// created: 20/04/2016 // updated: 20/09/2016 // filename: MavlinkUDP.h // // author: Milan Erdelj, // Copyright Heudiasyc UMR UTC/CNRS 7253 // // Current_messages and Time_Stamps: // Copyright (c) 2014 MAVlink Development Team. All rights reserved. // Trent Lukaczyk, // Jaycee Lock, // Lorenz Meier, // // version: $Id: $ // // purpose: MAVLink communication block class that used UDP sockets // // /*********************************************************************/ #ifndef MAVLINKUDP_H #define MAVLINKUDP_H #include #include #include #include #include #include #include #include "include/common/mavlink.h" // TODO these constants should be read from a file #define LOCALHOST "127.0.0.1" #define MAVLINK_UDP_PORT 5555 #define GCS_ADDR "192.168.6.150" #define UAV2 "192.168.6.2" #define UAV1 "192.168.6.1" #define PC_LATITUDE "192.168.6.100" #define MAX_NEIGH 50 #define THREAD_MS_IN 10 #define THREAD_MS_OUT 10 #define BUFF_IN_LEN 80 #define BUFF_OUT_LEN 80 #define ACK_TIMEOUT 100000 // us #ifndef MAV_CUSTOM_PARAM #define MAV_CUSTOM_PARAM enum TMAVCustomParams { MAV_LOOP_MISSION_ITEMS=42, MAV_CUSTOM_PARAM1=43, MAV_CUSTOM_PARAM2=44 }; #endif #ifndef REBOOT_SHUTDOWN_PARAMS #define REBOOT_SHUTDOWN_PARAMS enum TRebootShutdownParam { NO_EFFECT=0, REBOOT=1, SHUTDOWN=2, REBOOT_KEEP_IN_BOOTLOADER=3 }; #endif struct Time_Stamps { Time_Stamps() { reset_timestamps(); } uint64_t mission_ack; uint64_t command_ack; uint64_t command_long; uint64_t timesync; uint64_t mission_count; uint64_t mission_request; uint64_t mission_reached; uint64_t mission_item; uint64_t mission_request_list; uint64_t mission_write_partial_list; uint64_t heartbeat; uint64_t home_position; uint64_t sys_status; uint64_t battery_status; uint64_t radio_status; uint64_t local_position_ned; uint64_t global_position_int; uint64_t position_target_local_ned; uint64_t position_target_global_int; uint64_t highres_imu; uint64_t attitude; uint64_t system_time; uint64_t clear_all; void reset_timestamps() { mission_request=0; mission_request_list=0; mission_write_partial_list=0; mission_reached=0; command_long=0; timesync=0; mission_count=0; mission_item=0; mission_ack=0; home_position =0; heartbeat = 0; sys_status = 0; battery_status = 0; radio_status = 0; local_position_ned = 0; global_position_int = 0; position_target_local_ned = 0; position_target_global_int = 0; highres_imu = 0; attitude = 0; system_time = 0; clear_all = 0; } }; // Struct containing information on the MAV we are currently connected to struct Mavlink_Messages { int sysid; int compid; // system time mavlink_system_time_t system_time; // mission_request mavlink_mission_request_t mission_request; // mission request list mavlink_mission_request_list_t mission_request_list; // mission write partial list mavlink_mission_write_partial_list_t mission_write_partial_list; // mission_reached mavlink_mission_item_reached_t mission_reached; // mission_clear_all mavlink_mission_clear_all_t clear_all; // command long mavlink_command_long_t command_long; // command_ack mavlink_command_ack_t command_ack; // timesync mavlink_timesync_t timesync; // mission_count mavlink_mission_count_t mission_count; // mission_ack mavlink_mission_ack_t mission_ack; // mission_item mavlink_mission_item_t mission_item; // Homeposition mavlink_home_position_t home_position; // Heartbeat mavlink_heartbeat_t heartbeat; // System Status mavlink_sys_status_t sys_status; // Battery Status mavlink_battery_status_t battery_status; // Radio Status mavlink_radio_status_t radio_status; // Local Position mavlink_local_position_ned_t local_position_ned; // Global Position mavlink_global_position_int_t global_position_int; // Local Position Target mavlink_position_target_local_ned_t position_target_local_ned; // Global Position Target mavlink_position_target_global_int_t position_target_global_int; // HiRes IMU mavlink_highres_imu_t highres_imu; // Attitude mavlink_attitude_t attitude; // System Parameters? // To add // Time Stamps Time_Stamps time_stamps; void reset_timestamps() { time_stamps.reset_timestamps(); } }; // * Mission items queue: // * 16 MAV_CMD_NAV_WAYPOINT (hold time, acceptance radius, yaw angle, lat, long, altitude) // * 21 MAV_CMD_NAV_LAND (abort alt, yaw angle, lat, long, altitude) // * 22 MAV_CMD_NAV_TAKEOFF (yaw angle, lat, long, altitude) // * 177 MAV_CMD_DO_JUMP (sequence, repeat count) // * 20 MAV_CMD_NAV_RETURN_TO_LAUNCH (empty) struct MissionItem { uint16_t itemID; uint8_t type; uint64_t holdTime; float radius; float yawAngle; float latitude; float longitude; float altitude; float x, y, z; float abortAltitude; uint16_t sequence; uint16_t repeatCount; MissionItem() { // struct construtor resets all the values itemID = sequence = repeatCount = 0; holdTime = 0; radius = yawAngle = latitude = longitude = altitude = abortAltitude = x = y = z = 0; } }; // * Commands queue: // * 176 MAV_CMD_DO_SET_MODE (mode MAV_MODE) // * 177 MAV_CMD_DO_JUMP (sequence, repeat count) // * 179 MAV_CMD_DO_SET_HOME (use current, lat, long, altitude) // * 193 MAV_CMD_DO_PAUSE_CONTINUE (holdContinue: 0=hold, 1=continue) // * 300 MAV_CMD_MISSION_START (first item, last item) // * 410 MAV_CMD_GET_HOME_POS (empty) // * 20 MAV_CMD_NAV_RETURN_TO_LAUNCH (empty) struct MissionCommand { uint16_t commandId; // DO_JUMP uint16_t sequence; uint16_t repeatCount; // DO_SET_HOME uint8_t useCurrent; float latitude, longitude, altitude; float x, y, z; // DO_PAUSE_CONTINUE uint8_t pauseContinue; // MISSION_START uint16_t firstItem, lastItem; // DO_SET_MODE uint8_t mode; MissionCommand() { // reset all the attributes pauseContinue = useCurrent = 0; commandId = sequence = repeatCount = 0; latitude = longitude = altitude = x = y = z = 0; } }; class SocketRuntimeError { private: std::string info; public: SocketRuntimeError(const std::string& str) : info(str) {} std::string getInfo() const { return info; } }; class MavlinkRuntimeError { private: std::string info; public: MavlinkRuntimeError(const std::string& str) : info(str) {} std::string getInfo() const { return info; } }; class MavlinkComponent { public: MavlinkComponent(std::string addr); //MavComAgent(); ~MavlinkComponent() {} uint8_t getSysID() const { return sysid; } uint8_t getCompID() const { return compid; } std::string getAddrIP() { return addrIP; } private: uint8_t sysid; // system ID uint8_t compid; // component ID std::string addrIP; // IP address }; class MavlinkUDP { public: MavlinkUDP(const std::string& addr, int port); ~MavlinkUDP(); // begin SockUDP // threads start and stop void startThreads(); void stopThreads(); void handleQuit( int sig ); int getSocket() const { return m_socket_in; } int getPort() const { return m_port; } std::string getAddr() const { return m_addr; } bool something_to_send; uint16_t length_to_send; u_int8_t buff_out[BUFF_OUT_LEN]; u_int8_t buff_in[BUFF_IN_LEN]; ssize_t recsize; socklen_t fromlen; void clearData(); // end SockUDP char control_status; char arming_status; uint64_t write_count; // number of messages sent uint64_t Xtimec; uint64_t Xtimes; int system_id; int autopilot_id; int component_id; bool home_position_set; bool ack; bool Xtimesync; int state; int typeack; bool request; bool waypoint; int frame; int command; int seq; int seqr; int seqold; int count; int Waycount; int Wayseq; int compt; uint16_t message_interval; bool debug_messages; bool sendingPosition; uint16_t sendingPositionInterval; bool sendingAttitude; uint16_t sendingAttitudeInterval; bool sendingSystemStatus; uint16_t sendingSystemStatusInterval; bool sendingHeartbeat; uint16_t sendingHeartbeatInterval; // queue of mission items (plan de vol) std::queue missionPlan; //void getMissionPlan(std::vector& x) { x = missionPlan; } const std::queue& getMissionPlan() const { return missionPlan; } void clearMissionPlan() { std::queue empty; std::swap(missionPlan, empty); } uint16_t currentMissionItem; uint16_t missionFirst; uint16_t missionLast; // queue of received navigation commands std::queue missionCommands; const std::queue& getMissionCommands() const { return missionCommands; } void clearMissionCommands() { std::queue empty; std::swap(missionCommands, empty); } bool mission_items_loop; void itemsLoop() { mission_items_loop = true; } void itemsNoLoop() { mission_items_loop = false; } bool getItemsLoop() const { return mission_items_loop; } bool missionActive; bool getMissionStatus() const { return missionActive; } void missionStarted() { missionActive = true; } void missionStopped() { missionActive = false; } mavlink_command_long_t com; Mavlink_Messages current_messages; mavlink_set_position_target_local_ned_t initial_position; Time_Stamps last_timestamps; MavlinkComponent me, target; // destination system bool check_mavlink_crc(u_int8_t *buff_in, ssize_t recsize, u_int8_t msgid); void decode_message(u_int8_t *buff_in, ssize_t size); void print_message(u_int8_t *buff_in, ssize_t recsize); // messages void sendHeartbeat(); void sendSystemStatus(uint32_t onboardSensorsPresent, uint32_t onboardSensorsEnabled, uint32_t onboardSensorsHealth, uint16_t load, uint16_t voltage, int16_t current, int8_t batteryRemaining, uint16_t dropRateComm, uint16_t errorsComm, uint16_t errors1, uint16_t errors2, uint16_t errors3, uint16_t errors4); // callback void sendBatteryStatus(uint8_t id, uint8_t battery_function, uint8_t type, int16_t temperature, uint16_t *voltages, int16_t current, int32_t currentConsumed, int32_t energyConsumed, int8_t batteryRemaining); // callback void sendSystemTime(); void sendLocalPositionNED(float x, float y, float z, float vx, float vy, float vz); // callback void sendAttitude(float roll, float pitch, float yaw, float rollspeed, float pitchspeed, float yawspeed); // callback void updateSetpoint(mavlink_set_position_target_local_ned_t setpoint); void sendMissionAck(uint8_t targetSystem, uint8_t targetComponent, uint8_t type); void sendCommandAck(uint16_t command, uint8_t result); void sendAutopilotVersion(uint64_t capabilities, uint32_t flight_sw_version, uint32_t middleware_sw_version, uint32_t os_sw_version, uint32_t board_version, uint8_t *flight_custom_version, uint8_t *middleware_custom_version, uint8_t *os_custom_version, uint16_t vendor_id, uint16_t product_id, uint64_t uid); void sendMissionCount(uint8_t targetSystem, uint8_t targetComponent, uint16_t count); void sendCommandLong(uint8_t targetSystem, uint8_t targetComponent, uint16_t command, uint8_t confirmation, float param1, float param2, float param3, float param4, float param5, float param6, float param7); void sendMissionWritePartialList(uint8_t targetSystem, uint8_t targetComponent, uint16_t startIndex, uint16_t endIndex); void sendMissionItem(uint8_t targetSystem, uint8_t targetComponent, uint16_t seq, uint8_t frame, uint16_t command, uint8_t current, uint8_t autocontinue, float param1, float param2, float param3, float param4, float x, float y, float z); void sendMissionRequestList(uint8_t targetSystem, uint8_t targetComponent); void sendMissionItemReached(uint16_t seq); void sendMissionSetCurrent(uint8_t targetSystem, uint8_t targetComponent, uint16_t seq); void sendMissionClearAll(uint8_t targetSystem, uint8_t targetComponent); void sendSetPositionTargetLocalNED(uint32_t timeBootMs, uint8_t targetSystem, uint8_t targetComponent, uint8_t coordinateFrame, uint16_t typeMask, float x, float y, float z, float vx, float vy, float vz, float afx, float afy, float afz, float yaw, float yaw_rate); void sendSetPositionTargetGlobalInt(uint32_t time_boot_ms, uint8_t targetSystem, uint8_t targetComponent, uint8_t coordinateFrame, uint16_t typeMask, int32_t lat_int, int32_t lon_int, float alt, float vx, float vy, float vz, float afx, float afy, float afz, float yaw, float yaw_rate); // mavlink commands void cmdSetMessageInterval(uint8_t targetSystem, uint8_t targetComponent, uint8_t messageID, int64_t interval_usec); void cmdWaypoint(uint8_t targetSystem, uint8_t targetComponent, float holdTime, float proximityRadius, float passRadius, float desiredYaw, float latitude, float longitude, float altitude); void cmdLand(uint8_t targetSystem, uint8_t targetComponent, float abortAlt, float desiredYaw, float latitude, float longitude, float altitude); // land at location void cmdDoLandStart(uint8_t targetSystem, uint8_t targetComponent, float latitude, float longitude); // mission command to perform landing void cmdTakeoff(uint8_t targetSystem, uint8_t targetComponent, float desiredPitch, float magnetometerYaw, float latitude, float longitude, float altitude); void cmdDoSetMode(uint8_t targetSystem, uint8_t targetComponent, uint8_t mavMode); void cmdDoSetHome(uint8_t targetSystem, uint8_t targetComponent, uint8_t useCurrent); void cmdMissionStart(uint8_t targetSystem, uint8_t targetComponent, uint8_t firstItem, uint8_t lastItem); void cmdDoSetParameter(uint8_t targetSystem, uint8_t targetComponent, uint8_t paramNumber, float paramValue); void cmdRequestAutopilotCapabilities(uint8_t targetSystem, uint8_t targetComponent); void cmdReturnToLaunch(uint8_t targetSystem, uint8_t targetComponent); //void cmdVideoStartCapture(uint8_t targetSystem, uint8_t targetComponent); //void cmdVideoStopCapture(uint8_t targetSystem, uint8_t targetComponent); void cmdRebootShutdown(uint8_t targetSystem, uint8_t targetComponent, uint8_t autopilot, uint8_t onboardComputer); bool getMissionAck() const { return mission_ack; } bool getCommandAck() const { return command_ack; } int getMissionCount() const { return mission_count; } void setMissionAck() { mission_ack = true; } void setCommandAck() { command_ack = true; } void setMissionCount(int count) { mission_count = count; } void resetMissionAck() { mission_ack = false; } void resetCommandAck() { command_ack = false; } void resetMissionCount() { mission_count = 0; } bool ShutdownReceived() { return shutdown_flag; } uint64_t get_time_usec(); int waitCommandAck(uint64_t timeout); int waitMissionAck(uint64_t timeout); int waitMissionCount(uint64_t timeout); private: // begin SockUDP int m_socket_in; int m_socket_out; uint16_t m_port; std::string m_addr; struct addrinfo* m_addrinfo; struct sockaddr_in myaddr_in, myaddr_out, client_in; std::thread send_th; std::thread recv_th; void recv_thread(); // receiver thread void send_thread();// sender thread //int timed_recv(char *msg, size_t max_size, int max_wait_ms); bool stop_recv; bool stop_send; //std::queue queue_out; //Queue queue_out; // end SockUDP inline void clearBuffer(uint8_t *buffer, int len); mavlink_set_position_target_local_ned_t current_setpoint; int bytes_sent; // for local_position_ned float position[6] = {}; // FIXME doesn't work with mavlink 2.0 mavlink_message_t msg; u_int16_t msg_len; u_int8_t hds_mavlink_message_crcs[256] = MAVLINK_MESSAGE_CRCS; bool command_ack; bool mission_ack; int mission_count; bool shutdown_flag; // TODO change to mission item class void debug(std::string debug_msg); }; #endif // MAVLINKUDP_H