/* vim: se cin sw=2 ts=2 et : */ /* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "mozilla/ArrayUtils.h" #include "GfxInfoBase.h" #include // std::call_once #include "GfxDriverInfo.h" #include "js/Array.h" // JS::GetArrayLength, JS::NewArrayObject #include "js/PropertyAndElement.h" // JS_SetElement, JS_SetProperty #include "nsCOMPtr.h" #include "nsCOMArray.h" #include "nsString.h" #include "nsUnicharUtils.h" #include "nsVersionComparator.h" #include "mozilla/Services.h" #include "mozilla/Observer.h" #include "nsIObserver.h" #include "nsIObserverService.h" #include "nsIScreenManager.h" #include "nsTArray.h" #include "nsXULAppAPI.h" #include "nsIXULAppInfo.h" #include "mozilla/ClearOnShutdown.h" #include "mozilla/Preferences.h" #include "mozilla/StaticPrefs_gfx.h" #include "mozilla/gfx/2D.h" #include "mozilla/gfx/GPUProcessManager.h" #include "mozilla/gfx/Logging.h" #include "mozilla/gfx/gfxVars.h" #include "gfxPlatform.h" #include "gfxConfig.h" #include "DriverCrashGuard.h" using namespace mozilla::widget; using namespace mozilla; using mozilla::MutexAutoLock; nsTArray* GfxInfoBase::sDriverInfo; StaticAutoPtr> GfxInfoBase::sFeatureStatus; bool GfxInfoBase::sDriverInfoObserverInitialized; bool GfxInfoBase::sShutdownOccurred; // Call this when setting sFeatureStatus to a non-null pointer to // ensure destruction even if the GfxInfo component is never instantiated. static void InitFeatureStatus(nsTArray* aPtr) { static std::once_flag sOnce; std::call_once(sOnce, [] { ClearOnShutdown(&GfxInfoBase::sFeatureStatus); }); GfxInfoBase::sFeatureStatus = aPtr; } // Observes for shutdown so that the child GfxDriverInfo list is freed. class ShutdownObserver : public nsIObserver { virtual ~ShutdownObserver() = default; public: ShutdownObserver() = default; NS_DECL_ISUPPORTS NS_IMETHOD Observe(nsISupports* subject, const char* aTopic, const char16_t* aData) override { MOZ_ASSERT(strcmp(aTopic, NS_XPCOM_SHUTDOWN_OBSERVER_ID) == 0); delete GfxInfoBase::sDriverInfo; GfxInfoBase::sDriverInfo = nullptr; for (auto& deviceFamily : GfxDriverInfo::sDeviceFamilies) { delete deviceFamily; deviceFamily = nullptr; } for (auto& desktop : GfxDriverInfo::sDesktopEnvironment) { delete desktop; desktop = nullptr; } for (auto& windowProtocol : GfxDriverInfo::sWindowProtocol) { delete windowProtocol; windowProtocol = nullptr; } for (auto& deviceVendor : GfxDriverInfo::sDeviceVendors) { delete deviceVendor; deviceVendor = nullptr; } for (auto& driverVendor : GfxDriverInfo::sDriverVendors) { delete driverVendor; driverVendor = nullptr; } GfxInfoBase::sShutdownOccurred = true; return NS_OK; } }; NS_IMPL_ISUPPORTS(ShutdownObserver, nsIObserver) static void InitGfxDriverInfoShutdownObserver() { if (GfxInfoBase::sDriverInfoObserverInitialized) return; GfxInfoBase::sDriverInfoObserverInitialized = true; nsCOMPtr observerService = services::GetObserverService(); if (!observerService) { NS_WARNING("Could not get observer service!"); return; } ShutdownObserver* obs = new ShutdownObserver(); observerService->AddObserver(obs, NS_XPCOM_SHUTDOWN_OBSERVER_ID, false); } using namespace mozilla::widget; using namespace mozilla::gfx; using namespace mozilla; NS_IMPL_ISUPPORTS(GfxInfoBase, nsIGfxInfo, nsIObserver, nsISupportsWeakReference) #define BLOCKLIST_PREF_BRANCH "gfx.blacklist." #define SUGGESTED_VERSION_PREF BLOCKLIST_PREF_BRANCH "suggested-driver-version" static const char* GetPrefNameForFeature(int32_t aFeature) { const char* name = nullptr; switch (aFeature) { case nsIGfxInfo::FEATURE_DIRECT2D: name = BLOCKLIST_PREF_BRANCH "direct2d"; break; case nsIGfxInfo::FEATURE_DIRECT3D_9_LAYERS: name = BLOCKLIST_PREF_BRANCH "layers.direct3d9"; break; case nsIGfxInfo::FEATURE_DIRECT3D_10_LAYERS: name = BLOCKLIST_PREF_BRANCH "layers.direct3d10"; break; case nsIGfxInfo::FEATURE_DIRECT3D_10_1_LAYERS: name = BLOCKLIST_PREF_BRANCH "layers.direct3d10-1"; break; case nsIGfxInfo::FEATURE_DIRECT3D_11_LAYERS: name = BLOCKLIST_PREF_BRANCH "layers.direct3d11"; break; case nsIGfxInfo::FEATURE_DIRECT3D_11_ANGLE: name = BLOCKLIST_PREF_BRANCH "direct3d11angle"; break; case nsIGfxInfo::FEATURE_HARDWARE_VIDEO_DECODING: name = BLOCKLIST_PREF_BRANCH "hardwarevideodecoding"; break; case nsIGfxInfo::FEATURE_OPENGL_LAYERS: name = BLOCKLIST_PREF_BRANCH "layers.opengl"; break; case nsIGfxInfo::FEATURE_WEBGL_OPENGL: name = BLOCKLIST_PREF_BRANCH "webgl.opengl"; break; case nsIGfxInfo::FEATURE_WEBGL_ANGLE: name = BLOCKLIST_PREF_BRANCH "webgl.angle"; break; case nsIGfxInfo::UNUSED_FEATURE_WEBGL_MSAA: name = BLOCKLIST_PREF_BRANCH "webgl.msaa"; break; case nsIGfxInfo::FEATURE_STAGEFRIGHT: name = BLOCKLIST_PREF_BRANCH "stagefright"; break; case nsIGfxInfo::FEATURE_WEBRTC_HW_ACCELERATION_H264: name = BLOCKLIST_PREF_BRANCH "webrtc.hw.acceleration.h264"; break; case nsIGfxInfo::FEATURE_WEBRTC_HW_ACCELERATION_ENCODE: name = BLOCKLIST_PREF_BRANCH "webrtc.hw.acceleration.encode"; break; case nsIGfxInfo::FEATURE_WEBRTC_HW_ACCELERATION_DECODE: name = BLOCKLIST_PREF_BRANCH "webrtc.hw.acceleration.decode"; break; case nsIGfxInfo::FEATURE_CANVAS2D_ACCELERATION: name = BLOCKLIST_PREF_BRANCH "canvas2d.acceleration"; break; case nsIGfxInfo::FEATURE_DX_INTEROP2: name = BLOCKLIST_PREF_BRANCH "dx.interop2"; break; case nsIGfxInfo::FEATURE_GPU_PROCESS: name = BLOCKLIST_PREF_BRANCH "gpu.process"; break; case nsIGfxInfo::FEATURE_WEBGL2: name = BLOCKLIST_PREF_BRANCH "webgl2"; break; case nsIGfxInfo::FEATURE_D3D11_KEYED_MUTEX: name = BLOCKLIST_PREF_BRANCH "d3d11.keyed.mutex"; break; case nsIGfxInfo::FEATURE_WEBRENDER: name = BLOCKLIST_PREF_BRANCH "webrender"; break; case nsIGfxInfo::FEATURE_WEBRENDER_COMPOSITOR: name = BLOCKLIST_PREF_BRANCH "webrender.compositor"; break; case nsIGfxInfo::FEATURE_DX_NV12: name = BLOCKLIST_PREF_BRANCH "dx.nv12"; break; case nsIGfxInfo::FEATURE_DX_P010: name = BLOCKLIST_PREF_BRANCH "dx.p010"; break; case nsIGfxInfo::FEATURE_DX_P016: name = BLOCKLIST_PREF_BRANCH "dx.p016"; break; case nsIGfxInfo::FEATURE_VP8_HW_DECODE: case nsIGfxInfo::FEATURE_VP9_HW_DECODE: // We don't provide prefs for these features as these are // not handling downloadable blocklist. break; case nsIGfxInfo::FEATURE_GL_SWIZZLE: name = BLOCKLIST_PREF_BRANCH "gl.swizzle"; break; case nsIGfxInfo::FEATURE_WEBRENDER_SCISSORED_CACHE_CLEARS: name = BLOCKLIST_PREF_BRANCH "webrender.scissored_cache_clears"; break; case nsIGfxInfo::FEATURE_ALLOW_WEBGL_OUT_OF_PROCESS: name = BLOCKLIST_PREF_BRANCH "webgl.allow-oop"; break; case nsIGfxInfo::FEATURE_THREADSAFE_GL: name = BLOCKLIST_PREF_BRANCH "gl.threadsafe"; break; case nsIGfxInfo::FEATURE_WEBRENDER_OPTIMIZED_SHADERS: name = BLOCKLIST_PREF_BRANCH "webrender.optimized-shaders"; break; case nsIGfxInfo::FEATURE_X11_EGL: name = BLOCKLIST_PREF_BRANCH "x11.egl"; break; case nsIGfxInfo::FEATURE_DMABUF: name = BLOCKLIST_PREF_BRANCH "dmabuf"; break; case nsIGfxInfo::FEATURE_WEBRENDER_SHADER_CACHE: name = BLOCKLIST_PREF_BRANCH "webrender.program-binary-disk"; break; default: MOZ_ASSERT_UNREACHABLE("Unexpected nsIGfxInfo feature?!"); break; } return name; } // Returns the value of the pref for the relevant feature in aValue. // If the pref doesn't exist, aValue is not touched, and returns false. static bool GetPrefValueForFeature(int32_t aFeature, int32_t& aValue, nsACString& aFailureId) { const char* prefname = GetPrefNameForFeature(aFeature); if (!prefname) return false; aValue = nsIGfxInfo::FEATURE_STATUS_UNKNOWN; if (!NS_SUCCEEDED(Preferences::GetInt(prefname, &aValue))) { return false; } nsCString failureprefname(prefname); failureprefname += ".failureid"; nsAutoCString failureValue; nsresult rv = Preferences::GetCString(failureprefname.get(), failureValue); if (NS_SUCCEEDED(rv)) { aFailureId = failureValue.get(); } else { aFailureId = "FEATURE_FAILURE_BLOCKLIST_PREF"; } return true; } static void SetPrefValueForFeature(int32_t aFeature, int32_t aValue, const nsACString& aFailureId) { const char* prefname = GetPrefNameForFeature(aFeature); if (!prefname) return; if (XRE_IsParentProcess()) { GfxInfoBase::sFeatureStatus = nullptr; } Preferences::SetInt(prefname, aValue); if (!aFailureId.IsEmpty()) { nsCString failureprefname(prefname); failureprefname += ".failureid"; Preferences::SetCString(failureprefname.get(), aFailureId); } } static void RemovePrefForFeature(int32_t aFeature) { const char* prefname = GetPrefNameForFeature(aFeature); if (!prefname) return; if (XRE_IsParentProcess()) { GfxInfoBase::sFeatureStatus = nullptr; } Preferences::ClearUser(prefname); } static bool GetPrefValueForDriverVersion(nsCString& aVersion) { return NS_SUCCEEDED( Preferences::GetCString(SUGGESTED_VERSION_PREF, aVersion)); } static void SetPrefValueForDriverVersion(const nsAString& aVersion) { Preferences::SetString(SUGGESTED_VERSION_PREF, aVersion); } static void RemovePrefForDriverVersion() { Preferences::ClearUser(SUGGESTED_VERSION_PREF); } static OperatingSystem BlocklistOSToOperatingSystem(const nsAString& os) { if (os.EqualsLiteral("WINNT 6.1")) { return OperatingSystem::Windows7; } if (os.EqualsLiteral("WINNT 6.2")) { return OperatingSystem::Windows8; } if (os.EqualsLiteral("WINNT 6.3")) { return OperatingSystem::Windows8_1; } if (os.EqualsLiteral("WINNT 10.0")) { return OperatingSystem::Windows10; } if (os.EqualsLiteral("Linux")) { return OperatingSystem::Linux; } if (os.EqualsLiteral("Darwin 9")) { return OperatingSystem::OSX10_5; } if (os.EqualsLiteral("Darwin 10")) { return OperatingSystem::OSX10_6; } if (os.EqualsLiteral("Darwin 11")) { return OperatingSystem::OSX10_7; } if (os.EqualsLiteral("Darwin 12")) { return OperatingSystem::OSX10_8; } if (os.EqualsLiteral("Darwin 13")) { return OperatingSystem::OSX10_9; } if (os.EqualsLiteral("Darwin 14")) { return OperatingSystem::OSX10_10; } if (os.EqualsLiteral("Darwin 15")) { return OperatingSystem::OSX10_11; } if (os.EqualsLiteral("Darwin 16")) { return OperatingSystem::OSX10_12; } if (os.EqualsLiteral("Darwin 17")) { return OperatingSystem::OSX10_13; } if (os.EqualsLiteral("Darwin 18")) { return OperatingSystem::OSX10_14; } if (os.EqualsLiteral("Darwin 19")) { return OperatingSystem::OSX10_15; } if (os.EqualsLiteral("Darwin 20")) { return OperatingSystem::OSX11_0; } if (os.EqualsLiteral("Android")) { return OperatingSystem::Android; // For historical reasons, "All" in blocklist means "All Windows" } if (os.EqualsLiteral("All")) { return OperatingSystem::Windows; } if (os.EqualsLiteral("Darwin")) { return OperatingSystem::OSX; } return OperatingSystem::Unknown; } static GfxDeviceFamily* BlocklistDevicesToDeviceFamily( nsTArray& devices) { if (devices.Length() == 0) return nullptr; // For each device, get its device ID, and return a freshly-allocated // GfxDeviceFamily with the contents of that array. GfxDeviceFamily* deviceIds = new GfxDeviceFamily; for (uint32_t i = 0; i < devices.Length(); ++i) { // We make sure we don't add any "empty" device entries to the array, so // we don't need to check if devices[i] is empty. deviceIds->Append(NS_ConvertUTF8toUTF16(devices[i])); } return deviceIds; } static int32_t BlocklistFeatureToGfxFeature(const nsAString& aFeature) { MOZ_ASSERT(!aFeature.IsEmpty()); if (aFeature.EqualsLiteral("DIRECT2D")) { return nsIGfxInfo::FEATURE_DIRECT2D; } if (aFeature.EqualsLiteral("DIRECT3D_9_LAYERS")) { return nsIGfxInfo::FEATURE_DIRECT3D_9_LAYERS; } if (aFeature.EqualsLiteral("DIRECT3D_10_LAYERS")) { return nsIGfxInfo::FEATURE_DIRECT3D_10_LAYERS; } if (aFeature.EqualsLiteral("DIRECT3D_10_1_LAYERS")) { return nsIGfxInfo::FEATURE_DIRECT3D_10_1_LAYERS; } if (aFeature.EqualsLiteral("DIRECT3D_11_LAYERS")) { return nsIGfxInfo::FEATURE_DIRECT3D_11_LAYERS; } if (aFeature.EqualsLiteral("DIRECT3D_11_ANGLE")) { return nsIGfxInfo::FEATURE_DIRECT3D_11_ANGLE; } if (aFeature.EqualsLiteral("HARDWARE_VIDEO_DECODING")) { return nsIGfxInfo::FEATURE_HARDWARE_VIDEO_DECODING; } if (aFeature.EqualsLiteral("OPENGL_LAYERS")) { return nsIGfxInfo::FEATURE_OPENGL_LAYERS; } if (aFeature.EqualsLiteral("WEBGL_OPENGL")) { return nsIGfxInfo::FEATURE_WEBGL_OPENGL; } if (aFeature.EqualsLiteral("WEBGL_ANGLE")) { return nsIGfxInfo::FEATURE_WEBGL_ANGLE; } if (aFeature.EqualsLiteral("WEBGL_MSAA")) { return nsIGfxInfo::UNUSED_FEATURE_WEBGL_MSAA; } if (aFeature.EqualsLiteral("STAGEFRIGHT")) { return nsIGfxInfo::FEATURE_STAGEFRIGHT; } if (aFeature.EqualsLiteral("WEBRTC_HW_ACCELERATION_ENCODE")) { return nsIGfxInfo::FEATURE_WEBRTC_HW_ACCELERATION_ENCODE; } if (aFeature.EqualsLiteral("WEBRTC_HW_ACCELERATION_DECODE")) { return nsIGfxInfo::FEATURE_WEBRTC_HW_ACCELERATION_DECODE; } if (aFeature.EqualsLiteral("WEBRTC_HW_ACCELERATION_H264")) { return nsIGfxInfo::FEATURE_WEBRTC_HW_ACCELERATION_H264; } if (aFeature.EqualsLiteral("CANVAS2D_ACCELERATION")) { return nsIGfxInfo::FEATURE_CANVAS2D_ACCELERATION; } if (aFeature.EqualsLiteral("DX_INTEROP2")) { return nsIGfxInfo::FEATURE_DX_INTEROP2; } if (aFeature.EqualsLiteral("GPU_PROCESS")) { return nsIGfxInfo::FEATURE_GPU_PROCESS; } if (aFeature.EqualsLiteral("WEBGL2")) { return nsIGfxInfo::FEATURE_WEBGL2; } if (aFeature.EqualsLiteral("D3D11_KEYED_MUTEX")) { return nsIGfxInfo::FEATURE_D3D11_KEYED_MUTEX; } if (aFeature.EqualsLiteral("WEBRENDER")) { return nsIGfxInfo::FEATURE_WEBRENDER; } if (aFeature.EqualsLiteral("WEBRENDER_COMPOSITOR")) { return nsIGfxInfo::FEATURE_WEBRENDER_COMPOSITOR; } if (aFeature.EqualsLiteral("DX_NV12")) { return nsIGfxInfo::FEATURE_DX_NV12; } // We do not support FEATURE_VP8_HW_DECODE and FEATURE_VP9_HW_DECODE // in downloadable blocklist. if (aFeature.EqualsLiteral("GL_SWIZZLE")) { return nsIGfxInfo::FEATURE_GL_SWIZZLE; } if (aFeature.EqualsLiteral("WEBRENDER_SCISSORED_CACHE_CLEARS")) { return nsIGfxInfo::FEATURE_WEBRENDER_SCISSORED_CACHE_CLEARS; } if (aFeature.EqualsLiteral("ALLOW_WEBGL_OUT_OF_PROCESS")) { return nsIGfxInfo::FEATURE_ALLOW_WEBGL_OUT_OF_PROCESS; } if (aFeature.EqualsLiteral("THREADSAFE_GL")) { return nsIGfxInfo::FEATURE_THREADSAFE_GL; } if (aFeature.EqualsLiteral("X11_EGL")) { return nsIGfxInfo::FEATURE_X11_EGL; } if (aFeature.EqualsLiteral("DMABUF")) { return nsIGfxInfo::FEATURE_DMABUF; } // If we don't recognize the feature, it may be new, and something // this version doesn't understand. So, nothing to do. This is // different from feature not being specified at all, in which case // this method should not get called and we should continue with the // "all features" blocklisting. return -1; } static int32_t BlocklistFeatureStatusToGfxFeatureStatus( const nsAString& aStatus) { if (aStatus.EqualsLiteral("STATUS_OK")) { return nsIGfxInfo::FEATURE_STATUS_OK; } if (aStatus.EqualsLiteral("BLOCKED_DRIVER_VERSION")) { return nsIGfxInfo::FEATURE_BLOCKED_DRIVER_VERSION; } if (aStatus.EqualsLiteral("BLOCKED_DEVICE")) { return nsIGfxInfo::FEATURE_BLOCKED_DEVICE; } if (aStatus.EqualsLiteral("DISCOURAGED")) { return nsIGfxInfo::FEATURE_DISCOURAGED; } if (aStatus.EqualsLiteral("BLOCKED_OS_VERSION")) { return nsIGfxInfo::FEATURE_BLOCKED_OS_VERSION; } if (aStatus.EqualsLiteral("DENIED")) { return nsIGfxInfo::FEATURE_DENIED; } if (aStatus.EqualsLiteral("ALLOW_QUALIFIED")) { return nsIGfxInfo::FEATURE_ALLOW_QUALIFIED; } if (aStatus.EqualsLiteral("ALLOW_ALWAYS")) { return nsIGfxInfo::FEATURE_ALLOW_ALWAYS; } // Do not allow it to set STATUS_UNKNOWN. Also, we are not // expecting the "mismatch" status showing up here. return nsIGfxInfo::FEATURE_STATUS_OK; } static VersionComparisonOp BlocklistComparatorToComparisonOp( const nsAString& op) { if (op.EqualsLiteral("LESS_THAN")) { return DRIVER_LESS_THAN; } if (op.EqualsLiteral("BUILD_ID_LESS_THAN")) { return DRIVER_BUILD_ID_LESS_THAN; } if (op.EqualsLiteral("LESS_THAN_OR_EQUAL")) { return DRIVER_LESS_THAN_OR_EQUAL; } if (op.EqualsLiteral("BUILD_ID_LESS_THAN_OR_EQUAL")) { return DRIVER_BUILD_ID_LESS_THAN_OR_EQUAL; } if (op.EqualsLiteral("GREATER_THAN")) { return DRIVER_GREATER_THAN; } if (op.EqualsLiteral("GREATER_THAN_OR_EQUAL")) { return DRIVER_GREATER_THAN_OR_EQUAL; } if (op.EqualsLiteral("EQUAL")) { return DRIVER_EQUAL; } if (op.EqualsLiteral("NOT_EQUAL")) { return DRIVER_NOT_EQUAL; } if (op.EqualsLiteral("BETWEEN_EXCLUSIVE")) { return DRIVER_BETWEEN_EXCLUSIVE; } if (op.EqualsLiteral("BETWEEN_INCLUSIVE")) { return DRIVER_BETWEEN_INCLUSIVE; } if (op.EqualsLiteral("BETWEEN_INCLUSIVE_START")) { return DRIVER_BETWEEN_INCLUSIVE_START; } return DRIVER_COMPARISON_IGNORED; } /* Deserialize Blocklist entries from string. e.g: os:WINNT 6.0\tvendor:0x8086\tdevices:0x2582,0x2782\tfeature:DIRECT3D_10_LAYERS\tfeatureStatus:BLOCKED_DRIVER_VERSION\tdriverVersion:8.52.322.2202\tdriverVersionComparator:LESS_THAN_OR_EQUAL */ static bool BlocklistEntryToDriverInfo(const nsACString& aBlocklistEntry, GfxDriverInfo& aDriverInfo) { // If we get an application version to be zero, something is not working // and we are not going to bother checking the blocklist versions. // See TestGfxWidgets.cpp for how version comparison works. // static mozilla::Version zeroV("0"); static mozilla::Version appV(GfxInfoBase::GetApplicationVersion().get()); if (appV <= zeroV) { gfxCriticalErrorOnce(gfxCriticalError::DefaultOptions(false)) << "Invalid application version " << GfxInfoBase::GetApplicationVersion().get(); } aDriverInfo.mRuleId = "FEATURE_FAILURE_DL_BLOCKLIST_NO_ID"_ns; for (const auto& keyValue : aBlocklistEntry.Split('\t')) { nsTArray splitted; ParseString(keyValue, ':', splitted); if (splitted.Length() != 2) { // If we don't recognize the input data, we do not want to proceed. gfxCriticalErrorOnce(CriticalLog::DefaultOptions(false)) << "Unrecognized data " << nsCString(keyValue).get(); return false; } const nsCString& key = splitted[0]; const nsCString& value = splitted[1]; NS_ConvertUTF8toUTF16 dataValue(value); if (value.Length() == 0) { // Safety check for empty values. gfxCriticalErrorOnce(CriticalLog::DefaultOptions(false)) << "Empty value for " << key.get(); return false; } if (key.EqualsLiteral("blockID")) { nsCString blockIdStr = "FEATURE_FAILURE_DL_BLOCKLIST_"_ns + value; aDriverInfo.mRuleId = blockIdStr.get(); } else if (key.EqualsLiteral("os")) { aDriverInfo.mOperatingSystem = BlocklistOSToOperatingSystem(dataValue); } else if (key.EqualsLiteral("osversion")) { aDriverInfo.mOperatingSystemVersion = strtoul(value.get(), nullptr, 10); } else if (key.EqualsLiteral("desktopEnvironment")) { aDriverInfo.mDesktopEnvironment = dataValue; } else if (key.EqualsLiteral("windowProtocol")) { aDriverInfo.mWindowProtocol = dataValue; } else if (key.EqualsLiteral("vendor")) { aDriverInfo.mAdapterVendor = dataValue; } else if (key.EqualsLiteral("driverVendor")) { aDriverInfo.mDriverVendor = dataValue; } else if (key.EqualsLiteral("feature")) { aDriverInfo.mFeature = BlocklistFeatureToGfxFeature(dataValue); if (aDriverInfo.mFeature < 0) { // If we don't recognize the feature, we do not want to proceed. gfxCriticalErrorOnce(CriticalLog::DefaultOptions(false)) << "Unrecognized feature " << value.get(); return false; } } else if (key.EqualsLiteral("featureStatus")) { aDriverInfo.mFeatureStatus = BlocklistFeatureStatusToGfxFeatureStatus(dataValue); } else if (key.EqualsLiteral("driverVersion")) { uint64_t version; if (ParseDriverVersion(dataValue, &version)) aDriverInfo.mDriverVersion = version; } else if (key.EqualsLiteral("driverVersionMax")) { uint64_t version; if (ParseDriverVersion(dataValue, &version)) aDriverInfo.mDriverVersionMax = version; } else if (key.EqualsLiteral("driverVersionComparator")) { aDriverInfo.mComparisonOp = BlocklistComparatorToComparisonOp(dataValue); } else if (key.EqualsLiteral("model")) { aDriverInfo.mModel = dataValue; } else if (key.EqualsLiteral("product")) { aDriverInfo.mProduct = dataValue; } else if (key.EqualsLiteral("manufacturer")) { aDriverInfo.mManufacturer = dataValue; } else if (key.EqualsLiteral("hardware")) { aDriverInfo.mHardware = dataValue; } else if (key.EqualsLiteral("versionRange")) { nsTArray versionRange; ParseString(value, ',', versionRange); if (versionRange.Length() != 2) { gfxCriticalErrorOnce(CriticalLog::DefaultOptions(false)) << "Unrecognized versionRange " << value.get(); return false; } const nsCString& minValue = versionRange[0]; const nsCString& maxValue = versionRange[1]; mozilla::Version minV(minValue.get()); mozilla::Version maxV(maxValue.get()); if (minV > zeroV && !(appV >= minV)) { // The version of the application is less than the minimal version // this blocklist entry applies to, so we can just ignore it by // returning false and letting the caller deal with it. return false; } if (maxV > zeroV && !(appV <= maxV)) { // The version of the application is more than the maximal version // this blocklist entry applies to, so we can just ignore it by // returning false and letting the caller deal with it. return false; } } else if (key.EqualsLiteral("devices")) { nsTArray devices; ParseString(value, ',', devices); GfxDeviceFamily* deviceIds = BlocklistDevicesToDeviceFamily(devices); if (deviceIds) { // Get GfxDriverInfo to adopt the devices array we created. aDriverInfo.mDeleteDevices = true; aDriverInfo.mDevices = deviceIds; } } // We explicitly ignore unknown elements. } return true; } NS_IMETHODIMP GfxInfoBase::Observe(nsISupports* aSubject, const char* aTopic, const char16_t* aData) { if (strcmp(aTopic, "blocklist-data-gfxItems") == 0) { nsTArray driverInfo; NS_ConvertUTF16toUTF8 utf8Data(aData); for (const auto& blocklistEntry : utf8Data.Split('\n')) { GfxDriverInfo di; if (BlocklistEntryToDriverInfo(blocklistEntry, di)) { // XXX Changing this to driverInfo.AppendElement(di) causes leaks. // Probably some non-standard semantics of the copy/move operations? *driverInfo.AppendElement() = di; // Prevent di falling out of scope from destroying the devices. di.mDeleteDevices = false; } else { driverInfo.AppendElement(); } } EvaluateDownloadedBlocklist(driverInfo); } return NS_OK; } GfxInfoBase::GfxInfoBase() : mScreenPixels(INT64_MAX), mMutex("GfxInfoBase") {} GfxInfoBase::~GfxInfoBase() = default; nsresult GfxInfoBase::Init() { InitGfxDriverInfoShutdownObserver(); nsCOMPtr os = mozilla::services::GetObserverService(); if (os) { os->AddObserver(this, "blocklist-data-gfxItems", true); } return NS_OK; } void GfxInfoBase::GetData() { if (mScreenPixels != INT64_MAX) { // Already initialized. return; } nsCOMPtr manager = do_GetService("@mozilla.org/gfx/screenmanager;1"); if (!manager) { MOZ_ASSERT_UNREACHABLE("failed to get nsIScreenManager"); return; } manager->GetTotalScreenPixels(&mScreenPixels); } NS_IMETHODIMP GfxInfoBase::GetFeatureStatus(int32_t aFeature, nsACString& aFailureId, int32_t* aStatus) { // Ignore the gfx.blocklist.all pref on release and beta. #if defined(RELEASE_OR_BETA) int32_t blocklistAll = 0; #else int32_t blocklistAll = StaticPrefs::gfx_blocklist_all_AtStartup(); #endif if (blocklistAll > 0) { gfxCriticalErrorOnce(gfxCriticalError::DefaultOptions(false)) << "Forcing blocklisting all features"; *aStatus = FEATURE_BLOCKED_DEVICE; aFailureId = "FEATURE_FAILURE_BLOCK_ALL"; return NS_OK; } if (blocklistAll < 0) { gfxCriticalErrorOnce(gfxCriticalError::DefaultOptions(false)) << "Ignoring any feature blocklisting."; *aStatus = FEATURE_STATUS_OK; return NS_OK; } if (GetPrefValueForFeature(aFeature, *aStatus, aFailureId)) { return NS_OK; } if (XRE_IsContentProcess() || XRE_IsGPUProcess()) { // Use the cached data received from the parent process. MOZ_ASSERT(sFeatureStatus); bool success = false; for (const auto& fs : *sFeatureStatus) { if (fs.feature() == aFeature) { aFailureId = fs.failureId(); *aStatus = fs.status(); success = true; break; } } return success ? NS_OK : NS_ERROR_FAILURE; } nsString version; nsTArray driverInfo; nsresult rv = GetFeatureStatusImpl(aFeature, aStatus, version, driverInfo, aFailureId); return rv; } nsTArray GfxInfoBase::GetAllFeatures() { MOZ_RELEASE_ASSERT(XRE_IsParentProcess()); if (!sFeatureStatus) { InitFeatureStatus(new nsTArray()); for (int32_t i = 1; i <= nsIGfxInfo::FEATURE_MAX_VALUE; ++i) { int32_t status = 0; nsAutoCString failureId; GetFeatureStatus(i, failureId, &status); gfx::GfxInfoFeatureStatus gfxFeatureStatus; gfxFeatureStatus.feature() = i; gfxFeatureStatus.status() = status; gfxFeatureStatus.failureId() = failureId; sFeatureStatus->AppendElement(gfxFeatureStatus); } } nsTArray features; for (const auto& status : *sFeatureStatus) { gfx::GfxInfoFeatureStatus copy = status; features.AppendElement(copy); } return features; } inline bool MatchingAllowStatus(int32_t aStatus) { switch (aStatus) { case nsIGfxInfo::FEATURE_ALLOW_ALWAYS: case nsIGfxInfo::FEATURE_ALLOW_QUALIFIED: return true; default: return false; } } // Matching OS go somewhat beyond the simple equality check because of the // "All Windows" and "All OS X" variations. // // aBlockedOS is describing the system(s) we are trying to block. // aSystemOS is describing the system we are running on. // // aSystemOS should not be "Windows" or "OSX" - it should be set to // a particular version instead. // However, it is valid for aBlockedOS to be one of those generic values, // as we could be blocking all of the versions. inline bool MatchingOperatingSystems(OperatingSystem aBlockedOS, OperatingSystem aSystemOS, uint32_t aSystemOSBuild) { MOZ_ASSERT(aSystemOS != OperatingSystem::Windows && aSystemOS != OperatingSystem::OSX); // If the block entry OS is unknown, it doesn't match if (aBlockedOS == OperatingSystem::Unknown) { return false; } #if defined(XP_WIN) if (aBlockedOS == OperatingSystem::Windows) { // We do want even "unknown" aSystemOS to fall under "all windows" return true; } constexpr uint32_t kMinWin10BuildNumber = 18362; if (aBlockedOS == OperatingSystem::RecentWindows10 && aSystemOS == OperatingSystem::Windows10) { // For allowlist purposes, we sometimes want to restrict to only recent // versions of Windows 10. This is a bit of a kludge but easier than adding // complicated blocklist infrastructure for build ID comparisons like driver // versions. return aSystemOSBuild >= kMinWin10BuildNumber; } if (aBlockedOS == OperatingSystem::NotRecentWindows10) { if (aSystemOS == OperatingSystem::Windows10) { return aSystemOSBuild < kMinWin10BuildNumber; } else { return true; } } #endif #if defined(XP_MACOSX) if (aBlockedOS == OperatingSystem::OSX) { // We do want even "unknown" aSystemOS to fall under "all OS X" return true; } #endif return aSystemOS == aBlockedOS; } inline bool MatchingBattery(BatteryStatus aBatteryStatus, bool aHasBattery) { switch (aBatteryStatus) { case BatteryStatus::All: return true; case BatteryStatus::None: return !aHasBattery; case BatteryStatus::Present: return aHasBattery; } MOZ_ASSERT_UNREACHABLE("bad battery status"); return false; } inline bool MatchingScreenSize(ScreenSizeStatus aScreenStatus, int64_t aScreenPixels) { constexpr int64_t kMaxSmallPixels = 2304000; // 1920x1200 constexpr int64_t kMaxMediumPixels = 4953600; // 3440x1440 switch (aScreenStatus) { case ScreenSizeStatus::All: return true; case ScreenSizeStatus::Small: return aScreenPixels <= kMaxSmallPixels; case ScreenSizeStatus::SmallAndMedium: return aScreenPixels <= kMaxMediumPixels; case ScreenSizeStatus::Medium: return aScreenPixels > kMaxSmallPixels && aScreenPixels <= kMaxMediumPixels; case ScreenSizeStatus::MediumAndLarge: return aScreenPixels > kMaxSmallPixels; case ScreenSizeStatus::Large: return aScreenPixels > kMaxMediumPixels; } MOZ_ASSERT_UNREACHABLE("bad screen status"); return false; } int32_t GfxInfoBase::FindBlocklistedDeviceInList( const nsTArray& info, nsAString& aSuggestedVersion, int32_t aFeature, nsACString& aFailureId, OperatingSystem os, bool aForAllowing) { int32_t status = nsIGfxInfo::FEATURE_STATUS_UNKNOWN; // Some properties are not available on all platforms. nsAutoString desktopEnvironment; nsresult rv = GetDesktopEnvironment(desktopEnvironment); if (NS_FAILED(rv) && rv != NS_ERROR_NOT_IMPLEMENTED) { return 0; } nsAutoString windowProtocol; rv = GetWindowProtocol(windowProtocol); if (NS_FAILED(rv) && rv != NS_ERROR_NOT_IMPLEMENTED) { return 0; } bool hasBattery = false; rv = GetHasBattery(&hasBattery); if (NS_FAILED(rv) && rv != NS_ERROR_NOT_IMPLEMENTED) { return 0; } uint32_t osBuild = OperatingSystemBuild(); // Get the adapters once then reuse below nsAutoString adapterVendorID[2]; nsAutoString adapterDeviceID[2]; nsAutoString adapterDriverVendor[2]; nsAutoString adapterDriverVersionString[2]; bool adapterInfoFailed[2]; adapterInfoFailed[0] = (NS_FAILED(GetAdapterVendorID(adapterVendorID[0])) || NS_FAILED(GetAdapterDeviceID(adapterDeviceID[0])) || NS_FAILED(GetAdapterDriverVendor(adapterDriverVendor[0])) || NS_FAILED(GetAdapterDriverVersion(adapterDriverVersionString[0]))); adapterInfoFailed[1] = (NS_FAILED(GetAdapterVendorID2(adapterVendorID[1])) || NS_FAILED(GetAdapterDeviceID2(adapterDeviceID[1])) || NS_FAILED(GetAdapterDriverVendor2(adapterDriverVendor[1])) || NS_FAILED(GetAdapterDriverVersion2(adapterDriverVersionString[1]))); // No point in going on if we don't have adapter info if (adapterInfoFailed[0] && adapterInfoFailed[1]) { return 0; } #if defined(XP_WIN) || defined(ANDROID) || defined(MOZ_WIDGET_GTK) uint64_t driverVersion[2] = {0, 0}; if (!adapterInfoFailed[0]) { ParseDriverVersion(adapterDriverVersionString[0], &driverVersion[0]); } if (!adapterInfoFailed[1]) { ParseDriverVersion(adapterDriverVersionString[1], &driverVersion[1]); } #endif uint32_t i = 0; for (; i < info.Length(); i++) { // If the status is FEATURE_ALLOW_*, then it is for the allowlist, not // blocklisting. Only consider entries for our search mode. if (MatchingAllowStatus(info[i].mFeatureStatus) != aForAllowing) { continue; } // If we don't have the info for this GPU, no need to check further. // It is unclear that we would ever have a mixture of 1st and 2nd // GPU, but leaving the code in for that possibility for now. // (Actually, currently mGpu2 will never be true, so this can // be optimized out.) uint32_t infoIndex = info[i].mGpu2 ? 1 : 0; if (adapterInfoFailed[infoIndex]) { continue; } // Do the operating system check first, no point in getting the driver // info if we won't need to use it. if (!MatchingOperatingSystems(info[i].mOperatingSystem, os, osBuild)) { continue; } if (info[i].mOperatingSystemVersion && info[i].mOperatingSystemVersion != OperatingSystemVersion()) { continue; } if (!MatchingBattery(info[i].mBattery, hasBattery)) { continue; } if (!MatchingScreenSize(info[i].mScreen, mScreenPixels)) { continue; } if (!DoesDesktopEnvironmentMatch(info[i].mDesktopEnvironment, desktopEnvironment)) { continue; } if (!DoesWindowProtocolMatch(info[i].mWindowProtocol, windowProtocol)) { continue; } if (!DoesVendorMatch(info[i].mAdapterVendor, adapterVendorID[infoIndex])) { continue; } if (!DoesDriverVendorMatch(info[i].mDriverVendor, adapterDriverVendor[infoIndex])) { continue; } if (info[i].mDevices && !info[i].mDevices->IsEmpty()) { nsresult rv = info[i].mDevices->Contains(adapterDeviceID[infoIndex]); if (rv == NS_ERROR_NOT_AVAILABLE) { // Not found continue; } if (rv != NS_OK) { // Failed to search, allowlist should not match, blocklist should match // for safety reasons if (aForAllowing) { continue; } break; } } bool match = false; if (!info[i].mHardware.IsEmpty() && !info[i].mHardware.Equals(Hardware())) { continue; } if (!info[i].mModel.IsEmpty() && !info[i].mModel.Equals(Model())) { continue; } if (!info[i].mProduct.IsEmpty() && !info[i].mProduct.Equals(Product())) { continue; } if (!info[i].mManufacturer.IsEmpty() && !info[i].mManufacturer.Equals(Manufacturer())) { continue; } #if defined(XP_WIN) || defined(ANDROID) || defined(MOZ_WIDGET_GTK) switch (info[i].mComparisonOp) { case DRIVER_LESS_THAN: match = driverVersion[infoIndex] < info[i].mDriverVersion; break; case DRIVER_BUILD_ID_LESS_THAN: match = (driverVersion[infoIndex] & 0xFFFF) < info[i].mDriverVersion; break; case DRIVER_LESS_THAN_OR_EQUAL: match = driverVersion[infoIndex] <= info[i].mDriverVersion; break; case DRIVER_BUILD_ID_LESS_THAN_OR_EQUAL: match = (driverVersion[infoIndex] & 0xFFFF) <= info[i].mDriverVersion; break; case DRIVER_GREATER_THAN: match = driverVersion[infoIndex] > info[i].mDriverVersion; break; case DRIVER_GREATER_THAN_OR_EQUAL: match = driverVersion[infoIndex] >= info[i].mDriverVersion; break; case DRIVER_EQUAL: match = driverVersion[infoIndex] == info[i].mDriverVersion; break; case DRIVER_NOT_EQUAL: match = driverVersion[infoIndex] != info[i].mDriverVersion; break; case DRIVER_BETWEEN_EXCLUSIVE: match = driverVersion[infoIndex] > info[i].mDriverVersion && driverVersion[infoIndex] < info[i].mDriverVersionMax; break; case DRIVER_BETWEEN_INCLUSIVE: match = driverVersion[infoIndex] >= info[i].mDriverVersion && driverVersion[infoIndex] <= info[i].mDriverVersionMax; break; case DRIVER_BETWEEN_INCLUSIVE_START: match = driverVersion[infoIndex] >= info[i].mDriverVersion && driverVersion[infoIndex] < info[i].mDriverVersionMax; break; case DRIVER_COMPARISON_IGNORED: // We don't have a comparison op, so we match everything. match = true; break; default: NS_WARNING("Bogus op in GfxDriverInfo"); break; } #else // We don't care what driver version it was. We only check OS version and if // the device matches. match = true; #endif if (match || info[i].mDriverVersion == GfxDriverInfo::allDriverVersions) { if (info[i].mFeature == GfxDriverInfo::allFeatures || info[i].mFeature == aFeature) { status = info[i].mFeatureStatus; if (!info[i].mRuleId.IsEmpty()) { aFailureId = info[i].mRuleId.get(); } else { aFailureId = "FEATURE_FAILURE_DL_BLOCKLIST_NO_ID"; } break; } } } #if defined(XP_WIN) // As a very special case, we block D2D on machines with an NVidia 310M GPU // as either the primary or secondary adapter. D2D is also blocked when the // NV 310M is the primary adapter (using the standard blocklisting mechanism). // If the primary GPU already matched something in the blocklist then we // ignore this special rule. See bug 1008759. if (status == nsIGfxInfo::FEATURE_STATUS_UNKNOWN && (aFeature == nsIGfxInfo::FEATURE_DIRECT2D)) { if (!adapterInfoFailed[1]) { nsAString& nvVendorID = (nsAString&)GfxDriverInfo::GetDeviceVendor(DeviceVendor::NVIDIA); const nsString nv310mDeviceId = u"0x0A70"_ns; if (nvVendorID.Equals(adapterVendorID[1], nsCaseInsensitiveStringComparator) && nv310mDeviceId.Equals(adapterDeviceID[1], nsCaseInsensitiveStringComparator)) { status = nsIGfxInfo::FEATURE_BLOCKED_DEVICE; aFailureId = "FEATURE_FAILURE_D2D_NV310M_BLOCK"; } } } // Depends on Windows driver versioning. We don't pass a GfxDriverInfo object // back to the Windows handler, so we must handle this here. if (status == FEATURE_BLOCKED_DRIVER_VERSION) { if (info[i].mSuggestedVersion) { aSuggestedVersion.AppendPrintf("%s", info[i].mSuggestedVersion); } else if (info[i].mComparisonOp == DRIVER_LESS_THAN && info[i].mDriverVersion != GfxDriverInfo::allDriverVersions) { aSuggestedVersion.AppendPrintf( "%lld.%lld.%lld.%lld", (info[i].mDriverVersion & 0xffff000000000000) >> 48, (info[i].mDriverVersion & 0x0000ffff00000000) >> 32, (info[i].mDriverVersion & 0x00000000ffff0000) >> 16, (info[i].mDriverVersion & 0x000000000000ffff)); } } #endif return status; } void GfxInfoBase::SetFeatureStatus(nsTArray&& aFS) { MOZ_ASSERT(!sFeatureStatus); InitFeatureStatus(new nsTArray(std::move(aFS))); } bool GfxInfoBase::DoesDesktopEnvironmentMatch( const nsAString& aBlocklistDesktop, const nsAString& aDesktopEnv) { return aBlocklistDesktop.Equals(aDesktopEnv, nsCaseInsensitiveStringComparator) || aBlocklistDesktop.Equals( GfxDriverInfo::GetDesktopEnvironment(DesktopEnvironment::All), nsCaseInsensitiveStringComparator); } bool GfxInfoBase::DoesWindowProtocolMatch( const nsAString& aBlocklistWindowProtocol, const nsAString& aWindowProtocol) { return aBlocklistWindowProtocol.Equals(aWindowProtocol, nsCaseInsensitiveStringComparator) || aBlocklistWindowProtocol.Equals( GfxDriverInfo::GetWindowProtocol(WindowProtocol::All), nsCaseInsensitiveStringComparator); } bool GfxInfoBase::DoesVendorMatch(const nsAString& aBlocklistVendor, const nsAString& aAdapterVendor) { return aBlocklistVendor.Equals(aAdapterVendor, nsCaseInsensitiveStringComparator) || aBlocklistVendor.Equals( GfxDriverInfo::GetDeviceVendor(DeviceVendor::All), nsCaseInsensitiveStringComparator); } bool GfxInfoBase::DoesDriverVendorMatch(const nsAString& aBlocklistVendor, const nsAString& aDriverVendor) { return aBlocklistVendor.Equals(aDriverVendor, nsCaseInsensitiveStringComparator) || aBlocklistVendor.Equals( GfxDriverInfo::GetDriverVendor(DriverVendor::All), nsCaseInsensitiveStringComparator); } bool GfxInfoBase::IsFeatureAllowlisted(int32_t aFeature) const { return aFeature == nsIGfxInfo::FEATURE_WEBRENDER; } nsresult GfxInfoBase::GetFeatureStatusImpl( int32_t aFeature, int32_t* aStatus, nsAString& aSuggestedVersion, const nsTArray& aDriverInfo, nsACString& aFailureId, OperatingSystem* aOS /* = nullptr */) { if (aFeature <= 0) { gfxWarning() << "Invalid feature <= 0"; return NS_OK; } if (*aStatus != nsIGfxInfo::FEATURE_STATUS_UNKNOWN) { // Terminate now with the status determined by the derived type (OS-specific // code). return NS_OK; } if (sShutdownOccurred) { // This is futile; we've already commenced shutdown and our blocklists have // been deleted. We may want to look into resurrecting the blocklist instead // but for now, just don't even go there. return NS_OK; } // Ensure any additional initialization required is complete. GetData(); // If an operating system was provided by the derived GetFeatureStatusImpl, // grab it here. Otherwise, the OS is unknown. OperatingSystem os = (aOS ? *aOS : OperatingSystem::Unknown); nsAutoString adapterVendorID; nsAutoString adapterDeviceID; nsAutoString adapterDriverVersionString; if (NS_FAILED(GetAdapterVendorID(adapterVendorID)) || NS_FAILED(GetAdapterDeviceID(adapterDeviceID)) || NS_FAILED(GetAdapterDriverVersion(adapterDriverVersionString))) { aFailureId = "FEATURE_FAILURE_CANT_RESOLVE_ADAPTER"; *aStatus = FEATURE_BLOCKED_DEVICE; return NS_OK; } // Check if the device is blocked from the downloaded blocklist. If not, check // the static list after that. This order is used so that we can later escape // out of static blocks (i.e. if we were wrong or something was patched, we // can back out our static block without doing a release). int32_t status; if (aDriverInfo.Length()) { status = FindBlocklistedDeviceInList(aDriverInfo, aSuggestedVersion, aFeature, aFailureId, os, /* aForAllowing */ false); } else { if (!sDriverInfo) { sDriverInfo = new nsTArray(); } status = FindBlocklistedDeviceInList(GetGfxDriverInfo(), aSuggestedVersion, aFeature, aFailureId, os, /* aForAllowing */ false); } if (status == nsIGfxInfo::FEATURE_STATUS_UNKNOWN) { if (IsFeatureAllowlisted(aFeature)) { // This feature is actually using the allowlist; that means after we pass // the blocklist to prevent us explicitly from getting the feature, we now // need to check the allowlist to ensure we are allowed to get it in the // first place. if (aDriverInfo.Length()) { status = FindBlocklistedDeviceInList(aDriverInfo, aSuggestedVersion, aFeature, aFailureId, os, /* aForAllowing */ true); } else { status = FindBlocklistedDeviceInList( GetGfxDriverInfo(), aSuggestedVersion, aFeature, aFailureId, os, /* aForAllowing */ true); } if (status == nsIGfxInfo::FEATURE_STATUS_UNKNOWN) { status = nsIGfxInfo::FEATURE_DENIED; } } else { // It's now done being processed. It's safe to set the status to // STATUS_OK. status = nsIGfxInfo::FEATURE_STATUS_OK; } } *aStatus = status; return NS_OK; } NS_IMETHODIMP GfxInfoBase::GetFeatureSuggestedDriverVersion(int32_t aFeature, nsAString& aVersion) { nsCString version; if (GetPrefValueForDriverVersion(version)) { aVersion = NS_ConvertASCIItoUTF16(version); return NS_OK; } int32_t status; nsCString discardFailureId; nsTArray driverInfo; return GetFeatureStatusImpl(aFeature, &status, aVersion, driverInfo, discardFailureId); } void GfxInfoBase::EvaluateDownloadedBlocklist( nsTArray& aDriverInfo) { int32_t features[] = {nsIGfxInfo::FEATURE_DIRECT2D, nsIGfxInfo::FEATURE_DIRECT3D_9_LAYERS, nsIGfxInfo::FEATURE_DIRECT3D_10_LAYERS, nsIGfxInfo::FEATURE_DIRECT3D_10_1_LAYERS, nsIGfxInfo::FEATURE_DIRECT3D_11_LAYERS, nsIGfxInfo::FEATURE_DIRECT3D_11_ANGLE, nsIGfxInfo::FEATURE_HARDWARE_VIDEO_DECODING, nsIGfxInfo::FEATURE_OPENGL_LAYERS, nsIGfxInfo::FEATURE_WEBGL_OPENGL, nsIGfxInfo::FEATURE_WEBGL_ANGLE, nsIGfxInfo::FEATURE_WEBRTC_HW_ACCELERATION_ENCODE, nsIGfxInfo::FEATURE_WEBRTC_HW_ACCELERATION_DECODE, nsIGfxInfo::UNUSED_FEATURE_WEBGL_MSAA, nsIGfxInfo::FEATURE_STAGEFRIGHT, nsIGfxInfo::FEATURE_WEBRTC_HW_ACCELERATION_H264, nsIGfxInfo::FEATURE_CANVAS2D_ACCELERATION, nsIGfxInfo::FEATURE_VP8_HW_DECODE, nsIGfxInfo::FEATURE_VP9_HW_DECODE, nsIGfxInfo::FEATURE_DX_INTEROP2, nsIGfxInfo::FEATURE_GPU_PROCESS, nsIGfxInfo::FEATURE_WEBGL2, nsIGfxInfo::FEATURE_D3D11_KEYED_MUTEX, nsIGfxInfo::FEATURE_WEBRENDER, nsIGfxInfo::FEATURE_WEBRENDER_COMPOSITOR, nsIGfxInfo::FEATURE_DX_NV12, nsIGfxInfo::FEATURE_DX_P010, nsIGfxInfo::FEATURE_DX_P016, nsIGfxInfo::FEATURE_GL_SWIZZLE, nsIGfxInfo::FEATURE_ALLOW_WEBGL_OUT_OF_PROCESS, nsIGfxInfo::FEATURE_X11_EGL, nsIGfxInfo::FEATURE_DMABUF, 0}; // For every feature we know about, we evaluate whether this blocklist has a // non-STATUS_OK status. If it does, we set the pref we evaluate in // GetFeatureStatus above, so we don't need to hold on to this blocklist // anywhere permanent. int i = 0; while (features[i]) { int32_t status; nsCString failureId; nsAutoString suggestedVersion; if (NS_SUCCEEDED(GetFeatureStatusImpl( features[i], &status, suggestedVersion, aDriverInfo, failureId))) { switch (status) { default: case nsIGfxInfo::FEATURE_STATUS_OK: RemovePrefForFeature(features[i]); break; case nsIGfxInfo::FEATURE_BLOCKED_DRIVER_VERSION: if (!suggestedVersion.IsEmpty()) { SetPrefValueForDriverVersion(suggestedVersion); } else { RemovePrefForDriverVersion(); } [[fallthrough]]; case nsIGfxInfo::FEATURE_BLOCKED_MISMATCHED_VERSION: case nsIGfxInfo::FEATURE_BLOCKED_DEVICE: case nsIGfxInfo::FEATURE_DISCOURAGED: case nsIGfxInfo::FEATURE_BLOCKED_OS_VERSION: SetPrefValueForFeature(features[i], status, failureId); break; } } ++i; } } NS_IMETHODIMP_(void) GfxInfoBase::LogFailure(const nsACString& failure) { // gfxCriticalError has a mutex lock of its own, so we may not actually // need this lock. ::GetFailures() accesses the data but the LogForwarder // will not return the copy of the logs unless it can get the same lock // that gfxCriticalError uses. Still, that is so much of an implementation // detail that it's nicer to just add an extra lock here and in // ::GetFailures() MutexAutoLock lock(mMutex); // By default, gfxCriticalError asserts; make it not assert in this case. gfxCriticalError(CriticalLog::DefaultOptions(false)) << "(LF) " << failure.BeginReading(); } NS_IMETHODIMP GfxInfoBase::GetFailures(nsTArray& indices, nsTArray& failures) { MutexAutoLock lock(mMutex); LogForwarder* logForwarder = Factory::GetLogForwarder(); if (!logForwarder) { return NS_ERROR_UNEXPECTED; } // There are two string copies in this method, starting with this one. We are // assuming this is not a big deal, as the size of the array should be small // and the strings in it should be small as well (the error messages in the // code.) The second copy happens with the AppendElement() calls. // Technically, we don't need the mutex lock after the StringVectorCopy() // call. LoggingRecord loggedStrings = logForwarder->LoggingRecordCopy(); LoggingRecord::const_iterator it; for (it = loggedStrings.begin(); it != loggedStrings.end(); ++it) { failures.AppendElement( nsDependentCSubstring(Get<1>(*it).c_str(), Get<1>(*it).size())); indices.AppendElement(Get<0>(*it)); } return NS_OK; } nsTArray* sCollectors; static void InitCollectors() { if (!sCollectors) sCollectors = new nsTArray; } nsresult GfxInfoBase::GetInfo(JSContext* aCx, JS::MutableHandle aResult) { InitCollectors(); InfoObject obj(aCx); for (uint32_t i = 0; i < sCollectors->Length(); i++) { (*sCollectors)[i]->GetInfo(obj); } // Some example property definitions // obj.DefineProperty("wordCacheSize", gfxTextRunWordCache::Count()); // obj.DefineProperty("renderer", mRendererIDsString); // obj.DefineProperty("five", 5); if (!obj.mOk) { return NS_ERROR_FAILURE; } aResult.setObject(*obj.mObj); return NS_OK; } nsAutoCString gBaseAppVersion; const nsCString& GfxInfoBase::GetApplicationVersion() { static bool versionInitialized = false; if (!versionInitialized) { // If we fail to get the version, we will not try again. versionInitialized = true; // Get the version from xpcom/system/nsIXULAppInfo.idl nsCOMPtr app = do_GetService("@mozilla.org/xre/app-info;1"); if (app) { app->GetVersion(gBaseAppVersion); } } return gBaseAppVersion; } void GfxInfoBase::AddCollector(GfxInfoCollectorBase* collector) { InitCollectors(); sCollectors->AppendElement(collector); } void GfxInfoBase::RemoveCollector(GfxInfoCollectorBase* collector) { InitCollectors(); for (uint32_t i = 0; i < sCollectors->Length(); i++) { if ((*sCollectors)[i] == collector) { sCollectors->RemoveElementAt(i); break; } } if (sCollectors->IsEmpty()) { delete sCollectors; sCollectors = nullptr; } } nsresult GfxInfoBase::FindMonitors(JSContext* aCx, JS::HandleObject aOutArray) { // If we have no platform specific implementation for detecting monitors, we // can just get the screen size from gfxPlatform as the best guess. if (!gfxPlatform::Initialized()) { return NS_OK; } // If the screen size is empty, we are probably in xpcshell. gfx::IntSize screenSize = gfxPlatform::GetPlatform()->GetScreenSize(); JS::Rooted obj(aCx, JS_NewPlainObject(aCx)); JS::Rooted screenWidth(aCx, JS::Int32Value(screenSize.width)); JS_SetProperty(aCx, obj, "screenWidth", screenWidth); JS::Rooted screenHeight(aCx, JS::Int32Value(screenSize.height)); JS_SetProperty(aCx, obj, "screenHeight", screenHeight); JS::Rooted element(aCx, JS::ObjectValue(*obj)); JS_SetElement(aCx, aOutArray, 0, element); return NS_OK; } NS_IMETHODIMP GfxInfoBase::GetMonitors(JSContext* aCx, JS::MutableHandleValue aResult) { JS::Rooted array(aCx, JS::NewArrayObject(aCx, 0)); nsresult rv = FindMonitors(aCx, array); if (NS_FAILED(rv)) { return rv; } aResult.setObject(*array); return NS_OK; } NS_IMETHODIMP GfxInfoBase::RefreshMonitors() { return NS_ERROR_NOT_IMPLEMENTED; } static inline bool SetJSPropertyString(JSContext* aCx, JS::Handle aObj, const char* aProp, const char* aString) { JS::Rooted str(aCx, JS_NewStringCopyZ(aCx, aString)); if (!str) { return false; } JS::Rooted val(aCx, JS::StringValue(str)); return JS_SetProperty(aCx, aObj, aProp, val); } template static inline bool AppendJSElement(JSContext* aCx, JS::Handle aObj, const T& aValue) { uint32_t index; if (!JS::GetArrayLength(aCx, aObj, &index)) { return false; } return JS_SetElement(aCx, aObj, index, aValue); } nsresult GfxInfoBase::GetFeatures(JSContext* aCx, JS::MutableHandle aOut) { JS::Rooted obj(aCx, JS_NewPlainObject(aCx)); if (!obj) { return NS_ERROR_OUT_OF_MEMORY; } aOut.setObject(*obj); layers::LayersBackend backend = gfxPlatform::Initialized() ? gfxPlatform::GetPlatform()->GetCompositorBackend() : layers::LayersBackend::LAYERS_NONE; const char* backendName = layers::GetLayersBackendName(backend); SetJSPropertyString(aCx, obj, "compositor", backendName); // If graphics isn't initialized yet, just stop now. if (!gfxPlatform::Initialized()) { return NS_OK; } DescribeFeatures(aCx, obj); return NS_OK; } nsresult GfxInfoBase::GetFeatureLog(JSContext* aCx, JS::MutableHandle aOut) { JS::Rooted containerObj(aCx, JS_NewPlainObject(aCx)); if (!containerObj) { return NS_ERROR_OUT_OF_MEMORY; } aOut.setObject(*containerObj); JS::Rooted featureArray(aCx, JS::NewArrayObject(aCx, 0)); if (!featureArray) { return NS_ERROR_OUT_OF_MEMORY; } // Collect features. gfxConfig::ForEachFeature([&](const char* aName, const char* aDescription, FeatureState& aFeature) -> void { JS::Rooted obj(aCx, JS_NewPlainObject(aCx)); if (!obj) { return; } if (!SetJSPropertyString(aCx, obj, "name", aName) || !SetJSPropertyString(aCx, obj, "description", aDescription) || !SetJSPropertyString(aCx, obj, "status", FeatureStatusToString(aFeature.GetValue()))) { return; } JS::Rooted log(aCx); if (!BuildFeatureStateLog(aCx, aFeature, &log)) { return; } if (!JS_SetProperty(aCx, obj, "log", log)) { return; } if (!AppendJSElement(aCx, featureArray, obj)) { return; } }); JS::Rooted fallbackArray(aCx, JS::NewArrayObject(aCx, 0)); if (!fallbackArray) { return NS_ERROR_OUT_OF_MEMORY; } // Collect fallbacks. gfxConfig::ForEachFallback( [&](const char* aName, const char* aMessage) -> void { JS::Rooted obj(aCx, JS_NewPlainObject(aCx)); if (!obj) { return; } if (!SetJSPropertyString(aCx, obj, "name", aName) || !SetJSPropertyString(aCx, obj, "message", aMessage)) { return; } if (!AppendJSElement(aCx, fallbackArray, obj)) { return; } }); JS::Rooted val(aCx); val = JS::ObjectValue(*featureArray); JS_SetProperty(aCx, containerObj, "features", val); val = JS::ObjectValue(*fallbackArray); JS_SetProperty(aCx, containerObj, "fallbacks", val); return NS_OK; } bool GfxInfoBase::BuildFeatureStateLog(JSContext* aCx, const FeatureState& aFeature, JS::MutableHandle aOut) { JS::Rooted log(aCx, JS::NewArrayObject(aCx, 0)); if (!log) { return false; } aOut.setObject(*log); aFeature.ForEachStatusChange([&](const char* aType, FeatureStatus aStatus, const char* aMessage, const nsCString& aFailureId) -> void { JS::Rooted obj(aCx, JS_NewPlainObject(aCx)); if (!obj) { return; } if (!SetJSPropertyString(aCx, obj, "type", aType) || !SetJSPropertyString(aCx, obj, "status", FeatureStatusToString(aStatus)) || (aMessage && !SetJSPropertyString(aCx, obj, "message", aMessage))) { return; } if (!AppendJSElement(aCx, log, obj)) { return; } }); return true; } void GfxInfoBase::DescribeFeatures(JSContext* aCx, JS::Handle aObj) { JS::Rooted obj(aCx); gfx::FeatureState& hwCompositing = gfxConfig::GetFeature(gfx::Feature::HW_COMPOSITING); InitFeatureObject(aCx, aObj, "hwCompositing", hwCompositing, &obj); gfx::FeatureState& gpuProcess = gfxConfig::GetFeature(gfx::Feature::GPU_PROCESS); InitFeatureObject(aCx, aObj, "gpuProcess", gpuProcess, &obj); gfx::FeatureState& wrQualified = gfxConfig::GetFeature(gfx::Feature::WEBRENDER_QUALIFIED); InitFeatureObject(aCx, aObj, "wrQualified", wrQualified, &obj); gfx::FeatureState& webrender = gfxConfig::GetFeature(gfx::Feature::WEBRENDER); InitFeatureObject(aCx, aObj, "webrender", webrender, &obj); gfx::FeatureState& wrCompositor = gfxConfig::GetFeature(gfx::Feature::WEBRENDER_COMPOSITOR); InitFeatureObject(aCx, aObj, "wrCompositor", wrCompositor, &obj); gfx::FeatureState& wrSoftware = gfxConfig::GetFeature(gfx::Feature::WEBRENDER_SOFTWARE); InitFeatureObject(aCx, aObj, "wrSoftware", wrSoftware, &obj); gfx::FeatureState& openglCompositing = gfxConfig::GetFeature(gfx::Feature::OPENGL_COMPOSITING); InitFeatureObject(aCx, aObj, "openglCompositing", openglCompositing, &obj); gfx::FeatureState& omtp = gfxConfig::GetFeature(gfx::Feature::OMTP); InitFeatureObject(aCx, aObj, "omtp", omtp, &obj); } bool GfxInfoBase::InitFeatureObject(JSContext* aCx, JS::Handle aContainer, const char* aName, mozilla::gfx::FeatureState& aFeatureState, JS::MutableHandle aOutObj) { JS::Rooted obj(aCx, JS_NewPlainObject(aCx)); if (!obj) { return false; } nsCString status = aFeatureState.GetStatusAndFailureIdString(); JS::Rooted str(aCx, JS_NewStringCopyZ(aCx, status.get())); JS::Rooted val(aCx, JS::StringValue(str)); JS_SetProperty(aCx, obj, "status", val); // Add the feature object to the container. { JS::Rooted val(aCx, JS::ObjectValue(*obj)); JS_SetProperty(aCx, aContainer, aName, val); } aOutObj.set(obj); return true; } nsresult GfxInfoBase::GetActiveCrashGuards(JSContext* aCx, JS::MutableHandle aOut) { JS::Rooted array(aCx, JS::NewArrayObject(aCx, 0)); if (!array) { return NS_ERROR_OUT_OF_MEMORY; } aOut.setObject(*array); DriverCrashGuard::ForEachActiveCrashGuard( [&](const char* aName, const char* aPrefName) -> void { JS::Rooted obj(aCx, JS_NewPlainObject(aCx)); if (!obj) { return; } if (!SetJSPropertyString(aCx, obj, "type", aName)) { return; } if (!SetJSPropertyString(aCx, obj, "prefName", aPrefName)) { return; } if (!AppendJSElement(aCx, array, obj)) { return; } }); return NS_OK; } NS_IMETHODIMP GfxInfoBase::GetWebRenderEnabled(bool* aWebRenderEnabled) { *aWebRenderEnabled = gfxVars::UseWebRender(); return NS_OK; } NS_IMETHODIMP GfxInfoBase::GetUsesTiling(bool* aUsesTiling) { *aUsesTiling = gfxPlatform::GetPlatform()->UsesTiling(); return NS_OK; } NS_IMETHODIMP GfxInfoBase::GetTargetFrameRate(uint32_t* aTargetFrameRate) { *aTargetFrameRate = gfxPlatform::TargetFrameRate(); return NS_OK; } NS_IMETHODIMP GfxInfoBase::GetIsHeadless(bool* aIsHeadless) { *aIsHeadless = gfxPlatform::IsHeadless(); return NS_OK; } NS_IMETHODIMP GfxInfoBase::GetContentBackend(nsAString& aContentBackend) { BackendType backend = gfxPlatform::GetPlatform()->GetDefaultContentBackend(); nsString outStr; switch (backend) { case BackendType::DIRECT2D1_1: { outStr.AppendPrintf("Direct2D 1.1"); break; } case BackendType::SKIA: { outStr.AppendPrintf("Skia"); break; } case BackendType::CAIRO: { outStr.AppendPrintf("Cairo"); break; } default: return NS_ERROR_FAILURE; } aContentBackend.Assign(outStr); return NS_OK; } NS_IMETHODIMP GfxInfoBase::GetAzureCanvasBackend(nsAString& aBackend) { CopyASCIItoUTF16(mozilla::MakeStringSpan( gfxPlatform::GetPlatform()->GetAzureCanvasBackend()), aBackend); return NS_OK; } NS_IMETHODIMP GfxInfoBase::GetAzureContentBackend(nsAString& aBackend) { CopyASCIItoUTF16(mozilla::MakeStringSpan( gfxPlatform::GetPlatform()->GetAzureContentBackend()), aBackend); return NS_OK; } NS_IMETHODIMP GfxInfoBase::GetUsingGPUProcess(bool* aOutValue) { GPUProcessManager* gpu = GPUProcessManager::Get(); if (!gpu) { // Not supported in content processes. return NS_ERROR_FAILURE; } *aOutValue = !!gpu->GetGPUChild(); return NS_OK; } NS_IMETHODIMP GfxInfoBase::ControlGPUProcessForXPCShell(bool aEnable, bool* _retval) { gfxPlatform::GetPlatform(); GPUProcessManager* gpm = GPUProcessManager::Get(); if (aEnable) { if (!gfxConfig::IsEnabled(gfx::Feature::GPU_PROCESS)) { gfxConfig::UserForceEnable(gfx::Feature::GPU_PROCESS, "xpcshell-test"); } gpm->LaunchGPUProcess(); gpm->EnsureGPUReady(); } else { gfxConfig::UserDisable(gfx::Feature::GPU_PROCESS, "xpcshell-test"); gpm->KillProcess(); } *_retval = true; return NS_OK; } GfxInfoCollectorBase::GfxInfoCollectorBase() { GfxInfoBase::AddCollector(this); } GfxInfoCollectorBase::~GfxInfoCollectorBase() { GfxInfoBase::RemoveCollector(this); }