"""管线核心:给定一个 transport + 配置,跑完整的语音闭环。 关键设计:**transport 由调用方传入**,管线本身不关心是 WebRTC 还是 WS。 这就是"同时支持多种输出"的落点——加输出方式不用动这里。 对应 dograh 的 pipeline_builder.py + run_pipeline.py(已砍掉 workflow 引擎/DB/录音/指标)。 """ import asyncio import base64 from io import BytesIO from uuid import uuid4 from loguru import logger from models import AssistantConfig from openai import AsyncOpenAI from PIL import Image from services.brains import build_brain from services.pipecat.service_factory import ( create_realtime_service, create_stt, create_tts, ) from services.workflow_engine import WorkflowEngine from pipecat.adapters.schemas.function_schema import FunctionSchema from pipecat.adapters.schemas.tools_schema import ToolsSchema from pipecat.audio.vad.silero import SileroVADAnalyzer from pipecat.frames.frames import ( BotStartedSpeakingFrame, BotStoppedSpeakingFrame, EndFrame, InputTransportMessageFrame, InterruptionFrame, LLMFullResponseEndFrame, LLMFullResponseStartFrame, LLMTextFrame, LLMMessagesAppendFrame, OutputTransportMessageUrgentFrame, TextFrame, TTSSpeakFrame, UserImageRawFrame, UserImageRequestFrame, ) from pipecat.pipeline.pipeline import Pipeline from pipecat.pipeline.worker import PipelineParams, PipelineWorker from pipecat.processors.aggregators.llm_context import LLMContext from pipecat.processors.aggregators.llm_response_universal import ( LLMAssistantAggregator, LLMUserAggregator, LLMUserAggregatorParams, ) from pipecat.processors.frame_processor import FrameDirection, FrameProcessor from pipecat.runner.utils import ( get_transport_client_id, maybe_capture_participant_camera, ) from pipecat.services.llm_service import FunctionCallParams from pipecat.turns.user_start import ( TranscriptionUserTurnStartStrategy, VADUserTurnStartStrategy, ) from pipecat.turns.user_turn_strategies import UserTurnStrategies from pipecat.utils.time import time_now_iso8601 from pipecat.workers.runner import WorkerRunner VISION_TOOL_NAME = "fetch_user_image" VISION_SYSTEM_HINT = ( "当前会话打开了视觉理解。用户询问当前画面、摄像头里有什么、人物/物品/" "环境状态或需要你看一眼时,调用 fetch_user_image 获取当前视频帧,再基于画面回答。" ) VISION_ANALYSIS_SYSTEM_PROMPT = ( "你是一个视觉理解模型。请只根据图片内容和用户问题给出准确、简洁的中文观察结果。" "如果画面不足以判断,请明确说明不确定。" ) def _require(value: str, label: str) -> str: if value: return value raise ValueError(f"缺少模型资源配置: {label}") def _vision_uses_main_llm(cfg: AssistantConfig) -> bool: """模型自己支持图片时,沿用 Pipecat 的同上下文视觉工具路径。""" return not cfg.vision_model_resource_id and cfg.llm_support_image_input def _image_data_uri(frame: UserImageRawFrame) -> str: if not frame.format: raise ValueError("摄像头图片帧缺少 format,无法编码给视觉模型") buffer = BytesIO() Image.frombytes(frame.format, frame.size, frame.image).save( buffer, format="JPEG", quality=85, ) encoded = base64.b64encode(buffer.getvalue()).decode("utf-8") return f"data:image/jpeg;base64,{encoded}" async def _analyze_image_with_vision_model( cfg: AssistantConfig, frame: UserImageRawFrame, question: str, ) -> str: if cfg.vision_llm_interface_type not in {"openai-llm", "dashscope-llm"}: raise ValueError(f"不支持的视觉 LLM 接口类型: {cfg.vision_llm_interface_type}") data_uri = await asyncio.to_thread(_image_data_uri, frame) extra_body = cfg.vision_llm_values.get("extraBody") extra = {"extra_body": extra_body} if isinstance(extra_body, dict) else {} client = AsyncOpenAI( api_key=_require(cfg.vision_llm_api_key, "Vision LLM apiKey"), base_url=_require(cfg.vision_llm_base_url, "Vision LLM apiUrl"), ) try: response = await client.chat.completions.create( model=_require(cfg.vision_model, "Vision LLM modelId"), messages=[ {"role": "system", "content": VISION_ANALYSIS_SYSTEM_PROMPT}, { "role": "user", "content": [ {"type": "text", "text": question}, {"type": "image_url", "image_url": {"url": data_uri}}, ], }, ], **extra, ) finally: await client.close() content = response.choices[0].message.content if response.choices else "" if isinstance(content, str): return content.strip() return str(content or "").strip() def _text_input(message) -> tuple[str, bool] | None: """解析现有 user-text 与 RTVI send-text 两种前端文字消息。""" if not isinstance(message, dict): return None if message.get("type") == "user-text": text = str(message.get("text") or "").strip() return (text, True) if text else None if message.get("type") == "send-text": data = message.get("data") if not isinstance(data, dict): return None text = str(data.get("content") or "").strip() options = data.get("options") run_immediately = not isinstance(options, dict) or options.get( "run_immediately", True ) return (text, bool(run_immediately)) if text else None return None class TextInputProcessor(FrameProcessor): """把 transport 文字消息转换成 LLM 可消费的帧。 run_immediately(默认/打断):先通过 on_text_input 事件把用户文字交给 run_pipeline 登记,再用 broadcast_interruption() 打断当前播报。新的 LLM 回复由 assistant aggregator 确认处理完 interruption 后触发。 run_immediately=False(RTVI send-text 静默追加):仅把文字写进上下文, 不打断、不触发推理。 """ def __init__(self): super().__init__() # 立即触发的文字(含打断语义)走 on_text_input;静默追加另走一条事件 self._register_event_handler("on_text_input") self._register_event_handler("on_text_append") self._register_event_handler("on_client_ready") async def process_frame(self, frame, direction: FrameDirection): await super().process_frame(frame, direction) if not isinstance(frame, InputTransportMessageFrame): await self.push_frame(frame, direction) return if isinstance(frame.message, dict) and frame.message.get("type") == "client-ready": await self._call_event_handler("on_client_ready") return parsed = _text_input(frame.message) if not parsed: await self.push_frame(frame, direction) return text, run_immediately = parsed if run_immediately: # 先登记文字再打断。下一轮 LLM 由 assistant aggregator 在真正处理完 # InterruptionFrame 后触发,避免新回复被这次 interruption 一起取消。 await self._call_event_handler("on_text_input", text) await self.broadcast_interruption() else: await self._call_event_handler("on_text_append", text) class VisionCaptureProcessor(FrameProcessor): """Capture one requested video frame for auxiliary vision-model analysis.""" def __init__(self, timeout_s: float = 3.0): super().__init__() self._timeout_s = timeout_s self._pending: dict[str, asyncio.Future[UserImageRawFrame]] = {} async def request_image( self, requester: FrameProcessor, request: UserImageRequestFrame, ) -> UserImageRawFrame: key = request.tool_call_id or str(uuid4()) request.tool_call_id = key request.append_to_context = False request.result_callback = None loop = asyncio.get_running_loop() future: asyncio.Future[UserImageRawFrame] = loop.create_future() self._pending[key] = future await requester.push_frame(request, FrameDirection.UPSTREAM) try: return await asyncio.wait_for(future, timeout=self._timeout_s) finally: self._pending.pop(key, None) async def process_frame(self, frame, direction: FrameDirection): await super().process_frame(frame, direction) if ( isinstance(frame, UserImageRawFrame) and frame.request and frame.request.tool_call_id and frame.request.tool_call_id in self._pending ): future = self._pending[frame.request.tool_call_id] if not future.done(): future.set_result(frame) return await self.push_frame(frame, direction) class RealtimeTextInputProcessor(FrameProcessor): """Route text input directly to a realtime service without cascade semantics.""" def __init__(self): super().__init__() self._register_event_handler("on_text_input") self._register_event_handler("on_text_append") async def process_frame(self, frame, direction: FrameDirection): await super().process_frame(frame, direction) if not isinstance(frame, InputTransportMessageFrame): await self.push_frame(frame, direction) return parsed = _text_input(frame.message) if not parsed: await self.push_frame(frame, direction) return text, run_immediately = parsed await self._call_event_handler( "on_text_input" if run_immediately else "on_text_append", text, ) class PassthroughLLMAssistantAggregator(LLMAssistantAggregator): """聚合 LLM 回复进上下文,同时继续把回复帧交给下游 TTS。""" def __init__(self, *args, **kwargs): super().__init__(*args, **kwargs) self._register_event_handler("on_interruption_processed") self._register_event_handler("on_assistant_text_start") self._register_event_handler("on_assistant_text_delta") self._register_event_handler("on_assistant_text_end") self._stream_turn_id: str | None = None self._stream_timestamp = "" self._stream_text = "" async def process_frame(self, frame, direction: FrameDirection): await super().process_frame(frame, direction) if isinstance(frame, LLMFullResponseStartFrame): self._stream_turn_id = uuid4().hex self._stream_timestamp = time_now_iso8601() self._stream_text = "" await self._call_event_handler( "on_assistant_text_start", self._stream_turn_id, self._stream_timestamp, ) elif isinstance(frame, LLMTextFrame) and self._stream_turn_id: self._stream_text += frame.text await self._call_event_handler( "on_assistant_text_delta", self._stream_turn_id, frame.text, ) elif isinstance(frame, LLMFullResponseEndFrame): await self._finish_text_stream(interrupted=False) # LLMAssistantAggregator 默认会消费这些帧。放在 TTS 前用于中断时保存 # 已生成前缀时,必须显式透传,否则 TTS 收不到任何 LLM 回复。 if isinstance( frame, (LLMFullResponseStartFrame, LLMFullResponseEndFrame, TextFrame), ): await self.push_frame(frame, direction) elif isinstance(frame, InterruptionFrame): await self._finish_text_stream(interrupted=True) await self._call_event_handler("on_interruption_processed") async def _finish_text_stream(self, *, interrupted: bool): if not self._stream_turn_id: return await self._call_event_handler( "on_assistant_text_end", self._stream_turn_id, self._stream_text, interrupted, ) self._stream_turn_id = None self._stream_timestamp = "" self._stream_text = "" async def run_pipeline( transport, cfg: AssistantConfig, *, vision_enabled: bool = False, ) -> None: """在给定 transport 上构建并运行管线,直到连接结束。 Args: transport: 任意 pipecat transport(WebRTC / WS / 电话…), 只要有 .input() / .output() / event_handler 即可。 cfg: 助手配置(随请求内联传入)。 """ logger.info( f"启动管线: assistant={cfg.name} type={cfg.type} " f"mode={cfg.runtimeMode} vision={vision_enabled}" ) # 大脑:按类型决定 LLM 槽/开场白/上下文归属。每通电话一个实例(可持会话状态)。 brain = build_brain(cfg) if ( cfg.runtimeMode == "realtime" and "realtime" not in brain.spec.supported_runtime_modes ): logger.warning(f"类型 {cfg.type} 不支持 realtime,回退 cascade") cfg.runtimeMode = "pipeline" if cfg.runtimeMode == "realtime": if vision_enabled: logger.warning("Realtime 模式暂未接入视频帧工具,本次仅启用语音通话") await run_realtime_pipeline(transport, cfg) return stt = create_stt(cfg) tts = create_tts(cfg) # ---- workflow 图引擎(可选)---- # 有节点图时按图驱动:开场白/系统提示来自起始节点,每轮回复后按条件路由。 engine = WorkflowEngine(cfg.graph or {}) workflow_active = engine.has_graph() wf_state = { # 开始节点本身就是会话节点(有自己的 prompt,可多轮),从它开始 "current": engine.start_id if workflow_active else None, "ended": False, "turns_in_node": 0, # 结束流程的精确计时:只在「结束节点自己的结束语」真正说完时挂断。 "end_turn_id": None, # 结束节点回复的 turn_id(其 text_start 在 ended 之后) "end_armed": False, # 结束语文本已生成完(已下发 data channel) "end_speaking": False, # 结束语音频已开始播报 "end_frame_queued": False, } history: list[dict] = [] # 当前节点没有可调用转移工具(全是空条件)时,才启用文本兜底路由 FALLBACK_AFTER_TURNS = 2 if workflow_active: greeting = engine.greeting() or cfg.greeting system_content = engine.system_prompt_for(wf_state["current"]) logger.info( f"工作流模式启用: 起始节点={engine.name(wf_state['current'])}" ) elif brain.spec.owns_context: greeting = cfg.greeting system_content = cfg.prompt else: # 外部托管(fastgpt 等):开场白来自对方后台,系统提示/上下文不归我们维护 greeting = await brain.greeting(cfg) system_content = "" def with_vision_hint(text: str) -> str: if not vision_enabled: return text if not text: return VISION_SYSTEM_HINT return f"{text}\n\n{VISION_SYSTEM_HINT}" context = LLMContext( messages=[{"role": "system", "content": with_vision_hint(system_content)}] ) # LLM 槽由大脑提供:内部类型=OpenAI 兼容服务;fastgpt=包 SDK 的伪 LLM。 llm = brain.build_llm(cfg, context) user_aggregator = LLMUserAggregator( context, params=LLMUserAggregatorParams( vad_analyzer=SileroVADAnalyzer(), user_turn_strategies=UserTurnStrategies( start=[ VADUserTurnStartStrategy(enable_interruptions=cfg.enableInterrupt), TranscriptionUserTurnStartStrategy( enable_interruptions=cfg.enableInterrupt ), ] ), ), ) assistant_aggregator = PassthroughLLMAssistantAggregator(context) text_input = TextInputProcessor() vision_capture = VisionCaptureProcessor() vision_native_mode = vision_enabled and _vision_uses_main_llm(cfg) vision_state: dict[str, str | None] = {"client_id": None} vision_schema = FunctionSchema( name=VISION_TOOL_NAME, description=( "获取用户当前摄像头画面。当用户询问当前画面、看到了什么、" "人/物品/环境状态或需要视觉判断时调用。" ), properties={ "question": { "type": "string", "description": "用户关于当前视频画面的具体问题。", } }, required=["question"], ) async def fetch_user_image(params: FunctionCallParams): question = str(params.arguments.get("question") or "请描述当前画面。") user_id = vision_state.get("client_id") if not user_id: await params.result_callback( { "status": "no_video_client", "message": "当前还没有可用的摄像头视频流。", } ) return request = UserImageRequestFrame( user_id=user_id, text=question, append_to_context=vision_native_mode, function_name=params.function_name, tool_call_id=params.tool_call_id, result_callback=params.result_callback if vision_native_mode else None, ) if vision_native_mode: logger.debug( f"请求当前视频帧进入主 LLM 上下文: user_id={user_id}, question={question}" ) await params.llm.push_frame(request, FrameDirection.UPSTREAM) return logger.debug( f"请求当前视频帧给单独视觉模型分析: user_id={user_id}, question={question}" ) try: frame = await vision_capture.request_image(params.llm, request) observation = await _analyze_image_with_vision_model(cfg, frame, question) except asyncio.TimeoutError: await params.result_callback( { "status": "timeout", "message": "等待摄像头视频帧超时。", } ) return except Exception as e: logger.exception(f"视觉模型分析失败: {e}") await params.result_callback( { "status": "error", "message": f"视觉理解失败: {type(e).__name__}", } ) return await params.result_callback( { "status": "ok", "question": question, "observation": observation or "视觉模型没有返回有效观察结果。", } ) if vision_enabled: llm.register_function(VISION_TOOL_NAME, fetch_user_image) def set_visible_tools(schemas: list[FunctionSchema] | None = None) -> None: tools = list(schemas or []) if vision_enabled: tools.append(vision_schema) if tools: context.set_tools(ToolsSchema(standard_tools=tools)) else: context.set_tools() # 结束节点:等结束语「说完」(BotStoppedSpeakingFrame)再挂断,确保结束语的 # 文字(走 data channel)与音频都已下发,避免前端只听到声音、看不到文字。 worker_holder: dict = {} class EndCallAfterSpeech(FrameProcessor): async def process_frame(self, frame, direction: FrameDirection): await super().process_frame(frame, direction) await self.push_frame(frame, direction) # 结束语文本生成完(end_armed)→ 其音频开始(end_speaking)→ 音频说完才挂断。 # 配对 started/stopped,避免被结束节点之前的话(如先答一句再转移)的 # stopped 事件提前触发,导致结束语被截断。 if isinstance(frame, BotStartedSpeakingFrame) and wf_state["end_armed"]: wf_state["end_speaking"] = True elif ( isinstance(frame, BotStoppedSpeakingFrame) and wf_state["end_speaking"] and not wf_state["end_frame_queued"] and worker_holder.get("worker") is not None ): wf_state["end_frame_queued"] = True logger.info("结束语播报完毕,挂断通话") # 先告知前端这是正常结束(而非连接异常),再优雅挂断 await worker_holder["worker"].queue_frame( OutputTransportMessageUrgentFrame( message={"type": "call-ended", "reason": "completed"} ) ) await worker_holder["worker"].queue_frame(EndFrame()) pipeline = Pipeline( [ transport.input(), vision_capture, text_input, stt, user_aggregator, llm, # Aggregate the streamed LLM text before TTS. On interruption, # Pipecat commits the generated prefix immediately instead of # waiting for a TTS provider to emit spoken-text/timestamp frames. assistant_aggregator, tts, EndCallAfterSpeech(), transport.output(), ] ) worker = PipelineWorker( pipeline, params=PipelineParams( enable_metrics=False, ), enable_rtvi=False, ) worker_holder["worker"] = worker async def queue_transcript(role: str, content: str, timestamp: str) -> None: if content: await worker.queue_frame( OutputTransportMessageUrgentFrame( message={ "type": "transcript", "role": role, "content": content, "timestamp": timestamp, }, ) ) greeting_transcript_sent = False pending_text_inputs: list[str] = [] async def emit_node_active(node_id: str | None) -> None: """通知前端当前激活的节点,画布据此高亮。""" if node_id: await worker.queue_frame( OutputTransportMessageUrgentFrame( message={"type": "node-active", "nodeId": node_id} ) ) def set_system_prompt(text: str) -> None: """替换上下文里的系统提示(节点切换时整体替换,而非追加)。""" messages = context.get_messages() content = with_vision_hint(text) if messages and messages[0].get("role") == "system": messages[0] = {"role": "system", "content": content} else: messages.insert(0, {"role": "system", "content": content}) def apply_node(node_id: str | None) -> None: """进入节点:设置系统提示 + 把出边注册为可调用的转移工具。""" set_system_prompt(engine.system_prompt_for(node_id)) if engine.is_end(node_id): set_visible_tools([]) # 终止节点不展示转移工具,但保留视觉工具 return schemas = [ FunctionSchema( name=engine.edge_fn_name(edge), description=engine.edge_description(edge), properties={}, required=[], ) for edge in engine.outgoing(node_id) ] set_visible_tools(schemas) async def go_to_node(target: str) -> None: """执行转移:切当前节点、重置计数、点亮画布、设置提示/工具。 结束节点:设 ended 标记,apply_node 会清空工具,模型据结束语提示说完后, on_assistant_text_end 里排入 EndFrame 挂断,不再多轮。 """ wf_state["current"] = target wf_state["turns_in_node"] = 0 if engine.is_end(target): wf_state["ended"] = True await emit_node_active(target) apply_node(target) async def speak_transition(edge: dict | None) -> None: """切换瞬间播报过渡语(可选),掩盖切节点/新一轮生成的延迟。不写入上下文。""" speech = engine.edge_transition_speech(edge) if speech: await worker.queue_frame(TTSSpeakFrame(speech, append_to_context=False)) def make_transition_handler(edge: dict): target = edge.get("target") async def handler(params): logger.info(f"LLM 触发转移 → {engine.name(target)}") # 进结束节点不播过渡语(结束语本身就是收尾,避免打断挂断时序) if not engine.is_end(target): await speak_transition(edge) await go_to_node(target) # 返回工具结果,pipecat 随即在新节点的提示/工具下继续生成 await params.result_callback({"status": "ok"}) return handler async def fallback_route() -> None: """文本兜底:模型迟迟不调用转移工具时,用一次轻量分类器判断是否转移。""" if not workflow_active or wf_state["ended"]: return if wf_state["turns_in_node"] < FALLBACK_AFTER_TURNS: return if not engine.outgoing(wf_state["current"]): return target = await engine.route( wf_state["current"], history, api_key=_require(cfg.llm_api_key, "LLM apiKey"), base_url=_require(cfg.llm_base_url, "LLM apiUrl"), model=_require(cfg.model, "LLM modelId"), ) if target and target != wf_state["current"]: logger.info(f"文本兜底触发转移 → {engine.name(target)}") if not engine.is_end(target): await speak_transition(engine.find_edge(wf_state["current"], target)) # 仅切换节点提示/工具,下一轮用户输入即在新节点处理 await go_to_node(target) # 把每条边注册成 LLM 可调用的转移函数(按边唯一命名,处理器全局注册一次, # 由各节点的 context.tools 控制当前可见哪些)。 if workflow_active: for edge in engine.edges: if edge.get("target"): llm.register_function( engine.edge_fn_name(edge), make_transition_handler(edge) ) apply_node(wf_state["current"]) # 设初始节点的提示与工具 elif vision_enabled: set_visible_tools([]) async def append_user_text_to_context(text: str, *, run_llm: bool) -> None: await worker.queue_frame( LLMMessagesAppendFrame( messages=[{"role": "user", "content": text}], run_llm=run_llm, ) ) @user_aggregator.event_handler("on_user_turn_stopped") async def on_user_turn_stopped(_aggregator, _strategy, message): if message.content: history.append({"role": "user", "content": message.content}) await queue_transcript("user", message.content, message.timestamp) @assistant_aggregator.event_handler("on_assistant_text_start") async def on_assistant_text_start(_aggregator, turn_id, timestamp): # 进入结束节点后,第一条「开始生成」的回复就是结束节点自己的结束语 # (其 text_start 发生在 ended 置位之后,不会误认转移前的那句)。 if ( workflow_active and wf_state["ended"] and wf_state["end_turn_id"] is None ): wf_state["end_turn_id"] = turn_id await worker.queue_frame( OutputTransportMessageUrgentFrame( message={ "type": "assistant-text-start", "turn_id": turn_id, "timestamp": timestamp, } ) ) @assistant_aggregator.event_handler("on_assistant_text_delta") async def on_assistant_text_delta(_aggregator, turn_id, delta): await worker.queue_frame( OutputTransportMessageUrgentFrame( message={ "type": "assistant-text-delta", "turn_id": turn_id, "delta": delta, } ) ) @assistant_aggregator.event_handler("on_assistant_text_end") async def on_assistant_text_end(_aggregator, turn_id, content, interrupted): await worker.queue_frame( OutputTransportMessageUrgentFrame( message={ "type": "assistant-text-end", "turn_id": turn_id, "content": content, "interrupted": interrupted, } ) ) # 助手把话说完(未被打断)后:累加本节点轮次,必要时走文本兜底路由。 # 正常情况下转移由 LLM 直接调用转移工具完成(go_to_node),无需这里处理。 if content and not interrupted and workflow_active: history.append({"role": "assistant", "content": content}) if turn_id == wf_state["end_turn_id"]: # 结束节点的结束语文本已生成完(也已下发 data channel),武装挂断; # 真正的 EndFrame 由 EndCallAfterSpeech 在结束语「说完」时排入。 wf_state["end_armed"] = True elif not wf_state["ended"]: wf_state["turns_in_node"] += 1 await fallback_route() elif content and not interrupted: history.append({"role": "assistant", "content": content}) @text_input.event_handler("on_text_input") async def on_text_input(_processor, text): pending_text_inputs.append(text) history.append({"role": "user", "content": text}) # 前端显示不依赖 interruption 后续事件,必须在打断前先排入发送队列。 await queue_transcript("user", text, time_now_iso8601()) @assistant_aggregator.event_handler("on_interruption_processed") async def on_interruption_processed(_aggregator): if not pending_text_inputs: return text = pending_text_inputs.pop(0) # assistant aggregator 已处理完 interruption,现在再启动下一轮 LLM。 await append_user_text_to_context(text, run_llm=True) @text_input.event_handler("on_text_append") async def on_text_append(_processor, text): # 静默追加:写进上下文但不打断、不触发推理;transcript 照常上报 history.append({"role": "user", "content": text}) await queue_transcript("user", text, time_now_iso8601()) await append_user_text_to_context(text, run_llm=False) @text_input.event_handler("on_client_ready") async def on_client_ready(_processor): nonlocal greeting_transcript_sent if greeting and not greeting_transcript_sent: greeting_transcript_sent = True await queue_transcript("assistant", greeting, time_now_iso8601()) @transport.event_handler("on_client_connected") async def on_client_connected(_transport, _client): if vision_enabled: try: vision_state["client_id"] = get_transport_client_id( _transport, _client, ) await maybe_capture_participant_camera(_transport, _client) logger.info(f"视觉理解已接入视频客户端: {vision_state['client_id']}") except Exception as e: logger.warning(f"视觉理解摄像头捕获初始化失败: {e}") if greeting: # 外部托管类型的上下文由对方服务端维护,开场白不写入本地 context if brain.spec.owns_context: context.add_message({"role": "assistant", "content": greeting}) await worker.queue_frame(TTSSpeakFrame(greeting, append_to_context=False)) # 工作流:点亮当前(开始)节点。开始节点即首个会话节点。 if workflow_active: await emit_node_active(wf_state["current"]) @transport.event_handler("on_client_disconnected") async def on_client_disconnected(_transport, _client): logger.info("对端断开,结束管线") await worker.queue_frame(EndFrame()) runner = WorkerRunner(handle_sigint=False) await runner.add_workers(worker) await runner.run() logger.info("管线已结束") async def run_realtime_pipeline(transport, cfg: AssistantConfig) -> None: """Run a speech-to-speech model that owns ASR, reasoning, and synthesis.""" realtime = create_realtime_service(cfg) text_input = RealtimeTextInputProcessor() pipeline = Pipeline( [ transport.input(), text_input, realtime, transport.output(), ] ) worker = PipelineWorker( pipeline, params=PipelineParams( enable_metrics=False, audio_in_sample_rate=int( cfg.realtime_values.get("inputSampleRate") or 24000 ), audio_out_sample_rate=int( cfg.realtime_values.get("outputSampleRate") or 24000 ), ), enable_rtvi=False, ) async def queue_transcript(role: str, content: str) -> None: if content: await worker.queue_frame( OutputTransportMessageUrgentFrame( message={ "type": "transcript", "role": role, "content": content, "timestamp": time_now_iso8601(), }, ) ) @text_input.event_handler("on_text_input") async def on_text_input(_processor, text): await queue_transcript("user", text) await realtime.interrupt() await realtime.send_text(text, run_immediately=True) @text_input.event_handler("on_text_append") async def on_text_append(_processor, text): await queue_transcript("user", text) await realtime.send_text(text, run_immediately=False) @transport.event_handler("on_client_connected") async def on_client_connected(_transport, _client): if cfg.greeting: await realtime.speak(cfg.greeting) @transport.event_handler("on_client_disconnected") async def on_client_disconnected(_transport, _client): logger.info("Realtime 对端断开,结束管线") await worker.queue_frame(EndFrame()) runner = WorkerRunner(handle_sigint=False) await runner.add_workers(worker) await runner.run() logger.info("Realtime 管线已结束")