# -*- coding: utf-8 -*- import os import signal import sys import time from concurrent.futures import ThreadPoolExecutor, as_completed from pathlib import Path from typing import List, Dict, Optional import threading import subprocess import wda from tidevice import Usbmux, ConnectionType from tidevice._device import BaseDevice from Entity.DeviceModel import DeviceModel from Entity.Variables import WdaAppBundleId from Module.FlaskSubprocessManager import FlaskSubprocessManager from Utils.LogManager import LogManager from Utils.SubprocessKit import check_output as sp_check_output, popen as sp_popen class Deviceinfo(object): """设备生命周期管理:以 deviceModelList 为唯一真理源""" def __init__(self): # ✅ 连接线程池(最大 6 并发) self._connect_pool = ThreadPoolExecutor(max_workers=6) if os.name == "nt": self._si = subprocess.STARTUPINFO() self._si.dwFlags |= subprocess.STARTF_USESHOWWINDOW self._si.wShowWindow = subprocess.SW_HIDE # 0 else: self._si = None self.deviceIndex = 0 self.screenProxy = 9110 self.pidList: List[Dict] = [] # 仅记录 iproxy 进程 self.manager = FlaskSubprocessManager.get_instance() self.deviceModelList: List[DeviceModel] = [] # 根基,不动 self.maxDeviceCount = 6 self._lock = threading.Lock() self._model_index: Dict[str, DeviceModel] = {} # udid -> model # ✅ 失踪时间戳记录(替代原来的 miss_count) self._last_seen: Dict[str, float] = {} self._port_pool: List[int] = [] self._port_in_use: set[int] = set() # ✅ 新增:全局 iproxy 进程注册表 udid -> Popen self._iproxy_registry: Dict[str, subprocess.Popen] = {} # region iproxy 初始化(原逻辑不变) try: self.iproxy_path = self._iproxy_path() self.iproxy_dir = self.iproxy_path.parent os.environ["PATH"] = str(self.iproxy_dir) + os.pathsep + os.environ.get("PATH", "") try: os.add_dll_directory(str(self.iproxy_dir)) except Exception: pass self._creationflags = 0x08000000 if os.name == "nt" else 0 self._popen_kwargs = dict( stdout=subprocess.PIPE, stderr=subprocess.PIPE, cwd=str(self.iproxy_dir), shell=False, text=True, creationflags=0x08000000 if os.name == "nt" else 0, # CREATE_NO_WINDOW encoding="utf-8", bufsize=1, ) def _spawn_iproxy(udid: str, local_port: int, remote_port: int = 9100) -> subprocess.Popen: args = [str(self.iproxy_path), "-u", udid, str(local_port), str(remote_port)] p = subprocess.Popen(args, **self._popen_kwargs) # ✅ 注册到全局表 self._iproxy_registry[udid] = p def _pipe_to_log(name: str, stream): try: for line in iter(stream.readline, ''): s = line.strip() if s: LogManager.info(f"[iproxy {name}] {s}", udid) except Exception: pass threading.Thread(target=_pipe_to_log, args=("STDOUT", p.stdout), daemon=True).start() threading.Thread(target=_pipe_to_log, args=("STDERR", p.stderr), daemon=True).start() return p self._spawn_iproxy = _spawn_iproxy LogManager.info(f"iproxy 启动器已就绪,目录: {self.iproxy_dir}") except Exception as e: self.iproxy_path = None self.iproxy_dir = None self._spawn_iproxy = None LogManager.error(f"初始化 iproxy 失败:{e}") # endregion # ------------------------------------------------------------------ # 主监听循环 → 只负责“发现”和“提交任务” # ------------------------------------------------------------------ def startDeviceListener(self): MISS_WINDOW = 5.0 while True: try: lists = Usbmux().device_list() except Exception as e: LogManager.warning(f"usbmuxd 连接失败: {e},2 秒后重试") time.sleep(2) continue now_udids = {d.udid for d in lists if d.conn_type == ConnectionType.USB} usb_sn_set = self._usb_enumerate_sn() # 1. 失踪判定(同旧逻辑) need_remove = [] with self._lock: for udid in list(self._model_index.keys()): if udid not in now_udids: last = self._last_seen.get(udid, time.time()) if time.time() - last > MISS_WINDOW and udid not in usb_sn_set: need_remove.append(udid) else: self._last_seen[udid] = time.time() for udid in need_remove: self._remove_model(udid) # ✅ 实时清理孤儿 iproxy(原 10 秒改为每次循环) self._cleanup_orphan_iproxy() # ✅ 设备全空时核平所有 iproxy if not self.deviceModelList: self._kill_all_iproxy() # 2. 发现新设备 → 并发连接 with self._lock: new_udids = [d.udid for d in lists if d.conn_type == ConnectionType.USB and d.udid not in self._model_index and len(self.deviceModelList) < self.maxDeviceCount] if new_udids: futures = {self._connect_pool.submit(self._connect_device_task, udid): udid for udid in new_udids} try: for f in as_completed(futures, timeout=30): udid = futures[f] try: f.result(timeout=8) except Exception as e: LogManager.error(text=f"连接任务失败:{e}", udid=udid) except TimeoutError: LogManager.warning(text="部分设备连接超时,已跳过") time.sleep(1) # ------------------------------------------------------------------ # ✅ USB 层枚举 SN(跨平台) # ------------------------------------------------------------------ def _usb_enumerate_sn(self) -> set[str]: try: out = sp_check_output(["idevice_id", "-l"], text=True, timeout=3) return {line.strip() for line in out.splitlines() if line.strip()} except Exception: return set() # ---------------------------------------------------------- # ✅ 清理孤儿 iproxy # ---------------------------------------------------------- def _cleanup_orphan_iproxy(self): live_udids = set(self._model_index.keys()) for udid, proc in list(self._iproxy_registry.items()): if udid not in live_udids: LogManager.warning(f"发现孤儿 iproxy 进程,UDID 不在线:{udid},正在清理") self._terminate_proc(proc) self._iproxy_registry.pop(udid, None) # ---------------------------------------------------------- # ✅ 核平所有 iproxy(Windows / macOS 通用) # ---------------------------------------------------------- def _kill_all_iproxy(self): try: if os.name == "nt": subprocess.run(["taskkill", "/F", "/IM", "iproxy.exe"], check=False) else: subprocess.run(["pkill", "-f", "iproxy"], check=False) self._iproxy_registry.clear() LogManager.info("已强制清理所有 iproxy 进程") except Exception as e: LogManager.warning(f"强制清理 iproxy 失败:{e}") # -------------------- 以下代码与原文件完全一致 -------------------- def _wda_health_checker(self): while True: time.sleep(1) with self._lock: online = [m for m in self.deviceModelList if m.ready] for model in online: udid = model.deviceId if not self._wda_ok(udid): LogManager.warning(f"WDA 异常,重启通道:{udid}", udid) with self._lock: self._remove_model(udid) self.connectDevice(udid) def _wda_ok(self, udid: str) -> bool: try: c = wda.USBClient(udid, 8100) st = c.status() if st.get("state") != "success": return False return True except Exception as e: LogManager.error(f"WDA health-check 异常:{e}", udid) return False # -------------------- 增删改查唯一入口(未改动) -------------------- def _has_model(self, udid: str) -> bool: return udid in self._model_index def _add_model(self, model: DeviceModel): if model.deviceId in self._model_index: return model.ready = True self.deviceModelList.append(model) self._model_index[model.deviceId] = model try: self.manager.send(model.toDict()) except Exception as e: LogManager.warning(f"{model.deviceId} 发送上线事件失败:{e}") LogManager.method_info(f"{model.deviceId} 加入设备成功,当前在线数:{len(self.deviceModelList)}", method="device_count") def _remove_model(self, udid: str): print(f"【删】进入删除方法 udid={udid}") LogManager.method_info(f"【删】进入删除方法 udid={udid}", method="device_count") with self._lock: print(f"【删】拿到锁 udid={udid}") LogManager.method_info(f"【删】拿到锁 udid={udid}", method="device_count") model = self._model_index.pop(udid, None) if not model: print(f"【删】模型已空,直接返回 udid={udid}") LogManager.method_info(f"【删】模型已空,直接返回 udid={udid}", method="device_count") return if model.deleting: print(f"【删】正在删除中,幂等返回 udid={udid}") LogManager.method_info(method="device_count", text=f"【删】正在删除中,幂等返回 udid={udid}") return model.deleting = True model.type = 2 print(f"【删】标记 deleting=True udid={udid}") LogManager.method_info("【删】标记 deleting=True udid={udid}", "device_count") before = len(self.deviceModelList) self.deviceModelList = [m for m in self.deviceModelList if m.deviceId != udid] after = len(self.deviceModelList) print(f"【删】列表过滤 before={before} → after={after} udid={udid}") LogManager.method_info(f"【删】列表过滤 before={before} → after={after} udid={udid}", "device_count") self._port_in_use.discard(model.screenPort) self._port_pool.append(model.screenPort) print(f"【删】回收端口 port={model.screenPort} udid={udid}") LogManager.method_info(f"【删】回收端口 port={model.screenPort} udid={udid}", method="device_count") to_kill = [item for item in self.pidList if item.get("id") == udid] self.pidList = [item for item in self.pidList if item.get("id") != udid] print(f"【删】待杀进程数 count={len(to_kill)} udid={udid}") LogManager.method_info(f"【删】待杀进程数 count={len(to_kill)} udid={udid}", method="device_count") # ✅ 先清理注册表中的 iproxy iproxy_proc = self._iproxy_registry.pop(udid, None) if iproxy_proc: self._terminate_proc(iproxy_proc) for idx, item in enumerate(to_kill, 1): print(f"【删】杀进程 {idx}/{len(to_kill)} pid={item.get('target').pid} udid={udid}") LogManager.method_info(f"【删】杀进程 {idx}/{len(to_kill)} pid={item.get('target').pid} udid={udid}", method="device_count") self._terminate_proc(item.get("target")) print(f"【删】进程清理完成 udid={udid}") LogManager.method_info(f"【删】进程清理完成 udid={udid}", method="device_count") retry = 3 while retry: try: self.manager.send(model.toDict()) print(f"【删】下线事件已发送 udid={udid}") LogManager.method_info(f"【删】下线事件已发送 udid={udid}", method="device_count") break except Exception as e: retry -= 1 print(f"【删】发送事件失败 retry={retry} err={e} udid={udid}") LogManager.method_error(f"【删】发送事件失败 retry={retry} err={e} udid={udid}", method="device_count") time.sleep(0.2) else: print(f"【删】发送事件彻底失败,主动退出 udid={udid}") LogManager.method_error(f"【删】发送事件彻底失败,主动退出 udid={udid}", method="device_count") print(f"【删】===== 设备 {udid} 删除全流程结束 =====") LogManager.method_info(f"【删】===== 设备 {udid} 删除全流程结束 =====", method="device_count") print(len(self.deviceModelList)) LogManager.method_info(f"当前剩余设备数量:{len(self.deviceModelList)}", method="device_count") # -------------------- 端口分配与回收(未改动) -------------------- def _alloc_port(self) -> int: if self._port_pool: port = self._port_pool.pop() else: self.screenProxy += 1 port = self.screenProxy self._port_in_use.add(port) return port def _free_port(self, port: int): if port in self._port_in_use: self._port_in_use.remove(port) self._port_pool.append(port) # 检测usb是否超时 def _usb_client_with_timeout(self,udid: str, timeout: 8): LogManager.info(f"[CONNECT FLOW] 即将创建 USBClient(超时 {timeout}s)", udid) with ThreadPoolExecutor(max_workers=1) as exe: fut = exe.submit(wda.USBClient, udid, 8100) try: client = fut.result(timeout=timeout) LogManager.info("[CONNECT FLOW] USBClient 创建成功", udid) return client except Exception as e: LogManager.error(f"[CONNECT FLOW] USBClient 创建失败(超时或异常): {e}", udid) return None # ------------------------------------------------------------------ # 线程池里真正干活的地方(原 connectDevice 逻辑搬过来) # ------------------------------------------------------------------ def _connect_device_task(self, udid: str): LogManager.info(f"[CONNECT FLOW] >>>>>>>>> 开始处理设备 {udid} >>>>>>>>>", udid) # 1. 信任检测 trusted = self.is_device_trusted(udid) LogManager.info(f"[CONNECT FLOW] 信任检测结果 trusted={trusted}", udid) if not trusted: LogManager.warning("[CONNECT FLOW] 设备未信任,直接返回", udid) return LogManager.info("[CONNECT FLOW] 信任检测通过,准备创建 USBClient", udid) # 2. 创建 WDA 客户端(带超时) try: d = self._usb_client_with_timeout(udid, 8) if d is None: LogManager.error("[CONNECT FLOW] USBClient 返回 None(超时或异常),直接返回", udid) return LogManager.info("[CONNECT FLOW] USBClient 创建成功", udid) except Exception as e: LogManager.error(f"[CONNECT FLOW] USBClient 抛异常: {e}", udid) return # 3. 读取屏幕信息 width, height, scale = 0, 0, 1.0 try: size = d.window_size() width, height = size.width, size.height scale = d.scale LogManager.info(f"[CONNECT FLOW] 屏幕信息 width={width} height={height} scale={scale}", udid) except Exception as e: LogManager.warning(f"[CONNECT FLOW] 读取屏幕信息失败: {e},继续使用默认值", udid) # 4. 分配端口 port = self._alloc_port() LogManager.info(f"[CONNECT FLOW] 分配投屏端口 {port}", udid) # 5. 启动 WDA try: LogManager.info("[CONNECT FLOW] 正在启动 WDA 应用", udid) d.app_start(WdaAppBundleId) LogManager.info("[CONNECT FLOW] WDA 应用启动完成,等待 2s", udid) except Exception as e: LogManager.warning(f"[CONNECT FLOW] 启动 WDA 失败: {e},仍继续", udid) time.sleep(2) # 6. 启动 iproxy LogManager.info(f"[CONNECT FLOW] 准备启动 iproxy 本地 {port} -> 设备 9100", udid) target = self.relayDeviceScreenPort(udid, port) if target is None: LogManager.error("[CONNECT FLOW] iproxy 启动失败,释放端口并返回", udid) self._free_port(port) return LogManager.info("[CONNECT FLOW] iproxy 启动成功,进程已注册", udid) # 7. 抢锁写内存 with self._lock: if udid in self._model_index: LogManager.warning(f"[CONNECT FLOW] 并发重复,已存在内存中,放弃本次任务", udid) self._terminate_proc(target) # 避免孤儿 self._free_port(port) return model = DeviceModel(udid, port, width, height, scale, type=1) self._add_model(model) self.pidList.append({"target": target, "id": udid}) LogManager.info(f"[CONNECT FLOW] 设备模型已加入内存,当前在线数: {len(self.deviceModelList)}", udid) LogManager.info(f"[CONNECT FLOW] <<<<<<<<< 设备 {udid} 处理完成 <<<<<<<<", udid) # ------------------------------------------------------------------ # 原函数保留(改名即可) # ------------------------------------------------------------------ def connectDevice(self, udid: str): """对外保留接口,实际走线程池""" self._connect_pool.submit(self._connect_device_task, udid) # -------------------- 工具方法(未改动) -------------------- def is_device_trusted(self, udid: str) -> bool: try: LogManager.info(f"[CONNECT FLOW] 开始信任检测", udid) d = BaseDevice(udid) name = d.get_value("DeviceName") LogManager.info(f"[CONNECT FLOW] 信任检测成功,DeviceName={name}", udid) return True except Exception as e: LogManager.warning(f"[CONNECT FLOW] 信任检测失败: {e}", udid) return False def relayDeviceScreenPort(self, udid: str, port: int) -> Optional[subprocess.Popen]: LogManager.info(f"[CONNECT FLOW] 进入 relayDeviceScreenPort,目标端口 {port}", udid) if not self._spawn_iproxy: LogManager.error("[CONNECT FLOW] _spawn_iproxy 未初始化,返回 None", udid) return None for attempt in range(5): if not self._is_port_open(port): LogManager.info(f"[CONNECT FLOW] 端口 {port} 检测为空闲", udid) break LogManager.warning(f"[CONNECT FLOW] 端口 {port} 仍被占用,第 {attempt + 1}/5 次尝试释放", udid) pid = self._get_pid_by_port(port) if pid and pid != os.getpid(): LogManager.info(f"[CONNECT FLOW] 准备 kill 占用端口 {port} 的 PID {pid}", udid) self._kill_pid_gracefully(pid) time.sleep(0.2) else: LogManager.error("[CONNECT FLOW] 连续 5 次无法释放端口,放弃", udid) return None try: p = self._spawn_iproxy(udid, port, 9100) LogManager.info(f"[CONNECT FLOW] iproxy 启动完成,PID={p.pid}", udid) return p except Exception as e: LogManager.error(f"[CONNECT FLOW] iproxy 启动异常: {e}", udid) return None def _is_port_open(self, port: int) -> bool: import socket with socket.socket(socket.AF_INET, socket.SOCK_STREAM) as s: return s.connect_ex(("127.0.0.1", port)) == 0 def _get_pid_by_port(self, port: int) -> Optional[int]: try: if os.name == "nt": out = sp_check_output(["netstat", "-ano", "-p", "tcp"], text=True) for line in out.splitlines(): if f"127.0.0.1:{port}" in line and "LISTENING" in line: return int(line.strip().split()[-1]) else: out = sp_check_output(["lsof", "-t", f"-iTCP:{port}", "-sTCP:LISTEN"], text=True) return int(out.strip().split()[0]) except Exception: return None def _kill_pid_gracefully(self, pid: int): try: os.kill(pid, signal.SIGTERM) time.sleep(1) os.kill(pid, signal.SIGKILL) except Exception: pass def _terminate_proc(self, p: Optional[subprocess.Popen]): if not p or p.poll() is not None: return try: p.terminate() p.wait(timeout=3) except Exception: try: if os.name == "posix": os.killpg(os.getpgid(p.pid), signal.SIGKILL) else: p.kill() p.wait(timeout=2) except Exception: pass def _base_dir(self) -> Path: if getattr(sys, "frozen", False): return Path(sys.executable).resolve().parent return Path(__file__).resolve().parents[1] def _iproxy_path(self) -> Path: exe = "iproxy.exe" if os.name == "nt" else "iproxy" base = self._base_dir() candidates = [base / "resources" / "iproxy" / exe] for p in candidates: if p.exists(): return p raise FileNotFoundError(f"iproxy not found, tried: {[str(c) for c in candidates]}")