diff options
Diffstat (limited to 'mavlink/share/pyshared/pymavlink/mavlinkv10.py')
| -rw-r--r-- | mavlink/share/pyshared/pymavlink/mavlinkv10.py | 5394 |
1 files changed, 0 insertions, 5394 deletions
diff --git a/mavlink/share/pyshared/pymavlink/mavlinkv10.py b/mavlink/share/pyshared/pymavlink/mavlinkv10.py deleted file mode 100644 index a87e8e904..000000000 --- a/mavlink/share/pyshared/pymavlink/mavlinkv10.py +++ /dev/null @@ -1,5394 +0,0 @@ -''' -MAVLink protocol implementation (auto-generated by mavgen.py) - -Generated from: ardupilotmega.xml,common.xml - -Note: this file has been auto-generated. DO NOT EDIT -''' - -import struct, array, mavutil, time - -WIRE_PROTOCOL_VERSION = "1.0" - -class MAVLink_header(object): - '''MAVLink message header''' - def __init__(self, msgId, mlen=0, seq=0, srcSystem=0, srcComponent=0): - self.mlen = mlen - self.seq = seq - self.srcSystem = srcSystem - self.srcComponent = srcComponent - self.msgId = msgId - - def pack(self): - return struct.pack('BBBBBB', 254, self.mlen, self.seq, - self.srcSystem, self.srcComponent, self.msgId) - -class MAVLink_message(object): - '''base MAVLink message class''' - def __init__(self, msgId, name): - self._header = MAVLink_header(msgId) - self._payload = None - self._msgbuf = None - self._crc = None - self._fieldnames = [] - self._type = name - - def get_msgbuf(self): - return self._msgbuf - - def get_header(self): - return self._header - - def get_payload(self): - return self._payload - - def get_crc(self): - return self._crc - - def get_fieldnames(self): - return self._fieldnames - - def get_type(self): - return self._type - - def get_msgId(self): - return self._header.msgId - - def get_srcSystem(self): - return self._header.srcSystem - - def get_srcComponent(self): - return self._header.srcComponent - - def get_seq(self): - return self._header.seq - - def __str__(self): - ret = '%s {' % self._type - for a in self._fieldnames: - v = getattr(self, a) - ret += '%s : %s, ' % (a, v) - ret = ret[0:-2] + '}' - return ret - - def pack(self, mav, crc_extra, payload): - self._payload = payload - self._header = MAVLink_header(self._header.msgId, len(payload), mav.seq, - mav.srcSystem, mav.srcComponent) - self._msgbuf = self._header.pack() + payload - crc = mavutil.x25crc(self._msgbuf[1:]) - if True: # using CRC extra - crc.accumulate(chr(crc_extra)) - self._crc = crc.crc - self._msgbuf += struct.pack('<H', self._crc) - return self._msgbuf - - -# enums - -# MAV_MOUNT_MODE -MAV_MOUNT_MODE_RETRACT = 0 # Load and keep safe position (Roll,Pitch,Yaw) from EEPROM and stop - # stabilization -MAV_MOUNT_MODE_NEUTRAL = 1 # Load and keep neutral position (Roll,Pitch,Yaw) from EEPROM. -MAV_MOUNT_MODE_MAVLINK_TARGETING = 2 # Load neutral position and start MAVLink Roll,Pitch,Yaw control with - # stabilization -MAV_MOUNT_MODE_RC_TARGETING = 3 # Load neutral position and start RC Roll,Pitch,Yaw control with - # stabilization -MAV_MOUNT_MODE_GPS_POINT = 4 # Load neutral position and start to point to Lat,Lon,Alt -MAV_MOUNT_MODE_ENUM_END = 5 # - -# MAV_CMD -MAV_CMD_NAV_WAYPOINT = 16 # Navigate to MISSION. -MAV_CMD_NAV_LOITER_UNLIM = 17 # Loiter around this MISSION an unlimited amount of time -MAV_CMD_NAV_LOITER_TURNS = 18 # Loiter around this MISSION for X turns -MAV_CMD_NAV_LOITER_TIME = 19 # Loiter around this MISSION for X seconds -MAV_CMD_NAV_RETURN_TO_LAUNCH = 20 # Return to launch location -MAV_CMD_NAV_LAND = 21 # Land at location -MAV_CMD_NAV_TAKEOFF = 22 # Takeoff from ground / hand -MAV_CMD_NAV_ROI = 80 # Sets the region of interest (ROI) for a sensor set or the - # vehicle itself. This can then be used by the - # vehicles control system to - # control the vehicle attitude and the - # attitude of various sensors such - # as cameras. -MAV_CMD_NAV_PATHPLANNING = 81 # Control autonomous path planning on the MAV. -MAV_CMD_NAV_LAST = 95 # NOP - This command is only used to mark the upper limit of the - # NAV/ACTION commands in the enumeration -MAV_CMD_CONDITION_DELAY = 112 # Delay mission state machine. -MAV_CMD_CONDITION_CHANGE_ALT = 113 # Ascend/descend at rate. Delay mission state machine until desired - # altitude reached. -MAV_CMD_CONDITION_DISTANCE = 114 # Delay mission state machine until within desired distance of next NAV - # point. -MAV_CMD_CONDITION_YAW = 115 # Reach a certain target angle. -MAV_CMD_CONDITION_LAST = 159 # NOP - This command is only used to mark the upper limit of the - # CONDITION commands in the enumeration -MAV_CMD_DO_SET_MODE = 176 # Set system mode. -MAV_CMD_DO_JUMP = 177 # Jump to the desired command in the mission list. Repeat this action - # only the specified number of times -MAV_CMD_DO_CHANGE_SPEED = 178 # Change speed and/or throttle set points. -MAV_CMD_DO_SET_HOME = 179 # Changes the home location either to the current location or a - # specified location. -MAV_CMD_DO_SET_PARAMETER = 180 # Set a system parameter. Caution! Use of this command requires - # knowledge of the numeric enumeration value - # of the parameter. -MAV_CMD_DO_SET_RELAY = 181 # Set a relay to a condition. -MAV_CMD_DO_REPEAT_RELAY = 182 # Cycle a relay on and off for a desired number of cyles with a desired - # period. -MAV_CMD_DO_SET_SERVO = 183 # Set a servo to a desired PWM value. -MAV_CMD_DO_REPEAT_SERVO = 184 # Cycle a between its nominal setting and a desired PWM for a desired - # number of cycles with a desired period. -MAV_CMD_DO_CONTROL_VIDEO = 200 # Control onboard camera system. -MAV_CMD_DO_DIGICAM_CONFIGURE = 202 # Mission command to configure an on-board camera controller system. -MAV_CMD_DO_DIGICAM_CONTROL = 203 # Mission command to control an on-board camera controller system. -MAV_CMD_DO_MOUNT_CONFIGURE = 204 # Mission command to configure a camera or antenna mount -MAV_CMD_DO_MOUNT_CONTROL = 205 # Mission command to control a camera or antenna mount -MAV_CMD_DO_LAST = 240 # NOP - This command is only used to mark the upper limit of the DO - # commands in the enumeration -MAV_CMD_PREFLIGHT_CALIBRATION = 241 # Trigger calibration. This command will be only accepted if in pre- - # flight mode. -MAV_CMD_PREFLIGHT_SET_SENSOR_OFFSETS = 242 # Set sensor offsets. This command will be only accepted if in pre- - # flight mode. -MAV_CMD_PREFLIGHT_STORAGE = 245 # Request storage of different parameter values and logs. This command - # will be only accepted if in pre-flight mode. -MAV_CMD_PREFLIGHT_REBOOT_SHUTDOWN = 246 # Request the reboot or shutdown of system components. -MAV_CMD_OVERRIDE_GOTO = 252 # Hold / continue the current action -MAV_CMD_MISSION_START = 300 # start running a mission -MAV_CMD_ENUM_END = 301 # - -# FENCE_ACTION -FENCE_ACTION_NONE = 0 # Disable fenced mode -FENCE_ACTION_GUIDED = 1 # Switched to guided mode to return point (fence point 0) -FENCE_ACTION_ENUM_END = 2 # - -# FENCE_BREACH -FENCE_BREACH_NONE = 0 # No last fence breach -FENCE_BREACH_MINALT = 1 # Breached minimum altitude -FENCE_BREACH_MAXALT = 2 # Breached minimum altitude -FENCE_BREACH_BOUNDARY = 3 # Breached fence boundary -FENCE_BREACH_ENUM_END = 4 # - -# MAV_AUTOPILOT -MAV_AUTOPILOT_GENERIC = 0 # Generic autopilot, full support for everything -MAV_AUTOPILOT_PIXHAWK = 1 # PIXHAWK autopilot, http://pixhawk.ethz.ch -MAV_AUTOPILOT_SLUGS = 2 # SLUGS autopilot, http://slugsuav.soe.ucsc.edu -MAV_AUTOPILOT_ARDUPILOTMEGA = 3 # ArduPilotMega / ArduCopter, http://diydrones.com -MAV_AUTOPILOT_OPENPILOT = 4 # OpenPilot, http://openpilot.org -MAV_AUTOPILOT_GENERIC_WAYPOINTS_ONLY = 5 # Generic autopilot only supporting simple waypoints -MAV_AUTOPILOT_GENERIC_WAYPOINTS_AND_SIMPLE_NAVIGATION_ONLY = 6 # Generic autopilot supporting waypoints and other simple navigation - # commands -MAV_AUTOPILOT_GENERIC_MISSION_FULL = 7 # Generic autopilot supporting the full mission command set -MAV_AUTOPILOT_INVALID = 8 # No valid autopilot, e.g. a GCS or other MAVLink component -MAV_AUTOPILOT_PPZ = 9 # PPZ UAV - http://nongnu.org/paparazzi -MAV_AUTOPILOT_UDB = 10 # UAV Dev Board -MAV_AUTOPILOT_FP = 11 # FlexiPilot -MAV_AUTOPILOT_ENUM_END = 12 # - -# MAV_MODE_FLAG -MAV_MODE_FLAG_CUSTOM_MODE_ENABLED = 1 # 0b00000001 Reserved for future use. -MAV_MODE_FLAG_TEST_ENABLED = 2 # 0b00000010 system has a test mode enabled. This flag is intended for - # temporary system tests and should not be - # used for stable implementations. -MAV_MODE_FLAG_AUTO_ENABLED = 4 # 0b00000100 autonomous mode enabled, system finds its own goal - # positions. Guided flag can be set or not, - # depends on the actual implementation. -MAV_MODE_FLAG_GUIDED_ENABLED = 8 # 0b00001000 guided mode enabled, system flies MISSIONs / mission items. -MAV_MODE_FLAG_STABILIZE_ENABLED = 16 # 0b00010000 system stabilizes electronically its attitude (and - # optionally position). It needs however - # further control inputs to move around. -MAV_MODE_FLAG_HIL_ENABLED = 32 # 0b00100000 hardware in the loop simulation. All motors / actuators are - # blocked, but internal software is full - # operational. -MAV_MODE_FLAG_MANUAL_INPUT_ENABLED = 64 # 0b01000000 remote control input is enabled. -MAV_MODE_FLAG_SAFETY_ARMED = 128 # 0b10000000 MAV safety set to armed. Motors are enabled / running / can - # start. Ready to fly. -MAV_MODE_FLAG_ENUM_END = 129 # - -# MAV_MODE_FLAG_DECODE_POSITION -MAV_MODE_FLAG_DECODE_POSITION_CUSTOM_MODE = 1 # Eighth bit: 00000001 -MAV_MODE_FLAG_DECODE_POSITION_TEST = 2 # Seventh bit: 00000010 -MAV_MODE_FLAG_DECODE_POSITION_AUTO = 4 # Sixt bit: 00000100 -MAV_MODE_FLAG_DECODE_POSITION_GUIDED = 8 # Fifth bit: 00001000 -MAV_MODE_FLAG_DECODE_POSITION_STABILIZE = 16 # Fourth bit: 00010000 -MAV_MODE_FLAG_DECODE_POSITION_HIL = 32 # Third bit: 00100000 -MAV_MODE_FLAG_DECODE_POSITION_MANUAL = 64 # Second bit: 01000000 -MAV_MODE_FLAG_DECODE_POSITION_SAFETY = 128 # First bit: 10000000 -MAV_MODE_FLAG_DECODE_POSITION_ENUM_END = 129 # - -# MAV_GOTO -MAV_GOTO_DO_HOLD = 0 # Hold at the current position. -MAV_GOTO_DO_CONTINUE = 1 # Continue with the next item in mission execution. -MAV_GOTO_HOLD_AT_CURRENT_POSITION = 2 # Hold at the current position of the system -MAV_GOTO_HOLD_AT_SPECIFIED_POSITION = 3 # Hold at the position specified in the parameters of the DO_HOLD action -MAV_GOTO_ENUM_END = 4 # - -# MAV_MODE -MAV_MODE_PREFLIGHT = 0 # System is not ready to fly, booting, calibrating, etc. No flag is set. -MAV_MODE_MANUAL_DISARMED = 64 # System is allowed to be active, under manual (RC) control, no - # stabilization -MAV_MODE_TEST_DISARMED = 66 # UNDEFINED mode. This solely depends on the autopilot - use with - # caution, intended for developers only. -MAV_MODE_STABILIZE_DISARMED = 80 # System is allowed to be active, under assisted RC control. -MAV_MODE_GUIDED_DISARMED = 88 # System is allowed to be active, under autonomous control, manual - # setpoint -MAV_MODE_AUTO_DISARMED = 92 # System is allowed to be active, under autonomous control and - # navigation (the trajectory is decided - # onboard and not pre-programmed by MISSIONs) -MAV_MODE_MANUAL_ARMED = 192 # System is allowed to be active, under manual (RC) control, no - # stabilization -MAV_MODE_TEST_ARMED = 194 # UNDEFINED mode. This solely depends on the autopilot - use with - # caution, intended for developers only. -MAV_MODE_STABILIZE_ARMED = 208 # System is allowed to be active, under assisted RC control. -MAV_MODE_GUIDED_ARMED = 216 # System is allowed to be active, under autonomous control, manual - # setpoint -MAV_MODE_AUTO_ARMED = 220 # System is allowed to be active, under autonomous control and - # navigation (the trajectory is decided - # onboard and not pre-programmed by MISSIONs) -MAV_MODE_ENUM_END = 221 # - -# MAV_STATE -MAV_STATE_UNINIT = 0 # Uninitialized system, state is unknown. -MAV_STATE_BOOT = 1 # System is booting up. -MAV_STATE_CALIBRATING = 2 # System is calibrating and not flight-ready. -MAV_STATE_STANDBY = 3 # System is grounded and on standby. It can be launched any time. -MAV_STATE_ACTIVE = 4 # System is active and might be already airborne. Motors are engaged. -MAV_STATE_CRITICAL = 5 # System is in a non-normal flight mode. It can however still navigate. -MAV_STATE_EMERGENCY = 6 # System is in a non-normal flight mode. It lost control over parts or - # over the whole airframe. It is in mayday and - # going down. -MAV_STATE_POWEROFF = 7 # System just initialized its power-down sequence, will shut down now. -MAV_STATE_ENUM_END = 8 # - -# MAV_TYPE -MAV_TYPE_GENERIC = 0 # Generic micro air vehicle. -MAV_TYPE_FIXED_WING = 1 # Fixed wing aircraft. -MAV_TYPE_QUADROTOR = 2 # Quadrotor -MAV_TYPE_COAXIAL = 3 # Coaxial helicopter -MAV_TYPE_HELICOPTER = 4 # Normal helicopter with tail rotor. -MAV_TYPE_ANTENNA_TRACKER = 5 # Ground installation -MAV_TYPE_GCS = 6 # Operator control unit / ground control station -MAV_TYPE_AIRSHIP = 7 # Airship, controlled -MAV_TYPE_FREE_BALLOON = 8 # Free balloon, uncontrolled -MAV_TYPE_ROCKET = 9 # Rocket -MAV_TYPE_GROUND_ROVER = 10 # Ground rover -MAV_TYPE_SURFACE_BOAT = 11 # Surface vessel, boat, ship -MAV_TYPE_SUBMARINE = 12 # Submarine -MAV_TYPE_HEXAROTOR = 13 # Hexarotor -MAV_TYPE_OCTOROTOR = 14 # Octorotor -MAV_TYPE_TRICOPTER = 15 # Octorotor -MAV_TYPE_FLAPPING_WING = 16 # Flapping wing -MAV_TYPE_ENUM_END = 17 # - -# MAV_COMPONENT -MAV_COMP_ID_ALL = 0 # -MAV_COMP_ID_CAMERA = 100 # -MAV_COMP_ID_SERVO1 = 140 # -MAV_COMP_ID_SERVO2 = 141 # -MAV_COMP_ID_SERVO3 = 142 # -MAV_COMP_ID_SERVO4 = 143 # -MAV_COMP_ID_SERVO5 = 144 # -MAV_COMP_ID_SERVO6 = 145 # -MAV_COMP_ID_SERVO7 = 146 # -MAV_COMP_ID_SERVO8 = 147 # -MAV_COMP_ID_SERVO9 = 148 # -MAV_COMP_ID_SERVO10 = 149 # -MAV_COMP_ID_SERVO11 = 150 # -MAV_COMP_ID_SERVO12 = 151 # -MAV_COMP_ID_SERVO13 = 152 # -MAV_COMP_ID_SERVO14 = 153 # -MAV_COMP_ID_MAPPER = 180 # -MAV_COMP_ID_MISSIONPLANNER = 190 # -MAV_COMP_ID_PATHPLANNER = 195 # -MAV_COMP_ID_IMU = 200 # -MAV_COMP_ID_IMU_2 = 201 # -MAV_COMP_ID_IMU_3 = 202 # -MAV_COMP_ID_GPS = 220 # -MAV_COMP_ID_UDP_BRIDGE = 240 # -MAV_COMP_ID_UART_BRIDGE = 241 # -MAV_COMP_ID_SYSTEM_CONTROL = 250 # -MAV_COMPONENT_ENUM_END = 251 # - -# MAV_FRAME -MAV_FRAME_GLOBAL = 0 # Global coordinate frame, WGS84 coordinate system. First value / x: - # latitude, second value / y: longitude, third - # value / z: positive altitude over mean sea - # level (MSL) -MAV_FRAME_LOCAL_NED = 1 # Local coordinate frame, Z-up (x: north, y: east, z: down). -MAV_FRAME_MISSION = 2 # NOT a coordinate frame, indicates a mission command. -MAV_FRAME_GLOBAL_RELATIVE_ALT = 3 # Global coordinate frame, WGS84 coordinate system, relative altitude - # over ground with respect to the home - # position. First value / x: latitude, second - # value / y: longitude, third value / z: - # positive altitude with 0 being at the - # altitude of the home location. -MAV_FRAME_LOCAL_ENU = 4 # Local coordinate frame, Z-down (x: east, y: north, z: up) -MAV_FRAME_ENUM_END = 5 # - -# MAVLINK_DATA_STREAM_TYPE -MAVLINK_DATA_STREAM_IMG_JPEG = 1 # -MAVLINK_DATA_STREAM_IMG_BMP = 2 # -MAVLINK_DATA_STREAM_IMG_RAW8U = 3 # -MAVLINK_DATA_STREAM_IMG_RAW32U = 4 # -MAVLINK_DATA_STREAM_IMG_PGM = 5 # -MAVLINK_DATA_STREAM_IMG_PNG = 6 # -MAVLINK_DATA_STREAM_TYPE_ENUM_END = 7 # - -# MAV_DATA_STREAM -MAV_DATA_STREAM_ALL = 0 # Enable all data streams -MAV_DATA_STREAM_RAW_SENSORS = 1 # Enable IMU_RAW, GPS_RAW, GPS_STATUS packets. -MAV_DATA_STREAM_EXTENDED_STATUS = 2 # Enable GPS_STATUS, CONTROL_STATUS, AUX_STATUS -MAV_DATA_STREAM_RC_CHANNELS = 3 # Enable RC_CHANNELS_SCALED, RC_CHANNELS_RAW, SERVO_OUTPUT_RAW -MAV_DATA_STREAM_RAW_CONTROLLER = 4 # Enable ATTITUDE_CONTROLLER_OUTPUT, POSITION_CONTROLLER_OUTPUT, - # NAV_CONTROLLER_OUTPUT. -MAV_DATA_STREAM_POSITION = 6 # Enable LOCAL_POSITION, GLOBAL_POSITION/GLOBAL_POSITION_INT messages. -MAV_DATA_STREAM_EXTRA1 = 10 # Dependent on the autopilot -MAV_DATA_STREAM_EXTRA2 = 11 # Dependent on the autopilot -MAV_DATA_STREAM_EXTRA3 = 12 # Dependent on the autopilot -MAV_DATA_STREAM_ENUM_END = 13 # - -# MAV_ROI -MAV_ROI_NONE = 0 # No region of interest. -MAV_ROI_WPNEXT = 1 # Point toward next MISSION. -MAV_ROI_WPINDEX = 2 # Point toward given MISSION. -MAV_ROI_LOCATION = 3 # Point toward fixed location. -MAV_ROI_TARGET = 4 # Point toward of given id. -MAV_ROI_ENUM_END = 5 # - -# MAV_CMD_ACK -MAV_CMD_ACK_OK = 1 # Command / mission item is ok. -MAV_CMD_ACK_ERR_FAIL = 2 # Generic error message if none of the other reasons fails or if no - # detailed error reporting is implemented. -MAV_CMD_ACK_ERR_ACCESS_DENIED = 3 # The system is refusing to accept this command from this source / - # communication partner. -MAV_CMD_ACK_ERR_NOT_SUPPORTED = 4 # Command or mission item is not supported, other commands would be - # accepted. -MAV_CMD_ACK_ERR_COORDINATE_FRAME_NOT_SUPPORTED = 5 # The coordinate frame of this command / mission item is not supported. -MAV_CMD_ACK_ERR_COORDINATES_OUT_OF_RANGE = 6 # The coordinate frame of this command is ok, but he coordinate values - # exceed the safety limits of this system. - # This is a generic error, please use the more - # specific error messages below if possible. -MAV_CMD_ACK_ERR_X_LAT_OUT_OF_RANGE = 7 # The X or latitude value is out of range. -MAV_CMD_ACK_ERR_Y_LON_OUT_OF_RANGE = 8 # The Y or longitude value is out of range. -MAV_CMD_ACK_ERR_Z_ALT_OUT_OF_RANGE = 9 # The Z or altitude value is out of range. -MAV_CMD_ACK_ENUM_END = 10 # - -# MAV_VAR -MAV_VAR_FLOAT = 0 # 32 bit float -MAV_VAR_UINT8 = 1 # 8 bit unsigned integer -MAV_VAR_INT8 = 2 # 8 bit signed integer -MAV_VAR_UINT16 = 3 # 16 bit unsigned integer -MAV_VAR_INT16 = 4 # 16 bit signed integer -MAV_VAR_UINT32 = 5 # 32 bit unsigned integer -MAV_VAR_INT32 = 6 # 32 bit signed integer -MAV_VAR_ENUM_END = 7 # - -# MAV_RESULT -MAV_RESULT_ACCEPTED = 0 # Command ACCEPTED and EXECUTED -MAV_RESULT_TEMPORARILY_REJECTED = 1 # Command TEMPORARY REJECTED/DENIED -MAV_RESULT_DENIED = 2 # Command PERMANENTLY DENIED -MAV_RESULT_UNSUPPORTED = 3 # Command UNKNOWN/UNSUPPORTED -MAV_RESULT_FAILED = 4 # Command executed, but failed -MAV_RESULT_ENUM_END = 5 # - -# MAV_MISSION_RESULT -MAV_MISSION_ACCEPTED = 0 # mission accepted OK -MAV_MISSION_ERROR = 1 # generic error / not accepting mission commands at all right now -MAV_MISSION_UNSUPPORTED_FRAME = 2 # coordinate frame is not supported -MAV_MISSION_UNSUPPORTED = 3 # command is not supported -MAV_MISSION_NO_SPACE = 4 # mission item exceeds storage space -MAV_MISSION_INVALID = 5 # one of the parameters has an invalid value -MAV_MISSION_INVALID_PARAM1 = 6 # param1 has an invalid value -MAV_MISSION_INVALID_PARAM2 = 7 # param2 has an invalid value -MAV_MISSION_INVALID_PARAM3 = 8 # param3 has an invalid value -MAV_MISSION_INVALID_PARAM4 = 9 # param4 has an invalid value -MAV_MISSION_INVALID_PARAM5_X = 10 # x/param5 has an invalid value -MAV_MISSION_INVALID_PARAM6_Y = 11 # y/param6 has an invalid value -MAV_MISSION_INVALID_PARAM7 = 12 # param7 has an invalid value -MAV_MISSION_INVALID_SEQUENCE = 13 # received waypoint out of sequence -MAV_MISSION_DENIED = 14 # not accepting any mission commands from this communication partner -MAV_MISSION_RESULT_ENUM_END = 15 # - -# message IDs -MAVLINK_MSG_ID_BAD_DATA = -1 -MAVLINK_MSG_ID_SENSOR_OFFSETS = 150 -MAVLINK_MSG_ID_SET_MAG_OFFSETS = 151 -MAVLINK_MSG_ID_MEMINFO = 152 -MAVLINK_MSG_ID_AP_ADC = 153 -MAVLINK_MSG_ID_DIGICAM_CONFIGURE = 154 -MAVLINK_MSG_ID_DIGICAM_CONTROL = 155 -MAVLINK_MSG_ID_MOUNT_CONFIGURE = 156 -MAVLINK_MSG_ID_MOUNT_CONTROL = 157 -MAVLINK_MSG_ID_MOUNT_STATUS = 158 -MAVLINK_MSG_ID_FENCE_POINT = 160 -MAVLINK_MSG_ID_FENCE_FETCH_POINT = 161 -MAVLINK_MSG_ID_FENCE_STATUS = 162 -MAVLINK_MSG_ID_AHRS = 163 -MAVLINK_MSG_ID_SIMSTATE = 164 -MAVLINK_MSG_ID_HWSTATUS = 165 -MAVLINK_MSG_ID_RADIO = 166 -MAVLINK_MSG_ID_HEARTBEAT = 0 -MAVLINK_MSG_ID_SYS_STATUS = 1 -MAVLINK_MSG_ID_SYSTEM_TIME = 2 -MAVLINK_MSG_ID_PING = 4 -MAVLINK_MSG_ID_CHANGE_OPERATOR_CONTROL = 5 -MAVLINK_MSG_ID_CHANGE_OPERATOR_CONTROL_ACK = 6 -MAVLINK_MSG_ID_AUTH_KEY = 7 -MAVLINK_MSG_ID_SET_MODE = 11 -MAVLINK_MSG_ID_PARAM_REQUEST_READ = 20 -MAVLINK_MSG_ID_PARAM_REQUEST_LIST = 21 -MAVLINK_MSG_ID_PARAM_VALUE = 22 -MAVLINK_MSG_ID_PARAM_SET = 23 -MAVLINK_MSG_ID_GPS_RAW_INT = 24 -MAVLINK_MSG_ID_GPS_STATUS = 25 -MAVLINK_MSG_ID_SCALED_IMU = 26 -MAVLINK_MSG_ID_RAW_IMU = 27 -MAVLINK_MSG_ID_RAW_PRESSURE = 28 -MAVLINK_MSG_ID_SCALED_PRESSURE = 29 -MAVLINK_MSG_ID_ATTITUDE = 30 -MAVLINK_MSG_ID_ATTITUDE_QUATERNION = 31 -MAVLINK_MSG_ID_LOCAL_POSITION_NED = 32 -MAVLINK_MSG_ID_GLOBAL_POSITION_INT = 33 -MAVLINK_MSG_ID_RC_CHANNELS_SCALED = 34 -MAVLINK_MSG_ID_RC_CHANNELS_RAW = 35 -MAVLINK_MSG_ID_SERVO_OUTPUT_RAW = 36 -MAVLINK_MSG_ID_MISSION_REQUEST_PARTIAL_LIST = 37 -MAVLINK_MSG_ID_MISSION_WRITE_PARTIAL_LIST = 38 -MAVLINK_MSG_ID_MISSION_ITEM = 39 -MAVLINK_MSG_ID_MISSION_REQUEST = 40 -MAVLINK_MSG_ID_MISSION_SET_CURRENT = 41 -MAVLINK_MSG_ID_MISSION_CURRENT = 42 -MAVLINK_MSG_ID_MISSION_REQUEST_LIST = 43 -MAVLINK_MSG_ID_MISSION_COUNT = 44 -MAVLINK_MSG_ID_MISSION_CLEAR_ALL = 45 -MAVLINK_MSG_ID_MISSION_ITEM_REACHED = 46 -MAVLINK_MSG_ID_MISSION_ACK = 47 -MAVLINK_MSG_ID_SET_GPS_GLOBAL_ORIGIN = 48 -MAVLINK_MSG_ID_GPS_GLOBAL_ORIGIN = 49 -MAVLINK_MSG_ID_SET_LOCAL_POSITION_SETPOINT = 50 -MAVLINK_MSG_ID_LOCAL_POSITION_SETPOINT = 51 -MAVLINK_MSG_ID_GLOBAL_POSITION_SETPOINT_INT = 52 -MAVLINK_MSG_ID_SET_GLOBAL_POSITION_SETPOINT_INT = 53 -MAVLINK_MSG_ID_SAFETY_SET_ALLOWED_AREA = 54 -MAVLINK_MSG_ID_SAFETY_ALLOWED_AREA = 55 -MAVLINK_MSG_ID_SET_ROLL_PITCH_YAW_THRUST = 56 -MAVLINK_MSG_ID_SET_ROLL_PITCH_YAW_SPEED_THRUST = 57 -MAVLINK_MSG_ID_ROLL_PITCH_YAW_THRUST_SETPOINT = 58 -MAVLINK_MSG_ID_ROLL_PITCH_YAW_SPEED_THRUST_SETPOINT = 59 -MAVLINK_MSG_ID_NAV_CONTROLLER_OUTPUT = 62 -MAVLINK_MSG_ID_STATE_CORRECTION = 64 -MAVLINK_MSG_ID_REQUEST_DATA_STREAM = 66 -MAVLINK_MSG_ID_DATA_STREAM = 67 -MAVLINK_MSG_ID_MANUAL_CONTROL = 69 -MAVLINK_MSG_ID_RC_CHANNELS_OVERRIDE = 70 -MAVLINK_MSG_ID_VFR_HUD = 74 -MAVLINK_MSG_ID_COMMAND_LONG = 76 -MAVLINK_MSG_ID_COMMAND_ACK = 77 -MAVLINK_MSG_ID_HIL_STATE = 90 -MAVLINK_MSG_ID_HIL_CONTROLS = 91 -MAVLINK_MSG_ID_HIL_RC_INPUTS_RAW = 92 -MAVLINK_MSG_ID_OPTICAL_FLOW = 100 -MAVLINK_MSG_ID_GLOBAL_VISION_POSITION_ESTIMATE = 101 -MAVLINK_MSG_ID_VISION_POSITION_ESTIMATE = 102 -MAVLINK_MSG_ID_VISION_SPEED_ESTIMATE = 103 -MAVLINK_MSG_ID_VICON_POSITION_ESTIMATE = 104 -MAVLINK_MSG_ID_MEMORY_VECT = 249 -MAVLINK_MSG_ID_DEBUG_VECT = 250 -MAVLINK_MSG_ID_NAMED_VALUE_FLOAT = 251 -MAVLINK_MSG_ID_NAMED_VALUE_INT = 252 -MAVLINK_MSG_ID_STATUSTEXT = 253 -MAVLINK_MSG_ID_DEBUG = 254 -MAVLINK_MSG_ID_EXTENDED_MESSAGE = 255 - -class MAVLink_sensor_offsets_message(MAVLink_message): - ''' - Offsets and calibrations values for hardware sensors. - This makes it easier to debug the calibration process. - ''' - def __init__(self, mag_ofs_x, mag_ofs_y, mag_ofs_z, mag_declination, raw_press, raw_temp, gyro_cal_x, gyro_cal_y, gyro_cal_z, accel_cal_x, accel_cal_y, accel_cal_z): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_SENSOR_OFFSETS, 'SENSOR_OFFSETS') - self._fieldnames = ['mag_ofs_x', 'mag_ofs_y', 'mag_ofs_z', 'mag_declination', 'raw_press', 'raw_temp', 'gyro_cal_x', 'gyro_cal_y', 'gyro_cal_z', 'accel_cal_x', 'accel_cal_y', 'accel_cal_z'] - self.mag_ofs_x = mag_ofs_x - self.mag_ofs_y = mag_ofs_y - self.mag_ofs_z = mag_ofs_z - self.mag_declination = mag_declination - self.raw_press = raw_press - self.raw_temp = raw_temp - self.gyro_cal_x = gyro_cal_x - self.gyro_cal_y = gyro_cal_y - self.gyro_cal_z = gyro_cal_z - self.accel_cal_x = accel_cal_x - self.accel_cal_y = accel_cal_y - self.accel_cal_z = accel_cal_z - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 134, struct.pack('<fiiffffffhhh', self.mag_declination, self.raw_press, self.raw_temp, self.gyro_cal_x, self.gyro_cal_y, self.gyro_cal_z, self.accel_cal_x, self.accel_cal_y, self.accel_cal_z, self.mag_ofs_x, self.mag_ofs_y, self.mag_ofs_z)) - -class MAVLink_set_mag_offsets_message(MAVLink_message): - ''' - set the magnetometer offsets - ''' - def __init__(self, target_system, target_component, mag_ofs_x, mag_ofs_y, mag_ofs_z): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_SET_MAG_OFFSETS, 'SET_MAG_OFFSETS') - self._fieldnames = ['target_system', 'target_component', 'mag_ofs_x', 'mag_ofs_y', 'mag_ofs_z'] - self.target_system = target_system - self.target_component = target_component - self.mag_ofs_x = mag_ofs_x - self.mag_ofs_y = mag_ofs_y - self.mag_ofs_z = mag_ofs_z - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 219, struct.pack('<hhhBB', self.mag_ofs_x, self.mag_ofs_y, self.mag_ofs_z, self.target_system, self.target_component)) - -class MAVLink_meminfo_message(MAVLink_message): - ''' - state of APM memory - ''' - def __init__(self, brkval, freemem): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_MEMINFO, 'MEMINFO') - self._fieldnames = ['brkval', 'freemem'] - self.brkval = brkval - self.freemem = freemem - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 208, struct.pack('<HH', self.brkval, self.freemem)) - -class MAVLink_ap_adc_message(MAVLink_message): - ''' - raw ADC output - ''' - def __init__(self, adc1, adc2, adc3, adc4, adc5, adc6): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_AP_ADC, 'AP_ADC') - self._fieldnames = ['adc1', 'adc2', 'adc3', 'adc4', 'adc5', 'adc6'] - self.adc1 = adc1 - self.adc2 = adc2 - self.adc3 = adc3 - self.adc4 = adc4 - self.adc5 = adc5 - self.adc6 = adc6 - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 188, struct.pack('<HHHHHH', self.adc1, self.adc2, self.adc3, self.adc4, self.adc5, self.adc6)) - -class MAVLink_digicam_configure_message(MAVLink_message): - ''' - Configure on-board Camera Control System. - ''' - def __init__(self, target_system, target_component, mode, shutter_speed, aperture, iso, exposure_type, command_id, engine_cut_off, extra_param, extra_value): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_DIGICAM_CONFIGURE, 'DIGICAM_CONFIGURE') - self._fieldnames = ['target_system', 'target_component', 'mode', 'shutter_speed', 'aperture', 'iso', 'exposure_type', 'command_id', 'engine_cut_off', 'extra_param', 'extra_value'] - self.target_system = target_system - self.target_component = target_component - self.mode = mode - self.shutter_speed = shutter_speed - self.aperture = aperture - self.iso = iso - self.exposure_type = exposure_type - self.command_id = command_id - self.engine_cut_off = engine_cut_off - self.extra_param = extra_param - self.extra_value = extra_value - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 84, struct.pack('<fHBBBBBBBBB', self.extra_value, self.shutter_speed, self.target_system, self.target_component, self.mode, self.aperture, self.iso, self.exposure_type, self.command_id, self.engine_cut_off, self.extra_param)) - -class MAVLink_digicam_control_message(MAVLink_message): - ''' - Control on-board Camera Control System to take shots. - ''' - def __init__(self, target_system, target_component, session, zoom_pos, zoom_step, focus_lock, shot, command_id, extra_param, extra_value): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_DIGICAM_CONTROL, 'DIGICAM_CONTROL') - self._fieldnames = ['target_system', 'target_component', 'session', 'zoom_pos', 'zoom_step', 'focus_lock', 'shot', 'command_id', 'extra_param', 'extra_value'] - self.target_system = target_system - self.target_component = target_component - self.session = session - self.zoom_pos = zoom_pos - self.zoom_step = zoom_step - self.focus_lock = focus_lock - self.shot = shot - self.command_id = command_id - self.extra_param = extra_param - self.extra_value = extra_value - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 22, struct.pack('<fBBBBbBBBB', self.extra_value, self.target_system, self.target_component, self.session, self.zoom_pos, self.zoom_step, self.focus_lock, self.shot, self.command_id, self.extra_param)) - -class MAVLink_mount_configure_message(MAVLink_message): - ''' - Message to configure a camera mount, directional antenna, etc. - ''' - def __init__(self, target_system, target_component, mount_mode, stab_roll, stab_pitch, stab_yaw): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_MOUNT_CONFIGURE, 'MOUNT_CONFIGURE') - self._fieldnames = ['target_system', 'target_component', 'mount_mode', 'stab_roll', 'stab_pitch', 'stab_yaw'] - self.target_system = target_system - self.target_component = target_component - self.mount_mode = mount_mode - self.stab_roll = stab_roll - self.stab_pitch = stab_pitch - self.stab_yaw = stab_yaw - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 19, struct.pack('<BBBBBB', self.target_system, self.target_component, self.mount_mode, self.stab_roll, self.stab_pitch, self.stab_yaw)) - -class MAVLink_mount_control_message(MAVLink_message): - ''' - Message to control a camera mount, directional antenna, etc. - ''' - def __init__(self, target_system, target_component, input_a, input_b, input_c, save_position): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_MOUNT_CONTROL, 'MOUNT_CONTROL') - self._fieldnames = ['target_system', 'target_component', 'input_a', 'input_b', 'input_c', 'save_position'] - self.target_system = target_system - self.target_component = target_component - self.input_a = input_a - self.input_b = input_b - self.input_c = input_c - self.save_position = save_position - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 21, struct.pack('<iiiBBB', self.input_a, self.input_b, self.input_c, self.target_system, self.target_component, self.save_position)) - -class MAVLink_mount_status_message(MAVLink_message): - ''' - Message with some status from APM to GCS about camera or - antenna mount - ''' - def __init__(self, target_system, target_component, pointing_a, pointing_b, pointing_c): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_MOUNT_STATUS, 'MOUNT_STATUS') - self._fieldnames = ['target_system', 'target_component', 'pointing_a', 'pointing_b', 'pointing_c'] - self.target_system = target_system - self.target_component = target_component - self.pointing_a = pointing_a - self.pointing_b = pointing_b - self.pointing_c = pointing_c - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 134, struct.pack('<iiiBB', self.pointing_a, self.pointing_b, self.pointing_c, self.target_system, self.target_component)) - -class MAVLink_fence_point_message(MAVLink_message): - ''' - A fence point. Used to set a point when from GCS - -> MAV. Also used to return a point from MAV -> GCS - ''' - def __init__(self, target_system, target_component, idx, count, lat, lng): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_FENCE_POINT, 'FENCE_POINT') - self._fieldnames = ['target_system', 'target_component', 'idx', 'count', 'lat', 'lng'] - self.target_system = target_system - self.target_component = target_component - self.idx = idx - self.count = count - self.lat = lat - self.lng = lng - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 78, struct.pack('<ffBBBB', self.lat, self.lng, self.target_system, self.target_component, self.idx, self.count)) - -class MAVLink_fence_fetch_point_message(MAVLink_message): - ''' - Request a current fence point from MAV - ''' - def __init__(self, target_system, target_component, idx): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_FENCE_FETCH_POINT, 'FENCE_FETCH_POINT') - self._fieldnames = ['target_system', 'target_component', 'idx'] - self.target_system = target_system - self.target_component = target_component - self.idx = idx - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 68, struct.pack('<BBB', self.target_system, self.target_component, self.idx)) - -class MAVLink_fence_status_message(MAVLink_message): - ''' - Status of geo-fencing. Sent in extended status - stream when fencing enabled - ''' - def __init__(self, breach_status, breach_count, breach_type, breach_time): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_FENCE_STATUS, 'FENCE_STATUS') - self._fieldnames = ['breach_status', 'breach_count', 'breach_type', 'breach_time'] - self.breach_status = breach_status - self.breach_count = breach_count - self.breach_type = breach_type - self.breach_time = breach_time - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 189, struct.pack('<IHBB', self.breach_time, self.breach_count, self.breach_status, self.breach_type)) - -class MAVLink_ahrs_message(MAVLink_message): - ''' - Status of DCM attitude estimator - ''' - def __init__(self, omegaIx, omegaIy, omegaIz, accel_weight, renorm_val, error_rp, error_yaw): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_AHRS, 'AHRS') - self._fieldnames = ['omegaIx', 'omegaIy', 'omegaIz', 'accel_weight', 'renorm_val', 'error_rp', 'error_yaw'] - self.omegaIx = omegaIx - self.omegaIy = omegaIy - self.omegaIz = omegaIz - self.accel_weight = accel_weight - self.renorm_val = renorm_val - self.error_rp = error_rp - self.error_yaw = error_yaw - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 127, struct.pack('<fffffff', self.omegaIx, self.omegaIy, self.omegaIz, self.accel_weight, self.renorm_val, self.error_rp, self.error_yaw)) - -class MAVLink_simstate_message(MAVLink_message): - ''' - Status of simulation environment, if used - ''' - def __init__(self, roll, pitch, yaw, xacc, yacc, zacc, xgyro, ygyro, zgyro): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_SIMSTATE, 'SIMSTATE') - self._fieldnames = ['roll', 'pitch', 'yaw', 'xacc', 'yacc', 'zacc', 'xgyro', 'ygyro', 'zgyro'] - self.roll = roll - self.pitch = pitch - self.yaw = yaw - self.xacc = xacc - self.yacc = yacc - self.zacc = zacc - self.xgyro = xgyro - self.ygyro = ygyro - self.zgyro = zgyro - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 42, struct.pack('<fffffffff', self.roll, self.pitch, self.yaw, self.xacc, self.yacc, self.zacc, self.xgyro, self.ygyro, self.zgyro)) - -class MAVLink_hwstatus_message(MAVLink_message): - ''' - Status of key hardware - ''' - def __init__(self, Vcc, I2Cerr): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_HWSTATUS, 'HWSTATUS') - self._fieldnames = ['Vcc', 'I2Cerr'] - self.Vcc = Vcc - self.I2Cerr = I2Cerr - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 21, struct.pack('<HB', self.Vcc, self.I2Cerr)) - -class MAVLink_radio_message(MAVLink_message): - ''' - Status generated by radio - ''' - def __init__(self, rssi, remrssi, txbuf, noise, remnoise, rxerrors, fixed): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_RADIO, 'RADIO') - self._fieldnames = ['rssi', 'remrssi', 'txbuf', 'noise', 'remnoise', 'rxerrors', 'fixed'] - self.rssi = rssi - self.remrssi = remrssi - self.txbuf = txbuf - self.noise = noise - self.remnoise = remnoise - self.rxerrors = rxerrors - self.fixed = fixed - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 21, struct.pack('<HHBBBBB', self.rxerrors, self.fixed, self.rssi, self.remrssi, self.txbuf, self.noise, self.remnoise)) - -class MAVLink_heartbeat_message(MAVLink_message): - ''' - The heartbeat message shows that a system is present and - responding. The type of the MAV and Autopilot hardware allow - the receiving system to treat further messages from this - system appropriate (e.g. by laying out the user interface - based on the autopilot). - ''' - def __init__(self, type, autopilot, base_mode, custom_mode, system_status, mavlink_version): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_HEARTBEAT, 'HEARTBEAT') - self._fieldnames = ['type', 'autopilot', 'base_mode', 'custom_mode', 'system_status', 'mavlink_version'] - self.type = type - self.autopilot = autopilot - self.base_mode = base_mode - self.custom_mode = custom_mode - self.system_status = system_status - self.mavlink_version = mavlink_version - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 50, struct.pack('<IBBBBB', self.custom_mode, self.type, self.autopilot, self.base_mode, self.system_status, self.mavlink_version)) - -class MAVLink_sys_status_message(MAVLink_message): - ''' - The general system state. If the system is following the - MAVLink standard, the system state is mainly defined by three - orthogonal states/modes: The system mode, which is either - LOCKED (motors shut down and locked), MANUAL (system under RC - control), GUIDED (system with autonomous position control, - position setpoint controlled manually) or AUTO (system guided - by path/waypoint planner). The NAV_MODE defined the current - flight state: LIFTOFF (often an open-loop maneuver), LANDING, - WAYPOINTS or VECTOR. This represents the internal navigation - state machine. The system status shows wether the system is - currently active or not and if an emergency occured. During - the CRITICAL and EMERGENCY states the MAV is still considered - to be active, but should start emergency procedures - autonomously. After a failure occured it should first move - from active to critical to allow manual intervention and then - move to emergency after a certain timeout. - ''' - def __init__(self, onboard_control_sensors_present, onboard_control_sensors_enabled, onboard_control_sensors_health, load, voltage_battery, current_battery, battery_remaining, drop_rate_comm, errors_comm, errors_count1, errors_count2, errors_count3, errors_count4): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_SYS_STATUS, 'SYS_STATUS') - self._fieldnames = ['onboard_control_sensors_present', 'onboard_control_sensors_enabled', 'onboard_control_sensors_health', 'load', 'voltage_battery', 'current_battery', 'battery_remaining', 'drop_rate_comm', 'errors_comm', 'errors_count1', 'errors_count2', 'errors_count3', 'errors_count4'] - self.onboard_control_sensors_present = onboard_control_sensors_present - self.onboard_control_sensors_enabled = onboard_control_sensors_enabled - self.onboard_control_sensors_health = onboard_control_sensors_health - self.load = load - self.voltage_battery = voltage_battery - self.current_battery = current_battery - self.battery_remaining = battery_remaining - self.drop_rate_comm = drop_rate_comm - self.errors_comm = errors_comm - self.errors_count1 = errors_count1 - self.errors_count2 = errors_count2 - self.errors_count3 = errors_count3 - self.errors_count4 = errors_count4 - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 124, struct.pack('<IIIHHhHHHHHHb', self.onboard_control_sensors_present, self.onboard_control_sensors_enabled, self.onboard_control_sensors_health, self.load, self.voltage_battery, self.current_battery, self.drop_rate_comm, self.errors_comm, self.errors_count1, self.errors_count2, self.errors_count3, self.errors_count4, self.battery_remaining)) - -class MAVLink_system_time_message(MAVLink_message): - ''' - The system time is the time of the master clock, typically the - computer clock of the main onboard computer. - ''' - def __init__(self, time_unix_usec, time_boot_ms): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_SYSTEM_TIME, 'SYSTEM_TIME') - self._fieldnames = ['time_unix_usec', 'time_boot_ms'] - self.time_unix_usec = time_unix_usec - self.time_boot_ms = time_boot_ms - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 137, struct.pack('<QI', self.time_unix_usec, self.time_boot_ms)) - -class MAVLink_ping_message(MAVLink_message): - ''' - A ping message either requesting or responding to a ping. This - allows to measure the system latencies, including serial port, - radio modem and UDP connections. - ''' - def __init__(self, time_usec, seq, target_system, target_component): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_PING, 'PING') - self._fieldnames = ['time_usec', 'seq', 'target_system', 'target_component'] - self.time_usec = time_usec - self.seq = seq - self.target_system = target_system - self.target_component = target_component - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 237, struct.pack('<QIBB', self.time_usec, self.seq, self.target_system, self.target_component)) - -class MAVLink_change_operator_control_message(MAVLink_message): - ''' - Request to control this MAV - ''' - def __init__(self, target_system, control_request, version, passkey): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_CHANGE_OPERATOR_CONTROL, 'CHANGE_OPERATOR_CONTROL') - self._fieldnames = ['target_system', 'control_request', 'version', 'passkey'] - self.target_system = target_system - self.control_request = control_request - self.version = version - self.passkey = passkey - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 217, struct.pack('<BBB25s', self.target_system, self.control_request, self.version, self.passkey)) - -class MAVLink_change_operator_control_ack_message(MAVLink_message): - ''' - Accept / deny control of this MAV - ''' - def __init__(self, gcs_system_id, control_request, ack): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_CHANGE_OPERATOR_CONTROL_ACK, 'CHANGE_OPERATOR_CONTROL_ACK') - self._fieldnames = ['gcs_system_id', 'control_request', 'ack'] - self.gcs_system_id = gcs_system_id - self.control_request = control_request - self.ack = ack - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 104, struct.pack('<BBB', self.gcs_system_id, self.control_request, self.ack)) - -class MAVLink_auth_key_message(MAVLink_message): - ''' - Emit an encrypted signature / key identifying this system. - PLEASE NOTE: This protocol has been kept simple, so - transmitting the key requires an encrypted channel for true - safety. - ''' - def __init__(self, key): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_AUTH_KEY, 'AUTH_KEY') - self._fieldnames = ['key'] - self.key = key - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 119, struct.pack('<32s', self.key)) - -class MAVLink_set_mode_message(MAVLink_message): - ''' - Set the system mode, as defined by enum MAV_MODE. There is no - target component id as the mode is by definition for the - overall aircraft, not only for one component. - ''' - def __init__(self, target_system, base_mode, custom_mode): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_SET_MODE, 'SET_MODE') - self._fieldnames = ['target_system', 'base_mode', 'custom_mode'] - self.target_system = target_system - self.base_mode = base_mode - self.custom_mode = custom_mode - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 89, struct.pack('<IBB', self.custom_mode, self.target_system, self.base_mode)) - -class MAVLink_param_request_read_message(MAVLink_message): - ''' - Request to read the onboard parameter with the param_id string - id. Onboard parameters are stored as key[const char*] -> - value[float]. This allows to send a parameter to any other - component (such as the GCS) without the need of previous - knowledge of possible parameter names. Thus the same GCS can - store different parameters for different autopilots. See also - http://qgroundcontrol.org/parameter_interface for a full - documentation of QGroundControl and IMU code. - ''' - def __init__(self, target_system, target_component, param_id, param_index): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_PARAM_REQUEST_READ, 'PARAM_REQUEST_READ') - self._fieldnames = ['target_system', 'target_component', 'param_id', 'param_index'] - self.target_system = target_system - self.target_component = target_component - self.param_id = param_id - self.param_index = param_index - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 214, struct.pack('<hBB16s', self.param_index, self.target_system, self.target_component, self.param_id)) - -class MAVLink_param_request_list_message(MAVLink_message): - ''' - Request all parameters of this component. After his request, - all parameters are emitted. - ''' - def __init__(self, target_system, target_component): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_PARAM_REQUEST_LIST, 'PARAM_REQUEST_LIST') - self._fieldnames = ['target_system', 'target_component'] - self.target_system = target_system - self.target_component = target_component - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 159, struct.pack('<BB', self.target_system, self.target_component)) - -class MAVLink_param_value_message(MAVLink_message): - ''' - Emit the value of a onboard parameter. The inclusion of - param_count and param_index in the message allows the - recipient to keep track of received parameters and allows him - to re-request missing parameters after a loss or timeout. - ''' - def __init__(self, param_id, param_value, param_type, param_count, param_index): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_PARAM_VALUE, 'PARAM_VALUE') - self._fieldnames = ['param_id', 'param_value', 'param_type', 'param_count', 'param_index'] - self.param_id = param_id - self.param_value = param_value - self.param_type = param_type - self.param_count = param_count - self.param_index = param_index - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 220, struct.pack('<fHH16sB', self.param_value, self.param_count, self.param_index, self.param_id, self.param_type)) - -class MAVLink_param_set_message(MAVLink_message): - ''' - Set a parameter value TEMPORARILY to RAM. It will be reset to - default on system reboot. Send the ACTION - MAV_ACTION_STORAGE_WRITE to PERMANENTLY write the RAM contents - to EEPROM. IMPORTANT: The receiving component should - acknowledge the new parameter value by sending a param_value - message to all communication partners. This will also ensure - that multiple GCS all have an up-to-date list of all - parameters. If the sending GCS did not receive a PARAM_VALUE - message within its timeout time, it should re-send the - PARAM_SET message. - ''' - def __init__(self, target_system, target_component, param_id, param_value, param_type): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_PARAM_SET, 'PARAM_SET') - self._fieldnames = ['target_system', 'target_component', 'param_id', 'param_value', 'param_type'] - self.target_system = target_system - self.target_component = target_component - self.param_id = param_id - self.param_value = param_value - self.param_type = param_type - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 168, struct.pack('<fBB16sB', self.param_value, self.target_system, self.target_component, self.param_id, self.param_type)) - -class MAVLink_gps_raw_int_message(MAVLink_message): - ''' - The global position, as returned by the Global Positioning - System (GPS). This is NOT the global position - estimate of the sytem, but rather a RAW sensor value. See - message GLOBAL_POSITION for the global position estimate. - Coordinate frame is right-handed, Z-axis up (GPS frame) - ''' - def __init__(self, time_usec, fix_type, lat, lon, alt, eph, epv, vel, cog, satellites_visible): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_GPS_RAW_INT, 'GPS_RAW_INT') - self._fieldnames = ['time_usec', 'fix_type', 'lat', 'lon', 'alt', 'eph', 'epv', 'vel', 'cog', 'satellites_visible'] - self.time_usec = time_usec - self.fix_type = fix_type - self.lat = lat - self.lon = lon - self.alt = alt - self.eph = eph - self.epv = epv - self.vel = vel - self.cog = cog - self.satellites_visible = satellites_visible - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 24, struct.pack('<QiiiHHHHBB', self.time_usec, self.lat, self.lon, self.alt, self.eph, self.epv, self.vel, self.cog, self.fix_type, self.satellites_visible)) - -class MAVLink_gps_status_message(MAVLink_message): - ''' - The positioning status, as reported by GPS. This message is - intended to display status information about each satellite - visible to the receiver. See message GLOBAL_POSITION for the - global position estimate. This message can contain information - for up to 20 satellites. - ''' - def __init__(self, satellites_visible, satellite_prn, satellite_used, satellite_elevation, satellite_azimuth, satellite_snr): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_GPS_STATUS, 'GPS_STATUS') - self._fieldnames = ['satellites_visible', 'satellite_prn', 'satellite_used', 'satellite_elevation', 'satellite_azimuth', 'satellite_snr'] - self.satellites_visible = satellites_visible - self.satellite_prn = satellite_prn - self.satellite_used = satellite_used - self.satellite_elevation = satellite_elevation - self.satellite_azimuth = satellite_azimuth - self.satellite_snr = satellite_snr - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 23, struct.pack('<B20s20s20s20s20s', self.satellites_visible, self.satellite_prn, self.satellite_used, self.satellite_elevation, self.satellite_azimuth, self.satellite_snr)) - -class MAVLink_scaled_imu_message(MAVLink_message): - ''' - The RAW IMU readings for the usual 9DOF sensor setup. This - message should contain the scaled values to the described - units - ''' - def __init__(self, time_boot_ms, xacc, yacc, zacc, xgyro, ygyro, zgyro, xmag, ymag, zmag): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_SCALED_IMU, 'SCALED_IMU') - self._fieldnames = ['time_boot_ms', 'xacc', 'yacc', 'zacc', 'xgyro', 'ygyro', 'zgyro', 'xmag', 'ymag', 'zmag'] - self.time_boot_ms = time_boot_ms - self.xacc = xacc - self.yacc = yacc - self.zacc = zacc - self.xgyro = xgyro - self.ygyro = ygyro - self.zgyro = zgyro - self.xmag = xmag - self.ymag = ymag - self.zmag = zmag - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 170, struct.pack('<Ihhhhhhhhh', self.time_boot_ms, self.xacc, self.yacc, self.zacc, self.xgyro, self.ygyro, self.zgyro, self.xmag, self.ymag, self.zmag)) - -class MAVLink_raw_imu_message(MAVLink_message): - ''' - The RAW IMU readings for the usual 9DOF sensor setup. This - message should always contain the true raw values without any - scaling to allow data capture and system debugging. - ''' - def __init__(self, time_usec, xacc, yacc, zacc, xgyro, ygyro, zgyro, xmag, ymag, zmag): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_RAW_IMU, 'RAW_IMU') - self._fieldnames = ['time_usec', 'xacc', 'yacc', 'zacc', 'xgyro', 'ygyro', 'zgyro', 'xmag', 'ymag', 'zmag'] - self.time_usec = time_usec - self.xacc = xacc - self.yacc = yacc - self.zacc = zacc - self.xgyro = xgyro - self.ygyro = ygyro - self.zgyro = zgyro - self.xmag = xmag - self.ymag = ymag - self.zmag = zmag - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 144, struct.pack('<Qhhhhhhhhh', self.time_usec, self.xacc, self.yacc, self.zacc, self.xgyro, self.ygyro, self.zgyro, self.xmag, self.ymag, self.zmag)) - -class MAVLink_raw_pressure_message(MAVLink_message): - ''' - The RAW pressure readings for the typical setup of one - absolute pressure and one differential pressure sensor. The - sensor values should be the raw, UNSCALED ADC values. - ''' - def __init__(self, time_usec, press_abs, press_diff1, press_diff2, temperature): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_RAW_PRESSURE, 'RAW_PRESSURE') - self._fieldnames = ['time_usec', 'press_abs', 'press_diff1', 'press_diff2', 'temperature'] - self.time_usec = time_usec - self.press_abs = press_abs - self.press_diff1 = press_diff1 - self.press_diff2 = press_diff2 - self.temperature = temperature - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 67, struct.pack('<Qhhhh', self.time_usec, self.press_abs, self.press_diff1, self.press_diff2, self.temperature)) - -class MAVLink_scaled_pressure_message(MAVLink_message): - ''' - The pressure readings for the typical setup of one absolute - and differential pressure sensor. The units are as specified - in each field. - ''' - def __init__(self, time_boot_ms, press_abs, press_diff, temperature): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_SCALED_PRESSURE, 'SCALED_PRESSURE') - self._fieldnames = ['time_boot_ms', 'press_abs', 'press_diff', 'temperature'] - self.time_boot_ms = time_boot_ms - self.press_abs = press_abs - self.press_diff = press_diff - self.temperature = temperature - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 115, struct.pack('<Iffh', self.time_boot_ms, self.press_abs, self.press_diff, self.temperature)) - -class MAVLink_attitude_message(MAVLink_message): - ''' - The attitude in the aeronautical frame (right-handed, Z-down, - X-front, Y-right). - ''' - def __init__(self, time_boot_ms, roll, pitch, yaw, rollspeed, pitchspeed, yawspeed): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_ATTITUDE, 'ATTITUDE') - self._fieldnames = ['time_boot_ms', 'roll', 'pitch', 'yaw', 'rollspeed', 'pitchspeed', 'yawspeed'] - self.time_boot_ms = time_boot_ms - self.roll = roll - self.pitch = pitch - self.yaw = yaw - self.rollspeed = rollspeed - self.pitchspeed = pitchspeed - self.yawspeed = yawspeed - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 39, struct.pack('<Iffffff', self.time_boot_ms, self.roll, self.pitch, self.yaw, self.rollspeed, self.pitchspeed, self.yawspeed)) - -class MAVLink_attitude_quaternion_message(MAVLink_message): - ''' - The attitude in the aeronautical frame (right-handed, Z-down, - X-front, Y-right), expressed as quaternion. - ''' - def __init__(self, time_boot_ms, q1, q2, q3, q4, rollspeed, pitchspeed, yawspeed): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_ATTITUDE_QUATERNION, 'ATTITUDE_QUATERNION') - self._fieldnames = ['time_boot_ms', 'q1', 'q2', 'q3', 'q4', 'rollspeed', 'pitchspeed', 'yawspeed'] - self.time_boot_ms = time_boot_ms - self.q1 = q1 - self.q2 = q2 - self.q3 = q3 - self.q4 = q4 - self.rollspeed = rollspeed - self.pitchspeed = pitchspeed - self.yawspeed = yawspeed - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 246, struct.pack('<Ifffffff', self.time_boot_ms, self.q1, self.q2, self.q3, self.q4, self.rollspeed, self.pitchspeed, self.yawspeed)) - -class MAVLink_local_position_ned_message(MAVLink_message): - ''' - The filtered local position (e.g. fused computer vision and - accelerometers). Coordinate frame is right-handed, Z-axis down - (aeronautical frame, NED / north-east-down convention) - ''' - def __init__(self, time_boot_ms, x, y, z, vx, vy, vz): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_LOCAL_POSITION_NED, 'LOCAL_POSITION_NED') - self._fieldnames = ['time_boot_ms', 'x', 'y', 'z', 'vx', 'vy', 'vz'] - self.time_boot_ms = time_boot_ms - self.x = x - self.y = y - self.z = z - self.vx = vx - self.vy = vy - self.vz = vz - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 185, struct.pack('<Iffffff', self.time_boot_ms, self.x, self.y, self.z, self.vx, self.vy, self.vz)) - -class MAVLink_global_position_int_message(MAVLink_message): - ''' - The filtered global position (e.g. fused GPS and - accelerometers). The position is in GPS-frame (right-handed, - Z-up). It is designed as scaled integer message - since the resolution of float is not sufficient. - ''' - def __init__(self, time_boot_ms, lat, lon, alt, relative_alt, vx, vy, vz, hdg): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_GLOBAL_POSITION_INT, 'GLOBAL_POSITION_INT') - self._fieldnames = ['time_boot_ms', 'lat', 'lon', 'alt', 'relative_alt', 'vx', 'vy', 'vz', 'hdg'] - self.time_boot_ms = time_boot_ms - self.lat = lat - self.lon = lon - self.alt = alt - self.relative_alt = relative_alt - self.vx = vx - self.vy = vy - self.vz = vz - self.hdg = hdg - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 104, struct.pack('<IiiiihhhH', self.time_boot_ms, self.lat, self.lon, self.alt, self.relative_alt, self.vx, self.vy, self.vz, self.hdg)) - -class MAVLink_rc_channels_scaled_message(MAVLink_message): - ''' - The scaled values of the RC channels received. (-100%) -10000, - (0%) 0, (100%) 10000 - ''' - def __init__(self, time_boot_ms, port, chan1_scaled, chan2_scaled, chan3_scaled, chan4_scaled, chan5_scaled, chan6_scaled, chan7_scaled, chan8_scaled, rssi): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_RC_CHANNELS_SCALED, 'RC_CHANNELS_SCALED') - self._fieldnames = ['time_boot_ms', 'port', 'chan1_scaled', 'chan2_scaled', 'chan3_scaled', 'chan4_scaled', 'chan5_scaled', 'chan6_scaled', 'chan7_scaled', 'chan8_scaled', 'rssi'] - self.time_boot_ms = time_boot_ms - self.port = port - self.chan1_scaled = chan1_scaled - self.chan2_scaled = chan2_scaled - self.chan3_scaled = chan3_scaled - self.chan4_scaled = chan4_scaled - self.chan5_scaled = chan5_scaled - self.chan6_scaled = chan6_scaled - self.chan7_scaled = chan7_scaled - self.chan8_scaled = chan8_scaled - self.rssi = rssi - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 237, struct.pack('<IhhhhhhhhBB', self.time_boot_ms, self.chan1_scaled, self.chan2_scaled, self.chan3_scaled, self.chan4_scaled, self.chan5_scaled, self.chan6_scaled, self.chan7_scaled, self.chan8_scaled, self.port, self.rssi)) - -class MAVLink_rc_channels_raw_message(MAVLink_message): - ''' - The RAW values of the RC channels received. The standard PPM - modulation is as follows: 1000 microseconds: 0%, 2000 - microseconds: 100%. Individual receivers/transmitters might - violate this specification. - ''' - def __init__(self, time_boot_ms, port, chan1_raw, chan2_raw, chan3_raw, chan4_raw, chan5_raw, chan6_raw, chan7_raw, chan8_raw, rssi): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_RC_CHANNELS_RAW, 'RC_CHANNELS_RAW') - self._fieldnames = ['time_boot_ms', 'port', 'chan1_raw', 'chan2_raw', 'chan3_raw', 'chan4_raw', 'chan5_raw', 'chan6_raw', 'chan7_raw', 'chan8_raw', 'rssi'] - self.time_boot_ms = time_boot_ms - self.port = port - self.chan1_raw = chan1_raw - self.chan2_raw = chan2_raw - self.chan3_raw = chan3_raw - self.chan4_raw = chan4_raw - self.chan5_raw = chan5_raw - self.chan6_raw = chan6_raw - self.chan7_raw = chan7_raw - self.chan8_raw = chan8_raw - self.rssi = rssi - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 244, struct.pack('<IHHHHHHHHBB', self.time_boot_ms, self.chan1_raw, self.chan2_raw, self.chan3_raw, self.chan4_raw, self.chan5_raw, self.chan6_raw, self.chan7_raw, self.chan8_raw, self.port, self.rssi)) - -class MAVLink_servo_output_raw_message(MAVLink_message): - ''' - The RAW values of the servo outputs (for RC input from the - remote, use the RC_CHANNELS messages). The standard PPM - modulation is as follows: 1000 microseconds: 0%, 2000 - microseconds: 100%. - ''' - def __init__(self, time_usec, port, servo1_raw, servo2_raw, servo3_raw, servo4_raw, servo5_raw, servo6_raw, servo7_raw, servo8_raw): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_SERVO_OUTPUT_RAW, 'SERVO_OUTPUT_RAW') - self._fieldnames = ['time_usec', 'port', 'servo1_raw', 'servo2_raw', 'servo3_raw', 'servo4_raw', 'servo5_raw', 'servo6_raw', 'servo7_raw', 'servo8_raw'] - self.time_usec = time_usec - self.port = port - self.servo1_raw = servo1_raw - self.servo2_raw = servo2_raw - self.servo3_raw = servo3_raw - self.servo4_raw = servo4_raw - self.servo5_raw = servo5_raw - self.servo6_raw = servo6_raw - self.servo7_raw = servo7_raw - self.servo8_raw = servo8_raw - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 222, struct.pack('<IHHHHHHHHB', self.time_usec, self.servo1_raw, self.servo2_raw, self.servo3_raw, self.servo4_raw, self.servo5_raw, self.servo6_raw, self.servo7_raw, self.servo8_raw, self.port)) - -class MAVLink_mission_request_partial_list_message(MAVLink_message): - ''' - Request the overall list of MISSIONs from the - system/component. - http://qgroundcontrol.org/mavlink/waypoint_protocol - ''' - def __init__(self, target_system, target_component, start_index, end_index): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_MISSION_REQUEST_PARTIAL_LIST, 'MISSION_REQUEST_PARTIAL_LIST') - self._fieldnames = ['target_system', 'target_component', 'start_index', 'end_index'] - self.target_system = target_system - self.target_component = target_component - self.start_index = start_index - self.end_index = end_index - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 212, struct.pack('<hhBB', self.start_index, self.end_index, self.target_system, self.target_component)) - -class MAVLink_mission_write_partial_list_message(MAVLink_message): - ''' - This message is sent to the MAV to write a partial list. If - start index == end index, only one item will be transmitted / - updated. If the start index is NOT 0 and above the current - list size, this request should be REJECTED! - ''' - def __init__(self, target_system, target_component, start_index, end_index): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_MISSION_WRITE_PARTIAL_LIST, 'MISSION_WRITE_PARTIAL_LIST') - self._fieldnames = ['target_system', 'target_component', 'start_index', 'end_index'] - self.target_system = target_system - self.target_component = target_component - self.start_index = start_index - self.end_index = end_index - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 9, struct.pack('<hhBB', self.start_index, self.end_index, self.target_system, self.target_component)) - -class MAVLink_mission_item_message(MAVLink_message): - ''' - Message encoding a mission item. This message is emitted to - announce the presence of a mission item and to - set a mission item on the system. The mission item can be - either in x, y, z meters (type: LOCAL) or x:lat, y:lon, - z:altitude. Local frame is Z-down, right handed (NED), global - frame is Z-up, right handed (ENU). - http://qgroundcontrol.org/mavlink/waypoint_protocol - ''' - def __init__(self, target_system, target_component, seq, frame, command, current, autocontinue, param1, param2, param3, param4, x, y, z): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_MISSION_ITEM, 'MISSION_ITEM') - self._fieldnames = ['target_system', 'target_component', 'seq', 'frame', 'command', 'current', 'autocontinue', 'param1', 'param2', 'param3', 'param4', 'x', 'y', 'z'] - self.target_system = target_system - self.target_component = target_component - self.seq = seq - self.frame = frame - self.command = command - self.current = current - self.autocontinue = autocontinue - self.param1 = param1 - self.param2 = param2 - self.param3 = param3 - self.param4 = param4 - self.x = x - self.y = y - self.z = z - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 254, struct.pack('<fffffffHHBBBBB', self.param1, self.param2, self.param3, self.param4, self.x, self.y, self.z, self.seq, self.command, self.target_system, self.target_component, self.frame, self.current, self.autocontinue)) - -class MAVLink_mission_request_message(MAVLink_message): - ''' - Request the information of the mission item with the sequence - number seq. The response of the system to this message should - be a MISSION_ITEM message. - http://qgroundcontrol.org/mavlink/waypoint_protocol - ''' - def __init__(self, target_system, target_component, seq): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_MISSION_REQUEST, 'MISSION_REQUEST') - self._fieldnames = ['target_system', 'target_component', 'seq'] - self.target_system = target_system - self.target_component = target_component - self.seq = seq - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 230, struct.pack('<HBB', self.seq, self.target_system, self.target_component)) - -class MAVLink_mission_set_current_message(MAVLink_message): - ''' - Set the mission item with sequence number seq as current item. - This means that the MAV will continue to this mission item on - the shortest path (not following the mission items in- - between). - ''' - def __init__(self, target_system, target_component, seq): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_MISSION_SET_CURRENT, 'MISSION_SET_CURRENT') - self._fieldnames = ['target_system', 'target_component', 'seq'] - self.target_system = target_system - self.target_component = target_component - self.seq = seq - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 28, struct.pack('<HBB', self.seq, self.target_system, self.target_component)) - -class MAVLink_mission_current_message(MAVLink_message): - ''' - Message that announces the sequence number of the current - active mission item. The MAV will fly towards this mission - item. - ''' - def __init__(self, seq): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_MISSION_CURRENT, 'MISSION_CURRENT') - self._fieldnames = ['seq'] - self.seq = seq - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 28, struct.pack('<H', self.seq)) - -class MAVLink_mission_request_list_message(MAVLink_message): - ''' - Request the overall list of mission items from the - system/component. - ''' - def __init__(self, target_system, target_component): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_MISSION_REQUEST_LIST, 'MISSION_REQUEST_LIST') - self._fieldnames = ['target_system', 'target_component'] - self.target_system = target_system - self.target_component = target_component - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 132, struct.pack('<BB', self.target_system, self.target_component)) - -class MAVLink_mission_count_message(MAVLink_message): - ''' - This message is emitted as response to MISSION_REQUEST_LIST by - the MAV and to initiate a write transaction. The GCS can then - request the individual mission item based on the knowledge of - the total number of MISSIONs. - ''' - def __init__(self, target_system, target_component, count): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_MISSION_COUNT, 'MISSION_COUNT') - self._fieldnames = ['target_system', 'target_component', 'count'] - self.target_system = target_system - self.target_component = target_component - self.count = count - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 221, struct.pack('<HBB', self.count, self.target_system, self.target_component)) - -class MAVLink_mission_clear_all_message(MAVLink_message): - ''' - Delete all mission items at once. - ''' - def __init__(self, target_system, target_component): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_MISSION_CLEAR_ALL, 'MISSION_CLEAR_ALL') - self._fieldnames = ['target_system', 'target_component'] - self.target_system = target_system - self.target_component = target_component - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 232, struct.pack('<BB', self.target_system, self.target_component)) - -class MAVLink_mission_item_reached_message(MAVLink_message): - ''' - A certain mission item has been reached. The system will - either hold this position (or circle on the orbit) or (if the - autocontinue on the WP was set) continue to the next MISSION. - ''' - def __init__(self, seq): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_MISSION_ITEM_REACHED, 'MISSION_ITEM_REACHED') - self._fieldnames = ['seq'] - self.seq = seq - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 11, struct.pack('<H', self.seq)) - -class MAVLink_mission_ack_message(MAVLink_message): - ''' - Ack message during MISSION handling. The type field states if - this message is a positive ack (type=0) or if an error - happened (type=non-zero). - ''' - def __init__(self, target_system, target_component, type): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_MISSION_ACK, 'MISSION_ACK') - self._fieldnames = ['target_system', 'target_component', 'type'] - self.target_system = target_system - self.target_component = target_component - self.type = type - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 153, struct.pack('<BBB', self.target_system, self.target_component, self.type)) - -class MAVLink_set_gps_global_origin_message(MAVLink_message): - ''' - As local MISSIONs exist, the global MISSION reference allows - to transform between the local coordinate frame and the global - (GPS) coordinate frame. This can be necessary when e.g. in- - and outdoor settings are connected and the MAV should move - from in- to outdoor. - ''' - def __init__(self, target_system, latitude, longitude, altitude): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_SET_GPS_GLOBAL_ORIGIN, 'SET_GPS_GLOBAL_ORIGIN') - self._fieldnames = ['target_system', 'latitude', 'longitude', 'altitude'] - self.target_system = target_system - self.latitude = latitude - self.longitude = longitude - self.altitude = altitude - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 41, struct.pack('<iiiB', self.latitude, self.longitude, self.altitude, self.target_system)) - -class MAVLink_gps_global_origin_message(MAVLink_message): - ''' - Once the MAV sets a new GPS-Local correspondence, this message - announces the origin (0,0,0) position - ''' - def __init__(self, latitude, longitude, altitude): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_GPS_GLOBAL_ORIGIN, 'GPS_GLOBAL_ORIGIN') - self._fieldnames = ['latitude', 'longitude', 'altitude'] - self.latitude = latitude - self.longitude = longitude - self.altitude = altitude - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 39, struct.pack('<iii', self.latitude, self.longitude, self.altitude)) - -class MAVLink_set_local_position_setpoint_message(MAVLink_message): - ''' - Set the setpoint for a local position controller. This is the - position in local coordinates the MAV should fly to. This - message is sent by the path/MISSION planner to the onboard - position controller. As some MAVs have a degree of freedom in - yaw (e.g. all helicopters/quadrotors), the desired yaw angle - is part of the message. - ''' - def __init__(self, target_system, target_component, coordinate_frame, x, y, z, yaw): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_SET_LOCAL_POSITION_SETPOINT, 'SET_LOCAL_POSITION_SETPOINT') - self._fieldnames = ['target_system', 'target_component', 'coordinate_frame', 'x', 'y', 'z', 'yaw'] - self.target_system = target_system - self.target_component = target_component - self.coordinate_frame = coordinate_frame - self.x = x - self.y = y - self.z = z - self.yaw = yaw - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 214, struct.pack('<ffffBBB', self.x, self.y, self.z, self.yaw, self.target_system, self.target_component, self.coordinate_frame)) - -class MAVLink_local_position_setpoint_message(MAVLink_message): - ''' - Transmit the current local setpoint of the controller to other - MAVs (collision avoidance) and to the GCS. - ''' - def __init__(self, coordinate_frame, x, y, z, yaw): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_LOCAL_POSITION_SETPOINT, 'LOCAL_POSITION_SETPOINT') - self._fieldnames = ['coordinate_frame', 'x', 'y', 'z', 'yaw'] - self.coordinate_frame = coordinate_frame - self.x = x - self.y = y - self.z = z - self.yaw = yaw - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 223, struct.pack('<ffffB', self.x, self.y, self.z, self.yaw, self.coordinate_frame)) - -class MAVLink_global_position_setpoint_int_message(MAVLink_message): - ''' - Transmit the current local setpoint of the controller to other - MAVs (collision avoidance) and to the GCS. - ''' - def __init__(self, coordinate_frame, latitude, longitude, altitude, yaw): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_GLOBAL_POSITION_SETPOINT_INT, 'GLOBAL_POSITION_SETPOINT_INT') - self._fieldnames = ['coordinate_frame', 'latitude', 'longitude', 'altitude', 'yaw'] - self.coordinate_frame = coordinate_frame - self.latitude = latitude - self.longitude = longitude - self.altitude = altitude - self.yaw = yaw - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 141, struct.pack('<iiihB', self.latitude, self.longitude, self.altitude, self.yaw, self.coordinate_frame)) - -class MAVLink_set_global_position_setpoint_int_message(MAVLink_message): - ''' - Set the current global position setpoint. - ''' - def __init__(self, coordinate_frame, latitude, longitude, altitude, yaw): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_SET_GLOBAL_POSITION_SETPOINT_INT, 'SET_GLOBAL_POSITION_SETPOINT_INT') - self._fieldnames = ['coordinate_frame', 'latitude', 'longitude', 'altitude', 'yaw'] - self.coordinate_frame = coordinate_frame - self.latitude = latitude - self.longitude = longitude - self.altitude = altitude - self.yaw = yaw - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 33, struct.pack('<iiihB', self.latitude, self.longitude, self.altitude, self.yaw, self.coordinate_frame)) - -class MAVLink_safety_set_allowed_area_message(MAVLink_message): - ''' - Set a safety zone (volume), which is defined by two corners of - a cube. This message can be used to tell the MAV which - setpoints/MISSIONs to accept and which to reject. Safety areas - are often enforced by national or competition regulations. - ''' - def __init__(self, target_system, target_component, frame, p1x, p1y, p1z, p2x, p2y, p2z): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_SAFETY_SET_ALLOWED_AREA, 'SAFETY_SET_ALLOWED_AREA') - self._fieldnames = ['target_system', 'target_component', 'frame', 'p1x', 'p1y', 'p1z', 'p2x', 'p2y', 'p2z'] - self.target_system = target_system - self.target_component = target_component - self.frame = frame - self.p1x = p1x - self.p1y = p1y - self.p1z = p1z - self.p2x = p2x - self.p2y = p2y - self.p2z = p2z - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 15, struct.pack('<ffffffBBB', self.p1x, self.p1y, self.p1z, self.p2x, self.p2y, self.p2z, self.target_system, self.target_component, self.frame)) - -class MAVLink_safety_allowed_area_message(MAVLink_message): - ''' - Read out the safety zone the MAV currently assumes. - ''' - def __init__(self, frame, p1x, p1y, p1z, p2x, p2y, p2z): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_SAFETY_ALLOWED_AREA, 'SAFETY_ALLOWED_AREA') - self._fieldnames = ['frame', 'p1x', 'p1y', 'p1z', 'p2x', 'p2y', 'p2z'] - self.frame = frame - self.p1x = p1x - self.p1y = p1y - self.p1z = p1z - self.p2x = p2x - self.p2y = p2y - self.p2z = p2z - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 3, struct.pack('<ffffffB', self.p1x, self.p1y, self.p1z, self.p2x, self.p2y, self.p2z, self.frame)) - -class MAVLink_set_roll_pitch_yaw_thrust_message(MAVLink_message): - ''' - Set roll, pitch and yaw. - ''' - def __init__(self, target_system, target_component, roll, pitch, yaw, thrust): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_SET_ROLL_PITCH_YAW_THRUST, 'SET_ROLL_PITCH_YAW_THRUST') - self._fieldnames = ['target_system', 'target_component', 'roll', 'pitch', 'yaw', 'thrust'] - self.target_system = target_system - self.target_component = target_component - self.roll = roll - self.pitch = pitch - self.yaw = yaw - self.thrust = thrust - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 100, struct.pack('<ffffBB', self.roll, self.pitch, self.yaw, self.thrust, self.target_system, self.target_component)) - -class MAVLink_set_roll_pitch_yaw_speed_thrust_message(MAVLink_message): - ''' - Set roll, pitch and yaw. - ''' - def __init__(self, target_system, target_component, roll_speed, pitch_speed, yaw_speed, thrust): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_SET_ROLL_PITCH_YAW_SPEED_THRUST, 'SET_ROLL_PITCH_YAW_SPEED_THRUST') - self._fieldnames = ['target_system', 'target_component', 'roll_speed', 'pitch_speed', 'yaw_speed', 'thrust'] - self.target_system = target_system - self.target_component = target_component - self.roll_speed = roll_speed - self.pitch_speed = pitch_speed - self.yaw_speed = yaw_speed - self.thrust = thrust - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 24, struct.pack('<ffffBB', self.roll_speed, self.pitch_speed, self.yaw_speed, self.thrust, self.target_system, self.target_component)) - -class MAVLink_roll_pitch_yaw_thrust_setpoint_message(MAVLink_message): - ''' - Setpoint in roll, pitch, yaw currently active on the system. - ''' - def __init__(self, time_boot_ms, roll, pitch, yaw, thrust): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_ROLL_PITCH_YAW_THRUST_SETPOINT, 'ROLL_PITCH_YAW_THRUST_SETPOINT') - self._fieldnames = ['time_boot_ms', 'roll', 'pitch', 'yaw', 'thrust'] - self.time_boot_ms = time_boot_ms - self.roll = roll - self.pitch = pitch - self.yaw = yaw - self.thrust = thrust - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 239, struct.pack('<Iffff', self.time_boot_ms, self.roll, self.pitch, self.yaw, self.thrust)) - -class MAVLink_roll_pitch_yaw_speed_thrust_setpoint_message(MAVLink_message): - ''' - Setpoint in rollspeed, pitchspeed, yawspeed currently active - on the system. - ''' - def __init__(self, time_boot_ms, roll_speed, pitch_speed, yaw_speed, thrust): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_ROLL_PITCH_YAW_SPEED_THRUST_SETPOINT, 'ROLL_PITCH_YAW_SPEED_THRUST_SETPOINT') - self._fieldnames = ['time_boot_ms', 'roll_speed', 'pitch_speed', 'yaw_speed', 'thrust'] - self.time_boot_ms = time_boot_ms - self.roll_speed = roll_speed - self.pitch_speed = pitch_speed - self.yaw_speed = yaw_speed - self.thrust = thrust - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 238, struct.pack('<Iffff', self.time_boot_ms, self.roll_speed, self.pitch_speed, self.yaw_speed, self.thrust)) - -class MAVLink_nav_controller_output_message(MAVLink_message): - ''' - Outputs of the APM navigation controller. The primary use of - this message is to check the response and signs - of the controller before actual flight and to assist with - tuning controller parameters - ''' - def __init__(self, nav_roll, nav_pitch, nav_bearing, target_bearing, wp_dist, alt_error, aspd_error, xtrack_error): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_NAV_CONTROLLER_OUTPUT, 'NAV_CONTROLLER_OUTPUT') - self._fieldnames = ['nav_roll', 'nav_pitch', 'nav_bearing', 'target_bearing', 'wp_dist', 'alt_error', 'aspd_error', 'xtrack_error'] - self.nav_roll = nav_roll - self.nav_pitch = nav_pitch - self.nav_bearing = nav_bearing - self.target_bearing = target_bearing - self.wp_dist = wp_dist - self.alt_error = alt_error - self.aspd_error = aspd_error - self.xtrack_error = xtrack_error - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 183, struct.pack('<fffffhhH', self.nav_roll, self.nav_pitch, self.alt_error, self.aspd_error, self.xtrack_error, self.nav_bearing, self.target_bearing, self.wp_dist)) - -class MAVLink_state_correction_message(MAVLink_message): - ''' - Corrects the systems state by adding an error correction term - to the position and velocity, and by rotating the attitude by - a correction angle. - ''' - def __init__(self, xErr, yErr, zErr, rollErr, pitchErr, yawErr, vxErr, vyErr, vzErr): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_STATE_CORRECTION, 'STATE_CORRECTION') - self._fieldnames = ['xErr', 'yErr', 'zErr', 'rollErr', 'pitchErr', 'yawErr', 'vxErr', 'vyErr', 'vzErr'] - self.xErr = xErr - self.yErr = yErr - self.zErr = zErr - self.rollErr = rollErr - self.pitchErr = pitchErr - self.yawErr = yawErr - self.vxErr = vxErr - self.vyErr = vyErr - self.vzErr = vzErr - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 130, struct.pack('<fffffffff', self.xErr, self.yErr, self.zErr, self.rollErr, self.pitchErr, self.yawErr, self.vxErr, self.vyErr, self.vzErr)) - -class MAVLink_request_data_stream_message(MAVLink_message): - ''' - - ''' - def __init__(self, target_system, target_component, req_stream_id, req_message_rate, start_stop): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_REQUEST_DATA_STREAM, 'REQUEST_DATA_STREAM') - self._fieldnames = ['target_system', 'target_component', 'req_stream_id', 'req_message_rate', 'start_stop'] - self.target_system = target_system - self.target_component = target_component - self.req_stream_id = req_stream_id - self.req_message_rate = req_message_rate - self.start_stop = start_stop - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 148, struct.pack('<HBBBB', self.req_message_rate, self.target_system, self.target_component, self.req_stream_id, self.start_stop)) - -class MAVLink_data_stream_message(MAVLink_message): - ''' - - ''' - def __init__(self, stream_id, message_rate, on_off): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_DATA_STREAM, 'DATA_STREAM') - self._fieldnames = ['stream_id', 'message_rate', 'on_off'] - self.stream_id = stream_id - self.message_rate = message_rate - self.on_off = on_off - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 21, struct.pack('<HBB', self.message_rate, self.stream_id, self.on_off)) - -class MAVLink_manual_control_message(MAVLink_message): - ''' - - ''' - def __init__(self, target, roll, pitch, yaw, thrust, roll_manual, pitch_manual, yaw_manual, thrust_manual): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_MANUAL_CONTROL, 'MANUAL_CONTROL') - self._fieldnames = ['target', 'roll', 'pitch', 'yaw', 'thrust', 'roll_manual', 'pitch_manual', 'yaw_manual', 'thrust_manual'] - self.target = target - self.roll = roll - self.pitch = pitch - self.yaw = yaw - self.thrust = thrust - self.roll_manual = roll_manual - self.pitch_manual = pitch_manual - self.yaw_manual = yaw_manual - self.thrust_manual = thrust_manual - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 52, struct.pack('<ffffBBBBB', self.roll, self.pitch, self.yaw, self.thrust, self.target, self.roll_manual, self.pitch_manual, self.yaw_manual, self.thrust_manual)) - -class MAVLink_rc_channels_override_message(MAVLink_message): - ''' - The RAW values of the RC channels sent to the MAV to override - info received from the RC radio. A value of -1 means no change - to that channel. A value of 0 means control of that channel - should be released back to the RC radio. The standard PPM - modulation is as follows: 1000 microseconds: 0%, 2000 - microseconds: 100%. Individual receivers/transmitters might - violate this specification. - ''' - def __init__(self, target_system, target_component, chan1_raw, chan2_raw, chan3_raw, chan4_raw, chan5_raw, chan6_raw, chan7_raw, chan8_raw): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_RC_CHANNELS_OVERRIDE, 'RC_CHANNELS_OVERRIDE') - self._fieldnames = ['target_system', 'target_component', 'chan1_raw', 'chan2_raw', 'chan3_raw', 'chan4_raw', 'chan5_raw', 'chan6_raw', 'chan7_raw', 'chan8_raw'] - self.target_system = target_system - self.target_component = target_component - self.chan1_raw = chan1_raw - self.chan2_raw = chan2_raw - self.chan3_raw = chan3_raw - self.chan4_raw = chan4_raw - self.chan5_raw = chan5_raw - self.chan6_raw = chan6_raw - self.chan7_raw = chan7_raw - self.chan8_raw = chan8_raw - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 124, struct.pack('<HHHHHHHHBB', self.chan1_raw, self.chan2_raw, self.chan3_raw, self.chan4_raw, self.chan5_raw, self.chan6_raw, self.chan7_raw, self.chan8_raw, self.target_system, self.target_component)) - -class MAVLink_vfr_hud_message(MAVLink_message): - ''' - Metrics typically displayed on a HUD for fixed wing aircraft - ''' - def __init__(self, airspeed, groundspeed, heading, throttle, alt, climb): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_VFR_HUD, 'VFR_HUD') - self._fieldnames = ['airspeed', 'groundspeed', 'heading', 'throttle', 'alt', 'climb'] - self.airspeed = airspeed - self.groundspeed = groundspeed - self.heading = heading - self.throttle = throttle - self.alt = alt - self.climb = climb - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 20, struct.pack('<ffffhH', self.airspeed, self.groundspeed, self.alt, self.climb, self.heading, self.throttle)) - -class MAVLink_command_long_message(MAVLink_message): - ''' - Send a command with up to four parameters to the MAV - ''' - def __init__(self, target_system, target_component, command, confirmation, param1, param2, param3, param4, param5, param6, param7): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_COMMAND_LONG, 'COMMAND_LONG') - self._fieldnames = ['target_system', 'target_component', 'command', 'confirmation', 'param1', 'param2', 'param3', 'param4', 'param5', 'param6', 'param7'] - self.target_system = target_system - self.target_component = target_component - self.command = command - self.confirmation = confirmation - self.param1 = param1 - self.param2 = param2 - self.param3 = param3 - self.param4 = param4 - self.param5 = param5 - self.param6 = param6 - self.param7 = param7 - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 152, struct.pack('<fffffffHBBB', self.param1, self.param2, self.param3, self.param4, self.param5, self.param6, self.param7, self.command, self.target_system, self.target_component, self.confirmation)) - -class MAVLink_command_ack_message(MAVLink_message): - ''' - Report status of a command. Includes feedback wether the - command was executed - ''' - def __init__(self, command, result): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_COMMAND_ACK, 'COMMAND_ACK') - self._fieldnames = ['command', 'result'] - self.command = command - self.result = result - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 143, struct.pack('<HB', self.command, self.result)) - -class MAVLink_hil_state_message(MAVLink_message): - ''' - Sent from simulation to autopilot. This packet is useful for - high throughput applications such as hardware - in the loop simulations. - ''' - def __init__(self, time_usec, roll, pitch, yaw, rollspeed, pitchspeed, yawspeed, lat, lon, alt, vx, vy, vz, xacc, yacc, zacc): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_HIL_STATE, 'HIL_STATE') - self._fieldnames = ['time_usec', 'roll', 'pitch', 'yaw', 'rollspeed', 'pitchspeed', 'yawspeed', 'lat', 'lon', 'alt', 'vx', 'vy', 'vz', 'xacc', 'yacc', 'zacc'] - self.time_usec = time_usec - self.roll = roll - self.pitch = pitch - self.yaw = yaw - self.rollspeed = rollspeed - self.pitchspeed = pitchspeed - self.yawspeed = yawspeed - self.lat = lat - self.lon = lon - self.alt = alt - self.vx = vx - self.vy = vy - self.vz = vz - self.xacc = xacc - self.yacc = yacc - self.zacc = zacc - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 183, struct.pack('<Qffffffiiihhhhhh', self.time_usec, self.roll, self.pitch, self.yaw, self.rollspeed, self.pitchspeed, self.yawspeed, self.lat, self.lon, self.alt, self.vx, self.vy, self.vz, self.xacc, self.yacc, self.zacc)) - -class MAVLink_hil_controls_message(MAVLink_message): - ''' - Sent from autopilot to simulation. Hardware in the loop - control outputs - ''' - def __init__(self, time_usec, roll_ailerons, pitch_elevator, yaw_rudder, throttle, aux1, aux2, aux3, aux4, mode, nav_mode): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_HIL_CONTROLS, 'HIL_CONTROLS') - self._fieldnames = ['time_usec', 'roll_ailerons', 'pitch_elevator', 'yaw_rudder', 'throttle', 'aux1', 'aux2', 'aux3', 'aux4', 'mode', 'nav_mode'] - self.time_usec = time_usec - self.roll_ailerons = roll_ailerons - self.pitch_elevator = pitch_elevator - self.yaw_rudder = yaw_rudder - self.throttle = throttle - self.aux1 = aux1 - self.aux2 = aux2 - self.aux3 = aux3 - self.aux4 = aux4 - self.mode = mode - self.nav_mode = nav_mode - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 63, struct.pack('<QffffffffBB', self.time_usec, self.roll_ailerons, self.pitch_elevator, self.yaw_rudder, self.throttle, self.aux1, self.aux2, self.aux3, self.aux4, self.mode, self.nav_mode)) - -class MAVLink_hil_rc_inputs_raw_message(MAVLink_message): - ''' - Sent from simulation to autopilot. The RAW values of the RC - channels received. The standard PPM modulation is as follows: - 1000 microseconds: 0%, 2000 microseconds: 100%. Individual - receivers/transmitters might violate this specification. - ''' - def __init__(self, time_usec, chan1_raw, chan2_raw, chan3_raw, chan4_raw, chan5_raw, chan6_raw, chan7_raw, chan8_raw, chan9_raw, chan10_raw, chan11_raw, chan12_raw, rssi): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_HIL_RC_INPUTS_RAW, 'HIL_RC_INPUTS_RAW') - self._fieldnames = ['time_usec', 'chan1_raw', 'chan2_raw', 'chan3_raw', 'chan4_raw', 'chan5_raw', 'chan6_raw', 'chan7_raw', 'chan8_raw', 'chan9_raw', 'chan10_raw', 'chan11_raw', 'chan12_raw', 'rssi'] - self.time_usec = time_usec - self.chan1_raw = chan1_raw - self.chan2_raw = chan2_raw - self.chan3_raw = chan3_raw - self.chan4_raw = chan4_raw - self.chan5_raw = chan5_raw - self.chan6_raw = chan6_raw - self.chan7_raw = chan7_raw - self.chan8_raw = chan8_raw - self.chan9_raw = chan9_raw - self.chan10_raw = chan10_raw - self.chan11_raw = chan11_raw - self.chan12_raw = chan12_raw - self.rssi = rssi - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 54, struct.pack('<QHHHHHHHHHHHHB', self.time_usec, self.chan1_raw, self.chan2_raw, self.chan3_raw, self.chan4_raw, self.chan5_raw, self.chan6_raw, self.chan7_raw, self.chan8_raw, self.chan9_raw, self.chan10_raw, self.chan11_raw, self.chan12_raw, self.rssi)) - -class MAVLink_optical_flow_message(MAVLink_message): - ''' - Optical flow from a flow sensor (e.g. optical mouse sensor) - ''' - def __init__(self, time_usec, sensor_id, flow_x, flow_y, quality, ground_distance): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_OPTICAL_FLOW, 'OPTICAL_FLOW') - self._fieldnames = ['time_usec', 'sensor_id', 'flow_x', 'flow_y', 'quality', 'ground_distance'] - self.time_usec = time_usec - self.sensor_id = sensor_id - self.flow_x = flow_x - self.flow_y = flow_y - self.quality = quality - self.ground_distance = ground_distance - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 19, struct.pack('<QfhhBB', self.time_usec, self.ground_distance, self.flow_x, self.flow_y, self.sensor_id, self.quality)) - -class MAVLink_global_vision_position_estimate_message(MAVLink_message): - ''' - - ''' - def __init__(self, usec, x, y, z, roll, pitch, yaw): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_GLOBAL_VISION_POSITION_ESTIMATE, 'GLOBAL_VISION_POSITION_ESTIMATE') - self._fieldnames = ['usec', 'x', 'y', 'z', 'roll', 'pitch', 'yaw'] - self.usec = usec - self.x = x - self.y = y - self.z = z - self.roll = roll - self.pitch = pitch - self.yaw = yaw - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 102, struct.pack('<Qffffff', self.usec, self.x, self.y, self.z, self.roll, self.pitch, self.yaw)) - -class MAVLink_vision_position_estimate_message(MAVLink_message): - ''' - - ''' - def __init__(self, usec, x, y, z, roll, pitch, yaw): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_VISION_POSITION_ESTIMATE, 'VISION_POSITION_ESTIMATE') - self._fieldnames = ['usec', 'x', 'y', 'z', 'roll', 'pitch', 'yaw'] - self.usec = usec - self.x = x - self.y = y - self.z = z - self.roll = roll - self.pitch = pitch - self.yaw = yaw - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 158, struct.pack('<Qffffff', self.usec, self.x, self.y, self.z, self.roll, self.pitch, self.yaw)) - -class MAVLink_vision_speed_estimate_message(MAVLink_message): - ''' - - ''' - def __init__(self, usec, x, y, z): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_VISION_SPEED_ESTIMATE, 'VISION_SPEED_ESTIMATE') - self._fieldnames = ['usec', 'x', 'y', 'z'] - self.usec = usec - self.x = x - self.y = y - self.z = z - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 208, struct.pack('<Qfff', self.usec, self.x, self.y, self.z)) - -class MAVLink_vicon_position_estimate_message(MAVLink_message): - ''' - - ''' - def __init__(self, usec, x, y, z, roll, pitch, yaw): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_VICON_POSITION_ESTIMATE, 'VICON_POSITION_ESTIMATE') - self._fieldnames = ['usec', 'x', 'y', 'z', 'roll', 'pitch', 'yaw'] - self.usec = usec - self.x = x - self.y = y - self.z = z - self.roll = roll - self.pitch = pitch - self.yaw = yaw - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 56, struct.pack('<Qffffff', self.usec, self.x, self.y, self.z, self.roll, self.pitch, self.yaw)) - -class MAVLink_memory_vect_message(MAVLink_message): - ''' - Send raw controller memory. The use of this message is - discouraged for normal packets, but a quite efficient way for - testing new messages and getting experimental debug output. - ''' - def __init__(self, address, ver, type, value): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_MEMORY_VECT, 'MEMORY_VECT') - self._fieldnames = ['address', 'ver', 'type', 'value'] - self.address = address - self.ver = ver - self.type = type - self.value = value - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 204, struct.pack('<HBB32s', self.address, self.ver, self.type, self.value)) - -class MAVLink_debug_vect_message(MAVLink_message): - ''' - - ''' - def __init__(self, name, time_usec, x, y, z): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_DEBUG_VECT, 'DEBUG_VECT') - self._fieldnames = ['name', 'time_usec', 'x', 'y', 'z'] - self.name = name - self.time_usec = time_usec - self.x = x - self.y = y - self.z = z - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 49, struct.pack('<Qfff10s', self.time_usec, self.x, self.y, self.z, self.name)) - -class MAVLink_named_value_float_message(MAVLink_message): - ''' - Send a key-value pair as float. The use of this message is - discouraged for normal packets, but a quite efficient way for - testing new messages and getting experimental debug output. - ''' - def __init__(self, time_boot_ms, name, value): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_NAMED_VALUE_FLOAT, 'NAMED_VALUE_FLOAT') - self._fieldnames = ['time_boot_ms', 'name', 'value'] - self.time_boot_ms = time_boot_ms - self.name = name - self.value = value - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 170, struct.pack('<If10s', self.time_boot_ms, self.value, self.name)) - -class MAVLink_named_value_int_message(MAVLink_message): - ''' - Send a key-value pair as integer. The use of this message is - discouraged for normal packets, but a quite efficient way for - testing new messages and getting experimental debug output. - ''' - def __init__(self, time_boot_ms, name, value): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_NAMED_VALUE_INT, 'NAMED_VALUE_INT') - self._fieldnames = ['time_boot_ms', 'name', 'value'] - self.time_boot_ms = time_boot_ms - self.name = name - self.value = value - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 44, struct.pack('<Ii10s', self.time_boot_ms, self.value, self.name)) - -class MAVLink_statustext_message(MAVLink_message): - ''' - Status text message. These messages are printed in yellow in - the COMM console of QGroundControl. WARNING: They consume - quite some bandwidth, so use only for important status and - error messages. If implemented wisely, these messages are - buffered on the MCU and sent only at a limited rate (e.g. 10 - Hz). - ''' - def __init__(self, severity, text): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_STATUSTEXT, 'STATUSTEXT') - self._fieldnames = ['severity', 'text'] - self.severity = severity - self.text = text - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 83, struct.pack('<B50s', self.severity, self.text)) - -class MAVLink_debug_message(MAVLink_message): - ''' - Send a debug value. The index is used to discriminate between - values. These values show up in the plot of QGroundControl as - DEBUG N. - ''' - def __init__(self, time_boot_ms, ind, value): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_DEBUG, 'DEBUG') - self._fieldnames = ['time_boot_ms', 'ind', 'value'] - self.time_boot_ms = time_boot_ms - self.ind = ind - self.value = value - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 46, struct.pack('<IfB', self.time_boot_ms, self.value, self.ind)) - -class MAVLink_extended_message_message(MAVLink_message): - ''' - Extended message spacer. - ''' - def __init__(self, target_system, target_component, protocol_flags): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_EXTENDED_MESSAGE, 'EXTENDED_MESSAGE') - self._fieldnames = ['target_system', 'target_component', 'protocol_flags'] - self.target_system = target_system - self.target_component = target_component - self.protocol_flags = protocol_flags - - def pack(self, mav): - return MAVLink_message.pack(self, mav, 247, struct.pack('<BBB', self.target_system, self.target_component, self.protocol_flags)) - - -mavlink_map = { - MAVLINK_MSG_ID_SENSOR_OFFSETS : ( '<fiiffffffhhh', MAVLink_sensor_offsets_message, [9, 10, 11, 0, 1, 2, 3, 4, 5, 6, 7, 8], 134 ), - MAVLINK_MSG_ID_SET_MAG_OFFSETS : ( '<hhhBB', MAVLink_set_mag_offsets_message, [3, 4, 0, 1, 2], 219 ), - MAVLINK_MSG_ID_MEMINFO : ( '<HH', MAVLink_meminfo_message, [0, 1], 208 ), - MAVLINK_MSG_ID_AP_ADC : ( '<HHHHHH', MAVLink_ap_adc_message, [0, 1, 2, 3, 4, 5], 188 ), - MAVLINK_MSG_ID_DIGICAM_CONFIGURE : ( '<fHBBBBBBBBB', MAVLink_digicam_configure_message, [2, 3, 4, 1, 5, 6, 7, 8, 9, 10, 0], 84 ), - MAVLINK_MSG_ID_DIGICAM_CONTROL : ( '<fBBBBbBBBB', MAVLink_digicam_control_message, [1, 2, 3, 4, 5, 6, 7, 8, 9, 0], 22 ), - MAVLINK_MSG_ID_MOUNT_CONFIGURE : ( '<BBBBBB', MAVLink_mount_configure_message, [0, 1, 2, 3, 4, 5], 19 ), - MAVLINK_MSG_ID_MOUNT_CONTROL : ( '<iiiBBB', MAVLink_mount_control_message, [3, 4, 0, 1, 2, 5], 21 ), - MAVLINK_MSG_ID_MOUNT_STATUS : ( '<iiiBB', MAVLink_mount_status_message, [3, 4, 0, 1, 2], 134 ), - MAVLINK_MSG_ID_FENCE_POINT : ( '<ffBBBB', MAVLink_fence_point_message, [2, 3, 4, 5, 0, 1], 78 ), - MAVLINK_MSG_ID_FENCE_FETCH_POINT : ( '<BBB', MAVLink_fence_fetch_point_message, [0, 1, 2], 68 ), - MAVLINK_MSG_ID_FENCE_STATUS : ( '<IHBB', MAVLink_fence_status_message, [2, 1, 3, 0], 189 ), - MAVLINK_MSG_ID_AHRS : ( '<fffffff', MAVLink_ahrs_message, [0, 1, 2, 3, 4, 5, 6], 127 ), - MAVLINK_MSG_ID_SIMSTATE : ( '<fffffffff', MAVLink_simstate_message, [0, 1, 2, 3, 4, 5, 6, 7, 8], 42 ), - MAVLINK_MSG_ID_HWSTATUS : ( '<HB', MAVLink_hwstatus_message, [0, 1], 21 ), - MAVLINK_MSG_ID_RADIO : ( '<HHBBBBB', MAVLink_radio_message, [2, 3, 4, 5, 6, 0, 1], 21 ), - MAVLINK_MSG_ID_HEARTBEAT : ( '<IBBBBB', MAVLink_heartbeat_message, [1, 2, 3, 0, 4, 5], 50 ), - MAVLINK_MSG_ID_SYS_STATUS : ( '<IIIHHhHHHHHHb', MAVLink_sys_status_message, [0, 1, 2, 3, 4, 5, 12, 6, 7, 8, 9, 10, 11], 124 ), - MAVLINK_MSG_ID_SYSTEM_TIME : ( '<QI', MAVLink_system_time_message, [0, 1], 137 ), - MAVLINK_MSG_ID_PING : ( '<QIBB', MAVLink_ping_message, [0, 1, 2, 3], 237 ), - MAVLINK_MSG_ID_CHANGE_OPERATOR_CONTROL : ( '<BBB25s', MAVLink_change_operator_control_message, [0, 1, 2, 3], 217 ), - MAVLINK_MSG_ID_CHANGE_OPERATOR_CONTROL_ACK : ( '<BBB', MAVLink_change_operator_control_ack_message, [0, 1, 2], 104 ), - MAVLINK_MSG_ID_AUTH_KEY : ( '<32s', MAVLink_auth_key_message, [0], 119 ), - MAVLINK_MSG_ID_SET_MODE : ( '<IBB', MAVLink_set_mode_message, [1, 2, 0], 89 ), - MAVLINK_MSG_ID_PARAM_REQUEST_READ : ( '<hBB16s', MAVLink_param_request_read_message, [1, 2, 3, 0], 214 ), - MAVLINK_MSG_ID_PARAM_REQUEST_LIST : ( '<BB', MAVLink_param_request_list_message, [0, 1], 159 ), - MAVLINK_MSG_ID_PARAM_VALUE : ( '<fHH16sB', MAVLink_param_value_message, [3, 0, 4, 1, 2], 220 ), - MAVLINK_MSG_ID_PARAM_SET : ( '<fBB16sB', MAVLink_param_set_message, [1, 2, 3, 0, 4], 168 ), - MAVLINK_MSG_ID_GPS_RAW_INT : ( '<QiiiHHHHBB', MAVLink_gps_raw_int_message, [0, 8, 1, 2, 3, 4, 5, 6, 7, 9], 24 ), - MAVLINK_MSG_ID_GPS_STATUS : ( '<B20s20s20s20s20s', MAVLink_gps_status_message, [0, 1, 2, 3, 4, 5], 23 ), - MAVLINK_MSG_ID_SCALED_IMU : ( '<Ihhhhhhhhh', MAVLink_scaled_imu_message, [0, 1, 2, 3, 4, 5, 6, 7, 8, 9], 170 ), - MAVLINK_MSG_ID_RAW_IMU : ( '<Qhhhhhhhhh', MAVLink_raw_imu_message, [0, 1, 2, 3, 4, 5, 6, 7, 8, 9], 144 ), - MAVLINK_MSG_ID_RAW_PRESSURE : ( '<Qhhhh', MAVLink_raw_pressure_message, [0, 1, 2, 3, 4], 67 ), - MAVLINK_MSG_ID_SCALED_PRESSURE : ( '<Iffh', MAVLink_scaled_pressure_message, [0, 1, 2, 3], 115 ), - MAVLINK_MSG_ID_ATTITUDE : ( '<Iffffff', MAVLink_attitude_message, [0, 1, 2, 3, 4, 5, 6], 39 ), - MAVLINK_MSG_ID_ATTITUDE_QUATERNION : ( '<Ifffffff', MAVLink_attitude_quaternion_message, [0, 1, 2, 3, 4, 5, 6, 7], 246 ), - MAVLINK_MSG_ID_LOCAL_POSITION_NED : ( '<Iffffff', MAVLink_local_position_ned_message, [0, 1, 2, 3, 4, 5, 6], 185 ), - MAVLINK_MSG_ID_GLOBAL_POSITION_INT : ( '<IiiiihhhH', MAVLink_global_position_int_message, [0, 1, 2, 3, 4, 5, 6, 7, 8], 104 ), - MAVLINK_MSG_ID_RC_CHANNELS_SCALED : ( '<IhhhhhhhhBB', MAVLink_rc_channels_scaled_message, [0, 9, 1, 2, 3, 4, 5, 6, 7, 8, 10], 237 ), - MAVLINK_MSG_ID_RC_CHANNELS_RAW : ( '<IHHHHHHHHBB', MAVLink_rc_channels_raw_message, [0, 9, 1, 2, 3, 4, 5, 6, 7, 8, 10], 244 ), - MAVLINK_MSG_ID_SERVO_OUTPUT_RAW : ( '<IHHHHHHHHB', MAVLink_servo_output_raw_message, [0, 9, 1, 2, 3, 4, 5, 6, 7, 8], 222 ), - MAVLINK_MSG_ID_MISSION_REQUEST_PARTIAL_LIST : ( '<hhBB', MAVLink_mission_request_partial_list_message, [2, 3, 0, 1], 212 ), - MAVLINK_MSG_ID_MISSION_WRITE_PARTIAL_LIST : ( '<hhBB', MAVLink_mission_write_partial_list_message, [2, 3, 0, 1], 9 ), - MAVLINK_MSG_ID_MISSION_ITEM : ( '<fffffffHHBBBBB', MAVLink_mission_item_message, [9, 10, 7, 11, 8, 12, 13, 0, 1, 2, 3, 4, 5, 6], 254 ), - MAVLINK_MSG_ID_MISSION_REQUEST : ( '<HBB', MAVLink_mission_request_message, [1, 2, 0], 230 ), - MAVLINK_MSG_ID_MISSION_SET_CURRENT : ( '<HBB', MAVLink_mission_set_current_message, [1, 2, 0], 28 ), - MAVLINK_MSG_ID_MISSION_CURRENT : ( '<H', MAVLink_mission_current_message, [0], 28 ), - MAVLINK_MSG_ID_MISSION_REQUEST_LIST : ( '<BB', MAVLink_mission_request_list_message, [0, 1], 132 ), - MAVLINK_MSG_ID_MISSION_COUNT : ( '<HBB', MAVLink_mission_count_message, [1, 2, 0], 221 ), - MAVLINK_MSG_ID_MISSION_CLEAR_ALL : ( '<BB', MAVLink_mission_clear_all_message, [0, 1], 232 ), - MAVLINK_MSG_ID_MISSION_ITEM_REACHED : ( '<H', MAVLink_mission_item_reached_message, [0], 11 ), - MAVLINK_MSG_ID_MISSION_ACK : ( '<BBB', MAVLink_mission_ack_message, [0, 1, 2], 153 ), - MAVLINK_MSG_ID_SET_GPS_GLOBAL_ORIGIN : ( '<iiiB', MAVLink_set_gps_global_origin_message, [3, 0, 1, 2], 41 ), - MAVLINK_MSG_ID_GPS_GLOBAL_ORIGIN : ( '<iii', MAVLink_gps_global_origin_message, [0, 1, 2], 39 ), - MAVLINK_MSG_ID_SET_LOCAL_POSITION_SETPOINT : ( '<ffffBBB', MAVLink_set_local_position_setpoint_message, [4, 5, 6, 0, 1, 2, 3], 214 ), - MAVLINK_MSG_ID_LOCAL_POSITION_SETPOINT : ( '<ffffB', MAVLink_local_position_setpoint_message, [4, 0, 1, 2, 3], 223 ), - MAVLINK_MSG_ID_GLOBAL_POSITION_SETPOINT_INT : ( '<iiihB', MAVLink_global_position_setpoint_int_message, [4, 0, 1, 2, 3], 141 ), - MAVLINK_MSG_ID_SET_GLOBAL_POSITION_SETPOINT_INT : ( '<iiihB', MAVLink_set_global_position_setpoint_int_message, [4, 0, 1, 2, 3], 33 ), - MAVLINK_MSG_ID_SAFETY_SET_ALLOWED_AREA : ( '<ffffffBBB', MAVLink_safety_set_allowed_area_message, [6, 7, 8, 0, 1, 2, 3, 4, 5], 15 ), - MAVLINK_MSG_ID_SAFETY_ALLOWED_AREA : ( '<ffffffB', MAVLink_safety_allowed_area_message, [6, 0, 1, 2, 3, 4, 5], 3 ), - MAVLINK_MSG_ID_SET_ROLL_PITCH_YAW_THRUST : ( '<ffffBB', MAVLink_set_roll_pitch_yaw_thrust_message, [4, 5, 0, 1, 2, 3], 100 ), - MAVLINK_MSG_ID_SET_ROLL_PITCH_YAW_SPEED_THRUST : ( '<ffffBB', MAVLink_set_roll_pitch_yaw_speed_thrust_message, [4, 5, 0, 1, 2, 3], 24 ), - MAVLINK_MSG_ID_ROLL_PITCH_YAW_THRUST_SETPOINT : ( '<Iffff', MAVLink_roll_pitch_yaw_thrust_setpoint_message, [0, 1, 2, 3, 4], 239 ), - MAVLINK_MSG_ID_ROLL_PITCH_YAW_SPEED_THRUST_SETPOINT : ( '<Iffff', MAVLink_roll_pitch_yaw_speed_thrust_setpoint_message, [0, 1, 2, 3, 4], 238 ), - MAVLINK_MSG_ID_NAV_CONTROLLER_OUTPUT : ( '<fffffhhH', MAVLink_nav_controller_output_message, [0, 1, 5, 6, 7, 2, 3, 4], 183 ), - MAVLINK_MSG_ID_STATE_CORRECTION : ( '<fffffffff', MAVLink_state_correction_message, [0, 1, 2, 3, 4, 5, 6, 7, 8], 130 ), - MAVLINK_MSG_ID_REQUEST_DATA_STREAM : ( '<HBBBB', MAVLink_request_data_stream_message, [1, 2, 3, 0, 4], 148 ), - MAVLINK_MSG_ID_DATA_STREAM : ( '<HBB', MAVLink_data_stream_message, [1, 0, 2], 21 ), - MAVLINK_MSG_ID_MANUAL_CONTROL : ( '<ffffBBBBB', MAVLink_manual_control_message, [4, 0, 1, 2, 3, 5, 6, 7, 8], 52 ), - MAVLINK_MSG_ID_RC_CHANNELS_OVERRIDE : ( '<HHHHHHHHBB', MAVLink_rc_channels_override_message, [8, 9, 0, 1, 2, 3, 4, 5, 6, 7], 124 ), - MAVLINK_MSG_ID_VFR_HUD : ( '<ffffhH', MAVLink_vfr_hud_message, [0, 1, 4, 5, 2, 3], 20 ), - MAVLINK_MSG_ID_COMMAND_LONG : ( '<fffffffHBBB', MAVLink_command_long_message, [8, 9, 7, 10, 0, 1, 2, 3, 4, 5, 6], 152 ), - MAVLINK_MSG_ID_COMMAND_ACK : ( '<HB', MAVLink_command_ack_message, [0, 1], 143 ), - MAVLINK_MSG_ID_HIL_STATE : ( '<Qffffffiiihhhhhh', MAVLink_hil_state_message, [0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15], 183 ), - MAVLINK_MSG_ID_HIL_CONTROLS : ( '<QffffffffBB', MAVLink_hil_controls_message, [0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10], 63 ), - MAVLINK_MSG_ID_HIL_RC_INPUTS_RAW : ( '<QHHHHHHHHHHHHB', MAVLink_hil_rc_inputs_raw_message, [0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13], 54 ), - MAVLINK_MSG_ID_OPTICAL_FLOW : ( '<QfhhBB', MAVLink_optical_flow_message, [0, 4, 2, 3, 5, 1], 19 ), - MAVLINK_MSG_ID_GLOBAL_VISION_POSITION_ESTIMATE : ( '<Qffffff', MAVLink_global_vision_position_estimate_message, [0, 1, 2, 3, 4, 5, 6], 102 ), - MAVLINK_MSG_ID_VISION_POSITION_ESTIMATE : ( '<Qffffff', MAVLink_vision_position_estimate_message, [0, 1, 2, 3, 4, 5, 6], 158 ), - MAVLINK_MSG_ID_VISION_SPEED_ESTIMATE : ( '<Qfff', MAVLink_vision_speed_estimate_message, [0, 1, 2, 3], 208 ), - MAVLINK_MSG_ID_VICON_POSITION_ESTIMATE : ( '<Qffffff', MAVLink_vicon_position_estimate_message, [0, 1, 2, 3, 4, 5, 6], 56 ), - MAVLINK_MSG_ID_MEMORY_VECT : ( '<HBB32s', MAVLink_memory_vect_message, [0, 1, 2, 3], 204 ), - MAVLINK_MSG_ID_DEBUG_VECT : ( '<Qfff10s', MAVLink_debug_vect_message, [4, 0, 1, 2, 3], 49 ), - MAVLINK_MSG_ID_NAMED_VALUE_FLOAT : ( '<If10s', MAVLink_named_value_float_message, [0, 2, 1], 170 ), - MAVLINK_MSG_ID_NAMED_VALUE_INT : ( '<Ii10s', MAVLink_named_value_int_message, [0, 2, 1], 44 ), - MAVLINK_MSG_ID_STATUSTEXT : ( '<B50s', MAVLink_statustext_message, [0, 1], 83 ), - MAVLINK_MSG_ID_DEBUG : ( '<IfB', MAVLink_debug_message, [0, 2, 1], 46 ), - MAVLINK_MSG_ID_EXTENDED_MESSAGE : ( '<BBB', MAVLink_extended_message_message, [0, 1, 2], 247 ), -} - -class MAVError(Exception): - '''MAVLink error class''' - def __init__(self, msg): - Exception.__init__(self, msg) - self.message = msg - -class MAVString(str): - '''NUL terminated string''' - def __init__(self, s): - str.__init__(self) - def __str__(self): - i = self.find(chr(0)) - if i == -1: - return self[:] - return self[0:i] - -class MAVLink_bad_data(MAVLink_message): - ''' - a piece of bad data in a mavlink stream - ''' - def __init__(self, data, reason): - MAVLink_message.__init__(self, MAVLINK_MSG_ID_BAD_DATA, 'BAD_DATA') - self._fieldnames = ['data', 'reason'] - self.data = data - self.reason = reason - self._msgbuf = data - -class MAVLink(object): - '''MAVLink protocol handling class''' - def __init__(self, file, srcSystem=0, srcComponent=0): - self.seq = 0 - self.file = file - self.srcSystem = srcSystem - self.srcComponent = srcComponent - self.callback = None - self.callback_args = None - self.callback_kwargs = None - self.buf = array.array('B') - self.expected_length = 6 - self.have_prefix_error = False - self.robust_parsing = False - self.protocol_marker = 254 - self.little_endian = True - self.crc_extra = True - self.sort_fields = True - self.total_packets_sent = 0 - self.total_bytes_sent = 0 - self.total_packets_received = 0 - self.total_bytes_received = 0 - self.total_receive_errors = 0 - self.startup_time = time.time() - - def set_callback(self, callback, *args, **kwargs): - self.callback = callback - self.callback_args = args - self.callback_kwargs = kwargs - - def send(self, mavmsg): - '''send a MAVLink message''' - buf = mavmsg.pack(self) - self.file.write(buf) - self.seq = (self.seq + 1) % 255 - self.total_packets_sent += 1 - self.total_bytes_sent += len(buf) - - def bytes_needed(self): - '''return number of bytes needed for next parsing stage''' - ret = self.expected_length - len(self.buf) - if ret <= 0: - return 1 - return ret - - def parse_char(self, c): - '''input some data bytes, possibly returning a new message''' - if isinstance(c, str): - self.buf.fromstring(c) - else: - self.buf.extend(c) - self.total_bytes_received += len(c) - if len(self.buf) >= 1 and self.buf[0] != 254: - magic = self.buf[0] - self.buf = self.buf[1:] - if self.robust_parsing: - m = MAVLink_bad_data(chr(magic), "Bad prefix") - if self.callback: - self.callback(m, *self.callback_args, **self.callback_kwargs) - self.expected_length = 6 - self.total_receive_errors += 1 - return m - if self.have_prefix_error: - return None - self.have_prefix_error = True - self.total_receive_errors += 1 - raise MAVError("invalid MAVLink prefix '%s'" % magic) - self.have_prefix_error = False - if len(self.buf) >= 2: - (magic, self.expected_length) = struct.unpack('BB', self.buf[0:2]) - self.expected_length += 8 - if self.expected_length >= 8 and len(self.buf) >= self.expected_length: - mbuf = self.buf[0:self.expected_length] - self.buf = self.buf[self.expected_length:] - self.expected_length = 6 - if self.robust_parsing: - try: - m = self.decode(mbuf) - self.total_packets_received += 1 - except MAVError as reason: - m = MAVLink_bad_data(mbuf, reason.message) - self.total_receive_errors += 1 - else: - m = self.decode(mbuf) - self.total_packets_received += 1 - if self.callback: - self.callback(m, *self.callback_args, **self.callback_kwargs) - return m - return None - - def parse_buffer(self, s): - '''input some data bytes, possibly returning a list of new messages''' - m = self.parse_char(s) - if m is None: - return None - ret = [m] - while True: - m = self.parse_char("") - if m is None: - return ret - ret.append(m) - return ret - - def decode(self, msgbuf): - '''decode a buffer as a MAVLink message''' - # decode the header - try: - magic, mlen, seq, srcSystem, srcComponent, msgId = struct.unpack('cBBBBB', msgbuf[:6]) - except struct.error as emsg: - raise MAVError('Unable to unpack MAVLink header: %s' % emsg) - if ord(magic) != 254: - raise MAVError("invalid MAVLink prefix '%s'" % magic) - if mlen != len(msgbuf)-8: - raise MAVError('invalid MAVLink message length. Got %u expected %u, msgId=%u' % (len(msgbuf)-8, mlen, msgId)) - - if not msgId in mavlink_map: - raise MAVError('unknown MAVLink message ID %u' % msgId) - - # decode the payload - (fmt, type, order_map, crc_extra) = mavlink_map[msgId] - - # decode the checksum - try: - crc, = struct.unpack('<H', msgbuf[-2:]) - except struct.error as emsg: - raise MAVError('Unable to unpack MAVLink CRC: %s' % emsg) - crc2 = mavutil.x25crc(msgbuf[1:-2]) - if True: # using CRC extra - crc2.accumulate(chr(crc_extra)) - if crc != crc2.crc: - raise MAVError('invalid MAVLink CRC in msgID %u 0x%04x should be 0x%04x' % (msgId, crc, crc2.crc)) - - try: - t = struct.unpack(fmt, msgbuf[6:-2]) - except struct.error as emsg: - raise MAVError('Unable to unpack MAVLink payload type=%s fmt=%s payloadLength=%u: %s' % ( - type, fmt, len(msgbuf[6:-2]), emsg)) - - tlist = list(t) - # handle sorted fields - if True: - t = tlist[:] - for i in range(0, len(tlist)): - tlist[i] = t[order_map[i]] - - # terminate any strings - for i in range(0, len(tlist)): - if isinstance(tlist[i], str): - tlist[i] = MAVString(tlist[i]) - t = tuple(tlist) - # construct the message object - try: - m = type(*t) - except Exception as emsg: - raise MAVError('Unable to instantiate MAVLink message of type %s : %s' % (type, emsg)) - m._msgbuf = msgbuf - m._payload = msgbuf[6:-2] - m._crc = crc - m._header = MAVLink_header(msgId, mlen, seq, srcSystem, srcComponent) - return m - def sensor_offsets_encode(self, mag_ofs_x, mag_ofs_y, mag_ofs_z, mag_declination, raw_press, raw_temp, gyro_cal_x, gyro_cal_y, gyro_cal_z, accel_cal_x, accel_cal_y, accel_cal_z): - ''' - Offsets and calibrations values for hardware sensors. This - makes it easier to debug the calibration process. - - mag_ofs_x : magnetometer X offset (int16_t) - mag_ofs_y : magnetometer Y offset (int16_t) - mag_ofs_z : magnetometer Z offset (int16_t) - mag_declination : magnetic declination (radians) (float) - raw_press : raw pressure from barometer (int32_t) - raw_temp : raw temperature from barometer (int32_t) - gyro_cal_x : gyro X calibration (float) - gyro_cal_y : gyro Y calibration (float) - gyro_cal_z : gyro Z calibration (float) - accel_cal_x : accel X calibration (float) - accel_cal_y : accel Y calibration (float) - accel_cal_z : accel Z calibration (float) - - ''' - msg = MAVLink_sensor_offsets_message(mag_ofs_x, mag_ofs_y, mag_ofs_z, mag_declination, raw_press, raw_temp, gyro_cal_x, gyro_cal_y, gyro_cal_z, accel_cal_x, accel_cal_y, accel_cal_z) - msg.pack(self) - return msg - - def sensor_offsets_send(self, mag_ofs_x, mag_ofs_y, mag_ofs_z, mag_declination, raw_press, raw_temp, gyro_cal_x, gyro_cal_y, gyro_cal_z, accel_cal_x, accel_cal_y, accel_cal_z): - ''' - Offsets and calibrations values for hardware sensors. This - makes it easier to debug the calibration process. - - mag_ofs_x : magnetometer X offset (int16_t) - mag_ofs_y : magnetometer Y offset (int16_t) - mag_ofs_z : magnetometer Z offset (int16_t) - mag_declination : magnetic declination (radians) (float) - raw_press : raw pressure from barometer (int32_t) - raw_temp : raw temperature from barometer (int32_t) - gyro_cal_x : gyro X calibration (float) - gyro_cal_y : gyro Y calibration (float) - gyro_cal_z : gyro Z calibration (float) - accel_cal_x : accel X calibration (float) - accel_cal_y : accel Y calibration (float) - accel_cal_z : accel Z calibration (float) - - ''' - return self.send(self.sensor_offsets_encode(mag_ofs_x, mag_ofs_y, mag_ofs_z, mag_declination, raw_press, raw_temp, gyro_cal_x, gyro_cal_y, gyro_cal_z, accel_cal_x, accel_cal_y, accel_cal_z)) - - def set_mag_offsets_encode(self, target_system, target_component, mag_ofs_x, mag_ofs_y, mag_ofs_z): - ''' - set the magnetometer offsets - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - mag_ofs_x : magnetometer X offset (int16_t) - mag_ofs_y : magnetometer Y offset (int16_t) - mag_ofs_z : magnetometer Z offset (int16_t) - - ''' - msg = MAVLink_set_mag_offsets_message(target_system, target_component, mag_ofs_x, mag_ofs_y, mag_ofs_z) - msg.pack(self) - return msg - - def set_mag_offsets_send(self, target_system, target_component, mag_ofs_x, mag_ofs_y, mag_ofs_z): - ''' - set the magnetometer offsets - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - mag_ofs_x : magnetometer X offset (int16_t) - mag_ofs_y : magnetometer Y offset (int16_t) - mag_ofs_z : magnetometer Z offset (int16_t) - - ''' - return self.send(self.set_mag_offsets_encode(target_system, target_component, mag_ofs_x, mag_ofs_y, mag_ofs_z)) - - def meminfo_encode(self, brkval, freemem): - ''' - state of APM memory - - brkval : heap top (uint16_t) - freemem : free memory (uint16_t) - - ''' - msg = MAVLink_meminfo_message(brkval, freemem) - msg.pack(self) - return msg - - def meminfo_send(self, brkval, freemem): - ''' - state of APM memory - - brkval : heap top (uint16_t) - freemem : free memory (uint16_t) - - ''' - return self.send(self.meminfo_encode(brkval, freemem)) - - def ap_adc_encode(self, adc1, adc2, adc3, adc4, adc5, adc6): - ''' - raw ADC output - - adc1 : ADC output 1 (uint16_t) - adc2 : ADC output 2 (uint16_t) - adc3 : ADC output 3 (uint16_t) - adc4 : ADC output 4 (uint16_t) - adc5 : ADC output 5 (uint16_t) - adc6 : ADC output 6 (uint16_t) - - ''' - msg = MAVLink_ap_adc_message(adc1, adc2, adc3, adc4, adc5, adc6) - msg.pack(self) - return msg - - def ap_adc_send(self, adc1, adc2, adc3, adc4, adc5, adc6): - ''' - raw ADC output - - adc1 : ADC output 1 (uint16_t) - adc2 : ADC output 2 (uint16_t) - adc3 : ADC output 3 (uint16_t) - adc4 : ADC output 4 (uint16_t) - adc5 : ADC output 5 (uint16_t) - adc6 : ADC output 6 (uint16_t) - - ''' - return self.send(self.ap_adc_encode(adc1, adc2, adc3, adc4, adc5, adc6)) - - def digicam_configure_encode(self, target_system, target_component, mode, shutter_speed, aperture, iso, exposure_type, command_id, engine_cut_off, extra_param, extra_value): - ''' - Configure on-board Camera Control System. - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - mode : Mode enumeration from 1 to N //P, TV, AV, M, Etc (0 means ignore) (uint8_t) - shutter_speed : Divisor number //e.g. 1000 means 1/1000 (0 means ignore) (uint16_t) - aperture : F stop number x 10 //e.g. 28 means 2.8 (0 means ignore) (uint8_t) - iso : ISO enumeration from 1 to N //e.g. 80, 100, 200, Etc (0 means ignore) (uint8_t) - exposure_type : Exposure type enumeration from 1 to N (0 means ignore) (uint8_t) - command_id : Command Identity (incremental loop: 0 to 255)//A command sent multiple times will be executed or pooled just once (uint8_t) - engine_cut_off : Main engine cut-off time before camera trigger in seconds/10 (0 means no cut-off) (uint8_t) - extra_param : Extra parameters enumeration (0 means ignore) (uint8_t) - extra_value : Correspondent value to given extra_param (float) - - ''' - msg = MAVLink_digicam_configure_message(target_system, target_component, mode, shutter_speed, aperture, iso, exposure_type, command_id, engine_cut_off, extra_param, extra_value) - msg.pack(self) - return msg - - def digicam_configure_send(self, target_system, target_component, mode, shutter_speed, aperture, iso, exposure_type, command_id, engine_cut_off, extra_param, extra_value): - ''' - Configure on-board Camera Control System. - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - mode : Mode enumeration from 1 to N //P, TV, AV, M, Etc (0 means ignore) (uint8_t) - shutter_speed : Divisor number //e.g. 1000 means 1/1000 (0 means ignore) (uint16_t) - aperture : F stop number x 10 //e.g. 28 means 2.8 (0 means ignore) (uint8_t) - iso : ISO enumeration from 1 to N //e.g. 80, 100, 200, Etc (0 means ignore) (uint8_t) - exposure_type : Exposure type enumeration from 1 to N (0 means ignore) (uint8_t) - command_id : Command Identity (incremental loop: 0 to 255)//A command sent multiple times will be executed or pooled just once (uint8_t) - engine_cut_off : Main engine cut-off time before camera trigger in seconds/10 (0 means no cut-off) (uint8_t) - extra_param : Extra parameters enumeration (0 means ignore) (uint8_t) - extra_value : Correspondent value to given extra_param (float) - - ''' - return self.send(self.digicam_configure_encode(target_system, target_component, mode, shutter_speed, aperture, iso, exposure_type, command_id, engine_cut_off, extra_param, extra_value)) - - def digicam_control_encode(self, target_system, target_component, session, zoom_pos, zoom_step, focus_lock, shot, command_id, extra_param, extra_value): - ''' - Control on-board Camera Control System to take shots. - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - session : 0: stop, 1: start or keep it up //Session control e.g. show/hide lens (uint8_t) - zoom_pos : 1 to N //Zoom's absolute position (0 means ignore) (uint8_t) - zoom_step : -100 to 100 //Zooming step value to offset zoom from the current position (int8_t) - focus_lock : 0: unlock focus or keep unlocked, 1: lock focus or keep locked, 3: re-lock focus (uint8_t) - shot : 0: ignore, 1: shot or start filming (uint8_t) - command_id : Command Identity (incremental loop: 0 to 255)//A command sent multiple times will be executed or pooled just once (uint8_t) - extra_param : Extra parameters enumeration (0 means ignore) (uint8_t) - extra_value : Correspondent value to given extra_param (float) - - ''' - msg = MAVLink_digicam_control_message(target_system, target_component, session, zoom_pos, zoom_step, focus_lock, shot, command_id, extra_param, extra_value) - msg.pack(self) - return msg - - def digicam_control_send(self, target_system, target_component, session, zoom_pos, zoom_step, focus_lock, shot, command_id, extra_param, extra_value): - ''' - Control on-board Camera Control System to take shots. - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - session : 0: stop, 1: start or keep it up //Session control e.g. show/hide lens (uint8_t) - zoom_pos : 1 to N //Zoom's absolute position (0 means ignore) (uint8_t) - zoom_step : -100 to 100 //Zooming step value to offset zoom from the current position (int8_t) - focus_lock : 0: unlock focus or keep unlocked, 1: lock focus or keep locked, 3: re-lock focus (uint8_t) - shot : 0: ignore, 1: shot or start filming (uint8_t) - command_id : Command Identity (incremental loop: 0 to 255)//A command sent multiple times will be executed or pooled just once (uint8_t) - extra_param : Extra parameters enumeration (0 means ignore) (uint8_t) - extra_value : Correspondent value to given extra_param (float) - - ''' - return self.send(self.digicam_control_encode(target_system, target_component, session, zoom_pos, zoom_step, focus_lock, shot, command_id, extra_param, extra_value)) - - def mount_configure_encode(self, target_system, target_component, mount_mode, stab_roll, stab_pitch, stab_yaw): - ''' - Message to configure a camera mount, directional antenna, etc. - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - mount_mode : mount operating mode (see MAV_MOUNT_MODE enum) (uint8_t) - stab_roll : (1 = yes, 0 = no) (uint8_t) - stab_pitch : (1 = yes, 0 = no) (uint8_t) - stab_yaw : (1 = yes, 0 = no) (uint8_t) - - ''' - msg = MAVLink_mount_configure_message(target_system, target_component, mount_mode, stab_roll, stab_pitch, stab_yaw) - msg.pack(self) - return msg - - def mount_configure_send(self, target_system, target_component, mount_mode, stab_roll, stab_pitch, stab_yaw): - ''' - Message to configure a camera mount, directional antenna, etc. - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - mount_mode : mount operating mode (see MAV_MOUNT_MODE enum) (uint8_t) - stab_roll : (1 = yes, 0 = no) (uint8_t) - stab_pitch : (1 = yes, 0 = no) (uint8_t) - stab_yaw : (1 = yes, 0 = no) (uint8_t) - - ''' - return self.send(self.mount_configure_encode(target_system, target_component, mount_mode, stab_roll, stab_pitch, stab_yaw)) - - def mount_control_encode(self, target_system, target_component, input_a, input_b, input_c, save_position): - ''' - Message to control a camera mount, directional antenna, etc. - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - input_a : pitch(deg*100) or lat, depending on mount mode (int32_t) - input_b : roll(deg*100) or lon depending on mount mode (int32_t) - input_c : yaw(deg*100) or alt (in cm) depending on mount mode (int32_t) - save_position : if "1" it will save current trimmed position on EEPROM (just valid for NEUTRAL and LANDING) (uint8_t) - - ''' - msg = MAVLink_mount_control_message(target_system, target_component, input_a, input_b, input_c, save_position) - msg.pack(self) - return msg - - def mount_control_send(self, target_system, target_component, input_a, input_b, input_c, save_position): - ''' - Message to control a camera mount, directional antenna, etc. - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - input_a : pitch(deg*100) or lat, depending on mount mode (int32_t) - input_b : roll(deg*100) or lon depending on mount mode (int32_t) - input_c : yaw(deg*100) or alt (in cm) depending on mount mode (int32_t) - save_position : if "1" it will save current trimmed position on EEPROM (just valid for NEUTRAL and LANDING) (uint8_t) - - ''' - return self.send(self.mount_control_encode(target_system, target_component, input_a, input_b, input_c, save_position)) - - def mount_status_encode(self, target_system, target_component, pointing_a, pointing_b, pointing_c): - ''' - Message with some status from APM to GCS about camera or antenna mount - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - pointing_a : pitch(deg*100) or lat, depending on mount mode (int32_t) - pointing_b : roll(deg*100) or lon depending on mount mode (int32_t) - pointing_c : yaw(deg*100) or alt (in cm) depending on mount mode (int32_t) - - ''' - msg = MAVLink_mount_status_message(target_system, target_component, pointing_a, pointing_b, pointing_c) - msg.pack(self) - return msg - - def mount_status_send(self, target_system, target_component, pointing_a, pointing_b, pointing_c): - ''' - Message with some status from APM to GCS about camera or antenna mount - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - pointing_a : pitch(deg*100) or lat, depending on mount mode (int32_t) - pointing_b : roll(deg*100) or lon depending on mount mode (int32_t) - pointing_c : yaw(deg*100) or alt (in cm) depending on mount mode (int32_t) - - ''' - return self.send(self.mount_status_encode(target_system, target_component, pointing_a, pointing_b, pointing_c)) - - def fence_point_encode(self, target_system, target_component, idx, count, lat, lng): - ''' - A fence point. Used to set a point when from GCS -> MAV. - Also used to return a point from MAV -> GCS - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - idx : point index (first point is 1, 0 is for return point) (uint8_t) - count : total number of points (for sanity checking) (uint8_t) - lat : Latitude of point (float) - lng : Longitude of point (float) - - ''' - msg = MAVLink_fence_point_message(target_system, target_component, idx, count, lat, lng) - msg.pack(self) - return msg - - def fence_point_send(self, target_system, target_component, idx, count, lat, lng): - ''' - A fence point. Used to set a point when from GCS -> MAV. - Also used to return a point from MAV -> GCS - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - idx : point index (first point is 1, 0 is for return point) (uint8_t) - count : total number of points (for sanity checking) (uint8_t) - lat : Latitude of point (float) - lng : Longitude of point (float) - - ''' - return self.send(self.fence_point_encode(target_system, target_component, idx, count, lat, lng)) - - def fence_fetch_point_encode(self, target_system, target_component, idx): - ''' - Request a current fence point from MAV - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - idx : point index (first point is 1, 0 is for return point) (uint8_t) - - ''' - msg = MAVLink_fence_fetch_point_message(target_system, target_component, idx) - msg.pack(self) - return msg - - def fence_fetch_point_send(self, target_system, target_component, idx): - ''' - Request a current fence point from MAV - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - idx : point index (first point is 1, 0 is for return point) (uint8_t) - - ''' - return self.send(self.fence_fetch_point_encode(target_system, target_component, idx)) - - def fence_status_encode(self, breach_status, breach_count, breach_type, breach_time): - ''' - Status of geo-fencing. Sent in extended status stream when - fencing enabled - - breach_status : 0 if currently inside fence, 1 if outside (uint8_t) - breach_count : number of fence breaches (uint16_t) - breach_type : last breach type (see FENCE_BREACH_* enum) (uint8_t) - breach_time : time of last breach in milliseconds since boot (uint32_t) - - ''' - msg = MAVLink_fence_status_message(breach_status, breach_count, breach_type, breach_time) - msg.pack(self) - return msg - - def fence_status_send(self, breach_status, breach_count, breach_type, breach_time): - ''' - Status of geo-fencing. Sent in extended status stream when - fencing enabled - - breach_status : 0 if currently inside fence, 1 if outside (uint8_t) - breach_count : number of fence breaches (uint16_t) - breach_type : last breach type (see FENCE_BREACH_* enum) (uint8_t) - breach_time : time of last breach in milliseconds since boot (uint32_t) - - ''' - return self.send(self.fence_status_encode(breach_status, breach_count, breach_type, breach_time)) - - def ahrs_encode(self, omegaIx, omegaIy, omegaIz, accel_weight, renorm_val, error_rp, error_yaw): - ''' - Status of DCM attitude estimator - - omegaIx : X gyro drift estimate rad/s (float) - omegaIy : Y gyro drift estimate rad/s (float) - omegaIz : Z gyro drift estimate rad/s (float) - accel_weight : average accel_weight (float) - renorm_val : average renormalisation value (float) - error_rp : average error_roll_pitch value (float) - error_yaw : average error_yaw value (float) - - ''' - msg = MAVLink_ahrs_message(omegaIx, omegaIy, omegaIz, accel_weight, renorm_val, error_rp, error_yaw) - msg.pack(self) - return msg - - def ahrs_send(self, omegaIx, omegaIy, omegaIz, accel_weight, renorm_val, error_rp, error_yaw): - ''' - Status of DCM attitude estimator - - omegaIx : X gyro drift estimate rad/s (float) - omegaIy : Y gyro drift estimate rad/s (float) - omegaIz : Z gyro drift estimate rad/s (float) - accel_weight : average accel_weight (float) - renorm_val : average renormalisation value (float) - error_rp : average error_roll_pitch value (float) - error_yaw : average error_yaw value (float) - - ''' - return self.send(self.ahrs_encode(omegaIx, omegaIy, omegaIz, accel_weight, renorm_val, error_rp, error_yaw)) - - def simstate_encode(self, roll, pitch, yaw, xacc, yacc, zacc, xgyro, ygyro, zgyro): - ''' - Status of simulation environment, if used - - roll : Roll angle (rad) (float) - pitch : Pitch angle (rad) (float) - yaw : Yaw angle (rad) (float) - xacc : X acceleration m/s/s (float) - yacc : Y acceleration m/s/s (float) - zacc : Z acceleration m/s/s (float) - xgyro : Angular speed around X axis rad/s (float) - ygyro : Angular speed around Y axis rad/s (float) - zgyro : Angular speed around Z axis rad/s (float) - - ''' - msg = MAVLink_simstate_message(roll, pitch, yaw, xacc, yacc, zacc, xgyro, ygyro, zgyro) - msg.pack(self) - return msg - - def simstate_send(self, roll, pitch, yaw, xacc, yacc, zacc, xgyro, ygyro, zgyro): - ''' - Status of simulation environment, if used - - roll : Roll angle (rad) (float) - pitch : Pitch angle (rad) (float) - yaw : Yaw angle (rad) (float) - xacc : X acceleration m/s/s (float) - yacc : Y acceleration m/s/s (float) - zacc : Z acceleration m/s/s (float) - xgyro : Angular speed around X axis rad/s (float) - ygyro : Angular speed around Y axis rad/s (float) - zgyro : Angular speed around Z axis rad/s (float) - - ''' - return self.send(self.simstate_encode(roll, pitch, yaw, xacc, yacc, zacc, xgyro, ygyro, zgyro)) - - def hwstatus_encode(self, Vcc, I2Cerr): - ''' - Status of key hardware - - Vcc : board voltage (mV) (uint16_t) - I2Cerr : I2C error count (uint8_t) - - ''' - msg = MAVLink_hwstatus_message(Vcc, I2Cerr) - msg.pack(self) - return msg - - def hwstatus_send(self, Vcc, I2Cerr): - ''' - Status of key hardware - - Vcc : board voltage (mV) (uint16_t) - I2Cerr : I2C error count (uint8_t) - - ''' - return self.send(self.hwstatus_encode(Vcc, I2Cerr)) - - def radio_encode(self, rssi, remrssi, txbuf, noise, remnoise, rxerrors, fixed): - ''' - Status generated by radio - - rssi : local signal strength (uint8_t) - remrssi : remote signal strength (uint8_t) - txbuf : how full the tx buffer is as a percentage (uint8_t) - noise : background noise level (uint8_t) - remnoise : remote background noise level (uint8_t) - rxerrors : receive errors (uint16_t) - fixed : count of error corrected packets (uint16_t) - - ''' - msg = MAVLink_radio_message(rssi, remrssi, txbuf, noise, remnoise, rxerrors, fixed) - msg.pack(self) - return msg - - def radio_send(self, rssi, remrssi, txbuf, noise, remnoise, rxerrors, fixed): - ''' - Status generated by radio - - rssi : local signal strength (uint8_t) - remrssi : remote signal strength (uint8_t) - txbuf : how full the tx buffer is as a percentage (uint8_t) - noise : background noise level (uint8_t) - remnoise : remote background noise level (uint8_t) - rxerrors : receive errors (uint16_t) - fixed : count of error corrected packets (uint16_t) - - ''' - return self.send(self.radio_encode(rssi, remrssi, txbuf, noise, remnoise, rxerrors, fixed)) - - def heartbeat_encode(self, type, autopilot, base_mode, custom_mode, system_status, mavlink_version=3): - ''' - The heartbeat message shows that a system is present and responding. - The type of the MAV and Autopilot hardware allow the - receiving system to treat further messages from this - system appropriate (e.g. by laying out the user - interface based on the autopilot). - - type : Type of the MAV (quadrotor, helicopter, etc., up to 15 types, defined in MAV_TYPE ENUM) (uint8_t) - autopilot : Autopilot type / class. defined in MAV_CLASS ENUM (uint8_t) - base_mode : System mode bitfield, see MAV_MODE_FLAGS ENUM in mavlink/include/mavlink_types.h (uint8_t) - custom_mode : Navigation mode bitfield, see MAV_AUTOPILOT_CUSTOM_MODE ENUM for some examples. This field is autopilot-specific. (uint32_t) - system_status : System status flag, see MAV_STATUS ENUM (uint8_t) - mavlink_version : MAVLink version (uint8_t) - - ''' - msg = MAVLink_heartbeat_message(type, autopilot, base_mode, custom_mode, system_status, mavlink_version) - msg.pack(self) - return msg - - def heartbeat_send(self, type, autopilot, base_mode, custom_mode, system_status, mavlink_version=3): - ''' - The heartbeat message shows that a system is present and responding. - The type of the MAV and Autopilot hardware allow the - receiving system to treat further messages from this - system appropriate (e.g. by laying out the user - interface based on the autopilot). - - type : Type of the MAV (quadrotor, helicopter, etc., up to 15 types, defined in MAV_TYPE ENUM) (uint8_t) - autopilot : Autopilot type / class. defined in MAV_CLASS ENUM (uint8_t) - base_mode : System mode bitfield, see MAV_MODE_FLAGS ENUM in mavlink/include/mavlink_types.h (uint8_t) - custom_mode : Navigation mode bitfield, see MAV_AUTOPILOT_CUSTOM_MODE ENUM for some examples. This field is autopilot-specific. (uint32_t) - system_status : System status flag, see MAV_STATUS ENUM (uint8_t) - mavlink_version : MAVLink version (uint8_t) - - ''' - return self.send(self.heartbeat_encode(type, autopilot, base_mode, custom_mode, system_status, mavlink_version)) - - def sys_status_encode(self, onboard_control_sensors_present, onboard_control_sensors_enabled, onboard_control_sensors_health, load, voltage_battery, current_battery, battery_remaining, drop_rate_comm, errors_comm, errors_count1, errors_count2, errors_count3, errors_count4): - ''' - The general system state. If the system is following the MAVLink - standard, the system state is mainly defined by three - orthogonal states/modes: The system mode, which is - either LOCKED (motors shut down and locked), MANUAL - (system under RC control), GUIDED (system with - autonomous position control, position setpoint - controlled manually) or AUTO (system guided by - path/waypoint planner). The NAV_MODE defined the - current flight state: LIFTOFF (often an open-loop - maneuver), LANDING, WAYPOINTS or VECTOR. This - represents the internal navigation state machine. The - system status shows wether the system is currently - active or not and if an emergency occured. During the - CRITICAL and EMERGENCY states the MAV is still - considered to be active, but should start emergency - procedures autonomously. After a failure occured it - should first move from active to critical to allow - manual intervention and then move to emergency after a - certain timeout. - - onboard_control_sensors_present : Bitmask showing which onboard controllers and sensors are present. Value of 0: not present. Value of 1: present. Indices: 0: 3D gyro, 1: 3D acc, 2: 3D mag, 3: absolute pressure, 4: differential pressure, 5: GPS, 6: optical flow, 7: computer vision position, 8: laser based position, 9: external ground-truth (Vicon or Leica). Controllers: 10: 3D angular rate control 11: attitude stabilization, 12: yaw position, 13: z/altitude control, 14: x/y position control, 15: motor outputs / control (uint32_t) - onboard_control_sensors_enabled : Bitmask showing which onboard controllers and sensors are enabled: Value of 0: not enabled. Value of 1: enabled. Indices: 0: 3D gyro, 1: 3D acc, 2: 3D mag, 3: absolute pressure, 4: differential pressure, 5: GPS, 6: optical flow, 7: computer vision position, 8: laser based position, 9: external ground-truth (Vicon or Leica). Controllers: 10: 3D angular rate control 11: attitude stabilization, 12: yaw position, 13: z/altitude control, 14: x/y position control, 15: motor outputs / control (uint32_t) - onboard_control_sensors_health : Bitmask showing which onboard controllers and sensors are operational or have an error: Value of 0: not enabled. Value of 1: enabled. Indices: 0: 3D gyro, 1: 3D acc, 2: 3D mag, 3: absolute pressure, 4: differential pressure, 5: GPS, 6: optical flow, 7: computer vision position, 8: laser based position, 9: external ground-truth (Vicon or Leica). Controllers: 10: 3D angular rate control 11: attitude stabilization, 12: yaw position, 13: z/altitude control, 14: x/y position control, 15: motor outputs / control (uint32_t) - load : Maximum usage in percent of the mainloop time, (0%: 0, 100%: 1000) should be always below 1000 (uint16_t) - voltage_battery : Battery voltage, in millivolts (1 = 1 millivolt) (uint16_t) - current_battery : Battery current, in 10*milliamperes (1 = 10 milliampere), -1: autopilot does not measure the current (int16_t) - battery_remaining : Remaining battery energy: (0%: 0, 100%: 100), -1: autopilot estimate the remaining battery (int8_t) - drop_rate_comm : Communication drops in percent, (0%: 0, 100%: 10'000), (UART, I2C, SPI, CAN), dropped packets on all links (packets that were corrupted on reception on the MAV) (uint16_t) - errors_comm : Communication errors (UART, I2C, SPI, CAN), dropped packets on all links (packets that were corrupted on reception on the MAV) (uint16_t) - errors_count1 : Autopilot-specific errors (uint16_t) - errors_count2 : Autopilot-specific errors (uint16_t) - errors_count3 : Autopilot-specific errors (uint16_t) - errors_count4 : Autopilot-specific errors (uint16_t) - - ''' - msg = MAVLink_sys_status_message(onboard_control_sensors_present, onboard_control_sensors_enabled, onboard_control_sensors_health, load, voltage_battery, current_battery, battery_remaining, drop_rate_comm, errors_comm, errors_count1, errors_count2, errors_count3, errors_count4) - msg.pack(self) - return msg - - def sys_status_send(self, onboard_control_sensors_present, onboard_control_sensors_enabled, onboard_control_sensors_health, load, voltage_battery, current_battery, battery_remaining, drop_rate_comm, errors_comm, errors_count1, errors_count2, errors_count3, errors_count4): - ''' - The general system state. If the system is following the MAVLink - standard, the system state is mainly defined by three - orthogonal states/modes: The system mode, which is - either LOCKED (motors shut down and locked), MANUAL - (system under RC control), GUIDED (system with - autonomous position control, position setpoint - controlled manually) or AUTO (system guided by - path/waypoint planner). The NAV_MODE defined the - current flight state: LIFTOFF (often an open-loop - maneuver), LANDING, WAYPOINTS or VECTOR. This - represents the internal navigation state machine. The - system status shows wether the system is currently - active or not and if an emergency occured. During the - CRITICAL and EMERGENCY states the MAV is still - considered to be active, but should start emergency - procedures autonomously. After a failure occured it - should first move from active to critical to allow - manual intervention and then move to emergency after a - certain timeout. - - onboard_control_sensors_present : Bitmask showing which onboard controllers and sensors are present. Value of 0: not present. Value of 1: present. Indices: 0: 3D gyro, 1: 3D acc, 2: 3D mag, 3: absolute pressure, 4: differential pressure, 5: GPS, 6: optical flow, 7: computer vision position, 8: laser based position, 9: external ground-truth (Vicon or Leica). Controllers: 10: 3D angular rate control 11: attitude stabilization, 12: yaw position, 13: z/altitude control, 14: x/y position control, 15: motor outputs / control (uint32_t) - onboard_control_sensors_enabled : Bitmask showing which onboard controllers and sensors are enabled: Value of 0: not enabled. Value of 1: enabled. Indices: 0: 3D gyro, 1: 3D acc, 2: 3D mag, 3: absolute pressure, 4: differential pressure, 5: GPS, 6: optical flow, 7: computer vision position, 8: laser based position, 9: external ground-truth (Vicon or Leica). Controllers: 10: 3D angular rate control 11: attitude stabilization, 12: yaw position, 13: z/altitude control, 14: x/y position control, 15: motor outputs / control (uint32_t) - onboard_control_sensors_health : Bitmask showing which onboard controllers and sensors are operational or have an error: Value of 0: not enabled. Value of 1: enabled. Indices: 0: 3D gyro, 1: 3D acc, 2: 3D mag, 3: absolute pressure, 4: differential pressure, 5: GPS, 6: optical flow, 7: computer vision position, 8: laser based position, 9: external ground-truth (Vicon or Leica). Controllers: 10: 3D angular rate control 11: attitude stabilization, 12: yaw position, 13: z/altitude control, 14: x/y position control, 15: motor outputs / control (uint32_t) - load : Maximum usage in percent of the mainloop time, (0%: 0, 100%: 1000) should be always below 1000 (uint16_t) - voltage_battery : Battery voltage, in millivolts (1 = 1 millivolt) (uint16_t) - current_battery : Battery current, in 10*milliamperes (1 = 10 milliampere), -1: autopilot does not measure the current (int16_t) - battery_remaining : Remaining battery energy: (0%: 0, 100%: 100), -1: autopilot estimate the remaining battery (int8_t) - drop_rate_comm : Communication drops in percent, (0%: 0, 100%: 10'000), (UART, I2C, SPI, CAN), dropped packets on all links (packets that were corrupted on reception on the MAV) (uint16_t) - errors_comm : Communication errors (UART, I2C, SPI, CAN), dropped packets on all links (packets that were corrupted on reception on the MAV) (uint16_t) - errors_count1 : Autopilot-specific errors (uint16_t) - errors_count2 : Autopilot-specific errors (uint16_t) - errors_count3 : Autopilot-specific errors (uint16_t) - errors_count4 : Autopilot-specific errors (uint16_t) - - ''' - return self.send(self.sys_status_encode(onboard_control_sensors_present, onboard_control_sensors_enabled, onboard_control_sensors_health, load, voltage_battery, current_battery, battery_remaining, drop_rate_comm, errors_comm, errors_count1, errors_count2, errors_count3, errors_count4)) - - def system_time_encode(self, time_unix_usec, time_boot_ms): - ''' - The system time is the time of the master clock, typically the - computer clock of the main onboard computer. - - time_unix_usec : Timestamp of the master clock in microseconds since UNIX epoch. (uint64_t) - time_boot_ms : Timestamp of the component clock since boot time in milliseconds. (uint32_t) - - ''' - msg = MAVLink_system_time_message(time_unix_usec, time_boot_ms) - msg.pack(self) - return msg - - def system_time_send(self, time_unix_usec, time_boot_ms): - ''' - The system time is the time of the master clock, typically the - computer clock of the main onboard computer. - - time_unix_usec : Timestamp of the master clock in microseconds since UNIX epoch. (uint64_t) - time_boot_ms : Timestamp of the component clock since boot time in milliseconds. (uint32_t) - - ''' - return self.send(self.system_time_encode(time_unix_usec, time_boot_ms)) - - def ping_encode(self, time_usec, seq, target_system, target_component): - ''' - A ping message either requesting or responding to a ping. This allows - to measure the system latencies, including serial - port, radio modem and UDP connections. - - time_usec : Unix timestamp in microseconds (uint64_t) - seq : PING sequence (uint32_t) - target_system : 0: request ping from all receiving systems, if greater than 0: message is a ping response and number is the system id of the requesting system (uint8_t) - target_component : 0: request ping from all receiving components, if greater than 0: message is a ping response and number is the system id of the requesting system (uint8_t) - - ''' - msg = MAVLink_ping_message(time_usec, seq, target_system, target_component) - msg.pack(self) - return msg - - def ping_send(self, time_usec, seq, target_system, target_component): - ''' - A ping message either requesting or responding to a ping. This allows - to measure the system latencies, including serial - port, radio modem and UDP connections. - - time_usec : Unix timestamp in microseconds (uint64_t) - seq : PING sequence (uint32_t) - target_system : 0: request ping from all receiving systems, if greater than 0: message is a ping response and number is the system id of the requesting system (uint8_t) - target_component : 0: request ping from all receiving components, if greater than 0: message is a ping response and number is the system id of the requesting system (uint8_t) - - ''' - return self.send(self.ping_encode(time_usec, seq, target_system, target_component)) - - def change_operator_control_encode(self, target_system, control_request, version, passkey): - ''' - Request to control this MAV - - target_system : System the GCS requests control for (uint8_t) - control_request : 0: request control of this MAV, 1: Release control of this MAV (uint8_t) - version : 0: key as plaintext, 1-255: future, different hashing/encryption variants. The GCS should in general use the safest mode possible initially and then gradually move down the encryption level if it gets a NACK message indicating an encryption mismatch. (uint8_t) - passkey : Password / Key, depending on version plaintext or encrypted. 25 or less characters, NULL terminated. The characters may involve A-Z, a-z, 0-9, and "!?,.-" (char) - - ''' - msg = MAVLink_change_operator_control_message(target_system, control_request, version, passkey) - msg.pack(self) - return msg - - def change_operator_control_send(self, target_system, control_request, version, passkey): - ''' - Request to control this MAV - - target_system : System the GCS requests control for (uint8_t) - control_request : 0: request control of this MAV, 1: Release control of this MAV (uint8_t) - version : 0: key as plaintext, 1-255: future, different hashing/encryption variants. The GCS should in general use the safest mode possible initially and then gradually move down the encryption level if it gets a NACK message indicating an encryption mismatch. (uint8_t) - passkey : Password / Key, depending on version plaintext or encrypted. 25 or less characters, NULL terminated. The characters may involve A-Z, a-z, 0-9, and "!?,.-" (char) - - ''' - return self.send(self.change_operator_control_encode(target_system, control_request, version, passkey)) - - def change_operator_control_ack_encode(self, gcs_system_id, control_request, ack): - ''' - Accept / deny control of this MAV - - gcs_system_id : ID of the GCS this message (uint8_t) - control_request : 0: request control of this MAV, 1: Release control of this MAV (uint8_t) - ack : 0: ACK, 1: NACK: Wrong passkey, 2: NACK: Unsupported passkey encryption method, 3: NACK: Already under control (uint8_t) - - ''' - msg = MAVLink_change_operator_control_ack_message(gcs_system_id, control_request, ack) - msg.pack(self) - return msg - - def change_operator_control_ack_send(self, gcs_system_id, control_request, ack): - ''' - Accept / deny control of this MAV - - gcs_system_id : ID of the GCS this message (uint8_t) - control_request : 0: request control of this MAV, 1: Release control of this MAV (uint8_t) - ack : 0: ACK, 1: NACK: Wrong passkey, 2: NACK: Unsupported passkey encryption method, 3: NACK: Already under control (uint8_t) - - ''' - return self.send(self.change_operator_control_ack_encode(gcs_system_id, control_request, ack)) - - def auth_key_encode(self, key): - ''' - Emit an encrypted signature / key identifying this system. PLEASE - NOTE: This protocol has been kept simple, so - transmitting the key requires an encrypted channel for - true safety. - - key : key (char) - - ''' - msg = MAVLink_auth_key_message(key) - msg.pack(self) - return msg - - def auth_key_send(self, key): - ''' - Emit an encrypted signature / key identifying this system. PLEASE - NOTE: This protocol has been kept simple, so - transmitting the key requires an encrypted channel for - true safety. - - key : key (char) - - ''' - return self.send(self.auth_key_encode(key)) - - def set_mode_encode(self, target_system, base_mode, custom_mode): - ''' - Set the system mode, as defined by enum MAV_MODE. There is no target - component id as the mode is by definition for the - overall aircraft, not only for one component. - - target_system : The system setting the mode (uint8_t) - base_mode : The new base mode (uint8_t) - custom_mode : The new autopilot-specific mode. This field can be ignored by an autopilot. (uint32_t) - - ''' - msg = MAVLink_set_mode_message(target_system, base_mode, custom_mode) - msg.pack(self) - return msg - - def set_mode_send(self, target_system, base_mode, custom_mode): - ''' - Set the system mode, as defined by enum MAV_MODE. There is no target - component id as the mode is by definition for the - overall aircraft, not only for one component. - - target_system : The system setting the mode (uint8_t) - base_mode : The new base mode (uint8_t) - custom_mode : The new autopilot-specific mode. This field can be ignored by an autopilot. (uint32_t) - - ''' - return self.send(self.set_mode_encode(target_system, base_mode, custom_mode)) - - def param_request_read_encode(self, target_system, target_component, param_id, param_index): - ''' - Request to read the onboard parameter with the param_id string id. - Onboard parameters are stored as key[const char*] -> - value[float]. This allows to send a parameter to any - other component (such as the GCS) without the need of - previous knowledge of possible parameter names. Thus - the same GCS can store different parameters for - different autopilots. See also - http://qgroundcontrol.org/parameter_interface for a - full documentation of QGroundControl and IMU code. - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - param_id : Onboard parameter id (char) - param_index : Parameter index. Send -1 to use the param ID field as identifier (int16_t) - - ''' - msg = MAVLink_param_request_read_message(target_system, target_component, param_id, param_index) - msg.pack(self) - return msg - - def param_request_read_send(self, target_system, target_component, param_id, param_index): - ''' - Request to read the onboard parameter with the param_id string id. - Onboard parameters are stored as key[const char*] -> - value[float]. This allows to send a parameter to any - other component (such as the GCS) without the need of - previous knowledge of possible parameter names. Thus - the same GCS can store different parameters for - different autopilots. See also - http://qgroundcontrol.org/parameter_interface for a - full documentation of QGroundControl and IMU code. - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - param_id : Onboard parameter id (char) - param_index : Parameter index. Send -1 to use the param ID field as identifier (int16_t) - - ''' - return self.send(self.param_request_read_encode(target_system, target_component, param_id, param_index)) - - def param_request_list_encode(self, target_system, target_component): - ''' - Request all parameters of this component. After his request, all - parameters are emitted. - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - - ''' - msg = MAVLink_param_request_list_message(target_system, target_component) - msg.pack(self) - return msg - - def param_request_list_send(self, target_system, target_component): - ''' - Request all parameters of this component. After his request, all - parameters are emitted. - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - - ''' - return self.send(self.param_request_list_encode(target_system, target_component)) - - def param_value_encode(self, param_id, param_value, param_type, param_count, param_index): - ''' - Emit the value of a onboard parameter. The inclusion of param_count - and param_index in the message allows the recipient to - keep track of received parameters and allows him to - re-request missing parameters after a loss or timeout. - - param_id : Onboard parameter id (char) - param_value : Onboard parameter value (float) - param_type : Onboard parameter type: see MAV_VAR enum (uint8_t) - param_count : Total number of onboard parameters (uint16_t) - param_index : Index of this onboard parameter (uint16_t) - - ''' - msg = MAVLink_param_value_message(param_id, param_value, param_type, param_count, param_index) - msg.pack(self) - return msg - - def param_value_send(self, param_id, param_value, param_type, param_count, param_index): - ''' - Emit the value of a onboard parameter. The inclusion of param_count - and param_index in the message allows the recipient to - keep track of received parameters and allows him to - re-request missing parameters after a loss or timeout. - - param_id : Onboard parameter id (char) - param_value : Onboard parameter value (float) - param_type : Onboard parameter type: see MAV_VAR enum (uint8_t) - param_count : Total number of onboard parameters (uint16_t) - param_index : Index of this onboard parameter (uint16_t) - - ''' - return self.send(self.param_value_encode(param_id, param_value, param_type, param_count, param_index)) - - def param_set_encode(self, target_system, target_component, param_id, param_value, param_type): - ''' - Set a parameter value TEMPORARILY to RAM. It will be reset to default - on system reboot. Send the ACTION - MAV_ACTION_STORAGE_WRITE to PERMANENTLY write the RAM - contents to EEPROM. IMPORTANT: The receiving component - should acknowledge the new parameter value by sending - a param_value message to all communication partners. - This will also ensure that multiple GCS all have an - up-to-date list of all parameters. If the sending GCS - did not receive a PARAM_VALUE message within its - timeout time, it should re-send the PARAM_SET message. - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - param_id : Onboard parameter id (char) - param_value : Onboard parameter value (float) - param_type : Onboard parameter type: see MAV_VAR enum (uint8_t) - - ''' - msg = MAVLink_param_set_message(target_system, target_component, param_id, param_value, param_type) - msg.pack(self) - return msg - - def param_set_send(self, target_system, target_component, param_id, param_value, param_type): - ''' - Set a parameter value TEMPORARILY to RAM. It will be reset to default - on system reboot. Send the ACTION - MAV_ACTION_STORAGE_WRITE to PERMANENTLY write the RAM - contents to EEPROM. IMPORTANT: The receiving component - should acknowledge the new parameter value by sending - a param_value message to all communication partners. - This will also ensure that multiple GCS all have an - up-to-date list of all parameters. If the sending GCS - did not receive a PARAM_VALUE message within its - timeout time, it should re-send the PARAM_SET message. - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - param_id : Onboard parameter id (char) - param_value : Onboard parameter value (float) - param_type : Onboard parameter type: see MAV_VAR enum (uint8_t) - - ''' - return self.send(self.param_set_encode(target_system, target_component, param_id, param_value, param_type)) - - def gps_raw_int_encode(self, time_usec, fix_type, lat, lon, alt, eph, epv, vel, cog, satellites_visible): - ''' - The global position, as returned by the Global Positioning System - (GPS). This is NOT the global position - estimate of the sytem, but rather a RAW sensor value. - See message GLOBAL_POSITION for the global position - estimate. Coordinate frame is right-handed, Z-axis up - (GPS frame) - - time_usec : Timestamp (microseconds since UNIX epoch or microseconds since system boot) (uint64_t) - fix_type : 0-1: no fix, 2: 2D fix, 3: 3D fix. Some applications will not use the value of this field unless it is at least two, so always correctly fill in the fix. (uint8_t) - lat : Latitude in 1E7 degrees (int32_t) - lon : Longitude in 1E7 degrees (int32_t) - alt : Altitude in 1E3 meters (millimeters) above MSL (int32_t) - eph : GPS HDOP horizontal dilution of position in cm (m*100). If unknown, set to: 65535 (uint16_t) - epv : GPS VDOP horizontal dilution of position in cm (m*100). If unknown, set to: 65535 (uint16_t) - vel : GPS ground speed (m/s * 100). If unknown, set to: 65535 (uint16_t) - cog : Course over ground (NOT heading, but direction of movement) in degrees * 100, 0.0..359.99 degrees. If unknown, set to: 65535 (uint16_t) - satellites_visible : Number of satellites visible. If unknown, set to 255 (uint8_t) - - ''' - msg = MAVLink_gps_raw_int_message(time_usec, fix_type, lat, lon, alt, eph, epv, vel, cog, satellites_visible) - msg.pack(self) - return msg - - def gps_raw_int_send(self, time_usec, fix_type, lat, lon, alt, eph, epv, vel, cog, satellites_visible): - ''' - The global position, as returned by the Global Positioning System - (GPS). This is NOT the global position - estimate of the sytem, but rather a RAW sensor value. - See message GLOBAL_POSITION for the global position - estimate. Coordinate frame is right-handed, Z-axis up - (GPS frame) - - time_usec : Timestamp (microseconds since UNIX epoch or microseconds since system boot) (uint64_t) - fix_type : 0-1: no fix, 2: 2D fix, 3: 3D fix. Some applications will not use the value of this field unless it is at least two, so always correctly fill in the fix. (uint8_t) - lat : Latitude in 1E7 degrees (int32_t) - lon : Longitude in 1E7 degrees (int32_t) - alt : Altitude in 1E3 meters (millimeters) above MSL (int32_t) - eph : GPS HDOP horizontal dilution of position in cm (m*100). If unknown, set to: 65535 (uint16_t) - epv : GPS VDOP horizontal dilution of position in cm (m*100). If unknown, set to: 65535 (uint16_t) - vel : GPS ground speed (m/s * 100). If unknown, set to: 65535 (uint16_t) - cog : Course over ground (NOT heading, but direction of movement) in degrees * 100, 0.0..359.99 degrees. If unknown, set to: 65535 (uint16_t) - satellites_visible : Number of satellites visible. If unknown, set to 255 (uint8_t) - - ''' - return self.send(self.gps_raw_int_encode(time_usec, fix_type, lat, lon, alt, eph, epv, vel, cog, satellites_visible)) - - def gps_status_encode(self, satellites_visible, satellite_prn, satellite_used, satellite_elevation, satellite_azimuth, satellite_snr): - ''' - The positioning status, as reported by GPS. This message is intended - to display status information about each satellite - visible to the receiver. See message GLOBAL_POSITION - for the global position estimate. This message can - contain information for up to 20 satellites. - - satellites_visible : Number of satellites visible (uint8_t) - satellite_prn : Global satellite ID (uint8_t) - satellite_used : 0: Satellite not used, 1: used for localization (uint8_t) - satellite_elevation : Elevation (0: right on top of receiver, 90: on the horizon) of satellite (uint8_t) - satellite_azimuth : Direction of satellite, 0: 0 deg, 255: 360 deg. (uint8_t) - satellite_snr : Signal to noise ratio of satellite (uint8_t) - - ''' - msg = MAVLink_gps_status_message(satellites_visible, satellite_prn, satellite_used, satellite_elevation, satellite_azimuth, satellite_snr) - msg.pack(self) - return msg - - def gps_status_send(self, satellites_visible, satellite_prn, satellite_used, satellite_elevation, satellite_azimuth, satellite_snr): - ''' - The positioning status, as reported by GPS. This message is intended - to display status information about each satellite - visible to the receiver. See message GLOBAL_POSITION - for the global position estimate. This message can - contain information for up to 20 satellites. - - satellites_visible : Number of satellites visible (uint8_t) - satellite_prn : Global satellite ID (uint8_t) - satellite_used : 0: Satellite not used, 1: used for localization (uint8_t) - satellite_elevation : Elevation (0: right on top of receiver, 90: on the horizon) of satellite (uint8_t) - satellite_azimuth : Direction of satellite, 0: 0 deg, 255: 360 deg. (uint8_t) - satellite_snr : Signal to noise ratio of satellite (uint8_t) - - ''' - return self.send(self.gps_status_encode(satellites_visible, satellite_prn, satellite_used, satellite_elevation, satellite_azimuth, satellite_snr)) - - def scaled_imu_encode(self, time_boot_ms, xacc, yacc, zacc, xgyro, ygyro, zgyro, xmag, ymag, zmag): - ''' - The RAW IMU readings for the usual 9DOF sensor setup. This message - should contain the scaled values to the described - units - - time_boot_ms : Timestamp (milliseconds since system boot) (uint32_t) - xacc : X acceleration (mg) (int16_t) - yacc : Y acceleration (mg) (int16_t) - zacc : Z acceleration (mg) (int16_t) - xgyro : Angular speed around X axis (millirad /sec) (int16_t) - ygyro : Angular speed around Y axis (millirad /sec) (int16_t) - zgyro : Angular speed around Z axis (millirad /sec) (int16_t) - xmag : X Magnetic field (milli tesla) (int16_t) - ymag : Y Magnetic field (milli tesla) (int16_t) - zmag : Z Magnetic field (milli tesla) (int16_t) - - ''' - msg = MAVLink_scaled_imu_message(time_boot_ms, xacc, yacc, zacc, xgyro, ygyro, zgyro, xmag, ymag, zmag) - msg.pack(self) - return msg - - def scaled_imu_send(self, time_boot_ms, xacc, yacc, zacc, xgyro, ygyro, zgyro, xmag, ymag, zmag): - ''' - The RAW IMU readings for the usual 9DOF sensor setup. This message - should contain the scaled values to the described - units - - time_boot_ms : Timestamp (milliseconds since system boot) (uint32_t) - xacc : X acceleration (mg) (int16_t) - yacc : Y acceleration (mg) (int16_t) - zacc : Z acceleration (mg) (int16_t) - xgyro : Angular speed around X axis (millirad /sec) (int16_t) - ygyro : Angular speed around Y axis (millirad /sec) (int16_t) - zgyro : Angular speed around Z axis (millirad /sec) (int16_t) - xmag : X Magnetic field (milli tesla) (int16_t) - ymag : Y Magnetic field (milli tesla) (int16_t) - zmag : Z Magnetic field (milli tesla) (int16_t) - - ''' - return self.send(self.scaled_imu_encode(time_boot_ms, xacc, yacc, zacc, xgyro, ygyro, zgyro, xmag, ymag, zmag)) - - def raw_imu_encode(self, time_usec, xacc, yacc, zacc, xgyro, ygyro, zgyro, xmag, ymag, zmag): - ''' - The RAW IMU readings for the usual 9DOF sensor setup. This message - should always contain the true raw values without any - scaling to allow data capture and system debugging. - - time_usec : Timestamp (microseconds since UNIX epoch or microseconds since system boot) (uint64_t) - xacc : X acceleration (raw) (int16_t) - yacc : Y acceleration (raw) (int16_t) - zacc : Z acceleration (raw) (int16_t) - xgyro : Angular speed around X axis (raw) (int16_t) - ygyro : Angular speed around Y axis (raw) (int16_t) - zgyro : Angular speed around Z axis (raw) (int16_t) - xmag : X Magnetic field (raw) (int16_t) - ymag : Y Magnetic field (raw) (int16_t) - zmag : Z Magnetic field (raw) (int16_t) - - ''' - msg = MAVLink_raw_imu_message(time_usec, xacc, yacc, zacc, xgyro, ygyro, zgyro, xmag, ymag, zmag) - msg.pack(self) - return msg - - def raw_imu_send(self, time_usec, xacc, yacc, zacc, xgyro, ygyro, zgyro, xmag, ymag, zmag): - ''' - The RAW IMU readings for the usual 9DOF sensor setup. This message - should always contain the true raw values without any - scaling to allow data capture and system debugging. - - time_usec : Timestamp (microseconds since UNIX epoch or microseconds since system boot) (uint64_t) - xacc : X acceleration (raw) (int16_t) - yacc : Y acceleration (raw) (int16_t) - zacc : Z acceleration (raw) (int16_t) - xgyro : Angular speed around X axis (raw) (int16_t) - ygyro : Angular speed around Y axis (raw) (int16_t) - zgyro : Angular speed around Z axis (raw) (int16_t) - xmag : X Magnetic field (raw) (int16_t) - ymag : Y Magnetic field (raw) (int16_t) - zmag : Z Magnetic field (raw) (int16_t) - - ''' - return self.send(self.raw_imu_encode(time_usec, xacc, yacc, zacc, xgyro, ygyro, zgyro, xmag, ymag, zmag)) - - def raw_pressure_encode(self, time_usec, press_abs, press_diff1, press_diff2, temperature): - ''' - The RAW pressure readings for the typical setup of one absolute - pressure and one differential pressure sensor. The - sensor values should be the raw, UNSCALED ADC values. - - time_usec : Timestamp (microseconds since UNIX epoch or microseconds since system boot) (uint64_t) - press_abs : Absolute pressure (raw) (int16_t) - press_diff1 : Differential pressure 1 (raw) (int16_t) - press_diff2 : Differential pressure 2 (raw) (int16_t) - temperature : Raw Temperature measurement (raw) (int16_t) - - ''' - msg = MAVLink_raw_pressure_message(time_usec, press_abs, press_diff1, press_diff2, temperature) - msg.pack(self) - return msg - - def raw_pressure_send(self, time_usec, press_abs, press_diff1, press_diff2, temperature): - ''' - The RAW pressure readings for the typical setup of one absolute - pressure and one differential pressure sensor. The - sensor values should be the raw, UNSCALED ADC values. - - time_usec : Timestamp (microseconds since UNIX epoch or microseconds since system boot) (uint64_t) - press_abs : Absolute pressure (raw) (int16_t) - press_diff1 : Differential pressure 1 (raw) (int16_t) - press_diff2 : Differential pressure 2 (raw) (int16_t) - temperature : Raw Temperature measurement (raw) (int16_t) - - ''' - return self.send(self.raw_pressure_encode(time_usec, press_abs, press_diff1, press_diff2, temperature)) - - def scaled_pressure_encode(self, time_boot_ms, press_abs, press_diff, temperature): - ''' - The pressure readings for the typical setup of one absolute and - differential pressure sensor. The units are as - specified in each field. - - time_boot_ms : Timestamp (microseconds since UNIX epoch or microseconds since system boot) (uint32_t) - press_abs : Absolute pressure (hectopascal) (float) - press_diff : Differential pressure 1 (hectopascal) (float) - temperature : Temperature measurement (0.01 degrees celsius) (int16_t) - - ''' - msg = MAVLink_scaled_pressure_message(time_boot_ms, press_abs, press_diff, temperature) - msg.pack(self) - return msg - - def scaled_pressure_send(self, time_boot_ms, press_abs, press_diff, temperature): - ''' - The pressure readings for the typical setup of one absolute and - differential pressure sensor. The units are as - specified in each field. - - time_boot_ms : Timestamp (microseconds since UNIX epoch or microseconds since system boot) (uint32_t) - press_abs : Absolute pressure (hectopascal) (float) - press_diff : Differential pressure 1 (hectopascal) (float) - temperature : Temperature measurement (0.01 degrees celsius) (int16_t) - - ''' - return self.send(self.scaled_pressure_encode(time_boot_ms, press_abs, press_diff, temperature)) - - def attitude_encode(self, time_boot_ms, roll, pitch, yaw, rollspeed, pitchspeed, yawspeed): - ''' - The attitude in the aeronautical frame (right-handed, Z-down, X-front, - Y-right). - - time_boot_ms : Timestamp (milliseconds since system boot) (uint32_t) - roll : Roll angle (rad) (float) - pitch : Pitch angle (rad) (float) - yaw : Yaw angle (rad) (float) - rollspeed : Roll angular speed (rad/s) (float) - pitchspeed : Pitch angular speed (rad/s) (float) - yawspeed : Yaw angular speed (rad/s) (float) - - ''' - msg = MAVLink_attitude_message(time_boot_ms, roll, pitch, yaw, rollspeed, pitchspeed, yawspeed) - msg.pack(self) - return msg - - def attitude_send(self, time_boot_ms, roll, pitch, yaw, rollspeed, pitchspeed, yawspeed): - ''' - The attitude in the aeronautical frame (right-handed, Z-down, X-front, - Y-right). - - time_boot_ms : Timestamp (milliseconds since system boot) (uint32_t) - roll : Roll angle (rad) (float) - pitch : Pitch angle (rad) (float) - yaw : Yaw angle (rad) (float) - rollspeed : Roll angular speed (rad/s) (float) - pitchspeed : Pitch angular speed (rad/s) (float) - yawspeed : Yaw angular speed (rad/s) (float) - - ''' - return self.send(self.attitude_encode(time_boot_ms, roll, pitch, yaw, rollspeed, pitchspeed, yawspeed)) - - def attitude_quaternion_encode(self, time_boot_ms, q1, q2, q3, q4, rollspeed, pitchspeed, yawspeed): - ''' - The attitude in the aeronautical frame (right-handed, Z-down, X-front, - Y-right), expressed as quaternion. - - time_boot_ms : Timestamp (milliseconds since system boot) (uint32_t) - q1 : Quaternion component 1 (float) - q2 : Quaternion component 2 (float) - q3 : Quaternion component 3 (float) - q4 : Quaternion component 4 (float) - rollspeed : Roll angular speed (rad/s) (float) - pitchspeed : Pitch angular speed (rad/s) (float) - yawspeed : Yaw angular speed (rad/s) (float) - - ''' - msg = MAVLink_attitude_quaternion_message(time_boot_ms, q1, q2, q3, q4, rollspeed, pitchspeed, yawspeed) - msg.pack(self) - return msg - - def attitude_quaternion_send(self, time_boot_ms, q1, q2, q3, q4, rollspeed, pitchspeed, yawspeed): - ''' - The attitude in the aeronautical frame (right-handed, Z-down, X-front, - Y-right), expressed as quaternion. - - time_boot_ms : Timestamp (milliseconds since system boot) (uint32_t) - q1 : Quaternion component 1 (float) - q2 : Quaternion component 2 (float) - q3 : Quaternion component 3 (float) - q4 : Quaternion component 4 (float) - rollspeed : Roll angular speed (rad/s) (float) - pitchspeed : Pitch angular speed (rad/s) (float) - yawspeed : Yaw angular speed (rad/s) (float) - - ''' - return self.send(self.attitude_quaternion_encode(time_boot_ms, q1, q2, q3, q4, rollspeed, pitchspeed, yawspeed)) - - def local_position_ned_encode(self, time_boot_ms, x, y, z, vx, vy, vz): - ''' - The filtered local position (e.g. fused computer vision and - accelerometers). Coordinate frame is right-handed, - Z-axis down (aeronautical frame, NED / north-east-down - convention) - - time_boot_ms : Timestamp (milliseconds since system boot) (uint32_t) - x : X Position (float) - y : Y Position (float) - z : Z Position (float) - vx : X Speed (float) - vy : Y Speed (float) - vz : Z Speed (float) - - ''' - msg = MAVLink_local_position_ned_message(time_boot_ms, x, y, z, vx, vy, vz) - msg.pack(self) - return msg - - def local_position_ned_send(self, time_boot_ms, x, y, z, vx, vy, vz): - ''' - The filtered local position (e.g. fused computer vision and - accelerometers). Coordinate frame is right-handed, - Z-axis down (aeronautical frame, NED / north-east-down - convention) - - time_boot_ms : Timestamp (milliseconds since system boot) (uint32_t) - x : X Position (float) - y : Y Position (float) - z : Z Position (float) - vx : X Speed (float) - vy : Y Speed (float) - vz : Z Speed (float) - - ''' - return self.send(self.local_position_ned_encode(time_boot_ms, x, y, z, vx, vy, vz)) - - def global_position_int_encode(self, time_boot_ms, lat, lon, alt, relative_alt, vx, vy, vz, hdg): - ''' - The filtered global position (e.g. fused GPS and accelerometers). The - position is in GPS-frame (right-handed, Z-up). It - is designed as scaled integer message since the - resolution of float is not sufficient. - - time_boot_ms : Timestamp (milliseconds since system boot) (uint32_t) - lat : Latitude, expressed as * 1E7 (int32_t) - lon : Longitude, expressed as * 1E7 (int32_t) - alt : Altitude in meters, expressed as * 1000 (millimeters), above MSL (int32_t) - relative_alt : Altitude above ground in meters, expressed as * 1000 (millimeters) (int32_t) - vx : Ground X Speed (Latitude), expressed as m/s * 100 (int16_t) - vy : Ground Y Speed (Longitude), expressed as m/s * 100 (int16_t) - vz : Ground Z Speed (Altitude), expressed as m/s * 100 (int16_t) - hdg : Compass heading in degrees * 100, 0.0..359.99 degrees. If unknown, set to: 65535 (uint16_t) - - ''' - msg = MAVLink_global_position_int_message(time_boot_ms, lat, lon, alt, relative_alt, vx, vy, vz, hdg) - msg.pack(self) - return msg - - def global_position_int_send(self, time_boot_ms, lat, lon, alt, relative_alt, vx, vy, vz, hdg): - ''' - The filtered global position (e.g. fused GPS and accelerometers). The - position is in GPS-frame (right-handed, Z-up). It - is designed as scaled integer message since the - resolution of float is not sufficient. - - time_boot_ms : Timestamp (milliseconds since system boot) (uint32_t) - lat : Latitude, expressed as * 1E7 (int32_t) - lon : Longitude, expressed as * 1E7 (int32_t) - alt : Altitude in meters, expressed as * 1000 (millimeters), above MSL (int32_t) - relative_alt : Altitude above ground in meters, expressed as * 1000 (millimeters) (int32_t) - vx : Ground X Speed (Latitude), expressed as m/s * 100 (int16_t) - vy : Ground Y Speed (Longitude), expressed as m/s * 100 (int16_t) - vz : Ground Z Speed (Altitude), expressed as m/s * 100 (int16_t) - hdg : Compass heading in degrees * 100, 0.0..359.99 degrees. If unknown, set to: 65535 (uint16_t) - - ''' - return self.send(self.global_position_int_encode(time_boot_ms, lat, lon, alt, relative_alt, vx, vy, vz, hdg)) - - def rc_channels_scaled_encode(self, time_boot_ms, port, chan1_scaled, chan2_scaled, chan3_scaled, chan4_scaled, chan5_scaled, chan6_scaled, chan7_scaled, chan8_scaled, rssi): - ''' - The scaled values of the RC channels received. (-100%) -10000, (0%) 0, - (100%) 10000 - - time_boot_ms : Timestamp (milliseconds since system boot) (uint32_t) - port : Servo output port (set of 8 outputs = 1 port). Most MAVs will just use one, but this allows to encode more than 8 servos. (uint8_t) - chan1_scaled : RC channel 1 value scaled, (-100%) -10000, (0%) 0, (100%) 10000 (int16_t) - chan2_scaled : RC channel 2 value scaled, (-100%) -10000, (0%) 0, (100%) 10000 (int16_t) - chan3_scaled : RC channel 3 value scaled, (-100%) -10000, (0%) 0, (100%) 10000 (int16_t) - chan4_scaled : RC channel 4 value scaled, (-100%) -10000, (0%) 0, (100%) 10000 (int16_t) - chan5_scaled : RC channel 5 value scaled, (-100%) -10000, (0%) 0, (100%) 10000 (int16_t) - chan6_scaled : RC channel 6 value scaled, (-100%) -10000, (0%) 0, (100%) 10000 (int16_t) - chan7_scaled : RC channel 7 value scaled, (-100%) -10000, (0%) 0, (100%) 10000 (int16_t) - chan8_scaled : RC channel 8 value scaled, (-100%) -10000, (0%) 0, (100%) 10000 (int16_t) - rssi : Receive signal strength indicator, 0: 0%, 255: 100% (uint8_t) - - ''' - msg = MAVLink_rc_channels_scaled_message(time_boot_ms, port, chan1_scaled, chan2_scaled, chan3_scaled, chan4_scaled, chan5_scaled, chan6_scaled, chan7_scaled, chan8_scaled, rssi) - msg.pack(self) - return msg - - def rc_channels_scaled_send(self, time_boot_ms, port, chan1_scaled, chan2_scaled, chan3_scaled, chan4_scaled, chan5_scaled, chan6_scaled, chan7_scaled, chan8_scaled, rssi): - ''' - The scaled values of the RC channels received. (-100%) -10000, (0%) 0, - (100%) 10000 - - time_boot_ms : Timestamp (milliseconds since system boot) (uint32_t) - port : Servo output port (set of 8 outputs = 1 port). Most MAVs will just use one, but this allows to encode more than 8 servos. (uint8_t) - chan1_scaled : RC channel 1 value scaled, (-100%) -10000, (0%) 0, (100%) 10000 (int16_t) - chan2_scaled : RC channel 2 value scaled, (-100%) -10000, (0%) 0, (100%) 10000 (int16_t) - chan3_scaled : RC channel 3 value scaled, (-100%) -10000, (0%) 0, (100%) 10000 (int16_t) - chan4_scaled : RC channel 4 value scaled, (-100%) -10000, (0%) 0, (100%) 10000 (int16_t) - chan5_scaled : RC channel 5 value scaled, (-100%) -10000, (0%) 0, (100%) 10000 (int16_t) - chan6_scaled : RC channel 6 value scaled, (-100%) -10000, (0%) 0, (100%) 10000 (int16_t) - chan7_scaled : RC channel 7 value scaled, (-100%) -10000, (0%) 0, (100%) 10000 (int16_t) - chan8_scaled : RC channel 8 value scaled, (-100%) -10000, (0%) 0, (100%) 10000 (int16_t) - rssi : Receive signal strength indicator, 0: 0%, 255: 100% (uint8_t) - - ''' - return self.send(self.rc_channels_scaled_encode(time_boot_ms, port, chan1_scaled, chan2_scaled, chan3_scaled, chan4_scaled, chan5_scaled, chan6_scaled, chan7_scaled, chan8_scaled, rssi)) - - def rc_channels_raw_encode(self, time_boot_ms, port, chan1_raw, chan2_raw, chan3_raw, chan4_raw, chan5_raw, chan6_raw, chan7_raw, chan8_raw, rssi): - ''' - The RAW values of the RC channels received. The standard PPM - modulation is as follows: 1000 microseconds: 0%, 2000 - microseconds: 100%. Individual receivers/transmitters - might violate this specification. - - time_boot_ms : Timestamp (milliseconds since system boot) (uint32_t) - port : Servo output port (set of 8 outputs = 1 port). Most MAVs will just use one, but this allows to encode more than 8 servos. (uint8_t) - chan1_raw : RC channel 1 value, in microseconds (uint16_t) - chan2_raw : RC channel 2 value, in microseconds (uint16_t) - chan3_raw : RC channel 3 value, in microseconds (uint16_t) - chan4_raw : RC channel 4 value, in microseconds (uint16_t) - chan5_raw : RC channel 5 value, in microseconds (uint16_t) - chan6_raw : RC channel 6 value, in microseconds (uint16_t) - chan7_raw : RC channel 7 value, in microseconds (uint16_t) - chan8_raw : RC channel 8 value, in microseconds (uint16_t) - rssi : Receive signal strength indicator, 0: 0%, 255: 100% (uint8_t) - - ''' - msg = MAVLink_rc_channels_raw_message(time_boot_ms, port, chan1_raw, chan2_raw, chan3_raw, chan4_raw, chan5_raw, chan6_raw, chan7_raw, chan8_raw, rssi) - msg.pack(self) - return msg - - def rc_channels_raw_send(self, time_boot_ms, port, chan1_raw, chan2_raw, chan3_raw, chan4_raw, chan5_raw, chan6_raw, chan7_raw, chan8_raw, rssi): - ''' - The RAW values of the RC channels received. The standard PPM - modulation is as follows: 1000 microseconds: 0%, 2000 - microseconds: 100%. Individual receivers/transmitters - might violate this specification. - - time_boot_ms : Timestamp (milliseconds since system boot) (uint32_t) - port : Servo output port (set of 8 outputs = 1 port). Most MAVs will just use one, but this allows to encode more than 8 servos. (uint8_t) - chan1_raw : RC channel 1 value, in microseconds (uint16_t) - chan2_raw : RC channel 2 value, in microseconds (uint16_t) - chan3_raw : RC channel 3 value, in microseconds (uint16_t) - chan4_raw : RC channel 4 value, in microseconds (uint16_t) - chan5_raw : RC channel 5 value, in microseconds (uint16_t) - chan6_raw : RC channel 6 value, in microseconds (uint16_t) - chan7_raw : RC channel 7 value, in microseconds (uint16_t) - chan8_raw : RC channel 8 value, in microseconds (uint16_t) - rssi : Receive signal strength indicator, 0: 0%, 255: 100% (uint8_t) - - ''' - return self.send(self.rc_channels_raw_encode(time_boot_ms, port, chan1_raw, chan2_raw, chan3_raw, chan4_raw, chan5_raw, chan6_raw, chan7_raw, chan8_raw, rssi)) - - def servo_output_raw_encode(self, time_usec, port, servo1_raw, servo2_raw, servo3_raw, servo4_raw, servo5_raw, servo6_raw, servo7_raw, servo8_raw): - ''' - The RAW values of the servo outputs (for RC input from the remote, use - the RC_CHANNELS messages). The standard PPM modulation - is as follows: 1000 microseconds: 0%, 2000 - microseconds: 100%. - - time_usec : Timestamp (since UNIX epoch or microseconds since system boot) (uint32_t) - port : Servo output port (set of 8 outputs = 1 port). Most MAVs will just use one, but this allows to encode more than 8 servos. (uint8_t) - servo1_raw : Servo output 1 value, in microseconds (uint16_t) - servo2_raw : Servo output 2 value, in microseconds (uint16_t) - servo3_raw : Servo output 3 value, in microseconds (uint16_t) - servo4_raw : Servo output 4 value, in microseconds (uint16_t) - servo5_raw : Servo output 5 value, in microseconds (uint16_t) - servo6_raw : Servo output 6 value, in microseconds (uint16_t) - servo7_raw : Servo output 7 value, in microseconds (uint16_t) - servo8_raw : Servo output 8 value, in microseconds (uint16_t) - - ''' - msg = MAVLink_servo_output_raw_message(time_usec, port, servo1_raw, servo2_raw, servo3_raw, servo4_raw, servo5_raw, servo6_raw, servo7_raw, servo8_raw) - msg.pack(self) - return msg - - def servo_output_raw_send(self, time_usec, port, servo1_raw, servo2_raw, servo3_raw, servo4_raw, servo5_raw, servo6_raw, servo7_raw, servo8_raw): - ''' - The RAW values of the servo outputs (for RC input from the remote, use - the RC_CHANNELS messages). The standard PPM modulation - is as follows: 1000 microseconds: 0%, 2000 - microseconds: 100%. - - time_usec : Timestamp (since UNIX epoch or microseconds since system boot) (uint32_t) - port : Servo output port (set of 8 outputs = 1 port). Most MAVs will just use one, but this allows to encode more than 8 servos. (uint8_t) - servo1_raw : Servo output 1 value, in microseconds (uint16_t) - servo2_raw : Servo output 2 value, in microseconds (uint16_t) - servo3_raw : Servo output 3 value, in microseconds (uint16_t) - servo4_raw : Servo output 4 value, in microseconds (uint16_t) - servo5_raw : Servo output 5 value, in microseconds (uint16_t) - servo6_raw : Servo output 6 value, in microseconds (uint16_t) - servo7_raw : Servo output 7 value, in microseconds (uint16_t) - servo8_raw : Servo output 8 value, in microseconds (uint16_t) - - ''' - return self.send(self.servo_output_raw_encode(time_usec, port, servo1_raw, servo2_raw, servo3_raw, servo4_raw, servo5_raw, servo6_raw, servo7_raw, servo8_raw)) - - def mission_request_partial_list_encode(self, target_system, target_component, start_index, end_index): - ''' - Request the overall list of MISSIONs from the system/component. - http://qgroundcontrol.org/mavlink/waypoint_protocol - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - start_index : Start index, 0 by default (int16_t) - end_index : End index, -1 by default (-1: send list to end). Else a valid index of the list (int16_t) - - ''' - msg = MAVLink_mission_request_partial_list_message(target_system, target_component, start_index, end_index) - msg.pack(self) - return msg - - def mission_request_partial_list_send(self, target_system, target_component, start_index, end_index): - ''' - Request the overall list of MISSIONs from the system/component. - http://qgroundcontrol.org/mavlink/waypoint_protocol - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - start_index : Start index, 0 by default (int16_t) - end_index : End index, -1 by default (-1: send list to end). Else a valid index of the list (int16_t) - - ''' - return self.send(self.mission_request_partial_list_encode(target_system, target_component, start_index, end_index)) - - def mission_write_partial_list_encode(self, target_system, target_component, start_index, end_index): - ''' - This message is sent to the MAV to write a partial list. If start - index == end index, only one item will be transmitted - / updated. If the start index is NOT 0 and above the - current list size, this request should be REJECTED! - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - start_index : Start index, 0 by default and smaller / equal to the largest index of the current onboard list. (int16_t) - end_index : End index, equal or greater than start index. (int16_t) - - ''' - msg = MAVLink_mission_write_partial_list_message(target_system, target_component, start_index, end_index) - msg.pack(self) - return msg - - def mission_write_partial_list_send(self, target_system, target_component, start_index, end_index): - ''' - This message is sent to the MAV to write a partial list. If start - index == end index, only one item will be transmitted - / updated. If the start index is NOT 0 and above the - current list size, this request should be REJECTED! - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - start_index : Start index, 0 by default and smaller / equal to the largest index of the current onboard list. (int16_t) - end_index : End index, equal or greater than start index. (int16_t) - - ''' - return self.send(self.mission_write_partial_list_encode(target_system, target_component, start_index, end_index)) - - def mission_item_encode(self, target_system, target_component, seq, frame, command, current, autocontinue, param1, param2, param3, param4, x, y, z): - ''' - Message encoding a mission item. This message is emitted to announce - the presence of a mission item and to set a mission - item on the system. The mission item can be either in - x, y, z meters (type: LOCAL) or x:lat, y:lon, - z:altitude. Local frame is Z-down, right handed (NED), - global frame is Z-up, right handed (ENU). - http://qgroundcontrol.org/mavlink/waypoint_protocol - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - seq : Sequence (uint16_t) - frame : The coordinate system of the MISSION. see MAV_FRAME in mavlink_types.h (uint8_t) - command : The scheduled action for the MISSION. see MAV_CMD in common.xml MAVLink specs (uint16_t) - current : false:0, true:1 (uint8_t) - autocontinue : autocontinue to next wp (uint8_t) - param1 : PARAM1 / For NAV command MISSIONs: Radius in which the MISSION is accepted as reached, in meters (float) - param2 : PARAM2 / For NAV command MISSIONs: Time that the MAV should stay inside the PARAM1 radius before advancing, in milliseconds (float) - param3 : PARAM3 / For LOITER command MISSIONs: Orbit to circle around the MISSION, in meters. If positive the orbit direction should be clockwise, if negative the orbit direction should be counter-clockwise. (float) - param4 : PARAM4 / For NAV and LOITER command MISSIONs: Yaw orientation in degrees, [0..360] 0 = NORTH (float) - x : PARAM5 / local: x position, global: latitude (float) - y : PARAM6 / y position: global: longitude (float) - z : PARAM7 / z position: global: altitude (float) - - ''' - msg = MAVLink_mission_item_message(target_system, target_component, seq, frame, command, current, autocontinue, param1, param2, param3, param4, x, y, z) - msg.pack(self) - return msg - - def mission_item_send(self, target_system, target_component, seq, frame, command, current, autocontinue, param1, param2, param3, param4, x, y, z): - ''' - Message encoding a mission item. This message is emitted to announce - the presence of a mission item and to set a mission - item on the system. The mission item can be either in - x, y, z meters (type: LOCAL) or x:lat, y:lon, - z:altitude. Local frame is Z-down, right handed (NED), - global frame is Z-up, right handed (ENU). - http://qgroundcontrol.org/mavlink/waypoint_protocol - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - seq : Sequence (uint16_t) - frame : The coordinate system of the MISSION. see MAV_FRAME in mavlink_types.h (uint8_t) - command : The scheduled action for the MISSION. see MAV_CMD in common.xml MAVLink specs (uint16_t) - current : false:0, true:1 (uint8_t) - autocontinue : autocontinue to next wp (uint8_t) - param1 : PARAM1 / For NAV command MISSIONs: Radius in which the MISSION is accepted as reached, in meters (float) - param2 : PARAM2 / For NAV command MISSIONs: Time that the MAV should stay inside the PARAM1 radius before advancing, in milliseconds (float) - param3 : PARAM3 / For LOITER command MISSIONs: Orbit to circle around the MISSION, in meters. If positive the orbit direction should be clockwise, if negative the orbit direction should be counter-clockwise. (float) - param4 : PARAM4 / For NAV and LOITER command MISSIONs: Yaw orientation in degrees, [0..360] 0 = NORTH (float) - x : PARAM5 / local: x position, global: latitude (float) - y : PARAM6 / y position: global: longitude (float) - z : PARAM7 / z position: global: altitude (float) - - ''' - return self.send(self.mission_item_encode(target_system, target_component, seq, frame, command, current, autocontinue, param1, param2, param3, param4, x, y, z)) - - def mission_request_encode(self, target_system, target_component, seq): - ''' - Request the information of the mission item with the sequence number - seq. The response of the system to this message should - be a MISSION_ITEM message. - http://qgroundcontrol.org/mavlink/waypoint_protocol - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - seq : Sequence (uint16_t) - - ''' - msg = MAVLink_mission_request_message(target_system, target_component, seq) - msg.pack(self) - return msg - - def mission_request_send(self, target_system, target_component, seq): - ''' - Request the information of the mission item with the sequence number - seq. The response of the system to this message should - be a MISSION_ITEM message. - http://qgroundcontrol.org/mavlink/waypoint_protocol - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - seq : Sequence (uint16_t) - - ''' - return self.send(self.mission_request_encode(target_system, target_component, seq)) - - def mission_set_current_encode(self, target_system, target_component, seq): - ''' - Set the mission item with sequence number seq as current item. This - means that the MAV will continue to this mission item - on the shortest path (not following the mission items - in-between). - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - seq : Sequence (uint16_t) - - ''' - msg = MAVLink_mission_set_current_message(target_system, target_component, seq) - msg.pack(self) - return msg - - def mission_set_current_send(self, target_system, target_component, seq): - ''' - Set the mission item with sequence number seq as current item. This - means that the MAV will continue to this mission item - on the shortest path (not following the mission items - in-between). - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - seq : Sequence (uint16_t) - - ''' - return self.send(self.mission_set_current_encode(target_system, target_component, seq)) - - def mission_current_encode(self, seq): - ''' - Message that announces the sequence number of the current active - mission item. The MAV will fly towards this mission - item. - - seq : Sequence (uint16_t) - - ''' - msg = MAVLink_mission_current_message(seq) - msg.pack(self) - return msg - - def mission_current_send(self, seq): - ''' - Message that announces the sequence number of the current active - mission item. The MAV will fly towards this mission - item. - - seq : Sequence (uint16_t) - - ''' - return self.send(self.mission_current_encode(seq)) - - def mission_request_list_encode(self, target_system, target_component): - ''' - Request the overall list of mission items from the system/component. - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - - ''' - msg = MAVLink_mission_request_list_message(target_system, target_component) - msg.pack(self) - return msg - - def mission_request_list_send(self, target_system, target_component): - ''' - Request the overall list of mission items from the system/component. - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - - ''' - return self.send(self.mission_request_list_encode(target_system, target_component)) - - def mission_count_encode(self, target_system, target_component, count): - ''' - This message is emitted as response to MISSION_REQUEST_LIST by the MAV - and to initiate a write transaction. The GCS can then - request the individual mission item based on the - knowledge of the total number of MISSIONs. - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - count : Number of mission items in the sequence (uint16_t) - - ''' - msg = MAVLink_mission_count_message(target_system, target_component, count) - msg.pack(self) - return msg - - def mission_count_send(self, target_system, target_component, count): - ''' - This message is emitted as response to MISSION_REQUEST_LIST by the MAV - and to initiate a write transaction. The GCS can then - request the individual mission item based on the - knowledge of the total number of MISSIONs. - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - count : Number of mission items in the sequence (uint16_t) - - ''' - return self.send(self.mission_count_encode(target_system, target_component, count)) - - def mission_clear_all_encode(self, target_system, target_component): - ''' - Delete all mission items at once. - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - - ''' - msg = MAVLink_mission_clear_all_message(target_system, target_component) - msg.pack(self) - return msg - - def mission_clear_all_send(self, target_system, target_component): - ''' - Delete all mission items at once. - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - - ''' - return self.send(self.mission_clear_all_encode(target_system, target_component)) - - def mission_item_reached_encode(self, seq): - ''' - A certain mission item has been reached. The system will either hold - this position (or circle on the orbit) or (if the - autocontinue on the WP was set) continue to the next - MISSION. - - seq : Sequence (uint16_t) - - ''' - msg = MAVLink_mission_item_reached_message(seq) - msg.pack(self) - return msg - - def mission_item_reached_send(self, seq): - ''' - A certain mission item has been reached. The system will either hold - this position (or circle on the orbit) or (if the - autocontinue on the WP was set) continue to the next - MISSION. - - seq : Sequence (uint16_t) - - ''' - return self.send(self.mission_item_reached_encode(seq)) - - def mission_ack_encode(self, target_system, target_component, type): - ''' - Ack message during MISSION handling. The type field states if this - message is a positive ack (type=0) or if an error - happened (type=non-zero). - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - type : See MAV_MISSION_RESULT enum (uint8_t) - - ''' - msg = MAVLink_mission_ack_message(target_system, target_component, type) - msg.pack(self) - return msg - - def mission_ack_send(self, target_system, target_component, type): - ''' - Ack message during MISSION handling. The type field states if this - message is a positive ack (type=0) or if an error - happened (type=non-zero). - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - type : See MAV_MISSION_RESULT enum (uint8_t) - - ''' - return self.send(self.mission_ack_encode(target_system, target_component, type)) - - def set_gps_global_origin_encode(self, target_system, latitude, longitude, altitude): - ''' - As local MISSIONs exist, the global MISSION reference allows to - transform between the local coordinate frame and the - global (GPS) coordinate frame. This can be necessary - when e.g. in- and outdoor settings are connected and - the MAV should move from in- to outdoor. - - target_system : System ID (uint8_t) - latitude : global position * 1E7 (int32_t) - longitude : global position * 1E7 (int32_t) - altitude : global position * 1000 (int32_t) - - ''' - msg = MAVLink_set_gps_global_origin_message(target_system, latitude, longitude, altitude) - msg.pack(self) - return msg - - def set_gps_global_origin_send(self, target_system, latitude, longitude, altitude): - ''' - As local MISSIONs exist, the global MISSION reference allows to - transform between the local coordinate frame and the - global (GPS) coordinate frame. This can be necessary - when e.g. in- and outdoor settings are connected and - the MAV should move from in- to outdoor. - - target_system : System ID (uint8_t) - latitude : global position * 1E7 (int32_t) - longitude : global position * 1E7 (int32_t) - altitude : global position * 1000 (int32_t) - - ''' - return self.send(self.set_gps_global_origin_encode(target_system, latitude, longitude, altitude)) - - def gps_global_origin_encode(self, latitude, longitude, altitude): - ''' - Once the MAV sets a new GPS-Local correspondence, this message - announces the origin (0,0,0) position - - latitude : Latitude (WGS84), expressed as * 1E7 (int32_t) - longitude : Longitude (WGS84), expressed as * 1E7 (int32_t) - altitude : Altitude(WGS84), expressed as * 1000 (int32_t) - - ''' - msg = MAVLink_gps_global_origin_message(latitude, longitude, altitude) - msg.pack(self) - return msg - - def gps_global_origin_send(self, latitude, longitude, altitude): - ''' - Once the MAV sets a new GPS-Local correspondence, this message - announces the origin (0,0,0) position - - latitude : Latitude (WGS84), expressed as * 1E7 (int32_t) - longitude : Longitude (WGS84), expressed as * 1E7 (int32_t) - altitude : Altitude(WGS84), expressed as * 1000 (int32_t) - - ''' - return self.send(self.gps_global_origin_encode(latitude, longitude, altitude)) - - def set_local_position_setpoint_encode(self, target_system, target_component, coordinate_frame, x, y, z, yaw): - ''' - Set the setpoint for a local position controller. This is the position - in local coordinates the MAV should fly to. This - message is sent by the path/MISSION planner to the - onboard position controller. As some MAVs have a - degree of freedom in yaw (e.g. all - helicopters/quadrotors), the desired yaw angle is part - of the message. - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - coordinate_frame : Coordinate frame - valid values are only MAV_FRAME_LOCAL_NED or MAV_FRAME_LOCAL_ENU (uint8_t) - x : x position (float) - y : y position (float) - z : z position (float) - yaw : Desired yaw angle (float) - - ''' - msg = MAVLink_set_local_position_setpoint_message(target_system, target_component, coordinate_frame, x, y, z, yaw) - msg.pack(self) - return msg - - def set_local_position_setpoint_send(self, target_system, target_component, coordinate_frame, x, y, z, yaw): - ''' - Set the setpoint for a local position controller. This is the position - in local coordinates the MAV should fly to. This - message is sent by the path/MISSION planner to the - onboard position controller. As some MAVs have a - degree of freedom in yaw (e.g. all - helicopters/quadrotors), the desired yaw angle is part - of the message. - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - coordinate_frame : Coordinate frame - valid values are only MAV_FRAME_LOCAL_NED or MAV_FRAME_LOCAL_ENU (uint8_t) - x : x position (float) - y : y position (float) - z : z position (float) - yaw : Desired yaw angle (float) - - ''' - return self.send(self.set_local_position_setpoint_encode(target_system, target_component, coordinate_frame, x, y, z, yaw)) - - def local_position_setpoint_encode(self, coordinate_frame, x, y, z, yaw): - ''' - Transmit the current local setpoint of the controller to other MAVs - (collision avoidance) and to the GCS. - - coordinate_frame : Coordinate frame - valid values are only MAV_FRAME_LOCAL_NED or MAV_FRAME_LOCAL_ENU (uint8_t) - x : x position (float) - y : y position (float) - z : z position (float) - yaw : Desired yaw angle (float) - - ''' - msg = MAVLink_local_position_setpoint_message(coordinate_frame, x, y, z, yaw) - msg.pack(self) - return msg - - def local_position_setpoint_send(self, coordinate_frame, x, y, z, yaw): - ''' - Transmit the current local setpoint of the controller to other MAVs - (collision avoidance) and to the GCS. - - coordinate_frame : Coordinate frame - valid values are only MAV_FRAME_LOCAL_NED or MAV_FRAME_LOCAL_ENU (uint8_t) - x : x position (float) - y : y position (float) - z : z position (float) - yaw : Desired yaw angle (float) - - ''' - return self.send(self.local_position_setpoint_encode(coordinate_frame, x, y, z, yaw)) - - def global_position_setpoint_int_encode(self, coordinate_frame, latitude, longitude, altitude, yaw): - ''' - Transmit the current local setpoint of the controller to other MAVs - (collision avoidance) and to the GCS. - - coordinate_frame : Coordinate frame - valid values are only MAV_FRAME_GLOBAL or MAV_FRAME_GLOBAL_RELATIVE_ALT (uint8_t) - latitude : WGS84 Latitude position in degrees * 1E7 (int32_t) - longitude : WGS84 Longitude position in degrees * 1E7 (int32_t) - altitude : WGS84 Altitude in meters * 1000 (positive for up) (int32_t) - yaw : Desired yaw angle in degrees * 100 (int16_t) - - ''' - msg = MAVLink_global_position_setpoint_int_message(coordinate_frame, latitude, longitude, altitude, yaw) - msg.pack(self) - return msg - - def global_position_setpoint_int_send(self, coordinate_frame, latitude, longitude, altitude, yaw): - ''' - Transmit the current local setpoint of the controller to other MAVs - (collision avoidance) and to the GCS. - - coordinate_frame : Coordinate frame - valid values are only MAV_FRAME_GLOBAL or MAV_FRAME_GLOBAL_RELATIVE_ALT (uint8_t) - latitude : WGS84 Latitude position in degrees * 1E7 (int32_t) - longitude : WGS84 Longitude position in degrees * 1E7 (int32_t) - altitude : WGS84 Altitude in meters * 1000 (positive for up) (int32_t) - yaw : Desired yaw angle in degrees * 100 (int16_t) - - ''' - return self.send(self.global_position_setpoint_int_encode(coordinate_frame, latitude, longitude, altitude, yaw)) - - def set_global_position_setpoint_int_encode(self, coordinate_frame, latitude, longitude, altitude, yaw): - ''' - Set the current global position setpoint. - - coordinate_frame : Coordinate frame - valid values are only MAV_FRAME_GLOBAL or MAV_FRAME_GLOBAL_RELATIVE_ALT (uint8_t) - latitude : WGS84 Latitude position in degrees * 1E7 (int32_t) - longitude : WGS84 Longitude position in degrees * 1E7 (int32_t) - altitude : WGS84 Altitude in meters * 1000 (positive for up) (int32_t) - yaw : Desired yaw angle in degrees * 100 (int16_t) - - ''' - msg = MAVLink_set_global_position_setpoint_int_message(coordinate_frame, latitude, longitude, altitude, yaw) - msg.pack(self) - return msg - - def set_global_position_setpoint_int_send(self, coordinate_frame, latitude, longitude, altitude, yaw): - ''' - Set the current global position setpoint. - - coordinate_frame : Coordinate frame - valid values are only MAV_FRAME_GLOBAL or MAV_FRAME_GLOBAL_RELATIVE_ALT (uint8_t) - latitude : WGS84 Latitude position in degrees * 1E7 (int32_t) - longitude : WGS84 Longitude position in degrees * 1E7 (int32_t) - altitude : WGS84 Altitude in meters * 1000 (positive for up) (int32_t) - yaw : Desired yaw angle in degrees * 100 (int16_t) - - ''' - return self.send(self.set_global_position_setpoint_int_encode(coordinate_frame, latitude, longitude, altitude, yaw)) - - def safety_set_allowed_area_encode(self, target_system, target_component, frame, p1x, p1y, p1z, p2x, p2y, p2z): - ''' - Set a safety zone (volume), which is defined by two corners of a cube. - This message can be used to tell the MAV which - setpoints/MISSIONs to accept and which to reject. - Safety areas are often enforced by national or - competition regulations. - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - frame : Coordinate frame, as defined by MAV_FRAME enum in mavlink_types.h. Can be either global, GPS, right-handed with Z axis up or local, right handed, Z axis down. (uint8_t) - p1x : x position 1 / Latitude 1 (float) - p1y : y position 1 / Longitude 1 (float) - p1z : z position 1 / Altitude 1 (float) - p2x : x position 2 / Latitude 2 (float) - p2y : y position 2 / Longitude 2 (float) - p2z : z position 2 / Altitude 2 (float) - - ''' - msg = MAVLink_safety_set_allowed_area_message(target_system, target_component, frame, p1x, p1y, p1z, p2x, p2y, p2z) - msg.pack(self) - return msg - - def safety_set_allowed_area_send(self, target_system, target_component, frame, p1x, p1y, p1z, p2x, p2y, p2z): - ''' - Set a safety zone (volume), which is defined by two corners of a cube. - This message can be used to tell the MAV which - setpoints/MISSIONs to accept and which to reject. - Safety areas are often enforced by national or - competition regulations. - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - frame : Coordinate frame, as defined by MAV_FRAME enum in mavlink_types.h. Can be either global, GPS, right-handed with Z axis up or local, right handed, Z axis down. (uint8_t) - p1x : x position 1 / Latitude 1 (float) - p1y : y position 1 / Longitude 1 (float) - p1z : z position 1 / Altitude 1 (float) - p2x : x position 2 / Latitude 2 (float) - p2y : y position 2 / Longitude 2 (float) - p2z : z position 2 / Altitude 2 (float) - - ''' - return self.send(self.safety_set_allowed_area_encode(target_system, target_component, frame, p1x, p1y, p1z, p2x, p2y, p2z)) - - def safety_allowed_area_encode(self, frame, p1x, p1y, p1z, p2x, p2y, p2z): - ''' - Read out the safety zone the MAV currently assumes. - - frame : Coordinate frame, as defined by MAV_FRAME enum in mavlink_types.h. Can be either global, GPS, right-handed with Z axis up or local, right handed, Z axis down. (uint8_t) - p1x : x position 1 / Latitude 1 (float) - p1y : y position 1 / Longitude 1 (float) - p1z : z position 1 / Altitude 1 (float) - p2x : x position 2 / Latitude 2 (float) - p2y : y position 2 / Longitude 2 (float) - p2z : z position 2 / Altitude 2 (float) - - ''' - msg = MAVLink_safety_allowed_area_message(frame, p1x, p1y, p1z, p2x, p2y, p2z) - msg.pack(self) - return msg - - def safety_allowed_area_send(self, frame, p1x, p1y, p1z, p2x, p2y, p2z): - ''' - Read out the safety zone the MAV currently assumes. - - frame : Coordinate frame, as defined by MAV_FRAME enum in mavlink_types.h. Can be either global, GPS, right-handed with Z axis up or local, right handed, Z axis down. (uint8_t) - p1x : x position 1 / Latitude 1 (float) - p1y : y position 1 / Longitude 1 (float) - p1z : z position 1 / Altitude 1 (float) - p2x : x position 2 / Latitude 2 (float) - p2y : y position 2 / Longitude 2 (float) - p2z : z position 2 / Altitude 2 (float) - - ''' - return self.send(self.safety_allowed_area_encode(frame, p1x, p1y, p1z, p2x, p2y, p2z)) - - def set_roll_pitch_yaw_thrust_encode(self, target_system, target_component, roll, pitch, yaw, thrust): - ''' - Set roll, pitch and yaw. - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - roll : Desired roll angle in radians (float) - pitch : Desired pitch angle in radians (float) - yaw : Desired yaw angle in radians (float) - thrust : Collective thrust, normalized to 0 .. 1 (float) - - ''' - msg = MAVLink_set_roll_pitch_yaw_thrust_message(target_system, target_component, roll, pitch, yaw, thrust) - msg.pack(self) - return msg - - def set_roll_pitch_yaw_thrust_send(self, target_system, target_component, roll, pitch, yaw, thrust): - ''' - Set roll, pitch and yaw. - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - roll : Desired roll angle in radians (float) - pitch : Desired pitch angle in radians (float) - yaw : Desired yaw angle in radians (float) - thrust : Collective thrust, normalized to 0 .. 1 (float) - - ''' - return self.send(self.set_roll_pitch_yaw_thrust_encode(target_system, target_component, roll, pitch, yaw, thrust)) - - def set_roll_pitch_yaw_speed_thrust_encode(self, target_system, target_component, roll_speed, pitch_speed, yaw_speed, thrust): - ''' - Set roll, pitch and yaw. - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - roll_speed : Desired roll angular speed in rad/s (float) - pitch_speed : Desired pitch angular speed in rad/s (float) - yaw_speed : Desired yaw angular speed in rad/s (float) - thrust : Collective thrust, normalized to 0 .. 1 (float) - - ''' - msg = MAVLink_set_roll_pitch_yaw_speed_thrust_message(target_system, target_component, roll_speed, pitch_speed, yaw_speed, thrust) - msg.pack(self) - return msg - - def set_roll_pitch_yaw_speed_thrust_send(self, target_system, target_component, roll_speed, pitch_speed, yaw_speed, thrust): - ''' - Set roll, pitch and yaw. - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - roll_speed : Desired roll angular speed in rad/s (float) - pitch_speed : Desired pitch angular speed in rad/s (float) - yaw_speed : Desired yaw angular speed in rad/s (float) - thrust : Collective thrust, normalized to 0 .. 1 (float) - - ''' - return self.send(self.set_roll_pitch_yaw_speed_thrust_encode(target_system, target_component, roll_speed, pitch_speed, yaw_speed, thrust)) - - def roll_pitch_yaw_thrust_setpoint_encode(self, time_boot_ms, roll, pitch, yaw, thrust): - ''' - Setpoint in roll, pitch, yaw currently active on the system. - - time_boot_ms : Timestamp in milliseconds since system boot (uint32_t) - roll : Desired roll angle in radians (float) - pitch : Desired pitch angle in radians (float) - yaw : Desired yaw angle in radians (float) - thrust : Collective thrust, normalized to 0 .. 1 (float) - - ''' - msg = MAVLink_roll_pitch_yaw_thrust_setpoint_message(time_boot_ms, roll, pitch, yaw, thrust) - msg.pack(self) - return msg - - def roll_pitch_yaw_thrust_setpoint_send(self, time_boot_ms, roll, pitch, yaw, thrust): - ''' - Setpoint in roll, pitch, yaw currently active on the system. - - time_boot_ms : Timestamp in milliseconds since system boot (uint32_t) - roll : Desired roll angle in radians (float) - pitch : Desired pitch angle in radians (float) - yaw : Desired yaw angle in radians (float) - thrust : Collective thrust, normalized to 0 .. 1 (float) - - ''' - return self.send(self.roll_pitch_yaw_thrust_setpoint_encode(time_boot_ms, roll, pitch, yaw, thrust)) - - def roll_pitch_yaw_speed_thrust_setpoint_encode(self, time_boot_ms, roll_speed, pitch_speed, yaw_speed, thrust): - ''' - Setpoint in rollspeed, pitchspeed, yawspeed currently active on the - system. - - time_boot_ms : Timestamp in milliseconds since system boot (uint32_t) - roll_speed : Desired roll angular speed in rad/s (float) - pitch_speed : Desired pitch angular speed in rad/s (float) - yaw_speed : Desired yaw angular speed in rad/s (float) - thrust : Collective thrust, normalized to 0 .. 1 (float) - - ''' - msg = MAVLink_roll_pitch_yaw_speed_thrust_setpoint_message(time_boot_ms, roll_speed, pitch_speed, yaw_speed, thrust) - msg.pack(self) - return msg - - def roll_pitch_yaw_speed_thrust_setpoint_send(self, time_boot_ms, roll_speed, pitch_speed, yaw_speed, thrust): - ''' - Setpoint in rollspeed, pitchspeed, yawspeed currently active on the - system. - - time_boot_ms : Timestamp in milliseconds since system boot (uint32_t) - roll_speed : Desired roll angular speed in rad/s (float) - pitch_speed : Desired pitch angular speed in rad/s (float) - yaw_speed : Desired yaw angular speed in rad/s (float) - thrust : Collective thrust, normalized to 0 .. 1 (float) - - ''' - return self.send(self.roll_pitch_yaw_speed_thrust_setpoint_encode(time_boot_ms, roll_speed, pitch_speed, yaw_speed, thrust)) - - def nav_controller_output_encode(self, nav_roll, nav_pitch, nav_bearing, target_bearing, wp_dist, alt_error, aspd_error, xtrack_error): - ''' - Outputs of the APM navigation controller. The primary use of this - message is to check the response and signs - of the controller before actual flight and to assist - with tuning controller parameters - - nav_roll : Current desired roll in degrees (float) - nav_pitch : Current desired pitch in degrees (float) - nav_bearing : Current desired heading in degrees (int16_t) - target_bearing : Bearing to current MISSION/target in degrees (int16_t) - wp_dist : Distance to active MISSION in meters (uint16_t) - alt_error : Current altitude error in meters (float) - aspd_error : Current airspeed error in meters/second (float) - xtrack_error : Current crosstrack error on x-y plane in meters (float) - - ''' - msg = MAVLink_nav_controller_output_message(nav_roll, nav_pitch, nav_bearing, target_bearing, wp_dist, alt_error, aspd_error, xtrack_error) - msg.pack(self) - return msg - - def nav_controller_output_send(self, nav_roll, nav_pitch, nav_bearing, target_bearing, wp_dist, alt_error, aspd_error, xtrack_error): - ''' - Outputs of the APM navigation controller. The primary use of this - message is to check the response and signs - of the controller before actual flight and to assist - with tuning controller parameters - - nav_roll : Current desired roll in degrees (float) - nav_pitch : Current desired pitch in degrees (float) - nav_bearing : Current desired heading in degrees (int16_t) - target_bearing : Bearing to current MISSION/target in degrees (int16_t) - wp_dist : Distance to active MISSION in meters (uint16_t) - alt_error : Current altitude error in meters (float) - aspd_error : Current airspeed error in meters/second (float) - xtrack_error : Current crosstrack error on x-y plane in meters (float) - - ''' - return self.send(self.nav_controller_output_encode(nav_roll, nav_pitch, nav_bearing, target_bearing, wp_dist, alt_error, aspd_error, xtrack_error)) - - def state_correction_encode(self, xErr, yErr, zErr, rollErr, pitchErr, yawErr, vxErr, vyErr, vzErr): - ''' - Corrects the systems state by adding an error correction term to the - position and velocity, and by rotating the attitude by - a correction angle. - - xErr : x position error (float) - yErr : y position error (float) - zErr : z position error (float) - rollErr : roll error (radians) (float) - pitchErr : pitch error (radians) (float) - yawErr : yaw error (radians) (float) - vxErr : x velocity (float) - vyErr : y velocity (float) - vzErr : z velocity (float) - - ''' - msg = MAVLink_state_correction_message(xErr, yErr, zErr, rollErr, pitchErr, yawErr, vxErr, vyErr, vzErr) - msg.pack(self) - return msg - - def state_correction_send(self, xErr, yErr, zErr, rollErr, pitchErr, yawErr, vxErr, vyErr, vzErr): - ''' - Corrects the systems state by adding an error correction term to the - position and velocity, and by rotating the attitude by - a correction angle. - - xErr : x position error (float) - yErr : y position error (float) - zErr : z position error (float) - rollErr : roll error (radians) (float) - pitchErr : pitch error (radians) (float) - yawErr : yaw error (radians) (float) - vxErr : x velocity (float) - vyErr : y velocity (float) - vzErr : z velocity (float) - - ''' - return self.send(self.state_correction_encode(xErr, yErr, zErr, rollErr, pitchErr, yawErr, vxErr, vyErr, vzErr)) - - def request_data_stream_encode(self, target_system, target_component, req_stream_id, req_message_rate, start_stop): - ''' - - - target_system : The target requested to send the message stream. (uint8_t) - target_component : The target requested to send the message stream. (uint8_t) - req_stream_id : The ID of the requested data stream (uint8_t) - req_message_rate : The requested interval between two messages of this type (uint16_t) - start_stop : 1 to start sending, 0 to stop sending. (uint8_t) - - ''' - msg = MAVLink_request_data_stream_message(target_system, target_component, req_stream_id, req_message_rate, start_stop) - msg.pack(self) - return msg - - def request_data_stream_send(self, target_system, target_component, req_stream_id, req_message_rate, start_stop): - ''' - - - target_system : The target requested to send the message stream. (uint8_t) - target_component : The target requested to send the message stream. (uint8_t) - req_stream_id : The ID of the requested data stream (uint8_t) - req_message_rate : The requested interval between two messages of this type (uint16_t) - start_stop : 1 to start sending, 0 to stop sending. (uint8_t) - - ''' - return self.send(self.request_data_stream_encode(target_system, target_component, req_stream_id, req_message_rate, start_stop)) - - def data_stream_encode(self, stream_id, message_rate, on_off): - ''' - - - stream_id : The ID of the requested data stream (uint8_t) - message_rate : The requested interval between two messages of this type (uint16_t) - on_off : 1 stream is enabled, 0 stream is stopped. (uint8_t) - - ''' - msg = MAVLink_data_stream_message(stream_id, message_rate, on_off) - msg.pack(self) - return msg - - def data_stream_send(self, stream_id, message_rate, on_off): - ''' - - - stream_id : The ID of the requested data stream (uint8_t) - message_rate : The requested interval between two messages of this type (uint16_t) - on_off : 1 stream is enabled, 0 stream is stopped. (uint8_t) - - ''' - return self.send(self.data_stream_encode(stream_id, message_rate, on_off)) - - def manual_control_encode(self, target, roll, pitch, yaw, thrust, roll_manual, pitch_manual, yaw_manual, thrust_manual): - ''' - - - target : The system to be controlled (uint8_t) - roll : roll (float) - pitch : pitch (float) - yaw : yaw (float) - thrust : thrust (float) - roll_manual : roll control enabled auto:0, manual:1 (uint8_t) - pitch_manual : pitch auto:0, manual:1 (uint8_t) - yaw_manual : yaw auto:0, manual:1 (uint8_t) - thrust_manual : thrust auto:0, manual:1 (uint8_t) - - ''' - msg = MAVLink_manual_control_message(target, roll, pitch, yaw, thrust, roll_manual, pitch_manual, yaw_manual, thrust_manual) - msg.pack(self) - return msg - - def manual_control_send(self, target, roll, pitch, yaw, thrust, roll_manual, pitch_manual, yaw_manual, thrust_manual): - ''' - - - target : The system to be controlled (uint8_t) - roll : roll (float) - pitch : pitch (float) - yaw : yaw (float) - thrust : thrust (float) - roll_manual : roll control enabled auto:0, manual:1 (uint8_t) - pitch_manual : pitch auto:0, manual:1 (uint8_t) - yaw_manual : yaw auto:0, manual:1 (uint8_t) - thrust_manual : thrust auto:0, manual:1 (uint8_t) - - ''' - return self.send(self.manual_control_encode(target, roll, pitch, yaw, thrust, roll_manual, pitch_manual, yaw_manual, thrust_manual)) - - def rc_channels_override_encode(self, target_system, target_component, chan1_raw, chan2_raw, chan3_raw, chan4_raw, chan5_raw, chan6_raw, chan7_raw, chan8_raw): - ''' - The RAW values of the RC channels sent to the MAV to override info - received from the RC radio. A value of -1 means no - change to that channel. A value of 0 means control of - that channel should be released back to the RC radio. - The standard PPM modulation is as follows: 1000 - microseconds: 0%, 2000 microseconds: 100%. Individual - receivers/transmitters might violate this - specification. - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - chan1_raw : RC channel 1 value, in microseconds (uint16_t) - chan2_raw : RC channel 2 value, in microseconds (uint16_t) - chan3_raw : RC channel 3 value, in microseconds (uint16_t) - chan4_raw : RC channel 4 value, in microseconds (uint16_t) - chan5_raw : RC channel 5 value, in microseconds (uint16_t) - chan6_raw : RC channel 6 value, in microseconds (uint16_t) - chan7_raw : RC channel 7 value, in microseconds (uint16_t) - chan8_raw : RC channel 8 value, in microseconds (uint16_t) - - ''' - msg = MAVLink_rc_channels_override_message(target_system, target_component, chan1_raw, chan2_raw, chan3_raw, chan4_raw, chan5_raw, chan6_raw, chan7_raw, chan8_raw) - msg.pack(self) - return msg - - def rc_channels_override_send(self, target_system, target_component, chan1_raw, chan2_raw, chan3_raw, chan4_raw, chan5_raw, chan6_raw, chan7_raw, chan8_raw): - ''' - The RAW values of the RC channels sent to the MAV to override info - received from the RC radio. A value of -1 means no - change to that channel. A value of 0 means control of - that channel should be released back to the RC radio. - The standard PPM modulation is as follows: 1000 - microseconds: 0%, 2000 microseconds: 100%. Individual - receivers/transmitters might violate this - specification. - - target_system : System ID (uint8_t) - target_component : Component ID (uint8_t) - chan1_raw : RC channel 1 value, in microseconds (uint16_t) - chan2_raw : RC channel 2 value, in microseconds (uint16_t) - chan3_raw : RC channel 3 value, in microseconds (uint16_t) - chan4_raw : RC channel 4 value, in microseconds (uint16_t) - chan5_raw : RC channel 5 value, in microseconds (uint16_t) - chan6_raw : RC channel 6 value, in microseconds (uint16_t) - chan7_raw : RC channel 7 value, in microseconds (uint16_t) - chan8_raw : RC channel 8 value, in microseconds (uint16_t) - - ''' - return self.send(self.rc_channels_override_encode(target_system, target_component, chan1_raw, chan2_raw, chan3_raw, chan4_raw, chan5_raw, chan6_raw, chan7_raw, chan8_raw)) - - def vfr_hud_encode(self, airspeed, groundspeed, heading, throttle, alt, climb): - ''' - Metrics typically displayed on a HUD for fixed wing aircraft - - airspeed : Current airspeed in m/s (float) - groundspeed : Current ground speed in m/s (float) - heading : Current heading in degrees, in compass units (0..360, 0=north) (int16_t) - throttle : Current throttle setting in integer percent, 0 to 100 (uint16_t) - alt : Current altitude (MSL), in meters (float) - climb : Current climb rate in meters/second (float) - - ''' - msg = MAVLink_vfr_hud_message(airspeed, groundspeed, heading, throttle, alt, climb) - msg.pack(self) - return msg - - def vfr_hud_send(self, airspeed, groundspeed, heading, throttle, alt, climb): - ''' - Metrics typically displayed on a HUD for fixed wing aircraft - - airspeed : Current airspeed in m/s (float) - groundspeed : Current ground speed in m/s (float) - heading : Current heading in degrees, in compass units (0..360, 0=north) (int16_t) - throttle : Current throttle setting in integer percent, 0 to 100 (uint16_t) - alt : Current altitude (MSL), in meters (float) - climb : Current climb rate in meters/second (float) - - ''' - return self.send(self.vfr_hud_encode(airspeed, groundspeed, heading, throttle, alt, climb)) - - def command_long_encode(self, target_system, target_component, command, confirmation, param1, param2, param3, param4, param5, param6, param7): - ''' - Send a command with up to four parameters to the MAV - - target_system : System which should execute the command (uint8_t) - target_component : Component which should execute the command, 0 for all components (uint8_t) - command : Command ID, as defined by MAV_CMD enum. (uint16_t) - confirmation : 0: First transmission of this command. 1-255: Confirmation transmissions (e.g. for kill command) (uint8_t) - param1 : Parameter 1, as defined by MAV_CMD enum. (float) - param2 : Parameter 2, as defined by MAV_CMD enum. (float) - param3 : Parameter 3, as defined by MAV_CMD enum. (float) - param4 : Parameter 4, as defined by MAV_CMD enum. (float) - param5 : Parameter 5, as defined by MAV_CMD enum. (float) - param6 : Parameter 6, as defined by MAV_CMD enum. (float) - param7 : Parameter 7, as defined by MAV_CMD enum. (float) - - ''' - msg = MAVLink_command_long_message(target_system, target_component, command, confirmation, param1, param2, param3, param4, param5, param6, param7) - msg.pack(self) - return msg - - def command_long_send(self, target_system, target_component, command, confirmation, param1, param2, param3, param4, param5, param6, param7): - ''' - Send a command with up to four parameters to the MAV - - target_system : System which should execute the command (uint8_t) - target_component : Component which should execute the command, 0 for all components (uint8_t) - command : Command ID, as defined by MAV_CMD enum. (uint16_t) - confirmation : 0: First transmission of this command. 1-255: Confirmation transmissions (e.g. for kill command) (uint8_t) - param1 : Parameter 1, as defined by MAV_CMD enum. (float) - param2 : Parameter 2, as defined by MAV_CMD enum. (float) - param3 : Parameter 3, as defined by MAV_CMD enum. (float) - param4 : Parameter 4, as defined by MAV_CMD enum. (float) - param5 : Parameter 5, as defined by MAV_CMD enum. (float) - param6 : Parameter 6, as defined by MAV_CMD enum. (float) - param7 : Parameter 7, as defined by MAV_CMD enum. (float) - - ''' - return self.send(self.command_long_encode(target_system, target_component, command, confirmation, param1, param2, param3, param4, param5, param6, param7)) - - def command_ack_encode(self, command, result): - ''' - Report status of a command. Includes feedback wether the command was - executed - - command : Command ID, as defined by MAV_CMD enum. (uint16_t) - result : See MAV_RESULT enum (uint8_t) - - ''' - msg = MAVLink_command_ack_message(command, result) - msg.pack(self) - return msg - - def command_ack_send(self, command, result): - ''' - Report status of a command. Includes feedback wether the command was - executed - - command : Command ID, as defined by MAV_CMD enum. (uint16_t) - result : See MAV_RESULT enum (uint8_t) - - ''' - return self.send(self.command_ack_encode(command, result)) - - def hil_state_encode(self, time_usec, roll, pitch, yaw, rollspeed, pitchspeed, yawspeed, lat, lon, alt, vx, vy, vz, xacc, yacc, zacc): - ''' - Sent from simulation to autopilot. This packet is useful for high - throughput applications such as - hardware in the loop simulations. - - time_usec : Timestamp (microseconds since UNIX epoch or microseconds since system boot) (uint64_t) - roll : Roll angle (rad) (float) - pitch : Pitch angle (rad) (float) - yaw : Yaw angle (rad) (float) - rollspeed : Roll angular speed (rad/s) (float) - pitchspeed : Pitch angular speed (rad/s) (float) - yawspeed : Yaw angular speed (rad/s) (float) - lat : Latitude, expressed as * 1E7 (int32_t) - lon : Longitude, expressed as * 1E7 (int32_t) - alt : Altitude in meters, expressed as * 1000 (millimeters) (int32_t) - vx : Ground X Speed (Latitude), expressed as m/s * 100 (int16_t) - vy : Ground Y Speed (Longitude), expressed as m/s * 100 (int16_t) - vz : Ground Z Speed (Altitude), expressed as m/s * 100 (int16_t) - xacc : X acceleration (mg) (int16_t) - yacc : Y acceleration (mg) (int16_t) - zacc : Z acceleration (mg) (int16_t) - - ''' - msg = MAVLink_hil_state_message(time_usec, roll, pitch, yaw, rollspeed, pitchspeed, yawspeed, lat, lon, alt, vx, vy, vz, xacc, yacc, zacc) - msg.pack(self) - return msg - - def hil_state_send(self, time_usec, roll, pitch, yaw, rollspeed, pitchspeed, yawspeed, lat, lon, alt, vx, vy, vz, xacc, yacc, zacc): - ''' - Sent from simulation to autopilot. This packet is useful for high - throughput applications such as - hardware in the loop simulations. - - time_usec : Timestamp (microseconds since UNIX epoch or microseconds since system boot) (uint64_t) - roll : Roll angle (rad) (float) - pitch : Pitch angle (rad) (float) - yaw : Yaw angle (rad) (float) - rollspeed : Roll angular speed (rad/s) (float) - pitchspeed : Pitch angular speed (rad/s) (float) - yawspeed : Yaw angular speed (rad/s) (float) - lat : Latitude, expressed as * 1E7 (int32_t) - lon : Longitude, expressed as * 1E7 (int32_t) - alt : Altitude in meters, expressed as * 1000 (millimeters) (int32_t) - vx : Ground X Speed (Latitude), expressed as m/s * 100 (int16_t) - vy : Ground Y Speed (Longitude), expressed as m/s * 100 (int16_t) - vz : Ground Z Speed (Altitude), expressed as m/s * 100 (int16_t) - xacc : X acceleration (mg) (int16_t) - yacc : Y acceleration (mg) (int16_t) - zacc : Z acceleration (mg) (int16_t) - - ''' - return self.send(self.hil_state_encode(time_usec, roll, pitch, yaw, rollspeed, pitchspeed, yawspeed, lat, lon, alt, vx, vy, vz, xacc, yacc, zacc)) - - def hil_controls_encode(self, time_usec, roll_ailerons, pitch_elevator, yaw_rudder, throttle, aux1, aux2, aux3, aux4, mode, nav_mode): - ''' - Sent from autopilot to simulation. Hardware in the loop control - outputs - - time_usec : Timestamp (microseconds since UNIX epoch or microseconds since system boot) (uint64_t) - roll_ailerons : Control output -1 .. 1 (float) - pitch_elevator : Control output -1 .. 1 (float) - yaw_rudder : Control output -1 .. 1 (float) - throttle : Throttle 0 .. 1 (float) - aux1 : Aux 1, -1 .. 1 (float) - aux2 : Aux 2, -1 .. 1 (float) - aux3 : Aux 3, -1 .. 1 (float) - aux4 : Aux 4, -1 .. 1 (float) - mode : System mode (MAV_MODE) (uint8_t) - nav_mode : Navigation mode (MAV_NAV_MODE) (uint8_t) - - ''' - msg = MAVLink_hil_controls_message(time_usec, roll_ailerons, pitch_elevator, yaw_rudder, throttle, aux1, aux2, aux3, aux4, mode, nav_mode) - msg.pack(self) - return msg - - def hil_controls_send(self, time_usec, roll_ailerons, pitch_elevator, yaw_rudder, throttle, aux1, aux2, aux3, aux4, mode, nav_mode): - ''' - Sent from autopilot to simulation. Hardware in the loop control - outputs - - time_usec : Timestamp (microseconds since UNIX epoch or microseconds since system boot) (uint64_t) - roll_ailerons : Control output -1 .. 1 (float) - pitch_elevator : Control output -1 .. 1 (float) - yaw_rudder : Control output -1 .. 1 (float) - throttle : Throttle 0 .. 1 (float) - aux1 : Aux 1, -1 .. 1 (float) - aux2 : Aux 2, -1 .. 1 (float) - aux3 : Aux 3, -1 .. 1 (float) - aux4 : Aux 4, -1 .. 1 (float) - mode : System mode (MAV_MODE) (uint8_t) - nav_mode : Navigation mode (MAV_NAV_MODE) (uint8_t) - - ''' - return self.send(self.hil_controls_encode(time_usec, roll_ailerons, pitch_elevator, yaw_rudder, throttle, aux1, aux2, aux3, aux4, mode, nav_mode)) - - def hil_rc_inputs_raw_encode(self, time_usec, chan1_raw, chan2_raw, chan3_raw, chan4_raw, chan5_raw, chan6_raw, chan7_raw, chan8_raw, chan9_raw, chan10_raw, chan11_raw, chan12_raw, rssi): - ''' - Sent from simulation to autopilot. The RAW values of the RC channels - received. The standard PPM modulation is as follows: - 1000 microseconds: 0%, 2000 microseconds: 100%. - Individual receivers/transmitters might violate this - specification. - - time_usec : Timestamp (microseconds since UNIX epoch or microseconds since system boot) (uint64_t) - chan1_raw : RC channel 1 value, in microseconds (uint16_t) - chan2_raw : RC channel 2 value, in microseconds (uint16_t) - chan3_raw : RC channel 3 value, in microseconds (uint16_t) - chan4_raw : RC channel 4 value, in microseconds (uint16_t) - chan5_raw : RC channel 5 value, in microseconds (uint16_t) - chan6_raw : RC channel 6 value, in microseconds (uint16_t) - chan7_raw : RC channel 7 value, in microseconds (uint16_t) - chan8_raw : RC channel 8 value, in microseconds (uint16_t) - chan9_raw : RC channel 9 value, in microseconds (uint16_t) - chan10_raw : RC channel 10 value, in microseconds (uint16_t) - chan11_raw : RC channel 11 value, in microseconds (uint16_t) - chan12_raw : RC channel 12 value, in microseconds (uint16_t) - rssi : Receive signal strength indicator, 0: 0%, 255: 100% (uint8_t) - - ''' - msg = MAVLink_hil_rc_inputs_raw_message(time_usec, chan1_raw, chan2_raw, chan3_raw, chan4_raw, chan5_raw, chan6_raw, chan7_raw, chan8_raw, chan9_raw, chan10_raw, chan11_raw, chan12_raw, rssi) - msg.pack(self) - return msg - - def hil_rc_inputs_raw_send(self, time_usec, chan1_raw, chan2_raw, chan3_raw, chan4_raw, chan5_raw, chan6_raw, chan7_raw, chan8_raw, chan9_raw, chan10_raw, chan11_raw, chan12_raw, rssi): - ''' - Sent from simulation to autopilot. The RAW values of the RC channels - received. The standard PPM modulation is as follows: - 1000 microseconds: 0%, 2000 microseconds: 100%. - Individual receivers/transmitters might violate this - specification. - - time_usec : Timestamp (microseconds since UNIX epoch or microseconds since system boot) (uint64_t) - chan1_raw : RC channel 1 value, in microseconds (uint16_t) - chan2_raw : RC channel 2 value, in microseconds (uint16_t) - chan3_raw : RC channel 3 value, in microseconds (uint16_t) - chan4_raw : RC channel 4 value, in microseconds (uint16_t) - chan5_raw : RC channel 5 value, in microseconds (uint16_t) - chan6_raw : RC channel 6 value, in microseconds (uint16_t) - chan7_raw : RC channel 7 value, in microseconds (uint16_t) - chan8_raw : RC channel 8 value, in microseconds (uint16_t) - chan9_raw : RC channel 9 value, in microseconds (uint16_t) - chan10_raw : RC channel 10 value, in microseconds (uint16_t) - chan11_raw : RC channel 11 value, in microseconds (uint16_t) - chan12_raw : RC channel 12 value, in microseconds (uint16_t) - rssi : Receive signal strength indicator, 0: 0%, 255: 100% (uint8_t) - - ''' - return self.send(self.hil_rc_inputs_raw_encode(time_usec, chan1_raw, chan2_raw, chan3_raw, chan4_raw, chan5_raw, chan6_raw, chan7_raw, chan8_raw, chan9_raw, chan10_raw, chan11_raw, chan12_raw, rssi)) - - def optical_flow_encode(self, time_usec, sensor_id, flow_x, flow_y, quality, ground_distance): - ''' - Optical flow from a flow sensor (e.g. optical mouse sensor) - - time_usec : Timestamp (UNIX) (uint64_t) - sensor_id : Sensor ID (uint8_t) - flow_x : Flow in pixels in x-sensor direction (int16_t) - flow_y : Flow in pixels in y-sensor direction (int16_t) - quality : Optical flow quality / confidence. 0: bad, 255: maximum quality (uint8_t) - ground_distance : Ground distance in meters (float) - - ''' - msg = MAVLink_optical_flow_message(time_usec, sensor_id, flow_x, flow_y, quality, ground_distance) - msg.pack(self) - return msg - - def optical_flow_send(self, time_usec, sensor_id, flow_x, flow_y, quality, ground_distance): - ''' - Optical flow from a flow sensor (e.g. optical mouse sensor) - - time_usec : Timestamp (UNIX) (uint64_t) - sensor_id : Sensor ID (uint8_t) - flow_x : Flow in pixels in x-sensor direction (int16_t) - flow_y : Flow in pixels in y-sensor direction (int16_t) - quality : Optical flow quality / confidence. 0: bad, 255: maximum quality (uint8_t) - ground_distance : Ground distance in meters (float) - - ''' - return self.send(self.optical_flow_encode(time_usec, sensor_id, flow_x, flow_y, quality, ground_distance)) - - def global_vision_position_estimate_encode(self, usec, x, y, z, roll, pitch, yaw): - ''' - - - usec : Timestamp (milliseconds) (uint64_t) - x : Global X position (float) - y : Global Y position (float) - z : Global Z position (float) - roll : Roll angle in rad (float) - pitch : Pitch angle in rad (float) - yaw : Yaw angle in rad (float) - - ''' - msg = MAVLink_global_vision_position_estimate_message(usec, x, y, z, roll, pitch, yaw) - msg.pack(self) - return msg - - def global_vision_position_estimate_send(self, usec, x, y, z, roll, pitch, yaw): - ''' - - - usec : Timestamp (milliseconds) (uint64_t) - x : Global X position (float) - y : Global Y position (float) - z : Global Z position (float) - roll : Roll angle in rad (float) - pitch : Pitch angle in rad (float) - yaw : Yaw angle in rad (float) - - ''' - return self.send(self.global_vision_position_estimate_encode(usec, x, y, z, roll, pitch, yaw)) - - def vision_position_estimate_encode(self, usec, x, y, z, roll, pitch, yaw): - ''' - - - usec : Timestamp (milliseconds) (uint64_t) - x : Global X position (float) - y : Global Y position (float) - z : Global Z position (float) - roll : Roll angle in rad (float) - pitch : Pitch angle in rad (float) - yaw : Yaw angle in rad (float) - - ''' - msg = MAVLink_vision_position_estimate_message(usec, x, y, z, roll, pitch, yaw) - msg.pack(self) - return msg - - def vision_position_estimate_send(self, usec, x, y, z, roll, pitch, yaw): - ''' - - - usec : Timestamp (milliseconds) (uint64_t) - x : Global X position (float) - y : Global Y position (float) - z : Global Z position (float) - roll : Roll angle in rad (float) - pitch : Pitch angle in rad (float) - yaw : Yaw angle in rad (float) - - ''' - return self.send(self.vision_position_estimate_encode(usec, x, y, z, roll, pitch, yaw)) - - def vision_speed_estimate_encode(self, usec, x, y, z): - ''' - - - usec : Timestamp (milliseconds) (uint64_t) - x : Global X speed (float) - y : Global Y speed (float) - z : Global Z speed (float) - - ''' - msg = MAVLink_vision_speed_estimate_message(usec, x, y, z) - msg.pack(self) - return msg - - def vision_speed_estimate_send(self, usec, x, y, z): - ''' - - - usec : Timestamp (milliseconds) (uint64_t) - x : Global X speed (float) - y : Global Y speed (float) - z : Global Z speed (float) - - ''' - return self.send(self.vision_speed_estimate_encode(usec, x, y, z)) - - def vicon_position_estimate_encode(self, usec, x, y, z, roll, pitch, yaw): - ''' - - - usec : Timestamp (milliseconds) (uint64_t) - x : Global X position (float) - y : Global Y position (float) - z : Global Z position (float) - roll : Roll angle in rad (float) - pitch : Pitch angle in rad (float) - yaw : Yaw angle in rad (float) - - ''' - msg = MAVLink_vicon_position_estimate_message(usec, x, y, z, roll, pitch, yaw) - msg.pack(self) - return msg - - def vicon_position_estimate_send(self, usec, x, y, z, roll, pitch, yaw): - ''' - - - usec : Timestamp (milliseconds) (uint64_t) - x : Global X position (float) - y : Global Y position (float) - z : Global Z position (float) - roll : Roll angle in rad (float) - pitch : Pitch angle in rad (float) - yaw : Yaw angle in rad (float) - - ''' - return self.send(self.vicon_position_estimate_encode(usec, x, y, z, roll, pitch, yaw)) - - def memory_vect_encode(self, address, ver, type, value): - ''' - Send raw controller memory. The use of this message is discouraged for - normal packets, but a quite efficient way for testing - new messages and getting experimental debug output. - - address : Starting address of the debug variables (uint16_t) - ver : Version code of the type variable. 0=unknown, type ignored and assumed int16_t. 1=as below (uint8_t) - type : Type code of the memory variables. for ver = 1: 0=16 x int16_t, 1=16 x uint16_t, 2=16 x Q15, 3=16 x 1Q14 (uint8_t) - value : Memory contents at specified address (int8_t) - - ''' - msg = MAVLink_memory_vect_message(address, ver, type, value) - msg.pack(self) - return msg - - def memory_vect_send(self, address, ver, type, value): - ''' - Send raw controller memory. The use of this message is discouraged for - normal packets, but a quite efficient way for testing - new messages and getting experimental debug output. - - address : Starting address of the debug variables (uint16_t) - ver : Version code of the type variable. 0=unknown, type ignored and assumed int16_t. 1=as below (uint8_t) - type : Type code of the memory variables. for ver = 1: 0=16 x int16_t, 1=16 x uint16_t, 2=16 x Q15, 3=16 x 1Q14 (uint8_t) - value : Memory contents at specified address (int8_t) - - ''' - return self.send(self.memory_vect_encode(address, ver, type, value)) - - def debug_vect_encode(self, name, time_usec, x, y, z): - ''' - - - name : Name (char) - time_usec : Timestamp (uint64_t) - x : x (float) - y : y (float) - z : z (float) - - ''' - msg = MAVLink_debug_vect_message(name, time_usec, x, y, z) - msg.pack(self) - return msg - - def debug_vect_send(self, name, time_usec, x, y, z): - ''' - - - name : Name (char) - time_usec : Timestamp (uint64_t) - x : x (float) - y : y (float) - z : z (float) - - ''' - return self.send(self.debug_vect_encode(name, time_usec, x, y, z)) - - def named_value_float_encode(self, time_boot_ms, name, value): - ''' - Send a key-value pair as float. The use of this message is discouraged - for normal packets, but a quite efficient way for - testing new messages and getting experimental debug - output. - - time_boot_ms : Timestamp (milliseconds since system boot) (uint32_t) - name : Name of the debug variable (char) - value : Floating point value (float) - - ''' - msg = MAVLink_named_value_float_message(time_boot_ms, name, value) - msg.pack(self) - return msg - - def named_value_float_send(self, time_boot_ms, name, value): - ''' - Send a key-value pair as float. The use of this message is discouraged - for normal packets, but a quite efficient way for - testing new messages and getting experimental debug - output. - - time_boot_ms : Timestamp (milliseconds since system boot) (uint32_t) - name : Name of the debug variable (char) - value : Floating point value (float) - - ''' - return self.send(self.named_value_float_encode(time_boot_ms, name, value)) - - def named_value_int_encode(self, time_boot_ms, name, value): - ''' - Send a key-value pair as integer. The use of this message is - discouraged for normal packets, but a quite efficient - way for testing new messages and getting experimental - debug output. - - time_boot_ms : Timestamp (milliseconds since system boot) (uint32_t) - name : Name of the debug variable (char) - value : Signed integer value (int32_t) - - ''' - msg = MAVLink_named_value_int_message(time_boot_ms, name, value) - msg.pack(self) - return msg - - def named_value_int_send(self, time_boot_ms, name, value): - ''' - Send a key-value pair as integer. The use of this message is - discouraged for normal packets, but a quite efficient - way for testing new messages and getting experimental - debug output. - - time_boot_ms : Timestamp (milliseconds since system boot) (uint32_t) - name : Name of the debug variable (char) - value : Signed integer value (int32_t) - - ''' - return self.send(self.named_value_int_encode(time_boot_ms, name, value)) - - def statustext_encode(self, severity, text): - ''' - Status text message. These messages are printed in yellow in the COMM - console of QGroundControl. WARNING: They consume quite - some bandwidth, so use only for important status and - error messages. If implemented wisely, these messages - are buffered on the MCU and sent only at a limited - rate (e.g. 10 Hz). - - severity : Severity of status, 0 = info message, 255 = critical fault (uint8_t) - text : Status text message, without null termination character (char) - - ''' - msg = MAVLink_statustext_message(severity, text) - msg.pack(self) - return msg - - def statustext_send(self, severity, text): - ''' - Status text message. These messages are printed in yellow in the COMM - console of QGroundControl. WARNING: They consume quite - some bandwidth, so use only for important status and - error messages. If implemented wisely, these messages - are buffered on the MCU and sent only at a limited - rate (e.g. 10 Hz). - - severity : Severity of status, 0 = info message, 255 = critical fault (uint8_t) - text : Status text message, without null termination character (char) - - ''' - return self.send(self.statustext_encode(severity, text)) - - def debug_encode(self, time_boot_ms, ind, value): - ''' - Send a debug value. The index is used to discriminate between values. - These values show up in the plot of QGroundControl as - DEBUG N. - - time_boot_ms : Timestamp (milliseconds since system boot) (uint32_t) - ind : index of debug variable (uint8_t) - value : DEBUG value (float) - - ''' - msg = MAVLink_debug_message(time_boot_ms, ind, value) - msg.pack(self) - return msg - - def debug_send(self, time_boot_ms, ind, value): - ''' - Send a debug value. The index is used to discriminate between values. - These values show up in the plot of QGroundControl as - DEBUG N. - - time_boot_ms : Timestamp (milliseconds since system boot) (uint32_t) - ind : index of debug variable (uint8_t) - value : DEBUG value (float) - - ''' - return self.send(self.debug_encode(time_boot_ms, ind, value)) - - def extended_message_encode(self, target_system, target_component, protocol_flags): - ''' - Extended message spacer. - - target_system : System which should execute the command (uint8_t) - target_component : Component which should execute the command, 0 for all components (uint8_t) - protocol_flags : Retransmission / ACK flags (uint8_t) - - ''' - msg = MAVLink_extended_message_message(target_system, target_component, protocol_flags) - msg.pack(self) - return msg - - def extended_message_send(self, target_system, target_component, protocol_flags): - ''' - Extended message spacer. - - target_system : System which should execute the command (uint8_t) - target_component : Component which should execute the command, 0 for all components (uint8_t) - protocol_flags : Retransmission / ACK flags (uint8_t) - - ''' - return self.send(self.extended_message_encode(target_system, target_component, protocol_flags)) - |