// This file is part of BOINC. // http://boinc.berkeley.edu // Copyright (C) 2012 University of California // // BOINC is free software; you can redistribute it and/or modify it // under the terms of the GNU Lesser General Public License // as published by the Free Software Foundation, // either version 3 of the License, or (at your option) any later version. // // BOINC is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. // See the GNU Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public License // along with BOINC. If not, see . // Detection of NVIDIA GPUs #ifdef _WIN32 #include "boinc_win.h" /* get annotation macros from sal.h */ /* define the ones that don't exist */ #include "sal.h" /* These are just an annotations. They don't do anything */ #ifndef __success #define __success(x) #endif #ifndef __in #define __in #endif #ifndef __out #define __out #endif #ifndef __in_ecount #define __in_ecount(x) #endif #ifndef __out_ecount #define __out_ecount(x) #endif #ifndef __in_opt #define __in_opt #endif #ifndef __out_opt #define __out_opt #endif #ifndef __inout #define __inout #endif #ifndef __inout_opt #define __inout_opt #endif #ifndef __inout_ecount #define __inout_ecount(x) #endif #ifndef __inout_ecount_full #define __inout_ecount_full(x) #endif #ifndef __inout_ecount_part_opt #define __inout_ecount_part_opt(x,y) #endif #ifndef __inout_ecount_full_opt #define __inout_ecount_full_opt(x,y) #endif #ifndef __out_ecount_full_opt #define __out_ecount_full_opt(x) #endif #include "nvapi.h" #ifdef _MSC_VER #define snprintf _snprintf #endif #else #ifdef __APPLE__ // Suppress obsolete warning when building for OS 10.3.9 #define DLOPEN_NO_WARN #include #endif #include "config.h" #include #endif #include #include using std::vector; using std::string; #include "coproc.h" #include "util.h" #include "client_msgs.h" #include "gpu_detect.h" static void get_available_nvidia_ram(COPROC_NVIDIA &cc, vector& warnings); #if !(defined(_WIN32) || defined(__APPLE__)) static int nvidia_driver_version() { int (*nvml_init)() = NULL; int (*nvml_finish)() = NULL; int (*nvml_driver)(char *f, unsigned int len) = NULL; int dri_ver = 0; void *handle = NULL; char driver_string[81]; handle = dlopen("libnvidia-ml.so", RTLD_NOW); if (!handle) goto end; nvml_driver = (int(*)(char *, unsigned int)) dlsym(handle, "nvmlSystemGetDriverVersion"); nvml_init = (int(*)(void)) dlsym(handle, "nvmlInit"); nvml_finish = (int(*)(void)) dlsym(handle, "nvmlShutdown"); if (!nvml_driver || !nvml_init || !nvml_finish) goto end; if (nvml_init()) goto end; if (nvml_driver(driver_string, 80)) goto end; dri_ver = (int) (100. * atof(driver_string)); end: if (nvml_finish) nvml_finish(); if (handle) dlclose(handle); return dri_ver; } #endif // return 1/-1/0 if device 1 is more/less/same capable than device 2. // factors (decreasing priority): // - compute capability // - software version // - available memory // - speed // // If "loose", ignore FLOPS and tolerate small memory diff // int nvidia_compare(COPROC_NVIDIA& c1, COPROC_NVIDIA& c2, bool loose) { if (c1.prop.major > c2.prop.major) return 1; if (c1.prop.major < c2.prop.major) return -1; if (c1.prop.minor > c2.prop.minor) return 1; if (c1.prop.minor < c2.prop.minor) return -1; if (c1.cuda_version > c2.cuda_version) return 1; if (c1.cuda_version < c2.cuda_version) return -1; if (loose) { if (c1.available_ram> 1.4*c2.available_ram) return 1; if (c1.available_ram < .7* c2.available_ram) return -1; return 0; } if (c1.available_ram > c2.available_ram) return 1; if (c1.available_ram < c2.available_ram) return -1; double s1 = c1.peak_flops; double s2 = c2.peak_flops; if (s1 > s2) return 1; if (s1 < s2) return -1; return 0; } enum CUdevice_attribute_enum { CU_DEVICE_ATTRIBUTE_MAX_THREADS_PER_BLOCK = 1, CU_DEVICE_ATTRIBUTE_MAX_BLOCK_DIM_X = 2, CU_DEVICE_ATTRIBUTE_MAX_BLOCK_DIM_Y = 3, CU_DEVICE_ATTRIBUTE_MAX_BLOCK_DIM_Z = 4, CU_DEVICE_ATTRIBUTE_MAX_GRID_DIM_X = 5, CU_DEVICE_ATTRIBUTE_MAX_GRID_DIM_Y = 6, CU_DEVICE_ATTRIBUTE_MAX_GRID_DIM_Z = 7, CU_DEVICE_ATTRIBUTE_SHARED_MEMORY_PER_BLOCK = 8, CU_DEVICE_ATTRIBUTE_TOTAL_CONSTANT_MEMORY = 9, CU_DEVICE_ATTRIBUTE_WARP_SIZE = 10, CU_DEVICE_ATTRIBUTE_MAX_PITCH = 11, CU_DEVICE_ATTRIBUTE_REGISTERS_PER_BLOCK = 12, CU_DEVICE_ATTRIBUTE_CLOCK_RATE = 13, CU_DEVICE_ATTRIBUTE_TEXTURE_ALIGNMENT = 14, CU_DEVICE_ATTRIBUTE_GPU_OVERLAP = 15, CU_DEVICE_ATTRIBUTE_MULTIPROCESSOR_COUNT = 16, CU_DEVICE_ATTRIBUTE_KERNEL_EXEC_TIMEOUT = 17, CU_DEVICE_ATTRIBUTE_INTEGRATED = 18, CU_DEVICE_ATTRIBUTE_CAN_MAP_HOST_MEMORY = 19, CU_DEVICE_ATTRIBUTE_PCI_BUS_ID = 33, CU_DEVICE_ATTRIBUTE_PCI_DEVICE_ID = 34, CU_DEVICE_ATTRIBUTE_PCI_DOMAIN_ID = 50 }; #ifdef _WIN32 typedef int (__stdcall *CUDA_GDC)(int *count); typedef int (__stdcall *CUDA_GDV)(int* version); typedef int (__stdcall *CUDA_GDI)(unsigned int); typedef int (__stdcall *CUDA_GDG)(int*, int); typedef int (__stdcall *CUDA_GDA)(int*, int, int); typedef int (__stdcall *CUDA_GDN)(char*, int, int); typedef int (__stdcall *CUDA_GDM)(size_t*, int); typedef int (__stdcall *CUDA_GDCC)(int*, int*, int); typedef int (__stdcall *CUDA_CC)(void**, unsigned int, unsigned int); typedef int (__stdcall *CUDA_CD)(void*); typedef int (__stdcall *CUDA_MA)(unsigned int*, size_t); typedef int (__stdcall *CUDA_MF)(unsigned int); typedef int (__stdcall *CUDA_MGI)(size_t*, size_t*); CUDA_GDC __cuDeviceGetCount = NULL; CUDA_GDV __cuDriverGetVersion = NULL; CUDA_GDI __cuInit = NULL; CUDA_GDG __cuDeviceGet = NULL; CUDA_GDA __cuDeviceGetAttribute = NULL; CUDA_GDN __cuDeviceGetName = NULL; CUDA_GDM __cuDeviceTotalMem = NULL; CUDA_GDCC __cuDeviceComputeCapability = NULL; CUDA_CC __cuCtxCreate = NULL; CUDA_CD __cuCtxDestroy = NULL; CUDA_MA __cuMemAlloc = NULL; CUDA_MF __cuMemFree = NULL; CUDA_MGI __cuMemGetInfo = NULL; #else void* cudalib; int (*__cuInit)(unsigned int); int (*__cuDeviceGetCount)(int*); int (*__cuDriverGetVersion)(int*); int (*__cuDeviceGet)(int*, int); int (*__cuDeviceGetAttribute)(int*, int, int); int (*__cuDeviceGetName)(char*, int, int); int (*__cuDeviceTotalMem)(size_t*, int); int (*__cuDeviceComputeCapability)(int*, int*, int); int (*__cuCtxCreate)(void**, unsigned int, unsigned int); int (*__cuCtxDestroy)(void*); int (*__cuMemAlloc)(unsigned int*, size_t); int (*__cuMemFree)(unsigned int); int (*__cuMemGetInfo)(size_t*, size_t*); #endif // NVIDIA interfaces are documented here: // http://developer.download.nvidia.com/compute/cuda/2_3/toolkit/docs/online/index.html void COPROC_NVIDIA::get( vector& warnings ) { int cuda_ndevs, retval; char buf[256]; #ifdef _WIN32 HMODULE cudalib = LoadLibrary("nvcuda.dll"); if (!cudalib) { warnings.push_back("No NVIDIA library found"); return; } __cuDeviceGetCount = (CUDA_GDC)GetProcAddress( cudalib, "cuDeviceGetCount" ); __cuDriverGetVersion = (CUDA_GDV)GetProcAddress( cudalib, "cuDriverGetVersion" ); __cuInit = (CUDA_GDI)GetProcAddress( cudalib, "cuInit" ); __cuDeviceGet = (CUDA_GDG)GetProcAddress( cudalib, "cuDeviceGet" ); __cuDeviceGetAttribute = (CUDA_GDA)GetProcAddress( cudalib, "cuDeviceGetAttribute" ); __cuDeviceGetName = (CUDA_GDN)GetProcAddress( cudalib, "cuDeviceGetName" ); __cuDeviceTotalMem = (CUDA_GDM)GetProcAddress( cudalib, "cuDeviceTotalMem" ); __cuDeviceComputeCapability = (CUDA_GDCC)GetProcAddress( cudalib, "cuDeviceComputeCapability" ); __cuCtxCreate = (CUDA_CC)GetProcAddress( cudalib, "cuCtxCreate" ); __cuCtxDestroy = (CUDA_CD)GetProcAddress( cudalib, "cuCtxDestroy" ); __cuMemAlloc = (CUDA_MA)GetProcAddress( cudalib, "cuMemAlloc" ); __cuMemFree = (CUDA_MF)GetProcAddress( cudalib, "cuMemFree" ); __cuMemGetInfo = (CUDA_MGI)GetProcAddress( cudalib, "cuMemGetInfo" ); #ifndef SIM NvAPI_Initialize(); NvAPI_ShortString ss; NvU32 Version = 0; NvAPI_SYS_GetDriverAndBranchVersion(&Version, ss); #if 0 // NvAPI now provides an API for getting #cores :-) // But not FLOPs per clock cycle :-( // Anyway, don't use this for now because server code estimates FLOPS // based on compute capability, so we may as well do the same // See http://docs.nvidia.com/gameworks/content/gameworkslibrary/coresdk/nvapi/ // NvPhysicalGpuHandle GPUHandle[NVAPI_MAX_PHYSICAL_GPUS]; NvU32 GpuCount, nc; NvAPI_EnumPhysicalGPUs(GPUHandle, &GpuCount); for (unsigned int i=0; i 100) continue; // e.g. 9999 is an error #if defined(_WIN32) && !defined(SIM) cc.display_driver_version = Version; #elif defined(__APPLE__) cc.display_driver_version = NSVersionOfRunTimeLibrary("cuda"); #else cc.display_driver_version = nvidia_driver_version(); #endif cc.have_cuda = true; cc.cuda_version = cuda_version; cc.device_num = j; cc.set_peak_flops(); get_available_nvidia_ram(cc, warnings); nvidia_gpus.push_back(cc); } if (!nvidia_gpus.size()) { warnings.push_back("No CUDA-capable NVIDIA GPUs found"); } } void COPROC_NVIDIA::correlate( bool use_all, // if false, use only those equivalent to most capable vector& ignore_devs ) { unsigned int i; if (!nvidia_gpus.size()) return; // identify the most capable non-ignored instance // bool first = true; for (i=0; i= 6050) && nvidia_gpus[i].prop.major < 2) { // Can't use GPUs with compute capability < 2 with CUDA drivers >= 6.5.x nvidia_gpus[i].is_used = COPROC_UNUSED; continue; } #endif if (first) { *this = nvidia_gpus[i]; first = false; } else if (nvidia_compare(nvidia_gpus[i], *this, false) > 0) { *this = nvidia_gpus[i]; } } // see which other instances are equivalent, // and set "count", "device_nums", and "pci_infos" // count = 0; for (i=0; ihave_opencl && !nvidia_gpus[i].have_opencl) { nvidia_gpus[i].is_used = COPROC_UNUSED; } else if (this->have_cuda && !nvidia_gpus[i].have_cuda) { nvidia_gpus[i].is_used = COPROC_UNUSED; #ifdef __APPLE__ } else if (nvidia_gpus[i].is_used == COPROC_UNUSED) { // Can't use GPUs with compute capability < 2 with CUDA drivers >= 6.5.x continue; #endif } else if (use_all || !nvidia_compare(nvidia_gpus[i], *this, true)) { device_nums[count] = nvidia_gpus[i].device_num; pci_infos[count] = nvidia_gpus[i].pci_info; count++; nvidia_gpus[i].is_used = COPROC_USED; } else { nvidia_gpus[i].is_used = COPROC_UNUSED; } } } // See how much RAM is available on this GPU. // // CAUTION: as currently written, this method should be // called only from COPROC_NVIDIA::get(). If in the // future you wish to call it from additional places: // * It must be called from a separate child process on // dual-GPU laptops (e.g., Macbook Pros) with the results // communicated to the main client process via IPC or a // temp file. See the comments about dual-GPU laptops // in gpu_detect.cpp and main.cpp for more details. // * The CUDA library must be loaded and cuInit() called // first. // * See client/coproc_detect.cpp and cpu_sched.cpp in // BOINC 6.12.36 for an earlier attempt to call this // from the scheduler. Note that it was abandoned // due to repeated calls crashing the driver. // static void get_available_nvidia_ram(COPROC_NVIDIA &cc, vector& warnings) { int retval; size_t memfree = 0, memtotal = 0; int device; void* ctx; char buf[256]; cc.available_ram = cc.prop.totalGlobalMem; if (!__cuDeviceGet) { warnings.push_back("cuDeviceGet() missing from NVIDIA library"); return; } if (!__cuCtxCreate) { warnings.push_back("cuCtxCreate() missing from NVIDIA library"); return; } if (!__cuCtxDestroy) { warnings.push_back("cuCtxDestroy() missing from NVIDIA library"); return; } if (!__cuMemGetInfo) { warnings.push_back("cuMemGetInfo() missing from NVIDIA library"); return; } retval = (*__cuDeviceGet)(&device, cc.device_num); if (retval) { snprintf(buf, sizeof(buf), "[coproc] cuDeviceGet(%d) returned %d", cc.device_num, retval ); warnings.push_back(buf); return; } retval = (*__cuCtxCreate)(&ctx, 0, device); if (retval) { snprintf(buf, sizeof(buf), "[coproc] cuCtxCreate(%d) returned %d", cc.device_num, retval ); warnings.push_back(buf); return; } retval = (*__cuMemGetInfo)(&memfree, &memtotal); if (retval) { snprintf(buf, sizeof(buf), "[coproc] cuMemGetInfo(%d) returned %d", cc.device_num, retval ); warnings.push_back(buf); (*__cuCtxDestroy)(ctx); return; } (*__cuCtxDestroy)(ctx); cc.available_ram = (double) memfree; } // check whether each GPU is running a graphics app (assume yes) // return true if there's been a change since last time // // CAUTION: this method is not currently used. If you wish // to call it in the future: // * It must be called from a separate child process on // dual-GPU laptops (e.g., Macbook Pros) with the results // communicated to the main client process via IPC or a // temp file. See the comments about dual-GPU laptops // in gpu_detect.cpp and main.cpp for more details. // * The CUDA library must be loaded and cuInit() called // first. // #if 0 bool COPROC_NVIDIA::check_running_graphics_app() { int retval, j; bool change = false; if (!__cuDeviceGet) { warnings.push_back("cuDeviceGet() missing from NVIDIA library"); return; } if (!__cuDeviceGetAttribute) { warnings.push_back("cuDeviceGetAttribute() missing from NVIDIA library"); return; } for (j=0; j