""" WeCom (Enterprise WeChat) platform adapter. Uses the WeCom AI Bot WebSocket gateway for inbound and outbound messages. The adapter focuses on the core gateway path: - authenticate via ``aibot_subscribe`` - receive inbound ``aibot_msg_callback`` events - send outbound markdown messages via ``aibot_send_msg`` - upload outbound media via ``aibot_upload_media_*`` and send native attachments - best-effort download of inbound image/file attachments for agent context Configuration in config.yaml: platforms: wecom: enabled: true extra: bot_id: "your-bot-id" # or WECOM_BOT_ID env var secret: "your-secret" # or WECOM_SECRET env var websocket_url: "wss://openws.work.weixin.qq.com" dm_policy: "open" # open | allowlist | disabled | pairing allow_from: ["user_id_1"] group_policy: "open" # open | allowlist | disabled group_allow_from: ["group_id_1"] groups: group_id_1: allow_from: ["user_id_1"] """ from __future__ import annotations import asyncio import base64 import hashlib import json import logging import mimetypes import os import re import uuid from datetime import datetime, timezone from pathlib import Path from typing import Any, Dict, List, Optional, Tuple from urllib.parse import unquote, urlparse try: import aiohttp AIOHTTP_AVAILABLE = True except ImportError: AIOHTTP_AVAILABLE = False aiohttp = None # type: ignore[assignment] try: import httpx HTTPX_AVAILABLE = True except ImportError: HTTPX_AVAILABLE = False httpx = None # type: ignore[assignment] from gateway.config import Platform, PlatformConfig from gateway.platforms.helpers import MessageDeduplicator from gateway.platforms.base import ( BasePlatformAdapter, MessageEvent, MessageType, SendResult, cache_document_from_bytes, cache_image_from_bytes, ) logger = logging.getLogger(__name__) DEFAULT_WS_URL = "wss://openws.work.weixin.qq.com" APP_CMD_SUBSCRIBE = "aibot_subscribe" APP_CMD_CALLBACK = "aibot_msg_callback" APP_CMD_LEGACY_CALLBACK = "aibot_callback" APP_CMD_EVENT_CALLBACK = "aibot_event_callback" APP_CMD_SEND = "aibot_send_msg" APP_CMD_RESPONSE = "aibot_respond_msg" APP_CMD_PING = "ping" APP_CMD_UPLOAD_MEDIA_INIT = "aibot_upload_media_init" APP_CMD_UPLOAD_MEDIA_CHUNK = "aibot_upload_media_chunk" APP_CMD_UPLOAD_MEDIA_FINISH = "aibot_upload_media_finish" CALLBACK_COMMANDS = {APP_CMD_CALLBACK, APP_CMD_LEGACY_CALLBACK} NON_RESPONSE_COMMANDS = CALLBACK_COMMANDS | {APP_CMD_EVENT_CALLBACK} MAX_MESSAGE_LENGTH = 4000 CONNECT_TIMEOUT_SECONDS = 20.0 REQUEST_TIMEOUT_SECONDS = 15.0 HEARTBEAT_INTERVAL_SECONDS = 30.0 RECONNECT_BACKOFF = [2, 5, 10, 30, 60] DEDUP_MAX_SIZE = 1000 IMAGE_MAX_BYTES = 10 * 1024 * 1024 VIDEO_MAX_BYTES = 10 * 1024 * 1024 VOICE_MAX_BYTES = 2 * 1024 * 1024 FILE_MAX_BYTES = 20 * 1024 * 1024 ABSOLUTE_MAX_BYTES = FILE_MAX_BYTES UPLOAD_CHUNK_SIZE = 512 * 1024 MAX_UPLOAD_CHUNKS = 100 VOICE_SUPPORTED_MIMES = {"audio/amr"} def check_wecom_requirements() -> bool: """Check if WeCom runtime dependencies are available.""" return AIOHTTP_AVAILABLE and HTTPX_AVAILABLE def _coerce_list(value: Any) -> List[str]: """Coerce config values into a trimmed string list.""" if value is None: return [] if isinstance(value, str): return [item.strip() for item in value.split(",") if item.strip()] if isinstance(value, (list, tuple, set)): return [str(item).strip() for item in value if str(item).strip()] return [str(value).strip()] if str(value).strip() else [] def _normalize_entry(raw: str) -> str: """Normalize allowlist entries such as ``wecom:user:foo``.""" value = str(raw).strip() value = re.sub(r"^wecom:", "", value, flags=re.IGNORECASE) value = re.sub(r"^(user|group):", "", value, flags=re.IGNORECASE) return value.strip() def _entry_matches(entries: List[str], target: str) -> bool: """Case-insensitive allowlist match with ``*`` support.""" normalized_target = str(target).strip().lower() for entry in entries: normalized = _normalize_entry(entry).lower() if normalized == "*" or normalized == normalized_target: return True return False class WeComAdapter(BasePlatformAdapter): """WeCom AI Bot adapter backed by a persistent WebSocket connection.""" MAX_MESSAGE_LENGTH = MAX_MESSAGE_LENGTH # Threshold for detecting WeCom client-side message splits. # When a chunk is near the 4000-char limit, a continuation is almost certain. _SPLIT_THRESHOLD = 3900 def __init__(self, config: PlatformConfig): super().__init__(config, Platform.WECOM) extra = config.extra or {} self._bot_id = str(extra.get("bot_id") or os.getenv("WECOM_BOT_ID", "")).strip() self._secret = str(extra.get("secret") or os.getenv("WECOM_SECRET", "")).strip() self._ws_url = str( extra.get("websocket_url") or extra.get("websocketUrl") or os.getenv("WECOM_WEBSOCKET_URL", DEFAULT_WS_URL) ).strip() or DEFAULT_WS_URL self._dm_policy = str(extra.get("dm_policy") or os.getenv("WECOM_DM_POLICY", "open")).strip().lower() self._allow_from = _coerce_list(extra.get("allow_from") or extra.get("allowFrom")) self._group_policy = str(extra.get("group_policy") or os.getenv("WECOM_GROUP_POLICY", "open")).strip().lower() self._group_allow_from = _coerce_list(extra.get("group_allow_from") or extra.get("groupAllowFrom")) self._groups = extra.get("groups") if isinstance(extra.get("groups"), dict) else {} self._session: Optional["aiohttp.ClientSession"] = None self._ws: Optional["aiohttp.ClientWebSocketResponse"] = None self._http_client: Optional["httpx.AsyncClient"] = None self._listen_task: Optional[asyncio.Task] = None self._heartbeat_task: Optional[asyncio.Task] = None self._pending_responses: Dict[str, asyncio.Future] = {} self._dedup = MessageDeduplicator(max_size=DEDUP_MAX_SIZE) self._reply_req_ids: Dict[str, str] = {} # Text batching: merge rapid successive messages (Telegram-style). # WeCom clients split long messages around 4000 chars. self._text_batch_delay_seconds = float(os.getenv("HERMES_WECOM_TEXT_BATCH_DELAY_SECONDS", "0.6")) self._text_batch_split_delay_seconds = float(os.getenv("HERMES_WECOM_TEXT_BATCH_SPLIT_DELAY_SECONDS", "2.0")) self._pending_text_batches: Dict[str, MessageEvent] = {} self._pending_text_batch_tasks: Dict[str, asyncio.Task] = {} self._device_id = uuid.uuid4().hex self._last_chat_req_ids: Dict[str, str] = {} # ------------------------------------------------------------------ # Connection lifecycle # ------------------------------------------------------------------ async def connect(self) -> bool: """Connect to the WeCom AI Bot gateway.""" if not AIOHTTP_AVAILABLE: message = "WeCom startup failed: aiohttp not installed" self._set_fatal_error("wecom_missing_dependency", message, retryable=True) logger.warning("[%s] %s. Run: pip install aiohttp", self.name, message) return False if not HTTPX_AVAILABLE: message = "WeCom startup failed: httpx not installed" self._set_fatal_error("wecom_missing_dependency", message, retryable=True) logger.warning("[%s] %s. Run: pip install httpx", self.name, message) return False if not self._bot_id or not self._secret: message = "WeCom startup failed: WECOM_BOT_ID and WECOM_SECRET are required" self._set_fatal_error("wecom_missing_credentials", message, retryable=True) logger.warning("[%s] %s", self.name, message) return False try: # Tighter keepalive so idle CLOSE_WAIT drains promptly (#18451). from gateway.platforms._http_client_limits import platform_httpx_limits self._http_client = httpx.AsyncClient( timeout=30.0, follow_redirects=True, limits=platform_httpx_limits(), ) await self._open_connection() self._mark_connected() self._listen_task = asyncio.create_task(self._listen_loop()) self._heartbeat_task = asyncio.create_task(self._heartbeat_loop()) logger.info("[%s] Connected to %s", self.name, self._ws_url) return True except Exception as exc: message = f"WeCom startup failed: {exc}" self._set_fatal_error("wecom_connect_error", message, retryable=True) logger.error("[%s] Failed to connect: %s", self.name, exc, exc_info=True) await self._cleanup_ws() if self._http_client: await self._http_client.aclose() self._http_client = None return False async def disconnect(self) -> None: """Disconnect from WeCom.""" self._running = False self._mark_disconnected() if self._listen_task: self._listen_task.cancel() try: await self._listen_task except asyncio.CancelledError: pass self._listen_task = None if self._heartbeat_task: self._heartbeat_task.cancel() try: await self._heartbeat_task except asyncio.CancelledError: pass self._heartbeat_task = None self._fail_pending_responses(RuntimeError("WeCom adapter disconnected")) await self._cleanup_ws() if self._http_client: await self._http_client.aclose() self._http_client = None self._dedup.clear() logger.info("[%s] Disconnected", self.name) async def _cleanup_ws(self) -> None: """Close the live websocket/session, if any.""" if self._ws and not self._ws.closed: await self._ws.close() self._ws = None if self._session and not self._session.closed: await self._session.close() self._session = None async def _open_connection(self) -> None: """Open and authenticate a websocket connection.""" await self._cleanup_ws() self._session = aiohttp.ClientSession(trust_env=True) self._ws = await self._session.ws_connect( self._ws_url, heartbeat=HEARTBEAT_INTERVAL_SECONDS * 2, timeout=CONNECT_TIMEOUT_SECONDS, ) req_id = self._new_req_id("subscribe") await self._send_json( { "cmd": APP_CMD_SUBSCRIBE, "headers": {"req_id": req_id}, "body": { "bot_id": self._bot_id, "secret": self._secret, "device_id": self._device_id, }, } ) auth_payload = await self._wait_for_handshake(req_id) errcode = auth_payload.get("errcode", 0) if errcode not in (0, None): errmsg = auth_payload.get("errmsg", "authentication failed") raise RuntimeError(f"{errmsg} (errcode={errcode})") async def _wait_for_handshake(self, req_id: str) -> Dict[str, Any]: """Wait for the subscribe acknowledgement.""" if not self._ws: raise RuntimeError("WebSocket not initialized") deadline = asyncio.get_running_loop().time() + CONNECT_TIMEOUT_SECONDS while True: remaining = deadline - asyncio.get_running_loop().time() if remaining <= 0: raise TimeoutError("Timed out waiting for WeCom subscribe acknowledgement") msg = await asyncio.wait_for(self._ws.receive(), timeout=remaining) if msg.type == aiohttp.WSMsgType.TEXT: payload = self._parse_json(msg.data) if not payload: continue if payload.get("cmd") == APP_CMD_PING: continue if self._payload_req_id(payload) == req_id: return payload logger.debug("[%s] Ignoring pre-auth payload: %s", self.name, payload.get("cmd")) elif msg.type in (aiohttp.WSMsgType.CLOSED, aiohttp.WSMsgType.CLOSE, aiohttp.WSMsgType.ERROR): raise RuntimeError("WeCom websocket closed during authentication") async def _listen_loop(self) -> None: """Read websocket events forever, reconnecting on errors.""" backoff_idx = 0 while self._running: try: await self._read_events() backoff_idx = 0 except asyncio.CancelledError: return except Exception as exc: if not self._running: return logger.warning("[%s] WebSocket error: %s", self.name, exc) self._fail_pending_responses(RuntimeError("WeCom connection interrupted")) delay = RECONNECT_BACKOFF[min(backoff_idx, len(RECONNECT_BACKOFF) - 1)] backoff_idx += 1 await asyncio.sleep(delay) try: await self._open_connection() backoff_idx = 0 logger.info("[%s] Reconnected", self.name) except Exception as reconnect_exc: logger.warning("[%s] Reconnect failed: %s", self.name, reconnect_exc) async def _read_events(self) -> None: """Read websocket frames until the connection closes.""" if not self._ws: raise RuntimeError("WebSocket not connected") while self._running and self._ws and not self._ws.closed: msg = await self._ws.receive() if msg.type == aiohttp.WSMsgType.TEXT: payload = self._parse_json(msg.data) if payload: await self._dispatch_payload(payload) elif msg.type in (aiohttp.WSMsgType.CLOSE, aiohttp.WSMsgType.CLOSED, aiohttp.WSMsgType.ERROR): raise RuntimeError("WeCom websocket closed") async def _heartbeat_loop(self) -> None: """Send lightweight application-level pings.""" try: while self._running: await asyncio.sleep(HEARTBEAT_INTERVAL_SECONDS) if not self._ws or self._ws.closed: continue try: await self._send_json( { "cmd": APP_CMD_PING, "headers": {"req_id": self._new_req_id("ping")}, "body": {}, } ) except Exception as exc: logger.debug("[%s] Heartbeat send failed: %s", self.name, exc) except asyncio.CancelledError: pass async def _dispatch_payload(self, payload: Dict[str, Any]) -> None: """Route inbound websocket payloads.""" req_id = self._payload_req_id(payload) cmd = str(payload.get("cmd") or "") if req_id and req_id in self._pending_responses and cmd not in NON_RESPONSE_COMMANDS: future = self._pending_responses.get(req_id) if future and not future.done(): future.set_result(payload) return if cmd in CALLBACK_COMMANDS: await self._on_message(payload) return if cmd in {APP_CMD_PING, APP_CMD_EVENT_CALLBACK}: return logger.debug("[%s] Ignoring websocket payload: %s", self.name, cmd or payload) def _fail_pending_responses(self, exc: Exception) -> None: """Fail all outstanding request futures.""" for req_id, future in list(self._pending_responses.items()): if not future.done(): future.set_exception(exc) self._pending_responses.pop(req_id, None) async def _send_json(self, payload: Dict[str, Any]) -> None: """Send a raw JSON frame over the active websocket.""" if not self._ws or self._ws.closed: raise RuntimeError("WeCom websocket is not connected") await self._ws.send_json(payload) async def _send_request(self, cmd: str, body: Dict[str, Any], timeout: float = REQUEST_TIMEOUT_SECONDS) -> Dict[str, Any]: """Send a JSON request and await the correlated response.""" if not self._ws or self._ws.closed: raise RuntimeError("WeCom websocket is not connected") req_id = self._new_req_id(cmd) future = asyncio.get_running_loop().create_future() self._pending_responses[req_id] = future try: await self._send_json({"cmd": cmd, "headers": {"req_id": req_id}, "body": body}) response = await asyncio.wait_for(future, timeout=timeout) return response finally: self._pending_responses.pop(req_id, None) async def _send_reply_request( self, reply_req_id: str, body: Dict[str, Any], cmd: str = APP_CMD_RESPONSE, timeout: float = REQUEST_TIMEOUT_SECONDS, ) -> Dict[str, Any]: """Send a reply frame correlated to an inbound callback req_id.""" if not self._ws or self._ws.closed: raise RuntimeError("WeCom websocket is not connected") normalized_req_id = str(reply_req_id or "").strip() if not normalized_req_id: raise ValueError("reply_req_id is required") future = asyncio.get_running_loop().create_future() self._pending_responses[normalized_req_id] = future try: await self._send_json( {"cmd": cmd, "headers": {"req_id": normalized_req_id}, "body": body} ) response = await asyncio.wait_for(future, timeout=timeout) return response finally: self._pending_responses.pop(normalized_req_id, None) @staticmethod def _new_req_id(prefix: str) -> str: return f"{prefix}-{uuid.uuid4().hex}" @staticmethod def _payload_req_id(payload: Dict[str, Any]) -> str: headers = payload.get("headers") if isinstance(headers, dict): return str(headers.get("req_id") or "") return "" @staticmethod def _parse_json(raw: Any) -> Optional[Dict[str, Any]]: try: payload = json.loads(raw) except Exception: logger.debug("Failed to parse WeCom payload: %r", raw) return None return payload if isinstance(payload, dict) else None # ------------------------------------------------------------------ # Inbound message parsing # ------------------------------------------------------------------ async def _on_message(self, payload: Dict[str, Any]) -> None: """Process an inbound WeCom message callback event.""" body = payload.get("body") if not isinstance(body, dict): return msg_id = str(body.get("msgid") or self._payload_req_id(payload) or uuid.uuid4().hex) if self._dedup.is_duplicate(msg_id): logger.debug("[%s] Duplicate message %s ignored", self.name, msg_id) return self._remember_reply_req_id(msg_id, self._payload_req_id(payload)) sender = body.get("from") if isinstance(body.get("from"), dict) else {} sender_id = str(sender.get("userid") or "").strip() chat_id = str(body.get("chatid") or sender_id).strip() if not chat_id: logger.debug("[%s] Missing chat id, skipping message", self.name) return is_group = str(body.get("chattype") or "").lower() == "group" if is_group: if not self._is_group_allowed(chat_id, sender_id): logger.debug("[%s] Group %s / sender %s blocked by policy", self.name, chat_id, sender_id) return elif not self._is_dm_allowed(sender_id): logger.debug("[%s] DM sender %s blocked by policy", self.name, sender_id) return # Cache the inbound req_id after policy checks so proactive sends to # this chat can fall back to APP_CMD_RESPONSE (required for groups — # WeCom AI Bots cannot initiate APP_CMD_SEND in group chats). self._remember_chat_req_id(chat_id, self._payload_req_id(payload)) text, reply_text = self._extract_text(body) # Strip leading @mention in group chats so slash commands like # "@BotName /approve" are correctly recognized as "/approve". # Mirrors what the Telegram adapter does (re.sub @botname). if is_group and text: text = re.sub(r"^@\S+\s*", "", text).strip() media_urls, media_types = await self._extract_media(body) message_type = self._derive_message_type(body, text, media_types) has_reply_context = bool(reply_text and (text or media_urls)) if not text and reply_text and not media_urls: text = reply_text if not text and not media_urls: logger.debug("[%s] Empty WeCom message skipped", self.name) return source = self.build_source( chat_id=chat_id, chat_type="group" if is_group else "dm", user_id=sender_id or None, user_name=sender_id or None, ) event = MessageEvent( text=text, message_type=message_type, source=source, raw_message=payload, message_id=msg_id, media_urls=media_urls, media_types=media_types, reply_to_message_id=f"quote:{msg_id}" if has_reply_context else None, reply_to_text=reply_text if has_reply_context else None, timestamp=datetime.now(tz=timezone.utc), ) # Only batch plain text messages — commands, media, etc. dispatch # immediately since they won't be split by the WeCom client. if message_type == MessageType.TEXT and self._text_batch_delay_seconds > 0: self._enqueue_text_event(event) else: await self.handle_message(event) # ------------------------------------------------------------------ # Text message aggregation (handles WeCom client-side splits) # ------------------------------------------------------------------ def _text_batch_key(self, event: MessageEvent) -> str: """Session-scoped key for text message batching.""" from gateway.session import build_session_key return build_session_key( event.source, group_sessions_per_user=self.config.extra.get("group_sessions_per_user", True), thread_sessions_per_user=self.config.extra.get("thread_sessions_per_user", False), ) def _enqueue_text_event(self, event: MessageEvent) -> None: """Buffer a text event and reset the flush timer. When WeCom splits a long user message at 4000 chars, the chunks arrive within a few hundred milliseconds. This merges them into a single event before dispatching. """ key = self._text_batch_key(event) existing = self._pending_text_batches.get(key) chunk_len = len(event.text or "") if existing is None: event._last_chunk_len = chunk_len # type: ignore[attr-defined] self._pending_text_batches[key] = event else: if event.text: existing.text = f"{existing.text}\n{event.text}" if existing.text else event.text existing._last_chunk_len = chunk_len # type: ignore[attr-defined] # Merge any media that might be attached if event.media_urls: existing.media_urls.extend(event.media_urls) existing.media_types.extend(event.media_types) # Cancel any pending flush and restart the timer prior_task = self._pending_text_batch_tasks.get(key) if prior_task and not prior_task.done(): prior_task.cancel() self._pending_text_batch_tasks[key] = asyncio.create_task( self._flush_text_batch(key) ) async def _flush_text_batch(self, key: str) -> None: """Wait for the quiet period then dispatch the aggregated text. Uses a longer delay when the latest chunk is near WeCom's 4000-char split point, since a continuation chunk is almost certain. """ current_task = asyncio.current_task() try: pending = self._pending_text_batches.get(key) last_len = getattr(pending, "_last_chunk_len", 0) if pending else 0 if last_len >= self._SPLIT_THRESHOLD: delay = self._text_batch_split_delay_seconds else: delay = self._text_batch_delay_seconds await asyncio.sleep(delay) event = self._pending_text_batches.pop(key, None) if not event: return logger.info( "[WeCom] Flushing text batch %s (%d chars)", key, len(event.text or ""), ) await self.handle_message(event) finally: if self._pending_text_batch_tasks.get(key) is current_task: self._pending_text_batch_tasks.pop(key, None) @staticmethod def _extract_text(body: Dict[str, Any]) -> Tuple[str, Optional[str]]: """Extract plain text and quoted text from a callback payload.""" text_parts: List[str] = [] reply_text: Optional[str] = None msgtype = str(body.get("msgtype") or "").lower() if msgtype == "mixed": _raw_mixed = body.get("mixed") mixed = _raw_mixed if isinstance(_raw_mixed, dict) else {} _raw_items = mixed.get("msg_item") items = _raw_items if isinstance(_raw_items, list) else [] for item in items: if not isinstance(item, dict): continue if str(item.get("msgtype") or "").lower() == "text": _raw_text = item.get("text") text_block = _raw_text if isinstance(_raw_text, dict) else {} content = str(text_block.get("content") or "").strip() if content: text_parts.append(content) else: text_block = body.get("text") if isinstance(body.get("text"), dict) else {} content = str(text_block.get("content") or "").strip() if content: text_parts.append(content) if msgtype == "voice": voice_block = body.get("voice") if isinstance(body.get("voice"), dict) else {} voice_text = str(voice_block.get("content") or "").strip() if voice_text: text_parts.append(voice_text) # Extract appmsg title (filename) for WeCom AI Bot attachments if msgtype == "appmsg": appmsg = body.get("appmsg") if isinstance(body.get("appmsg"), dict) else {} title = str(appmsg.get("title") or "").strip() if title: text_parts.append(title) quote = body.get("quote") if isinstance(body.get("quote"), dict) else {} quote_type = str(quote.get("msgtype") or "").lower() if quote_type == "text": quote_text = quote.get("text") if isinstance(quote.get("text"), dict) else {} reply_text = str(quote_text.get("content") or "").strip() or None elif quote_type == "voice": quote_voice = quote.get("voice") if isinstance(quote.get("voice"), dict) else {} reply_text = str(quote_voice.get("content") or "").strip() or None return "\n".join(part for part in text_parts if part).strip(), reply_text async def _extract_media(self, body: Dict[str, Any]) -> Tuple[List[str], List[str]]: """Best-effort extraction of inbound media to local cache paths.""" media_paths: List[str] = [] media_types: List[str] = [] refs: List[Tuple[str, Dict[str, Any]]] = [] msgtype = str(body.get("msgtype") or "").lower() if msgtype == "mixed": _raw_mixed = body.get("mixed") mixed = _raw_mixed if isinstance(_raw_mixed, dict) else {} _raw_items = mixed.get("msg_item") items = _raw_items if isinstance(_raw_items, list) else [] for item in items: if not isinstance(item, dict): continue item_type = str(item.get("msgtype") or "").lower() if item_type == "image" and isinstance(item.get("image"), dict): refs.append(("image", item["image"])) else: if isinstance(body.get("image"), dict): refs.append(("image", body["image"])) if msgtype == "file" and isinstance(body.get("file"), dict): refs.append(("file", body["file"])) # Handle appmsg (WeCom AI Bot attachments with PDF/Word/Excel) if msgtype == "appmsg" and isinstance(body.get("appmsg"), dict): appmsg = body["appmsg"] if isinstance(appmsg.get("file"), dict): refs.append(("file", appmsg["file"])) elif isinstance(appmsg.get("image"), dict): refs.append(("image", appmsg["image"])) quote = body.get("quote") if isinstance(body.get("quote"), dict) else {} quote_type = str(quote.get("msgtype") or "").lower() if quote_type == "image" and isinstance(quote.get("image"), dict): refs.append(("image", quote["image"])) elif quote_type == "file" and isinstance(quote.get("file"), dict): refs.append(("file", quote["file"])) for kind, ref in refs: cached = await self._cache_media(kind, ref) if cached: path, content_type = cached media_paths.append(path) media_types.append(content_type) return media_paths, media_types async def _cache_media(self, kind: str, media: Dict[str, Any]) -> Optional[Tuple[str, str]]: """Cache an inbound image/file/media reference to local storage.""" if "base64" in media and media.get("base64"): try: raw = self._decode_base64(media["base64"]) except Exception as exc: logger.debug("[%s] Failed to decode %s base64 media: %s", self.name, kind, exc) return None if kind == "image": ext = self._detect_image_ext(raw) try: return cache_image_from_bytes(raw, ext), self._mime_for_ext(ext, fallback="image/jpeg") except ValueError as exc: logger.warning("[%s] Rejected non-image bytes: %s", self.name, exc) return None filename = str(media.get("filename") or media.get("name") or "wecom_file") return cache_document_from_bytes(raw, filename), mimetypes.guess_type(filename)[0] or "application/octet-stream" url = str(media.get("url") or "").strip() if not url: return None try: raw, headers = await self._download_remote_bytes(url, max_bytes=ABSOLUTE_MAX_BYTES) except Exception as exc: logger.debug("[%s] Failed to download %s from %s: %s", self.name, kind, url, exc) return None aes_key = str(media.get("aeskey") or "").strip() if aes_key: try: raw = self._decrypt_file_bytes(raw, aes_key) except Exception as exc: logger.debug("[%s] Failed to decrypt %s from %s: %s", self.name, kind, url, exc) return None content_type = str(headers.get("content-type") or "").split(";", 1)[0].strip() or "application/octet-stream" if kind == "image": ext = self._guess_extension(url, content_type, fallback=self._detect_image_ext(raw)) try: return cache_image_from_bytes(raw, ext), content_type or self._mime_for_ext(ext, fallback="image/jpeg") except ValueError as exc: logger.warning("[%s] Rejected non-image bytes from %s: %s", self.name, url, exc) return None filename = self._guess_filename(url, headers.get("content-disposition"), content_type) return cache_document_from_bytes(raw, filename), content_type @staticmethod def _decode_base64(data: str) -> bytes: payload = data.split(",", 1)[-1].strip() return base64.b64decode(payload) @staticmethod def _detect_image_ext(data: bytes) -> str: if data.startswith(b"\x89PNG\r\n\x1a\n"): return ".png" if data.startswith(b"\xff\xd8\xff"): return ".jpg" if data.startswith((b"GIF87a", b"GIF89a")): return ".gif" if data.startswith(b"RIFF") and data[8:12] == b"WEBP": return ".webp" return ".jpg" @staticmethod def _mime_for_ext(ext: str, fallback: str = "application/octet-stream") -> str: return mimetypes.types_map.get(ext.lower(), fallback) @staticmethod def _guess_extension(url: str, content_type: str, fallback: str) -> str: ext = mimetypes.guess_extension(content_type) if content_type else None if ext: return ext path_ext = Path(urlparse(url).path).suffix if path_ext: return path_ext return fallback @staticmethod def _guess_filename(url: str, content_disposition: Optional[str], content_type: str) -> str: if content_disposition: match = re.search(r'filename="?([^";]+)"?', content_disposition) if match: return match.group(1) name = Path(urlparse(url).path).name or "document" if "." not in name: ext = mimetypes.guess_extension(content_type) or ".bin" name = f"{name}{ext}" return name @staticmethod def _derive_message_type(body: Dict[str, Any], text: str, media_types: List[str]) -> MessageType: """Choose the normalized inbound message type.""" if any(mtype.startswith(("application/", "text/")) for mtype in media_types): return MessageType.DOCUMENT if any(mtype.startswith("image/") for mtype in media_types): return MessageType.TEXT if text else MessageType.PHOTO if str(body.get("msgtype") or "").lower() == "voice": return MessageType.VOICE return MessageType.TEXT # ------------------------------------------------------------------ # Policy helpers # ------------------------------------------------------------------ def _is_dm_allowed(self, sender_id: str) -> bool: if self._dm_policy == "disabled": return False if self._dm_policy == "allowlist": return _entry_matches(self._allow_from, sender_id) return True def _is_group_allowed(self, chat_id: str, sender_id: str) -> bool: if self._group_policy == "disabled": return False if self._group_policy == "allowlist" and not _entry_matches(self._group_allow_from, chat_id): return False group_cfg = self._resolve_group_cfg(chat_id) sender_allow = _coerce_list(group_cfg.get("allow_from") or group_cfg.get("allowFrom")) if sender_allow: return _entry_matches(sender_allow, sender_id) return True def _resolve_group_cfg(self, chat_id: str) -> Dict[str, Any]: if not isinstance(self._groups, dict): return {} if chat_id in self._groups and isinstance(self._groups[chat_id], dict): return self._groups[chat_id] lowered = chat_id.lower() for key, value in self._groups.items(): if isinstance(key, str) and key.lower() == lowered and isinstance(value, dict): return value wildcard = self._groups.get("*") return wildcard if isinstance(wildcard, dict) else {} def _remember_reply_req_id(self, message_id: str, req_id: str) -> None: normalized_message_id = str(message_id or "").strip() normalized_req_id = str(req_id or "").strip() if not normalized_message_id or not normalized_req_id: return self._reply_req_ids[normalized_message_id] = normalized_req_id while len(self._reply_req_ids) > DEDUP_MAX_SIZE: self._reply_req_ids.pop(next(iter(self._reply_req_ids))) def _remember_chat_req_id(self, chat_id: str, req_id: str) -> None: """Cache the most recent inbound req_id per chat. Used as a fallback reply target when we need to send into a group without an explicit ``reply_to`` — WeCom AI Bots are blocked from APP_CMD_SEND in groups and must use APP_CMD_RESPONSE bound to some prior req_id. Bounded like _reply_req_ids so long-running gateways don't leak memory across many chats. """ normalized_chat_id = str(chat_id or "").strip() normalized_req_id = str(req_id or "").strip() if not normalized_chat_id or not normalized_req_id: return self._last_chat_req_ids[normalized_chat_id] = normalized_req_id while len(self._last_chat_req_ids) > DEDUP_MAX_SIZE: self._last_chat_req_ids.pop(next(iter(self._last_chat_req_ids))) def _reply_req_id_for_message(self, reply_to: Optional[str]) -> Optional[str]: normalized = str(reply_to or "").strip() if not normalized or normalized.startswith("quote:"): return None return self._reply_req_ids.get(normalized) # ------------------------------------------------------------------ # Outbound messaging # ------------------------------------------------------------------ @staticmethod def _guess_mime_type(filename: str) -> str: mime_type = mimetypes.guess_type(filename)[0] if mime_type: return mime_type if Path(filename).suffix.lower() == ".amr": return "audio/amr" return "application/octet-stream" @staticmethod def _normalize_content_type(content_type: str, filename: str) -> str: normalized = str(content_type or "").split(";", 1)[0].strip().lower() guessed = WeComAdapter._guess_mime_type(filename) if not normalized: return guessed if normalized in {"application/octet-stream", "text/plain"}: return guessed return normalized @staticmethod def _detect_wecom_media_type(content_type: str) -> str: mime_type = str(content_type or "").strip().lower() if mime_type.startswith("image/"): return "image" if mime_type.startswith("video/"): return "video" if mime_type.startswith("audio/") or mime_type == "application/ogg": return "voice" return "file" @staticmethod def _apply_file_size_limits(file_size: int, detected_type: str, content_type: Optional[str] = None) -> Dict[str, Any]: file_size_mb = file_size / (1024 * 1024) normalized_type = str(detected_type or "file").lower() normalized_content_type = str(content_type or "").strip().lower() if file_size > ABSOLUTE_MAX_BYTES: return { "final_type": normalized_type, "rejected": True, "reject_reason": ( f"文件大小 {file_size_mb:.2f}MB 超过了企业微信允许的最大限制 20MB,无法发送。" "请尝试压缩文件或减小文件大小。" ), "downgraded": False, "downgrade_note": None, } if normalized_type == "image" and file_size > IMAGE_MAX_BYTES: return { "final_type": "file", "rejected": False, "reject_reason": None, "downgraded": True, "downgrade_note": f"图片大小 {file_size_mb:.2f}MB 超过 10MB 限制,已转为文件格式发送", } if normalized_type == "video" and file_size > VIDEO_MAX_BYTES: return { "final_type": "file", "rejected": False, "reject_reason": None, "downgraded": True, "downgrade_note": f"视频大小 {file_size_mb:.2f}MB 超过 10MB 限制,已转为文件格式发送", } if normalized_type == "voice": if normalized_content_type and normalized_content_type not in VOICE_SUPPORTED_MIMES: return { "final_type": "file", "rejected": False, "reject_reason": None, "downgraded": True, "downgrade_note": ( f"语音格式 {normalized_content_type} 不支持,企微仅支持 AMR 格式,已转为文件格式发送" ), } if file_size > VOICE_MAX_BYTES: return { "final_type": "file", "rejected": False, "reject_reason": None, "downgraded": True, "downgrade_note": f"语音大小 {file_size_mb:.2f}MB 超过 2MB 限制,已转为文件格式发送", } return { "final_type": normalized_type, "rejected": False, "reject_reason": None, "downgraded": False, "downgrade_note": None, } @staticmethod def _response_error(response: Dict[str, Any]) -> Optional[str]: errcode = response.get("errcode", 0) if errcode in (0, None): return None errmsg = str(response.get("errmsg") or "unknown error") return f"WeCom errcode {errcode}: {errmsg}" @classmethod def _raise_for_wecom_error(cls, response: Dict[str, Any], operation: str) -> None: error = cls._response_error(response) if error: raise RuntimeError(f"{operation} failed: {error}") @staticmethod def _decrypt_file_bytes(encrypted_data: bytes, aes_key: str) -> bytes: if not encrypted_data: raise ValueError("encrypted_data is empty") if not aes_key: raise ValueError("aes_key is required") key = base64.b64decode(aes_key) if len(key) != 32: raise ValueError(f"Invalid WeCom AES key length: expected 32 bytes, got {len(key)}") try: from cryptography.hazmat.primitives.ciphers import Cipher, algorithms, modes except ImportError as exc: # pragma: no cover - dependency is environment-specific raise RuntimeError("cryptography is required for WeCom media decryption") from exc cipher = Cipher(algorithms.AES(key), modes.CBC(key[:16])) decryptor = cipher.decryptor() decrypted = decryptor.update(encrypted_data) + decryptor.finalize() pad_len = decrypted[-1] if pad_len < 1 or pad_len > 32 or pad_len > len(decrypted): raise ValueError(f"Invalid PKCS#7 padding value: {pad_len}") if any(byte != pad_len for byte in decrypted[-pad_len:]): raise ValueError("Invalid PKCS#7 padding: padding bytes mismatch") return decrypted[:-pad_len] async def _download_remote_bytes( self, url: str, max_bytes: int, ) -> Tuple[bytes, Dict[str, str]]: from tools.url_safety import is_safe_url if not is_safe_url(url): raise ValueError(f"Blocked unsafe URL (SSRF protection): {url[:80]}") if not HTTPX_AVAILABLE: raise RuntimeError("httpx is required for WeCom media download") client = self._http_client or httpx.AsyncClient(timeout=30.0, follow_redirects=True) created_client = client is not self._http_client try: async with client.stream( "GET", url, headers={ "User-Agent": "HermesAgent/1.0", "Accept": "*/*", }, ) as response: response.raise_for_status() headers = {key.lower(): value for key, value in response.headers.items()} content_length = headers.get("content-length") if content_length and content_length.isdigit() and int(content_length) > max_bytes: raise ValueError( f"Remote media exceeds WeCom limit: {int(content_length)} bytes > {max_bytes} bytes" ) data = bytearray() async for chunk in response.aiter_bytes(): data.extend(chunk) if len(data) > max_bytes: raise ValueError( f"Remote media exceeds WeCom limit while downloading: {len(data)} bytes > {max_bytes} bytes" ) return bytes(data), headers finally: if created_client: await client.aclose() @staticmethod def _looks_like_url(media_source: str) -> bool: parsed = urlparse(str(media_source or "")) return parsed.scheme in {"http", "https"} async def _load_outbound_media( self, media_source: str, file_name: Optional[str] = None, ) -> Tuple[bytes, str, str]: source = str(media_source or "").strip() if not source: raise ValueError("media source is required") if re.fullmatch(r"<[^>\n]+>", source): raise ValueError(f"Media placeholder was not replaced with a real file path: {source}") parsed = urlparse(source) if parsed.scheme in {"http", "https"}: data, headers = await self._download_remote_bytes(source, max_bytes=ABSOLUTE_MAX_BYTES) content_disposition = headers.get("content-disposition") resolved_name = file_name or self._guess_filename(source, content_disposition, headers.get("content-type", "")) content_type = self._normalize_content_type(headers.get("content-type", ""), resolved_name) return data, content_type, resolved_name if parsed.scheme == "file": local_path = Path(unquote(parsed.path)).expanduser() else: local_path = Path(source).expanduser() if not local_path.is_absolute(): local_path = (Path.cwd() / local_path).resolve() if not local_path.exists() or not local_path.is_file(): raise FileNotFoundError(f"Media file not found: {local_path}") data = local_path.read_bytes() resolved_name = file_name or local_path.name content_type = self._normalize_content_type("", resolved_name) return data, content_type, resolved_name async def _prepare_outbound_media( self, media_source: str, file_name: Optional[str] = None, ) -> Dict[str, Any]: data, content_type, resolved_name = await self._load_outbound_media(media_source, file_name=file_name) detected_type = self._detect_wecom_media_type(content_type) size_check = self._apply_file_size_limits(len(data), detected_type, content_type) return { "data": data, "content_type": content_type, "file_name": resolved_name, "detected_type": detected_type, **size_check, } async def _upload_media_bytes(self, data: bytes, media_type: str, filename: str) -> Dict[str, Any]: if not data: raise ValueError("Cannot upload empty media") total_size = len(data) total_chunks = (total_size + UPLOAD_CHUNK_SIZE - 1) // UPLOAD_CHUNK_SIZE if total_chunks > MAX_UPLOAD_CHUNKS: raise ValueError( f"File too large: {total_chunks} chunks exceeds maximum of {MAX_UPLOAD_CHUNKS} chunks" ) init_response = await self._send_request( APP_CMD_UPLOAD_MEDIA_INIT, { "type": media_type, "filename": filename, "total_size": total_size, "total_chunks": total_chunks, "md5": hashlib.md5(data).hexdigest(), }, ) self._raise_for_wecom_error(init_response, "media upload init") init_body = init_response.get("body") if isinstance(init_response.get("body"), dict) else {} upload_id = str(init_body.get("upload_id") or "").strip() if not upload_id: raise RuntimeError(f"media upload init failed: missing upload_id in response {init_response}") for chunk_index, start in enumerate(range(0, total_size, UPLOAD_CHUNK_SIZE)): chunk = data[start : start + UPLOAD_CHUNK_SIZE] chunk_response = await self._send_request( APP_CMD_UPLOAD_MEDIA_CHUNK, { "upload_id": upload_id, # Match the official SDK implementation, which currently uses 0-based chunk indexes. "chunk_index": chunk_index, "base64_data": base64.b64encode(chunk).decode("ascii"), }, ) self._raise_for_wecom_error(chunk_response, f"media upload chunk {chunk_index}") finish_response = await self._send_request( APP_CMD_UPLOAD_MEDIA_FINISH, {"upload_id": upload_id}, ) self._raise_for_wecom_error(finish_response, "media upload finish") finish_body = finish_response.get("body") if isinstance(finish_response.get("body"), dict) else {} media_id = str(finish_body.get("media_id") or "").strip() if not media_id: raise RuntimeError(f"media upload finish failed: missing media_id in response {finish_response}") return { "type": str(finish_body.get("type") or media_type), "media_id": media_id, "created_at": finish_body.get("created_at"), } async def _send_media_message(self, chat_id: str, media_type: str, media_id: str) -> Dict[str, Any]: response = await self._send_request( APP_CMD_SEND, { "chatid": chat_id, "msgtype": media_type, media_type: {"media_id": media_id}, }, ) self._raise_for_wecom_error(response, "send media message") return response async def _send_reply_markdown(self, reply_req_id: str, content: str) -> Dict[str, Any]: response = await self._send_reply_request( reply_req_id, { "msgtype": "markdown", "markdown": {"content": content[:self.MAX_MESSAGE_LENGTH]}, }, ) self._raise_for_wecom_error(response, "send reply markdown") return response async def _send_reply_media_message( self, reply_req_id: str, media_type: str, media_id: str, ) -> Dict[str, Any]: response = await self._send_reply_request( reply_req_id, { "msgtype": media_type, media_type: {"media_id": media_id}, }, ) self._raise_for_wecom_error(response, "send reply media message") return response async def _send_followup_markdown( self, chat_id: str, content: str, reply_to: Optional[str] = None, ) -> Optional[SendResult]: if not content: return None result = await self.send(chat_id=chat_id, content=content, reply_to=reply_to) if not result.success: logger.warning("[%s] Follow-up markdown send failed: %s", self.name, result.error) return result async def _send_media_source( self, chat_id: str, media_source: str, caption: Optional[str] = None, file_name: Optional[str] = None, reply_to: Optional[str] = None, ) -> SendResult: if not chat_id: return SendResult(success=False, error="chat_id is required") try: prepared = await self._prepare_outbound_media(media_source, file_name=file_name) except FileNotFoundError as exc: return SendResult(success=False, error=str(exc)) except Exception as exc: logger.error("[%s] Failed to prepare outbound media %s: %s", self.name, media_source, exc) return SendResult(success=False, error=str(exc)) if prepared["rejected"]: await self._send_followup_markdown( chat_id, f"⚠️ {prepared['reject_reason']}", reply_to=reply_to, ) return SendResult(success=False, error=prepared["reject_reason"]) reply_req_id = self._reply_req_id_for_message(reply_to) if not reply_req_id and chat_id in self._last_chat_req_ids: reply_req_id = self._last_chat_req_ids[chat_id] try: upload_result = await self._upload_media_bytes( prepared["data"], prepared["final_type"], prepared["file_name"], ) if reply_req_id: media_response = await self._send_reply_media_message( reply_req_id, prepared["final_type"], upload_result["media_id"], ) else: media_response = await self._send_media_message( chat_id, prepared["final_type"], upload_result["media_id"], ) except asyncio.TimeoutError: return SendResult(success=False, error="Timeout sending media to WeCom") except Exception as exc: logger.error("[%s] Failed to send media %s: %s", self.name, media_source, exc) return SendResult(success=False, error=str(exc)) caption_result = None downgrade_result = None if caption: caption_result = await self._send_followup_markdown( chat_id, caption, reply_to=reply_to, ) if prepared["downgraded"] and prepared["downgrade_note"]: downgrade_result = await self._send_followup_markdown( chat_id, f"ℹ️ {prepared['downgrade_note']}", reply_to=reply_to, ) return SendResult( success=True, message_id=self._payload_req_id(media_response) or uuid.uuid4().hex[:12], raw_response={ "upload": upload_result, "media": media_response, "caption": caption_result.raw_response if caption_result else None, "caption_error": caption_result.error if caption_result and not caption_result.success else None, "downgrade": downgrade_result.raw_response if downgrade_result else None, "downgrade_error": downgrade_result.error if downgrade_result and not downgrade_result.success else None, }, ) async def send( self, chat_id: str, content: str, reply_to: Optional[str] = None, metadata: Optional[Dict[str, Any]] = None, ) -> SendResult: """Send markdown to a WeCom chat via proactive ``aibot_send_msg``.""" del metadata if not chat_id: return SendResult(success=False, error="chat_id is required") try: reply_req_id = self._reply_req_id_for_message(reply_to) if not reply_req_id and chat_id in self._last_chat_req_ids: reply_req_id = self._last_chat_req_ids[chat_id] if reply_req_id: response = await self._send_reply_markdown(reply_req_id, content) else: response = await self._send_request( APP_CMD_SEND, { "chatid": chat_id, "msgtype": "markdown", "markdown": {"content": content[:self.MAX_MESSAGE_LENGTH]}, }, ) except asyncio.TimeoutError: return SendResult(success=False, error="Timeout sending message to WeCom") except Exception as exc: logger.error("[%s] Send failed: %s", self.name, exc) return SendResult(success=False, error=str(exc)) error = self._response_error(response) if error: return SendResult(success=False, error=error) return SendResult( success=True, message_id=self._payload_req_id(response) or uuid.uuid4().hex[:12], raw_response=response, ) async def send_image( self, chat_id: str, image_url: str, caption: Optional[str] = None, reply_to: Optional[str] = None, metadata: Optional[Dict[str, Any]] = None, ) -> SendResult: del metadata result = await self._send_media_source( chat_id=chat_id, media_source=image_url, caption=caption, reply_to=reply_to, ) if result.success or not self._looks_like_url(image_url): return result logger.warning("[%s] Falling back to text send for image URL %s: %s", self.name, image_url, result.error) fallback_text = f"{caption}\n{image_url}" if caption else image_url return await self.send(chat_id=chat_id, content=fallback_text, reply_to=reply_to) async def send_image_file( self, chat_id: str, image_path: str, caption: Optional[str] = None, reply_to: Optional[str] = None, **kwargs, ) -> SendResult: del kwargs return await self._send_media_source( chat_id=chat_id, media_source=image_path, caption=caption, reply_to=reply_to, ) async def send_document( self, chat_id: str, file_path: str, caption: Optional[str] = None, file_name: Optional[str] = None, reply_to: Optional[str] = None, **kwargs, ) -> SendResult: del kwargs return await self._send_media_source( chat_id=chat_id, media_source=file_path, caption=caption, file_name=file_name, reply_to=reply_to, ) async def send_voice( self, chat_id: str, audio_path: str, caption: Optional[str] = None, reply_to: Optional[str] = None, **kwargs, ) -> SendResult: del kwargs return await self._send_media_source( chat_id=chat_id, media_source=audio_path, caption=caption, reply_to=reply_to, ) async def send_video( self, chat_id: str, video_path: str, caption: Optional[str] = None, reply_to: Optional[str] = None, **kwargs, ) -> SendResult: del kwargs return await self._send_media_source( chat_id=chat_id, media_source=video_path, caption=caption, reply_to=reply_to, ) async def send_typing(self, chat_id: str, metadata=None) -> None: """WeCom does not expose typing indicators in this adapter.""" del chat_id, metadata async def get_chat_info(self, chat_id: str) -> Dict[str, Any]: """Return minimal chat info.""" return { "name": chat_id, "type": "group" if chat_id and chat_id.lower().startswith("group") else "dm", } # ------------------------------------------------------------------ # QR code scan flow for obtaining bot credentials # ------------------------------------------------------------------ _QR_GENERATE_URL = "https://work.weixin.qq.com/ai/qc/generate" _QR_QUERY_URL = "https://work.weixin.qq.com/ai/qc/query_result" _QR_CODE_PAGE = "https://work.weixin.qq.com/ai/qc/gen?source=hermes&scode=" _QR_POLL_INTERVAL = 3 # seconds _QR_POLL_TIMEOUT = 300 # 5 minutes def qr_scan_for_bot_info( *, timeout_seconds: int = _QR_POLL_TIMEOUT, ) -> Optional[Dict[str, str]]: """Run the WeCom QR scan flow to obtain bot_id and secret. Fetches a QR code from WeCom, renders it in the terminal, and polls until the user scans it or the timeout expires. Returns ``{"bot_id": ..., "secret": ...}`` on success, ``None`` on failure or timeout. Note: the ``work.weixin.qq.com/ai/qc/{generate,query_result}`` endpoints used here are not part of WeCom's public developer API — they back the admin-console web UI's bot-creation flow and may change without notice. The same pattern is used by the feishu/dingtalk QR setup wizards. """ try: import urllib.request import urllib.parse except ImportError: # pragma: no cover logger.error("urllib is required for WeCom QR scan") return None generate_url = f"{_QR_GENERATE_URL}?source=hermes" # ── Step 1: Fetch QR code ── print(" Connecting to WeCom...", end="", flush=True) try: req = urllib.request.Request(generate_url, headers={"User-Agent": "HermesAgent/1.0"}) with urllib.request.urlopen(req, timeout=15) as resp: raw = json.loads(resp.read().decode("utf-8")) except Exception as exc: logger.error("WeCom QR: failed to fetch QR code: %s", exc) print(f" failed: {exc}") return None data = raw.get("data") or {} scode = str(data.get("scode") or "").strip() auth_url = str(data.get("auth_url") or "").strip() if not scode or not auth_url: logger.error("WeCom QR: unexpected response format: %s", raw) print(" failed: unexpected response format") return None print(" done.") # ── Step 2: Render QR code in terminal ── print() qr_rendered = False try: import qrcode as _qrcode qr = _qrcode.QRCode() qr.add_data(auth_url) qr.make(fit=True) qr.print_ascii(invert=True) qr_rendered = True except ImportError: pass except Exception: pass page_url = f"{_QR_CODE_PAGE}{urllib.parse.quote(scode)}" if qr_rendered: print(f"\n Scan the QR code above, or open this URL directly:\n {page_url}") else: print(f" Open this URL in WeCom on your phone:\n\n {page_url}\n") print(" Tip: pip install qrcode to display a scannable QR code here next time") print() print(" Fetching configuration results...", end="", flush=True) # ── Step 3: Poll for result ── import time deadline = time.time() + timeout_seconds query_url = f"{_QR_QUERY_URL}?scode={urllib.parse.quote(scode)}" poll_count = 0 while time.time() < deadline: try: req = urllib.request.Request(query_url, headers={"User-Agent": "HermesAgent/1.0"}) with urllib.request.urlopen(req, timeout=10) as resp: result = json.loads(resp.read().decode("utf-8")) except Exception as exc: logger.debug("WeCom QR poll error: %s", exc) time.sleep(_QR_POLL_INTERVAL) continue poll_count += 1 # Print a dot on every poll so progress is visible within 3s. print(".", end="", flush=True) result_data = result.get("data") or {} status = str(result_data.get("status") or "").lower() if status == "success": print() # newline after "Fetching configuration results..." dots bot_info = result_data.get("bot_info") or {} bot_id = str(bot_info.get("botid") or bot_info.get("bot_id") or "").strip() secret = str(bot_info.get("secret") or "").strip() if bot_id and secret: return {"bot_id": bot_id, "secret": secret} logger.warning( "WeCom QR: scan reported success but bot_info missing or incomplete: %s", result_data, ) print( " QR scan reported success but no bot credentials were returned.\n" " This usually means the bot was not actually created on the WeCom side.\n" " Falling back to manual credential entry." ) return None time.sleep(_QR_POLL_INTERVAL) print() # newline after dots print(f" QR scan timed out ({timeout_seconds // 60} minutes). Please try again.") return None