/* * SPDX-FileCopyrightText: Copyright (c) 1993-2025 NVIDIA CORPORATION & AFFILIATES. All rights reserved. * SPDX-License-Identifier: Apache-2.0 * * 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. */ #define CUDA_LIB_NAME "cuda" #if defined(_WIN32) #if !defined(WIN32_LEAN_AND_MEAN) #define WIN32_LEAN_AND_MEAN #endif // defined(WIN32_LEAN_AND_MEAN) #include #define dllOpen(name) (void*) LoadLibraryA("nv" name ".dll") #define dllClose(handle) FreeLibrary(static_cast(handle)) #define dllGetSym(handle, name) GetProcAddress(static_cast(handle), name) #else // defined(_WIN32) #include #define dllOpen(name) dlopen("lib" name ".so.1", RTLD_LAZY) #define dllClose(handle) dlclose(handle) #define dllGetSym(handle, name) dlsym(handle, name) #endif // defined(_WIN32) #include "common/cudaDriverWrapper.h" #include "common/plugin.h" #include #include #include using namespace nvinfer1; CUDADriverWrapper::CUDADriverWrapper() { handle = dllOpen(CUDA_LIB_NAME); PLUGIN_ASSERT(handle != nullptr); auto load_sym = [](void* handle, char const* name) { void* ret = dllGetSym(handle, name); PLUGIN_ASSERT(ret != nullptr); return ret; }; _cuGetErrorName = reinterpret_cast(load_sym(handle, "cuGetErrorName")); _cuGetErrorString = reinterpret_cast(load_sym(handle, "cuGetErrorString")); _cuFuncSetAttribute = reinterpret_cast( load_sym(handle, "cuFuncSetAttribute")); _cuLinkComplete = reinterpret_cast(load_sym(handle, "cuLinkComplete")); _cuModuleUnload = reinterpret_cast(load_sym(handle, "cuModuleUnload")); _cuLinkDestroy = reinterpret_cast(load_sym(handle, "cuLinkDestroy")); _cuModuleLoadData = reinterpret_cast(load_sym(handle, "cuModuleLoadData")); _cuLinkCreate = reinterpret_cast( load_sym(handle, "cuLinkCreate_v2")); _cuModuleGetFunction = reinterpret_cast(load_sym(handle, "cuModuleGetFunction")); _cuLinkAddFile = reinterpret_cast( load_sym(handle, "cuLinkAddFile_v2")); _cuLinkAddData = reinterpret_cast(load_sym(handle, "cuLinkAddData_v2")); _cuLaunchCooperativeKernel = reinterpret_cast(load_sym(handle, "cuLaunchCooperativeKernel")); _cuLaunchKernel = reinterpret_cast(load_sym(handle, "cuLaunchKernel")); #if CUDA_VERSION >= 11060 _cuLaunchKernelEx = reinterpret_cast( dllGetSym(handle, "cuLaunchKernelEx")); #endif #if CUDA_VERSION >= 12000 _cuTensorMapEncodeTiled = reinterpret_cast(load_sym(handle, "cuTensorMapEncodeTiled")); #endif _cuMemcpyDtoH = reinterpret_cast(load_sym(handle, "cuMemcpyDtoH_v2")); _cuDeviceGetAttribute = reinterpret_cast( load_sym(handle, "cuDeviceGetAttribute")); #if CUDA_VERSION >= 12000 _cuOccupancyMaxActiveClusters = reinterpret_cast( load_sym(handle, "cuOccupancyMaxActiveClusters")); #endif } CUDADriverWrapper::~CUDADriverWrapper() { dllClose(handle); } CUresult CUDADriverWrapper::cuGetErrorName(CUresult error, char const** pStr) const { return (*_cuGetErrorName)(error, pStr); } CUresult CUDADriverWrapper::cuGetErrorString(CUresult error, char const** pStr) const { return (*_cuGetErrorString)(error, pStr); } CUresult CUDADriverWrapper::cuFuncSetAttribute(CUfunction hfunc, CUfunction_attribute attrib, int32_t value) const { return (*_cuFuncSetAttribute)(hfunc, attrib, value); } CUresult CUDADriverWrapper::cuLinkComplete(CUlinkState state, void** cubinOut, size_t* sizeOut) const { return (*_cuLinkComplete)(state, cubinOut, sizeOut); } CUresult CUDADriverWrapper::cuModuleUnload(CUmodule hmod) const { return (*_cuModuleUnload)(hmod); } CUresult CUDADriverWrapper::cuLinkDestroy(CUlinkState state) const { return (*_cuLinkDestroy)(state); } CUresult CUDADriverWrapper::cuModuleLoadData(CUmodule* module, void const* image) const { return (*_cuModuleLoadData)(module, image); } CUresult CUDADriverWrapper::cuLinkCreate( uint32_t numOptions, CUjit_option* options, void** optionValues, CUlinkState* stateOut) const { return (*_cuLinkCreate)(numOptions, options, optionValues, stateOut); } CUresult CUDADriverWrapper::cuModuleGetFunction(CUfunction* hfunc, CUmodule hmod, char const* name) const { return (*_cuModuleGetFunction)(hfunc, hmod, name); } CUresult CUDADriverWrapper::cuLinkAddFile(CUlinkState state, CUjitInputType type, char const* path, uint32_t numOptions, CUjit_option* options, void** optionValues) const { return (*_cuLinkAddFile)(state, type, path, numOptions, options, optionValues); } CUresult CUDADriverWrapper::cuLinkAddData(CUlinkState state, CUjitInputType type, void* data, size_t size, char const* name, uint32_t numOptions, CUjit_option* options, void** optionValues) const { return (*_cuLinkAddData)(state, type, data, size, name, numOptions, options, optionValues); } CUresult CUDADriverWrapper::cuLaunchCooperativeKernel(CUfunction f, uint32_t gridDimX, uint32_t gridDimY, uint32_t gridDimZ, uint32_t blockDimX, uint32_t blockDimY, uint32_t blockDimZ, uint32_t sharedMemBytes, CUstream hStream, void** kernelParams) const { return (*_cuLaunchCooperativeKernel)( f, gridDimX, gridDimY, gridDimZ, blockDimX, blockDimY, blockDimZ, sharedMemBytes, hStream, kernelParams); } CUresult CUDADriverWrapper::cuLaunchKernel(CUfunction f, uint32_t gridDimX, uint32_t gridDimY, uint32_t gridDimZ, uint32_t blockDimX, uint32_t blockDimY, uint32_t blockDimZ, uint32_t sharedMemBytes, CUstream hStream, void** kernelParams, void** extra) const { return (*_cuLaunchKernel)( f, gridDimX, gridDimY, gridDimZ, blockDimX, blockDimY, blockDimZ, sharedMemBytes, hStream, kernelParams, extra); } #if CUDA_VERSION >= 11060 CUresult CUDADriverWrapper::cuLaunchKernelEx( CUlaunchConfig const* config, CUfunction f, void** kernelParams, void** extra) const { PLUGIN_ASSERT(_cuLaunchKernelEx != nullptr); return (*_cuLaunchKernelEx)(config, f, kernelParams, extra); } #endif #if CUDA_VERSION >= 12000 CUresult CUDADriverWrapper::cuTensorMapEncodeTiled(CUtensorMap* tensorMap, CUtensorMapDataType tensorDataType, cuuint32_t tensorRank, void const* globalAddress, cuuint64_t const* globalDim, cuuint64_t const* globalStrides, cuuint32_t const* boxDim, cuuint32_t const* elementStrides, CUtensorMapInterleave interleave, CUtensorMapSwizzle swizzle, CUtensorMapL2promotion l2Promotion, CUtensorMapFloatOOBfill oobFill) const { PLUGIN_ASSERT(_cuTensorMapEncodeTiled != nullptr); return (*_cuTensorMapEncodeTiled)(tensorMap, tensorDataType, tensorRank, globalAddress, globalDim, globalStrides, boxDim, elementStrides, interleave, swizzle, l2Promotion, oobFill); } #endif CUresult CUDADriverWrapper::cuMemcpyDtoH(void* dstHost, CUdeviceptr srcDevice, size_t ByteCount) const { return (*_cuMemcpyDtoH)(dstHost, srcDevice, ByteCount); } CUresult CUDADriverWrapper::cuDeviceGetAttribute(int32_t* pi, CUdevice_attribute attrib, CUdevice dev) const { return (*_cuDeviceGetAttribute)(pi, attrib, dev); } #if CUDA_VERSION >= 12000 CUresult CUDADriverWrapper::cuOccupancyMaxActiveClusters( int32_t* maxActiveClusters, CUfunction f, CUlaunchConfig const* config) const { PLUGIN_ASSERT(_cuOccupancyMaxActiveClusters != nullptr); return (*_cuOccupancyMaxActiveClusters)(maxActiveClusters, f, config); } #endif