// 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. #include "content/gpu/gpu_info_collector.h" #include #include #include "base/command_line.h" #include "base/file_util.h" #include "base/logging.h" #include "base/memory/scoped_ptr.h" #include "base/string_piece.h" #include "base/string_split.h" #include "base/string_tokenizer.h" #include "base/string_util.h" #include "ui/gfx/gl/gl_bindings.h" #include "ui/gfx/gl/gl_context.h" #include "ui/gfx/gl/gl_implementation.h" #include "ui/gfx/gl/gl_surface.h" #include "ui/gfx/gl/gl_switches.h" namespace { // PciDevice and PciAccess are defined to access libpci functions. Their // members match the corresponding structures defined by libpci in size up to // fields we may access. For those members we don't use, their names are // defined as "fieldX", etc., or, left out if they are declared after the // members we care about in libpci. struct PciDevice { PciDevice* next; uint16 field0; uint8 field1; uint8 field2; uint8 field3; int field4; uint16 vendor_id; uint16 device_id; uint16 device_class; }; struct PciAccess { unsigned int field0; int field1; int field2; char* field3; int field4; int field5; unsigned int field6; int field7; void (*function0)(); void (*function1)(); void (*function2)(); PciDevice* device_list; }; // Define function types. typedef PciAccess* (*FT_pci_alloc)(); typedef void (*FT_pci_init)(PciAccess*); typedef void (*FT_pci_cleanup)(PciAccess*); typedef void (*FT_pci_scan_bus)(PciAccess*); typedef void (*FT_pci_scan_bus)(PciAccess*); typedef int (*FT_pci_fill_info)(PciDevice*, int); typedef char* (*FT_pci_lookup_name)(PciAccess*, char*, int, int, ...); // This includes dynamically linked library handle and functions pointers from // libpci. struct PciInterface { void* lib_handle; FT_pci_alloc pci_alloc; FT_pci_init pci_init; FT_pci_cleanup pci_cleanup; FT_pci_scan_bus pci_scan_bus; FT_pci_fill_info pci_fill_info; FT_pci_lookup_name pci_lookup_name; }; // This checks if a system supports PCI bus. // We check the existence of /sys/bus/pci or /sys/bug/pci_express. bool IsPciSupported() { const FilePath pci_path("/sys/bus/pci/"); const FilePath pcie_path("/sys/bus/pci_express/"); return (file_util::PathExists(pci_path) || file_util::PathExists(pcie_path)); } // This dynamically opens libpci and get function pointers we need. Return // NULL if library fails to open or any functions can not be located. // Returned interface (if not NULL) should be deleted in FinalizeLibPci. PciInterface* InitializeLibPci(const char* lib_name) { void* handle = dlopen(lib_name, RTLD_LAZY); if (handle == NULL) { VLOG(1) << "Failed to dlopen " << lib_name; return NULL; } PciInterface* interface = new struct PciInterface; interface->lib_handle = handle; interface->pci_alloc = reinterpret_cast( dlsym(handle, "pci_alloc")); interface->pci_init = reinterpret_cast( dlsym(handle, "pci_init")); interface->pci_cleanup = reinterpret_cast( dlsym(handle, "pci_cleanup")); interface->pci_scan_bus = reinterpret_cast( dlsym(handle, "pci_scan_bus")); interface->pci_fill_info = reinterpret_cast( dlsym(handle, "pci_fill_info")); interface->pci_lookup_name = reinterpret_cast( dlsym(handle, "pci_lookup_name")); if (interface->pci_alloc == NULL || interface->pci_init == NULL || interface->pci_cleanup == NULL || interface->pci_scan_bus == NULL || interface->pci_fill_info == NULL || interface->pci_lookup_name == NULL) { VLOG(1) << "Missing required function(s) from " << lib_name; dlclose(handle); delete interface; return NULL; } return interface; } // This close the dynamically opened libpci and delete the interface. void FinalizeLibPci(PciInterface** interface) { DCHECK(interface && *interface && (*interface)->lib_handle); dlclose((*interface)->lib_handle); delete (*interface); *interface = NULL; } // Scan /etc/ati/amdpcsdb.default for "ReleaseVersion". // Return "" on failing. std::string CollectDriverVersionATI() { const FilePath::CharType kATIFileName[] = FILE_PATH_LITERAL("/etc/ati/amdpcsdb.default"); FilePath ati_file_path(kATIFileName); if (!file_util::PathExists(ati_file_path)) return ""; std::string contents; if (!file_util::ReadFileToString(ati_file_path, &contents)) return ""; StringTokenizer t(contents, "\r\n"); while (t.GetNext()) { std::string line = t.token(); if (StartsWithASCII(line, "ReleaseVersion=", true)) { size_t begin = line.find_first_of("0123456789"); if (begin != std::string::npos) { size_t end = line.find_first_not_of("0123456789.", begin); if (end == std::string::npos) return line.substr(begin); else return line.substr(begin, end - begin); } } } return ""; } } // namespace anonymous namespace gpu_info_collector { bool CollectGraphicsInfo(content::GPUInfo* gpu_info) { DCHECK(gpu_info); if (CommandLine::ForCurrentProcess()->HasSwitch( switches::kGpuNoContextLost)) { gpu_info->can_lose_context = false; } else { // TODO(zmo): need to consider the case where we are running on top // of desktop GL and GL_ARB_robustness extension is available. gpu_info->can_lose_context = (gfx::GetGLImplementation() == gfx::kGLImplementationEGLGLES2); } gpu_info->finalized = true; bool rt = CollectGraphicsInfoGL(gpu_info); if (gpu_info->vendor_id == 0x1002) { // ATI std::string ati_driver_version = CollectDriverVersionATI(); if (ati_driver_version != "") { gpu_info->driver_vendor = "ATI / AMD"; gpu_info->driver_version = ati_driver_version; } } return rt; } bool CollectPreliminaryGraphicsInfo(content::GPUInfo* gpu_info) { DCHECK(gpu_info); return CollectVideoCardInfo(gpu_info); } bool CollectVideoCardInfo(content::GPUInfo* gpu_info) { DCHECK(gpu_info); if (IsPciSupported() == false) { VLOG(1) << "PCI bus scanning is not supported"; return false; } // TODO(zmo): be more flexible about library name. PciInterface* interface = InitializeLibPci("libpci.so.3"); if (interface == NULL) interface = InitializeLibPci("libpci.so"); if (interface == NULL) { VLOG(1) << "Failed to locate libpci"; return false; } PciAccess* access = (interface->pci_alloc)(); DCHECK(access != NULL); (interface->pci_init)(access); (interface->pci_scan_bus)(access); std::vector gpu_list; PciDevice* gpu_active = NULL; for (PciDevice* device = access->device_list; device != NULL; device = device->next) { (interface->pci_fill_info)(device, 33); // Fill the IDs and class fields. // TODO(zmo): there might be other classes that qualify as display devices. if (device->device_class == 0x0300) { // Device class is DISPLAY_VGA. if (gpu_info->vendor_id == 0 || gpu_info->vendor_id == device->vendor_id) gpu_list.push_back(device); } } if (gpu_list.size() == 1) { gpu_active = gpu_list[0]; } else { // If more than one graphics card are identified, find the one that matches // gl VENDOR and RENDERER info. std::string gl_vendor_string = gpu_info->gl_vendor; std::string gl_renderer_string = gpu_info->gl_renderer; const int buffer_size = 255; scoped_array buffer(new char[buffer_size]); std::vector candidates; for (size_t i = 0; i < gpu_list.size(); ++i) { PciDevice* gpu = gpu_list[i]; // The current implementation of pci_lookup_name returns the same pointer // as the passed in upon success, and a different one (NULL or a pointer // to an error message) upon failure. if ((interface->pci_lookup_name)(access, buffer.get(), buffer_size, 1, gpu->vendor_id) != buffer.get()) continue; std::string vendor_string = buffer.get(); const bool kCaseSensitive = false; if (!StartsWithASCII(gl_vendor_string, vendor_string, kCaseSensitive)) continue; if ((interface->pci_lookup_name)(access, buffer.get(), buffer_size, 2, gpu->vendor_id, gpu->device_id) != buffer.get()) continue; std::string device_string = buffer.get(); size_t begin = device_string.find_first_of('['); size_t end = device_string.find_last_of(']'); if (begin != std::string::npos && end != std::string::npos && begin < end) { device_string = device_string.substr(begin + 1, end - begin - 1); } if (StartsWithASCII(gl_renderer_string, device_string, kCaseSensitive)) { gpu_active = gpu; break; } // If a device's vendor matches gl VENDOR string, we want to consider the // possibility that libpci may not return the exact same name as gl // RENDERER string. candidates.push_back(gpu); } if (gpu_active == NULL && candidates.size() == 1) gpu_active = candidates[0]; } if (gpu_active != NULL) { gpu_info->vendor_id = gpu_active->vendor_id; gpu_info->device_id = gpu_active->device_id; } (interface->pci_cleanup)(access); FinalizeLibPci(&interface); return (gpu_active != NULL); } bool CollectDriverInfoGL(content::GPUInfo* gpu_info) { DCHECK(gpu_info); std::string gl_version_string = gpu_info->gl_version_string; if (StartsWithASCII(gl_version_string, "OpenGL ES", true)) gl_version_string = gl_version_string.substr(10); std::vector pieces; base::SplitStringAlongWhitespace(gl_version_string, &pieces); // In linux, the gl version string might be in the format of // GLVersion DriverVendor DriverVersion if (pieces.size() < 3) return false; std::string driver_version = pieces[2]; size_t pos = driver_version.find_first_not_of("0123456789."); if (pos == 0) return false; if (pos != std::string::npos) driver_version = driver_version.substr(0, pos); gpu_info->driver_vendor = pieces[1]; gpu_info->driver_version = driver_version; return true; } } // namespace gpu_info_collector