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sgl-project--sglang/python/sglang/srt/entrypoints/engine.py
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chore: import upstream snapshot with attribution
2026-07-13 12:38:16 +08:00

1453 lines
55 KiB
Python

# 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 python APIs for the inference engine.
"""
from __future__ import annotations
import asyncio
import atexit
import dataclasses
import logging
import multiprocessing as mp
import os
import random
import signal
import tempfile
import threading
import time
from typing import (
Any,
AsyncIterator,
Callable,
Dict,
Iterator,
List,
Optional,
Tuple,
Union,
cast,
)
import torch
import uvloop
import zmq
from sglang.srt.elastic_ep.expert_backup_manager import run_expert_backup_manager
from sglang.srt.entrypoints.engine_info_bootstrap_server import (
EngineInfoBootstrapServer,
)
from sglang.srt.entrypoints.engine_score_mixin import EngineScoreMixin
from sglang.srt.entrypoints.EngineBase import EngineBase
from sglang.srt.managers.data_parallel_controller import (
SCHEDULER_PIDS_ARG,
run_data_parallel_controller_process,
)
from sglang.srt.managers.detokenizer_manager import run_detokenizer_process
from sglang.srt.managers.io_struct import (
CloseSessionReqInput,
DestroyWeightsUpdateGroupReqInput,
EmbeddingReqInput,
GenerateReqInput,
GetWeightsByNameReqInput,
InitWeightsUpdateGroupReqInput,
LoadLoRAAdapterFromTensorsReqInput,
LoadLoRAAdapterReqInput,
MultimodalDataInputFormat,
OpenSessionReqInput,
ProfileReq,
ProfileReqType,
ReleaseMemoryOccupationReqInput,
ResumeMemoryOccupationReqInput,
RpcReqInput,
RpcReqOutput,
UnloadLoRAAdapterReqInput,
UpdateWeightFromDiskReqInput,
UpdateWeightsFromDistributedReqInput,
UpdateWeightsFromIPCReqInput,
UpdateWeightsFromTensorReqInput,
sock_recv,
sock_send,
)
from sglang.srt.managers.multi_tokenizer_mixin import (
MultiTokenizerRouter,
run_multi_detokenizer_router_process,
)
from sglang.srt.managers.scheduler import run_scheduler_process
from sglang.srt.managers.tokenizer_manager import TokenizerManager
from sglang.srt.observability.trace import process_tracing_init, trace_set_thread_info
from sglang.srt.parser.template_detection import resolve_auto_parsers
from sglang.srt.parser.template_manager import TemplateManager
from sglang.srt.plugins import load_plugins
from sglang.srt.server_args import PortArgs, ServerArgs
from sglang.srt.utils import (
MultiprocessingSerializer,
SerializedTensorPayload,
assert_pkg_version,
configure_logger,
get_bool_env_var,
is_cuda,
kill_process_tree,
launch_dummy_health_check_server,
maybe_reindex_device_id,
normalize_serialized_named_tensor_payloads,
numa_utils,
set_prometheus_multiproc_dir,
set_ulimit,
)
from sglang.srt.utils.msgspec_utils import msgspec_to_builtins
from sglang.srt.utils.network import get_zmq_socket, is_port_available
from sglang.srt.utils.torch_memory_saver_adapter import TorchMemorySaverAdapter
from sglang.srt.utils.watchdog import SubprocessWatchdog
from sglang.version import __version__
logger = logging.getLogger(__name__)
asyncio.set_event_loop_policy(uvloop.EventLoopPolicy())
_is_cuda = is_cuda()
@dataclasses.dataclass
class SchedulerInitResult:
"""Result from launching schedulers."""
scheduler_infos: List[Dict[str, Any]]
all_child_pids: List[int] = dataclasses.field(default_factory=list)
wait_for_ready: Callable[[], None] = lambda: None
wait_for_completion: Callable[[], None] = lambda: None
engine_info_bootstrap_server: Optional[Any] = None
def init_tokenizer_manager(
server_args: ServerArgs,
port_args: PortArgs,
TokenizerManagerClass: Optional[TokenizerManager] = None,
) -> Tuple[TokenizerManager, TemplateManager]:
# Launch tokenizer process
TokenizerManagerClass = TokenizerManagerClass or TokenizerManager
tokenizer_manager = TokenizerManagerClass(server_args, port_args)
# Initialize templates
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,
)
# Resolve any remaining auto parsers using template manager's detection results
for attr, suggested, label in (
(
"reasoning_parser",
template_manager.suggested_reasoning_parser,
"reasoning parser",
),
(
"tool_call_parser",
template_manager.suggested_tool_call_parser,
"tool-call parser",
),
):
if getattr(server_args, attr) != "auto":
continue
if suggested is not None:
server_args.override(source="template-detection", **{attr: suggested})
logger.info(
f"Auto-detected --{attr.replace('_', '-')} as '{suggested}' from chat template"
)
else:
logger.warning(
f"--{attr.replace('_', '-')}=auto specified but could not detect "
f"{label} from chat template. Disabling {label}."
)
server_args.override(source="template-detection", **{attr: None})
return tokenizer_manager, template_manager
class Engine(EngineScoreMixin, EngineBase):
"""
The entry point to the inference 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.
"""
# Some fields to allow people to override the server args
# and launch processes for their private forks.
server_args_class: ServerArgs = ServerArgs
init_tokenizer_manager_func: Callable = staticmethod(init_tokenizer_manager)
run_scheduler_process_func: Callable = staticmethod(run_scheduler_process)
run_detokenizer_process_func: Callable = staticmethod(run_detokenizer_process)
def __init__(self, **kwargs):
"""
The arguments of this function is the same as `sglang/srt/server_args.py::ServerArgs`.
Please refer to `ServerArgs` for the documentation.
"""
# Ensure plugins are loaded before ServerArgs construction,
# so hooks on ServerArgs.__post_init__ fire correctly.
load_plugins()
# Parse server_args
if "server_args" in kwargs:
# Directly load server_args
server_args = kwargs["server_args"]
else:
# Construct server_args from kwargs
if "log_level" not in kwargs:
# Do not print logs by default
kwargs["log_level"] = "error"
server_args = self.server_args_class(**kwargs)
self.server_args = server_args
logger.info(f"{server_args=}")
# Pre-initialize tokenizer_manager so the atexit handler in
# shutdown() won't hit AttributeError.
self.tokenizer_manager = None
# Shutdown the subprocesses automatically when the program exits
atexit.register(self.shutdown)
# Launch subprocesses
(
tokenizer_manager,
template_manager,
port_args,
scheduler_init_result,
subprocess_watchdog,
) = self._launch_subprocesses(
server_args=server_args,
init_tokenizer_manager_func=self.init_tokenizer_manager_func,
run_scheduler_process_func=self.run_scheduler_process_func,
run_detokenizer_process_func=self.run_detokenizer_process_func,
)
self.tokenizer_manager = tokenizer_manager
self.template_manager = template_manager
self._scheduler_init_result = scheduler_init_result
if tokenizer_manager is not None:
tokenizer_manager._subprocess_watchdog = subprocess_watchdog
self.port_args = port_args
# Initialize ZMQ sockets
context = zmq.Context(2)
if self.server_args.node_rank == 0:
self.send_to_rpc = get_zmq_socket(
context, zmq.DEALER, self.port_args.rpc_ipc_name, True
)
else:
self.send_to_rpc = None
# Enable tracing
if server_args.enable_trace:
process_tracing_init(
server_args.otlp_traces_endpoint,
"sglang",
trace_modules=server_args.trace_modules,
)
thread_label = "Tokenizer"
if server_args.disaggregation_mode == "prefill":
thread_label = "Prefill Tokenizer"
elif server_args.disaggregation_mode == "decode":
thread_label = "Decode Tokenizer"
trace_set_thread_info(thread_label)
try:
self.loop = asyncio.get_running_loop()
except RuntimeError:
self.loop = asyncio.new_event_loop()
asyncio.set_event_loop(self.loop)
def get_all_child_pids(self) -> List[int]:
"""Returns a list of all child process PIDs."""
return self._scheduler_init_result.all_child_pids
def _resolve_routed_dp_rank(
self,
routed_dp_rank: Optional[int],
data_parallel_rank: Optional[int],
) -> Optional[int]:
if data_parallel_rank is not None:
import warnings
warnings.warn(
"'data_parallel_rank' is deprecated, use 'routed_dp_rank' instead.",
DeprecationWarning,
stacklevel=3,
)
if routed_dp_rank is None:
routed_dp_rank = data_parallel_rank
if routed_dp_rank is not None:
dp_size = self.server_args.dp_size
if dp_size <= 1 and routed_dp_rank == 0:
logger.debug(
f"routed_dp_rank={routed_dp_rank} is ignored because dp_size={dp_size}"
)
return None
if routed_dp_rank < 0 or routed_dp_rank >= dp_size:
raise ValueError(
f"routed_dp_rank={routed_dp_rank} out of range [0, {dp_size})"
)
logger.debug(f"routed_dp_rank: {routed_dp_rank}")
return routed_dp_rank
def generate(
self,
# The input prompt. It can be a single prompt or a batch of prompts.
prompt: Optional[Union[List[str], str]] = None,
sampling_params: Optional[Union[List[Dict], Dict]] = None,
# The token ids for text; one can either specify text or input_ids.
input_ids: Optional[Union[List[List[int]], List[int]]] = None,
# The image input. It can be an image instance, file name, URL, or base64 encoded string.
# Can be formatted as:
# - Single image for a single request
# - List of images (one per request in a batch)
# - List of lists of images (multiple images per request)
# - List of preprocessed outputs from a Huggingface processor, each as a dict containing `format`: 'processor_output' and other data
# - List of precomputed image embeddings, each as a dict containing field `format`: 'precomputed_embedding' and `feature`: the precomputed embedding
# See also python/sglang/srt/utils.py:load_image for more details.
image_data: Optional[MultimodalDataInputFormat] = None,
audio_data: Optional[MultimodalDataInputFormat] = None,
video_data: Optional[MultimodalDataInputFormat] = None,
# See GenerateReqInput.mm_hashes / async_generate for the contract.
mm_hashes: Optional[Union[List[str], List[List[str]]]] = None,
return_logprob: Optional[Union[List[bool], bool]] = False,
logprob_start_len: Optional[Union[List[int], int]] = None,
top_logprobs_num: Optional[Union[List[int], int]] = None,
token_ids_logprob: Optional[Union[List[List[int]], List[int]]] = None,
lora_path: Optional[List[Optional[str]]] = None,
custom_logit_processor: Optional[Union[List[str], str]] = None,
require_reasoning: bool = False,
return_hidden_states: bool = False,
return_routed_experts: bool = False,
routed_experts_start_len: int = 0,
stream: bool = False,
bootstrap_host: Optional[Union[List[str], str]] = None,
bootstrap_port: Optional[Union[List[int], int]] = None,
bootstrap_room: Optional[Union[List[int], int]] = None,
routed_dp_rank: Optional[int] = None,
disagg_prefill_dp_rank: Optional[int] = None,
# Deprecated: use routed_dp_rank instead
data_parallel_rank: Optional[int] = None,
external_trace_header: Optional[Dict] = None,
rid: Optional[Union[List[str], str]] = None,
session_params: Optional[Dict] = None,
priority: Optional[int] = None,
session_id: Optional[str] = None,
) -> Union[Dict, Iterator[Dict]]:
"""
The arguments of this function is the same as `sglang/srt/managers/io_struct.py::GenerateReqInput`.
Please refer to `GenerateReqInput` for the documentation.
"""
routed_dp_rank = self._resolve_routed_dp_rank(
routed_dp_rank, data_parallel_rank
)
obj = GenerateReqInput(
text=prompt,
input_ids=input_ids,
sampling_params=sampling_params,
image_data=image_data,
audio_data=audio_data,
video_data=video_data,
mm_hashes=mm_hashes,
return_logprob=return_logprob,
logprob_start_len=logprob_start_len,
top_logprobs_num=top_logprobs_num,
token_ids_logprob=token_ids_logprob,
lora_path=lora_path,
custom_logit_processor=custom_logit_processor,
require_reasoning=require_reasoning,
return_hidden_states=return_hidden_states,
return_routed_experts=return_routed_experts,
routed_experts_start_len=routed_experts_start_len,
stream=stream,
bootstrap_host=bootstrap_host,
bootstrap_port=bootstrap_port,
bootstrap_room=bootstrap_room,
routed_dp_rank=routed_dp_rank,
disagg_prefill_dp_rank=disagg_prefill_dp_rank,
external_trace_header=external_trace_header,
rid=rid,
session_id=session_id,
session_params=session_params,
priority=priority,
)
generator = self.tokenizer_manager.generate_request(obj, None)
if stream:
def generator_wrapper():
while True:
try:
chunk = self.loop.run_until_complete(generator.__anext__())
yield chunk
except StopAsyncIteration:
break
return generator_wrapper()
else:
ret = self.loop.run_until_complete(generator.__anext__())
return ret
async def async_generate(
self,
# The input prompt. It can be a single prompt or a batch of prompts.
prompt: Optional[Union[List[str], str]] = None,
sampling_params: Optional[Union[List[Dict], Dict]] = None,
# The token ids for text; one can either specify text or input_ids.
input_ids: Optional[Union[List[List[int]], List[int]]] = None,
# The image input. It can be an image instance, file name, URL, or base64 encoded string.
# Can be formatted as:
# - Single image for a single request
# - List of images (one per request in a batch)
# - List of lists of images (multiple images per request)
# - List of preprocessed outputs from a Huggingface processor, each as a dict containing `format`: 'processor_output' and other data
# - List of precomputed image embeddings, each as a dict containing field `format`: 'precomputed_embedding' and `feature`: the precomputed embedding
# See also python/sglang/srt/utils.py:load_image for more details.
image_data: Optional[MultimodalDataInputFormat] = None,
audio_data: Optional[MultimodalDataInputFormat] = None,
video_data: Optional[MultimodalDataInputFormat] = None,
# Optional per-image hashes the caller has already computed (hex strings,
# one per image in `image_data`). When supplied, each MultimodalDataItem's
# `hash` is initialised from this list and `set_pad_value` skips the
# internal `hash_feature()` recompute. Intended for external KV routers
# that compute their own per-image hash for routing decisions and need
# sglang's prefix-cache key to align. See GenerateReqInput.mm_hashes.
mm_hashes: Optional[Union[List[str], List[List[str]]]] = None,
return_logprob: Optional[Union[List[bool], bool]] = False,
logprob_start_len: Optional[Union[List[int], int]] = None,
top_logprobs_num: Optional[Union[List[int], int]] = None,
token_ids_logprob: Optional[Union[List[List[int]], List[int]]] = None,
lora_path: Optional[List[Optional[str]]] = None,
custom_logit_processor: Optional[Union[List[str], str]] = None,
require_reasoning: bool = False,
return_hidden_states: bool = False,
return_routed_experts: bool = False,
routed_experts_start_len: int = 0,
stream: bool = False,
bootstrap_host: Optional[Union[List[str], str]] = None,
bootstrap_port: Optional[Union[List[int], int]] = None,
bootstrap_room: Optional[Union[List[int], int]] = None,
routed_dp_rank: Optional[int] = None,
disagg_prefill_dp_rank: Optional[int] = None,
# Deprecated: use routed_dp_rank instead
data_parallel_rank: Optional[int] = None,
external_trace_header: Optional[Dict] = None,
rid: Optional[Union[List[str], str]] = None,
session_params: Optional[Dict] = None,
priority: Optional[int] = None,
session_id: Optional[str] = None,
) -> Union[Dict, AsyncIterator[Dict]]:
"""
The arguments of this function is the same as `sglang/srt/managers/io_struct.py::GenerateReqInput`.
Please refer to `GenerateReqInput` for the documentation.
"""
routed_dp_rank = self._resolve_routed_dp_rank(
routed_dp_rank, data_parallel_rank
)
obj = GenerateReqInput(
text=prompt,
input_ids=input_ids,
sampling_params=sampling_params,
image_data=image_data,
audio_data=audio_data,
video_data=video_data,
mm_hashes=mm_hashes,
return_logprob=return_logprob,
logprob_start_len=logprob_start_len,
top_logprobs_num=top_logprobs_num,
token_ids_logprob=token_ids_logprob,
lora_path=lora_path,
require_reasoning=require_reasoning,
return_hidden_states=return_hidden_states,
return_routed_experts=return_routed_experts,
routed_experts_start_len=routed_experts_start_len,
stream=stream,
custom_logit_processor=custom_logit_processor,
bootstrap_host=bootstrap_host,
bootstrap_port=bootstrap_port,
bootstrap_room=bootstrap_room,
routed_dp_rank=routed_dp_rank,
disagg_prefill_dp_rank=disagg_prefill_dp_rank,
external_trace_header=external_trace_header,
rid=rid,
session_id=session_id,
session_params=session_params,
priority=priority,
)
generator = self.tokenizer_manager.generate_request(obj, None)
if stream is True:
return generator
else:
return await generator.__anext__()
def encode(
self,
prompt: Union[str, List[str], List[Dict], List[List[Dict]]],
image_data: Optional[MultimodalDataInputFormat] = None,
audio_data: Optional[MultimodalDataInputFormat] = None,
video_data: Optional[MultimodalDataInputFormat] = None,
dimensions: Optional[int] = None,
lora_path: Optional[Union[List[Optional[str]], Optional[str]]] = None,
embed_override_token_id: Optional[int] = None,
embed_overrides: Optional[List[List[torch.Tensor]]] = None,
external_trace_header: Optional[Dict] = None,
rid: Optional[Union[List[str], str]] = None,
) -> Dict:
"""
The arguments of this function is the same as `sglang/srt/managers/io_struct.py::EmbeddingReqInput`.
Please refer to `EmbeddingReqInput` for the documentation.
"""
obj = EmbeddingReqInput(
text=prompt,
image_data=image_data,
audio_data=audio_data,
video_data=video_data,
dimensions=dimensions,
lora_path=lora_path,
embed_override_token_id=embed_override_token_id,
embed_overrides=embed_overrides,
external_trace_header=external_trace_header,
rid=rid,
)
generator = self.tokenizer_manager.generate_request(obj, None)
ret = self.loop.run_until_complete(generator.__anext__())
return ret
async def async_encode(
self,
prompt: Union[str, List[str], List[Dict], List[List[Dict]]],
image_data: Optional[MultimodalDataInputFormat] = None,
audio_data: Optional[MultimodalDataInputFormat] = None,
video_data: Optional[MultimodalDataInputFormat] = None,
dimensions: Optional[int] = None,
lora_path: Optional[Union[List[Optional[str]], Optional[str]]] = None,
embed_override_token_id: Optional[int] = None,
embed_overrides: Optional[List[List[torch.Tensor]]] = None,
external_trace_header: Optional[Dict] = None,
rid: Optional[Union[List[str], str]] = None,
) -> Dict:
"""
Asynchronous version of encode method.
The arguments of this function is the same as `sglang/srt/managers/io_struct.py::EmbeddingReqInput`.
Please refer to `EmbeddingReqInput` for the documentation.
"""
obj = EmbeddingReqInput(
text=prompt,
image_data=image_data,
audio_data=audio_data,
video_data=video_data,
dimensions=dimensions,
lora_path=lora_path,
embed_override_token_id=embed_override_token_id,
embed_overrides=embed_overrides,
external_trace_header=external_trace_header,
rid=rid,
)
generator = self.tokenizer_manager.generate_request(obj, None)
return await generator.__anext__()
def rerank(
self,
prompt: Union[List[List[str]]],
) -> Dict:
"""
The arguments of this function is the same as `sglang/srt/managers/io_struct.py::EmbeddingReqInput`.
Please refer to `EmbeddingReqInput` for the documentation.
"""
obj = EmbeddingReqInput(text=prompt, is_cross_encoder_request=True)
generator = self.tokenizer_manager.generate_request(obj, None)
ret = self.loop.run_until_complete(generator.__anext__())
return ret
@classmethod
def _launch_scheduler_processes(
cls,
server_args: ServerArgs,
port_args: PortArgs,
run_scheduler_process_func: Callable,
) -> Tuple[SchedulerInitResult, Optional[List]]:
"""Launch scheduler processes using multiprocessing.
Override in subclasses for different backends (e.g. Ray).
Returns:
Tuple of (SchedulerInitResult, scheduler_procs).
scheduler_procs is None for RayEngine (uses Ray actors instead).
"""
scheduler_procs = []
if server_args.dp_size == 1:
# Launch tensor parallel scheduler processes
memory_saver_adapter = TorchMemorySaverAdapter.create(
enable=server_args.enable_memory_saver
)
scheduler_pipe_readers = []
pp_rank_range, tp_rank_range, pp_size_per_node, tp_size_per_node = (
_calculate_rank_ranges(
server_args.nnodes,
server_args.pp_size,
server_args.tp_size,
server_args.node_rank,
)
)
for pp_rank in pp_rank_range:
for tp_rank in tp_rank_range:
reader, writer = mp.Pipe(duplex=False)
gpu_id = (
server_args.base_gpu_id
+ ((pp_rank % pp_size_per_node) * tp_size_per_node)
+ (tp_rank % tp_size_per_node) * server_args.gpu_id_step
)
attn_cp_rank, moe_dp_rank, moe_ep_rank = _compute_parallelism_ranks(
server_args, tp_rank
)
with maybe_reindex_device_id(gpu_id) as gpu_id:
proc = mp.Process(
target=run_scheduler_process_func,
args=(
server_args,
port_args,
gpu_id,
tp_rank,
attn_cp_rank,
moe_dp_rank,
moe_ep_rank,
pp_rank,
None,
writer,
),
)
with (
memory_saver_adapter.configure_subprocess(),
numa_utils.configure_subprocess(server_args, gpu_id),
):
proc.start()
scheduler_procs.append(proc)
scheduler_pipe_readers.append(reader)
else:
# Launch the data parallel controller
reader, writer = mp.Pipe(duplex=False)
scheduler_pipe_readers = [reader]
proc = mp.Process(
target=run_data_parallel_controller_process,
kwargs=dict(
server_args=server_args,
port_args=port_args,
pipe_writer=writer,
run_scheduler_process_func=run_scheduler_process_func,
),
)
proc.start()
scheduler_procs.append(proc)
all_child_pids = [proc.pid for proc in scheduler_procs]
scheduler_infos = []
def wait_for_ready():
infos = _wait_for_scheduler_ready(scheduler_pipe_readers, scheduler_procs)
scheduler_infos.extend(infos)
# For dp_size > 1, collect child scheduler PIDs from the DP controller
if server_args.dp_size > 1:
for info in infos:
if SCHEDULER_PIDS_ARG in info:
all_child_pids.extend(info[SCHEDULER_PIDS_ARG])
def wait_for_completion():
for proc in scheduler_procs:
proc.join()
logger.error(
f"Scheduler or DataParallelController {proc.pid} "
f"terminated with {proc.exitcode}"
)
return (
SchedulerInitResult(
scheduler_infos=scheduler_infos,
all_child_pids=all_child_pids,
wait_for_ready=wait_for_ready,
wait_for_completion=wait_for_completion,
),
scheduler_procs,
)
@classmethod
def _launch_detokenizer_subprocesses(
cls,
server_args: ServerArgs,
port_args: PortArgs,
run_detokenizer_process_func: Callable,
) -> Tuple[List[mp.Process], List[str]]:
"""Launch detokenizer worker(s).
- When ``detokenizer_worker_num == 1``: a single detokenizer process listens on
``port_args.detokenizer_ipc_name`` (the original behavior).
- When ``detokenizer_worker_num > 1``: each detokenizer worker gets its own
private IPC socket, and a ``MultiDetokenizerRouter`` process owns the
original ``port_args.detokenizer_ipc_name`` and fans out to them.
Returns (processes, names) for SubprocessWatchdog.
"""
processes: List[mp.Process] = []
names: List[str] = []
if server_args.detokenizer_worker_num <= 1:
proc = mp.Process(
target=run_detokenizer_process_func,
args=(server_args, port_args),
)
proc.start()
processes.append(proc)
names.append("detokenizer")
return processes, names
router_ipc_name = port_args.detokenizer_ipc_name
worker_ipc_names: List[str] = []
try:
for i in range(server_args.detokenizer_worker_num):
worker_ipc = f"ipc://{tempfile.NamedTemporaryFile(delete=False).name}"
port_args.detokenizer_ipc_name = worker_ipc
proc = mp.Process(
target=run_detokenizer_process_func,
args=(server_args, port_args),
)
proc.start()
processes.append(proc)
names.append(f"detokenizer_{i}")
worker_ipc_names.append(worker_ipc)
finally:
port_args.detokenizer_ipc_name = router_ipc_name
router_proc = mp.Process(
target=run_multi_detokenizer_router_process,
args=(worker_ipc_names, server_args, port_args),
)
router_proc.start()
processes.append(router_proc)
names.append("detokenizer_router")
return processes, names
@classmethod
def _launch_subprocesses(
cls,
server_args: ServerArgs,
init_tokenizer_manager_func: Callable,
run_scheduler_process_func: Callable,
run_detokenizer_process_func: Callable,
port_args: Optional[PortArgs] = None,
) -> Tuple[
TokenizerManager,
TemplateManager,
PortArgs,
SchedulerInitResult,
Optional[SubprocessWatchdog],
]:
"""Launch the TokenizerManager in the main process, the Scheduler in a subprocess, and the DetokenizerManager in another subprocess.
Returns:
Tuple of (tokenizer_manager, template_manager, port_args, scheduler_init_result, subprocess_watchdog).
"""
# Configure global environment
configure_logger(server_args)
_set_envs_and_config(server_args)
# Defensive: ensure plugins loaded (may already be loaded by
# Engine.__init__ or CLI entry).
load_plugins()
server_args.check_server_args()
_set_gc(server_args)
# Allocate ports for inter-process communications
if port_args is None:
port_args = PortArgs.init_new(server_args)
logger.info(f"{server_args=}")
# Start the engine info bootstrap server if per-rank info is needed.
engine_info_bootstrap_server = None
if (
server_args.remote_instance_weight_loader_start_seed_via_transfer_engine
and server_args.node_rank == 0
):
bootstrap_port = server_args.engine_info_bootstrap_port
if not is_port_available(bootstrap_port):
raise RuntimeError(
f"engine_info_bootstrap_port {bootstrap_port} is already in use. "
f"When running multiple instances on the same node, each instance must use a "
f"different --engine-info-bootstrap-port."
)
engine_info_bootstrap_server = EngineInfoBootstrapServer(
host=server_args.host, port=bootstrap_port
)
if (
server_args.reasoning_parser == "auto"
or server_args.tool_call_parser == "auto"
):
resolve_auto_parsers(server_args)
# Launch scheduler processes
scheduler_init_result, scheduler_procs = cls._launch_scheduler_processes(
server_args, port_args, run_scheduler_process_func
)
scheduler_init_result.engine_info_bootstrap_server = (
engine_info_bootstrap_server
)
if (
server_args.enable_elastic_expert_backup
and server_args.elastic_ep_backend is not None
):
run_expert_backup_manager(server_args, port_args)
if server_args.node_rank >= 1:
# In multi-node cases, non-zero rank nodes do not need to run tokenizer or detokenizer,
# so they can just wait here.
scheduler_init_result.wait_for_ready()
if os.getenv("SGLANG_BLOCK_NONZERO_RANK_CHILDREN") == "0":
# When using `Engine` as a Python API, we don't want to block here.
return (
None,
None,
port_args,
scheduler_init_result,
None,
)
launch_dummy_health_check_server(
server_args.host, server_args.port, server_args.enable_metrics
)
scheduler_init_result.wait_for_completion()
return (
None,
None,
port_args,
scheduler_init_result,
None,
)
# Launch detokenizer process(es) — optionally fronted by a router when
# detokenizer_worker_num > 1.
detoken_procs, detoken_names = cls._launch_detokenizer_subprocesses(
server_args=server_args,
port_args=port_args,
run_detokenizer_process_func=run_detokenizer_process_func,
)
for p in detoken_procs:
scheduler_init_result.all_child_pids.append(p.pid)
# Init tokenizer manager first, as the bootstrap server is initialized here
if server_args.tokenizer_worker_num == 1:
tokenizer_manager, template_manager = init_tokenizer_manager_func(
server_args, port_args
)
else:
# Launch multi-tokenizer router
tokenizer_manager = MultiTokenizerRouter(server_args, port_args)
template_manager = None
# Wait for the model to finish loading
scheduler_init_result.wait_for_ready()
# Get back some info from scheduler to tokenizer_manager
tokenizer_manager.max_req_input_len = scheduler_init_result.scheduler_infos[0][
"max_req_input_len"
]
# Set up subprocess liveness watchdog to detect crashes
# Note: RayEngine returns scheduler_procs=None as it uses Ray actors instead of mp.Process
processes = list(scheduler_procs or [])
names = [f"scheduler_{i}" for i in range(len(processes))]
processes.extend(detoken_procs)
names.extend(detoken_names)
subprocess_watchdog = SubprocessWatchdog(
processes=processes, process_names=names
)
subprocess_watchdog.start()
return (
tokenizer_manager,
template_manager,
port_args,
scheduler_init_result,
subprocess_watchdog,
)
def shutdown(self):
"""Shutdown the engine; block until the scheduler subprocess releases
its GPU context so the caller can immediately reallocate on the same
device."""
if (
self.tokenizer_manager is not None
and self.tokenizer_manager._subprocess_watchdog is not None
):
self.tokenizer_manager._subprocess_watchdog.stop()
send_to_rpc = getattr(self, "send_to_rpc", None)
if send_to_rpc is not None:
send_to_rpc.close(linger=0)
self.send_to_rpc = None
kill_process_tree(os.getpid(), include_parent=False, wait_timeout=60)
def __enter__(self):
return self
def __exit__(self, exc_type, exc_value, traceback):
self.shutdown()
return False
def flush_cache(self):
return self.loop.run_until_complete(self.tokenizer_manager.flush_cache())
def open_session(
self,
capacity_of_str_len: int,
session_id: Optional[str] = None,
streaming: bool = False,
timeout: Optional[float] = None,
) -> str:
"""Open a session for multi-turn conversation with shared context.
Args:
capacity_of_str_len: Maximum string length capacity for the session.
session_id: Optional session ID. If not provided, a UUID will be generated.
streaming: Use low-overhead path for realtime streaming (append-only mode).
timeout: If set, the session is automatically closed after being inactive
for this many seconds. Inactivity is measured from session open or the
most recent request submission.
Returns:
The session ID (either the provided one or a newly generated UUID).
"""
obj = OpenSessionReqInput(
capacity_of_str_len=capacity_of_str_len,
session_id=session_id,
streaming=streaming,
timeout=timeout,
)
return self.loop.run_until_complete(
self.tokenizer_manager.open_session(obj, None)
)
def close_session(self, session_id: str) -> None:
"""Close a session and release its resources.
Args:
session_id: The session ID to close.
"""
obj = CloseSessionReqInput(session_id=session_id)
self.loop.run_until_complete(self.tokenizer_manager.close_session(obj, None))
def start_profile(self, **kwargs):
req = ProfileReq(req_type=ProfileReqType.START_PROFILE, **kwargs)
self.loop.run_until_complete(self.tokenizer_manager.start_profile(req))
def stop_profile(self):
self.loop.run_until_complete(self.tokenizer_manager.stop_profile())
def start_expert_distribution_record(self):
self.loop.run_until_complete(
self.tokenizer_manager.start_expert_distribution_record()
)
def stop_expert_distribution_record(self):
self.loop.run_until_complete(
self.tokenizer_manager.stop_expert_distribution_record()
)
def dump_expert_distribution_record(self):
self.loop.run_until_complete(
self.tokenizer_manager.dump_expert_distribution_record()
)
def get_server_info(self):
internal_states = self.loop.run_until_complete(
self.tokenizer_manager.get_internal_state()
)
return msgspec_to_builtins(
{
**dataclasses.asdict(self.tokenizer_manager.server_args),
**self._scheduler_init_result.scheduler_infos[0],
"internal_states": internal_states,
"version": __version__,
}
)
def init_weights_update_group(
self,
master_address: str,
master_port: int,
rank_offset: int,
world_size: int,
group_name: str,
backend: str = "nccl",
):
"""Initialize parameter update group."""
obj = InitWeightsUpdateGroupReqInput(
master_address=master_address,
master_port=master_port,
rank_offset=rank_offset,
world_size=world_size,
group_name=group_name,
backend=backend,
)
return self.loop.run_until_complete(
self.tokenizer_manager.init_weights_update_group(obj, None)
)
def destroy_weights_update_group(
self,
group_name: str,
):
"""Destroy parameter update group."""
obj = DestroyWeightsUpdateGroupReqInput(
group_name=group_name,
)
return self.loop.run_until_complete(
self.tokenizer_manager.destroy_weights_update_group(obj, None)
)
def update_weights_from_distributed(
self,
names: list[str],
dtypes: list[str],
shapes: list[list[int]],
group_name: str = "weight_update_group",
flush_cache: bool = True,
load_format: Optional[str] = None,
):
"""Update weights from distributed source."""
obj = UpdateWeightsFromDistributedReqInput(
names=names,
dtypes=dtypes,
shapes=shapes,
group_name=group_name,
flush_cache=flush_cache,
load_format=load_format,
)
return self.loop.run_until_complete(
self.tokenizer_manager.update_weights_from_distributed(obj, None)
)
def update_weights_from_tensor(
self,
named_tensors: Union[
List[Tuple[str, torch.Tensor]],
List[SerializedTensorPayload],
],
load_format: Optional[str] = None,
flush_cache: bool = True,
):
"""Update weights from distributed source. If there are going to be more updates, set `flush_cache` to be false
to avoid duplicated cache cleaning operation."""
if load_format == "flattened_bucket":
serialized_named_tensors = normalize_serialized_named_tensor_payloads(
cast(List[SerializedTensorPayload], named_tensors)
)
else:
serialized_named_tensors = [
MultiprocessingSerializer.serialize(named_tensors)
for _ in range(self.server_args.tp_size)
]
obj = UpdateWeightsFromTensorReqInput(
serialized_named_tensors=serialized_named_tensors,
load_format=load_format,
flush_cache=flush_cache,
)
return self.loop.run_until_complete(
self.tokenizer_manager.update_weights_from_tensor(obj, None)
)
def update_weights_from_disk(
self,
model_path: str,
load_format: Optional[str] = None,
):
"""Update the weights from disk inplace without re-launching the engine.
This method allows updating the model weights from disk without restarting
the engine. It can be used to load a different model or update weights with
new training.
"""
obj = UpdateWeightFromDiskReqInput(
model_path=model_path,
load_format=load_format,
)
return self.loop.run_until_complete(
self.tokenizer_manager.update_weights_from_disk(obj, None)
)
def update_weights_from_ipc(
self,
zmq_handles: Dict[str, str],
flush_cache: bool = True,
):
"""Update weights from IPC for checkpoint-engine integration."""
obj = UpdateWeightsFromIPCReqInput(
zmq_handles=zmq_handles,
flush_cache=flush_cache,
)
return self.loop.run_until_complete(
self.tokenizer_manager.update_weights_from_ipc(obj, None)
)
def get_weights_by_name(self, name: str, truncate_size: int = 100):
"""Get weights by parameter name."""
obj = GetWeightsByNameReqInput(name=name, truncate_size=truncate_size)
return self.loop.run_until_complete(
self.tokenizer_manager.get_weights_by_name(obj, None)
)
def load_lora_adapter_from_tensors(
self,
lora_name: str,
tensors,
config_dict: Dict,
load_format: Optional[str] = None,
):
if load_format == "flattened_bucket":
serialized_tensors = tensors
else:
serialized_tensors = MultiprocessingSerializer.serialize(
tensors, output_str=True
)
lora_req = LoadLoRAAdapterFromTensorsReqInput(
lora_name=lora_name,
config_dict=config_dict,
serialized_tensors=serialized_tensors,
load_format=load_format,
)
return self.loop.run_until_complete(
self.tokenizer_manager.load_lora_adapter_from_tensors(lora_req, None)
)
def load_lora_adapter(self, lora_name: str, lora_path: str, pinned: bool = False):
"""Load a new LoRA adapter without re-launching the engine."""
obj = LoadLoRAAdapterReqInput(
lora_name=lora_name,
lora_path=lora_path,
pinned=pinned,
)
return self.loop.run_until_complete(
self.tokenizer_manager.load_lora_adapter(obj, None)
)
def unload_lora_adapter(self, lora_name: str):
"""Unload a LoRA adapter without re-launching the engine."""
obj = UnloadLoRAAdapterReqInput(lora_name=lora_name)
return self.loop.run_until_complete(
self.tokenizer_manager.unload_lora_adapter(obj, None)
)
async def async_load_lora_adapter(
self, lora_name: str, lora_path: str, pinned: bool = False
):
"""
Asynchronous version of load_lora_adapter.
See load_lora_adapter() for detailed documentation.
"""
obj = LoadLoRAAdapterReqInput(
lora_name=lora_name,
lora_path=lora_path,
pinned=pinned,
)
return await self.tokenizer_manager.load_lora_adapter(obj, None)
async def async_unload_lora_adapter(self, lora_name: str):
"""
Asynchronous version of unload_lora_adapter.
See unload_lora_adapter() for detailed documentation.
"""
obj = UnloadLoRAAdapterReqInput(lora_name=lora_name)
return await self.tokenizer_manager.unload_lora_adapter(obj, None)
def release_memory_occupation(self, tags: Optional[List[str]] = None):
obj = ReleaseMemoryOccupationReqInput(tags=tags)
return self.loop.run_until_complete(
self.tokenizer_manager.release_memory_occupation(obj, None)
)
def resume_memory_occupation(self, tags: Optional[List[str]] = None):
obj = ResumeMemoryOccupationReqInput(tags=tags)
return self.loop.run_until_complete(
self.tokenizer_manager.resume_memory_occupation(obj, None)
)
def freeze_gc(self):
"""
To maintain a high performance server with low latency, we want to reduce the
stalls caused by the garbage collector scanning through a large number of objects.
It is usually helpful to start the server and warm it up with real requests to
initialize many of the long-lived objects that do not need to be garbage collected.
After sufficient warmup, we can call this function to freeze the garbage collector
so that all objects created before this point are considered out of scope for garbage
collection.
"""
self.loop.run_until_complete(self.tokenizer_manager.freeze_gc())
"""
Execute an RPC call on all scheduler processes.
"""
def collective_rpc(self, method: str, **kwargs):
obj = RpcReqInput(method=method, parameters=kwargs)
sock_send(self.send_to_rpc, obj)
recv_req = sock_recv(self.send_to_rpc, flags=zmq.BLOCKY)
assert isinstance(recv_req, RpcReqOutput)
assert recv_req.success, recv_req.message
def save_remote_model(self, **kwargs):
self.collective_rpc("save_remote_model", **kwargs)
def save_sharded_model(self, **kwargs):
self.collective_rpc("save_sharded_model", **kwargs)
# score() and async_score() are provided by EngineScoreMixin
def _set_envs_and_config(server_args: ServerArgs):
# Set global environments
if "NCCL_CUMEM_ENABLE" not in os.environ or server_args.enable_symm_mem:
os.environ["NCCL_CUMEM_ENABLE"] = str(int(server_args.enable_symm_mem))
if (
"NCCL_NVLS_ENABLE" not in os.environ
or server_args.enable_nccl_nvls
or server_args.enable_symm_mem
):
os.environ["NCCL_NVLS_ENABLE"] = str(
int(server_args.enable_nccl_nvls or server_args.enable_symm_mem)
)
if "NCCL_GRAPH_MIXING_SUPPORT" not in os.environ or server_args.enable_symm_mem:
# Note(wh): NCCL_GRAPH_MIXING_SUPPORT=0 can help improve performance for symmetric kernels.
# details in https://github.com/NVIDIA/nccl-tests/issues/333#issuecomment-3103636985
if server_args.dcp_size > 1:
os.environ["NCCL_GRAPH_MIXING_SUPPORT"] = "0"
os.environ["CUDA_DEVICE_MAX_CONNECTIONS"] = "8"
os.environ["CUDA_MODULE_LOADING"] = "AUTO"
if os.environ.get("TRTLLM_ENABLE_PDL", "1") != "0":
# flashinfer uses this environment variable for various kernels from MoE to quant kernels
os.environ["TRTLLM_ENABLE_PDL"] = "1"
if os.environ.get("CUTE_DSL_LOG_LEVEL") is None:
# Default to warning level, to avoid too many logs
os.environ["CUTE_DSL_LOG_LEVEL"] = "30"
if os.environ.get("CUTE_DSL_LOG_TO_CONSOLE") is None:
# Need to set log to console, otherwise the log level won't take effect
os.environ["CUTE_DSL_LOG_TO_CONSOLE"] = "1"
# Can also be passed as argument
os.environ["SGLANG_RUN_ID"] = (
f"sglang-run-{time.time()}-{random.randint(0, 100000000)}"
)
# Set prometheus env vars
if server_args.enable_metrics:
set_prometheus_multiproc_dir()
# Set ulimit
set_ulimit()
# Check flashinfer version
if not get_bool_env_var("SGLANG_SKIP_SGL_KERNEL_VERSION_CHECK"):
if server_args.attention_backend == "flashinfer":
assert_pkg_version(
"flashinfer_python",
"0.6.14",
"Please uninstall the old version and "
"reinstall the latest version by following the instructions "
"at https://docs.flashinfer.ai/installation.html.",
)
if _is_cuda:
assert_pkg_version(
"sglang-kernel",
"0.4.4",
"Please reinstall the latest version with `pip install sglang-kernel --force-reinstall`",
)
# Signal handlers can only be registered from the main thread.
if threading.current_thread() is threading.main_thread():
if server_args.custom_sigquit_handler is None:
# Register the signal handler.
# The child processes will send SIGQUIT to this process when any error happens
# This process then clean up the whole process tree
# Note: This sigquit handler is used in the launch phase, and may be replaced by
# the running_phase_sigquit_handler in the tokenizer manager after the grpc server is launched.
def launch_phase_sigquit_handler(signum, frame):
logger.error(
"Received sigquit from a child process. It usually means the child failed."
)
kill_process_tree(os.getpid())
signal.signal(signal.SIGQUIT, launch_phase_sigquit_handler)
else:
# Allow users to register a custom SIGQUIT handler for things like crash dump
logger.error(
f"Using custom SIGQUIT handler: {server_args.custom_sigquit_handler}"
)
signal.signal(signal.SIGQUIT, server_args.custom_sigquit_handler)
else:
logger.warning(
"Signal handler is not added because the engine is not in the "
"main thread. This disables the SIGQUIT handler for cleaning up "
"the process tree when a child process fails."
)
# Set mp start method
mp.set_start_method("spawn", force=True)
def _set_gc(server_args: ServerArgs):
if gc_threshold := server_args.gc_threshold:
import gc
gc.set_threshold(*gc_threshold)
def _scheduler_died_error(rank: int, proc) -> RuntimeError:
"""Build a descriptive error for a scheduler process that died during init."""
proc.join(timeout=10)
return RuntimeError(
f"Rank {rank} scheduler died during initialization "
f"(exit code: {proc.exitcode}). "
f"If exit code is -9 (SIGKILL), a common cause is the OS OOM killer. "
f"Run `dmesg -T | grep -i oom` to check."
)
def _wait_for_scheduler_ready(
scheduler_pipe_readers: List,
scheduler_procs: List,
) -> List[Dict]:
"""Wait for the model to finish loading and return scheduler infos.
Uses poll() with timeout instead of blocking recv(), so that child process
death (e.g. OOM SIGKILL) is detected promptly instead of hanging forever.
"""
scheduler_infos = []
for i in range(len(scheduler_pipe_readers)):
while True:
if scheduler_pipe_readers[i].poll(timeout=5.0):
try:
data = scheduler_pipe_readers[i].recv()
except EOFError:
raise _scheduler_died_error(i, scheduler_procs[i])
if data["status"] != "ready":
raise RuntimeError(
"Initialization failed. Please see the error messages above."
)
scheduler_infos.append(data)
break
# Poll timed out — check all processes for early death
for j in range(len(scheduler_procs)):
if not scheduler_procs[j].is_alive():
raise _scheduler_died_error(j, scheduler_procs[j])
return scheduler_infos
def _calculate_rank_ranges(
nnodes: int, pp_size: int, tp_size: int, node_rank: int
) -> Tuple[range, range, int, int]:
"""Calculate pp_rank_range and tp_rank_range for a given node.
Args:
nnodes: Total number of nodes.
pp_size: Pipeline parallel size.
tp_size: Tensor parallel size.
node_rank: The rank of the node to compute ranges for.
Returns:
A tuple of (pp_rank_range, tp_rank_range, pp_size_per_node, tp_size_per_node):
- pp_rank_range: range of pipeline-parallel ranks assigned to this node.
- tp_rank_range: range of tensor-parallel ranks assigned to this node.
- pp_size_per_node: number of PP ranks per node.
- tp_size_per_node: number of TP ranks per node.
"""
pp_size_per_node = max(pp_size // nnodes, 1)
nnodes_per_pp_rank = max(nnodes // pp_size, 1)
pp_rank_range = range(
pp_size_per_node * (node_rank // nnodes_per_pp_rank),
pp_size_per_node * (node_rank // nnodes_per_pp_rank + 1),
)
nnodes_per_tp_group = nnodes_per_pp_rank
tp_size_per_node = tp_size // nnodes_per_tp_group
tp_rank_range = range(
tp_size_per_node * (node_rank % nnodes_per_tp_group),
tp_size_per_node * (node_rank % nnodes_per_tp_group + 1),
)
return pp_rank_range, tp_rank_range, pp_size_per_node, tp_size_per_node
def _compute_parallelism_ranks(
server_args: ServerArgs, tp_rank: int
) -> Tuple[int, int, int]:
"""Compute attention-CP, MoE-DP, and MoE-EP ranks for a TP rank."""
attn_dp_size = server_args.dp_size if server_args.enable_dp_attention else 1
# Parallelism hierarchy (outermost to innermost):
# - Attention: Global(TP) -> DP -> ATTN_CP -> ATTN_TP (innermost)
# - MoE: Global(TP) -> MOE_DP -> EP -> MOE_TP (innermost)
attn_tp_size = server_args.tp_size // attn_dp_size // server_args.attn_cp_size
attn_cp_rank = (tp_rank // attn_tp_size) % server_args.attn_cp_size
moe_dp_rank = tp_rank // (server_args.tp_size // server_args.moe_dp_size)
moe_ep_rank = (
tp_rank
% (server_args.tp_size // server_args.moe_dp_size)
// (server_args.tp_size // server_args.moe_dp_size // server_args.ep_size)
)
return attn_cp_rank, moe_dp_rank, moe_ep_rank