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[chromium-blink-merge.git] / ui / events / devices / x11 / device_data_manager_x11.h
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1 // Copyright 2014 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.
5 #ifndef UI_EVENTS_DEVICES_X11_DEVICE_DATA_MANAGER_X11_H_
6 #define UI_EVENTS_DEVICES_X11_DEVICE_DATA_MANAGER_X11_H_
8 // Generically-named #defines from Xlib is conflicting with symbols in GTest.
9 // So many tests .cc file #undef Bool before including device_data_manager.h,
10 // which makes Bool unrecognized in XInput2.h.
11 #ifndef Bool
12 #define Bool int
13 #endif
15 #include <X11/extensions/XInput2.h>
17 #include <bitset>
18 #include <functional>
19 #include <map>
20 #include <set>
21 #include <vector>
23 #include "base/basictypes.h"
24 #include "base/event_types.h"
25 #include "base/memory/scoped_ptr.h"
26 #include "ui/events/devices/device_data_manager.h"
27 #include "ui/events/devices/events_devices_export.h"
28 #include "ui/events/event_constants.h"
29 #include "ui/events/keycodes/keyboard_codes.h"
30 #include "ui/gfx/geometry/rect.h"
31 #include "ui/gfx/x/x11_atom_cache.h"
33 typedef union _XEvent XEvent;
35 namespace ui {
37 // CrOS touchpad metrics gesture types
38 enum GestureMetricsType {
39 kGestureMetricsTypeNoisyGround = 0,
40 kGestureMetricsTypeUnknown,
43 // A class that extracts and tracks the input events data. It currently handles
44 // mouse, touchpad and touchscreen devices.
45 class EVENTS_DEVICES_EXPORT DeviceDataManagerX11 : public DeviceDataManager {
46 public:
47 // Enumerate additional data that one might be interested on an input event,
48 // which are usually wrapped in X valuators. If you modify any of this,
49 // make sure to update the kCachedAtoms data structure in the source file
50 // and the k*Type[Start/End] constants used by IsCMTDataType and
51 // IsTouchDataType.
52 enum DataType {
53 // Define the valuators used the CrOS CMT driver. Used by mice and CrOS
54 // touchpads.
55 DT_CMT_SCROLL_X = 0, // Scroll amount on the X (horizontal) direction.
56 DT_CMT_SCROLL_Y, // Scroll amount on the Y (vertical) direction.
57 DT_CMT_ORDINAL_X, // Original (unaccelerated) value on the X direction.
58 // Can be used both for scrolls and flings.
59 DT_CMT_ORDINAL_Y, // Original (unaccelerated) value on the Y direction.
60 // Can be used both for scrolls and flings.
61 DT_CMT_START_TIME, // Gesture start time.
62 DT_CMT_END_TIME, // Gesture end time.
63 DT_CMT_FLING_X, // Fling amount on the X (horizontal) direction.
64 DT_CMT_FLING_Y, // Fling amount on the Y (vertical) direction.
65 DT_CMT_FLING_STATE, // The state of fling gesture (whether the user just
66 // started flinging or they tapped down).
67 DT_CMT_METRICS_TYPE, // Metrics type of the metrics gesture, which are
68 // used to wrap interesting patterns that we would
69 // like to track via the UMA system.
70 DT_CMT_METRICS_DATA1, // Complementary data 1 of the metrics gesture.
71 DT_CMT_METRICS_DATA2, // Complementary data 2 of the metrics gesture.
72 DT_CMT_FINGER_COUNT, // Finger counts in the current gesture. A same type
73 // of gesture can have very different meanings based
74 // on that (e.g. 2f scroll v.s. 3f swipe).
76 // End of CMT data types.
77 // Beginning of touch data types.
79 // Define the valuators following the Multi-touch Protocol. Used by
80 // touchscreen devices.
81 DT_TOUCH_MAJOR, // Length of the touch area.
82 DT_TOUCH_MINOR, // Width of the touch area.
83 DT_TOUCH_ORIENTATION, // Angle between the X-axis and the major axis of the
84 // touch area.
85 DT_TOUCH_PRESSURE, // Pressure of the touch contact.
87 DT_TOUCH_POSITION_X, // Touch X position.
88 DT_TOUCH_POSITION_Y, // Touch Y position.
90 // NOTE for XInput MT: 'Tracking ID' is provided in every touch event to
91 // track individual touch. 'Tracking ID' is an unsigned 32-bit value and
92 // is increased for each new touch. It will wrap back to 0 when reaching
93 // the numerical limit.
94 DT_TOUCH_TRACKING_ID, // ID of the touch point.
96 // Kernel timestamp from touch screen (if available).
97 DT_TOUCH_RAW_TIMESTAMP,
99 // End of touch data types.
101 DT_LAST_ENTRY // This must come last.
104 // Data struct to store extracted data from an input event.
105 typedef std::map<int, double> EventData;
107 static void CreateInstance();
109 // We use int because enums can be casted to ints but not vice versa.
110 static bool IsCMTDataType(const int type);
111 static bool IsTouchDataType(const int type);
113 // Returns the DeviceDataManagerX11 singleton.
114 static DeviceDataManagerX11* GetInstance();
116 // Returns if XInput2 is available on the system.
117 bool IsXInput2Available() const;
119 // Updates the list of devices.
120 void UpdateDeviceList(Display* display);
122 // For multitouch events we use slot number to distinguish touches from
123 // different fingers. This function returns true if the associated slot
124 // for |xiev| can be found and it is saved in |slot|, returns false if
125 // no slot can be found.
126 bool GetSlotNumber(const XIDeviceEvent* xiev, int* slot);
128 // Check if an XI event contains data of the specified type.
129 bool HasEventData(const XIDeviceEvent* xiev, const DataType type) const;
131 // Get all event data in one pass. We extract only data types that we know
132 // about (defined in enum DataType). The data is not processed (e.g. not
133 // filled in by cached values) as in GetEventData.
134 void GetEventRawData(const XEvent& xev, EventData* data);
136 // Get a datum of the specified type. Return true and the value
137 // is updated if the data is found, false and value unchanged if the data is
138 // not found. In the case of MT-B/XI2.2, the value can come from a previously
139 // cached one (see the comment above last_seen_valuator_).
140 bool GetEventData(const XEvent& xev, const DataType type, double* value);
142 // Check if the event is an XI input event in the strict sense
143 // (i.e. XIDeviceEvent). This rules out things like hierarchy changes,
144 /// device changes, property changes and so on.
145 bool IsXIDeviceEvent(const base::NativeEvent& native_event) const;
147 // Check if the event comes from touchpad devices.
148 bool IsTouchpadXInputEvent(const base::NativeEvent& native_event) const;
150 // Check if the event comes from devices running CMT driver or using
151 // CMT valuators (e.g. mouses). Note that doesn't necessarily mean the event
152 // is a CMT event (e.g. it could be a mouse pointer move).
153 bool IsCMTDeviceEvent(const base::NativeEvent& native_event) const;
155 // Check if the event is one of the CMT gesture events (scroll, fling,
156 // metrics etc.).
157 bool IsCMTGestureEvent(const base::NativeEvent& native_event) const;
159 // Returns true if the event is of the specific type, false if not.
160 bool IsScrollEvent(const base::NativeEvent& native_event) const;
161 bool IsFlingEvent(const base::NativeEvent& native_event) const;
162 bool IsCMTMetricsEvent(const base::NativeEvent& native_event) const;
164 // Returns true if the event has CMT start/end timestamps.
165 bool HasGestureTimes(const base::NativeEvent& native_event) const;
167 // Extract data from a scroll event (a motion event with the necessary
168 // valuators). User must first verify the event type with IsScrollEvent.
169 // Pointers shouldn't be NULL.
170 void GetScrollOffsets(const base::NativeEvent& native_event,
171 float* x_offset,
172 float* y_offset,
173 float* x_offset_ordinal,
174 float* y_offset_ordinal,
175 int* finger_count);
177 // Extract data from a fling event. User must first verify the event type
178 // with IsFlingEvent. Pointers shouldn't be NULL.
179 void GetFlingData(const base::NativeEvent& native_event,
180 float* vx,
181 float* vy,
182 float* vx_ordinal,
183 float* vy_ordinal,
184 bool* is_cancel);
186 // Extract data from a CrOS metrics gesture event. User must first verify
187 // the event type with IsCMTMetricsEvent. Pointers shouldn't be NULL.
188 void GetMetricsData(const base::NativeEvent& native_event,
189 GestureMetricsType* type,
190 float* data1,
191 float* data2);
193 // Returns the mapped button.
194 int GetMappedButton(int button);
196 // Updates button mapping. This is usually called when a MappingNotify event
197 // is received.
198 void UpdateButtonMap();
200 // Extract the start/end timestamps from CMT events. User must first verify
201 // the event with HasGestureTimes. Pointers shouldn't be NULL.
202 void GetGestureTimes(const base::NativeEvent& native_event,
203 double* start_time,
204 double* end_time);
206 // Normalize the data value on deviceid to fall into [0, 1].
207 // *value = (*value - min_value_of_tp) / (max_value_of_tp - min_value_of_tp)
208 // Returns true and sets the normalized value in|value| if normalization is
209 // successful. Returns false and |value| is unchanged otherwise.
210 bool NormalizeData(int deviceid,
211 const DataType type,
212 double* value);
214 // Extract the range of the data type. Return true if the range is available
215 // and written into min & max, false if the range is not available.
216 bool GetDataRange(int deviceid,
217 const DataType type,
218 double* min,
219 double* max);
221 // Sets up relevant valuator informations for device ids in the device lists.
222 // This function is only for test purpose. It does not query the X server for
223 // the actual device info, but rather inits the relevant valuator structures
224 // to have safe default values for testing.
225 void SetDeviceListForTest(const std::vector<int>& touchscreen,
226 const std::vector<int>& cmt_devices,
227 const std::vector<int>& other_devices);
229 void SetValuatorDataForTest(XIDeviceEvent* xievent,
230 DataType type,
231 double value);
233 bool TouchEventNeedsCalibrate(int touch_device_id) const;
235 // Sets the keys which are still allowed on a disabled keyboard device.
236 void SetDisabledKeyboardAllowedKeys(
237 scoped_ptr<std::set<KeyboardCode> > excepted_keys);
239 // Disables and enables events from devices by device id.
240 void DisableDevice(int deviceid);
241 void EnableDevice(int deviceid);
243 // Returns true if |native_event| should be blocked.
244 bool IsEventBlocked(const base::NativeEvent& native_event);
246 const std::vector<int>& master_pointers() const {
247 return master_pointers_;
250 protected:
251 // DeviceHotplugEventObserver:
252 void OnKeyboardDevicesUpdated(
253 const std::vector<KeyboardDevice>& devices) override;
255 private:
256 DeviceDataManagerX11();
257 ~DeviceDataManagerX11() override;
259 // Initialize the XInput related system information.
260 bool InitializeXInputInternal();
262 void InitializeValuatorsForTest(int deviceid,
263 int start_valuator,
264 int end_valuator,
265 double min_value,
266 double max_value);
268 static const int kMaxXIEventType = XI_LASTEVENT + 1;
269 static const int kMaxSlotNum = 10;
271 // Major opcode for the XInput extension. Used to identify XInput events.
272 int xi_opcode_;
274 // A quick lookup table for determining if the XI event is an XIDeviceEvent.
275 std::bitset<kMaxXIEventType> xi_device_event_types_;
277 // A quick lookup table for determining if events from the pointer device
278 // should be processed.
279 std::bitset<kMaxDeviceNum> cmt_devices_;
280 std::bitset<kMaxDeviceNum> touchpads_;
282 // List of the master pointer devices.
283 std::vector<int> master_pointers_;
285 // A quick lookup table for determining if events from the XI device
286 // should be blocked.
287 std::bitset<kMaxDeviceNum> blocked_devices_;
289 // The set of keys allowed while the keyboard is blocked.
290 scoped_ptr<std::set<KeyboardCode> > blocked_keyboard_allowed_keys_;
292 // Number of valuators on the specific device.
293 int valuator_count_[kMaxDeviceNum];
295 // Index table to find the valuator for DataType on the specific device
296 // by valuator_lookup_[device_id][data_type].
297 std::vector<int> valuator_lookup_[kMaxDeviceNum];
299 // Index table to find the DataType for valuator on the specific device
300 // by data_type_lookup_[device_id][valuator].
301 std::vector<int> data_type_lookup_[kMaxDeviceNum];
303 // Index table to find the min & max value of the Valuator on a specific
304 // device.
305 std::vector<double> valuator_min_[kMaxDeviceNum];
306 std::vector<double> valuator_max_[kMaxDeviceNum];
308 // Table to keep track of the last seen value for the specified valuator for
309 // a specified slot of a device. Defaults to 0 if the valuator for that slot
310 // was not specified in an earlier event. With MT-B/XI2.2, valuators in an
311 // XEvent are not reported if the values haven't changed from the previous
312 // event. So it is necessary to remember these valuators so that chrome
313 // doesn't think X/device doesn't know about the valuators. We currently
314 // use this only on touchscreen devices.
315 std::vector<double> last_seen_valuator_[kMaxDeviceNum][kMaxSlotNum];
317 // Map that stores meta-data for blocked keyboards. This is needed to restore
318 // devices when they are re-enabled.
319 std::map<int, ui::KeyboardDevice> blocked_keyboards_;
321 // X11 atoms cache.
322 X11AtomCache atom_cache_;
324 unsigned char button_map_[256];
325 int button_map_count_;
327 DISALLOW_COPY_AND_ASSIGN(DeviceDataManagerX11);
330 } // namespace ui
332 #endif // UI_EVENTS_DEVICES_X11_DEVICE_DATA_MANAGER_X11_H_