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      1 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
      2 // Use of this source code is governed by a BSD-style license that can be
      3 // found in the LICENSE file.
      4 
      5 #include "content/renderer/render_widget.h"
      6 
      7 #include "base/auto_reset.h"
      8 #include "base/bind.h"
      9 #include "base/command_line.h"
     10 #include "base/debug/trace_event.h"
     11 #include "base/debug/trace_event_synthetic_delay.h"
     12 #include "base/logging.h"
     13 #include "base/memory/scoped_ptr.h"
     14 #include "base/memory/singleton.h"
     15 #include "base/message_loop/message_loop.h"
     16 #include "base/metrics/histogram.h"
     17 #include "base/stl_util.h"
     18 #include "base/strings/utf_string_conversions.h"
     19 #include "base/sys_info.h"
     20 #include "build/build_config.h"
     21 #include "cc/base/switches.h"
     22 #include "cc/debug/benchmark_instrumentation.h"
     23 #include "cc/output/output_surface.h"
     24 #include "cc/trees/layer_tree_host.h"
     25 #include "content/child/npapi/webplugin.h"
     26 #include "content/common/gpu/client/context_provider_command_buffer.h"
     27 #include "content/common/gpu/client/webgraphicscontext3d_command_buffer_impl.h"
     28 #include "content/common/gpu/gpu_process_launch_causes.h"
     29 #include "content/common/input/synthetic_gesture_packet.h"
     30 #include "content/common/input/web_input_event_traits.h"
     31 #include "content/common/input_messages.h"
     32 #include "content/common/swapped_out_messages.h"
     33 #include "content/common/view_messages.h"
     34 #include "content/public/common/content_switches.h"
     35 #include "content/public/common/context_menu_params.h"
     36 #include "content/renderer/cursor_utils.h"
     37 #include "content/renderer/external_popup_menu.h"
     38 #include "content/renderer/gpu/compositor_output_surface.h"
     39 #include "content/renderer/gpu/compositor_software_output_device.h"
     40 #include "content/renderer/gpu/delegated_compositor_output_surface.h"
     41 #include "content/renderer/gpu/frame_swap_message_queue.h"
     42 #include "content/renderer/gpu/mailbox_output_surface.h"
     43 #include "content/renderer/gpu/queue_message_swap_promise.h"
     44 #include "content/renderer/gpu/render_widget_compositor.h"
     45 #include "content/renderer/ime_event_guard.h"
     46 #include "content/renderer/input/input_handler_manager.h"
     47 #include "content/renderer/pepper/pepper_plugin_instance_impl.h"
     48 #include "content/renderer/render_frame_impl.h"
     49 #include "content/renderer/render_frame_proxy.h"
     50 #include "content/renderer/render_process.h"
     51 #include "content/renderer/render_thread_impl.h"
     52 #include "content/renderer/renderer_webkitplatformsupport_impl.h"
     53 #include "content/renderer/resizing_mode_selector.h"
     54 #include "ipc/ipc_sync_message.h"
     55 #include "skia/ext/platform_canvas.h"
     56 #include "third_party/WebKit/public/platform/WebCursorInfo.h"
     57 #include "third_party/WebKit/public/platform/WebGraphicsContext3D.h"
     58 #include "third_party/WebKit/public/platform/WebRect.h"
     59 #include "third_party/WebKit/public/platform/WebScreenInfo.h"
     60 #include "third_party/WebKit/public/platform/WebSize.h"
     61 #include "third_party/WebKit/public/platform/WebString.h"
     62 #include "third_party/WebKit/public/web/WebDeviceEmulationParams.h"
     63 #include "third_party/WebKit/public/web/WebPagePopup.h"
     64 #include "third_party/WebKit/public/web/WebPopupMenu.h"
     65 #include "third_party/WebKit/public/web/WebPopupMenuInfo.h"
     66 #include "third_party/WebKit/public/web/WebRange.h"
     67 #include "third_party/WebKit/public/web/WebRuntimeFeatures.h"
     68 #include "third_party/skia/include/core/SkShader.h"
     69 #include "ui/base/ui_base_switches.h"
     70 #include "ui/gfx/frame_time.h"
     71 #include "ui/gfx/point_conversions.h"
     72 #include "ui/gfx/rect_conversions.h"
     73 #include "ui/gfx/size_conversions.h"
     74 #include "ui/gfx/skia_util.h"
     75 #include "ui/gl/gl_switches.h"
     76 #include "ui/surface/transport_dib.h"
     77 
     78 #if defined(OS_ANDROID)
     79 #include <android/keycodes.h>
     80 #include "content/renderer/android/synchronous_compositor_factory.h"
     81 #endif
     82 
     83 #if defined(OS_POSIX)
     84 #include "ipc/ipc_channel_posix.h"
     85 #include "third_party/skia/include/core/SkMallocPixelRef.h"
     86 #include "third_party/skia/include/core/SkPixelRef.h"
     87 #endif  // defined(OS_POSIX)
     88 
     89 #include "third_party/WebKit/public/web/WebWidget.h"
     90 
     91 using blink::WebCompositionUnderline;
     92 using blink::WebCursorInfo;
     93 using blink::WebDeviceEmulationParams;
     94 using blink::WebGestureEvent;
     95 using blink::WebInputEvent;
     96 using blink::WebKeyboardEvent;
     97 using blink::WebMouseEvent;
     98 using blink::WebMouseWheelEvent;
     99 using blink::WebNavigationPolicy;
    100 using blink::WebPagePopup;
    101 using blink::WebPopupMenu;
    102 using blink::WebPopupMenuInfo;
    103 using blink::WebPopupType;
    104 using blink::WebRange;
    105 using blink::WebRect;
    106 using blink::WebScreenInfo;
    107 using blink::WebSize;
    108 using blink::WebTextDirection;
    109 using blink::WebTouchEvent;
    110 using blink::WebTouchPoint;
    111 using blink::WebVector;
    112 using blink::WebWidget;
    113 
    114 namespace {
    115 
    116 typedef std::map<std::string, ui::TextInputMode> TextInputModeMap;
    117 
    118 class TextInputModeMapSingleton {
    119  public:
    120   static TextInputModeMapSingleton* GetInstance() {
    121     return Singleton<TextInputModeMapSingleton>::get();
    122   }
    123   TextInputModeMapSingleton() {
    124     map_["verbatim"] = ui::TEXT_INPUT_MODE_VERBATIM;
    125     map_["latin"] = ui::TEXT_INPUT_MODE_LATIN;
    126     map_["latin-name"] = ui::TEXT_INPUT_MODE_LATIN_NAME;
    127     map_["latin-prose"] = ui::TEXT_INPUT_MODE_LATIN_PROSE;
    128     map_["full-width-latin"] = ui::TEXT_INPUT_MODE_FULL_WIDTH_LATIN;
    129     map_["kana"] = ui::TEXT_INPUT_MODE_KANA;
    130     map_["katakana"] = ui::TEXT_INPUT_MODE_KATAKANA;
    131     map_["numeric"] = ui::TEXT_INPUT_MODE_NUMERIC;
    132     map_["tel"] = ui::TEXT_INPUT_MODE_TEL;
    133     map_["email"] = ui::TEXT_INPUT_MODE_EMAIL;
    134     map_["url"] = ui::TEXT_INPUT_MODE_URL;
    135   }
    136   const TextInputModeMap& map() const { return map_; }
    137  private:
    138   TextInputModeMap map_;
    139 
    140   friend struct DefaultSingletonTraits<TextInputModeMapSingleton>;
    141 
    142   DISALLOW_COPY_AND_ASSIGN(TextInputModeMapSingleton);
    143 };
    144 
    145 ui::TextInputMode ConvertInputMode(const blink::WebString& input_mode) {
    146   static TextInputModeMapSingleton* singleton =
    147       TextInputModeMapSingleton::GetInstance();
    148   TextInputModeMap::const_iterator it =
    149       singleton->map().find(input_mode.utf8());
    150   if (it == singleton->map().end())
    151     return ui::TEXT_INPUT_MODE_DEFAULT;
    152   return it->second;
    153 }
    154 
    155 bool IsThreadedCompositingEnabled() {
    156   content::RenderThreadImpl* impl = content::RenderThreadImpl::current();
    157   return impl && !!impl->compositor_message_loop_proxy().get();
    158 }
    159 
    160 // TODO(brianderson): Replace the hard-coded threshold with a fraction of
    161 // the BeginMainFrame interval.
    162 // 4166us will allow 1/4 of a 60Hz interval or 1/2 of a 120Hz interval to
    163 // be spent in input hanlders before input starts getting throttled.
    164 const int kInputHandlingTimeThrottlingThresholdMicroseconds = 4166;
    165 
    166 }  // namespace
    167 
    168 namespace content {
    169 
    170 // RenderWidget::ScreenMetricsEmulator ----------------------------------------
    171 
    172 class RenderWidget::ScreenMetricsEmulator {
    173  public:
    174   ScreenMetricsEmulator(
    175       RenderWidget* widget,
    176       const WebDeviceEmulationParams& params);
    177   virtual ~ScreenMetricsEmulator();
    178 
    179   // Scale and offset used to convert between host coordinates
    180   // and webwidget coordinates.
    181   float scale() { return scale_; }
    182   gfx::Point offset() { return offset_; }
    183   gfx::Rect applied_widget_rect() const { return applied_widget_rect_; }
    184   gfx::Rect original_screen_rect() const { return original_view_screen_rect_; }
    185   const WebScreenInfo& original_screen_info() { return original_screen_info_; }
    186 
    187   void ChangeEmulationParams(
    188       const WebDeviceEmulationParams& params);
    189 
    190   // The following methods alter handlers' behavior for messages related to
    191   // widget size and position.
    192   void OnResizeMessage(const ViewMsg_Resize_Params& params);
    193   void OnUpdateScreenRectsMessage(const gfx::Rect& view_screen_rect,
    194                                   const gfx::Rect& window_screen_rect);
    195   void OnShowContextMenu(ContextMenuParams* params);
    196   gfx::Rect AdjustValidationMessageAnchor(const gfx::Rect& anchor);
    197 
    198  private:
    199   void Reapply();
    200   void Apply(float top_controls_layout_height,
    201              gfx::Rect resizer_rect,
    202              bool is_fullscreen);
    203 
    204   RenderWidget* widget_;
    205 
    206   // Parameters as passed by RenderWidget::EnableScreenMetricsEmulation.
    207   WebDeviceEmulationParams params_;
    208 
    209   // The computed scale and offset used to fit widget into browser window.
    210   float scale_;
    211   gfx::Point offset_;
    212 
    213   // Widget rect as passed to webwidget.
    214   gfx::Rect applied_widget_rect_;
    215 
    216   // Original values to restore back after emulation ends.
    217   gfx::Size original_size_;
    218   gfx::Size original_physical_backing_size_;
    219   gfx::Size original_visible_viewport_size_;
    220   blink::WebScreenInfo original_screen_info_;
    221   gfx::Rect original_view_screen_rect_;
    222   gfx::Rect original_window_screen_rect_;
    223 };
    224 
    225 RenderWidget::ScreenMetricsEmulator::ScreenMetricsEmulator(
    226     RenderWidget* widget,
    227     const WebDeviceEmulationParams& params)
    228     : widget_(widget),
    229       params_(params),
    230       scale_(1.f) {
    231   original_size_ = widget_->size_;
    232   original_physical_backing_size_ = widget_->physical_backing_size_;
    233   original_visible_viewport_size_ = widget_->visible_viewport_size_;
    234   original_screen_info_ = widget_->screen_info_;
    235   original_view_screen_rect_ = widget_->view_screen_rect_;
    236   original_window_screen_rect_ = widget_->window_screen_rect_;
    237   Apply(widget_->top_controls_layout_height_, widget_->resizer_rect_,
    238       widget_->is_fullscreen_);
    239 }
    240 
    241 RenderWidget::ScreenMetricsEmulator::~ScreenMetricsEmulator() {
    242   widget_->screen_info_ = original_screen_info_;
    243 
    244   widget_->SetDeviceScaleFactor(original_screen_info_.deviceScaleFactor);
    245   widget_->SetScreenMetricsEmulationParameters(0.f, gfx::Point(), 1.f);
    246   widget_->view_screen_rect_ = original_view_screen_rect_;
    247   widget_->window_screen_rect_ = original_window_screen_rect_;
    248   widget_->Resize(original_size_,
    249                   original_physical_backing_size_,
    250                   widget_->top_controls_layout_height_,
    251                   original_visible_viewport_size_,
    252                   widget_->resizer_rect_,
    253                   widget_->is_fullscreen_,
    254                   NO_RESIZE_ACK);
    255 }
    256 
    257 void RenderWidget::ScreenMetricsEmulator::ChangeEmulationParams(
    258     const WebDeviceEmulationParams& params) {
    259   params_ = params;
    260   Reapply();
    261 }
    262 
    263 void RenderWidget::ScreenMetricsEmulator::Reapply() {
    264   Apply(widget_->top_controls_layout_height_, widget_->resizer_rect_,
    265       widget_->is_fullscreen_);
    266 }
    267 
    268 void RenderWidget::ScreenMetricsEmulator::Apply(
    269     float top_controls_layout_height,
    270     gfx::Rect resizer_rect,
    271     bool is_fullscreen) {
    272   applied_widget_rect_.set_size(gfx::Size(params_.viewSize));
    273   if (!applied_widget_rect_.width())
    274     applied_widget_rect_.set_width(original_size_.width());
    275   if (!applied_widget_rect_.height())
    276     applied_widget_rect_.set_height(original_size_.height());
    277 
    278   if (params_.fitToView && !original_size_.IsEmpty()) {
    279     int original_width = std::max(original_size_.width(), 1);
    280     int original_height = std::max(original_size_.height(), 1);
    281     float width_ratio =
    282         static_cast<float>(applied_widget_rect_.width()) / original_width;
    283     float height_ratio =
    284         static_cast<float>(applied_widget_rect_.height()) / original_height;
    285     float ratio = std::max(1.0f, std::max(width_ratio, height_ratio));
    286     scale_ = 1.f / ratio;
    287 
    288     // Center emulated view inside available view space.
    289     offset_.set_x(
    290         (original_size_.width() - scale_ * applied_widget_rect_.width()) / 2);
    291     offset_.set_y(
    292         (original_size_.height() - scale_ * applied_widget_rect_.height()) / 2);
    293   } else {
    294     scale_ = params_.scale;
    295     offset_.SetPoint(params_.offset.x, params_.offset.y);
    296   }
    297 
    298   if (params_.screenPosition == WebDeviceEmulationParams::Desktop) {
    299     applied_widget_rect_.set_origin(original_view_screen_rect_.origin());
    300     widget_->screen_info_.rect = original_screen_info_.rect;
    301     widget_->screen_info_.availableRect = original_screen_info_.availableRect;
    302     widget_->window_screen_rect_ = original_window_screen_rect_;
    303   } else {
    304     applied_widget_rect_.set_origin(gfx::Point(0, 0));
    305     widget_->screen_info_.rect = applied_widget_rect_;
    306     widget_->screen_info_.availableRect = applied_widget_rect_;
    307     widget_->window_screen_rect_ = applied_widget_rect_;
    308   }
    309 
    310   float applied_device_scale_factor = params_.deviceScaleFactor ?
    311       params_.deviceScaleFactor : original_screen_info_.deviceScaleFactor;
    312   widget_->screen_info_.deviceScaleFactor = applied_device_scale_factor;
    313 
    314   // Pass three emulation parameters to the blink side:
    315   // - we keep the real device scale factor in compositor to produce sharp image
    316   //   even when emulating different scale factor;
    317   // - in order to fit into view, WebView applies offset and scale to the
    318   //   root layer.
    319   widget_->SetScreenMetricsEmulationParameters(
    320       original_screen_info_.deviceScaleFactor, offset_, scale_);
    321 
    322   widget_->SetDeviceScaleFactor(applied_device_scale_factor);
    323   widget_->view_screen_rect_ = applied_widget_rect_;
    324 
    325   gfx::Size physical_backing_size = gfx::ToCeiledSize(gfx::ScaleSize(
    326       original_size_, original_screen_info_.deviceScaleFactor));
    327   widget_->Resize(applied_widget_rect_.size(), physical_backing_size,
    328       top_controls_layout_height, applied_widget_rect_.size(), resizer_rect,
    329       is_fullscreen, NO_RESIZE_ACK);
    330 }
    331 
    332 void RenderWidget::ScreenMetricsEmulator::OnResizeMessage(
    333     const ViewMsg_Resize_Params& params) {
    334   bool need_ack = params.new_size != original_size_ &&
    335       !params.new_size.IsEmpty() && !params.physical_backing_size.IsEmpty();
    336   original_size_ = params.new_size;
    337   original_physical_backing_size_ = params.physical_backing_size;
    338   original_screen_info_ = params.screen_info;
    339   original_visible_viewport_size_ = params.visible_viewport_size;
    340   Apply(params.top_controls_layout_height, params.resizer_rect,
    341       params.is_fullscreen);
    342 
    343   if (need_ack) {
    344     widget_->set_next_paint_is_resize_ack();
    345     if (widget_->compositor_)
    346       widget_->compositor_->SetNeedsRedrawRect(gfx::Rect(widget_->size_));
    347   }
    348 }
    349 
    350 void RenderWidget::ScreenMetricsEmulator::OnUpdateScreenRectsMessage(
    351     const gfx::Rect& view_screen_rect,
    352     const gfx::Rect& window_screen_rect) {
    353   original_view_screen_rect_ = view_screen_rect;
    354   original_window_screen_rect_ = window_screen_rect;
    355   if (params_.screenPosition == WebDeviceEmulationParams::Desktop)
    356     Reapply();
    357 }
    358 
    359 void RenderWidget::ScreenMetricsEmulator::OnShowContextMenu(
    360     ContextMenuParams* params) {
    361   params->x *= scale_;
    362   params->x += offset_.x();
    363   params->y *= scale_;
    364   params->y += offset_.y();
    365 }
    366 
    367 gfx::Rect RenderWidget::ScreenMetricsEmulator::AdjustValidationMessageAnchor(
    368     const gfx::Rect& anchor) {
    369   gfx::Rect scaled = gfx::ToEnclosedRect(gfx::ScaleRect(anchor, scale_));
    370   scaled.set_x(scaled.x() + offset_.x());
    371   scaled.set_y(scaled.y() + offset_.y());
    372   return scaled;
    373 }
    374 
    375 // RenderWidget ---------------------------------------------------------------
    376 
    377 RenderWidget::RenderWidget(blink::WebPopupType popup_type,
    378                            const blink::WebScreenInfo& screen_info,
    379                            bool swapped_out,
    380                            bool hidden,
    381                            bool never_visible)
    382     : routing_id_(MSG_ROUTING_NONE),
    383       surface_id_(0),
    384       webwidget_(NULL),
    385       opener_id_(MSG_ROUTING_NONE),
    386       init_complete_(false),
    387       top_controls_layout_height_(0.f),
    388       next_paint_flags_(0),
    389       auto_resize_mode_(false),
    390       need_update_rect_for_auto_resize_(false),
    391       did_show_(false),
    392       is_hidden_(hidden),
    393       never_visible_(never_visible),
    394       is_fullscreen_(false),
    395       has_focus_(false),
    396       handling_input_event_(false),
    397       handling_ime_event_(false),
    398       handling_event_type_(WebInputEvent::Undefined),
    399       ignore_ack_for_mouse_move_from_debugger_(false),
    400       closing_(false),
    401       host_closing_(false),
    402       is_swapped_out_(swapped_out),
    403       input_method_is_active_(false),
    404       text_input_type_(ui::TEXT_INPUT_TYPE_NONE),
    405       text_input_mode_(ui::TEXT_INPUT_MODE_DEFAULT),
    406       can_compose_inline_(true),
    407       popup_type_(popup_type),
    408       pending_window_rect_count_(0),
    409       suppress_next_char_events_(false),
    410       screen_info_(screen_info),
    411       device_scale_factor_(screen_info_.deviceScaleFactor),
    412       current_event_latency_info_(NULL),
    413       next_output_surface_id_(0),
    414 #if defined(OS_ANDROID)
    415       text_field_is_dirty_(false),
    416       outstanding_ime_acks_(0),
    417       body_background_color_(SK_ColorWHITE),
    418 #endif
    419       popup_origin_scale_for_emulation_(0.f),
    420       frame_swap_message_queue_(new FrameSwapMessageQueue()),
    421       resizing_mode_selector_(new ResizingModeSelector()),
    422       context_menu_source_type_(ui::MENU_SOURCE_MOUSE),
    423       has_host_context_menu_location_(false) {
    424   if (!swapped_out)
    425     RenderProcess::current()->AddRefProcess();
    426   DCHECK(RenderThread::Get());
    427   device_color_profile_.push_back('0');
    428 }
    429 
    430 RenderWidget::~RenderWidget() {
    431   DCHECK(!webwidget_) << "Leaking our WebWidget!";
    432 
    433   // If we are swapped out, we have released already.
    434   if (!is_swapped_out_ && RenderProcess::current())
    435     RenderProcess::current()->ReleaseProcess();
    436 }
    437 
    438 // static
    439 RenderWidget* RenderWidget::Create(int32 opener_id,
    440                                    blink::WebPopupType popup_type,
    441                                    const blink::WebScreenInfo& screen_info) {
    442   DCHECK(opener_id != MSG_ROUTING_NONE);
    443   scoped_refptr<RenderWidget> widget(
    444       new RenderWidget(popup_type, screen_info, false, false, false));
    445   if (widget->Init(opener_id)) {  // adds reference on success.
    446     return widget.get();
    447   }
    448   return NULL;
    449 }
    450 
    451 // static
    452 WebWidget* RenderWidget::CreateWebWidget(RenderWidget* render_widget) {
    453   switch (render_widget->popup_type_) {
    454     case blink::WebPopupTypeNone:  // Nothing to create.
    455       break;
    456     case blink::WebPopupTypeSelect:
    457     case blink::WebPopupTypeSuggestion:
    458       return WebPopupMenu::create(render_widget);
    459     case blink::WebPopupTypePage:
    460       return WebPagePopup::create(render_widget);
    461     default:
    462       NOTREACHED();
    463   }
    464   return NULL;
    465 }
    466 
    467 bool RenderWidget::Init(int32 opener_id) {
    468   return DoInit(opener_id,
    469                 RenderWidget::CreateWebWidget(this),
    470                 new ViewHostMsg_CreateWidget(opener_id, popup_type_,
    471                                              &routing_id_, &surface_id_));
    472 }
    473 
    474 bool RenderWidget::DoInit(int32 opener_id,
    475                           WebWidget* web_widget,
    476                           IPC::SyncMessage* create_widget_message) {
    477   DCHECK(!webwidget_);
    478 
    479   if (opener_id != MSG_ROUTING_NONE)
    480     opener_id_ = opener_id;
    481 
    482   webwidget_ = web_widget;
    483 
    484   bool result = RenderThread::Get()->Send(create_widget_message);
    485   if (result) {
    486     RenderThread::Get()->AddRoute(routing_id_, this);
    487     // Take a reference on behalf of the RenderThread.  This will be balanced
    488     // when we receive ViewMsg_Close.
    489     AddRef();
    490     if (RenderThreadImpl::current()) {
    491       RenderThreadImpl::current()->WidgetCreated();
    492       if (is_hidden_)
    493         RenderThreadImpl::current()->WidgetHidden();
    494     }
    495     return true;
    496   } else {
    497     // The above Send can fail when the tab is closing.
    498     return false;
    499   }
    500 }
    501 
    502 // This is used to complete pending inits and non-pending inits.
    503 void RenderWidget::CompleteInit() {
    504   DCHECK(routing_id_ != MSG_ROUTING_NONE);
    505 
    506   init_complete_ = true;
    507 
    508   if (compositor_)
    509     StartCompositor();
    510 
    511   Send(new ViewHostMsg_RenderViewReady(routing_id_));
    512 }
    513 
    514 void RenderWidget::SetSwappedOut(bool is_swapped_out) {
    515   // We should only toggle between states.
    516   DCHECK(is_swapped_out_ != is_swapped_out);
    517   is_swapped_out_ = is_swapped_out;
    518 
    519   // If we are swapping out, we will call ReleaseProcess, allowing the process
    520   // to exit if all of its RenderViews are swapped out.  We wait until the
    521   // WasSwappedOut call to do this, to allow the unload handler to finish.
    522   // If we are swapping in, we call AddRefProcess to prevent the process from
    523   // exiting.
    524   if (!is_swapped_out_)
    525     RenderProcess::current()->AddRefProcess();
    526 }
    527 
    528 void RenderWidget::WasSwappedOut() {
    529   // If we have been swapped out and no one else is using this process,
    530   // it's safe to exit now.
    531   CHECK(is_swapped_out_);
    532   RenderProcess::current()->ReleaseProcess();
    533 }
    534 
    535 void RenderWidget::EnableScreenMetricsEmulation(
    536     const WebDeviceEmulationParams& params) {
    537   if (!screen_metrics_emulator_)
    538     screen_metrics_emulator_.reset(new ScreenMetricsEmulator(this, params));
    539   else
    540     screen_metrics_emulator_->ChangeEmulationParams(params);
    541 }
    542 
    543 void RenderWidget::DisableScreenMetricsEmulation() {
    544   screen_metrics_emulator_.reset();
    545 }
    546 
    547 void RenderWidget::SetPopupOriginAdjustmentsForEmulation(
    548     ScreenMetricsEmulator* emulator) {
    549   popup_origin_scale_for_emulation_ = emulator->scale();
    550   popup_view_origin_for_emulation_ = emulator->applied_widget_rect().origin();
    551   popup_screen_origin_for_emulation_ = gfx::Point(
    552       emulator->original_screen_rect().origin().x() + emulator->offset().x(),
    553       emulator->original_screen_rect().origin().y() + emulator->offset().y());
    554   screen_info_ = emulator->original_screen_info();
    555   device_scale_factor_ = screen_info_.deviceScaleFactor;
    556 }
    557 
    558 gfx::Rect RenderWidget::AdjustValidationMessageAnchor(const gfx::Rect& anchor) {
    559   if (screen_metrics_emulator_)
    560     return screen_metrics_emulator_->AdjustValidationMessageAnchor(anchor);
    561   return anchor;
    562 }
    563 
    564 void RenderWidget::SetScreenMetricsEmulationParameters(
    565     float device_scale_factor,
    566     const gfx::Point& root_layer_offset,
    567     float root_layer_scale) {
    568   // This is only supported in RenderView.
    569   NOTREACHED();
    570 }
    571 
    572 #if defined(OS_MACOSX) || defined(OS_ANDROID)
    573 void RenderWidget::SetExternalPopupOriginAdjustmentsForEmulation(
    574     ExternalPopupMenu* popup, ScreenMetricsEmulator* emulator) {
    575   popup->SetOriginScaleAndOffsetForEmulation(
    576       emulator->scale(), emulator->offset());
    577 }
    578 #endif
    579 
    580 void RenderWidget::OnShowHostContextMenu(ContextMenuParams* params) {
    581   if (screen_metrics_emulator_)
    582     screen_metrics_emulator_->OnShowContextMenu(params);
    583 }
    584 
    585 void RenderWidget::ScheduleCompositeWithForcedRedraw() {
    586   if (compositor_) {
    587     // Regardless of whether threaded compositing is enabled, always
    588     // use this mechanism to force the compositor to redraw. However,
    589     // the invalidation code path below is still needed for the
    590     // non-threaded case.
    591     compositor_->SetNeedsForcedRedraw();
    592   }
    593   scheduleComposite();
    594 }
    595 
    596 bool RenderWidget::OnMessageReceived(const IPC::Message& message) {
    597   bool handled = true;
    598   IPC_BEGIN_MESSAGE_MAP(RenderWidget, message)
    599     IPC_MESSAGE_HANDLER(InputMsg_HandleInputEvent, OnHandleInputEvent)
    600     IPC_MESSAGE_HANDLER(InputMsg_CursorVisibilityChange,
    601                         OnCursorVisibilityChange)
    602     IPC_MESSAGE_HANDLER(InputMsg_ImeSetComposition, OnImeSetComposition)
    603     IPC_MESSAGE_HANDLER(InputMsg_ImeConfirmComposition, OnImeConfirmComposition)
    604     IPC_MESSAGE_HANDLER(InputMsg_MouseCaptureLost, OnMouseCaptureLost)
    605     IPC_MESSAGE_HANDLER(InputMsg_SetFocus, OnSetFocus)
    606     IPC_MESSAGE_HANDLER(InputMsg_SyntheticGestureCompleted,
    607                         OnSyntheticGestureCompleted)
    608     IPC_MESSAGE_HANDLER(ViewMsg_Close, OnClose)
    609     IPC_MESSAGE_HANDLER(ViewMsg_CreatingNew_ACK, OnCreatingNewAck)
    610     IPC_MESSAGE_HANDLER(ViewMsg_Resize, OnResize)
    611     IPC_MESSAGE_HANDLER(ViewMsg_ChangeResizeRect, OnChangeResizeRect)
    612     IPC_MESSAGE_HANDLER(ViewMsg_WasHidden, OnWasHidden)
    613     IPC_MESSAGE_HANDLER(ViewMsg_WasShown, OnWasShown)
    614     IPC_MESSAGE_HANDLER(ViewMsg_SetInputMethodActive, OnSetInputMethodActive)
    615     IPC_MESSAGE_HANDLER(ViewMsg_CandidateWindowShown, OnCandidateWindowShown)
    616     IPC_MESSAGE_HANDLER(ViewMsg_CandidateWindowUpdated,
    617                         OnCandidateWindowUpdated)
    618     IPC_MESSAGE_HANDLER(ViewMsg_CandidateWindowHidden, OnCandidateWindowHidden)
    619     IPC_MESSAGE_HANDLER(ViewMsg_Repaint, OnRepaint)
    620     IPC_MESSAGE_HANDLER(ViewMsg_SetTextDirection, OnSetTextDirection)
    621     IPC_MESSAGE_HANDLER(ViewMsg_Move_ACK, OnRequestMoveAck)
    622     IPC_MESSAGE_HANDLER(ViewMsg_UpdateScreenRects, OnUpdateScreenRects)
    623 #if defined(OS_ANDROID)
    624     IPC_MESSAGE_HANDLER(ViewMsg_ShowImeIfNeeded, OnShowImeIfNeeded)
    625     IPC_MESSAGE_HANDLER(ViewMsg_ImeEventAck, OnImeEventAck)
    626 #endif
    627     IPC_MESSAGE_UNHANDLED(handled = false)
    628   IPC_END_MESSAGE_MAP()
    629   return handled;
    630 }
    631 
    632 bool RenderWidget::Send(IPC::Message* message) {
    633   // Don't send any messages after the browser has told us to close, and filter
    634   // most outgoing messages while swapped out.
    635   if ((is_swapped_out_ &&
    636        !SwappedOutMessages::CanSendWhileSwappedOut(message)) ||
    637       closing_) {
    638     delete message;
    639     return false;
    640   }
    641 
    642   // If given a messsage without a routing ID, then assign our routing ID.
    643   if (message->routing_id() == MSG_ROUTING_NONE)
    644     message->set_routing_id(routing_id_);
    645 
    646   return RenderThread::Get()->Send(message);
    647 }
    648 
    649 void RenderWidget::Resize(const gfx::Size& new_size,
    650                           const gfx::Size& physical_backing_size,
    651                           float top_controls_layout_height,
    652                           const gfx::Size& visible_viewport_size,
    653                           const gfx::Rect& resizer_rect,
    654                           bool is_fullscreen,
    655                           ResizeAck resize_ack) {
    656   if (resizing_mode_selector_->NeverUsesSynchronousResize()) {
    657     // A resize ack shouldn't be requested if we have not ACK'd the previous
    658     // one.
    659     DCHECK(resize_ack != SEND_RESIZE_ACK || !next_paint_is_resize_ack());
    660     DCHECK(resize_ack == SEND_RESIZE_ACK || resize_ack == NO_RESIZE_ACK);
    661   }
    662 
    663   // Ignore this during shutdown.
    664   if (!webwidget_)
    665     return;
    666 
    667   if (compositor_) {
    668     compositor_->setViewportSize(new_size, physical_backing_size);
    669     compositor_->SetTopControlsLayoutHeight(top_controls_layout_height);
    670   }
    671 
    672   physical_backing_size_ = physical_backing_size;
    673   top_controls_layout_height_ = top_controls_layout_height;
    674   visible_viewport_size_ = visible_viewport_size;
    675   resizer_rect_ = resizer_rect;
    676 
    677   // NOTE: We may have entered fullscreen mode without changing our size.
    678   bool fullscreen_change = is_fullscreen_ != is_fullscreen;
    679   if (fullscreen_change)
    680     WillToggleFullscreen();
    681   is_fullscreen_ = is_fullscreen;
    682 
    683   if (size_ != new_size) {
    684     size_ = new_size;
    685 
    686     // When resizing, we want to wait to paint before ACK'ing the resize.  This
    687     // ensures that we only resize as fast as we can paint.  We only need to
    688     // send an ACK if we are resized to a non-empty rect.
    689     webwidget_->resize(new_size);
    690   } else if (!resizing_mode_selector_->is_synchronous_mode()) {
    691     resize_ack = NO_RESIZE_ACK;
    692   }
    693 
    694   webwidget()->resizePinchViewport(gfx::Size(
    695       visible_viewport_size.width(),
    696       visible_viewport_size.height()));
    697 
    698   if (new_size.IsEmpty() || physical_backing_size.IsEmpty()) {
    699     // For empty size or empty physical_backing_size, there is no next paint
    700     // (along with which to send the ack) until they are set to non-empty.
    701     resize_ack = NO_RESIZE_ACK;
    702   }
    703 
    704   // Send the Resize_ACK flag once we paint again if requested.
    705   if (resize_ack == SEND_RESIZE_ACK)
    706     set_next_paint_is_resize_ack();
    707 
    708   if (fullscreen_change)
    709     DidToggleFullscreen();
    710 
    711   // If a resize ack is requested and it isn't set-up, then no more resizes will
    712   // come in and in general things will go wrong.
    713   DCHECK(resize_ack != SEND_RESIZE_ACK || next_paint_is_resize_ack());
    714 }
    715 
    716 void RenderWidget::ResizeSynchronously(const gfx::Rect& new_position) {
    717   Resize(new_position.size(),
    718          new_position.size(),
    719          top_controls_layout_height_,
    720          visible_viewport_size_,
    721          gfx::Rect(),
    722          is_fullscreen_,
    723          NO_RESIZE_ACK);
    724   view_screen_rect_ = new_position;
    725   window_screen_rect_ = new_position;
    726   if (!did_show_)
    727     initial_pos_ = new_position;
    728 }
    729 
    730 void RenderWidget::OnClose() {
    731   if (closing_)
    732     return;
    733   closing_ = true;
    734 
    735   // Browser correspondence is no longer needed at this point.
    736   if (routing_id_ != MSG_ROUTING_NONE) {
    737     if (RenderThreadImpl::current())
    738       RenderThreadImpl::current()->WidgetDestroyed();
    739     RenderThread::Get()->RemoveRoute(routing_id_);
    740     SetHidden(false);
    741   }
    742 
    743   // If there is a Send call on the stack, then it could be dangerous to close
    744   // now.  Post a task that only gets invoked when there are no nested message
    745   // loops.
    746   base::MessageLoop::current()->PostNonNestableTask(
    747       FROM_HERE, base::Bind(&RenderWidget::Close, this));
    748 
    749   // Balances the AddRef taken when we called AddRoute.
    750   Release();
    751 }
    752 
    753 // Got a response from the browser after the renderer decided to create a new
    754 // view.
    755 void RenderWidget::OnCreatingNewAck() {
    756   DCHECK(routing_id_ != MSG_ROUTING_NONE);
    757 
    758   CompleteInit();
    759 }
    760 
    761 void RenderWidget::OnResize(const ViewMsg_Resize_Params& params) {
    762   if (resizing_mode_selector_->ShouldAbortOnResize(this, params))
    763     return;
    764 
    765   if (screen_metrics_emulator_) {
    766     screen_metrics_emulator_->OnResizeMessage(params);
    767     return;
    768   }
    769 
    770   bool orientation_changed =
    771       screen_info_.orientationAngle != params.screen_info.orientationAngle;
    772 
    773   screen_info_ = params.screen_info;
    774   SetDeviceScaleFactor(screen_info_.deviceScaleFactor);
    775   Resize(params.new_size, params.physical_backing_size,
    776          params.top_controls_layout_height,
    777          params.visible_viewport_size, params.resizer_rect,
    778          params.is_fullscreen, SEND_RESIZE_ACK);
    779 
    780   if (orientation_changed)
    781     OnOrientationChange();
    782 }
    783 
    784 void RenderWidget::OnChangeResizeRect(const gfx::Rect& resizer_rect) {
    785   if (resizer_rect_ == resizer_rect)
    786     return;
    787   resizer_rect_ = resizer_rect;
    788   if (webwidget_)
    789     webwidget_->didChangeWindowResizerRect();
    790 }
    791 
    792 void RenderWidget::OnWasHidden() {
    793   TRACE_EVENT0("renderer", "RenderWidget::OnWasHidden");
    794   // Go into a mode where we stop generating paint and scrolling events.
    795   SetHidden(true);
    796   FOR_EACH_OBSERVER(RenderFrameImpl, render_frames_,
    797                     WasHidden());
    798 }
    799 
    800 void RenderWidget::OnWasShown(bool needs_repainting,
    801                               const ui::LatencyInfo& latency_info) {
    802   TRACE_EVENT0("renderer", "RenderWidget::OnWasShown");
    803   // During shutdown we can just ignore this message.
    804   if (!webwidget_)
    805     return;
    806 
    807   // See OnWasHidden
    808   SetHidden(false);
    809   FOR_EACH_OBSERVER(RenderFrameImpl, render_frames_,
    810                     WasShown());
    811 
    812   if (!needs_repainting)
    813     return;
    814 
    815   // Generate a full repaint.
    816   if (compositor_) {
    817     ui::LatencyInfo swap_latency_info(latency_info);
    818     scoped_ptr<cc::SwapPromiseMonitor> latency_info_swap_promise_monitor(
    819         compositor_->CreateLatencyInfoSwapPromiseMonitor(&swap_latency_info));
    820     compositor_->SetNeedsForcedRedraw();
    821   }
    822   scheduleComposite();
    823 }
    824 
    825 void RenderWidget::OnRequestMoveAck() {
    826   DCHECK(pending_window_rect_count_);
    827   pending_window_rect_count_--;
    828 }
    829 
    830 GURL RenderWidget::GetURLForGraphicsContext3D() {
    831   return GURL();
    832 }
    833 
    834 scoped_ptr<cc::OutputSurface> RenderWidget::CreateOutputSurface(bool fallback) {
    835   // For widgets that are never visible, we don't start the compositor, so we
    836   // never get a request for a cc::OutputSurface.
    837   DCHECK(!never_visible_);
    838 
    839 #if defined(OS_ANDROID)
    840   if (SynchronousCompositorFactory* factory =
    841       SynchronousCompositorFactory::GetInstance()) {
    842     return factory->CreateOutputSurface(routing_id(),
    843                                         frame_swap_message_queue_);
    844   }
    845 #endif
    846 
    847   const CommandLine& command_line = *CommandLine::ForCurrentProcess();
    848   bool use_software = fallback;
    849   if (command_line.HasSwitch(switches::kDisableGpuCompositing))
    850     use_software = true;
    851 
    852   scoped_refptr<ContextProviderCommandBuffer> context_provider;
    853   if (!use_software) {
    854     context_provider = ContextProviderCommandBuffer::Create(
    855         CreateGraphicsContext3D(), "RenderCompositor");
    856     if (!context_provider.get()) {
    857       // Cause the compositor to wait and try again.
    858       return scoped_ptr<cc::OutputSurface>();
    859     }
    860   }
    861 
    862   uint32 output_surface_id = next_output_surface_id_++;
    863   if (command_line.HasSwitch(switches::kEnableDelegatedRenderer)) {
    864     DCHECK(IsThreadedCompositingEnabled());
    865     return scoped_ptr<cc::OutputSurface>(
    866         new DelegatedCompositorOutputSurface(routing_id(),
    867                                              output_surface_id,
    868                                              context_provider,
    869                                              frame_swap_message_queue_));
    870   }
    871   if (!context_provider.get()) {
    872     scoped_ptr<cc::SoftwareOutputDevice> software_device(
    873         new CompositorSoftwareOutputDevice());
    874 
    875     return scoped_ptr<cc::OutputSurface>(
    876         new CompositorOutputSurface(routing_id(),
    877                                     output_surface_id,
    878                                     NULL,
    879                                     software_device.Pass(),
    880                                     frame_swap_message_queue_,
    881                                     true));
    882   }
    883 
    884   if (command_line.HasSwitch(cc::switches::kCompositeToMailbox)) {
    885     // Composite-to-mailbox is currently used for layout tests in order to cause
    886     // them to draw inside in the renderer to do the readback there. This should
    887     // no longer be the case when crbug.com/311404 is fixed.
    888     DCHECK(IsThreadedCompositingEnabled() ||
    889            RenderThreadImpl::current()->layout_test_mode());
    890     cc::ResourceFormat format = cc::RGBA_8888;
    891     if (base::SysInfo::IsLowEndDevice())
    892       format = cc::RGB_565;
    893     return scoped_ptr<cc::OutputSurface>(
    894         new MailboxOutputSurface(routing_id(),
    895                                  output_surface_id,
    896                                  context_provider,
    897                                  scoped_ptr<cc::SoftwareOutputDevice>(),
    898                                  frame_swap_message_queue_,
    899                                  format));
    900   }
    901   bool use_swap_compositor_frame_message = false;
    902   return scoped_ptr<cc::OutputSurface>(
    903       new CompositorOutputSurface(routing_id(),
    904                                   output_surface_id,
    905                                   context_provider,
    906                                   scoped_ptr<cc::SoftwareOutputDevice>(),
    907                                   frame_swap_message_queue_,
    908                                   use_swap_compositor_frame_message));
    909 }
    910 
    911 void RenderWidget::OnSwapBuffersAborted() {
    912   TRACE_EVENT0("renderer", "RenderWidget::OnSwapBuffersAborted");
    913   // Schedule another frame so the compositor learns about it.
    914   scheduleComposite();
    915 }
    916 
    917 void RenderWidget::OnSwapBuffersPosted() {
    918   TRACE_EVENT0("renderer", "RenderWidget::OnSwapBuffersPosted");
    919 }
    920 
    921 void RenderWidget::OnSwapBuffersComplete() {
    922   TRACE_EVENT0("renderer", "RenderWidget::OnSwapBuffersComplete");
    923 
    924   // Notify subclasses that composited rendering was flushed to the screen.
    925   DidFlushPaint();
    926 }
    927 
    928 void RenderWidget::OnHandleInputEvent(const blink::WebInputEvent* input_event,
    929                                       const ui::LatencyInfo& latency_info,
    930                                       bool is_keyboard_shortcut) {
    931   base::AutoReset<bool> handling_input_event_resetter(
    932       &handling_input_event_, true);
    933   if (!input_event)
    934     return;
    935   base::AutoReset<WebInputEvent::Type> handling_event_type_resetter(
    936       &handling_event_type_, input_event->type);
    937 #if defined(OS_ANDROID)
    938   // On Android, when a key is pressed or sent from the Keyboard using IME,
    939   // |AdapterInputConnection| generates input key events to make sure all JS
    940   // listeners that monitor KeyUp and KeyDown events receive the proper key
    941   // code. Since this input key event comes from IME, we need to set the
    942   // IME event guard here to make sure it does not interfere with other IME
    943   // events.
    944   scoped_ptr<ImeEventGuard> ime_event_guard_maybe;
    945   if (WebInputEvent::isKeyboardEventType(input_event->type)) {
    946     const WebKeyboardEvent& key_event =
    947         *static_cast<const WebKeyboardEvent*>(input_event);
    948     // Some keys are special and it's essential that no events get blocked.
    949     if (key_event.nativeKeyCode != AKEYCODE_TAB)
    950       ime_event_guard_maybe.reset(new ImeEventGuard(this));
    951   }
    952 #endif
    953 
    954   base::AutoReset<const ui::LatencyInfo*> resetter(&current_event_latency_info_,
    955                                                    &latency_info);
    956 
    957   base::TimeTicks start_time;
    958   if (base::TimeTicks::IsHighResNowFastAndReliable())
    959     start_time = base::TimeTicks::HighResNow();
    960 
    961   const char* const event_name =
    962       WebInputEventTraits::GetName(input_event->type);
    963   TRACE_EVENT1("renderer", "RenderWidget::OnHandleInputEvent",
    964                "event", event_name);
    965   TRACE_EVENT_SYNTHETIC_DELAY_BEGIN("blink.HandleInputEvent");
    966   TRACE_EVENT_FLOW_STEP0(
    967       "input",
    968       "LatencyInfo.Flow",
    969       TRACE_ID_DONT_MANGLE(latency_info.trace_id),
    970       "HanldeInputEventMain");
    971 
    972   scoped_ptr<cc::SwapPromiseMonitor> latency_info_swap_promise_monitor;
    973   ui::LatencyInfo swap_latency_info(latency_info);
    974   if (compositor_) {
    975     latency_info_swap_promise_monitor =
    976         compositor_->CreateLatencyInfoSwapPromiseMonitor(&swap_latency_info)
    977             .Pass();
    978   }
    979 
    980   if (base::TimeTicks::IsHighResNowFastAndReliable()) {
    981     // If we don't have a high res timer, these metrics won't be accurate enough
    982     // to be worth collecting. Note that this does introduce some sampling bias.
    983 
    984     base::TimeDelta now = base::TimeDelta::FromInternalValue(
    985         base::TimeTicks::HighResNow().ToInternalValue());
    986 
    987     int64 delta =
    988         static_cast<int64>((now.InSecondsF() - input_event->timeStampSeconds) *
    989                            base::Time::kMicrosecondsPerSecond);
    990 
    991     UMA_HISTOGRAM_CUSTOM_COUNTS(
    992         "Event.AggregatedLatency.Renderer2", delta, 1, 10000000, 100);
    993     base::HistogramBase* counter_for_type = base::Histogram::FactoryGet(
    994         base::StringPrintf("Event.Latency.Renderer2.%s", event_name),
    995         1,
    996         10000000,
    997         100,
    998         base::HistogramBase::kUmaTargetedHistogramFlag);
    999     counter_for_type->Add(delta);
   1000   }
   1001 
   1002   bool prevent_default = false;
   1003   if (WebInputEvent::isMouseEventType(input_event->type)) {
   1004     const WebMouseEvent& mouse_event =
   1005         *static_cast<const WebMouseEvent*>(input_event);
   1006     TRACE_EVENT2("renderer", "HandleMouseMove",
   1007                  "x", mouse_event.x, "y", mouse_event.y);
   1008     context_menu_source_type_ = ui::MENU_SOURCE_MOUSE;
   1009     prevent_default = WillHandleMouseEvent(mouse_event);
   1010   }
   1011 
   1012   if (WebInputEvent::isKeyboardEventType(input_event->type)) {
   1013     context_menu_source_type_ = ui::MENU_SOURCE_KEYBOARD;
   1014 #if defined(OS_ANDROID)
   1015     // The DPAD_CENTER key on Android has a dual semantic: (1) in the general
   1016     // case it should behave like a select key (i.e. causing a click if a button
   1017     // is focused). However, if a text field is focused (2), its intended
   1018     // behavior is to just show the IME and don't propagate the key.
   1019     // A typical use case is a web form: the DPAD_CENTER should bring up the IME
   1020     // when clicked on an input text field and cause the form submit if clicked
   1021     // when the submit button is focused, but not vice-versa.
   1022     // The UI layer takes care of translating DPAD_CENTER into a RETURN key,
   1023     // but at this point we have to swallow the event for the scenario (2).
   1024     const WebKeyboardEvent& key_event =
   1025         *static_cast<const WebKeyboardEvent*>(input_event);
   1026     if (key_event.nativeKeyCode == AKEYCODE_DPAD_CENTER &&
   1027         GetTextInputType() != ui::TEXT_INPUT_TYPE_NONE) {
   1028       OnShowImeIfNeeded();
   1029       prevent_default = true;
   1030     }
   1031 #endif
   1032   }
   1033 
   1034   if (WebInputEvent::isGestureEventType(input_event->type)) {
   1035     const WebGestureEvent& gesture_event =
   1036         *static_cast<const WebGestureEvent*>(input_event);
   1037     context_menu_source_type_ = ui::MENU_SOURCE_TOUCH;
   1038     prevent_default = prevent_default || WillHandleGestureEvent(gesture_event);
   1039   }
   1040 
   1041   bool processed = prevent_default;
   1042   if (input_event->type != WebInputEvent::Char || !suppress_next_char_events_) {
   1043     suppress_next_char_events_ = false;
   1044     if (!processed && webwidget_)
   1045       processed = webwidget_->handleInputEvent(*input_event);
   1046   }
   1047 
   1048   // If this RawKeyDown event corresponds to a browser keyboard shortcut and
   1049   // it's not processed by webkit, then we need to suppress the upcoming Char
   1050   // events.
   1051   if (!processed && is_keyboard_shortcut)
   1052     suppress_next_char_events_ = true;
   1053 
   1054   InputEventAckState ack_result = processed ?
   1055       INPUT_EVENT_ACK_STATE_CONSUMED : INPUT_EVENT_ACK_STATE_NOT_CONSUMED;
   1056   if (!processed &&  input_event->type == WebInputEvent::TouchStart) {
   1057     const WebTouchEvent& touch_event =
   1058         *static_cast<const WebTouchEvent*>(input_event);
   1059     // Hit-test for all the pressed touch points. If there is a touch-handler
   1060     // for any of the touch points, then the renderer should continue to receive
   1061     // touch events.
   1062     ack_result = INPUT_EVENT_ACK_STATE_NO_CONSUMER_EXISTS;
   1063     for (size_t i = 0; i < touch_event.touchesLength; ++i) {
   1064       if (touch_event.touches[i].state == WebTouchPoint::StatePressed &&
   1065           HasTouchEventHandlersAt(
   1066               gfx::ToFlooredPoint(touch_event.touches[i].position))) {
   1067         ack_result = INPUT_EVENT_ACK_STATE_NOT_CONSUMED;
   1068         break;
   1069       }
   1070     }
   1071   }
   1072 
   1073   bool event_type_can_be_rate_limited =
   1074       input_event->type == WebInputEvent::MouseMove ||
   1075       input_event->type == WebInputEvent::MouseWheel;
   1076 
   1077   bool frame_pending = compositor_ && compositor_->BeginMainFrameRequested();
   1078 
   1079   // If we don't have a fast and accurate HighResNow, we assume the input
   1080   // handlers are heavy and rate limit them.
   1081   bool rate_limiting_wanted = true;
   1082   if (base::TimeTicks::IsHighResNowFastAndReliable()) {
   1083       base::TimeTicks end_time = base::TimeTicks::HighResNow();
   1084       total_input_handling_time_this_frame_ += (end_time - start_time);
   1085       rate_limiting_wanted =
   1086           total_input_handling_time_this_frame_.InMicroseconds() >
   1087           kInputHandlingTimeThrottlingThresholdMicroseconds;
   1088   }
   1089 
   1090   TRACE_EVENT_SYNTHETIC_DELAY_END("blink.HandleInputEvent");
   1091 
   1092   // Note that we can't use handling_event_type_ here since it will be overriden
   1093   // by reentrant calls for events after the paused one.
   1094   bool no_ack = ignore_ack_for_mouse_move_from_debugger_ &&
   1095       input_event->type == WebInputEvent::MouseMove;
   1096   if (!WebInputEventTraits::IgnoresAckDisposition(*input_event) && !no_ack) {
   1097     InputHostMsg_HandleInputEvent_ACK_Params ack;
   1098     ack.type = input_event->type;
   1099     ack.state = ack_result;
   1100     ack.latency = swap_latency_info;
   1101     scoped_ptr<IPC::Message> response(
   1102         new InputHostMsg_HandleInputEvent_ACK(routing_id_, ack));
   1103     if (rate_limiting_wanted && event_type_can_be_rate_limited &&
   1104         frame_pending && !is_hidden_) {
   1105       // We want to rate limit the input events in this case, so we'll wait for
   1106       // painting to finish before ACKing this message.
   1107       TRACE_EVENT_INSTANT0("renderer",
   1108         "RenderWidget::OnHandleInputEvent ack throttled",
   1109         TRACE_EVENT_SCOPE_THREAD);
   1110       if (pending_input_event_ack_) {
   1111         // As two different kinds of events could cause us to postpone an ack
   1112         // we send it now, if we have one pending. The Browser should never
   1113         // send us the same kind of event we are delaying the ack for.
   1114         Send(pending_input_event_ack_.release());
   1115       }
   1116       pending_input_event_ack_ = response.Pass();
   1117       if (compositor_)
   1118         compositor_->NotifyInputThrottledUntilCommit();
   1119     } else {
   1120       Send(response.release());
   1121     }
   1122   }
   1123   if (input_event->type == WebInputEvent::MouseMove)
   1124     ignore_ack_for_mouse_move_from_debugger_ = false;
   1125 
   1126 #if defined(OS_ANDROID)
   1127   // Allow the IME to be shown when the focus changes as a consequence
   1128   // of a processed touch end event.
   1129   if (input_event->type == WebInputEvent::TouchEnd && processed)
   1130     UpdateTextInputState(SHOW_IME_IF_NEEDED, FROM_NON_IME);
   1131 #elif defined(USE_AURA)
   1132   // Show the virtual keyboard if enabled and a user gesture triggers a focus
   1133   // change.
   1134   if (processed && (input_event->type == WebInputEvent::TouchEnd ||
   1135       input_event->type == WebInputEvent::MouseUp))
   1136     UpdateTextInputState(SHOW_IME_IF_NEEDED, FROM_IME);
   1137 #endif
   1138 
   1139   if (!prevent_default) {
   1140     if (WebInputEvent::isKeyboardEventType(input_event->type))
   1141       DidHandleKeyEvent();
   1142     if (WebInputEvent::isMouseEventType(input_event->type))
   1143       DidHandleMouseEvent(*(static_cast<const WebMouseEvent*>(input_event)));
   1144     if (WebInputEvent::isTouchEventType(input_event->type))
   1145       DidHandleTouchEvent(*(static_cast<const WebTouchEvent*>(input_event)));
   1146   }
   1147 }
   1148 
   1149 void RenderWidget::OnCursorVisibilityChange(bool is_visible) {
   1150   if (webwidget_)
   1151     webwidget_->setCursorVisibilityState(is_visible);
   1152 }
   1153 
   1154 void RenderWidget::OnMouseCaptureLost() {
   1155   if (webwidget_)
   1156     webwidget_->mouseCaptureLost();
   1157 }
   1158 
   1159 void RenderWidget::OnSetFocus(bool enable) {
   1160   has_focus_ = enable;
   1161   if (webwidget_)
   1162     webwidget_->setFocus(enable);
   1163 }
   1164 
   1165 void RenderWidget::ClearFocus() {
   1166   // We may have got the focus from the browser before this gets processed, in
   1167   // which case we do not want to unfocus ourself.
   1168   if (!has_focus_ && webwidget_)
   1169     webwidget_->setFocus(false);
   1170 }
   1171 
   1172 void RenderWidget::FlushPendingInputEventAck() {
   1173   if (pending_input_event_ack_)
   1174     Send(pending_input_event_ack_.release());
   1175   total_input_handling_time_this_frame_ = base::TimeDelta();
   1176 }
   1177 
   1178 ///////////////////////////////////////////////////////////////////////////////
   1179 // WebWidgetClient
   1180 
   1181 void RenderWidget::didAutoResize(const WebSize& new_size) {
   1182   if (size_.width() != new_size.width || size_.height() != new_size.height) {
   1183     size_ = new_size;
   1184 
   1185     if (resizing_mode_selector_->is_synchronous_mode()) {
   1186       WebRect new_pos(rootWindowRect().x,
   1187                       rootWindowRect().y,
   1188                       new_size.width,
   1189                       new_size.height);
   1190       view_screen_rect_ = new_pos;
   1191       window_screen_rect_ = new_pos;
   1192     }
   1193 
   1194     AutoResizeCompositor();
   1195 
   1196     if (!resizing_mode_selector_->is_synchronous_mode())
   1197       need_update_rect_for_auto_resize_ = true;
   1198   }
   1199 }
   1200 
   1201 void RenderWidget::AutoResizeCompositor()  {
   1202   physical_backing_size_ = gfx::ToCeiledSize(gfx::ScaleSize(size_,
   1203       device_scale_factor_));
   1204   if (compositor_)
   1205     compositor_->setViewportSize(size_, physical_backing_size_);
   1206 }
   1207 
   1208 void RenderWidget::initializeLayerTreeView() {
   1209   DCHECK(!host_closing_);
   1210 
   1211   compositor_ =
   1212       RenderWidgetCompositor::Create(this, IsThreadedCompositingEnabled());
   1213   compositor_->setViewportSize(size_, physical_backing_size_);
   1214   if (init_complete_)
   1215     StartCompositor();
   1216 }
   1217 
   1218 void RenderWidget::DestroyLayerTreeView() {
   1219   // Always send this notification to prevent new layer tree views from
   1220   // being created, even if one hasn't been created yet.
   1221   if (webwidget_)
   1222     webwidget_->willCloseLayerTreeView();
   1223   compositor_.reset();
   1224 }
   1225 
   1226 blink::WebLayerTreeView* RenderWidget::layerTreeView() {
   1227   return compositor_.get();
   1228 }
   1229 
   1230 void RenderWidget::willBeginCompositorFrame() {
   1231   TRACE_EVENT0("gpu", "RenderWidget::willBeginCompositorFrame");
   1232 
   1233   // The following two can result in further layout and possibly
   1234   // enable GPU acceleration so they need to be called before any painting
   1235   // is done.
   1236   UpdateTextInputType();
   1237 #if defined(OS_ANDROID)
   1238   UpdateTextInputState(NO_SHOW_IME, FROM_NON_IME);
   1239 #endif
   1240   UpdateSelectionBounds();
   1241 }
   1242 
   1243 void RenderWidget::didBecomeReadyForAdditionalInput() {
   1244   TRACE_EVENT0("renderer", "RenderWidget::didBecomeReadyForAdditionalInput");
   1245   FlushPendingInputEventAck();
   1246 }
   1247 
   1248 void RenderWidget::DidCommitCompositorFrame() {
   1249   FOR_EACH_OBSERVER(RenderFrameProxy, render_frame_proxies_,
   1250                     DidCommitCompositorFrame());
   1251 #if defined(VIDEO_HOLE)
   1252   FOR_EACH_OBSERVER(RenderFrameImpl, video_hole_frames_,
   1253                     DidCommitCompositorFrame());
   1254 #endif  // defined(VIDEO_HOLE)
   1255 }
   1256 
   1257 // static
   1258 scoped_ptr<cc::SwapPromise> RenderWidget::QueueMessageImpl(
   1259     IPC::Message* msg,
   1260     MessageDeliveryPolicy policy,
   1261     FrameSwapMessageQueue* frame_swap_message_queue,
   1262     scoped_refptr<IPC::SyncMessageFilter> sync_message_filter,
   1263     bool commit_requested,
   1264     int source_frame_number) {
   1265   if (policy == MESSAGE_DELIVERY_POLICY_WITH_VISUAL_STATE &&
   1266       // No need for lock: this gets changed only on this thread.
   1267       !commit_requested &&
   1268       // No need for lock: Messages are only enqueued from this thread, if we
   1269       // don't have any now, no other thread will add any.
   1270       frame_swap_message_queue->Empty()) {
   1271     sync_message_filter->Send(msg);
   1272     return scoped_ptr<cc::SwapPromise>();
   1273   }
   1274 
   1275   bool first_message_for_frame = false;
   1276   frame_swap_message_queue->QueueMessageForFrame(policy,
   1277                                                  source_frame_number,
   1278                                                  make_scoped_ptr(msg),
   1279                                                  &first_message_for_frame);
   1280   if (first_message_for_frame) {
   1281     scoped_ptr<cc::SwapPromise> promise(new QueueMessageSwapPromise(
   1282         sync_message_filter, frame_swap_message_queue, source_frame_number));
   1283     return promise.PassAs<cc::SwapPromise>();
   1284   }
   1285   return scoped_ptr<cc::SwapPromise>();
   1286 }
   1287 
   1288 void RenderWidget::QueueMessage(IPC::Message* msg,
   1289                                 MessageDeliveryPolicy policy) {
   1290   // RenderThreadImpl::current() is NULL in some tests.
   1291   if (!compositor_ || !RenderThreadImpl::current()) {
   1292     Send(msg);
   1293     return;
   1294   }
   1295 
   1296   scoped_ptr<cc::SwapPromise> swap_promise =
   1297       QueueMessageImpl(msg,
   1298                        policy,
   1299                        frame_swap_message_queue_.get(),
   1300                        RenderThreadImpl::current()->sync_message_filter(),
   1301                        compositor_->commitRequested(),
   1302                        compositor_->GetSourceFrameNumber());
   1303 
   1304   if (swap_promise) {
   1305     compositor_->QueueSwapPromise(swap_promise.Pass());
   1306     compositor_->SetNeedsCommit();
   1307   }
   1308 }
   1309 
   1310 void RenderWidget::didCommitAndDrawCompositorFrame() {
   1311   // NOTE: Tests may break if this event is renamed or moved. See
   1312   // tab_capture_performancetest.cc.
   1313   TRACE_EVENT0("gpu", "RenderWidget::didCommitAndDrawCompositorFrame");
   1314   // Notify subclasses that we initiated the paint operation.
   1315   DidInitiatePaint();
   1316 }
   1317 
   1318 void RenderWidget::didCompleteSwapBuffers() {
   1319   TRACE_EVENT0("renderer", "RenderWidget::didCompleteSwapBuffers");
   1320 
   1321   // Notify subclasses threaded composited rendering was flushed to the screen.
   1322   DidFlushPaint();
   1323 
   1324   if (!next_paint_flags_ &&
   1325       !need_update_rect_for_auto_resize_ &&
   1326       !plugin_window_moves_.size()) {
   1327     return;
   1328   }
   1329 
   1330   ViewHostMsg_UpdateRect_Params params;
   1331   params.view_size = size_;
   1332   params.plugin_window_moves.swap(plugin_window_moves_);
   1333   params.flags = next_paint_flags_;
   1334 
   1335   Send(new ViewHostMsg_UpdateRect(routing_id_, params));
   1336   next_paint_flags_ = 0;
   1337   need_update_rect_for_auto_resize_ = false;
   1338 }
   1339 
   1340 void RenderWidget::scheduleComposite() {
   1341   RenderThreadImpl* render_thread = RenderThreadImpl::current();
   1342   // render_thread may be NULL in tests.
   1343   if (render_thread && render_thread->compositor_message_loop_proxy().get() &&
   1344       compositor_) {
   1345     compositor_->setNeedsAnimate();
   1346   }
   1347 }
   1348 
   1349 void RenderWidget::didChangeCursor(const WebCursorInfo& cursor_info) {
   1350   // TODO(darin): Eliminate this temporary.
   1351   WebCursor cursor;
   1352   InitializeCursorFromWebKitCursorInfo(&cursor, cursor_info);
   1353   // Only send a SetCursor message if we need to make a change.
   1354   if (!current_cursor_.IsEqual(cursor)) {
   1355     current_cursor_ = cursor;
   1356     Send(new ViewHostMsg_SetCursor(routing_id_, cursor));
   1357   }
   1358 }
   1359 
   1360 // We are supposed to get a single call to Show for a newly created RenderWidget
   1361 // that was created via RenderWidget::CreateWebView.  So, we wait until this
   1362 // point to dispatch the ShowWidget message.
   1363 //
   1364 // This method provides us with the information about how to display the newly
   1365 // created RenderWidget (i.e., as a blocked popup or as a new tab).
   1366 //
   1367 void RenderWidget::show(WebNavigationPolicy) {
   1368   DCHECK(!did_show_) << "received extraneous Show call";
   1369   DCHECK(routing_id_ != MSG_ROUTING_NONE);
   1370   DCHECK(opener_id_ != MSG_ROUTING_NONE);
   1371 
   1372   if (did_show_)
   1373     return;
   1374 
   1375   did_show_ = true;
   1376   // NOTE: initial_pos_ may still have its default values at this point, but
   1377   // that's okay.  It'll be ignored if as_popup is false, or the browser
   1378   // process will impose a default position otherwise.
   1379   Send(new ViewHostMsg_ShowWidget(opener_id_, routing_id_, initial_pos_));
   1380   SetPendingWindowRect(initial_pos_);
   1381 }
   1382 
   1383 void RenderWidget::didFocus() {
   1384 }
   1385 
   1386 void RenderWidget::didBlur() {
   1387 }
   1388 
   1389 void RenderWidget::DoDeferredClose() {
   1390   // No more compositing is possible.  This prevents shutdown races between
   1391   // previously posted CreateOutputSurface tasks and the host being unable to
   1392   // create them because the close message was handled.
   1393   DestroyLayerTreeView();
   1394   // Also prevent new compositors from being created.
   1395   host_closing_ = true;
   1396   Send(new ViewHostMsg_Close(routing_id_));
   1397 }
   1398 
   1399 void RenderWidget::closeWidgetSoon() {
   1400   if (is_swapped_out_) {
   1401     // This widget is currently swapped out, and the active widget is in a
   1402     // different process.  Have the browser route the close request to the
   1403     // active widget instead, so that the correct unload handlers are run.
   1404     Send(new ViewHostMsg_RouteCloseEvent(routing_id_));
   1405     return;
   1406   }
   1407 
   1408   // If a page calls window.close() twice, we'll end up here twice, but that's
   1409   // OK.  It is safe to send multiple Close messages.
   1410 
   1411   // Ask the RenderWidgetHost to initiate close.  We could be called from deep
   1412   // in Javascript.  If we ask the RendwerWidgetHost to close now, the window
   1413   // could be closed before the JS finishes executing.  So instead, post a
   1414   // message back to the message loop, which won't run until the JS is
   1415   // complete, and then the Close message can be sent.
   1416   base::MessageLoop::current()->PostNonNestableTask(
   1417       FROM_HERE, base::Bind(&RenderWidget::DoDeferredClose, this));
   1418 }
   1419 
   1420 void RenderWidget::QueueSyntheticGesture(
   1421     scoped_ptr<SyntheticGestureParams> gesture_params,
   1422     const SyntheticGestureCompletionCallback& callback) {
   1423   DCHECK(!callback.is_null());
   1424 
   1425   pending_synthetic_gesture_callbacks_.push(callback);
   1426 
   1427   SyntheticGesturePacket gesture_packet;
   1428   gesture_packet.set_gesture_params(gesture_params.Pass());
   1429 
   1430   Send(new InputHostMsg_QueueSyntheticGesture(routing_id_, gesture_packet));
   1431 }
   1432 
   1433 void RenderWidget::Close() {
   1434   screen_metrics_emulator_.reset();
   1435   DestroyLayerTreeView();
   1436   if (webwidget_) {
   1437     webwidget_->close();
   1438     webwidget_ = NULL;
   1439   }
   1440 }
   1441 
   1442 WebRect RenderWidget::windowRect() {
   1443   if (pending_window_rect_count_)
   1444     return pending_window_rect_;
   1445 
   1446   return view_screen_rect_;
   1447 }
   1448 
   1449 void RenderWidget::setToolTipText(const blink::WebString& text,
   1450                                   WebTextDirection hint) {
   1451   Send(new ViewHostMsg_SetTooltipText(routing_id_, text, hint));
   1452 }
   1453 
   1454 void RenderWidget::setWindowRect(const WebRect& rect) {
   1455   WebRect pos = rect;
   1456   if (popup_origin_scale_for_emulation_) {
   1457     float scale = popup_origin_scale_for_emulation_;
   1458     pos.x = popup_screen_origin_for_emulation_.x() +
   1459         (pos.x - popup_view_origin_for_emulation_.x()) * scale;
   1460     pos.y = popup_screen_origin_for_emulation_.y() +
   1461         (pos.y - popup_view_origin_for_emulation_.y()) * scale;
   1462   }
   1463 
   1464   if (!resizing_mode_selector_->is_synchronous_mode()) {
   1465     if (did_show_) {
   1466       Send(new ViewHostMsg_RequestMove(routing_id_, pos));
   1467       SetPendingWindowRect(pos);
   1468     } else {
   1469       initial_pos_ = pos;
   1470     }
   1471   } else {
   1472     ResizeSynchronously(pos);
   1473   }
   1474 }
   1475 
   1476 void RenderWidget::SetPendingWindowRect(const WebRect& rect) {
   1477   pending_window_rect_ = rect;
   1478   pending_window_rect_count_++;
   1479 }
   1480 
   1481 WebRect RenderWidget::rootWindowRect() {
   1482   if (pending_window_rect_count_) {
   1483     // NOTE(mbelshe): If there is a pending_window_rect_, then getting
   1484     // the RootWindowRect is probably going to return wrong results since the
   1485     // browser may not have processed the Move yet.  There isn't really anything
   1486     // good to do in this case, and it shouldn't happen - since this size is
   1487     // only really needed for windowToScreen, which is only used for Popups.
   1488     return pending_window_rect_;
   1489   }
   1490 
   1491   return window_screen_rect_;
   1492 }
   1493 
   1494 WebRect RenderWidget::windowResizerRect() {
   1495   return resizer_rect_;
   1496 }
   1497 
   1498 void RenderWidget::OnSetInputMethodActive(bool is_active) {
   1499   // To prevent this renderer process from sending unnecessary IPC messages to
   1500   // a browser process, we permit the renderer process to send IPC messages
   1501   // only during the input method attached to the browser process is active.
   1502   input_method_is_active_ = is_active;
   1503 }
   1504 
   1505 void RenderWidget::OnCandidateWindowShown() {
   1506   webwidget_->didShowCandidateWindow();
   1507 }
   1508 
   1509 void RenderWidget::OnCandidateWindowUpdated() {
   1510   webwidget_->didUpdateCandidateWindow();
   1511 }
   1512 
   1513 void RenderWidget::OnCandidateWindowHidden() {
   1514   webwidget_->didHideCandidateWindow();
   1515 }
   1516 
   1517 void RenderWidget::OnImeSetComposition(
   1518     const base::string16& text,
   1519     const std::vector<WebCompositionUnderline>& underlines,
   1520     int selection_start, int selection_end) {
   1521   if (!ShouldHandleImeEvent())
   1522     return;
   1523   ImeEventGuard guard(this);
   1524   if (!webwidget_->setComposition(
   1525       text, WebVector<WebCompositionUnderline>(underlines),
   1526       selection_start, selection_end)) {
   1527     // If we failed to set the composition text, then we need to let the browser
   1528     // process to cancel the input method's ongoing composition session, to make
   1529     // sure we are in a consistent state.
   1530     Send(new InputHostMsg_ImeCancelComposition(routing_id()));
   1531   }
   1532 #if defined(OS_MACOSX) || defined(USE_AURA)
   1533   UpdateCompositionInfo(true);
   1534 #endif
   1535 }
   1536 
   1537 void RenderWidget::OnImeConfirmComposition(const base::string16& text,
   1538                                            const gfx::Range& replacement_range,
   1539                                            bool keep_selection) {
   1540   if (!ShouldHandleImeEvent())
   1541     return;
   1542   ImeEventGuard guard(this);
   1543   handling_input_event_ = true;
   1544   if (text.length())
   1545     webwidget_->confirmComposition(text);
   1546   else if (keep_selection)
   1547     webwidget_->confirmComposition(WebWidget::KeepSelection);
   1548   else
   1549     webwidget_->confirmComposition(WebWidget::DoNotKeepSelection);
   1550   handling_input_event_ = false;
   1551 #if defined(OS_MACOSX) || defined(USE_AURA)
   1552   UpdateCompositionInfo(true);
   1553 #endif
   1554 }
   1555 
   1556 void RenderWidget::OnRepaint(gfx::Size size_to_paint) {
   1557   // During shutdown we can just ignore this message.
   1558   if (!webwidget_)
   1559     return;
   1560 
   1561   // Even if the browser provides an empty damage rect, it's still expecting to
   1562   // receive a repaint ack so just damage the entire widget bounds.
   1563   if (size_to_paint.IsEmpty()) {
   1564     size_to_paint = size_;
   1565   }
   1566 
   1567   set_next_paint_is_repaint_ack();
   1568   if (compositor_)
   1569     compositor_->SetNeedsRedrawRect(gfx::Rect(size_to_paint));
   1570 }
   1571 
   1572 void RenderWidget::OnSyntheticGestureCompleted() {
   1573   DCHECK(!pending_synthetic_gesture_callbacks_.empty());
   1574 
   1575   pending_synthetic_gesture_callbacks_.front().Run();
   1576   pending_synthetic_gesture_callbacks_.pop();
   1577 }
   1578 
   1579 void RenderWidget::OnSetTextDirection(WebTextDirection direction) {
   1580   if (!webwidget_)
   1581     return;
   1582   webwidget_->setTextDirection(direction);
   1583 }
   1584 
   1585 void RenderWidget::OnUpdateScreenRects(const gfx::Rect& view_screen_rect,
   1586                                        const gfx::Rect& window_screen_rect) {
   1587   if (screen_metrics_emulator_) {
   1588     screen_metrics_emulator_->OnUpdateScreenRectsMessage(
   1589         view_screen_rect, window_screen_rect);
   1590   } else {
   1591     view_screen_rect_ = view_screen_rect;
   1592     window_screen_rect_ = window_screen_rect;
   1593   }
   1594   Send(new ViewHostMsg_UpdateScreenRects_ACK(routing_id()));
   1595 }
   1596 
   1597 void RenderWidget::showImeIfNeeded() {
   1598   OnShowImeIfNeeded();
   1599 }
   1600 
   1601 void RenderWidget::OnShowImeIfNeeded() {
   1602 #if defined(OS_ANDROID) || defined(USE_AURA)
   1603   UpdateTextInputState(SHOW_IME_IF_NEEDED, FROM_NON_IME);
   1604 #endif
   1605 }
   1606 
   1607 #if defined(OS_ANDROID)
   1608 void RenderWidget::IncrementOutstandingImeEventAcks() {
   1609   ++outstanding_ime_acks_;
   1610 }
   1611 
   1612 void RenderWidget::OnImeEventAck() {
   1613   --outstanding_ime_acks_;
   1614   DCHECK(outstanding_ime_acks_ >= 0);
   1615 }
   1616 #endif
   1617 
   1618 bool RenderWidget::ShouldHandleImeEvent() {
   1619 #if defined(OS_ANDROID)
   1620   return !!webwidget_ && outstanding_ime_acks_ == 0;
   1621 #else
   1622   return !!webwidget_;
   1623 #endif
   1624 }
   1625 
   1626 bool RenderWidget::SendAckForMouseMoveFromDebugger() {
   1627   if (handling_event_type_ == WebInputEvent::MouseMove) {
   1628     // If we pause multiple times during a single mouse move event, we should
   1629     // only send ACK once.
   1630     if (!ignore_ack_for_mouse_move_from_debugger_) {
   1631       InputHostMsg_HandleInputEvent_ACK_Params ack;
   1632       ack.type = handling_event_type_;
   1633       ack.state = INPUT_EVENT_ACK_STATE_CONSUMED;
   1634       Send(new InputHostMsg_HandleInputEvent_ACK(routing_id_, ack));
   1635     }
   1636     return true;
   1637   }
   1638   return false;
   1639 }
   1640 
   1641 void RenderWidget::IgnoreAckForMouseMoveFromDebugger() {
   1642   ignore_ack_for_mouse_move_from_debugger_ = true;
   1643 }
   1644 
   1645 void RenderWidget::SetDeviceScaleFactor(float device_scale_factor) {
   1646   if (device_scale_factor_ == device_scale_factor)
   1647     return;
   1648 
   1649   device_scale_factor_ = device_scale_factor;
   1650   scheduleComposite();
   1651 }
   1652 
   1653 bool RenderWidget::SetDeviceColorProfile(
   1654     const std::vector<char>& color_profile) {
   1655   if (device_color_profile_ == color_profile)
   1656     return false;
   1657 
   1658   device_color_profile_ = color_profile;
   1659   return true;
   1660 }
   1661 
   1662 void RenderWidget::ResetDeviceColorProfileForTesting() {
   1663   if (!device_color_profile_.empty())
   1664     device_color_profile_.clear();
   1665   device_color_profile_.push_back('0');
   1666 }
   1667 
   1668 void RenderWidget::OnOrientationChange() {
   1669 }
   1670 
   1671 gfx::Vector2d RenderWidget::GetScrollOffset() {
   1672   // Bare RenderWidgets don't support scroll offset.
   1673   return gfx::Vector2d();
   1674 }
   1675 
   1676 void RenderWidget::SetHidden(bool hidden) {
   1677   if (is_hidden_ == hidden)
   1678     return;
   1679 
   1680   // The status has changed.  Tell the RenderThread about it.
   1681   is_hidden_ = hidden;
   1682   if (is_hidden_)
   1683     RenderThreadImpl::current()->WidgetHidden();
   1684   else
   1685     RenderThreadImpl::current()->WidgetRestored();
   1686 }
   1687 
   1688 void RenderWidget::WillToggleFullscreen() {
   1689   if (!webwidget_)
   1690     return;
   1691 
   1692   if (is_fullscreen_) {
   1693     webwidget_->willExitFullScreen();
   1694   } else {
   1695     webwidget_->willEnterFullScreen();
   1696   }
   1697 }
   1698 
   1699 void RenderWidget::DidToggleFullscreen() {
   1700   if (!webwidget_)
   1701     return;
   1702 
   1703   if (is_fullscreen_) {
   1704     webwidget_->didEnterFullScreen();
   1705   } else {
   1706     webwidget_->didExitFullScreen();
   1707   }
   1708 }
   1709 
   1710 bool RenderWidget::next_paint_is_resize_ack() const {
   1711   return ViewHostMsg_UpdateRect_Flags::is_resize_ack(next_paint_flags_);
   1712 }
   1713 
   1714 void RenderWidget::set_next_paint_is_resize_ack() {
   1715   next_paint_flags_ |= ViewHostMsg_UpdateRect_Flags::IS_RESIZE_ACK;
   1716 }
   1717 
   1718 void RenderWidget::set_next_paint_is_repaint_ack() {
   1719   next_paint_flags_ |= ViewHostMsg_UpdateRect_Flags::IS_REPAINT_ACK;
   1720 }
   1721 
   1722 static bool IsDateTimeInput(ui::TextInputType type) {
   1723   return type == ui::TEXT_INPUT_TYPE_DATE ||
   1724       type == ui::TEXT_INPUT_TYPE_DATE_TIME ||
   1725       type == ui::TEXT_INPUT_TYPE_DATE_TIME_LOCAL ||
   1726       type == ui::TEXT_INPUT_TYPE_MONTH ||
   1727       type == ui::TEXT_INPUT_TYPE_TIME ||
   1728       type == ui::TEXT_INPUT_TYPE_WEEK;
   1729 }
   1730 
   1731 
   1732 void RenderWidget::StartHandlingImeEvent() {
   1733   DCHECK(!handling_ime_event_);
   1734   handling_ime_event_ = true;
   1735 }
   1736 
   1737 void RenderWidget::FinishHandlingImeEvent() {
   1738   DCHECK(handling_ime_event_);
   1739   handling_ime_event_ = false;
   1740   // While handling an ime event, text input state and selection bounds updates
   1741   // are ignored. These must explicitly be updated once finished handling the
   1742   // ime event.
   1743   UpdateSelectionBounds();
   1744 #if defined(OS_ANDROID)
   1745   UpdateTextInputState(NO_SHOW_IME, FROM_IME);
   1746 #endif
   1747 }
   1748 
   1749 void RenderWidget::UpdateTextInputType() {
   1750   // On Windows, not only an IME but also an on-screen keyboard relies on the
   1751   // latest TextInputType to optimize its layout and functionality. Thus
   1752   // |input_method_is_active_| is no longer an appropriate condition to suppress
   1753   // TextInputTypeChanged IPC on Windows.
   1754   // TODO(yukawa, yoichio): Consider to stop checking |input_method_is_active_|
   1755   // on other platforms as well as Windows if the overhead is acceptable.
   1756 #if !defined(OS_WIN)
   1757   if (!input_method_is_active_)
   1758     return;
   1759 #endif
   1760 
   1761   ui::TextInputType new_type = GetTextInputType();
   1762   if (IsDateTimeInput(new_type))
   1763     return;  // Not considered as a text input field in WebKit/Chromium.
   1764 
   1765   bool new_can_compose_inline = CanComposeInline();
   1766 
   1767   blink::WebTextInputInfo new_info;
   1768   if (webwidget_)
   1769     new_info = webwidget_->textInputInfo();
   1770   const ui::TextInputMode new_mode = ConvertInputMode(new_info.inputMode);
   1771 
   1772   if (text_input_type_ != new_type
   1773       || can_compose_inline_ != new_can_compose_inline
   1774       || text_input_mode_ != new_mode) {
   1775     Send(new ViewHostMsg_TextInputTypeChanged(routing_id(),
   1776                                               new_type,
   1777                                               new_mode,
   1778                                               new_can_compose_inline));
   1779     text_input_type_ = new_type;
   1780     can_compose_inline_ = new_can_compose_inline;
   1781     text_input_mode_ = new_mode;
   1782   }
   1783 }
   1784 
   1785 #if defined(OS_ANDROID) || defined(USE_AURA)
   1786 void RenderWidget::UpdateTextInputState(ShowIme show_ime,
   1787                                         ChangeSource change_source) {
   1788   if (handling_ime_event_)
   1789     return;
   1790   if (show_ime == NO_SHOW_IME && !input_method_is_active_)
   1791     return;
   1792   ui::TextInputType new_type = GetTextInputType();
   1793   if (IsDateTimeInput(new_type))
   1794     return;  // Not considered as a text input field in WebKit/Chromium.
   1795 
   1796   blink::WebTextInputInfo new_info;
   1797   if (webwidget_)
   1798     new_info = webwidget_->textInputInfo();
   1799 
   1800   bool new_can_compose_inline = CanComposeInline();
   1801 
   1802   // Only sends text input params if they are changed or if the ime should be
   1803   // shown.
   1804   if (show_ime == SHOW_IME_IF_NEEDED ||
   1805       (text_input_type_ != new_type ||
   1806        text_input_info_ != new_info ||
   1807        can_compose_inline_ != new_can_compose_inline)
   1808 #if defined(OS_ANDROID)
   1809       || text_field_is_dirty_
   1810 #endif
   1811       ) {
   1812     ViewHostMsg_TextInputState_Params p;
   1813     p.type = new_type;
   1814     p.flags = new_info.flags;
   1815     p.value = new_info.value.utf8();
   1816     p.selection_start = new_info.selectionStart;
   1817     p.selection_end = new_info.selectionEnd;
   1818     p.composition_start = new_info.compositionStart;
   1819     p.composition_end = new_info.compositionEnd;
   1820     p.can_compose_inline = new_can_compose_inline;
   1821     p.show_ime_if_needed = (show_ime == SHOW_IME_IF_NEEDED);
   1822 #if defined(USE_AURA)
   1823     p.is_non_ime_change = true;
   1824 #endif
   1825 #if defined(OS_ANDROID)
   1826     p.is_non_ime_change = (change_source == FROM_NON_IME) ||
   1827                          text_field_is_dirty_;
   1828     if (p.is_non_ime_change)
   1829       IncrementOutstandingImeEventAcks();
   1830     text_field_is_dirty_ = false;
   1831 #endif
   1832 #if defined(USE_AURA)
   1833     Send(new ViewHostMsg_TextInputTypeChanged(routing_id(),
   1834                                               new_type,
   1835                                               text_input_mode_,
   1836                                               new_can_compose_inline));
   1837 #endif
   1838     Send(new ViewHostMsg_TextInputStateChanged(routing_id(), p));
   1839 
   1840     text_input_info_ = new_info;
   1841     text_input_type_ = new_type;
   1842     can_compose_inline_ = new_can_compose_inline;
   1843   }
   1844 }
   1845 #endif
   1846 
   1847 void RenderWidget::GetSelectionBounds(gfx::Rect* focus, gfx::Rect* anchor) {
   1848   WebRect focus_webrect;
   1849   WebRect anchor_webrect;
   1850   webwidget_->selectionBounds(focus_webrect, anchor_webrect);
   1851   *focus = focus_webrect;
   1852   *anchor = anchor_webrect;
   1853 }
   1854 
   1855 void RenderWidget::UpdateSelectionBounds() {
   1856   if (!webwidget_)
   1857     return;
   1858   if (handling_ime_event_)
   1859     return;
   1860 
   1861   // With composited selection updates, the selection bounds will be reported
   1862   // directly by the compositor, in which case explicit IPC selection
   1863   // notifications should be suppressed.
   1864   if (!blink::WebRuntimeFeatures::isCompositedSelectionUpdateEnabled()) {
   1865     ViewHostMsg_SelectionBounds_Params params;
   1866     GetSelectionBounds(&params.anchor_rect, &params.focus_rect);
   1867     if (selection_anchor_rect_ != params.anchor_rect ||
   1868         selection_focus_rect_ != params.focus_rect) {
   1869       selection_anchor_rect_ = params.anchor_rect;
   1870       selection_focus_rect_ = params.focus_rect;
   1871       webwidget_->selectionTextDirection(params.focus_dir, params.anchor_dir);
   1872       params.is_anchor_first = webwidget_->isSelectionAnchorFirst();
   1873       Send(new ViewHostMsg_SelectionBoundsChanged(routing_id_, params));
   1874     }
   1875   }
   1876 
   1877 #if defined(OS_MACOSX) || defined(USE_AURA)
   1878   UpdateCompositionInfo(false);
   1879 #endif
   1880 }
   1881 
   1882 // Check blink::WebTextInputType and ui::TextInputType is kept in sync.
   1883 COMPILE_ASSERT(int(blink::WebTextInputTypeNone) == \
   1884                int(ui::TEXT_INPUT_TYPE_NONE), mismatching_enums);
   1885 COMPILE_ASSERT(int(blink::WebTextInputTypeText) == \
   1886                int(ui::TEXT_INPUT_TYPE_TEXT), mismatching_enums);
   1887 COMPILE_ASSERT(int(blink::WebTextInputTypePassword) == \
   1888                int(ui::TEXT_INPUT_TYPE_PASSWORD), mismatching_enums);
   1889 COMPILE_ASSERT(int(blink::WebTextInputTypeSearch) == \
   1890                int(ui::TEXT_INPUT_TYPE_SEARCH), mismatching_enums);
   1891 COMPILE_ASSERT(int(blink::WebTextInputTypeEmail) == \
   1892                int(ui::TEXT_INPUT_TYPE_EMAIL), mismatching_enums);
   1893 COMPILE_ASSERT(int(blink::WebTextInputTypeNumber) == \
   1894                int(ui::TEXT_INPUT_TYPE_NUMBER), mismatching_enums);
   1895 COMPILE_ASSERT(int(blink::WebTextInputTypeTelephone) == \
   1896                int(ui::TEXT_INPUT_TYPE_TELEPHONE), mismatching_enums);
   1897 COMPILE_ASSERT(int(blink::WebTextInputTypeURL) == \
   1898                int(ui::TEXT_INPUT_TYPE_URL), mismatching_enums);
   1899 COMPILE_ASSERT(int(blink::WebTextInputTypeDate) == \
   1900                int(ui::TEXT_INPUT_TYPE_DATE), mismatching_enum);
   1901 COMPILE_ASSERT(int(blink::WebTextInputTypeDateTime) == \
   1902                int(ui::TEXT_INPUT_TYPE_DATE_TIME), mismatching_enum);
   1903 COMPILE_ASSERT(int(blink::WebTextInputTypeDateTimeLocal) == \
   1904                int(ui::TEXT_INPUT_TYPE_DATE_TIME_LOCAL), mismatching_enum);
   1905 COMPILE_ASSERT(int(blink::WebTextInputTypeMonth) == \
   1906                int(ui::TEXT_INPUT_TYPE_MONTH), mismatching_enum);
   1907 COMPILE_ASSERT(int(blink::WebTextInputTypeTime) == \
   1908                int(ui::TEXT_INPUT_TYPE_TIME), mismatching_enum);
   1909 COMPILE_ASSERT(int(blink::WebTextInputTypeWeek) == \
   1910                int(ui::TEXT_INPUT_TYPE_WEEK), mismatching_enum);
   1911 COMPILE_ASSERT(int(blink::WebTextInputTypeTextArea) == \
   1912                int(ui::TEXT_INPUT_TYPE_TEXT_AREA), mismatching_enums);
   1913 COMPILE_ASSERT(int(blink::WebTextInputTypeContentEditable) == \
   1914                int(ui::TEXT_INPUT_TYPE_CONTENT_EDITABLE), mismatching_enums);
   1915 COMPILE_ASSERT(int(blink::WebTextInputTypeDateTimeField) == \
   1916                int(ui::TEXT_INPUT_TYPE_DATE_TIME_FIELD), mismatching_enums);
   1917 
   1918 ui::TextInputType RenderWidget::WebKitToUiTextInputType(
   1919     blink::WebTextInputType type) {
   1920   // Check the type is in the range representable by ui::TextInputType.
   1921   DCHECK_LE(type, static_cast<int>(ui::TEXT_INPUT_TYPE_MAX)) <<
   1922     "blink::WebTextInputType and ui::TextInputType not synchronized";
   1923   return static_cast<ui::TextInputType>(type);
   1924 }
   1925 
   1926 ui::TextInputType RenderWidget::GetTextInputType() {
   1927   if (webwidget_)
   1928     return WebKitToUiTextInputType(webwidget_->textInputInfo().type);
   1929   return ui::TEXT_INPUT_TYPE_NONE;
   1930 }
   1931 
   1932 #if defined(OS_MACOSX) || defined(USE_AURA)
   1933 void RenderWidget::UpdateCompositionInfo(bool should_update_range) {
   1934   gfx::Range range = gfx::Range();
   1935   if (should_update_range) {
   1936     GetCompositionRange(&range);
   1937   } else {
   1938     range = composition_range_;
   1939   }
   1940   std::vector<gfx::Rect> character_bounds;
   1941   GetCompositionCharacterBounds(&character_bounds);
   1942 
   1943   if (!ShouldUpdateCompositionInfo(range, character_bounds))
   1944     return;
   1945   composition_character_bounds_ = character_bounds;
   1946   composition_range_ = range;
   1947   Send(new InputHostMsg_ImeCompositionRangeChanged(
   1948       routing_id(), composition_range_, composition_character_bounds_));
   1949 }
   1950 
   1951 void RenderWidget::GetCompositionCharacterBounds(
   1952     std::vector<gfx::Rect>* bounds) {
   1953   DCHECK(bounds);
   1954   bounds->clear();
   1955 }
   1956 
   1957 void RenderWidget::GetCompositionRange(gfx::Range* range) {
   1958   size_t location, length;
   1959   if (webwidget_->compositionRange(&location, &length)) {
   1960     range->set_start(location);
   1961     range->set_end(location + length);
   1962   } else if (webwidget_->caretOrSelectionRange(&location, &length)) {
   1963     range->set_start(location);
   1964     range->set_end(location + length);
   1965   } else {
   1966     *range = gfx::Range::InvalidRange();
   1967   }
   1968 }
   1969 
   1970 bool RenderWidget::ShouldUpdateCompositionInfo(
   1971     const gfx::Range& range,
   1972     const std::vector<gfx::Rect>& bounds) {
   1973   if (composition_range_ != range)
   1974     return true;
   1975   if (bounds.size() != composition_character_bounds_.size())
   1976     return true;
   1977   for (size_t i = 0; i < bounds.size(); ++i) {
   1978     if (bounds[i] != composition_character_bounds_[i])
   1979       return true;
   1980   }
   1981   return false;
   1982 }
   1983 #endif
   1984 
   1985 #if defined(OS_ANDROID)
   1986 void RenderWidget::DidChangeBodyBackgroundColor(SkColor bg_color) {
   1987   // If not initialized, default to white. Note that 0 is different from black
   1988   // as black still has alpha 0xFF.
   1989   if (!bg_color)
   1990     bg_color = SK_ColorWHITE;
   1991 
   1992   if (bg_color != body_background_color_) {
   1993     body_background_color_ = bg_color;
   1994     Send(new ViewHostMsg_DidChangeBodyBackgroundColor(routing_id(), bg_color));
   1995   }
   1996 }
   1997 #endif
   1998 
   1999 bool RenderWidget::CanComposeInline() {
   2000   return true;
   2001 }
   2002 
   2003 WebScreenInfo RenderWidget::screenInfo() {
   2004   return screen_info_;
   2005 }
   2006 
   2007 float RenderWidget::deviceScaleFactor() {
   2008   return device_scale_factor_;
   2009 }
   2010 
   2011 void RenderWidget::resetInputMethod() {
   2012   if (!input_method_is_active_)
   2013     return;
   2014 
   2015   ImeEventGuard guard(this);
   2016   // If the last text input type is not None, then we should finish any
   2017   // ongoing composition regardless of the new text input type.
   2018   if (text_input_type_ != ui::TEXT_INPUT_TYPE_NONE) {
   2019     // If a composition text exists, then we need to let the browser process
   2020     // to cancel the input method's ongoing composition session.
   2021     if (webwidget_->confirmComposition())
   2022       Send(new InputHostMsg_ImeCancelComposition(routing_id()));
   2023   }
   2024 
   2025 #if defined(OS_MACOSX) || defined(USE_AURA)
   2026   UpdateCompositionInfo(true);
   2027 #endif
   2028 }
   2029 
   2030 void RenderWidget::didHandleGestureEvent(
   2031     const WebGestureEvent& event,
   2032     bool event_cancelled) {
   2033 #if defined(OS_ANDROID) || defined(USE_AURA)
   2034   if (event_cancelled)
   2035     return;
   2036   if (event.type == WebInputEvent::GestureTap) {
   2037     UpdateTextInputState(SHOW_IME_IF_NEEDED, FROM_NON_IME);
   2038   } else if (event.type == WebInputEvent::GestureLongPress) {
   2039     DCHECK(webwidget_);
   2040     if (webwidget_->textInputInfo().value.isEmpty())
   2041       UpdateTextInputState(NO_SHOW_IME, FROM_NON_IME);
   2042     else
   2043       UpdateTextInputState(SHOW_IME_IF_NEEDED, FROM_NON_IME);
   2044   }
   2045 #endif
   2046 }
   2047 
   2048 void RenderWidget::StartCompositor() {
   2049   // For widgets that are never visible, we don't need the compositor to run
   2050   // at all.
   2051   if (never_visible_)
   2052     return;
   2053   compositor_->setSurfaceReady();
   2054 }
   2055 
   2056 void RenderWidget::SchedulePluginMove(const WebPluginGeometry& move) {
   2057   size_t i = 0;
   2058   for (; i < plugin_window_moves_.size(); ++i) {
   2059     if (plugin_window_moves_[i].window == move.window) {
   2060       if (move.rects_valid) {
   2061         plugin_window_moves_[i] = move;
   2062       } else {
   2063         plugin_window_moves_[i].visible = move.visible;
   2064       }
   2065       break;
   2066     }
   2067   }
   2068 
   2069   if (i == plugin_window_moves_.size())
   2070     plugin_window_moves_.push_back(move);
   2071 }
   2072 
   2073 void RenderWidget::CleanupWindowInPluginMoves(gfx::PluginWindowHandle window) {
   2074   for (WebPluginGeometryVector::iterator i = plugin_window_moves_.begin();
   2075        i != plugin_window_moves_.end(); ++i) {
   2076     if (i->window == window) {
   2077       plugin_window_moves_.erase(i);
   2078       break;
   2079     }
   2080   }
   2081 }
   2082 
   2083 
   2084 RenderWidgetCompositor* RenderWidget::compositor() const {
   2085   return compositor_.get();
   2086 }
   2087 
   2088 bool RenderWidget::WillHandleMouseEvent(const blink::WebMouseEvent& event) {
   2089   return false;
   2090 }
   2091 
   2092 bool RenderWidget::WillHandleGestureEvent(
   2093     const blink::WebGestureEvent& event) {
   2094   return false;
   2095 }
   2096 
   2097 void RenderWidget::hasTouchEventHandlers(bool has_handlers) {
   2098   Send(new ViewHostMsg_HasTouchEventHandlers(routing_id_, has_handlers));
   2099 }
   2100 
   2101 void RenderWidget::setTouchAction(
   2102     blink::WebTouchAction web_touch_action) {
   2103 
   2104   // Ignore setTouchAction calls that result from synthetic touch events (eg.
   2105   // when blink is emulating touch with mouse).
   2106   if (handling_event_type_ != WebInputEvent::TouchStart)
   2107     return;
   2108 
   2109    // Verify the same values are used by the types so we can cast between them.
   2110    COMPILE_ASSERT(static_cast<blink::WebTouchAction>(TOUCH_ACTION_AUTO) ==
   2111                       blink::WebTouchActionAuto,
   2112                   enum_values_must_match_for_touch_action);
   2113    COMPILE_ASSERT(static_cast<blink::WebTouchAction>(TOUCH_ACTION_NONE) ==
   2114                       blink::WebTouchActionNone,
   2115                   enum_values_must_match_for_touch_action);
   2116    COMPILE_ASSERT(static_cast<blink::WebTouchAction>(TOUCH_ACTION_PAN_X) ==
   2117                       blink::WebTouchActionPanX,
   2118                   enum_values_must_match_for_touch_action);
   2119    COMPILE_ASSERT(static_cast<blink::WebTouchAction>(TOUCH_ACTION_PAN_Y) ==
   2120                       blink::WebTouchActionPanY,
   2121                   enum_values_must_match_for_touch_action);
   2122    COMPILE_ASSERT(
   2123        static_cast<blink::WebTouchAction>(TOUCH_ACTION_PINCH_ZOOM) ==
   2124            blink::WebTouchActionPinchZoom,
   2125        enum_values_must_match_for_touch_action);
   2126 
   2127    content::TouchAction content_touch_action =
   2128        static_cast<content::TouchAction>(web_touch_action);
   2129   Send(new InputHostMsg_SetTouchAction(routing_id_, content_touch_action));
   2130 }
   2131 
   2132 void RenderWidget::didUpdateTextOfFocusedElementByNonUserInput() {
   2133 #if defined(OS_ANDROID)
   2134   text_field_is_dirty_ = true;
   2135 #endif
   2136 }
   2137 
   2138 bool RenderWidget::HasTouchEventHandlersAt(const gfx::Point& point) const {
   2139   return true;
   2140 }
   2141 
   2142 scoped_ptr<WebGraphicsContext3DCommandBufferImpl>
   2143 RenderWidget::CreateGraphicsContext3D() {
   2144   if (!webwidget_)
   2145     return scoped_ptr<WebGraphicsContext3DCommandBufferImpl>();
   2146   if (CommandLine::ForCurrentProcess()->HasSwitch(
   2147           switches::kDisableGpuCompositing))
   2148     return scoped_ptr<WebGraphicsContext3DCommandBufferImpl>();
   2149   if (!RenderThreadImpl::current())
   2150     return scoped_ptr<WebGraphicsContext3DCommandBufferImpl>();
   2151   CauseForGpuLaunch cause =
   2152       CAUSE_FOR_GPU_LAUNCH_WEBGRAPHICSCONTEXT3DCOMMANDBUFFERIMPL_INITIALIZE;
   2153   scoped_refptr<GpuChannelHost> gpu_channel_host(
   2154       RenderThreadImpl::current()->EstablishGpuChannelSync(cause));
   2155   if (!gpu_channel_host.get())
   2156     return scoped_ptr<WebGraphicsContext3DCommandBufferImpl>();
   2157 
   2158   // Explicitly disable antialiasing for the compositor. As of the time of
   2159   // this writing, the only platform that supported antialiasing for the
   2160   // compositor was Mac OS X, because the on-screen OpenGL context creation
   2161   // code paths on Windows and Linux didn't yet have multisampling support.
   2162   // Mac OS X essentially always behaves as though it's rendering offscreen.
   2163   // Multisampling has a heavy cost especially on devices with relatively low
   2164   // fill rate like most notebooks, and the Mac implementation would need to
   2165   // be optimized to resolve directly into the IOSurface shared between the
   2166   // GPU and browser processes. For these reasons and to avoid platform
   2167   // disparities we explicitly disable antialiasing.
   2168   blink::WebGraphicsContext3D::Attributes attributes;
   2169   attributes.antialias = false;
   2170   attributes.shareResources = true;
   2171   attributes.noAutomaticFlushes = true;
   2172   attributes.depth = false;
   2173   attributes.stencil = false;
   2174   bool lose_context_when_out_of_memory = true;
   2175   WebGraphicsContext3DCommandBufferImpl::SharedMemoryLimits limits;
   2176 #if defined(OS_ANDROID)
   2177   // If we raster too fast we become upload bound, and pending
   2178   // uploads consume memory. For maximum upload throughput, we would
   2179   // want to allow for upload_throughput * pipeline_time of pending
   2180   // uploads, after which we are just wasting memory. Since we don't
   2181   // know our upload throughput yet, this just caps our memory usage.
   2182   size_t divider = 1;
   2183   if (base::SysInfo::IsLowEndDevice())
   2184     divider = 6;
   2185   // For reference Nexus10 can upload 1MB in about 2.5ms.
   2186   const double max_mb_uploaded_per_ms = 2.0 / (5 * divider);
   2187   // Deadline to draw a frame to achieve 60 frames per second.
   2188   const size_t kMillisecondsPerFrame = 16;
   2189   // Assuming a two frame deep pipeline between the CPU and the GPU.
   2190   size_t max_transfer_buffer_usage_mb =
   2191       static_cast<size_t>(2 * kMillisecondsPerFrame * max_mb_uploaded_per_ms);
   2192   static const size_t kBytesPerMegabyte = 1024 * 1024;
   2193   // We keep the MappedMemoryReclaimLimit the same as the upload limit
   2194   // to avoid unnecessarily stalling the compositor thread.
   2195   limits.mapped_memory_reclaim_limit =
   2196       max_transfer_buffer_usage_mb * kBytesPerMegabyte;
   2197 #endif
   2198 
   2199   scoped_ptr<WebGraphicsContext3DCommandBufferImpl> context(
   2200       new WebGraphicsContext3DCommandBufferImpl(surface_id(),
   2201                                                 GetURLForGraphicsContext3D(),
   2202                                                 gpu_channel_host.get(),
   2203                                                 attributes,
   2204                                                 lose_context_when_out_of_memory,
   2205                                                 limits,
   2206                                                 NULL));
   2207   return context.Pass();
   2208 }
   2209 
   2210 void RenderWidget::RegisterRenderFrameProxy(RenderFrameProxy* proxy) {
   2211   render_frame_proxies_.AddObserver(proxy);
   2212 }
   2213 
   2214 void RenderWidget::UnregisterRenderFrameProxy(RenderFrameProxy* proxy) {
   2215   render_frame_proxies_.RemoveObserver(proxy);
   2216 }
   2217 
   2218 void RenderWidget::RegisterRenderFrame(RenderFrameImpl* frame) {
   2219   render_frames_.AddObserver(frame);
   2220 }
   2221 
   2222 void RenderWidget::UnregisterRenderFrame(RenderFrameImpl* frame) {
   2223   render_frames_.RemoveObserver(frame);
   2224 }
   2225 
   2226 #if defined(VIDEO_HOLE)
   2227 void RenderWidget::RegisterVideoHoleFrame(RenderFrameImpl* frame) {
   2228   video_hole_frames_.AddObserver(frame);
   2229 }
   2230 
   2231 void RenderWidget::UnregisterVideoHoleFrame(RenderFrameImpl* frame) {
   2232   video_hole_frames_.RemoveObserver(frame);
   2233 }
   2234 #endif  // defined(VIDEO_HOLE)
   2235 
   2236 }  // namespace content
   2237