PM // @Description: autopilot system performance and general data dumping ground // @Field: TimeUS: Time since system startup // @Field: NLon: Number of long loops detected // @Field: NLoop: Number of measurement loops for this message // @Field: MaxT: Maximum loop time // @Field: Mem: Free memory available // @Field: Load: System processor load // @Field: IntE: Internal error mask; which internal errors have been detected // @Field: ErrL: Internal error line number; last line number on which a internal error was detected // @Field: ErrC: Internal error count; how many internal errors have been detected // @Field: SPIC: Number of SPI transactions processed // @Field: I2CC: Number of i2c transactions processed // @Field: I2CI: Number of i2c interrupts serviced // @Field: Ex: number of microseconds being added to each loop to address scheduler overruns // @LoggerMessage: POWR // @Description: System power information // @Field: TimeUS: Time since system startup // @Field: Vcc: Flight board voltage // @Field: VServo: Servo rail voltage // @Field: Flags: System power flags // @Field: AccFlags: Accumulated System power flags; all flags which have ever been set // @Field: Safety: Hardware Safety Switch status // @Field: MTemp: MCU Temperature // @Field: MVolt: MCU Voltage // @Field: MVmin: MCU Voltage min // @Field: MVmax: MCU Voltage max // @LoggerMessage: PRX // @Description: Proximity Filtered sensor data // @Field: TimeUS: Time since system startup // @Field: Layer: Pitch(instance) at which the obstacle is at. 0th layer {-75,-45} degrees. 1st layer {-45,-15} degrees. 2nd layer {-15, 15} degrees. 3rd layer {15, 45} degrees. 4th layer {45,75} degrees. Minimum distance in each layer will be logged. // @Field: He: True if proximity sensor is healthy // @Field: D0: Nearest object in sector surrounding 0-degrees // @Field: D45: Nearest object in sector surrounding 45-degrees // @Field: D90: Nearest object in sector surrounding 90-degrees // @Field: D135: Nearest object in sector surrounding 135-degrees // @Field: D180: Nearest object in sector surrounding 180-degrees // @Field: D225: Nearest object in sector surrounding 225-degrees // @Field: D270: Nearest object in sector surrounding 270-degrees // @Field: D315: Nearest object in sector surrounding 315-degrees // @Field: DUp: Nearest object in upwards direction // @Field: CAn: Angle to closest object // @Field: CDis: Distance to closest object // @LoggerMessage: PRXR // @Description: Proximity Raw sensor data // @Field: TimeUS: Time since system startup // @Field: Layer: Pitch(instance) at which the obstacle is at. 0th layer {-75,-45} degrees. 1st layer {-45,-15} degrees. 2nd layer {-15, 15} degrees. 3rd layer {15, 45} degrees. 4th layer {45,75} degrees. Minimum distance in each layer will be logged. // @Field: D0: Nearest object in sector surrounding 0-degrees // @Field: D45: Nearest object in sector surrounding 45-degrees // @Field: D90: Nearest object in sector surrounding 90-degrees // @Field: D135: Nearest object in sector surrounding 135-degrees // @Field: D180: Nearest object in sector surrounding 180-degrees // @Field: D225: Nearest object in sector surrounding 225-degrees // @Field: D270: Nearest object in sector surrounding 270-degrees // @Field: D315: Nearest object in sector surrounding 315-degrees // @LoggerMessage: RAD // @Description: Telemetry radio statistics // @Field: TimeUS: Time since system startup // @Field: RSSI: RSSI // @Field: RemRSSI: RSSI reported from remote radio // @Field: TxBuf: number of bytes in radio ready to be sent // @Field: Noise: local noise floor // @Field: RemNoise: local noise floor reported from remote radio // @Field: RxErrors: damaged packet count // @Field: Fixed: fixed damaged packet count // @LoggerMessage: RALY // @Description: Rally point information // @Field: TimeUS: Time since system startup // @Field: Tot: total number of rally points onboard // @Field: Seq: this rally point's sequence number // @Field: Lat: latitude of rally point // @Field: Lng: longitude of rally point // @Field: Alt: altitude of rally point // @LoggerMessage: RCIN // @Description: RC input channels to vehicle // @Field: TimeUS: Time since system startup // @Field: C1: channel 1 input // @Field: C2: channel 2 input // @Field: C3: channel 3 input // @Field: C4: channel 4 input // @Field: C5: channel 5 input // @Field: C6: channel 6 input // @Field: C7: channel 7 input // @Field: C8: channel 8 input // @Field: C9: channel 9 input // @Field: C10: channel 10 input // @Field: C11: channel 11 input // @Field: C12: channel 12 input // @Field: C13: channel 13 input // @Field: C14: channel 14 input // @LoggerMessage: RCOU // @Description: Servo channel output values // @Field: TimeUS: Time since system startup // @Field: C1: channel 1 output // @Field: C2: channel 2 output // @Field: C3: channel 3 output // @Field: C4: channel 4 output // @Field: C5: channel 5 output // @Field: C6: channel 6 output // @Field: C7: channel 7 output // @Field: C8: channel 8 output // @Field: C9: channel 9 output // @Field: C10: channel 10 output // @Field: C11: channel 11 output // @Field: C12: channel 12 output // @Field: C13: channel 13 output // @Field: C14: channel 14 output // @LoggerMessage: RFND // @Description: Rangefinder sensor information // @Field: TimeUS: Time since system startup // @Field: Instance: rangefinder instance number this data is from // @Field: Dist: Reported distance from sensor // @Field: Stat: Sensor state // @Field: Orient: Sensor orientation // @LoggerMessage: RPM // @Description: Data from RPM sensors // @Field: TimeUS: Time since system startup // @Field: rpm1: First sensor's data // @Field: rpm2: Second sensor's data // @LoggerMessage: RSSI // @Description: Received Signal Strength Indicator for RC receiver // @Field: TimeUS: Time since system startup // @Field: RXRSSI: RSSI // @Field: RXLQ: RX Link Quality // @LoggerMessage: SIM // @Description: SITL simulator state // @Field: TimeUS: Time since system startup // @Field: Roll: Simulated roll // @Field: Pitch: Simulated pitch // @Field: Yaw: Simulated yaw // @Field: Alt: Simulated altitude // @Field: Lat: Simulated latitude // @Field: Lng: Simulated longitude // @Field: Q1: Attitude quaternion component 1 // @Field: Q2: Attitude quaternion component 2 // @Field: Q3: Attitude quaternion component 3 // @Field: Q4: Attitude quaternion component 4 // @LoggerMessage: SRTL // @Description: SmartRTL statistics // @Field: TimeUS: Time since system startup // @Field: Active: true if SmartRTL could be used right now // @Field: NumPts: number of points currently in use // @Field: MaxPts: maximum number of points that could be used // @Field: Action: most recent internal action taken by SRTL library // @Field: N: point associated with most recent action (North component) // @Field: E: point associated with most recent action (East component) // @Field: D: point associated with most recent action (Down component) // @LoggerMessage: TERR // @Description: Terrain database infomration // @Field: TimeUS: Time since system startup // @Field: Status: Terrain database status // @Field: Lat: Current vehicle latitude // @Field: Lng: Current vehicle longitude // @Field: Spacing: terrain Tile spacing // @Field: TerrH: current Terrain height // @Field: CHeight: Vehicle height above terrain // @Field: Pending: Number of tile requests outstanding // @Field: Loaded: Number of tiles in memory // @LoggerMessage: TSYN // @Description: Time synchronisation response information // @Field: TimeUS: Time since system startup // @Field: SysID: system ID this data is for // @Field: RTT: round trip time for this system // @LoggerMessage: UNIT // @Description: Message mapping from single character to SI unit // @Field: TimeUS: Time since system startup // @Field: Id: character referenced by FMTU // @Field: Label: Unit - SI where available // @LoggerMessage: WENC // @Description: Wheel encoder measurements // @Field: TimeUS: Time since system startup // @Field: Dist0: First wheel distance travelled // @Field: Qual0: Quality measurement of Dist0 // @Field: Dist1: Second wheel distance travelled // @Field: Qual1: Quality measurement of Dist1 // @LoggerMessage: WINC // @Description: Winch // @Field: TimeUS: Time since system startup // @Field: Heal: Healthy // @Field: ThEnd: Reached end of thread // @Field: Mov: Motor is moving // @Field: Clut: Clutch is engaged (motor can move freely) // @Field: Mode: 0 is Relaxed, 1 is Position Control, 2 is Rate Control // @Field: DLen: Desired Length // @Field: Len: Estimated Length // @Field: DRate: Desired Rate // @Field: Tens: Tension on line // @Field: Vcc: Voltage to Motor // @Field: Temp: Motor temperature // @LoggerMessage: PSCN // @Description: Position Control North // @Field: TimeUS: Time since system startup // @Field: TPN: Target position relative to EKF origin // @Field: PN: Position relative to EKF origin // @Field: DVN: Desired velocity North // @Field: TVN: Target velocity North // @Field: VN: Velocity North // @Field: DAN: Desired acceleration North // @Field: TAN: Target acceleration North // @Field: AN: Acceleration North // @LoggerMessage: PSCE // @Description: Position Control East // @Field: TimeUS: Time since system startup // @Field: TPE: Target position relative to EKF origin // @Field: PE: Position relative to EKF origin // @Field: DVE: Desired velocity East // @Field: TVE: Target velocity East // @Field: VE: Velocity East // @Field: DAE: Desired acceleration East // @Field: TAE: Target acceleration East // @Field: AE: Acceleration East // @LoggerMessage: PSCD // @Description: Position Control Down // @Field: TimeUS: Time since system startup // @Field: TPD: Target position relative to EKF origin // @Field: PD: Position relative to EKF origin // @Field: DVD: Desired velocity Down // @Field: TVD: Target velocity Down // @Field: VD: Velocity Down // @Field: DAD: Desired acceleration Down // @Field: TAD: Target acceleration Down // @Field: AD: Acceleration Down // @LoggerMessage: STAK // @Description: Stack information // @Field: TimeUS: Time since system startup // @Field: Id: thread ID // @Field: Pri: thread priority // @Field: Total: total stack // @Field: Free: free stack // @Field: Name: thread name // @LoggerMessage: SCR // @Description: Scripting runtime stats // @Field: TimeUS: Time since system startup // @Field: Name: script name // @Field: Runtime: run time // @Field: Total_mem: total memory useage // @Field: Run_mem: run memory usage // messages for all boards #define LOG_COMMON_STRUCTURES \ { LOG_FORMAT_MSG, sizeof(log_Format), \ "FMT", "BBnNZ", "Type,Length,Name,Format,Columns", "-b---", "-----" }, \ { LOG_UNIT_MSG, sizeof(log_Unit), \ "UNIT", "QbZ", "TimeUS,Id,Label", "s--","F--" }, \ { LOG_FORMAT_UNITS_MSG, sizeof(log_Format_Units), \ "FMTU", "QBNN", "TimeUS,FmtType,UnitIds,MultIds","s---", "F---" }, \ { LOG_MULT_MSG, sizeof(log_Format_Multiplier), \ "MULT", "Qbd", "TimeUS,Id,Mult", "s--","F--" }, \ { LOG_PARAMETER_MSG, sizeof(log_Parameter), \ "PARM", "QNf", "TimeUS,Name,Value", "s--", "F--" }, \ LOG_STRUCTURE_FROM_GPS \ { LOG_MESSAGE_MSG, sizeof(log_Message), \ "MSG", "QZ", "TimeUS,Message", "s-", "F-"}, \ { LOG_RCIN_MSG, sizeof(log_RCIN), \ "RCIN", "QHHHHHHHHHHHHHH", "TimeUS,C1,C2,C3,C4,C5,C6,C7,C8,C9,C10,C11,C12,C13,C14", "sYYYYYYYYYYYYYY", "F--------------", true }, \ { LOG_RCIN2_MSG, sizeof(log_RCIN2), \ "RCI2", "QHHH", "TimeUS,C15,C16,OMask", "sYY-", "F---", true }, \ { LOG_RCOUT_MSG, sizeof(log_RCOUT), \ "RCOU", "QHHHHHHHHHHHHHH", "TimeUS,C1,C2,C3,C4,C5,C6,C7,C8,C9,C10,C11,C12,C13,C14", "sYYYYYYYYYYYYYY", "F--------------", true }, \ { LOG_RSSI_MSG, sizeof(log_RSSI), \ "RSSI", "Qff", "TimeUS,RXRSSI,RXLQ", "s--", "F--", true }, \ LOG_STRUCTURE_FROM_BARO \ LOG_STRUCTURE_FROM_PRECLAND \ { LOG_POWR_MSG, sizeof(log_POWR), \ "POWR","QffHHBffff","TimeUS,Vcc,VServo,Flags,AccFlags,Safety,MTemp,MVolt,MVmin,MVmax", "svv---Ovvv", "F00---0000", true }, \ { LOG_CMD_MSG, sizeof(log_Cmd), \ "CMD", "QHHHffffLLfB","TimeUS,CTot,CNum,CId,Prm1,Prm2,Prm3,Prm4,Lat,Lng,Alt,Frame", "s-------DUm-", "F-------GG0-" }, \ { LOG_MAVLINK_COMMAND_MSG, sizeof(log_MAVLink_Command), \ "MAVC", "QBBBBBHffffiifBB","TimeUS,TS,TC,SS,SC,Fr,Cmd,P1,P2,P3,P4,X,Y,Z,Res,WL", "s---------------", "F---------------" }, \ { LOG_RADIO_MSG, sizeof(log_Radio), \ "RAD", "QBBBBBHH", "TimeUS,RSSI,RemRSSI,TxBuf,Noise,RemNoise,RxErrors,Fixed", "s-------", "F-------", true }, \ LOG_STRUCTURE_FROM_CAMERA \ { LOG_ARSP_MSG, sizeof(log_ARSP), "ARSP", "QBffcffBBfB", "TimeUS,I,Airspeed,DiffPress,Temp,RawPress,Offset,U,H,Hfp,Pri", "s#nPOPP----", "F-00B00----", true }, \ LOG_STRUCTURE_FROM_BATTMONITOR \ { LOG_MAG_MSG, sizeof(log_MAG), \ "MAG", "QBhhhhhhhhhBI", "TimeUS,I,MagX,MagY,MagZ,OfsX,OfsY,OfsZ,MOX,MOY,MOZ,Health,S", "s#GGGGGGGGG-s", "F-CCCCCCCCC-F", true }, \ { LOG_MODE_MSG, sizeof(log_Mode), \ "MODE", "QMBB", "TimeUS,Mode,ModeNum,Rsn", "s---", "F---" }, \ { LOG_RFND_MSG, sizeof(log_RFND), \ "RFND", "QBCBB", "TimeUS,Instance,Dist,Stat,Orient", "s#m--", "F-B--", true }, \ { LOG_MAV_STATS, sizeof(log_MAV_Stats), \ "DMS", "QIIIIBBBBBBBBB", "TimeUS,N,Dp,RT,RS,Fa,Fmn,Fmx,Pa,Pmn,Pmx,Sa,Smn,Smx", "s-------------", "F-------------" }, \ { LOG_BEACON_MSG, sizeof(log_Beacon), \ "BCN", "QBBfffffff", "TimeUS,Health,Cnt,D0,D1,D2,D3,PosX,PosY,PosZ", "s--mmmmmmm", "F--0000000", true }, \ { LOG_PROXIMITY_MSG, sizeof(log_Proximity), \ "PRX", "QBBfffffffffff", "TimeUS,Layer,He,D0,D45,D90,D135,D180,D225,D270,D315,DUp,CAn,CDis", "s#-mmmmmmmmmhm", "F--00000000000", true }, \ { LOG_RAW_PROXIMITY_MSG, sizeof(log_Proximity_raw), \ "PRXR", "QBffffffff", "TimeUS,Layer,D0,D45,D90,D135,D180,D225,D270,D315", "s#mmmmmmmm", "F-00000000", true }, \ { LOG_PERFORMANCE_MSG, sizeof(log_Performance), \ "PM", "QHHIIHHIIIIII", "TimeUS,NLon,NLoop,MaxT,Mem,Load,ErrL,IntE,ErrC,SPIC,I2CC,I2CI,Ex", "s---b%------s", "F---0A------F" }, \ { LOG_SRTL_MSG, sizeof(log_SRTL), \ "SRTL", "QBHHBfff", "TimeUS,Active,NumPts,MaxPts,Action,N,E,D", "s----mmm", "F----000" }, \ LOG_STRUCTURE_FROM_AVOIDANCE \ { LOG_SIMSTATE_MSG, sizeof(log_AHRS), \ "SIM","QccCfLLffff","TimeUS,Roll,Pitch,Yaw,Alt,Lat,Lng,Q1,Q2,Q3,Q4", "sddhmDU????", "FBBB0GG????", true }, \ { LOG_TERRAIN_MSG, sizeof(log_TERRAIN), \ "TERR","QBLLHffHH","TimeUS,Status,Lat,Lng,Spacing,TerrH,CHeight,Pending,Loaded", "s-DU-mm--", "F-GG-00--", true }, \ LOG_STRUCTURE_FROM_ESC_TELEM \ { LOG_CSRV_MSG, sizeof(log_CSRV), \ "CSRV","QBfffB","TimeUS,Id,Pos,Force,Speed,Pow", "s#---%", "F-0000", true }, \ { LOG_PIDR_MSG, sizeof(log_PID), \ "PIDR", PID_FMT, PID_LABELS, PID_UNITS, PID_MULTS, true }, \ { LOG_PIDP_MSG, sizeof(log_PID), \ "PIDP", PID_FMT, PID_LABELS, PID_UNITS, PID_MULTS , true }, \ { LOG_PIDY_MSG, sizeof(log_PID), \ "PIDY", PID_FMT, PID_LABELS, PID_UNITS, PID_MULTS , true }, \ { LOG_PIDA_MSG, sizeof(log_PID), \ "PIDA", PID_FMT, PID_LABELS, PID_UNITS, PID_MULTS , true }, \ { LOG_PIDS_MSG, sizeof(log_PID), \ "PIDS", PID_FMT, PID_LABELS, PID_UNITS, PID_MULTS , true }, \ { LOG_PIDN_MSG, sizeof(log_PID), \ "PIDN", PID_FMT, PID_LABELS, PID_UNITS, PID_MULTS , true }, \ { LOG_PIDE_MSG, sizeof(log_PID), \ "PIDE", PID_FMT, PID_LABELS, PID_UNITS, PID_MULTS , true }, \ { LOG_DSTL_MSG, sizeof(log_DSTL), \ "DSTL", "QBfLLeccfeffff", "TimeUS,Stg,THdg,Lat,Lng,Alt,XT,Travel,L1I,Loiter,Des,P,I,D", "s??DUm--------", "F??000--------" , true }, \ LOG_STRUCTURE_FROM_INERTIALSENSOR \ LOG_STRUCTURE_FROM_DAL \ LOG_STRUCTURE_FROM_NAVEKF2 \ LOG_STRUCTURE_FROM_NAVEKF3 \ LOG_STRUCTURE_FROM_NAVEKF \ LOG_STRUCTURE_FROM_AHRS \ { LOG_DF_FILE_STATS, sizeof(log_DSF), \ "DSF", "QIHIIII", "TimeUS,Dp,Blk,Bytes,FMn,FMx,FAv", "s--b---", "F--0---" }, \ { LOG_RPM_MSG, sizeof(log_RPM), \ "RPM", "Qff", "TimeUS,rpm1,rpm2", "sqq", "F00" , true }, \ { LOG_RALLY_MSG, sizeof(log_Rally), \ "RALY", "QBBLLh", "TimeUS,Tot,Seq,Lat,Lng,Alt", "s--DUm", "F--GGB" }, \ { LOG_MAV_MSG, sizeof(log_MAV), \ "MAV", "QBHHHBHH", "TimeUS,chan,txp,rxp,rxdp,flags,ss,tf", "s#----s-", "F-000-C-" }, \ LOG_STRUCTURE_FROM_VISUALODOM \ { LOG_OPTFLOW_MSG, sizeof(log_Optflow), \ "OF", "QBffff", "TimeUS,Qual,flowX,flowY,bodyX,bodyY", "s-EEnn", "F-0000" , true }, \ { LOG_WHEELENCODER_MSG, sizeof(log_WheelEncoder), \ "WENC", "Qfbfb", "TimeUS,Dist0,Qual0,Dist1,Qual1", "sm-m-", "F0-0-" , true }, \ { LOG_ADSB_MSG, sizeof(log_ADSB), \ "ADSB", "QIiiiHHhH", "TimeUS,ICAO_address,Lat,Lng,Alt,Heading,Hor_vel,Ver_vel,Squark", "s-DUmhnn-", "F-GGCBCC-" }, \ { LOG_EVENT_MSG, sizeof(log_Event), \ "EV", "QB", "TimeUS,Id", "s-", "F-" }, \ { LOG_ARM_DISARM_MSG, sizeof(log_Arm_Disarm), \ "ARM", "QBIBB", "TimeUS,ArmState,ArmChecks,Forced,Method", "s----", "F----" }, \ { LOG_ERROR_MSG, sizeof(log_Error), \ "ERR", "QBB", "TimeUS,Subsys,ECode", "s--", "F--" }, \ { LOG_WINCH_MSG, sizeof(log_Winch), \ "WINC", "QBBBBBfffHfb", "TimeUS,Heal,ThEnd,Mov,Clut,Mode,DLen,Len,DRate,Tens,Vcc,Temp", "s-----mmn?vO", "F-----000000" }, \ { LOG_PSCN_MSG, sizeof(log_PSCN), \ "PSCN", "Qffffffff", "TimeUS,TPN,PN,DVN,TVN,VN,DAN,TAN,AN", "smmnnnooo", "F00000000" }, \ { LOG_PSCE_MSG, sizeof(log_PSCE), \ "PSCE", "Qffffffff", "TimeUS,TPE,PE,DVE,TVE,VE,DAE,TAE,AE", "smmnnnooo", "F00000000" }, \ { LOG_PSCD_MSG, sizeof(log_PSCD), \ "PSCD", "Qffffffff", "TimeUS,TPD,PD,DVD,TVD,VD,DAD,TAD,AD", "smmnnnooo", "F00000000" }, \ { LOG_STAK_MSG, sizeof(log_STAK), \ "STAK", "QBBHHN", "TimeUS,Id,Pri,Total,Free,Name", "s#----", "F-----", true }, \ { LOG_FILE_MSG, sizeof(log_File), \ "FILE", "NhhZ", "FileName,Offset,Length,Data", "----", "----" }, \ LOG_STRUCTURE_FROM_AIS, \ { LOG_SCRIPTING_MSG, sizeof(log_Scripting), \ "SCR", "QNIii", "TimeUS,Name,Runtime,Total_mem,Run_mem", "s-sbb", "F-F--", true } // message types 0 to 63 reserved for vehicle specific use // message types for common messages enum LogMessages : uint8_t { LOG_PARAMETER_MSG = 64, LOG_IDS_FROM_NAVEKF2, LOG_IDS_FROM_NAVEKF3, LOG_MESSAGE_MSG, LOG_RCIN_MSG, LOG_RCIN2_MSG, LOG_RCOUT_MSG, LOG_RSSI_MSG, LOG_IDS_FROM_BARO, LOG_POWR_MSG, LOG_IDS_FROM_AHRS, LOG_SIMSTATE_MSG, LOG_CMD_MSG, LOG_MAVLINK_COMMAND_MSG, LOG_RADIO_MSG, LOG_ATRP_MSG, LOG_IDS_FROM_CAMERA, LOG_TERRAIN_MSG, LOG_CSRV_MSG, LOG_IDS_FROM_ESC_TELEM, LOG_IDS_FROM_BATTMONITOR, LOG_IDS_FROM_GPS, // LOG_MODE_MSG is used as a check for duplicates. Do not add between this and LOG_FORMAT_MSG LOG_MODE_MSG, LOG_FORMAT_MSG = 128, // this must remain #128 LOG_IDS_FROM_DAL, LOG_IDS_FROM_INERTIALSENSOR, LOG_PIDR_MSG, LOG_PIDP_MSG, LOG_PIDY_MSG, LOG_PIDA_MSG, LOG_PIDS_MSG, LOG_PIDN_MSG, LOG_PIDE_MSG, LOG_DSTL_MSG, LOG_MAG_MSG, LOG_ARSP_MSG, LOG_RPM_MSG, LOG_RFND_MSG, LOG_MAV_STATS, LOG_FORMAT_UNITS_MSG, LOG_UNIT_MSG, LOG_MULT_MSG, LOG_RALLY_MSG, LOG_IDS_FROM_VISUALODOM, LOG_BEACON_MSG, LOG_PROXIMITY_MSG, LOG_DF_FILE_STATS, LOG_SRTL_MSG, LOG_PERFORMANCE_MSG, LOG_OPTFLOW_MSG, LOG_EVENT_MSG, LOG_WHEELENCODER_MSG, LOG_MAV_MSG, LOG_ERROR_MSG, LOG_ADSB_MSG, LOG_ARM_DISARM_MSG, LOG_IDS_FROM_AVOIDANCE, LOG_WINCH_MSG, LOG_PSCN_MSG, LOG_PSCE_MSG, LOG_PSCD_MSG, LOG_RAW_PROXIMITY_MSG, LOG_IDS_FROM_PRECLAND, LOG_IDS_FROM_AIS, LOG_STAK_MSG, LOG_FILE_MSG, LOG_SCRIPTING_MSG, _LOG_LAST_MSG_ }; static_assert(_LOG_LAST_MSG_ <= 255, "Too many message formats"); static_assert(LOG_MODE_MSG < 128, "Duplicate message format IDs");