CameraMachine/python/mcu/BlueToothMode.py

import asyncio
import time
from bleak import BleakScanner, BleakClient
import threading
from collections import deque

from networkx import is_connected
from utils.SingletonType import SingletonType
from .RemoteControlV2 import RemoteControlV2
from .BaseClass import BaseClass
from sockets.connect_manager import ConnectionManager

class BlueToothMode(BaseClass,metaclass=SingletonType):
    instance = None
    init_flag = None

    def __init__(self, websocket_manager: ConnectionManager):
        super().__init__(websocket_manager)
        """此处设计为，如果已经存在实例时，不再执行初始化"""
        if self.init_flag:
            return
        else:
            self.init_flag = True
        self.remote_control_v2 = RemoteControlV2(self, websocket_manager)
        # 用于存储找到的目标设备的地址
        self.target_device_address = None

        self._lock = threading.Lock()
        self.connect_state = False
        self.receive_data = b""
        self.devices = {}
        self.devices_name = {}
        self.last_value = None
        self.retry_num = 0
        self.last_error = ""

    def __new__(cls, *args, **kwargs):
        """如果当前没有实例时，调用父类__new__方法，生成示例，有则返回保存的内存地址。"""
        if not cls.instance:
            cls.instance = super().__new__(cls)
        return cls.instance

    def print_error(self, text, *args):
        if text != self.last_error:
            self.last_error = text
            print(text)

    async def scan_for_esp32(self):
        """扫描附近的BLE设备，并寻找ESP32"""
        if self.connect_state == True:
            return
        print("Scanning for ESP32 devices...*****************")
        try:
            devices = await BleakScanner.discover()
        except BaseException as e:
            self.print_error("蓝牙疑似未打开,{}".format(e))
            return
        for d in devices:
            # print(f"Device: {d.name} - Address: {d.address}")
            # 假设ESP32的广播名称包含"ESP32-S3"字符串
            if d.name:
                if "ESP32-S3" in d.name:
                    if d.address not in self.devices:
                        self.devices_name[d.name] = d.address
                        self.devices[d.address] = {
                            "name": d.name,
                            "client": None,
                            "send_queue": deque(maxlen=20),
                            "recv_queue": deque(maxlen=20),
                            "receive_data": b"",
                            "connect_state": True,
                        }
                        self.print_error(
                            f"Found device: {d.name} - Address: {d.address}"
                        )
                        asyncio.create_task(self.connect_and_listen(d.address))
                        self.connect_state = True

    # 注册到遥控器等上位机
    def connect_device(self, address, name):
        print("注册到遥控器等上位机", address, name)
        if "remote" in name:
            self.remote_control_v2.to_connect_bluetooth(address, is_test=False)

    # 关闭连接
    def disconnect_device(self, address, name):
        print("关闭蓝牙连接", address, name)
        if "remote" in name:
            self.print_error("71  关闭蓝牙连接{}-{}".format(address, name))
            self.remote_control_v2.close_bluetooth_connect()
            self.connect_state = False
            self.receive_data = b""
            self.devices = {}
            self.devices_name = {}
            self.last_value = None
            self.retry_num = 0
            self.last_error = ""

    async def handle_disconnect(self, client):
        """处理断开连接事件"""
        self.print_error("Device was disconnected.")
        # 尝试重新连接
        while not client.is_connected:
            try:
                self.print_error("Attempting to reconnect...")
                await client.connect()
            except Exception as e:
                self.print_error(f"Failed to reconnect: {e}")
                await asyncio.sleep(5)  # 等待一段时间再重试

    async def notification_handler(self, address, characteristic, data: bytearray):
        """处理接收到的通知数据"""
        with self._lock:
            #
            # if data == bytearray(b'UU\x01c\x9c'):
            #     self.devices[address]['send_queue'].append(bytearray(b'UU\x01c\x9c'))
            #     pass
            # else:
            #     # print("60 data:", address, data)
            self.devices[address]["recv_queue"].append(data)
            self.devices[address]["connect_state"] = True

    async def write_characteristic(self, client, characteristic_uuid, data):
        """向指定特征写入数据"""
        try:
            await client.write_gatt_char(characteristic_uuid, data)
        except BaseException as e:
            self.print_error("write_characteristic error ", e)

    async def connect_and_listen(self, address):
        """连接到指定地址的ESP32设备并监听通知"""
        self.print_error("""连接到指定地址的ESP32设备并监听通知""")
        while True:
            # try:
            if len(self.devices) == 0:
                break
            async with BleakClient(address) as client:
                if not client.is_connected:
                    self.print_error("Failed to connect to the device.")
                    self.devices[address]["connect_state"] = False
                    self.disconnect_device(
                            address=address, name=self.devices[address]["name"]
                        )
                    continue
                if len(self.devices) == 0:
                    break
                self.devices[address]["connect_state"] = True
                self.print_error(f"Connected to {address}")
                # 获取服务和特征（假设你已经知道要监听的特征UUID）
                services = await client.get_services()
                for service in services:
                    for char in service.characteristics:
                        if "notify" in char.properties:
                            self.print_error(
                                    f"Subscribing to characteristic: {char.uuid}"
                                )
                            await client.start_notify(
                                    char,
                                    lambda char, data: asyncio.create_task(
                                        self.notification_handler(address, char, data)
                                    ),
                                )

                # 进入一个简单的循环，保持连接
                self.print_error(
                        "进入一个简单的循环  保持连接", self.devices[address]["name"]
                    )
                self.connect_device(
                        address=address, name=self.devices[address]["name"]
                    )
                self.retry_num += 1
                while True:
                    if not client.is_connected:
                        self.print_error(
                                f"Device {address} disconnected unexpectedly."
                            )
                        with self._lock:
                            self.disconnect_device(
                                    address=address, name=self.devices[address]["name"]
                                )
                            self.devices[address]["connect_state"] = False
                        break
                    if len(self.devices) == 0:
                        break
                    if self.devices[address]["send_queue"]:
                        with self._lock:
                            send_data = self.devices[address][
                                    "send_queue"
                                ].popleft()
                            # print("-----------> send_data:", self.change_hex_to_10_int(send_data))
                        await self.write_characteristic(
                                client, char.uuid, send_data
                            )
                        await asyncio.sleep(0.01)

                    await asyncio.sleep(0.02)
        # except Exception as e:
        #     with self._lock:
        #         self.disconnect_device(
        #             address=address, name=self.devices[address]["name"]
        #         )
        #         self.devices[address]["connect_state"] = False
        #     print(f"Error during connection or listening: {e}")
        #     await asyncio.sleep(2)  # 发生错误时等待一段时间再重试

    async def main_func(self):
        """主函数"""
        # address = "24:EC:4A:26:4B:BE"
        # _name = "ESP32-S3-remote"
        # self.devices[address] = {'name': _name,
        #                          'client': None,
        #                          'send_queue': [],
        #                          'recv_queue': [],
        #                          "receive_data": b"",
        #                          "connect_state": True,
        #                          }
        # self.devices_name[_name] = address
        # asyncio.create_task(self.connect_and_listen(address))
        if self.connect_state == True:
            print('蓝牙已连接，不可重新连接')
            message = {
                "_type": "show_info",
                "plugins_mode": "remote_control",
                "data": "遥控设备V2 打开蓝牙成功",
            }
            self.sendSocketMessage(code=0, msg="遥控设备V2 打开蓝牙成功", data=message)
            return
        await self.scan_for_esp32()
        # 定期重新扫描以发现新设备
        while True:
            if self.devices:
                await asyncio.sleep(20)
            else:
                await asyncio.sleep(3)
            await self.scan_for_esp32()
    def run(self):
        self.print_error("开启蓝牙扫描")
        asyncio.run(self.main_func())

    def write_cmd(self, address, data: list):
        buf = []
        buf.extend([0x55, 0x55, (0xFF & len(data))])
        buf.extend(data)
        buf.extend([0xFF & ~sum(data)])
        self.send_data(address, bytes(buf))

    def send_data(self, address, byte_list: bytes):
        chunk_size = 20
        chunks = [
            byte_list[i : i + chunk_size] for i in range(0, len(byte_list), chunk_size)
        ]
        try:
            with self._lock:
                for chunk in chunks:
                    self.devices[address]["send_queue"].append(chunk)
        except Exception as e:
            self.devices[address]["connect_state"] = False
            self.print_error(f"Error sending notification: {address},{e}")

    def change_hex_to_int(self, _bytearray):
        return " ".join([hex(x)[2:].zfill(2) for x in _bytearray])

    def change_hex_to_10_int(self, _bytearray):
        return " ".join([str(int(x)) for x in _bytearray])

    def read_cmd(self, time_out=10):
        data_list = []
        for device_name in self.devices_name:
            address = self.devices_name[device_name]
            # print(self.devices[address]['connect_state'])
            while self.devices[address]["recv_queue"]:
                receive_data = self.read_cmd_one(address)
                if receive_data:
                    data_list.append(
                        {
                            "device_name": device_name,
                            "address": address,
                            "receive_data": receive_data,
                        }
                    )
        return data_list

    def read_cmd_one(self, address):
        # 获取所有缓冲区的字节
        if not self.devices[address]["connect_state"]:
            return
        # print("读取数据....")
        while 1:
            receive_data = self.devices[address]["receive_data"]
            # print("166 receive_data", receive_data)
            if self.devices[address]["recv_queue"]:
                with self._lock:
                    read_d = self.devices[address]["recv_queue"].popleft()
                    # print("170 read_d", read_d)
                    receive_data += read_d
                    self.devices[address]["receive_data"] = receive_data

            if not receive_data:
                return None

            if len(receive_data) < 4:
                break
            # print("--------receive_data",self.change_hex_to_10_int(receive_data))
            if receive_data[0] == 0x55 and receive_data[1] == 0x55:
                data_len = receive_data[2]
                if len(receive_data) < data_len + 4:
                    # n += 1
                    # if n > time_out:
                    #     time.sleep(0.001)
                    #     return False
                    # continue
                    return

                _data = receive_data[3 : data_len + 4]
                # 更新缓存区
                with self._lock:
                    self.devices[address]["receive_data"] = receive_data[data_len + 4 :]
                    receive_data = receive_data[data_len + 4 :]
                # 校验数据
                if 0xFF & ~sum(_data[:-1]) == _data[-1]:
                    return _data[:-1]
                else:
                    print("数据异常，丢弃")
                    return False
            else:
                # 起始位不是 55 55 进行移除
                while receive_data:
                    if len(receive_data) == 1:
                        if receive_data[0] == 0x55:
                            break
                        else:
                            with self._lock:
                                self.devices[address]["receive_data"] = b""
                                receive_data = b""
                    else:
                        if receive_data[0] == 0x55 and receive_data[1] == 0x55:
                            break
                        else:
                            with self._lock:
                                self.devices[address]["receive_data"] = receive_data[1:]
                            receive_data = receive_data[1:]

    def analysis_received_data(self):
        receive_data = self.read_cmd(time_out=5)
        if not receive_data:
            return
        else:
            # print("receive_data:", receive_data)
            # print("read2 receive_data {}".format(self.change_hex_to_int(receive_data)))
            pass
        for data in receive_data:
            address = data["address"]
            rec_data = data["receive_data"]
            # print("read address {}".format(address))
            # print("read receive_data {}".format(self.change_hex_to_int(rec_data)))
            # 数据 结构 command，按命令解析

            if rec_data[0] == 1:
                # 扫码数据
                bar_code = rec_data[1:].decode()
                bar_code = bar_code.replace("\r", "")
                bar_code = bar_code.replace("\n", "")
                print("bar_code:", bar_code)
                return
            if rec_data[0] == 2:
                print("read receive_data {}".format(self.change_hex_to_int(rec_data)))
                return
            if rec_data[0] == 90:
                print(
                    "read receive_data-90 {}".format(self.change_hex_to_int(rec_data))
                )
                return

            if rec_data[0] == 99:
                blue_mode.write_cmd(address, [99])
                # print("发送心跳包")
                return
            if rec_data[0] == 111:
                print(
                    "{} receive_data-111 {}".format(
                        self.retry_num, self.change_hex_to_10_int(rec_data)
                    )
                )
                value = (
                    rec_data[1] << 24
                    | rec_data[2] << 16
                    | rec_data[3] << 8
                    | rec_data[4]
                )
                if self.last_value is None:
                    self.last_value = value
                else:
                    self.last_value += 1
                if self.last_value == value:
                    flag = True
                else:
                    flag = False
                print(
                    "{}  value:{},last_value；{},flag:{}\n".format(
                        self.retry_num, value, self.last_value, flag
                    )
                )


if __name__ == "__main__":
    blue_mode = BlueToothMode(None)
    threading.Thread(target=blue_mode.run, args=()).start()
    print("=" * 50)
    n = 0
    time.sleep(1)
    k = 0
    last_t = time.time()
    while 1:
        time.sleep(0.001)
        s = time.time()
        address = "24:EC:4A:26:4B:BE"
        blue_mode.analysis_received_data()

        n += 1
        if n == 500:
            print(s - last_t)
            for i in range(3):
                k += 1
                data = [
                    111,
                    0xFF & k >> 24,
                    0xFF & k >> 16,
                    0xFF & k >> 8,
                    0xFF & k,
                ]
                data.extend([x for x in range(100, 130)])
                blue_mode.write_cmd(address=address, data=data)
                print("send_value:{}".format(k))

            data = [90]
            blue_mode.write_cmd(address=address, data=data)
            n = 0
        last_t = s