/* This program 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 program 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 . */ #pragma once #include "AP_AIS_config.h" #if AP_AIS_ENABLED // 0 fully disabled and compiled out // 1 compiled in and enabled // 2 compiled in with dummy methods, none functional, except rover which never uses dummy methods functionality #include #include #include #define AIVDM_BUFFER_SIZE 10 #define AIVDM_PAYLOAD_SIZE 65 class AP_AIS { public: AP_AIS(); CLASS_NO_COPY(AP_AIS); // get singleton instance static AP_AIS *get_singleton(); // return true if AIS is enabled bool enabled() const; // Initialize the AIS object and prepare it for use void init(); // update AIS, expected to be called at 20hz void update(); // send mavlink AIS message void send(mavlink_channel_t chan); // parameter block static const struct AP_Param::GroupInfo var_info[]; private: // parameters AP_Int8 _type; // type of AIS receiver AP_Int16 _max_list; // maximum number of vessels to track at once AP_Int16 _time_out; // time in seconds that a vessel will be dropped from the list AP_Int16 _log_options; // logging options bitmask enum class AISType { NONE = 0, NMEA = 1, }; enum options { AIS_OPTIONS_LOG_ALL_RAW = 1<<0, AIS_OPTIONS_LOG_UNSUPPORTED_RAW = 1<<1, AIS_OPTIONS_LOG_DECODED = 1<<2, }; struct AIVDM { uint8_t num; uint8_t total; uint8_t ID; char payload[AIVDM_PAYLOAD_SIZE]; }; AIVDM _incoming; AIVDM _AIVDM_buffer[AIVDM_BUFFER_SIZE]; struct ais_vehicle_t { mavlink_ais_vessel_t info; uint32_t last_update_ms; // last time this was refreshed, allows timeouts uint32_t last_send_ms; // last time this message was sent via mavlink, stops us spamming the link }; // list of the vessels that are being tracked AP_ExpandingArray _list {8}; AP_HAL::UARTDriver *_uart; uint16_t _send_index; // index of the last vessel send over mavlink // removed the given index from the AIVDM buffer shift following elements void buffer_shift(uint8_t i); // find vessel in existing list, if not then return new index if possible bool get_vessel_index(uint32_t mmsi, uint16_t &index, uint32_t lat = 0, uint32_t lon = 0) WARN_IF_UNUSED; void clear_list_item(uint16_t index); // decode the payload bool payload_decode(const char *payload) WARN_IF_UNUSED; // decode specific message types bool decode_position_report(const char *payload, uint8_t type) WARN_IF_UNUSED; bool decode_base_station_report(const char *payload) WARN_IF_UNUSED; bool decode_static_and_voyage_data(const char *payload) WARN_IF_UNUSED; // read the specified bits from the char array each char giving 6 bits void get_char(const char *payload, char *array, uint16_t low, uint16_t high); uint32_t get_bits(const char *payload, uint16_t low, uint16_t high); int32_t get_bits_signed(const char *payload, uint16_t low, uint16_t high); // un-encode the ASCII payload armoring uint8_t payload_char_decode(const char c); // log a raw AIVDM message void log_raw(const AIVDM *msg); // try and decode NMEA message bool decode(char c) WARN_IF_UNUSED; // decode each term bool decode_latest_term() WARN_IF_UNUSED; // variables for decoding NMEA sentence char _term[AIVDM_PAYLOAD_SIZE]; // buffer for the current term within the current sentence uint8_t _term_offset; // offset within the _term buffer where the next character should be placed uint8_t _term_number; // term index within the current sentence uint8_t _checksum; // checksum accumulator bool _term_is_checksum; // current term is the checksum bool _sentence_valid; // is current sentence valid so far bool _sentence_done; // true if this sentence has already been decoded static AP_AIS *_singleton; }; #endif // AP_AIS_ENABLED