/* 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 . */ /* GPS driver backend class */ #pragma once #include "AP_GPS_config.h" #if AP_GPS_ENABLED #include #include #include #include "AP_GPS.h" #include "AP_GPS_config.h" #ifndef AP_GPS_DEBUG_LOGGING_ENABLED // enable this to log all bytes from the GPS. Also needs a call to // log_data() in each backend #define AP_GPS_DEBUG_LOGGING_ENABLED 0 #endif #ifndef AP_GPS_MB_MIN_LAG #define AP_GPS_MB_MIN_LAG 0.05f #endif #ifndef AP_GPS_MB_MAX_LAG #define AP_GPS_MB_MAX_LAG 0.25f #endif #if AP_GPS_DEBUG_LOGGING_ENABLED #include #endif class AP_GPS_Backend { public: AP_GPS_Backend(AP_GPS &_gps, AP_GPS::Params &_params, AP_GPS::GPS_State &_state, AP_HAL::UARTDriver *_port); // we declare a virtual destructor so that GPS drivers can // override with a custom destructor if need be. virtual ~AP_GPS_Backend(void) {} // The read() method is the only one needed in each driver. It // should return true when the backend has successfully received a // valid packet from the GPS. virtual bool read() = 0; // Highest status supported by this GPS. // Allows external system to identify type of receiver connected. virtual AP_GPS::GPS_Status highest_supported_status(void) { return AP_GPS::GPS_OK_FIX_3D; } virtual bool is_configured(void) const { return true; } virtual void inject_data(const uint8_t *data, uint16_t len); #if HAL_GCS_ENABLED //MAVLink methods virtual bool supports_mavlink_gps_rtk_message() const { return false; } #if AP_GPS_GPS_RTK_SENDING_ENABLED || AP_GPS_GPS2_RTK_SENDING_ENABLED virtual void send_mavlink_gps_rtk(mavlink_channel_t chan); #endif virtual void handle_msg(const mavlink_message_t &msg) { return ; } #endif virtual void broadcast_configuration_failure_reason(void) const { return ; } #if HAL_MSP_GPS_ENABLED virtual void handle_msp(const MSP::msp_gps_data_message_t &pkt) { return; } #endif #if HAL_EXTERNAL_AHRS_ENABLED virtual void handle_external(const AP_ExternalAHRS::gps_data_message_t &pkt) { return; } #endif // driver specific lag, returns true if the driver is confident in the provided lag virtual bool get_lag(float &lag) const { lag = 0.2f; return true; } // driver specific health, returns true if the driver is healthy virtual bool is_healthy(void) const { return true; } // returns true if the GPS is doing any logging it is expected to virtual bool logging_healthy(void) const { return true; } virtual const char *name() const = 0; void broadcast_gps_type() const; #if HAL_LOGGING_ENABLED virtual void Write_AP_Logger_Log_Startup_messages() const; #endif virtual bool prepare_for_arming(void) { return true; } // optional support for retrieving RTCMv3 data from a moving baseline base virtual bool get_RTCMV3(const uint8_t *&bytes, uint16_t &len) { return false; } virtual void clear_RTCMV3(void) {}; virtual bool get_error_codes(uint32_t &error_codes) const { return false; } // return iTOW of last message, or zero if not supported uint32_t get_last_itow_ms(void) const; // check if an option is set bool option_set(const AP_GPS::DriverOptions option) const { return gps.option_set(option); } protected: AP_HAL::UARTDriver *port; ///< UART we are attached to AP_GPS &gps; ///< access to frontend (for parameters) AP_GPS::GPS_State &state; ///< public state for this instance AP_GPS::Params ¶ms; uint64_t _last_pps_time_us; JitterCorrection jitter_correction; uint32_t _last_itow_ms; bool _have_itow; /* fill in 3D velocity from 2D components */ void fill_3d_velocity(void); /* fill ground course and speed from velocity */ void velocity_to_speed_course(AP_GPS::GPS_State &s); /* fill in time_week_ms and time_week from BCD date and time components assumes MTK19 millisecond form of bcd_time */ void make_gps_time(uint32_t bcd_date, uint32_t bcd_milliseconds); void _detection_message(char *buffer, uint8_t buflen) const; bool should_log() const; /* set a timestamp based on arrival time on uart at current byte, assuming the message started nbytes ago */ void set_uart_timestamp(uint16_t nbytes); void check_new_itow(uint32_t itow, uint32_t msg_length); #if GPS_MOVING_BASELINE bool calculate_moving_base_yaw(const float reported_heading_deg, const float reported_distance, const float reported_D); bool calculate_moving_base_yaw(AP_GPS::GPS_State &interim_state, const float reported_heading_deg, const float reported_distance, const float reported_D); #endif //GPS_MOVING_BASELINE // get GPS type, for subtype config AP_GPS::GPS_Type get_type() const { return gps.get_type(state.instance); } virtual void set_pps_desired_freq(uint8_t freq) {} #if AP_GPS_DEBUG_LOGGING_ENABLED // log some data for debugging void log_data(const uint8_t *data, uint16_t length); #endif // set alt in location, honouring GPS driver option for ellipsoid height void set_alt_amsl_cm(AP_GPS::GPS_State &_state, int32_t alt_amsl_cm); private: // itow from previous message uint64_t _pseudo_itow; int32_t _pseudo_itow_delta_ms; uint32_t _last_ms; uint32_t _rate_ms; uint32_t _last_rate_ms; uint16_t _rate_counter; #if AP_GPS_DEBUG_LOGGING_ENABLED // support raw GPS logging static struct loginfo { int fd = -1; ByteBuffer buf{16000}; } logging[2]; static bool log_thread_created; static void logging_loop(void); void logging_start(void); #endif }; #endif // AP_GPS_ENABLED