ardupilot/libraries/AP_Logger/AP_Logger.h

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/* ************************************************************ */
/* Test for AP_Logger Log library */
/* ************************************************************ */
#pragma once
#include <AP_HAL/AP_HAL.h>
#include <AP_AHRS/AP_AHRS.h>
#include <AP_AHRS/AP_AHRS_DCM.h>
#include <AP_AHRS/AP_AHRS_NavEKF.h>
#include <AP_Common/AP_Common.h>
#include <AP_Param/AP_Param.h>
#include <AP_InertialSensor/AP_InertialSensor.h>
#include <AP_Mission/AP_Mission.h>
#include <AP_RPM/AP_RPM.h>
#include <AP_Logger/LogStructure.h>
#include <AP_Motors/AP_Motors.h>
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#include <AP_Rally/AP_Rally.h>
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#include <AP_Beacon/AP_Beacon.h>
#include <AP_Proximity/AP_Proximity.h>
#include <AP_InertialSensor/AP_InertialSensor_Backend.h>
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#include <AP_Vehicle/ModeReason.h>
#include <stdint.h>
#include "LoggerMessageWriter.h"
class AP_Logger_Backend;
class AP_AHRS;
class AP_AHRS_View;
// do not do anything here apart from add stuff; maintaining older
// entries means log analysis is easier
enum class LogEvent : uint8_t {
ARMED = 10,
DISARMED = 11,
AUTO_ARMED = 15,
LAND_COMPLETE_MAYBE = 17,
LAND_COMPLETE = 18,
NOT_LANDED = 28,
LOST_GPS = 19,
FLIP_START = 21,
FLIP_END = 22,
SET_HOME = 25,
SET_SIMPLE_ON = 26,
SET_SIMPLE_OFF = 27,
SET_SUPERSIMPLE_ON = 29,
AUTOTUNE_INITIALISED = 30,
AUTOTUNE_OFF = 31,
AUTOTUNE_RESTART = 32,
AUTOTUNE_SUCCESS = 33,
AUTOTUNE_FAILED = 34,
AUTOTUNE_REACHED_LIMIT = 35,
AUTOTUNE_PILOT_TESTING = 36,
AUTOTUNE_SAVEDGAINS = 37,
SAVE_TRIM = 38,
SAVEWP_ADD_WP = 39,
FENCE_ENABLE = 41,
FENCE_DISABLE = 42,
ACRO_TRAINER_OFF = 43,
ACRO_TRAINER_LEVELING = 44,
ACRO_TRAINER_LIMITED = 45,
GRIPPER_GRAB = 46,
GRIPPER_RELEASE = 47,
PARACHUTE_DISABLED = 49,
PARACHUTE_ENABLED = 50,
PARACHUTE_RELEASED = 51,
LANDING_GEAR_DEPLOYED = 52,
LANDING_GEAR_RETRACTED = 53,
MOTORS_EMERGENCY_STOPPED = 54,
MOTORS_EMERGENCY_STOP_CLEARED = 55,
MOTORS_INTERLOCK_DISABLED = 56,
MOTORS_INTERLOCK_ENABLED = 57,
ROTOR_RUNUP_COMPLETE = 58, // Heli only
ROTOR_SPEED_BELOW_CRITICAL = 59, // Heli only
EKF_ALT_RESET = 60,
LAND_CANCELLED_BY_PILOT = 61,
EKF_YAW_RESET = 62,
AVOIDANCE_ADSB_ENABLE = 63,
AVOIDANCE_ADSB_DISABLE = 64,
AVOIDANCE_PROXIMITY_ENABLE = 65,
AVOIDANCE_PROXIMITY_DISABLE = 66,
GPS_PRIMARY_CHANGED = 67,
WINCH_RELAXED = 68,
WINCH_LENGTH_CONTROL = 69,
WINCH_RATE_CONTROL = 70,
ZIGZAG_STORE_A = 71,
ZIGZAG_STORE_B = 72,
LAND_REPO_ACTIVE = 73,
STANDBY_ENABLE = 74,
STANDBY_DISABLE = 75,
SURFACED = 163,
NOT_SURFACED = 164,
BOTTOMED = 165,
NOT_BOTTOMED = 166,
};
enum class LogDataID : uint8_t {
AP_STATE = 7,
// SYSTEM_TIME_SET = 8,
INIT_SIMPLE_BEARING = 9,
};
enum class LogErrorSubsystem : uint8_t {
MAIN = 1,
RADIO = 2,
COMPASS = 3,
OPTFLOW = 4, // not used
FAILSAFE_RADIO = 5,
FAILSAFE_BATT = 6,
FAILSAFE_GPS = 7, // not used
FAILSAFE_GCS = 8,
FAILSAFE_FENCE = 9,
FLIGHT_MODE = 10,
GPS = 11,
CRASH_CHECK = 12,
FLIP = 13,
AUTOTUNE = 14, // not used
PARACHUTES = 15,
EKFCHECK = 16,
FAILSAFE_EKFINAV = 17,
BARO = 18,
CPU = 19,
FAILSAFE_ADSB = 20,
TERRAIN = 21,
NAVIGATION = 22,
FAILSAFE_TERRAIN = 23,
EKF_PRIMARY = 24,
THRUST_LOSS_CHECK = 25,
FAILSAFE_SENSORS = 26,
FAILSAFE_LEAK = 27,
PILOT_INPUT = 28,
FAILSAFE_VIBE = 29,
};
// bizarrely this enumeration has lots of duplicate values, offering
// very little in the way of typesafety
enum class LogErrorCode : uint8_t {
// general error codes
ERROR_RESOLVED = 0,
FAILED_TO_INITIALISE = 1,
UNHEALTHY = 4,
// subsystem specific error codes -- radio
RADIO_LATE_FRAME = 2,
// subsystem specific error codes -- failsafe_thr, batt, gps
FAILSAFE_RESOLVED = 0,
FAILSAFE_OCCURRED = 1,
// subsystem specific error codes -- main
MAIN_INS_DELAY = 1,
// subsystem specific error codes -- crash checker
CRASH_CHECK_CRASH = 1,
CRASH_CHECK_LOSS_OF_CONTROL = 2,
// subsystem specific error codes -- flip
FLIP_ABANDONED = 2,
// subsystem specific error codes -- terrain
MISSING_TERRAIN_DATA = 2,
// subsystem specific error codes -- navigation
FAILED_TO_SET_DESTINATION = 2,
RESTARTED_RTL = 3,
FAILED_CIRCLE_INIT = 4,
DEST_OUTSIDE_FENCE = 5,
RTL_MISSING_RNGFND = 6,
// parachute failed to deploy because of low altitude or landed
PARACHUTE_TOO_LOW = 2,
PARACHUTE_LANDED = 3,
// EKF check definitions
EKFCHECK_BAD_VARIANCE = 2,
EKFCHECK_VARIANCE_CLEARED = 0,
// Baro specific error codes
BARO_GLITCH = 2,
BAD_DEPTH = 3, // sub-only
// GPS specific error coces
GPS_GLITCH = 2,
};
// fwd declarations to avoid include errors
class AC_AttitudeControl;
class AC_PosControl;
class AP_Logger
{
friend class AP_Logger_Backend; // for _num_types
public:
FUNCTOR_TYPEDEF(vehicle_startup_message_Writer, void);
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AP_Logger(const AP_Int32 &log_bitmask);
/* Do not allow copies */
AP_Logger(const AP_Logger &other) = delete;
AP_Logger &operator=(const AP_Logger&) = delete;
// get singleton instance
static AP_Logger *get_singleton(void) {
return _singleton;
}
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// initialisation
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void Init(const struct LogStructure *structure, uint8_t num_types);
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void set_num_types(uint8_t num_types) { _num_types = num_types; }
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bool CardInserted(void);
// erase handling
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void EraseAll();
/* Write a block of data at current offset */
void WriteBlock(const void *pBuffer, uint16_t size);
/* Write an *important* block of data at current offset */
void WriteCriticalBlock(const void *pBuffer, uint16_t size);
// high level interface
uint16_t find_last_log() const;
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void get_log_boundaries(uint16_t log_num, uint32_t & start_page, uint32_t & end_page);
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uint16_t get_num_logs(void);
void setVehicle_Startup_Writer(vehicle_startup_message_Writer writer);
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void PrepForArming();
void EnableWrites(bool enable) { _writes_enabled = enable; }
bool WritesEnabled() const { return _writes_enabled; }
void StopLogging();
void Write_Parameter(const char *name, float value);
void Write_Event(LogEvent id);
void Write_Error(LogErrorSubsystem sub_system,
LogErrorCode error_code);
void Write_GPS(uint8_t instance, uint64_t time_us=0);
void Write_IMU();
void Write_IMUDT(uint64_t time_us, uint8_t imu_mask);
bool Write_ISBH(uint16_t seqno,
AP_InertialSensor::IMU_SENSOR_TYPE sensor_type,
uint8_t instance,
uint16_t multiplier,
uint16_t sample_count,
uint64_t sample_us,
float sample_rate_hz);
bool Write_ISBD(uint16_t isb_seqno,
uint16_t seqno,
const int16_t x[32],
const int16_t y[32],
const int16_t z[32]);
void Write_Vibration();
void Write_RCIN(void);
void Write_RCOUT(void);
void Write_RSSI();
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void Write_Rally();
void Write_Baro(uint64_t time_us=0);
void Write_Power(void);
void Write_AHRS2();
void Write_POS();
void Write_Radio(const mavlink_radio_t &packet);
void Write_Message(const char *message);
void Write_MessageF(const char *fmt, ...);
void Write_CameraInfo(enum LogMessages msg, const Location &current_loc, uint64_t timestamp_us=0);
void Write_Camera(const Location &current_loc, uint64_t timestamp_us=0);
void Write_Trigger(const Location &current_loc);
void Write_ESC(uint8_t id, uint64_t time_us, int32_t rpm, uint16_t voltage, uint16_t current, int16_t esc_temp, uint16_t current_tot, int16_t motor_temp);
void Write_ServoStatus(uint64_t time_us, uint8_t id, float position, float force, float speed, uint8_t power_pct);
void Write_ESCStatus(uint64_t time_us, uint8_t id, uint32_t error_count, float voltage, float current, float temperature, int32_t rpm, uint8_t power_pct);
void Write_Attitude(const Vector3f &targets);
void Write_AttitudeView(AP_AHRS_View &ahrs, const Vector3f &targets);
void Write_Current();
void Write_Compass(uint64_t time_us=0);
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void Write_Mode(uint8_t mode, const ModeReason reason);
void Write_EntireMission();
void Write_Command(const mavlink_command_int_t &packet, MAV_RESULT result, bool was_command_long=false);
void Write_Mission_Cmd(const AP_Mission &mission,
const AP_Mission::Mission_Command &cmd);
void Write_Origin(uint8_t origin_type, const Location &loc);
void Write_RPM(const AP_RPM &rpm_sensor);
void Write_Rate(const AP_AHRS_View *ahrs,
const AP_Motors &motors,
const AC_AttitudeControl &attitude_control,
const AC_PosControl &pos_control);
void Write_RallyPoint(uint8_t total,
uint8_t sequence,
const RallyLocation &rally_point);
void Write_VisualOdom(float time_delta, const Vector3f &angle_delta, const Vector3f &position_delta, float confidence);
void Write_VisualPosition(uint64_t remote_time_us, uint32_t time_ms, float x, float y, float z, float roll, float pitch, float yaw, float pos_err, float ang_err, uint8_t reset_counter);
void Write_VisualVelocity(uint64_t remote_time_us, uint32_t time_ms, const Vector3f &vel, float vel_err, uint8_t reset_counter);
void Write_AOA_SSA(AP_AHRS &ahrs);
void Write_Beacon(AP_Beacon &beacon);
void Write_Proximity(AP_Proximity &proximity);
void Write_SRTL(bool active, uint16_t num_points, uint16_t max_points, uint8_t action, const Vector3f& point);
void Write_OABendyRuler(bool active, float target_yaw, float margin, const Location &final_dest, const Location &oa_dest);
void Write_OADijkstra(uint8_t state, uint8_t error_id, uint8_t curr_point, uint8_t tot_points, const Location &final_dest, const Location &oa_dest);
void Write(const char *name, const char *labels, const char *fmt, ...);
void Write(const char *name, const char *labels, const char *units, const char *mults, const char *fmt, ...);
void WriteCritical(const char *name, const char *labels, const char *fmt, ...);
void WriteCritical(const char *name, const char *labels, const char *units, const char *mults, const char *fmt, ...);
void WriteV(const char *name, const char *labels, const char *units, const char *mults, const char *fmt, va_list arg_list, bool is_critical=false);
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// This structure provides information on the internal member data of a PID for logging purposes
struct PID_Info {
float target;
float actual;
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float error;
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float P;
float I;
float D;
float FF;
};
void Write_PID(uint8_t msg_type, const PID_Info &info);
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// returns true if logging of a message should be attempted
bool should_log(uint32_t mask) const;
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bool logging_started(void);
#if CONFIG_HAL_BOARD == HAL_BOARD_SITL || CONFIG_HAL_BOARD == HAL_BOARD_LINUX
// currently only AP_Logger_File support this:
void flush(void);
#endif
void handle_mavlink_msg(class GCS_MAVLINK &, const mavlink_message_t &msg);
void periodic_tasks(); // may want to split this into GCS/non-GCS duties
// number of blocks that have been dropped
uint32_t num_dropped(void) const;
// accesss to public parameters
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void set_force_log_disarmed(bool force_logging) { _force_log_disarmed = force_logging; }
bool log_while_disarmed(void) const;
uint8_t log_replay(void) const { return _params.log_replay; }
vehicle_startup_message_Writer _vehicle_messages;
// parameter support
static const struct AP_Param::GroupInfo var_info[];
struct {
AP_Int8 backend_types;
AP_Int8 file_bufsize; // in kilobytes
AP_Int8 file_disarm_rot;
AP_Int8 log_disarmed;
AP_Int8 log_replay;
AP_Int8 mav_bufsize; // in kilobytes
AP_Int16 file_timeout; // in seconds
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AP_Int16 min_MB_free;
} _params;
const struct LogStructure *structure(uint16_t num) const;
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const struct UnitStructure *unit(uint16_t num) const;
const struct MultiplierStructure *multiplier(uint16_t num) const;
// methods for mavlink SYS_STATUS message (send_sys_status)
// these methods cover only the first logging backend used -
// typically AP_Logger_File.
bool logging_present() const;
bool logging_enabled() const;
bool logging_failed() const;
// notify logging subsystem of an arming failure. This triggers
// logging for HAL_LOGGER_ARM_PERSIST seconds
void arming_failure() { _last_arming_failure_ms = AP_HAL::millis(); }
void set_vehicle_armed(bool armed_state);
bool vehicle_is_armed() const { return _armed; }
void handle_log_send();
bool in_log_download() const {
return transfer_activity != TransferActivity::IDLE;
}
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float quiet_nanf() const { return nanf("0x4152"); } // "AR"
double quiet_nan() const { return nan("0x4152445550490a"); } // "ARDUPI"
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// returns true if msg_type is associated with a message
bool msg_type_in_use(uint8_t msg_type) const;
// calculate the length of a message using fields specified in
// fmt; includes the message header
int16_t Write_calc_msg_len(const char *fmt) const;
// this structure looks much like struct LogStructure in
// LogStructure.h, however we need to remember a pointer value for
// efficiency of finding message types
struct log_write_fmt {
struct log_write_fmt *next;
uint8_t msg_type;
uint8_t msg_len;
uint8_t sent_mask; // bitmask of backends sent to
const char *name;
const char *fmt;
const char *labels;
const char *units;
const char *mults;
} *log_write_fmts;
// return (possibly allocating) a log_write_fmt for a name
struct log_write_fmt *msg_fmt_for_name(const char *name, const char *labels, const char *units, const char *mults, const char *fmt, const bool direct_comp = false);
// output a FMT message for each backend if not already done so
void Safe_Write_Emit_FMT(log_write_fmt *f);
protected:
const struct LogStructure *_structures;
uint8_t _num_types;
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const struct UnitStructure *_units = log_Units;
const struct MultiplierStructure *_multipliers = log_Multipliers;
const uint8_t _num_units = (sizeof(log_Units) / sizeof(log_Units[0]));
const uint8_t _num_multipliers = (sizeof(log_Multipliers) / sizeof(log_Multipliers[0]));
/* Write a block with specified importance */
/* might be useful if you have a boolean indicating a message is
* important... */
void WritePrioritisedBlock(const void *pBuffer, uint16_t size,
bool is_critical);
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private:
#define LOGGER_MAX_BACKENDS 2
uint8_t _next_backend;
AP_Logger_Backend *backends[LOGGER_MAX_BACKENDS];
const AP_Int32 &_log_bitmask;
enum class Backend_Type : uint8_t {
NONE = 0,
FILESYSTEM = (1<<0),
MAVLINK = (1<<1),
BLOCK = (1<<2),
};
/*
* support for dynamic Write; user-supplies name, format,
* labels and values in a single function call.
*/
HAL_Semaphore log_write_fmts_sem;
// return (possibly allocating) a log_write_fmt for a name
const struct log_write_fmt *log_write_fmt_for_msg_type(uint8_t msg_type) const;
const struct LogStructure *structure_for_msg_type(uint8_t msg_type);
// return a msg_type which is not currently in use (or -1 if none available)
int16_t find_free_msg_type() const;
// fill LogStructure with information about msg_type
bool fill_log_write_logstructure(struct LogStructure &logstruct, const uint8_t msg_type) const;
bool _armed;
void Write_Baro_instance(uint64_t time_us, uint8_t baro_instance, enum LogMessages type);
void Write_IMU_instance(uint64_t time_us,
uint8_t imu_instance,
enum LogMessages type);
void Write_Compass_instance(uint64_t time_us,
uint8_t mag_instance,
enum LogMessages type);
void Write_Current_instance(uint64_t time_us, uint8_t battery_instance);
void Write_IMUDT_instance(uint64_t time_us,
uint8_t imu_instance,
enum LogMessages type);
void backend_starting_new_log(const AP_Logger_Backend *backend);
static AP_Logger *_singleton;
#if CONFIG_HAL_BOARD == HAL_BOARD_SITL
bool validate_structure(const struct LogStructure *logstructure, int16_t offset);
void validate_structures(const struct LogStructure *logstructures, const uint8_t num_types);
void dump_structure_field(const struct LogStructure *logstructure, const char *label, const uint8_t fieldnum);
void dump_structures(const struct LogStructure *logstructures, const uint8_t num_types);
void assert_same_fmt_for_name(const log_write_fmt *f,
const char *name,
const char *labels,
const char *units,
const char *mults,
const char *fmt) const;
const char* unit_name(const uint8_t unit_id);
double multiplier_name(const uint8_t multiplier_id);
bool seen_ids[256] = { };
bool labels_string_is_good(const char *labels) const;
#endif
// possibly expensive calls to start log system:
void Prep();
bool _writes_enabled:1;
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bool _force_log_disarmed:1;
/* support for retrieving logs via mavlink: */
enum class TransferActivity {
IDLE, // not doing anything, all file descriptors closed
LISTING, // actively sending log_entry packets
SENDING, // actively sending log_sending packets
} transfer_activity = TransferActivity::IDLE;
// next log list entry to send
uint16_t _log_next_list_entry;
// last log list entry to send
uint16_t _log_last_list_entry;
// number of log files
uint16_t _log_num_logs;
// log number for data send
uint16_t _log_num_data;
// offset in log
uint32_t _log_data_offset;
// size of log file
uint32_t _log_data_size;
// number of bytes left to send
uint32_t _log_data_remaining;
// start page of log data
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uint32_t _log_data_page;
GCS_MAVLINK *_log_sending_link;
HAL_Semaphore _log_send_sem;
// last time arming failed, for backends
uint32_t _last_arming_failure_ms;
bool should_handle_log_message();
void handle_log_message(class GCS_MAVLINK &, const mavlink_message_t &msg);
void handle_log_request_list(class GCS_MAVLINK &, const mavlink_message_t &msg);
void handle_log_request_data(class GCS_MAVLINK &, const mavlink_message_t &msg);
void handle_log_request_erase(class GCS_MAVLINK &, const mavlink_message_t &msg);
void handle_log_request_end(class GCS_MAVLINK &, const mavlink_message_t &msg);
void handle_log_send_listing(); // handle LISTING state
void handle_log_sending(); // handle SENDING state
bool handle_log_send_data(); // send data chunk to client
void get_log_info(uint16_t log_num, uint32_t &size, uint32_t &time_utc);
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int16_t get_log_data(uint16_t log_num, uint16_t page, uint32_t offset, uint16_t len, uint8_t *data);
/* end support for retrieving logs via mavlink: */
};
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namespace AP {
AP_Logger &logger();
};