Files
ai-video-fullstack/backend/services/pipecat/pipeline.py
Xin Wang 0309c154b5 Implement StepFun Realtime service and enhance AssistantConfig
- Add new fields to AssistantConfig for realtime interface configuration, including types, values, and secrets.
- Introduce StepFunRealtimeService to handle speech-to-speech processing via WebSocket, integrating STT, LLM, and TTS functionalities.
- Refactor pipeline execution to support a new realtime mode, allowing direct text input processing and immediate responses.
- Update model resource testing to include validation for StepFun Realtime connections.
- Enhance service factory to create realtime services based on configuration settings.
- Modify README documentation to reflect new realtime capabilities and usage instructions.
2026-06-14 23:41:40 +08:00

428 lines
16 KiB
Python

"""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)。
"""
from uuid import uuid4
from loguru import logger
from models import AssistantConfig
from services.pipecat.service_factory import create_realtime_service, create_services
from pipecat.audio.vad.silero import SileroVADAnalyzer
from pipecat.frames.frames import (
EndFrame,
InputTransportMessageFrame,
InterruptionFrame,
LLMFullResponseEndFrame,
LLMFullResponseStartFrame,
LLMTextFrame,
LLMMessagesAppendFrame,
OutputTransportMessageUrgentFrame,
TextFrame,
TTSSpeakFrame,
)
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.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
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 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) -> 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} mode={cfg.runtimeMode}")
if cfg.runtimeMode == "realtime":
await run_realtime_pipeline(transport, cfg)
return
stt, llm, tts = create_services(cfg)
context = LLMContext(messages=[{"role": "system", "content": cfg.prompt}])
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()
pipeline = Pipeline(
[
transport.input(),
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,
transport.output(),
]
)
worker = PipelineWorker(
pipeline,
params=PipelineParams(
enable_metrics=False,
),
enable_rtvi=False,
)
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 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):
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):
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,
}
)
)
@text_input.event_handler("on_text_input")
async def on_text_input(_processor, text):
pending_text_inputs.append(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
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 cfg.greeting and not greeting_transcript_sent:
greeting_transcript_sent = True
await queue_transcript("assistant", cfg.greeting, time_now_iso8601())
@transport.event_handler("on_client_connected")
async def on_client_connected(_transport, _client):
if cfg.greeting:
context.add_message({"role": "assistant", "content": cfg.greeting})
await worker.queue_frame(TTSSpeakFrame(cfg.greeting, append_to_context=False))
@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")