content/browser/renderer_host/input/input_router_impl.h - platform/external/chromium_org - Git at Google

 // Copyright 2013 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef CONTENT_BROWSER_RENDERER_HOST_INPUT_INPUT_ROUTER_IMPL_H_
 #define CONTENT_BROWSER_RENDERER_HOST_INPUT_INPUT_ROUTER_IMPL_H_

 #include <queue>

 #include "base/basictypes.h"
 #include "base/memory/scoped_ptr.h"
 #include "base/time/time.h"
 #include "content/browser/renderer_host/input/gesture_event_filter.h"
 #include "content/browser/renderer_host/input/input_router.h"
 #include "content/browser/renderer_host/input/touch_action_filter.h"
 #include "content/browser/renderer_host/input/touch_event_queue.h"
 #include "content/browser/renderer_host/input/touchpad_tap_suppression_controller.h"
 #include "content/public/browser/native_web_keyboard_event.h"

 namespace IPC {
 class Sender;
 }

 namespace ui {
 struct LatencyInfo;
 }

 namespace content {

 class InputAckHandler;
 class InputRouterClient;
 class OverscrollController;
 class RenderWidgetHostImpl;

 // A default implementation for browser input event routing.
 class CONTENT_EXPORT InputRouterImpl
     : public NON_EXPORTED_BASE(InputRouter),
       public NON_EXPORTED_BASE(GestureEventFilterClient),
       public NON_EXPORTED_BASE(TouchEventQueueClient),
       public NON_EXPORTED_BASE(TouchpadTapSuppressionControllerClient) {
  public:
   InputRouterImpl(IPC::Sender* sender,
                   InputRouterClient* client,
                   InputAckHandler* ack_handler,
                   int routing_id);
   virtual ~InputRouterImpl();

   // InputRouter
   virtual void Flush() OVERRIDE;
   virtual bool SendInput(scoped_ptr<IPC::Message> message) OVERRIDE;
   virtual void SendMouseEvent(
       const MouseEventWithLatencyInfo& mouse_event) OVERRIDE;
   virtual void SendWheelEvent(
       const MouseWheelEventWithLatencyInfo& wheel_event) OVERRIDE;
   virtual void SendKeyboardEvent(
       const NativeWebKeyboardEvent& key_event,
       const ui::LatencyInfo& latency_info,
       bool is_keyboard_shortcut) OVERRIDE;
   virtual void SendGestureEvent(
       const GestureEventWithLatencyInfo& gesture_event) OVERRIDE;
   virtual void SendTouchEvent(
       const TouchEventWithLatencyInfo& touch_event) OVERRIDE;
   virtual const NativeWebKeyboardEvent* GetLastKeyboardEvent() const OVERRIDE;
   virtual bool ShouldForwardTouchEvent() const OVERRIDE;
   virtual void OnViewUpdated(int view_flags) OVERRIDE;

   // IPC::Listener
   virtual bool OnMessageReceived(const IPC::Message& message) OVERRIDE;

 private:
   friend class InputRouterImplTest;
   friend class MockRenderWidgetHost;

   // TouchpadTapSuppressionControllerClient
   virtual void SendMouseEventImmediately(
       const MouseEventWithLatencyInfo& mouse_event) OVERRIDE;

   // TouchEventQueueClient
   virtual void SendTouchEventImmediately(
       const TouchEventWithLatencyInfo& touch_event) OVERRIDE;
   virtual void OnTouchEventAck(const TouchEventWithLatencyInfo& event,
                                InputEventAckState ack_result) OVERRIDE;

   // GetureEventFilterClient
   virtual void SendGestureEventImmediately(
       const GestureEventWithLatencyInfo& gesture_event) OVERRIDE;
   virtual void OnGestureEventAck(const GestureEventWithLatencyInfo& event,
                                  InputEventAckState ack_result) OVERRIDE;

   bool SendMoveCaret(scoped_ptr<IPC::Message> message);
   bool SendSelectRange(scoped_ptr<IPC::Message> message);
   bool Send(IPC::Message* message);

   // Filters and forwards |input_event| to the appropriate handler.
   void FilterAndSendWebInputEvent(const blink::WebInputEvent& input_event,
                                   const ui::LatencyInfo& latency_info,
                                   bool is_keyboard_shortcut);

   // Utility routine for filtering and forwarding |input_event| to the
   // appropriate handler. |input_event| will be offered to the overscroll
   // controller, client and renderer, in that order.
   void OfferToHandlers(const blink::WebInputEvent& input_event,
                        const ui::LatencyInfo& latency_info,
                        bool is_keyboard_shortcut);

   // Returns true if |input_event| was consumed by the overscroll controller.
   bool OfferToOverscrollController(const blink::WebInputEvent& input_event,
                                    const ui::LatencyInfo& latency_info);

   // Returns true if |input_event| was consumed by the client.
   bool OfferToClient(const blink::WebInputEvent& input_event,
                      const ui::LatencyInfo& latency_info);

   // Returns true if |input_event| was successfully sent to the renderer
   // as an async IPC Message.
   bool OfferToRenderer(const blink::WebInputEvent& input_event,
                        const ui::LatencyInfo& latency_info,
                        bool is_keyboard_shortcut);

   // IPC message handlers
   void OnInputEventAck(blink::WebInputEvent::Type event_type,
                        InputEventAckState ack_result,
                        const ui::LatencyInfo& latency_info);
   void OnMsgMoveCaretAck();
   void OnSelectRangeAck();
   void OnHasTouchEventHandlers(bool has_handlers);
   void OnSetTouchAction(content::TouchAction touch_action);

   // Indicates the source of an ack provided to |ProcessInputEventAck()|.
   // The source is tracked by |current_ack_source_|, which aids in ack routing.
   enum AckSource {
     RENDERER,
     CLIENT,
     OVERSCROLL_CONTROLLER,
     IGNORING_DISPOSITION,
     ACK_SOURCE_NONE
   };
   // Note: This function may result in |this| being deleted, and as such
   // should be the last method called in any internal chain of event handling.
   void ProcessInputEventAck(blink::WebInputEvent::Type event_type,
                             InputEventAckState ack_result,
                             const ui::LatencyInfo& latency_info,
                             AckSource ack_source);

   // Dispatches the ack'ed event to |ack_handler_|.
   void ProcessKeyboardAck(blink::WebInputEvent::Type type,
                           InputEventAckState ack_result);

   // Forwards a valid |next_mouse_move_| if |type| is MouseMove.
   void ProcessMouseAck(blink::WebInputEvent::Type type,
                        InputEventAckState ack_result);

   // Dispatches the ack'ed event to |ack_handler_|, forwarding queued events
   // from |coalesced_mouse_wheel_events_|.
   void ProcessWheelAck(InputEventAckState ack_result,
                        const ui::LatencyInfo& latency);

   // Forwards the event ack to |gesture_event_filter|, potentially triggering
   // dispatch of queued gesture events.
   void ProcessGestureAck(blink::WebInputEvent::Type type,
                          InputEventAckState ack_result,
                          const ui::LatencyInfo& latency);

   // Forwards the event ack to |touch_event_queue_|, potentially triggering
   // dispatch of queued touch events, or the creation of gesture events.
   void ProcessTouchAck(InputEventAckState ack_result,
                        const ui::LatencyInfo& latency);

   // Forwards |ack_result| to the client's OverscrollController, if necessary.
   void ProcessAckForOverscroll(const blink::WebInputEvent& event,
                                InputEventAckState ack_result);

   void SimulateTouchGestureWithMouse(
       const MouseEventWithLatencyInfo& mouse_event);

   bool IsInOverscrollGesture() const;

   int routing_id() const { return routing_id_; }


   IPC::Sender* sender_;
   InputRouterClient* client_;
   InputAckHandler* ack_handler_;
   int routing_id_;

   // (Similar to |mouse_move_pending_|.) True while waiting for SelectRange_ACK.
   bool select_range_pending_;

   // (Similar to |next_mouse_move_|.) The next SelectRange to send, if any.
   scoped_ptr<IPC::Message> next_selection_range_;

   // (Similar to |mouse_move_pending_|.) True while waiting for MoveCaret_ACK.
   bool move_caret_pending_;

   // (Similar to |next_mouse_move_|.) The next MoveCaret to send, if any.
   scoped_ptr<IPC::Message> next_move_caret_;

   // True if a mouse move event was sent to the render view and we are waiting
   // for a corresponding InputHostMsg_HandleInputEvent_ACK message.
   bool mouse_move_pending_;

   // The next mouse move event to send (only non-null while mouse_move_pending_
   // is true).
   scoped_ptr<MouseEventWithLatencyInfo> next_mouse_move_;

   // (Similar to |mouse_move_pending_|.) True if a mouse wheel event was sent
   // and we are waiting for a corresponding ack.
   bool mouse_wheel_pending_;
   MouseWheelEventWithLatencyInfo current_wheel_event_;

   typedef std::deque<MouseWheelEventWithLatencyInfo> WheelEventQueue;

   // (Similar to |next_mouse_move_|.) The next mouse wheel events to send.
   // Unlike mouse moves, mouse wheel events received while one is pending are
   // coalesced (by accumulating deltas) if they match the previous event in
   // modifiers. On the Mac, in particular, mouse wheel events are received at a
   // high rate; not waiting for the ack results in jankiness, and using the same
   // mechanism as for mouse moves (just dropping old events when multiple ones
   // would be queued) results in very slow scrolling.
   WheelEventQueue coalesced_mouse_wheel_events_;

   // The time when an input event was sent to the RenderWidget.
   base::TimeTicks input_event_start_time_;

   // Queue of keyboard events that we need to track.
   typedef std::deque<NativeWebKeyboardEvent> KeyQueue;

   // A queue of keyboard events. We can't trust data from the renderer so we
   // stuff key events into a queue and pop them out on ACK, feeding our copy
   // back to whatever unhandled handler instead of the returned version.
   KeyQueue key_queue_;

   // Keeps track of whether the webpage has any touch event handler. If it does,
   // then touch events are sent to the renderer. Otherwise, the touch events are
   // not sent to the renderer.
   bool has_touch_handler_;

   // Whether touch ack timeout handling has been enabled via the command line.
   bool touch_ack_timeout_enabled_;
   size_t touch_ack_timeout_delay_ms_;

   // The source of the ack within the scope of |ProcessInputEventAck()|.
   // Defaults to ACK_SOURCE_NONE.
   AckSource current_ack_source_;

   scoped_ptr<TouchEventQueue> touch_event_queue_;
   scoped_ptr<GestureEventFilter> gesture_event_filter_;
   TouchActionFilter touch_action_filter_;

   DISALLOW_COPY_AND_ASSIGN(InputRouterImpl);
 };

 }  // namespace content

 #endif // CONTENT_BROWSER_RENDERER_HOST_INPUT_INPUT_ROUTER_IMPL_H_
	// Copyright 2013 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef CONTENT_BROWSER_RENDERER_HOST_INPUT_INPUT_ROUTER_IMPL_H_
	#define CONTENT_BROWSER_RENDERER_HOST_INPUT_INPUT_ROUTER_IMPL_H_

	#include <queue>

	#include "base/basictypes.h"
	#include "base/memory/scoped_ptr.h"
	#include "base/time/time.h"
	#include "content/browser/renderer_host/input/gesture_event_filter.h"
	#include "content/browser/renderer_host/input/input_router.h"
	#include "content/browser/renderer_host/input/touch_action_filter.h"
	#include "content/browser/renderer_host/input/touch_event_queue.h"
	#include "content/browser/renderer_host/input/touchpad_tap_suppression_controller.h"
	#include "content/public/browser/native_web_keyboard_event.h"

	namespace IPC {
	class Sender;
	}

	namespace ui {
	struct LatencyInfo;
	}

	namespace content {

	class InputAckHandler;
	class InputRouterClient;
	class OverscrollController;
	class RenderWidgetHostImpl;

	// A default implementation for browser input event routing.
	class CONTENT_EXPORT InputRouterImpl
	: public NON_EXPORTED_BASE(InputRouter),
	public NON_EXPORTED_BASE(GestureEventFilterClient),
	public NON_EXPORTED_BASE(TouchEventQueueClient),
	public NON_EXPORTED_BASE(TouchpadTapSuppressionControllerClient) {
	public:
	InputRouterImpl(IPC::Sender* sender,
	InputRouterClient* client,
	InputAckHandler* ack_handler,
	int routing_id);
	virtual ~InputRouterImpl();

	// InputRouter
	virtual void Flush() OVERRIDE;
	virtual bool SendInput(scoped_ptr<IPC::Message> message) OVERRIDE;
	virtual void SendMouseEvent(
	const MouseEventWithLatencyInfo& mouse_event) OVERRIDE;
	virtual void SendWheelEvent(
	const MouseWheelEventWithLatencyInfo& wheel_event) OVERRIDE;
	virtual void SendKeyboardEvent(
	const NativeWebKeyboardEvent& key_event,
	const ui::LatencyInfo& latency_info,
	bool is_keyboard_shortcut) OVERRIDE;
	virtual void SendGestureEvent(
	const GestureEventWithLatencyInfo& gesture_event) OVERRIDE;
	virtual void SendTouchEvent(
	const TouchEventWithLatencyInfo& touch_event) OVERRIDE;
	virtual const NativeWebKeyboardEvent* GetLastKeyboardEvent() const OVERRIDE;
	virtual bool ShouldForwardTouchEvent() const OVERRIDE;
	virtual void OnViewUpdated(int view_flags) OVERRIDE;

	// IPC::Listener
	virtual bool OnMessageReceived(const IPC::Message& message) OVERRIDE;

	private:
	friend class InputRouterImplTest;
	friend class MockRenderWidgetHost;

	// TouchpadTapSuppressionControllerClient
	virtual void SendMouseEventImmediately(
	const MouseEventWithLatencyInfo& mouse_event) OVERRIDE;

	// TouchEventQueueClient
	virtual void SendTouchEventImmediately(
	const TouchEventWithLatencyInfo& touch_event) OVERRIDE;
	virtual void OnTouchEventAck(const TouchEventWithLatencyInfo& event,
	InputEventAckState ack_result) OVERRIDE;

	// GetureEventFilterClient
	virtual void SendGestureEventImmediately(
	const GestureEventWithLatencyInfo& gesture_event) OVERRIDE;
	virtual void OnGestureEventAck(const GestureEventWithLatencyInfo& event,
	InputEventAckState ack_result) OVERRIDE;

	bool SendMoveCaret(scoped_ptr<IPC::Message> message);
	bool SendSelectRange(scoped_ptr<IPC::Message> message);
	bool Send(IPC::Message* message);

	// Filters and forwards \|input_event\| to the appropriate handler.
	void FilterAndSendWebInputEvent(const blink::WebInputEvent& input_event,
	const ui::LatencyInfo& latency_info,
	bool is_keyboard_shortcut);

	// Utility routine for filtering and forwarding \|input_event\| to the
	// appropriate handler. \|input_event\| will be offered to the overscroll
	// controller, client and renderer, in that order.
	void OfferToHandlers(const blink::WebInputEvent& input_event,
	const ui::LatencyInfo& latency_info,
	bool is_keyboard_shortcut);

	// Returns true if \|input_event\| was consumed by the overscroll controller.
	bool OfferToOverscrollController(const blink::WebInputEvent& input_event,
	const ui::LatencyInfo& latency_info);

	// Returns true if \|input_event\| was consumed by the client.
	bool OfferToClient(const blink::WebInputEvent& input_event,
	const ui::LatencyInfo& latency_info);

	// Returns true if \|input_event\| was successfully sent to the renderer
	// as an async IPC Message.
	bool OfferToRenderer(const blink::WebInputEvent& input_event,
	const ui::LatencyInfo& latency_info,
	bool is_keyboard_shortcut);

	// IPC message handlers
	void OnInputEventAck(blink::WebInputEvent::Type event_type,
	InputEventAckState ack_result,
	const ui::LatencyInfo& latency_info);
	void OnMsgMoveCaretAck();
	void OnSelectRangeAck();
	void OnHasTouchEventHandlers(bool has_handlers);
	void OnSetTouchAction(content::TouchAction touch_action);

	// Indicates the source of an ack provided to \|ProcessInputEventAck()\|.
	// The source is tracked by \|current_ack_source_\|, which aids in ack routing.
	enum AckSource {
	RENDERER,
	CLIENT,
	OVERSCROLL_CONTROLLER,
	IGNORING_DISPOSITION,
	ACK_SOURCE_NONE
	};
	// Note: This function may result in \|this\| being deleted, and as such
	// should be the last method called in any internal chain of event handling.
	void ProcessInputEventAck(blink::WebInputEvent::Type event_type,
	InputEventAckState ack_result,
	const ui::LatencyInfo& latency_info,
	AckSource ack_source);

	// Dispatches the ack'ed event to \|ack_handler_\|.
	void ProcessKeyboardAck(blink::WebInputEvent::Type type,
	InputEventAckState ack_result);

	// Forwards a valid \|next_mouse_move_\| if \|type\| is MouseMove.
	void ProcessMouseAck(blink::WebInputEvent::Type type,
	InputEventAckState ack_result);

	// Dispatches the ack'ed event to \|ack_handler_\|, forwarding queued events
	// from \|coalesced_mouse_wheel_events_\|.
	void ProcessWheelAck(InputEventAckState ack_result,
	const ui::LatencyInfo& latency);

	// Forwards the event ack to \|gesture_event_filter\|, potentially triggering
	// dispatch of queued gesture events.
	void ProcessGestureAck(blink::WebInputEvent::Type type,
	InputEventAckState ack_result,
	const ui::LatencyInfo& latency);

	// Forwards the event ack to \|touch_event_queue_\|, potentially triggering
	// dispatch of queued touch events, or the creation of gesture events.
	void ProcessTouchAck(InputEventAckState ack_result,
	const ui::LatencyInfo& latency);

	// Forwards \|ack_result\| to the client's OverscrollController, if necessary.
	void ProcessAckForOverscroll(const blink::WebInputEvent& event,
	InputEventAckState ack_result);

	void SimulateTouchGestureWithMouse(
	const MouseEventWithLatencyInfo& mouse_event);

	bool IsInOverscrollGesture() const;

	int routing_id() const { return routing_id_; }


	IPC::Sender* sender_;
	InputRouterClient* client_;
	InputAckHandler* ack_handler_;
	int routing_id_;

	// (Similar to \|mouse_move_pending_\|.) True while waiting for SelectRange_ACK.
	bool select_range_pending_;

	// (Similar to \|next_mouse_move_\|.) The next SelectRange to send, if any.
	scoped_ptr<IPC::Message> next_selection_range_;

	// (Similar to \|mouse_move_pending_\|.) True while waiting for MoveCaret_ACK.
	bool move_caret_pending_;

	// (Similar to \|next_mouse_move_\|.) The next MoveCaret to send, if any.
	scoped_ptr<IPC::Message> next_move_caret_;

	// True if a mouse move event was sent to the render view and we are waiting
	// for a corresponding InputHostMsg_HandleInputEvent_ACK message.
	bool mouse_move_pending_;

	// The next mouse move event to send (only non-null while mouse_move_pending_
	// is true).
	scoped_ptr<MouseEventWithLatencyInfo> next_mouse_move_;

	// (Similar to \|mouse_move_pending_\|.) True if a mouse wheel event was sent
	// and we are waiting for a corresponding ack.
	bool mouse_wheel_pending_;
	MouseWheelEventWithLatencyInfo current_wheel_event_;

	typedef std::deque<MouseWheelEventWithLatencyInfo> WheelEventQueue;

	// (Similar to \|next_mouse_move_\|.) The next mouse wheel events to send.
	// Unlike mouse moves, mouse wheel events received while one is pending are
	// coalesced (by accumulating deltas) if they match the previous event in
	// modifiers. On the Mac, in particular, mouse wheel events are received at a
	// high rate; not waiting for the ack results in jankiness, and using the same
	// mechanism as for mouse moves (just dropping old events when multiple ones
	// would be queued) results in very slow scrolling.
	WheelEventQueue coalesced_mouse_wheel_events_;

	// The time when an input event was sent to the RenderWidget.
	base::TimeTicks input_event_start_time_;

	// Queue of keyboard events that we need to track.
	typedef std::deque<NativeWebKeyboardEvent> KeyQueue;

	// A queue of keyboard events. We can't trust data from the renderer so we
	// stuff key events into a queue and pop them out on ACK, feeding our copy
	// back to whatever unhandled handler instead of the returned version.
	KeyQueue key_queue_;

	// Keeps track of whether the webpage has any touch event handler. If it does,
	// then touch events are sent to the renderer. Otherwise, the touch events are
	// not sent to the renderer.
	bool has_touch_handler_;

	// Whether touch ack timeout handling has been enabled via the command line.
	bool touch_ack_timeout_enabled_;
	size_t touch_ack_timeout_delay_ms_;

	// The source of the ack within the scope of \|ProcessInputEventAck()\|.
	// Defaults to ACK_SOURCE_NONE.
	AckSource current_ack_source_;

	scoped_ptr<TouchEventQueue> touch_event_queue_;
	scoped_ptr<GestureEventFilter> gesture_event_filter_;
	TouchActionFilter touch_action_filter_;

	DISALLOW_COPY_AND_ASSIGN(InputRouterImpl);
	};

	} // namespace content

	#endif // CONTENT_BROWSER_RENDERER_HOST_INPUT_INPUT_ROUTER_IMPL_H_