import asyncio import copy import importlib import inspect import json import multiprocessing import os import re import signal import tempfile from argparse import Namespace from contextlib import asynccontextmanager from distutils.util import strtobool from functools import partial from http import HTTPStatus from typing import (Any, AsyncGenerator, AsyncIterator, Dict, List, Optional, Set, Tuple) import yaml from fastapi import APIRouter, FastAPI, Request, UploadFile from fastapi.exceptions import RequestValidationError from fastapi.middleware.cors import CORSMiddleware from fastapi.responses import (HTMLResponse, JSONResponse, Response, StreamingResponse) from loguru import logger from starlette.datastructures import State from starlette.routing import Mount import aphrodite.common.envs as envs from aphrodite.common.config import ModelConfig from aphrodite.common.outputs import RequestOutput from aphrodite.common.sampling_params import _SAMPLING_EPS, SamplingParams from aphrodite.common.utils import (FlexibleArgumentParser, get_open_zmq_ipc_path, in_windows, random_uuid) from aphrodite.endpoints.logger import RequestLogger from aphrodite.endpoints.openai.args import make_arg_parser # yapf: disable from aphrodite.endpoints.openai.protocol import (ChatCompletionRequest, ChatCompletionResponse, CompletionRequest, DetokenizeRequest, DetokenizeResponse, EmbeddingRequest, ErrorResponse, KAIGenerationInputSchema, TokenizeRequest, TokenizeResponse) from aphrodite.endpoints.openai.rpc.client import AsyncEngineRPCClient from aphrodite.endpoints.openai.rpc.server import run_rpc_server # yapf: enable from aphrodite.endpoints.openai.serving_chat import OpenAIServingChat from aphrodite.endpoints.openai.serving_completions import ( OpenAIServingCompletion) from aphrodite.endpoints.openai.serving_embedding import OpenAIServingEmbedding from aphrodite.endpoints.openai.serving_engine import (LoRAModulePath, PromptAdapterPath) from aphrodite.endpoints.openai.serving_tokenization import ( OpenAIServingTokenization) from aphrodite.engine.args_tools import AsyncEngineArgs from aphrodite.engine.async_aphrodite import AsyncAphrodite from aphrodite.engine.protocol import AsyncEngineClient from aphrodite.modeling.model_loader.weight_utils import get_model_config_yaml from aphrodite.server import serve_http from aphrodite.transformers_utils.tokenizer import get_tokenizer from aphrodite.version import __version__ as APHRODITE_VERSION if in_windows(): import winloop as uvloop else: import uvloop TIMEOUT_KEEP_ALIVE = 5 # seconds SERVE_KOBOLD_LITE_UI = strtobool(os.getenv("SERVE_KOBOLD_LITE_UI", "1")) router = APIRouter() kai_api = APIRouter() extra_api = APIRouter() kobold_lite_ui = "" sampler_json = "" gen_cache: dict = {} prometheus_multiproc_dir: tempfile.TemporaryDirectory model_is_loaded = True _running_tasks: Set[asyncio.Task] = set() def model_is_embedding(model_name: str, trust_remote_code: bool, quantization: Optional[str]) -> bool: return ModelConfig(model=model_name, tokenizer=model_name, tokenizer_mode="auto", trust_remote_code=trust_remote_code, quantization=quantization, seed=0, dtype="auto").embedding_mode @asynccontextmanager async def lifespan(app: FastAPI): try: if app.state.log_stats: async_engine_client = app.state.engine_client async def _force_log(): while True: await asyncio.sleep(10) await async_engine_client.do_log_stats() task = asyncio.create_task(_force_log()) _running_tasks.add(task) task.add_done_callback(_running_tasks.remove) else: task = None try: yield finally: if task is not None: task.cancel() finally: # Ensure app state including engine ref is gc'd del app.state @asynccontextmanager async def build_async_engine_client( args: Namespace) -> AsyncIterator[Optional[AsyncEngineClient]]: # Context manager to handle async_engine_client lifecycle # Ensures everything is shutdown and cleaned up on error/exit engine_args = AsyncEngineArgs.from_cli_args(args) async with build_async_engine_client_from_engine_args( engine_args, args.disable_frontend_multiprocessing) as engine: yield engine @asynccontextmanager async def build_async_engine_client_from_engine_args( engine_args: AsyncEngineArgs, disable_frontend_multiprocessing: bool = False, ) -> AsyncIterator[Optional[AsyncEngineClient]]: """ Create AsyncEngineClient, either: - in-process using the AsyncAphrodite Directly - multiprocess using AsyncAphrodite RPC Returns the Client or None if the creation failed. """ # If manually triggered or embedding model, use AsyncAphrodite in process. # TODO: support embedding model via RPC. if (model_is_embedding(engine_args.model, engine_args.trust_remote_code, engine_args.quantization) or disable_frontend_multiprocessing): engine_config = engine_args.create_engine_config() uses_ray = getattr(AsyncAphrodite._get_executor_cls(engine_config), "uses_ray", False) build_engine = partial(AsyncAphrodite.from_engine_args, engine_args=engine_args, engine_config=engine_config) if uses_ray: # Must run in main thread with ray for its signal handlers to work engine_client = build_engine() else: engine_client = await asyncio.get_running_loop().run_in_executor( None, build_engine) yield engine_client return # Otherwise, use the multiprocessing AsyncAphrodite. else: if "PROMETHEUS_MULTIPROC_DIR" not in os.environ: # Make TemporaryDirectory for prometheus multiprocessing # Note: global TemporaryDirectory will be automatically # cleaned up upon exit. global prometheus_multiproc_dir prometheus_multiproc_dir = tempfile.TemporaryDirectory() os.environ[ "PROMETHEUS_MULTIPROC_DIR"] = prometheus_multiproc_dir.name else: logger.warning( "Found PROMETHEUS_MULTIPROC_DIR was set by user. " "This directory must be wiped between Aphrodite runs or " "you will find inaccurate metrics. Unset the variable " "and Aphrodite will properly handle cleanup.") # Select random path for IPC. rpc_path = get_open_zmq_ipc_path() logger.info(f"Multiprocessing frontend to use {rpc_path} for RPC Path." ) # Build RPCClient, which conforms to AsyncEngineClient Protocol. # NOTE: Actually, this is not true yet. We still need to support # embedding models via RPC (see TODO above) rpc_client = AsyncEngineRPCClient(rpc_path) # Start RPCServer in separate process (holds the AsyncAphrodite). context = multiprocessing.get_context("spawn") # the current process might have CUDA context, # so we need to spawn a new process rpc_server_process = context.Process( target=run_rpc_server, args=(engine_args, rpc_path)) rpc_server_process.start() logger.info( f"Started engine process with PID {rpc_server_process.pid}") try: while True: try: await rpc_client.setup() break except TimeoutError: if not rpc_server_process.is_alive(): logger.error( "RPCServer process died before responding " "to readiness probe") yield None return yield rpc_client # type: ignore[misc] finally: # Ensure rpc server process was terminated rpc_server_process.terminate() # Close all open connections to the backend rpc_client.close() # Wait for server process to join rpc_server_process.join() # Lazy import for prometheus multiprocessing. # We need to set PROMETHEUS_MULTIPROC_DIR environment variable # before prometheus_client is imported. # See https://prometheus.github.io/client_python/multiprocess/ from prometheus_client import multiprocess multiprocess.mark_process_dead(rpc_server_process.pid) async def _maybe_switch_model( request_model: str, app_state, raw_request: Request) -> Optional[ErrorResponse]: """Switch to requested model if different from currently loaded one.""" global model_is_loaded, async_engine_client, engine_args, served_model_names if not model_is_loaded: return None models = await completion(raw_request).show_available_models() for model in models.data: if request_model in (model.id, model.root): return None if not app_state.args.allow_inline_model_loading: return JSONResponse( content={ "error": { "message": "Requested model is not currently loaded. " "Inline model loading is disabled. Enable it with " "--allow-inline-model-loading.", "type": "invalid_request_error", "code": "model_not_loaded" } }, status_code=400 ) # type: ignore # Authentication checks api_key = envs.APHRODITE_API_KEY or app_state.args.api_keys admin_key = envs.APHRODITE_ADMIN_KEY or app_state.args.admin_key if api_key: api_key_header = raw_request.headers.get("x-api-key") auth_header = raw_request.headers.get("Authorization") if not admin_key: return JSONResponse( content={ "error": { "message": "Admin key not configured. " "Inline model loading is disabled.", "type": "invalid_request_error", "code": "admin_key_required" } }, status_code=401 ) # type: ignore if not (api_key_header == admin_key or auth_header == f"Bearer {admin_key}"): return JSONResponse( content={ "error": { "message": "Admin privileges required for inline " "model loading.", "type": "invalid_request_error", "code": "unauthorized" } }, status_code=401 ) # type: ignore logger.info(f"Switching from {served_model_names[0]} to {request_model}") try: args = app_state.args current_client = engine_client(raw_request) # First shut down the current engine if not args.disable_frontend_multiprocessing: await current_client.kill() else: await current_client.shutdown_background_loop() model_is_loaded = False yaml_config = get_model_config_yaml(request_model, args.download_dir) if yaml_config: parser = FlexibleArgumentParser() parser = make_arg_parser(parser) engine_args = parser.parse_args([]) # empty args for key, value in yaml_config.items(): if hasattr(engine_args, key): setattr(engine_args, key, value) engine_args.model = request_model engine_args = AsyncEngineArgs.from_cli_args(engine_args) else: # Fallback to minimal config engine_args = AsyncEngineArgs(model=request_model) # Create new engine client without context manager if (model_is_embedding(engine_args.model, engine_args.trust_remote_code, engine_args.quantization) or args.disable_frontend_multiprocessing): new_engine_client = AsyncAphrodite.from_engine_args(engine_args) await new_engine_client.setup() else: if "PROMETHEUS_MULTIPROC_DIR" not in os.environ: global prometheus_multiproc_dir prometheus_multiproc_dir = tempfile.TemporaryDirectory() os.environ[ "PROMETHEUS_MULTIPROC_DIR"] = prometheus_multiproc_dir.name rpc_path = get_open_zmq_ipc_path() logger.info( f"Multiprocessing frontend to use {rpc_path} for RPC Path.") rpc_client = AsyncEngineRPCClient(rpc_path) context = multiprocessing.get_context("spawn") rpc_server_process = context.Process( target=run_rpc_server, args=(engine_args, rpc_path)) rpc_server_process.start() logger.info( f"Started engine process with PID {rpc_server_process.pid}") try: while True: try: await rpc_client.setup() break except TimeoutError as e: if not rpc_server_process.is_alive(): raise RuntimeError( "RPC Server died before responding to " "readiness probe") from e new_engine_client = rpc_client model_config = await new_engine_client.get_model_config() new_args = copy.deepcopy(args) new_args.model = request_model init_app_state( new_engine_client, model_config, raw_request.app.state, new_args) served_model_names = [request_model] model_is_loaded = True return None except Exception as e: # Clean up RPC resources on error rpc_server_process.terminate() rpc_client.close() rpc_server_process.join() raise e except Exception as e: error_msg = f"Error while switching models: {str(e)}" logger.error(error_msg) return JSONResponse( content={ "error": { "message": error_msg, "type": "invalid_request_error", "code": "model_load_error" } }, status_code=500 ) # type: ignore def mount_metrics(app: FastAPI): # Lazy import for prometheus multiprocessing. # We need to set PROMETHEUS_MULTIPROC_DIR environment variable # before prometheus_client is imported. # See https://prometheus.github.io/client_python/multiprocess/ from prometheus_client import (CollectorRegistry, make_asgi_app, multiprocess) prometheus_multiproc_dir_path = os.getenv("PROMETHEUS_MULTIPROC_DIR", None) if prometheus_multiproc_dir_path is not None: logger.info(f"Aphrodite to use {prometheus_multiproc_dir_path} " "as PROMETHEUS_MULTIPROC_DIR") registry = CollectorRegistry() multiprocess.MultiProcessCollector(registry) # Add prometheus asgi middleware to route /metrics requests metrics_route = Mount("/metrics", make_asgi_app(registry=registry)) else: # Add prometheus asgi middleware to route /metrics requests metrics_route = Mount("/metrics", make_asgi_app()) # Workaround for 307 Redirect for /metrics metrics_route.path_regex = re.compile('^/metrics(?P.*)$') app.routes.append(metrics_route) def chat(request: Request) -> OpenAIServingChat: return request.app.state.openai_serving_chat def completion(request: Request) -> OpenAIServingCompletion: return request.app.state.openai_serving_completion def tokenization(request: Request) -> OpenAIServingTokenization: return request.app.state.openai_serving_tokenization def embedding(request: Request) -> OpenAIServingEmbedding: return request.app.state.openai_serving_embedding def engine_client(request: Request) -> AsyncEngineClient: return request.app.state.engine_client @router.delete("/v1/model/unload") async def unload_model(raw_request: Request): """Unload the current model and shut down the server.""" logger.info("Received request to unload model.") try: args = raw_request.app.state.args if not args.disable_frontend_multiprocessing: await engine_client(raw_request).kill() else: await engine_client(raw_request).shutdown_background_loop() global model_is_loaded model_is_loaded = False return JSONResponse( content={ "status": "success", "message": "Model unloaded successfully" } ) except Exception as e: error_msg = f"Error while unloading model: {str(e)}" logger.error(error_msg) return JSONResponse( content={"status": "error", "message": error_msg}, status_code=500 ) @router.post("/v1/model/load") async def load_model(config_file: UploadFile, raw_request: Request): """Load a model using a YAML configuration file.""" global model_is_loaded, async_engine_client, engine_args if model_is_loaded: return JSONResponse( content={ "error": { "message": "A model is already loaded. " "Please unload it first.", "type": "invalid_request_error", "code": "model_already_loaded" } }, status_code=400 ) try: config_text = await config_file.read() config: Dict[Any, Any] = yaml.safe_load(config_text) args = [] for key, value in config.items(): key = key.replace('_', '-') if isinstance(value, bool): if value: args.append(f"--{key}") elif isinstance(value, (list, tuple)): if key in ['lora-modules', 'prompt-adapters']: for item in value: args.append(f"--{key}") args.append(f"{item['name']}={item['path']}") else: for item in value: args.append(f"--{key}") args.append(str(item)) else: args.append(f"--{key}") args.append(str(value)) parser = FlexibleArgumentParser() parser = make_arg_parser(parser) parsed_args = parser.parse_args(args) engine_args = AsyncEngineArgs.from_cli_args(parsed_args) # Create new engine client without context manager if (model_is_embedding(engine_args.model, engine_args.trust_remote_code, engine_args.quantization) or parsed_args.disable_frontend_multiprocessing): new_engine_client = AsyncAphrodite.from_engine_args(engine_args) await new_engine_client.setup() else: if "PROMETHEUS_MULTIPROC_DIR" not in os.environ: global prometheus_multiproc_dir prometheus_multiproc_dir = tempfile.TemporaryDirectory() os.environ[ "PROMETHEUS_MULTIPROC_DIR"] = prometheus_multiproc_dir.name rpc_path = get_open_zmq_ipc_path() logger.info( f"Multiprocessing frontend to use {rpc_path} for RPC Path.") rpc_client = AsyncEngineRPCClient(rpc_path) new_engine_client = rpc_client context = multiprocessing.get_context("spawn") rpc_server_process = context.Process( target=run_rpc_server, args=(engine_args, rpc_path)) rpc_server_process.start() logger.info( f"Started engine process with PID {rpc_server_process.pid}") while True: try: await new_engine_client.setup() break except TimeoutError as e: if not rpc_server_process.is_alive(): raise RuntimeError( "RPC Server died before responding to readiness " "probe") from e model_config = await engine_client(raw_request).get_model_config() init_app_state(engine_client(raw_request), model_config, raw_request.app.state, parsed_args) model_is_loaded = True return JSONResponse( content={ "status": "success", "message": "Model loaded successfully" } ) except Exception as e: error_msg = f"Error while loading model: {str(e)}" logger.error(error_msg) return JSONResponse( content={ "error": { "message": error_msg, "type": "invalid_request_error", "code": "model_load_error" } }, status_code=500 ) @router.get("/health") async def health(raw_request: Request) -> Response: """Health check.""" await engine_client(raw_request).check_health() return Response(status_code=200) @router.post("/v1/tokenize") async def tokenize(request: TokenizeRequest, raw_request: Request): if not model_is_loaded: return JSONResponse( content={ "status": "error", "message": "No model loaded." }, status_code=500 ) generator = await tokenization(raw_request).create_tokenize(request) if isinstance(generator, ErrorResponse): return JSONResponse(content=generator.model_dump(), status_code=generator.code) else: assert isinstance(generator, TokenizeResponse) return JSONResponse(content=generator.model_dump()) @router.post("/v1/detokenize") async def detokenize(request: DetokenizeRequest, raw_request: Request): if not model_is_loaded: return JSONResponse( content={ "status": "error", "message": "No model loaded." }, status_code=500 ) generator = await tokenization(raw_request).create_detokenize(request) if isinstance(generator, ErrorResponse): return JSONResponse(content=generator.model_dump(), status_code=generator.code) else: assert isinstance(generator, DetokenizeResponse) return JSONResponse(content=generator.model_dump()) @router.get("/v1/models") async def show_available_models(raw_request: Request): models = await completion(raw_request).show_available_models() return JSONResponse(content=models.model_dump()) @router.get("/version") async def show_version(): ver = {"version": APHRODITE_VERSION} return JSONResponse(content=ver) @router.get("/.well-known/serviceinfo") async def serviceinfo(): """Return service information including version, API endpoints, and documentation URLs.""" return JSONResponse(content={ "version": 0.2, "software": { "name": "Aphrodite Engine", "version": APHRODITE_VERSION, "repository": "https://github.com/PygmalionAI/aphrodite-engine", "homepage": "https://aphrodite.pygmalion.chat", "logo": "https://pygmalion.chat/icons/favicon.ico", }, "api": { "openai": { "name": "OpenAI API", "rel_url": "/v1", "documentation": "/redoc", "version": 1, }, "koboldai": { "name": "KoboldAI API", "rel_url": "/api", "documentation": "/redoc", "version": 1, } } }) @router.post("/v1/chat/completions") async def create_chat_completion(request: ChatCompletionRequest, raw_request: Request): error_check_ret = await _maybe_switch_model( request.model, raw_request.app.state, raw_request) if error_check_ret is not None: return error_check_ret generator = await chat(raw_request).create_chat_completion( request, raw_request) if isinstance(generator, ErrorResponse): return JSONResponse(content=generator.model_dump(), status_code=generator.code) if request.stream: return StreamingResponse(content=generator, media_type="text/event-stream") else: assert isinstance(generator, ChatCompletionResponse) return JSONResponse(content=generator.model_dump()) @router.post("/v1/completions") async def create_completion(request: CompletionRequest, raw_request: Request): error_check_ret = await _maybe_switch_model( request.model, raw_request.app.state, raw_request) if error_check_ret is not None: return error_check_ret generator = await completion(raw_request).create_completion( request, raw_request) if isinstance(generator, ErrorResponse): return JSONResponse(content=generator.model_dump(), status_code=generator.code) if request.stream: return StreamingResponse(content=generator, media_type="text/event-stream") else: return JSONResponse(content=generator.model_dump()) @router.post("/v1/embeddings") async def create_embedding(request: EmbeddingRequest, raw_request: Request): if not model_is_loaded: return JSONResponse( content={ "status": "error", "message": "No model loaded." }, status_code=500 ) generator = await embedding(raw_request).create_embedding( request, raw_request) if isinstance(generator, ErrorResponse): return JSONResponse(content=generator.model_dump(), status_code=generator.code) else: return JSONResponse(content=generator.model_dump()) @router.post("/v1/lora/load") async def load_lora(lora: LoRAModulePath, raw_request: Request): if not model_is_loaded: return JSONResponse( content={ "status": "error", "message": "No model loaded." }, status_code=500 ) completion(raw_request).add_lora(lora) if engine_args.enable_lora is False: logger.error("LoRA is not enabled in the engine. " "Please start the server with the " "--enable-lora flag!") return JSONResponse(content={"status": "success"}) @router.delete("/v1/lora/unload") async def unload_lora(lora_name: str, raw_request: Request): if not model_is_loaded: return JSONResponse( content={ "status": "error", "message": "No model loaded." }, status_code=500 ) completion(raw_request).remove_lora(lora_name) return JSONResponse(content={"status": "success"}) @router.post("/v1/soft_prompt/load") async def load_soft_prompt(soft_prompt: PromptAdapterPath, raw_request: Request): if not model_is_loaded: return JSONResponse( content={ "status": "error", "message": "No model loaded." }, status_code=500 ) completion(raw_request).add_prompt_adapter(soft_prompt) if engine_args.enable_prompt_adapter is False: logger.error("Prompt Adapter is not enabled in the engine. " "Please start the server with the " "--enable-prompt-adapter flag!") return JSONResponse(content={"status": "success"}) @router.delete("/v1/soft_prompt/unload") async def unload_soft_prompt(soft_prompt_name: str, raw_request: Request): if not model_is_loaded: return JSONResponse( content={ "status": "error", "message": "No model loaded." }, status_code=500 ) completion(raw_request).remove_prompt_adapter(soft_prompt_name) return JSONResponse(content={"status": "success"}) # ============ KoboldAI API ============ # badwordsids: List[int] = [] def _set_badwords(tokenizer, hf_config): # pylint: disable=redefined-outer-name # pylint: disable=global-variable-undefined global badwordsids if hf_config.bad_words_ids is not None: badwordsids = hf_config.bad_words_ids return badwordsids = [ v for k, v in tokenizer.get_vocab().items() if any(c in str(k) for c in "[]") ] if tokenizer.pad_token_id in badwordsids: badwordsids.remove(tokenizer.pad_token_id) badwordsids.append(tokenizer.eos_token_id) def prepare_engine_payload( kai_payload: KAIGenerationInputSchema ) -> Tuple[SamplingParams, List[int]]: """Create SamplingParams and truncated input tokens for AsyncEngine""" if not kai_payload.genkey: kai_payload.genkey = f"kai-{random_uuid()}" kai_payload.top_k = kai_payload.top_k if kai_payload.top_k != 0.0 else -1 kai_payload.tfs = max(_SAMPLING_EPS, kai_payload.tfs) if kai_payload.temperature < _SAMPLING_EPS: kai_payload.n = 1 kai_payload.top_p = 1.0 kai_payload.top_k = -1 sampling_params = SamplingParams( n=kai_payload.n, best_of=kai_payload.n, repetition_penalty=kai_payload.rep_pen, temperature=kai_payload.temperature, smoothing_factor=kai_payload.smoothing_factor, smoothing_curve=kai_payload.smoothing_curve, tfs=kai_payload.tfs, top_p=kai_payload.top_p, top_k=kai_payload.top_k, top_a=kai_payload.top_a, min_p=kai_payload.min_p, typical_p=kai_payload.typical, eta_cutoff=kai_payload.eta_cutoff, epsilon_cutoff=kai_payload.eps_cutoff, stop=kai_payload.stop_sequence, include_stop_str_in_output=kai_payload.include_stop_str_in_output, custom_token_bans=badwordsids if kai_payload.use_default_badwordsids else [], max_tokens=kai_payload.max_length, seed=kai_payload.sampler_seed, xtc_probability=kai_payload.xtc_probability, xtc_threshold=kai_payload.xtc_threshold, ) max_input_tokens = max( 1, kai_payload.max_context_length - kai_payload.max_length) input_tokens = tokenizer(kai_payload.prompt).input_ids[-max_input_tokens:] return sampling_params, input_tokens @kai_api.post("/generate") async def generate(kai_payload: KAIGenerationInputSchema, raw_request: Request) -> JSONResponse: sampling_params, input_tokens = prepare_engine_payload(kai_payload) result_generator = engine_client(raw_request).generate( { "prompt": kai_payload.prompt, "prompt_token_ids": input_tokens, }, sampling_params, kai_payload.genkey, ) final_res: RequestOutput = None previous_output = "" async for res in result_generator: final_res = res new_chunk = res.outputs[0].text[len(previous_output):] previous_output += new_chunk gen_cache[kai_payload.genkey] = previous_output assert final_res is not None del gen_cache[kai_payload.genkey] return JSONResponse( {"results": [{ "text": output.text } for output in final_res.outputs]}) @extra_api.post("/generate/stream") async def generate_stream( kai_payload: KAIGenerationInputSchema, raw_request: Request) -> StreamingResponse: sampling_params, input_tokens = prepare_engine_payload(kai_payload) results_generator = engine_client(raw_request).generate( { "prompt": kai_payload.prompt, "prompt_token_ids": input_tokens, }, sampling_params, kai_payload.genkey, ) async def stream_kobold() -> AsyncGenerator[bytes, None]: previous_output = "" async for res in results_generator: new_chunk = res.outputs[0].text[len(previous_output):] previous_output += new_chunk yield b"event: message\n" yield f"data: {json.dumps({'token': new_chunk})}\n\n".encode() return StreamingResponse(stream_kobold(), headers={ "Cache-Control": "no-cache", "Connection": "keep-alive", }, media_type="text/event-stream") @extra_api.post("/generate/check") @extra_api.get("/generate/check") async def check_generation(request: Request): text = "" try: request_dict = await request.json() if "genkey" in request_dict and request_dict["genkey"] in gen_cache: text = gen_cache[request_dict["genkey"]] except json.JSONDecodeError: pass return JSONResponse({"results": [{"text": text}]}) @extra_api.post("/abort") async def abort_generation(raw_request: Request): try: request_dict = await raw_request.json() if "genkey" in request_dict: await engine_client(raw_request).abort(request_dict["genkey"]) except json.JSONDecodeError: pass return JSONResponse({}) @extra_api.post("/tokencount") async def count_tokens(request: TokenizeRequest, raw_request: Request): """Tokenize string and return token count""" generator = await tokenization(raw_request).create_tokenize(request) return JSONResponse({"value": generator.model_dump()["tokens"]}) @kai_api.get("/info/version") async def get_version(): """Impersonate KAI""" return JSONResponse({"result": "1.2.4"}) @kai_api.get("/model") async def get_model(): return JSONResponse({"result": f"aphrodite/{served_model_names[0]}"}) @kai_api.get("/config/soft_prompts_list") async def get_available_softprompts(): """Stub for compatibility""" return JSONResponse({"values": []}) @kai_api.get("/config/soft_prompt") async def get_current_softprompt(): """Stub for compatibility""" return JSONResponse({"value": ""}) @kai_api.put("/config/soft_prompt") async def set_current_softprompt(): """Stub for compatibility""" return JSONResponse({}) @kai_api.get("/config/max_length") async def get_max_length() -> JSONResponse: max_length = args.max_length return JSONResponse({"value": max_length}) @kai_api.get("/config/max_context_length") @extra_api.get("/true_max_context_length") async def get_max_context_length() -> JSONResponse: max_context_length = engine_args.max_model_len return JSONResponse({"value": max_context_length}) @extra_api.get("/preloadstory") async def get_preloaded_story() -> JSONResponse: """Stub for compatibility""" return JSONResponse({}) @extra_api.get("/version") async def get_extra_version(): """Impersonate KoboldCpp""" return JSONResponse({"result": "KoboldCpp", "version": "1.63"}) @router.get("/") async def get_kobold_lite_ui(): """Serves a cached copy of the Kobold Lite UI, loading it from disk on demand if needed. Can be disabled with SERVE_KOBOLD_LITE_UI=0.""" if not SERVE_KOBOLD_LITE_UI: return JSONResponse(content={"error": "Kobold Lite UI is disabled"}, status_code=404) global kobold_lite_ui if kobold_lite_ui == "": scriptpath = os.path.dirname(os.path.abspath(__file__)) klitepath = os.path.join(scriptpath, "../kobold/klite.embd") klitepath = os.path.normpath(klitepath) # Normalize the path if os.path.exists(klitepath): with open(klitepath, "r", encoding="utf-8") as f: kobold_lite_ui = f.read() else: logger.error("Kobold Lite UI not found at " + klitepath) return HTMLResponse(content=kobold_lite_ui) # ============ KoboldAI API ============ # def build_app(args: Namespace) -> FastAPI: app = FastAPI(lifespan=lifespan) app.include_router(router) app.root_path = args.root_path app.state.args = args if args.launch_kobold_api: logger.warning("Kobold API is now enabled by default. " "This flag will be removed in the future.") app.include_router(kai_api, prefix="/api/v1") app.include_router(kai_api, prefix="/api/latest", include_in_schema=False) app.include_router(extra_api, prefix="/api/extra") mount_metrics(app) app.add_middleware( CORSMiddleware, allow_origins=args.allowed_origins, allow_credentials=args.allow_credentials, allow_methods=args.allowed_methods, allow_headers=args.allowed_headers, ) @app.exception_handler(RequestValidationError) async def validation_exception_handler(_, exc): chat = app.state.openai_serving_chat err = chat.create_error_response(message=str(exc)) return JSONResponse(err.model_dump(), status_code=HTTPStatus.BAD_REQUEST) if token := envs.APHRODITE_API_KEY or args.api_keys: admin_key = os.environ.get("APHRODITE_ADMIN_KEY") or args.admin_key if admin_key is None: logger.warning("Admin key not provided. Admin operations will " "be disabled.") @app.middleware("http") async def authentication(request: Request, call_next): if not request.url.path.startswith(("/v1", "/api")): return await call_next(request) # Browsers may send OPTIONS requests to check CORS headers # before sending the actual request. We should allow these # requests to pass through without authentication. # See https://github.com/PygmalionAI/aphrodite-engine/issues/434 if request.method == "OPTIONS": return await call_next(request) auth_header = request.headers.get("Authorization") api_key_header = request.headers.get("x-api-key") if request.url.path.startswith( ("/v1/lora", "/v1/soft_prompt", "/v1/model")): if admin_key is not None and ( api_key_header == admin_key or auth_header == "Bearer " + admin_key ): return await call_next(request) return JSONResponse(content={"error": "Unauthorized"}, status_code=401) if (auth_header == f"Bearer {token}" or api_key_header == token or (admin_key is not None and (api_key_header == admin_key or auth_header == f"Bearer {admin_key}"))): return await call_next(request) return JSONResponse( content={"error": "Unauthorized"}, status_code=401) for middleware in args.middleware: module_path, object_name = middleware.rsplit(".", 1) imported = getattr(importlib.import_module(module_path), object_name) if inspect.isclass(imported): app.add_middleware(imported) elif inspect.iscoroutinefunction(imported): app.middleware("http")(imported) else: raise ValueError(f"Invalid middleware {middleware}. " f"Must be a function or a class.") return app def init_app_state( async_engine_client: AsyncEngineClient, model_config: ModelConfig, state: State, args: Namespace, ) -> None: global api_server_args api_server_args = args logger.debug(f"args: {args}") global served_model_names if args.served_model_name is not None: served_model_names = args.served_model_name else: served_model_names = [args.model] if args.uvloop: uvloop.install() global tokenizer if args.disable_log_requests: request_logger = None else: request_logger = RequestLogger(max_log_len=args.max_log_len) state.engine_client = async_engine_client state.log_stats = not args.disable_log_stats state.openai_serving_chat = OpenAIServingChat( async_engine_client, model_config, served_model_names, args.response_role, lora_modules=args.lora_modules, prompt_adapters=args.prompt_adapters, request_logger=request_logger, chat_template=args.chat_template, return_tokens_as_token_ids=args.return_tokens_as_token_ids, enable_auto_tools=args.enable_auto_tool_choice, tool_parser=args.tool_call_parser ) state.openai_serving_completion = OpenAIServingCompletion( async_engine_client, model_config, served_model_names, lora_modules=args.lora_modules, prompt_adapters=args.prompt_adapters, request_logger=request_logger, return_tokens_as_token_ids=args.return_tokens_as_token_ids, ) state.openai_serving_embedding = OpenAIServingEmbedding( async_engine_client, model_config, served_model_names, request_logger=request_logger, ) state.openai_serving_tokenization = OpenAIServingTokenization( async_engine_client, model_config, served_model_names, lora_modules=args.lora_modules, request_logger=request_logger, chat_template=args.chat_template, ) tokenizer = get_tokenizer( tokenizer_name=args.tokenizer if args.tokenizer else args.model, tokenizer_mode=args.tokenizer_mode, trust_remote_code=args.trust_remote_code, revision=args.revision, ) if args.launch_kobold_api: _set_badwords(tokenizer, model_config.hf_config) async def run_server(args, **uvicorn_kwargs) -> None: def signal_handler(*_) -> None: # Interrupt server on sigterm while initializing raise KeyboardInterrupt("terminated") signal.signal(signal.SIGTERM, signal_handler) async with build_async_engine_client(args) as async_engine_client: # If None, creation of the client failed and we exit. if async_engine_client is None: return app = build_app(args) model_config = await async_engine_client.get_model_config() init_app_state(async_engine_client, model_config, app.state, args) protocol = "https" if args.ssl_certfile else "http" root_path = args.root_path.rstrip("/") if args.root_path else "" host_name = args.host if args.host else "localhost" port_str = str(args.port) if SERVE_KOBOLD_LITE_UI: ui_url = f"{protocol}://{host_name}:{port_str}{root_path}/" logger.info(f"Kobold Lite UI: {ui_url}") logger.info(f"Documentation: {protocol}://{host_name}:{port_str}{root_path}/redoc") # noqa: E501 logger.info(f"Completions API: {protocol}://{host_name}:{port_str}{root_path}/v1/completions") # noqa: E501 logger.info(f"Chat API: {protocol}://{host_name}:{port_str}{root_path}/v1/chat/completions") # noqa: E501 logger.info(f"Embeddings API: {protocol}://{host_name}:{port_str}{root_path}/v1/embeddings") # noqa: E501 logger.info(f"Tokenization API: {protocol}://{host_name}:{port_str}{root_path}/v1/tokenize") # noqa: E501 shutdown_task = await serve_http( app, limit_concurrency=async_engine_client.limit_concurrency, host=args.host, port=args.port, log_level=args.uvicorn_log_level, timeout_keep_alive=TIMEOUT_KEEP_ALIVE, ssl_keyfile=args.ssl_keyfile, ssl_certfile=args.ssl_certfile, ssl_ca_certs=args.ssl_ca_certs, ssl_cert_reqs=args.ssl_cert_reqs, **uvicorn_kwargs, ) # NB: Await server shutdown only after the backend context is exited await shutdown_task if __name__ == "__main__": # NOTE: # This section should be in sync with aphrodite/endpoints/cli.py # for CLI entrypoints. parser = FlexibleArgumentParser( description="Aphrodite OpenAI-Compatible RESTful API Server") parser = make_arg_parser(parser) args = parser.parse_args() uvloop.run(run_server(args))