// 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_test_config.h" #include "base/logging.h" #include "base/sys_info.h" #include "gpu/config/gpu_info.h" #include "gpu/config/gpu_info_collector.h" #include "gpu/config/gpu_test_expectations_parser.h" #if defined(OS_MACOSX) #include "base/mac/mac_util.h" #elif defined(OS_WIN) #include "base/win/windows_version.h" #endif namespace gpu { namespace { GPUTestConfig::OS GetCurrentOS() { #if defined(OS_CHROMEOS) return GPUTestConfig::kOsChromeOS; #elif defined(OS_LINUX) || defined(OS_OPENBSD) return GPUTestConfig::kOsLinux; #elif defined(OS_WIN) int32 major_version = 0; int32 minor_version = 0; int32 bugfix_version = 0; base::SysInfo::OperatingSystemVersionNumbers( &major_version, &minor_version, &bugfix_version); if (major_version == 5) return GPUTestConfig::kOsWinXP; if (major_version == 6 && minor_version == 0) return GPUTestConfig::kOsWinVista; if (major_version == 6 && minor_version == 1) return GPUTestConfig::kOsWin7; if (major_version == 6 && (minor_version == 2 || minor_version == 3)) return GPUTestConfig::kOsWin8; #elif defined(OS_MACOSX) int32 major_version = 0; int32 minor_version = 0; int32 bugfix_version = 0; base::SysInfo::OperatingSystemVersionNumbers( &major_version, &minor_version, &bugfix_version); if (major_version == 10) { switch (minor_version) { case 5: return GPUTestConfig::kOsMacLeopard; case 6: return GPUTestConfig::kOsMacSnowLeopard; case 7: return GPUTestConfig::kOsMacLion; case 8: return GPUTestConfig::kOsMacMountainLion; case 9: return GPUTestConfig::kOsMacMavericks; } } #elif defined(OS_ANDROID) return GPUTestConfig::kOsAndroid; #endif return GPUTestConfig::kOsUnknown; } } // namespace anonymous GPUTestConfig::GPUTestConfig() : validate_gpu_info_(true), os_(kOsUnknown), gpu_device_id_(0), build_type_(kBuildTypeUnknown) { } GPUTestConfig::~GPUTestConfig() { } void GPUTestConfig::set_os(int32 os) { DCHECK_EQ(0, os & ~(kOsAndroid | kOsWin | kOsMac | kOsLinux | kOsChromeOS)); os_ = os; } void GPUTestConfig::AddGPUVendor(uint32 gpu_vendor) { DCHECK_NE(0u, gpu_vendor); for (size_t i = 0; i < gpu_vendor_.size(); ++i) DCHECK_NE(gpu_vendor_[i], gpu_vendor); gpu_vendor_.push_back(gpu_vendor); } void GPUTestConfig::set_gpu_device_id(uint32 id) { gpu_device_id_ = id; } void GPUTestConfig::set_build_type(int32 build_type) { DCHECK_EQ(0, build_type & ~(kBuildTypeRelease | kBuildTypeDebug)); build_type_ = build_type; } bool GPUTestConfig::IsValid() const { if (!validate_gpu_info_) return true; if (gpu_device_id_ != 0 && (gpu_vendor_.size() != 1 || gpu_vendor_[0] == 0)) return false; return true; } bool GPUTestConfig::OverlapsWith(const GPUTestConfig& config) const { DCHECK(IsValid()); DCHECK(config.IsValid()); if (config.os_ != kOsUnknown && os_ != kOsUnknown && (os_ & config.os_) == 0) return false; if (config.gpu_vendor_.size() > 0 && gpu_vendor_.size() > 0) { bool shared = false; for (size_t i = 0; i < config.gpu_vendor_.size() && !shared; ++i) { for (size_t j = 0; j < gpu_vendor_.size(); ++j) { if (config.gpu_vendor_[i] == gpu_vendor_[j]) { shared = true; break; } } } if (!shared) return false; } if (config.gpu_device_id_ != 0 && gpu_device_id_ != 0 && gpu_device_id_ != config.gpu_device_id_) return false; if (config.build_type_ != kBuildTypeUnknown && build_type_ != kBuildTypeUnknown && (build_type_ & config.build_type_) == 0) return false; return true; } void GPUTestConfig::DisableGPUInfoValidation() { validate_gpu_info_ = false; } void GPUTestConfig::ClearGPUVendor() { gpu_vendor_.clear(); } GPUTestBotConfig::~GPUTestBotConfig() { } void GPUTestBotConfig::AddGPUVendor(uint32 gpu_vendor) { DCHECK_EQ(0u, GPUTestConfig::gpu_vendor().size()); GPUTestConfig::AddGPUVendor(gpu_vendor); } bool GPUTestBotConfig::SetGPUInfo(const GPUInfo& gpu_info) { DCHECK(validate_gpu_info_); if (gpu_info.gpu.device_id == 0 || gpu_info.gpu.vendor_id == 0) return false; ClearGPUVendor(); AddGPUVendor(gpu_info.gpu.vendor_id); set_gpu_device_id(gpu_info.gpu.device_id); return true; } bool GPUTestBotConfig::IsValid() const { switch (os()) { case kOsWinXP: case kOsWinVista: case kOsWin7: case kOsWin8: case kOsMacLeopard: case kOsMacSnowLeopard: case kOsMacLion: case kOsMacMountainLion: case kOsMacMavericks: case kOsLinux: case kOsChromeOS: case kOsAndroid: break; default: return false; } if (validate_gpu_info_) { if (gpu_vendor().size() != 1 || gpu_vendor()[0] == 0) return false; if (gpu_device_id() == 0) return false; } switch (build_type()) { case kBuildTypeRelease: case kBuildTypeDebug: break; default: return false; } return true; } bool GPUTestBotConfig::Matches(const GPUTestConfig& config) const { DCHECK(IsValid()); DCHECK(config.IsValid()); if (config.os() != kOsUnknown && (os() & config.os()) == 0) return false; if (config.gpu_vendor().size() > 0) { bool contained = false; for (size_t i = 0; i < config.gpu_vendor().size(); ++i) { if (config.gpu_vendor()[i] == gpu_vendor()[0]) { contained = true; break; } } if (!contained) return false; } if (config.gpu_device_id() != 0 && gpu_device_id() != config.gpu_device_id()) return false; if (config.build_type() != kBuildTypeUnknown && (build_type() & config.build_type()) == 0) return false; return true; } bool GPUTestBotConfig::Matches(const std::string& config_data) const { GPUTestExpectationsParser parser; GPUTestConfig config; if (!parser.ParseConfig(config_data, &config)) return false; return Matches(config); } bool GPUTestBotConfig::LoadCurrentConfig(const GPUInfo* gpu_info) { bool rt; if (gpu_info == NULL) { GPUInfo my_gpu_info; CollectInfoResult result = CollectGpuID( &my_gpu_info.gpu.vendor_id, &my_gpu_info.gpu.device_id); if (result != kCollectInfoSuccess) { LOG(ERROR) << "Fail to identify GPU"; DisableGPUInfoValidation(); rt = true; } else { rt = SetGPUInfo(my_gpu_info); } } else { rt = SetGPUInfo(*gpu_info); } set_os(GetCurrentOS()); if (os() == kOsUnknown) { LOG(ERROR) << "Unknown OS"; rt = false; } #if defined(NDEBUG) set_build_type(kBuildTypeRelease); #else set_build_type(kBuildTypeDebug); #endif return rt; } // static bool GPUTestBotConfig::CurrentConfigMatches(const std::string& config_data) { GPUTestBotConfig my_config; if (!my_config.LoadCurrentConfig(NULL)) return false; return my_config.Matches(config_data); } // static bool GPUTestBotConfig::CurrentConfigMatches( const std::vector& configs) { GPUTestBotConfig my_config; if (!my_config.LoadCurrentConfig(NULL)) return false; for (size_t i = 0 ; i < configs.size(); ++i) { if (my_config.Matches(configs[i])) return true; } return false; } // static bool GPUTestBotConfig::GpuBlacklistedOnBot() { #if defined(OS_MACOSX) // Blacklist rule #81 disables all Gpu acceleration on Mac < 10.8 bots. if (CurrentConfigMatches("MAC VMWARE") && base::mac::IsOSLionOrEarlier()) { return true; } #elif defined(OS_WIN) // Blacklist rule #79 disables all Gpu acceleration before Windows 7. if (base::win::GetVersion() <= base::win::VERSION_VISTA) { return true; } #endif return false; } } // namespace gpu