/* -*- Mode: C++; tab-width: 20; 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/. */ #define PANGO_ENABLE_BACKEND #define PANGO_ENABLE_ENGINE #include "gfxPlatformGtk.h" #include #include #include "base/task.h" #include "base/thread.h" #include "base/message_loop.h" #include "cairo.h" #include "gfx2DGlue.h" #include "gfxFcPlatformFontList.h" #include "gfxConfig.h" #include "gfxContext.h" #include "gfxImageSurface.h" #include "gfxUserFontSet.h" #include "gfxUtils.h" #include "gfxFT2FontBase.h" #include "gfxTextRun.h" #include "GLContextProvider.h" #include "mozilla/Atomics.h" #include "mozilla/Components.h" #include "mozilla/dom/ContentChild.h" #include "mozilla/FontPropertyTypes.h" #include "mozilla/gfx/2D.h" #include "mozilla/gfx/Logging.h" #include "mozilla/Monitor.h" #include "mozilla/Preferences.h" #include "mozilla/StaticPrefs_gfx.h" #include "mozilla/StaticPrefs_layers.h" #include "mozilla/StaticPrefs_media.h" #include "nsAppRunner.h" #include "nsIGfxInfo.h" #include "nsMathUtils.h" #include "nsUnicharUtils.h" #include "nsUnicodeProperties.h" #include "prenv.h" #include "VsyncSource.h" #include "mozilla/WidgetUtilsGtk.h" #ifdef MOZ_X11 # include "mozilla/gfx/XlibDisplay.h" # include # include # include "cairo-xlib.h" # include "gfxXlibSurface.h" # include "GLContextGLX.h" # include "GLXLibrary.h" # include "mozilla/X11Util.h" # include "SoftwareVsyncSource.h" /* Undefine the Status from Xlib since it will conflict with system headers on * OSX */ # if defined(__APPLE__) && defined(Status) # undef Status # endif #endif /* MOZ_X11 */ #ifdef MOZ_WAYLAND # include # include "mozilla/widget/nsWaylandDisplay.h" # include "mozilla/widget/DMABufLibWrapper.h" # include "mozilla/StaticPrefs_widget.h" #endif #define GDK_PIXMAP_SIZE_MAX 32767 #define GFX_PREF_MAX_GENERIC_SUBSTITUTIONS \ "gfx.font_rendering.fontconfig.max_generic_substitutions" using namespace mozilla; using namespace mozilla::gfx; using namespace mozilla::unicode; using namespace mozilla::widget; static FT_Library gPlatformFTLibrary = nullptr; static int32_t sDPI; static void screen_resolution_changed(GdkScreen* aScreen, GParamSpec* aPspec, gpointer aClosure) { sDPI = 0; } #if defined(MOZ_X11) // TODO(aosmond): The envvar is deprecated. We should remove it once EGL is the // default in release. static bool IsX11EGLEnvvarEnabled() { const char* eglPref = PR_GetEnv("MOZ_X11_EGL"); return (eglPref && *eglPref); } #endif gfxPlatformGtk::gfxPlatformGtk() { if (!gfxPlatform::IsHeadless()) { gtk_init(nullptr, nullptr); } mIsX11Display = gfxPlatform::IsHeadless() ? false : GdkIsX11Display(); if (XRE_IsParentProcess()) { InitX11EGLConfig(); if (IsWaylandDisplay() || gfxConfig::IsEnabled(Feature::X11_EGL)) { gfxVars::SetUseEGL(true); } InitDmabufConfig(); if (gfxConfig::IsEnabled(Feature::DMABUF)) { gfxVars::SetUseDMABuf(true); } } InitBackendPrefs(GetBackendPrefs()); gPlatformFTLibrary = Factory::NewFTLibrary(); MOZ_RELEASE_ASSERT(gPlatformFTLibrary); Factory::SetFTLibrary(gPlatformFTLibrary); GdkScreen* gdkScreen = gdk_screen_get_default(); if (gdkScreen) { g_signal_connect(gdkScreen, "notify::resolution", G_CALLBACK(screen_resolution_changed), nullptr); } // Bug 1714483: Force disable FXAA Antialiasing on NV drivers. This is a // temporary workaround for a driver bug. PR_SetEnv("__GL_ALLOW_FXAA_USAGE=0"); } gfxPlatformGtk::~gfxPlatformGtk() { Factory::ReleaseFTLibrary(gPlatformFTLibrary); gPlatformFTLibrary = nullptr; } void gfxPlatformGtk::InitX11EGLConfig() { FeatureState& feature = gfxConfig::GetFeature(Feature::X11_EGL); #ifdef MOZ_X11 feature.EnableByDefault(); if (StaticPrefs::gfx_x11_egl_force_enabled_AtStartup()) { feature.UserForceEnable("Force enabled by pref"); } else if (IsX11EGLEnvvarEnabled()) { feature.UserForceEnable("Force enabled by envvar"); } else if (StaticPrefs::gfx_x11_egl_force_disabled_AtStartup()) { feature.UserDisable("Force disabled by pref", "FEATURE_FAILURE_USER_FORCE_DISABLED"_ns); } nsCString failureId; int32_t status; nsCOMPtr gfxInfo = components::GfxInfo::Service(); if (NS_FAILED(gfxInfo->GetFeatureStatus(nsIGfxInfo::FEATURE_X11_EGL, failureId, &status))) { feature.Disable(FeatureStatus::BlockedNoGfxInfo, "gfxInfo is broken", "FEATURE_FAILURE_NO_GFX_INFO"_ns); } else if (status != nsIGfxInfo::FEATURE_STATUS_OK) { feature.Disable(FeatureStatus::Blocklisted, "Blocklisted by gfxInfo", failureId); } nsAutoString testType; gfxInfo->GetTestType(testType); // We can only use X11/EGL if we actually found the EGL library and // successfully use it to determine system information in glxtest. if (testType != u"EGL") { feature.ForceDisable(FeatureStatus::Broken, "glxtest could not use EGL", "FEATURE_FAILURE_GLXTEST_NO_EGL"_ns); } if (feature.IsEnabled() && IsX11Display()) { // Enabling glthread crashes on X11/EGL, see bug 1670545 PR_SetEnv("mesa_glthread=false"); } #else feature.DisableByDefault(FeatureStatus::Unavailable, "X11 support missing", "FEATURE_FAILURE_NO_X11"_ns); #endif } void gfxPlatformGtk::InitDmabufConfig() { FeatureState& feature = gfxConfig::GetFeature(Feature::DMABUF); #ifdef MOZ_WAYLAND feature.EnableByDefault(); if (StaticPrefs::widget_dmabuf_force_enabled_AtStartup()) { feature.UserForceEnable("Force enabled by pref"); } nsCString failureId; int32_t status; nsCOMPtr gfxInfo = components::GfxInfo::Service(); if (NS_FAILED(gfxInfo->GetFeatureStatus(nsIGfxInfo::FEATURE_DMABUF, failureId, &status))) { feature.Disable(FeatureStatus::BlockedNoGfxInfo, "gfxInfo is broken", "FEATURE_FAILURE_NO_GFX_INFO"_ns); } else if (status != nsIGfxInfo::FEATURE_STATUS_OK) { feature.Disable(FeatureStatus::Blocklisted, "Blocklisted by gfxInfo", failureId); } if (!gfxVars::UseEGL()) { feature.ForceDisable(FeatureStatus::Unavailable, "Requires EGL", "FEATURE_FAILURE_REQUIRES_EGL"_ns); } if (feature.IsEnabled()) { nsAutoCString drmRenderDevice; gfxInfo->GetDrmRenderDevice(drmRenderDevice); gfxVars::SetDrmRenderDevice(drmRenderDevice); if (!GetDMABufDevice()->Configure(failureId)) { feature.ForceDisable(FeatureStatus::Failed, "Failed to configure", failureId); } } #else feature.DisableByDefault(FeatureStatus::Unavailable, "Wayland support missing", "FEATURE_FAILURE_NO_WAYLAND"_ns); #endif } bool gfxPlatformGtk::InitVAAPIConfig(bool aForceEnabledByUser) { FeatureState& feature = gfxConfig::GetFeature(Feature::HARDWARE_VIDEO_DECODING); #ifdef MOZ_WAYLAND feature.EnableByDefault(); if (aForceEnabledByUser) { feature.UserForceEnable("Force enabled by pref"); } nsCString failureId; int32_t status = nsIGfxInfo::FEATURE_STATUS_UNKNOWN; nsCOMPtr gfxInfo = components::GfxInfo::Service(); if (NS_FAILED(gfxInfo->GetFeatureStatus( nsIGfxInfo::FEATURE_HARDWARE_VIDEO_DECODING, failureId, &status))) { feature.Disable(FeatureStatus::BlockedNoGfxInfo, "gfxInfo is broken", "FEATURE_FAILURE_NO_GFX_INFO"_ns); } else if (status == nsIGfxInfo::FEATURE_BLOCKED_PLATFORM_TEST) { feature.ForceDisable(FeatureStatus::Unavailable, "Force disabled by gfxInfo", failureId); } else if (status != nsIGfxInfo::FEATURE_STATUS_OK) { feature.Disable(FeatureStatus::Blocklisted, "Blocklisted by gfxInfo", failureId); } if (!gfxVars::UseEGL()) { feature.ForceDisable(FeatureStatus::Unavailable, "Requires EGL", "FEATURE_FAILURE_REQUIRES_EGL"_ns); } #else feature.DisableByDefault(FeatureStatus::Unavailable, "Wayland support missing", "FEATURE_FAILURE_NO_WAYLAND"_ns); #endif return feature.IsEnabled(); } void gfxPlatformGtk::InitWebRenderConfig() { gfxPlatform::InitWebRenderConfig(); if (!XRE_IsParentProcess()) { return; } FeatureState& feature = gfxConfig::GetFeature(Feature::WEBRENDER_COMPOSITOR); #ifdef RELEASE_OR_BETA feature.ForceDisable(FeatureStatus::Blocked, "Cannot be enabled in release or beta", "FEATURE_FAILURE_DISABLE_RELEASE_OR_BETA"_ns); #else if (feature.IsEnabled()) { if (!IsWaylandDisplay()) { feature.ForceDisable(FeatureStatus::Unavailable, "Wayland support missing", "FEATURE_FAILURE_NO_WAYLAND"_ns); } # ifdef MOZ_WAYLAND else if (gfxConfig::IsEnabled(Feature::WEBRENDER) && !gfxConfig::IsEnabled(Feature::DMABUF)) { // We use zwp_linux_dmabuf_v1 and GBM directly to manage FBOs. In theory // this is also possible vie EGLstreams, but we don't bother to implement // it as recent NVidia drivers support GBM and DMABuf as well. feature.ForceDisable(FeatureStatus::Unavailable, "Hardware Webrender requires DMAbuf support", "FEATURE_FAILURE_NO_DMABUF"_ns); } else if (!widget::WaylandDisplayGet()->GetViewporter()) { feature.ForceDisable(FeatureStatus::Unavailable, "Requires wp_viewporter protocol support", "FEATURE_FAILURE_REQUIRES_WPVIEWPORTER"_ns); } # endif // MOZ_WAYLAND } #endif // RELEASE_OR_BETA gfxVars::SetUseWebRenderCompositor(feature.IsEnabled()); } void gfxPlatformGtk::InitPlatformGPUProcessPrefs() { #ifdef MOZ_WAYLAND if (IsWaylandDisplay()) { FeatureState& gpuProc = gfxConfig::GetFeature(Feature::GPU_PROCESS); gpuProc.ForceDisable(FeatureStatus::Blocked, "Wayland does not work in the GPU process", "FEATURE_FAILURE_WAYLAND"_ns); } #endif } already_AddRefed gfxPlatformGtk::CreateOffscreenSurface( const IntSize& aSize, gfxImageFormat aFormat) { if (!Factory::AllowedSurfaceSize(aSize)) { return nullptr; } RefPtr newSurface; bool needsClear = true; // XXX we really need a different interface here, something that passes // in more context, including the display and/or target surface type that // we should try to match GdkScreen* gdkScreen = gdk_screen_get_default(); if (gdkScreen) { newSurface = new gfxImageSurface(aSize, aFormat); // The gfxImageSurface ctor zeroes this for us, no need to // waste time clearing again needsClear = false; } if (!newSurface) { // We couldn't create a native surface for whatever reason; // e.g., no display, no RENDER, bad size, etc. // Fall back to image surface for the data. newSurface = new gfxImageSurface(aSize, aFormat); } if (newSurface->CairoStatus()) { newSurface = nullptr; // surface isn't valid for some reason } if (newSurface && needsClear) { gfxUtils::ClearThebesSurface(newSurface); } return newSurface.forget(); } nsresult gfxPlatformGtk::GetFontList(nsAtom* aLangGroup, const nsACString& aGenericFamily, nsTArray& aListOfFonts) { gfxPlatformFontList::PlatformFontList()->GetFontList( aLangGroup, aGenericFamily, aListOfFonts); return NS_OK; } // xxx - this is ubuntu centric, need to go through other distros and flesh // out a more general list static const char kFontDejaVuSans[] = "DejaVu Sans"; static const char kFontDejaVuSerif[] = "DejaVu Serif"; static const char kFontFreeSans[] = "FreeSans"; static const char kFontFreeSerif[] = "FreeSerif"; static const char kFontTakaoPGothic[] = "TakaoPGothic"; static const char kFontTwemojiMozilla[] = "Twemoji Mozilla"; static const char kFontDroidSansFallback[] = "Droid Sans Fallback"; static const char kFontWenQuanYiMicroHei[] = "WenQuanYi Micro Hei"; static const char kFontNanumGothic[] = "NanumGothic"; static const char kFontSymbola[] = "Symbola"; static const char kFontNotoSansSymbols[] = "Noto Sans Symbols"; static const char kFontNotoSansSymbols2[] = "Noto Sans Symbols2"; void gfxPlatformGtk::GetCommonFallbackFonts(uint32_t aCh, Script aRunScript, eFontPresentation aPresentation, nsTArray& aFontList) { if (PrefersColor(aPresentation)) { aFontList.AppendElement(kFontTwemojiMozilla); } aFontList.AppendElement(kFontDejaVuSerif); aFontList.AppendElement(kFontFreeSerif); aFontList.AppendElement(kFontDejaVuSans); aFontList.AppendElement(kFontFreeSans); aFontList.AppendElement(kFontSymbola); aFontList.AppendElement(kFontNotoSansSymbols); aFontList.AppendElement(kFontNotoSansSymbols2); // add fonts for CJK ranges // xxx - this isn't really correct, should use the same CJK font ordering // as the pref font code if (aCh >= 0x3000 && ((aCh < 0xe000) || (aCh >= 0xf900 && aCh < 0xfff0) || ((aCh >> 16) == 2))) { aFontList.AppendElement(kFontTakaoPGothic); aFontList.AppendElement(kFontDroidSansFallback); aFontList.AppendElement(kFontWenQuanYiMicroHei); aFontList.AppendElement(kFontNanumGothic); } } void gfxPlatformGtk::ReadSystemFontList( mozilla::dom::SystemFontList* retValue) { gfxFcPlatformFontList::PlatformFontList()->ReadSystemFontList(retValue); } bool gfxPlatformGtk::CreatePlatformFontList() { return gfxPlatformFontList::Initialize(new gfxFcPlatformFontList); } int32_t gfxPlatformGtk::GetFontScaleDPI() { MOZ_ASSERT(XRE_IsParentProcess(), "You can access this via LookAndFeel if you need it in child " "processes"); if (MOZ_LIKELY(sDPI != 0)) { return sDPI; } GdkScreen* screen = gdk_screen_get_default(); // Ensure settings in config files are processed. gtk_settings_get_for_screen(screen); int32_t dpi = int32_t(round(gdk_screen_get_resolution(screen))); if (dpi <= 0) { // Fall back to something sane dpi = 96; } sDPI = dpi; return dpi; } double gfxPlatformGtk::GetFontScaleFactor() { // Integer scale factors work well with GTK window scaling, image scaling, and // pixel alignment, but there is a range where 1 is too small and 2 is too // big. // // An additional step of 1.5 is added because this is common scale on WINNT // and at this ratio the advantages of larger rendering outweigh the // disadvantages from scaling and pixel mis-alignment. // // A similar step for 1.25 is added as well, because this is the scale that // "Large text" settings use in gnome, and it seems worth to allow, especially // on already-hidpi environments. int32_t dpi = GetFontScaleDPI(); if (dpi < 120) { return 1.0; } if (dpi < 132) { return 1.25; } if (dpi < 168) { return 1.5; } return round(dpi / 96.0); } gfxImageFormat gfxPlatformGtk::GetOffscreenFormat() { // Make sure there is a screen GdkScreen* screen = gdk_screen_get_default(); if (screen && gdk_visual_get_depth(gdk_visual_get_system()) == 16) { return SurfaceFormat::R5G6B5_UINT16; } return SurfaceFormat::X8R8G8B8_UINT32; } void gfxPlatformGtk::FontsPrefsChanged(const char* aPref) { // only checking for generic substitions, pass other changes up if (strcmp(GFX_PREF_MAX_GENERIC_SUBSTITUTIONS, aPref) != 0) { gfxPlatform::FontsPrefsChanged(aPref); return; } gfxFcPlatformFontList* pfl = gfxFcPlatformFontList::PlatformFontList(); pfl->ClearGenericMappings(); FlushFontAndWordCaches(); } bool gfxPlatformGtk::AccelerateLayersByDefault() { return true; } #if defined(MOZ_X11) static nsTArray GetDisplayICCProfile(Display* dpy, Window& root) { const char kIccProfileAtomName[] = "_ICC_PROFILE"; Atom iccAtom = XInternAtom(dpy, kIccProfileAtomName, TRUE); if (!iccAtom) { return nsTArray(); } Atom retAtom; int retFormat; unsigned long retLength, retAfter; unsigned char* retProperty; if (XGetWindowProperty(dpy, root, iccAtom, 0, INT_MAX /* length */, X11False, AnyPropertyType, &retAtom, &retFormat, &retLength, &retAfter, &retProperty) != Success) { return nsTArray(); } nsTArray result; if (retLength > 0) { result.AppendElements(static_cast(retProperty), retLength); } XFree(retProperty); return result; } nsTArray gfxPlatformGtk::GetPlatformCMSOutputProfileData() { nsTArray prefProfileData = GetPrefCMSOutputProfileData(); if (!prefProfileData.IsEmpty()) { return prefProfileData; } if (XRE_IsContentProcess()) { MOZ_ASSERT(NS_IsMainThread()); // This will be passed in during InitChild so we can avoid sending a // sync message back to the parent during init. const mozilla::gfx::ContentDeviceData* contentDeviceData = GetInitContentDeviceData(); if (contentDeviceData) { // On Windows, we assert that the profile isn't empty, but on // Linux it can legitimately be empty if the display isn't // calibrated. Thus, no assertion here. return contentDeviceData->cmsOutputProfileData().Clone(); } // Otherwise we need to ask the parent for the updated color profile mozilla::dom::ContentChild* cc = mozilla::dom::ContentChild::GetSingleton(); nsTArray result; Unused << cc->SendGetOutputColorProfileData(&result); return result; } if (!mIsX11Display) { return nsTArray(); } GdkDisplay* display = gdk_display_get_default(); Display* dpy = GDK_DISPLAY_XDISPLAY(display); // In xpcshell tests, we never initialize X and hence don't have a Display. // In this case, there's no output colour management to be done, so we just // return with nullptr. if (!dpy) { return nsTArray(); } Window root = gdk_x11_get_default_root_xwindow(); // First try ICC Profile nsTArray iccResult = GetDisplayICCProfile(dpy, root); if (!iccResult.IsEmpty()) { return iccResult; } // If ICC doesn't work, then try EDID const char kEdid1AtomName[] = "XFree86_DDC_EDID1_RAWDATA"; Atom edidAtom = XInternAtom(dpy, kEdid1AtomName, TRUE); if (!edidAtom) { return nsTArray(); } Atom retAtom; int retFormat; unsigned long retLength, retAfter; unsigned char* retProperty; if (XGetWindowProperty(dpy, root, edidAtom, 0, 32, X11False, AnyPropertyType, &retAtom, &retFormat, &retLength, &retAfter, &retProperty) != Success) { return nsTArray(); } if (retLength != 128) { return nsTArray(); } // Format documented in "VESA E-EDID Implementation Guide" float gamma = (100 + (float)retProperty[0x17]) / 100.0f; qcms_CIE_xyY whitePoint; whitePoint.x = ((retProperty[0x21] << 2) | (retProperty[0x1a] >> 2 & 3)) / 1024.0; whitePoint.y = ((retProperty[0x22] << 2) | (retProperty[0x1a] >> 0 & 3)) / 1024.0; whitePoint.Y = 1.0; qcms_CIE_xyYTRIPLE primaries; primaries.red.x = ((retProperty[0x1b] << 2) | (retProperty[0x19] >> 6 & 3)) / 1024.0; primaries.red.y = ((retProperty[0x1c] << 2) | (retProperty[0x19] >> 4 & 3)) / 1024.0; primaries.red.Y = 1.0; primaries.green.x = ((retProperty[0x1d] << 2) | (retProperty[0x19] >> 2 & 3)) / 1024.0; primaries.green.y = ((retProperty[0x1e] << 2) | (retProperty[0x19] >> 0 & 3)) / 1024.0; primaries.green.Y = 1.0; primaries.blue.x = ((retProperty[0x1f] << 2) | (retProperty[0x1a] >> 6 & 3)) / 1024.0; primaries.blue.y = ((retProperty[0x20] << 2) | (retProperty[0x1a] >> 4 & 3)) / 1024.0; primaries.blue.Y = 1.0; XFree(retProperty); void* mem = nullptr; size_t size = 0; qcms_data_create_rgb_with_gamma(whitePoint, primaries, gamma, &mem, &size); if (!mem) { return nsTArray(); } nsTArray result; result.AppendElements(static_cast(mem), size); free(mem); // XXX: It seems like we get wrong colors when using this constructed profile: // See bug 1696819. For now just forget that we made it. return nsTArray(); } #else // defined(MOZ_X11) nsTArray gfxPlatformGtk::GetPlatformCMSOutputProfileData() { return nsTArray(); } #endif bool gfxPlatformGtk::CheckVariationFontSupport() { // Although there was some variation/multiple-master support in FreeType // in older versions, it seems too incomplete/unstable for us to use // until at least 2.7.1. FT_Int major, minor, patch; FT_Library_Version(Factory::GetFTLibrary(), &major, &minor, &patch); return major * 1000000 + minor * 1000 + patch >= 2007001; } #ifdef MOZ_X11 class GtkVsyncSource final : public VsyncSource { public: GtkVsyncSource() : mGLContext(nullptr), mXDisplay(nullptr), mSetupLock("GLXVsyncSetupLock"), mVsyncThread("GLXVsyncThread"), mVsyncTask(nullptr), mVsyncEnabledLock("GLXVsyncEnabledLock"), mVsyncEnabled(false) { MOZ_ASSERT(NS_IsMainThread()); } virtual ~GtkVsyncSource() { MOZ_ASSERT(NS_IsMainThread()); } // Sets up the display's GL context on a worker thread. // Required as GLContexts may only be used by the creating thread. // Returns true if setup was a success. bool Setup() { MonitorAutoLock lock(mSetupLock); MOZ_ASSERT(NS_IsMainThread()); if (!mVsyncThread.Start()) return false; RefPtr vsyncSetup = NewRunnableMethod("GtkVsyncSource::SetupGLContext", this, &GtkVsyncSource::SetupGLContext); mVsyncThread.message_loop()->PostTask(vsyncSetup.forget()); // Wait until the setup has completed. lock.Wait(); return mGLContext != nullptr; } // Called on the Vsync thread to setup the GL context. void SetupGLContext() { MonitorAutoLock lock(mSetupLock); MOZ_ASSERT(!NS_IsMainThread()); MOZ_ASSERT(!mGLContext, "GLContext already setup!"); // Create video sync timer on a separate Display to prevent locking the // main thread X display. mXDisplay = XOpenDisplay(nullptr); if (!mXDisplay) { lock.NotifyAll(); return; } // Most compositors wait for vsync events on the root window. Window root = DefaultRootWindow(mXDisplay); int screen = DefaultScreen(mXDisplay); ScopedXFree cfgs; GLXFBConfig config; int visid; bool forWebRender = false; if (!gl::GLContextGLX::FindFBConfigForWindow( mXDisplay, screen, root, &cfgs, &config, &visid, forWebRender)) { lock.NotifyAll(); return; } mGLContext = gl::GLContextGLX::CreateGLContext( {}, gfx::XlibDisplay::Borrow(mXDisplay), root, config); if (!mGLContext) { lock.NotifyAll(); return; } mGLContext->MakeCurrent(); // Test that SGI_video_sync lets us get the counter. unsigned int syncCounter = 0; if (gl::sGLXLibrary.fGetVideoSync(&syncCounter) != 0) { mGLContext = nullptr; } lock.NotifyAll(); } virtual void EnableVsync() override { MOZ_ASSERT(NS_IsMainThread()); MOZ_ASSERT(mGLContext, "GLContext not setup!"); MonitorAutoLock lock(mVsyncEnabledLock); if (mVsyncEnabled) { return; } mVsyncEnabled = true; // If the task has not nulled itself out, it hasn't yet realized // that vsync was disabled earlier, so continue its execution. if (!mVsyncTask) { mVsyncTask = NewRunnableMethod("GtkVsyncSource::RunVsync", this, &GtkVsyncSource::RunVsync); RefPtr addrefedTask = mVsyncTask; mVsyncThread.message_loop()->PostTask(addrefedTask.forget()); } } virtual void DisableVsync() override { MonitorAutoLock lock(mVsyncEnabledLock); mVsyncEnabled = false; } virtual bool IsVsyncEnabled() override { MonitorAutoLock lock(mVsyncEnabledLock); return mVsyncEnabled; } virtual void Shutdown() override { MOZ_ASSERT(NS_IsMainThread()); DisableVsync(); // Cleanup thread-specific resources before shutting down. RefPtr shutdownTask = NewRunnableMethod( "GtkVsyncSource::Cleanup", this, &GtkVsyncSource::Cleanup); mVsyncThread.message_loop()->PostTask(shutdownTask.forget()); // Stop, waiting for the cleanup task to finish execution. mVsyncThread.Stop(); } private: void RunVsync() { MOZ_ASSERT(!NS_IsMainThread()); mGLContext->MakeCurrent(); unsigned int syncCounter = 0; gl::sGLXLibrary.fGetVideoSync(&syncCounter); for (;;) { { MonitorAutoLock lock(mVsyncEnabledLock); if (!mVsyncEnabled) { mVsyncTask = nullptr; return; } } TimeStamp lastVsync = TimeStamp::Now(); bool useSoftware = false; // Wait until the video sync counter reaches the next value by waiting // until the parity of the counter value changes. unsigned int nextSync = syncCounter + 1; int status; if ((status = gl::sGLXLibrary.fWaitVideoSync(2, (int)nextSync % 2, &syncCounter)) != 0) { gfxWarningOnce() << "glXWaitVideoSync returned " << status; useSoftware = true; } if (syncCounter == (nextSync - 1)) { gfxWarningOnce() << "glXWaitVideoSync failed to increment the sync counter."; useSoftware = true; } if (useSoftware) { double remaining = (1000.f / 60.f) - (TimeStamp::Now() - lastVsync).ToMilliseconds(); if (remaining > 0) { AUTO_PROFILER_THREAD_SLEEP; PlatformThread::Sleep((int)remaining); } } lastVsync = TimeStamp::Now(); TimeStamp outputTime = lastVsync + GetVsyncRate(); NotifyVsync(lastVsync, outputTime); } } void Cleanup() { MOZ_ASSERT(!NS_IsMainThread()); mGLContext = nullptr; if (mXDisplay) XCloseDisplay(mXDisplay); } // Owned by the vsync thread. RefPtr mGLContext; _XDisplay* mXDisplay; Monitor mSetupLock MOZ_UNANNOTATED; base::Thread mVsyncThread; RefPtr mVsyncTask; Monitor mVsyncEnabledLock MOZ_UNANNOTATED; bool mVsyncEnabled; }; class XrandrSoftwareVsyncSource final : public mozilla::gfx::SoftwareVsyncSource { public: XrandrSoftwareVsyncSource() : SoftwareVsyncSource(ComputeVsyncRate()) { MOZ_ASSERT(NS_IsMainThread()); GdkScreen* defaultScreen = gdk_screen_get_default(); g_signal_connect(defaultScreen, "monitors-changed", G_CALLBACK(monitors_changed), this); } private: // Request the current refresh rate via xrandr. It is hard to find the // "correct" one, thus choose the highest one, assuming this will usually // give the best user experience. static mozilla::TimeDuration ComputeVsyncRate() { struct _XDisplay* dpy = gdk_x11_get_default_xdisplay(); // Use the default software refresh rate as lower bound. Allowing lower // rates makes a bunch of tests start to fail on CI. The main goal of this // VsyncSource is to support refresh rates greater than the default one. double highestRefreshRate = gfxPlatform::GetSoftwareVsyncRate(); // When running on remote X11 the xrandr version may be stuck on an // ancient version. There are still setups using remote X11 out there, so // make sure we don't crash. int eventBase, errorBase, major, minor; if (XRRQueryExtension(dpy, &eventBase, &errorBase) && XRRQueryVersion(dpy, &major, &minor) && (major > 1 || (major == 1 && minor >= 3))) { Window root = gdk_x11_get_default_root_xwindow(); XRRScreenResources* res = XRRGetScreenResourcesCurrent(dpy, root); if (res) { // We can't use refresh rates far below the default one (60Hz) because // otherwise random CI tests start to fail. However, many users have // screens just below the default rate, e.g. 59.95Hz. So slightly // decrease the lower bound. highestRefreshRate -= 1.0; for (int i = 0; i < res->noutput; i++) { XRROutputInfo* outputInfo = XRRGetOutputInfo(dpy, res, res->outputs[i]); if (outputInfo) { if (outputInfo->crtc) { XRRCrtcInfo* crtcInfo = XRRGetCrtcInfo(dpy, res, outputInfo->crtc); if (crtcInfo) { for (int j = 0; j < res->nmode; j++) { if (res->modes[j].id == crtcInfo->mode) { double refreshRate = mode_refresh(&res->modes[j]); if (refreshRate > highestRefreshRate) { highestRefreshRate = refreshRate; } break; } } XRRFreeCrtcInfo(crtcInfo); } } XRRFreeOutputInfo(outputInfo); } } } XRRFreeScreenResources(res); } const double rate = 1000.0 / highestRefreshRate; return mozilla::TimeDuration::FromMilliseconds(rate); } static void monitors_changed(GdkScreen* aScreen, gpointer aClosure) { XrandrSoftwareVsyncSource* self = static_cast(aClosure); self->SetVsyncRate(ComputeVsyncRate()); } // from xrandr.c static double mode_refresh(const XRRModeInfo* mode_info) { double rate; double vTotal = mode_info->vTotal; if (mode_info->modeFlags & RR_DoubleScan) { /* doublescan doubles the number of lines */ vTotal *= 2; } if (mode_info->modeFlags & RR_Interlace) { /* interlace splits the frame into two fields */ /* the field rate is what is typically reported by monitors */ vTotal /= 2; } if (mode_info->hTotal && vTotal) { rate = ((double)mode_info->dotClock / ((double)mode_info->hTotal * (double)vTotal)); } else { rate = 0; } return rate; } }; #endif already_AddRefed gfxPlatformGtk::CreateGlobalHardwareVsyncSource() { #ifdef MOZ_X11 if (IsHeadless() || IsWaylandDisplay()) { // On Wayland we can not create a global hardware based vsync source, thus // use a software based one here. We create window specific ones later. return GetSoftwareVsyncSource(); } nsCOMPtr gfxInfo = components::GfxInfo::Service(); nsString windowProtocol; gfxInfo->GetWindowProtocol(windowProtocol); bool isXwayland = windowProtocol.Find(u"xwayland") != -1; nsString adapterDriverVendor; gfxInfo->GetAdapterDriverVendor(adapterDriverVendor); bool isMesa = adapterDriverVendor.Find(u"mesa") != -1; // Only use GLX vsync when the OpenGL compositor / WebRender is being used. // The extra cost of initializing a GLX context while blocking the main thread // is not worth it when using basic composition. Do not use it on Xwayland, as // Xwayland will give us a software timer as we are listening for the root // window, which does not have a Wayland equivalent. Don't call // gl::sGLXLibrary.SupportsVideoSync() when EGL is used as NVIDIA drivers // refuse to use EGL GL context when GLX was initialized first and fail // silently. if (gfxConfig::IsEnabled(Feature::HW_COMPOSITING) && !isXwayland && (!gfxVars::UseEGL() || isMesa) && gl::sGLXLibrary.SupportsVideoSync(DefaultXDisplay())) { RefPtr vsyncSource = new GtkVsyncSource(); if (!vsyncSource->Setup()) { NS_WARNING("Failed to setup GLContext, falling back to software vsync."); return GetSoftwareVsyncSource(); } return vsyncSource.forget(); } RefPtr softwareVsync = new XrandrSoftwareVsyncSource(); return softwareVsync.forget(); #else return GetSoftwareVsyncSource(); #endif } void gfxPlatformGtk::BuildContentDeviceData(ContentDeviceData* aOut) { gfxPlatform::BuildContentDeviceData(aOut); aOut->cmsOutputProfileData() = GetPlatformCMSOutputProfileData(); }