ardupilot/libraries/AP_Mount/AP_Mount_Siyi.h

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/*
Siyi gimbal driver using custom serial protocol
Packet format (courtesy of Siyi's SDK document)
-------------------------------------------------------------------------------------------
Field Index Bytes Description
-------------------------------------------------------------------------------------------
STX 0 2 0x5566: starting mark
CTRL 2 1 bit 0: need_ack. set if the current data packet needs ack
bit 1: ack_pack. set if the current data packate IS an ack
bit 2-7: reserved
Data_len 3 2 Data field byte length. Low byte in the front
SEQ 5 2 Frame sequence (0 ~ 65535). Low byte in the front. May be used to detect packet loss
CMD_ID 7 1 Command ID
DATA 8 Data_len Data
CRC16 2 CRC16 check the complete data package. Low byte in the front
*/
#pragma once
#include "AP_Mount_Backend.h"
#if HAL_MOUNT_SIYI_ENABLED
#include <AP_HAL/AP_HAL.h>
#include <AP_Math/AP_Math.h>
#include <AP_Common/AP_Common.h>
#define AP_MOUNT_SIYI_PACKETLEN_MAX 22 // maximum number of bytes in a packet sent to or received from the gimbal
class AP_Mount_Siyi : public AP_Mount_Backend
{
public:
// Constructor
using AP_Mount_Backend::AP_Mount_Backend;
/* Do not allow copies */
CLASS_NO_COPY(AP_Mount_Siyi);
// init - performs any required initialisation for this instance
void init() override;
// update mount position - should be called periodically
void update() override;
// return true if healthy
bool healthy() const override;
// return true if this mount accepts roll targets
bool has_roll_control() const override { return false; }
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// has_pan_control - returns true if this mount can control its pan (required for multicopters)
bool has_pan_control() const override { return yaw_range_valid(); };
//
// camera controls
//
// take a picture. returns true on success
bool take_picture() override;
// start or stop video recording
// set start_recording = true to start record, false to stop recording
bool record_video(bool start_recording) override;
// set zoom specified as a rate or percentage
bool set_zoom(ZoomType zoom_type, float zoom_value) override;
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// set focus specified as rate, percentage or auto
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// focus in = -1, focus hold = 0, focus out = 1
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SetFocusResult set_focus(FocusType focus_type, float focus_value) override;
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// set camera lens as a value from 0 to 8. ZT30 only
bool set_lens(uint8_t lens) override;
// send camera information message to GCS
void send_camera_information(mavlink_channel_t chan) const override;
// send camera settings message to GCS
void send_camera_settings(mavlink_channel_t chan) const override;
//
// rangefinder
//
// get rangefinder distance. Returns true on success
bool get_rangefinder_distance(float& distance_m) const override;
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protected:
// get attitude as a quaternion. returns true on success
bool get_attitude_quaternion(Quaternion& att_quat) override;
private:
// serial protocol command ids
enum class SiyiCommandId {
ACQUIRE_FIRMWARE_VERSION = 0x01,
HARDWARE_ID = 0x02,
AUTO_FOCUS = 0x04,
MANUAL_ZOOM_AND_AUTO_FOCUS = 0x05,
MANUAL_FOCUS = 0x06,
GIMBAL_ROTATION = 0x07,
CENTER = 0x08,
ACQUIRE_GIMBAL_CONFIG_INFO = 0x0A,
FUNCTION_FEEDBACK_INFO = 0x0B,
PHOTO = 0x0C,
ACQUIRE_GIMBAL_ATTITUDE = 0x0D,
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ABSOLUTE_ZOOM = 0x0F,
SET_CAMERA_IMAGE_TYPE = 0x11,
READ_RANGEFINDER = 0x15,
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};
// Function Feedback Info packet info_type values
enum class FunctionFeedbackInfo : uint8_t {
SUCCESS = 0,
FAILED_TO_TAKE_PHOTO = 1,
HDR_ON = 2,
HDR_OFF = 3,
FAILED_TO_RECORD_VIDEO = 4
};
// Photo Function packet func_type values
enum class PhotoFunction : uint8_t {
TAKE_PICTURE = 0,
HDR_TOGGLE = 1,
RECORD_VIDEO_TOGGLE = 2,
LOCK_MODE = 3,
FOLLOW_MODE = 4,
FPV_MODE = 5
};
// parsing state
enum class ParseState : uint8_t {
WAITING_FOR_HEADER_LOW,
WAITING_FOR_HEADER_HIGH,
WAITING_FOR_CTRL,
WAITING_FOR_DATALEN_LOW,
WAITING_FOR_DATALEN_HIGH,
WAITING_FOR_SEQ_LOW,
WAITING_FOR_SEQ_HIGH,
WAITING_FOR_CMDID,
WAITING_FOR_DATA,
WAITING_FOR_CRC_LOW,
WAITING_FOR_CRC_HIGH,
};
// hardware model enum
enum class HardwareModel : uint8_t {
UNKNOWN = 0,
A2,
A8,
ZR10,
ZR30,
ZT30
} _hardware_model;
enum class HdrStatus : uint8_t {
OFF = 0,
ON = 1,
};
enum class RecordingStatus : uint8_t {
OFF = 0,
ON = 1,
NO_CARD = 2,
DATA_LOSS = 3,
};
enum class GimbalMotionMode : uint8_t {
LOCK = 0,
FOLLOW = 1,
FPV = 2,
};
enum class GimbalMountingDirection : uint8_t {
UNDEFINED = 0,
NORMAL = 1,
UPSIDE_DOWN = 2,
};
enum class VideoOutputStatus : uint8_t {
HDMI = 0,
CVBS = 1,
};
// Response message for "Acquire Gimbal Confuguration Information" (0x0A)
typedef struct {
uint8_t _reserved1;
HdrStatus hdr_status;
uint8_t _reserved3;
RecordingStatus record_status;
GimbalMotionMode motion_mode;
GimbalMountingDirection mounting_dir;
VideoOutputStatus video_mode;
} GimbalConfigInfo;
static_assert(sizeof(GimbalConfigInfo) == 7);
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// camera image types (aka lens)
enum class CameraImageType : uint8_t {
MAIN_PIP_ZOOM_THERMAL_SUB_WIDEANGLE = 0,
MAIN_PIP_WIDEANGLE_THERMAL_SUB_ZOOM = 1,
MAIN_PIP_ZOOM_WIDEANGLE_SUB_THERMAL = 2,
MAIN_ZOOM_SUB_THERMAL = 3,
MAIN_ZOOM_SUB_WIDEANGLE = 4,
MAIN_WIDEANGLE_SUB_THERMAL = 5,
MAIN_WIDEANGLE_SUB_ZOOM = 6,
MAIN_THERMAL_SUB_ZOOM = 7,
MAIN_THERMAL_SUB_WIDEANGLE = 8
};
typedef struct {
uint8_t major;
uint8_t minor;
uint8_t patch;
} Version;
typedef struct {
Version camera;
Version gimbal;
Version zoom;
bool received; // true once version information has been received
} FirmwareVersion;
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// reading incoming packets from gimbal and confirm they are of the correct format
// results are held in the _parsed_msg structure
void read_incoming_packets();
// process successfully decoded packets held in the _parsed_msg structure
void process_packet();
// send packet to gimbal
// returns true on success, false if outgoing serial buffer is full
bool send_packet(SiyiCommandId cmd_id, const uint8_t* databuff, uint8_t databuff_len);
bool send_1byte_packet(SiyiCommandId cmd_id, uint8_t data_byte);
// request info from gimbal
void request_firmware_version() { send_packet(SiyiCommandId::ACQUIRE_FIRMWARE_VERSION, nullptr, 0); }
void request_hardware_id() { send_packet(SiyiCommandId::HARDWARE_ID, nullptr, 0); }
void request_configuration() { send_packet(SiyiCommandId::ACQUIRE_GIMBAL_CONFIG_INFO, nullptr, 0); }
void request_function_feedback_info() { send_packet(SiyiCommandId::FUNCTION_FEEDBACK_INFO, nullptr, 0); }
void request_gimbal_attitude() { send_packet(SiyiCommandId::ACQUIRE_GIMBAL_ATTITUDE, nullptr, 0); }
void request_rangefinder_distance() { send_packet(SiyiCommandId::READ_RANGEFINDER, nullptr, 0); }
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// rotate gimbal. pitch_rate and yaw_rate are scalars in the range -100 ~ +100
// yaw_is_ef should be true if gimbal should maintain an earth-frame target (aka lock)
void rotate_gimbal(int8_t pitch_scalar, int8_t yaw_scalar, bool yaw_is_ef);
// Set gimbal's motion mode if it has changed. Use force=true to always send.
// FOLLOW: roll and pitch are in earth-frame, yaw is in body-frame
// LOCK: roll, pitch and yaw are all in earth-frame
// FPV: roll, pitch and yaw are all in body-frame
// Returns true if message successfully sent to Gimbal
bool set_motion_mode(const GimbalMotionMode mode, const bool force=false);
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// send target pitch and yaw rates to gimbal
// yaw_is_ef should be true if yaw_rads target is an earth frame rate, false if body_frame
void send_target_rates(float pitch_rads, float yaw_rads, bool yaw_is_ef);
// send target pitch and yaw angles to gimbal
// yaw_is_ef should be true if yaw_rad target is an earth frame angle, false if body_frame
void send_target_angles(float pitch_rad, float yaw_rad, bool yaw_is_ef);
// send zoom rate command to camera. zoom out = -1, hold = 0, zoom in = 1
bool send_zoom_rate(float zoom_value);
// send zoom multiple command to camera. e.g. 1x, 10x, 30x
bool send_zoom_mult(float zoom_mult);
// get zoom multiple max
float get_zoom_mult_max() const;
// update zoom controller
void update_zoom_control();
// get model name string, returns nullptr if hardware id is unknown
const char* get_model_name() const;
// Checks that the firmware version on the Gimbal meets the minimum supported version.
void check_firmware_version() const;
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// internal variables
AP_HAL::UARTDriver *_uart; // uart connected to gimbal
bool _initialised; // true once the driver has been initialised
bool _got_hardware_id; // true once hardware id ha been received
FirmwareVersion _fw_version; // firmware version (for reporting for GCS)
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// buffer holding bytes from latest packet. This is only used to calculate the crc
uint8_t _msg_buff[AP_MOUNT_SIYI_PACKETLEN_MAX];
uint8_t _msg_buff_len;
const uint8_t _msg_buff_data_start = 8; // data starts at this byte of _msg_buff
// parser state and unpacked fields
struct PACKED {
uint16_t data_len; // expected number of data bytes
uint8_t command_id; // command id
uint16_t data_bytes_received; // number of data bytes received so far
uint16_t crc16; // latest message's crc
ParseState state; // state of incoming message processing
} _parsed_msg;
// variables for sending packets to gimbal
uint32_t _last_send_ms; // system time (in milliseconds) of last packet sent to gimbal
uint16_t _last_seq; // last sequence number used (should be increment for each send)
// actual attitude received from gimbal
Vector3f _current_angle_rad; // current angles in radians received from gimbal (x=roll, y=pitch, z=yaw)
uint32_t _last_current_angle_rad_ms; // system time _current_angle_rad was updated
uint32_t _last_req_current_angle_rad_ms; // system time that this driver last requested current angle
// absolute zoom control. only used for A8 that does not support abs zoom control
ZoomType _zoom_type; // current zoom type
float _zoom_rate_target; // current zoom rate target
float _zoom_mult; // most recent actual zoom multiple received from camera
uint32_t _last_zoom_control_ms; // system time that zoom control was last run
// Configuration info received from gimbal
GimbalConfigInfo _config_info;
// rangefinder variables
uint32_t _last_rangefinder_req_ms; // system time of last request for rangefinder distance
uint32_t _last_rangefinder_dist_ms; // system time of last successful read of rangefinder distance
float _rangefinder_dist_m; // distance received from rangefinder
// hardware lookup table indexed by HardwareModel enum values (see above)
struct HWInfo {
uint8_t hwid[2];
const char* model_name;
};
static const HWInfo hardware_lookup_table[];
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};
#endif // HAL_MOUNT_SIYISERIAL_ENABLED