// 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. extern "C" { #include } #include "ui/gl/gl_surface_glx.h" #include "base/basictypes.h" #include "base/lazy_instance.h" #include "base/logging.h" #include "base/memory/scoped_ptr.h" #include "base/memory/weak_ptr.h" #include "base/message_loop/message_loop.h" #include "base/single_thread_task_runner.h" #include "base/synchronization/cancellation_flag.h" #include "base/synchronization/lock.h" #include "base/thread_task_runner_handle.h" #include "base/threading/non_thread_safe.h" #include "base/threading/thread.h" #include "base/time/time.h" #include "base/trace_event/trace_event.h" #include "ui/events/platform/platform_event_source.h" #include "ui/gfx/x/x11_connection.h" #include "ui/gfx/x/x11_types.h" #include "ui/gl/gl_bindings.h" #include "ui/gl/gl_implementation.h" #include "ui/gl/sync_control_vsync_provider.h" namespace gfx { namespace { Display* g_display = nullptr; const char* g_glx_extensions = nullptr; bool g_glx_context_create = false; bool g_glx_create_context_robustness_supported = false; bool g_glx_texture_from_pixmap_supported = false; bool g_glx_oml_sync_control_supported = false; // Track support of glXGetMscRateOML separately from GLX_OML_sync_control as a // whole since on some platforms (e.g. crosbug.com/34585), glXGetMscRateOML // always fails even though GLX_OML_sync_control is reported as being supported. bool g_glx_get_msc_rate_oml_supported = false; bool g_glx_sgi_video_sync_supported = false; static const base::TimeDelta kGetVSyncParametersMinPeriod = #if defined(OS_LINUX) // See crbug.com/373489 // On Linux, querying the vsync parameters might burn CPU for up to an // entire vsync, so we only query periodically to reduce CPU usage. // 5 seconds is chosen somewhat abitrarily as a balance between: // a) Drift in the phase of our signal. // b) Potential janks from periodically pegging the CPU. base::TimeDelta::FromSeconds(5); #else base::TimeDelta::FromSeconds(0); #endif class OMLSyncControlVSyncProvider : public gfx::SyncControlVSyncProvider { public: explicit OMLSyncControlVSyncProvider(gfx::AcceleratedWidget window) : SyncControlVSyncProvider(), window_(window) { } ~OMLSyncControlVSyncProvider() override {} protected: bool GetSyncValues(int64* system_time, int64* media_stream_counter, int64* swap_buffer_counter) override { return glXGetSyncValuesOML(g_display, window_, system_time, media_stream_counter, swap_buffer_counter); } bool GetMscRate(int32* numerator, int32* denominator) override { if (!g_glx_get_msc_rate_oml_supported) return false; if (!glXGetMscRateOML(g_display, window_, numerator, denominator)) { // Once glXGetMscRateOML has been found to fail, don't try again, // since each failing call may spew an error message. g_glx_get_msc_rate_oml_supported = false; return false; } return true; } private: XID window_; DISALLOW_COPY_AND_ASSIGN(OMLSyncControlVSyncProvider); }; class SGIVideoSyncThread : public base::Thread, public base::NonThreadSafe, public base::RefCounted { public: static scoped_refptr Create() { if (!g_video_sync_thread) { g_video_sync_thread = new SGIVideoSyncThread(); g_video_sync_thread->Start(); } return g_video_sync_thread; } private: friend class base::RefCounted; SGIVideoSyncThread() : base::Thread("SGI_video_sync") { DCHECK(CalledOnValidThread()); } ~SGIVideoSyncThread() override { DCHECK(CalledOnValidThread()); g_video_sync_thread = nullptr; Stop(); } static SGIVideoSyncThread* g_video_sync_thread; DISALLOW_COPY_AND_ASSIGN(SGIVideoSyncThread); }; class SGIVideoSyncProviderThreadShim { public: explicit SGIVideoSyncProviderThreadShim(XID window) : window_(window), context_(nullptr), task_runner_(base::ThreadTaskRunnerHandle::Get()), cancel_vsync_flag_(), vsync_lock_() { // This ensures that creation of |window_| has occured when this shim // is executing in the same process as the call to create |window_|. XSync(g_display, False); } virtual ~SGIVideoSyncProviderThreadShim() { if (context_) { glXDestroyContext(display_, context_); context_ = nullptr; } } base::CancellationFlag* cancel_vsync_flag() { return &cancel_vsync_flag_; } base::Lock* vsync_lock() { return &vsync_lock_; } void Initialize() { DCHECK(display_); XWindowAttributes attributes; if (!XGetWindowAttributes(display_, window_, &attributes)) { LOG(ERROR) << "XGetWindowAttributes failed for window " << window_ << "."; return; } XVisualInfo visual_info_template; visual_info_template.visualid = XVisualIDFromVisual(attributes.visual); int visual_info_count = 0; gfx::XScopedPtr visual_info_list(XGetVisualInfo( display_, VisualIDMask, &visual_info_template, &visual_info_count)); DCHECK(visual_info_list.get()); if (visual_info_count == 0) { LOG(ERROR) << "No visual info for visual ID."; return; } context_ = glXCreateContext(display_, visual_info_list.get(), nullptr, True); DCHECK(nullptr != context_); } void GetVSyncParameters(const VSyncProvider::UpdateVSyncCallback& callback) { base::TimeTicks now; { // Don't allow |window_| destruction while we're probing vsync. base::AutoLock locked(vsync_lock_); if (!context_ || cancel_vsync_flag_.IsSet()) return; glXMakeCurrent(display_, window_, context_); unsigned int retrace_count = 0; if (glXWaitVideoSyncSGI(1, 0, &retrace_count) != 0) return; TRACE_EVENT_INSTANT0("gpu", "vblank", TRACE_EVENT_SCOPE_THREAD); now = base::TimeTicks::Now(); glXMakeCurrent(display_, 0, 0); } const base::TimeDelta kDefaultInterval = base::TimeDelta::FromSeconds(1) / 60; task_runner_->PostTask( FROM_HERE, base::Bind(callback, now, kDefaultInterval)); } private: // For initialization of display_ in GLSurface::InitializeOneOff before // the sandbox goes up. friend class gfx::GLSurfaceGLX; static Display* display_; XID window_; GLXContext context_; scoped_refptr task_runner_; base::CancellationFlag cancel_vsync_flag_; base::Lock vsync_lock_; DISALLOW_COPY_AND_ASSIGN(SGIVideoSyncProviderThreadShim); }; class SGIVideoSyncVSyncProvider : public gfx::VSyncProvider, public base::SupportsWeakPtr { public: explicit SGIVideoSyncVSyncProvider(gfx::AcceleratedWidget window) : vsync_thread_(SGIVideoSyncThread::Create()), shim_(new SGIVideoSyncProviderThreadShim(window)), cancel_vsync_flag_(shim_->cancel_vsync_flag()), vsync_lock_(shim_->vsync_lock()) { vsync_thread_->message_loop()->PostTask( FROM_HERE, base::Bind(&SGIVideoSyncProviderThreadShim::Initialize, base::Unretained(shim_.get()))); } ~SGIVideoSyncVSyncProvider() override { { base::AutoLock locked(*vsync_lock_); cancel_vsync_flag_->Set(); } // Hand-off |shim_| to be deleted on the |vsync_thread_|. vsync_thread_->message_loop()->DeleteSoon( FROM_HERE, shim_.release()); } void GetVSyncParameters( const VSyncProvider::UpdateVSyncCallback& callback) override { if (kGetVSyncParametersMinPeriod > base::TimeDelta()) { base::TimeTicks now = base::TimeTicks::Now(); base::TimeDelta delta = now - last_get_vsync_parameters_time_; if (delta < kGetVSyncParametersMinPeriod) return; last_get_vsync_parameters_time_ = now; } // Only one outstanding request per surface. if (!pending_callback_) { pending_callback_.reset( new VSyncProvider::UpdateVSyncCallback(callback)); vsync_thread_->message_loop()->PostTask( FROM_HERE, base::Bind(&SGIVideoSyncProviderThreadShim::GetVSyncParameters, base::Unretained(shim_.get()), base::Bind( &SGIVideoSyncVSyncProvider::PendingCallbackRunner, AsWeakPtr()))); } } private: void PendingCallbackRunner(const base::TimeTicks timebase, const base::TimeDelta interval) { DCHECK(pending_callback_); pending_callback_->Run(timebase, interval); pending_callback_.reset(); } scoped_refptr vsync_thread_; // Thread shim through which the sync provider is accessed on |vsync_thread_|. scoped_ptr shim_; scoped_ptr pending_callback_; // Raw pointers to sync primitives owned by the shim_. // These will only be referenced before we post a task to destroy // the shim_, so they are safe to access. base::CancellationFlag* cancel_vsync_flag_; base::Lock* vsync_lock_; base::TimeTicks last_get_vsync_parameters_time_; DISALLOW_COPY_AND_ASSIGN(SGIVideoSyncVSyncProvider); }; SGIVideoSyncThread* SGIVideoSyncThread::g_video_sync_thread = nullptr; // In order to take advantage of GLX_SGI_video_sync, we need a display // for use on a separate thread. We must allocate this before the sandbox // goes up (rather than on-demand when we start the thread). Display* SGIVideoSyncProviderThreadShim::display_ = nullptr; } // namespace GLSurfaceGLX::GLSurfaceGLX() {} bool GLSurfaceGLX::InitializeOneOff() { static bool initialized = false; if (initialized) return true; // http://crbug.com/245466 setenv("force_s3tc_enable", "true", 1); // SGIVideoSyncProviderShim (if instantiated) will issue X commands on // it's own thread. gfx::InitializeThreadedX11(); g_display = gfx::GetXDisplay(); if (!g_display) { LOG(ERROR) << "XOpenDisplay failed."; return false; } int major, minor; if (!glXQueryVersion(g_display, &major, &minor)) { LOG(ERROR) << "glxQueryVersion failed"; return false; } if (major == 1 && minor < 3) { LOG(ERROR) << "GLX 1.3 or later is required."; return false; } g_glx_extensions = glXQueryExtensionsString(g_display, 0); g_glx_context_create = HasGLXExtension("GLX_ARB_create_context"); g_glx_create_context_robustness_supported = HasGLXExtension("GLX_ARB_create_context_robustness"); g_glx_texture_from_pixmap_supported = HasGLXExtension("GLX_EXT_texture_from_pixmap"); g_glx_oml_sync_control_supported = HasGLXExtension("GLX_OML_sync_control"); g_glx_get_msc_rate_oml_supported = g_glx_oml_sync_control_supported; g_glx_sgi_video_sync_supported = HasGLXExtension("GLX_SGI_video_sync"); if (!g_glx_get_msc_rate_oml_supported && g_glx_sgi_video_sync_supported) SGIVideoSyncProviderThreadShim::display_ = gfx::OpenNewXDisplay(); initialized = true; return true; } // static const char* GLSurfaceGLX::GetGLXExtensions() { return g_glx_extensions; } // static bool GLSurfaceGLX::HasGLXExtension(const char* name) { return ExtensionsContain(GetGLXExtensions(), name); } // static bool GLSurfaceGLX::IsCreateContextSupported() { return g_glx_context_create; } // static bool GLSurfaceGLX::IsCreateContextRobustnessSupported() { return g_glx_create_context_robustness_supported; } // static bool GLSurfaceGLX::IsTextureFromPixmapSupported() { return g_glx_texture_from_pixmap_supported; } // static bool GLSurfaceGLX::IsOMLSyncControlSupported() { return g_glx_oml_sync_control_supported; } void* GLSurfaceGLX::GetDisplay() { return g_display; } GLSurfaceGLX::~GLSurfaceGLX() {} void* GLSurfaceGLX::GetConfig(gfx::AcceleratedWidget window) { DCHECK(window != 0); // This code path is expensive, but we only take it when // attempting to use GLX_ARB_create_context_robustness, in which // case we need a GLXFBConfig for the window in order to create a // context for it. // // TODO(kbr): this is not a reliable code path. On platforms which // support it, we should use glXChooseFBConfig in the browser // process to choose the FBConfig and from there the X Visual to // use when creating the window in the first place. Then we can // pass that FBConfig down rather than attempting to reconstitute // it. XWindowAttributes attributes; if (!XGetWindowAttributes(g_display, window, &attributes)) { LOG(ERROR) << "XGetWindowAttributes failed for window " << window << "."; return nullptr; } int visual_id = XVisualIDFromVisual(attributes.visual); int num_elements = 0; gfx::XScopedPtr configs( glXGetFBConfigs(g_display, DefaultScreen(g_display), &num_elements)); if (!configs.get()) { LOG(ERROR) << "glXGetFBConfigs failed."; return nullptr; } if (!num_elements) { LOG(ERROR) << "glXGetFBConfigs returned 0 elements."; return nullptr; } bool found = false; int i; for (i = 0; i < num_elements; ++i) { int value; if (glXGetFBConfigAttrib(g_display, configs.get()[i], GLX_VISUAL_ID, &value)) { LOG(ERROR) << "glXGetFBConfigAttrib failed."; return nullptr; } if (value == visual_id) { found = true; break; } } if (found) { return configs.get()[i]; } return nullptr; } NativeViewGLSurfaceGLX::NativeViewGLSurfaceGLX(gfx::AcceleratedWidget window) : parent_window_(window), window_(0), config_(nullptr) { } gfx::AcceleratedWidget NativeViewGLSurfaceGLX::GetDrawableHandle() const { return window_; } bool NativeViewGLSurfaceGLX::Initialize() { XWindowAttributes attributes; if (!XGetWindowAttributes(g_display, parent_window_, &attributes)) { LOG(ERROR) << "XGetWindowAttributes failed for window " << parent_window_ << "."; return false; } size_ = gfx::Size(attributes.width, attributes.height); // Create a child window, with a CopyFromParent visual (to avoid inducing // extra blits in the driver), that we can resize exactly in Resize(), // correctly ordered with GL, so that we don't have invalid transient states. // See https://crbug.com/326995. window_ = XCreateWindow(g_display, parent_window_, 0, 0, size_.width(), size_.height(), 0, CopyFromParent, InputOutput, CopyFromParent, 0, nullptr); XMapWindow(g_display, window_); ui::PlatformEventSource* event_source = ui::PlatformEventSource::GetInstance(); // Can be nullptr in tests, when we don't care about Exposes. if (event_source) { XSelectInput(g_display, window_, ExposureMask); ui::PlatformEventSource::GetInstance()->AddPlatformEventDispatcher(this); } XFlush(g_display); gfx::AcceleratedWidget window_for_vsync = window_; if (g_glx_oml_sync_control_supported) vsync_provider_.reset(new OMLSyncControlVSyncProvider(window_for_vsync)); else if (g_glx_sgi_video_sync_supported) vsync_provider_.reset(new SGIVideoSyncVSyncProvider(window_for_vsync)); return true; } void NativeViewGLSurfaceGLX::Destroy() { if (window_) { ui::PlatformEventSource* event_source = ui::PlatformEventSource::GetInstance(); if (event_source) event_source->RemovePlatformEventDispatcher(this); XDestroyWindow(g_display, window_); window_ = 0; XFlush(g_display); } } bool NativeViewGLSurfaceGLX::CanDispatchEvent(const ui::PlatformEvent& event) { return event->type == Expose && event->xexpose.window == window_; } uint32_t NativeViewGLSurfaceGLX::DispatchEvent(const ui::PlatformEvent& event) { XEvent forwarded_event = *event; forwarded_event.xexpose.window = parent_window_; XSendEvent(g_display, parent_window_, False, ExposureMask, &forwarded_event); XFlush(g_display); return ui::POST_DISPATCH_STOP_PROPAGATION; } bool NativeViewGLSurfaceGLX::Resize(const gfx::Size& size) { size_ = size; glXWaitGL(); XResizeWindow(g_display, window_, size.width(), size.height()); glXWaitX(); return true; } bool NativeViewGLSurfaceGLX::IsOffscreen() { return false; } bool NativeViewGLSurfaceGLX::SwapBuffers() { TRACE_EVENT2("gpu", "NativeViewGLSurfaceGLX:RealSwapBuffers", "width", GetSize().width(), "height", GetSize().height()); glXSwapBuffers(g_display, GetDrawableHandle()); return true; } gfx::Size NativeViewGLSurfaceGLX::GetSize() { return size_; } void* NativeViewGLSurfaceGLX::GetHandle() { return reinterpret_cast(GetDrawableHandle()); } bool NativeViewGLSurfaceGLX::SupportsPostSubBuffer() { return gfx::g_driver_glx.ext.b_GLX_MESA_copy_sub_buffer; } void* NativeViewGLSurfaceGLX::GetConfig() { if (!config_) config_ = GLSurfaceGLX::GetConfig(window_); return config_; } bool NativeViewGLSurfaceGLX::PostSubBuffer( int x, int y, int width, int height) { DCHECK(gfx::g_driver_glx.ext.b_GLX_MESA_copy_sub_buffer); glXCopySubBufferMESA(g_display, GetDrawableHandle(), x, y, width, height); return true; } VSyncProvider* NativeViewGLSurfaceGLX::GetVSyncProvider() { return vsync_provider_.get(); } NativeViewGLSurfaceGLX::~NativeViewGLSurfaceGLX() { Destroy(); } UnmappedNativeViewGLSurfaceGLX::UnmappedNativeViewGLSurfaceGLX( const gfx::Size& size) : size_(size), config_(nullptr), window_(0) { // Ensure that we don't create a window with zero size. if (size_.GetArea() == 0) size_.SetSize(1, 1); } bool UnmappedNativeViewGLSurfaceGLX::Initialize() { DCHECK(!window_); gfx::AcceleratedWidget parent_window = RootWindow(g_display, DefaultScreen(g_display)); // We create a window with CopyFromParent visual so that we have the same // visual as NativeViewGLSurfaceGLX (i.e. same GLXFBConfig), to ensure // contexts are compatible and can be made current with either. window_ = XCreateWindow(g_display, parent_window, 0, 0, size_.width(), size_.height(), 0, CopyFromParent, InputOutput, CopyFromParent, 0, nullptr); return window_ != 0; } void UnmappedNativeViewGLSurfaceGLX::Destroy() { config_ = nullptr; if (window_) { XDestroyWindow(g_display, window_); window_ = 0; } } bool UnmappedNativeViewGLSurfaceGLX::IsOffscreen() { return true; } bool UnmappedNativeViewGLSurfaceGLX::SwapBuffers() { NOTREACHED() << "Attempted to call SwapBuffers on an unmapped window."; return false; } gfx::Size UnmappedNativeViewGLSurfaceGLX::GetSize() { return size_; } void* UnmappedNativeViewGLSurfaceGLX::GetHandle() { return reinterpret_cast(window_); } void* UnmappedNativeViewGLSurfaceGLX::GetConfig() { if (!config_) config_ = GLSurfaceGLX::GetConfig(window_); return config_; } UnmappedNativeViewGLSurfaceGLX::~UnmappedNativeViewGLSurfaceGLX() { Destroy(); } } // namespace gfx