ardupilot/libraries/AP_RangeFinder/AP_RangeFinder_BLPing.h

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#pragma once
#include "AP_RangeFinder_config.h"
#if AP_RANGEFINDER_BLPING_ENABLED
#include "AP_RangeFinder_Backend_Serial.h"
/**
* @brief Simple class to deal with Ping Protocol
*
* Protocol documentation can be found here: https:* github.com/bluerobotics/ping-protocol
*
* Byte Type Name Description
* --------------------------------------------------------------------------------------------------------------
* 0 uint8_t start1 'B'
* 1 uint8_t start2 'R'
* 2-3 uint16_t payload_length number of bytes in payload (low byte, high byte)
* 4-5 uint16_t message id message id (low byte, high byte)
* 6 uint8_t src_device_id id of device sending the message
* 7 uint8_t dst_device_id id of device of the intended recipient
* 8-n uint8_t[] payload message payload
* (n+1)-(n+2) uint16_t checksum the sum of all the non-checksum bytes in the message (low byte, high byte)
*/
class PingProtocol {
static constexpr uint8_t _frame_header1 = 0x42; // // header first byte ('B')
static constexpr uint8_t _frame_header2 = 0x52; // // header first byte ('R')
static constexpr uint16_t _src_id = 0; // vehicle's source id
static constexpr uint16_t _dst_id = 1; // sensor's id
public:
enum class MessageId {
INVALID = 0,
SET_PING_INTERVAL = 1004,
DISTANCE_SIMPLE = 1211,
CONTINUOUS_START = 1400,
};
/**
* @brief Process a single byte received on serial port
* return a valid MessageId if there is a message in buffer.
*
* @param byte
* @return MessageId
*/
MessageId parse_byte(uint8_t b);
/**
* @brief Send a message with a defined payload
*
* @param uart
* @param msgid
* @param payload
* @param payload_len
*/
void send_message(AP_HAL::UARTDriver *uart, PingProtocol::MessageId msg_id, const uint8_t *payload, uint16_t payload_len) const;
/**
* @brief Get distance from message
*
* @return uint32_t
*/
uint32_t get_distance_mm() const;
/**
* @brief Get confidence from message
*
* @return uint8_t
*/
uint8_t get_confidence() const;
/**
* @brief Get the message id available in bufffer
*
* @return MessageId
*/
MessageId get_message_id() const { return static_cast<MessageId>(msg.id); };
protected:
/**
* @brief State for the parser logic
*
*/
enum class ParserState {
HEADER1 = 0,
HEADER2,
LEN_L,
LEN_H,
MSG_ID_L,
MSG_ID_H,
SRC_ID,
DST_ID,
PAYLOAD,
CRC_L,
CRC_H
};
/**
* @brief Structure holding the last message available with its state
*
*/
struct {
ParserState state; // state of incoming message processing
bool done; // inform if the message is complete or not
uint8_t payload[20]; // payload
uint16_t payload_len; // latest message payload length
uint16_t id; // latest message's message id
uint16_t payload_recv; // number of message's payload bytes received so far
uint16_t crc; // latest message's crc
uint16_t crc_expected; // latest message's expected crc
} msg;
};
/**
* @brief Class for Blue Robotics Ping1D sensor
*
*/
class AP_RangeFinder_BLPing : public AP_RangeFinder_Backend_Serial
{
static constexpr uint16_t _sensor_rate_ms = 50; // initialise sensor at no more than 20hz
public:
static AP_RangeFinder_Backend_Serial *create(
RangeFinder::RangeFinder_State &_state,
AP_RangeFinder_Params &_params) {
return new AP_RangeFinder_BLPing(_state, _params);
}
/**
* @brief Update class state
*
*/
void update(void) override;
/**
* @brief Get the reading confidence
* 100 is best quality, 0 is worst
*
*/
int8_t get_signal_quality_pct() const override WARN_IF_UNUSED;
protected:
/**
* @brief Return the sensor type
*
* @return MAV_DISTANCE_SENSOR
*/
MAV_DISTANCE_SENSOR _get_mav_distance_sensor_type() const override {
return MAV_DISTANCE_SENSOR_ULTRASOUND;
}
/**
* @brief Sensor protocol class
*
*/
PingProtocol protocol;
private:
using AP_RangeFinder_Backend_Serial::AP_RangeFinder_Backend_Serial;
/**
* @brief Do the necessary sensor initiation
*
*/
void init_sensor();
/**
* @brief Read serial interface and calculate new distance
*
* @param reading_m
* @return true
* @return false
*/
bool get_reading(float &reading_m) override;
/**
* @brief Timeout between messages
*
* @return uint16_t
*/
uint16_t read_timeout_ms() const override { return 1000; }
/**
* @brief system time that sensor was last initialised
*
*/
uint32_t last_init_ms;
};
#endif