#pragma once #include #include #include #include class AP_Arming { public: AP_Arming(); /* Do not allow copies */ AP_Arming(const AP_Arming &other) = delete; AP_Arming &operator=(const AP_Arming&) = delete; enum ArmingChecks { ARMING_CHECK_NONE = 0x0000, ARMING_CHECK_ALL = 0x0001, ARMING_CHECK_BARO = 0x0002, ARMING_CHECK_COMPASS = 0x0004, ARMING_CHECK_GPS = 0x0008, ARMING_CHECK_INS = 0x0010, ARMING_CHECK_PARAMETERS = 0x0020, ARMING_CHECK_RC = 0x0040, ARMING_CHECK_VOLTAGE = 0x0080, ARMING_CHECK_BATTERY = 0x0100, ARMING_CHECK_AIRSPEED = 0x0200, ARMING_CHECK_LOGGING = 0x0400, ARMING_CHECK_SWITCH = 0x0800, ARMING_CHECK_GPS_CONFIG = 0x1000, ARMING_CHECK_SYSTEM = 0x2000, ARMING_CHECK_MISSION = 0x4000, }; enum ArmingMethod { RUDDER, MAVLINK, AUXSWITCH, MOTORTEST, }; enum ArmingRequired { NO = 0, YES_MIN_PWM = 1, YES_ZERO_PWM = 2 }; // these functions should not be used by Copter which holds the armed state in the motors library ArmingRequired arming_required(); virtual bool arm(ArmingMethod method, bool do_arming_checks=true); bool disarm(); bool is_armed(); // get bitmask of enabled checks uint16_t get_enabled_checks(); // pre_arm_checks() is virtual so it can be modified in a vehicle specific subclass virtual bool pre_arm_checks(bool report); // some arming checks have side-effects, or require some form of state // change to have occurred, and thus should not be done as pre-arm // checks. Those go here: bool arm_checks(ArmingMethod method); // get expected magnetic field strength uint16_t compass_magfield_expected() const; // rudder arming support enum ArmingRudder { ARMING_RUDDER_DISABLED = 0, ARMING_RUDDER_ARMONLY = 1, ARMING_RUDDER_ARMDISARM = 2 }; ArmingRudder get_rudder_arming_type() const { return (ArmingRudder)_rudder_arming.get(); } static const struct AP_Param::GroupInfo var_info[]; protected: // Parameters AP_Int8 require; AP_Int16 checks_to_perform; // bitmask for which checks are required AP_Float accel_error_threshold; AP_Int8 _rudder_arming; AP_Int32 _required_mission_items; // internal members bool armed:1; uint32_t last_accel_pass_ms[INS_MAX_INSTANCES]; uint32_t last_gyro_pass_ms[INS_MAX_INSTANCES]; virtual bool barometer_checks(bool report); bool airspeed_checks(bool report); bool logging_checks(bool report); virtual bool ins_checks(bool report); virtual bool compass_checks(bool report); virtual bool gps_checks(bool report); bool battery_checks(bool report); bool hardware_safety_check(bool report); virtual bool board_voltage_checks(bool report); virtual bool rc_calibration_checks(bool report); bool manual_transmitter_checks(bool report); bool mission_checks(bool report); virtual bool system_checks(bool report); bool servo_checks(bool report) const; bool rc_checks_copter_sub(bool display_failure, const RC_Channel *channels[4]) const; // returns true if a particular check is enabled bool check_enabled(const enum AP_Arming::ArmingChecks check) const; // returns a mavlink severity which should be used if a specific check fails MAV_SEVERITY check_severity(const enum AP_Arming::ArmingChecks check) const; // handle the case where a check fails void check_failed(const enum AP_Arming::ArmingChecks check, bool report, const char *fmt, ...) const; private: bool ins_accels_consistent(const AP_InertialSensor &ins); bool ins_gyros_consistent(const AP_InertialSensor &ins); enum MIS_ITEM_CHECK { MIS_ITEM_CHECK_LAND = (1 << 0), MIS_ITEM_CHECK_VTOL_LAND = (1 << 1), MIS_ITEM_CHECK_DO_LAND_START = (1 << 2), MIS_ITEM_CHECK_TAKEOFF = (1 << 3), MIS_ITEM_CHECK_VTOL_TAKEOFF = (1 << 4), MIS_ITEM_CHECK_RALLY = (1 << 5), MIS_ITEM_CHECK_MAX }; };