class NCCLLibrary:
exported_functions = [
# const char* ncclGetErrorString(ncclResult_t result)
Function("ncclGetErrorString", ctypes.c_char_p, [ncclResult_t]),
# ncclResult_t ncclGetVersion(int *version);
Function("ncclGetVersion", ncclResult_t, [ctypes.POINTER(ctypes.c_int)]),
# ncclResult_t ncclGetUniqueId(ncclUniqueId* uniqueId);
Function("ncclGetUniqueId", ncclResult_t, [ctypes.POINTER(ncclUniqueId)]),
# ncclResult_t ncclCommInitRank(
# ncclComm_t* comm, int nranks, ncclUniqueId commId, int rank);
# note that ncclComm_t is a pointer type, so the first argument
# is a pointer to a pointer
Function(
"ncclCommInitRank",
ncclResult_t,
[ctypes.POINTER(ncclComm_t), ctypes.c_int, ncclUniqueId, ctypes.c_int],
),
# ncclResult_t ncclAllReduce(
# const void* sendbuff, void* recvbuff, size_t count,
# ncclDataType_t datatype, ncclRedOp_t op, ncclComm_t comm,
# cudaStream_t stream);
# note that cudaStream_t is a pointer type, so the last argument
# is a pointer
Function(
"ncclAllReduce",
ncclResult_t,
[
buffer_type,
buffer_type,
ctypes.c_size_t,
ncclDataType_t,
ncclRedOp_t,
ncclComm_t,
cudaStream_t,
],
),
# ncclResult_t ncclReduce(
# const void* sendbuff, void* recvbuff, size_t count,
# ncclDataType_t datatype, ncclRedOp_t op, int root,
# ncclComm_t comm, cudaStream_t stream);
# note that cudaStream_t is a pointer type, so the last argument
# is a pointer
Function(
"ncclReduce",
ncclResult_t,
[
buffer_type,
buffer_type,
ctypes.c_size_t,
ncclDataType_t,
ncclRedOp_t,
ctypes.c_int,
ncclComm_t,
cudaStream_t,
],
),
# ncclResult_t ncclAllGather(
# const void* sendbuff, void* recvbuff, size_t count,
# ncclDataType_t datatype, ncclComm_t comm,
# cudaStream_t stream);
# note that cudaStream_t is a pointer type, so the last argument
# is a pointer
Function(
"ncclAllGather",
ncclResult_t,
[
buffer_type,
buffer_type,
ctypes.c_size_t,
ncclDataType_t,
ncclComm_t,
cudaStream_t,
],
),
# ncclResult_t ncclReduceScatter(
# const void* sendbuff, void* recvbuff, size_t count,
# ncclDataType_t datatype, ncclRedOp_t op, ncclComm_t comm,
# cudaStream_t stream);
# note that cudaStream_t is a pointer type, so the last argument
# is a pointer
Function(
"ncclReduceScatter",
ncclResult_t,
[
buffer_type,
buffer_type,
ctypes.c_size_t,
ncclDataType_t,
ncclRedOp_t,
ncclComm_t,
cudaStream_t,
],
),
# ncclResult_t ncclSend(
# const void* sendbuff, size_t count, ncclDataType_t datatype,
# int dest, ncclComm_t comm, cudaStream_t stream);
Function(
"ncclSend",
ncclResult_t,
[
buffer_type,
ctypes.c_size_t,
ncclDataType_t,
ctypes.c_int,
ncclComm_t,
cudaStream_t,
],
),
# ncclResult_t ncclRecv(
# void* recvbuff, size_t count, ncclDataType_t datatype,
# int src, ncclComm_t comm, cudaStream_t stream);
Function(
"ncclRecv",
ncclResult_t,
[
buffer_type,
ctypes.c_size_t,
ncclDataType_t,
ctypes.c_int,
ncclComm_t,
cudaStream_t,
],
),
# ncclResult_t ncclBroadcast(
# const void* sendbuff, void* recvbuff, size_t count,
# ncclDataType_t datatype, int root, ncclComm_t comm,
# cudaStream_t stream);
Function(
"ncclBroadcast",
ncclResult_t,
[
buffer_type,
buffer_type,
ctypes.c_size_t,
ncclDataType_t,
ctypes.c_int,
ncclComm_t,
cudaStream_t,
],
),
# be cautious! this is a collective call, it will block until all
# processes in the communicator have called this function.
# because Python object destruction can happen in random order,
# it is better not to call it at all.
# ncclResult_t ncclCommDestroy(ncclComm_t comm);
Function("ncclCommDestroy", ncclResult_t, [ncclComm_t]),
# ncclResult_t ncclGroupStart();
Function("ncclGroupStart", ncclResult_t, []),
# ncclResult_t ncclGroupEnd();
Function("ncclGroupEnd", ncclResult_t, []),
# ncclResult_t ncclCommWindowRegister(
# ncclComm_t comm, void* buff, size_t size,
# ncclWindow_t* win, int winFlags);
Function(
"ncclCommWindowRegister",
ncclResult_t,
[
ncclComm_t,
buffer_type,
ctypes.c_size_t,
ctypes.POINTER(ncclWindow_t),
ctypes.c_int,
],
),
# ncclResult_t ncclCommWindowDeregister(
# ncclComm_t comm, ncclWindow_t win);
Function("ncclCommWindowDeregister", ncclResult_t, [ncclComm_t, ncclWindow_t]),
]
# 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: str | None = None):
so_file = so_file or find_nccl_library()
try:
if so_file not in NCCLLibrary.path_to_dict_mapping:
lib = ctypes.CDLL(so_file)
NCCLLibrary.path_to_library_cache[so_file] = lib
self.lib = NCCLLibrary.path_to_library_cache[so_file]
except Exception as e:
logger.error(
"Failed to load NCCL library from %s. "
"It is expected if you are not running on NVIDIA/AMD GPUs."
"Otherwise, the nccl library might not exist, be corrupted "
"or it does not support the current platform %s. "
"If you already have the library, please set the "
"environment variable VLLM_NCCL_SO_PATH"
" to point to the correct nccl library path.",
so_file,
platform.platform(),
)
raise e
if so_file not in NCCLLibrary.path_to_dict_mapping:
_funcs: dict[str, Any] = {}
for func in NCCLLibrary.exported_functions:
try:
f = getattr(self.lib, func.name)
f.restype = func.restype
f.argtypes = func.argtypes
_funcs[func.name] = f
except AttributeError:
if func.name in [
"ncclCommWindowRegister",
"ncclCommWindowDeregister",
]:
if envs.VLLM_USE_NCCL_SYMM_MEM:
logger.warning_once(
"The symbol %s is not found in the NCCL "
"library %s. To enable VLLM_USE_NCCL_SYMM_MEM "
" please update your NCCL version to >= "
"2.27.03.",
func.name,
so_file,
)
if current_platform.is_rocm():
# Having an exception here on ROCm platform is
# not allowed during graph capturing
continue
raise
NCCLLibrary.path_to_dict_mapping[so_file] = _funcs
self._funcs = NCCLLibrary.path_to_dict_mapping[so_file]
def ncclGetErrorString(self, result: ncclResult_t) -> str:
return self._funcs["ncclGetErrorString"](result).decode("utf-8")
def NCCL_CHECK(self, result: ncclResult_t) -> None:
if result != 0:
error_str = self.ncclGetErrorString(result)
raise RuntimeError(f"NCCL error: {error_str}")
def ncclGetRawVersion(self) -> int:
version = ctypes.c_int()
self.NCCL_CHECK(self._funcs["ncclGetVersion"](ctypes.byref(version)))
# something like 21903
return version.value
def ncclGetVersion(self) -> str:
version_str = str(self.ncclGetRawVersion())
# something like 21903 --> "2.19.3"
major = version_str[0].lstrip("0")
minor = version_str[1:3].lstrip("0")
patch = version_str[3:].lstrip("0")
return f"{major}.{minor}.{patch}"
def ncclGetUniqueId(self) -> ncclUniqueId:
unique_id = ncclUniqueId()
self.NCCL_CHECK(self._funcs["ncclGetUniqueId"](ctypes.byref(unique_id)))
return unique_id
def unique_id_from_bytes(self, data: bytes) -> ncclUniqueId:
if len(data) != 128:
raise ValueError(
f"Expected 128 bytes for ncclUniqueId, got {len(data)} bytes"
)
unique_id = ncclUniqueId()
ctypes.memmove(ctypes.addressof(unique_id.internal), data, 128)
return unique_id
def ncclCommInitRank(
self, world_size: int, unique_id: ncclUniqueId, rank: int
) -> ncclComm_t:
comm = ncclComm_t()
self.NCCL_CHECK(
self._funcs["ncclCommInitRank"](
ctypes.byref(comm), world_size, unique_id, rank
)
)
return comm
def ncclAllReduce(
self,
sendbuff: buffer_type,
recvbuff: buffer_type,
count: int,
datatype: int,
op: int,
comm: ncclComm_t,
stream: cudaStream_t,
) -> None:
# `datatype` actually should be `ncclDataType_t`
# and `op` should be `ncclRedOp_t`
# both are aliases of `ctypes.c_int`
# when we pass int to a function, it will be converted to `ctypes.c_int`
# by ctypes automatically
self.NCCL_CHECK(
self._funcs["ncclAllReduce"](
sendbuff, recvbuff, count, datatype, op, comm, stream
)
)
def ncclReduce(
self,
sendbuff: buffer_type,
recvbuff: buffer_type,
count: int,
datatype: int,
op: int,
root: int,
comm: ncclComm_t,
stream: cudaStream_t,
) -> None:
# `datatype` actually should be `ncclDataType_t`
# and `op` should be `ncclRedOp_t`
# both are aliases of `ctypes.c_int`
# when we pass int to a function, it will be converted to `ctypes.c_int`
# by ctypes automatically
self.NCCL_CHECK(
self._funcs["ncclReduce"](
sendbuff, recvbuff, count, datatype, op, root, comm, stream
)
)
def ncclReduceScatter(
self,
sendbuff: buffer_type,
recvbuff: buffer_type,
count: int,
datatype: int,
op: int,
comm: ncclComm_t,
stream: cudaStream_t,
) -> None:
# `datatype` actually should be `ncclDataType_t`
# and `op` should be `ncclRedOp_t`
# both are aliases of `ctypes.c_int`
# when we pass int to a function, it will be converted to `ctypes.c_int`
# by ctypes automatically
self.NCCL_CHECK(
self._funcs["ncclReduceScatter"](
sendbuff, recvbuff, count, datatype, op, comm, stream
)
)
def ncclAllGather(
self,
sendbuff: buffer_type,
recvbuff: buffer_type,
count: int,
datatype: int,
comm: ncclComm_t,
stream: cudaStream_t,
) -> None:
# `datatype` actually should be `ncclDataType_t`
# which is an aliases of `ctypes.c_int`
# when we pass int to a function, it will be converted to `ctypes.c_int`
# by ctypes automatically
self.NCCL_CHECK(
self._funcs["ncclAllGather"](
sendbuff, recvbuff, count, datatype, comm, stream
)
)
def ncclSend(
self,
sendbuff: buffer_type,
count: int,
datatype: int,
dest: int,
comm: ncclComm_t,
stream: cudaStream_t,
) -> None:
self.NCCL_CHECK(
self._funcs["ncclSend"](sendbuff, count, datatype, dest, comm, stream)
)
def ncclRecv(
self,
recvbuff: buffer_type,
count: int,
datatype: int,
src: int,
comm: ncclComm_t,
stream: cudaStream_t,
) -> None:
self.NCCL_CHECK(
self._funcs["ncclRecv"](recvbuff, count, datatype, src, comm, stream)
)
def ncclBroadcast(
self,
sendbuff: buffer_type,
recvbuff: buffer_type,
count: int,
datatype: int,
root: int,
comm: ncclComm_t,
stream: cudaStream_t,
) -> None:
self.NCCL_CHECK(
self._funcs["ncclBroadcast"](
sendbuff, recvbuff, count, datatype, root, comm, stream
)
)
def ncclCommDestroy(self, comm: ncclComm_t) -> None:
self.NCCL_CHECK(self._funcs["ncclCommDestroy"](comm))
def ncclGroupStart(self) -> None:
self.NCCL_CHECK(self._funcs["ncclGroupStart"]())
def ncclGroupEnd(self) -> None:
self.NCCL_CHECK(self._funcs["ncclGroupEnd"]())
def ncclCommWindowRegister(
self, comm: ncclComm_t, buff: buffer_type, size: int, win_flags: int
) -> ncclWindow_t:
window = ncclWindow_t()
self.NCCL_CHECK(
self._funcs["ncclCommWindowRegister"](
comm, buff, size, ctypes.byref(window), win_flags
)
)
return window
def ncclCommWindowDeregister(self, comm: ncclComm_t, window: ncclWindow_t) -> None:
self.NCCL_CHECK(self._funcs["ncclCommWindowDeregister"](comm, window))