# If you change the order, add or remove arming_state_t states make sure to update the arrays # in state_machine_helper.cpp as well. uint8 ARMING_STATE_INIT = 0 uint8 ARMING_STATE_STANDBY = 1 uint8 ARMING_STATE_ARMED = 2 uint8 ARMING_STATE_ARMED_ERROR = 3 uint8 ARMING_STATE_STANDBY_ERROR = 4 uint8 ARMING_STATE_REBOOT = 5 uint8 ARMING_STATE_IN_AIR_RESTORE = 6 uint8 ARMING_STATE_MAX = 7 uint8 HIL_STATE_OFF = 0 uint8 HIL_STATE_ON = 1 # Navigation state, i.e. "what should vehicle do". uint8 NAVIGATION_STATE_MANUAL = 0 # Manual mode uint8 NAVIGATION_STATE_ALTCTL = 1 # Altitude control mode uint8 NAVIGATION_STATE_POSCTL = 2 # Position control mode uint8 NAVIGATION_STATE_AUTO_MISSION = 3 # Auto mission mode uint8 NAVIGATION_STATE_AUTO_LOITER = 4 # Auto loiter mode uint8 NAVIGATION_STATE_AUTO_RTL = 5 # Auto return to launch mode uint8 NAVIGATION_STATE_AUTO_RCRECOVER = 6 # RC recover mode uint8 NAVIGATION_STATE_AUTO_RTGS = 7 # Auto return to groundstation on data link loss uint8 NAVIGATION_STATE_AUTO_LANDENGFAIL = 8 # Auto land on engine failure uint8 NAVIGATION_STATE_AUTO_LANDGPSFAIL = 9 # Auto land on gps failure (e.g. open loop loiter down) uint8 NAVIGATION_STATE_ACRO = 10 # Acro mode uint8 NAVIGATION_STATE_UNUSED = 11 # Free slot uint8 NAVIGATION_STATE_DESCEND = 12 # Descend mode (no position control) uint8 NAVIGATION_STATE_TERMINATION = 13 # Termination mode uint8 NAVIGATION_STATE_OFFBOARD = 14 uint8 NAVIGATION_STATE_STAB = 15 # Stabilized mode uint8 NAVIGATION_STATE_RATTITUDE = 16 # Rattitude (aka "flip") mode uint8 NAVIGATION_STATE_AUTO_TAKEOFF = 17 # Takeoff uint8 NAVIGATION_STATE_AUTO_LAND = 18 # Land uint8 NAVIGATION_STATE_AUTO_FOLLOW_TARGET = 19 # Auto Follow uint8 NAVIGATION_STATE_MAX = 20 uint8 RC_IN_MODE_DEFAULT = 0 uint8 RC_IN_MODE_OFF = 1 uint8 RC_IN_MODE_GENERATED = 2 # state machine / state of vehicle. # Encodes the complete system state and is set by the commander app. uint8 nav_state # set navigation state machine to specified value uint8 arming_state # current arming state uint8 hil_state # current hil state bool failsafe # true if system is in failsafe state uint8 system_type # system type, contains mavlink MAV_TYPE uint32 system_id # system id, contains MAVLink's system ID field uint32 component_id # subsystem / component id, contains MAVLink's component ID field bool is_rotary_wing # True if system is in rotary wing configuration, so for a VTOL this is only true while flying as a multicopter bool is_vtol # True if the system is VTOL capable bool vtol_fw_permanent_stab # True if VTOL should stabilize attitude for fw in manual mode bool in_transition_mode # True if VTOL is doing a transition bool in_transition_to_fw # True if VTOL is doing a transition from MC to FW bool rc_signal_lost # true if RC reception lost uint8 rc_input_mode # set to 1 to disable the RC input, 2 to enable manual control to RC in mapping. bool data_link_lost # datalink to GCS lost uint8 data_link_lost_counter # counts unique data link lost events bool engine_failure # Set to true if an engine failure is detected bool engine_failure_cmd # Set to true if an engine failure mode is commanded bool mission_failure # Set to true if mission could not continue/finish # see SYS_STATUS mavlink message for the following uint32 onboard_control_sensors_present uint32 onboard_control_sensors_enabled uint32 onboard_control_sensors_health