app.py 165 KB

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  1. from flask import Flask, jsonify, request, abort
  2. from flask_cors import CORS
  3. from flask_socketio import SocketIO, emit
  4. import threading
  5. import queue
  6. import time
  7. import json
  8. import os
  9. import logging
  10. import uuid
  11. # 配置文件路径
  12. SERIAL_CONFIG_FILE = os.path.join(os.path.dirname(os.path.abspath(__file__)), 'serial_config.json')
  13. # 导入配置
  14. from config import (
  15. MAX_BUFFER_SIZE,
  16. FLASK_SECRET_KEY,
  17. FLASK_DEBUG,
  18. FLASK_HOST,
  19. FLASK_PORT,
  20. LOG_LEVEL,
  21. LOG_FORMAT,
  22. LOG_FILE,
  23. SOCKETIO_ASYNC_MODE,
  24. SOCKETIO_ALLOWED_ORIGINS,
  25. DEFAULT_FORWARD_SERIAL_TO_MQTT,
  26. DEFAULT_FORWARD_MQTT_TO_SERIAL,
  27. DEFAULT_MQTT_PUBLISH_TOPIC,
  28. SOCKETIO_NAMESPACE_DATA,
  29. SOCKETIO_NAMESPACE_STATUS,
  30. SOCKETIO_NAMESPACE_CONTROL,
  31. ERROR_CODES,
  32. ERROR_MESSAGES,
  33. DEFAULT_CUSTOMER_ID,
  34. DEFAULT_DTU_ID,
  35. DTU_HEARTBEAT_INTERVAL,
  36. DTU_OFFLINE_TIMEOUT,
  37. DEFAULT_MQTT_TOPIC_PREFIX,
  38. DTU_REGISTRATION_TOPIC,
  39. DTU_STATUS_TOPIC,
  40. DTU_CONTROL_TOPIC,
  41. DTU_RESPONSE_TOPIC,
  42. DTU_EVENT_TOPIC,
  43. DTU_ALARM_TOPIC,
  44. DTU_BROADCAST_TOPIC,
  45. MAX_PANELS,
  46. MAX_PORTS_PER_PANEL,
  47. DHT11_ENABLED,
  48. DHT11_GPIO_PIN,
  49. DHT11_GPIO_CHIP,
  50. DHT11_POLL_INTERVAL,
  51. DHT11_SIMULATE,
  52. NEXTION_ENABLED,
  53. NEXTION_SCREEN_PORT,
  54. NEXTION_SCREEN_BAUD,
  55. NEXTION_PANEL_NAME_PREFIX,
  56. NEXTION_CMD_DELAY_MS
  57. )
  58. # 配置日志
  59. logging_config = {
  60. 'level': getattr(logging, LOG_LEVEL),
  61. 'format': LOG_FORMAT
  62. }
  63. if LOG_FILE:
  64. logging_config['filename'] = LOG_FILE
  65. logging.basicConfig(**logging_config)
  66. logger = logging.getLogger('serial_mqtt_gateway')
  67. from modules.serial_port import SerialPort
  68. from modules.mqtt_client import MQTTClient
  69. from modules.network_config import network_manager
  70. from modules.modbus_rtu import ModbusRTUClient, ANTENNA_ADDRESSES, AddressConfigProtocol, build_broadcast_query, build_confirm_address, build_assign_address
  71. from modules.dht11_sensor import DHT11Sensor
  72. from modules.nextion_display import NextionDisplay
  73. app = Flask(__name__)
  74. app.config['SECRET_KEY'] = FLASK_SECRET_KEY
  75. # 配置CORS以允许nginx代理的前端访问
  76. CORS(app, resources={r"/api/*": {"origins": "*"}, r"/socket.io/*": {"origins": "*"}})
  77. # 初始化SocketIO
  78. socketio = SocketIO(
  79. app,
  80. cors_allowed_origins=SOCKETIO_ALLOWED_ORIGINS,
  81. async_mode=SOCKETIO_ASYNC_MODE,
  82. manage_session=False, # 禁用会话管理以提高性能
  83. ping_timeout=30, # 心跳超时时间
  84. ping_interval=25, # 心跳间隔
  85. logger=FLASK_DEBUG, # 根据Flask调试模式决定是否记录SocketIO日志
  86. engineio_logger=FLASK_DEBUG
  87. )
  88. # 初始化串口和MQTT客户端
  89. serial_client = SerialPort()
  90. mqtt_client = MQTTClient()
  91. modbus_client = ModbusRTUClient(serial_client)
  92. address_config = AddressConfigProtocol(serial_client)
  93. # Nextion 串口屏实例
  94. screen_display = NextionDisplay()
  95. screen_current_panel_index = 0
  96. screen_lock = threading.Lock()
  97. screen_refresh_queue = queue.Queue()
  98. screen_refresh_thread = None
  99. # 初始化 DHT11 传感器(后续在 __main__ 中设置回调并启动)
  100. dht11_sensor = None
  101. if DHT11_ENABLED and (DHT11_GPIO_PIN is not None or DHT11_SIMULATE):
  102. dht11_sensor = DHT11Sensor(
  103. gpio_pin=DHT11_GPIO_PIN,
  104. gpio_chip=DHT11_GPIO_CHIP,
  105. poll_interval=DHT11_POLL_INTERVAL,
  106. simulate=DHT11_SIMULATE
  107. )
  108. elif DHT11_ENABLED and DHT11_GPIO_PIN is None and not DHT11_SIMULATE:
  109. logger.warning("DHT11 已启用但未配置 GPIO pin (DHT11_GPIO_PIN),跳过本地传感器启动")
  110. # 转发标志
  111. forward_serial_to_mqtt = DEFAULT_FORWARD_SERIAL_TO_MQTT
  112. forward_mqtt_to_serial = DEFAULT_FORWARD_MQTT_TO_SERIAL
  113. mqtt_publish_topic = DEFAULT_MQTT_PUBLISH_TOPIC
  114. # DTU MQTT协议配置(运行时可修改)
  115. dtu_config = {
  116. 'topic_prefix': DEFAULT_MQTT_TOPIC_PREFIX,
  117. 'customer_id': DEFAULT_CUSTOMER_ID,
  118. 'dtu_id': DEFAULT_DTU_ID,
  119. 'firmware_version': 'v1.0.0',
  120. 'hardware_version': 'v1.0',
  121. 'heartbeat_interval': DTU_HEARTBEAT_INTERVAL,
  122. 'enabled': True
  123. }
  124. DTU_CONFIG_FILE = os.path.join(os.path.dirname(os.path.abspath(__file__)), 'dtu_config.json')
  125. def load_dtu_config():
  126. global dtu_config
  127. try:
  128. if os.path.exists(DTU_CONFIG_FILE):
  129. with open(DTU_CONFIG_FILE, 'r') as f:
  130. saved = json.load(f)
  131. dtu_config.update(saved)
  132. except Exception as e:
  133. logger.warning(f"加载DTU配置失败: {e}")
  134. def save_dtu_config():
  135. try:
  136. with open(DTU_CONFIG_FILE, 'w') as f:
  137. json.dump(dtu_config, f, indent=2)
  138. except Exception as e:
  139. logger.warning(f"保存DTU配置失败: {e}")
  140. # 端口状态追踪(用于事件检测)
  141. port_state = {} # {panel_id: {port_id: {'last_uid': str, 'expected_uid': str, 'alarm_count': int}}}
  142. def get_sorted_panels():
  143. """按 position 排序返回 panel 列表。"""
  144. return sorted(panel_config.items(), key=lambda x: x[1].get('position', 0))
  145. def _port_status_to_pic(port_state_entry):
  146. """将端口状态推导为 Nextion pic 编号。"""
  147. if not port_state_entry:
  148. return 0
  149. last_uid = port_state_entry.get('last_uid')
  150. expected_uid = port_state_entry.get('expected_uid')
  151. last_polled = port_state_entry.get('last_polled_at')
  152. if not last_polled:
  153. return 0 # UNKNOWN
  154. if last_uid is None:
  155. return 1 # DISCONNECTED
  156. if expected_uid and last_uid != expected_uid:
  157. return 2 # ILLEGAL
  158. return 3 # CONNECTED
  159. def _get_display_ip():
  160. """获取用于屏幕显示的本机 IP 地址。
  161. 优先选择 192.168.199.x 管理网段;其次选择物理网卡 eth*/en* 上的 IPv4;
  162. 最后回退到任意非回环 IPv4 或静态配置 IP。
  163. """
  164. try:
  165. net_status = network_manager.get_network_status()
  166. interfaces = net_status.get('interfaces', {})
  167. # 1. 优先 192.168.199.x 管理网段
  168. for iface, data in interfaces.items():
  169. if iface in ('lo', 'docker0') or iface.startswith(('br-', 'veth')):
  170. continue
  171. for addr in data.get('ip_addresses', []):
  172. if addr.startswith('192.168.199.') and '.' in addr:
  173. return addr
  174. # 2. 优先物理网卡 eth*/en*/wlan* 上的 IPv4
  175. physical_ips = []
  176. for iface, data in interfaces.items():
  177. if iface in ('lo', 'docker0') or iface.startswith(('br-', 'veth', 'docker')):
  178. continue
  179. if not (iface.startswith(('eth', 'en', 'wlan', 'wl')) or iface == 'end0'):
  180. continue
  181. for addr in data.get('ip_addresses', []):
  182. if '.' in addr and not addr.startswith('127.'):
  183. physical_ips.append((iface, addr))
  184. # 优先有线接口
  185. for iface, addr in physical_ips:
  186. if iface.startswith(('eth', 'en', 'end')):
  187. return addr
  188. if physical_ips:
  189. return physical_ips[0][1]
  190. # 3. 任意非回环 IPv4
  191. for iface, data in interfaces.items():
  192. if iface in ('lo', 'docker0') or iface.startswith(('br-', 'veth')):
  193. continue
  194. for addr in data.get('ip_addresses', []):
  195. if '.' in addr and not addr.startswith('127.'):
  196. return addr
  197. # 4. 回退:尝试网络配置中的静态 IP
  198. net_config = network_manager.get_network_config()
  199. static_ip = net_config.get('static_config', {}).get('ip_address')
  200. if static_ip:
  201. return static_ip
  202. except Exception as e:
  203. logger.warning(f"获取显示 IP 失败: {e}")
  204. return ''
  205. def _screen_refresh_worker():
  206. """在后台线程中异步刷新 Nextion 屏幕。"""
  207. while True:
  208. try:
  209. item = screen_refresh_queue.get()
  210. if item is None:
  211. break
  212. panel_id = item[0]
  213. refresh_screen_panel(panel_id)
  214. except Exception as e:
  215. logger.error(f"屏幕刷新工作线程异常: {e}")
  216. finally:
  217. try:
  218. screen_refresh_queue.task_done()
  219. except Exception:
  220. pass
  221. def refresh_screen_panel(panel_id):
  222. """将指定 panel 的数据下发到 Nextion 屏幕。"""
  223. global screen_current_panel_index
  224. with screen_lock:
  225. panels = get_sorted_panels()
  226. if not panels:
  227. return False, '没有可用的 panel'
  228. panel_ids = [p[0] for p in panels]
  229. if panel_id not in panel_ids:
  230. return False, f'panel 不存在: {panel_id}'
  231. if not screen_display.get_status().get('connected'):
  232. return False, '屏幕串口未连接'
  233. ps = port_state.get(panel_id, {})
  234. now = time.time()
  235. online_count = sum(1 for pid in panel_ids if device_last_seen.get(pid, 0) > now - 60)
  236. idx = panel_ids.index(panel_id)
  237. screen_current_panel_index = idx
  238. mqtt_st = mqtt_client.get_status()
  239. mqtt_connected = mqtt_st.get('connected', False) if isinstance(mqtt_st, dict) else bool(mqtt_st)
  240. delay_ms = NEXTION_CMD_DELAY_MS
  241. # 获取本机 IP 地址显示在 t1.txt
  242. ip_address = _get_display_ip()
  243. # 当前 panel 对应的设备地址
  244. device_address = panel_config.get(panel_id, {}).get('address', 1)
  245. screen_display.send_cmd(f't2.txt="{NEXTION_PANEL_NAME_PREFIX}{idx + 1}"', delay_ms=delay_ms)
  246. screen_display.send_cmd(f't1.txt="{ip_address}"', delay_ms=delay_ms)
  247. screen_display.send_cmd(f't4.txt="{dtu_config.get("firmware_version", "v1.0.0")}"', delay_ms=delay_ms)
  248. mqtt_str = '已连接' if mqtt_connected else '未连接'
  249. screen_display.send_cmd(f'g0.txt="MQTT:{mqtt_str} 当前终端数:{online_count}"', delay_ms=delay_ms)
  250. screen_display.send_cmd(f'g0.pco={0 if mqtt_connected else 63488}', delay_ms=delay_ms)
  251. for port_id in range(1, 25):
  252. # 屏幕网口图片显示 LED:由端口真实连接状态推导(连接/断开/非法/未知)
  253. pic = _port_status_to_pic(port_state.get(panel_id, {}).get(port_id))
  254. cmd = f'p{port_id - 1}.pic={pic}'
  255. ok = screen_display.send_cmd(cmd, delay_ms=delay_ms)
  256. logger.info(f"[Nextion] panel={panel_id} addr={device_address} port={port_id} pic={pic} cmd={cmd} ok={ok}")
  257. logger.info(f"屏幕已刷新: {panel_id} (终端{idx + 1})")
  258. return True, '屏幕已刷新'
  259. def switch_screen_panel(direction):
  260. """切换当前显示的 panel。"""
  261. global screen_current_panel_index
  262. with screen_lock:
  263. panels = get_sorted_panels()
  264. if not panels:
  265. return False, '没有可用的 panel'
  266. screen_current_panel_index = (screen_current_panel_index + direction) % len(panels)
  267. panel_id = panels[screen_current_panel_index][0]
  268. logger.info(f'屏幕切换: 终端{screen_current_panel_index + 1} -> {panel_id}')
  269. return refresh_screen_panel(panel_id)
  270. def _refresh_current_screen_panel():
  271. """LED 等状态变化后,触发当前屏幕 panel 刷新。"""
  272. try:
  273. panels = get_sorted_panels()
  274. if not panels:
  275. return
  276. with screen_lock:
  277. idx = screen_current_panel_index
  278. if 0 <= idx < len(panels):
  279. panel_id = panels[idx][0]
  280. screen_refresh_queue.put((panel_id,))
  281. except Exception as e:
  282. logger.warning(f"触发屏幕刷新失败: {e}")
  283. def screen_button_event_handler(page_id, comp_id, event):
  284. """处理屏幕按钮事件。"""
  285. if event != 0x01:
  286. return
  287. if page_id == 0x00 and comp_id == 0x05:
  288. logger.info('串口屏事件: 上一终端')
  289. switch_screen_panel(-1)
  290. elif page_id == 0x00 and comp_id == 0x06:
  291. logger.info('串口屏事件: 下一终端')
  292. switch_screen_panel(1)
  293. # 面板配置(从地址配置模块加载)
  294. panel_config = {} # {panel_id: {'address': int, 'position': int, 'panel_uid': str}}
  295. # 面板连续轮询失败计数(达到阈值后标记离线、停止查询,避免对离线设备持续发查询)
  296. panel_fail_count = {} # {panel_id: int}
  297. # 已对面板发送过「重新分配地址」指令(处于第二阶段观察)的标记
  298. panel_assign_pending = {} # {panel_id: bool}
  299. PANEL_FAIL_THRESHOLD = 3
  300. def register_panel_poll_failure(panel_id, cfg, addr):
  301. """记录一次面板轮询失败,按约定流程决定是否重发分配地址 / 标记离线。
  302. 流程: 连续 3 次查询无响应 -> 重新发送分配地址指令(把已保存地址再发一遍)
  303. -> 再连续 3 次无响应 -> 标记离线(保留在 panel_config,停止查询)。
  304. 返回 True 表示本次已标记离线。
  305. """
  306. global panel_fail_count, panel_assign_pending
  307. panel_fail_count[panel_id] = panel_fail_count.get(panel_id, 0) + 1
  308. if panel_fail_count[panel_id] < PANEL_FAIL_THRESHOLD:
  309. logger.warning(f"面板 {panel_id}(地址={addr}) 轮询无响应,连续失败 {panel_fail_count[panel_id]} 次")
  310. return False
  311. # 达到第一阶段阈值(3 次)
  312. if not panel_assign_pending.get(panel_id):
  313. # 第一阶段: 重新发送分配地址指令,再观察 3 次
  314. uid = cfg.get('panel_uid', '') or ''
  315. if len(uid) == 24:
  316. try:
  317. frame = build_assign_address(bytes.fromhex(uid), addr)
  318. ok, msg = serial_client.send_raw(frame)
  319. logger.warning(f"面板 {panel_id}(地址={addr}) 连续{PANEL_FAIL_THRESHOLD}次无响应,已重新发送分配地址帧 ok={ok} msg={msg}")
  320. except Exception as e:
  321. logger.error(f"面板 {panel_id}(地址={addr}) 发送分配地址帧失败: {e}")
  322. else:
  323. logger.warning(f"面板 {panel_id}(地址={addr}) 缺少有效 panel_uid,无法重发分配地址,直接标记离线")
  324. panel_assign_pending[panel_id] = True
  325. panel_fail_count[panel_id] = 0
  326. return False
  327. # 第二阶段: 重发分配地址后仍连续 3 次无响应 -> 标记离线
  328. cfg['status'] = 'offline'
  329. panel_fail_count.pop(panel_id, None)
  330. panel_assign_pending.pop(panel_id, None)
  331. port_state.pop(panel_id, None)
  332. logger.info(f"面板 {panel_id}(地址={addr}) 重发分配地址后仍连续{PANEL_FAIL_THRESHOLD}次无响应,已标记为离线")
  333. dtu_publish_panel_status(panel_id, addr, None, online=False)
  334. return True
  335. # 数据存储缓冲区
  336. serial_data_buffer = []
  337. mqtt_data_buffer = []
  338. # 状态标志
  339. serial_status = False
  340. mqtt_status = False
  341. # 串口配置保存和加载函数
  342. def save_serial_config(port, baudrate=9600, timeout=1.0, bytesize=8, parity='N', stopbits=1):
  343. """保存串口配置"""
  344. config = {
  345. 'port': port,
  346. 'baudrate': baudrate,
  347. 'timeout': timeout,
  348. 'bytesize': bytesize,
  349. 'parity': parity,
  350. 'stopbits': stopbits
  351. }
  352. try:
  353. with open(SERIAL_CONFIG_FILE, 'w') as f:
  354. json.dump(config, f)
  355. logger.info(f"串口配置已保存: {port} @ {baudrate}")
  356. except Exception as e:
  357. logger.error(f"保存串口配置失败: {e}")
  358. def load_serial_config():
  359. """加载串口配置"""
  360. if os.path.exists(SERIAL_CONFIG_FILE):
  361. try:
  362. with open(SERIAL_CONFIG_FILE, 'r') as f:
  363. config = json.load(f)
  364. logger.info(f"已加载串口配置: {config.get('port')} @ {config.get('baudrate')}")
  365. return config
  366. except Exception as e:
  367. logger.error(f"加载串口配置失败: {e}")
  368. return None
  369. def auto_connect_serial():
  370. """自动连接上次使用的串口"""
  371. config = load_serial_config()
  372. if config and config.get('port'):
  373. port = config.get('port')
  374. baudrate = config.get('baudrate', 9600)
  375. timeout = config.get('timeout', 1.0)
  376. bytesize = config.get('bytesize', 8)
  377. parity = config.get('parity', 'N')
  378. stopbits = config.get('stopbits', 1)
  379. logger.info(f"尝试自动连接串口: {port} @ {baudrate}")
  380. success, message = serial_client.connect(port, baudrate=baudrate, timeout=timeout, bytesize=bytesize, parity=parity, stopbits=stopbits)
  381. if success:
  382. logger.info(f"自动连接串口成功: {port}")
  383. return True
  384. else:
  385. logger.warning(f"自动连接串口失败: {message}")
  386. return False
  387. # 客户端连接管理
  388. connected_clients = {
  389. 'data': set(),
  390. 'status': set(),
  391. 'control': set()
  392. }
  393. # 设置回调函数
  394. def serial_data_handler(data):
  395. """处理串口接收的数据"""
  396. try:
  397. timestamp = time.strftime('%Y-%m-%d %H:%M:%S')
  398. serial_data_buffer.append({
  399. 'timestamp': timestamp,
  400. 'data': data,
  401. 'direction': 'in'
  402. })
  403. if len(serial_data_buffer) > MAX_BUFFER_SIZE:
  404. serial_data_buffer.pop(0)
  405. socketio.emit('serial_data', {
  406. 'timestamp': timestamp,
  407. 'data': data,
  408. 'direction': 'in'
  409. }, namespace=SOCKETIO_NAMESPACE_DATA)
  410. if forward_serial_to_mqtt and mqtt_client.get_status():
  411. success, msg = mqtt_client.publish(mqtt_publish_topic, data)
  412. if not success:
  413. logger.warning(f"串口数据转发到MQTT失败: {msg}")
  414. except Exception as e:
  415. logger.error(f"处理串口数据时出错: {str(e)}")
  416. def serial_send_handler(data):
  417. """处理串口发送的数据"""
  418. try:
  419. timestamp = time.strftime('%Y-%m-%d %H:%M:%S')
  420. serial_data_buffer.append({
  421. 'timestamp': timestamp,
  422. 'data': data,
  423. 'direction': 'out'
  424. })
  425. if len(serial_data_buffer) > MAX_BUFFER_SIZE:
  426. serial_data_buffer.pop(0)
  427. socketio.emit('serial_data', {
  428. 'timestamp': timestamp,
  429. 'data': data,
  430. 'direction': 'out'
  431. }, namespace=SOCKETIO_NAMESPACE_DATA)
  432. except Exception as e:
  433. logger.error(f"处理串口发送数据时出错: {str(e)}")
  434. def serial_status_handler(status):
  435. """处理串口状态变化"""
  436. try:
  437. global serial_status
  438. serial_status = status
  439. # 通过WebSocket广播状态变化
  440. socketio.emit('serial_status', {
  441. 'connected': status
  442. }, namespace=SOCKETIO_NAMESPACE_STATUS)
  443. logger.info(f"串口状态更新: {'已连接' if status else '已断开'}")
  444. # 串口重新连接后,在后台线程执行一次设备发现,避免阻塞 Flask 主线程
  445. if status:
  446. import threading
  447. t = threading.Thread(target=run_discovery_sync, kwargs={'min_interval': 10}, daemon=True)
  448. t.start()
  449. except Exception as e:
  450. logger.error(f"处理串口状态时出错: {str(e)}")
  451. def mqtt_data_handler(data):
  452. """处理MQTT接收的数据"""
  453. try:
  454. # 添加到缓冲区
  455. timestamp = time.strftime('%Y-%m-%d %H:%M:%S')
  456. mqtt_data_buffer.append({
  457. 'timestamp': timestamp,
  458. 'topic': data['topic'],
  459. 'payload': data['payload']
  460. })
  461. # 保持缓冲区大小
  462. if len(mqtt_data_buffer) > MAX_BUFFER_SIZE:
  463. mqtt_data_buffer.pop(0)
  464. # 通过WebSocket广播数据
  465. socketio.emit('mqtt_data', {
  466. 'timestamp': timestamp,
  467. 'topic': data['topic'],
  468. 'payload': data['payload']
  469. }, namespace=SOCKETIO_NAMESPACE_DATA)
  470. # 如果启用了转发且串口已连接,转发数据到串口
  471. if forward_mqtt_to_serial and serial_client.get_status():
  472. success, msg = serial_client.send_data(data['payload'])
  473. if not success:
  474. logger.warning(f"MQTT数据转发到串口失败: {msg}")
  475. except Exception as e:
  476. logger.error(f"处理MQTT数据时出错: {str(e)}")
  477. def mqtt_status_handler(status):
  478. """处理MQTT状态变化"""
  479. try:
  480. global mqtt_status
  481. mqtt_status = status
  482. # 通过WebSocket广播状态变化
  483. socketio.emit('mqtt_status', {
  484. 'connected': status
  485. }, namespace=SOCKETIO_NAMESPACE_STATUS)
  486. logger.info(f"MQTT状态更新: {'已连接' if status else '已断开'}")
  487. # 如果MQTT连接成功且启用了DTU协议,发送注册消息和订阅控制主题
  488. if status and dtu_config.get('enabled'):
  489. socketio.sleep(1) # 等待连接稳定
  490. # 发送DTU注册消息
  491. dtu_register()
  492. # 订阅控制主题
  493. control_topic = build_dtu_topic(dtu_config['customer_id'], 'dtu', dtu_config['dtu_id'], 'control')
  494. mqtt_client.subscribe(control_topic, qos=1)
  495. logger.info(f"已订阅控制主题: {control_topic}")
  496. # 订阅广播主题 (DTU发现 7.14 和批量配置 7.15)
  497. discover_topic = build_dtu_topic('broadcast', 'dtu', 'discover')
  498. config_topic = build_dtu_topic('broadcast', 'dtu', 'config')
  499. mqtt_client.subscribe(discover_topic, qos=1)
  500. mqtt_client.subscribe(config_topic, qos=1)
  501. logger.info(f"已订阅广播主题: {discover_topic}, {config_topic}")
  502. # MQTT 状态变化时刷新当前屏幕显示
  503. panels = get_sorted_panels()
  504. if panels and screen_display.get_status().get('connected'):
  505. try:
  506. with screen_lock:
  507. current_idx = screen_current_panel_index
  508. if 0 <= current_idx < len(panels):
  509. screen_refresh_queue.put((panels[current_idx][0],))
  510. except Exception as e:
  511. logger.error(f"MQTT 状态变化刷新屏幕失败: {e}")
  512. except Exception as e:
  513. logger.error(f"处理MQTT状态时出错: {str(e)}")
  514. # ========== DTU MQTT协议处理函数 ==========
  515. def build_dtu_topic(*parts):
  516. """构建DTU MQTT主题"""
  517. prefix = dtu_config.get('topic_prefix', '线架系统')
  518. return '/'.join([prefix] + list(parts))
  519. def dtu_register(discovery_request_id=None):
  520. """发送DTU注册消息"""
  521. if not mqtt_client.get_status():
  522. logger.warning("MQTT未连接,无法发送注册消息")
  523. return False
  524. try:
  525. # 加载面板配置
  526. devices = address_config.get_stored_devices()
  527. # 优先使用 dtu_config 中预设的 panel_id 映射 (uid_hex -> panel_id)
  528. panel_id_map = dtu_config.get('panel_id_mapping', {}) or {}
  529. panels = []
  530. panel_id = 1
  531. for uid_hex, addr in devices.items():
  532. custom_id = panel_id_map.get(uid_hex) or panel_id_map.get(addr)
  533. if custom_id:
  534. pid = str(custom_id)
  535. else:
  536. pid = f"PANEL_{dtu_config['dtu_id']}_{addr}"
  537. panels.append({
  538. 'panel_id': pid,
  539. 'address': addr,
  540. 'position': panel_id
  541. })
  542. panel_id += 1
  543. # 检测网络类型
  544. network_type = 'ethernet'
  545. signal_strength = None
  546. try:
  547. interfaces = network_manager.get_status().get('interfaces', {})
  548. for name, info in interfaces.items():
  549. if name in ('lo', 'docker0') or name.startswith(('br-', 'veth')):
  550. continue
  551. if info.get('status') != 'UP':
  552. continue
  553. if name.startswith(('wlan', 'wlp')):
  554. network_type = 'wifi'
  555. # 读取信号强度 (dBm, 越接近 0 越强)
  556. try:
  557. import re
  558. with open('/proc/net/wireless') as f:
  559. for line in f.readlines()[2:]:
  560. m = re.match(r'\s*(\S+):.*\s(\d+)\.\s+(-?\d+)\.', line)
  561. if m:
  562. signal_strength = int(m.group(3))
  563. break
  564. except Exception:
  565. pass
  566. elif name.startswith(('wwan', 'ppp', 'usb', 'eth')):
  567. # 移动网卡
  568. if name.startswith(('wwan', 'ppp', 'usb')):
  569. network_type = 'cellular'
  570. break
  571. except Exception:
  572. pass
  573. payload = {
  574. 'msg_id': f"reg_{int(time.time() * 1000)}_{uuid.uuid4().hex[:6]}",
  575. 'timestamp': int(time.time() * 1000),
  576. 'dtu_id': dtu_config['dtu_id'],
  577. 'type': 'REGISTER',
  578. 'payload': {
  579. 'firmware_version': dtu_config.get('firmware_version', 'v1.0.0'),
  580. 'hardware_version': dtu_config.get('hardware_version', 'v1.0'),
  581. 'panel_count': len(panels),
  582. 'network_type': network_type,
  583. 'signal_strength': signal_strength,
  584. 'uptime': int(time.time() * 1000),
  585. 'panels': panels,
  586. 'discovery_request_id': discovery_request_id
  587. }
  588. }
  589. if discovery_request_id:
  590. payload['payload']['discovery_request_id'] = discovery_request_id
  591. topic = build_dtu_topic(dtu_config['customer_id'], 'dtu', dtu_config['dtu_id'], 'register')
  592. success, msg = mqtt_client.publish(topic, json.dumps(payload), qos=1)
  593. if success:
  594. logger.info(f"DTU注册消息已发送: {topic}")
  595. else:
  596. logger.error(f"DTU注册消息发送失败: {msg}")
  597. return success
  598. except Exception as e:
  599. logger.error(f"发送DTU注册消息失败: {str(e)}")
  600. return False
  601. _discover_dedup = {}
  602. def handle_broadcast_discover(payload):
  603. """处理广播发现消息 (7.14)"""
  604. try:
  605. if not isinstance(payload, dict) or payload.get('type') != 'DISCOVER':
  606. return
  607. p = payload.get('payload', {})
  608. cust_id = p.get('customer_id', '')
  609. if cust_id and cust_id != dtu_config.get('customer_id'):
  610. return
  611. request_id = p.get('request_id', '')
  612. now = time.time()
  613. if request_id and request_id in _discover_dedup:
  614. if now - _discover_dedup[request_id] < 60:
  615. return
  616. _discover_dedup[request_id] = now
  617. # 清理超过 60s 的旧条目,防止内存泄漏
  618. if len(_discover_dedup) > 256:
  619. for k in list(_discover_dedup.keys()):
  620. if now - _discover_dedup[k] > 60:
  621. _discover_dedup.pop(k, None)
  622. logger.info(f"收到DISCOVER广播,响应注册消息 (request_id={request_id})")
  623. import random
  624. delay = random.uniform(0, 3.0)
  625. time.sleep(delay)
  626. dtu_register(discovery_request_id=request_id)
  627. dtu_publish_status()
  628. except Exception as e:
  629. logger.error(f"处理广播发现消息失败: {str(e)}")
  630. def handle_broadcast_config(payload):
  631. """处理广播批量配置消息 (7.15)"""
  632. try:
  633. if isinstance(payload, dict) and payload.get('type') == 'CONFIG':
  634. cfg = payload.get('payload', {})
  635. cust_id = cfg.get('customer_id', '')
  636. if cust_id and cust_id != dtu_config.get('customer_id'):
  637. return
  638. config_version = cfg.get('config_version', '')
  639. force_apply = cfg.get('force_apply', False)
  640. items = cfg.get('items', {})
  641. local_version = dtu_config.get('config_version', '')
  642. incoming_msg_id = payload.get('msg_id', '')
  643. if local_version == config_version and not force_apply:
  644. logger.info(f"配置版本 {config_version} 已存在,跳过")
  645. _send_config_response(config_version, [], True, 1011, incoming_msg_id)
  646. return
  647. valid_ranges = {
  648. 'heartbeat_interval': (10, 3600),
  649. 'poll_interval_ms': (100, 10000),
  650. 'modbus_timeout_ms': (200, 5000),
  651. 'mqtt_keepalive': (10, 300),
  652. 'event_debounce_ms': (0, 5000),
  653. }
  654. applied = []
  655. for key, val in items.items():
  656. if key in valid_ranges:
  657. lo, hi = valid_ranges[key]
  658. if not (lo <= val <= hi):
  659. _send_config_response(config_version, applied, False, 1012, incoming_msg_id)
  660. return
  661. if key == 'heartbeat_interval':
  662. dtu_config['heartbeat_interval'] = val
  663. elif key == 'mqtt_keepalive':
  664. dtu_config['mqtt_keepalive'] = val
  665. elif key == 'event_debounce_ms':
  666. dtu_config['event_debounce_ms'] = val
  667. elif key == 'poll_interval_ms':
  668. dtu_config['poll_interval_ms'] = val
  669. elif key == 'modbus_timeout_ms':
  670. dtu_config['modbus_timeout_ms'] = val
  671. applied.append(key)
  672. elif key in ('alarm_enabled',):
  673. dtu_config['alarm_enabled'] = bool(val)
  674. applied.append(key)
  675. else:
  676. _send_config_response(config_version, applied, False, 1013, incoming_msg_id)
  677. return
  678. if applied:
  679. dtu_config['config_version'] = config_version
  680. try:
  681. save_dtu_config()
  682. except Exception as e:
  683. logger.error(f"配置写入持久化失败: {e}")
  684. _send_config_response(config_version, applied, False, 1014, incoming_msg_id)
  685. return
  686. _send_config_response(config_version, applied, True, 0, incoming_msg_id)
  687. except Exception as e:
  688. logger.error(f"处理广播配置消息失败: {str(e)}")
  689. def _send_config_response(config_version, applied_items, success, error_code, original_msg_id=''):
  690. """发送批量配置响应 (随机 0-2000ms 延迟避免广播风暴)"""
  691. import time as _t, json as _j, random as _r
  692. delay = _r.uniform(0, 2.0)
  693. def _delayed_publish():
  694. _t.sleep(delay)
  695. topic = build_dtu_topic(dtu_config['customer_id'], 'dtu', dtu_config['dtu_id'], 'response')
  696. payload = {
  697. 'msg_id': f"rsp_cfg_{int(_t.time() * 1000)}",
  698. 'timestamp': int(_t.time() * 1000),
  699. 'dtu_id': dtu_config['dtu_id'],
  700. 'type': 'RESPONSE',
  701. 'payload': {
  702. 'original_msg_id': original_msg_id or f"cfg_{config_version}",
  703. 'command': 'BROADCAST_CONFIG',
  704. 'success': success,
  705. 'result': {
  706. 'applied_version': config_version,
  707. 'applied_items': applied_items,
  708. 'restart_required': False
  709. } if success else None,
  710. 'error_code': error_code,
  711. 'error_message': get_ota_error_message(error_code) if error_code and error_code >= 1000 else None
  712. }
  713. }
  714. mqtt_client.publish(topic, _j.dumps(payload), qos=1)
  715. # 异步执行避免阻塞 MQTT 主循环
  716. threading.Thread(target=_delayed_publish, daemon=True).start()
  717. def dtu_publish_status(force=False):
  718. """发送DTU状态/心跳消息
  719. Args:
  720. force: 保留参数。事件/告警/查询触发时传入 True,用于立即上报(区别于定时心跳)
  721. """
  722. if not mqtt_client.get_status() or not dtu_config.get('enabled'):
  723. return False
  724. # 调试日志: 区分定时 vs 触发上报
  725. if force:
  726. logger.debug("dtu_publish_status(force=True) - 事件触发立即上报")
  727. try:
  728. # panel_online 计数: 在最近 60s 内所有 24 个端口都被成功轮询过
  729. # 严格语义: 全部 24 端口在最近一轮 poll 周期内被 poll 成功 → online
  730. now_ms = int(time.time() * 1000)
  731. threshold_ms = 60_000 # 60 秒未轮询视为 offline
  732. poll_ok = 0
  733. for pid, cfg in panel_config.items():
  734. ps = port_state.get(pid, {})
  735. expected_ports = cfg.get('port_count', 24)
  736. polled_recently = sum(
  737. 1 for p in ps.values()
  738. if p.get('last_polled_at') and (now_ms - p.get('last_polled_at', 0)) < threshold_ms
  739. )
  740. if polled_recently >= expected_ports:
  741. poll_ok += 1
  742. panel_online = poll_ok
  743. panel_offline = max(0, len(panel_config) - panel_online)
  744. # 检查串口状态
  745. serial_st = serial_client.get_status()
  746. rs485_status = 'normal' if (isinstance(serial_st, dict) and serial_st.get('connected', False)) else 'error'
  747. # 网络状态: 检查实际接口 UP 状态
  748. # 规则: 有线 (eth*/wlan*) UP → online; 仅 wifi 信号弱 (无 link/低质量) → weak; 否则 offline
  749. network_status = 'offline'
  750. try:
  751. interfaces = network_manager.get_status().get('interfaces', {})
  752. real_ifs = {i: s for i, s in interfaces.items()
  753. if s.get('status') == 'UP'
  754. and i not in ('lo', 'docker0')
  755. and not i.startswith(('br-', 'veth'))}
  756. if real_ifs:
  757. # 优先有线连接
  758. if any(i.startswith(('eth', 'en')) for i in real_ifs):
  759. network_status = 'online'
  760. else:
  761. # 仅无线: 检查信号强度 (Linux: /proc/net/wireless)
  762. try:
  763. import re
  764. with open('/proc/net/wireless') as f:
  765. lines = f.readlines()
  766. quality = None
  767. for line in lines[2:]: # 跳过表头
  768. m = re.match(r'\s*(\S+):.*\s(\d+)\.\s+(\d+)\.\s+(\d+)', line)
  769. if m:
  770. # link quality (字段 2, 0-70); signal level (字段 3, dBm, 越低越差)
  771. link = int(m.group(2))
  772. sig = int(m.group(3))
  773. # 估算: link < 30 或 sig < -75 dBm 视为弱
  774. if quality is None or link < quality:
  775. quality = link
  776. network_status = 'weak' if (quality is not None and quality < 30) else 'online'
  777. except Exception:
  778. network_status = 'online'
  779. except Exception:
  780. network_status = 'offline'
  781. # 屏幕连接状态:从 Nextion 屏幕实例读取
  782. screen_connected = screen_display.get_status().get('connected', False)
  783. # CPU/内存使用率 (Linux 才有意义)
  784. cpu_usage = None
  785. memory_usage = None
  786. dtu_temperature = None
  787. try:
  788. import psutil
  789. cpu_usage = psutil.cpu_percent(interval=None)
  790. memory_usage = psutil.virtual_memory().percent
  791. # 主板温度: 优先 psutil.sensors_temperatures
  792. try:
  793. temps = psutil.sensors_temperatures(fahrenheit=False) or {}
  794. for chip_name, entries in temps.items():
  795. for entry in entries:
  796. if entry.current and entry.current > 0:
  797. dtu_temperature = round(entry.current, 1)
  798. break
  799. if dtu_temperature is not None:
  800. break
  801. except Exception:
  802. pass
  803. # 回退: 直接读 /sys/class/thermal/thermal_zone*/temp
  804. if dtu_temperature is None:
  805. import glob as _glob
  806. for tz in sorted(_glob.glob('/sys/class/thermal/thermal_zone*/temp')):
  807. try:
  808. with open(tz) as f:
  809. v = int(f.read().strip())
  810. if v > 0:
  811. dtu_temperature = round(v / 1000.0, 1)
  812. break
  813. except Exception:
  814. continue
  815. except Exception:
  816. pass
  817. # 优先使用外部上报的 dtu_temperature (来自 MQTT/RS485 传感器)
  818. dtu_temperature = env_sensor_data.get('dtu_temperature') or dtu_temperature
  819. payload = {
  820. 'msg_id': f"hbt_{int(time.time() * 1000)}_{uuid.uuid4().hex[:6]}",
  821. 'timestamp': int(time.time() * 1000),
  822. 'dtu_id': dtu_config['dtu_id'],
  823. 'type': 'STATUS',
  824. 'payload': {
  825. 'cpu_usage': cpu_usage,
  826. 'memory_usage': memory_usage,
  827. 'temperature': dtu_temperature,
  828. 'network_status': network_status,
  829. 'panel_online': panel_online,
  830. 'panel_offline': panel_offline,
  831. 'screen_connected': screen_connected,
  832. 'mqtt_connected': mqtt_client.get_status().get('connected', False) if isinstance(mqtt_client.get_status(), dict) else bool(mqtt_client.get_status()),
  833. 'rs485_status': rs485_status
  834. }
  835. }
  836. topic = build_dtu_topic(dtu_config['customer_id'], 'dtu', dtu_config['dtu_id'], 'status')
  837. success, _ = mqtt_client.publish(topic, json.dumps(payload), qos=1)
  838. return success
  839. except Exception as e:
  840. logger.error(f"发送DTU状态消息失败: {str(e)}")
  841. return False
  842. def dtu_publish_event(panel_id, port_id, event_type, jumper_uid, previous_jumper_uid=None):
  843. """发送端口事件消息"""
  844. if not mqtt_client.get_status() or not dtu_config.get('enabled'):
  845. return False
  846. try:
  847. payload = {
  848. 'msg_id': f"evt_{int(time.time() * 1000)}",
  849. 'timestamp': int(time.time() * 1000),
  850. 'dtu_id': dtu_config['dtu_id'],
  851. 'type': 'EVENT',
  852. 'payload': {
  853. 'panel_id': panel_id,
  854. 'port_id': port_id,
  855. 'event_type': event_type,
  856. 'event_id': f"evt_{uuid.uuid4().hex[:8]}",
  857. 'jumper_uid': jumper_uid,
  858. 'previous_jumper_uid': previous_jumper_uid
  859. }
  860. }
  861. topic = build_dtu_topic(dtu_config['customer_id'], 'patchpanel', dtu_config['dtu_id'], panel_id, 'event')
  862. success, _ = mqtt_client.publish(topic, json.dumps(payload), qos=1)
  863. if success:
  864. logger.info(f"端口事件已发送: {panel_id}:{port_id} - {event_type}")
  865. # 记录到事件历史
  866. port_event_history.append({
  867. 'timestamp': int(time.time() * 1000),
  868. 'panel_id': panel_id,
  869. 'port_id': port_id,
  870. 'event_type': event_type,
  871. 'jumper_uid': jumper_uid,
  872. 'previous_jumper_uid': previous_jumper_uid
  873. })
  874. # 限制历史记录数量
  875. if len(port_event_history) > 1000:
  876. port_event_history[:] = port_event_history[-1000:]
  877. # 事件驱动: 立即上报一次 status (符合 7.4 "状态变化时立即上报")
  878. try:
  879. dtu_publish_status(force=True)
  880. except Exception:
  881. pass
  882. return success
  883. except Exception as e:
  884. logger.error(f"发送端口事件失败: {str(e)}")
  885. return False
  886. def dtu_publish_alarm(panel_id, port_id, alarm_type, expected_jumper_uid, actual_jumper_uid, severity='WARNING'):
  887. """发送非法告警消息"""
  888. if not mqtt_client.get_status() or not dtu_config.get('enabled'):
  889. return False
  890. try:
  891. description = f"端口{port_id}期望跳线{expected_jumper_uid},实际{'未读到' if not actual_jumper_uid else actual_jumper_uid}"
  892. payload = {
  893. 'msg_id': f"alm_{int(time.time() * 1000)}",
  894. 'timestamp': int(time.time() * 1000),
  895. 'dtu_id': dtu_config['dtu_id'],
  896. 'type': 'ALARM',
  897. 'payload': {
  898. 'panel_id': panel_id,
  899. 'port_id': port_id,
  900. 'alarm_type': alarm_type,
  901. 'severity': severity,
  902. 'expected_jumper_uid': expected_jumper_uid,
  903. 'actual_jumper_uid': actual_jumper_uid,
  904. 'description': description
  905. }
  906. }
  907. topic = build_dtu_topic(dtu_config['customer_id'], 'patchpanel', dtu_config['dtu_id'], panel_id, 'alarm')
  908. success, _ = mqtt_client.publish(topic, json.dumps(payload), qos=1)
  909. if success:
  910. logger.warning(f"非法告警已发送: {panel_id}:{port_id} - {alarm_type}")
  911. # 记录到事件历史
  912. port_event_history.append({
  913. 'timestamp': int(time.time() * 1000),
  914. 'panel_id': panel_id,
  915. 'port_id': port_id,
  916. 'event_type': 'ALARM',
  917. 'alarm_type': alarm_type,
  918. 'expected_jumper_uid': expected_jumper_uid,
  919. 'actual_jumper_uid': actual_jumper_uid
  920. })
  921. # 限制历史记录数量
  922. if len(port_event_history) > 1000:
  923. port_event_history[:] = port_event_history[-1000:]
  924. # 事件驱动: 告警后立即上报一次 status
  925. try:
  926. dtu_publish_status(force=True)
  927. except Exception:
  928. pass
  929. return success
  930. except Exception as e:
  931. logger.error(f"发送非法告警失败: {str(e)}")
  932. return False
  933. def dtu_publish_panel_status(panel_id, address, ports_data, online=True):
  934. """发送配线架状态消息 (7.7)
  935. online=False 时表示面板已离线,ports 全部置为 UNKNOWN。
  936. """
  937. if not mqtt_client.get_status() or not dtu_config.get('enabled'):
  938. return False
  939. try:
  940. if not online:
  941. ports_data = [{'port_id': p, 'status': 'UNKNOWN', 'jumper_uid': None} for p in range(1, 25)]
  942. topic = build_dtu_topic(dtu_config['customer_id'], 'patchpanel', dtu_config['dtu_id'], panel_id, 'status')
  943. payload = {
  944. 'msg_id': f"pst_{int(time.time() * 1000)}",
  945. 'timestamp': int(time.time() * 1000),
  946. 'dtu_id': dtu_config['dtu_id'],
  947. 'type': 'STATUS',
  948. 'payload': {
  949. 'panel_id': panel_id,
  950. 'position': panel_config.get(panel_id, {}).get('position', 0),
  951. 'address': address,
  952. 'online': online,
  953. 'last_poll_time': int(time.time() * 1000),
  954. 'ports': ports_data
  955. }
  956. }
  957. mqtt_client.publish(topic, json.dumps(payload), qos=0)
  958. return True
  959. except Exception as e:
  960. logger.error(f"发送面板状态失败: {str(e)}")
  961. return False
  962. def dtu_publish_jumper_status():
  963. """发送跳线状态汇总 (7.8) - STATUS envelope with panels[] array"""
  964. if not mqtt_client.get_status() or not dtu_config.get('enabled'):
  965. return False
  966. try:
  967. panels_arr = []
  968. for panel_id, cfg in panel_config.items():
  969. ports_arr = []
  970. ps = port_state.get(panel_id, {})
  971. for port_id in range(1, 25):
  972. p = ps.get(port_id, {})
  973. last_uid = p.get('last_uid')
  974. expected_uid = p.get('expected_uid')
  975. last_polled = p.get('last_polled_at')
  976. if not last_polled:
  977. status = 'UNKNOWN'
  978. elif last_uid is None:
  979. status = 'DISCONNECTED'
  980. if expected_uid:
  981. status = 'ILLEGAL'
  982. elif expected_uid and last_uid != expected_uid:
  983. status = 'ILLEGAL'
  984. else:
  985. status = 'CONNECTED'
  986. ports_arr.append({
  987. 'port_id': port_id,
  988. 'status': status,
  989. 'jumper_uid': last_uid
  990. })
  991. panels_arr.append({
  992. 'panel_id': panel_id,
  993. 'position': cfg.get('position', 0),
  994. 'ports': ports_arr
  995. })
  996. topic = build_dtu_topic(dtu_config['customer_id'], 'jumper', dtu_config['dtu_id'], 'status')
  997. payload = {
  998. 'msg_id': f"jmp_{int(time.time() * 1000)}",
  999. 'timestamp': int(time.time() * 1000),
  1000. 'dtu_id': dtu_config['dtu_id'],
  1001. 'type': 'STATUS',
  1002. 'payload': {'panels': panels_arr}
  1003. }
  1004. mqtt_client.publish(topic, json.dumps(payload), qos=0)
  1005. return True
  1006. except Exception as e:
  1007. logger.error(f"发送跳线状态汇总失败: {str(e)}")
  1008. return False
  1009. _env_sensor_data = {
  1010. 'temperature': None,
  1011. 'humidity': None,
  1012. 'sensor_update_time': None
  1013. }
  1014. def update_env_sensor_data(temperature, humidity, dtu_temperature=None, sensor_update_time=None):
  1015. """更新环境传感器数据 - 委托给完整实现(带历史和告警)"""
  1016. update_env_sensor_data_full(temperature, humidity, dtu_temperature, sensor_update_time)
  1017. def dtu_publish_env_sensor():
  1018. """发送环境传感器数据 (7.9) - STATUS envelope"""
  1019. if not mqtt_client.get_status() or not dtu_config.get('enabled'):
  1020. return False
  1021. try:
  1022. topic = build_dtu_topic(dtu_config['customer_id'], 'env', dtu_config['dtu_id'], 'sensor')
  1023. payload = {
  1024. 'msg_id': f"sen_{int(time.time() * 1000)}",
  1025. 'timestamp': int(time.time() * 1000),
  1026. 'dtu_id': dtu_config['dtu_id'],
  1027. 'type': 'STATUS',
  1028. 'payload': {
  1029. 'temperature': _env_sensor_data.get('temperature'),
  1030. 'humidity': _env_sensor_data.get('humidity'),
  1031. 'sensor_update_time': _env_sensor_data.get('sensor_update_time')
  1032. }
  1033. }
  1034. mqtt_client.publish(topic, json.dumps(payload), qos=0)
  1035. return True
  1036. except Exception as e:
  1037. logger.error(f"发送环境传感器数据失败: {str(e)}")
  1038. return False
  1039. def dtu_handle_control(topic, payload):
  1040. """处理下行控制指令"""
  1041. try:
  1042. if not dtu_config.get('enabled'):
  1043. return
  1044. command = payload.get('payload', {}).get('command')
  1045. target = payload.get('payload', {}).get('target')
  1046. params = payload.get('payload', {}).get('params', {})
  1047. logger.info(f"收到控制指令: command={command}, target={target}")
  1048. response_payload = {
  1049. 'msg_id': f"rsp_{int(time.time() * 1000)}_{uuid.uuid4().hex[:6]}",
  1050. 'timestamp': int(time.time() * 1000),
  1051. 'dtu_id': dtu_config['dtu_id'],
  1052. 'type': 'RESPONSE',
  1053. 'payload': {
  1054. 'original_msg_id': payload.get('msg_id'),
  1055. 'command': command,
  1056. 'success': True,
  1057. 'result': {},
  1058. 'error_code': 0,
  1059. 'error_message': None
  1060. }
  1061. }
  1062. topic_response_dtu = build_dtu_topic(
  1063. dtu_config['customer_id'], 'dtu', dtu_config['dtu_id'], 'response')
  1064. # 处理各命令
  1065. if command == 'SET_PORT_LED':
  1066. # 设置端口LED
  1067. port_id = params.get('port_id')
  1068. led_mode = params.get('led_mode', 'OFF')
  1069. # 参数校验
  1070. if port_id is None or not (1 <= int(port_id) <= 24):
  1071. response_payload['payload']['success'] = False
  1072. response_payload['payload']['error_code'] = 1003
  1073. response_payload['payload']['error_message'] = f"端口号非法: {port_id}"
  1074. mqtt_client.publish(topic_response_dtu, json.dumps(response_payload), qos=1)
  1075. return
  1076. if led_mode not in ('OFF', 'BLINK_RED', 'BLINK_GREEN', 'BLINK_BLUE'):
  1077. response_payload['payload']['success'] = False
  1078. response_payload['payload']['error_code'] = 1004
  1079. response_payload['payload']['error_message'] = f"LED模式非法: {led_mode}"
  1080. mqtt_client.publish(topic_response_dtu, json.dumps(response_payload), qos=1)
  1081. return
  1082. # LED模式映射
  1083. led_mode_map = {'OFF': 0, 'BLINK_RED': 1, 'BLINK_GREEN': 2, 'BLINK_BLUE': 3}
  1084. color = led_mode_map.get(led_mode, 0)
  1085. # 查找设备地址
  1086. device_address = 1 # 默认
  1087. for panel_id, cfg in panel_config.items():
  1088. if panel_id == target:
  1089. device_address = cfg.get('address', 1)
  1090. break
  1091. result = modbus_client.set_rgb_led(device_address, port_id, color)
  1092. response_payload['payload']['success'] = 'error' not in result
  1093. response_payload['payload']['result'] = result
  1094. if 'error' in result:
  1095. response_payload['payload']['error_code'] = 1005
  1096. response_payload['payload']['error_message'] = result['error']
  1097. else:
  1098. if device_address not in led_states:
  1099. led_states[device_address] = {}
  1100. led_states[device_address][int(port_id)] = color
  1101. _refresh_current_screen_panel()
  1102. elif command == 'QUERY_DTU_STATUS':
  1103. # 查询DTU状态
  1104. dtu_publish_status(force=True)
  1105. elif command == 'SYNC_PORT_MAPPING':
  1106. # 同步单端口期望映射
  1107. port_id = params.get('port_id')
  1108. jumper_uid = params.get('jumper_uid')
  1109. if port_id is None or target is None or target not in panel_config:
  1110. response_payload['payload']['success'] = False
  1111. response_payload['payload']['error_code'] = 1006 if port_id is None else 1002
  1112. response_payload['payload']['error_message'] = "参数缺失" if port_id is None else f"目标面板不存在: {target}"
  1113. mqtt_client.publish(topic_response_dtu, json.dumps(response_payload), qos=1)
  1114. return
  1115. if target not in port_state:
  1116. port_state[target] = {}
  1117. if port_id not in port_state[target]:
  1118. port_state[target][port_id] = {'last_uid': None, 'expected_uid': None, 'alarm_count': 0}
  1119. port_state[target][port_id]['expected_uid'] = jumper_uid
  1120. # 持久化期望映射,保证离线恢复/重启后仍能判定非法连接
  1121. dtu_config.setdefault('port_mappings', {}).setdefault(target, {})[str(port_id)] = jumper_uid
  1122. save_dtu_config()
  1123. elif command == 'SYNC_ALL_MAPPING':
  1124. # 批量同步期望映射
  1125. mappings = params.get('mappings', [])
  1126. if not isinstance(mappings, list):
  1127. response_payload['payload']['success'] = False
  1128. response_payload['payload']['error_code'] = 1006
  1129. response_payload['payload']['error_message'] = "mappings 字段格式错误"
  1130. mqtt_client.publish(topic_response_dtu, json.dumps(response_payload), qos=1)
  1131. return
  1132. try:
  1133. for mapping in mappings:
  1134. panel_id = mapping.get('panel_id')
  1135. port_id = mapping.get('port_id')
  1136. jumper_uid = mapping.get('jumper_uid')
  1137. if panel_id not in panel_config:
  1138. raise ValueError(f"目标面板不存在: {panel_id}")
  1139. if panel_id not in port_state:
  1140. port_state[panel_id] = {}
  1141. if port_id not in port_state[panel_id]:
  1142. port_state[panel_id][port_id] = {'last_uid': None, 'expected_uid': None, 'alarm_count': 0}
  1143. port_state[panel_id][port_id]['expected_uid'] = jumper_uid
  1144. # 持久化期望映射
  1145. dtu_config.setdefault('port_mappings', {}).setdefault(panel_id, {})[str(port_id)] = jumper_uid
  1146. save_dtu_config()
  1147. except Exception as e:
  1148. response_payload['payload']['success'] = False
  1149. response_payload['payload']['error_code'] = 1007
  1150. response_payload['payload']['error_message'] = f"同步映射失败: {e}"
  1151. mqtt_client.publish(topic_response_dtu, json.dumps(response_payload), qos=1)
  1152. return
  1153. elif command == 'REBOOT':
  1154. # 重启DTU: 1s 延迟后执行 reboot
  1155. import subprocess
  1156. logger.warning(f"MQTT REBOOT 命令收到,1 秒后执行系统重启")
  1157. threading.Thread(target=lambda: (
  1158. time.sleep(1),
  1159. subprocess.run(['reboot'], capture_output=True)
  1160. ), daemon=True).start()
  1161. response_payload['payload']['result'] = {'message': 'Reboot scheduled in 1s'}
  1162. elif command == 'READ_PANEL_STATUS':
  1163. # 读取面板状态
  1164. # 读取面板的多个寄存器获取状态信息
  1165. # 寄存器地址定义: 0x0000=运行状态, 0x0001=LED控制, 0x0002-0x0009=天线卡状态
  1166. device_address = 1
  1167. for panel_id, cfg in panel_config.items():
  1168. if panel_id == target:
  1169. device_address = cfg.get('address', 1)
  1170. break
  1171. # 读取面板状态寄存器 (地址0x0000开始,读取10个寄存器)
  1172. status_result = modbus_client.read_holding_registers(device_address, 0x0000, 10)
  1173. # 解析状态
  1174. registers = status_result.get('registers', [])
  1175. panel_status = {
  1176. 'device_address': device_address,
  1177. 'run_status': registers[0] if len(registers) > 0 else None,
  1178. 'led_control': registers[1] if len(registers) > 1 else None,
  1179. 'antenna_status': registers[2:10] if len(registers) >= 10 else [],
  1180. 'raw_registers': registers
  1181. }
  1182. response_payload['payload']['success'] = 'error' not in status_result
  1183. response_payload['payload']['result'] = panel_status
  1184. elif command == 'QUERY_JUMPER_STATUS':
  1185. # 查询跳线器状态汇总 (7.8) - 触发 STATUS 上行至 jumper/{dtu_id}/status
  1186. dtu_publish_jumper_status()
  1187. return # dtu_publish_jumper_status 已发送响应
  1188. elif command == 'QUERY_ENV_SENSOR':
  1189. # 查询环境传感器 (7.9) - 触发 STATUS 上行至 env/{dtu_id}/sensor
  1190. dtu_publish_env_sensor()
  1191. return # dtu_publish_env_sensor 已发送响应
  1192. elif command == 'OTA_UPGRADE':
  1193. params = payload.get('payload', {}).get('params', {})
  1194. target_version = params.get('firmware_version')
  1195. force_upgrade = params.get('force_upgrade', False)
  1196. current_version = dtu_config.get('firmware_version', 'v1.0.0')
  1197. incoming_msg_id = payload.get('msg_id', '')
  1198. if target_version == current_version and not force_upgrade:
  1199. response_payload['payload']['success'] = False
  1200. response_payload['payload']['error_code'] = 1021
  1201. response_payload['payload']['error_message'] = f"已是目标版本: {target_version}"
  1202. mqtt_client.publish(topic_response_dtu, json.dumps(response_payload), qos=1)
  1203. return
  1204. if params.get('firmware_url'):
  1205. import threading
  1206. threading.Thread(target=lambda: _run_ota({**params, '_incoming_msg_id': incoming_msg_id}), daemon=True).start()
  1207. response_payload['payload']['success'] = True
  1208. response_payload['payload']['result'] = {
  1209. 'firmware_version': target_version,
  1210. 'ota_status': 'DOWNLOADING',
  1211. 'restart_required': False
  1212. }
  1213. elif command == 'OTA_CANCEL':
  1214. # 取消OTA升级
  1215. # 向OTA控制寄存器写入取消命令 (0x0000=取消)
  1216. device_address = 1
  1217. for panel_id, cfg in panel_config.items():
  1218. if panel_id == target:
  1219. device_address = cfg.get('address', 1)
  1220. break
  1221. # OTA控制寄存器地址: 0x0300
  1222. # 值: 0x0000=取消升级
  1223. cancel_result = modbus_client.write_single_register(device_address, 0x0300, 0x0000)
  1224. response_payload['payload']['success'] = 'error' not in cancel_result
  1225. response_payload['payload']['result'] = {
  1226. 'message': 'OTA upgrade cancelled' if 'error' not in cancel_result else 'Failed to cancel OTA',
  1227. 'raw_result': cancel_result
  1228. }
  1229. else:
  1230. # 未知命令
  1231. response_payload['payload']['success'] = False
  1232. response_payload['payload']['error_code'] = 1001
  1233. response_payload['payload']['error_message'] = f"未知命令: {command}"
  1234. mqtt_client.publish(topic_response_dtu, json.dumps(response_payload), qos=1)
  1235. return
  1236. # 发送响应(QUERY_DTU_STATUS 已由 dtu_publish_status 发送;QUERY_JUMPER_STATUS/QUERY_ENV_SENSOR 已在分支中发布)
  1237. if command == 'QUERY_DTU_STATUS':
  1238. pass
  1239. else:
  1240. cmd = command
  1241. if cmd == 'READ_PANEL_STATUS':
  1242. if target and target != 'all' and target in panel_config:
  1243. # 单个面板: 使用 panel_id 作为 topic segment
  1244. topic = build_dtu_topic(dtu_config['customer_id'], 'patchpanel',
  1245. dtu_config['dtu_id'], target, 'status')
  1246. mqtt_client.publish(topic, json.dumps(response_payload), qos=0)
  1247. else:
  1248. # target=all: 遍历所有面板发布到各自的 topic
  1249. for pid in panel_config.keys():
  1250. topic = build_dtu_topic(dtu_config['customer_id'], 'patchpanel',
  1251. dtu_config['dtu_id'], pid, 'status')
  1252. mqtt_client.publish(topic, json.dumps(response_payload), qos=0)
  1253. else:
  1254. topic = build_dtu_topic(dtu_config['customer_id'], 'dtu', dtu_config['dtu_id'], 'response')
  1255. p = response_payload['payload']
  1256. if not p.get('success', True) and p.get('error_code', 0) == 0:
  1257. p['error_code'] = 9999
  1258. p['error_message'] = p.get('error_message') or '未知错误'
  1259. mqtt_client.publish(topic, json.dumps(response_payload), qos=1)
  1260. except Exception as e:
  1261. logger.error(f"处理控制指令失败: {str(e)}")
  1262. # 启动DTU心跳定时器
  1263. def start_dtu_heartbeat():
  1264. """启动DTU心跳定时任务"""
  1265. def heartbeat_task():
  1266. env_tick = 0
  1267. while True:
  1268. socketio.sleep(dtu_config.get('heartbeat_interval', DTU_HEARTBEAT_INTERVAL))
  1269. if mqtt_client.get_status() and dtu_config.get('enabled'):
  1270. dtu_publish_status()
  1271. # 每 2 个心跳周期 (120s) 主动推送一次环境传感器数据 (7.9)
  1272. env_tick += 1
  1273. if env_tick >= 2:
  1274. env_tick = 0
  1275. dtu_publish_env_sensor()
  1276. socketio.start_background_task(target=heartbeat_task)
  1277. # 修改mqtt_data_handler以处理控制指令
  1278. def mqtt_data_handler_extended(data):
  1279. """处理MQTT接收的数据(扩展版,含DTU协议)"""
  1280. try:
  1281. topic = data.get('topic', '')
  1282. payload_str = data.get('payload', '')
  1283. # 尝试解析JSON
  1284. try:
  1285. payload = json.loads(payload_str) if isinstance(payload_str, str) else payload_str
  1286. except:
  1287. payload = payload_str
  1288. # 添加到缓冲区
  1289. timestamp = time.strftime('%Y-%m-%d %H:%M:%S')
  1290. mqtt_data_buffer.append({
  1291. 'timestamp': timestamp,
  1292. 'topic': topic,
  1293. 'payload': payload_str
  1294. })
  1295. if len(mqtt_data_buffer) > MAX_BUFFER_SIZE:
  1296. mqtt_data_buffer.pop(0)
  1297. # 通过WebSocket广播
  1298. socketio.emit('mqtt_data', {
  1299. 'timestamp': timestamp,
  1300. 'topic': topic,
  1301. 'payload': payload_str
  1302. }, namespace=SOCKETIO_NAMESPACE_DATA)
  1303. # 检查是否是控制指令主题
  1304. expected_control_topic = build_dtu_topic(dtu_config['customer_id'], 'dtu', dtu_config['dtu_id'], 'control')
  1305. if topic == expected_control_topic:
  1306. dtu_handle_control(topic, payload)
  1307. # 检查是否是状态主题,用于处理OTA状态上报
  1308. expected_status_topic = build_dtu_topic(dtu_config['customer_id'], 'dtu', dtu_config['dtu_id'], 'status')
  1309. if topic == expected_status_topic and isinstance(payload, dict):
  1310. if 'ota_status' in payload or 'firmware_version' in payload:
  1311. handle_ota_status(dtu_config['dtu_id'], payload)
  1312. # 检查是否是环境传感器数据主题 (兼容旧 sensor/.../data 路径,spec 7.9 为 env/.../sensor)
  1313. sensor_topic = build_dtu_topic(dtu_config['customer_id'], 'sensor', dtu_config['dtu_id'], 'data')
  1314. env_topic = build_dtu_topic(dtu_config['customer_id'], 'env', dtu_config['dtu_id'], 'sensor')
  1315. if topic in (sensor_topic, env_topic) and isinstance(payload, dict):
  1316. if 'temperature' in payload or 'humidity' in payload:
  1317. update_env_sensor_data(
  1318. payload.get('temperature'),
  1319. payload.get('humidity'),
  1320. payload.get('dtu_temperature'),
  1321. payload.get('sensor_update_time')
  1322. )
  1323. # 检查是否是广播主题 - DTU发现 (7.14)
  1324. discover_topic = build_dtu_topic('broadcast', 'dtu', 'discover')
  1325. if topic == discover_topic:
  1326. handle_broadcast_discover(payload)
  1327. # 检查是否是广播主题 - 批量配置 (7.15)
  1328. config_topic = build_dtu_topic('broadcast', 'dtu', 'config')
  1329. if topic == config_topic:
  1330. handle_broadcast_config(payload)
  1331. # 转发到串口(如果启用)
  1332. if forward_mqtt_to_serial and serial_client.get_status():
  1333. success, msg = serial_client.send_data(payload_str)
  1334. if not success:
  1335. logger.warning(f"MQTT数据转发到串口失败: {msg}")
  1336. except Exception as e:
  1337. logger.error(f"处理MQTT数据时出错: {str(e)}")
  1338. # WebSocket事件处理
  1339. @socketio.on('connect', namespace=SOCKETIO_NAMESPACE_DATA)
  1340. def handle_data_connect():
  1341. """处理数据命名空间的连接"""
  1342. try:
  1343. client_id = str(uuid.uuid4())
  1344. connected_clients['data'].add(client_id)
  1345. logger.info(f'客户端已连接到数据命名空间,当前连接数: {len(connected_clients["data"])}')
  1346. # 发送当前的缓冲区数据,限制发送的历史记录数量
  1347. max_history = 100 # 限制发送的历史记录数量以提高性能
  1348. emit('serial_data_history', {'data': serial_data_buffer[-max_history:]})
  1349. emit('mqtt_data_history', {'data': mqtt_data_buffer[-max_history:]})
  1350. # 存储客户端ID以便断开连接时使用
  1351. socketio.start_background_task(target=lambda: None) # 确保上下文可用
  1352. except Exception as e:
  1353. logger.error(f"处理数据命名空间连接时出错: {str(e)}")
  1354. @socketio.on('connect', namespace=SOCKETIO_NAMESPACE_STATUS)
  1355. def handle_status_connect():
  1356. """处理状态命名空间的连接"""
  1357. try:
  1358. client_id = str(uuid.uuid4())
  1359. connected_clients['status'].add(client_id)
  1360. logger.info(f'客户端已连接到状态命名空间,当前连接数: {len(connected_clients["status"])}')
  1361. # 发送当前状态
  1362. emit('serial_status', {'connected': serial_status})
  1363. emit('mqtt_status', {'connected': mqtt_status})
  1364. emit('forward_status', {
  1365. 'serial_to_mqtt': forward_serial_to_mqtt,
  1366. 'mqtt_to_serial': forward_mqtt_to_serial,
  1367. 'publish_topic': mqtt_publish_topic
  1368. })
  1369. except Exception as e:
  1370. logger.error(f"处理状态命名空间连接时出错: {str(e)}")
  1371. @socketio.on('connect', namespace=SOCKETIO_NAMESPACE_CONTROL)
  1372. def handle_control_connect():
  1373. """处理控制命名空间的连接"""
  1374. try:
  1375. client_id = str(uuid.uuid4())
  1376. connected_clients['control'].add(client_id)
  1377. logger.info(f'客户端已连接到控制命名空间,当前连接数: {len(connected_clients["control"])}')
  1378. except Exception as e:
  1379. logger.error(f"处理控制命名空间连接时出错: {str(e)}")
  1380. @socketio.on('disconnect', namespace=SOCKETIO_NAMESPACE_DATA)
  1381. def handle_data_disconnect():
  1382. """处理数据命名空间的断开连接"""
  1383. try:
  1384. # 清理客户端连接记录
  1385. # 在实际应用中,可能需要更复杂的逻辑来追踪具体哪个客户端断开了连接
  1386. if len(connected_clients['data']) > 0:
  1387. # 这里简化处理,实际应该维护session到client_id的映射
  1388. connected_clients['data'].pop() # 注意:这是一个简化的实现
  1389. logger.info(f'客户端已断开数据命名空间的连接,当前连接数: {len(connected_clients["data"])}')
  1390. except Exception as e:
  1391. logger.error(f"处理数据命名空间断开连接时出错: {str(e)}")
  1392. @socketio.on('disconnect', namespace=SOCKETIO_NAMESPACE_STATUS)
  1393. def handle_status_disconnect():
  1394. """处理状态命名空间的断开连接"""
  1395. try:
  1396. # 清理客户端连接记录
  1397. if len(connected_clients['status']) > 0:
  1398. connected_clients['status'].pop()
  1399. logger.info(f'客户端已断开状态命名空间的连接,当前连接数: {len(connected_clients["status"])}')
  1400. except Exception as e:
  1401. logger.error(f"处理状态命名空间断开连接时出错: {str(e)}")
  1402. @socketio.on('disconnect', namespace=SOCKETIO_NAMESPACE_CONTROL)
  1403. def handle_control_disconnect():
  1404. """处理控制命名空间的断开连接"""
  1405. try:
  1406. # 清理客户端连接记录
  1407. if len(connected_clients['control']) > 0:
  1408. connected_clients['control'].pop()
  1409. logger.info(f'客户端已断开控制命名空间的连接,当前连接数: {len(connected_clients["control"])}')
  1410. except Exception as e:
  1411. logger.error(f"处理控制命名空间断开连接时出错: {str(e)}")
  1412. @socketio.on('serial_send', namespace=SOCKETIO_NAMESPACE_CONTROL)
  1413. def handle_serial_send(data):
  1414. """通过WebSocket处理串口发送数据请求"""
  1415. try:
  1416. message = data.get('message', '')
  1417. if not message:
  1418. emit('serial_send_response', {
  1419. 'success': False,
  1420. 'message': '消息内容不能为空',
  1421. 'error_code': ERROR_CODES['CONFIG_ERROR']
  1422. })
  1423. return
  1424. if not (isinstance(serial_client.get_status(), dict) and serial_client.get_status().get("connected", False)):
  1425. emit('serial_send_response', {
  1426. 'success': False,
  1427. 'message': '串口未连接',
  1428. 'error_code': ERROR_CODES['SERIAL_CONNECTION_ERROR']
  1429. })
  1430. return
  1431. success, msg = serial_client.send_data(message)
  1432. emit('serial_send_response', {
  1433. 'success': success,
  1434. 'message': msg,
  1435. 'error_code': ERROR_CODES['SUCCESS'] if success else ERROR_CODES['SERIAL_SEND_ERROR']
  1436. })
  1437. if success:
  1438. logger.info(f"通过WebSocket发送串口数据成功: {message[:50]}..." if len(message) > 50 else message)
  1439. except Exception as e:
  1440. error_msg = f"处理串口发送请求时出错: {str(e)}"
  1441. logger.error(error_msg)
  1442. emit('serial_send_response', {
  1443. 'success': False,
  1444. 'message': error_msg,
  1445. 'error_code': ERROR_CODES['UNKNOWN_ERROR']
  1446. })
  1447. @socketio.on('mqtt_publish', namespace=SOCKETIO_NAMESPACE_CONTROL)
  1448. def handle_mqtt_publish(data):
  1449. """通过WebSocket处理MQTT发布数据请求"""
  1450. try:
  1451. topic = data.get('topic', '')
  1452. message = data.get('message', '')
  1453. if not topic or not message:
  1454. emit('mqtt_publish_response', {
  1455. 'success': False,
  1456. 'message': '主题或消息内容不能为空',
  1457. 'error_code': ERROR_CODES['CONFIG_ERROR']
  1458. })
  1459. return
  1460. if not mqtt_client.get_status():
  1461. emit('mqtt_publish_response', {
  1462. 'success': False,
  1463. 'message': 'MQTT未连接',
  1464. 'error_code': ERROR_CODES['MQTT_CONNECTION_ERROR']
  1465. })
  1466. return
  1467. success, msg = mqtt_client.publish(topic, message)
  1468. emit('mqtt_publish_response', {
  1469. 'success': success,
  1470. 'message': msg,
  1471. 'error_code': ERROR_CODES['SUCCESS'] if success else ERROR_CODES['MQTT_PUBLISH_ERROR']
  1472. })
  1473. if success:
  1474. logger.info(f"通过WebSocket发布MQTT消息成功: 主题={topic}, 消息={message[:50]}..." if len(message) > 50 else message)
  1475. except Exception as e:
  1476. error_msg = f"处理MQTT发布请求时出错: {str(e)}"
  1477. logger.error(error_msg)
  1478. emit('mqtt_publish_response', {
  1479. 'success': False,
  1480. 'message': error_msg,
  1481. 'error_code': ERROR_CODES['UNKNOWN_ERROR']
  1482. })
  1483. @socketio.on('update_forward_config', namespace=SOCKETIO_NAMESPACE_CONTROL)
  1484. def handle_update_forward_config(data):
  1485. """通过WebSocket更新转发配置"""
  1486. global forward_serial_to_mqtt, forward_mqtt_to_serial, mqtt_publish_topic
  1487. try:
  1488. # 更新转发标志
  1489. if 'serial_to_mqtt' in data:
  1490. forward_serial_to_mqtt = bool(data['serial_to_mqtt'])
  1491. if 'mqtt_to_serial' in data:
  1492. forward_mqtt_to_serial = bool(data['mqtt_to_serial'])
  1493. if 'publish_topic' in data:
  1494. new_topic = str(data['publish_topic'])
  1495. if not new_topic.strip():
  1496. raise ValueError("发布主题不能为空")
  1497. mqtt_publish_topic = new_topic
  1498. # 广播配置更新
  1499. socketio.emit('forward_status', {
  1500. 'serial_to_mqtt': forward_serial_to_mqtt,
  1501. 'mqtt_to_serial': forward_mqtt_to_serial,
  1502. 'publish_topic': mqtt_publish_topic
  1503. }, namespace=SOCKETIO_NAMESPACE_STATUS)
  1504. emit('update_forward_config_response', {
  1505. 'success': True,
  1506. 'message': '转发配置已更新',
  1507. 'error_code': ERROR_CODES['SUCCESS']
  1508. })
  1509. logger.info(f"转发配置已更新 - 串口到MQTT: {forward_serial_to_mqtt}, MQTT到串口: {forward_mqtt_to_serial}, 发布主题: {mqtt_publish_topic}")
  1510. except ValueError as e:
  1511. error_msg = str(e)
  1512. logger.warning(f"转发配置更新失败: {error_msg}")
  1513. emit('update_forward_config_response', {
  1514. 'success': False,
  1515. 'message': error_msg,
  1516. 'error_code': ERROR_CODES['CONFIG_ERROR']
  1517. })
  1518. except Exception as e:
  1519. error_msg = f'更新转发配置失败: {str(e)}'
  1520. logger.error(error_msg)
  1521. emit('update_forward_config_response', {
  1522. 'success': False,
  1523. 'message': error_msg,
  1524. 'error_code': ERROR_CODES['UNKNOWN_ERROR']
  1525. })
  1526. @socketio.on('clear_data_buffer', namespace=SOCKETIO_NAMESPACE_CONTROL)
  1527. def handle_clear_data_buffer(data):
  1528. """通过WebSocket清空数据缓冲区"""
  1529. try:
  1530. buffer_type = data.get('type', '')
  1531. if buffer_type == 'serial':
  1532. serial_data_buffer.clear()
  1533. emit('clear_data_buffer_response', {
  1534. 'success': True,
  1535. 'message': '串口数据缓冲区已清空',
  1536. 'error_code': ERROR_CODES['SUCCESS']
  1537. })
  1538. logger.info("串口数据缓冲区已清空")
  1539. elif buffer_type == 'mqtt':
  1540. mqtt_data_buffer.clear()
  1541. emit('clear_data_buffer_response', {
  1542. 'success': True,
  1543. 'message': 'MQTT数据缓冲区已清空',
  1544. 'error_code': ERROR_CODES['SUCCESS']
  1545. })
  1546. logger.info("MQTT数据缓冲区已清空")
  1547. elif buffer_type == 'all':
  1548. serial_data_buffer.clear()
  1549. mqtt_data_buffer.clear()
  1550. emit('clear_data_buffer_response', {
  1551. 'success': True,
  1552. 'message': '所有数据缓冲区已清空',
  1553. 'error_code': ERROR_CODES['SUCCESS']
  1554. })
  1555. logger.info("所有数据缓冲区已清空")
  1556. else:
  1557. emit('clear_data_buffer_response', {
  1558. 'success': False,
  1559. 'message': '无效的缓冲区类型',
  1560. 'error_code': ERROR_CODES['CONFIG_ERROR']
  1561. })
  1562. logger.warning(f"清空缓冲区失败: 无效的缓冲区类型 '{buffer_type}'")
  1563. except Exception as e:
  1564. error_msg = f'清空缓冲区失败: {str(e)}'
  1565. logger.error(error_msg)
  1566. emit('clear_data_buffer_response', {
  1567. 'success': False,
  1568. 'message': error_msg,
  1569. 'error_code': ERROR_CODES['UNKNOWN_ERROR']
  1570. })
  1571. # 设置回调
  1572. serial_client.set_data_callback(serial_data_handler)
  1573. serial_client.set_send_callback(serial_send_handler)
  1574. serial_client.set_status_callback(serial_status_handler)
  1575. mqtt_client.set_data_callback(mqtt_data_handler_extended)
  1576. mqtt_client.set_status_callback(mqtt_status_handler)
  1577. # 设备配置文件路径
  1578. DEVICE_CONFIG_FILE = '/root/dzxj_dtu/devices.json'
  1579. confirm_loop_running = False
  1580. def save_device_config():
  1581. """保存设备配置到文件"""
  1582. try:
  1583. filepath = DEVICE_CONFIG_FILE
  1584. success = address_config.save_config(filepath)
  1585. if success:
  1586. logger.info(f"设备配置已保存到: {filepath}")
  1587. except Exception as e:
  1588. logger.error(f"保存设备配置失败: {str(e)}")
  1589. def load_device_config():
  1590. """加载设备配置"""
  1591. try:
  1592. filepath = DEVICE_CONFIG_FILE
  1593. if os.path.exists(filepath):
  1594. success = address_config.load_config(filepath)
  1595. if success:
  1596. devices = address_config.get_stored_devices()
  1597. logger.info(f"已加载 {len(devices)} 个设备配置")
  1598. return devices
  1599. except Exception as e:
  1600. logger.error(f"加载设备配置失败: {str(e)}")
  1601. return {}
  1602. def _merge_panel_config(new_config):
  1603. """合并面板配置:叠加新发现的在线设备,并保留已标记为离线的面板
  1604. 离线设备保留在 panel_config 中(status='offline'),UI 可显示离线状态,
  1605. 轮询循环会跳过它们不再发查询;广播发现仍会定期尝试重新上线。
  1606. """
  1607. global panel_config
  1608. merged = dict(new_config)
  1609. for panel_id, cfg in panel_config.items():
  1610. if cfg.get('status') == 'offline' and panel_id not in merged:
  1611. merged[panel_id] = cfg
  1612. panel_config = merged
  1613. return merged
  1614. def sync_panel_config():
  1615. """根据 address_config.stored_devices 同步 panel_config"""
  1616. global panel_config
  1617. try:
  1618. devices = address_config.get_stored_devices()
  1619. panel_id_map = dtu_config.get('panel_id_mapping', {}) or {}
  1620. new_config = {}
  1621. for uid_hex, addr in devices.items():
  1622. custom_id = panel_id_map.get(uid_hex) or panel_id_map.get(addr)
  1623. if custom_id:
  1624. panel_id = str(custom_id)
  1625. else:
  1626. panel_id = f"PANEL_{dtu_config.get('dtu_id', 'DTU001')}_{addr}"
  1627. new_config[panel_id] = {
  1628. 'address': addr,
  1629. 'position': addr,
  1630. 'panel_uid': uid_hex,
  1631. 'status': 'online'
  1632. }
  1633. _merge_panel_config(new_config)
  1634. logger.info(f"已同步面板配置: {len(panel_config)} 个面板")
  1635. except Exception as e:
  1636. logger.error(f"同步面板配置失败: {str(e)}")
  1637. def sync_panel_config_from_results(results):
  1638. """根据本次自动配置结果同步 panel_config,只把真实发现/分配到的设备加入轮询"""
  1639. global panel_config
  1640. try:
  1641. panel_id_map = dtu_config.get('panel_id_mapping', {}) or {}
  1642. new_config = {}
  1643. for r in results:
  1644. if r.get('status') != 'assigned':
  1645. continue
  1646. uid_hex = r.get('uid')
  1647. addr = r.get('address')
  1648. if not uid_hex or not addr:
  1649. continue
  1650. custom_id = panel_id_map.get(uid_hex) or panel_id_map.get(addr)
  1651. if custom_id:
  1652. panel_id = str(custom_id)
  1653. else:
  1654. panel_id = f"PANEL_{dtu_config.get('dtu_id', 'DTU001')}_{addr}"
  1655. new_config[panel_id] = {
  1656. 'address': addr,
  1657. 'position': addr,
  1658. 'panel_uid': uid_hex,
  1659. 'status': 'online'
  1660. }
  1661. _merge_panel_config(new_config)
  1662. logger.info(f"已同步面板配置(发现模式): {len(panel_config)} 个面板")
  1663. except Exception as e:
  1664. logger.error(f"同步面板配置失败: {str(e)}")
  1665. def check_assigned_devices_online(stored_devices, retries=3, timeout=0.5):
  1666. """对已有地址的设备发读卡查询指令确认是否在线
  1667. 已分配地址的从机不会回复广播,必须通过 03 查询指令确认。
  1668. 连续 retries 次无响应视为离线。
  1669. 返回: [{'status': 'assigned', 'uid': uid_hex, 'address': addr}, ...]
  1670. """
  1671. confirmed = []
  1672. for idx, (uid_hex, addr) in enumerate(stored_devices.items()):
  1673. # 不同地址之间也留一点间隔,避免总线冲突
  1674. if idx > 0:
  1675. time.sleep(0.1)
  1676. ok = False
  1677. for attempt in range(retries):
  1678. try:
  1679. resp = modbus_client.read_antenna_card(addr, 1, timeout=timeout)
  1680. if 'error' not in resp:
  1681. logger.info(f"地址 {addr} 查询有响应(第{attempt + 1}次),加入轮询")
  1682. confirmed.append({'status': 'assigned', 'uid': uid_hex, 'address': addr})
  1683. ok = True
  1684. break
  1685. logger.debug(f"地址 {addr} 第{attempt + 1}次查询无响应")
  1686. except Exception as e:
  1687. logger.debug(f"地址 {addr} 第{attempt + 1}次查询异常: {e}")
  1688. # 从机可能需要一点时间切换收发态,重试间隔不要太短
  1689. time.sleep(0.1)
  1690. if not ok:
  1691. logger.info(f"地址 {addr} 连续{retries}次查询无响应,视为离线")
  1692. return confirmed
  1693. # 上一次执行发现同步的时间,用于去抖
  1694. _last_discovery_sync_time = 0
  1695. def run_discovery_sync(min_interval=10):
  1696. """执行一次完整的设备发现并同步 panel_config
  1697. 包括:广播发现新设备 + 对已分配地址发查询指令确认在线。
  1698. min_interval 为两次发现之间的最小间隔(秒),防止重复触发。
  1699. """
  1700. global panel_config, _last_discovery_sync_time
  1701. try:
  1702. now = time.time()
  1703. if now - _last_discovery_sync_time < min_interval:
  1704. logger.debug(f"发现同步间隔不足 {min_interval} 秒,跳过")
  1705. return
  1706. _last_discovery_sync_time = now
  1707. _st = serial_client.get_status()
  1708. if not (isinstance(_st, dict) and _st.get('connected', False)):
  1709. logger.debug("串口未连接,跳过发现同步")
  1710. return
  1711. if not dtu_config.get('enabled'):
  1712. logger.debug("DTU 未启用,跳过发现同步")
  1713. return
  1714. logger.info("执行设备发现与地址同步...")
  1715. # 1. 先查询地址表中已有地址是否在线(已分配地址的设备不回复广播)
  1716. stored_devices = address_config.get_stored_devices()
  1717. # 已分配地址的设备不回复广播,无法靠广播重新发现;
  1718. # 因此把当前已标记离线的面板(已知地址)也纳入按地址复查,
  1719. # 使其恢复后能在发现周期内重新上线(即使 device_config 未持久化)。
  1720. for pid, cfg in panel_config.items():
  1721. if cfg.get('status') == 'offline':
  1722. uid = cfg.get('panel_uid', '') or ''
  1723. addr = cfg.get('address')
  1724. if uid and addr and uid not in stored_devices:
  1725. stored_devices[uid] = addr
  1726. confirmed = check_assigned_devices_online(stored_devices, retries=3, timeout=0.5)
  1727. # 2. 再广播发现未配置地址的新设备并分配地址
  1728. time.sleep(0.2)
  1729. result = address_config.auto_configure(timeout=2.0)
  1730. discovered = result.get('discovered', 0)
  1731. assigned = result.get('assigned', 0)
  1732. if discovered > 0 or assigned > 0:
  1733. logger.info(f"广播发现: discovered={discovered}, assigned={assigned}")
  1734. save_device_config()
  1735. # 3. 合并已有在线设备和广播新分配设备,去重
  1736. combined = confirmed + result.get('results', [])
  1737. seen_uids = set()
  1738. unique_results = []
  1739. for r in combined:
  1740. uid = r.get('uid')
  1741. if uid and uid not in seen_uids:
  1742. seen_uids.add(uid)
  1743. unique_results.append(r)
  1744. if unique_results:
  1745. logger.info(f"在线设备同步: 广播结果={discovered}, 已分配在线={len(confirmed)}, 合计={len(unique_results)}")
  1746. sync_panel_config_from_results(unique_results)
  1747. else:
  1748. _merge_panel_config({})
  1749. panel_fail_count.clear()
  1750. port_state.clear()
  1751. logger.info("未发现任何在线设备,已清空轮询列表(保留离线面板)")
  1752. # 更新最近在线时间
  1753. for r in unique_results:
  1754. if r.get('status') == 'assigned':
  1755. uid = r.get('uid')
  1756. if uid:
  1757. device_last_seen[uid] = now
  1758. except Exception as e:
  1759. logger.error(f"设备发现同步失败: {e}")
  1760. def confirm_loop():
  1761. """后台确认线程:每10秒对所有已存储设备发送 confirm_address"""
  1762. global confirm_loop_running
  1763. confirm_loop_running = True
  1764. logger.info("启动设备确认线程 (间隔10秒)")
  1765. while confirm_loop_running:
  1766. try:
  1767. devices = address_config.get_stored_devices()
  1768. if not devices:
  1769. time.sleep(10)
  1770. continue
  1771. if not serial_client.get_status():
  1772. time.sleep(10)
  1773. continue
  1774. _st = serial_client.get_status()
  1775. if not (isinstance(_st, dict) and _st.get('connected', False)):
  1776. time.sleep(10)
  1777. continue
  1778. for uid_hex, addr in devices.items():
  1779. try:
  1780. uid_bytes = bytes.fromhex(uid_hex)
  1781. cmd = build_confirm_address(addr, uid_bytes)
  1782. success, msg = serial_client.send_raw(cmd)
  1783. if success:
  1784. logger.debug(f"确认设备: 地址={addr}, UID={uid_hex[:16]}...")
  1785. else:
  1786. logger.warning(f"确认失败 地址={addr}: {msg}")
  1787. except Exception as e:
  1788. logger.error(f"确认异常 地址={addr}: {str(e)}")
  1789. time.sleep(0.1)
  1790. except Exception as e:
  1791. logger.error(f"确认线程异常: {str(e)}")
  1792. time.sleep(10)
  1793. # API路由
  1794. # 移除静态文件服务,前端由nginx提供服务
  1795. # 根路径路由
  1796. @app.route('/')
  1797. def index():
  1798. return send_from_directory(STATIC_FOLDER, 'index.html')
  1799. # 404错误处理器 - 解决SPA路由刷新问题
  1800. @app.errorhandler(404)
  1801. def page_not_found(e):
  1802. """处理所有404错误,对于非API路径返回index.html"""
  1803. path = request.path
  1804. # 检查是否是API请求
  1805. if path.startswith('/api/'):
  1806. # 对于API请求,返回404错误
  1807. return jsonify({
  1808. 'success': False,
  1809. 'message': 'API endpoint not found'
  1810. }), 404
  1811. # 对于所有非API路径,返回index.html让前端路由处理
  1812. return send_from_directory(STATIC_FOLDER, 'index.html'), 200
  1813. @app.route('/api/serial/ports', methods=['GET'])
  1814. def get_serial_ports():
  1815. """获取可用串口列表"""
  1816. ports = serial_client.list_ports()
  1817. return jsonify({
  1818. 'success': True,
  1819. 'ports': ports
  1820. })
  1821. @app.route('/api/serial/connect', methods=['POST'])
  1822. def serial_connect():
  1823. """连接串口"""
  1824. try:
  1825. data = request.json
  1826. port = data.get('port')
  1827. baudrate = data.get('baudrate', 9600)
  1828. bytesize = data.get('bytesize', 8)
  1829. parity = data.get('parity', 'N')
  1830. stopbits = data.get('stopbits', 1)
  1831. timeout = data.get('timeout', 0.1)
  1832. if not port:
  1833. logger.warning("连接串口请求缺少串口名称")
  1834. return jsonify({
  1835. 'success': False,
  1836. 'message': '串口名称不能为空',
  1837. 'error_code': ERROR_CODES['CONFIG_ERROR']
  1838. }), 400
  1839. # 先断开之前的连接
  1840. _status = serial_client.get_status()
  1841. if isinstance(_status, dict) and _status.get('connected', False):
  1842. _port = serial_client.current_config.port if serial_client.current_config else 'unknown'
  1843. logger.info(f"断开现有串口连接: {_port}")
  1844. serial_client.disconnect()
  1845. # 连接新的串口
  1846. logger.info(f"尝试连接串口: {port}, 波特率: {baudrate}")
  1847. success, message = serial_client.connect(port, baudrate=baudrate, timeout=timeout, bytesize=bytesize, parity=parity, stopbits=stopbits)
  1848. status_code = 200 if success else 400
  1849. error_code = ERROR_CODES['SUCCESS'] if success else ERROR_CODES['SERIAL_CONNECTION_ERROR']
  1850. response = {
  1851. 'success': success,
  1852. 'message': message,
  1853. 'error_code': error_code
  1854. }
  1855. if success:
  1856. logger.info(f"串口连接成功: {port}")
  1857. # 保存串口配置
  1858. save_serial_config(port, baudrate, timeout, bytesize, parity, stopbits)
  1859. else:
  1860. logger.error(f"串口连接失败: {message}")
  1861. return jsonify(response), status_code
  1862. except Exception as e:
  1863. error_msg = f'连接串口时出错: {str(e)}'
  1864. logger.exception(error_msg) # 使用exception记录完整堆栈
  1865. return jsonify({
  1866. 'success': False,
  1867. 'message': error_msg,
  1868. 'error_code': ERROR_CODES['UNKNOWN_ERROR']
  1869. }), 500
  1870. @app.route('/api/serial/disconnect', methods=['POST'])
  1871. def serial_disconnect():
  1872. """断开串口连接"""
  1873. success, message = serial_client.disconnect()
  1874. return jsonify({
  1875. 'success': success,
  1876. 'message': message
  1877. })
  1878. @app.route('/api/serial/status', methods=['GET'])
  1879. def serial_get_status():
  1880. """获取串口状态"""
  1881. _st = serial_client.get_status()
  1882. saved_config = {}
  1883. try:
  1884. with open(SERIAL_CONFIG_FILE, 'r') as f:
  1885. saved_config = json.load(f)
  1886. except (FileNotFoundError, json.JSONDecodeError):
  1887. pass
  1888. result = {'saved_config': saved_config}
  1889. if isinstance(_st, dict):
  1890. result['connected'] = _st.get('connected', False)
  1891. if result['connected']:
  1892. cfg = _st.get('config')
  1893. result['port'] = cfg.port if cfg else None
  1894. else:
  1895. result['port'] = None
  1896. else:
  1897. result['connected'] = bool(_st)
  1898. result['port'] = None
  1899. return jsonify(result)
  1900. @app.route('/api/serial/send', methods=['POST'])
  1901. def serial_send():
  1902. """发送数据到串口"""
  1903. data = request.json
  1904. message = data.get('message')
  1905. if not message:
  1906. return jsonify({
  1907. 'success': False,
  1908. 'message': '消息内容不能为空'
  1909. })
  1910. success, message = serial_client.send_data(message)
  1911. return jsonify({
  1912. 'success': success,
  1913. 'message': message
  1914. })
  1915. @app.route('/api/mqtt/connect', methods=['POST'])
  1916. def mqtt_connect():
  1917. """连接MQTT服务器"""
  1918. try:
  1919. data = request.json
  1920. host = data.get('broker') or data.get('host', 'localhost')
  1921. port = data.get('port', 1883)
  1922. client_id = data.get('client_id', f'serial_gateway_{int(time.time())}')
  1923. username = data.get('username')
  1924. password = data.get('password')
  1925. keepalive = data.get('keepalive', 60)
  1926. # 先断开之前的连接
  1927. if mqtt_client.get_status():
  1928. logger.info(f"断开现有MQTT连接: {mqtt_client.host}:{mqtt_client.port}")
  1929. mqtt_client.disconnect()
  1930. # 连接新的MQTT服务器
  1931. logger.info(f"尝试连接MQTT服务器: {host}:{port}, 客户端ID: {client_id}")
  1932. will_topic = build_dtu_topic(dtu_config['customer_id'], 'dtu', dtu_config['dtu_id'], 'status')
  1933. will_payload = json.dumps({
  1934. 'dtu_id': dtu_config['dtu_id'], 'type': 'STATUS',
  1935. 'payload': {'online': False, 'reason': 'CONNECTION_LOST'}
  1936. })
  1937. success, message = mqtt_client.connect(
  1938. host=host, port=port, client_id=client_id,
  1939. username=username, password=password,
  1940. keepalive=keepalive,
  1941. will_topic=will_topic, will_payload=will_payload, will_qos=1, will_retain=False
  1942. )
  1943. # 如果连接成功,订阅主题
  1944. if success and 'topics' in data:
  1945. mqtt_client.subscribe(data['topics'])
  1946. status_code = 200 if success else 400
  1947. error_code = ERROR_CODES['SUCCESS'] if success else ERROR_CODES['MQTT_CONNECTION_ERROR']
  1948. response = {
  1949. 'success': success,
  1950. 'message': message,
  1951. 'error_code': error_code
  1952. }
  1953. if success:
  1954. logger.info(f"MQTT服务器连接成功: {host}:{port}")
  1955. else:
  1956. logger.error(f"MQTT服务器连接失败: {message}")
  1957. return jsonify(response), status_code
  1958. except Exception as e:
  1959. error_msg = f'连接MQTT服务器时出错: {str(e)}'
  1960. logger.exception(error_msg)
  1961. return jsonify({
  1962. 'success': False,
  1963. 'message': error_msg,
  1964. 'error_code': ERROR_CODES['UNKNOWN_ERROR']
  1965. }), 500
  1966. @app.route('/api/mqtt/disconnect', methods=['POST'])
  1967. def mqtt_disconnect():
  1968. """断开MQTT连接"""
  1969. success, message = mqtt_client.disconnect()
  1970. return jsonify({
  1971. 'success': success,
  1972. 'message': message
  1973. })
  1974. @app.route('/api/mqtt/status', methods=['GET'])
  1975. def mqtt_get_status():
  1976. """获取MQTT状态"""
  1977. _st = mqtt_client.get_status()
  1978. return jsonify({
  1979. 'connected': _st.get('connected', False) if isinstance(_st, dict) else bool(_st)
  1980. })
  1981. @app.route('/api/mqtt/publish', methods=['POST'])
  1982. def mqtt_publish():
  1983. """发布MQTT消息"""
  1984. data = request.json
  1985. topic = data.get('topic')
  1986. message = data.get('message')
  1987. if not topic or not message:
  1988. return jsonify({
  1989. 'success': False,
  1990. 'message': '主题和消息内容不能为空'
  1991. })
  1992. success, message = mqtt_client.publish(topic, message)
  1993. return jsonify({
  1994. 'success': success,
  1995. 'message': message
  1996. })
  1997. @app.route('/api/mqtt/subscribe', methods=['POST'])
  1998. def mqtt_subscribe():
  1999. """订阅MQTT主题"""
  2000. data = request.json
  2001. topics = data.get('topics', [])
  2002. if not topics:
  2003. return jsonify({
  2004. 'success': False,
  2005. 'message': '请至少订阅一个主题'
  2006. })
  2007. success, message = mqtt_client.subscribe(topics)
  2008. return jsonify({
  2009. 'success': success,
  2010. 'message': message
  2011. })
  2012. @app.route('/api/mqtt/broadcast_discover', methods=['POST'])
  2013. def mqtt_broadcast_discover():
  2014. """发送DTU发现广播 (7.14)
  2015. 服务器通过广播主题发送DISCOVER消息,
  2016. 触发所有在线DTU进行注册响应
  2017. """
  2018. data = request.json or {}
  2019. customer_id = data.get('customer_id', dtu_config.get('customer_id', 'default'))
  2020. discover_topic = build_dtu_topic('broadcast', 'dtu', 'discover')
  2021. request_id = f"dsc_{int(time.time() * 1000)}"
  2022. payload = {
  2023. 'msg_id': request_id,
  2024. 'timestamp': int(time.time() * 1000),
  2025. 'dtu_id': 'PLATFORM',
  2026. 'type': 'DISCOVER',
  2027. 'payload': {
  2028. 'request_id': request_id,
  2029. 'customer_id': customer_id
  2030. }
  2031. }
  2032. success, message = mqtt_client.publish(discover_topic, json.dumps(payload), qos=1)
  2033. logger.info(f"发送DTU发现广播: topic={discover_topic}, payload={payload}")
  2034. return jsonify({
  2035. 'success': success,
  2036. 'message': 'DTU发现广播已发送' if success else message,
  2037. 'topic': discover_topic
  2038. })
  2039. @app.route('/api/mqtt/broadcast_config', methods=['POST'])
  2040. def mqtt_broadcast_config():
  2041. """发送DTU批量配置广播 (7.15)
  2042. 服务器通过广播主题发送CONFIG消息,
  2043. 用于批量配置所有在线DTU
  2044. """
  2045. data = request.json or {}
  2046. customer_id = data.get('customer_id', dtu_config.get('customer_id', 'default'))
  2047. config_items = data.get('items', {})
  2048. config_version = data.get('config_version', f"cfg_{int(time.time())}")
  2049. force_apply = data.get('force_apply', False)
  2050. config_topic = build_dtu_topic('broadcast', 'dtu', 'config')
  2051. payload = {
  2052. 'msg_id': f"cfg_{int(time.time() * 1000)}",
  2053. 'timestamp': int(time.time() * 1000),
  2054. 'dtu_id': 'PLATFORM',
  2055. 'type': 'CONFIG',
  2056. 'payload': {
  2057. 'customer_id': customer_id,
  2058. 'config_version': config_version,
  2059. 'force_apply': force_apply,
  2060. 'items': config_items
  2061. }
  2062. }
  2063. success, message = mqtt_client.publish(config_topic, json.dumps(payload), qos=1)
  2064. logger.info(f"发送DTU批量配置广播: topic={config_topic}, payload={payload}")
  2065. return jsonify({
  2066. 'success': success,
  2067. 'message': 'DTU批量配置广播已发送' if success else message,
  2068. 'topic': config_topic,
  2069. 'config': {
  2070. 'config_version': config_version,
  2071. 'items': config_items,
  2072. 'force_apply': force_apply
  2073. }
  2074. })
  2075. @app.route('/api/data/serial', methods=['GET'])
  2076. def get_serial_data():
  2077. """获取串口数据"""
  2078. return jsonify({
  2079. 'data': serial_data_buffer
  2080. })
  2081. @app.route('/api/data/mqtt', methods=['GET'])
  2082. def get_mqtt_data():
  2083. """获取MQTT数据"""
  2084. return jsonify({
  2085. 'data': mqtt_data_buffer
  2086. })
  2087. @app.route('/api/forward/config', methods=['POST'])
  2088. def set_forward_config():
  2089. """设置转发配置"""
  2090. global forward_serial_to_mqtt, forward_mqtt_to_serial, mqtt_publish_topic
  2091. data = request.json
  2092. forward_serial_to_mqtt = data.get('serial_to_mqtt', False)
  2093. forward_mqtt_to_serial = data.get('mqtt_to_serial', False)
  2094. if 'publish_topic' in data:
  2095. mqtt_publish_topic = data['publish_topic']
  2096. return jsonify({
  2097. 'success': True,
  2098. 'message': '转发配置已更新',
  2099. 'config': {
  2100. 'serial_to_mqtt': forward_serial_to_mqtt,
  2101. 'mqtt_to_serial': forward_mqtt_to_serial,
  2102. 'publish_topic': mqtt_publish_topic
  2103. }
  2104. })
  2105. @app.route('/api/forward/status', methods=['GET'])
  2106. def get_forward_status():
  2107. """获取转发状态"""
  2108. return jsonify({
  2109. 'serial_to_mqtt': forward_serial_to_mqtt,
  2110. 'mqtt_to_serial': forward_mqtt_to_serial,
  2111. 'publish_topic': mqtt_publish_topic
  2112. })
  2113. # 健康检查端点
  2114. @app.route('/api/health', methods=['GET'])
  2115. def health_check():
  2116. """健康检查端点"""
  2117. try:
  2118. # 获取客户端连接数量
  2119. client_counts = {
  2120. 'data': len(connected_clients['data']),
  2121. 'status': len(connected_clients['status']),
  2122. 'control': len(connected_clients['control'])
  2123. }
  2124. # 获取缓冲区大小
  2125. buffer_sizes = {
  2126. 'serial': len(serial_data_buffer),
  2127. 'mqtt': len(mqtt_data_buffer)
  2128. }
  2129. # 执行系统负载检查
  2130. # 注意:这只是一个简化的负载检查,实际应用中可能需要更复杂的监控
  2131. is_healthy = True
  2132. load_warnings = []
  2133. # 检查缓冲区是否过大
  2134. if buffer_sizes['serial'] > MAX_BUFFER_SIZE * 0.8:
  2135. is_healthy = False
  2136. load_warnings.append(f"串口缓冲区接近最大容量: {buffer_sizes['serial']}/{MAX_BUFFER_SIZE}")
  2137. if buffer_sizes['mqtt'] > MAX_BUFFER_SIZE * 0.8:
  2138. is_healthy = False
  2139. load_warnings.append(f"MQTT缓冲区接近最大容量: {buffer_sizes['mqtt']}/{MAX_BUFFER_SIZE}")
  2140. # 检查WebSocket连接数是否过多
  2141. total_clients = sum(client_counts.values())
  2142. if total_clients > 100: # 设置合理的阈值
  2143. is_healthy = False
  2144. load_warnings.append(f"WebSocket连接数过多: {total_clients}")
  2145. # 尝试获取网络状态信息(使用try-except包装,防止网络模块出错导致健康检查失败)
  2146. network_info = None
  2147. try:
  2148. network_info = network_manager.get_network_status()
  2149. except Exception as e:
  2150. logger.warning(f"获取网络状态时出错: {str(e)}")
  2151. # 不影响整体健康检查,只添加警告
  2152. load_warnings.append(f"网络状态获取失败: {str(e)}")
  2153. response = {
  2154. 'status': 'healthy' if is_healthy else 'warning',
  2155. 'timestamp': time.strftime('%Y-%m-%d %H:%M:%S'),
  2156. 'services': {
  2157. 'serial': serial_status,
  2158. 'mqtt': mqtt_status,
  2159. 'websocket': True
  2160. },
  2161. 'client_counts': client_counts,
  2162. 'buffer_sizes': buffer_sizes,
  2163. 'warnings': load_warnings
  2164. }
  2165. # 仅当获取到网络信息时添加
  2166. if network_info:
  2167. response['network'] = network_info
  2168. return jsonify(response), 200
  2169. except Exception as e:
  2170. # 捕获所有异常,确保健康检查不会返回500错误
  2171. logger.error(f"健康检查端点出错: {str(e)}")
  2172. # 返回一个基础的健康状态,至少显示服务在运行
  2173. return jsonify({
  2174. 'status': 'error',
  2175. 'timestamp': time.strftime('%Y-%m-%d %H:%M:%S'),
  2176. 'error': str(e),
  2177. 'services': {
  2178. 'api': True, # API服务本身是运行的
  2179. 'serial': None,
  2180. 'mqtt': None,
  2181. 'websocket': None
  2182. }
  2183. }), 200 # 仍然返回200,避免健康检查导致的连锁反应
  2184. @app.route('/api/screen/status', methods=['GET'])
  2185. def get_screen_status():
  2186. """获取 Nextion 屏幕状态。"""
  2187. with screen_lock:
  2188. panels = get_sorted_panels()
  2189. current_index = screen_current_panel_index
  2190. current_panel_id = None
  2191. if panels and 0 <= current_index < len(panels):
  2192. current_panel_id = panels[current_index][0]
  2193. panel_count = len(panels)
  2194. status = screen_display.get_status()
  2195. return jsonify({
  2196. 'success': True,
  2197. 'data': {
  2198. 'connected': status.get('connected', False),
  2199. 'port': status.get('port'),
  2200. 'baudrate': status.get('baudrate'),
  2201. 'current_panel_index': current_index,
  2202. 'current_panel_id': current_panel_id,
  2203. 'panel_count': panel_count
  2204. }
  2205. })
  2206. @app.route('/api/screen/refresh', methods=['POST'])
  2207. def refresh_screen():
  2208. """手动刷新当前 panel 到屏幕。"""
  2209. with screen_lock:
  2210. panels = get_sorted_panels()
  2211. if not panels:
  2212. return jsonify({'success': False, 'message': '没有可用的 panel'}), 400
  2213. if not (0 <= screen_current_panel_index < len(panels)):
  2214. return jsonify({'success': False, 'message': '当前 panel 索引无效'}), 400
  2215. panel_id = panels[screen_current_panel_index][0]
  2216. success, message = refresh_screen_panel(panel_id)
  2217. if success:
  2218. return jsonify({'success': True, 'message': message})
  2219. return jsonify({'success': False, 'message': message}), 400
  2220. @app.route('/api/screen/test_cmd', methods=['POST'])
  2221. def screen_test_cmd():
  2222. """向 Nextion 屏幕发送原始命令(调试用)。"""
  2223. try:
  2224. data = request.json
  2225. cmd = data.get('cmd')
  2226. if not cmd:
  2227. return jsonify({'success': False, 'message': '缺少 cmd 参数'}), 400
  2228. status = screen_display.get_status()
  2229. if not status.get('connected'):
  2230. return jsonify({'success': False, 'message': '屏幕串口未连接'}), 400
  2231. ok = screen_display.send_cmd(cmd, delay_ms=data.get('delay_ms', 50))
  2232. logger.info(f"[Nextion TEST] cmd={cmd} ok={ok}")
  2233. return jsonify({'success': ok, 'cmd': cmd, 'screen_connected': True})
  2234. except Exception as e:
  2235. logger.error(f"屏幕测试命令失败: {e}")
  2236. return jsonify({'success': False, 'message': str(e)}), 500
  2237. # 网络配置相关API
  2238. @app.route('/api/network/config', methods=['GET'])
  2239. def get_network_config():
  2240. """获取当前网络配置"""
  2241. try:
  2242. config = network_manager.get_network_config()
  2243. return jsonify(config)
  2244. except Exception as e:
  2245. logger.error(f'获取网络配置失败: {str(e)}')
  2246. return jsonify({'success': False, 'message': f'获取网络配置失败: {str(e)}'}), 500
  2247. @app.route('/api/network/config', methods=['POST'])
  2248. def update_network_config():
  2249. """更新网络配置"""
  2250. try:
  2251. config_data = request.json
  2252. result = network_manager.update_network_config(config_data)
  2253. if result['success']:
  2254. return jsonify(result)
  2255. else:
  2256. return jsonify(result), 400
  2257. except Exception as e:
  2258. logger.error(f'更新网络配置失败: {str(e)}')
  2259. return jsonify({'success': False, 'message': f'更新网络配置失败: {str(e)}'}), 500
  2260. @app.route('/api/network/status', methods=['GET'])
  2261. def get_network_status():
  2262. """获取网络状态信息"""
  2263. try:
  2264. status = network_manager.get_network_status()
  2265. return jsonify(status)
  2266. except Exception as e:
  2267. logger.error(f'获取网络状态失败: {str(e)}')
  2268. return jsonify({'success': False, 'message': f'获取网络状态失败: {str(e)}'}), 500
  2269. @app.route('/api/network/restart', methods=['POST'])
  2270. def restart_network_service():
  2271. """重启网络服务以应用新配置"""
  2272. try:
  2273. result = network_manager.restart_network_service()
  2274. if result['success']:
  2275. return jsonify(result)
  2276. else:
  2277. return jsonify(result), 500
  2278. except Exception as e:
  2279. logger.error(f'重启网络服务失败: {str(e)}')
  2280. return jsonify({'success': False, 'message': f'重启网络服务失败: {str(e)}'}), 500
  2281. # Modbus RTU API
  2282. @app.route('/api/modbus/antenna_addresses', methods=['GET'])
  2283. def get_antenna_addresses():
  2284. """获取天线地址映射表"""
  2285. return jsonify({
  2286. 'success': True,
  2287. 'antennas': {str(k): f"0x{v:04x}" for k, v in ANTENNA_ADDRESSES.items()}
  2288. })
  2289. @app.route('/api/modbus/read_antenna', methods=['POST'])
  2290. def modbus_read_antenna():
  2291. """读取指定天线的卡号
  2292. 请求参数:
  2293. {
  2294. "device_address": 1, // 设备地址 (1-247)
  2295. "antenna": 1, // 天线编号 (1-24)
  2296. "timeout": 1.0 // 可选,超时时间(秒)
  2297. }
  2298. """
  2299. try:
  2300. data = request.json
  2301. device_address = data.get('device_address', 1)
  2302. antenna = data.get('antenna', 1)
  2303. timeout = data.get('timeout')
  2304. if antenna < 1 or antenna > 24:
  2305. return jsonify({
  2306. 'success': False,
  2307. 'message': f'无效的天线编号: {antenna}, 必须是1-24'
  2308. }), 400
  2309. if not (isinstance(serial_client.get_status(), dict) and serial_client.get_status().get("connected", False)):
  2310. return jsonify({
  2311. 'success': False,
  2312. 'message': '串口未连接'
  2313. }), 400
  2314. result = modbus_client.read_antenna_card(
  2315. device_address=device_address,
  2316. antenna_num=antenna,
  2317. timeout=timeout
  2318. )
  2319. if 'error' in result:
  2320. return jsonify({
  2321. 'success': False,
  2322. 'message': result['error'],
  2323. 'raw_data': result.get('raw_data', '')
  2324. }), 400
  2325. return jsonify({
  2326. 'success': True,
  2327. 'data': result
  2328. })
  2329. except Exception as e:
  2330. logger.error(f'读取天线数据失败: {str(e)}')
  2331. return jsonify({
  2332. 'success': False,
  2333. 'message': str(e)
  2334. }), 500
  2335. @app.route('/api/modbus/read_registers', methods=['POST'])
  2336. def modbus_read_registers():
  2337. """读取保持寄存器
  2338. 请求参数:
  2339. {
  2340. "device_address": 1,
  2341. "start_address": 2, // 起始地址 (十六进制如0x0002或十进制如2)
  2342. "quantity": 4, // 寄存器数量
  2343. "timeout": 1.0
  2344. }
  2345. """
  2346. try:
  2347. data = request.json
  2348. device_address = data.get('device_address', 1)
  2349. start_address = data.get('start_address', 0)
  2350. quantity = data.get('quantity', 1)
  2351. timeout = data.get('timeout')
  2352. # 支持十六进制字符串
  2353. if isinstance(start_address, str):
  2354. start_address = int(start_address, 16)
  2355. if isinstance(device_address, str):
  2356. device_address = int(device_address, 16)
  2357. if not (isinstance(serial_client.get_status(), dict) and serial_client.get_status().get("connected", False)):
  2358. return jsonify({
  2359. 'success': False,
  2360. 'message': '串口未连接'
  2361. }), 400
  2362. result = modbus_client.read_holding_registers(
  2363. device_address=device_address,
  2364. start_address=start_address,
  2365. quantity=quantity,
  2366. timeout=timeout
  2367. )
  2368. if 'error' in result:
  2369. return jsonify({
  2370. 'success': False,
  2371. 'message': result['error'],
  2372. 'raw_data': result.get('raw_data', '')
  2373. }), 400
  2374. return jsonify({
  2375. 'success': True,
  2376. 'data': result
  2377. })
  2378. except Exception as e:
  2379. logger.error(f'读取寄存器失败: {str(e)}')
  2380. return jsonify({
  2381. 'success': False,
  2382. 'message': str(e)
  2383. }), 500
  2384. @app.route('/api/modbus/write_register', methods=['POST'])
  2385. def modbus_write_register():
  2386. """写单个寄存器
  2387. 请求参数:
  2388. {
  2389. "device_address": 1,
  2390. "register_address": 1, // 寄存器地址
  2391. "value": 256, // 写入的值
  2392. "timeout": 1.0
  2393. }
  2394. """
  2395. try:
  2396. data = request.json
  2397. device_address = data.get('device_address', 1)
  2398. register_address = data.get('register_address', 1)
  2399. value = data.get('value', 0)
  2400. timeout = data.get('timeout')
  2401. if not (isinstance(serial_client.get_status(), dict) and serial_client.get_status().get("connected", False)):
  2402. return jsonify({
  2403. 'success': False,
  2404. 'message':'串口未连接'
  2405. }), 400
  2406. result = modbus_client.write_single_register(
  2407. device_address=device_address,
  2408. register_address=register_address,
  2409. value=value,
  2410. timeout=timeout
  2411. )
  2412. if 'error' in result:
  2413. return jsonify({
  2414. 'success': False,
  2415. 'message': result['error'],
  2416. 'raw_data': result.get('raw_data', '')
  2417. }), 400
  2418. return jsonify({
  2419. 'success': True,
  2420. 'data': result
  2421. })
  2422. except Exception as e:
  2423. logger.error(f'写寄存器失败: {str(e)}')
  2424. return jsonify({
  2425. 'success': False,
  2426. 'message': str(e)
  2427. }), 500
  2428. @app.route('/api/modbus/set_rgb_led', methods=['POST'])
  2429. def modbus_set_rgb_led():
  2430. """设置RGB灯状态
  2431. 请求参数:
  2432. {
  2433. "device_address": 1,
  2434. "led_number": 1, // 灯编号 (1-24)
  2435. "color": 1, // 颜色: 0=灭, 1=红灯, 2=绿灯, 3=蓝灯
  2436. "timeout": 1.0
  2437. }
  2438. """
  2439. try:
  2440. data = request.json
  2441. device_address = data.get('device_address', 1)
  2442. led_number = data.get('led_number', 1)
  2443. color = data.get('color', 0)
  2444. timeout = data.get('timeout')
  2445. if not (isinstance(serial_client.get_status(), dict) and serial_client.get_status().get("connected", False)):
  2446. return jsonify({
  2447. 'success': False,
  2448. 'message': '串口未连接'
  2449. }), 400
  2450. result = modbus_client.set_rgb_led(
  2451. device_address=device_address,
  2452. led_number=led_number,
  2453. color=color,
  2454. timeout=timeout
  2455. )
  2456. if 'error' in result:
  2457. return jsonify({
  2458. 'success': False,
  2459. 'message': result['error'],
  2460. 'raw_data': result.get('raw_data', '')
  2461. }), 400
  2462. # 按设备地址更新 LED 状态追踪
  2463. if device_address not in led_states:
  2464. led_states[device_address] = {}
  2465. led_states[device_address][led_number] = color
  2466. _refresh_current_screen_panel()
  2467. return jsonify({
  2468. 'success': True,
  2469. 'data': result
  2470. })
  2471. except Exception as e:
  2472. logger.error(f'设置RGB灯失败: {str(e)}')
  2473. return jsonify({
  2474. 'success': False,
  2475. 'message': str(e)
  2476. }), 500
  2477. @app.route('/api/modbus/scan', methods=['POST'])
  2478. def modbus_scan_devices():
  2479. """扫描在线设备
  2480. 请求参数:
  2481. {
  2482. "max_address": 247, // 最大设备地址
  2483. "timeout": 0.2 // 单个设备超时时间
  2484. }
  2485. """
  2486. try:
  2487. data = request.json or {}
  2488. max_address = data.get('max_address', 247)
  2489. timeout = data.get('timeout', 0.2)
  2490. if not (isinstance(serial_client.get_status(), dict) and serial_client.get_status().get("connected", False)):
  2491. return jsonify({
  2492. 'success': False,
  2493. 'message': '串口未连接'
  2494. }), 400
  2495. # 异步扫描可能更好,但这里先同步实现
  2496. result = modbus_client.scan_devices(max_address)
  2497. return jsonify({
  2498. 'success': True,
  2499. 'devices': result
  2500. })
  2501. except Exception as e:
  2502. logger.error(f'扫描设备失败: {str(e)}')
  2503. return jsonify({
  2504. 'success': False,
  2505. 'message': str(e)
  2506. }), 500
  2507. # ========== 地址配置协议 API ==========
  2508. @app.route('/api/modbus/broadcast_query', methods=['POST'])
  2509. def modbus_broadcast_query():
  2510. """发送广播查询指令"""
  2511. try:
  2512. data = request.json or {}
  2513. timeout = data.get('timeout')
  2514. if not (isinstance(serial_client.get_status(), dict) and serial_client.get_status().get("connected", False)):
  2515. return jsonify({'success': False, 'message': '串口未连接'}), 400
  2516. responses = address_config.broadcast_query(timeout)
  2517. assign_results = []
  2518. if responses:
  2519. assign_results = address_config.process_responses(responses)
  2520. save_device_config()
  2521. sync_panel_config_from_results(assign_results)
  2522. return jsonify({
  2523. 'success': True,
  2524. 'responses': responses,
  2525. 'assign_results': assign_results,
  2526. 'count': len(responses)
  2527. })
  2528. except Exception as e:
  2529. logger.error(f'广播查询失败: {str(e)}')
  2530. return jsonify({'success': False, 'message': str(e)}), 500
  2531. @app.route('/api/modbus/auto_configure', methods=['POST'])
  2532. def modbus_auto_configure():
  2533. """自动配置设备地址"""
  2534. try:
  2535. data = request.json or {}
  2536. timeout = data.get('timeout')
  2537. if not (isinstance(serial_client.get_status(), dict) and serial_client.get_status().get("connected", False)):
  2538. return jsonify({'success': False, 'message': '串口未连接'}), 400
  2539. result = address_config.auto_configure(timeout)
  2540. if result.get('success') and (result.get('discovered', 0) > 0 or result.get('assigned', 0) > 0):
  2541. save_device_config()
  2542. sync_panel_config_from_results(result.get('results', []))
  2543. return jsonify(result)
  2544. except Exception as e:
  2545. logger.error(f'自动配置失败: {str(e)}')
  2546. return jsonify({'success': False, 'message': str(e)}), 500
  2547. @app.route('/api/modbus/stored_devices', methods=['GET'])
  2548. def get_stored_devices():
  2549. """获取已存储的设备列表,并附带当前在线状态"""
  2550. devices = address_config.get_stored_devices()
  2551. now = time.time()
  2552. online_threshold = 60 # 60 秒内被轮询到视为在线
  2553. online_uids = set()
  2554. for pid, cfg in panel_config.items():
  2555. if device_last_seen.get(pid, 0) > now - online_threshold:
  2556. uid = cfg.get('panel_uid')
  2557. if uid:
  2558. online_uids.add(uid)
  2559. panels = []
  2560. for uid, addr in devices.items():
  2561. panels.append({
  2562. 'uid': uid,
  2563. 'address': addr,
  2564. 'online': uid in online_uids
  2565. })
  2566. return jsonify({
  2567. 'success': True,
  2568. 'devices': devices,
  2569. 'panels': panels
  2570. })
  2571. @app.route('/api/modbus/stored_devices', methods=['POST'])
  2572. def add_stored_device():
  2573. """添加已存储的设备"""
  2574. try:
  2575. data = request.json
  2576. uid = data.get('uid', '').lower()
  2577. address = data.get('address', 1)
  2578. if len(uid) != 24:
  2579. return jsonify({'success': False, 'message': 'UID长度必须是24个十六进制字符'}), 400
  2580. address_config.add_stored_device(uid, address)
  2581. save_device_config()
  2582. return jsonify({'success': True, 'message': f'已添加设备: UID={uid}, 地址={address}'})
  2583. except Exception as e:
  2584. return jsonify({'success': False, 'message': str(e)}), 500
  2585. @app.route('/api/modbus/load_config', methods=['POST'])
  2586. def modbus_load_config():
  2587. """从文件加载设备配置"""
  2588. try:
  2589. data = request.json
  2590. filepath = data.get('filepath', '/tmp/modbus_devices.json')
  2591. success = address_config.load_config(filepath)
  2592. return jsonify({'success': success, 'devices': address_config.get_stored_devices()})
  2593. except Exception as e:
  2594. return jsonify({'success': False, 'message': str(e)}), 500
  2595. @app.route('/api/modbus/save_config', methods=['POST'])
  2596. def modbus_save_config():
  2597. """保存设备配置到文件"""
  2598. try:
  2599. data = request.json
  2600. filepath = data.get('filepath', '/tmp/modbus_devices.json')
  2601. success = address_config.save_config(filepath)
  2602. return jsonify({'success': success, 'message': f'配置已保存到: {filepath}' if success else '保存失败'})
  2603. except Exception as e:
  2604. return jsonify({'success': False, 'message': str(e)}), 500
  2605. @app.route('/api/modbus/confirm_devices', methods=['POST'])
  2606. def confirm_devices():
  2607. """手动触发对所有已存储设备的确认"""
  2608. try:
  2609. devices = address_config.get_stored_devices()
  2610. if not devices:
  2611. return jsonify({'success': False, 'message': '没有已存储的设备'}), 400
  2612. if not (isinstance(serial_client.get_status(), dict) and serial_client.get_status().get("connected", False)):
  2613. return jsonify({'success': False, 'message': '串口未连接'}), 400
  2614. results = []
  2615. for uid_hex, addr in devices.items():
  2616. try:
  2617. uid_bytes = bytes.fromhex(uid_hex)
  2618. cmd = build_confirm_address(addr, uid_bytes)
  2619. success, msg = serial_client.send_raw(cmd)
  2620. logger.info(f"确认设备 地址={addr}: {'成功' if success else '失败 ' + msg}")
  2621. results.append({'address': addr, 'uid': uid_hex, 'success': success, 'message': msg})
  2622. except Exception as e:
  2623. results.append({'address': addr, 'uid': uid_hex, 'success': False, 'message': str(e)})
  2624. time.sleep(0.1)
  2625. return jsonify({'success': True, 'results': results, 'count': len(results)})
  2626. except Exception as e:
  2627. return jsonify({'success': False, 'message': str(e)}), 500
  2628. # 端口状态追踪 - 用于存储每个端口的事件状态
  2629. port_event_history = [] # 存储最近的端口事件
  2630. @app.route('/api/port/status', methods=['GET'])
  2631. def get_port_status():
  2632. """获取所有端口状态"""
  2633. return jsonify({'success': True, 'port_state': port_state})
  2634. @app.route('/api/port/events', methods=['GET'])
  2635. def get_port_events():
  2636. """获取端口事件历史"""
  2637. limit = request.args.get('limit', 100, type=int)
  2638. return jsonify({
  2639. 'success': True,
  2640. 'events': port_event_history[-limit:]
  2641. })
  2642. @app.route('/api/port/clear_events', methods=['POST'])
  2643. def clear_port_events():
  2644. """清除端口事件历史"""
  2645. global port_event_history
  2646. port_event_history = []
  2647. return jsonify({'success': True, 'message': '事件历史已清除'})
  2648. # 设备最后响应时间跟踪
  2649. device_last_seen = {}
  2650. @app.route('/api/panel/status', methods=['GET'])
  2651. def get_panel_status():
  2652. """获取所有面板状态,包含每个端口的连接状态"""
  2653. now = time.time()
  2654. PANEL_OFFLINE_TIMEOUT = 60
  2655. panel_status = {}
  2656. for panel_id, ports in port_state.items():
  2657. port_count = len(ports)
  2658. alarm_count = sum(1 for p in ports.values() if p.get('alarm_count', 0) > 0)
  2659. connected_count = sum(1 for p in ports.values() if p.get('last_uid'))
  2660. panel_ports = {}
  2661. for port_id, p in ports.items():
  2662. last_uid = p.get('last_uid')
  2663. expected_uid = p.get('expected_uid')
  2664. last_polled_at = p.get('last_polled_at')
  2665. if not last_polled_at:
  2666. status = 'UNKNOWN'
  2667. elif not last_uid:
  2668. status = 'DISCONNECTED'
  2669. elif expected_uid and last_uid != expected_uid:
  2670. status = 'ILLEGAL'
  2671. else:
  2672. status = 'CONNECTED'
  2673. panel_ports[port_id] = {
  2674. 'status': status,
  2675. 'jumper_uid': last_uid or None,
  2676. 'expected_uid': expected_uid or None,
  2677. 'alarm_count': p.get('alarm_count', 0)
  2678. }
  2679. panel_status[panel_id] = {
  2680. 'panel_id': panel_id,
  2681. 'port_count': port_count,
  2682. 'connected_count': connected_count,
  2683. 'alarm_count': alarm_count,
  2684. 'status': 'online' if connected_count > 0 else 'offline',
  2685. 'ports': panel_ports
  2686. }
  2687. for panel_id, cfg in panel_config.items():
  2688. last_seen = device_last_seen.get(panel_id, 0)
  2689. is_online = (now - last_seen) < PANEL_OFFLINE_TIMEOUT
  2690. if panel_id in panel_status:
  2691. panel_status[panel_id].update({
  2692. 'address': cfg.get('address'),
  2693. 'position': cfg.get('position'),
  2694. 'panel_uid': cfg.get('panel_uid'),
  2695. 'status': 'online' if is_online else 'offline'
  2696. })
  2697. else:
  2698. panel_status[panel_id] = {
  2699. 'panel_id': panel_id,
  2700. 'address': cfg.get('address'),
  2701. 'position': cfg.get('position'),
  2702. 'panel_uid': cfg.get('panel_uid'),
  2703. 'port_count': 0,
  2704. 'connected_count': 0,
  2705. 'alarm_count': 0,
  2706. 'status': 'online' if is_online else 'offline',
  2707. 'ports': {}
  2708. }
  2709. return jsonify({'success': True, 'panels': panel_status})
  2710. # LED 状态追踪 (按设备地址跟踪每个灯的最后设置状态)
  2711. # 结构: {device_address: {port_id: color}}, color: 0=off, 1=red, 2=green, 3=blue
  2712. led_states = {}
  2713. # Nextion 串口屏网口图片与 LED 颜色的映射关系
  2714. # 屏幕图片定义: 0=灰(灭), 1=蓝, 2=红, 3=绿
  2715. # 后端 LED 颜色定义: 0=灭, 1=红, 2=绿, 3=蓝
  2716. LED_COLOR_TO_PIC = {0: 0, 1: 2, 2: 3, 3: 1}
  2717. @app.route('/api/modbus/led_status', methods=['GET'])
  2718. def get_led_status():
  2719. """获取 LED 状态,支持按设备地址过滤"""
  2720. device_address = request.args.get('device_address', type=int)
  2721. if device_address is not None:
  2722. return jsonify({
  2723. 'success': True,
  2724. 'device_address': device_address,
  2725. 'leds': led_states.get(device_address, {})
  2726. })
  2727. return jsonify({'success': True, 'leds': led_states})
  2728. @app.route('/api/modbus/set_all_leds', methods=['POST'])
  2729. def set_all_leds():
  2730. """批量设置 LED
  2731. 请求: {"device_address": 1, "color": 1}
  2732. 设置所有 24 个 LED 到指定颜色
  2733. """
  2734. try:
  2735. data = request.json
  2736. device_address = data.get('device_address', 1)
  2737. color = data.get('color', 0)
  2738. timeout = data.get('timeout')
  2739. if not (isinstance(serial_client.get_status(), dict) and serial_client.get_status().get("connected", False)):
  2740. return jsonify({'success': False, 'message': '串口未连接'}), 400
  2741. results = []
  2742. if device_address not in led_states:
  2743. led_states[device_address] = {}
  2744. for led_num in range(1, 25):
  2745. result = modbus_client.set_rgb_led(
  2746. device_address=device_address,
  2747. led_number=led_num,
  2748. color=color,
  2749. timeout=timeout
  2750. )
  2751. if 'error' in result:
  2752. results.append({'led': led_num, 'success': False, 'error': result['error']})
  2753. else:
  2754. results.append({'led': led_num, 'success': True})
  2755. led_states[device_address][led_num] = color
  2756. _refresh_current_screen_panel()
  2757. return jsonify({'success': True, 'results': results})
  2758. except Exception as e:
  2759. logger.error(f'批量设置LED失败: {str(e)}')
  2760. return jsonify({'success': False, 'message': str(e)}), 500
  2761. # 在 set_rgb_led 中更新 LED 状态追踪
  2762. # 不再需要静态文件目录,前端由nginx提供服务
  2763. # ========== DTU MQTT协议配置API ==========
  2764. @app.route('/api/dtu/config', methods=['GET'])
  2765. def get_dtu_config():
  2766. """获取DTU配置"""
  2767. return jsonify({
  2768. 'success': True,
  2769. 'data': dtu_config
  2770. })
  2771. @app.route('/api/dtu/config', methods=['POST'])
  2772. def update_dtu_config():
  2773. """更新DTU配置"""
  2774. try:
  2775. data = request.json
  2776. old_config = dtu_config.copy()
  2777. # 更新配置项
  2778. if 'topic_prefix' in data:
  2779. dtu_config['topic_prefix'] = data['topic_prefix']
  2780. if 'customer_id' in data:
  2781. dtu_config['customer_id'] = data['customer_id']
  2782. if 'dtu_id' in data:
  2783. dtu_config['dtu_id'] = data['dtu_id']
  2784. if 'firmware_version' in data:
  2785. dtu_config['firmware_version'] = data['firmware_version']
  2786. if 'hardware_version' in data:
  2787. dtu_config['hardware_version'] = data['hardware_version']
  2788. if 'heartbeat_interval' in data:
  2789. dtu_config['heartbeat_interval'] = data['heartbeat_interval']
  2790. if 'enabled' in data:
  2791. dtu_config['enabled'] = data['enabled']
  2792. # 如果MQTT已连接且主题配置发生变化,重新订阅
  2793. if mqtt_status and dtu_config.get('enabled'):
  2794. old_control_topic = build_dtu_topic(
  2795. old_config.get('customer_id', DEFAULT_CUSTOMER_ID),
  2796. 'dtu',
  2797. old_config.get('dtu_id', DEFAULT_DTU_ID),
  2798. 'control'
  2799. )
  2800. new_control_topic = build_dtu_topic(
  2801. dtu_config['customer_id'],
  2802. 'dtu',
  2803. dtu_config['dtu_id'],
  2804. 'control'
  2805. )
  2806. if old_control_topic != new_control_topic:
  2807. # 取消旧订阅,订阅新主题
  2808. mqtt_client.unsubscribe(old_control_topic)
  2809. mqtt_client.subscribe(new_control_topic)
  2810. logger.info(f"控制主题已更新: {old_control_topic} -> {new_control_topic}")
  2811. # 重新发送注册消息
  2812. dtu_register()
  2813. return jsonify({
  2814. 'success': True,
  2815. 'message': 'DTU配置已更新',
  2816. 'data': dtu_config
  2817. })
  2818. except Exception as e:
  2819. logger.error(f"更新DTU配置失败: {str(e)}")
  2820. return jsonify({'success': False, 'message': str(e)}), 500
  2821. @app.route('/api/dtu/register', methods=['POST'])
  2822. def manual_dtu_register():
  2823. """手动触发DTU注册"""
  2824. try:
  2825. if not mqtt_status:
  2826. return jsonify({'success': False, 'message': 'MQTT未连接'}), 400
  2827. success = dtu_register()
  2828. if success:
  2829. return jsonify({'success': True, 'message': '注册消息已发送'})
  2830. else:
  2831. return jsonify({'success': False, 'message': '注册消息发送失败'}), 500
  2832. except Exception as e:
  2833. logger.error(f"手动触发DTU注册失败: {str(e)}")
  2834. return jsonify({'success': False, 'message': str(e)}), 500
  2835. def _get_cpu_usage():
  2836. try:
  2837. import psutil
  2838. return psutil.cpu_percent(interval=None)
  2839. except Exception:
  2840. return None
  2841. def _get_memory_usage():
  2842. try:
  2843. import psutil
  2844. return psutil.virtual_memory().percent
  2845. except Exception:
  2846. return None
  2847. @app.route('/api/dtu/status', methods=['GET'])
  2848. def get_dtu_status():
  2849. """获取DTU状态"""
  2850. try:
  2851. # 获取串口状态
  2852. serial_st = serial_client.get_status()
  2853. # 获取面板状态
  2854. devices = address_config.get_stored_devices()
  2855. # 主板温度: 优先外部上报,否则本地读取
  2856. dtu_temperature = env_sensor_data.get('dtu_temperature')
  2857. if dtu_temperature is None:
  2858. try:
  2859. import psutil
  2860. temps = psutil.sensors_temperatures(fahrenheit=False) or {}
  2861. for chip_name, entries in temps.items():
  2862. for entry in entries:
  2863. if entry.current and entry.current > 0:
  2864. dtu_temperature = round(entry.current, 1)
  2865. break
  2866. if dtu_temperature is not None:
  2867. break
  2868. except Exception:
  2869. pass
  2870. if dtu_temperature is None:
  2871. import glob as _glob
  2872. for tz in sorted(_glob.glob('/sys/class/thermal/thermal_zone*/temp')):
  2873. try:
  2874. with open(tz) as f:
  2875. v = int(f.read().strip())
  2876. if v > 0:
  2877. dtu_temperature = round(v / 1000.0, 1)
  2878. break
  2879. except Exception:
  2880. continue
  2881. status = {
  2882. 'dtu_id': dtu_config.get('dtu_id'),
  2883. 'mqtt_connected': mqtt_status,
  2884. 'serial_connected': isinstance(serial_st, dict) and serial_st.get('connected', False),
  2885. 'dtu_enabled': dtu_config.get('enabled', True),
  2886. 'topic_prefix': dtu_config.get('topic_prefix'),
  2887. 'customer_id': dtu_config.get('customer_id'),
  2888. 'panel_count': len(devices),
  2889. 'cpu_usage': _get_cpu_usage(),
  2890. 'memory_usage': _get_memory_usage(),
  2891. 'temperature': dtu_temperature,
  2892. 'dtu_temperature': dtu_temperature,
  2893. 'firmware_version': dtu_config.get('firmware_version', 'v1.0.0'),
  2894. 'topics': {
  2895. 'register': build_dtu_topic(dtu_config['customer_id'], 'dtu', dtu_config['dtu_id'], 'register'),
  2896. 'status': build_dtu_topic(dtu_config['customer_id'], 'dtu', dtu_config['dtu_id'], 'status'),
  2897. 'control': build_dtu_topic(dtu_config['customer_id'], 'dtu', dtu_config['dtu_id'], 'control'),
  2898. 'response': build_dtu_topic(dtu_config['customer_id'], 'dtu', dtu_config['dtu_id'], 'response'),
  2899. 'event': build_dtu_topic(dtu_config['customer_id'], 'dtu', dtu_config['dtu_id'], 'event'),
  2900. 'alarm': build_dtu_topic(dtu_config['customer_id'], 'dtu', dtu_config['dtu_id'], 'alarm')
  2901. }
  2902. }
  2903. return jsonify({'success': True, 'data': status})
  2904. except Exception as e:
  2905. logger.error(f"获取DTU状态失败: {str(e)}")
  2906. return jsonify({'success': False, 'message': str(e)}), 500
  2907. @app.route('/api/dtu/control', methods=['POST'])
  2908. def dtu_control():
  2909. """发送DTU控制命令(HTTP 入口,复用 dtu_handle_control 逻辑)"""
  2910. try:
  2911. data = request.json or {}
  2912. # 兼容两种入参格式:
  2913. # 1) {"command": "...", "target": "...", "params": {...}} 简洁格式
  2914. # 2) {"payload": {"command": "...", "target": "...", "params": {...}}} MQTT envelope 格式
  2915. inner = data.get('payload') if isinstance(data.get('payload'), dict) else data
  2916. command = inner.get('command')
  2917. # REBOOT 走快速通道立即执行
  2918. if command == 'REBOOT':
  2919. import subprocess
  2920. logger.warning("执行系统重启命令")
  2921. threading.Thread(target=lambda: (
  2922. time.sleep(1),
  2923. subprocess.run(['reboot'], capture_output=True)
  2924. ), daemon=True).start()
  2925. return jsonify({'success': True, 'message': '系统正在重启...'})
  2926. # 其他命令委托给 MQTT 处理器(构造 MQTT envelope 后调用)
  2927. mqtt_envelope = {
  2928. 'msg_id': data.get('msg_id', f"http_{int(time.time() * 1000)}_{uuid.uuid4().hex[:6]}"),
  2929. 'timestamp': data.get('timestamp', int(time.time() * 1000)),
  2930. 'dtu_id': data.get('dtu_id', dtu_config.get('dtu_id')),
  2931. 'type': 'CONTROL',
  2932. 'payload': {
  2933. 'command': command,
  2934. 'target': inner.get('target'),
  2935. 'params': inner.get('params', {})
  2936. }
  2937. }
  2938. # 调用 MQTT 处理器(其内部会发送响应到 dtu/.../response 主题)
  2939. dtu_handle_control('http/control', mqtt_envelope)
  2940. # 如果命令是 QUERY_JUMPER_STATUS / QUERY_ENV_SENSOR / QUERY_DTU_STATUS,
  2941. # 实际响应已发布到对应主题,HTTP 端点仅返回成功标记
  2942. if command in ('QUERY_JUMPER_STATUS', 'QUERY_ENV_SENSOR', 'QUERY_DTU_STATUS'):
  2943. return jsonify({
  2944. 'success': True,
  2945. 'message': f'{command} 已发布到 MQTT 主题'
  2946. })
  2947. # 其他命令: 从 MQTT 主题同步拉取最新响应(简化处理:直接返回已发布标记)
  2948. return jsonify({
  2949. 'success': True,
  2950. 'message': f'{command} 命令已下发,等待 MQTT 响应'
  2951. })
  2952. except Exception as e:
  2953. logger.error(f"DTU控制命令失败: {str(e)}")
  2954. return jsonify({'success': False, 'message': str(e)}), 500
  2955. # OTA状态存储
  2956. ota_status = {
  2957. 'status': 'IDLE', # IDLE, DOWNLOADING, VERIFYING, FLASHING, SUCCESS, FAILED
  2958. 'progress': 0,
  2959. 'firmware_version': None,
  2960. 'target_version': None,
  2961. 'error_code': None,
  2962. 'error_message': None,
  2963. 'last_update': None
  2964. }
  2965. @app.route('/api/dtu/ota_detect', methods=['POST'])
  2966. def ota_detect():
  2967. """检测固件包信息(自动下载并解析 manifest)"""
  2968. try:
  2969. url = request.json.get('url', '')
  2970. if not url:
  2971. return jsonify({'success': False, 'message': '请提供固件 URL'}), 400
  2972. import urllib.request, tempfile, tarfile, json, hashlib
  2973. tmp = tempfile.mktemp(suffix='.tar.gz')
  2974. try:
  2975. urllib.request.urlretrieve(url, tmp)
  2976. except Exception as e:
  2977. return jsonify({'success': False, 'message': f'下载失败: {str(e)}'}), 400
  2978. file_size = os.path.getsize(tmp)
  2979. h = hashlib.md5()
  2980. with open(tmp, 'rb') as f:
  2981. for chunk in iter(lambda: f.read(65536), b''):
  2982. h.update(chunk)
  2983. md5sum = h.hexdigest()
  2984. version = ''
  2985. try:
  2986. with tarfile.open(tmp, 'r:gz') as tar:
  2987. m = tar.extractfile('firmware/firmware.json')
  2988. if m:
  2989. manifest = json.loads(m.read())
  2990. version = manifest.get('version', '')
  2991. except Exception as e:
  2992. logger.warning(f"解析 firmware.json 失败: {e}")
  2993. os.remove(tmp)
  2994. return jsonify({
  2995. 'success': True,
  2996. 'data': {
  2997. 'file_size': file_size,
  2998. 'checksum': md5sum,
  2999. 'checksum_type': 'MD5',
  3000. 'firmware_version': version
  3001. }
  3002. })
  3003. except Exception as e:
  3004. logger.error(f"检测固件失败: {str(e)}")
  3005. return jsonify({'success': False, 'message': str(e)}), 500
  3006. @app.route('/api/dtu/ota_status', methods=['GET'])
  3007. def get_ota_status():
  3008. """获取OTA升级状态"""
  3009. try:
  3010. return jsonify({
  3011. 'success': True,
  3012. 'data': {
  3013. 'current_firmware': dtu_config.get('firmware_version', 'v1.0.0'),
  3014. 'ota_status': ota_status.get('status', 'IDLE'),
  3015. 'ota_progress': ota_status.get('progress', 0),
  3016. 'target_version': ota_status.get('target_version'),
  3017. 'error_code': ota_status.get('error_code'),
  3018. 'error_message': ota_status.get('error_message'),
  3019. 'last_update': ota_status.get('last_update')
  3020. }
  3021. })
  3022. except Exception as e:
  3023. logger.error(f"获取OTA状态失败: {str(e)}")
  3024. return jsonify({'success': False, 'message': str(e)}), 500
  3025. def handle_ota_status(dtu_id, payload):
  3026. """处理MQTT上报的OTA状态"""
  3027. ota_status['status'] = payload.get('ota_status', 'IDLE')
  3028. ota_status['progress'] = payload.get('ota_progress', 0)
  3029. ota_status['firmware_version'] = payload.get('firmware_version')
  3030. ota_status['last_update'] = time.strftime('%Y-%m-%d %H:%M:%S')
  3031. error_code = payload.get('error_code')
  3032. if error_code and error_code != 0:
  3033. ota_status['error_code'] = error_code
  3034. ota_status['error_message'] = payload.get('error_message', get_ota_error_message(error_code))
  3035. ota_status['status'] = 'FAILED'
  3036. elif ota_status['status'] == 'SUCCESS':
  3037. ota_status['error_code'] = None
  3038. ota_status['error_message'] = None
  3039. if ota_status.get('firmware_version'):
  3040. dtu_config['firmware_version'] = ota_status['firmware_version']
  3041. save_dtu_config()
  3042. logger.info(f"MQTT OTA状态更新: {ota_status['status']}, 进度: {ota_status['progress']}%")
  3043. def get_ota_error_message(error_code):
  3044. error_messages = {1021: '已是目标版本', 1022: '校验失败', 1023: '下载失败', 1024: '写入失败', 1025: '存储空间不足'}
  3045. return error_messages.get(error_code, f'未知错误码: {error_code}')
  3046. def _publish_ota_progress():
  3047. """通过MQTT发布OTA进度"""
  3048. try:
  3049. if not mqtt_client.get_status():
  3050. return
  3051. topic = build_dtu_topic(dtu_config['customer_id'], 'dtu', dtu_config['dtu_id'], 'status')
  3052. payload = {
  3053. 'msg_id': f"ota_status_{int(time.time() * 1000)}",
  3054. 'timestamp': int(time.time() * 1000),
  3055. 'dtu_id': dtu_config['dtu_id'],
  3056. 'type': 'STATUS',
  3057. 'payload': {
  3058. 'ota_status': ota_status.get('status', 'IDLE'),
  3059. 'ota_progress': ota_status.get('progress', 0),
  3060. 'firmware_version': ota_status.get('target_version', ''),
  3061. 'error_code': ota_status.get('error_code', 0),
  3062. 'error_message': ota_status.get('error_message')
  3063. }
  3064. }
  3065. mqtt_client.publish(topic, json.dumps(payload), qos=1)
  3066. except Exception:
  3067. pass
  3068. def _send_ota_error_response(error_code, original_msg_id=''):
  3069. """通过MQTT发送OTA错误响应(1021-1025)"""
  3070. try:
  3071. if not mqtt_client.get_status():
  3072. return
  3073. topic = build_dtu_topic(dtu_config['customer_id'], 'dtu', dtu_config['dtu_id'], 'response')
  3074. payload = {
  3075. 'msg_id': f"rsp_ota_{int(time.time() * 1000)}_{uuid.uuid4().hex[:6]}",
  3076. 'timestamp': int(time.time() * 1000),
  3077. 'dtu_id': dtu_config['dtu_id'],
  3078. 'type': 'RESPONSE',
  3079. 'payload': {
  3080. 'original_msg_id': original_msg_id,
  3081. 'command': 'OTA_UPGRADE',
  3082. 'success': False,
  3083. 'result': None,
  3084. 'error_code': error_code,
  3085. 'error_message': get_ota_error_message(error_code)
  3086. }
  3087. }
  3088. mqtt_client.publish(topic, json.dumps(payload), qos=1)
  3089. except Exception:
  3090. pass
  3091. def _run_ota(params):
  3092. """执行OTA升级(后台线程,供HTTP和MQTT共用)"""
  3093. import subprocess, os, hashlib, shutil, tarfile, tempfile, urllib.request
  3094. url = params['firmware_url']
  3095. version = params['firmware_version']
  3096. file_size = params['file_size']
  3097. checksum = params['checksum']
  3098. checksum_type = params.get('checksum_type', 'MD5').upper()
  3099. force = params.get('force_upgrade', False)
  3100. ota_status['status'] = 'DOWNLOADING'
  3101. ota_status['progress'] = 0
  3102. ota_status['target_version'] = version
  3103. ota_status['error_code'] = None
  3104. ota_status['error_message'] = None
  3105. ota_status['last_update'] = time.strftime('%Y-%m-%d %H:%M:%S')
  3106. _publish_ota_progress()
  3107. try:
  3108. tmp_dir = tempfile.mkdtemp(prefix='ota_')
  3109. fw_path = os.path.join(tmp_dir, 'firmware.tar.gz')
  3110. ota_status['progress'] = 5
  3111. ota_status['last_update'] = time.strftime('%Y-%m-%d %H:%M:%S')
  3112. logger.info(f"OTA: 开始下载固件 {url}")
  3113. req = urllib.request.Request(url, headers={'User-Agent': 'OTA-Updater'})
  3114. # 进度上报节流: 每 10% 或每 5 秒
  3115. last_published_pct = 0
  3116. last_publish_time = time.time()
  3117. with urllib.request.urlopen(req, timeout=120) as resp:
  3118. with open(fw_path, 'wb') as f:
  3119. total = int(resp.headers.get('Content-Length', 0))
  3120. downloaded = 0
  3121. while True:
  3122. chunk = resp.read(65536)
  3123. if not chunk: break
  3124. f.write(chunk)
  3125. downloaded += len(chunk)
  3126. if total:
  3127. pct = 5 + int(downloaded / total * 30)
  3128. ota_status['progress'] = min(pct, 35)
  3129. now = time.time()
  3130. if pct - last_published_pct >= 10 or (now - last_publish_time) >= 5:
  3131. last_published_pct = pct
  3132. last_publish_time = now
  3133. ota_status['last_update'] = time.strftime('%Y-%m-%d %H:%M:%S')
  3134. _publish_ota_progress()
  3135. dl_size = os.path.getsize(fw_path)
  3136. ota_status['progress'] = 40
  3137. ota_status['last_update'] = time.strftime('%Y-%m-%d %H:%M:%S')
  3138. _publish_ota_progress()
  3139. if abs(dl_size - file_size) > 1024:
  3140. raise Exception(f"文件大小不匹配: 预期{file_size}, 实际{dl_size}")
  3141. ota_status['status'] = 'VERIFYING'
  3142. ota_status['progress'] = 50
  3143. ota_status['last_update'] = time.strftime('%Y-%m-%d %H:%M:%S')
  3144. _publish_ota_progress()
  3145. h = hashlib.new(checksum_type)
  3146. with open(fw_path, 'rb') as f:
  3147. for chunk in iter(lambda: f.read(65536), b''): h.update(chunk)
  3148. actual_checksum = h.hexdigest().lower()
  3149. if actual_checksum != checksum.lower():
  3150. raise Exception(f"校验和不匹配: 预期{checksum}, 实际{actual_checksum}")
  3151. ota_status['progress'] = 60
  3152. ota_status['last_update'] = time.strftime('%Y-%m-%d %H:%M:%S')
  3153. _publish_ota_progress()
  3154. extract_dir = os.path.join(tmp_dir, 'firmware')
  3155. os.makedirs(extract_dir, exist_ok=True)
  3156. with tarfile.open(fw_path, 'r:gz') as tar: tar.extractall(extract_dir)
  3157. manifest_path = os.path.join(extract_dir, 'firmware', 'firmware.json')
  3158. if not os.path.exists(manifest_path):
  3159. raise Exception("固件包缺少 firmware.json")
  3160. with open(manifest_path, 'r') as f: manifest = json.load(f)
  3161. fw_version = manifest.get('version', version)
  3162. if not force:
  3163. current_ver = dtu_config.get('firmware_version', 'v0.0.0')
  3164. if fw_version == current_ver:
  3165. raise Exception(f'已是目标版本 {current_ver}')
  3166. ota_status['status'] = 'FLASHING'
  3167. ota_status['progress'] = 70
  3168. ota_status['last_update'] = time.strftime('%Y-%m-%d %H:%M:%S')
  3169. _publish_ota_progress()
  3170. fw_root = os.path.join(extract_dir, 'firmware')
  3171. project_dir = os.path.dirname(os.path.dirname(os.path.abspath(__file__)))
  3172. excludes = {'__pycache__', '.git', 'log', 'venv'}
  3173. for root, dirs, files in os.walk(fw_root):
  3174. rel = os.path.relpath(root, fw_root)
  3175. if rel == '.': rel = ''
  3176. parts = rel.split(os.sep) if rel else []
  3177. if parts and parts[0] in excludes: continue
  3178. for fname in files:
  3179. if fname == 'firmware.json': continue
  3180. src = os.path.join(root, fname)
  3181. dst = os.path.join(project_dir, rel, fname)
  3182. os.makedirs(os.path.dirname(dst), exist_ok=True)
  3183. shutil.copy2(src, dst)
  3184. ota_status['progress'] = 90
  3185. ota_status['last_update'] = time.strftime('%Y-%m-%d %H:%M:%S')
  3186. dtu_config['firmware_version'] = fw_version
  3187. save_dtu_config()
  3188. ota_status['status'] = 'SUCCESS'
  3189. ota_status['progress'] = 100
  3190. ota_status['firmware_version'] = fw_version
  3191. ota_status['last_update'] = time.strftime('%Y-%m-%d %H:%M:%S')
  3192. _publish_ota_progress()
  3193. shutil.rmtree(tmp_dir, ignore_errors=True)
  3194. for i in range(10, 0, -1):
  3195. ota_status['last_update'] = time.strftime('%Y-%m-%d %H:%M:%S')
  3196. time.sleep(1)
  3197. logger.info("OTA: 重启服务...")
  3198. subprocess.Popen(
  3199. [subprocess.sys.executable, '-m', 'flask', 'run', '--host=0.0.0.0', '--port=5001'],
  3200. cwd=os.path.dirname(os.path.abspath(__file__)),
  3201. stdout=subprocess.DEVNULL, stderr=subprocess.DEVNULL
  3202. )
  3203. os._exit(0)
  3204. except Exception as e:
  3205. ota_status['status'] = 'FAILED'
  3206. ota_status['error_message'] = str(e)
  3207. ota_status['last_update'] = time.strftime('%Y-%m-%d %H:%M:%S')
  3208. # 映射错误到标准错误码 (1021-1025)
  3209. msg = str(e)
  3210. if '校验和' in msg or 'firmware.json' in msg:
  3211. ota_status['error_code'] = 1022
  3212. elif '已是目标版本' in msg:
  3213. ota_status['error_code'] = 1021
  3214. elif '下载' in msg or 'urlopen' in msg or 'Connection' in msg or 'timeout' in msg:
  3215. ota_status['error_code'] = 1023
  3216. elif '磁盘' in msg or '空间' in msg or 'No space' in msg:
  3217. ota_status['error_code'] = 1025
  3218. elif '写入' in msg or 'flash' in msg.lower() or 'shutil' in msg:
  3219. ota_status['error_code'] = 1024
  3220. else:
  3221. ota_status['error_code'] = 9999
  3222. _publish_ota_progress()
  3223. # 通过MQTT发送错误响应(同时适配HTTP和MQTT触发)
  3224. _send_ota_error_response(ota_status['error_code'], params.get('_incoming_msg_id', ''))
  3225. logger.error(f"OTA: 升级失败 - {str(e)}")
  3226. if 'tmp_dir' in dir() and tmp_dir and os.path.exists(tmp_dir):
  3227. shutil.rmtree(tmp_dir, ignore_errors=True)
  3228. @app.route('/api/dtu/ota_upgrade', methods=['POST'])
  3229. def trigger_ota_upgrade():
  3230. """触发OTA升级"""
  3231. try:
  3232. data = request.json
  3233. if not data:
  3234. return jsonify({'success': False, 'message': '请求体不能为空'}), 400
  3235. required_fields = ['firmware_url', 'firmware_version', 'file_size', 'checksum', 'checksum_type']
  3236. missing = [f for f in required_fields if not data.get(f)]
  3237. if missing:
  3238. return jsonify({'success': False, 'message': f'缺少必填字段: {", ".join(missing)}'}), 400
  3239. # 已是目标版本且未强制: 1021 (同时通过 MQTT 上报响应)
  3240. force_upgrade = data.get('force_upgrade', False)
  3241. current_version = dtu_config.get('firmware_version', 'v1.0.0')
  3242. if data['firmware_version'] == current_version and not force_upgrade:
  3243. # 通过 MQTT 上报 1021 响应 (与其他错误码一致)
  3244. try:
  3245. _send_ota_error_response(1021, data.get('msg_id', ''))
  3246. except Exception:
  3247. pass
  3248. return jsonify({
  3249. 'success': False,
  3250. 'error_code': 1021,
  3251. 'message': f'已是目标版本: {current_version}'
  3252. }), 400
  3253. # 注入 _incoming_msg_id 使 MQTT 错误响应可回填
  3254. ota_params = {**data, '_incoming_msg_id': data.get('msg_id', '')}
  3255. t = threading.Thread(target=_run_ota, args=(ota_params,), daemon=True)
  3256. t.start()
  3257. return jsonify({
  3258. 'success': True,
  3259. 'message': 'OTA升级已启动',
  3260. 'data': {
  3261. 'target_version': data['firmware_version'],
  3262. 'ota_status': 'DOWNLOADING'
  3263. }
  3264. })
  3265. except Exception as e:
  3266. logger.error(f"触发OTA升级失败: {str(e)}")
  3267. return jsonify({'success': False, 'message': str(e)}), 500
  3268. # ==================== 环境传感器 API ====================
  3269. # 环境传感器数据存储
  3270. env_sensor_data = {
  3271. 'temperature': None, # 环境温度 (℃)
  3272. 'humidity': None, # 环境湿度 (%)
  3273. 'dtu_temperature': None, # DTU主板温度 (℃)
  3274. 'update_time': None, # 数据更新时间
  3275. 'sensor_update_time': None, # 传感器更新时间
  3276. 'connected': False # 传感器连接状态
  3277. }
  3278. # 环境传感器告警阈值
  3279. env_sensor_threshold = {
  3280. 'temp_high': 45.0, # 环境温度上限 (℃)
  3281. 'temp_low': -10.0, # 环境温度下限 (℃)
  3282. 'humidity_high': 80.0, # 环境湿度上限 (%)
  3283. 'humidity_low': 20.0, # 环境湿度下限 (%)
  3284. 'dtu_temp_high': 70.0 # DTU主板温度上限 (℃)
  3285. }
  3286. # 环境传感器历史数据 (保留最近1000条)
  3287. env_sensor_history = []
  3288. @app.route('/api/sensor/env', methods=['GET'])
  3289. def get_env_sensor_data():
  3290. """获取环境传感器当前数据"""
  3291. data = dict(env_sensor_data)
  3292. # DTU 主板温度回退: 若外部未上报,从 sysfs 本地读取
  3293. if data.get('dtu_temperature') is None:
  3294. try:
  3295. import psutil
  3296. temps = psutil.sensors_temperatures(fahrenheit=False) or {}
  3297. for chip_name, entries in temps.items():
  3298. for entry in entries:
  3299. if entry.current and entry.current > 0:
  3300. data['dtu_temperature'] = round(entry.current, 1)
  3301. break
  3302. if data['dtu_temperature'] is not None:
  3303. break
  3304. except Exception:
  3305. pass
  3306. if data.get('dtu_temperature') is None:
  3307. import glob as _glob
  3308. for tz in sorted(_glob.glob('/sys/class/thermal/thermal_zone*/temp')):
  3309. try:
  3310. with open(tz) as f:
  3311. v = int(f.read().strip())
  3312. if v > 0:
  3313. data['dtu_temperature'] = round(v / 1000.0, 1)
  3314. data['update_time'] = data.get('update_time') or __import__('datetime').datetime.now().strftime('%Y-%m-%d %H:%M:%S')
  3315. break
  3316. except Exception:
  3317. continue
  3318. # 附加 CPU/内存使用率(始终本地读取)
  3319. data['cpu_usage'] = _get_cpu_usage()
  3320. data['memory_usage'] = _get_memory_usage()
  3321. return jsonify({
  3322. 'success': True,
  3323. 'data': data
  3324. })
  3325. @app.route('/api/sensor/threshold', methods=['GET', 'POST'])
  3326. def handle_env_sensor_threshold():
  3327. """获取或设置环境传感器告警阈值"""
  3328. if request.method == 'GET':
  3329. return jsonify({
  3330. 'success': True,
  3331. 'data': env_sensor_threshold
  3332. })
  3333. else:
  3334. try:
  3335. data = request.get_json()
  3336. for key in env_sensor_threshold.keys():
  3337. if key in data:
  3338. env_sensor_threshold[key] = float(data[key])
  3339. logger.info(f"更新环境传感器告警阈值: {env_sensor_threshold}")
  3340. return jsonify({
  3341. 'success': True,
  3342. 'message': '阈值设置成功',
  3343. 'data': env_sensor_threshold
  3344. })
  3345. except Exception as e:
  3346. logger.error(f"设置告警阈值失败: {str(e)}")
  3347. return jsonify({'success': False, 'message': str(e)}), 400
  3348. @app.route('/api/sensor/history', methods=['GET'])
  3349. def get_env_sensor_history():
  3350. """获取环境传感器历史数据"""
  3351. try:
  3352. import datetime
  3353. # 获取查询参数
  3354. range_param = request.args.get('range', '24h')
  3355. start_time = request.args.get('start_time')
  3356. end_time = request.args.get('end_time')
  3357. limit = request.args.get('limit', 100, type=int)
  3358. filtered_history = env_sensor_history
  3359. # 解析range参数
  3360. if not start_time and not end_time:
  3361. now = datetime.datetime.now()
  3362. if range_param == '1h':
  3363. start_time = (now - datetime.timedelta(hours=1)).strftime('%Y-%m-%d %H:%M:%S')
  3364. elif range_param == '6h':
  3365. start_time = (now - datetime.timedelta(hours=6)).strftime('%Y-%m-%d %H:%M:%S')
  3366. elif range_param == '24h':
  3367. start_time = (now - datetime.timedelta(hours=24)).strftime('%Y-%m-%d %H:%M:%S')
  3368. elif range_param == '7d':
  3369. start_time = (now - datetime.timedelta(days=7)).strftime('%Y-%m-%d %H:%M:%S')
  3370. elif range_param == '30d':
  3371. start_time = (now - datetime.timedelta(days=30)).strftime('%Y-%m-%d %H:%M:%S')
  3372. # 按时间过滤
  3373. if start_time:
  3374. filtered_history = [h for h in filtered_history if h.get('update_time') >= start_time]
  3375. if end_time:
  3376. filtered_history = [h for h in filtered_history if h.get('update_time') <= end_time]
  3377. # 按时间排序 (新到旧)
  3378. filtered_history = sorted(filtered_history, key=lambda x: x.get('update_time', ''), reverse=True)
  3379. # 限制返回数量
  3380. filtered_history = filtered_history[:limit]
  3381. return jsonify({
  3382. 'success': True,
  3383. 'data': filtered_history,
  3384. 'total': len(filtered_history)
  3385. })
  3386. except Exception as e:
  3387. logger.error(f"获取历史数据失败: {str(e)}")
  3388. return jsonify({'success': False, 'message': str(e)}), 500
  3389. def update_env_sensor_data_full(temperature, humidity, dtu_temperature, sensor_update_time):
  3390. """更新环境传感器数据 (由MQTT消息触发) - 完整版,含历史和告警"""
  3391. import datetime
  3392. now = datetime.datetime.now().strftime('%Y-%m-%d %H:%M:%S')
  3393. env_sensor_data['temperature'] = temperature
  3394. env_sensor_data['humidity'] = humidity
  3395. env_sensor_data['dtu_temperature'] = dtu_temperature
  3396. env_sensor_data['sensor_update_time'] = sensor_update_time
  3397. env_sensor_data['update_time'] = now
  3398. env_sensor_data['connected'] = True
  3399. # 同步到 MQTT 上行所用的 _env_sensor_data
  3400. _env_sensor_data['temperature'] = temperature
  3401. _env_sensor_data['humidity'] = humidity
  3402. _env_sensor_data['sensor_update_time'] = sensor_update_time
  3403. # 添加到历史记录
  3404. history_record = {
  3405. 'temperature': temperature,
  3406. 'humidity': humidity,
  3407. 'dtu_temperature': dtu_temperature,
  3408. 'sensor_update_time': sensor_update_time,
  3409. 'update_time': now
  3410. }
  3411. env_sensor_history.append(history_record)
  3412. # 保留最近1000条
  3413. if len(env_sensor_history) > 1000:
  3414. env_sensor_history[:] = env_sensor_history[-1000:]
  3415. # 检查告警
  3416. check_env_sensor_alarms(temperature, humidity, dtu_temperature)
  3417. logger.info(f"环境传感器数据更新: 温度={temperature}℃, 湿度={humidity}%, DTU温度={dtu_temperature}℃")
  3418. def dht11_data_callback(temperature, humidity):
  3419. """DHT11 本地 GPIO 传感器数据回调。
  3420. 将读取到的温湿度更新到环境传感器数据区,并通过 MQTT 上报。
  3421. 保留已有的 dtu_temperature(主板温度),仅更新环境温湿度字段。
  3422. """
  3423. try:
  3424. sensor_update_time = int(time.time() * 1000)
  3425. dtu_temperature = env_sensor_data.get('dtu_temperature')
  3426. update_env_sensor_data_full(temperature, humidity, dtu_temperature, sensor_update_time)
  3427. # 立即通过 MQTT 上报环境传感器数据
  3428. try:
  3429. dtu_publish_env_sensor()
  3430. except Exception as pub_err:
  3431. logger.warning(f"DHT11 数据 MQTT 上报失败: {pub_err}")
  3432. logger.info(f"DHT11 本地传感器数据已处理: 温度={temperature}°C, 湿度={humidity}%")
  3433. except Exception as e:
  3434. logger.error(f"处理 DHT11 本地传感器数据失败: {e}")
  3435. def check_env_sensor_alarms(temperature, humidity, dtu_temperature):
  3436. """检查环境传感器告警"""
  3437. alarms = []
  3438. if temperature is not None:
  3439. if temperature > env_sensor_threshold['temp_high']:
  3440. alarms.append({
  3441. 'type': 'temperature_high',
  3442. 'message': f'环境温度过高: {temperature}℃ (阈值: {env_sensor_threshold["temp_high"]}℃)',
  3443. 'level': 'warning'
  3444. })
  3445. elif temperature < env_sensor_threshold['temp_low']:
  3446. alarms.append({
  3447. 'type': 'temperature_low',
  3448. 'message': f'环境温度过低: {temperature}℃ (阈值: {env_sensor_threshold["temp_low"]}℃)',
  3449. 'level': 'warning'
  3450. })
  3451. if humidity is not None:
  3452. if humidity > env_sensor_threshold['humidity_high']:
  3453. alarms.append({
  3454. 'type': 'humidity_high',
  3455. 'message': f'环境湿度过高: {humidity}% (阈值: {env_sensor_threshold["humidity_high"]}%)',
  3456. 'level': 'warning'
  3457. })
  3458. elif humidity < env_sensor_threshold['humidity_low']:
  3459. alarms.append({
  3460. 'type': 'humidity_low',
  3461. 'message': f'环境湿度过低: {humidity}% (阈值: {env_sensor_threshold["humidity_low"]}%)',
  3462. 'level': 'warning'
  3463. })
  3464. if dtu_temperature is not None:
  3465. if dtu_temperature > env_sensor_threshold['dtu_temp_high']:
  3466. alarms.append({
  3467. 'type': 'dtu_temp_high',
  3468. 'message': f'DTU主板温度过高: {dtu_temperature}℃ (阈值: {env_sensor_threshold["dtu_temp_high"]}℃)',
  3469. 'level': 'critical'
  3470. })
  3471. # 发送告警通知
  3472. for alarm in alarms:
  3473. logger.warning(f"环境传感器告警: {alarm['message']}")
  3474. # 可以通过WebSocket发送告警
  3475. socketio.emit('env_sensor_alarm', alarm)
  3476. if __name__ == '__main__':
  3477. try:
  3478. # 启动前的初始化工作
  3479. logger.info('启动串口-MQTT网关服务...')
  3480. logger.info(f"配置信息: 主机={FLASK_HOST}, 端口={FLASK_PORT}, 调试模式={FLASK_DEBUG}")
  3481. # 加载DTU配置
  3482. load_dtu_config()
  3483. # 加载设备配置(地址表,用于给已发现的设备分配原地址)
  3484. loaded = load_device_config()
  3485. logger.info(f"已加载 {len(loaded)} 个设备配置")
  3486. # 自动连接上次使用的串口(RS485),必须先连接才能做地址配置/发现
  3487. logger.info("尝试自动连接串口...")
  3488. auto_connect_serial()
  3489. # 串口连接成功后会通过 status_callback 触发 run_discovery_sync(),
  3490. # 先查询地址表中已有地址是否在线,再广播发现新设备并分配地址。
  3491. # 这里只做兜底:如果串口未连接则清空轮询列表,避免轮询离线设备。
  3492. try:
  3493. _st = serial_client.get_status()
  3494. if not (isinstance(_st, dict) and _st.get('connected', False)) or not dtu_config.get('enabled'):
  3495. panel_config.clear()
  3496. logger.info("串口未连接或 DTU 未启用,已清空轮询列表")
  3497. except Exception as e:
  3498. logger.error(f"启动前检查串口状态失败: {e}")
  3499. logger.info(f"当前轮询面板数: {len(panel_config)}")
  3500. # 启动自动发现循环
  3501. def auto_discover_loop():
  3502. while True:
  3503. time.sleep(30)
  3504. try:
  3505. _st = serial_client.get_status()
  3506. if not (isinstance(_st, dict) and _st.get('connected', False)):
  3507. continue
  3508. if not dtu_config.get('enabled'):
  3509. continue
  3510. # 执行完整发现同步:先查询已有地址,再广播发现新设备
  3511. run_discovery_sync(min_interval=10)
  3512. except Exception as e:
  3513. logger.error(f"自动发现异常: {str(e)}")
  3514. import threading
  3515. t = threading.Thread(target=auto_discover_loop, daemon=True)
  3516. t.start()
  3517. logger.info("启动自动发现线程 (间隔30秒)")
  3518. # 启动DTU心跳定时器
  3519. if dtu_config.get('enabled'):
  3520. start_dtu_heartbeat()
  3521. logger.info("启动DTU心跳定时器")
  3522. # 启动端口轮询循环
  3523. def port_poll_loop():
  3524. while True:
  3525. interval = dtu_config.get('poll_interval_ms', 5000) / 1000.0
  3526. time.sleep(max(1, interval))
  3527. try:
  3528. # 地址配置期间暂停轮询,避免总线上同时出现查询帧和配置帧
  3529. if not address_config.config_lock.acquire(blocking=False):
  3530. logger.info("地址配置进行中,本轮轮询跳过")
  3531. continue
  3532. try:
  3533. _st = serial_client.get_status()
  3534. if not (isinstance(_st, dict) and _st.get('connected', False)):
  3535. continue
  3536. if not dtu_config.get('enabled'):
  3537. continue
  3538. if not panel_config:
  3539. continue
  3540. online = 0
  3541. offline = 0
  3542. for panel_id, cfg in panel_config.items():
  3543. addr = cfg.get('address', 1)
  3544. # 已标记离线的面板不再主动发查询,
  3545. # 交由广播发现(自动发现循环)定期尝试重新上线
  3546. if cfg.get('status') == 'offline':
  3547. offline += 1
  3548. continue
  3549. # 先快速探测面板是否在线,不在线则跳过 24 个端口的详细轮询
  3550. try:
  3551. probe = modbus_client.read_antenna_card(addr, 1, timeout=0.5)
  3552. except Exception:
  3553. probe = {'error': 'exception'}
  3554. if 'error' in probe:
  3555. offline += 1
  3556. register_panel_poll_failure(panel_id, cfg, addr)
  3557. continue
  3558. panel_ok = False
  3559. panel_ports = []
  3560. for port_id in range(1, 25):
  3561. try:
  3562. result = modbus_client.read_antenna_card(addr, port_id, timeout=1.0)
  3563. except Exception:
  3564. result = {'error': 'exception'}
  3565. if 'error' in result:
  3566. panel_ports.append({'port_id': port_id, 'status': 'UNKNOWN', 'jumper_uid': None})
  3567. continue
  3568. panel_ok = True
  3569. card_str = result.get('card_number_str', '')
  3570. uid = card_str.upper() if card_str and card_str != '0000000000000000' else ''
  3571. if panel_id not in port_state:
  3572. port_state[panel_id] = {}
  3573. if port_id not in port_state[panel_id]:
  3574. # 重建端口状态时,从持久化的期望映射回填 expected_uid,
  3575. # 保证离线恢复/重启后仍能正确判定非法连接
  3576. exp_uid = dtu_config.get('port_mappings', {}).get(panel_id, {}).get(str(port_id))
  3577. port_state[panel_id][port_id] = {
  3578. 'last_uid': None,
  3579. 'expected_uid': exp_uid,
  3580. 'alarm_count': 0,
  3581. 'last_polled_at': int(time.time() * 1000)
  3582. }
  3583. ps = port_state[panel_id][port_id]
  3584. ps['last_polled_at'] = int(time.time() * 1000)
  3585. last_uid = ps.get('last_uid')
  3586. if uid and uid != last_uid:
  3587. dtu_publish_event(panel_id, port_id, 'CONNECT' if not last_uid else 'MOVE', uid, last_uid)
  3588. ps['last_uid'] = uid
  3589. elif not uid and last_uid:
  3590. dtu_publish_event(panel_id, port_id, 'DISCONNECT', None, last_uid)
  3591. ps['last_uid'] = None
  3592. ps_exp = ps.get('expected_uid')
  3593. if dtu_config.get('alarm_enabled', True):
  3594. if ps_exp and uid and uid != ps_exp:
  3595. ps['alarm_count'] = ps.get('alarm_count', 0) + 1
  3596. sev = 'CRITICAL' if ps['alarm_count'] >= 3 else 'WARNING'
  3597. dtu_publish_alarm(panel_id, port_id, 'ILLEGAL_CONNECT', ps_exp, uid, sev)
  3598. elif ps_exp and not uid:
  3599. ps['alarm_count'] = ps.get('alarm_count', 0) + 1
  3600. sev = 'CRITICAL' if ps['alarm_count'] >= 3 else 'WARNING'
  3601. dtu_publish_alarm(panel_id, port_id, 'ILLEGAL_DISCONNECT', ps_exp, None, sev)
  3602. elif ps_exp and uid == ps_exp:
  3603. ps['alarm_count'] = 0
  3604. if uid:
  3605. port_status = 'ILLEGAL' if (ps_exp and uid != ps_exp) else 'CONNECTED'
  3606. else:
  3607. port_status = 'DISCONNECTED'
  3608. panel_ports.append({'port_id': port_id, 'status': port_status, 'jumper_uid': uid or None})
  3609. if panel_ok:
  3610. online += 1
  3611. if cfg.get('status') == 'offline' or panel_fail_count.get(panel_id, 0) > 0 or panel_assign_pending.get(panel_id):
  3612. cfg['status'] = 'online'
  3613. panel_fail_count[panel_id] = 0
  3614. panel_assign_pending.pop(panel_id, None)
  3615. logger.info(f"面板 {panel_id}(地址={addr}) 恢复在线")
  3616. device_last_seen[panel_id] = time.time()
  3617. device_last_seen[cfg.get('panel_uid', '')] = time.time()
  3618. dtu_publish_panel_status(panel_id, addr, panel_ports)
  3619. # 如果该 panel 是当前显示的 panel,刷新屏幕
  3620. panels = get_sorted_panels()
  3621. trigger_panel_id = None
  3622. with screen_lock:
  3623. if panels and 0 <= screen_current_panel_index < len(panels) and panels[screen_current_panel_index][0] == panel_id:
  3624. trigger_panel_id = panel_id
  3625. if trigger_panel_id:
  3626. try:
  3627. screen_refresh_queue.put((trigger_panel_id,))
  3628. except Exception as e:
  3629. logger.error(f"刷新屏幕失败: {e}")
  3630. else:
  3631. offline += 1
  3632. register_panel_poll_failure(panel_id, cfg, addr)
  3633. dtu_publish_status(force=True)
  3634. finally:
  3635. address_config.config_lock.release()
  3636. except Exception as e:
  3637. logger.error(f"端口轮询异常: {str(e)}")
  3638. t2 = threading.Thread(target=port_poll_loop, daemon=True)
  3639. t2.start()
  3640. logger.info("启动端口轮询线程 (间隔5秒)")
  3641. # 启动 DHT11 本地传感器读取线程
  3642. if dht11_sensor is not None:
  3643. dht11_sensor.on_data = dht11_data_callback
  3644. dht11_sensor.start()
  3645. # 连接 Nextion 串口屏
  3646. if NEXTION_ENABLED:
  3647. try:
  3648. ok, msg = screen_display.connect(NEXTION_SCREEN_PORT, NEXTION_SCREEN_BAUD)
  3649. if ok:
  3650. screen_display.set_button_callback(screen_button_event_handler)
  3651. logger.info("Nextion 屏幕连接成功")
  3652. panels = get_sorted_panels()
  3653. if panels:
  3654. refresh_screen_panel(panels[0][0])
  3655. else:
  3656. logger.warning(f"Nextion 屏幕连接失败: {msg}")
  3657. except Exception as e:
  3658. logger.error(f"Nextion 屏幕初始化异常: {e}")
  3659. # 启动 Nextion 屏幕异步刷新工作线程
  3660. screen_refresh_thread = threading.Thread(target=_screen_refresh_worker, daemon=True)
  3661. screen_refresh_thread.start()
  3662. logger.info("启动 Nextion 屏幕异步刷新线程")
  3663. # 启动服务
  3664. socketio.run(
  3665. app,
  3666. host=FLASK_HOST,
  3667. port=FLASK_PORT,
  3668. debug=FLASK_DEBUG,
  3669. use_reloader=False, # 禁用重载器以避免重复初始化问题
  3670. log_output=False, # 禁用Flask的日志输出,使用我们自己的日志配置
  3671. allow_unsafe_werkzeug=True
  3672. )
  3673. except KeyboardInterrupt:
  3674. # 优雅退出
  3675. logger.info('正在关闭应用...')
  3676. try:
  3677. if isinstance(serial_client.get_status(), dict) and serial_client.get_status().get("connected", False):
  3678. serial_client.disconnect()
  3679. logger.info('串口连接已断开')
  3680. if mqtt_client.get_status():
  3681. mqtt_client.disconnect()
  3682. logger.info('MQTT连接已断开')
  3683. if dht11_sensor is not None:
  3684. dht11_sensor.stop()
  3685. logger.info('DHT11 传感器线程已停止')
  3686. except Exception as e:
  3687. logger.error(f'关闭连接时出错: {str(e)}')
  3688. # 清理WebSocket连接
  3689. for client_type in connected_clients:
  3690. connected_clients[client_type].clear()
  3691. logger.info('应用已安全关闭')
  3692. except Exception as e:
  3693. logger.exception(f'应用启动失败') # 使用exception记录完整堆栈
  3694. # 确保资源被释放
  3695. try:
  3696. serial_client.disconnect()
  3697. mqtt_client.disconnect()
  3698. except:
  3699. pass