// Copyright (c) 2012 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. #include "gpu/config/gpu_info_collector.h" #include #include "base/debug/trace_event.h" #include "base/logging.h" #include "base/mac/mac_util.h" #include "base/mac/scoped_cftyperef.h" #include "base/memory/scoped_ptr.h" #include "base/strings/string_number_conversions.h" #include "base/strings/string_piece.h" #include "base/strings/string_util.h" #include "base/strings/sys_string_conversions.h" #include "ui/gl/gl_bindings.h" #include "ui/gl/gl_context.h" #include "ui/gl/gl_implementation.h" #import #import #import namespace gpu { namespace { const UInt32 kVendorIDIntel = 0x8086; const UInt32 kVendorIDNVidia = 0x10de; const UInt32 kVendorIDAMD = 0x1002; // Return 0 if we couldn't find the property. // The property values we use should not be 0, so it's OK to use 0 as failure. UInt32 GetEntryProperty(io_registry_entry_t entry, CFStringRef property_name) { base::ScopedCFTypeRef data_ref( static_cast(IORegistryEntrySearchCFProperty( entry, kIOServicePlane, property_name, kCFAllocatorDefault, kIORegistryIterateRecursively | kIORegistryIterateParents))); if (!data_ref) return 0; UInt32 value = 0; const UInt32* value_pointer = reinterpret_cast(CFDataGetBytePtr(data_ref)); if (value_pointer != NULL) value = *value_pointer; return value; } // Find the info of the current GPU. GPUInfo::GPUDevice GetActiveGPU() { GPUInfo::GPUDevice gpu; io_registry_entry_t dsp_port = CGDisplayIOServicePort(kCGDirectMainDisplay); gpu.vendor_id = GetEntryProperty(dsp_port, CFSTR("vendor-id")); gpu.device_id = GetEntryProperty(dsp_port, CFSTR("device-id")); return gpu; } // Scan IO registry for PCI video cards. CollectInfoResult CollectPCIVideoCardInfo(GPUInfo* gpu_info) { DCHECK(gpu_info); GPUInfo::GPUDevice active_gpu = GetActiveGPU(); // Collect all GPUs' info. // match_dictionary will be consumed by IOServiceGetMatchingServices, no need // to release it. CFMutableDictionaryRef match_dictionary = IOServiceMatching("IOPCIDevice"); io_iterator_t entry_iterator; std::vector gpu_list; if (IOServiceGetMatchingServices(kIOMasterPortDefault, match_dictionary, &entry_iterator) == kIOReturnSuccess) { io_registry_entry_t entry; while ((entry = IOIteratorNext(entry_iterator))) { GPUInfo::GPUDevice gpu; if (GetEntryProperty(entry, CFSTR("class-code")) != 0x30000) { // 0x30000 : DISPLAY_VGA continue; } gpu.vendor_id = GetEntryProperty(entry, CFSTR("vendor-id")); gpu.device_id = GetEntryProperty(entry, CFSTR("device-id")); if (gpu.vendor_id && gpu.device_id) { if (gpu.vendor_id == active_gpu.vendor_id && gpu.device_id == active_gpu.device_id) { gpu.active = true; } gpu_list.push_back(gpu); } } IOObjectRelease(entry_iterator); } switch (gpu_list.size()) { case 0: return kCollectInfoNonFatalFailure; case 1: gpu_info->gpu = gpu_list[0]; break; case 2: { int integrated = -1; int discrete = -1; if (gpu_list[0].vendor_id == kVendorIDIntel) integrated = 0; else if (gpu_list[1].vendor_id == kVendorIDIntel) integrated = 1; if (integrated >= 0) { switch (gpu_list[1 - integrated].vendor_id) { case kVendorIDAMD: gpu_info->amd_switchable = true; discrete = 1 - integrated; break; case kVendorIDNVidia: gpu_info->optimus = true; discrete = 1 - integrated; break; default: break; } } if (integrated >= 0 && discrete >= 0) { // We always put discrete GPU as primary for blacklisting purpose. gpu_info->gpu = gpu_list[discrete]; gpu_info->secondary_gpus.push_back(gpu_list[integrated]); break; } // If it's not optimus or amd_switchable, we put the current GPU as // primary. Fall through to default. } default: { size_t current = gpu_list.size(); for (size_t i = 0; i < gpu_list.size(); ++i) { if (gpu_list[i].active) { current = i; break; } } if (current == gpu_list.size()) { // If we fail to identify the current GPU, select any one as primary. current = 0; } for (size_t i = 0; i < gpu_list.size(); ++i) { if (i == current) gpu_info->gpu = gpu_list[i]; else gpu_info->secondary_gpus.push_back(gpu_list[i]); } } break; } if (gpu_info->gpu.vendor_id == 0 || gpu_info->gpu.device_id == 0) return kCollectInfoNonFatalFailure; return kCollectInfoSuccess; } } // namespace anonymous CollectInfoResult CollectContextGraphicsInfo(GPUInfo* gpu_info) { DCHECK(gpu_info); TRACE_EVENT0("gpu", "gpu_info_collector::CollectGraphicsInfo"); gpu_info->can_lose_context = (gfx::GetGLImplementation() == gfx::kGLImplementationEGLGLES2); CollectInfoResult result = CollectGraphicsInfoGL(gpu_info); gpu_info->context_info_state = result; return result; } CollectInfoResult CollectGpuID(uint32* vendor_id, uint32* device_id) { DCHECK(vendor_id && device_id); GPUInfo::GPUDevice gpu = GetActiveGPU(); *vendor_id = gpu.vendor_id; *device_id = gpu.device_id; if (*vendor_id != 0 && *device_id != 0) return kCollectInfoSuccess; return kCollectInfoNonFatalFailure; } CollectInfoResult CollectBasicGraphicsInfo(GPUInfo* gpu_info) { DCHECK(gpu_info); int32 model_major = 0, model_minor = 0; base::mac::ParseModelIdentifier(base::mac::GetModelIdentifier(), &gpu_info->machine_model_name, &model_major, &model_minor); gpu_info->machine_model_version = base::IntToString(model_major) + "." + base::IntToString(model_minor); CollectInfoResult result = CollectPCIVideoCardInfo(gpu_info); gpu_info->basic_info_state = result; return result; } CollectInfoResult CollectDriverInfoGL(GPUInfo* gpu_info) { DCHECK(gpu_info); // Extract the OpenGL driver version string from the GL_VERSION string. // Mac OpenGL drivers have the driver version // at the end of the gl version string preceded by a dash. // Use some jiggery-pokery to turn that utf8 string into a std::wstring. size_t pos = gpu_info->gl_version.find_last_of('-'); if (pos == std::string::npos) return kCollectInfoNonFatalFailure; gpu_info->driver_version = gpu_info->gl_version.substr(pos + 1); return kCollectInfoSuccess; } void MergeGPUInfo(GPUInfo* basic_gpu_info, const GPUInfo& context_gpu_info) { MergeGPUInfoGL(basic_gpu_info, context_gpu_info); } } // namespace gpu