#ifndef __AP_HAL_LINUX_RCOUTPUT_BEBOP_H__ #define __AP_HAL_LINUX_RCOUTPUT_BEBOP_H__ #include "AP_HAL_Linux.h" enum bebop_bldc_motor { BEBOP_BLDC_MOTOR_1 = 0, BEBOP_BLDC_MOTOR_2, BEBOP_BLDC_MOTOR_3, BEBOP_BLDC_MOTOR_4, BEBOP_BLDC_MOTORS_NUM, }; enum bebop_bldc_sound { BEBOP_BLDC_SOUND_NONE = 0, BEBOP_BLDC_SOUND_SHORT_BEEP, BEBOP_BLDC_SOUND_BOOT_BEEP, BEBOP_BLDC_SOUND_BEBOP, }; /* description of the bldc status */ #define BEBOP_BLDC_STATUS_INIT 0 #define BEBOP_BLDC_STATUS_IDLE 1 #define BEBOP_BLDC_STATUS_RAMPING 2 #define BEBOP_BLDC_STATUS_SPINNING_1 3 #define BEBOP_BLDC_STATUS_SPINNING_2 4 #define BEBOP_BLDC_STATUS_STOPPING 5 #define BEBOP_BLDC_STATUS_CRITICAL 6 /* description of the bldc errno */ #define BEBOP_BLDC_ERRNO_EEPROM 1 #define BEBOP_BLDC_ERRNO_MOTOR_STALLED 2 #define BEBOP_BLDC_ERRNO_PROP_SECU 3 #define BEBOP_BLDC_ERRNO_COM_LOST 4 #define BEBOP_BLDC_ERRNO_BATT_LEVEL 9 #define BEBOP_BLDC_ERRNO_LIPO 10 #define BEBOP_BLDC_ERRNO_MOTOR_HW 11 class BebopBLDC_ObsData { public: uint16_t rpm[BEBOP_BLDC_MOTORS_NUM]; uint8_t rpm_saturated[BEBOP_BLDC_MOTORS_NUM]; uint16_t batt_mv; uint8_t status; uint8_t error; uint8_t motors_err; uint8_t temperature; }; struct bldc_info { uint8_t version_maj; uint8_t version_min; uint8_t type; uint8_t n_motors; uint16_t n_flights; uint16_t last_flight_time; uint32_t total_flight_time; uint8_t last_error; }__attribute__((packed)); class Linux::RCOutput_Bebop : public AP_HAL::RCOutput { public: RCOutput_Bebop(); static RCOutput_Bebop *from(AP_HAL::RCOutput *rcout) { return static_cast(rcout); } void init(); void set_freq(uint32_t chmask, uint16_t freq_hz); uint16_t get_freq(uint8_t ch); void enable_ch(uint8_t ch); void disable_ch(uint8_t ch); void write(uint8_t ch, uint16_t period_us); void cork() override; void push() override; uint16_t read(uint8_t ch); void read(uint16_t* period_us, uint8_t len); void set_esc_scaling(uint16_t min_pwm, uint16_t max_pwm); int read_obs_data(BebopBLDC_ObsData &data); private: AP_HAL::Semaphore *_i2c_sem; uint16_t _request_period_us[BEBOP_BLDC_MOTORS_NUM]; uint16_t _period_us[BEBOP_BLDC_MOTORS_NUM]; uint16_t _rpm[BEBOP_BLDC_MOTORS_NUM]; uint16_t _frequency; uint16_t _min_pwm; uint16_t _max_pwm; uint8_t _state; bool _corking = false; uint16_t _max_rpm; uint8_t _checksum(uint8_t *data, unsigned int len); void _start_prop(); void _toggle_gpio(uint8_t mask); void _set_ref_speed(uint16_t rpm[BEBOP_BLDC_MOTORS_NUM]); bool _get_info(struct bldc_info *info); void _stop_prop(); void _clear_error(); void _play_sound(uint8_t sound); uint16_t _period_us_to_rpm(uint16_t period_us); /* thread related members */ pthread_t _thread; pthread_mutex_t _mutex; pthread_cond_t _cond; void _run_rcout(); static void *_control_thread(void *arg); }; #endif // __AP_HAL_LINUX_RCOUTPUT_BEBOP_H__