/* * This file is free software: you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by the * Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This file is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. * See the GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program. If not, see . * * Code by: * BlueMark Innovations BV, Roel Schiphorst * Contributors: Tom Pittenger, Josh Henderson * Parts of this code are based on/copied from the Open Drone ID project https://github.com/opendroneid/opendroneid-core-c * * The code has been tested with the BlueMark DroneBeacon MAVLink transponder running this command in the ArduPlane folder: * sim_vehicle.py --wipe-eeprom --console --map -A --serial1=uart:/dev/ttyUSB1:9600 * (and a DroneBeacon MAVLink transponder connected to ttyUSB1) * * The Remote ID implementation expects a transponder that caches the received MAVLink messages from ArduPilot * and transmits them at the required intervals. So static messages are only sent once to the transponder. */ #pragma once #include "AP_OpenDroneID_config.h" #if AP_OPENDRONEID_ENABLED #include #include #include #include #define ODID_ID_SIZE 20 #define ODID_STR_SIZE 23 #define ODID_MIN_DIR 0 // Minimum direction #define ODID_MAX_DIR 360 // Maximum direction #define ODID_INV_DIR 361 // Invalid direction #define ODID_MIN_SPEED_H 0 // Minimum speed horizontal #define ODID_MAX_SPEED_H 254.25f // Maximum speed horizontal #define ODID_INV_SPEED_H 255 // Invalid speed horizontal #define ODID_MIN_SPEED_V (-62) // Minimum speed vertical #define ODID_MAX_SPEED_V 62 // Maximum speed vertical #define ODID_INV_SPEED_V 63 // Invalid speed vertical #define ODID_MIN_ALT (-1000) // Minimum altitude #define ODID_MAX_ALT 31767.5f// Maximum altitude #define ODID_INV_ALT ODID_MIN_ALT // Invalid altitude #define ODID_MAX_TIMESTAMP (60 * 60) #define ODID_INV_TIMESTAMP 0xFFFF // Invalid, No Value or Unknown Timestamp #define ODID_MAX_AREA_RADIUS 2550 #define ODID_AREA_COUNT_MIN 1 #define ODID_AREA_COUNT_MAX 65000 class AP_DroneCAN; class AP_OpenDroneID { public: AP_OpenDroneID(); /* Do not allow copies */ CLASS_NO_COPY(AP_OpenDroneID); // parameter block static const struct AP_Param::GroupInfo var_info[]; void init(); bool pre_arm_check(char* failmsg, uint8_t failmsg_len); void update(); // send pending dronecan messages void dronecan_send(AP_DroneCAN *); // handle a message from the GCS void handle_msg(mavlink_channel_t chan, const mavlink_message_t &msg); bool enabled(void) const { return _enable != 0; } void set_arm_status(mavlink_open_drone_id_arm_status_t &status); void set_basic_id(); void get_persistent_params(ExpandingString &str) const; void load_UAS_ID_from_persistent_memory(); // get singleton instance static AP_OpenDroneID *get_singleton() { return _singleton; } private: static AP_OpenDroneID *_singleton; bool _initialised; // parameters AP_Int8 _enable; AP_Float _baro_accuracy; // Vertical accuracy of the barometer when installed AP_Int16 _options; AP_Int8 _mav_port; AP_Int8 _can_driver; char ua_type[3]; char id_type[3]; size_t id_len; char id_str[21]; bool bootloader_flashed; enum Options : int16_t { EnforceArming = (1U << 0U), AllowNonGPSPosition = (1U << 1U), LockUASIDOnFirstBasicIDRx = (1U << 2U), }; // check if an option is set bool option_enabled(const Options option) const { return (uint8_t(_options.get()) & uint8_t(option)) != 0; } mavlink_channel_t _chan; // MAVLink channel that communicates with the Remote ID Transceiver const mavlink_channel_t MAV_CHAN_INVALID = mavlink_channel_t(255U); uint32_t _last_send_location_ms; uint32_t _last_send_system_update_ms; uint32_t _last_send_static_messages_ms; const uint32_t _mavlink_dynamic_period_ms = 1000; //how often are mavlink dynamic messages sent in ms. E.g. 1000 = 1 Hz const uint32_t _mavlink_static_period_ms = 3000; //how often are mavlink static messages sent in ms bool _have_height_above_takeoff; Location _takeoff_location; bool _was_armed; // packets ready to be sent, updated with semaphore held HAL_Semaphore _sem; mavlink_open_drone_id_location_t pkt_location; mavlink_open_drone_id_basic_id_t pkt_basic_id; mavlink_open_drone_id_system_t pkt_system; mavlink_open_drone_id_self_id_t pkt_self_id; mavlink_open_drone_id_operator_id_t pkt_operator_id; // last time we got a SYSTEM message uint32_t last_system_ms; // last time we got a SYSTEM_UPDATE message uint32_t last_system_update_ms; // arm status from the transmitter mavlink_open_drone_id_arm_status_t arm_status; uint32_t last_arm_status_ms; // last time we sent a lost transmitter message uint32_t last_lost_tx_ms; // last time we sent a lost operator location notice uint32_t last_lost_operator_msg_ms; // transmit functions to manually send a static MAVLink message void send_dynamic_out(); void send_static_out(); void send_basic_id_message(); void send_system_message(); void send_system_update_message(); void send_self_id_message(); void send_operator_id_message(); void send_location_message(); enum next_msg : uint8_t { NEXT_MSG_BASIC_ID = 0, NEXT_MSG_SYSTEM, NEXT_MSG_SELF_ID, NEXT_MSG_OPERATOR_ID, NEXT_MSG_ENUM_END } next_msg_to_send; uint32_t last_msg_send_ms; // helper functions MAV_ODID_HOR_ACC create_enum_horizontal_accuracy(float Accuracy) const; MAV_ODID_VER_ACC create_enum_vertical_accuracy(float Accuracy) const; MAV_ODID_SPEED_ACC create_enum_speed_accuracy(float Accuracy) const; MAV_ODID_TIME_ACC create_enum_timestamp_accuracy(float Accuracy) const; uint16_t create_direction(uint16_t direction) const; uint16_t create_speed_horizontal(uint16_t speed) const; int16_t create_speed_vertical(int16_t speed) const; float create_altitude(float altitude) const; float create_location_timestamp(float timestamp) const; // mask of what UAVCAN drivers need to send each packet const uint8_t dronecan_send_all = (1U<