squall/vllm
1
0
Fork 0
Code Issues Pull Requests Actions 1 Packages Projects Releases Wiki Activity
16a1cc9bb2
vllm/vllm/distributed/device_communicators/cuda_wrapper.py

168 lines
6.4 KiB
Python
Raw Blame History

This file contains invisible Unicode characters

This file contains invisible Unicode characters that are indistinguishable to humans but may be processed differently by a computer. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

"""This file is a pure Python wrapper for the cudart library.
It avoids the need to compile a separate shared library, and is
convenient for use when we just need to call a few functions.
"""
import ctypes
from dataclasses import dataclass
from typing import Any, Dict, List, Optional
# this line makes it possible to directly load `libcudart.so` using `ctypes`
import torch # noqa
from vllm.logger import init_logger
logger = init_logger(__name__)
# === export types and functions from cudart to Python ===
# for the original cudart definition, please check
# https://docs.nvidia.com/cuda/cuda-runtime-api/index.html
cudaError_t = ctypes.c_int
cudaMemcpyKind = ctypes.c_int
class cudaIpcMemHandle_t(ctypes.Structure):
_fields_ = [("internal", ctypes.c_byte * 128)]
@dataclass
class Function:
name: str
restype: Any
argtypes: List[Any]
def find_loaded_library(lib_name) -> Optional[str]:
"""
According to according to https://man7.org/linux/man-pages/man5/proc_pid_maps.5.html,
the file `/proc/self/maps` contains the memory maps of the process, which includes the
shared libraries loaded by the process. We can use this file to find the path of the
a loaded library.
""" # noqa
found = False
with open("/proc/self/maps") as f:
for line in f:
if lib_name in line:
found = True
break
if not found:
# the library is not loaded in the current process
return None
start = line.index("/")
path = line[start:].strip()
return path
class CudaRTLibrary:
exported_functions = [
# cudaError_t cudaSetDevice ( int device )
Function("cudaSetDevice", cudaError_t, [ctypes.c_int]),
# cudaError_t cudaDeviceSynchronize ( void )
Function("cudaDeviceSynchronize", cudaError_t, []),
# cudaError_t cudaDeviceReset ( void )
Function("cudaDeviceReset", cudaError_t, []),
# const char* cudaGetErrorString ( cudaError_t error )
Function("cudaGetErrorString", ctypes.c_char_p, [cudaError_t]),
# cudaError_t cudaMalloc ( void** devPtr, size_t size )
Function("cudaMalloc", cudaError_t,
[ctypes.POINTER(ctypes.c_void_p), ctypes.c_size_t]),
# cudaError_t cudaFree ( void* devPtr )
Function("cudaFree", cudaError_t, [ctypes.c_void_p]),
# cudaError_t cudaMemset ( void* devPtr, int value, size_t count )
Function("cudaMemset", cudaError_t,
[ctypes.c_void_p, ctypes.c_int, ctypes.c_size_t]),
# cudaError_t cudaMemcpy ( void* dst, const void* src, size_t count, cudaMemcpyKind kind ) # noqa
Function("cudaMemcpy", cudaError_t, [
ctypes.c_void_p, ctypes.c_void_p, ctypes.c_size_t, cudaMemcpyKind
]),
# cudaError_t cudaIpcGetMemHandle ( cudaIpcMemHandle_t* handle, void* devPtr ) # noqa
Function("cudaIpcGetMemHandle", cudaError_t,
[ctypes.POINTER(cudaIpcMemHandle_t), ctypes.c_void_p]),
# cudaError_t cudaIpcOpenMemHandle ( void** devPtr, cudaIpcMemHandle_t handle, unsigned int flags ) # noqa
Function("cudaIpcOpenMemHandle", cudaError_t, [
ctypes.POINTER(ctypes.c_void_p), cudaIpcMemHandle_t, ctypes.c_uint
]),
]
# class attribute to store the mapping from the path to the library
# to avoid loading the same library multiple times
path_to_library_cache: Dict[str, Any] = {}
# class attribute to store the mapping from library path
# to the corresponding dictionary
path_to_dict_mapping: Dict[str, Dict[str, Any]] = {}
def __init__(self, so_file: Optional[str] = None):
if so_file is None:
so_file = find_loaded_library("libcudart.so")
assert so_file is not None, \
"libcudart.so is not loaded in the current process"
if so_file not in CudaRTLibrary.path_to_library_cache:
lib = ctypes.CDLL(so_file)
CudaRTLibrary.path_to_library_cache[so_file] = lib
self.lib = CudaRTLibrary.path_to_library_cache[so_file]
if so_file not in CudaRTLibrary.path_to_dict_mapping:
_funcs = {}
for func in CudaRTLibrary.exported_functions:
f = getattr(self.lib, func.name)
f.restype = func.restype
f.argtypes = func.argtypes
_funcs[func.name] = f
CudaRTLibrary.path_to_dict_mapping[so_file] = _funcs
self.funcs = CudaRTLibrary.path_to_dict_mapping[so_file]
def CUDART_CHECK(self, result: cudaError_t) -> None:
if result != 0:
error_str = self.cudaGetErrorString(result)
raise RuntimeError(f"CUDART error: {error_str}")
def cudaGetErrorString(self, error: cudaError_t) -> str:
return self.funcs["cudaGetErrorString"](error).decode("utf-8")
def cudaSetDevice(self, device: int) -> None:
self.CUDART_CHECK(self.funcs["cudaSetDevice"](device))
def cudaDeviceSynchronize(self) -> None:
self.CUDART_CHECK(self.funcs["cudaDeviceSynchronize"]())
def cudaDeviceReset(self) -> None:
self.CUDART_CHECK(self.funcs["cudaDeviceReset"]())
def cudaMalloc(self, size: int) -> ctypes.c_void_p:
devPtr = ctypes.c_void_p()
self.CUDART_CHECK(self.funcs["cudaMalloc"](ctypes.byref(devPtr), size))
return devPtr
def cudaFree(self, devPtr: ctypes.c_void_p) -> None:
self.CUDART_CHECK(self.funcs["cudaFree"](devPtr))
def cudaMemset(self, devPtr: ctypes.c_void_p, value: int,
count: int) -> None:
self.CUDART_CHECK(self.funcs["cudaMemset"](devPtr, value, count))
def cudaMemcpy(self, dst: ctypes.c_void_p, src: ctypes.c_void_p,
count: int) -> None:
cudaMemcpyDefault = 4
kind = cudaMemcpyDefault
self.CUDART_CHECK(self.funcs["cudaMemcpy"](dst, src, count, kind))
def cudaIpcGetMemHandle(self,
devPtr: ctypes.c_void_p) -> cudaIpcMemHandle_t:
handle = cudaIpcMemHandle_t()
self.CUDART_CHECK(self.funcs["cudaIpcGetMemHandle"](
ctypes.byref(handle), devPtr))
return handle
def cudaIpcOpenMemHandle(self,
handle: cudaIpcMemHandle_t) -> ctypes.c_void_p:
cudaIpcMemLazyEnablePeerAccess = 1
devPtr = ctypes.c_void_p()
self.CUDART_CHECK(self.funcs["cudaIpcOpenMemHandle"](
ctypes.byref(devPtr), handle, cudaIpcMemLazyEnablePeerAccess))
return devPtr
Reference in New Issue View Git Blame Copy Permalink