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import io | |
import os | |
import queue | |
import re | |
import time | |
import traceback | |
import wave | |
from argparse import ArgumentParser | |
from http import HTTPStatus | |
from pathlib import Path | |
from typing import Annotated, Any | |
import librosa | |
import numpy as np | |
import ormsgpack | |
import pyrootutils | |
import soundfile as sf | |
import torch | |
import torchaudio | |
from baize.datastructures import ContentType | |
from kui.asgi import ( | |
Body, | |
FactoryClass, | |
HTTPException, | |
HttpRequest, | |
HttpView, | |
JSONResponse, | |
Kui, | |
OpenAPI, | |
StreamResponse, | |
request, | |
) | |
from kui.asgi.routing import MultimethodRoutes | |
from loguru import logger | |
from transformers import AutoTokenizer | |
pyrootutils.setup_root(__file__, indicator=".project-root", pythonpath=True) | |
import struct | |
from threading import Lock | |
import httpx | |
from cachetools import LRUCache, cached | |
from funasr import AutoModel | |
from silero_vad import get_speech_timestamps, load_silero_vad | |
from fish_speech.conversation import IM_END_TOKEN, SEMANTIC_TOKEN | |
from fish_speech.models.text2semantic.llama import BaseModelArgs | |
# from fish_speech.models.vqgan.lit_module import VQGAN | |
from fish_speech.models.vqgan.modules.firefly import FireflyArchitecture | |
from fish_speech.text.chn_text_norm.text import Text as ChnNormedText | |
from fish_speech.utils import autocast_exclude_mps, set_seed | |
from tools.file import AUDIO_EXTENSIONS, audio_to_bytes, list_files, read_ref_text | |
from tools.llama.generate import ( | |
GenerateRequest, | |
GenerateResponse, | |
WrappedGenerateResponse, | |
launch_thread_safe_queue, | |
launch_thread_safe_queue_agent, | |
) | |
from tools.schema import ( | |
GLOBAL_NUM_SAMPLES, | |
ASRPackRequest, | |
ServeASRRequest, | |
ServeASRResponse, | |
ServeASRSegment, | |
ServeAudioPart, | |
ServeForwardMessage, | |
ServeMessage, | |
ServeRequest, | |
ServeResponse, | |
ServeStreamDelta, | |
ServeStreamResponse, | |
ServeTextPart, | |
ServeTimedASRResponse, | |
ServeTTSRequest, | |
ServeVQGANDecodeRequest, | |
ServeVQGANDecodeResponse, | |
ServeVQGANEncodeRequest, | |
ServeVQGANEncodeResponse, | |
ServeVQPart, | |
) | |
from tools.vqgan.inference import load_model as load_decoder_model | |
global_lock = Lock() | |
# Whether to disable keepalive (which is helpful if the server is in the same cluster) | |
DISABLE_KEEPALIVE = os.getenv("DISABLE_KEEPALIVE", "false").lower() == "true" | |
async_client = httpx.AsyncClient( | |
timeout=120, limits=httpx.Limits(keepalive_expiry=0 if DISABLE_KEEPALIVE else None) | |
) | |
backends = torchaudio.list_audio_backends() | |
if "ffmpeg" in backends: | |
backend = "ffmpeg" | |
else: | |
backend = "soundfile" | |
def wav_chunk_header(sample_rate=44100, bit_depth=16, channels=1): | |
buffer = io.BytesIO() | |
with wave.open(buffer, "wb") as wav_file: | |
wav_file.setnchannels(channels) | |
wav_file.setsampwidth(bit_depth // 8) | |
wav_file.setframerate(sample_rate) | |
wav_header_bytes = buffer.getvalue() | |
buffer.close() | |
return wav_header_bytes | |
# Define utils for web server | |
async def http_execption_handler(exc: HTTPException): | |
return JSONResponse( | |
dict( | |
statusCode=exc.status_code, | |
message=exc.content, | |
error=HTTPStatus(exc.status_code).phrase, | |
), | |
exc.status_code, | |
exc.headers, | |
) | |
async def other_exception_handler(exc: "Exception"): | |
traceback.print_exc() | |
status = HTTPStatus.INTERNAL_SERVER_ERROR | |
return JSONResponse( | |
dict(statusCode=status, message=str(exc), error=status.phrase), | |
status, | |
) | |
def load_audio(reference_audio, sr): | |
if len(reference_audio) > 255 or not Path(reference_audio).exists(): | |
audio_data = reference_audio | |
reference_audio = io.BytesIO(audio_data) | |
waveform, original_sr = torchaudio.load(reference_audio, backend=backend) | |
if waveform.shape[0] > 1: | |
waveform = torch.mean(waveform, dim=0, keepdim=True) | |
if original_sr != sr: | |
resampler = torchaudio.transforms.Resample(orig_freq=original_sr, new_freq=sr) | |
waveform = resampler(waveform) | |
audio = waveform.squeeze().numpy() | |
return audio | |
def encode_reference(*, decoder_model, reference_audio, enable_reference_audio): | |
if enable_reference_audio and reference_audio is not None: | |
# Load audios, and prepare basic info here | |
reference_audio_content = load_audio( | |
reference_audio, decoder_model.spec_transform.sample_rate | |
) | |
audios = torch.from_numpy(reference_audio_content).to(decoder_model.device)[ | |
None, None, : | |
] | |
audio_lengths = torch.tensor( | |
[audios.shape[2]], device=decoder_model.device, dtype=torch.long | |
) | |
logger.info( | |
f"Loaded audio with {audios.shape[2] / decoder_model.spec_transform.sample_rate:.2f} seconds" | |
) | |
# VQ Encoder | |
if isinstance(decoder_model, FireflyArchitecture): | |
prompt_tokens = decoder_model.encode(audios, audio_lengths)[0][0] | |
logger.info(f"Encoded prompt: {prompt_tokens.shape}") | |
else: | |
prompt_tokens = None | |
logger.info("No reference audio provided") | |
return prompt_tokens | |
def decode_vq_tokens( | |
*, | |
decoder_model, | |
codes, | |
): | |
feature_lengths = torch.tensor([codes.shape[1]], device=decoder_model.device) | |
logger.info(f"VQ features: {codes.shape}") | |
if isinstance(decoder_model, FireflyArchitecture): | |
# VQGAN Inference | |
return decoder_model.decode( | |
indices=codes[None], | |
feature_lengths=feature_lengths, | |
)[0].squeeze() | |
raise ValueError(f"Unknown model type: {type(decoder_model)}") | |
routes = MultimethodRoutes(base_class=HttpView) | |
def get_content_type(audio_format): | |
if audio_format == "wav": | |
return "audio/wav" | |
elif audio_format == "flac": | |
return "audio/flac" | |
elif audio_format == "mp3": | |
return "audio/mpeg" | |
else: | |
return "application/octet-stream" | |
def batch_encode(model, audios: list[bytes | torch.Tensor]): | |
audios = [ | |
( | |
torch.from_numpy( | |
librosa.load(io.BytesIO(audio), sr=model.spec_transform.sample_rate)[0] | |
)[None] | |
if isinstance(audio, bytes) | |
else audio | |
) | |
for audio in audios | |
] | |
# if any(audio.shape[-1] > model.spec_transform.sample_rate * 120 for audio in audios): | |
# raise ValueError("Single audio length is too long (>120s)") | |
max_length = max(audio.shape[-1] for audio in audios) | |
print(f"Encode max length: {max_length / model.spec_transform.sample_rate:.2f}s") | |
lengths = torch.tensor([audio.shape[-1] for audio in audios], device=model.device) | |
max_length = lengths.max().item() | |
padded = torch.stack( | |
[ | |
torch.nn.functional.pad(audio, (0, max_length - audio.shape[-1])) | |
for audio in audios | |
] | |
).to(model.device) | |
features, feature_lengths = model.encode(padded, audio_lengths=lengths) | |
features, feature_lengths = features.cpu(), feature_lengths.cpu() | |
return [feature[..., :length] for feature, length in zip(features, feature_lengths)] | |
def cached_vqgan_batch_encode(model, audios: list[bytes]): | |
return batch_encode(model, audios) | |
def api_vqgan_encode(payload: Annotated[ServeVQGANEncodeRequest, Body(exclusive=True)]): | |
start_time = time.time() | |
tokens = cached_vqgan_batch_encode(decoder_model, payload.audios) | |
logger.info(f"[EXEC] VQGAN encode time: {(time.time() - start_time) * 1000:.2f}ms") | |
return ormsgpack.packb( | |
ServeVQGANEncodeResponse(tokens=[i.tolist() for i in tokens]), | |
option=ormsgpack.OPT_SERIALIZE_PYDANTIC, | |
) | |
def vqgan_decode(model, features): | |
lengths = torch.tensor( | |
[feature.shape[-1] for feature in features], device=model.device | |
) | |
max_length = lengths.max().item() | |
padded = torch.stack( | |
[ | |
torch.nn.functional.pad(feature, (0, max_length - feature.shape[-1])) | |
for feature in features | |
] | |
).to(model.device) | |
# If bs too large, we do micro batch decode | |
audios, audio_lengths = [], [] | |
for i in range(0, padded.shape[0], 8): | |
audio, audio_length = model.decode( | |
padded[i : i + 8], feature_lengths=lengths[i : i + 8] | |
) | |
audios.append(audio) | |
audio_lengths.append(audio_length) | |
audios = torch.cat(audios, dim=0) | |
audio_lengths = torch.cat(audio_lengths, dim=0) | |
audios, audio_lengths = audios.cpu(), audio_lengths.cpu() | |
return [audio[..., :length].numpy() for audio, length in zip(audios, audio_lengths)] | |
def api_vqgan_decode(payload: Annotated[ServeVQGANDecodeRequest, Body(exclusive=True)]): | |
tokens = [torch.tensor(token, dtype=torch.int) for token in payload.tokens] | |
start_time = time.time() | |
audios = vqgan_decode(decoder_model, tokens) | |
logger.info(f"[EXEC] VQGAN decode time: {(time.time() - start_time) * 1000:.2f}ms") | |
audios = [audio.astype(np.float16).tobytes() for audio in audios] | |
return ormsgpack.packb( | |
ServeVQGANDecodeResponse(audios=audios), option=ormsgpack.OPT_SERIALIZE_PYDANTIC | |
) | |
def batch_asr(model, audios, sr, language="auto"): | |
resampled_audios = [] | |
for audio in audios: | |
audio = torchaudio.functional.resample(audio, sr, 16000) | |
assert audio.ndim == 1 | |
resampled_audios.append(audio) | |
with global_lock: | |
res = model.generate( | |
input=resampled_audios, | |
batch_size=len(resampled_audios), | |
language=language, | |
use_itn=True, | |
) | |
results = [] | |
for r, audio in zip(res, audios): | |
text = r["text"] | |
text = re.sub(r"<\|.*?\|>", "", text) | |
duration = len(audio) / sr * 1000 | |
huge_gap = False | |
if "timestamp" in r and len(r["timestamp"]) > 2: | |
for timestamp_a, timestamp_b in zip( | |
r["timestamp"][:-1], r["timestamp"][1:] | |
): | |
# If there is a gap of more than 5 seconds, we consider it as a huge gap | |
if timestamp_b[0] - timestamp_a[1] > 5000: | |
huge_gap = True | |
break | |
# Doesn't make sense to have a huge gap at the end | |
if duration - r["timestamp"][-1][1] > 3000: | |
huge_gap = True | |
results.append( | |
{ | |
"text": text, | |
"duration": duration, | |
"huge_gap": huge_gap, | |
} | |
) | |
return results | |
def api_invoke_asr(payload: Annotated[ServeASRRequest, Body(exclusive=True)]): | |
start_time = time.time() | |
audios = [np.frombuffer(audio, dtype=np.float16) for audio in payload.audios] | |
audios = [torch.from_numpy(audio).float() for audio in audios] | |
if any(audios.shape[-1] >= 30 * payload.sample_rate for audios in audios): | |
raise HTTPException(status_code=400, detail="Audio length is too long") | |
transcriptions = batch_asr( | |
asr_model, audios=audios, sr=payload.sample_rate, language=payload.language | |
) | |
logger.info(f"[EXEC] ASR time: {(time.time() - start_time) * 1000:.2f}ms") | |
return ormsgpack.packb( | |
ServeASRResponse(transcriptions=transcriptions), | |
option=ormsgpack.OPT_SERIALIZE_PYDANTIC, | |
) | |
from fish_speech.conversation import Conversation, Message | |
def execute_request( | |
input_queue: queue.Queue, | |
tokenizer: AutoTokenizer, | |
config: BaseModelArgs, | |
request: ServeRequest, | |
device: str = "cuda:0", | |
): | |
semantic_id, im_end_id = tokenizer.convert_tokens_to_ids( | |
[SEMANTIC_TOKEN, IM_END_TOKEN] | |
) | |
messages = [] | |
for message in request.messages: | |
messages.append(message.to_conversation_message()) | |
assert len(messages) >= 1, "At least one message is required" | |
# assert messages[-1].role == "user", "The last message must be from the user" | |
if messages[-1].role == "user": | |
messages.append(Message(role="assistant", parts=[], add_im_end=False)) | |
else: | |
assert ( | |
messages[-1].role == "assistant" | |
), "The last message must be from the assistant" | |
messages[-1].add_im_end = False | |
conv = Conversation(messages=messages) | |
prompt = conv.encode_for_inference( | |
tokenizer=tokenizer, num_codebooks=config.num_codebooks | |
).to(device) | |
if request.streaming: | |
for i in range(request.num_samples): | |
yield ServeStreamResponse( | |
sample_id=i, | |
delta=ServeStreamDelta( | |
role="assistant", | |
), | |
) | |
req = { | |
"prompt": prompt, | |
"max_new_tokens": request.max_new_tokens, | |
"im_end_id": im_end_id, | |
"semantic_id": semantic_id, | |
"temperature": request.temperature, | |
"top_p": request.top_p, | |
"repetition_penalty": request.repetition_penalty, | |
"num_samples": request.num_samples, | |
"early_stop_threshold": request.early_stop_threshold, | |
} | |
start = time.time() | |
response_queue = queue.Queue() | |
input_queue.put(GenerateRequest(req, response_queue)) | |
# Decoding | |
decode_buffer = [[] for _ in range(request.num_samples)] | |
parts = [[] for _ in range(request.num_samples)] | |
def send_reset_buffer(sample_id): | |
nonlocal decode_buffer | |
if len(decode_buffer[sample_id]) == 0: | |
return | |
decoded = tokenizer.decode(decode_buffer[sample_id]) | |
part = ServeTextPart(text=decoded) | |
if request.streaming: | |
yield ServeStreamResponse(delta=ServeStreamDelta(part=part)) | |
else: | |
parts[sample_id].append(part) | |
decode_buffer[sample_id] = [] | |
# Decode process | |
finished = [False for _ in range(request.num_samples)] | |
stats = {} | |
idx = 0 | |
while True: | |
response = response_queue.get() | |
if response in ["stop", "error"]: | |
break | |
for sample_id, tokens in enumerate(response): | |
if finished[sample_id]: | |
continue | |
if tokens[0] == im_end_id: | |
finished[sample_id] = True | |
if request.streaming: | |
yield from send_reset_buffer(sample_id) | |
yield ServeStreamResponse( | |
sample_id=sample_id, | |
finish_reason="stop", | |
stats=stats, | |
) | |
continue | |
if tokens[0] == semantic_id and request.streaming: | |
yield from send_reset_buffer(sample_id) | |
# Streaming vq | |
_tokens = tokens[1:].clone() - 1 | |
if config.share_codebook_embeddings is False: | |
for i in range(len(_tokens)): | |
_tokens[i] -= config.codebook_size * i | |
yield ServeStreamResponse( | |
sample_id=sample_id, | |
delta=ServeStreamDelta(part=ServeVQPart(codes=_tokens.tolist())), | |
) | |
continue | |
# Not streaming vq | |
if tokens[0] == semantic_id: | |
yield from send_reset_buffer(sample_id) | |
# None streaming vq | |
if len(parts[sample_id]) == 0 or not isinstance( | |
parts[sample_id][-1], ServeVQPart | |
): | |
_tokens = tokens[1:].clone() - 1 | |
if config.share_codebook_embeddings is False: | |
for i in range(len(_tokens)): | |
_tokens[i] -= config.codebook_size * i | |
parts[sample_id].append(ServeVQPart(codes=_tokens.tolist())) | |
else: | |
for codebook_id, value in enumerate(tokens[1:, :]): | |
val = value.item() - 1 | |
if config.share_codebook_embeddings is False: | |
val -= config.codebook_size * codebook_id | |
parts[sample_id][-1].codes[codebook_id].append(val) | |
continue | |
if tokens[0] != semantic_id: | |
# Stream text decode is not supported now | |
decode_buffer[sample_id].append(tokens[0, 0]) | |
if idx == 0: | |
stats["time_to_first_token"] = (time.time() - start) * 1000 | |
idx += 1 | |
for sample_id in range(request.num_samples): | |
yield from send_reset_buffer(sample_id) | |
stats["total_time"] = (time.time() - start) * 1000 | |
stats["total_tokens"] = idx | |
if request.streaming: | |
for sample_id in range(request.num_samples): | |
if finished[sample_id]: | |
continue | |
yield ServeStreamResponse( | |
finish_reason=response, stats=stats, sample_id=sample_id | |
) | |
return | |
yield ServeResponse( | |
messages=[ | |
ServeMessage(role="assistant", parts=parts[i]) | |
for i in range(request.num_samples) | |
], | |
finish_reason=response, | |
stats=stats, | |
) | |
def api_invoke_chat( | |
req: Annotated[ServeRequest, Body(exclusive=True)], | |
): | |
""" | |
Invoke model and generate audio | |
""" | |
# This makes torch compile happy | |
assert ( | |
req.num_samples == GLOBAL_NUM_SAMPLES | |
), f"num_samples must be {GLOBAL_NUM_SAMPLES}" | |
content_type = request.headers.get("Content-Type", "application/json") | |
json_mode = "application/json" in content_type | |
async def wrapped_generator(): | |
generator = execute_request(llama_queue, tokenizer, config, req, args.device) | |
for i in generator: | |
if json_mode: | |
body = i.model_dump_json().encode("utf-8") | |
yield b"data: " + body + b"\n\n" | |
else: | |
body = ormsgpack.packb(i, option=ormsgpack.OPT_SERIALIZE_PYDANTIC) | |
yield struct.pack("I", len(body)) + body | |
# Naive mode | |
if req.streaming is False: | |
result = next(execute_request(llama_queue, tokenizer, config, req, args.device)) | |
if json_mode: | |
return JSONResponse(result.model_dump()) | |
else: | |
return ormsgpack.packb(result, option=ormsgpack.OPT_SERIALIZE_PYDANTIC) | |
return StreamResponse( | |
iterable=wrapped_generator(), content_type="text/event-stream" | |
) | |
def inference(req: ServeTTSRequest): | |
global prompt_tokens, prompt_texts | |
idstr: str | None = req.reference_id | |
if idstr is not None: | |
ref_folder = Path("references") / idstr | |
ref_folder.mkdir(parents=True, exist_ok=True) | |
ref_audios = list_files( | |
ref_folder, AUDIO_EXTENSIONS, recursive=True, sort=False | |
) | |
if req.use_memory_cache == "never" or ( | |
req.use_memory_cache == "on-demand" and len(prompt_tokens) == 0 | |
): | |
prompt_tokens = [ | |
encode_reference( | |
decoder_model=decoder_model, | |
reference_audio=audio_to_bytes(str(ref_audio)), | |
enable_reference_audio=True, | |
) | |
for ref_audio in ref_audios | |
] | |
prompt_texts = [ | |
read_ref_text(str(ref_audio.with_suffix(".lab"))) | |
for ref_audio in ref_audios | |
] | |
else: | |
logger.info("Use same references") | |
else: | |
# Parse reference audio aka prompt | |
refs = req.references | |
if req.use_memory_cache == "never" or ( | |
req.use_memory_cache == "on-demand" and len(prompt_tokens) == 0 | |
): | |
prompt_tokens = [ | |
encode_reference( | |
decoder_model=decoder_model, | |
reference_audio=ref.audio, | |
enable_reference_audio=True, | |
) | |
for ref in refs | |
] | |
prompt_texts = [ref.text for ref in refs] | |
else: | |
logger.info("Use same references") | |
if req.seed is not None: | |
set_seed(req.seed) | |
logger.warning(f"set seed: {req.seed}") | |
# LLAMA Inference | |
request = dict( | |
device=decoder_model.device, | |
max_new_tokens=req.max_new_tokens, | |
text=( | |
req.text | |
if not req.normalize | |
else ChnNormedText(raw_text=req.text).normalize() | |
), | |
top_p=req.top_p, | |
repetition_penalty=req.repetition_penalty, | |
temperature=req.temperature, | |
compile=args.compile, | |
iterative_prompt=req.chunk_length > 0, | |
chunk_length=req.chunk_length, | |
max_length=4096, | |
prompt_tokens=prompt_tokens, | |
prompt_text=prompt_texts, | |
) | |
response_queue = queue.Queue() | |
llama_queue.put( | |
GenerateRequest( | |
request=request, | |
response_queue=response_queue, | |
) | |
) | |
if req.streaming: | |
yield wav_chunk_header() | |
segments = [] | |
while True: | |
result: WrappedGenerateResponse = response_queue.get() | |
if result.status == "error": | |
raise result.response | |
break | |
result: GenerateResponse = result.response | |
if result.action == "next": | |
break | |
with autocast_exclude_mps( | |
device_type=decoder_model.device.type, dtype=args.precision | |
): | |
fake_audios = decode_vq_tokens( | |
decoder_model=decoder_model, | |
codes=result.codes, | |
) | |
fake_audios = fake_audios.float().cpu().numpy() | |
if req.streaming: | |
yield (fake_audios * 32768).astype(np.int16).tobytes() | |
else: | |
segments.append(fake_audios) | |
if req.streaming: | |
return | |
if len(segments) == 0: | |
raise HTTPException( | |
HTTPStatus.INTERNAL_SERVER_ERROR, | |
content="No audio generated, please check the input text.", | |
) | |
fake_audios = np.concatenate(segments, axis=0) | |
yield fake_audios | |
async def inference_async(req: ServeTTSRequest): | |
for chunk in inference(req): | |
yield chunk | |
async def buffer_to_async_generator(buffer): | |
yield buffer | |
async def api_invoke_model( | |
req: Annotated[ServeTTSRequest, Body(exclusive=True)], | |
): | |
""" | |
Invoke model and generate audio | |
""" | |
if args.max_text_length > 0 and len(req.text) > args.max_text_length: | |
raise HTTPException( | |
HTTPStatus.BAD_REQUEST, | |
content=f"Text is too long, max length is {args.max_text_length}", | |
) | |
if req.streaming and req.format != "wav": | |
raise HTTPException( | |
HTTPStatus.BAD_REQUEST, | |
content="Streaming only supports WAV format", | |
) | |
if req.streaming: | |
return StreamResponse( | |
iterable=inference_async(req), | |
headers={ | |
"Content-Disposition": f"attachment; filename=audio.{req.format}", | |
}, | |
content_type=get_content_type(req.format), | |
) | |
else: | |
fake_audios = next(inference(req)) | |
buffer = io.BytesIO() | |
sf.write( | |
buffer, | |
fake_audios, | |
decoder_model.spec_transform.sample_rate, | |
format=req.format, | |
) | |
return StreamResponse( | |
iterable=buffer_to_async_generator(buffer.getvalue()), | |
headers={ | |
"Content-Disposition": f"attachment; filename=audio.{req.format}", | |
}, | |
content_type=get_content_type(req.format), | |
) | |
async def api_health(): | |
""" | |
Health check | |
""" | |
return JSONResponse({"status": "ok"}) | |
def parse_args(): | |
parser = ArgumentParser() | |
parser.add_argument("--mode", type=str, choices=["agent", "tts"], default="tts") | |
parser.add_argument("--load-asr-model", action="store_true") | |
parser.add_argument( | |
"--llama-checkpoint-path", | |
type=str, | |
default="checkpoints/fish-speech-1.4", | |
) | |
parser.add_argument( | |
"--decoder-checkpoint-path", | |
type=str, | |
default="checkpoints/fish-speech-1.4/firefly-gan-vq-fsq-8x1024-21hz-generator.pth", | |
) | |
parser.add_argument("--decoder-config-name", type=str, default="firefly_gan_vq") | |
parser.add_argument("--device", type=str, default="cuda") | |
parser.add_argument("--half", action="store_true") | |
parser.add_argument("--compile", action="store_true") | |
parser.add_argument("--max-text-length", type=int, default=0) | |
parser.add_argument("--listen", type=str, default="127.0.0.1:8080") | |
parser.add_argument("--workers", type=int, default=1) | |
return parser.parse_args() | |
# Define Kui app | |
openapi = OpenAPI( | |
{ | |
"title": "Fish Speech API", | |
"version": "1.4.2", | |
}, | |
).routes | |
class MsgPackRequest(HttpRequest): | |
async def data( | |
self, | |
) -> Annotated[ | |
Any, ContentType("application/msgpack"), ContentType("application/json") | |
]: | |
if self.content_type == "application/msgpack": | |
return ormsgpack.unpackb(await self.body) | |
elif self.content_type == "application/json": | |
return await self.json | |
raise HTTPException( | |
HTTPStatus.UNSUPPORTED_MEDIA_TYPE, | |
headers={"Accept": "application/msgpack, application/json"}, | |
) | |
app = Kui( | |
routes=routes + openapi[1:], # Remove the default route | |
exception_handlers={ | |
HTTPException: http_execption_handler, | |
Exception: other_exception_handler, | |
}, | |
factory_class=FactoryClass(http=MsgPackRequest), | |
cors_config={}, | |
) | |
def load_asr_model(*, device="cuda", hub="ms"): | |
return AutoModel( | |
model="iic/SenseVoiceSmall", | |
device=device, | |
disable_pbar=True, | |
hub=hub, | |
) | |
# Each worker process created by Uvicorn has its own memory space, | |
# meaning that models and variables are not shared between processes. | |
# Therefore, any global variables (like `llama_queue` or `decoder_model`) | |
# will not be shared across workers. | |
# Multi-threading for deep learning can cause issues, such as inconsistent | |
# outputs if multiple threads access the same buffers simultaneously. | |
# Instead, it's better to use multiprocessing or independent models per thread. | |
def initialize_app(app: Kui): | |
global args, llama_queue, tokenizer, config, decoder_model, vad_model, asr_model, prompt_tokens, prompt_texts | |
prompt_tokens, prompt_texts = [], [] | |
args = parse_args() # args same as ones in other processes | |
args.precision = torch.half if args.half else torch.bfloat16 | |
if args.load_asr_model: | |
logger.info(f"Loading ASR model...") | |
asr_model = load_asr_model(device=args.device) | |
logger.info("Loading Llama model...") | |
if args.mode == "tts": | |
llama_queue = launch_thread_safe_queue( | |
checkpoint_path=args.llama_checkpoint_path, | |
device=args.device, | |
precision=args.precision, | |
compile=args.compile, | |
) | |
else: | |
llama_queue, tokenizer, config = launch_thread_safe_queue_agent( | |
checkpoint_path=args.llama_checkpoint_path, | |
device=args.device, | |
precision=args.precision, | |
compile=args.compile, | |
) | |
logger.info("Llama model loaded, loading VQ-GAN model...") | |
decoder_model = load_decoder_model( | |
config_name=args.decoder_config_name, | |
checkpoint_path=args.decoder_checkpoint_path, | |
device=args.device, | |
) | |
logger.info("VQ-GAN model loaded, warming up...") | |
vad_model = load_silero_vad() | |
logger.info("VAD model loaded, warming up...") | |
if args.mode == "tts": | |
# Dry run to ensure models work and avoid first-time latency | |
list( | |
inference( | |
ServeTTSRequest( | |
text="Hello world.", | |
references=[], | |
reference_id=None, | |
max_new_tokens=0, | |
chunk_length=200, | |
top_p=0.7, | |
repetition_penalty=1.2, | |
temperature=0.7, | |
emotion=None, | |
format="wav", | |
) | |
) | |
) | |
logger.info(f"Warming up done, starting server at http://{args.listen}") | |
if __name__ == "__main__": | |
import uvicorn | |
args = parse_args() | |
host, port = args.listen.split(":") | |
uvicorn.run( | |
"tools.api:app", | |
host=host, | |
port=int(port), | |
workers=args.workers, | |
log_level="info", | |
) | |