sglang/python/sglang/srt/server.py

"""
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.
"""

import asyncio
import dataclasses
import json
import logging
import multiprocessing as mp
import os
import sys
import threading
import time
from http import HTTPStatus
from typing import Dict, Optional

# Fix a bug of Python threading
setattr(threading, "_register_atexit", lambda *args, **kwargs: None)

import aiohttp
import psutil
import requests
import uvicorn
import uvloop
from fastapi import FastAPI, File, Form, Request, UploadFile
from fastapi.responses import JSONResponse, Response, StreamingResponse

from sglang.lang.backend.runtime_endpoint import RuntimeEndpoint
from sglang.srt.constrained import disable_cache
from sglang.srt.hf_transformers_utils import get_tokenizer
from sglang.srt.managers.controller_multi import (
    start_controller_process as start_controller_process_multi,
)
from sglang.srt.managers.controller_single import launch_tp_servers
from sglang.srt.managers.controller_single import (
    start_controller_process as start_controller_process_single,
)
from sglang.srt.managers.detokenizer_manager import start_detokenizer_process
from sglang.srt.managers.io_struct import GenerateReqInput
from sglang.srt.managers.tokenizer_manager import TokenizerManager
from sglang.srt.openai_api.adapter import (
    load_chat_template_for_openai_api,
    v1_batches,
    v1_chat_completions,
    v1_completions,
    v1_files_create,
    v1_retrieve_batch,
    v1_retrieve_file,
    v1_retrieve_file_content,
)
from sglang.srt.openai_api.protocol import ModelCard, ModelList
from sglang.srt.server_args import PortArgs, ServerArgs
from sglang.srt.utils import (
    API_KEY_HEADER_NAME,
    APIKeyValidatorMiddleware,
    allocate_init_ports,
    assert_pkg_version,
    enable_show_time_cost,
    maybe_set_triton_cache_manager,
    set_ulimit,
)
from sglang.utils import get_exception_traceback

logger = logging.getLogger(__name__)

asyncio.set_event_loop_policy(uvloop.EventLoopPolicy())


app = FastAPI()
tokenizer_manager = None


@app.get("/health")
async def health() -> Response:
    """Health check."""
    return Response(status_code=200)


@app.get("/get_model_info")
async def get_model_info():
    result = {
        "model_path": tokenizer_manager.model_path,
    }
    return result


@app.get("/get_server_args")
async def get_server_args():
    return dataclasses.asdict(tokenizer_manager.server_args)


@app.get("/flush_cache")
async def flush_cache():
    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,
    )


async def generate_request(obj: GenerateReqInput, request: Request):
    """Handle a generate request."""
    if obj.stream:

        async def stream_results():
            try:
                async for out in tokenizer_manager.generate_request(obj, request):
                    yield f"data: {json.dumps(out, ensure_ascii=False)}\n\n"
            except ValueError as e:
                out = {"error": {"message": str(e)}}
                yield f"data: {json.dumps(out, ensure_ascii=False)}\n\n"
            yield "data: [DONE]\n\n"

        return StreamingResponse(
            stream_results(),
            media_type="text/event-stream",
            background=tokenizer_manager.create_abort_task(obj),
        )
    else:
        try:
            ret = await tokenizer_manager.generate_request(obj, request).__anext__()
            return ret
        except ValueError as e:
            return JSONResponse(
                {"error": {"message": str(e)}}, status_code=HTTPStatus.BAD_REQUEST
            )


app.post("/generate")(generate_request)
app.put("/generate")(generate_request)


@app.post("/v1/completions")
async def openai_v1_completions(raw_request: Request):
    return await v1_completions(tokenizer_manager, raw_request)


@app.post("/v1/chat/completions")
async def openai_v1_chat_completions(raw_request: Request):
    return await v1_chat_completions(tokenizer_manager, raw_request)


@app.post("/v1/files")
async def openai_v1_files(file: UploadFile = File(...), purpose: str = Form("batch")):
    return await v1_files_create(
        file, purpose, tokenizer_manager.server_args.file_storage_pth
    )


@app.post("/v1/batches")
async def openai_v1_batches(raw_request: Request):
    return await v1_batches(tokenizer_manager, raw_request)


@app.get("/v1/batches/{batch_id}")
async def retrieve_batch(batch_id: str):
    return await v1_retrieve_batch(batch_id)


@app.get("/v1/files/{file_id}")
async def retrieve_file(file_id: str):
    # https://platform.openai.com/docs/api-reference/files/retrieve
    return await v1_retrieve_file(file_id)


@app.get("/v1/files/{file_id}/content")
async def retrieve_file_content(file_id: str):
    # https://platform.openai.com/docs/api-reference/files/retrieve-contents
    return await v1_retrieve_file_content(file_id)


@app.get("/v1/models")
def available_models():
    """Show available models."""
    model_names = [tokenizer_manager.model_path]
    model_cards = []
    for model_name in model_names:
        model_cards.append(ModelCard(id=model_name, root=model_name))
    return ModelList(data=model_cards)


def _set_torch_compile_config():
    # The following configurations are for torch compile optimizations
    import torch._dynamo.config
    import torch._inductor.config

    torch._inductor.config.coordinate_descent_tuning = True
    torch._inductor.config.triton.unique_kernel_names = True
    torch._inductor.config.fx_graph_cache = True  # Experimental feature to reduce compilation times, will be on by default in future

    # FIXME: tmp workaround
    torch._dynamo.config.accumulated_cache_size_limit = 256


def set_envs_and_config(server_args: ServerArgs):
    # Set global environments
    os.environ["TF_CPP_MIN_LOG_LEVEL"] = "3"
    os.environ["NCCL_CUMEM_ENABLE"] = "0"
    os.environ["NCCL_NVLS_ENABLE"] = "0"
    os.environ["TORCH_NCCL_AVOID_RECORD_STREAMS"] = "1"

    # Set ulimit
    set_ulimit()

    # Enable show time cost for debugging
    if server_args.show_time_cost:
        enable_show_time_cost()

    # Disable disk cache
    if server_args.disable_disk_cache:
        disable_cache()

    # Fix triton bugs
    if server_args.tp_size * server_args.dp_size > 1:
        # FIXME: remove this after https://github.com/triton-lang/triton/pull/4295 is used as a dependency.
        maybe_set_triton_cache_manager()

    # Set torch compile config
    if server_args.enable_torch_compile:
        _set_torch_compile_config()

    # Set global chat template
    if server_args.chat_template:
        # TODO: replace this with huggingface transformers template
        load_chat_template_for_openai_api(server_args.chat_template)


def launch_server(
    server_args: ServerArgs,
    model_overide_args: Optional[dict] = None,
    pipe_finish_writer: Optional[mp.connection.Connection] = None,
):
    server_args.check_server_args()

    """Launch an HTTP server."""
    global tokenizer_manager

    logging.basicConfig(
        level=getattr(logging, server_args.log_level.upper()),
        format="%(message)s",
    )

    if not server_args.disable_flashinfer:
        assert_pkg_version(
            "flashinfer",
            "0.1.2",
            "Please uninstall the old version and "
            "reinstall the latest version by following the instructions "
            "at https://docs.flashinfer.ai/installation.html.",
        )

    set_envs_and_config(server_args)

    # Allocate ports
    server_args.port, server_args.additional_ports = allocate_init_ports(
        server_args.port,
        server_args.additional_ports,
        server_args.dp_size,
    )
    ports = server_args.additional_ports
    port_args = PortArgs(
        tokenizer_port=ports[0],
        controller_port=ports[1],
        detokenizer_port=ports[2],
        nccl_ports=ports[3:],
    )
    logger.info(f"{server_args=}")

    # Handle multi-node tensor parallelism
    if server_args.nnodes > 1:
        if server_args.node_rank != 0:
            tp_size_local = server_args.tp_size // server_args.nnodes
            gpu_ids = [
                i for _ in range(server_args.nnodes) for i in range(tp_size_local)
            ]
            tp_rank_range = list(
                range(
                    server_args.node_rank * tp_size_local,
                    (server_args.node_rank + 1) * tp_size_local,
                )
            )
            procs = launch_tp_servers(
                gpu_ids,
                tp_rank_range,
                server_args,
                ports[3],
                model_overide_args,
            )
            while True:
                pass

    # Launch processes
    tokenizer_manager = TokenizerManager(server_args, port_args, model_overide_args)
    pipe_controller_reader, pipe_controller_writer = mp.Pipe(duplex=False)
    pipe_detoken_reader, pipe_detoken_writer = mp.Pipe(duplex=False)

    if server_args.dp_size == 1:
        start_process = start_controller_process_single
    else:
        start_process = start_controller_process_multi
    proc_controller = mp.Process(
        target=start_process,
        args=(server_args, port_args, pipe_controller_writer, model_overide_args),
    )
    proc_controller.start()
    proc_detoken = mp.Process(
        target=start_detokenizer_process,
        args=(
            server_args,
            port_args,
            pipe_detoken_writer,
        ),
    )
    proc_detoken.start()

    # Wait for the model to finish loading
    controller_init_state = pipe_controller_reader.recv()
    detoken_init_state = pipe_detoken_reader.recv()

    if controller_init_state != "init ok" or detoken_init_state != "init ok":
        proc_controller.kill()
        proc_detoken.kill()
        print(
            f"Initialization failed. controller_init_state: {controller_init_state}",
            flush=True,
        )
        print(
            f"Initialization failed. detoken_init_state: {detoken_init_state}",
            flush=True,
        )
        sys.exit(1)
    assert proc_controller.is_alive() and proc_detoken.is_alive()

    if server_args.api_key and server_args.api_key != "":
        app.add_middleware(APIKeyValidatorMiddleware, api_key=server_args.api_key)

    # Send a warmup request
    t = threading.Thread(
        target=_wait_and_warmup, args=(server_args, pipe_finish_writer)
    )
    t.start()

    # Listen for requests
    try:
        uvicorn.run(
            app,
            host=server_args.host,
            port=server_args.port,
            log_level=server_args.log_level_http or server_args.log_level,
            timeout_keep_alive=5,
            loop="uvloop",
        )
    finally:
        t.join()


def _wait_and_warmup(server_args, pipe_finish_writer):
    headers = {}
    url = server_args.url()
    if server_args.api_key:
        headers[API_KEY_HEADER_NAME] = server_args.api_key

    # Wait until the server is launched
    for _ in range(120):
        time.sleep(0.5)
        try:
            requests.get(url + "/get_model_info", timeout=5, headers=headers)
            break
        except requests.exceptions.RequestException:
            pass

    # Send a warmup request
    try:
        for _ in range(server_args.dp_size):
            res = requests.post(
                url + "/generate",
                json={
                    "text": "The capital city of France is",
                    "sampling_params": {
                        "temperature": 0,
                        "max_new_tokens": 8,
                    },
                },
                headers=headers,
                timeout=600,
            )
            assert res.status_code == 200
    except Exception as e:
        if pipe_finish_writer is not None:
            pipe_finish_writer.send(get_exception_traceback())
        print(f"Initialization failed. warmup error: {e}", flush=True)
        raise e

    logger.info("The server is fired up and ready to roll!")
    if pipe_finish_writer is not None:
        pipe_finish_writer.send("init ok")


class Runtime:
    """
    A wrapper for the server.
    This is used for launching the server in a python program without
    using the commond line interface.
    """

    def __init__(
        self,
        log_level: str = "error",
        model_overide_args: Optional[dict] = None,
        *args,
        **kwargs,
    ):
        """See the arguments in server_args.py::ServerArgs"""
        self.server_args = ServerArgs(*args, log_level=log_level, **kwargs)

        # Pre-allocate ports
        self.server_args.port, self.server_args.additional_ports = allocate_init_ports(
            self.server_args.port,
            self.server_args.additional_ports,
            self.server_args.dp_size,
        )

        self.url = self.server_args.url()
        self.generate_url = (
            f"http://{self.server_args.host}:{self.server_args.port}/generate"
        )

        self.pid = None
        pipe_reader, pipe_writer = mp.Pipe(duplex=False)
        proc = mp.Process(
            target=launch_server,
            args=(self.server_args, model_overide_args, pipe_writer),
        )
        proc.start()
        pipe_writer.close()
        self.pid = proc.pid

        try:
            init_state = pipe_reader.recv()
        except EOFError:
            init_state = ""

        if init_state != "init ok":
            self.shutdown()
            raise RuntimeError(
                "Initialization failed. Please see the error messages above."
            )

        self.endpoint = RuntimeEndpoint(self.url)

    def shutdown(self):
        if self.pid is not None:
            try:
                parent = psutil.Process(self.pid)
            except psutil.NoSuchProcess:
                return
            children = parent.children(recursive=True)
            for child in children:
                child.kill()
            psutil.wait_procs(children, timeout=5)
            parent.kill()
            parent.wait(timeout=5)
            self.pid = None

    def get_tokenizer(self):
        return get_tokenizer(
            self.server_args.tokenizer_path,
            tokenizer_mode=self.server_args.tokenizer_mode,
            trust_remote_code=self.server_args.trust_remote_code,
        )

    async def add_request(
        self,
        prompt: str,
        sampling_params: Dict,
    ):
        json_data = {
            "text": prompt,
            "sampling_params": sampling_params,
            "stream": True,
        }
        pos = 0

        timeout = aiohttp.ClientTimeout(total=3 * 3600)
        async with aiohttp.ClientSession(timeout=timeout, trust_env=True) as session:
            async with session.post(self.generate_url, json=json_data) as response:
                async for chunk, _ in response.content.iter_chunks():
                    chunk = chunk.decode("utf-8")
                    if chunk and chunk.startswith("data:"):
                        if chunk == "data: [DONE]\n\n":
                            break
                        data = json.loads(chunk[5:].strip("\n"))
                        cur = data["text"][pos:]
                        if cur:
                            yield cur
                        pos += len(cur)

    def __del__(self):
        self.shutdown()