#ifndef __AP_HAL_LINUX_RCINPUT_H__ #define __AP_HAL_LINUX_RCINPUT_H__ #include "AP_HAL_Linux.h" #define LINUX_RC_INPUT_NUM_CHANNELS 16 class Linux::RCInput : public AP_HAL::RCInput { public: RCInput(); static RCInput *from(AP_HAL::RCInput *rcinput) { return static_cast(rcinput); } virtual void init(void* machtnichts); bool new_input(); uint8_t num_channels(); uint16_t read(uint8_t ch); uint8_t read(uint16_t* periods, uint8_t len); bool set_overrides(int16_t *overrides, uint8_t len); bool set_override(uint8_t channel, int16_t override); void clear_overrides(); // default empty _timer_tick, this is overridden by board // specific implementations virtual void _timer_tick() {} protected: void _process_rc_pulse(uint16_t width_s0, uint16_t width_s1); void _update_periods(uint16_t *periods, uint8_t len); private: volatile bool new_rc_input; uint16_t _pwm_values[LINUX_RC_INPUT_NUM_CHANNELS]; uint8_t _num_channels; void _process_ppmsum_pulse(uint16_t width); void _process_sbus_pulse(uint16_t width_s0, uint16_t width_s1); void _process_dsm_pulse(uint16_t width_s0, uint16_t width_s1); /* override state */ uint16_t _override[LINUX_RC_INPUT_NUM_CHANNELS]; // state of ppm decoder struct { int8_t _channel_counter; uint16_t _pulse_capt[LINUX_RC_INPUT_NUM_CHANNELS]; } ppm_state; // state of SBUS bit decoder struct { uint16_t bytes[25]; // including start bit, parity and stop bits uint16_t bit_ofs; } sbus_state; // state of DSM decoder struct { uint16_t bytes[16]; // including start bit and stop bit uint16_t bit_ofs; } dsm_state; }; #include "RCInput_PRU.h" #include "RCInput_ZYNQ.h" #endif // __AP_HAL_LINUX_RCINPUT_H__