/// @file AP_Camera.h /// @brief Photo or video camera manager, with EEPROM-backed storage of constants. #pragma once #include #include #include #include #include #include #include #include #if CONFIG_HAL_BOARD == HAL_BOARD_PX4 #include #endif #define AP_CAMERA_TRIGGER_TYPE_SERVO 0 #define AP_CAMERA_TRIGGER_TYPE_RELAY 1 #define AP_CAMERA_TRIGGER_DEFAULT_TRIGGER_TYPE AP_CAMERA_TRIGGER_TYPE_SERVO // default is to use servo to trigger camera #define AP_CAMERA_TRIGGER_DEFAULT_DURATION 10 // default duration servo or relay is held open in 10ths of a second (i.e. 10 = 1 second) #define AP_CAMERA_SERVO_ON_PWM 1300 // default PWM value to move servo to when shutter is activated #define AP_CAMERA_SERVO_OFF_PWM 1100 // default PWM value to move servo to when shutter is deactivated #define AP_CAMERA_FEEDBACK_DEFAULT_FEEDBACK_PIN -1 // default is to not use camera feedback pin /// @class Camera /// @brief Object managing a Photo or video camera class AP_Camera { public: /// Constructor /// AP_Camera(AP_Relay *obj_relay) : _trigger_counter(0), // count of number of cycles shutter has been held open _image_index(0) { AP_Param::setup_object_defaults(this, var_info); _apm_relay = obj_relay; } // single entry point to take pictures // set send_mavlink_msg to true to send DO_DIGICAM_CONTROL message to all components void trigger_pic(bool send_mavlink_msg); // de-activate the trigger after some delay, but without using a delay() function // should be called at 50hz from main program void trigger_pic_cleanup(); // MAVLink methods void control_msg(mavlink_message_t* msg); void send_feedback(mavlink_channel_t chan, AP_GPS &gps, const AP_AHRS &ahrs, const Location ¤t_loc); // Command processing void configure(float shooting_mode, float shutter_speed, float aperture, float ISO, float exposure_type, float cmd_id, float engine_cutoff_time); // handle camera control. Return true if picture was triggered bool control(float session, float zoom_pos, float zoom_step, float focus_lock, float shooting_cmd, float cmd_id); // set camera trigger distance in a mission void set_trigger_distance(uint32_t distance_m) { _trigg_dist.set(distance_m); } // Update location of vehicle and return true if a picture should be taken bool update_location(const struct Location &loc, const AP_AHRS &ahrs); // check if trigger pin has fired bool check_trigger_pin(void); // return true if we are using a feedback pin bool using_feedback_pin(void) const { return _feedback_pin > 0; } static const struct AP_Param::GroupInfo var_info[]; private: AP_Int8 _trigger_type; // 0:Servo,1:Relay AP_Int8 _trigger_duration; // duration in 10ths of a second that the camera shutter is held open AP_Int8 _relay_on; // relay value to trigger camera AP_Int16 _servo_on_pwm; // PWM value to move servo to when shutter is activated AP_Int16 _servo_off_pwm; // PWM value to move servo to when shutter is deactivated uint8_t _trigger_counter; // count of number of cycles shutter has been held open AP_Relay *_apm_relay; // pointer to relay object from the base class Relay. void servo_pic(); // Servo operated camera void relay_pic(); // basic relay activation void feedback_pin_timer(); void setup_feedback_callback(void); #if CONFIG_HAL_BOARD == HAL_BOARD_PX4 static void capture_callback(void *context, uint32_t chan_index, hrt_abstime edge_time, uint32_t edge_state, uint32_t overflow); #endif AP_Float _trigg_dist; // distance between trigger points (meters) AP_Int16 _min_interval; // Minimum time between shots required by camera AP_Int16 _max_roll; // Maximum acceptable roll angle when trigging camera uint32_t _last_photo_time; // last time a photo was taken struct Location _last_location; uint16_t _image_index; // number of pictures taken since boot // pin number for accurate camera feedback messages AP_Int8 _feedback_pin; AP_Int8 _feedback_polarity; // this is set to 1 when camera trigger pin has fired static volatile bool _camera_triggered; bool _timer_installed:1; uint8_t _last_pin_state; };