// Copyright (c) 2011 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // // Functions to enumerate the Dx Diagnostic Tool hierarchy and build up // a tree of nodes with name / value properties. #define INITGUID #include #include #include "base/string_number_conversions.h" #include "base/utf_string_conversions.h" #include "content/gpu/gpu_info_collector.h" // Functions in this file depend on functions exported from dxguid.dll. #pragma comment(lib, "dxguid.lib") namespace { // Traverses the IDxDiagContainer tree and populates a tree of DxDiagNode // structures that contains property name / value pairs and subtrees of DirectX // diagnostic information. void RecurseDiagnosticTree(content::DxDiagNode* output, IDxDiagContainer* container, int depth) { HRESULT hr; VARIANT variant; VariantInit(&variant); DWORD prop_count; hr = container->GetNumberOfProps(&prop_count); if (SUCCEEDED(hr)) { for (DWORD i = 0; i < prop_count; i++) { WCHAR prop_name16[256]; hr = container->EnumPropNames(i, prop_name16, arraysize(prop_name16)); if (SUCCEEDED(hr)) { std::string prop_name8 = WideToUTF8(prop_name16); hr = container->GetProp(prop_name16, &variant); if (SUCCEEDED(hr)) { switch (variant.vt) { case VT_UI4: output->values[prop_name8] = base::UintToString(variant.ulVal); break; case VT_I4: output->values[prop_name8] = base::IntToString(variant.lVal); break; case VT_BOOL: output->values[prop_name8] = variant.boolVal ? "true" : "false"; break; case VT_BSTR: output->values[prop_name8] = WideToUTF8(variant.bstrVal); break; default: break; } // Clear the variant (this is needed to free BSTR memory). VariantClear(&variant); } } } } if (depth > 0) { DWORD child_count; hr = container->GetNumberOfChildContainers(&child_count); if (SUCCEEDED(hr)) { for (DWORD i = 0; i < child_count; i++) { WCHAR child_name16[256]; hr = container->EnumChildContainerNames(i, child_name16, arraysize(child_name16)); if (SUCCEEDED(hr)) { std::string child_name8 = WideToUTF8(child_name16); content::DxDiagNode* output_child = &output->children[child_name8]; IDxDiagContainer* child_container = NULL; hr = container->GetChildContainer(child_name16, &child_container); if (SUCCEEDED(hr)) { RecurseDiagnosticTree(output_child, child_container, depth - 1); child_container->Release(); } } } } } } } // namespace anonymous namespace gpu_info_collector { bool GetDxDiagnostics(content::DxDiagNode* output) { HRESULT hr; bool success = false; IDxDiagProvider* provider = NULL; hr = CoCreateInstance(CLSID_DxDiagProvider, NULL, CLSCTX_INPROC_SERVER, IID_IDxDiagProvider, reinterpret_cast(&provider)); if (SUCCEEDED(hr)) { DXDIAG_INIT_PARAMS params = { sizeof(params) }; params.dwDxDiagHeaderVersion = DXDIAG_DX9_SDK_VERSION; params.bAllowWHQLChecks = FALSE; params.pReserved = NULL; hr = provider->Initialize(¶ms); if (SUCCEEDED(hr)) { IDxDiagContainer* root = NULL; hr = provider->GetRootContainer(&root); if (SUCCEEDED(hr)) { // Limit to the DisplayDevices subtree. The tree in its entirity is // enormous and only this branch contains useful information. IDxDiagContainer* display_devices = NULL; hr = root->GetChildContainer(L"DxDiag_DisplayDevices", &display_devices); if (SUCCEEDED(hr)) { RecurseDiagnosticTree(output, display_devices, 1); success = true; display_devices->Release(); } root->Release(); } } provider->Release(); } return success; } } // namespace gpu_info_collector