// Copyright (c) 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "content/renderer/render_widget.h" #include "base/bind.h" #include "base/command_line.h" #include "base/debug/trace_event.h" #include "base/debug/trace_event_synthetic_delay.h" #include "base/logging.h" #include "base/memory/scoped_ptr.h" #include "base/memory/singleton.h" #include "base/message_loop/message_loop.h" #include "base/metrics/histogram.h" #include "base/stl_util.h" #include "base/strings/utf_string_conversions.h" #include "build/build_config.h" #include "cc/base/switches.h" #include "cc/debug/benchmark_instrumentation.h" #include "cc/output/output_surface.h" #include "cc/trees/layer_tree_host.h" #include "content/child/npapi/webplugin.h" #include "content/common/gpu/client/context_provider_command_buffer.h" #include "content/common/gpu/client/webgraphicscontext3d_command_buffer_impl.h" #include "content/common/gpu/gpu_process_launch_causes.h" #include "content/common/input/synthetic_gesture_packet.h" #include "content/common/input/web_input_event_traits.h" #include "content/common/input_messages.h" #include "content/common/swapped_out_messages.h" #include "content/common/view_messages.h" #include "content/public/common/content_switches.h" #include "content/renderer/cursor_utils.h" #include "content/renderer/external_popup_menu.h" #include "content/renderer/gpu/compositor_output_surface.h" #include "content/renderer/gpu/compositor_software_output_device.h" #include "content/renderer/gpu/delegated_compositor_output_surface.h" #include "content/renderer/gpu/mailbox_output_surface.h" #include "content/renderer/gpu/render_widget_compositor.h" #include "content/renderer/ime_event_guard.h" #include "content/renderer/input/input_handler_manager.h" #include "content/renderer/pepper/pepper_plugin_instance_impl.h" #include "content/renderer/render_process.h" #include "content/renderer/render_thread_impl.h" #include "content/renderer/renderer_webkitplatformsupport_impl.h" #include "content/renderer/resizing_mode_selector.h" #include "ipc/ipc_sync_message.h" #include "skia/ext/platform_canvas.h" #include "third_party/WebKit/public/platform/WebCursorInfo.h" #include "third_party/WebKit/public/platform/WebGraphicsContext3D.h" #include "third_party/WebKit/public/platform/WebRect.h" #include "third_party/WebKit/public/platform/WebScreenInfo.h" #include "third_party/WebKit/public/platform/WebSize.h" #include "third_party/WebKit/public/platform/WebString.h" #include "third_party/WebKit/public/web/WebHelperPlugin.h" #include "third_party/WebKit/public/web/WebPagePopup.h" #include "third_party/WebKit/public/web/WebPopupMenu.h" #include "third_party/WebKit/public/web/WebPopupMenuInfo.h" #include "third_party/WebKit/public/web/WebRange.h" #include "third_party/skia/include/core/SkShader.h" #include "ui/base/ui_base_switches.h" #include "ui/gfx/frame_time.h" #include "ui/gfx/rect_conversions.h" #include "ui/gfx/size_conversions.h" #include "ui/gfx/skia_util.h" #include "ui/gl/gl_switches.h" #include "ui/surface/transport_dib.h" #include "webkit/renderer/compositor_bindings/web_rendering_stats_impl.h" #if defined(OS_ANDROID) #include "base/android/sys_utils.h" #include "content/renderer/android/synchronous_compositor_factory.h" #endif #if defined(OS_POSIX) #include "ipc/ipc_channel_posix.h" #include "third_party/skia/include/core/SkMallocPixelRef.h" #include "third_party/skia/include/core/SkPixelRef.h" #endif // defined(OS_POSIX) #include "third_party/WebKit/public/web/WebWidget.h" using blink::WebCompositionUnderline; using blink::WebCursorInfo; using blink::WebGestureEvent; using blink::WebInputEvent; using blink::WebKeyboardEvent; using blink::WebMouseEvent; using blink::WebMouseWheelEvent; using blink::WebNavigationPolicy; using blink::WebPagePopup; using blink::WebPopupMenu; using blink::WebPopupMenuInfo; using blink::WebPopupType; using blink::WebRange; using blink::WebRect; using blink::WebScreenInfo; using blink::WebSize; using blink::WebTextDirection; using blink::WebTouchEvent; using blink::WebTouchPoint; using blink::WebVector; using blink::WebWidget; namespace { typedef std::map TextInputModeMap; class TextInputModeMapSingleton { public: static TextInputModeMapSingleton* GetInstance() { return Singleton::get(); } TextInputModeMapSingleton() { map_["verbatim"] = ui::TEXT_INPUT_MODE_VERBATIM; map_["latin"] = ui::TEXT_INPUT_MODE_LATIN; map_["latin-name"] = ui::TEXT_INPUT_MODE_LATIN_NAME; map_["latin-prose"] = ui::TEXT_INPUT_MODE_LATIN_PROSE; map_["full-width-latin"] = ui::TEXT_INPUT_MODE_FULL_WIDTH_LATIN; map_["kana"] = ui::TEXT_INPUT_MODE_KANA; map_["katakana"] = ui::TEXT_INPUT_MODE_KATAKANA; map_["numeric"] = ui::TEXT_INPUT_MODE_NUMERIC; map_["tel"] = ui::TEXT_INPUT_MODE_TEL; map_["email"] = ui::TEXT_INPUT_MODE_EMAIL; map_["url"] = ui::TEXT_INPUT_MODE_URL; } const TextInputModeMap& map() const { return map_; } private: TextInputModeMap map_; friend struct DefaultSingletonTraits; DISALLOW_COPY_AND_ASSIGN(TextInputModeMapSingleton); }; ui::TextInputMode ConvertInputMode(const blink::WebString& input_mode) { static TextInputModeMapSingleton* singleton = TextInputModeMapSingleton::GetInstance(); TextInputModeMap::const_iterator it = singleton->map().find(input_mode.utf8()); if (it == singleton->map().end()) return ui::TEXT_INPUT_MODE_DEFAULT; return it->second; } // TODO(brianderson): Replace the hard-coded threshold with a fraction of // the BeginMainFrame interval. // 4166us will allow 1/4 of a 60Hz interval or 1/2 of a 120Hz interval to // be spent in input hanlders before input starts getting throttled. const int kInputHandlingTimeThrottlingThresholdMicroseconds = 4166; } // namespace namespace content { // RenderWidget::ScreenMetricsEmulator ---------------------------------------- class RenderWidget::ScreenMetricsEmulator { public: ScreenMetricsEmulator( RenderWidget* widget, const gfx::Rect& device_rect, const gfx::Rect& widget_rect, float device_scale_factor, bool fit_to_view); virtual ~ScreenMetricsEmulator(); float scale() { return scale_; } gfx::Point offset() { return offset_; } gfx::Rect widget_rect() const { return widget_rect_; } gfx::Rect original_screen_rect() const { return original_view_screen_rect_; } void ChangeEmulationParams( const gfx::Rect& device_rect, const gfx::Rect& widget_rect, float device_scale_factor, bool fit_to_view); // The following methods alter handlers' behavior for messages related to // widget size and position. void OnResizeMessage(const ViewMsg_Resize_Params& params); void OnUpdateScreenRectsMessage(const gfx::Rect& view_screen_rect, const gfx::Rect& window_screen_rect); void OnShowContextMenu(ContextMenuParams* params); private: void Apply(float overdraw_bottom_height, gfx::Rect resizer_rect, bool is_fullscreen); RenderWidget* widget_; // Parameters as passed by RenderWidget::EnableScreenMetricsEmulation. gfx::Rect device_rect_; gfx::Rect widget_rect_; float device_scale_factor_; bool fit_to_view_; // The computed scale and offset used to fit widget into browser window. float scale_; gfx::Point offset_; // Original values to restore back after emulation ends. gfx::Size original_size_; gfx::Size original_physical_backing_size_; blink::WebScreenInfo original_screen_info_; gfx::Rect original_view_screen_rect_; gfx::Rect original_window_screen_rect_; }; RenderWidget::ScreenMetricsEmulator::ScreenMetricsEmulator( RenderWidget* widget, const gfx::Rect& device_rect, const gfx::Rect& widget_rect, float device_scale_factor, bool fit_to_view) : widget_(widget), device_rect_(device_rect), widget_rect_(widget_rect), device_scale_factor_(device_scale_factor), fit_to_view_(fit_to_view), scale_(1.f) { original_size_ = widget_->size_; original_physical_backing_size_ = widget_->physical_backing_size_; original_screen_info_ = widget_->screen_info_; original_view_screen_rect_ = widget_->view_screen_rect_; original_window_screen_rect_ = widget_->window_screen_rect_; Apply(widget_->overdraw_bottom_height_, widget_->resizer_rect_, widget_->is_fullscreen_); } RenderWidget::ScreenMetricsEmulator::~ScreenMetricsEmulator() { widget_->screen_info_ = original_screen_info_; widget_->SetDeviceScaleFactor(original_screen_info_.deviceScaleFactor); widget_->SetScreenMetricsEmulationParameters(0.f, gfx::Point(), 1.f); widget_->view_screen_rect_ = original_view_screen_rect_; widget_->window_screen_rect_ = original_window_screen_rect_; widget_->Resize(original_size_, original_physical_backing_size_, widget_->overdraw_bottom_height_, widget_->resizer_rect_, widget_->is_fullscreen_, NO_RESIZE_ACK); } void RenderWidget::ScreenMetricsEmulator::ChangeEmulationParams( const gfx::Rect& device_rect, const gfx::Rect& widget_rect, float device_scale_factor, bool fit_to_view) { device_rect_ = device_rect; widget_rect_ = widget_rect; device_scale_factor_ = device_scale_factor; fit_to_view_ = fit_to_view; Apply(widget_->overdraw_bottom_height_, widget_->resizer_rect_, widget_->is_fullscreen_); } void RenderWidget::ScreenMetricsEmulator::Apply( float overdraw_bottom_height, gfx::Rect resizer_rect, bool is_fullscreen) { if (fit_to_view_) { DCHECK(!original_size_.IsEmpty()); int width_with_gutter = std::max(original_size_.width() - 2 * device_rect_.x(), 1); int height_with_gutter = std::max(original_size_.height() - 2 * device_rect_.y(), 1); float width_ratio = static_cast(widget_rect_.width()) / width_with_gutter; float height_ratio = static_cast(widget_rect_.height()) / height_with_gutter; float ratio = std::max(1.0f, std::max(width_ratio, height_ratio)); scale_ = 1.f / ratio; } else { scale_ = 1.f; } // Center emulated view inside available view space. offset_.set_x((original_size_.width() - scale_ * widget_rect_.width()) / 2); offset_.set_y((original_size_.height() - scale_ * widget_rect_.height()) / 2); widget_->screen_info_.rect = gfx::Rect(device_rect_.size()); widget_->screen_info_.availableRect = gfx::Rect(device_rect_.size()); widget_->screen_info_.deviceScaleFactor = device_scale_factor_; // Pass three emulation parameters to the blink side: // - we keep the real device scale factor in compositor to produce sharp image // even when emulating different scale factor; // - in order to fit into view, WebView applies offset and scale to the // root layer. widget_->SetScreenMetricsEmulationParameters( original_screen_info_.deviceScaleFactor, offset_, scale_); widget_->SetDeviceScaleFactor(device_scale_factor_); widget_->view_screen_rect_ = widget_rect_; widget_->window_screen_rect_ = widget_->screen_info_.availableRect; gfx::Size physical_backing_size = gfx::ToCeiledSize(gfx::ScaleSize( original_size_, original_screen_info_.deviceScaleFactor)); widget_->Resize(widget_rect_.size(), physical_backing_size, overdraw_bottom_height, resizer_rect, is_fullscreen, NO_RESIZE_ACK); } void RenderWidget::ScreenMetricsEmulator::OnResizeMessage( const ViewMsg_Resize_Params& params) { bool need_ack = params.new_size != original_size_ && !params.new_size.IsEmpty() && !params.physical_backing_size.IsEmpty(); original_size_ = params.new_size; original_physical_backing_size_ = params.physical_backing_size; original_screen_info_ = params.screen_info; Apply(params.overdraw_bottom_height, params.resizer_rect, params.is_fullscreen); if (need_ack) { widget_->set_next_paint_is_resize_ack(); if (widget_->compositor_) widget_->compositor_->SetNeedsRedrawRect(gfx::Rect(widget_->size_)); } } void RenderWidget::ScreenMetricsEmulator::OnUpdateScreenRectsMessage( const gfx::Rect& view_screen_rect, const gfx::Rect& window_screen_rect) { original_view_screen_rect_ = view_screen_rect; original_window_screen_rect_ = window_screen_rect; } void RenderWidget::ScreenMetricsEmulator::OnShowContextMenu( ContextMenuParams* params) { params->x *= scale_; params->x += offset_.x(); params->y *= scale_; params->y += offset_.y(); } // RenderWidget --------------------------------------------------------------- RenderWidget::RenderWidget(blink::WebPopupType popup_type, const blink::WebScreenInfo& screen_info, bool swapped_out, bool hidden) : routing_id_(MSG_ROUTING_NONE), surface_id_(0), webwidget_(NULL), opener_id_(MSG_ROUTING_NONE), init_complete_(false), current_paint_buf_(NULL), overdraw_bottom_height_(0.f), next_paint_flags_(0), filtered_time_per_frame_(0.0f), update_reply_pending_(false), auto_resize_mode_(false), need_update_rect_for_auto_resize_(false), using_asynchronous_swapbuffers_(false), num_swapbuffers_complete_pending_(0), did_show_(false), is_hidden_(hidden), is_fullscreen_(false), needs_repainting_on_restore_(false), has_focus_(false), handling_input_event_(false), handling_ime_event_(false), handling_touchstart_event_(false), closing_(false), is_swapped_out_(swapped_out), input_method_is_active_(false), text_input_type_(ui::TEXT_INPUT_TYPE_NONE), text_input_mode_(ui::TEXT_INPUT_MODE_DEFAULT), can_compose_inline_(true), popup_type_(popup_type), pending_window_rect_count_(0), suppress_next_char_events_(false), is_accelerated_compositing_active_(false), was_accelerated_compositing_ever_active_(false), animation_update_pending_(false), invalidation_task_posted_(false), screen_info_(screen_info), device_scale_factor_(screen_info_.deviceScaleFactor), is_threaded_compositing_enabled_(false), next_output_surface_id_(0), #if defined(OS_ANDROID) outstanding_ime_acks_(0), #endif popup_origin_scale_for_emulation_(0.f), resizing_mode_selector_(new ResizingModeSelector()) { if (!swapped_out) RenderProcess::current()->AddRefProcess(); DCHECK(RenderThread::Get()); has_disable_gpu_vsync_switch_ = CommandLine::ForCurrentProcess()->HasSwitch( switches::kDisableGpuVsync); is_threaded_compositing_enabled_ = CommandLine::ForCurrentProcess()->HasSwitch( switches::kEnableThreadedCompositing); legacy_software_mode_stats_ = cc::RenderingStatsInstrumentation::Create(); if (CommandLine::ForCurrentProcess()->HasSwitch( switches::kEnableGpuBenchmarking)) legacy_software_mode_stats_->set_record_rendering_stats(true); } RenderWidget::~RenderWidget() { DCHECK(!webwidget_) << "Leaking our WebWidget!"; STLDeleteElements(&updates_pending_swap_); if (current_paint_buf_) { if (RenderProcess::current()) { // If the RenderProcess is already gone, it will have released all DIBs // in its destructor anyway. RenderProcess::current()->ReleaseTransportDIB(current_paint_buf_); } current_paint_buf_ = NULL; } // If we are swapped out, we have released already. if (!is_swapped_out_ && RenderProcess::current()) RenderProcess::current()->ReleaseProcess(); } // static RenderWidget* RenderWidget::Create(int32 opener_id, blink::WebPopupType popup_type, const blink::WebScreenInfo& screen_info) { DCHECK(opener_id != MSG_ROUTING_NONE); scoped_refptr widget( new RenderWidget(popup_type, screen_info, false, false)); if (widget->Init(opener_id)) { // adds reference on success. return widget.get(); } return NULL; } // static WebWidget* RenderWidget::CreateWebWidget(RenderWidget* render_widget) { switch (render_widget->popup_type_) { case blink::WebPopupTypeNone: // Nothing to create. break; case blink::WebPopupTypeSelect: case blink::WebPopupTypeSuggestion: return WebPopupMenu::create(render_widget); case blink::WebPopupTypePage: return WebPagePopup::create(render_widget); case blink::WebPopupTypeHelperPlugin: return blink::WebHelperPlugin::create(render_widget); default: NOTREACHED(); } return NULL; } bool RenderWidget::Init(int32 opener_id) { return DoInit(opener_id, RenderWidget::CreateWebWidget(this), new ViewHostMsg_CreateWidget(opener_id, popup_type_, &routing_id_, &surface_id_)); } bool RenderWidget::DoInit(int32 opener_id, WebWidget* web_widget, IPC::SyncMessage* create_widget_message) { DCHECK(!webwidget_); if (opener_id != MSG_ROUTING_NONE) opener_id_ = opener_id; webwidget_ = web_widget; bool result = RenderThread::Get()->Send(create_widget_message); if (result) { RenderThread::Get()->AddRoute(routing_id_, this); // Take a reference on behalf of the RenderThread. This will be balanced // when we receive ViewMsg_Close. AddRef(); if (RenderThreadImpl::current()) { RenderThreadImpl::current()->WidgetCreated(); if (is_hidden_) RenderThreadImpl::current()->WidgetHidden(); } return true; } else { // The above Send can fail when the tab is closing. return false; } } // This is used to complete pending inits and non-pending inits. void RenderWidget::CompleteInit() { DCHECK(routing_id_ != MSG_ROUTING_NONE); init_complete_ = true; if (webwidget_ && is_threaded_compositing_enabled_) { webwidget_->enterForceCompositingMode(true); } if (compositor_) { compositor_->setSurfaceReady(); } DoDeferredUpdate(); Send(new ViewHostMsg_RenderViewReady(routing_id_)); } void RenderWidget::SetSwappedOut(bool is_swapped_out) { // We should only toggle between states. DCHECK(is_swapped_out_ != is_swapped_out); is_swapped_out_ = is_swapped_out; // If we are swapping out, we will call ReleaseProcess, allowing the process // to exit if all of its RenderViews are swapped out. We wait until the // WasSwappedOut call to do this, to avoid showing the sad tab. // If we are swapping in, we call AddRefProcess to prevent the process from // exiting. if (!is_swapped_out) RenderProcess::current()->AddRefProcess(); } bool RenderWidget::AllowPartialSwap() const { return true; } bool RenderWidget::UsingSynchronousRendererCompositor() const { #if defined(OS_ANDROID) return SynchronousCompositorFactory::GetInstance() != NULL; #else return false; #endif } void RenderWidget::EnableScreenMetricsEmulation( const gfx::Rect& device_rect, const gfx::Rect& widget_rect, float device_scale_factor, bool fit_to_view) { if (!screen_metrics_emulator_) { screen_metrics_emulator_.reset(new ScreenMetricsEmulator(this, device_rect, widget_rect, device_scale_factor, fit_to_view)); } else { screen_metrics_emulator_->ChangeEmulationParams(device_rect, widget_rect, device_scale_factor, fit_to_view); } } void RenderWidget::DisableScreenMetricsEmulation() { screen_metrics_emulator_.reset(); } void RenderWidget::SetPopupOriginAdjustmentsForEmulation( ScreenMetricsEmulator* emulator) { popup_origin_scale_for_emulation_ = emulator->scale(); popup_view_origin_for_emulation_ = emulator->widget_rect().origin(); popup_screen_origin_for_emulation_ = gfx::Point( emulator->original_screen_rect().origin().x() + emulator->offset().x(), emulator->original_screen_rect().origin().y() + emulator->offset().y()); } void RenderWidget::SetScreenMetricsEmulationParameters( float device_scale_factor, const gfx::Point& root_layer_offset, float root_layer_scale) { // This is only supported in RenderView. NOTREACHED(); } void RenderWidget::SetExternalPopupOriginAdjustmentsForEmulation( ExternalPopupMenu* popup, ScreenMetricsEmulator* emulator) { popup->SetOriginScaleAndOffsetForEmulation( emulator->scale(), emulator->offset()); } void RenderWidget::OnShowHostContextMenu(ContextMenuParams* params) { if (screen_metrics_emulator_) screen_metrics_emulator_->OnShowContextMenu(params); } void RenderWidget::ScheduleCompositeWithForcedRedraw() { if (compositor_) { // Regardless of whether threaded compositing is enabled, always // use this mechanism to force the compositor to redraw. However, // the invalidation code path below is still needed for the // non-threaded case. compositor_->SetNeedsForcedRedraw(); } scheduleComposite(); } bool RenderWidget::OnMessageReceived(const IPC::Message& message) { bool handled = true; IPC_BEGIN_MESSAGE_MAP(RenderWidget, message) IPC_MESSAGE_HANDLER(InputMsg_HandleInputEvent, OnHandleInputEvent) IPC_MESSAGE_HANDLER(InputMsg_CursorVisibilityChange, OnCursorVisibilityChange) IPC_MESSAGE_HANDLER(InputMsg_MouseCaptureLost, OnMouseCaptureLost) IPC_MESSAGE_HANDLER(InputMsg_SetFocus, OnSetFocus) IPC_MESSAGE_HANDLER(InputMsg_SyntheticGestureCompleted, OnSyntheticGestureCompleted) IPC_MESSAGE_HANDLER(ViewMsg_Close, OnClose) IPC_MESSAGE_HANDLER(ViewMsg_CreatingNew_ACK, OnCreatingNewAck) IPC_MESSAGE_HANDLER(ViewMsg_Resize, OnResize) IPC_MESSAGE_HANDLER(ViewMsg_ChangeResizeRect, OnChangeResizeRect) IPC_MESSAGE_HANDLER(ViewMsg_WasHidden, OnWasHidden) IPC_MESSAGE_HANDLER(ViewMsg_WasShown, OnWasShown) IPC_MESSAGE_HANDLER(ViewMsg_WasSwappedOut, OnWasSwappedOut) IPC_MESSAGE_HANDLER(ViewMsg_UpdateRect_ACK, OnUpdateRectAck) IPC_MESSAGE_HANDLER(ViewMsg_SwapBuffers_ACK, OnSwapBuffersComplete) IPC_MESSAGE_HANDLER(ViewMsg_SetInputMethodActive, OnSetInputMethodActive) IPC_MESSAGE_HANDLER(ViewMsg_CandidateWindowShown, OnCandidateWindowShown) IPC_MESSAGE_HANDLER(ViewMsg_CandidateWindowUpdated, OnCandidateWindowUpdated) IPC_MESSAGE_HANDLER(ViewMsg_CandidateWindowHidden, OnCandidateWindowHidden) IPC_MESSAGE_HANDLER(ViewMsg_ImeSetComposition, OnImeSetComposition) IPC_MESSAGE_HANDLER(ViewMsg_ImeConfirmComposition, OnImeConfirmComposition) IPC_MESSAGE_HANDLER(ViewMsg_PaintAtSize, OnPaintAtSize) IPC_MESSAGE_HANDLER(ViewMsg_Repaint, OnRepaint) IPC_MESSAGE_HANDLER(ViewMsg_SetTextDirection, OnSetTextDirection) IPC_MESSAGE_HANDLER(ViewMsg_Move_ACK, OnRequestMoveAck) IPC_MESSAGE_HANDLER(ViewMsg_UpdateScreenRects, OnUpdateScreenRects) #if defined(OS_ANDROID) IPC_MESSAGE_HANDLER(ViewMsg_ShowImeIfNeeded, OnShowImeIfNeeded) IPC_MESSAGE_HANDLER(ViewMsg_ImeEventAck, OnImeEventAck) #endif IPC_MESSAGE_HANDLER(ViewMsg_Snapshot, OnSnapshot) IPC_MESSAGE_HANDLER(ViewMsg_SetBrowserRenderingStats, OnSetBrowserRenderingStats) IPC_MESSAGE_UNHANDLED(handled = false) IPC_END_MESSAGE_MAP() return handled; } bool RenderWidget::Send(IPC::Message* message) { // Don't send any messages after the browser has told us to close, and filter // most outgoing messages while swapped out. if ((is_swapped_out_ && !SwappedOutMessages::CanSendWhileSwappedOut(message)) || closing_) { delete message; return false; } // If given a messsage without a routing ID, then assign our routing ID. if (message->routing_id() == MSG_ROUTING_NONE) message->set_routing_id(routing_id_); return RenderThread::Get()->Send(message); } void RenderWidget::Resize(const gfx::Size& new_size, const gfx::Size& physical_backing_size, float overdraw_bottom_height, const gfx::Rect& resizer_rect, bool is_fullscreen, ResizeAck resize_ack) { if (resizing_mode_selector_->NeverUsesSynchronousResize()) { // A resize ack shouldn't be requested if we have not ACK'd the previous // one. DCHECK(resize_ack != SEND_RESIZE_ACK || !next_paint_is_resize_ack()); DCHECK(resize_ack == SEND_RESIZE_ACK || resize_ack == NO_RESIZE_ACK); } // Ignore this during shutdown. if (!webwidget_) return; if (compositor_) { compositor_->setViewportSize(new_size, physical_backing_size); compositor_->SetOverdrawBottomHeight(overdraw_bottom_height); } physical_backing_size_ = physical_backing_size; overdraw_bottom_height_ = overdraw_bottom_height; resizer_rect_ = resizer_rect; // NOTE: We may have entered fullscreen mode without changing our size. bool fullscreen_change = is_fullscreen_ != is_fullscreen; if (fullscreen_change) WillToggleFullscreen(); is_fullscreen_ = is_fullscreen; if (size_ != new_size) { // TODO(darin): We should not need to reset this here. needs_repainting_on_restore_ = false; size_ = new_size; paint_aggregator_.ClearPendingUpdate(); // When resizing, we want to wait to paint before ACK'ing the resize. This // ensures that we only resize as fast as we can paint. We only need to // send an ACK if we are resized to a non-empty rect. webwidget_->resize(new_size); if (resizing_mode_selector_->NeverUsesSynchronousResize()) { // Resize should have caused an invalidation of the entire view. DCHECK(new_size.IsEmpty() || is_accelerated_compositing_active_ || paint_aggregator_.HasPendingUpdate()); } } else if (!resizing_mode_selector_->is_synchronous_mode()) { resize_ack = NO_RESIZE_ACK; } if (new_size.IsEmpty() || physical_backing_size.IsEmpty()) { // For empty size or empty physical_backing_size, there is no next paint // (along with which to send the ack) until they are set to non-empty. resize_ack = NO_RESIZE_ACK; } // Send the Resize_ACK flag once we paint again if requested. if (resize_ack == SEND_RESIZE_ACK) set_next_paint_is_resize_ack(); if (fullscreen_change) DidToggleFullscreen(); // If a resize ack is requested and it isn't set-up, then no more resizes will // come in and in general things will go wrong. DCHECK(resize_ack != SEND_RESIZE_ACK || next_paint_is_resize_ack()); } void RenderWidget::ResizeSynchronously(const gfx::Rect& new_position) { Resize(new_position.size(), new_position.size(), overdraw_bottom_height_, gfx::Rect(), is_fullscreen_, NO_RESIZE_ACK); view_screen_rect_ = new_position; window_screen_rect_ = new_position; if (!did_show_) initial_pos_ = new_position; } void RenderWidget::OnClose() { if (closing_) return; closing_ = true; // Browser correspondence is no longer needed at this point. if (routing_id_ != MSG_ROUTING_NONE) { if (RenderThreadImpl::current()) RenderThreadImpl::current()->WidgetDestroyed(); RenderThread::Get()->RemoveRoute(routing_id_); SetHidden(false); } // If there is a Send call on the stack, then it could be dangerous to close // now. Post a task that only gets invoked when there are no nested message // loops. base::MessageLoop::current()->PostNonNestableTask( FROM_HERE, base::Bind(&RenderWidget::Close, this)); // Balances the AddRef taken when we called AddRoute. Release(); } // Got a response from the browser after the renderer decided to create a new // view. void RenderWidget::OnCreatingNewAck() { DCHECK(routing_id_ != MSG_ROUTING_NONE); CompleteInit(); } void RenderWidget::OnResize(const ViewMsg_Resize_Params& params) { if (resizing_mode_selector_->ShouldAbortOnResize(this, params)) return; if (screen_metrics_emulator_) { screen_metrics_emulator_->OnResizeMessage(params); return; } screen_info_ = params.screen_info; SetDeviceScaleFactor(screen_info_.deviceScaleFactor); Resize(params.new_size, params.physical_backing_size, params.overdraw_bottom_height, params.resizer_rect, params.is_fullscreen, SEND_RESIZE_ACK); } void RenderWidget::OnChangeResizeRect(const gfx::Rect& resizer_rect) { if (resizer_rect_ != resizer_rect) { gfx::Rect view_rect(size_); gfx::Rect old_damage_rect = gfx::IntersectRects(view_rect, resizer_rect_); if (!old_damage_rect.IsEmpty()) paint_aggregator_.InvalidateRect(old_damage_rect); gfx::Rect new_damage_rect = gfx::IntersectRects(view_rect, resizer_rect); if (!new_damage_rect.IsEmpty()) paint_aggregator_.InvalidateRect(new_damage_rect); resizer_rect_ = resizer_rect; if (webwidget_) webwidget_->didChangeWindowResizerRect(); } } void RenderWidget::OnWasHidden() { TRACE_EVENT0("renderer", "RenderWidget::OnWasHidden"); // Go into a mode where we stop generating paint and scrolling events. SetHidden(true); } void RenderWidget::OnWasShown(bool needs_repainting) { TRACE_EVENT0("renderer", "RenderWidget::OnWasShown"); // During shutdown we can just ignore this message. if (!webwidget_) return; // See OnWasHidden SetHidden(false); if (!needs_repainting && !needs_repainting_on_restore_) return; needs_repainting_on_restore_ = false; // Tag the next paint as a restore ack, which is picked up by // DoDeferredUpdate when it sends out the next PaintRect message. set_next_paint_is_restore_ack(); // Generate a full repaint. if (!is_accelerated_compositing_active_) { didInvalidateRect(gfx::Rect(size_.width(), size_.height())); } else { if (compositor_) compositor_->SetNeedsForcedRedraw(); scheduleComposite(); } } void RenderWidget::OnWasSwappedOut() { // If we have been swapped out and no one else is using this process, // it's safe to exit now. If we get swapped back in, we will call // AddRefProcess in SetSwappedOut. if (is_swapped_out_) RenderProcess::current()->ReleaseProcess(); } void RenderWidget::OnRequestMoveAck() { DCHECK(pending_window_rect_count_); pending_window_rect_count_--; } void RenderWidget::OnUpdateRectAck() { TRACE_EVENT0("renderer", "RenderWidget::OnUpdateRectAck"); DCHECK(update_reply_pending_); update_reply_pending_ = false; // If we sent an UpdateRect message with a zero-sized bitmap, then we should // have no current paint buffer. if (current_paint_buf_) { RenderProcess::current()->ReleaseTransportDIB(current_paint_buf_); current_paint_buf_ = NULL; } // If swapbuffers is still pending, then defer the update until the // swapbuffers occurs. if (num_swapbuffers_complete_pending_ >= kMaxSwapBuffersPending) { TRACE_EVENT0("renderer", "EarlyOut_SwapStillPending"); return; } // Notify subclasses that software rendering was flushed to the screen. if (!is_accelerated_compositing_active_) { DidFlushPaint(); } // Continue painting if necessary... DoDeferredUpdateAndSendInputAck(); } bool RenderWidget::SupportsAsynchronousSwapBuffers() { // Contexts using the command buffer support asynchronous swapbuffers. // See RenderWidget::CreateOutputSurface(). if (RenderThreadImpl::current()->compositor_message_loop_proxy().get()) return false; return true; } GURL RenderWidget::GetURLForGraphicsContext3D() { return GURL(); } bool RenderWidget::ForceCompositingModeEnabled() { return false; } scoped_ptr RenderWidget::CreateOutputSurface(bool fallback) { #if defined(OS_ANDROID) if (SynchronousCompositorFactory* factory = SynchronousCompositorFactory::GetInstance()) { return factory->CreateOutputSurface(routing_id()); } #endif // Explicitly disable antialiasing for the compositor. As of the time of // this writing, the only platform that supported antialiasing for the // compositor was Mac OS X, because the on-screen OpenGL context creation // code paths on Windows and Linux didn't yet have multisampling support. // Mac OS X essentially always behaves as though it's rendering offscreen. // Multisampling has a heavy cost especially on devices with relatively low // fill rate like most notebooks, and the Mac implementation would need to // be optimized to resolve directly into the IOSurface shared between the // GPU and browser processes. For these reasons and to avoid platform // disparities we explicitly disable antialiasing. blink::WebGraphicsContext3D::Attributes attributes; attributes.antialias = false; attributes.shareResources = true; attributes.noAutomaticFlushes = true; attributes.depth = false; attributes.stencil = false; const CommandLine& command_line = *CommandLine::ForCurrentProcess(); scoped_refptr context_provider; if (!fallback) { context_provider = ContextProviderCommandBuffer::Create( CreateGraphicsContext3D(attributes), "RenderCompositor"); } uint32 output_surface_id = next_output_surface_id_++; if (!context_provider.get()) { if (!command_line.HasSwitch(switches::kEnableSoftwareCompositing)) return scoped_ptr(); scoped_ptr software_device( new CompositorSoftwareOutputDevice()); return scoped_ptr(new CompositorOutputSurface( routing_id(), output_surface_id, NULL, software_device.Pass(), true)); } if (command_line.HasSwitch(switches::kEnableDelegatedRenderer) && !command_line.HasSwitch(switches::kDisableDelegatedRenderer)) { DCHECK(is_threaded_compositing_enabled_); return scoped_ptr( new DelegatedCompositorOutputSurface( routing_id(), output_surface_id, context_provider, scoped_ptr())); } if (command_line.HasSwitch(cc::switches::kCompositeToMailbox)) { DCHECK(is_threaded_compositing_enabled_); cc::ResourceFormat format = cc::RGBA_8888; #if defined(OS_ANDROID) if (base::android::SysUtils::IsLowEndDevice()) format = cc::RGB_565; #endif return scoped_ptr( new MailboxOutputSurface( routing_id(), output_surface_id, context_provider, scoped_ptr(), format)); } bool use_swap_compositor_frame_message = false; return scoped_ptr( new CompositorOutputSurface( routing_id(), output_surface_id, context_provider, scoped_ptr(), use_swap_compositor_frame_message)); } void RenderWidget::OnSwapBuffersAborted() { TRACE_EVENT0("renderer", "RenderWidget::OnSwapBuffersAborted"); while (!updates_pending_swap_.empty()) { ViewHostMsg_UpdateRect* msg = updates_pending_swap_.front(); updates_pending_swap_.pop_front(); // msg can be NULL if the swap doesn't correspond to an DoDeferredUpdate // compositing pass, hence doesn't require an UpdateRect message. if (msg) Send(msg); } num_swapbuffers_complete_pending_ = 0; using_asynchronous_swapbuffers_ = false; // Schedule another frame so the compositor learns about it. scheduleComposite(); } void RenderWidget::OnSwapBuffersPosted() { TRACE_EVENT0("renderer", "RenderWidget::OnSwapBuffersPosted"); if (using_asynchronous_swapbuffers_) { ViewHostMsg_UpdateRect* msg = NULL; // pending_update_params_ can be NULL if the swap doesn't correspond to an // DoDeferredUpdate compositing pass, hence doesn't require an UpdateRect // message. if (pending_update_params_) { msg = new ViewHostMsg_UpdateRect(routing_id_, *pending_update_params_); pending_update_params_.reset(); } updates_pending_swap_.push_back(msg); num_swapbuffers_complete_pending_++; } } void RenderWidget::OnSwapBuffersComplete() { TRACE_EVENT0("renderer", "RenderWidget::OnSwapBuffersComplete"); // Notify subclasses that composited rendering was flushed to the screen. DidFlushPaint(); // When compositing deactivates, we reset the swapbuffers pending count. The // swapbuffers acks may still arrive, however. if (num_swapbuffers_complete_pending_ == 0) { TRACE_EVENT0("renderer", "EarlyOut_ZeroSwapbuffersPending"); return; } DCHECK(!updates_pending_swap_.empty()); ViewHostMsg_UpdateRect* msg = updates_pending_swap_.front(); updates_pending_swap_.pop_front(); // msg can be NULL if the swap doesn't correspond to an DoDeferredUpdate // compositing pass, hence doesn't require an UpdateRect message. if (msg) Send(msg); num_swapbuffers_complete_pending_--; // If update reply is still pending, then defer the update until that reply // occurs. if (update_reply_pending_) { TRACE_EVENT0("renderer", "EarlyOut_UpdateReplyPending"); return; } // If we are not accelerated rendering, then this is a stale swapbuffers from // when we were previously rendering. However, if an invalidation task is not // posted, there may be software rendering work pending. In that case, don't // early out. if (!is_accelerated_compositing_active_ && invalidation_task_posted_) { TRACE_EVENT0("renderer", "EarlyOut_AcceleratedCompositingOff"); return; } // Do not call DoDeferredUpdate unless there's animation work to be done or // a real invalidation. This prevents rendering in response to a swapbuffers // callback coming back after we've navigated away from the page that // generated it. if (!animation_update_pending_ && !paint_aggregator_.HasPendingUpdate()) { TRACE_EVENT0("renderer", "EarlyOut_NoPendingUpdate"); return; } // Continue painting if necessary... DoDeferredUpdateAndSendInputAck(); } void RenderWidget::OnHandleInputEvent(const blink::WebInputEvent* input_event, ui::LatencyInfo latency_info, bool is_keyboard_shortcut) { handling_input_event_ = true; if (!input_event) { handling_input_event_ = false; return; } base::TimeTicks start_time; if (base::TimeTicks::IsHighResNowFastAndReliable()) start_time = base::TimeTicks::HighResNow(); const char* const event_name = WebInputEventTraits::GetName(input_event->type); TRACE_EVENT1("renderer", "RenderWidget::OnHandleInputEvent", "event", event_name); TRACE_EVENT_SYNTHETIC_DELAY_BEGIN("blink.HandleInputEvent"); scoped_ptr latency_info_swap_promise_monitor; if (compositor_) { latency_info_swap_promise_monitor = compositor_->CreateLatencyInfoSwapPromiseMonitor(&latency_info).Pass(); } else { latency_info_.push_back(latency_info); } base::TimeDelta now = base::TimeDelta::FromInternalValue( base::TimeTicks::Now().ToInternalValue()); int64 delta = static_cast( (now.InSecondsF() - input_event->timeStampSeconds) * base::Time::kMicrosecondsPerSecond); UMA_HISTOGRAM_CUSTOM_COUNTS("Event.Latency.Renderer", delta, 0, 1000000, 100); base::HistogramBase* counter_for_type = base::Histogram::FactoryGet( base::StringPrintf("Event.Latency.Renderer.%s", event_name), 0, 1000000, 100, base::HistogramBase::kUmaTargetedHistogramFlag); counter_for_type->Add(delta); bool prevent_default = false; if (WebInputEvent::isMouseEventType(input_event->type)) { const WebMouseEvent& mouse_event = *static_cast(input_event); TRACE_EVENT2("renderer", "HandleMouseMove", "x", mouse_event.x, "y", mouse_event.y); prevent_default = WillHandleMouseEvent(mouse_event); } if (WebInputEvent::isKeyboardEventType(input_event->type)) { const WebKeyboardEvent& key_event = *static_cast(input_event); prevent_default = WillHandleKeyEvent(key_event); } if (WebInputEvent::isGestureEventType(input_event->type)) { const WebGestureEvent& gesture_event = *static_cast(input_event); prevent_default = prevent_default || WillHandleGestureEvent(gesture_event); } if (input_event->type == WebInputEvent::TouchStart) handling_touchstart_event_ = true; bool processed = prevent_default; if (input_event->type != WebInputEvent::Char || !suppress_next_char_events_) { suppress_next_char_events_ = false; if (!processed && webwidget_) processed = webwidget_->handleInputEvent(*input_event); } handling_touchstart_event_ = false; // If this RawKeyDown event corresponds to a browser keyboard shortcut and // it's not processed by webkit, then we need to suppress the upcoming Char // events. if (!processed && is_keyboard_shortcut) suppress_next_char_events_ = true; InputEventAckState ack_result = processed ? INPUT_EVENT_ACK_STATE_CONSUMED : INPUT_EVENT_ACK_STATE_NOT_CONSUMED; if (!processed && input_event->type == WebInputEvent::TouchStart) { const WebTouchEvent& touch_event = *static_cast(input_event); // Hit-test for all the pressed touch points. If there is a touch-handler // for any of the touch points, then the renderer should continue to receive // touch events. ack_result = INPUT_EVENT_ACK_STATE_NO_CONSUMER_EXISTS; for (size_t i = 0; i < touch_event.touchesLength; ++i) { if (touch_event.touches[i].state == WebTouchPoint::StatePressed && HasTouchEventHandlersAt(touch_event.touches[i].position)) { ack_result = INPUT_EVENT_ACK_STATE_NOT_CONSUMED; break; } } } bool event_type_can_be_rate_limited = input_event->type == WebInputEvent::MouseMove || input_event->type == WebInputEvent::MouseWheel || input_event->type == WebInputEvent::TouchMove; bool frame_pending = paint_aggregator_.HasPendingUpdate(); if (is_accelerated_compositing_active_) { frame_pending = compositor_ && compositor_->BeginMainFrameRequested(); } // If we don't have a fast and accurate HighResNow, we assume the input // handlers are heavy and rate limit them. bool rate_limiting_wanted = true; if (base::TimeTicks::IsHighResNowFastAndReliable()) { base::TimeTicks end_time = base::TimeTicks::HighResNow(); total_input_handling_time_this_frame_ += (end_time - start_time); rate_limiting_wanted = total_input_handling_time_this_frame_.InMicroseconds() > kInputHandlingTimeThrottlingThresholdMicroseconds; } if (!WebInputEventTraits::IgnoresAckDisposition(input_event->type)) { scoped_ptr response( new InputHostMsg_HandleInputEvent_ACK(routing_id_, input_event->type, ack_result, latency_info)); if (rate_limiting_wanted && event_type_can_be_rate_limited && frame_pending && !is_hidden_) { // We want to rate limit the input events in this case, so we'll wait for // painting to finish before ACKing this message. TRACE_EVENT_INSTANT0("renderer", "RenderWidget::OnHandleInputEvent ack throttled", TRACE_EVENT_SCOPE_THREAD); if (pending_input_event_ack_) { // As two different kinds of events could cause us to postpone an ack // we send it now, if we have one pending. The Browser should never // send us the same kind of event we are delaying the ack for. Send(pending_input_event_ack_.release()); } pending_input_event_ack_ = response.Pass(); if (compositor_) compositor_->NotifyInputThrottledUntilCommit(); } else { Send(response.release()); } } #if defined(OS_ANDROID) // Allow the IME to be shown when the focus changes as a consequence // of a processed touch end event. if (input_event->type == WebInputEvent::TouchEnd && processed) UpdateTextInputState(true, true); #endif TRACE_EVENT_SYNTHETIC_DELAY_END("blink.HandleInputEvent"); handling_input_event_ = false; if (!prevent_default) { if (WebInputEvent::isKeyboardEventType(input_event->type)) DidHandleKeyEvent(); if (WebInputEvent::isMouseEventType(input_event->type)) DidHandleMouseEvent(*(static_cast(input_event))); if (WebInputEvent::isTouchEventType(input_event->type)) DidHandleTouchEvent(*(static_cast(input_event))); } } void RenderWidget::OnCursorVisibilityChange(bool is_visible) { if (webwidget_) webwidget_->setCursorVisibilityState(is_visible); } void RenderWidget::OnMouseCaptureLost() { if (webwidget_) webwidget_->mouseCaptureLost(); } void RenderWidget::OnSetFocus(bool enable) { has_focus_ = enable; if (webwidget_) webwidget_->setFocus(enable); } void RenderWidget::ClearFocus() { // We may have got the focus from the browser before this gets processed, in // which case we do not want to unfocus ourself. if (!has_focus_ && webwidget_) webwidget_->setFocus(false); } void RenderWidget::PaintRect(const gfx::Rect& rect, const gfx::Point& canvas_origin, skia::PlatformCanvas* canvas) { TRACE_EVENT2("renderer", "PaintRect", "width", rect.width(), "height", rect.height()); canvas->save(); // Bring the canvas into the coordinate system of the paint rect. canvas->translate(static_cast(-canvas_origin.x()), static_cast(-canvas_origin.y())); // If there is a custom background, tile it. if (!background_.empty()) { SkPaint paint; skia::RefPtr shader = skia::AdoptRef( SkShader::CreateBitmapShader(background_, SkShader::kRepeat_TileMode, SkShader::kRepeat_TileMode)); paint.setShader(shader.get()); // Use kSrc_Mode to handle background_ transparency properly. paint.setXfermodeMode(SkXfermode::kSrc_Mode); // Canvas could contain multiple update rects. Clip to given rect so that // we don't accidentally clear other update rects. canvas->save(); canvas->scale(device_scale_factor_, device_scale_factor_); canvas->clipRect(gfx::RectToSkRect(rect)); canvas->drawPaint(paint); canvas->restore(); } // First see if this rect is a plugin that can paint itself faster. TransportDIB* optimized_dib = NULL; gfx::Rect optimized_copy_rect, optimized_copy_location; float dib_scale_factor; PepperPluginInstanceImpl* optimized_instance = GetBitmapForOptimizedPluginPaint(rect, &optimized_dib, &optimized_copy_location, &optimized_copy_rect, &dib_scale_factor); if (optimized_instance) { #if defined(ENABLE_PLUGINS) // This plugin can be optimize-painted and we can just ask it to paint // itself. We don't actually need the TransportDIB in this case. // // This is an optimization for PPAPI plugins that know they're on top of // the page content. If this rect is inside such a plugin, we can save some // time and avoid re-rendering the page content which we know will be // covered by the plugin later (this time can be significant, especially // for a playing movie that is invalidating a lot). // // In the plugin movie case, hopefully the similar call to // GetBitmapForOptimizedPluginPaint in DoDeferredUpdate handles the // painting, because that avoids copying the plugin image to a different // paint rect. Unfortunately, if anything on the page is animating other // than the movie, it break this optimization since the union of the // invalid regions will be larger than the plugin. // // This code optimizes that case, where we can still avoid painting in // WebKit and filling the background (which can be slow) and just painting // the plugin. Unlike the DoDeferredUpdate case, an extra copy is still // required. SkAutoCanvasRestore auto_restore(canvas, true); canvas->scale(device_scale_factor_, device_scale_factor_); optimized_instance->Paint(canvas, optimized_copy_location, rect); canvas->restore(); #endif } else { // Normal painting case. base::TimeTicks start_time; if (!is_accelerated_compositing_active_) start_time = legacy_software_mode_stats_->StartRecording(); webwidget_->paint(canvas, rect); if (!is_accelerated_compositing_active_) { base::TimeDelta paint_time = legacy_software_mode_stats_->EndRecording(start_time); int64 painted_pixel_count = rect.width() * rect.height(); legacy_software_mode_stats_->AddPaint(paint_time, painted_pixel_count); } // Flush to underlying bitmap. TODO(darin): is this needed? skia::GetTopDevice(*canvas)->accessBitmap(false); } PaintDebugBorder(rect, canvas); canvas->restore(); } void RenderWidget::PaintDebugBorder(const gfx::Rect& rect, skia::PlatformCanvas* canvas) { static bool kPaintBorder = CommandLine::ForCurrentProcess()->HasSwitch(switches::kShowPaintRects); if (!kPaintBorder) return; // Cycle through these colors to help distinguish new paint rects. const SkColor colors[] = { SkColorSetARGB(0x3F, 0xFF, 0, 0), SkColorSetARGB(0x3F, 0xFF, 0, 0xFF), SkColorSetARGB(0x3F, 0, 0, 0xFF), }; static int color_selector = 0; SkPaint paint; paint.setStyle(SkPaint::kStroke_Style); paint.setColor(colors[color_selector++ % arraysize(colors)]); paint.setStrokeWidth(1); SkIRect irect; irect.set(rect.x(), rect.y(), rect.right() - 1, rect.bottom() - 1); canvas->drawIRect(irect, paint); } void RenderWidget::AnimationCallback() { TRACE_EVENT0("renderer", "RenderWidget::AnimationCallback"); if (!animation_update_pending_) { TRACE_EVENT0("renderer", "EarlyOut_NoAnimationUpdatePending"); return; } if (!animation_floor_time_.is_null() && IsRenderingVSynced()) { // Record when we fired (according to base::Time::Now()) relative to when // we posted the task to quantify how much the base::Time/base::TimeTicks // skew is affecting animations. base::TimeDelta animation_callback_delay = base::Time::Now() - (animation_floor_time_ - base::TimeDelta::FromMilliseconds(16)); UMA_HISTOGRAM_CUSTOM_TIMES("Renderer4.AnimationCallbackDelayTime", animation_callback_delay, base::TimeDelta::FromMilliseconds(0), base::TimeDelta::FromMilliseconds(30), 25); } DoDeferredUpdateAndSendInputAck(); } void RenderWidget::AnimateIfNeeded() { if (!animation_update_pending_) return; // Target 60FPS if vsync is on. Go as fast as we can if vsync is off. base::TimeDelta animationInterval = IsRenderingVSynced() ? base::TimeDelta::FromMilliseconds(16) : base::TimeDelta(); base::Time now = base::Time::Now(); // animation_floor_time_ is the earliest time that we should animate when // using the dead reckoning software scheduler. If we're using swapbuffers // complete callbacks to rate limit, we can ignore this floor. if (now >= animation_floor_time_ || num_swapbuffers_complete_pending_ > 0) { TRACE_EVENT0("renderer", "RenderWidget::AnimateIfNeeded") animation_floor_time_ = now + animationInterval; // Set a timer to call us back after animationInterval before // running animation callbacks so that if a callback requests another // we'll be sure to run it at the proper time. animation_timer_.Stop(); animation_timer_.Start(FROM_HERE, animationInterval, this, &RenderWidget::AnimationCallback); animation_update_pending_ = false; if (is_accelerated_compositing_active_ && compositor_) { compositor_->Animate(base::TimeTicks::Now()); } else { double frame_begin_time = (base::TimeTicks::Now() - base::TimeTicks()).InSecondsF(); webwidget_->animate(frame_begin_time); } return; } TRACE_EVENT0("renderer", "EarlyOut_AnimatedTooRecently"); if (!animation_timer_.IsRunning()) { // This code uses base::Time::Now() to calculate the floor and next fire // time because javascript's Date object uses base::Time::Now(). The // message loop uses base::TimeTicks, which on windows can have a // different granularity than base::Time. // The upshot of all this is that this function might be called before // base::Time::Now() has advanced past the animation_floor_time_. To // avoid exposing this delay to javascript, we keep posting delayed // tasks until base::Time::Now() has advanced far enough. base::TimeDelta delay = animation_floor_time_ - now; animation_timer_.Start(FROM_HERE, delay, this, &RenderWidget::AnimationCallback); } } bool RenderWidget::IsRenderingVSynced() { // TODO(nduca): Forcing a driver to disable vsync (e.g. in a control panel) is // not caught by this check. This will lead to artificially low frame rates // for people who force vsync off at a driver level and expect Chrome to speed // up. return !has_disable_gpu_vsync_switch_; } void RenderWidget::InvalidationCallback() { TRACE_EVENT0("renderer", "RenderWidget::InvalidationCallback"); invalidation_task_posted_ = false; DoDeferredUpdateAndSendInputAck(); } void RenderWidget::FlushPendingInputEventAck() { if (pending_input_event_ack_) Send(pending_input_event_ack_.release()); total_input_handling_time_this_frame_ = base::TimeDelta(); } void RenderWidget::DoDeferredUpdateAndSendInputAck() { DoDeferredUpdate(); FlushPendingInputEventAck(); } void RenderWidget::DoDeferredUpdate() { TRACE_EVENT0("renderer", "RenderWidget::DoDeferredUpdate"); TRACE_EVENT_SCOPED_SAMPLING_STATE("Chrome", "Paint"); if (!webwidget_) return; if (!init_complete_) { TRACE_EVENT0("renderer", "EarlyOut_InitNotComplete"); return; } if (update_reply_pending_) { TRACE_EVENT0("renderer", "EarlyOut_UpdateReplyPending"); return; } if (is_accelerated_compositing_active_ && num_swapbuffers_complete_pending_ >= kMaxSwapBuffersPending) { TRACE_EVENT0("renderer", "EarlyOut_MaxSwapBuffersPending"); return; } // Suppress updating when we are hidden. if (is_hidden_ || size_.IsEmpty() || is_swapped_out_) { paint_aggregator_.ClearPendingUpdate(); needs_repainting_on_restore_ = true; TRACE_EVENT0("renderer", "EarlyOut_NotVisible"); return; } // Tracking of frame rate jitter base::TimeTicks frame_begin_ticks = gfx::FrameTime::Now(); InstrumentWillBeginFrame(0); AnimateIfNeeded(); // Layout may generate more invalidation. It may also enable the // GPU acceleration, so make sure to run layout before we send the // GpuRenderingActivated message. webwidget_->layout(); // Check for whether we need to track swap buffers. We need to do that after // layout() because it may have switched us to accelerated compositing. if (is_accelerated_compositing_active_) using_asynchronous_swapbuffers_ = SupportsAsynchronousSwapBuffers(); // The following two can result in further layout and possibly // enable GPU acceleration so they need to be called before any painting // is done. UpdateTextInputType(); UpdateSelectionBounds(); // Suppress painting if nothing is dirty. This has to be done after updating // animations running layout as these may generate further invalidations. if (!paint_aggregator_.HasPendingUpdate()) { TRACE_EVENT0("renderer", "EarlyOut_NoPendingUpdate"); InstrumentDidCancelFrame(); return; } if (!is_accelerated_compositing_active_ && !is_threaded_compositing_enabled_ && (ForceCompositingModeEnabled() || was_accelerated_compositing_ever_active_)) { webwidget_->enterForceCompositingMode(true); } if (!last_do_deferred_update_time_.is_null()) { base::TimeDelta delay = frame_begin_ticks - last_do_deferred_update_time_; if (is_accelerated_compositing_active_) { UMA_HISTOGRAM_CUSTOM_TIMES("Renderer4.AccelDoDeferredUpdateDelay", delay, base::TimeDelta::FromMilliseconds(1), base::TimeDelta::FromMilliseconds(120), 60); } else { UMA_HISTOGRAM_CUSTOM_TIMES("Renderer4.SoftwareDoDeferredUpdateDelay", delay, base::TimeDelta::FromMilliseconds(1), base::TimeDelta::FromMilliseconds(120), 60); } // Calculate filtered time per frame: float frame_time_elapsed = static_cast(delay.InSecondsF()); filtered_time_per_frame_ = 0.9f * filtered_time_per_frame_ + 0.1f * frame_time_elapsed; } last_do_deferred_update_time_ = frame_begin_ticks; if (!is_accelerated_compositing_active_) { legacy_software_mode_stats_->IncrementFrameCount(1, true); cc::BenchmarkInstrumentation::IssueMainThreadRenderingStatsEvent( legacy_software_mode_stats_->main_thread_rendering_stats()); legacy_software_mode_stats_->AccumulateAndClearMainThreadStats(); } // OK, save the pending update to a local since painting may cause more // invalidation. Some WebCore rendering objects only layout when painted. PaintAggregator::PendingUpdate update; paint_aggregator_.PopPendingUpdate(&update); gfx::Rect scroll_damage = update.GetScrollDamage(); gfx::Rect bounds = gfx::UnionRects(update.GetPaintBounds(), scroll_damage); // A plugin may be able to do an optimized paint. First check this, in which // case we can skip all of the bitmap generation and regular paint code. // This optimization allows PPAPI plugins that declare themselves on top of // the page (like a traditional windowed plugin) to be able to animate (think // movie playing) without repeatedly re-painting the page underneath, or // copying the plugin backing store (since we can send the plugin's backing // store directly to the browser). // // This optimization only works when the entire invalid region is contained // within the plugin. There is a related optimization in PaintRect for the // case where there may be multiple invalid regions. TransportDIB* dib = NULL; gfx::Rect optimized_copy_rect, optimized_copy_location; float dib_scale_factor = 1; DCHECK(!pending_update_params_.get()); pending_update_params_.reset(new ViewHostMsg_UpdateRect_Params); pending_update_params_->scroll_delta = update.scroll_delta; pending_update_params_->scroll_rect = update.scroll_rect; pending_update_params_->view_size = size_; pending_update_params_->plugin_window_moves.swap(plugin_window_moves_); pending_update_params_->flags = next_paint_flags_; pending_update_params_->scroll_offset = GetScrollOffset(); pending_update_params_->needs_ack = true; pending_update_params_->scale_factor = device_scale_factor_; next_paint_flags_ = 0; need_update_rect_for_auto_resize_ = false; if (!is_accelerated_compositing_active_) pending_update_params_->latency_info.swap(latency_info_); latency_info_.clear(); if (update.scroll_rect.IsEmpty() && !is_accelerated_compositing_active_ && GetBitmapForOptimizedPluginPaint(bounds, &dib, &optimized_copy_location, &optimized_copy_rect, &dib_scale_factor)) { // Only update the part of the plugin that actually changed. optimized_copy_rect.Intersect(bounds); pending_update_params_->bitmap = dib->id(); pending_update_params_->bitmap_rect = optimized_copy_location; pending_update_params_->copy_rects.push_back(optimized_copy_rect); pending_update_params_->scale_factor = dib_scale_factor; } else if (!is_accelerated_compositing_active_) { // Compute a buffer for painting and cache it. bool fractional_scale = device_scale_factor_ - static_cast(device_scale_factor_) != 0; if (fractional_scale) { // Damage might not be DIP aligned. Inflate damage to compensate. bounds.Inset(-1, -1); bounds.Intersect(gfx::Rect(size_)); } gfx::Rect pixel_bounds = gfx::ToEnclosingRect( gfx::ScaleRect(bounds, device_scale_factor_)); scoped_ptr canvas( RenderProcess::current()->GetDrawingCanvas(¤t_paint_buf_, pixel_bounds)); if (!canvas) { NOTREACHED(); return; } // We may get back a smaller canvas than we asked for. // TODO(darin): This seems like it could cause painting problems! DCHECK_EQ(pixel_bounds.width(), canvas->getDevice()->width()); DCHECK_EQ(pixel_bounds.height(), canvas->getDevice()->height()); pixel_bounds.set_width(canvas->getDevice()->width()); pixel_bounds.set_height(canvas->getDevice()->height()); bounds.set_width(pixel_bounds.width() / device_scale_factor_); bounds.set_height(pixel_bounds.height() / device_scale_factor_); HISTOGRAM_COUNTS_100("MPArch.RW_PaintRectCount", update.paint_rects.size()); pending_update_params_->bitmap = current_paint_buf_->id(); pending_update_params_->bitmap_rect = bounds; std::vector& copy_rects = pending_update_params_->copy_rects; // The scroll damage is just another rectangle to paint and copy. copy_rects.swap(update.paint_rects); if (!scroll_damage.IsEmpty()) copy_rects.push_back(scroll_damage); for (size_t i = 0; i < copy_rects.size(); ++i) { gfx::Rect rect = copy_rects[i]; if (fractional_scale) { // Damage might not be DPI aligned. Inflate rect to compensate. rect.Inset(-1, -1); } PaintRect(rect, pixel_bounds.origin(), canvas.get()); } // Software FPS tick for performance tests. The accelerated path traces the // frame events in didCommitAndDrawCompositorFrame. See // tab_capture_performancetest.cc. // NOTE: Tests may break if this event is renamed or moved. UNSHIPPED_TRACE_EVENT_INSTANT0("test_fps", "TestFrameTickSW", TRACE_EVENT_SCOPE_THREAD); } else { // Accelerated compositing path // Begin painting. // If painting is done via the gpu process then we don't set any damage // rects to save the browser process from doing unecessary work. pending_update_params_->bitmap_rect = bounds; pending_update_params_->scroll_rect = gfx::Rect(); // We don't need an ack, because we're not sharing a DIB with the browser. // If it needs to (e.g. composited UI), the GPU process does its own ACK // with the browser for the GPU surface. pending_update_params_->needs_ack = false; Composite(frame_begin_ticks); } // If we're holding a pending input event ACK, send the ACK before sending the // UpdateReply message so we can receive another input event before the // UpdateRect_ACK on platforms where the UpdateRect_ACK is sent from within // the UpdateRect IPC message handler. FlushPendingInputEventAck(); // If Composite() called SwapBuffers, pending_update_params_ will be reset (in // OnSwapBuffersPosted), meaning a message has been added to the // updates_pending_swap_ queue, that will be sent later. Otherwise, we send // the message now. if (pending_update_params_) { // sending an ack to browser process that the paint is complete... update_reply_pending_ = pending_update_params_->needs_ack; Send(new ViewHostMsg_UpdateRect(routing_id_, *pending_update_params_)); pending_update_params_.reset(); } // If we're software rendering then we're done initiating the paint. if (!is_accelerated_compositing_active_) DidInitiatePaint(); } void RenderWidget::Composite(base::TimeTicks frame_begin_time) { DCHECK(is_accelerated_compositing_active_); if (compositor_) // TODO(jamesr): Figure out how this can be null. compositor_->Composite(frame_begin_time); } /////////////////////////////////////////////////////////////////////////////// // WebWidgetClient void RenderWidget::didInvalidateRect(const WebRect& rect) { // The invalidated rect might be outside the bounds of the view. gfx::Rect view_rect(size_); gfx::Rect damaged_rect = gfx::IntersectRects(view_rect, rect); if (damaged_rect.IsEmpty()) return; paint_aggregator_.InvalidateRect(damaged_rect); // We may not need to schedule another call to DoDeferredUpdate. if (invalidation_task_posted_) return; if (!paint_aggregator_.HasPendingUpdate()) return; if (update_reply_pending_ || num_swapbuffers_complete_pending_ >= kMaxSwapBuffersPending) return; // When GPU rendering, combine pending animations and invalidations into // a single update. if (is_accelerated_compositing_active_ && animation_update_pending_ && animation_timer_.IsRunning()) return; // Perform updating asynchronously. This serves two purposes: // 1) Ensures that we call WebView::Paint without a bunch of other junk // on the call stack. // 2) Allows us to collect more damage rects before painting to help coalesce // the work that we will need to do. invalidation_task_posted_ = true; base::MessageLoop::current()->PostTask( FROM_HERE, base::Bind(&RenderWidget::InvalidationCallback, this)); } void RenderWidget::didScrollRect(int dx, int dy, const WebRect& clip_rect) { // Drop scrolls on the floor when we are in compositing mode. // TODO(nduca): stop WebViewImpl from sending scrolls in the first place. if (is_accelerated_compositing_active_) return; // The scrolled rect might be outside the bounds of the view. gfx::Rect view_rect(size_); gfx::Rect damaged_rect = gfx::IntersectRects(view_rect, clip_rect); if (damaged_rect.IsEmpty()) return; paint_aggregator_.ScrollRect(gfx::Vector2d(dx, dy), damaged_rect); // We may not need to schedule another call to DoDeferredUpdate. if (invalidation_task_posted_) return; if (!paint_aggregator_.HasPendingUpdate()) return; if (update_reply_pending_ || num_swapbuffers_complete_pending_ >= kMaxSwapBuffersPending) return; // When GPU rendering, combine pending animations and invalidations into // a single update. if (is_accelerated_compositing_active_ && animation_update_pending_ && animation_timer_.IsRunning()) return; // Perform updating asynchronously. This serves two purposes: // 1) Ensures that we call WebView::Paint without a bunch of other junk // on the call stack. // 2) Allows us to collect more damage rects before painting to help coalesce // the work that we will need to do. invalidation_task_posted_ = true; base::MessageLoop::current()->PostTask( FROM_HERE, base::Bind(&RenderWidget::InvalidationCallback, this)); } void RenderWidget::didAutoResize(const WebSize& new_size) { if (size_.width() != new_size.width || size_.height() != new_size.height) { size_ = new_size; // If we don't clear PaintAggregator after changing autoResize state, then // we might end up in a situation where bitmap_rect is larger than the // view_size. By clearing PaintAggregator, we ensure that we don't end up // with invalid damage rects. paint_aggregator_.ClearPendingUpdate(); if (resizing_mode_selector_->is_synchronous_mode()) { WebRect new_pos(rootWindowRect().x, rootWindowRect().y, new_size.width, new_size.height); view_screen_rect_ = new_pos; window_screen_rect_ = new_pos; } AutoResizeCompositor(); if (!resizing_mode_selector_->is_synchronous_mode()) need_update_rect_for_auto_resize_ = true; } } void RenderWidget::AutoResizeCompositor() { physical_backing_size_ = gfx::ToCeiledSize(gfx::ScaleSize(size_, device_scale_factor_)); if (compositor_) compositor_->setViewportSize(size_, physical_backing_size_); } void RenderWidget::didActivateCompositor(int input_handler_identifier) { TRACE_EVENT0("gpu", "RenderWidget::didActivateCompositor"); #if !defined(OS_MACOSX) if (!is_accelerated_compositing_active_) { // When not in accelerated compositing mode, in certain cases (e.g. waiting // for a resize or if no backing store) the RenderWidgetHost is blocking the // browser's UI thread for some time, waiting for an UpdateRect. If we are // going to switch to accelerated compositing, the GPU process may need // round-trips to the browser's UI thread before finishing the frame, // causing deadlocks if we delay the UpdateRect until we receive the // OnSwapBuffersComplete. So send a dummy message that will unblock the // browser's UI thread. This is not necessary on Mac, because SwapBuffers // now unblocks GetBackingStore on Mac. Send(new ViewHostMsg_UpdateIsDelayed(routing_id_)); } #endif is_accelerated_compositing_active_ = true; Send(new ViewHostMsg_DidActivateAcceleratedCompositing( routing_id_, is_accelerated_compositing_active_)); if (!was_accelerated_compositing_ever_active_) { was_accelerated_compositing_ever_active_ = true; webwidget_->enterForceCompositingMode(true); } } void RenderWidget::didDeactivateCompositor() { TRACE_EVENT0("gpu", "RenderWidget::didDeactivateCompositor"); is_accelerated_compositing_active_ = false; Send(new ViewHostMsg_DidActivateAcceleratedCompositing( routing_id_, is_accelerated_compositing_active_)); if (using_asynchronous_swapbuffers_) using_asynchronous_swapbuffers_ = false; // In single-threaded mode, we exit force compositing mode and re-enter in // DoDeferredUpdate() if appropriate. In threaded compositing mode, // DoDeferredUpdate() is bypassed and WebKit is responsible for exiting and // entering force compositing mode at the appropriate times. if (!is_threaded_compositing_enabled_) webwidget_->enterForceCompositingMode(false); } void RenderWidget::initializeLayerTreeView() { compositor_ = RenderWidgetCompositor::Create( this, is_threaded_compositing_enabled_); if (!compositor_) return; compositor_->setViewportSize(size_, physical_backing_size_); if (init_complete_) compositor_->setSurfaceReady(); } blink::WebLayerTreeView* RenderWidget::layerTreeView() { return compositor_.get(); } void RenderWidget::suppressCompositorScheduling(bool enable) { if (compositor_) compositor_->SetSuppressScheduleComposite(enable); } void RenderWidget::willBeginCompositorFrame() { TRACE_EVENT0("gpu", "RenderWidget::willBeginCompositorFrame"); DCHECK(RenderThreadImpl::current()->compositor_message_loop_proxy().get()); // The following two can result in further layout and possibly // enable GPU acceleration so they need to be called before any painting // is done. UpdateTextInputType(); #if defined(OS_ANDROID) UpdateTextInputState(false, true); #endif UpdateSelectionBounds(); } void RenderWidget::didBecomeReadyForAdditionalInput() { TRACE_EVENT0("renderer", "RenderWidget::didBecomeReadyForAdditionalInput"); FlushPendingInputEventAck(); } void RenderWidget::DidCommitCompositorFrame() { } void RenderWidget::didCommitAndDrawCompositorFrame() { TRACE_EVENT0("gpu", "RenderWidget::didCommitAndDrawCompositorFrame"); // Accelerated FPS tick for performance tests. See // tab_capture_performancetest.cc. NOTE: Tests may break if this event is // renamed or moved. UNSHIPPED_TRACE_EVENT_INSTANT0("test_fps", "TestFrameTickGPU", TRACE_EVENT_SCOPE_THREAD); // Notify subclasses that we initiated the paint operation. DidInitiatePaint(); } void RenderWidget::didCompleteSwapBuffers() { TRACE_EVENT0("renderer", "RenderWidget::didCompleteSwapBuffers"); // Notify subclasses threaded composited rendering was flushed to the screen. DidFlushPaint(); if (update_reply_pending_) return; if (!next_paint_flags_ && !need_update_rect_for_auto_resize_ && !plugin_window_moves_.size()) { return; } ViewHostMsg_UpdateRect_Params params; params.view_size = size_; params.plugin_window_moves.swap(plugin_window_moves_); params.flags = next_paint_flags_; params.scroll_offset = GetScrollOffset(); params.needs_ack = false; params.scale_factor = device_scale_factor_; Send(new ViewHostMsg_UpdateRect(routing_id_, params)); next_paint_flags_ = 0; need_update_rect_for_auto_resize_ = false; } void RenderWidget::scheduleComposite() { if (RenderThreadImpl::current()->compositor_message_loop_proxy().get() && compositor_) { compositor_->setNeedsAnimate(); } else { // TODO(nduca): replace with something a little less hacky. The reason this // hack is still used is because the Invalidate-DoDeferredUpdate loop // contains a lot of host-renderer synchronization logic that is still // important for the accelerated compositing case. The option of simply // duplicating all that code is less desirable than "faking out" the // invalidation path using a magical damage rect. didInvalidateRect(WebRect(0, 0, 1, 1)); } } void RenderWidget::scheduleAnimation() { if (animation_update_pending_) return; TRACE_EVENT0("gpu", "RenderWidget::scheduleAnimation"); animation_update_pending_ = true; if (!animation_timer_.IsRunning()) { animation_timer_.Start(FROM_HERE, base::TimeDelta::FromSeconds(0), this, &RenderWidget::AnimationCallback); } } void RenderWidget::didChangeCursor(const WebCursorInfo& cursor_info) { // TODO(darin): Eliminate this temporary. WebCursor cursor; InitializeCursorFromWebKitCursorInfo(&cursor, cursor_info); // Only send a SetCursor message if we need to make a change. if (!current_cursor_.IsEqual(cursor)) { current_cursor_ = cursor; Send(new ViewHostMsg_SetCursor(routing_id_, cursor)); } } // We are supposed to get a single call to Show for a newly created RenderWidget // that was created via RenderWidget::CreateWebView. So, we wait until this // point to dispatch the ShowWidget message. // // This method provides us with the information about how to display the newly // created RenderWidget (i.e., as a blocked popup or as a new tab). // void RenderWidget::show(WebNavigationPolicy) { DCHECK(!did_show_) << "received extraneous Show call"; DCHECK(routing_id_ != MSG_ROUTING_NONE); DCHECK(opener_id_ != MSG_ROUTING_NONE); if (did_show_) return; did_show_ = true; // NOTE: initial_pos_ may still have its default values at this point, but // that's okay. It'll be ignored if as_popup is false, or the browser // process will impose a default position otherwise. Send(new ViewHostMsg_ShowWidget(opener_id_, routing_id_, initial_pos_)); SetPendingWindowRect(initial_pos_); } void RenderWidget::didFocus() { } void RenderWidget::didBlur() { } void RenderWidget::DoDeferredClose() { Send(new ViewHostMsg_Close(routing_id_)); } void RenderWidget::closeWidgetSoon() { if (is_swapped_out_) { // This widget is currently swapped out, and the active widget is in a // different process. Have the browser route the close request to the // active widget instead, so that the correct unload handlers are run. Send(new ViewHostMsg_RouteCloseEvent(routing_id_)); return; } // If a page calls window.close() twice, we'll end up here twice, but that's // OK. It is safe to send multiple Close messages. // Ask the RenderWidgetHost to initiate close. We could be called from deep // in Javascript. If we ask the RendwerWidgetHost to close now, the window // could be closed before the JS finishes executing. So instead, post a // message back to the message loop, which won't run until the JS is // complete, and then the Close message can be sent. base::MessageLoop::current()->PostTask( FROM_HERE, base::Bind(&RenderWidget::DoDeferredClose, this)); } void RenderWidget::QueueSyntheticGesture( scoped_ptr gesture_params, const SyntheticGestureCompletionCallback& callback) { DCHECK(!callback.is_null()); pending_synthetic_gesture_callbacks_.push(callback); SyntheticGesturePacket gesture_packet; gesture_packet.set_gesture_params(gesture_params.Pass()); Send(new InputHostMsg_QueueSyntheticGesture(routing_id_, gesture_packet)); } void RenderWidget::Close() { if (webwidget_) { webwidget_->willCloseLayerTreeView(); compositor_.reset(); webwidget_->close(); webwidget_ = NULL; } } WebRect RenderWidget::windowRect() { if (pending_window_rect_count_) return pending_window_rect_; return view_screen_rect_; } void RenderWidget::setToolTipText(const blink::WebString& text, WebTextDirection hint) { Send(new ViewHostMsg_SetTooltipText(routing_id_, text, hint)); } void RenderWidget::setWindowRect(const WebRect& rect) { WebRect pos = rect; if (popup_origin_scale_for_emulation_) { float scale = popup_origin_scale_for_emulation_; pos.x = popup_screen_origin_for_emulation_.x() + (pos.x - popup_view_origin_for_emulation_.x()) * scale; pos.y = popup_screen_origin_for_emulation_.y() + (pos.y - popup_view_origin_for_emulation_.y()) * scale; } if (!resizing_mode_selector_->is_synchronous_mode()) { if (did_show_) { Send(new ViewHostMsg_RequestMove(routing_id_, pos)); SetPendingWindowRect(pos); } else { initial_pos_ = pos; } } else { ResizeSynchronously(pos); } } void RenderWidget::SetPendingWindowRect(const WebRect& rect) { pending_window_rect_ = rect; pending_window_rect_count_++; } WebRect RenderWidget::rootWindowRect() { if (pending_window_rect_count_) { // NOTE(mbelshe): If there is a pending_window_rect_, then getting // the RootWindowRect is probably going to return wrong results since the // browser may not have processed the Move yet. There isn't really anything // good to do in this case, and it shouldn't happen - since this size is // only really needed for windowToScreen, which is only used for Popups. return pending_window_rect_; } return window_screen_rect_; } WebRect RenderWidget::windowResizerRect() { return resizer_rect_; } void RenderWidget::OnSetInputMethodActive(bool is_active) { // To prevent this renderer process from sending unnecessary IPC messages to // a browser process, we permit the renderer process to send IPC messages // only during the input method attached to the browser process is active. input_method_is_active_ = is_active; } void RenderWidget::OnCandidateWindowShown() { webwidget_->didShowCandidateWindow(); } void RenderWidget::OnCandidateWindowUpdated() { webwidget_->didUpdateCandidateWindow(); } void RenderWidget::OnCandidateWindowHidden() { webwidget_->didHideCandidateWindow(); } void RenderWidget::OnImeSetComposition( const base::string16& text, const std::vector& underlines, int selection_start, int selection_end) { if (!ShouldHandleImeEvent()) return; ImeEventGuard guard(this); if (!webwidget_->setComposition( text, WebVector(underlines), selection_start, selection_end)) { // If we failed to set the composition text, then we need to let the browser // process to cancel the input method's ongoing composition session, to make // sure we are in a consistent state. Send(new ViewHostMsg_ImeCancelComposition(routing_id())); } #if defined(OS_MACOSX) || defined(OS_WIN) || defined(USE_AURA) UpdateCompositionInfo(true); #endif } void RenderWidget::OnImeConfirmComposition(const base::string16& text, const gfx::Range& replacement_range, bool keep_selection) { if (!ShouldHandleImeEvent()) return; ImeEventGuard guard(this); handling_input_event_ = true; if (text.length()) webwidget_->confirmComposition(text); else if (keep_selection) webwidget_->confirmComposition(WebWidget::KeepSelection); else webwidget_->confirmComposition(WebWidget::DoNotKeepSelection); handling_input_event_ = false; #if defined(OS_MACOSX) || defined(OS_WIN) || defined(USE_AURA) UpdateCompositionInfo(true); #endif } // This message causes the renderer to render an image of the // desired_size, regardless of whether the tab is hidden or not. void RenderWidget::OnPaintAtSize(const TransportDIB::Handle& dib_handle, int tag, const gfx::Size& page_size, const gfx::Size& desired_size) { if (!webwidget_ || !TransportDIB::is_valid_handle(dib_handle)) { if (TransportDIB::is_valid_handle(dib_handle)) { // Close our unused handle. #if defined(OS_WIN) ::CloseHandle(dib_handle); #elif defined(OS_MACOSX) base::SharedMemory::CloseHandle(dib_handle); #endif } return; } if (page_size.IsEmpty() || desired_size.IsEmpty()) { // If one of these is empty, then we just return the dib we were // given, to avoid leaking it. Send(new ViewHostMsg_PaintAtSize_ACK(routing_id_, tag, desired_size)); return; } // Map the given DIB ID into this process, and unmap it at the end // of this function. scoped_ptr paint_at_size_buffer( TransportDIB::CreateWithHandle(dib_handle)); gfx::Size page_size_in_pixel = gfx::ToFlooredSize( gfx::ScaleSize(page_size, device_scale_factor_)); gfx::Size desired_size_in_pixel = gfx::ToFlooredSize( gfx::ScaleSize(desired_size, device_scale_factor_)); gfx::Size canvas_size = page_size_in_pixel; float x_scale = static_cast(desired_size_in_pixel.width()) / static_cast(canvas_size.width()); float y_scale = static_cast(desired_size_in_pixel.height()) / static_cast(canvas_size.height()); gfx::Rect orig_bounds(canvas_size); canvas_size.set_width(static_cast(canvas_size.width() * x_scale)); canvas_size.set_height(static_cast(canvas_size.height() * y_scale)); gfx::Rect bounds(canvas_size); scoped_ptr canvas( paint_at_size_buffer->GetPlatformCanvas(canvas_size.width(), canvas_size.height())); if (!canvas) { NOTREACHED(); return; } // Reset bounds to what we actually received, but they should be the // same. DCHECK_EQ(bounds.width(), canvas->getDevice()->width()); DCHECK_EQ(bounds.height(), canvas->getDevice()->height()); bounds.set_width(canvas->getDevice()->width()); bounds.set_height(canvas->getDevice()->height()); canvas->save(); // Add the scale factor to the canvas, so that we'll get the desired size. canvas->scale(SkFloatToScalar(x_scale), SkFloatToScalar(y_scale)); // Have to make sure we're laid out at the right size before // rendering. gfx::Size old_size = webwidget_->size(); webwidget_->resize(page_size); webwidget_->layout(); // Paint the entire thing (using original bounds, not scaled bounds). PaintRect(orig_bounds, orig_bounds.origin(), canvas.get()); canvas->restore(); // Return the widget to its previous size. webwidget_->resize(old_size); Send(new ViewHostMsg_PaintAtSize_ACK(routing_id_, tag, bounds.size())); } void RenderWidget::OnSnapshot(const gfx::Rect& src_subrect) { SkBitmap snapshot; if (OnSnapshotHelper(src_subrect, &snapshot)) { Send(new ViewHostMsg_Snapshot(routing_id(), true, snapshot)); } else { Send(new ViewHostMsg_Snapshot(routing_id(), false, SkBitmap())); } } bool RenderWidget::OnSnapshotHelper(const gfx::Rect& src_subrect, SkBitmap* snapshot) { base::TimeTicks beginning_time = base::TimeTicks::Now(); if (!webwidget_ || src_subrect.IsEmpty()) return false; gfx::Rect viewport_size = gfx::IntersectRects( src_subrect, gfx::Rect(physical_backing_size_)); skia::RefPtr canvas = skia::AdoptRef( skia::CreatePlatformCanvas(viewport_size.width(), viewport_size.height(), true, NULL, skia::RETURN_NULL_ON_FAILURE)); if (!canvas) return false; canvas->save(); webwidget_->layout(); PaintRect(viewport_size, viewport_size.origin(), canvas.get()); canvas->restore(); const SkBitmap& bitmap = skia::GetTopDevice(*canvas)->accessBitmap(false); if (!bitmap.copyTo(snapshot, SkBitmap::kARGB_8888_Config)) return false; UMA_HISTOGRAM_TIMES("Renderer4.Snapshot", base::TimeTicks::Now() - beginning_time); return true; } void RenderWidget::OnRepaint(gfx::Size size_to_paint) { // During shutdown we can just ignore this message. if (!webwidget_) return; // Even if the browser provides an empty damage rect, it's still expecting to // receive a repaint ack so just damage the entire widget bounds. if (size_to_paint.IsEmpty()) { size_to_paint = size_; } set_next_paint_is_repaint_ack(); if (is_accelerated_compositing_active_ && compositor_) { compositor_->SetNeedsRedrawRect(gfx::Rect(size_to_paint)); } else { gfx::Rect repaint_rect(size_to_paint.width(), size_to_paint.height()); didInvalidateRect(repaint_rect); } } void RenderWidget::OnSyntheticGestureCompleted() { DCHECK(!pending_synthetic_gesture_callbacks_.empty()); pending_synthetic_gesture_callbacks_.front().Run(); pending_synthetic_gesture_callbacks_.pop(); } void RenderWidget::OnSetTextDirection(WebTextDirection direction) { if (!webwidget_) return; webwidget_->setTextDirection(direction); } void RenderWidget::OnUpdateScreenRects(const gfx::Rect& view_screen_rect, const gfx::Rect& window_screen_rect) { if (screen_metrics_emulator_) { screen_metrics_emulator_->OnUpdateScreenRectsMessage( view_screen_rect, window_screen_rect); } else { view_screen_rect_ = view_screen_rect; window_screen_rect_ = window_screen_rect; } Send(new ViewHostMsg_UpdateScreenRects_ACK(routing_id())); } #if defined(OS_ANDROID) void RenderWidget::OnShowImeIfNeeded() { UpdateTextInputState(true, true); } void RenderWidget::IncrementOutstandingImeEventAcks() { ++outstanding_ime_acks_; } void RenderWidget::OnImeEventAck() { --outstanding_ime_acks_; DCHECK(outstanding_ime_acks_ >= 0); } #endif bool RenderWidget::ShouldHandleImeEvent() { #if defined(OS_ANDROID) return !!webwidget_ && outstanding_ime_acks_ == 0; #else return !!webwidget_; #endif } void RenderWidget::SetDeviceScaleFactor(float device_scale_factor) { if (device_scale_factor_ == device_scale_factor) return; device_scale_factor_ = device_scale_factor; if (!is_accelerated_compositing_active_) { didInvalidateRect(gfx::Rect(size_.width(), size_.height())); } else { scheduleComposite(); } } PepperPluginInstanceImpl* RenderWidget::GetBitmapForOptimizedPluginPaint( const gfx::Rect& paint_bounds, TransportDIB** dib, gfx::Rect* location, gfx::Rect* clip, float* scale_factor) { // Bare RenderWidgets don't support optimized plugin painting. return NULL; } gfx::Vector2d RenderWidget::GetScrollOffset() { // Bare RenderWidgets don't support scroll offset. return gfx::Vector2d(); } void RenderWidget::SetHidden(bool hidden) { if (is_hidden_ == hidden) return; // The status has changed. Tell the RenderThread about it. is_hidden_ = hidden; if (is_hidden_) RenderThreadImpl::current()->WidgetHidden(); else RenderThreadImpl::current()->WidgetRestored(); } void RenderWidget::WillToggleFullscreen() { if (!webwidget_) return; if (is_fullscreen_) { webwidget_->willExitFullScreen(); } else { webwidget_->willEnterFullScreen(); } } void RenderWidget::DidToggleFullscreen() { if (!webwidget_) return; if (is_fullscreen_) { webwidget_->didEnterFullScreen(); } else { webwidget_->didExitFullScreen(); } } void RenderWidget::SetBackground(const SkBitmap& background) { background_ = background; // Generate a full repaint. didInvalidateRect(gfx::Rect(size_.width(), size_.height())); } bool RenderWidget::next_paint_is_resize_ack() const { return ViewHostMsg_UpdateRect_Flags::is_resize_ack(next_paint_flags_); } bool RenderWidget::next_paint_is_restore_ack() const { return ViewHostMsg_UpdateRect_Flags::is_restore_ack(next_paint_flags_); } void RenderWidget::set_next_paint_is_resize_ack() { next_paint_flags_ |= ViewHostMsg_UpdateRect_Flags::IS_RESIZE_ACK; } void RenderWidget::set_next_paint_is_restore_ack() { next_paint_flags_ |= ViewHostMsg_UpdateRect_Flags::IS_RESTORE_ACK; } void RenderWidget::set_next_paint_is_repaint_ack() { next_paint_flags_ |= ViewHostMsg_UpdateRect_Flags::IS_REPAINT_ACK; } static bool IsDateTimeInput(ui::TextInputType type) { return type == ui::TEXT_INPUT_TYPE_DATE || type == ui::TEXT_INPUT_TYPE_DATE_TIME || type == ui::TEXT_INPUT_TYPE_DATE_TIME_LOCAL || type == ui::TEXT_INPUT_TYPE_MONTH || type == ui::TEXT_INPUT_TYPE_TIME || type == ui::TEXT_INPUT_TYPE_WEEK; } void RenderWidget::StartHandlingImeEvent() { DCHECK(!handling_ime_event_); handling_ime_event_ = true; } void RenderWidget::FinishHandlingImeEvent() { DCHECK(handling_ime_event_); handling_ime_event_ = false; // While handling an ime event, text input state and selection bounds updates // are ignored. These must explicitly be updated once finished handling the // ime event. UpdateSelectionBounds(); #if defined(OS_ANDROID) UpdateTextInputState(false, false); #endif } void RenderWidget::UpdateTextInputType() { // On Windows, not only an IME but also an on-screen keyboard relies on the // latest TextInputType to optimize its layout and functionality. Thus // |input_method_is_active_| is no longer an appropriate condition to suppress // TextInputTypeChanged IPC on Windows. // TODO(yukawa, yoichio): Consider to stop checking |input_method_is_active_| // on other platforms as well as Windows if the overhead is acceptable. #if !defined(OS_WIN) if (!input_method_is_active_) return; #endif ui::TextInputType new_type = GetTextInputType(); if (IsDateTimeInput(new_type)) return; // Not considered as a text input field in WebKit/Chromium. bool new_can_compose_inline = CanComposeInline(); blink::WebTextInputInfo new_info; if (webwidget_) new_info = webwidget_->textInputInfo(); const ui::TextInputMode new_mode = ConvertInputMode(new_info.inputMode); if (text_input_type_ != new_type || can_compose_inline_ != new_can_compose_inline || text_input_mode_ != new_mode) { Send(new ViewHostMsg_TextInputTypeChanged(routing_id(), new_type, new_mode, new_can_compose_inline)); text_input_type_ = new_type; can_compose_inline_ = new_can_compose_inline; text_input_mode_ = new_mode; } } #if defined(OS_ANDROID) void RenderWidget::UpdateTextInputState(bool show_ime_if_needed, bool send_ime_ack) { if (handling_ime_event_) return; if (!show_ime_if_needed && !input_method_is_active_) return; ui::TextInputType new_type = GetTextInputType(); if (IsDateTimeInput(new_type)) return; // Not considered as a text input field in WebKit/Chromium. blink::WebTextInputInfo new_info; if (webwidget_) new_info = webwidget_->textInputInfo(); bool new_can_compose_inline = CanComposeInline(); // Only sends text input params if they are changed or if the ime should be // shown. if (show_ime_if_needed || (text_input_type_ != new_type || text_input_info_ != new_info || can_compose_inline_ != new_can_compose_inline)) { ViewHostMsg_TextInputState_Params p; p.type = new_type; p.value = new_info.value.utf8(); p.selection_start = new_info.selectionStart; p.selection_end = new_info.selectionEnd; p.composition_start = new_info.compositionStart; p.composition_end = new_info.compositionEnd; p.can_compose_inline = new_can_compose_inline; p.show_ime_if_needed = show_ime_if_needed; p.require_ack = send_ime_ack; if (p.require_ack) IncrementOutstandingImeEventAcks(); Send(new ViewHostMsg_TextInputStateChanged(routing_id(), p)); text_input_info_ = new_info; text_input_type_ = new_type; can_compose_inline_ = new_can_compose_inline; } } #endif void RenderWidget::GetSelectionBounds(gfx::Rect* focus, gfx::Rect* anchor) { WebRect focus_webrect; WebRect anchor_webrect; webwidget_->selectionBounds(focus_webrect, anchor_webrect); *focus = focus_webrect; *anchor = anchor_webrect; } void RenderWidget::UpdateSelectionBounds() { if (!webwidget_) return; if (handling_ime_event_) return; ViewHostMsg_SelectionBounds_Params params; GetSelectionBounds(¶ms.anchor_rect, ¶ms.focus_rect); if (selection_anchor_rect_ != params.anchor_rect || selection_focus_rect_ != params.focus_rect) { selection_anchor_rect_ = params.anchor_rect; selection_focus_rect_ = params.focus_rect; webwidget_->selectionTextDirection(params.focus_dir, params.anchor_dir); params.is_anchor_first = webwidget_->isSelectionAnchorFirst(); Send(new ViewHostMsg_SelectionBoundsChanged(routing_id_, params)); } #if defined(OS_MACOSX) || defined(OS_WIN) || defined(USE_AURA) UpdateCompositionInfo(false); #endif } // Check blink::WebTextInputType and ui::TextInputType is kept in sync. COMPILE_ASSERT(int(blink::WebTextInputTypeNone) == \ int(ui::TEXT_INPUT_TYPE_NONE), mismatching_enums); COMPILE_ASSERT(int(blink::WebTextInputTypeText) == \ int(ui::TEXT_INPUT_TYPE_TEXT), mismatching_enums); COMPILE_ASSERT(int(blink::WebTextInputTypePassword) == \ int(ui::TEXT_INPUT_TYPE_PASSWORD), mismatching_enums); COMPILE_ASSERT(int(blink::WebTextInputTypeSearch) == \ int(ui::TEXT_INPUT_TYPE_SEARCH), mismatching_enums); COMPILE_ASSERT(int(blink::WebTextInputTypeEmail) == \ int(ui::TEXT_INPUT_TYPE_EMAIL), mismatching_enums); COMPILE_ASSERT(int(blink::WebTextInputTypeNumber) == \ int(ui::TEXT_INPUT_TYPE_NUMBER), mismatching_enums); COMPILE_ASSERT(int(blink::WebTextInputTypeTelephone) == \ int(ui::TEXT_INPUT_TYPE_TELEPHONE), mismatching_enums); COMPILE_ASSERT(int(blink::WebTextInputTypeURL) == \ int(ui::TEXT_INPUT_TYPE_URL), mismatching_enums); COMPILE_ASSERT(int(blink::WebTextInputTypeDate) == \ int(ui::TEXT_INPUT_TYPE_DATE), mismatching_enum); COMPILE_ASSERT(int(blink::WebTextInputTypeDateTime) == \ int(ui::TEXT_INPUT_TYPE_DATE_TIME), mismatching_enum); COMPILE_ASSERT(int(blink::WebTextInputTypeDateTimeLocal) == \ int(ui::TEXT_INPUT_TYPE_DATE_TIME_LOCAL), mismatching_enum); COMPILE_ASSERT(int(blink::WebTextInputTypeMonth) == \ int(ui::TEXT_INPUT_TYPE_MONTH), mismatching_enum); COMPILE_ASSERT(int(blink::WebTextInputTypeTime) == \ int(ui::TEXT_INPUT_TYPE_TIME), mismatching_enum); COMPILE_ASSERT(int(blink::WebTextInputTypeWeek) == \ int(ui::TEXT_INPUT_TYPE_WEEK), mismatching_enum); COMPILE_ASSERT(int(blink::WebTextInputTypeTextArea) == \ int(ui::TEXT_INPUT_TYPE_TEXT_AREA), mismatching_enums); COMPILE_ASSERT(int(blink::WebTextInputTypeContentEditable) == \ int(ui::TEXT_INPUT_TYPE_CONTENT_EDITABLE), mismatching_enums); COMPILE_ASSERT(int(blink::WebTextInputTypeDateTimeField) == \ int(ui::TEXT_INPUT_TYPE_DATE_TIME_FIELD), mismatching_enums); ui::TextInputType RenderWidget::WebKitToUiTextInputType( blink::WebTextInputType type) { // Check the type is in the range representable by ui::TextInputType. DCHECK_LE(type, static_cast(ui::TEXT_INPUT_TYPE_MAX)) << "blink::WebTextInputType and ui::TextInputType not synchronized"; return static_cast(type); } ui::TextInputType RenderWidget::GetTextInputType() { if (webwidget_) return WebKitToUiTextInputType(webwidget_->textInputInfo().type); return ui::TEXT_INPUT_TYPE_NONE; } #if defined(OS_MACOSX) || defined(OS_WIN) || defined(USE_AURA) void RenderWidget::UpdateCompositionInfo(bool should_update_range) { gfx::Range range = gfx::Range(); if (should_update_range) { GetCompositionRange(&range); } else { range = composition_range_; } std::vector character_bounds; GetCompositionCharacterBounds(&character_bounds); if (!ShouldUpdateCompositionInfo(range, character_bounds)) return; composition_character_bounds_ = character_bounds; composition_range_ = range; Send(new ViewHostMsg_ImeCompositionRangeChanged( routing_id(), composition_range_, composition_character_bounds_)); } void RenderWidget::GetCompositionCharacterBounds( std::vector* bounds) { DCHECK(bounds); bounds->clear(); } void RenderWidget::GetCompositionRange(gfx::Range* range) { size_t location, length; if (webwidget_->compositionRange(&location, &length)) { range->set_start(location); range->set_end(location + length); } else if (webwidget_->caretOrSelectionRange(&location, &length)) { range->set_start(location); range->set_end(location + length); } else { *range = gfx::Range::InvalidRange(); } } bool RenderWidget::ShouldUpdateCompositionInfo( const gfx::Range& range, const std::vector& bounds) { if (composition_range_ != range) return true; if (bounds.size() != composition_character_bounds_.size()) return true; for (size_t i = 0; i < bounds.size(); ++i) { if (bounds[i] != composition_character_bounds_[i]) return true; } return false; } #endif bool RenderWidget::CanComposeInline() { return true; } WebScreenInfo RenderWidget::screenInfo() { return screen_info_; } float RenderWidget::deviceScaleFactor() { return device_scale_factor_; } void RenderWidget::resetInputMethod() { if (!input_method_is_active_) return; ImeEventGuard guard(this); // If the last text input type is not None, then we should finish any // ongoing composition regardless of the new text input type. if (text_input_type_ != ui::TEXT_INPUT_TYPE_NONE) { // If a composition text exists, then we need to let the browser process // to cancel the input method's ongoing composition session. if (webwidget_->confirmComposition()) Send(new ViewHostMsg_ImeCancelComposition(routing_id())); } #if defined(OS_MACOSX) || defined(OS_WIN) || defined(USE_AURA) UpdateCompositionInfo(true); #endif } void RenderWidget::didHandleGestureEvent( const WebGestureEvent& event, bool event_cancelled) { #if defined(OS_ANDROID) if (event_cancelled) return; if (event.type == WebInputEvent::GestureTap || event.type == WebInputEvent::GestureLongPress) { UpdateTextInputState(true, true); } #endif } void RenderWidget::SchedulePluginMove(const WebPluginGeometry& move) { size_t i = 0; for (; i < plugin_window_moves_.size(); ++i) { if (plugin_window_moves_[i].window == move.window) { if (move.rects_valid) { plugin_window_moves_[i] = move; } else { plugin_window_moves_[i].visible = move.visible; } break; } } if (i == plugin_window_moves_.size()) plugin_window_moves_.push_back(move); } void RenderWidget::CleanupWindowInPluginMoves(gfx::PluginWindowHandle window) { for (WebPluginGeometryVector::iterator i = plugin_window_moves_.begin(); i != plugin_window_moves_.end(); ++i) { if (i->window == window) { plugin_window_moves_.erase(i); break; } } } void RenderWidget::GetRenderingStats( blink::WebRenderingStatsImpl& stats) const { if (compositor_) compositor_->GetRenderingStats(&stats.rendering_stats); stats.rendering_stats.Add( legacy_software_mode_stats_->GetRenderingStats()); } bool RenderWidget::GetGpuRenderingStats(GpuRenderingStats* stats) const { GpuChannelHost* gpu_channel = RenderThreadImpl::current()->GetGpuChannel(); if (!gpu_channel) return false; return gpu_channel->CollectRenderingStatsForSurface(surface_id(), stats); } RenderWidgetCompositor* RenderWidget::compositor() const { return compositor_.get(); } void RenderWidget::OnSetBrowserRenderingStats( const BrowserRenderingStats& stats) { browser_rendering_stats_ = stats; } void RenderWidget::GetBrowserRenderingStats(BrowserRenderingStats* stats) { *stats = browser_rendering_stats_; } bool RenderWidget::WillHandleMouseEvent(const blink::WebMouseEvent& event) { return false; } bool RenderWidget::WillHandleKeyEvent(const blink::WebKeyboardEvent& event) { return false; } bool RenderWidget::WillHandleGestureEvent( const blink::WebGestureEvent& event) { return false; } void RenderWidget::hasTouchEventHandlers(bool has_handlers) { Send(new ViewHostMsg_HasTouchEventHandlers(routing_id_, has_handlers)); } void RenderWidget::setTouchAction( blink::WebTouchAction web_touch_action) { // Ignore setTouchAction calls that result from synthetic touch events (eg. // when blink is emulating touch with mouse). if (!handling_touchstart_event_) return; // Verify the same values are used by the types so we can cast between them. COMPILE_ASSERT(static_cast(TOUCH_ACTION_AUTO) == blink::WebTouchActionAuto, enum_values_must_match_for_touch_action); COMPILE_ASSERT(static_cast(TOUCH_ACTION_NONE) == blink::WebTouchActionNone, enum_values_must_match_for_touch_action); COMPILE_ASSERT(static_cast(TOUCH_ACTION_PAN_X) == blink::WebTouchActionPanX, enum_values_must_match_for_touch_action); COMPILE_ASSERT(static_cast(TOUCH_ACTION_PAN_Y) == blink::WebTouchActionPanY, enum_values_must_match_for_touch_action); content::TouchAction content_touch_action = static_cast(web_touch_action); Send(new InputHostMsg_SetTouchAction(routing_id_, content_touch_action)); } bool RenderWidget::HasTouchEventHandlersAt(const gfx::Point& point) const { return true; } scoped_ptr RenderWidget::CreateGraphicsContext3D( const blink::WebGraphicsContext3D::Attributes& attributes) { if (!webwidget_) return scoped_ptr(); if (CommandLine::ForCurrentProcess()->HasSwitch( switches::kDisableGpuCompositing)) return scoped_ptr(); if (!RenderThreadImpl::current()) return scoped_ptr(); CauseForGpuLaunch cause = CAUSE_FOR_GPU_LAUNCH_WEBGRAPHICSCONTEXT3DCOMMANDBUFFERIMPL_INITIALIZE; scoped_refptr gpu_channel_host( RenderThreadImpl::current()->EstablishGpuChannelSync(cause)); if (!gpu_channel_host) return scoped_ptr(); WebGraphicsContext3DCommandBufferImpl::SharedMemoryLimits limits; #if defined(OS_ANDROID) // If we raster too fast we become upload bound, and pending // uploads consume memory. For maximum upload throughput, we would // want to allow for upload_throughput * pipeline_time of pending // uploads, after which we are just wasting memory. Since we don't // know our upload throughput yet, this just caps our memory usage. size_t divider = 1; if (base::android::SysUtils::IsLowEndDevice()) divider = 6; // For reference Nexus10 can upload 1MB in about 2.5ms. const double max_mb_uploaded_per_ms = 2.0 / (5 * divider); // Deadline to draw a frame to achieve 60 frames per second. const size_t kMillisecondsPerFrame = 16; // Assuming a two frame deep pipeline between the CPU and the GPU. size_t max_transfer_buffer_usage_mb = static_cast(2 * kMillisecondsPerFrame * max_mb_uploaded_per_ms); static const size_t kBytesPerMegabyte = 1024 * 1024; // We keep the MappedMemoryReclaimLimit the same as the upload limit // to avoid unnecessarily stalling the compositor thread. limits.mapped_memory_reclaim_limit = max_transfer_buffer_usage_mb * kBytesPerMegabyte; #endif scoped_ptr context( new WebGraphicsContext3DCommandBufferImpl( surface_id(), GetURLForGraphicsContext3D(), gpu_channel_host.get(), attributes, false /* bind generates resources */, limits)); return context.Pass(); } } // namespace content