#pragma once #include #if CONFIG_HAL_BOARD == HAL_BOARD_SITL #define SITL_MCAST_IP "239.255.145.51" #define SITL_MCAST_PORT 20721 #define SITL_SERVO_PORT 20722 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include // #include // #include #include #include #include #include #include #include #include #include #include "AP_HAL_SITL.h" #include "AP_HAL_SITL_Namespace.h" #include "HAL_SITL_Class.h" #include "RCInput.h" #include #include #include #include #include #include #include #include class HAL_SITL; class HALSITL::SITL_State_Common { friend class HALSITL::Scheduler; friend class HALSITL::Util; friend class HALSITL::GPIO; public: virtual void init(int argc, char * const argv[]) = 0; enum vehicle_type { NONE, ArduCopter, Rover, ArduPlane, ArduSub, Blimp }; // create a simulated serial device; type of device is given by // name parameter SITL::SerialDevice *create_serial_sim(const char *name, const char *arg, const uint8_t portNumber); // simulated airspeed, sonar and battery monitor float sonar_pin_voltage; // pin 0 float airspeed_pin_voltage[AIRSPEED_MAX_SENSORS]; // pin 1 float voltage_pin_voltage; // pin 13 float current_pin_voltage; // pin 12 float voltage2_pin_voltage; // pin 15 float current2_pin_voltage; // pin 14 uint16_t pwm_input[SITL_RC_INPUT_CHANNELS]; bool new_rc_input; uint16_t pwm_output[SITL_NUM_CHANNELS]; bool output_ready = false; #if HAL_SIM_GIMBAL_ENABLED // simulated gimbal bool enable_gimbal; SITL::Gimbal *gimbal; #endif #if HAL_SIM_ADSB_ENABLED // simulated ADSb SITL::ADSB *adsb; #endif #if AP_SIM_ADSB_SAGETECH_MXS_ENABLED SITL::ADSB_Sagetech_MXS *sagetech_mxs; #endif #if !defined(HAL_BUILD_AP_PERIPH) // simulated vicon system: SITL::Vicon *vicon; #endif // simulated Ainstein LR-D1 rangefinder: SITL::RF_Ainstein_LR_D1 *ainsteinlrd1; // simulated Benewake tf02 rangefinder: SITL::RF_Benewake_TF02 *benewake_tf02; // simulated Benewake tf03 rangefinder: SITL::RF_Benewake_TF03 *benewake_tf03; //simulated JAE JRE rangefinder: SITL::RF_JRE *jre; // simulated Benewake tfmini rangefinder: SITL::RF_Benewake_TFmini *benewake_tfmini; //simulated NoopLoop TOFSense rangefinder: SITL::RF_Nooploop *nooploop; // simulated TeraRanger Serial: SITL::RF_TeraRanger_Serial *teraranger_serial; // simulated LightWareSerial rangefinder - legacy protocol:: SITL::RF_LightWareSerial *lightwareserial; // simulated LightWareSerial rangefinder - binary protocol: SITL::RF_LightWareSerialBinary *lightwareserial_binary; // simulated Lanbao rangefinder: SITL::RF_Lanbao *lanbao; // simulated BLping rangefinder: SITL::RF_BLping *blping; // simulated LeddarOne rangefinder: SITL::RF_LeddarOne *leddarone; // simulated RDS02UF rangefinder: SITL::RF_RDS02UF *rds02uf; // simulated USD1 v0 rangefinder: SITL::RF_USD1_v0 *USD1_v0; // simulated USD1 v1 rangefinder: SITL::RF_USD1_v1 *USD1_v1; // simulated MaxsonarSerialLV rangefinder: SITL::RF_MaxsonarSerialLV *maxsonarseriallv; // simulated Wasp rangefinder: SITL::RF_Wasp *wasp; // simulated NMEA rangefinder: SITL::RF_NMEA *nmea; // simulated MAVLink rangefinder: SITL::RF_MAVLink *rf_mavlink; // simulated GYUS42v2 rangefinder: SITL::RF_GYUS42v2 *gyus42v2; // simulated Frsky devices SITL::Frsky_D *frsky_d; // SITL::Frsky_SPort *frsky_sport; // SITL::Frsky_SPortPassthrough *frsky_sportpassthrough; #if HAL_SIM_PS_RPLIDARA2_ENABLED // simulated RPLidarA2: SITL::PS_RPLidarA2 *rplidara2; #endif // simulated FETtec OneWire ESCs: SITL::FETtecOneWireESC *fetteconewireesc; // simulated RPLidarA1: SITL::PS_RPLidarA1 *rplidara1; #if HAL_SIM_PS_LIGHTWARE_SF45B_ENABLED // simulated SF45B proximity sensor: SITL::PS_LightWare_SF45B *sf45b; #endif #if HAL_SIM_PS_TERARANGERTOWER_ENABLED SITL::PS_TeraRangerTower *terarangertower; #endif #if AP_SIM_CRSF_ENABLED // simulated CRSF devices SITL::CRSF *crsf; #endif // simulated VectorNav system: SITL::VectorNav *vectornav; // simulated MicroStrain system SITL::MicroStrain5 *microstrain5; // simulated MicroStrain system SITL::MicroStrain7 *microstrain7; // simulated InertialLabs INS SITL::InertialLabs *inertiallabs; #if HAL_SIM_JSON_MASTER_ENABLED // Ride along instances via JSON SITL backend SITL::JSON_Master ride_along; #endif #if HAL_SIM_AIS_ENABLED // simulated AIS stream SITL::AIS *ais; #endif // simulated EFI MegaSquirt device: SITL::EFI_MegaSquirt *efi_ms; // simulated EFI MegaSquirt device: SITL::EFI_Hirth *efi_hirth; // output socket for flightgear viewing SocketAPM_native fg_socket{true}; const char *defaults_path = HAL_PARAM_DEFAULTS_PATH; // simulated GPS devices SITL::GPS *gps[2]; // constrained by # of parameter sets // Simulated ELRS radio SITL::ELRS *elrs; // returns a voltage between 0V to 5V which should appear as the // voltage from the sensor float _sonar_pin_voltage() const; // multicast state int mc_out_fd = -1; // send out SITL state as UDP multicast void multicast_state_open(void); void multicast_state_send(void); protected: enum vehicle_type _vehicle; void sim_update(void); // internal SITL model SITL::Aircraft *sitl_model; SITL::SIM *_sitl; void update_voltage_current(struct sitl_input &input, float throttle); }; #endif // CONFIG_HAL_BOARD == HAL_BOARD_SITL