# Copyright 2023-2024 SGLang Team # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # ============================================================================== """ The entry point of inference server. (SRT = SGLang Runtime) This file implements HTTP APIs for the inference engine via fastapi. """ import asyncio import dataclasses import logging import os import tempfile import threading import time from contextlib import asynccontextmanager from http import HTTPStatus from typing import ( Any, AsyncGenerator, AsyncIterator, Callable, Dict, List, Optional, Union, ) # Fix a bug of Python threading setattr(threading, "_register_atexit", lambda *args, **kwargs: None) import numpy as np import orjson import requests import uvicorn import uvloop from fastapi import Depends, FastAPI, HTTPException, Request from fastapi.exceptions import RequestValidationError from fastapi.middleware.cors import CORSMiddleware from fastapi.responses import ORJSONResponse, Response, StreamingResponse from sglang.srt.disaggregation.utils import FAKE_BOOTSTRAP_HOST, DisaggregationMode from sglang.srt.entrypoints.anthropic.protocol import ( AnthropicCountTokensRequest, AnthropicMessagesRequest, ) from sglang.srt.entrypoints.anthropic.serving import AnthropicServing from sglang.srt.entrypoints.engine import ( _launch_subprocesses, init_tokenizer_manager, run_detokenizer_process, run_scheduler_process, ) from sglang.srt.entrypoints.ollama.protocol import ( OllamaChatRequest, OllamaGenerateRequest, OllamaShowRequest, ) from sglang.srt.entrypoints.ollama.serving import OllamaServing from sglang.srt.entrypoints.openai.protocol import ( ChatCompletionRequest, ClassifyRequest, CompletionRequest, DetokenizeRequest, EmbeddingRequest, ErrorResponse, ModelCard, ModelList, ResponsesRequest, ScoringRequest, TokenizeRequest, V1RerankReqInput, ) from sglang.srt.entrypoints.openai.serving_chat import OpenAIServingChat from sglang.srt.entrypoints.openai.serving_classify import OpenAIServingClassify from sglang.srt.entrypoints.openai.serving_completions import OpenAIServingCompletion from sglang.srt.entrypoints.openai.serving_embedding import OpenAIServingEmbedding from sglang.srt.entrypoints.openai.serving_rerank import OpenAIServingRerank from sglang.srt.entrypoints.openai.serving_score import OpenAIServingScore from sglang.srt.entrypoints.openai.serving_tokenize import ( OpenAIServingDetokenize, OpenAIServingTokenize, ) from sglang.srt.entrypoints.warmup import execute_warmups from sglang.srt.environ import envs from sglang.srt.function_call.function_call_parser import FunctionCallParser from sglang.srt.managers.io_struct import ( AbortReq, AttachHiCacheStorageReqInput, CheckWeightsReqInput, CloseSessionReqInput, ConfigureLoggingReq, ContinueGenerationReqInput, DestroyWeightsUpdateGroupReqInput, DumperControlReqInput, EmbeddingReqInput, GenerateReqInput, GetWeightsByNameReqInput, InitWeightsSendGroupForRemoteInstanceReqInput, InitWeightsUpdateGroupReqInput, LoadLoRAAdapterFromTensorsReqInput, LoadLoRAAdapterReqInput, OpenSessionReqInput, ParseFunctionCallReq, PauseGenerationReqInput, ProfileReqInput, ReleaseMemoryOccupationReqInput, ResumeMemoryOccupationReqInput, SendWeightsToRemoteInstanceReqInput, SeparateReasoningReqInput, SetInternalStateReq, SlowDownReqInput, UnloadLoRAAdapterReqInput, UpdateWeightFromDiskReqInput, UpdateWeightsFromDistributedReqInput, UpdateWeightsFromIPCReqInput, UpdateWeightsFromTensorReqInput, UpdateWeightVersionReqInput, VertexGenerateReqInput, ) from sglang.srt.managers.multi_tokenizer_mixin import ( MultiTokenizerRouter, TokenizerWorker, get_main_process_id, monkey_patch_uvicorn_multiprocessing, read_from_shared_memory, write_data_for_multi_tokenizer, ) from sglang.srt.managers.template_manager import TemplateManager from sglang.srt.managers.tokenizer_manager import ServerStatus, TokenizerManager from sglang.srt.metrics.func_timer import enable_func_timer from sglang.srt.model_loader.remote_instance_weight_loader_utils import ( parse_remote_instance_transfer_engine_info_from_scheduler_infos, ) from sglang.srt.parser.reasoning_parser import ReasoningParser from sglang.srt.server_args import PortArgs, ServerArgs from sglang.srt.tracing.trace import process_tracing_init, trace_set_thread_info from sglang.srt.utils import ( add_prometheus_middleware, add_prometheus_track_response_middleware, delete_directory, get_bool_env_var, kill_process_tree, set_uvicorn_logging_configs, ) from sglang.srt.utils.auth import AuthLevel, app_has_admin_force_endpoints, auth_level from sglang.utils import get_exception_traceback from sglang.version import __version__ logger = logging.getLogger(__name__) asyncio.set_event_loop_policy(uvloop.EventLoopPolicy()) # Global constants HEALTH_CHECK_TIMEOUT = int(os.getenv("SGLANG_HEALTH_CHECK_TIMEOUT", 20)) WAIT_WEIGHTS_READY_TIMEOUT = int(os.getenv("SGLANG_WAIT_WEIGHTS_READY_TIMEOUT", 120)) # Store global states @dataclasses.dataclass class _GlobalState: tokenizer_manager: Union[TokenizerManager, MultiTokenizerRouter, TokenizerWorker] template_manager: TemplateManager scheduler_info: Dict # Dict{ # rank: Tuple( # session_id, # Dict{ # name: Tuple (d_ptr, numel, element_size) # } # ) # } remote_instance_transfer_engine_info: Optional[Dict] = None _global_state: Optional[_GlobalState] = None def set_global_state(global_state: _GlobalState): global _global_state _global_state = global_state def get_global_state() -> _GlobalState: return _global_state async def init_multi_tokenizer() -> ServerArgs: """ Initialization function for multi-process tokenizer mode. It read args information from shm and inits tokenizer manager for current process. """ # Read configuration from shared memory main_pid = get_main_process_id() port_args, server_args, scheduler_info = read_from_shared_memory( f"multi_tokenizer_args_{main_pid}" ) server_args: ServerArgs port_args: PortArgs # API key authentication is not supported in multi-tokenizer mode assert ( server_args.api_key is None ), "API key is not supported in multi-tokenizer mode" # Create a new ipc name for the current process port_args.tokenizer_ipc_name = ( f"ipc://{tempfile.NamedTemporaryFile(delete=False).name}" ) logger.info( f"Start multi-tokenizer worker process {os.getpid()}, " f"ipc_name={port_args.tokenizer_ipc_name}" ) # Launch multi-tokenizer manager process tokenizer_manager = TokenizerWorker(server_args, port_args) template_manager = TemplateManager() template_manager.initialize_templates( tokenizer_manager=tokenizer_manager, model_path=server_args.model_path, chat_template=server_args.chat_template, completion_template=server_args.completion_template, ) tokenizer_manager.max_req_input_len = scheduler_info["max_req_input_len"] set_global_state( _GlobalState( tokenizer_manager=tokenizer_manager, template_manager=template_manager, scheduler_info=scheduler_info, ) ) return server_args @asynccontextmanager async def lifespan(fast_api_app: FastAPI): if getattr(fast_api_app, "is_single_tokenizer_mode", False): server_args = fast_api_app.server_args warmup_thread_kwargs = fast_api_app.warmup_thread_kwargs thread_label = "Tokenizer" else: # Initialize multi-tokenizer support for worker processes server_args = await init_multi_tokenizer() warmup_thread_kwargs = dict(server_args=server_args) thread_label = f"MultiTokenizer-{_global_state.tokenizer_manager.worker_id}" # Add prometheus middleware if server_args.enable_metrics: add_prometheus_middleware(app) enable_func_timer() # Init tracing if server_args.enable_trace: process_tracing_init(server_args.otlp_traces_endpoint, "sglang") if server_args.disaggregation_mode == "prefill": thread_label = "Prefill" + thread_label elif server_args.disaggregation_mode == "decode": thread_label = "Decode" + thread_label trace_set_thread_info(thread_label) # Initialize OpenAI serving handlers fast_api_app.state.openai_serving_completion = OpenAIServingCompletion( _global_state.tokenizer_manager, _global_state.template_manager ) fast_api_app.state.openai_serving_chat = OpenAIServingChat( _global_state.tokenizer_manager, _global_state.template_manager ) fast_api_app.state.openai_serving_embedding = OpenAIServingEmbedding( _global_state.tokenizer_manager, _global_state.template_manager ) fast_api_app.state.openai_serving_classify = OpenAIServingClassify( _global_state.tokenizer_manager, _global_state.template_manager ) fast_api_app.state.openai_serving_score = OpenAIServingScore( _global_state.tokenizer_manager ) fast_api_app.state.openai_serving_rerank = OpenAIServingRerank( _global_state.tokenizer_manager, _global_state.template_manager ) fast_api_app.state.openai_serving_tokenize = OpenAIServingTokenize( _global_state.tokenizer_manager ) fast_api_app.state.openai_serving_detokenize = OpenAIServingDetokenize( _global_state.tokenizer_manager ) # Initialize Ollama-compatible serving handler fast_api_app.state.ollama_serving = OllamaServing(_global_state.tokenizer_manager) # Initialize Anthropic-compatible serving handler fast_api_app.state.anthropic_serving = AnthropicServing( fast_api_app.state.openai_serving_chat ) # Launch tool server tool_server = None if server_args.tool_server == "demo": from sglang.srt.entrypoints.openai.tool_server import DemoToolServer tool_server = DemoToolServer() elif server_args.tool_server: from sglang.srt.entrypoints.openai.tool_server import MCPToolServer tool_server = MCPToolServer() await tool_server.add_tool_server(server_args.tool_server) try: from sglang.srt.entrypoints.openai.serving_responses import ( OpenAIServingResponses, ) fast_api_app.state.openai_serving_responses = OpenAIServingResponses( _global_state.tokenizer_manager, _global_state.template_manager, enable_prompt_tokens_details=True, enable_force_include_usage=True, tool_server=tool_server, ) except Exception: traceback = get_exception_traceback() logger.warning(f"Can not initialize OpenAIServingResponses, error: {traceback}") # Execute custom warmups if server_args.warmups is not None: await execute_warmups( server_args.disaggregation_mode, server_args.warmups.split(","), _global_state.tokenizer_manager, ) logger.info("Warmup ended") # Execute the general warmup warmup_thread = threading.Thread( target=_wait_and_warmup, kwargs=warmup_thread_kwargs, ) warmup_thread.start() # Start the HTTP server try: yield finally: warmup_thread.join() # Fast API app = FastAPI( lifespan=lifespan, openapi_url=None if get_bool_env_var("DISABLE_OPENAPI_DOC") else "/openapi.json", ) app.add_middleware( CORSMiddleware, allow_origins=["*"], allow_credentials=True, allow_methods=["*"], allow_headers=["*"], ) # Include routers from sglang.srt.entrypoints.v1_loads import router as v1_loads_router app.include_router(v1_loads_router) @app.exception_handler(HTTPException) async def validation_exception_handler(request: Request, exc: HTTPException): """Enrich HTTP exception with status code and other details. For /v1/responses, emit OpenAI-style nested error envelope: {"error": {"message": "...", "type": "...", "param": null, "code": }} """ # adjust fmt for responses api if request.url.path.startswith("/v1/responses"): nested_error = { "message": exc.detail, "type": HTTPStatus(exc.status_code).phrase, "param": None, "code": exc.status_code, } return ORJSONResponse( content={"error": nested_error}, status_code=exc.status_code ) error = ErrorResponse( object="error", message=exc.detail, type=str(exc.status_code), code=exc.status_code, ) return ORJSONResponse(content=error.model_dump(), status_code=exc.status_code) # Custom exception handlers to change validation error status codes @app.exception_handler(RequestValidationError) async def validation_exception_handler(request: Request, exc: RequestValidationError): """Override FastAPI's default 422 validation error with 400. For /v1/responses, emit OpenAI-style nested error envelope; for other endpoints keep legacy format. """ exc_str = str(exc) errors_str = str(exc.errors()) if errors_str and errors_str != exc_str: message = f"{exc_str} {errors_str}" else: message = exc_str if request.url.path.startswith("/v1/responses"): # adapt specially, for v1/responses API only (notice the error key is different) nested_error = { "message": message, "type": HTTPStatus.BAD_REQUEST.phrase, "param": None, "code": HTTPStatus.BAD_REQUEST.value, } return ORJSONResponse(status_code=400, content={"error": nested_error}) err = ErrorResponse( message=message, type=HTTPStatus.BAD_REQUEST.phrase, code=HTTPStatus.BAD_REQUEST.value, ) return ORJSONResponse( status_code=400, content=err.model_dump(), ) async def validate_json_request(raw_request: Request): """Validate that the request content-type is application/json.""" content_type = raw_request.headers.get("content-type", "").lower() media_type = content_type.split(";", maxsplit=1)[0] if media_type != "application/json": raise RequestValidationError( errors=[ { "loc": ["header", "content-type"], "msg": "Unsupported Media Type: Only 'application/json' is allowed", "type": "value_error", } ] ) ##### Native API endpoints ##### @app.get("/health") @app.get("/health_generate") async def health_generate(request: Request) -> Response: """ Check the health of the inference server by sending a special request to generate one token. If the server is running something, this request will be ignored, so it creates zero overhead. If the server is not running anything, this request will be run, so we know whether the server is healthy. """ if _global_state.tokenizer_manager.gracefully_exit: logger.info("Health check request received during shutdown. Returning 503.") return Response(status_code=503) if _global_state.tokenizer_manager.server_status == ServerStatus.Starting: return Response(status_code=503) if ( not envs.SGLANG_ENABLE_HEALTH_ENDPOINT_GENERATION.get() and request.url.path == "/health" ): return Response(status_code=200) sampling_params = {"max_new_tokens": 1, "temperature": 0.0} rid = f"HEALTH_CHECK_{time.time()}" if _global_state.tokenizer_manager.is_image_gen: gri = _global_state.tokenizer_manager.get_image_gen_health_check_request( rid, sampling_params ) elif _global_state.tokenizer_manager.is_generation: gri = GenerateReqInput( rid=rid, input_ids=[0], sampling_params=sampling_params, log_metrics=False, ) if ( _global_state.tokenizer_manager.server_args.disaggregation_mode != DisaggregationMode.NULL.value ): gri.bootstrap_host = FAKE_BOOTSTRAP_HOST gri.bootstrap_room = 0 else: gri = EmbeddingReqInput( rid=rid, input_ids=[0], sampling_params=sampling_params, log_metrics=False ) async def gen(): async for _ in _global_state.tokenizer_manager.generate_request(gri, request): break task = asyncio.create_task(gen()) # As long as we receive any response from the detokenizer/scheduler, we consider the server is healthy. tic = time.time() while time.time() < tic + HEALTH_CHECK_TIMEOUT: await asyncio.sleep(1) if _global_state.tokenizer_manager.last_receive_tstamp > tic: task.cancel() _global_state.tokenizer_manager.rid_to_state.pop(rid, None) _global_state.tokenizer_manager.server_status = ServerStatus.Up return Response(status_code=200) task.cancel() tic_time = time.strftime("%H:%M:%S", time.localtime(tic)) last_receive_time = time.strftime( "%H:%M:%S", time.localtime(_global_state.tokenizer_manager.last_receive_tstamp) ) logger.error( f"Health check failed. Server couldn't get a response from detokenizer for last " f"{HEALTH_CHECK_TIMEOUT} seconds. tic start time: {tic_time}. " f"last_heartbeat time: {last_receive_time}" ) _global_state.tokenizer_manager.rid_to_state.pop(rid, None) _global_state.tokenizer_manager.server_status = ServerStatus.UnHealthy return Response(status_code=503) @app.get("/get_model_info") async def get_model_info(): """Get the model information (deprecated - use /model_info instead).""" logger.warning( "Endpoint '/get_model_info' is deprecated and will be removed in a future version. " "Please use '/model_info' instead." ) return await model_info() @app.get("/model_info") async def model_info(): """Get the model information.""" model_config = _global_state.tokenizer_manager.model_config result = { "model_path": _global_state.tokenizer_manager.model_path, "tokenizer_path": _global_state.tokenizer_manager.server_args.tokenizer_path, "is_generation": _global_state.tokenizer_manager.is_generation, "preferred_sampling_params": _global_state.tokenizer_manager.server_args.preferred_sampling_params, "weight_version": _global_state.tokenizer_manager.server_args.weight_version, "has_image_understanding": model_config.is_image_understandable_model, "has_audio_understanding": model_config.is_audio_understandable_model, "model_type": getattr(model_config.hf_config, "model_type", None), "architectures": getattr(model_config.hf_config, "architectures", None), "weight_version": _global_state.tokenizer_manager.server_args.weight_version, # "hf_config": model_config.hf_config.to_dict(), } return result @app.get("/get_weight_version") @app.get("/weight_version") async def weight_version(): """Get the current weight version.""" raise HTTPException( status_code=404, detail="Endpoint '/get_weight_version' or '/weight_version' is deprecated. Please use '/model_info' instead.", ) @app.get("/get_server_info") async def get_server_info(): """Get the server information (deprecated - use /server_info instead).""" logger.warning( "Endpoint '/get_server_info' is deprecated and will be removed in a future version. " "Please use '/server_info' instead." ) return await server_info() @app.get("/server_info") async def server_info(): """Get the server information.""" # Returns internal states per DP. internal_states: List[Dict[Any, Any]] = ( await _global_state.tokenizer_manager.get_internal_state() ) # This field is not serializable. if hasattr(_global_state.tokenizer_manager.server_args, "model_config"): del _global_state.tokenizer_manager.server_args.model_config return { **dataclasses.asdict(_global_state.tokenizer_manager.server_args), **_global_state.scheduler_info, "internal_states": internal_states, "version": __version__, } @app.get("/get_load") async def get_load(): """Get load metrics (deprecated - use /v1/loads instead).""" logger.warning( "Endpoint '/get_load' is deprecated and will be removed in a future version. " "Please use '/v1/loads' instead." ) return await _global_state.tokenizer_manager.get_load() # example usage: # curl -s -X POST http://localhost:30000/set_internal_state -H "Content-Type: application/json" -d '{"server_args": {"pp_max_micro_batch_size": 8}}' @app.api_route("/set_internal_state", methods=["POST", "PUT"]) @auth_level(AuthLevel.ADMIN_OPTIONAL) async def set_internal_state(obj: SetInternalStateReq, request: Request): res = await _global_state.tokenizer_manager.set_internal_state(obj) return res # Do not import `dumper.py` to avoid dependency if os.environ.get("SGLANG_DUMPER_SERVER_PORT") == "reuse": @app.api_route("/dumper/{method}", methods=["POST"]) @auth_level(AuthLevel.ADMIN_OPTIONAL) async def _dumper_control_handler(method: str, request: Request): body_bytes = await request.body() body = await request.json() if body_bytes else {} obj = DumperControlReqInput(method=method, body=body) results = await _global_state.tokenizer_manager.dumper_control(obj) if any(not r.success for r in results): errors = [r.error for r in results if not r.success] return ORJSONResponse(status_code=400, content={"error": errors}) return [x for result in results for x in result.response] # fastapi implicitly converts json in the request to obj (dataclass) @app.api_route("/generate", methods=["POST", "PUT"]) async def generate_request(obj: GenerateReqInput, request: Request): """Handle a generate request.""" if obj.stream: async def stream_results() -> AsyncIterator[bytes]: try: async for out in _global_state.tokenizer_manager.generate_request( obj, request ): yield b"data: " + orjson.dumps( out, option=orjson.OPT_NON_STR_KEYS ) + b"\n\n" except ValueError as e: out = {"error": {"message": str(e)}} logger.error(f"[http_server] Error: {e}") yield b"data: " + orjson.dumps( out, option=orjson.OPT_NON_STR_KEYS ) + b"\n\n" yield b"data: [DONE]\n\n" return StreamingResponse( stream_results(), media_type="text/event-stream", background=_global_state.tokenizer_manager.create_abort_task(obj), ) else: try: ret = await _global_state.tokenizer_manager.generate_request( obj, request ).__anext__() return ret except ValueError as e: logger.error(f"[http_server] Error: {e}") return _create_error_response(e) @app.api_route("/encode", methods=["POST", "PUT"]) async def encode_request(obj: EmbeddingReqInput, request: Request): """Handle an embedding request.""" try: ret = await _global_state.tokenizer_manager.generate_request( obj, request ).__anext__() return ret except ValueError as e: return _create_error_response(e) @app.api_route("/classify", methods=["POST", "PUT"]) async def classify_request(obj: EmbeddingReqInput, request: Request): """Handle a reward model request. Now the arguments and return values are the same as embedding models.""" try: ret = await _global_state.tokenizer_manager.generate_request( obj, request ).__anext__() return ret except ValueError as e: return _create_error_response(e) @app.api_route("/flush_cache", methods=["GET", "POST"]) @auth_level(AuthLevel.ADMIN_OPTIONAL) async def flush_cache(): """Flush the radix cache.""" ret = await _global_state.tokenizer_manager.flush_cache() return Response( content="Cache flushed.\nPlease check backend logs for more details. " "(When there are running or waiting requests, the operation will not be performed.)\n", status_code=200 if ret.success else HTTPStatus.BAD_REQUEST, ) @app.api_route("/clear_hicache_storage_backend", methods=["GET", "POST"]) @auth_level(AuthLevel.ADMIN_OPTIONAL) async def clear_hicache_storage_backend_deprecated(): """Deprecated: use POST /hicache/storage-backend/clear.""" ret = await _global_state.tokenizer_manager.clear_hicache_storage() return Response( content=( "Deprecated endpoint. Use POST /hicache/storage-backend/clear.\n" "Hierarchical cache storage backend cleared.\n" ), status_code=200 if ret.success else HTTPStatus.BAD_REQUEST, ) # example usage: # curl -s -X POST http://127.0.0.1:30000/clear_hicache_storage_backend @app.api_route("/hicache/storage-backend/clear", methods=["POST"]) @auth_level(AuthLevel.ADMIN_OPTIONAL) async def clear_hicache_storage_backend(): """Clear the hierarchical cache storage backend.""" ret = await _global_state.tokenizer_manager.clear_hicache_storage() return Response( content="Hierarchical cache storage backend cleared.\n", status_code=200 if ret.success else HTTPStatus.BAD_REQUEST, ) # example usage: # curl -s -X PUT http://127.0.0.1:30000/hicache/storage-backend \ # -H 'Content-Type: application/json' \ # -d '{ # "hicache_storage_backend": "file", # "hicache_storage_backend_extra_config_json": "{}", # "hicache_storage_prefetch_policy": "timeout", # "hicache_write_policy": "write_through" # }' @app.api_route("/hicache/storage-backend", methods=["PUT"]) @auth_level(AuthLevel.ADMIN_OPTIONAL) async def attach_hicache_storage_backend(obj: AttachHiCacheStorageReqInput): """Attach (enable) HiCache storage backend at runtime. Only allowed when there are NO running / queued requests. """ if not _global_state.tokenizer_manager.server_args.admin_api_key: return _admin_api_key_missing_response() ret = await _global_state.tokenizer_manager.attach_hicache_storage( hicache_storage_backend=obj.hicache_storage_backend, hicache_storage_backend_extra_config_json=obj.hicache_storage_backend_extra_config_json, hicache_storage_prefetch_policy=obj.hicache_storage_prefetch_policy, hicache_write_policy=obj.hicache_write_policy, ) msg = getattr(ret, "message", "") return Response( content=( ( "HiCache storage backend attached.\n" if ret.success else "Failed to attach HiCache storage backend.\n" ) + (msg + "\n" if msg else "") ), status_code=200 if ret.success else HTTPStatus.BAD_REQUEST, ) # example usage: # curl -s -X DELETE http://127.0.0.1:30000/hicache/storage-backend @app.api_route("/hicache/storage-backend", methods=["DELETE"]) @auth_level(AuthLevel.ADMIN_OPTIONAL) async def detach_hicache_storage_backend(): """Detach (disable) HiCache storage backend at runtime. Only allowed when there are NO running / queued requests. """ if not _global_state.tokenizer_manager.server_args.admin_api_key: return _admin_api_key_missing_response() ret = await _global_state.tokenizer_manager.detach_hicache_storage() msg = getattr(ret, "message", "") return Response( content=( ( "HiCache storage backend detached.\n" if ret.success else "Failed to detach HiCache storage backend.\n" ) + (msg + "\n" if msg else "") ), status_code=200 if ret.success else HTTPStatus.BAD_REQUEST, ) # example usage: # curl -s http://127.0.0.1:30000/hicache/storage-backend @app.get("/hicache/storage-backend") @auth_level(AuthLevel.ADMIN_OPTIONAL) async def hicache_storage_backend_status(): """Get current HiCache storage backend status (tokenizer-side view).""" if not _global_state.tokenizer_manager.server_args.admin_api_key: return _admin_api_key_missing_response() return { "hicache_storage_backend": _global_state.tokenizer_manager.server_args.hicache_storage_backend, "hicache_storage_backend_extra_config": _global_state.tokenizer_manager.server_args.hicache_storage_backend_extra_config, "hicache_storage_prefetch_policy": _global_state.tokenizer_manager.server_args.hicache_storage_prefetch_policy, "hicache_write_policy": _global_state.tokenizer_manager.server_args.hicache_write_policy, } @app.api_route("/start_profile", methods=["GET", "POST"]) @auth_level(AuthLevel.ADMIN_OPTIONAL) async def start_profile_async(obj: Optional[ProfileReqInput] = None): """Start profiling.""" if obj is None: obj = ProfileReqInput() await _global_state.tokenizer_manager.start_profile( output_dir=obj.output_dir, start_step=obj.start_step, num_steps=obj.num_steps, activities=obj.activities, with_stack=obj.with_stack, record_shapes=obj.record_shapes, profile_by_stage=obj.profile_by_stage, merge_profiles=obj.merge_profiles, profile_prefix=obj.profile_prefix, profile_stages=obj.profile_stages, ) return Response( content="Start profiling.\n", status_code=200, ) @app.api_route("/stop_profile", methods=["GET", "POST"]) @auth_level(AuthLevel.ADMIN_OPTIONAL) async def stop_profile_async(): """Stop profiling.""" await _global_state.tokenizer_manager.stop_profile() return Response( content="Stop profiling. This will take some time.\n", status_code=200, ) @app.api_route("/freeze_gc", methods=["GET", "POST"]) @auth_level(AuthLevel.ADMIN_OPTIONAL) async def freeze_gc_async(): """ See engine.freeze_gc for more details. """ await _global_state.tokenizer_manager.freeze_gc() return Response( content="Garbage collection frozen.\n", status_code=200, ) @app.api_route("/start_expert_distribution_record", methods=["GET", "POST"]) @auth_level(AuthLevel.ADMIN_OPTIONAL) async def start_expert_distribution_record_async(): """Start recording the expert distribution. Clear the previous record if any.""" await _global_state.tokenizer_manager.start_expert_distribution_record() return Response( content="Start recording the expert distribution.\n", status_code=200, ) @app.api_route("/stop_expert_distribution_record", methods=["GET", "POST"]) @auth_level(AuthLevel.ADMIN_OPTIONAL) async def stop_expert_distribution_record_async(): """Stop recording the expert distribution.""" await _global_state.tokenizer_manager.stop_expert_distribution_record() return Response( content="Stop recording the expert distribution.\n", status_code=200, ) @app.api_route("/dump_expert_distribution_record", methods=["GET", "POST"]) @auth_level(AuthLevel.ADMIN_OPTIONAL) async def dump_expert_distribution_record_async(): """Dump expert distribution record.""" await _global_state.tokenizer_manager.dump_expert_distribution_record() return Response( content="Dump expert distribution record.\n", status_code=200, ) @app.post("/update_weights_from_disk") @auth_level(AuthLevel.ADMIN_OPTIONAL) async def update_weights_from_disk(obj: UpdateWeightFromDiskReqInput, request: Request): """Update the weights from disk inplace without re-launching the server.""" success, message, num_paused_requests = ( await _global_state.tokenizer_manager.update_weights_from_disk(obj, request) ) content = { "success": success, "message": message, "num_paused_requests": num_paused_requests, } if success: return ORJSONResponse( content, status_code=HTTPStatus.OK, ) else: return ORJSONResponse( content, status_code=HTTPStatus.BAD_REQUEST, ) @app.post("/init_weights_send_group_for_remote_instance") @auth_level(AuthLevel.ADMIN_OPTIONAL) async def init_weights_send_group_for_remote_instance( obj: InitWeightsSendGroupForRemoteInstanceReqInput, request: Request ): success, message = ( await _global_state.tokenizer_manager.init_weights_send_group_for_remote_instance( obj, request ) ) content = {"success": success, "message": message} if success: return ORJSONResponse(content, status_code=200) else: return ORJSONResponse(content, status_code=HTTPStatus.BAD_REQUEST) @app.post("/send_weights_to_remote_instance") @auth_level(AuthLevel.ADMIN_OPTIONAL) async def send_weights_to_remote_instance( obj: SendWeightsToRemoteInstanceReqInput, request: Request ): success, message = ( await _global_state.tokenizer_manager.send_weights_to_remote_instance( obj, request ) ) content = {"success": success, "message": message} if success: return ORJSONResponse(content, status_code=200) else: return ORJSONResponse(content, status_code=HTTPStatus.BAD_REQUEST) @app.get("/get_remote_instance_transfer_engine_info") @auth_level(AuthLevel.ADMIN_OPTIONAL) async def get_remote_instance_transfer_engine_info(rank: int = None): if rank is None or rank < 0: return Response(status_code=HTTPStatus.BAD_REQUEST) if ( _global_state.remote_instance_transfer_engine_info is None or len(_global_state.remote_instance_transfer_engine_info) == 0 ): return Response(status_code=HTTPStatus.BAD_REQUEST) try: result = { "rank": rank, "remote_instance_transfer_engine_info": _global_state.remote_instance_transfer_engine_info[ rank ], } return result except Exception as e: logger.error(f"Exception: {e}") return Response(status_code=HTTPStatus.BAD_REQUEST) @app.post("/init_weights_update_group") @auth_level(AuthLevel.ADMIN_OPTIONAL) async def init_weights_update_group( obj: InitWeightsUpdateGroupReqInput, request: Request ): """Initialize the parameter update group.""" success, message = await _global_state.tokenizer_manager.init_weights_update_group( obj, request ) content = {"success": success, "message": message} if success: return ORJSONResponse(content, status_code=200) else: return ORJSONResponse(content, status_code=HTTPStatus.BAD_REQUEST) @app.post("/destroy_weights_update_group") @auth_level(AuthLevel.ADMIN_OPTIONAL) async def destroy_weights_update_group( obj: DestroyWeightsUpdateGroupReqInput, request: Request ): """Destroy the parameter update group.""" success, message = ( await _global_state.tokenizer_manager.destroy_weights_update_group(obj, request) ) content = {"success": success, "message": message} return ORJSONResponse( content, status_code=200 if success else HTTPStatus.BAD_REQUEST ) @app.post("/update_weights_from_tensor") @auth_level(AuthLevel.ADMIN_OPTIONAL) async def update_weights_from_tensor( obj: UpdateWeightsFromTensorReqInput, request: Request ): """Update the weights from tensor inplace without re-launching the server. Notes: 1. Ensure that the model is on the correct device (e.g., GPU) before calling this endpoint. If the model is moved to the CPU unexpectedly, it may cause performance issues or runtime errors. 2. HTTP will transmit only the metadata of the tensor, while the tensor itself will be directly copied to the model. 3. Any binary data in the named tensors should be base64 encoded. """ success, message = await _global_state.tokenizer_manager.update_weights_from_tensor( obj, request ) content = {"success": success, "message": message} return ORJSONResponse( content, status_code=200 if success else HTTPStatus.BAD_REQUEST ) @app.post("/update_weights_from_distributed") @auth_level(AuthLevel.ADMIN_OPTIONAL) async def update_weights_from_distributed( obj: UpdateWeightsFromDistributedReqInput, request: Request ): """Update model parameter from distributed online.""" success, message = ( await _global_state.tokenizer_manager.update_weights_from_distributed( obj, request ) ) content = {"success": success, "message": message} if success: return ORJSONResponse(content, status_code=200) else: return ORJSONResponse(content, status_code=HTTPStatus.BAD_REQUEST) @app.post("/update_weights_from_ipc") @auth_level(AuthLevel.ADMIN_OPTIONAL) async def update_weights_from_ipc(obj: UpdateWeightsFromIPCReqInput, request: Request): """Update the weights from IPC (Inter-Process Communication) for checkpoint-engine integration.""" success, message = await _global_state.tokenizer_manager.update_weights_from_ipc( obj, request ) content = {"success": success, "message": message} if success: if _global_state.tokenizer_manager.initial_weights_loaded is False: _global_state.tokenizer_manager.initial_weights_loaded = True return ORJSONResponse(content) else: return ORJSONResponse(content, status_code=HTTPStatus.BAD_REQUEST) @app.post("/update_weight_version") @auth_level(AuthLevel.ADMIN_OPTIONAL) async def update_weight_version(obj: UpdateWeightVersionReqInput, request: Request): """Update the weight version. This operation requires no active requests.""" if obj.abort_all_requests: _global_state.tokenizer_manager.abort_request(abort_all=True) # Use a simple approach without the complex lock mechanism for now # since weight_version update is a simple operation that doesn't affect model weights try: # Update the weight version in server args (the single source of truth) _global_state.tokenizer_manager.server_args.weight_version = obj.new_version return ORJSONResponse( { "success": True, "message": f"Weight version updated to {obj.new_version}", "new_version": obj.new_version, }, status_code=HTTPStatus.OK, ) except Exception as e: return ORJSONResponse( { "success": False, "message": f"Failed to update weight version: {str(e)}", }, status_code=HTTPStatus.BAD_REQUEST, ) @app.api_route("/get_weights_by_name", methods=["GET", "POST"]) @auth_level(AuthLevel.ADMIN_OPTIONAL) async def get_weights_by_name(obj: GetWeightsByNameReqInput, request: Request): """Get model parameter by name.""" try: ret = await _global_state.tokenizer_manager.get_weights_by_name(obj, request) if ret is None: return _create_error_response("Get parameter by name failed") else: return ORJSONResponse(ret, status_code=200) except Exception as e: return _create_error_response(e) @app.api_route("/release_memory_occupation", methods=["GET", "POST"]) @auth_level(AuthLevel.ADMIN_OPTIONAL) async def release_memory_occupation( obj: ReleaseMemoryOccupationReqInput, request: Request ): """Release GPU memory occupation temporarily.""" try: await _global_state.tokenizer_manager.release_memory_occupation(obj, request) except Exception as e: return _create_error_response(e) @app.api_route("/resume_memory_occupation", methods=["GET", "POST"]) @auth_level(AuthLevel.ADMIN_OPTIONAL) async def resume_memory_occupation( obj: ResumeMemoryOccupationReqInput, request: Request ): """Resume GPU memory occupation.""" try: await _global_state.tokenizer_manager.resume_memory_occupation(obj, request) except Exception as e: return _create_error_response(e) @app.post("/weights_checker") @auth_level(AuthLevel.ADMIN_OPTIONAL) async def check_weights(obj: CheckWeightsReqInput, request: Request): success, message = await _global_state.tokenizer_manager.check_weights(obj, request) return ORJSONResponse( {"success": success, "message": message}, status_code=200 if success else HTTPStatus.BAD_REQUEST, ) @app.api_route("/slow_down", methods=["GET", "POST"]) @auth_level(AuthLevel.ADMIN_OPTIONAL) async def slow_down(obj: SlowDownReqInput, request: Request): """Slow down the system deliberately. Only for testing. Example scenario: when we want to test performance of D in large-scale PD disaggregation and have no enough nodes for P, we can use this to slow down D to let it have enough running sequences, and then disable slowdown to let it run in full batch size. """ try: await _global_state.tokenizer_manager.slow_down(obj, request) except Exception as e: return _create_error_response(e) @app.api_route("/load_lora_adapter", methods=["POST"]) @auth_level(AuthLevel.ADMIN_OPTIONAL) async def load_lora_adapter(obj: LoadLoRAAdapterReqInput, request: Request): """Load a new LoRA adapter without re-launching the server.""" result = await _global_state.tokenizer_manager.load_lora_adapter(obj, request) if result.success: return ORJSONResponse( result, status_code=HTTPStatus.OK, ) else: return ORJSONResponse( result, status_code=HTTPStatus.BAD_REQUEST, ) @app.api_route("/load_lora_adapter_from_tensors", methods=["POST"]) async def load_lora_adapter_from_tensors( obj: LoadLoRAAdapterFromTensorsReqInput, request: Request ): """Load a new LoRA adapter from tensors without re-launching the server.""" result = await _global_state.tokenizer_manager.load_lora_adapter_from_tensors( obj, request ) if result.success: return ORJSONResponse(result, status_code=HTTPStatus.OK) else: return ORJSONResponse(result, status_code=HTTPStatus.BAD_REQUEST) @app.api_route("/unload_lora_adapter", methods=["POST"]) @auth_level(AuthLevel.ADMIN_OPTIONAL) async def unload_lora_adapter(obj: UnloadLoRAAdapterReqInput, request: Request): """Load a new LoRA adapter without re-launching the server.""" result = await _global_state.tokenizer_manager.unload_lora_adapter(obj, request) if result.success: return ORJSONResponse( result, status_code=HTTPStatus.OK, ) else: return ORJSONResponse( result, status_code=HTTPStatus.BAD_REQUEST, ) @app.api_route("/open_session", methods=["GET", "POST"]) async def open_session(obj: OpenSessionReqInput, request: Request): """Open a session, and return its unique session id.""" try: session_id = await _global_state.tokenizer_manager.open_session(obj, request) if session_id is None: raise Exception( "Failed to open the session. Check if a session with the same id is still open." ) return session_id except Exception as e: return _create_error_response(e) @app.api_route("/close_session", methods=["GET", "POST"]) async def close_session(obj: CloseSessionReqInput, request: Request): """Close the session.""" try: await _global_state.tokenizer_manager.close_session(obj, request) return Response(status_code=200) except Exception as e: return _create_error_response(e) @app.api_route("/configure_logging", methods=["GET", "POST"]) @auth_level(AuthLevel.ADMIN_OPTIONAL) async def configure_logging(obj: ConfigureLoggingReq, request: Request): """Configure the request logging options.""" _global_state.tokenizer_manager.configure_logging(obj) return Response(status_code=200) @app.post("/abort_request") @auth_level(AuthLevel.ADMIN_OPTIONAL) async def abort_request(obj: AbortReq, request: Request): """Abort a request.""" try: _global_state.tokenizer_manager.abort_request( rid=obj.rid, abort_all=obj.abort_all ) return Response(status_code=200) except Exception as e: return _create_error_response(e) @app.post("/parse_function_call") async def parse_function_call_request(obj: ParseFunctionCallReq, request: Request): """ A native API endpoint to parse function calls from a text. """ # 1) Initialize the parser based on the request body parser = FunctionCallParser(tools=obj.tools, tool_call_parser=obj.tool_call_parser) # 2) Call the non-stream parsing method (non-stream) normal_text, calls = parser.parse_non_stream(obj.text) # 3) Organize the response content response_data = { "normal_text": normal_text, "calls": [ call.model_dump() for call in calls ], # Convert pydantic objects to dictionaries } return ORJSONResponse(content=response_data, status_code=200) @app.post("/separate_reasoning") async def separate_reasoning_request(obj: SeparateReasoningReqInput, request: Request): """ A native API endpoint to separate reasoning from a text. """ # 1) Initialize the parser based on the request body parser = ReasoningParser(model_type=obj.reasoning_parser, request=request) # 2) Call the non-stream parsing method (non-stream) reasoning_text, normal_text = parser.parse_non_stream(obj.text) # 3) Organize the response content response_data = { "reasoning_text": reasoning_text, "text": normal_text, } return ORJSONResponse(content=response_data, status_code=200) @app.post("/pause_generation") @auth_level(AuthLevel.ADMIN_OPTIONAL) async def pause_generation(obj: PauseGenerationReqInput, request: Request): """Pause generation.""" await _global_state.tokenizer_manager.pause_generation(obj) return ORJSONResponse( content={"message": "Generation paused successfully.", "status": "ok"}, status_code=200, ) @app.post("/continue_generation") @auth_level(AuthLevel.ADMIN_OPTIONAL) async def continue_generation(obj: ContinueGenerationReqInput, request: Request): """Continue generation.""" await _global_state.tokenizer_manager.continue_generation(obj) return ORJSONResponse( content={"message": "Generation continued successfully.", "status": "ok"}, status_code=200, ) ##### OpenAI-compatible API endpoints ##### @app.post("/v1/completions", dependencies=[Depends(validate_json_request)]) async def openai_v1_completions(request: CompletionRequest, raw_request: Request): """OpenAI-compatible text completion endpoint.""" return await raw_request.app.state.openai_serving_completion.handle_request( request, raw_request ) @app.post("/v1/chat/completions", dependencies=[Depends(validate_json_request)]) async def openai_v1_chat_completions( request: ChatCompletionRequest, raw_request: Request ): """OpenAI-compatible chat completion endpoint.""" return await raw_request.app.state.openai_serving_chat.handle_request( request, raw_request ) @app.post( "/v1/embeddings", response_class=ORJSONResponse, dependencies=[Depends(validate_json_request)], ) async def openai_v1_embeddings(request: EmbeddingRequest, raw_request: Request): """OpenAI-compatible embeddings endpoint.""" return await raw_request.app.state.openai_serving_embedding.handle_request( request, raw_request ) @app.post( "/v1/classify", response_class=ORJSONResponse, dependencies=[Depends(validate_json_request)], ) async def openai_v1_classify(request: ClassifyRequest, raw_request: Request): """OpenAI-compatible classification endpoint.""" return await raw_request.app.state.openai_serving_classify.handle_request( request, raw_request ) @app.post( "/v1/tokenize", response_class=ORJSONResponse, dependencies=[Depends(validate_json_request)], ) @app.post( "/tokenize", response_class=ORJSONResponse, dependencies=[Depends(validate_json_request)], include_in_schema=False, ) async def openai_v1_tokenize(request: TokenizeRequest, raw_request: Request): """OpenAI-compatible tokenization endpoint.""" return await raw_request.app.state.openai_serving_tokenize.handle_request( request, raw_request ) @app.post( "/v1/detokenize", response_class=ORJSONResponse, dependencies=[Depends(validate_json_request)], ) @app.post( "/detokenize", response_class=ORJSONResponse, dependencies=[Depends(validate_json_request)], include_in_schema=False, ) async def openai_v1_detokenize(request: DetokenizeRequest, raw_request: Request): """OpenAI-compatible detokenization endpoint.""" return await raw_request.app.state.openai_serving_detokenize.handle_request( request, raw_request ) @app.get("/v1/models", response_class=ORJSONResponse) async def available_models(): """Show available models. OpenAI-compatible endpoint.""" served_model_names = [_global_state.tokenizer_manager.served_model_name] model_cards = [] # Add base model for served_model_name in served_model_names: model_cards.append( ModelCard( id=served_model_name, root=served_model_name, max_model_len=_global_state.tokenizer_manager.model_config.context_len, ) ) # Add loaded LoRA adapters if _global_state.tokenizer_manager.server_args.enable_lora: lora_registry = _global_state.tokenizer_manager.lora_registry for _, lora_ref in lora_registry.get_all_adapters().items(): model_cards.append( ModelCard( id=lora_ref.lora_name, root=lora_ref.lora_path, parent=served_model_names[0], max_model_len=None, ) ) return ModelList(data=model_cards) @app.get("/v1/models/{model:path}", response_class=ORJSONResponse) async def retrieve_model(model: str): """Retrieves a model instance, providing basic information about the model.""" served_model_names = [_global_state.tokenizer_manager.served_model_name] if model not in served_model_names: return ORJSONResponse( status_code=404, content={ "error": { "message": f"The model '{model}' does not exist", "type": "invalid_request_error", "param": "model", "code": "model_not_found", } }, ) return ModelCard( id=model, root=model, max_model_len=_global_state.tokenizer_manager.model_config.context_len, ) @app.post("/v1/score", dependencies=[Depends(validate_json_request)]) async def v1_score_request(request: ScoringRequest, raw_request: Request): """Endpoint for the decoder-only scoring API. See Engine.score() for detailed documentation.""" return await raw_request.app.state.openai_serving_score.handle_request( request, raw_request ) @app.post("/v1/responses", dependencies=[Depends(validate_json_request)]) async def v1_responses_request(request: dict, raw_request: Request): """Endpoint for the responses API with reasoning support.""" request_obj = ResponsesRequest(**request) result = await raw_request.app.state.openai_serving_responses.create_responses( request_obj, raw_request ) # Handle streaming responses if isinstance(result, AsyncGenerator): return StreamingResponse( result, media_type="text/event-stream", headers={"Cache-Control": "no-cache", "Connection": "keep-alive"}, ) return result @app.get("/v1/responses/{response_id}") async def v1_retrieve_responses(response_id: str, raw_request: Request): """Retrieve a response by ID.""" return await raw_request.app.state.openai_serving_responses.retrieve_responses( response_id ) @app.post("/v1/responses/{response_id}/cancel") async def v1_cancel_responses(response_id: str, raw_request: Request): """Cancel a background response.""" return await raw_request.app.state.openai_serving_responses.cancel_responses( response_id ) @app.api_route( "/v1/rerank", methods=["POST", "PUT"], dependencies=[Depends(validate_json_request)] ) async def v1_rerank_request(request: V1RerankReqInput, raw_request: Request): """Endpoint for reranking documents based on query relevance.""" return await raw_request.app.state.openai_serving_rerank.handle_request( request, raw_request ) ##### Ollama-compatible API endpoints ##### @app.get(os.environ.get("SGLANG_OLLAMA_ROOT_ROUTE", "/")) @app.head(os.environ.get("SGLANG_OLLAMA_ROOT_ROUTE", "/")) async def ollama_root(): """Ollama-compatible root endpoint for health check.""" return "Ollama is running" @app.post(os.environ.get("SGLANG_OLLAMA_CHAT_ROUTE", "/api/chat")) async def ollama_chat(request: OllamaChatRequest, raw_request: Request): """Ollama-compatible chat endpoint.""" return await raw_request.app.state.ollama_serving.handle_chat(request, raw_request) @app.post(os.environ.get("SGLANG_OLLAMA_GENERATE_ROUTE", "/api/generate")) async def ollama_generate(request: OllamaGenerateRequest, raw_request: Request): """Ollama-compatible generate endpoint.""" return await raw_request.app.state.ollama_serving.handle_generate( request, raw_request ) @app.get(os.environ.get("SGLANG_OLLAMA_TAGS_ROUTE", "/api/tags")) async def ollama_tags(raw_request: Request): """Ollama-compatible list models endpoint.""" return raw_request.app.state.ollama_serving.get_tags() @app.post(os.environ.get("SGLANG_OLLAMA_SHOW_ROUTE", "/api/show")) async def ollama_show(request: OllamaShowRequest, raw_request: Request): """Ollama-compatible show model info endpoint.""" return raw_request.app.state.ollama_serving.get_show(request.model) ##### Anthropic-compatible API endpoints ##### @app.post("/v1/messages", dependencies=[Depends(validate_json_request)]) async def anthropic_v1_messages( request: AnthropicMessagesRequest, raw_request: Request ): """Anthropic-compatible Messages API endpoint.""" return await raw_request.app.state.anthropic_serving.handle_messages( request, raw_request ) @app.post("/v1/messages/count_tokens", dependencies=[Depends(validate_json_request)]) async def anthropic_v1_count_tokens( request: AnthropicCountTokensRequest, raw_request: Request ): """Anthropic-compatible token counting endpoint.""" return await raw_request.app.state.anthropic_serving.handle_count_tokens( request, raw_request ) ## SageMaker API @app.get("/ping") async def sagemaker_health() -> Response: """Check the health of the http server.""" return Response(status_code=200) @app.post("/invocations") async def sagemaker_chat_completions( request: ChatCompletionRequest, raw_request: Request ): """OpenAI-compatible chat completion endpoint.""" return await raw_request.app.state.openai_serving_chat.handle_request( request, raw_request ) ## Vertex AI API @app.post(os.environ.get("AIP_PREDICT_ROUTE", "/vertex_generate")) async def vertex_generate(vertex_req: VertexGenerateReqInput, raw_request: Request): if not vertex_req.instances: return [] inputs = {} for input_key in ("text", "input_ids", "input_embeds"): if vertex_req.instances[0].get(input_key): inputs[input_key] = [ instance.get(input_key) for instance in vertex_req.instances ] break image_data = [ instance.get("image_data") for instance in vertex_req.instances if instance.get("image_data") is not None ] or None req = GenerateReqInput( **inputs, image_data=image_data, **(vertex_req.parameters or {}), ) ret = await generate_request(req, raw_request) if isinstance(ret, Response): return ret return ORJSONResponse({"predictions": ret}) def _create_error_response(e): return ORJSONResponse( {"error": {"message": str(e)}}, status_code=HTTPStatus.BAD_REQUEST ) # FIXME: In theory we should configure ADMIN_FORCE for some entrypoints, but doing so # would currently cause all endpoints to go through add_api_key_middleware # (even when neither api-key nor admin-api-key is configured). # # For now, we simulate ADMIN_FORCE by explicitly checking the admin API key parameter. # Once the auth wiring is refactored so ADMIN_FORCE only affects the intended # admin endpoints, we should switch this logic to use ADMIN_FORCE directly. def _admin_api_key_missing_response( status_code: HTTPStatus = HTTPStatus.BAD_REQUEST, ) -> ORJSONResponse: return ORJSONResponse( content={ "error": ( "This endpoint requires admin API key, but this server was started " "without one (admin-api-key). Restart with --admin-api-key to enable." ) }, status_code=status_code, ) # Minimal 32x32 black PNG (base64, GLM4v requires at least 32x32 sized image) MINIMUM_PNG_PICTURE_BASE64 = "iVBORw0KGgoAAAANSUhEUgAAACAAAAAgCAYAAABzenr0AAAACXBIWXMAAA7EAAAOxAGVKw4bAAAAbUlEQVRYhe3VsQ2AMAxE0Y/lIgNQULD/OqyCMgCihCKSG4yRuKuiNH6JLsoEbMACOGBcua9HOR7Y6w6swBwMy0qLTpkeI77qdEBpBFAHBBDAGH8WrwJKI4AAegUCfAKgEgpQDvh3CR3oQCuav58qlAw73kKCSgAAAABJRU5ErkJggg==" def _execute_server_warmup(server_args: ServerArgs): headers = {} url = server_args.url() if server_args.api_key: headers["Authorization"] = f"Bearer {server_args.api_key}" # Wait until the server is launched success = False for _ in range(120): time.sleep(1) try: res = requests.get(url + "/model_info", timeout=5, headers=headers) assert res.status_code == 200, f"{res=}, {res.text=}" success = True break except (AssertionError, requests.exceptions.RequestException): last_traceback = get_exception_traceback() pass if not success: logger.error(f"Initialization failed. warmup error: {last_traceback}") kill_process_tree(os.getpid()) return success model_info = res.json() # Construct a warmup request is_vlm = bool(model_info.get("has_image_understanding", False)) if model_info["is_generation"]: if is_vlm and not server_args.skip_tokenizer_init: request_name = "/v1/chat/completions" else: request_name = "/generate" else: request_name = "/encode" max_new_tokens = 8 if model_info["is_generation"] else 1 json_data = { "sampling_params": { "temperature": 0, "max_new_tokens": max_new_tokens, }, } if server_args.skip_tokenizer_init: json_data["input_ids"] = [[10, 11, 12] for _ in range(server_args.dp_size)] # TODO Workaround the bug that embedding errors for list of size 1 if server_args.dp_size == 1: json_data["input_ids"] = json_data["input_ids"][0] elif ( is_vlm and server_args.disaggregation_mode == "null" and model_info["is_generation"] ): # TODO: ChatCompletionRequest does not have bootstrap info required by disaggregation mode, disable image-warmup for now # Only use chat completions format for generation models, not embedding models json_data = { "model": _global_state.tokenizer_manager.served_model_name, "messages": [ { "role": "user", "content": [ { "type": "image_url", "image_url": { "url": f"data:image/png;base64,{MINIMUM_PNG_PICTURE_BASE64}" }, }, { "type": "text", "text": "Describe the image.", }, ], } ], "max_tokens": max_new_tokens, "stream": False, "temperature": 0.0, } else: json_data["text"] = ["The capital city of France is"] * server_args.dp_size # TODO Workaround the bug that embedding errors for list of size 1 if server_args.dp_size == 1: json_data["text"] = json_data["text"][0] # Config debug dumping if server_args.debug_tensor_dump_input_file: json_data.pop("text", None) json_data["input_ids"] = np.load( server_args.debug_tensor_dump_input_file ).tolist() json_data["sampling_params"]["max_new_tokens"] = 0 # Send a warmup request warmup_timeout = envs.SGLANG_WARMUP_TIMEOUT.get() try: if server_args.disaggregation_mode == "null": res = requests.post( url + request_name, json=json_data, headers=headers, timeout=warmup_timeout if warmup_timeout > 0 else 600, ) assert res.status_code == 200, f"{res.text}" _global_state.tokenizer_manager.server_status = ServerStatus.Up else: logger.info(f"Start of pd disaggregation warmup ...") json_data = { "sampling_params": { "temperature": 0.0, "max_new_tokens": 8, "ignore_eos": True, }, "bootstrap_host": [FAKE_BOOTSTRAP_HOST] * server_args.dp_size, # This is a hack to ensure fake transfer is enabled during prefill warmup # ensure each dp rank has a unique bootstrap_room during prefill warmup "bootstrap_room": [ i * (2**63 // server_args.dp_size) + (i % server_args.tp_size) for i in range(server_args.dp_size) ], "input_ids": [[10, 11, 12, 13]] * server_args.dp_size, } res = requests.post( url + request_name, json=json_data, headers=headers, timeout=( warmup_timeout if warmup_timeout > 0 else 1800 ), # because of deep gemm precache is very long if not precache. ) if res.status_code == 200: logger.info( f"End of prefill disaggregation mode warmup with status {res.status_code}, resp: {res.json()}" ) _global_state.tokenizer_manager.server_status = ServerStatus.Up else: logger.info( "Prefill disaggregation mode warm Up Failed, status code: {}".format( res.status_code ) ) _global_state.tokenizer_manager.server_status = ServerStatus.UnHealthy except Exception: last_traceback = get_exception_traceback() logger.error(f"Initialization failed. warmup error: {last_traceback}") kill_process_tree(os.getpid()) return False # Debug print # logger.info(f"warmup request returns: {res.json()=}") return success def _wait_and_warmup( server_args: ServerArgs, launch_callback: Optional[Callable[[], None]] = None, execute_warmup_func: Callable = _execute_server_warmup, ): if server_args.checkpoint_engine_wait_weights_before_ready: _wait_weights_ready() # Send a warmup request if not server_args.skip_server_warmup: if not execute_warmup_func(server_args): return else: _global_state.tokenizer_manager.server_status = ServerStatus.Up # The server is ready for requests logger.info("The server is fired up and ready to roll!") if server_args.delete_ckpt_after_loading: delete_directory(server_args.model_path) if server_args.debug_tensor_dump_input_file: kill_process_tree(os.getpid()) if launch_callback is not None: launch_callback() def _wait_weights_ready(): """Wait for weights to be ready within the specified timeout.""" timeout = WAIT_WEIGHTS_READY_TIMEOUT start_time = time.time() for _ in range(timeout): if _global_state.tokenizer_manager.initial_weights_loaded: logger.info( f"Weights are ready after {time.time() - start_time:.2f} seconds" ) return time.sleep(1) # Timeout reached without weights being ready logger.error( f"Weights are not ready after waiting {timeout} seconds. " f"Consider increasing SGLANG_WAIT_WEIGHTS_READY_TIMEOUT environment variable. " f"Current status: initial_weights_loaded={_global_state.tokenizer_manager.initial_weights_loaded}" ) def launch_server( server_args: ServerArgs, init_tokenizer_manager_func: Callable = init_tokenizer_manager, run_scheduler_process_func: Callable = run_scheduler_process, run_detokenizer_process_func: Callable = run_detokenizer_process, execute_warmup_func: Callable = _execute_server_warmup, launch_callback: Optional[Callable[[], None]] = None, ): """ Launch SRT (SGLang Runtime) Server. The SRT server consists of an HTTP server and an SRT engine. - HTTP server: A FastAPI server that routes requests to the engine. - The engine consists of three components: 1. TokenizerManager: Tokenizes the requests and sends them to the scheduler. 2. Scheduler (subprocess): Receives requests from the Tokenizer Manager, schedules batches, forwards them, and sends the output tokens to the Detokenizer Manager. 3. DetokenizerManager (subprocess): Detokenizes the output tokens and sends the result back to the Tokenizer Manager. Note: 1. The HTTP server, Engine, and TokenizerManager all run in the main process. 2. Inter-process communication is done through IPC (each process uses a different port) via the ZMQ library. """ # Launch subprocesses tokenizer_manager, template_manager, scheduler_infos, port_args = ( _launch_subprocesses( server_args=server_args, init_tokenizer_manager_func=init_tokenizer_manager_func, run_scheduler_process_func=run_scheduler_process_func, run_detokenizer_process_func=run_detokenizer_process_func, ) ) # Parse info got from the schedulers remote_instance_transfer_engine_info = ( parse_remote_instance_transfer_engine_info_from_scheduler_infos(scheduler_infos) ) # Set global states set_global_state( _GlobalState( tokenizer_manager=tokenizer_manager, template_manager=template_manager, scheduler_info=scheduler_infos[0], remote_instance_transfer_engine_info=remote_instance_transfer_engine_info, ) ) if server_args.enable_metrics: add_prometheus_track_response_middleware(app) # Pass additional arguments to the lifespan function. # They will be used for additional initialization setups. if server_args.tokenizer_worker_num == 1: # If it is single tokenizer mode, we can pass the arguments by attributes of the app object. app.is_single_tokenizer_mode = True app.server_args = server_args app.warmup_thread_kwargs = dict( server_args=server_args, launch_callback=launch_callback, execute_warmup_func=execute_warmup_func, ) # Add api key authorization # This is only supported in single tokenizer mode. # # Backward compatibility: # - api_key only: behavior matches legacy (all endpoints require api_key) # - no keys: legacy had no restriction; ADMIN_FORCE endpoints must still be rejected when # admin_api_key is not configured. if ( server_args.api_key or server_args.admin_api_key or app_has_admin_force_endpoints(app) ): from sglang.srt.utils.auth import add_api_key_middleware add_api_key_middleware( app, api_key=server_args.api_key, admin_api_key=server_args.admin_api_key, ) else: # If it is multi-tokenizer mode, we need to write the arguments to shared memory # for other worker processes to read. app.is_single_tokenizer_mode = False multi_tokenizer_args_shm = write_data_for_multi_tokenizer( port_args, server_args, scheduler_infos[0] ) try: # Update logging configs set_uvicorn_logging_configs(server_args) # Listen for HTTP requests if server_args.tokenizer_worker_num == 1: # Default case, one tokenizer process uvicorn.run( app, host=server_args.host, port=server_args.port, root_path=server_args.fastapi_root_path, log_level=server_args.log_level_http or server_args.log_level, timeout_keep_alive=5, loop="uvloop", ) else: # Multiple tokenizer and http processes from uvicorn.config import LOGGING_CONFIG LOGGING_CONFIG["loggers"]["sglang.srt.entrypoints.http_server"] = { "handlers": ["default"], "level": "INFO", "propagate": False, } monkey_patch_uvicorn_multiprocessing() uvicorn.run( "sglang.srt.entrypoints.http_server:app", host=server_args.host, port=server_args.port, root_path=server_args.fastapi_root_path, log_level=server_args.log_level_http or server_args.log_level, timeout_keep_alive=5, loop="uvloop", workers=server_args.tokenizer_worker_num, ) finally: if server_args.tokenizer_worker_num > 1: multi_tokenizer_args_shm.unlink() _global_state.tokenizer_manager.socket_mapping.clear_all_sockets()