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

571 lines
18 KiB
Python

from __future__ import annotations
import functools
import hashlib
import importlib.util
import logging
import os
import pathlib
import re
from contextlib import contextmanager
from dataclasses import dataclass
from typing import (
TYPE_CHECKING,
Any,
Callable,
Dict,
List,
Optional,
Tuple,
TypeAlias,
TypeVar,
Union,
)
import torch
from sglang.utils import is_in_ci
if TYPE_CHECKING:
from tvm_ffi import Module
F = TypeVar("F", bound=Callable[..., Any])
_FULL_TEST_ENV_VAR = "SGLANG_JIT_KERNEL_RUN_FULL_TESTS"
logger = logging.getLogger(__name__)
def should_run_full_tests() -> bool:
return os.getenv(_FULL_TEST_ENV_VAR, "false").lower() == "true"
def get_ci_test_range(full_range: List[Any], ci_range: List[Any]) -> List[Any]:
if should_run_full_tests():
return full_range
return ci_range if is_in_ci() else full_range
def cache_once(fn: F) -> F:
"""
NOTE: `functools.lru_cache` is not compatible with `torch.compile`
So we manually implement a simple cache_once decorator to replace it.
"""
result_map = {}
@functools.wraps(fn)
def wrapper(*args, **kwargs):
key = (args, tuple(sorted(kwargs.items())))
if key not in result_map:
result_map[key] = fn(*args, **kwargs)
return result_map[key]
return wrapper # type: ignore
def _make_wrapper(tup: Tuple[str, str]) -> str:
export_name, kernel_name = tup
return f"TVM_FFI_DLL_EXPORT_TYPED_FUNC({export_name}, ({kernel_name}));"
_QUOTED_INCLUDE_RE = re.compile(r'^\s*#\s*include\s*"([^"]+)"', re.MULTILINE)
_ANGLE_INCLUDE_RE = re.compile(r"^\s*#\s*include\s*<(sgl_kernel/[^>]+)>", re.MULTILINE)
def _local_jit_source_hash(source_files: List[str]) -> str:
"""Hash JIT source contents so TVM-FFI cache keys track included headers."""
digest = hashlib.sha256()
seen: set[pathlib.Path] = set()
stack = [pathlib.Path(path).resolve() for path in source_files]
include_dir = KERNEL_PATH / "include"
while stack:
path = stack.pop()
if path in seen or not path.is_file():
continue
seen.add(path)
data = path.read_bytes()
# Relative to kernel root, not absolute: the key must track source
# content, not install location (differs across runners / job dirs).
try:
ident = str(path.relative_to(KERNEL_PATH))
except ValueError:
ident = path.name
digest.update(ident.encode())
digest.update(b"\0")
digest.update(data)
digest.update(b"\0")
text = data.decode("utf-8", errors="ignore")
for include in _QUOTED_INCLUDE_RE.findall(text):
include_path = (path.parent / include).resolve()
if include_path.is_file():
stack.append(include_path)
for include in _ANGLE_INCLUDE_RE.findall(text):
include_path = (include_dir / include).resolve()
if include_path.is_file():
stack.append(include_path)
return digest.hexdigest()[:16]
@cache_once
def _resolve_kernel_path() -> pathlib.Path:
cur_dir = pathlib.Path(__file__).parent.resolve()
# first, try this directory structure
def _environment_install():
candidate = cur_dir.resolve()
if (candidate / "include").exists() and (candidate / "csrc").exists():
return candidate
return None
def _package_install():
# TODO: support find path by package
return None
path = _environment_install() or _package_install()
if path is None:
raise RuntimeError("Cannot find sglang.jit_kernel path")
return path
KERNEL_PATH = _resolve_kernel_path()
DEFAULT_INCLUDE = [str(KERNEL_PATH / "include")]
DEFAULT_CFLAGS = ["-std=c++20", "-O3"]
DEFAULT_LDFLAGS = []
CPP_TEMPLATE_TYPE: TypeAlias = Union[int, float, str, bool, torch.dtype]
class CPPArgList(list[str]):
def __str__(self) -> str:
return ", ".join(self)
CPP_DTYPE_MAP = {
torch.float: "fp32_t",
torch.float16: "fp16_t",
torch.float8_e4m3fn: "fp8_e4m3_t",
torch.bfloat16: "bf16_t",
torch.int8: "int8_t",
torch.int32: "int32_t",
torch.int64: "int64_t",
}
# AMD/ROCm note:
@cache_once
def is_hip_runtime() -> bool:
return bool(torch.version.hip)
# MThreads/MUSA note:
@cache_once
def is_musa_runtime() -> bool:
return hasattr(torch.version, "musa") and torch.version.musa is not None
def make_cpp_args(*args: CPP_TEMPLATE_TYPE) -> CPPArgList:
def _convert(arg: CPP_TEMPLATE_TYPE) -> str:
if isinstance(arg, bool):
return "true" if arg else "false"
if isinstance(arg, (int, str, float)):
return str(arg)
if isinstance(arg, torch.dtype):
return CPP_DTYPE_MAP[arg]
raise TypeError(f"Unsupported argument type for cpp template: {type(arg)}")
return CPPArgList(_convert(arg) for arg in args)
@cache_once
def _tvm_ffi_version() -> str:
try:
import tvm_ffi
version = getattr(tvm_ffi, "__version__", None)
if version:
return str(version)
except Exception:
pass
try:
from importlib.metadata import version as dist_version
return dist_version("apache-tvm-ffi")
except Exception:
return "unknown"
def _jit_build_dir_name(module_name: str) -> str:
# Key on arch + tvm-ffi ABI too (module_name only hashes sources), so a
# shared cache volume never reuses a cross-arch/ABI .so.
arch = get_jit_cuda_arch().target_name
return f"{module_name}__arch_{arch}__tvmffi_{_tvm_ffi_version()}"
def load_jit(
*args: str,
cpp_files: List[str] | None = None,
cuda_files: List[str] | None = None,
cpp_wrappers: List[Tuple[str, str]] | None = None,
cuda_wrappers: List[Tuple[str, str]] | None = None,
extra_cflags: List[str] | None = None,
extra_cuda_cflags: List[str] | None = None,
extra_ldflags: List[str] | None = None,
extra_include_paths: List[str] | None = None,
extra_dependencies: List[str] | None = None,
build_directory: str | None = None,
header_only: bool = True,
) -> Module:
"""
Loading a JIT module from C++/CUDA source files.
We define a wrapper as a tuple of (export_name, kernel_name),
where `export_name` is the name used to called from Python,
and `kernel_name` is the name of the kernel class in C++/CUDA source.
:param args: Unique marker of the JIT module. Must be distinct for different kernels.
:type args: str
:param cpp_files: A list of C++ source files.
:type cpp_files: List[str] | None
:param cuda_files: A list of CUDA source files.
:type cuda_files: List[str] | None
:param cpp_wrappers: A list of C++ wrappers, defining the export name and kernel name.
:type cpp_wrappers: List[Tuple[str, str]] | None
:param cuda_wrappers: A list of CUDA wrappers, defining the export name and kernel name.
:type cuda_wrappers: List[Tuple[str, str]] | None
:param extra_cflags: Extra C++ compiler flags.
:type extra_cflags: List[str] | None
:param extra_cuda_cflags: Extra CUDA compiler flags.
:type extra_cuda_cflags: List[str] | None
:param extra_ldflags: Extra linker flags.
:type extra_ldflags: List[str] | None
:param extra_include_paths: Extra include paths.
:type extra_include_paths: List[str] | None
:param extra_dependencies: Extra dependencies for the JIT module, e.g., cutlass.
:type extra_dependencies: List[str] | None
:param build_directory: The build directory for JIT compilation.
:type build_directory: str | None
:param header_only: Whether the module is header-only.
If true, apply the wrappers to export given class/functions.
Otherwise, we must export from C++/CUDA side.
:return: A just-in-time(JIT) compiled module.
:rtype: Module
"""
from tvm_ffi.cpp import load, load_inline
cpp_files = cpp_files or []
cuda_files = cuda_files or []
extra_cflags = extra_cflags or []
extra_cuda_cflags = extra_cuda_cflags or []
extra_ldflags = extra_ldflags or []
extra_include_paths = extra_include_paths or []
cpp_files = [str((KERNEL_PATH / "csrc" / f).resolve()) for f in cpp_files]
cuda_files = [str((KERNEL_PATH / "csrc" / f).resolve()) for f in cuda_files]
for dep in set(extra_dependencies or []):
if dep not in _REGISTERED_DEPENDENCIES:
raise ValueError(f"Dependency {dep} is not registered.")
extra_include_paths += _REGISTERED_DEPENDENCIES[dep]()
module_name = "sgl_kernel_jit_" + "_".join(str(arg) for arg in args)
if cpp_files or cuda_files:
module_name += "_" + _local_jit_source_hash(cpp_files + cuda_files)
# A built .so under a deterministic dir is content-addressed: load it
# directly to skip ninja, whose mtime check rebuilds every CI run (pip
# install bumps dep header mtimes).
if build_directory is None:
cache_dir = os.environ.get("TVM_FFI_CACHE_DIR", "~/.cache/tvm-ffi")
build_directory = str(
pathlib.Path(cache_dir).expanduser() / _jit_build_dir_name(module_name)
)
prebuilt = pathlib.Path(build_directory) / f"{module_name}.so"
if prebuilt.is_file():
from tvm_ffi import load_module
try:
module = load_module(str(prebuilt))
logger.debug("Reused cached JIT module %s", module_name)
return module
except Exception:
logger.warning(
"Cached JIT module %s failed to load; rebuilding.", module_name
)
if header_only:
cpp_wrappers = cpp_wrappers or []
cuda_wrappers = cuda_wrappers or []
cpp_sources = [f'#include "{path}"' for path in cpp_files]
cpp_sources += [_make_wrapper(tup) for tup in cpp_wrappers]
# include cuda files
cuda_sources = [f'#include "{path}"' for path in cuda_files]
cuda_sources += [_make_wrapper(tup) for tup in cuda_wrappers]
with _jit_compile_context():
return load_inline(
module_name,
cpp_sources=cpp_sources,
cuda_sources=cuda_sources,
extra_cflags=DEFAULT_CFLAGS + extra_cflags,
extra_cuda_cflags=_get_default_target_flags() + extra_cuda_cflags,
extra_ldflags=DEFAULT_LDFLAGS + extra_ldflags,
extra_include_paths=DEFAULT_INCLUDE + extra_include_paths,
build_directory=build_directory,
)
else:
assert cpp_wrappers is None and cuda_wrappers is None
with _jit_compile_context():
return load(
module_name,
cpp_files=cpp_files,
cuda_files=cuda_files,
extra_cflags=DEFAULT_CFLAGS + extra_cflags,
extra_cuda_cflags=_get_default_target_flags() + extra_cuda_cflags,
extra_ldflags=DEFAULT_LDFLAGS + extra_ldflags,
extra_include_paths=DEFAULT_INCLUDE + extra_include_paths,
build_directory=build_directory,
)
@dataclass
class ArchInfo:
major: int
minor: int
suffix: str
@property
def target_name(self) -> str:
return f"{self.major}.{self.minor}{self.suffix}"
@property
def jit_flag(self) -> str:
return f"-DSGL_CUDA_ARCH={self.major * 100 + self.minor * 10}"
@cache_once
def _init_jit_cuda_arch_once():
global _CUDA_ARCH
try:
device = torch.cuda.current_device()
major, minor = torch.cuda.get_device_capability(device)
except Exception:
logger.warning("Cannot detect CUDA architecture.")
major, minor = 0, 0 # invalid value to trigger compile error if used
_CUDA_ARCH = ArchInfo(major, minor, "")
@contextmanager
def _jit_compile_context():
if is_hip_runtime():
yield # TODO: support ROCm `TVM_FFI_ROCM_ARCH_LIST` if needed
return
env_key = "TVM_FFI_CUDA_ARCH_LIST"
old_value = os.environ.get(env_key, None)
os.environ[env_key] = get_jit_cuda_arch().target_name
try:
yield
finally:
if old_value is None:
os.environ.pop(env_key, None)
else:
os.environ[env_key] = old_value
# NOTE: this might also be used in __main__.py for compile flags export
def _get_default_target_flags() -> List[str]:
if is_hip_runtime():
flags = ["-DUSE_ROCM", "-std=c++20", "-O3"]
# Detect FP8 type based on GPU architecture
try:
device = torch.cuda.current_device()
gcn_arch = torch.cuda.get_device_properties(device).gcnArchName
if "gfx942" in gcn_arch:
flags.append("-DHIP_FP8_TYPE_FNUZ=1")
else:
flags.append("-DHIP_FP8_TYPE_E4M3=1")
except Exception:
flags.append("-DHIP_FP8_TYPE_E4M3=1")
return flags
else:
return [
get_jit_cuda_arch().jit_flag,
"-std=c++20",
"-O3",
"--expt-relaxed-constexpr",
]
@contextmanager
def override_jit_cuda_arch(major: int, minor: int, suffix: str = ""):
"""A context manager to temporarily override CUDA architecture."""
global _CUDA_ARCH
old_value = get_jit_cuda_arch()
_CUDA_ARCH = ArchInfo(major, minor, suffix)
try:
yield
finally:
_CUDA_ARCH = old_value
def get_jit_cuda_arch() -> ArchInfo:
"""Get the current CUDA architecture info."""
_init_jit_cuda_arch_once()
return _CUDA_ARCH
@cache_once
def is_arch_support_pdl() -> bool:
if is_hip_runtime() or is_musa_runtime():
return False
return get_jit_cuda_arch().major >= 9
def _find_package_root(package: str) -> Optional[pathlib.Path]:
spec = importlib.util.find_spec(package)
if spec is None or spec.origin is None:
return None
return pathlib.Path(spec.origin).resolve().parent
# NOTE: this might also be used in __main__.py for compile flags export
_REGISTERED_DEPENDENCIES: Dict[str, Callable[[], List[str]]] = {}
def register_dependency(name: str):
def decorator(f: Callable[[], List[str]]) -> Callable[[], List[str]]:
if name in _REGISTERED_DEPENDENCIES:
raise ValueError(f"Dependency {name} already registered")
_REGISTERED_DEPENDENCIES[name] = f
return f
return decorator
@register_dependency("flashinfer")
def get_flashinfer_include_paths() -> List[str]:
include_paths: List[str] = []
flashinfer_root = _find_package_root("flashinfer")
if flashinfer_root is None:
raise RuntimeError(
"Cannot find flashinfer package. Please install flashinfer to get"
"the required headers for JIT compilation."
)
flashinfer_data = flashinfer_root / "data"
candidates = [
flashinfer_data / "include",
flashinfer_data / "csrc",
flashinfer_data / "cutlass" / "include",
flashinfer_data / "cutlass" / "tools" / "util" / "include",
flashinfer_data / "spdlog" / "include",
]
for path in candidates:
if not path.exists():
raise RuntimeError(
f"Required header path {path} for flashinfer dependency not found."
" Please check your flashinfer installation."
)
include_paths.append(str(path))
return include_paths
def get_mathdx_root() -> Optional[pathlib.Path]:
"""Locate the NVIDIA Math-DX install (cuBLASDx headers).
Searches in order:
1. ``$MATHDX_HOME`` env var (extracted Math-DX archive root).
2. The ``nvidia-mathdx`` PyPI package, if installed.
"""
env_home = os.environ.get("MATHDX_HOME")
if env_home:
candidate = pathlib.Path(env_home).expanduser().resolve()
if (candidate / "include").exists():
return candidate
# The ``nvidia-mathdx`` wheel installs as the namespace package
# ``nvidia.mathdx`` (no __init__, so spec.origin is None); resolve it via
# submodule_search_locations rather than _find_package_root, which only
# handles regular packages.
spec = importlib.util.find_spec("nvidia.mathdx")
if spec is not None:
roots = list(spec.submodule_search_locations or [])
if spec.origin is not None:
roots.append(str(pathlib.Path(spec.origin).parent))
for root in roots:
candidate = pathlib.Path(root).resolve()
if (candidate / "include").exists():
return candidate
return None
@register_dependency("mathdx")
def get_mathdx_include_paths() -> List[str]:
root = get_mathdx_root()
if root is None:
raise RuntimeError(
"Cannot find NVIDIA Math-DX (cuBLASDx) headers. "
"Install the `nvidia-mathdx` package "
"(`pip install nvidia-mathdx`) or set MATHDX_HOME to an "
"extracted Math-DX archive root."
)
candidates = [root / "include"]
cutlass = root / "external" / "cutlass" / "include"
if cutlass.exists():
candidates.append(cutlass)
return [str(p) for p in candidates]
@register_dependency("cutlass")
def get_cutlass_include_paths() -> List[str]:
include_paths: List[str] = []
flashinfer_root = _find_package_root("flashinfer")
if flashinfer_root is not None:
candidates = [
flashinfer_root / "data" / "cutlass" / "include",
flashinfer_root / "data" / "cutlass" / "tools" / "util" / "include",
]
for path in candidates:
if path.exists():
include_paths.append(str(path))
deep_gemm_root = _find_package_root("deep_gemm")
if deep_gemm_root is not None:
candidate = deep_gemm_root / "include"
if candidate.exists():
include_paths.append(str(candidate))
# De-duplicate while preserving order.
unique_paths = []
seen = set()
for path in include_paths:
if path in seen:
continue
seen.add(path)
unique_paths.append(path)
if not unique_paths:
raise RuntimeError(
"Cannot find CUTLASS headers required for JIT compilation. "
"Please install flashinfer or deep_gemm with CUTLASS headers."
)
return unique_paths
__all__ = [
"should_run_full_tests",
"get_ci_test_range",
"cache_once",
"is_hip_runtime",
"make_cpp_args",
"load_jit",
"override_jit_cuda_arch",
"get_jit_cuda_arch",
"is_arch_support_pdl",
"register_dependency",
]