選択できるのは25トピックまでです。 トピックは、先頭が英数字で、英数字とダッシュ('-')を使用した35文字以内のものにしてください。

359 行
17KB

  1. import os
  2. import re
  3. import threading
  4. import time
  5. from asyncio import CancelledError
  6. from concurrent.futures import Future, ThreadPoolExecutor
  7. from bridge.context import *
  8. from bridge.reply import *
  9. from channel.channel import Channel
  10. from common.dequeue import Dequeue
  11. from common.log import logger
  12. from config import conf
  13. from plugins import *
  14. try:
  15. from voice.audio_convert import any_to_wav
  16. except Exception as e:
  17. pass
  18. # 抽象类, 它包含了与消息通道无关的通用处理逻辑
  19. class ChatChannel(Channel):
  20. name = None # 登录的用户名
  21. user_id = None # 登录的用户id
  22. futures = {} # 记录每个session_id提交到线程池的future对象, 用于重置会话时把没执行的future取消掉,正在执行的不会被取消
  23. sessions = {} # 用于控制并发,每个session_id同时只能有一个context在处理
  24. lock = threading.Lock() # 用于控制对sessions的访问
  25. handler_pool = ThreadPoolExecutor(max_workers=8) # 处理消息的线程池
  26. def __init__(self):
  27. _thread = threading.Thread(target=self.consume)
  28. _thread.setDaemon(True)
  29. _thread.start()
  30. # 根据消息构造context,消息内容相关的触发项写在这里
  31. def _compose_context(self, ctype: ContextType, content, **kwargs):
  32. context = Context(ctype, content)
  33. context.kwargs = kwargs
  34. # context首次传入时,origin_ctype是None,
  35. # 引入的起因是:当输入语音时,会嵌套生成两个context,第一步语音转文本,第二步通过文本生成文字回复。
  36. # origin_ctype用于第二步文本回复时,判断是否需要匹配前缀,如果是私聊的语音,就不需要匹配前缀
  37. if "origin_ctype" not in context:
  38. context["origin_ctype"] = ctype
  39. # context首次传入时,receiver是None,根据类型设置receiver
  40. first_in = "receiver" not in context
  41. # 群名匹配过程,设置session_id和receiver
  42. if first_in: # context首次传入时,receiver是None,根据类型设置receiver
  43. config = conf()
  44. cmsg = context["msg"]
  45. if context.get("isgroup", False):
  46. group_name = cmsg.other_user_nickname
  47. group_id = cmsg.other_user_id
  48. group_name_white_list = config.get("group_name_white_list", [])
  49. group_name_keyword_white_list = config.get("group_name_keyword_white_list", [])
  50. if any(
  51. [
  52. group_name in group_name_white_list,
  53. "ALL_GROUP" in group_name_white_list,
  54. check_contain(group_name, group_name_keyword_white_list),
  55. ]
  56. ):
  57. group_chat_in_one_session = conf().get("group_chat_in_one_session", [])
  58. session_id = cmsg.actual_user_id
  59. if any(
  60. [
  61. group_name in group_chat_in_one_session,
  62. "ALL_GROUP" in group_chat_in_one_session,
  63. ]
  64. ):
  65. session_id = group_id
  66. else:
  67. return None
  68. context["session_id"] = session_id
  69. context["receiver"] = group_id
  70. else:
  71. context["session_id"] = cmsg.other_user_id
  72. context["receiver"] = cmsg.other_user_id
  73. e_context = PluginManager().emit_event(EventContext(Event.ON_RECEIVE_MESSAGE, {"channel": self, "context": context}))
  74. context = e_context["context"]
  75. if e_context.is_pass() or context is None:
  76. return context
  77. if cmsg.from_user_id == self.user_id and not config.get("trigger_by_self", True):
  78. logger.debug("[WX]self message skipped")
  79. return None
  80. # 消息内容匹配过程,并处理content
  81. if ctype == ContextType.TEXT:
  82. if first_in and "」\n- - - - - - -" in content: # 初次匹配 过滤引用消息
  83. logger.debug("[WX]reference query skipped")
  84. return None
  85. if context.get("isgroup", False): # 群聊
  86. # 校验关键字
  87. match_prefix = check_prefix(content, conf().get("group_chat_prefix"))
  88. match_contain = check_contain(content, conf().get("group_chat_keyword"))
  89. flag = False
  90. if match_prefix is not None or match_contain is not None:
  91. flag = True
  92. if match_prefix:
  93. content = content.replace(match_prefix, "", 1).strip()
  94. if context["msg"].is_at:
  95. logger.info("[WX]receive group at")
  96. if not conf().get("group_at_off", False):
  97. flag = True
  98. pattern = f"@{re.escape(self.name)}(\u2005|\u0020)"
  99. content = re.sub(pattern, r"", content)
  100. if not flag:
  101. if context["origin_ctype"] == ContextType.VOICE:
  102. logger.info("[WX]receive group voice, but checkprefix didn't match")
  103. return None
  104. else: # 单聊
  105. match_prefix = check_prefix(content, conf().get("single_chat_prefix", [""]))
  106. if match_prefix is not None: # 判断如果匹配到自定义前缀,则返回过滤掉前缀+空格后的内容
  107. content = content.replace(match_prefix, "", 1).strip()
  108. elif context["origin_ctype"] == ContextType.VOICE: # 如果源消息是私聊的语音消息,允许不匹配前缀,放宽条件
  109. pass
  110. else:
  111. return None
  112. content = content.strip()
  113. img_match_prefix = check_prefix(content, conf().get("image_create_prefix"))
  114. if img_match_prefix:
  115. content = content.replace(img_match_prefix, "", 1)
  116. context.type = ContextType.IMAGE_CREATE
  117. else:
  118. context.type = ContextType.TEXT
  119. context.content = content.strip()
  120. if "desire_rtype" not in context and conf().get("always_reply_voice") and ReplyType.VOICE not in self.NOT_SUPPORT_REPLYTYPE:
  121. context["desire_rtype"] = ReplyType.VOICE
  122. elif context.type == ContextType.VOICE:
  123. if "desire_rtype" not in context and conf().get("voice_reply_voice") and ReplyType.VOICE not in self.NOT_SUPPORT_REPLYTYPE:
  124. context["desire_rtype"] = ReplyType.VOICE
  125. return context
  126. def _handle(self, context: Context):
  127. if context is None or not context.content:
  128. return
  129. logger.debug("[WX] ready to handle context: {}".format(context))
  130. # reply的构建步骤
  131. reply = self._generate_reply(context)
  132. logger.debug("[WX] ready to decorate reply: {}".format(reply))
  133. # reply的包装步骤
  134. reply = self._decorate_reply(context, reply)
  135. # reply的发送步骤
  136. self._send_reply(context, reply)
  137. def _generate_reply(self, context: Context, reply: Reply = Reply()) -> Reply:
  138. e_context = PluginManager().emit_event(
  139. EventContext(
  140. Event.ON_HANDLE_CONTEXT,
  141. {"channel": self, "context": context, "reply": reply},
  142. )
  143. )
  144. reply = e_context["reply"]
  145. if not e_context.is_pass():
  146. logger.debug("[WX] ready to handle context: type={}, content={}".format(context.type, context.content))
  147. if context.type == ContextType.TEXT or context.type == ContextType.IMAGE_CREATE: # 文字和图片消息
  148. reply = super().build_reply_content(context.content, context)
  149. elif context.type == ContextType.VOICE: # 语音消息
  150. cmsg = context["msg"]
  151. cmsg.prepare()
  152. file_path = context.content
  153. wav_path = os.path.splitext(file_path)[0] + ".wav"
  154. try:
  155. any_to_wav(file_path, wav_path)
  156. except Exception as e: # 转换失败,直接使用mp3,对于某些api,mp3也可以识别
  157. logger.warning("[WX]any to wav error, use raw path. " + str(e))
  158. wav_path = file_path
  159. # 语音识别
  160. reply = super().build_voice_to_text(wav_path)
  161. # 删除临时文件
  162. try:
  163. os.remove(file_path)
  164. if wav_path != file_path:
  165. os.remove(wav_path)
  166. except Exception as e:
  167. pass
  168. # logger.warning("[WX]delete temp file error: " + str(e))
  169. if reply.type == ReplyType.TEXT:
  170. new_context = self._compose_context(ContextType.TEXT, reply.content, **context.kwargs)
  171. if new_context:
  172. reply = self._generate_reply(new_context)
  173. else:
  174. return
  175. elif context.type == ContextType.IMAGE: # 图片消息,当前无默认逻辑
  176. pass
  177. else:
  178. logger.error("[WX] unknown context type: {}".format(context.type))
  179. return
  180. return reply
  181. def _decorate_reply(self, context: Context, reply: Reply) -> Reply:
  182. if reply and reply.type:
  183. e_context = PluginManager().emit_event(
  184. EventContext(
  185. Event.ON_DECORATE_REPLY,
  186. {"channel": self, "context": context, "reply": reply},
  187. )
  188. )
  189. reply = e_context["reply"]
  190. desire_rtype = context.get("desire_rtype")
  191. if not e_context.is_pass() and reply and reply.type:
  192. if reply.type in self.NOT_SUPPORT_REPLYTYPE:
  193. logger.error("[WX]reply type not support: " + str(reply.type))
  194. reply.type = ReplyType.ERROR
  195. reply.content = "不支持发送的消息类型: " + str(reply.type)
  196. if reply.type == ReplyType.TEXT:
  197. reply_text = reply.content
  198. if desire_rtype == ReplyType.VOICE and ReplyType.VOICE not in self.NOT_SUPPORT_REPLYTYPE:
  199. reply = super().build_text_to_voice(reply.content)
  200. return self._decorate_reply(context, reply)
  201. if context.get("isgroup", False):
  202. reply_text = "@" + context["msg"].actual_user_nickname + " " + reply_text.strip()
  203. reply_text = conf().get("group_chat_reply_prefix", "") + reply_text
  204. else:
  205. reply_text = conf().get("single_chat_reply_prefix", "") + reply_text
  206. reply.content = reply_text
  207. elif reply.type == ReplyType.ERROR or reply.type == ReplyType.INFO:
  208. reply.content = "[" + str(reply.type) + "]\n" + reply.content
  209. elif reply.type == ReplyType.IMAGE_URL or reply.type == ReplyType.VOICE or reply.type == ReplyType.IMAGE:
  210. pass
  211. else:
  212. logger.error("[WX] unknown reply type: {}".format(reply.type))
  213. return
  214. if desire_rtype and desire_rtype != reply.type and reply.type not in [ReplyType.ERROR, ReplyType.INFO]:
  215. logger.warning("[WX] desire_rtype: {}, but reply type: {}".format(context.get("desire_rtype"), reply.type))
  216. return reply
  217. def _send_reply(self, context: Context, reply: Reply):
  218. if reply and reply.type:
  219. e_context = PluginManager().emit_event(
  220. EventContext(
  221. Event.ON_SEND_REPLY,
  222. {"channel": self, "context": context, "reply": reply},
  223. )
  224. )
  225. reply = e_context["reply"]
  226. if not e_context.is_pass() and reply and reply.type:
  227. logger.debug("[WX] ready to send reply: {}, context: {}".format(reply, context))
  228. self._send(reply, context)
  229. def _send(self, reply: Reply, context: Context, retry_cnt=0):
  230. try:
  231. self.send(reply, context)
  232. except Exception as e:
  233. logger.error("[WX] sendMsg error: {}".format(str(e)))
  234. if isinstance(e, NotImplementedError):
  235. return
  236. logger.exception(e)
  237. if retry_cnt < 2:
  238. time.sleep(3 + 3 * retry_cnt)
  239. self._send(reply, context, retry_cnt + 1)
  240. def _success_callback(self, session_id, **kwargs): # 线程正常结束时的回调函数
  241. logger.debug("Worker return success, session_id = {}".format(session_id))
  242. def _fail_callback(self, session_id, exception, **kwargs): # 线程异常结束时的回调函数
  243. logger.exception("Worker return exception: {}".format(exception))
  244. def _thread_pool_callback(self, session_id, **kwargs):
  245. def func(worker: Future):
  246. try:
  247. worker_exception = worker.exception()
  248. if worker_exception:
  249. self._fail_callback(session_id, exception=worker_exception, **kwargs)
  250. else:
  251. self._success_callback(session_id, **kwargs)
  252. except CancelledError as e:
  253. logger.info("Worker cancelled, session_id = {}".format(session_id))
  254. except Exception as e:
  255. logger.exception("Worker raise exception: {}".format(e))
  256. with self.lock:
  257. self.sessions[session_id][1].release()
  258. return func
  259. def produce(self, context: Context):
  260. session_id = context["session_id"]
  261. with self.lock:
  262. if session_id not in self.sessions:
  263. self.sessions[session_id] = [
  264. Dequeue(),
  265. threading.BoundedSemaphore(conf().get("concurrency_in_session", 4)),
  266. ]
  267. if context.type == ContextType.TEXT and context.content.startswith("#"):
  268. self.sessions[session_id][0].putleft(context) # 优先处理管理命令
  269. else:
  270. self.sessions[session_id][0].put(context)
  271. # 消费者函数,单独线程,用于从消息队列中取出消息并处理
  272. def consume(self):
  273. while True:
  274. with self.lock:
  275. session_ids = list(self.sessions.keys())
  276. for session_id in session_ids:
  277. context_queue, semaphore = self.sessions[session_id]
  278. if semaphore.acquire(blocking=False): # 等线程处理完毕才能删除
  279. if not context_queue.empty():
  280. context = context_queue.get()
  281. logger.debug("[WX] consume context: {}".format(context))
  282. future: Future = self.handler_pool.submit(self._handle, context)
  283. future.add_done_callback(self._thread_pool_callback(session_id, context=context))
  284. if session_id not in self.futures:
  285. self.futures[session_id] = []
  286. self.futures[session_id].append(future)
  287. elif semaphore._initial_value == semaphore._value + 1: # 除了当前,没有任务再申请到信号量,说明所有任务都处理完毕
  288. self.futures[session_id] = [t for t in self.futures[session_id] if not t.done()]
  289. assert len(self.futures[session_id]) == 0, "thread pool error"
  290. del self.sessions[session_id]
  291. else:
  292. semaphore.release()
  293. time.sleep(0.1)
  294. # 取消session_id对应的所有任务,只能取消排队的消息和已提交线程池但未执行的任务
  295. def cancel_session(self, session_id):
  296. with self.lock:
  297. if session_id in self.sessions:
  298. for future in self.futures[session_id]:
  299. future.cancel()
  300. cnt = self.sessions[session_id][0].qsize()
  301. if cnt > 0:
  302. logger.info("Cancel {} messages in session {}".format(cnt, session_id))
  303. self.sessions[session_id][0] = Dequeue()
  304. def cancel_all_session(self):
  305. with self.lock:
  306. for session_id in self.sessions:
  307. for future in self.futures[session_id]:
  308. future.cancel()
  309. cnt = self.sessions[session_id][0].qsize()
  310. if cnt > 0:
  311. logger.info("Cancel {} messages in session {}".format(cnt, session_id))
  312. self.sessions[session_id][0] = Dequeue()
  313. def check_prefix(content, prefix_list):
  314. if not prefix_list:
  315. return None
  316. for prefix in prefix_list:
  317. if content.startswith(prefix):
  318. return prefix
  319. return None
  320. def check_contain(content, keyword_list):
  321. if not keyword_list:
  322. return None
  323. for ky in keyword_list:
  324. if content.find(ky) != -1:
  325. return True
  326. return None