#pragma once #include "AP_Baro.h" class AP_Baro_Backend { public: AP_Baro_Backend(AP_Baro &baro); virtual ~AP_Baro_Backend(void) {}; // each driver must provide an update method to copy accumulated // data to the frontend virtual void update() = 0; // accumulate function. This is used for backends that don't use a // timer, and need to be called regularly by the main code to // trigger them to read the sensor virtual void accumulate(void) {} void backend_update(uint8_t instance); // Check that the baro valid by using a mean filter. // If the value further that filtrer_range from mean value, it is rejected. bool pressure_ok(float press); uint32_t get_error_count() const { return _error_count; } #if HAL_MSP_BARO_ENABLED virtual void handle_msp(const MSP::msp_baro_data_message_t &pkt) {} #endif #if HAL_EXTERNAL_AHRS_ENABLED virtual void handle_external(const AP_ExternalAHRS::baro_data_message_t &pkt) {} #endif /* device driver IDs. These are used to fill in the devtype field of the device ID, which shows up as BARO_DEVID* parameters to users. */ enum DevTypes { DEVTYPE_BARO_SITL = 0x01, DEVTYPE_BARO_BMP085 = 0x02, DEVTYPE_BARO_BMP280 = 0x03, DEVTYPE_BARO_BMP388 = 0x04, DEVTYPE_BARO_DPS280 = 0x05, DEVTYPE_BARO_DPS310 = 0x06, DEVTYPE_BARO_FBM320 = 0x07, DEVTYPE_BARO_ICM20789 = 0x08, DEVTYPE_BARO_KELLERLD = 0x09, DEVTYPE_BARO_LPS2XH = 0x0A, DEVTYPE_BARO_MS5611 = 0x0B, DEVTYPE_BARO_SPL06 = 0x0C, DEVTYPE_BARO_UAVCAN = 0x0D, DEVTYPE_BARO_MSP = 0x0E, DEVTYPE_BARO_ICP101XX = 0x0F, DEVTYPE_BARO_ICP201XX = 0x10, }; protected: // reference to frontend object AP_Baro &_frontend; void _copy_to_frontend(uint8_t instance, float pressure, float temperature); // semaphore for access to shared frontend data HAL_Semaphore _sem; virtual void update_healthy_flag(uint8_t instance); // mean pressure for range filter float _mean_pressure; // number of dropped samples. Not used for now, but can be usable to choose more reliable sensor uint32_t _error_count; // set bus ID of this instance, for BARO_DEVID parameters void set_bus_id(uint8_t instance, uint32_t id) { _frontend.sensors[instance].bus_id.set(int32_t(id)); } };