/* SToRM32 mount using serial protocol backend class */ #pragma once #include "AP_Mount_Backend.h" #ifndef HAL_MOUNT_STORM32SERIAL_ENABLED #define HAL_MOUNT_STORM32SERIAL_ENABLED HAL_MOUNT_ENABLED #endif #if HAL_MOUNT_STORM32SERIAL_ENABLED #include #include #include #include #include #define AP_MOUNT_STORM32_SERIAL_RESEND_MS 1000 // resend angle targets to gimbal once per second class AP_Mount_SToRM32_serial : public AP_Mount_Backend { public: // Constructor AP_Mount_SToRM32_serial(AP_Mount &frontend, AP_Mount_Params ¶ms, uint8_t instance); // init - performs any required initialisation for this instance void init() override; // update mount position - should be called periodically void update() override; // has_pan_control - returns true if this mount can control it's pan (required for multicopters) bool has_pan_control() const override { return yaw_range_valid(); }; // set_mode - sets mount's mode void set_mode(enum MAV_MOUNT_MODE mode) override; protected: // get attitude as a quaternion. returns true on success bool get_attitude_quaternion(Quaternion& att_quat) override; private: // send_target_angles void send_target_angles(const MountTarget& angle_target_rad); // send read data request void get_angles(); // read_incoming void read_incoming(); void parse_reply(); enum ReplyType { ReplyType_UNKNOWN = 0, ReplyType_DATA, ReplyType_ACK }; //void add_next_reply(ReplyType reply_type); uint8_t get_reply_size(ReplyType reply_type); bool can_send(bool with_control); struct PACKED SToRM32_reply_data_struct { uint16_t state; uint16_t status; uint16_t status2; uint16_t i2c_errors; uint16_t lipo_voltage; uint16_t systicks; uint16_t cycle_time; int16_t imu1_gx; int16_t imu1_gy; int16_t imu1_gz; int16_t imu1_ax; int16_t imu1_ay; int16_t imu1_az; int16_t ahrs_x; int16_t ahrs_y; int16_t ahrs_z; int16_t imu1_pitch; int16_t imu1_roll; int16_t imu1_yaw; int16_t cpid_pitch; int16_t cpid_roll; int16_t cpid_yaw; uint16_t input_pitch; uint16_t input_roll; uint16_t input_yaw; int16_t imu2_pitch; int16_t imu2_roll; int16_t imu2_yaw; int16_t mag2_yaw; int16_t mag2_pitch; int16_t ahrs_imu_confidence; uint16_t function_input_values; uint16_t crc; uint8_t magic; }; struct PACKED SToRM32_reply_ack_struct { uint8_t byte1; uint8_t byte2; uint8_t byte3; uint8_t data; uint16_t crc; }; struct PACKED cmd_set_angles_struct { uint8_t byte1; uint8_t byte2; uint8_t byte3; float pitch; float roll; float yaw; uint8_t flags; uint8_t type; uint16_t crc; }; // internal variables AP_HAL::UARTDriver *_port; bool _initialised; // true once the driver has been initialised MountTarget _angle_rad; // latest angle target uint32_t _last_send; // system time of last do_mount_control sent to gimbal uint8_t _reply_length; uint8_t _reply_counter; ReplyType _reply_type; union PACKED SToRM32_reply { DEFINE_BYTE_ARRAY_METHODS SToRM32_reply_data_struct data; SToRM32_reply_ack_struct ack; } _buffer; // keep the last _current_angle values Vector3l _current_angle; }; #endif // HAL_MOUNT_STORM32SERIAL_ENABLED