from flask import Flask, jsonify, request, abort from flask_cors import CORS from flask_socketio import SocketIO, emit import threading import time import json import os import logging import uuid # 配置文件路径 SERIAL_CONFIG_FILE = os.path.join(os.path.dirname(os.path.abspath(__file__)), 'serial_config.json') # 导入配置 from config import ( MAX_BUFFER_SIZE, FLASK_SECRET_KEY, FLASK_DEBUG, FLASK_HOST, FLASK_PORT, LOG_LEVEL, LOG_FORMAT, LOG_FILE, SOCKETIO_ASYNC_MODE, SOCKETIO_ALLOWED_ORIGINS, DEFAULT_FORWARD_SERIAL_TO_MQTT, DEFAULT_FORWARD_MQTT_TO_SERIAL, DEFAULT_MQTT_PUBLISH_TOPIC, SOCKETIO_NAMESPACE_DATA, SOCKETIO_NAMESPACE_STATUS, SOCKETIO_NAMESPACE_CONTROL, ERROR_CODES, ERROR_MESSAGES, DEFAULT_CUSTOMER_ID, DEFAULT_DTU_ID, DTU_HEARTBEAT_INTERVAL, DTU_OFFLINE_TIMEOUT, DEFAULT_MQTT_TOPIC_PREFIX, DTU_REGISTRATION_TOPIC, DTU_STATUS_TOPIC, DTU_CONTROL_TOPIC, DTU_RESPONSE_TOPIC, DTU_EVENT_TOPIC, DTU_ALARM_TOPIC, DTU_BROADCAST_TOPIC, MAX_PANELS, MAX_PORTS_PER_PANEL, DHT11_ENABLED, DHT11_GPIO_PIN, DHT11_GPIO_CHIP, DHT11_POLL_INTERVAL, DHT11_SIMULATE ) # 配置日志 logging_config = { 'level': getattr(logging, LOG_LEVEL), 'format': LOG_FORMAT } if LOG_FILE: logging_config['filename'] = LOG_FILE logging.basicConfig(**logging_config) logger = logging.getLogger('serial_mqtt_gateway') from modules.serial_port import SerialPort from modules.mqtt_client import MQTTClient from modules.network_config import network_manager from modules.modbus_rtu import ModbusRTUClient, ANTENNA_ADDRESSES, AddressConfigProtocol, build_broadcast_query, build_confirm_address, build_assign_address from modules.dht11_sensor import DHT11Sensor app = Flask(__name__) app.config['SECRET_KEY'] = FLASK_SECRET_KEY # 配置CORS以允许nginx代理的前端访问 CORS(app, resources={r"/api/*": {"origins": "*"}, r"/socket.io/*": {"origins": "*"}}) # 初始化SocketIO socketio = SocketIO( app, cors_allowed_origins=SOCKETIO_ALLOWED_ORIGINS, async_mode=SOCKETIO_ASYNC_MODE, manage_session=False, # 禁用会话管理以提高性能 ping_timeout=30, # 心跳超时时间 ping_interval=25, # 心跳间隔 logger=FLASK_DEBUG, # 根据Flask调试模式决定是否记录SocketIO日志 engineio_logger=FLASK_DEBUG ) # 初始化串口和MQTT客户端 serial_client = SerialPort() mqtt_client = MQTTClient() modbus_client = ModbusRTUClient(serial_client) address_config = AddressConfigProtocol(serial_client) # 初始化 DHT11 传感器(后续在 __main__ 中设置回调并启动) dht11_sensor = None if DHT11_ENABLED and (DHT11_GPIO_PIN is not None or DHT11_SIMULATE): dht11_sensor = DHT11Sensor( gpio_pin=DHT11_GPIO_PIN, gpio_chip=DHT11_GPIO_CHIP, poll_interval=DHT11_POLL_INTERVAL, simulate=DHT11_SIMULATE ) elif DHT11_ENABLED and DHT11_GPIO_PIN is None and not DHT11_SIMULATE: logger.warning("DHT11 已启用但未配置 GPIO pin (DHT11_GPIO_PIN),跳过本地传感器启动") # 转发标志 forward_serial_to_mqtt = DEFAULT_FORWARD_SERIAL_TO_MQTT forward_mqtt_to_serial = DEFAULT_FORWARD_MQTT_TO_SERIAL mqtt_publish_topic = DEFAULT_MQTT_PUBLISH_TOPIC # DTU MQTT协议配置(运行时可修改) dtu_config = { 'topic_prefix': DEFAULT_MQTT_TOPIC_PREFIX, 'customer_id': DEFAULT_CUSTOMER_ID, 'dtu_id': DEFAULT_DTU_ID, 'firmware_version': 'v1.0.0', 'hardware_version': 'v1.0', 'heartbeat_interval': DTU_HEARTBEAT_INTERVAL, 'enabled': True } DTU_CONFIG_FILE = os.path.join(os.path.dirname(os.path.abspath(__file__)), 'dtu_config.json') def load_dtu_config(): global dtu_config try: if os.path.exists(DTU_CONFIG_FILE): with open(DTU_CONFIG_FILE, 'r') as f: saved = json.load(f) dtu_config.update(saved) except Exception as e: logger.warning(f"加载DTU配置失败: {e}") def save_dtu_config(): try: with open(DTU_CONFIG_FILE, 'w') as f: json.dump(dtu_config, f, indent=2) except Exception as e: logger.warning(f"保存DTU配置失败: {e}") # 端口状态追踪(用于事件检测) port_state = {} # {panel_id: {port_id: {'last_uid': str, 'expected_uid': str, 'alarm_count': int}}} # 面板配置(从地址配置模块加载) panel_config = {} # {panel_id: {'address': int, 'position': int, 'panel_uid': str}} # 数据存储缓冲区 serial_data_buffer = [] mqtt_data_buffer = [] # 状态标志 serial_status = False mqtt_status = False # 串口配置保存和加载函数 def save_serial_config(port, baudrate=9600, timeout=1.0, bytesize=8, parity='N', stopbits=1): """保存串口配置""" config = { 'port': port, 'baudrate': baudrate, 'timeout': timeout, 'bytesize': bytesize, 'parity': parity, 'stopbits': stopbits } try: with open(SERIAL_CONFIG_FILE, 'w') as f: json.dump(config, f) logger.info(f"串口配置已保存: {port} @ {baudrate}") except Exception as e: logger.error(f"保存串口配置失败: {e}") def load_serial_config(): """加载串口配置""" if os.path.exists(SERIAL_CONFIG_FILE): try: with open(SERIAL_CONFIG_FILE, 'r') as f: config = json.load(f) logger.info(f"已加载串口配置: {config.get('port')} @ {config.get('baudrate')}") return config except Exception as e: logger.error(f"加载串口配置失败: {e}") return None def auto_connect_serial(): """自动连接上次使用的串口""" config = load_serial_config() if config and config.get('port'): port = config.get('port') baudrate = config.get('baudrate', 9600) timeout = config.get('timeout', 1.0) bytesize = config.get('bytesize', 8) parity = config.get('parity', 'N') stopbits = config.get('stopbits', 1) logger.info(f"尝试自动连接串口: {port} @ {baudrate}") success, message = serial_client.connect(port, baudrate=baudrate, timeout=timeout, bytesize=bytesize, parity=parity, stopbits=stopbits) if success: logger.info(f"自动连接串口成功: {port}") return True else: logger.warning(f"自动连接串口失败: {message}") return False # 客户端连接管理 connected_clients = { 'data': set(), 'status': set(), 'control': set() } # 设置回调函数 def serial_data_handler(data): """处理串口接收的数据""" try: timestamp = time.strftime('%Y-%m-%d %H:%M:%S') serial_data_buffer.append({ 'timestamp': timestamp, 'data': data, 'direction': 'in' }) if len(serial_data_buffer) > MAX_BUFFER_SIZE: serial_data_buffer.pop(0) socketio.emit('serial_data', { 'timestamp': timestamp, 'data': data, 'direction': 'in' }, namespace=SOCKETIO_NAMESPACE_DATA) if forward_serial_to_mqtt and mqtt_client.get_status(): success, msg = mqtt_client.publish(mqtt_publish_topic, data) if not success: logger.warning(f"串口数据转发到MQTT失败: {msg}") except Exception as e: logger.error(f"处理串口数据时出错: {str(e)}") def serial_send_handler(data): """处理串口发送的数据""" try: timestamp = time.strftime('%Y-%m-%d %H:%M:%S') serial_data_buffer.append({ 'timestamp': timestamp, 'data': data, 'direction': 'out' }) if len(serial_data_buffer) > MAX_BUFFER_SIZE: serial_data_buffer.pop(0) socketio.emit('serial_data', { 'timestamp': timestamp, 'data': data, 'direction': 'out' }, namespace=SOCKETIO_NAMESPACE_DATA) except Exception as e: logger.error(f"处理串口发送数据时出错: {str(e)}") def serial_status_handler(status): """处理串口状态变化""" try: global serial_status serial_status = status # 通过WebSocket广播状态变化 socketio.emit('serial_status', { 'connected': status }, namespace=SOCKETIO_NAMESPACE_STATUS) logger.info(f"串口状态更新: {'已连接' if status else '已断开'}") except Exception as e: logger.error(f"处理串口状态时出错: {str(e)}") def mqtt_data_handler(data): """处理MQTT接收的数据""" try: # 添加到缓冲区 timestamp = time.strftime('%Y-%m-%d %H:%M:%S') mqtt_data_buffer.append({ 'timestamp': timestamp, 'topic': data['topic'], 'payload': data['payload'] }) # 保持缓冲区大小 if len(mqtt_data_buffer) > MAX_BUFFER_SIZE: mqtt_data_buffer.pop(0) # 通过WebSocket广播数据 socketio.emit('mqtt_data', { 'timestamp': timestamp, 'topic': data['topic'], 'payload': data['payload'] }, namespace=SOCKETIO_NAMESPACE_DATA) # 如果启用了转发且串口已连接,转发数据到串口 if forward_mqtt_to_serial and serial_client.get_status(): success, msg = serial_client.send_data(data['payload']) if not success: logger.warning(f"MQTT数据转发到串口失败: {msg}") except Exception as e: logger.error(f"处理MQTT数据时出错: {str(e)}") def mqtt_status_handler(status): """处理MQTT状态变化""" try: global mqtt_status mqtt_status = status # 通过WebSocket广播状态变化 socketio.emit('mqtt_status', { 'connected': status }, namespace=SOCKETIO_NAMESPACE_STATUS) logger.info(f"MQTT状态更新: {'已连接' if status else '已断开'}") # 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 if status and dtu_config.get('enabled'): socketio.sleep(1) # 等待连接稳定 # 发送DTU注册消息 dtu_register() # 订阅控制主题 control_topic = build_dtu_topic(dtu_config['customer_id'], 'dtu', dtu_config['dtu_id'], 'control') mqtt_client.subscribe(control_topic, qos=1) logger.info(f"已订阅控制主题: {control_topic}") # 订阅广播主题 (DTU发现 7.14 和批量配置 7.15) discover_topic = build_dtu_topic('broadcast', 'dtu', 'discover') config_topic = build_dtu_topic('broadcast', 'dtu', 'config') mqtt_client.subscribe(discover_topic, qos=1) mqtt_client.subscribe(config_topic, qos=1) logger.info(f"已订阅广播主题: {discover_topic}, {config_topic}") except Exception as e: logger.error(f"处理MQTT状态时出错: {str(e)}") # ========== DTU MQTT协议处理函数 ========== def build_dtu_topic(*parts): """构建DTU MQTT主题""" prefix = dtu_config.get('topic_prefix', '线架系统') return '/'.join([prefix] + list(parts)) def dtu_register(discovery_request_id=None): """发送DTU注册消息""" if not mqtt_client.get_status(): logger.warning("MQTT未连接,无法发送注册消息") return False try: # 加载面板配置 devices = address_config.get_stored_devices() # 优先使用 dtu_config 中预设的 panel_id 映射 (uid_hex -> panel_id) panel_id_map = dtu_config.get('panel_id_mapping', {}) or {} panels = [] panel_id = 1 for uid_hex, addr in devices.items(): custom_id = panel_id_map.get(uid_hex) or panel_id_map.get(addr) if custom_id: pid = str(custom_id) else: pid = f"PANEL_{dtu_config['dtu_id']}_{addr}" panels.append({ 'panel_id': pid, 'address': addr, 'position': panel_id }) panel_id += 1 # 检测网络类型 network_type = 'ethernet' signal_strength = None try: interfaces = network_manager.get_status().get('interfaces', {}) for name, info in interfaces.items(): if name in ('lo', 'docker0') or name.startswith(('br-', 'veth')): continue if info.get('status') != 'UP': continue if name.startswith(('wlan', 'wlp')): network_type = 'wifi' # 读取信号强度 (dBm, 越接近 0 越强) try: import re with open('/proc/net/wireless') as f: for line in f.readlines()[2:]: m = re.match(r'\s*(\S+):.*\s(\d+)\.\s+(-?\d+)\.', line) if m: signal_strength = int(m.group(3)) break except Exception: pass elif name.startswith(('wwan', 'ppp', 'usb', 'eth')): # 移动网卡 if name.startswith(('wwan', 'ppp', 'usb')): network_type = 'cellular' break except Exception: pass payload = { 'msg_id': f"reg_{int(time.time() * 1000)}_{uuid.uuid4().hex[:6]}", 'timestamp': int(time.time() * 1000), 'dtu_id': dtu_config['dtu_id'], 'type': 'REGISTER', 'payload': { 'firmware_version': dtu_config.get('firmware_version', 'v1.0.0'), 'hardware_version': dtu_config.get('hardware_version', 'v1.0'), 'panel_count': len(panels), 'network_type': network_type, 'signal_strength': signal_strength, 'uptime': int(time.time() * 1000), 'panels': panels, 'discovery_request_id': discovery_request_id } } if discovery_request_id: payload['payload']['discovery_request_id'] = discovery_request_id topic = build_dtu_topic(dtu_config['customer_id'], 'dtu', dtu_config['dtu_id'], 'register') success, msg = mqtt_client.publish(topic, json.dumps(payload), qos=1) if success: logger.info(f"DTU注册消息已发送: {topic}") else: logger.error(f"DTU注册消息发送失败: {msg}") return success except Exception as e: logger.error(f"发送DTU注册消息失败: {str(e)}") return False _discover_dedup = {} def handle_broadcast_discover(payload): """处理广播发现消息 (7.14)""" try: if not isinstance(payload, dict) or payload.get('type') != 'DISCOVER': return p = payload.get('payload', {}) cust_id = p.get('customer_id', '') if cust_id and cust_id != dtu_config.get('customer_id'): return request_id = p.get('request_id', '') now = time.time() if request_id and request_id in _discover_dedup: if now - _discover_dedup[request_id] < 60: return _discover_dedup[request_id] = now # 清理超过 60s 的旧条目,防止内存泄漏 if len(_discover_dedup) > 256: for k in list(_discover_dedup.keys()): if now - _discover_dedup[k] > 60: _discover_dedup.pop(k, None) logger.info(f"收到DISCOVER广播,响应注册消息 (request_id={request_id})") import random delay = random.uniform(0, 3.0) time.sleep(delay) dtu_register(discovery_request_id=request_id) dtu_publish_status() except Exception as e: logger.error(f"处理广播发现消息失败: {str(e)}") def handle_broadcast_config(payload): """处理广播批量配置消息 (7.15)""" try: if isinstance(payload, dict) and payload.get('type') == 'CONFIG': cfg = payload.get('payload', {}) cust_id = cfg.get('customer_id', '') if cust_id and cust_id != dtu_config.get('customer_id'): return config_version = cfg.get('config_version', '') force_apply = cfg.get('force_apply', False) items = cfg.get('items', {}) local_version = dtu_config.get('config_version', '') incoming_msg_id = payload.get('msg_id', '') if local_version == config_version and not force_apply: logger.info(f"配置版本 {config_version} 已存在,跳过") _send_config_response(config_version, [], True, 1011, incoming_msg_id) return valid_ranges = { 'heartbeat_interval': (10, 3600), 'poll_interval_ms': (100, 10000), 'modbus_timeout_ms': (200, 5000), 'mqtt_keepalive': (10, 300), 'event_debounce_ms': (0, 5000), } applied = [] for key, val in items.items(): if key in valid_ranges: lo, hi = valid_ranges[key] if not (lo <= val <= hi): _send_config_response(config_version, applied, False, 1012, incoming_msg_id) return if key == 'heartbeat_interval': dtu_config['heartbeat_interval'] = val elif key == 'mqtt_keepalive': dtu_config['mqtt_keepalive'] = val elif key == 'event_debounce_ms': dtu_config['event_debounce_ms'] = val elif key == 'poll_interval_ms': dtu_config['poll_interval_ms'] = val elif key == 'modbus_timeout_ms': dtu_config['modbus_timeout_ms'] = val applied.append(key) elif key in ('alarm_enabled',): dtu_config['alarm_enabled'] = bool(val) applied.append(key) else: _send_config_response(config_version, applied, False, 1013, incoming_msg_id) return if applied: dtu_config['config_version'] = config_version try: save_dtu_config() except Exception as e: logger.error(f"配置写入持久化失败: {e}") _send_config_response(config_version, applied, False, 1014, incoming_msg_id) return _send_config_response(config_version, applied, True, 0, incoming_msg_id) except Exception as e: logger.error(f"处理广播配置消息失败: {str(e)}") def _send_config_response(config_version, applied_items, success, error_code, original_msg_id=''): """发送批量配置响应 (随机 0-2000ms 延迟避免广播风暴)""" import time as _t, json as _j, random as _r delay = _r.uniform(0, 2.0) def _delayed_publish(): _t.sleep(delay) topic = build_dtu_topic(dtu_config['customer_id'], 'dtu', dtu_config['dtu_id'], 'response') payload = { 'msg_id': f"rsp_cfg_{int(_t.time() * 1000)}", 'timestamp': int(_t.time() * 1000), 'dtu_id': dtu_config['dtu_id'], 'type': 'RESPONSE', 'payload': { 'original_msg_id': original_msg_id or f"cfg_{config_version}", 'command': 'BROADCAST_CONFIG', 'success': success, 'result': { 'applied_version': config_version, 'applied_items': applied_items, 'restart_required': False } if success else None, 'error_code': error_code, 'error_message': get_ota_error_message(error_code) if error_code and error_code >= 1000 else None } } mqtt_client.publish(topic, _j.dumps(payload), qos=1) # 异步执行避免阻塞 MQTT 主循环 threading.Thread(target=_delayed_publish, daemon=True).start() def dtu_publish_status(force=False): """发送DTU状态/心跳消息 Args: 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) """ if not mqtt_client.get_status() or not dtu_config.get('enabled'): return False # 调试日志: 区分定时 vs 触发上报 if force: logger.debug("dtu_publish_status(force=True) - 事件触发立即上报") try: # panel_online 计数: 在最近 60s 内所有 24 个端口都被成功轮询过 # 严格语义: 全部 24 端口在最近一轮 poll 周期内被 poll 成功 → online now_ms = int(time.time() * 1000) threshold_ms = 60_000 # 60 秒未轮询视为 offline poll_ok = 0 for pid, cfg in panel_config.items(): ps = port_state.get(pid, {}) expected_ports = cfg.get('port_count', 24) polled_recently = sum( 1 for p in ps.values() if p.get('last_polled_at') and (now_ms - p.get('last_polled_at', 0)) < threshold_ms ) if polled_recently >= expected_ports: poll_ok += 1 panel_online = poll_ok panel_offline = max(0, len(panel_config) - panel_online) # 检查串口状态 serial_st = serial_client.get_status() rs485_status = 'normal' if (isinstance(serial_st, dict) and serial_st.get('connected', False)) else 'error' # 网络状态: 检查实际接口 UP 状态 # 规则: 有线 (eth*/wlan*) UP → online; 仅 wifi 信号弱 (无 link/低质量) → weak; 否则 offline network_status = 'offline' try: interfaces = network_manager.get_status().get('interfaces', {}) real_ifs = {i: s for i, s in interfaces.items() if s.get('status') == 'UP' and i not in ('lo', 'docker0') and not i.startswith(('br-', 'veth'))} if real_ifs: # 优先有线连接 if any(i.startswith(('eth', 'en')) for i in real_ifs): network_status = 'online' else: # 仅无线: 检查信号强度 (Linux: /proc/net/wireless) try: import re with open('/proc/net/wireless') as f: lines = f.readlines() quality = None for line in lines[2:]: # 跳过表头 m = re.match(r'\s*(\S+):.*\s(\d+)\.\s+(\d+)\.\s+(\d+)', line) if m: # link quality (字段 2, 0-70); signal level (字段 3, dBm, 越低越差) link = int(m.group(2)) sig = int(m.group(3)) # 估算: link < 30 或 sig < -75 dBm 视为弱 if quality is None or link < quality: quality = link network_status = 'weak' if (quality is not None and quality < 30) else 'online' except Exception: network_status = 'online' except Exception: network_status = 'offline' # 屏幕连接: 检查 /dev/ttyUSB* 或专用 screen 串口是否打开 # 约定: 如果存在 screen 串口路径配置且对应端口处于已连接 → true screen_connected = False try: screen_port = dtu_config.get('screen_serial_port') if screen_port and isinstance(serial_st, dict): active = serial_st.get('port') == screen_port and serial_st.get('connected', False) screen_connected = active except Exception: pass # CPU/内存使用率 (Linux 才有意义) cpu_usage = None memory_usage = None dtu_temperature = None try: import psutil cpu_usage = psutil.cpu_percent(interval=None) memory_usage = psutil.virtual_memory().percent # 主板温度: 优先 psutil.sensors_temperatures try: temps = psutil.sensors_temperatures(fahrenheit=False) or {} for chip_name, entries in temps.items(): for entry in entries: if entry.current and entry.current > 0: dtu_temperature = round(entry.current, 1) break if dtu_temperature is not None: break except Exception: pass # 回退: 直接读 /sys/class/thermal/thermal_zone*/temp if dtu_temperature is None: import glob as _glob for tz in sorted(_glob.glob('/sys/class/thermal/thermal_zone*/temp')): try: with open(tz) as f: v = int(f.read().strip()) if v > 0: dtu_temperature = round(v / 1000.0, 1) break except Exception: continue except Exception: pass # 优先使用外部上报的 dtu_temperature (来自 MQTT/RS485 传感器) dtu_temperature = env_sensor_data.get('dtu_temperature') or dtu_temperature payload = { 'msg_id': f"hbt_{int(time.time() * 1000)}_{uuid.uuid4().hex[:6]}", 'timestamp': int(time.time() * 1000), 'dtu_id': dtu_config['dtu_id'], 'type': 'STATUS', 'payload': { 'cpu_usage': cpu_usage, 'memory_usage': memory_usage, 'temperature': dtu_temperature, 'network_status': network_status, 'panel_online': panel_online, 'panel_offline': panel_offline, 'screen_connected': screen_connected, 'mqtt_connected': mqtt_client.get_status().get('connected', False) if isinstance(mqtt_client.get_status(), dict) else bool(mqtt_client.get_status()), 'rs485_status': rs485_status } } topic = build_dtu_topic(dtu_config['customer_id'], 'dtu', dtu_config['dtu_id'], 'status') success, _ = mqtt_client.publish(topic, json.dumps(payload), qos=1) return success except Exception as e: logger.error(f"发送DTU状态消息失败: {str(e)}") return False def dtu_publish_event(panel_id, port_id, event_type, jumper_uid, previous_jumper_uid=None): """发送端口事件消息""" if not mqtt_client.get_status() or not dtu_config.get('enabled'): return False try: payload = { 'msg_id': f"evt_{int(time.time() * 1000)}", 'timestamp': int(time.time() * 1000), 'dtu_id': dtu_config['dtu_id'], 'type': 'EVENT', 'payload': { 'panel_id': panel_id, 'port_id': port_id, 'event_type': event_type, 'event_id': f"evt_{uuid.uuid4().hex[:8]}", 'jumper_uid': jumper_uid, 'previous_jumper_uid': previous_jumper_uid } } topic = build_dtu_topic(dtu_config['customer_id'], 'patchpanel', dtu_config['dtu_id'], panel_id, 'event') success, _ = mqtt_client.publish(topic, json.dumps(payload), qos=1) if success: logger.info(f"端口事件已发送: {panel_id}:{port_id} - {event_type}") # 记录到事件历史 port_event_history.append({ 'timestamp': int(time.time() * 1000), 'panel_id': panel_id, 'port_id': port_id, 'event_type': event_type, 'jumper_uid': jumper_uid, 'previous_jumper_uid': previous_jumper_uid }) # 限制历史记录数量 if len(port_event_history) > 1000: port_event_history[:] = port_event_history[-1000:] # 事件驱动: 立即上报一次 status (符合 7.4 "状态变化时立即上报") try: dtu_publish_status(force=True) except Exception: pass return success except Exception as e: logger.error(f"发送端口事件失败: {str(e)}") return False def dtu_publish_alarm(panel_id, port_id, alarm_type, expected_jumper_uid, actual_jumper_uid, severity='WARNING'): """发送非法告警消息""" if not mqtt_client.get_status() or not dtu_config.get('enabled'): return False try: 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}" payload = { 'msg_id': f"alm_{int(time.time() * 1000)}", 'timestamp': int(time.time() * 1000), 'dtu_id': dtu_config['dtu_id'], 'type': 'ALARM', 'payload': { 'panel_id': panel_id, 'port_id': port_id, 'alarm_type': alarm_type, 'severity': severity, 'expected_jumper_uid': expected_jumper_uid, 'actual_jumper_uid': actual_jumper_uid, 'description': description } } topic = build_dtu_topic(dtu_config['customer_id'], 'patchpanel', dtu_config['dtu_id'], panel_id, 'alarm') success, _ = mqtt_client.publish(topic, json.dumps(payload), qos=1) if success: logger.warning(f"非法告警已发送: {panel_id}:{port_id} - {alarm_type}") # 记录到事件历史 port_event_history.append({ 'timestamp': int(time.time() * 1000), 'panel_id': panel_id, 'port_id': port_id, 'event_type': 'ALARM', 'alarm_type': alarm_type, 'expected_jumper_uid': expected_jumper_uid, 'actual_jumper_uid': actual_jumper_uid }) # 限制历史记录数量 if len(port_event_history) > 1000: port_event_history[:] = port_event_history[-1000:] # 事件驱动: 告警后立即上报一次 status try: dtu_publish_status(force=True) except Exception: pass return success except Exception as e: logger.error(f"发送非法告警失败: {str(e)}") return False def dtu_publish_panel_status(panel_id, address, ports_data): """发送配线架状态消息 (7.7)""" if not mqtt_client.get_status() or not dtu_config.get('enabled'): return False try: topic = build_dtu_topic(dtu_config['customer_id'], 'patchpanel', dtu_config['dtu_id'], panel_id, 'status') payload = { 'msg_id': f"pst_{int(time.time() * 1000)}", 'timestamp': int(time.time() * 1000), 'dtu_id': dtu_config['dtu_id'], 'type': 'STATUS', 'payload': { 'panel_id': panel_id, 'position': panel_config.get(panel_id, {}).get('position', 0), 'address': address, 'online': True, 'last_poll_time': int(time.time() * 1000), 'ports': ports_data } } mqtt_client.publish(topic, json.dumps(payload), qos=0) return True except Exception as e: logger.error(f"发送面板状态失败: {str(e)}") return False def dtu_publish_jumper_status(): """发送跳线状态汇总 (7.8) - STATUS envelope with panels[] array""" if not mqtt_client.get_status() or not dtu_config.get('enabled'): return False try: panels_arr = [] for panel_id, cfg in panel_config.items(): ports_arr = [] ps = port_state.get(panel_id, {}) for port_id in range(1, 25): p = ps.get(port_id, {}) last_uid = p.get('last_uid') expected_uid = p.get('expected_uid') last_polled = p.get('last_polled_at') if not last_polled: status = 'UNKNOWN' elif last_uid is None: status = 'DISCONNECTED' if expected_uid: status = 'ILLEGAL' elif expected_uid and last_uid != expected_uid: status = 'ILLEGAL' else: status = 'CONNECTED' ports_arr.append({ 'port_id': port_id, 'status': status, 'jumper_uid': last_uid }) panels_arr.append({ 'panel_id': panel_id, 'position': cfg.get('position', 0), 'ports': ports_arr }) topic = build_dtu_topic(dtu_config['customer_id'], 'jumper', dtu_config['dtu_id'], 'status') payload = { 'msg_id': f"jmp_{int(time.time() * 1000)}", 'timestamp': int(time.time() * 1000), 'dtu_id': dtu_config['dtu_id'], 'type': 'STATUS', 'payload': {'panels': panels_arr} } mqtt_client.publish(topic, json.dumps(payload), qos=0) return True except Exception as e: logger.error(f"发送跳线状态汇总失败: {str(e)}") return False _env_sensor_data = { 'temperature': None, 'humidity': None, 'sensor_update_time': None } def update_env_sensor_data(temperature, humidity, dtu_temperature=None, sensor_update_time=None): """更新环境传感器数据 - 委托给完整实现(带历史和告警)""" update_env_sensor_data_full(temperature, humidity, dtu_temperature, sensor_update_time) def dtu_publish_env_sensor(): """发送环境传感器数据 (7.9) - STATUS envelope""" if not mqtt_client.get_status() or not dtu_config.get('enabled'): return False try: topic = build_dtu_topic(dtu_config['customer_id'], 'env', dtu_config['dtu_id'], 'sensor') payload = { 'msg_id': f"sen_{int(time.time() * 1000)}", 'timestamp': int(time.time() * 1000), 'dtu_id': dtu_config['dtu_id'], 'type': 'STATUS', 'payload': { 'temperature': _env_sensor_data.get('temperature'), 'humidity': _env_sensor_data.get('humidity'), 'sensor_update_time': _env_sensor_data.get('sensor_update_time') } } mqtt_client.publish(topic, json.dumps(payload), qos=0) return True except Exception as e: logger.error(f"发送环境传感器数据失败: {str(e)}") return False def dtu_handle_control(topic, payload): """处理下行控制指令""" try: if not dtu_config.get('enabled'): return command = payload.get('payload', {}).get('command') target = payload.get('payload', {}).get('target') params = payload.get('payload', {}).get('params', {}) logger.info(f"收到控制指令: command={command}, target={target}") response_payload = { 'msg_id': f"rsp_{int(time.time() * 1000)}_{uuid.uuid4().hex[:6]}", 'timestamp': int(time.time() * 1000), 'dtu_id': dtu_config['dtu_id'], 'type': 'RESPONSE', 'payload': { 'original_msg_id': payload.get('msg_id'), 'command': command, 'success': True, 'result': {}, 'error_code': 0, 'error_message': None } } topic_response_dtu = build_dtu_topic( dtu_config['customer_id'], 'dtu', dtu_config['dtu_id'], 'response') # 处理各命令 if command == 'SET_PORT_LED': # 设置端口LED port_id = params.get('port_id') led_mode = params.get('led_mode', 'OFF') # 参数校验 if port_id is None or not (1 <= int(port_id) <= 24): response_payload['payload']['success'] = False response_payload['payload']['error_code'] = 1003 response_payload['payload']['error_message'] = f"端口号非法: {port_id}" mqtt_client.publish(topic_response_dtu, json.dumps(response_payload), qos=1) return if led_mode not in ('OFF', 'BLINK_RED', 'BLINK_GREEN', 'BLINK_BLUE'): response_payload['payload']['success'] = False response_payload['payload']['error_code'] = 1004 response_payload['payload']['error_message'] = f"LED模式非法: {led_mode}" mqtt_client.publish(topic_response_dtu, json.dumps(response_payload), qos=1) return # LED模式映射 led_mode_map = {'OFF': 0, 'BLINK_RED': 1, 'BLINK_GREEN': 2, 'BLINK_BLUE': 3} color = led_mode_map.get(led_mode, 0) # 查找设备地址 device_address = 1 # 默认 for panel_id, cfg in panel_config.items(): if panel_id == target: device_address = cfg.get('address', 1) break result = modbus_client.set_rgb_led(device_address, port_id, color) response_payload['payload']['success'] = 'error' not in result response_payload['payload']['result'] = result if 'error' in result: response_payload['payload']['error_code'] = 1005 response_payload['payload']['error_message'] = result['error'] elif command == 'QUERY_DTU_STATUS': # 查询DTU状态 dtu_publish_status(force=True) elif command == 'SYNC_PORT_MAPPING': # 同步单端口期望映射 port_id = params.get('port_id') jumper_uid = params.get('jumper_uid') if port_id is None or target is None or target not in panel_config: response_payload['payload']['success'] = False response_payload['payload']['error_code'] = 1006 if port_id is None else 1002 response_payload['payload']['error_message'] = "参数缺失" if port_id is None else f"目标面板不存在: {target}" mqtt_client.publish(topic_response_dtu, json.dumps(response_payload), qos=1) return if target not in port_state: port_state[target] = {} if port_id not in port_state[target]: port_state[target][port_id] = {'last_uid': None, 'expected_uid': None, 'alarm_count': 0} port_state[target][port_id]['expected_uid'] = jumper_uid save_dtu_config() elif command == 'SYNC_ALL_MAPPING': # 批量同步期望映射 mappings = params.get('mappings', []) if not isinstance(mappings, list): response_payload['payload']['success'] = False response_payload['payload']['error_code'] = 1006 response_payload['payload']['error_message'] = "mappings 字段格式错误" mqtt_client.publish(topic_response_dtu, json.dumps(response_payload), qos=1) return try: for mapping in mappings: panel_id = mapping.get('panel_id') port_id = mapping.get('port_id') jumper_uid = mapping.get('jumper_uid') if panel_id not in panel_config: raise ValueError(f"目标面板不存在: {panel_id}") if panel_id not in port_state: port_state[panel_id] = {} if port_id not in port_state[panel_id]: port_state[panel_id][port_id] = {'last_uid': None, 'expected_uid': None, 'alarm_count': 0} port_state[panel_id][port_id]['expected_uid'] = jumper_uid save_dtu_config() except Exception as e: response_payload['payload']['success'] = False response_payload['payload']['error_code'] = 1007 response_payload['payload']['error_message'] = f"同步映射失败: {e}" mqtt_client.publish(topic_response_dtu, json.dumps(response_payload), qos=1) return elif command == 'REBOOT': # 重启DTU: 1s 延迟后执行 reboot import subprocess logger.warning(f"MQTT REBOOT 命令收到,1 秒后执行系统重启") threading.Thread(target=lambda: ( time.sleep(1), subprocess.run(['reboot'], capture_output=True) ), daemon=True).start() response_payload['payload']['result'] = {'message': 'Reboot scheduled in 1s'} elif command == 'READ_PANEL_STATUS': # 读取面板状态 # 读取面板的多个寄存器获取状态信息 # 寄存器地址定义: 0x0000=运行状态, 0x0001=LED控制, 0x0002-0x0009=天线卡状态 device_address = 1 for panel_id, cfg in panel_config.items(): if panel_id == target: device_address = cfg.get('address', 1) break # 读取面板状态寄存器 (地址0x0000开始,读取10个寄存器) status_result = modbus_client.read_holding_registers(device_address, 0x0000, 10) # 解析状态 registers = status_result.get('registers', []) panel_status = { 'device_address': device_address, 'run_status': registers[0] if len(registers) > 0 else None, 'led_control': registers[1] if len(registers) > 1 else None, 'antenna_status': registers[2:10] if len(registers) >= 10 else [], 'raw_registers': registers } response_payload['payload']['success'] = 'error' not in status_result response_payload['payload']['result'] = panel_status elif command == 'QUERY_JUMPER_STATUS': # 查询跳线器状态汇总 (7.8) - 触发 STATUS 上行至 jumper/{dtu_id}/status dtu_publish_jumper_status() return # dtu_publish_jumper_status 已发送响应 elif command == 'QUERY_ENV_SENSOR': # 查询环境传感器 (7.9) - 触发 STATUS 上行至 env/{dtu_id}/sensor dtu_publish_env_sensor() return # dtu_publish_env_sensor 已发送响应 elif command == 'OTA_UPGRADE': params = payload.get('payload', {}).get('params', {}) target_version = params.get('firmware_version') force_upgrade = params.get('force_upgrade', False) current_version = dtu_config.get('firmware_version', 'v1.0.0') incoming_msg_id = payload.get('msg_id', '') if target_version == current_version and not force_upgrade: response_payload['payload']['success'] = False response_payload['payload']['error_code'] = 1021 response_payload['payload']['error_message'] = f"已是目标版本: {target_version}" mqtt_client.publish(topic_response_dtu, json.dumps(response_payload), qos=1) return if params.get('firmware_url'): import threading threading.Thread(target=lambda: _run_ota({**params, '_incoming_msg_id': incoming_msg_id}), daemon=True).start() response_payload['payload']['success'] = True response_payload['payload']['result'] = { 'firmware_version': target_version, 'ota_status': 'DOWNLOADING', 'restart_required': False } elif command == 'OTA_CANCEL': # 取消OTA升级 # 向OTA控制寄存器写入取消命令 (0x0000=取消) device_address = 1 for panel_id, cfg in panel_config.items(): if panel_id == target: device_address = cfg.get('address', 1) break # OTA控制寄存器地址: 0x0300 # 值: 0x0000=取消升级 cancel_result = modbus_client.write_single_register(device_address, 0x0300, 0x0000) response_payload['payload']['success'] = 'error' not in cancel_result response_payload['payload']['result'] = { 'message': 'OTA upgrade cancelled' if 'error' not in cancel_result else 'Failed to cancel OTA', 'raw_result': cancel_result } else: # 未知命令 response_payload['payload']['success'] = False response_payload['payload']['error_code'] = 1001 response_payload['payload']['error_message'] = f"未知命令: {command}" mqtt_client.publish(topic_response_dtu, json.dumps(response_payload), qos=1) return # 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) if command == 'QUERY_DTU_STATUS': pass else: cmd = command if cmd == 'READ_PANEL_STATUS': if target and target != 'all' and target in panel_config: # 单个面板: 使用 panel_id 作为 topic segment topic = build_dtu_topic(dtu_config['customer_id'], 'patchpanel', dtu_config['dtu_id'], target, 'status') mqtt_client.publish(topic, json.dumps(response_payload), qos=0) else: # target=all: 遍历所有面板发布到各自的 topic for pid in panel_config.keys(): topic = build_dtu_topic(dtu_config['customer_id'], 'patchpanel', dtu_config['dtu_id'], pid, 'status') mqtt_client.publish(topic, json.dumps(response_payload), qos=0) else: topic = build_dtu_topic(dtu_config['customer_id'], 'dtu', dtu_config['dtu_id'], 'response') p = response_payload['payload'] if not p.get('success', True) and p.get('error_code', 0) == 0: p['error_code'] = 9999 p['error_message'] = p.get('error_message') or '未知错误' mqtt_client.publish(topic, json.dumps(response_payload), qos=1) except Exception as e: logger.error(f"处理控制指令失败: {str(e)}") # 启动DTU心跳定时器 def start_dtu_heartbeat(): """启动DTU心跳定时任务""" def heartbeat_task(): env_tick = 0 while True: socketio.sleep(dtu_config.get('heartbeat_interval', DTU_HEARTBEAT_INTERVAL)) if mqtt_client.get_status() and dtu_config.get('enabled'): dtu_publish_status() # 每 2 个心跳周期 (120s) 主动推送一次环境传感器数据 (7.9) env_tick += 1 if env_tick >= 2: env_tick = 0 dtu_publish_env_sensor() socketio.start_background_task(target=heartbeat_task) # 修改mqtt_data_handler以处理控制指令 def mqtt_data_handler_extended(data): """处理MQTT接收的数据(扩展版,含DTU协议)""" try: topic = data.get('topic', '') payload_str = data.get('payload', '') # 尝试解析JSON try: payload = json.loads(payload_str) if isinstance(payload_str, str) else payload_str except: payload = payload_str # 添加到缓冲区 timestamp = time.strftime('%Y-%m-%d %H:%M:%S') mqtt_data_buffer.append({ 'timestamp': timestamp, 'topic': topic, 'payload': payload_str }) if len(mqtt_data_buffer) > MAX_BUFFER_SIZE: mqtt_data_buffer.pop(0) # 通过WebSocket广播 socketio.emit('mqtt_data', { 'timestamp': timestamp, 'topic': topic, 'payload': payload_str }, namespace=SOCKETIO_NAMESPACE_DATA) # 检查是否是控制指令主题 expected_control_topic = build_dtu_topic(dtu_config['customer_id'], 'dtu', dtu_config['dtu_id'], 'control') if topic == expected_control_topic: dtu_handle_control(topic, payload) # 检查是否是状态主题,用于处理OTA状态上报 expected_status_topic = build_dtu_topic(dtu_config['customer_id'], 'dtu', dtu_config['dtu_id'], 'status') if topic == expected_status_topic and isinstance(payload, dict): if 'ota_status' in payload or 'firmware_version' in payload: handle_ota_status(dtu_config['dtu_id'], payload) # 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) sensor_topic = build_dtu_topic(dtu_config['customer_id'], 'sensor', dtu_config['dtu_id'], 'data') env_topic = build_dtu_topic(dtu_config['customer_id'], 'env', dtu_config['dtu_id'], 'sensor') if topic in (sensor_topic, env_topic) and isinstance(payload, dict): if 'temperature' in payload or 'humidity' in payload: update_env_sensor_data( payload.get('temperature'), payload.get('humidity'), payload.get('dtu_temperature'), payload.get('sensor_update_time') ) # 检查是否是广播主题 - DTU发现 (7.14) discover_topic = build_dtu_topic('broadcast', 'dtu', 'discover') if topic == discover_topic: handle_broadcast_discover(payload) # 检查是否是广播主题 - 批量配置 (7.15) config_topic = build_dtu_topic('broadcast', 'dtu', 'config') if topic == config_topic: handle_broadcast_config(payload) # 转发到串口(如果启用) if forward_mqtt_to_serial and serial_client.get_status(): success, msg = serial_client.send_data(payload_str) if not success: logger.warning(f"MQTT数据转发到串口失败: {msg}") except Exception as e: logger.error(f"处理MQTT数据时出错: {str(e)}") # WebSocket事件处理 @socketio.on('connect', namespace=SOCKETIO_NAMESPACE_DATA) def handle_data_connect(): """处理数据命名空间的连接""" try: client_id = str(uuid.uuid4()) connected_clients['data'].add(client_id) 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"])}') # 发送当前的缓冲区数据,限制发送的历史记录数量 max_history = 100 # 限制发送的历史记录数量以提高性能 emit('serial_data_history', {'data': serial_data_buffer[-max_history:]}) emit('mqtt_data_history', {'data': mqtt_data_buffer[-max_history:]}) # 存储客户端ID以便断开连接时使用 socketio.start_background_task(target=lambda: None) # 确保上下文可用 except Exception as e: logger.error(f"处理数据命名空间连接时出错: {str(e)}") @socketio.on('connect', namespace=SOCKETIO_NAMESPACE_STATUS) def handle_status_connect(): """处理状态命名空间的连接""" try: client_id = str(uuid.uuid4()) connected_clients['status'].add(client_id) 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"])}') # 发送当前状态 emit('serial_status', {'connected': serial_status}) emit('mqtt_status', {'connected': mqtt_status}) emit('forward_status', { 'serial_to_mqtt': forward_serial_to_mqtt, 'mqtt_to_serial': forward_mqtt_to_serial, 'publish_topic': mqtt_publish_topic }) except Exception as e: logger.error(f"处理状态命名空间连接时出错: {str(e)}") @socketio.on('connect', namespace=SOCKETIO_NAMESPACE_CONTROL) def handle_control_connect(): """处理控制命名空间的连接""" try: client_id = str(uuid.uuid4()) connected_clients['control'].add(client_id) 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"])}') except Exception as e: logger.error(f"处理控制命名空间连接时出错: {str(e)}") @socketio.on('disconnect', namespace=SOCKETIO_NAMESPACE_DATA) def handle_data_disconnect(): """处理数据命名空间的断开连接""" try: # 清理客户端连接记录 # 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 if len(connected_clients['data']) > 0: # 这里简化处理,实际应该维护session到client_id的映射 connected_clients['data'].pop() # 注意:这是一个简化的实现 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"])}') except Exception as e: logger.error(f"处理数据命名空间断开连接时出错: {str(e)}") @socketio.on('disconnect', namespace=SOCKETIO_NAMESPACE_STATUS) def handle_status_disconnect(): """处理状态命名空间的断开连接""" try: # 清理客户端连接记录 if len(connected_clients['status']) > 0: connected_clients['status'].pop() 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"])}') except Exception as e: logger.error(f"处理状态命名空间断开连接时出错: {str(e)}") @socketio.on('disconnect', namespace=SOCKETIO_NAMESPACE_CONTROL) def handle_control_disconnect(): """处理控制命名空间的断开连接""" try: # 清理客户端连接记录 if len(connected_clients['control']) > 0: connected_clients['control'].pop() 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"])}') except Exception as e: logger.error(f"处理控制命名空间断开连接时出错: {str(e)}") @socketio.on('serial_send', namespace=SOCKETIO_NAMESPACE_CONTROL) def handle_serial_send(data): """通过WebSocket处理串口发送数据请求""" try: message = data.get('message', '') if not message: emit('serial_send_response', { 'success': False, 'message': '消息内容不能为空', 'error_code': ERROR_CODES['CONFIG_ERROR'] }) return if not (isinstance(serial_client.get_status(), dict) and serial_client.get_status().get("connected", False)): emit('serial_send_response', { 'success': False, 'message': '串口未连接', 'error_code': ERROR_CODES['SERIAL_CONNECTION_ERROR'] }) return success, msg = serial_client.send_data(message) emit('serial_send_response', { 'success': success, 'message': msg, 'error_code': ERROR_CODES['SUCCESS'] if success else ERROR_CODES['SERIAL_SEND_ERROR'] }) if success: logger.info(f"通过WebSocket发送串口数据成功: {message[:50]}..." if len(message) > 50 else message) except Exception as e: error_msg = f"处理串口发送请求时出错: {str(e)}" logger.error(error_msg) emit('serial_send_response', { 'success': False, 'message': error_msg, 'error_code': ERROR_CODES['UNKNOWN_ERROR'] }) @socketio.on('mqtt_publish', namespace=SOCKETIO_NAMESPACE_CONTROL) def handle_mqtt_publish(data): """通过WebSocket处理MQTT发布数据请求""" try: topic = data.get('topic', '') message = data.get('message', '') if not topic or not message: emit('mqtt_publish_response', { 'success': False, 'message': '主题或消息内容不能为空', 'error_code': ERROR_CODES['CONFIG_ERROR'] }) return if not mqtt_client.get_status(): emit('mqtt_publish_response', { 'success': False, 'message': 'MQTT未连接', 'error_code': ERROR_CODES['MQTT_CONNECTION_ERROR'] }) return success, msg = mqtt_client.publish(topic, message) emit('mqtt_publish_response', { 'success': success, 'message': msg, 'error_code': ERROR_CODES['SUCCESS'] if success else ERROR_CODES['MQTT_PUBLISH_ERROR'] }) if success: 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) except Exception as e: error_msg = f"处理MQTT发布请求时出错: {str(e)}" logger.error(error_msg) emit('mqtt_publish_response', { 'success': False, 'message': error_msg, 'error_code': ERROR_CODES['UNKNOWN_ERROR'] }) @socketio.on('update_forward_config', namespace=SOCKETIO_NAMESPACE_CONTROL) def handle_update_forward_config(data): """通过WebSocket更新转发配置""" global forward_serial_to_mqtt, forward_mqtt_to_serial, mqtt_publish_topic try: # 更新转发标志 if 'serial_to_mqtt' in data: forward_serial_to_mqtt = bool(data['serial_to_mqtt']) if 'mqtt_to_serial' in data: forward_mqtt_to_serial = bool(data['mqtt_to_serial']) if 'publish_topic' in data: new_topic = str(data['publish_topic']) if not new_topic.strip(): raise ValueError("发布主题不能为空") mqtt_publish_topic = new_topic # 广播配置更新 socketio.emit('forward_status', { 'serial_to_mqtt': forward_serial_to_mqtt, 'mqtt_to_serial': forward_mqtt_to_serial, 'publish_topic': mqtt_publish_topic }, namespace=SOCKETIO_NAMESPACE_STATUS) emit('update_forward_config_response', { 'success': True, 'message': '转发配置已更新', 'error_code': ERROR_CODES['SUCCESS'] }) 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}") except ValueError as e: error_msg = str(e) logger.warning(f"转发配置更新失败: {error_msg}") emit('update_forward_config_response', { 'success': False, 'message': error_msg, 'error_code': ERROR_CODES['CONFIG_ERROR'] }) except Exception as e: error_msg = f'更新转发配置失败: {str(e)}' logger.error(error_msg) emit('update_forward_config_response', { 'success': False, 'message': error_msg, 'error_code': ERROR_CODES['UNKNOWN_ERROR'] }) @socketio.on('clear_data_buffer', namespace=SOCKETIO_NAMESPACE_CONTROL) def handle_clear_data_buffer(data): """通过WebSocket清空数据缓冲区""" try: buffer_type = data.get('type', '') if buffer_type == 'serial': serial_data_buffer.clear() emit('clear_data_buffer_response', { 'success': True, 'message': '串口数据缓冲区已清空', 'error_code': ERROR_CODES['SUCCESS'] }) logger.info("串口数据缓冲区已清空") elif buffer_type == 'mqtt': mqtt_data_buffer.clear() emit('clear_data_buffer_response', { 'success': True, 'message': 'MQTT数据缓冲区已清空', 'error_code': ERROR_CODES['SUCCESS'] }) logger.info("MQTT数据缓冲区已清空") elif buffer_type == 'all': serial_data_buffer.clear() mqtt_data_buffer.clear() emit('clear_data_buffer_response', { 'success': True, 'message': '所有数据缓冲区已清空', 'error_code': ERROR_CODES['SUCCESS'] }) logger.info("所有数据缓冲区已清空") else: emit('clear_data_buffer_response', { 'success': False, 'message': '无效的缓冲区类型', 'error_code': ERROR_CODES['CONFIG_ERROR'] }) logger.warning(f"清空缓冲区失败: 无效的缓冲区类型 '{buffer_type}'") except Exception as e: error_msg = f'清空缓冲区失败: {str(e)}' logger.error(error_msg) emit('clear_data_buffer_response', { 'success': False, 'message': error_msg, 'error_code': ERROR_CODES['UNKNOWN_ERROR'] }) # 设置回调 serial_client.set_data_callback(serial_data_handler) serial_client.set_send_callback(serial_send_handler) serial_client.set_status_callback(serial_status_handler) mqtt_client.set_data_callback(mqtt_data_handler_extended) mqtt_client.set_status_callback(mqtt_status_handler) # 设备配置文件路径 DEVICE_CONFIG_FILE = '/root/dzxj_dtu/devices.json' confirm_loop_running = False def save_device_config(): """保存设备配置到文件""" try: filepath = DEVICE_CONFIG_FILE success = address_config.save_config(filepath) if success: logger.info(f"设备配置已保存到: {filepath}") except Exception as e: logger.error(f"保存设备配置失败: {str(e)}") def load_device_config(): """加载设备配置""" try: filepath = DEVICE_CONFIG_FILE if os.path.exists(filepath): success = address_config.load_config(filepath) if success: devices = address_config.get_stored_devices() logger.info(f"已加载 {len(devices)} 个设备配置") return devices except Exception as e: logger.error(f"加载设备配置失败: {str(e)}") return {} def confirm_loop(): """后台确认线程:每10秒对所有已存储设备发送 confirm_address""" global confirm_loop_running confirm_loop_running = True logger.info("启动设备确认线程 (间隔10秒)") while confirm_loop_running: try: devices = address_config.get_stored_devices() if not devices: time.sleep(10) continue if not serial_client.get_status(): time.sleep(10) continue _st = serial_client.get_status() if not (isinstance(_st, dict) and _st.get('connected', False)): time.sleep(10) continue for uid_hex, addr in devices.items(): try: uid_bytes = bytes.fromhex(uid_hex) cmd = build_confirm_address(addr, uid_bytes) success, msg = serial_client.send_raw(cmd) if success: logger.debug(f"确认设备: 地址={addr}, UID={uid_hex[:16]}...") else: logger.warning(f"确认失败 地址={addr}: {msg}") except Exception as e: logger.error(f"确认异常 地址={addr}: {str(e)}") time.sleep(0.1) except Exception as e: logger.error(f"确认线程异常: {str(e)}") time.sleep(10) # API路由 # 移除静态文件服务,前端由nginx提供服务 # 根路径路由 @app.route('/') def index(): return send_from_directory(STATIC_FOLDER, 'index.html') # 404错误处理器 - 解决SPA路由刷新问题 @app.errorhandler(404) def page_not_found(e): """处理所有404错误,对于非API路径返回index.html""" path = request.path # 检查是否是API请求 if path.startswith('/api/'): # 对于API请求,返回404错误 return jsonify({ 'success': False, 'message': 'API endpoint not found' }), 404 # 对于所有非API路径,返回index.html让前端路由处理 return send_from_directory(STATIC_FOLDER, 'index.html'), 200 @app.route('/api/serial/ports', methods=['GET']) def get_serial_ports(): """获取可用串口列表""" ports = serial_client.list_ports() return jsonify({ 'success': True, 'ports': ports }) @app.route('/api/serial/connect', methods=['POST']) def serial_connect(): """连接串口""" try: data = request.json port = data.get('port') baudrate = data.get('baudrate', 9600) bytesize = data.get('bytesize', 8) parity = data.get('parity', 'N') stopbits = data.get('stopbits', 1) timeout = data.get('timeout', 0.1) if not port: logger.warning("连接串口请求缺少串口名称") return jsonify({ 'success': False, 'message': '串口名称不能为空', 'error_code': ERROR_CODES['CONFIG_ERROR'] }), 400 # 先断开之前的连接 _status = serial_client.get_status() if isinstance(_status, dict) and _status.get('connected', False): _port = serial_client.current_config.port if serial_client.current_config else 'unknown' logger.info(f"断开现有串口连接: {_port}") serial_client.disconnect() # 连接新的串口 logger.info(f"尝试连接串口: {port}, 波特率: {baudrate}") success, message = serial_client.connect(port, baudrate=baudrate, timeout=timeout, bytesize=bytesize, parity=parity, stopbits=stopbits) status_code = 200 if success else 400 error_code = ERROR_CODES['SUCCESS'] if success else ERROR_CODES['SERIAL_CONNECTION_ERROR'] response = { 'success': success, 'message': message, 'error_code': error_code } if success: logger.info(f"串口连接成功: {port}") # 保存串口配置 save_serial_config(port, baudrate, timeout, bytesize, parity, stopbits) else: logger.error(f"串口连接失败: {message}") return jsonify(response), status_code except Exception as e: error_msg = f'连接串口时出错: {str(e)}' logger.exception(error_msg) # 使用exception记录完整堆栈 return jsonify({ 'success': False, 'message': error_msg, 'error_code': ERROR_CODES['UNKNOWN_ERROR'] }), 500 @app.route('/api/serial/disconnect', methods=['POST']) def serial_disconnect(): """断开串口连接""" success, message = serial_client.disconnect() return jsonify({ 'success': success, 'message': message }) @app.route('/api/serial/status', methods=['GET']) def serial_get_status(): """获取串口状态""" _st = serial_client.get_status() saved_config = {} try: with open(SERIAL_CONFIG_FILE, 'r') as f: saved_config = json.load(f) except (FileNotFoundError, json.JSONDecodeError): pass result = {'saved_config': saved_config} if isinstance(_st, dict): result['connected'] = _st.get('connected', False) if result['connected']: cfg = _st.get('config') result['port'] = cfg.port if cfg else None else: result['port'] = None else: result['connected'] = bool(_st) result['port'] = None return jsonify(result) @app.route('/api/serial/send', methods=['POST']) def serial_send(): """发送数据到串口""" data = request.json message = data.get('message') if not message: return jsonify({ 'success': False, 'message': '消息内容不能为空' }) success, message = serial_client.send_data(message) return jsonify({ 'success': success, 'message': message }) @app.route('/api/mqtt/connect', methods=['POST']) def mqtt_connect(): """连接MQTT服务器""" try: data = request.json host = data.get('broker') or data.get('host', 'localhost') port = data.get('port', 1883) client_id = data.get('client_id', f'serial_gateway_{int(time.time())}') username = data.get('username') password = data.get('password') keepalive = data.get('keepalive', 60) # 先断开之前的连接 if mqtt_client.get_status(): logger.info(f"断开现有MQTT连接: {mqtt_client.host}:{mqtt_client.port}") mqtt_client.disconnect() # 连接新的MQTT服务器 logger.info(f"尝试连接MQTT服务器: {host}:{port}, 客户端ID: {client_id}") will_topic = build_dtu_topic(dtu_config['customer_id'], 'dtu', dtu_config['dtu_id'], 'status') will_payload = json.dumps({ 'dtu_id': dtu_config['dtu_id'], 'type': 'STATUS', 'payload': {'online': False, 'reason': 'CONNECTION_LOST'} }) success, message = mqtt_client.connect( host=host, port=port, client_id=client_id, username=username, password=password, keepalive=keepalive, will_topic=will_topic, will_payload=will_payload, will_qos=1, will_retain=False ) # 如果连接成功,订阅主题 if success and 'topics' in data: mqtt_client.subscribe(data['topics']) status_code = 200 if success else 400 error_code = ERROR_CODES['SUCCESS'] if success else ERROR_CODES['MQTT_CONNECTION_ERROR'] response = { 'success': success, 'message': message, 'error_code': error_code } if success: logger.info(f"MQTT服务器连接成功: {host}:{port}") else: logger.error(f"MQTT服务器连接失败: {message}") return jsonify(response), status_code except Exception as e: error_msg = f'连接MQTT服务器时出错: {str(e)}' logger.exception(error_msg) return jsonify({ 'success': False, 'message': error_msg, 'error_code': ERROR_CODES['UNKNOWN_ERROR'] }), 500 @app.route('/api/mqtt/disconnect', methods=['POST']) def mqtt_disconnect(): """断开MQTT连接""" success, message = mqtt_client.disconnect() return jsonify({ 'success': success, 'message': message }) @app.route('/api/mqtt/status', methods=['GET']) def mqtt_get_status(): """获取MQTT状态""" _st = mqtt_client.get_status() return jsonify({ 'connected': _st.get('connected', False) if isinstance(_st, dict) else bool(_st) }) @app.route('/api/mqtt/publish', methods=['POST']) def mqtt_publish(): """发布MQTT消息""" data = request.json topic = data.get('topic') message = data.get('message') if not topic or not message: return jsonify({ 'success': False, 'message': '主题和消息内容不能为空' }) success, message = mqtt_client.publish(topic, message) return jsonify({ 'success': success, 'message': message }) @app.route('/api/mqtt/subscribe', methods=['POST']) def mqtt_subscribe(): """订阅MQTT主题""" data = request.json topics = data.get('topics', []) if not topics: return jsonify({ 'success': False, 'message': '请至少订阅一个主题' }) success, message = mqtt_client.subscribe(topics) return jsonify({ 'success': success, 'message': message }) @app.route('/api/mqtt/broadcast_discover', methods=['POST']) def mqtt_broadcast_discover(): """发送DTU发现广播 (7.14) 服务器通过广播主题发送DISCOVER消息, 触发所有在线DTU进行注册响应 """ data = request.json or {} customer_id = data.get('customer_id', dtu_config.get('customer_id', 'default')) discover_topic = build_dtu_topic('broadcast', 'dtu', 'discover') request_id = f"dsc_{int(time.time() * 1000)}" payload = { 'msg_id': request_id, 'timestamp': int(time.time() * 1000), 'dtu_id': 'PLATFORM', 'type': 'DISCOVER', 'payload': { 'request_id': request_id, 'customer_id': customer_id } } success, message = mqtt_client.publish(discover_topic, json.dumps(payload), qos=1) logger.info(f"发送DTU发现广播: topic={discover_topic}, payload={payload}") return jsonify({ 'success': success, 'message': 'DTU发现广播已发送' if success else message, 'topic': discover_topic }) @app.route('/api/mqtt/broadcast_config', methods=['POST']) def mqtt_broadcast_config(): """发送DTU批量配置广播 (7.15) 服务器通过广播主题发送CONFIG消息, 用于批量配置所有在线DTU """ data = request.json or {} customer_id = data.get('customer_id', dtu_config.get('customer_id', 'default')) config_items = data.get('items', {}) config_version = data.get('config_version', f"cfg_{int(time.time())}") force_apply = data.get('force_apply', False) config_topic = build_dtu_topic('broadcast', 'dtu', 'config') payload = { 'msg_id': f"cfg_{int(time.time() * 1000)}", 'timestamp': int(time.time() * 1000), 'dtu_id': 'PLATFORM', 'type': 'CONFIG', 'payload': { 'customer_id': customer_id, 'config_version': config_version, 'force_apply': force_apply, 'items': config_items } } success, message = mqtt_client.publish(config_topic, json.dumps(payload), qos=1) logger.info(f"发送DTU批量配置广播: topic={config_topic}, payload={payload}") return jsonify({ 'success': success, 'message': 'DTU批量配置广播已发送' if success else message, 'topic': config_topic, 'config': { 'config_version': config_version, 'items': config_items, 'force_apply': force_apply } }) @app.route('/api/data/serial', methods=['GET']) def get_serial_data(): """获取串口数据""" return jsonify({ 'data': serial_data_buffer }) @app.route('/api/data/mqtt', methods=['GET']) def get_mqtt_data(): """获取MQTT数据""" return jsonify({ 'data': mqtt_data_buffer }) @app.route('/api/forward/config', methods=['POST']) def set_forward_config(): """设置转发配置""" global forward_serial_to_mqtt, forward_mqtt_to_serial, mqtt_publish_topic data = request.json forward_serial_to_mqtt = data.get('serial_to_mqtt', False) forward_mqtt_to_serial = data.get('mqtt_to_serial', False) if 'publish_topic' in data: mqtt_publish_topic = data['publish_topic'] return jsonify({ 'success': True, 'message': '转发配置已更新', 'config': { 'serial_to_mqtt': forward_serial_to_mqtt, 'mqtt_to_serial': forward_mqtt_to_serial, 'publish_topic': mqtt_publish_topic } }) @app.route('/api/forward/status', methods=['GET']) def get_forward_status(): """获取转发状态""" return jsonify({ 'serial_to_mqtt': forward_serial_to_mqtt, 'mqtt_to_serial': forward_mqtt_to_serial, 'publish_topic': mqtt_publish_topic }) # 健康检查端点 @app.route('/api/health', methods=['GET']) def health_check(): """健康检查端点""" try: # 获取客户端连接数量 client_counts = { 'data': len(connected_clients['data']), 'status': len(connected_clients['status']), 'control': len(connected_clients['control']) } # 获取缓冲区大小 buffer_sizes = { 'serial': len(serial_data_buffer), 'mqtt': len(mqtt_data_buffer) } # 执行系统负载检查 # 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 is_healthy = True load_warnings = [] # 检查缓冲区是否过大 if buffer_sizes['serial'] > MAX_BUFFER_SIZE * 0.8: is_healthy = False load_warnings.append(f"串口缓冲区接近最大容量: {buffer_sizes['serial']}/{MAX_BUFFER_SIZE}") if buffer_sizes['mqtt'] > MAX_BUFFER_SIZE * 0.8: is_healthy = False load_warnings.append(f"MQTT缓冲区接近最大容量: {buffer_sizes['mqtt']}/{MAX_BUFFER_SIZE}") # 检查WebSocket连接数是否过多 total_clients = sum(client_counts.values()) if total_clients > 100: # 设置合理的阈值 is_healthy = False load_warnings.append(f"WebSocket连接数过多: {total_clients}") # 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) network_info = None try: network_info = network_manager.get_network_status() except Exception as e: logger.warning(f"获取网络状态时出错: {str(e)}") # 不影响整体健康检查,只添加警告 load_warnings.append(f"网络状态获取失败: {str(e)}") response = { 'status': 'healthy' if is_healthy else 'warning', 'timestamp': time.strftime('%Y-%m-%d %H:%M:%S'), 'services': { 'serial': serial_status, 'mqtt': mqtt_status, 'websocket': True }, 'client_counts': client_counts, 'buffer_sizes': buffer_sizes, 'warnings': load_warnings } # 仅当获取到网络信息时添加 if network_info: response['network'] = network_info return jsonify(response), 200 except Exception as e: # 捕获所有异常,确保健康检查不会返回500错误 logger.error(f"健康检查端点出错: {str(e)}") # 返回一个基础的健康状态,至少显示服务在运行 return jsonify({ 'status': 'error', 'timestamp': time.strftime('%Y-%m-%d %H:%M:%S'), 'error': str(e), 'services': { 'api': True, # API服务本身是运行的 'serial': None, 'mqtt': None, 'websocket': None } }), 200 # 仍然返回200,避免健康检查导致的连锁反应 # 网络配置相关API @app.route('/api/network/config', methods=['GET']) def get_network_config(): """获取当前网络配置""" try: config = network_manager.get_network_config() return jsonify(config) except Exception as e: logger.error(f'获取网络配置失败: {str(e)}') return jsonify({'success': False, 'message': f'获取网络配置失败: {str(e)}'}), 500 @app.route('/api/network/config', methods=['POST']) def update_network_config(): """更新网络配置""" try: config_data = request.json result = network_manager.update_network_config(config_data) if result['success']: return jsonify(result) else: return jsonify(result), 400 except Exception as e: logger.error(f'更新网络配置失败: {str(e)}') return jsonify({'success': False, 'message': f'更新网络配置失败: {str(e)}'}), 500 @app.route('/api/network/status', methods=['GET']) def get_network_status(): """获取网络状态信息""" try: status = network_manager.get_network_status() return jsonify(status) except Exception as e: logger.error(f'获取网络状态失败: {str(e)}') return jsonify({'success': False, 'message': f'获取网络状态失败: {str(e)}'}), 500 @app.route('/api/network/restart', methods=['POST']) def restart_network_service(): """重启网络服务以应用新配置""" try: result = network_manager.restart_network_service() if result['success']: return jsonify(result) else: return jsonify(result), 500 except Exception as e: logger.error(f'重启网络服务失败: {str(e)}') return jsonify({'success': False, 'message': f'重启网络服务失败: {str(e)}'}), 500 # Modbus RTU API @app.route('/api/modbus/antenna_addresses', methods=['GET']) def get_antenna_addresses(): """获取天线地址映射表""" return jsonify({ 'success': True, 'antennas': {str(k): f"0x{v:04x}" for k, v in ANTENNA_ADDRESSES.items()} }) @app.route('/api/modbus/read_antenna', methods=['POST']) def modbus_read_antenna(): """读取指定天线的卡号 请求参数: { "device_address": 1, // 设备地址 (1-247) "antenna": 1, // 天线编号 (1-24) "timeout": 1.0 // 可选,超时时间(秒) } """ try: data = request.json device_address = data.get('device_address', 1) antenna = data.get('antenna', 1) timeout = data.get('timeout') if antenna < 1 or antenna > 24: return jsonify({ 'success': False, 'message': f'无效的天线编号: {antenna}, 必须是1-24' }), 400 if not (isinstance(serial_client.get_status(), dict) and serial_client.get_status().get("connected", False)): return jsonify({ 'success': False, 'message': '串口未连接' }), 400 result = modbus_client.read_antenna_card( device_address=device_address, antenna_num=antenna, timeout=timeout ) if 'error' in result: return jsonify({ 'success': False, 'message': result['error'], 'raw_data': result.get('raw_data', '') }), 400 return jsonify({ 'success': True, 'data': result }) except Exception as e: logger.error(f'读取天线数据失败: {str(e)}') return jsonify({ 'success': False, 'message': str(e) }), 500 @app.route('/api/modbus/read_registers', methods=['POST']) def modbus_read_registers(): """读取保持寄存器 请求参数: { "device_address": 1, "start_address": 2, // 起始地址 (十六进制如0x0002或十进制如2) "quantity": 4, // 寄存器数量 "timeout": 1.0 } """ try: data = request.json device_address = data.get('device_address', 1) start_address = data.get('start_address', 0) quantity = data.get('quantity', 1) timeout = data.get('timeout') # 支持十六进制字符串 if isinstance(start_address, str): start_address = int(start_address, 16) if isinstance(device_address, str): device_address = int(device_address, 16) if not (isinstance(serial_client.get_status(), dict) and serial_client.get_status().get("connected", False)): return jsonify({ 'success': False, 'message': '串口未连接' }), 400 result = modbus_client.read_holding_registers( device_address=device_address, start_address=start_address, quantity=quantity, timeout=timeout ) if 'error' in result: return jsonify({ 'success': False, 'message': result['error'], 'raw_data': result.get('raw_data', '') }), 400 return jsonify({ 'success': True, 'data': result }) except Exception as e: logger.error(f'读取寄存器失败: {str(e)}') return jsonify({ 'success': False, 'message': str(e) }), 500 @app.route('/api/modbus/write_register', methods=['POST']) def modbus_write_register(): """写单个寄存器 请求参数: { "device_address": 1, "register_address": 1, // 寄存器地址 "value": 256, // 写入的值 "timeout": 1.0 } """ try: data = request.json device_address = data.get('device_address', 1) register_address = data.get('register_address', 1) value = data.get('value', 0) timeout = data.get('timeout') if not (isinstance(serial_client.get_status(), dict) and serial_client.get_status().get("connected", False)): return jsonify({ 'success': False, 'message':'串口未连接' }), 400 result = modbus_client.write_single_register( device_address=device_address, register_address=register_address, value=value, timeout=timeout ) if 'error' in result: return jsonify({ 'success': False, 'message': result['error'], 'raw_data': result.get('raw_data', '') }), 400 return jsonify({ 'success': True, 'data': result }) except Exception as e: logger.error(f'写寄存器失败: {str(e)}') return jsonify({ 'success': False, 'message': str(e) }), 500 @app.route('/api/modbus/set_rgb_led', methods=['POST']) def modbus_set_rgb_led(): """设置RGB灯状态 请求参数: { "device_address": 1, "led_number": 1, // 灯编号 (1-24) "color": 1, // 颜色: 0=灭, 1=红灯, 2=绿灯, 3=蓝灯 "timeout": 1.0 } """ try: data = request.json device_address = data.get('device_address', 1) led_number = data.get('led_number', 1) color = data.get('color', 0) timeout = data.get('timeout') if not (isinstance(serial_client.get_status(), dict) and serial_client.get_status().get("connected", False)): return jsonify({ 'success': False, 'message': '串口未连接' }), 400 result = modbus_client.set_rgb_led( device_address=device_address, led_number=led_number, color=color, timeout=timeout ) if 'error' in result: return jsonify({ 'success': False, 'message': result['error'], 'raw_data': result.get('raw_data', '') }), 400 # 更新 LED 状态追踪 led_states[led_number] = color return jsonify({ 'success': True, 'data': result }) except Exception as e: logger.error(f'设置RGB灯失败: {str(e)}') return jsonify({ 'success': False, 'message': str(e) }), 500 @app.route('/api/modbus/scan', methods=['POST']) def modbus_scan_devices(): """扫描在线设备 请求参数: { "max_address": 247, // 最大设备地址 "timeout": 0.2 // 单个设备超时时间 } """ try: data = request.json or {} max_address = data.get('max_address', 247) timeout = data.get('timeout', 0.2) if not (isinstance(serial_client.get_status(), dict) and serial_client.get_status().get("connected", False)): return jsonify({ 'success': False, 'message': '串口未连接' }), 400 # 异步扫描可能更好,但这里先同步实现 result = modbus_client.scan_devices(max_address) return jsonify({ 'success': True, 'devices': result }) except Exception as e: logger.error(f'扫描设备失败: {str(e)}') return jsonify({ 'success': False, 'message': str(e) }), 500 # ========== 地址配置协议 API ========== @app.route('/api/modbus/broadcast_query', methods=['POST']) def modbus_broadcast_query(): """发送广播查询指令""" try: data = request.json or {} timeout = data.get('timeout') if not (isinstance(serial_client.get_status(), dict) and serial_client.get_status().get("connected", False)): return jsonify({'success': False, 'message': '串口未连接'}), 400 responses = address_config.broadcast_query(timeout) assign_results = [] if responses: assign_results = address_config.process_responses(responses) for r in assign_results: uid_bytes = r.get('uid', r.get('request', '')) save_device_config() return jsonify({ 'success': True, 'responses': responses, 'assign_results': assign_results, 'count': len(responses) }) except Exception as e: logger.error(f'广播查询失败: {str(e)}') return jsonify({'success': False, 'message': str(e)}), 500 @app.route('/api/modbus/auto_configure', methods=['POST']) def modbus_auto_configure(): """自动配置设备地址""" try: data = request.json or {} timeout = data.get('timeout') if not (isinstance(serial_client.get_status(), dict) and serial_client.get_status().get("connected", False)): return jsonify({'success': False, 'message': '串口未连接'}), 400 result = address_config.auto_configure(timeout) if result.get('success') and (result.get('discovered', 0) > 0 or result.get('confirmed', 0) > 0 or result.get('assigned', 0) > 0): save_device_config() return jsonify(result) except Exception as e: logger.error(f'自动配置失败: {str(e)}') return jsonify({'success': False, 'message': str(e)}), 500 @app.route('/api/modbus/stored_devices', methods=['GET']) def get_stored_devices(): """获取已存储的设备列表""" return jsonify({'success': True, 'devices': address_config.get_stored_devices()}) @app.route('/api/modbus/stored_devices', methods=['POST']) def add_stored_device(): """添加已存储的设备""" try: data = request.json uid = data.get('uid', '').lower() address = data.get('address', 1) if len(uid) != 24: return jsonify({'success': False, 'message': 'UID长度必须是24个十六进制字符'}), 400 address_config.add_stored_device(uid, address) save_device_config() return jsonify({'success': True, 'message': f'已添加设备: UID={uid}, 地址={address}'}) except Exception as e: return jsonify({'success': False, 'message': str(e)}), 500 @app.route('/api/modbus/load_config', methods=['POST']) def modbus_load_config(): """从文件加载设备配置""" try: data = request.json filepath = data.get('filepath', '/tmp/modbus_devices.json') success = address_config.load_config(filepath) return jsonify({'success': success, 'devices': address_config.get_stored_devices()}) except Exception as e: return jsonify({'success': False, 'message': str(e)}), 500 @app.route('/api/modbus/save_config', methods=['POST']) def modbus_save_config(): """保存设备配置到文件""" try: data = request.json filepath = data.get('filepath', '/tmp/modbus_devices.json') success = address_config.save_config(filepath) return jsonify({'success': success, 'message': f'配置已保存到: {filepath}' if success else '保存失败'}) except Exception as e: return jsonify({'success': False, 'message': str(e)}), 500 @app.route('/api/modbus/confirm_devices', methods=['POST']) def confirm_devices(): """手动触发对所有已存储设备的确认""" try: devices = address_config.get_stored_devices() if not devices: return jsonify({'success': False, 'message': '没有已存储的设备'}), 400 if not (isinstance(serial_client.get_status(), dict) and serial_client.get_status().get("connected", False)): return jsonify({'success': False, 'message': '串口未连接'}), 400 results = [] for uid_hex, addr in devices.items(): try: uid_bytes = bytes.fromhex(uid_hex) cmd = build_confirm_address(addr, uid_bytes) success, msg = serial_client.send_raw(cmd) logger.info(f"确认设备 地址={addr}: {'成功' if success else '失败 ' + msg}") results.append({'address': addr, 'uid': uid_hex, 'success': success, 'message': msg}) except Exception as e: results.append({'address': addr, 'uid': uid_hex, 'success': False, 'message': str(e)}) time.sleep(0.1) return jsonify({'success': True, 'results': results, 'count': len(results)}) except Exception as e: return jsonify({'success': False, 'message': str(e)}), 500 # 端口状态追踪 - 用于存储每个端口的事件状态 port_event_history = [] # 存储最近的端口事件 @app.route('/api/port/status', methods=['GET']) def get_port_status(): """获取所有端口状态""" return jsonify({'success': True, 'port_state': port_state}) @app.route('/api/port/events', methods=['GET']) def get_port_events(): """获取端口事件历史""" limit = request.args.get('limit', 100, type=int) return jsonify({ 'success': True, 'events': port_event_history[-limit:] }) @app.route('/api/port/clear_events', methods=['POST']) def clear_port_events(): """清除端口事件历史""" global port_event_history port_event_history = [] return jsonify({'success': True, 'message': '事件历史已清除'}) # 设备最后响应时间跟踪 device_last_seen = {} @app.route('/api/panel/status', methods=['GET']) def get_panel_status(): """获取所有面板状态""" now = time.time() PANEL_OFFLINE_TIMEOUT = 60 panel_status = {} for panel_id, ports in port_state.items(): port_count = len(ports) alarm_count = sum(1 for p in ports.values() if p.get('alarm_count', 0) > 0) connected_count = sum(1 for p in ports.values() if p.get('last_uid')) panel_status[panel_id] = { 'panel_id': panel_id, 'port_count': port_count, 'connected_count': connected_count, 'alarm_count': alarm_count, 'status': 'online' if connected_count > 0 else 'offline' } for panel_id, cfg in panel_config.items(): last_seen = device_last_seen.get(panel_id, 0) is_online = (now - last_seen) < PANEL_OFFLINE_TIMEOUT if panel_id in panel_status: panel_status[panel_id].update({ 'address': cfg.get('address'), 'position': cfg.get('position'), 'panel_uid': cfg.get('panel_uid'), 'status': 'online' if is_online else 'offline' }) else: panel_status[panel_id] = { 'panel_id': panel_id, 'address': cfg.get('address'), 'position': cfg.get('position'), 'panel_uid': cfg.get('panel_uid'), 'port_count': 0, 'connected_count': 0, 'alarm_count': 0, 'status': 'online' if is_online else 'offline' } return jsonify({'success': True, 'panels': panel_status}) # LED 状态追踪 (内存中跟踪每个灯的最后设置状态) led_states = {i: 0 for i in range(1, 25)} # 0=off, 1=red, 2=green, 3=blue @app.route('/api/modbus/led_status', methods=['GET']) def get_led_status(): """获取所有 LED 状态""" return jsonify({'success': True, 'leds': led_states}) @app.route('/api/modbus/set_all_leds', methods=['POST']) def set_all_leds(): """批量设置 LED 请求: {"device_address": 1, "color": 1} 设置所有 24 个 LED 到指定颜色 """ try: data = request.json device_address = data.get('device_address', 1) color = data.get('color', 0) timeout = data.get('timeout') if not (isinstance(serial_client.get_status(), dict) and serial_client.get_status().get("connected", False)): return jsonify({'success': False, 'message': '串口未连接'}), 400 results = [] for led_num in range(1, 25): result = modbus_client.set_rgb_led( device_address=device_address, led_number=led_num, color=color, timeout=timeout ) if 'error' in result: results.append({'led': led_num, 'success': False, 'error': result['error']}) else: results.append({'led': led_num, 'success': True}) led_states[led_num] = color return jsonify({'success': True, 'results': results}) except Exception as e: logger.error(f'批量设置LED失败: {str(e)}') return jsonify({'success': False, 'message': str(e)}), 500 # 在 set_rgb_led 中更新 LED 状态追踪 # 不再需要静态文件目录,前端由nginx提供服务 # ========== DTU MQTT协议配置API ========== @app.route('/api/dtu/config', methods=['GET']) def get_dtu_config(): """获取DTU配置""" return jsonify({ 'success': True, 'data': dtu_config }) @app.route('/api/dtu/config', methods=['POST']) def update_dtu_config(): """更新DTU配置""" try: data = request.json old_config = dtu_config.copy() # 更新配置项 if 'topic_prefix' in data: dtu_config['topic_prefix'] = data['topic_prefix'] if 'customer_id' in data: dtu_config['customer_id'] = data['customer_id'] if 'dtu_id' in data: dtu_config['dtu_id'] = data['dtu_id'] if 'firmware_version' in data: dtu_config['firmware_version'] = data['firmware_version'] if 'hardware_version' in data: dtu_config['hardware_version'] = data['hardware_version'] if 'heartbeat_interval' in data: dtu_config['heartbeat_interval'] = data['heartbeat_interval'] if 'enabled' in data: dtu_config['enabled'] = data['enabled'] # 如果MQTT已连接且主题配置发生变化,重新订阅 if mqtt_status and dtu_config.get('enabled'): old_control_topic = build_dtu_topic( old_config.get('customer_id', DEFAULT_CUSTOMER_ID), 'dtu', old_config.get('dtu_id', DEFAULT_DTU_ID), 'control' ) new_control_topic = build_dtu_topic( dtu_config['customer_id'], 'dtu', dtu_config['dtu_id'], 'control' ) if old_control_topic != new_control_topic: # 取消旧订阅,订阅新主题 mqtt_client.unsubscribe(old_control_topic) mqtt_client.subscribe(new_control_topic) logger.info(f"控制主题已更新: {old_control_topic} -> {new_control_topic}") # 重新发送注册消息 dtu_register() return jsonify({ 'success': True, 'message': 'DTU配置已更新', 'data': dtu_config }) except Exception as e: logger.error(f"更新DTU配置失败: {str(e)}") return jsonify({'success': False, 'message': str(e)}), 500 @app.route('/api/dtu/register', methods=['POST']) def manual_dtu_register(): """手动触发DTU注册""" try: if not mqtt_status: return jsonify({'success': False, 'message': 'MQTT未连接'}), 400 success = dtu_register() if success: return jsonify({'success': True, 'message': '注册消息已发送'}) else: return jsonify({'success': False, 'message': '注册消息发送失败'}), 500 except Exception as e: logger.error(f"手动触发DTU注册失败: {str(e)}") return jsonify({'success': False, 'message': str(e)}), 500 def _get_cpu_usage(): try: import psutil return psutil.cpu_percent(interval=None) except Exception: return None def _get_memory_usage(): try: import psutil return psutil.virtual_memory().percent except Exception: return None @app.route('/api/dtu/status', methods=['GET']) def get_dtu_status(): """获取DTU状态""" try: # 获取串口状态 serial_st = serial_client.get_status() # 获取面板状态 devices = address_config.get_stored_devices() # 主板温度: 优先外部上报,否则本地读取 dtu_temperature = env_sensor_data.get('dtu_temperature') if dtu_temperature is None: try: import psutil temps = psutil.sensors_temperatures(fahrenheit=False) or {} for chip_name, entries in temps.items(): for entry in entries: if entry.current and entry.current > 0: dtu_temperature = round(entry.current, 1) break if dtu_temperature is not None: break except Exception: pass if dtu_temperature is None: import glob as _glob for tz in sorted(_glob.glob('/sys/class/thermal/thermal_zone*/temp')): try: with open(tz) as f: v = int(f.read().strip()) if v > 0: dtu_temperature = round(v / 1000.0, 1) break except Exception: continue status = { 'dtu_id': dtu_config.get('dtu_id'), 'mqtt_connected': mqtt_status, 'serial_connected': isinstance(serial_st, dict) and serial_st.get('connected', False), 'dtu_enabled': dtu_config.get('enabled', True), 'topic_prefix': dtu_config.get('topic_prefix'), 'customer_id': dtu_config.get('customer_id'), 'panel_count': len(devices), 'cpu_usage': _get_cpu_usage(), 'memory_usage': _get_memory_usage(), 'temperature': dtu_temperature, 'dtu_temperature': dtu_temperature, 'firmware_version': dtu_config.get('firmware_version', 'v1.0.0'), 'topics': { 'register': build_dtu_topic(dtu_config['customer_id'], 'dtu', dtu_config['dtu_id'], 'register'), 'status': build_dtu_topic(dtu_config['customer_id'], 'dtu', dtu_config['dtu_id'], 'status'), 'control': build_dtu_topic(dtu_config['customer_id'], 'dtu', dtu_config['dtu_id'], 'control'), 'response': build_dtu_topic(dtu_config['customer_id'], 'dtu', dtu_config['dtu_id'], 'response'), 'event': build_dtu_topic(dtu_config['customer_id'], 'dtu', dtu_config['dtu_id'], 'event'), 'alarm': build_dtu_topic(dtu_config['customer_id'], 'dtu', dtu_config['dtu_id'], 'alarm') } } return jsonify({'success': True, 'data': status}) except Exception as e: logger.error(f"获取DTU状态失败: {str(e)}") return jsonify({'success': False, 'message': str(e)}), 500 @app.route('/api/dtu/control', methods=['POST']) def dtu_control(): """发送DTU控制命令(HTTP 入口,复用 dtu_handle_control 逻辑)""" try: data = request.json or {} # 兼容两种入参格式: # 1) {"command": "...", "target": "...", "params": {...}} 简洁格式 # 2) {"payload": {"command": "...", "target": "...", "params": {...}}} MQTT envelope 格式 inner = data.get('payload') if isinstance(data.get('payload'), dict) else data command = inner.get('command') # REBOOT 走快速通道立即执行 if command == 'REBOOT': import subprocess logger.warning("执行系统重启命令") threading.Thread(target=lambda: ( time.sleep(1), subprocess.run(['reboot'], capture_output=True) ), daemon=True).start() return jsonify({'success': True, 'message': '系统正在重启...'}) # 其他命令委托给 MQTT 处理器(构造 MQTT envelope 后调用) mqtt_envelope = { 'msg_id': data.get('msg_id', f"http_{int(time.time() * 1000)}_{uuid.uuid4().hex[:6]}"), 'timestamp': data.get('timestamp', int(time.time() * 1000)), 'dtu_id': data.get('dtu_id', dtu_config.get('dtu_id')), 'type': 'CONTROL', 'payload': { 'command': command, 'target': inner.get('target'), 'params': inner.get('params', {}) } } # 调用 MQTT 处理器(其内部会发送响应到 dtu/.../response 主题) dtu_handle_control('http/control', mqtt_envelope) # 如果命令是 QUERY_JUMPER_STATUS / QUERY_ENV_SENSOR / QUERY_DTU_STATUS, # 实际响应已发布到对应主题,HTTP 端点仅返回成功标记 if command in ('QUERY_JUMPER_STATUS', 'QUERY_ENV_SENSOR', 'QUERY_DTU_STATUS'): return jsonify({ 'success': True, 'message': f'{command} 已发布到 MQTT 主题' }) # 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) return jsonify({ 'success': True, 'message': f'{command} 命令已下发,等待 MQTT 响应' }) except Exception as e: logger.error(f"DTU控制命令失败: {str(e)}") return jsonify({'success': False, 'message': str(e)}), 500 # OTA状态存储 ota_status = { 'status': 'IDLE', # IDLE, DOWNLOADING, VERIFYING, FLASHING, SUCCESS, FAILED 'progress': 0, 'firmware_version': None, 'target_version': None, 'error_code': None, 'error_message': None, 'last_update': None } @app.route('/api/dtu/ota_detect', methods=['POST']) def ota_detect(): """检测固件包信息(自动下载并解析 manifest)""" try: url = request.json.get('url', '') if not url: return jsonify({'success': False, 'message': '请提供固件 URL'}), 400 import urllib.request, tempfile, tarfile, json, hashlib tmp = tempfile.mktemp(suffix='.tar.gz') try: urllib.request.urlretrieve(url, tmp) except Exception as e: return jsonify({'success': False, 'message': f'下载失败: {str(e)}'}), 400 file_size = os.path.getsize(tmp) h = hashlib.md5() with open(tmp, 'rb') as f: for chunk in iter(lambda: f.read(65536), b''): h.update(chunk) md5sum = h.hexdigest() version = '' try: with tarfile.open(tmp, 'r:gz') as tar: m = tar.extractfile('firmware/firmware.json') if m: manifest = json.loads(m.read()) version = manifest.get('version', '') except Exception as e: logger.warning(f"解析 firmware.json 失败: {e}") os.remove(tmp) return jsonify({ 'success': True, 'data': { 'file_size': file_size, 'checksum': md5sum, 'checksum_type': 'MD5', 'firmware_version': version } }) except Exception as e: logger.error(f"检测固件失败: {str(e)}") return jsonify({'success': False, 'message': str(e)}), 500 @app.route('/api/dtu/ota_status', methods=['GET']) def get_ota_status(): """获取OTA升级状态""" try: return jsonify({ 'success': True, 'data': { 'current_firmware': dtu_config.get('firmware_version', 'v1.0.0'), 'ota_status': ota_status.get('status', 'IDLE'), 'ota_progress': ota_status.get('progress', 0), 'target_version': ota_status.get('target_version'), 'error_code': ota_status.get('error_code'), 'error_message': ota_status.get('error_message'), 'last_update': ota_status.get('last_update') } }) except Exception as e: logger.error(f"获取OTA状态失败: {str(e)}") return jsonify({'success': False, 'message': str(e)}), 500 def handle_ota_status(dtu_id, payload): """处理MQTT上报的OTA状态""" ota_status['status'] = payload.get('ota_status', 'IDLE') ota_status['progress'] = payload.get('ota_progress', 0) ota_status['firmware_version'] = payload.get('firmware_version') ota_status['last_update'] = time.strftime('%Y-%m-%d %H:%M:%S') error_code = payload.get('error_code') if error_code and error_code != 0: ota_status['error_code'] = error_code ota_status['error_message'] = payload.get('error_message', get_ota_error_message(error_code)) ota_status['status'] = 'FAILED' elif ota_status['status'] == 'SUCCESS': ota_status['error_code'] = None ota_status['error_message'] = None if ota_status.get('firmware_version'): dtu_config['firmware_version'] = ota_status['firmware_version'] save_dtu_config() logger.info(f"MQTT OTA状态更新: {ota_status['status']}, 进度: {ota_status['progress']}%") def get_ota_error_message(error_code): 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'} return error_messages.get(error_code, f'未知错误码: {error_code}') def _publish_ota_progress(): """通过MQTT发布OTA进度""" try: if not mqtt_client.get_status(): return topic = build_dtu_topic(dtu_config['customer_id'], 'dtu', dtu_config['dtu_id'], 'status') payload = { 'msg_id': f"ota_status_{int(time.time() * 1000)}", 'timestamp': int(time.time() * 1000), 'dtu_id': dtu_config['dtu_id'], 'type': 'STATUS', 'payload': { 'ota_status': ota_status.get('status', 'IDLE'), 'ota_progress': ota_status.get('progress', 0), 'firmware_version': ota_status.get('target_version', ''), 'error_code': ota_status.get('error_code', 0), 'error_message': ota_status.get('error_message') } } mqtt_client.publish(topic, json.dumps(payload), qos=1) except Exception: pass def _send_ota_error_response(error_code, original_msg_id=''): """通过MQTT发送OTA错误响应(1021-1025)""" try: if not mqtt_client.get_status(): return topic = build_dtu_topic(dtu_config['customer_id'], 'dtu', dtu_config['dtu_id'], 'response') payload = { 'msg_id': f"rsp_ota_{int(time.time() * 1000)}_{uuid.uuid4().hex[:6]}", 'timestamp': int(time.time() * 1000), 'dtu_id': dtu_config['dtu_id'], 'type': 'RESPONSE', 'payload': { 'original_msg_id': original_msg_id, 'command': 'OTA_UPGRADE', 'success': False, 'result': None, 'error_code': error_code, 'error_message': get_ota_error_message(error_code) } } mqtt_client.publish(topic, json.dumps(payload), qos=1) except Exception: pass def _run_ota(params): """执行OTA升级(后台线程,供HTTP和MQTT共用)""" import subprocess, os, hashlib, shutil, tarfile, tempfile, urllib.request url = params['firmware_url'] version = params['firmware_version'] file_size = params['file_size'] checksum = params['checksum'] checksum_type = params.get('checksum_type', 'MD5').upper() force = params.get('force_upgrade', False) ota_status['status'] = 'DOWNLOADING' ota_status['progress'] = 0 ota_status['target_version'] = version ota_status['error_code'] = None ota_status['error_message'] = None ota_status['last_update'] = time.strftime('%Y-%m-%d %H:%M:%S') _publish_ota_progress() try: tmp_dir = tempfile.mkdtemp(prefix='ota_') fw_path = os.path.join(tmp_dir, 'firmware.tar.gz') ota_status['progress'] = 5 ota_status['last_update'] = time.strftime('%Y-%m-%d %H:%M:%S') logger.info(f"OTA: 开始下载固件 {url}") req = urllib.request.Request(url, headers={'User-Agent': 'OTA-Updater'}) # 进度上报节流: 每 10% 或每 5 秒 last_published_pct = 0 last_publish_time = time.time() with urllib.request.urlopen(req, timeout=120) as resp: with open(fw_path, 'wb') as f: total = int(resp.headers.get('Content-Length', 0)) downloaded = 0 while True: chunk = resp.read(65536) if not chunk: break f.write(chunk) downloaded += len(chunk) if total: pct = 5 + int(downloaded / total * 30) ota_status['progress'] = min(pct, 35) now = time.time() if pct - last_published_pct >= 10 or (now - last_publish_time) >= 5: last_published_pct = pct last_publish_time = now ota_status['last_update'] = time.strftime('%Y-%m-%d %H:%M:%S') _publish_ota_progress() dl_size = os.path.getsize(fw_path) ota_status['progress'] = 40 ota_status['last_update'] = time.strftime('%Y-%m-%d %H:%M:%S') _publish_ota_progress() if abs(dl_size - file_size) > 1024: raise Exception(f"文件大小不匹配: 预期{file_size}, 实际{dl_size}") ota_status['status'] = 'VERIFYING' ota_status['progress'] = 50 ota_status['last_update'] = time.strftime('%Y-%m-%d %H:%M:%S') _publish_ota_progress() h = hashlib.new(checksum_type) with open(fw_path, 'rb') as f: for chunk in iter(lambda: f.read(65536), b''): h.update(chunk) actual_checksum = h.hexdigest().lower() if actual_checksum != checksum.lower(): raise Exception(f"校验和不匹配: 预期{checksum}, 实际{actual_checksum}") ota_status['progress'] = 60 ota_status['last_update'] = time.strftime('%Y-%m-%d %H:%M:%S') _publish_ota_progress() extract_dir = os.path.join(tmp_dir, 'firmware') os.makedirs(extract_dir, exist_ok=True) with tarfile.open(fw_path, 'r:gz') as tar: tar.extractall(extract_dir) manifest_path = os.path.join(extract_dir, 'firmware', 'firmware.json') if not os.path.exists(manifest_path): raise Exception("固件包缺少 firmware.json") with open(manifest_path, 'r') as f: manifest = json.load(f) fw_version = manifest.get('version', version) if not force: current_ver = dtu_config.get('firmware_version', 'v0.0.0') if fw_version == current_ver: raise Exception(f'已是目标版本 {current_ver}') ota_status['status'] = 'FLASHING' ota_status['progress'] = 70 ota_status['last_update'] = time.strftime('%Y-%m-%d %H:%M:%S') _publish_ota_progress() fw_root = os.path.join(extract_dir, 'firmware') project_dir = os.path.dirname(os.path.dirname(os.path.abspath(__file__))) excludes = {'__pycache__', '.git', 'log', 'venv'} for root, dirs, files in os.walk(fw_root): rel = os.path.relpath(root, fw_root) if rel == '.': rel = '' parts = rel.split(os.sep) if rel else [] if parts and parts[0] in excludes: continue for fname in files: if fname == 'firmware.json': continue src = os.path.join(root, fname) dst = os.path.join(project_dir, rel, fname) os.makedirs(os.path.dirname(dst), exist_ok=True) shutil.copy2(src, dst) ota_status['progress'] = 90 ota_status['last_update'] = time.strftime('%Y-%m-%d %H:%M:%S') dtu_config['firmware_version'] = fw_version save_dtu_config() ota_status['status'] = 'SUCCESS' ota_status['progress'] = 100 ota_status['firmware_version'] = fw_version ota_status['last_update'] = time.strftime('%Y-%m-%d %H:%M:%S') _publish_ota_progress() shutil.rmtree(tmp_dir, ignore_errors=True) for i in range(10, 0, -1): ota_status['last_update'] = time.strftime('%Y-%m-%d %H:%M:%S') time.sleep(1) logger.info("OTA: 重启服务...") subprocess.Popen( [subprocess.sys.executable, '-m', 'flask', 'run', '--host=0.0.0.0', '--port=5001'], cwd=os.path.dirname(os.path.abspath(__file__)), stdout=subprocess.DEVNULL, stderr=subprocess.DEVNULL ) os._exit(0) except Exception as e: ota_status['status'] = 'FAILED' ota_status['error_message'] = str(e) ota_status['last_update'] = time.strftime('%Y-%m-%d %H:%M:%S') # 映射错误到标准错误码 (1021-1025) msg = str(e) if '校验和' in msg or 'firmware.json' in msg: ota_status['error_code'] = 1022 elif '已是目标版本' in msg: ota_status['error_code'] = 1021 elif '下载' in msg or 'urlopen' in msg or 'Connection' in msg or 'timeout' in msg: ota_status['error_code'] = 1023 elif '磁盘' in msg or '空间' in msg or 'No space' in msg: ota_status['error_code'] = 1025 elif '写入' in msg or 'flash' in msg.lower() or 'shutil' in msg: ota_status['error_code'] = 1024 else: ota_status['error_code'] = 9999 _publish_ota_progress() # 通过MQTT发送错误响应(同时适配HTTP和MQTT触发) _send_ota_error_response(ota_status['error_code'], params.get('_incoming_msg_id', '')) logger.error(f"OTA: 升级失败 - {str(e)}") if 'tmp_dir' in dir() and tmp_dir and os.path.exists(tmp_dir): shutil.rmtree(tmp_dir, ignore_errors=True) @app.route('/api/dtu/ota_upgrade', methods=['POST']) def trigger_ota_upgrade(): """触发OTA升级""" try: data = request.json if not data: return jsonify({'success': False, 'message': '请求体不能为空'}), 400 required_fields = ['firmware_url', 'firmware_version', 'file_size', 'checksum', 'checksum_type'] missing = [f for f in required_fields if not data.get(f)] if missing: return jsonify({'success': False, 'message': f'缺少必填字段: {", ".join(missing)}'}), 400 # 已是目标版本且未强制: 1021 (同时通过 MQTT 上报响应) force_upgrade = data.get('force_upgrade', False) current_version = dtu_config.get('firmware_version', 'v1.0.0') if data['firmware_version'] == current_version and not force_upgrade: # 通过 MQTT 上报 1021 响应 (与其他错误码一致) try: _send_ota_error_response(1021, data.get('msg_id', '')) except Exception: pass return jsonify({ 'success': False, 'error_code': 1021, 'message': f'已是目标版本: {current_version}' }), 400 # 注入 _incoming_msg_id 使 MQTT 错误响应可回填 ota_params = {**data, '_incoming_msg_id': data.get('msg_id', '')} t = threading.Thread(target=_run_ota, args=(ota_params,), daemon=True) t.start() return jsonify({ 'success': True, 'message': 'OTA升级已启动', 'data': { 'target_version': data['firmware_version'], 'ota_status': 'DOWNLOADING' } }) except Exception as e: logger.error(f"触发OTA升级失败: {str(e)}") return jsonify({'success': False, 'message': str(e)}), 500 # ==================== 环境传感器 API ==================== # 环境传感器数据存储 env_sensor_data = { 'temperature': None, # 环境温度 (℃) 'humidity': None, # 环境湿度 (%) 'dtu_temperature': None, # DTU主板温度 (℃) 'update_time': None, # 数据更新时间 'sensor_update_time': None, # 传感器更新时间 'connected': False # 传感器连接状态 } # 环境传感器告警阈值 env_sensor_threshold = { 'temp_high': 45.0, # 环境温度上限 (℃) 'temp_low': -10.0, # 环境温度下限 (℃) 'humidity_high': 80.0, # 环境湿度上限 (%) 'humidity_low': 20.0, # 环境湿度下限 (%) 'dtu_temp_high': 70.0 # DTU主板温度上限 (℃) } # 环境传感器历史数据 (保留最近1000条) env_sensor_history = [] @app.route('/api/sensor/env', methods=['GET']) def get_env_sensor_data(): """获取环境传感器当前数据""" data = dict(env_sensor_data) # DTU 主板温度回退: 若外部未上报,从 sysfs 本地读取 if data.get('dtu_temperature') is None: try: import psutil temps = psutil.sensors_temperatures(fahrenheit=False) or {} for chip_name, entries in temps.items(): for entry in entries: if entry.current and entry.current > 0: data['dtu_temperature'] = round(entry.current, 1) break if data['dtu_temperature'] is not None: break except Exception: pass if data.get('dtu_temperature') is None: import glob as _glob for tz in sorted(_glob.glob('/sys/class/thermal/thermal_zone*/temp')): try: with open(tz) as f: v = int(f.read().strip()) if v > 0: data['dtu_temperature'] = round(v / 1000.0, 1) data['update_time'] = data.get('update_time') or __import__('datetime').datetime.now().strftime('%Y-%m-%d %H:%M:%S') break except Exception: continue # 附加 CPU/内存使用率(始终本地读取) data['cpu_usage'] = _get_cpu_usage() data['memory_usage'] = _get_memory_usage() return jsonify({ 'success': True, 'data': data }) @app.route('/api/sensor/threshold', methods=['GET', 'POST']) def handle_env_sensor_threshold(): """获取或设置环境传感器告警阈值""" if request.method == 'GET': return jsonify({ 'success': True, 'data': env_sensor_threshold }) else: try: data = request.get_json() for key in env_sensor_threshold.keys(): if key in data: env_sensor_threshold[key] = float(data[key]) logger.info(f"更新环境传感器告警阈值: {env_sensor_threshold}") return jsonify({ 'success': True, 'message': '阈值设置成功', 'data': env_sensor_threshold }) except Exception as e: logger.error(f"设置告警阈值失败: {str(e)}") return jsonify({'success': False, 'message': str(e)}), 400 @app.route('/api/sensor/history', methods=['GET']) def get_env_sensor_history(): """获取环境传感器历史数据""" try: import datetime # 获取查询参数 range_param = request.args.get('range', '24h') start_time = request.args.get('start_time') end_time = request.args.get('end_time') limit = request.args.get('limit', 100, type=int) filtered_history = env_sensor_history # 解析range参数 if not start_time and not end_time: now = datetime.datetime.now() if range_param == '1h': start_time = (now - datetime.timedelta(hours=1)).strftime('%Y-%m-%d %H:%M:%S') elif range_param == '6h': start_time = (now - datetime.timedelta(hours=6)).strftime('%Y-%m-%d %H:%M:%S') elif range_param == '24h': start_time = (now - datetime.timedelta(hours=24)).strftime('%Y-%m-%d %H:%M:%S') elif range_param == '7d': start_time = (now - datetime.timedelta(days=7)).strftime('%Y-%m-%d %H:%M:%S') elif range_param == '30d': start_time = (now - datetime.timedelta(days=30)).strftime('%Y-%m-%d %H:%M:%S') # 按时间过滤 if start_time: filtered_history = [h for h in filtered_history if h.get('update_time') >= start_time] if end_time: filtered_history = [h for h in filtered_history if h.get('update_time') <= end_time] # 按时间排序 (新到旧) filtered_history = sorted(filtered_history, key=lambda x: x.get('update_time', ''), reverse=True) # 限制返回数量 filtered_history = filtered_history[:limit] return jsonify({ 'success': True, 'data': filtered_history, 'total': len(filtered_history) }) except Exception as e: logger.error(f"获取历史数据失败: {str(e)}") return jsonify({'success': False, 'message': str(e)}), 500 def update_env_sensor_data_full(temperature, humidity, dtu_temperature, sensor_update_time): """更新环境传感器数据 (由MQTT消息触发) - 完整版,含历史和告警""" import datetime now = datetime.datetime.now().strftime('%Y-%m-%d %H:%M:%S') env_sensor_data['temperature'] = temperature env_sensor_data['humidity'] = humidity env_sensor_data['dtu_temperature'] = dtu_temperature env_sensor_data['sensor_update_time'] = sensor_update_time env_sensor_data['update_time'] = now env_sensor_data['connected'] = True # 同步到 MQTT 上行所用的 _env_sensor_data _env_sensor_data['temperature'] = temperature _env_sensor_data['humidity'] = humidity _env_sensor_data['sensor_update_time'] = sensor_update_time # 添加到历史记录 history_record = { 'temperature': temperature, 'humidity': humidity, 'dtu_temperature': dtu_temperature, 'sensor_update_time': sensor_update_time, 'update_time': now } env_sensor_history.append(history_record) # 保留最近1000条 if len(env_sensor_history) > 1000: env_sensor_history[:] = env_sensor_history[-1000:] # 检查告警 check_env_sensor_alarms(temperature, humidity, dtu_temperature) logger.info(f"环境传感器数据更新: 温度={temperature}℃, 湿度={humidity}%, DTU温度={dtu_temperature}℃") def dht11_data_callback(temperature, humidity): """DHT11 本地 GPIO 传感器数据回调。 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。 保留已有的 dtu_temperature(主板温度),仅更新环境温湿度字段。 """ try: sensor_update_time = int(time.time() * 1000) dtu_temperature = env_sensor_data.get('dtu_temperature') update_env_sensor_data_full(temperature, humidity, dtu_temperature, sensor_update_time) # 立即通过 MQTT 上报环境传感器数据 try: dtu_publish_env_sensor() except Exception as pub_err: logger.warning(f"DHT11 数据 MQTT 上报失败: {pub_err}") logger.info(f"DHT11 本地传感器数据已处理: 温度={temperature}°C, 湿度={humidity}%") except Exception as e: logger.error(f"处理 DHT11 本地传感器数据失败: {e}") def check_env_sensor_alarms(temperature, humidity, dtu_temperature): """检查环境传感器告警""" alarms = [] if temperature is not None: if temperature > env_sensor_threshold['temp_high']: alarms.append({ 'type': 'temperature_high', 'message': f'环境温度过高: {temperature}℃ (阈值: {env_sensor_threshold["temp_high"]}℃)', 'level': 'warning' }) elif temperature < env_sensor_threshold['temp_low']: alarms.append({ 'type': 'temperature_low', 'message': f'环境温度过低: {temperature}℃ (阈值: {env_sensor_threshold["temp_low"]}℃)', 'level': 'warning' }) if humidity is not None: if humidity > env_sensor_threshold['humidity_high']: alarms.append({ 'type': 'humidity_high', 'message': f'环境湿度过高: {humidity}% (阈值: {env_sensor_threshold["humidity_high"]}%)', 'level': 'warning' }) elif humidity < env_sensor_threshold['humidity_low']: alarms.append({ 'type': 'humidity_low', 'message': f'环境湿度过低: {humidity}% (阈值: {env_sensor_threshold["humidity_low"]}%)', 'level': 'warning' }) if dtu_temperature is not None: if dtu_temperature > env_sensor_threshold['dtu_temp_high']: alarms.append({ 'type': 'dtu_temp_high', 'message': f'DTU主板温度过高: {dtu_temperature}℃ (阈值: {env_sensor_threshold["dtu_temp_high"]}℃)', 'level': 'critical' }) # 发送告警通知 for alarm in alarms: logger.warning(f"环境传感器告警: {alarm['message']}") # 可以通过WebSocket发送告警 socketio.emit('env_sensor_alarm', alarm) if __name__ == '__main__': try: # 启动前的初始化工作 logger.info('启动串口-MQTT网关服务...') logger.info(f"配置信息: 主机={FLASK_HOST}, 端口={FLASK_PORT}, 调试模式={FLASK_DEBUG}") # 加载DTU配置 load_dtu_config() # 加载设备配置 loaded = load_device_config() logger.info(f"已加载 {len(loaded)} 个设备配置") panel_config.clear() for uid_hex, addr in loaded.items(): panel_id = f"PANEL_{dtu_config.get('dtu_id', 'DTU001')}_{addr}" panel_config[panel_id] = {'address': addr, 'position': addr, 'panel_uid': uid_hex} logger.info(f"已加载 {len(panel_config)} 个面板配置") # 启动自动发现循环 def auto_discover_loop(): while True: time.sleep(30) try: _st = serial_client.get_status() if not (isinstance(_st, dict) and _st.get('connected', False)): continue if not dtu_config.get('enabled'): continue result = address_config.auto_configure(timeout=2.0) if result.get('discovered', 0) > 0: logger.info(f"自动发现: {result.get('discovered')} 个设备") save_device_config() now = time.time() for uid in address_config.get_stored_devices(): device_last_seen[uid] = now for pid in panel_config: device_last_seen[pid] = now except Exception as e: logger.error(f"自动发现异常: {str(e)}") import threading t = threading.Thread(target=auto_discover_loop, daemon=True) t.start() logger.info("启动自动发现线程 (间隔30秒)") # 启动DTU心跳定时器 if dtu_config.get('enabled'): start_dtu_heartbeat() logger.info("启动DTU心跳定时器") # 启动端口轮询循环 def port_poll_loop(): while True: interval = dtu_config.get('poll_interval_ms', 5000) / 1000.0 time.sleep(max(1, interval)) try: _st = serial_client.get_status() if not (isinstance(_st, dict) and _st.get('connected', False)): continue if not dtu_config.get('enabled'): continue if not panel_config: continue online = 0 offline = 0 for panel_id, cfg in panel_config.items(): addr = cfg.get('address', 1) panel_ok = False panel_ports = [] for port_id in range(1, 25): try: result = modbus_client.read_antenna_card(addr, port_id, timeout=1.0) except Exception: result = {'error': 'exception'} if 'error' in result: panel_ports.append({'port_id': port_id, 'status': 'UNKNOWN', 'jumper_uid': None}) continue panel_ok = True card_str = result.get('card_number_str', '') uid = card_str.upper() if card_str and card_str != '0000000000000000' else '' if panel_id not in port_state: port_state[panel_id] = {} if port_id not in port_state[panel_id]: port_state[panel_id][port_id] = {'last_uid': None, 'expected_uid': None, 'alarm_count': 0, 'last_polled_at': int(time.time() * 1000)} ps = port_state[panel_id][port_id] ps['last_polled_at'] = int(time.time() * 1000) last_uid = ps.get('last_uid') if uid and uid != last_uid: dtu_publish_event(panel_id, port_id, 'CONNECT' if not last_uid else 'MOVE', uid, last_uid) ps['last_uid'] = uid elif not uid and last_uid: dtu_publish_event(panel_id, port_id, 'DISCONNECT', None, last_uid) ps['last_uid'] = None ps_exp = ps.get('expected_uid') if dtu_config.get('alarm_enabled', True): if ps_exp and uid and uid != ps_exp: ps['alarm_count'] = ps.get('alarm_count', 0) + 1 sev = 'CRITICAL' if ps['alarm_count'] >= 3 else 'WARNING' dtu_publish_alarm(panel_id, port_id, 'ILLEGAL_CONNECT', ps_exp, uid, sev) elif ps_exp and not uid: ps['alarm_count'] = ps.get('alarm_count', 0) + 1 sev = 'CRITICAL' if ps['alarm_count'] >= 3 else 'WARNING' dtu_publish_alarm(panel_id, port_id, 'ILLEGAL_DISCONNECT', ps_exp, None, sev) elif ps_exp and uid == ps_exp: ps['alarm_count'] = 0 if uid: port_status = 'ILLEGAL' if (ps_exp and uid != ps_exp) else 'CONNECTED' else: port_status = 'DISCONNECTED' panel_ports.append({'port_id': port_id, 'status': port_status, 'jumper_uid': uid or None}) if panel_ok: online += 1 device_last_seen[panel_id] = time.time() device_last_seen[cfg.get('panel_uid', '')] = time.time() dtu_publish_panel_status(panel_id, addr, panel_ports) else: offline += 1 dtu_publish_status(force=True) except Exception as e: logger.error(f"端口轮询异常: {str(e)}") t2 = threading.Thread(target=port_poll_loop, daemon=True) t2.start() logger.info("启动端口轮询线程 (间隔5秒)") # 启动 DHT11 本地传感器读取线程 if dht11_sensor is not None: dht11_sensor.on_data = dht11_data_callback dht11_sensor.start() # 自动连接上次使用的串口 logger.info("尝试自动连接串口...") auto_connect_serial() # 启动服务 socketio.run( app, host=FLASK_HOST, port=FLASK_PORT, debug=FLASK_DEBUG, use_reloader=False, # 禁用重载器以避免重复初始化问题 log_output=False, # 禁用Flask的日志输出,使用我们自己的日志配置 allow_unsafe_werkzeug=True ) except KeyboardInterrupt: # 优雅退出 logger.info('正在关闭应用...') try: if isinstance(serial_client.get_status(), dict) and serial_client.get_status().get("connected", False): serial_client.disconnect() logger.info('串口连接已断开') if mqtt_client.get_status(): mqtt_client.disconnect() logger.info('MQTT连接已断开') if dht11_sensor is not None: dht11_sensor.stop() logger.info('DHT11 传感器线程已停止') except Exception as e: logger.error(f'关闭连接时出错: {str(e)}') # 清理WebSocket连接 for client_type in connected_clients: connected_clients[client_type].clear() logger.info('应用已安全关闭') except Exception as e: logger.exception(f'应用启动失败') # 使用exception记录完整堆栈 # 确保资源被释放 try: serial_client.disconnect() mqtt_client.disconnect() except: pass