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import asyncio
import json
import logging
import time
import uuid
import socket
import threading
from cryptography.hazmat.primitives.ciphers import Cipher, algorithms, modes
from cryptography.hazmat.backends import default_backend
import paho.mqtt.client as mqtt
from src.utils.config_manager import ConfigManager
from src.protocols.protocol import Protocol
from src.constants.constants import AudioConfig
from src.utils.logging_config import get_logger
# 配置日志
logger = get_logger(__name__)
class MqttProtocol(Protocol):
def __init__(self, loop):
super().__init__()
self.loop = loop
self.config = ConfigManager.get_instance() # 在这里实例化
self.mqtt_client = None
self.udp_socket = None
self.udp_thread = None
self.udp_running = False
# MQTT配置
self.endpoint = None
self.client_id = None
self.username = None
self.password = None
self.publish_topic = None
self.subscribe_topic = None
# UDP配置
self.udp_server = ""
self.udp_port = 0
self.aes_key = None
self.aes_nonce = None
self.local_sequence = 0
self.remote_sequence = 0
# 事件
self.server_hello_event = asyncio.Event()
async def connect(self):
"""连接到MQTT服务器"""
# 重置hello事件
self.server_hello_event = asyncio.Event()
# 首先尝试获取MQTT配置
try:
# 尝试从OTA服务器获取MQTT配置
mqtt_config = self.config.get_config("SYSTEM_OPTIONS.NETWORK.MQTT_INFO")
print(mqtt_config)
# 更新MQTT配置
self.endpoint = mqtt_config.get("endpoint")
self.client_id = mqtt_config.get("client_id")
self.username = mqtt_config.get("username")
self.password = mqtt_config.get("password")
self.publish_topic = mqtt_config.get("publish_topic")
self.subscribe_topic = mqtt_config.get("subscribe_topic")
logger.info(f"已从OTA服务器获取MQTT配置: {self.endpoint}")
except Exception as e:
logger.warning(f"从OTA服务器获取MQTT配置失败: {e}")
# 验证MQTT配置
if not self.endpoint or not self.username or not self.password or not self.publish_topic or not self.subscribe_topic:
logger.error("MQTT配置不完整")
if self.on_network_error:
await self.on_network_error("MQTT配置不完整")
return False
# 如果已有MQTT客户端,先断开连接
if self.mqtt_client:
try:
self.mqtt_client.loop_stop()
self.mqtt_client.disconnect()
except:
pass
# 创建新的MQTT客户端
self.mqtt_client = mqtt.Client(
client_id=self.client_id
)
self.mqtt_client.username_pw_set(self.username, self.password)
# 配置TLS加密连接
try:
self.mqtt_client.tls_set(
ca_certs=None,
certfile=None,
keyfile=None,
cert_reqs=mqtt.ssl.CERT_REQUIRED,
tls_version=mqtt.ssl.PROTOCOL_TLS
)
except Exception as e:
logger.warning(f"TLS配置失败: {e},尝试不使用TLS连接")
# 创建连接Future
connect_future = self.loop.create_future()
def on_connect_callback(client, userdata, flags, rc, properties=None):
if rc == 0:
logger.info("已连接到MQTT服务器")
self.loop.call_soon_threadsafe(lambda: connect_future.set_result(True))
else:
logger.error(f"连接MQTT服务器失败,返回码: {rc}")
self.loop.call_soon_threadsafe(lambda: connect_future.set_exception(
Exception(f"连接MQTT服务器失败,返回码: {rc}")))
def on_message_callback(client, userdata, msg):
try:
payload = msg.payload.decode('utf-8')
self._handle_mqtt_message(payload)
except Exception as e:
logger.error(f"处理MQTT消息时出错: {e}")
def on_disconnect_callback(client, userdata, rc):
"""MQTT断开连接回调
Args:
client: MQTT客户端实例
userdata: 用户数据
rc: 返回码
"""
try:
logger.info(f"MQTT连接已断开,返回码: {rc}")
self.connected = False
# 停止UDP接收线程
self._stop_udp_receiver()
# 通知音频通道关闭
if self.on_audio_channel_closed:
asyncio.run_coroutine_threadsafe(
self.on_audio_channel_closed(),
self.loop
)
except Exception as e:
logger.error(f"断开MQTT连接失败: {e}")
# 设置回调
self.mqtt_client.on_connect = on_connect_callback
self.mqtt_client.on_message = on_message_callback
self.mqtt_client.on_disconnect = on_disconnect_callback
try:
# 连接MQTT服务器
logger.info(f"正在连接MQTT服务器: {self.endpoint}")
self.mqtt_client.connect_async(self.endpoint, 8883, 90)
self.mqtt_client.loop_start()
# 等待连接完成
await asyncio.wait_for(connect_future, timeout=10.0)
# 发送hello消息
hello_message = {
"type": "hello",
"version": 3,
"transport": "udp",
"audio_params": {
"format": "opus",
"sample_rate": AudioConfig.OUTPUT_SAMPLE_RATE,
"channels": AudioConfig.CHANNELS,
"frame_duration": AudioConfig.FRAME_DURATION,
}
}
# 发送消息并等待响应
if not await self.send_text(json.dumps(hello_message)):
logger.error("发送hello消息失败")
return False
try:
await asyncio.wait_for(self.server_hello_event.wait(), timeout=10.0)
except asyncio.TimeoutError:
logger.error("等待服务器hello消息超时")
if self.on_network_error:
await self.on_network_error("等待响应超时")
return False
# 创建UDP套接字
try:
if self.udp_socket:
self.udp_socket.close()
self.udp_socket = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
self.udp_socket.settimeout(0.5)
# 启动UDP接收线程
if self.udp_thread and self.udp_thread.is_alive():
self.udp_running = False
self.udp_thread.join(1.0)
self.udp_running = True
self.udp_thread = threading.Thread(target=self._udp_receive_thread)
self.udp_thread.daemon = True
self.udp_thread.start()
return True
except Exception as e:
logger.error(f"创建UDP套接字失败: {e}")
if self.on_network_error:
await self.on_network_error(f"创建UDP连接失败: {e}")
return False
except Exception as e:
logger.error(f"连接MQTT服务器失败: {e}")
if self.on_network_error:
await self.on_network_error(f"连接MQTT服务器失败: {e}")
return False
def _handle_mqtt_message(self, payload):
"""处理MQTT消息"""
try:
data = json.loads(payload)
msg_type = data.get("type")
if msg_type == "goodbye":
# 处理goodbye消息
session_id = data.get("session_id")
if not session_id or session_id == self.session_id:
# 在主事件循环中执行清理
asyncio.run_coroutine_threadsafe(self._handle_goodbye(), self.loop)
return
elif msg_type == "hello":
print("服务链接返回初始化配置", data)
# 处理服务器hello响应
transport = data.get("transport")
if transport != "udp":
logger.error(f"不支持的传输方式: {transport}")
return
# 获取会话ID
self.session_id = data.get("session_id", "")
# 获取UDP配置
udp = data.get("udp")
if not udp:
logger.error("UDP配置缺失")
return
self.udp_server = udp.get("server")
self.udp_port = udp.get("port")
self.aes_key = udp.get("key")
self.aes_nonce = udp.get("nonce")
# 重置序列号
self.local_sequence = 0
self.remote_sequence = 0
logger.info(f"收到服务器hello响应,UDP服务器: {self.udp_server}:{self.udp_port}")
# 设置hello事件
self.loop.call_soon_threadsafe(self.server_hello_event.set)
# 触发音频通道打开回调
if self.on_audio_channel_opened:
self.loop.call_soon_threadsafe(
lambda: asyncio.create_task(self.on_audio_channel_opened()))
else:
# 处理其他JSON消息
if self.on_incoming_json:
def process_json(json_data=data):
if asyncio.iscoroutinefunction(self.on_incoming_json):
coro = self.on_incoming_json(json_data)
if coro is not None:
asyncio.create_task(coro)
else:
self.on_incoming_json(json_data)
self.loop.call_soon_threadsafe(process_json)
except json.JSONDecodeError:
logger.error(f"无效的JSON数据: {payload}")
except Exception as e:
logger.error(f"处理MQTT消息时出错: {e}")
def _udp_receive_thread(self):
"""UDP接收线程
参考 audio_player.py 的实现方式
"""
logger.info(f"UDP接收线程已启动,监听来自 {self.udp_server}:{self.udp_port} 的数据")
self.udp_running = True
debug_counter = 0
while self.udp_running:
try:
data, addr = self.udp_socket.recvfrom(4096)
debug_counter += 1
try:
# 验证数据包
if len(data) < 16: # 至少需要16字节的nonce
logger.error(f"无效的音频数据包大小: {len(data)}")
continue
# 分离nonce和加密数据
received_nonce = data[:16]
encrypted_audio = data[16:]
# 使用AES-CTR解密
decrypted = self.aes_ctr_decrypt(
bytes.fromhex(self.aes_key),
received_nonce,
encrypted_audio
)
# 调试信息
if debug_counter % 100 == 0:
logger.debug(f"已解密音频数据包 #{debug_counter}, 大小: {len(decrypted)} 字节")
# 处理解密后的音频数据
if self.on_incoming_audio:
def process_audio(audio_data=decrypted):
if asyncio.iscoroutinefunction(self.on_incoming_audio):
coro = self.on_incoming_audio(audio_data)
if coro is not None:
asyncio.create_task(coro)
else:
self.on_incoming_audio(audio_data)
self.loop.call_soon_threadsafe(process_audio)
except Exception as e:
logger.error(f"处理音频数据包错误: {e}")
continue
except socket.timeout:
# 超时是正常的,继续循环
pass
except Exception as e:
logger.error(f"UDP接收线程错误: {e}")
if not self.udp_running:
break
time.sleep(0.1) # 避免在错误情况下过度消耗CPU
logger.info("UDP接收线程已停止")
async def send_text(self, message):
"""发送文本消息"""
if not self.mqtt_client:
logger.error("MQTT客户端未初始化")
return False
try:
result = self.mqtt_client.publish(self.publish_topic, message)
result.wait_for_publish()
return True
except Exception as e:
logger.error(f"发送MQTT消息失败: {e}")
if self.on_network_error:
await self.on_network_error(f"发送MQTT消息失败: {e}")
return False
async def send_audio(self, audio_data):
"""发送音频数据
参考 audio_sender.py 的实现方式
"""
if not self.udp_socket or not self.udp_server or not self.udp_port:
logger.error("UDP通道未初始化")
return False
try:
# 生成新的nonce (类似于 audio_sender.py 中的实现)
# 格式: 0x01 (1字节) + 0x00 (3字节) + 长度 (2字节) + 原始nonce (8字节) + 序列号 (8字节)
self.local_sequence = (self.local_sequence + 1) & 0xFFFFFFFF
new_nonce = (
self.aes_nonce[:4] + # 固定前缀
format(len(audio_data), '04x') + # 数据长度
self.aes_nonce[8:24] + # 原始nonce
format(self.local_sequence, '08x') # 序列号
)
encrypt_encoded_data = self.aes_ctr_encrypt(
bytes.fromhex(self.aes_key),
bytes.fromhex(new_nonce),
bytes(audio_data)
)
# 拼接nonce和密文
packet = bytes.fromhex(new_nonce) + encrypt_encoded_data
# 发送数据包
self.udp_socket.sendto(packet, (self.udp_server, self.udp_port))
# 每发送10个包打印一次日志
if self.local_sequence % 10 == 0:
logger.info(f"已发送音频数据包,序列号: {self.local_sequence},目标: {self.udp_server}:{self.udp_port}")
self.local_sequence += 1
return True
except Exception as e:
logger.error(f"发送音频数据失败: {e}")
if self.on_network_error:
asyncio.create_task(self.on_network_error(f"发送音频数据失败: {e}"))
return False
async def open_audio_channel(self):
"""打开音频通道"""
if not self.mqtt_client:
return await self.connect()
return True
async def close_audio_channel(self):
"""关闭音频通道"""
try:
# 如果有会话ID,发送goodbye消息
if self.session_id:
goodbye_msg = {
"type": "goodbye",
"session_id": self.session_id
}
await self.send_text(json.dumps(goodbye_msg))
# 处理goodbye
await self._handle_goodbye()
except Exception as e:
logger.error(f"关闭音频通道时出错: {e}")
# 确保即使出错也调用回调
if self.on_audio_channel_closed:
await self.on_audio_channel_closed()
def is_audio_channel_opened(self):
"""检查音频通道是否已打开"""
return self.udp_socket is not None
def aes_ctr_encrypt(self, key, nonce, plaintext):
"""AES-CTR模式加密函数
Args:
key: bytes格式的加密密钥
nonce: bytes格式的初始向量
plaintext: 待加密的原始数据
Returns:
bytes格式的加密数据
"""
cipher = Cipher(algorithms.AES(key), modes.CTR(nonce), backend=default_backend())
encryptor = cipher.encryptor()
return encryptor.update(plaintext) + encryptor.finalize()
def aes_ctr_decrypt(self, key, nonce, ciphertext):
"""AES-CTR模式解密函数
Args:
key: bytes格式的解密密钥
nonce: bytes格式的初始向量(需要与加密时使用的相同)
ciphertext: bytes格式的加密数据
Returns:
bytes格式的解密后的原始数据
"""
cipher = Cipher(algorithms.AES(key), modes.CTR(nonce), backend=default_backend())
decryptor = cipher.decryptor()
plaintext = decryptor.update(ciphertext) + decryptor.finalize()
return plaintext
async def _handle_goodbye(self):
"""处理goodbye消息"""
try:
# 停止UDP接收线程
if self.udp_thread and self.udp_thread.is_alive():
self.udp_running = False
self.udp_thread.join(1.0)
self.udp_thread = None
logger.info("UDP接收线程已停止")
# 关闭UDP套接字
if self.udp_socket:
try:
self.udp_socket.close()
except Exception as e:
logger.error(f"关闭UDP套接字失败: {e}")
self.udp_socket = None
# 停止MQTT客户端
if self.mqtt_client:
try:
self.mqtt_client.loop_stop()
self.mqtt_client.disconnect()
self.mqtt_client.loop_forever() # 确保断开连接完全完成
except Exception as e:
logger.error(f"断开MQTT连接失败: {e}")
self.mqtt_client = None
# 重置所有状态
self.connected = False
self.session_id = None
self.local_sequence = 0
self.remote_sequence = 0
self.udp_server = ""
self.udp_port = 0
self.aes_key = None
self.aes_nonce = None
# 调用音频通道关闭回调
if self.on_audio_channel_closed:
await self.on_audio_channel_closed()
except Exception as e:
logger.error(f"处理goodbye消息时出错: {e}")
def _stop_udp_receiver(self):
"""停止UDP接收线程和关闭UDP套接字"""
# 关闭UDP接收线程
if hasattr(self, 'udp_thread') and self.udp_thread and self.udp_thread.is_alive():
self.udp_running = False
try:
self.udp_thread.join(1.0)
except RuntimeError:
pass # 处理线程已经终止的情况
# 关闭UDP套接字
if hasattr(self, 'udp_socket') and self.udp_socket:
try:
self.udp_socket.close()
except:
pass
def __del__(self):
"""析构函数,清理资源"""
# 停止UDP接收相关资源
self._stop_udp_receiver()
# 关闭MQTT客户端
if hasattr(self, 'mqtt_client') and self.mqtt_client:
try:
self.mqtt_client.loop_stop()
self.mqtt_client.disconnect()
self.mqtt_client.loop_forever() # 确保断开连接完全完成
except Exception as e:
pass
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