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https://github.com/NVIDIA/nvidia-container-toolkit
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44ae31d101
D3DKMTEnumAdapters3 is required to enumerate MCDM compute-only adapters Signed-off-by: Jakub Bujak <jbujak@nvidia.com>
399 lines
14 KiB
C
399 lines
14 KiB
C
/*
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* Copyright (c) 2020, NVIDIA CORPORATION. All rights reserved.
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*/
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#include <dlfcn.h>
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#include <stdlib.h>
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#include "dxcore.h"
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// We define log_write as an empty macro to allow dxcore to remain unchanged.
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#define log_write(...)
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// We define the following macros to allow dxcore to remain largely unchanged.
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#define log_info(msg) log_write('I', __FILE__, __LINE__, msg)
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#define log_warn(msg) log_write('W', __FILE__, __LINE__, msg)
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#define log_err(msg) log_write('E', __FILE__, __LINE__, msg)
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#define log_infof(fmt, ...) log_write('I', __FILE__, __LINE__, fmt, __VA_ARGS__)
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#define log_warnf(fmt, ...) log_write('W', __FILE__, __LINE__, fmt, __VA_ARGS__)
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#define log_errf(fmt, ...) log_write('E', __FILE__, __LINE__, fmt, __VA_ARGS__)
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#define DXCORE_MAX_PATH 260
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/*
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* List of components we expect to find in the driver store that we need to mount
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*/
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static const char * const dxcore_nvidia_driver_store_components[] = {
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"libcuda.so.1.1", /* Core library for cuda support */
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"libcuda_loader.so", /* Core library for cuda support on WSL */
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"libnvidia-ptxjitcompiler.so.1", /* Core library for PTX Jit support */
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"libnvidia-ml.so.1", /* Core library for nvml */
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"libnvidia-ml_loader.so", /* Core library for nvml on WSL */
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"nvidia-smi", /* nvidia-smi binary*/
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"nvcubins.bin", /* Binary containing GPU code for cuda */
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};
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/*
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* List of functions and structures we need to communicate with libdxcore.
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* Documentation on these functions can be found on docs.microsoft.com in d3dkmthk.
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*/
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struct dxcore_enumAdapters2;
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struct dxcore_enumAdapters3;
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struct dxcore_queryAdapterInfo;
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typedef int(*pfnDxcoreEnumAdapters2)(struct dxcore_enumAdapters2* pParams);
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typedef int(*pfnDxcoreEnumAdapters3)(struct dxcore_enumAdapters3* pParams);
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typedef int(*pfnDxcoreQueryAdapterInfo)(struct dxcore_queryAdapterInfo* pParams);
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struct dxcore_lib {
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void* hDxcoreLib;
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pfnDxcoreEnumAdapters2 pDxcoreEnumAdapters2;
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pfnDxcoreEnumAdapters3 pDxcoreEnumAdapters3;
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pfnDxcoreQueryAdapterInfo pDxcoreQueryAdapterInfo;
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};
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struct dxcore_adapterInfo
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{
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unsigned int hAdapter;
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struct dxcore_luid AdapterLuid;
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unsigned int NumOfSources;
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unsigned int bPresentMoveRegionsPreferred;
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};
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struct dxcore_enumAdapters2
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{
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unsigned int NumAdapters;
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struct dxcore_adapterInfo *pAdapters;
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};
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#define ENUMADAPTER3_FILTER_COMPUTE_ONLY (0x0000000000000001)
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struct dxcore_enumAdapters3
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{
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unsigned long long Filter;
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unsigned int NumAdapters;
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struct dxcore_adapterInfo *pAdapters;
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};
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enum dxcore_kmtqueryAdapterInfoType
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{
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DXCORE_QUERYDRIVERVERSION = 13,
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DXCORE_QUERYREGISTRY = 48,
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};
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enum dxcore_queryregistry_type {
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DXCORE_QUERYREGISTRY_DRIVERSTOREPATH = 2,
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DXCORE_QUERYREGISTRY_DRIVERIMAGEPATH = 3,
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};
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enum dxcore_queryregistry_status {
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DXCORE_QUERYREGISTRY_STATUS_SUCCESS = 0,
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DXCORE_QUERYREGISTRY_STATUS_BUFFER_OVERFLOW = 1,
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DXCORE_QUERYREGISTRY_STATUS_FAIL = 2,
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};
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struct dxcore_queryregistry_info {
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enum dxcore_queryregistry_type QueryType;
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unsigned int QueryFlags;
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wchar_t ValueName[DXCORE_MAX_PATH];
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unsigned int ValueType;
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unsigned int PhysicalAdapterIndex;
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unsigned int OutputValueSize;
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enum dxcore_queryregistry_status Status;
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union {
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unsigned long long OutputQword;
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wchar_t Output;
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};
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};
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struct dxcore_queryAdapterInfo
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{
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unsigned int hAdapter;
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enum dxcore_kmtqueryAdapterInfoType Type;
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void *pPrivateDriverData;
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unsigned int PrivateDriverDataSize;
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};
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static int dxcore_query_adapter_info_helper(struct dxcore_lib* pLib,
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unsigned int hAdapter,
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enum dxcore_kmtqueryAdapterInfoType type,
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void* pPrivateDriverDate,
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unsigned int privateDriverDataSize)
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{
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struct dxcore_queryAdapterInfo queryAdapterInfo = { 0 };
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queryAdapterInfo.hAdapter = hAdapter;
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queryAdapterInfo.Type = type;
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queryAdapterInfo.pPrivateDriverData = pPrivateDriverDate;
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queryAdapterInfo.PrivateDriverDataSize = privateDriverDataSize;
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return pLib->pDxcoreQueryAdapterInfo(&queryAdapterInfo);
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}
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static int dxcore_query_adapter_wddm_version(struct dxcore_lib* pLib, unsigned int hAdapter, unsigned int* version)
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{
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return dxcore_query_adapter_info_helper(pLib,
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hAdapter,
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DXCORE_QUERYDRIVERVERSION,
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(void*)version,
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sizeof(*version));
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}
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static int dxcore_query_adapter_driverstore(struct dxcore_lib* pLib, unsigned int hAdapter, char** ppDriverStorePath)
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{
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struct dxcore_queryregistry_info params = {0};
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struct dxcore_queryregistry_info* pValue = NULL;
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wchar_t* pOutput;
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size_t outputSizeInBytes;
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size_t outputSize;
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params.QueryType = DXCORE_QUERYREGISTRY_DRIVERSTOREPATH;
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if (dxcore_query_adapter_info_helper(pLib,
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hAdapter,
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DXCORE_QUERYREGISTRY,
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(void*)¶ms,
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sizeof(params)))
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{
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log_err("Failed to query driver store path size for the WDDM Adapter");
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return (-1);
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}
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if (params.OutputValueSize > DXCORE_MAX_PATH * sizeof(wchar_t)) {
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log_err("The driver store path size returned by dxcore is not valid");
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return (-1);
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}
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outputSizeInBytes = (size_t)params.OutputValueSize;
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outputSize = outputSizeInBytes / sizeof(wchar_t);
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pValue = calloc(sizeof(struct dxcore_queryregistry_info) + outputSizeInBytes + sizeof(wchar_t), 1);
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if (!pValue) {
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log_err("Out of memory while allocating temp buffer to query adapter info");
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return (-1);
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}
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pValue->QueryType = DXCORE_QUERYREGISTRY_DRIVERSTOREPATH;
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pValue->OutputValueSize = (unsigned int)outputSizeInBytes;
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if (dxcore_query_adapter_info_helper(pLib,
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hAdapter,
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DXCORE_QUERYREGISTRY,
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(void*)pValue,
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(unsigned int)(sizeof(struct dxcore_queryregistry_info) + outputSizeInBytes)))
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{
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log_err("Failed to query driver store path data for the WDDM Adapter");
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free(pValue);
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return (-1);
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}
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pOutput = (wchar_t*)(&pValue->Output);
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// Make sure no matter what happened the wchar_t string is null terminated
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pOutput[outputSize] = L'\0';
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// Convert the output into a regular c string
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*ppDriverStorePath = (char*)calloc(outputSize + 1, sizeof(char));
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if (!*ppDriverStorePath) {
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log_err("Out of memory while allocating the buffer for the driver store path");
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free(pValue);
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return (-1);
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}
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wcstombs(*ppDriverStorePath, pOutput, outputSize);
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free(pValue);
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return 0;
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}
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static void dxcore_add_adapter(struct dxcore_context* pCtx, struct dxcore_lib* pLib, struct dxcore_adapterInfo *pAdapterInfo)
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{
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unsigned int wddmVersion = 0;
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char* driverStorePath = NULL;
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log_infof("Creating a new WDDM Adapter for hAdapter:%x luid:%llx", pAdapterInfo->hAdapter, *((unsigned long long*)&pAdapterInfo->AdapterLuid));
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if (dxcore_query_adapter_wddm_version(pLib, pAdapterInfo->hAdapter, &wddmVersion)) {
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log_err("Failed to query the WDDM version for the specified adapter. Skipping it.");
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return;
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}
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if (wddmVersion < 2700) {
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log_err("Found a WDDM adapter running a driver with pre-WDDM 2.7 . Skipping it.");
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return;
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}
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if (dxcore_query_adapter_driverstore(pLib, pAdapterInfo->hAdapter, &driverStorePath)) {
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log_err("Failed to query driver store path for the WDDM Adapter . Skipping it.");
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return;
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}
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// We got all the info we needed. Adding it to the tracking structure.
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{
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struct dxcore_adapter* newList;
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newList = realloc(pCtx->adapterList, sizeof(struct dxcore_adapter) * (pCtx->adapterCount + 1));
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if (!newList) {
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log_err("Out of memory when trying to add a new WDDM Adapter to the list of valid adapters");
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free(driverStorePath);
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return;
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}
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pCtx->adapterList = newList;
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pCtx->adapterList[pCtx->adapterCount].hAdapter = pAdapterInfo->hAdapter;
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pCtx->adapterList[pCtx->adapterCount].pDriverStorePath = driverStorePath;
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pCtx->adapterList[pCtx->adapterCount].wddmVersion = wddmVersion;
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pCtx->adapterCount++;
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}
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log_infof("Adding new adapter via dxcore hAdapter:%x luid:%llx wddm version:%d", pAdapterInfo->hAdapter, *((unsigned long long*)&pAdapterInfo->AdapterLuid), wddmVersion);
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}
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static int dxcore_enum_adapters3(struct dxcore_context* pCtx, struct dxcore_lib* pLib)
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{
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struct dxcore_enumAdapters3 params = {0};
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unsigned int adapterIndex = 0;
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// Include compute-only in addition to display+compute adapters
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params.Filter = ENUMADAPTER3_FILTER_COMPUTE_ONLY;
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params.NumAdapters = 0;
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params.pAdapters = NULL;
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if (pLib->pDxcoreEnumAdapters3(¶ms)) {
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log_err("Failed to enumerate adapters via enumAdapers3");
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return 1;
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}
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params.pAdapters = malloc(sizeof(struct dxcore_adapterInfo) * params.NumAdapters);
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if (pLib->pDxcoreEnumAdapters3(¶ms)) {
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free(params.pAdapters);
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log_err("Failed to enumerate adapters via enumAdapers3");
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return 1;
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}
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for (adapterIndex = 0; adapterIndex < params.NumAdapters; adapterIndex++) {
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dxcore_add_adapter(pCtx, pLib, ¶ms.pAdapters[adapterIndex]);
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}
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free(params.pAdapters);
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return 0;
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}
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static int dxcore_enum_adapters2(struct dxcore_context* pCtx, struct dxcore_lib* pLib)
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{
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struct dxcore_enumAdapters2 params = {0};
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unsigned int adapterIndex = 0;
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params.NumAdapters = 0;
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params.pAdapters = NULL;
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if (pLib->pDxcoreEnumAdapters2(¶ms)) {
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log_err("Failed to enumerate adapters via enumAdapters2");
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return 1;
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}
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params.pAdapters = malloc(sizeof(struct dxcore_adapterInfo) * params.NumAdapters);
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if (pLib->pDxcoreEnumAdapters2(¶ms)) {
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free(params.pAdapters);
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log_err("Failed to enumerate adapters via enumAdapters2");
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return 1;
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}
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for (adapterIndex = 0; adapterIndex < params.NumAdapters; adapterIndex++) {
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dxcore_add_adapter(pCtx, pLib, ¶ms.pAdapters[adapterIndex]);
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}
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free(params.pAdapters);
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return 0;
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}
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static void dxcore_enum_adapters(struct dxcore_context* pCtx, struct dxcore_lib* pLib)
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{
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int status;
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if (pLib->pDxcoreEnumAdapters3) {
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status = dxcore_enum_adapters3(pCtx, pLib);
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if (status == 0) {
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return;
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}
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}
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// Fall back to EnumAdapters2 if the OS doesn't support EnumAdapters3
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if (pLib->pDxcoreEnumAdapters2) {
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status = dxcore_enum_adapters2(pCtx, pLib);
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if (status == 0) {
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return;
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}
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}
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log_err("Failed to enumerate adapters via dxcore");
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}
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int dxcore_init_context(struct dxcore_context* pCtx)
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{
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struct dxcore_lib lib = {0};
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pCtx->initialized = 0;
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pCtx->adapterCount = 0;
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pCtx->adapterList = NULL;
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lib.hDxcoreLib = dlopen("libdxcore.so", RTLD_LAZY);
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if (!lib.hDxcoreLib) {
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goto error;
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}
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lib.pDxcoreEnumAdapters2 = (pfnDxcoreEnumAdapters2)dlsym(lib.hDxcoreLib, "D3DKMTEnumAdapters2");
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lib.pDxcoreEnumAdapters3 = (pfnDxcoreEnumAdapters3)dlsym(lib.hDxcoreLib, "D3DKMTEnumAdapters3");
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if (!lib.pDxcoreEnumAdapters2 && !lib.pDxcoreEnumAdapters3) {
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log_err("dxcore library is present but the symbols D3DKMTEnumAdapters2 and D3DKMTEnumAdapters3 are missing");
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goto error;
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}
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lib.pDxcoreQueryAdapterInfo = (pfnDxcoreQueryAdapterInfo)dlsym(lib.hDxcoreLib, "D3DKMTQueryAdapterInfo");
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if (!lib.pDxcoreQueryAdapterInfo) {
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log_err("dxcore library is present but the symbol D3DKMTQueryAdapterInfo is missing");
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goto error;
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}
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dxcore_enum_adapters(pCtx, &lib);
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log_info("dxcore layer initialized successfully");
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pCtx->initialized = 1;
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dlclose(lib.hDxcoreLib);
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return 0;
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error:
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dxcore_deinit_context(pCtx);
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if (lib.hDxcoreLib)
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dlclose(lib.hDxcoreLib);
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return (-1);
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}
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static void dxcore_deinit_adapter(struct dxcore_adapter* pAdapter)
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{
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if (!pAdapter)
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return;
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free(pAdapter->pDriverStorePath);
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}
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void dxcore_deinit_context(struct dxcore_context* pCtx)
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{
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unsigned int adapterIndex = 0;
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if (!pCtx)
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return;
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for (adapterIndex = 0; adapterIndex < pCtx->adapterCount; adapterIndex++) {
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dxcore_deinit_adapter(&pCtx->adapterList[adapterIndex]);
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}
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free(pCtx->adapterList);
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pCtx->initialized = 0;
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}
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