XExtInt.c

Bug Summary

File:	XExtInt.c
Location:	line 808, column 25
Description:	Value stored to 'data' is never read

Annotated Source Code

1	/************************************************************
2
3	Copyright 1989, 1998 The Open Group
4
5	Permission to use, copy, modify, distribute, and sell this software and its
6	documentation for any purpose is hereby granted without fee, provided that
7	the above copyright notice appear in all copies and that both that
8	copyright notice and this permission notice appear in supporting
9	documentation.
10
11	The above copyright notice and this permission notice shall be included in
12	all copies or substantial portions of the Software.
13
14	THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
15	IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
16	FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
17	OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN
18	AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
19	CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
20
21	Except as contained in this notice, the name of The Open Group shall not be
22	used in advertising or otherwise to promote the sale, use or other dealings
23	in this Software without prior written authorization from The Open Group.
24
25	Copyright 1989 by Hewlett-Packard Company, Palo Alto, California.
26
27	All Rights Reserved
28
29	Permission to use, copy, modify, and distribute this software and its
30	documentation for any purpose and without fee is hereby granted,
31	provided that the above copyright notice appear in all copies and that
32	both that copyright notice and this permission notice appear in
33	supporting documentation, and that the name of Hewlett-Packard not be
34	used in advertising or publicity pertaining to distribution of the
35	software without specific, written prior permission.
36
37	HEWLETT-PACKARD DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING
38	ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL
39	HEWLETT-PACKARD BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR
40	ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS,
41	WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION,
42	ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS
43	SOFTWARE.
44
45	********************************************************/
46
47	/***********************************************************************
48	*
49	* Input Extension library internal functions.
50	*
51	*/
52
53	#if HAVE_CONFIG_H1
54	#include <config.h>
55	#endif
56
57	#include <stdio.h>
58	#include <stdint.h>
59	#include <X11/extensions/XI.h>
60	#include <X11/extensions/XI2.h>
61	#include <X11/extensions/XIproto.h>
62	#include <X11/extensions/XI2proto.h>
63	#include <X11/Xlibint.h>
64	#include <X11/extensions/XInput.h>
65	#include <X11/extensions/XInput2.h>
66	#include <X11/extensions/extutil.h>
67	#include <X11/extensions/geproto.h>
68	#include <X11/extensions/ge.h>
69	#include <X11/extensions/Xge.h>
70	#include "XIint.h"
71
72	#define ENQUEUE_EVENT1 True1
73	#define DONT_ENQUEUE0 False0
74	#define FP1616toDBL(x)((x) * 1.0 / (1 << 16)) ((x) * 1.0 / (1 << 16))
75
76	extern void _xibaddevice(
77	Display * /* dpy */,
78	int * /* error */
79	);
80
81	extern void _xibadclass(
82	Display * /* dpy */,
83	int * /* error */
84	);
85
86	extern void _xibadevent(
87	Display * /* dpy */,
88	int * /* error */
89	);
90
91	extern void _xibadmode(
92	Display * /* dpy */,
93	int * /* error */
94	);
95
96	extern void _xidevicebusy(
97	Display * /* dpy */,
98	int * /* error */
99	);
100
101	extern int _XiGetDevicePresenceNotifyEvent(
102	Display * /* dpy */
103	);
104
105	int copy_classes(XIDeviceInfo to, xXIAnyInfo from, int *nclasses);
106	int size_classes(xXIAnyInfo* from, int nclasses);
107
108	static XExtensionInfo *xinput_info;
109	static /* const / char xinput_extension_name = INAME"XInputExtension";
110
111	static int XInputClose(
112	Display * /* dpy */,
113	XExtCodes * /* codes */
114	);
115
116	static char *XInputError(
117	Display * /* dpy */,
118	int /* code */,
119	XExtCodes * /* codes */,
120	char * /* buf */,
121	int /* n */
122	);
123
124	static Boolint XInputWireToEvent(
125	Display * /* dpy */,
126	XEvent * /* re */,
127	xEvent * /* event */
128	);
129	static Boolint XInputWireToCookie(
130	Display* /* display */,
131	XGenericEventCookie* /* re */,
132	xEvent* /* event */
133	);
134
135	static Boolint XInputCopyCookie(
136	Display* /* display */,
137	XGenericEventCookie* /* in */,
138	XGenericEventCookie* /* out */
139	);
140
141	static int
142	wireToDeviceEvent(xXIDeviceEvent in, XGenericEventCookie out);
143	static int
144	wireToDeviceChangedEvent(xXIDeviceChangedEvent in, XGenericEventCookie cookie);
145	static int
146	wireToHierarchyChangedEvent(xXIHierarchyEvent in, XGenericEventCookie cookie);
147	static int
148	wireToRawEvent(XExtDisplayInfo info, xXIRawEvent in, XGenericEventCookie *cookie);
149	static int
150	wireToEnterLeave(xXIEnterEvent in, XGenericEventCookie cookie);
151	static int
152	wireToPropertyEvent(xXIPropertyEvent in, XGenericEventCookie cookie);
153	static int
154	wireToTouchOwnershipEvent(xXITouchOwnershipEvent *in,
155	XGenericEventCookie *cookie);
156
157	static /* const */ XEvent emptyevent;
158
159	typedef Statusint (core_event_to_wire)(Display, XEvent, xEvent);
160
161	static /* const */ XExtensionHooks xinput_extension_hooks = {
162	NULL((void)0), / create_gc */
163	NULL((void)0), / copy_gc */
164	NULL((void)0), / flush_gc */
165	NULL((void)0), / free_gc */
166	NULL((void)0), / create_font */
167	NULL((void)0), / free_font */
168	XInputClose, /* close_display */
169	XInputWireToEvent, /* wire_to_event */
170	(core_event_to_wire)_XiEventToWire, /* event_to_wire */
171	NULL((void)0), / error */
172	XInputError, /* error_string */
173	};
174
175	static char *XInputErrorList[] = {
176	"BadDevice, invalid or uninitialized input device", /* BadDevice */
177	"BadEvent, invalid event type", /* BadEvent */
178	"BadMode, invalid mode parameter", /* BadMode */
179	"DeviceBusy, device is busy", /* DeviceBusy */
180	"BadClass, invalid event class", /* BadClass */
181	};
182
183	/* Get the version supported by the server to know which number of
184	* events are support. Otherwise, a wrong number of events may smash
185	* the Xlib-internal event processing vector.
186	*
187	* Since the extension hasn't been initialized yet, we need to
188	* manually get the opcode, then the version.
189	*/
190	static int
191	_XiFindEventsSupported(Display *dpy)
192	{
193	XExtCodes codes;
194	XExtensionVersion extversion = NULL((void)0);
195	int nevents = 0;
196
197	if (!XQueryExtension(dpy, INAME"XInputExtension", &codes.major_opcode,
198	&codes.first_event, &codes.first_error))
199	goto out;
200
201	LockDisplay(dpy)if ((dpy)->lock_fns) (*(dpy)->lock_fns->lock_display )(dpy);
202	extversion = _XiGetExtensionVersionRequest(dpy, INAME"XInputExtension", codes.major_opcode);
203	UnlockDisplay(dpy)if ((dpy)->lock_fns) (*(dpy)->lock_fns->unlock_display )(dpy);
204	SyncHandle()if (dpy->synchandler) (*dpy->synchandler)(dpy);
205
206	if (!extversion \|\| !extversion->present)
207	goto out;
208
209	if (extversion->major_version >= 2)
210	nevents = IEVENTS17; /* number is fixed, XI2 adds GenericEvents only */
211	else if (extversion->major_version <= 0)
212	{
213	printf("XInput_find_display: invalid extension version %d.%d\n",
214	extversion->major_version, extversion->minor_version);
215	goto out;
216	}
217	else
218	{
219	switch(extversion->minor_version)
220	{
221	case XI_Add_DeviceProperties_Minor5:
222	nevents = XI_DevicePropertyNotify16 + 1;
223	break;
224	case XI_Add_DevicePresenceNotify_Minor4:
225	nevents = XI_DevicePresenceNotify15 + 1;
226	break;
227	default:
228	nevents = XI_DeviceButtonstateNotify14 + 1;
229	break;
230	}
231	}
232
233	out:
234	if (extversion)
235	XFree(extversion);
236	return nevents;
237	}
238
239
240	_X_HIDDEN__attribute__((visibility("hidden")))
241	XExtDisplayInfo XInput_find_display (Display dpy)
242	{
243	XExtDisplayInfo *dpyinfo;
244	if (!xinput_info) { if (!(xinput_info = XextCreateExtension())) return NULL((void*)0); }
245	if (!(dpyinfo = XextFindDisplay (xinput_info, dpy)))
246	{
247	int nevents = _XiFindEventsSupported(dpy);
248
249	dpyinfo = XextAddDisplay (xinput_info, dpy,
250	xinput_extension_name,
251	&xinput_extension_hooks,
252	nevents, NULL((void*)0));
253	if (dpyinfo->codes) /* NULL if XI doesn't exist on the server */
254	{
255	XESetWireToEventCookie(dpy, dpyinfo->codes->major_opcode, XInputWireToCookie);
256	XESetCopyEventCookie(dpy, dpyinfo->codes->major_opcode, XInputCopyCookie);
257	}
258	}
259	return dpyinfo;
260	}
261
262	static XEXT_GENERATE_ERROR_STRING(XInputError, xinput_extension_name,char XInputError (Display dpy, int code, XExtCodes codes, char buf, int n) { code -= codes->first_error; if (code >= 0 && code < 5) { char tmp[256]; sprintf (tmp, "%s.%d" , xinput_extension_name, code); XGetErrorDatabaseText (dpy, "XProtoError" , tmp, XInputErrorList[code], buf, n); return buf; } return ( char *)0; }
263	IERRORS, XInputErrorList)char XInputError (Display dpy, int code, XExtCodes codes, char buf, int n) { code -= codes->first_error; if (code >= 0 && code < 5) { char tmp[256]; sprintf (tmp, "%s.%d" , xinput_extension_name, code); XGetErrorDatabaseText (dpy, "XProtoError" , tmp, XInputErrorList[code], buf, n); return buf; } return ( char *)0; }
264	/*******************************************************************
265	*
266	* Input extension versions.
267	*
268	*/
269	static XExtensionVersion versions[] = { {XI_Absent0, 0, 0},
270	{XI_Present1, XI_Initial_Release_Major1, XI_Initial_Release_Minor0},
271	{XI_Present1, XI_Add_XDeviceBell_Major1, XI_Add_XDeviceBell_Minor1},
272	{XI_Present1, XI_Add_XSetDeviceValuators_Major1,
273	XI_Add_XSetDeviceValuators_Minor2},
274	{XI_Present1, XI_Add_XChangeDeviceControl_Major1,
275	XI_Add_XChangeDeviceControl_Minor3},
276	{XI_Present1, XI_Add_DevicePresenceNotify_Major1,
277	XI_Add_DevicePresenceNotify_Minor4},
278	{XI_Present1, XI_Add_DeviceProperties_Major1,
279	XI_Add_DeviceProperties_Minor5},
280	{XI_Present1, 2, 0},
281	{XI_Present1, 2, 1},
282	{XI_Present1, 2, 2}
283	};
284
285	/***********************************************************************
286	*
287	* Return errors reported by this extension.
288	*
289	*/
290
291	void
292	_xibaddevice(
293	Display *dpy,
294	int *error)
295	{
296	XExtDisplayInfo *info = XInput_find_display(dpy);
297
298	*error = info->codes->first_error + XI_BadDevice0;
299	}
300
301	void
302	_xibadclass(
303	Display *dpy,
304	int *error)
305	{
306	XExtDisplayInfo *info = XInput_find_display(dpy);
307
308	*error = info->codes->first_error + XI_BadClass4;
309	}
310
311	void
312	_xibadevent(
313	Display *dpy,
314	int *error)
315	{
316	XExtDisplayInfo *info = XInput_find_display(dpy);
317
318	*error = info->codes->first_error + XI_BadEvent1;
319	}
320
321	void
322	_xibadmode(
323	Display *dpy,
324	int *error)
325	{
326	XExtDisplayInfo *info = XInput_find_display(dpy);
327
328	*error = info->codes->first_error + XI_BadMode2;
329	}
330
331	void
332	_xidevicebusy(
333	Display *dpy,
334	int *error)
335	{
336	XExtDisplayInfo *info = XInput_find_display(dpy);
337
338	*error = info->codes->first_error + XI_DeviceBusy3;
339	}
340
341	static int XInputCheckExtension(Display dpy, XExtDisplayInfo info)
342	{
343	XextCheckExtension (dpy, info, xinput_extension_name, 0)if (!((info) && ((info)->codes))) { XMissingExtension (dpy, xinput_extension_name); return 0; };
344	return 1;
345	}
346
347	/*****************************************************************
348	* Compare version numbers between info and the built-in version table.
349	* Returns
350	* -1 if info's version is less than version_index's version,
351	* 0 if equal (or DontCheck),
352	* 1 if info's version is greater than version_index's version.
353	* Returns -2 on initialization errors which shouldn't happen if you call it
354	* correctly.
355	*/
356	_X_HIDDEN__attribute__((visibility("hidden"))) int
357	_XiCheckVersion(XExtDisplayInfo *info,
358	int version_index)
359	{
360	XExtensionVersion *ext;
361
362	if (versions[version_index].major_version == Dont_Check0)
363	return 0;
364
365	if (!info->data)
366	return -2;
367
368	ext = ((XInputData *) info->data)->vers;
369	if (!ext)
370	return -2;
371
372	if (ext->major_version == versions[version_index].major_version &&
373	ext->minor_version == versions[version_index].minor_version)
374	return 0;
375
376	if (ext->major_version < versions[version_index].major_version \|\|
377	(ext->major_version == versions[version_index].major_version &&
378	ext->minor_version < versions[version_index].minor_version))
379	return -1;
380	else
381	return 1;
382	}
383
384	/***********************************************************************
385	*
386	* Check to see if the input extension is installed in the server.
387	* Also check to see if the version is >= the requested version.
388	*
389	*/
390
391	_X_HIDDEN__attribute__((visibility("hidden"))) int
392	_XiCheckExtInit(
393	register Display *dpy,
394	register int version_index,
395	XExtDisplayInfo *info)
396	{
397	if (!XInputCheckExtension(dpy, info)) {
398	UnlockDisplay(dpy)if ((dpy)->lock_fns) (*(dpy)->lock_fns->unlock_display )(dpy);
399	return (-1);
400	}
401
402	if (info->data == NULL((void*)0)) {
403	info->data = (XPointer) Xmalloc(sizeof(XInputData))malloc(((sizeof(XInputData)) == 0 ? 1 : (sizeof(XInputData))) );
404	if (!info->data) {
405	UnlockDisplay(dpy)if ((dpy)->lock_fns) (*(dpy)->lock_fns->unlock_display )(dpy);
406	return (-1);
407	}
408	((XInputData *) info->data)->vers =
409	_XiGetExtensionVersion(dpy, "XInputExtension", info);
410	}
411
412	if (_XiCheckVersion(info, version_index) < 0) {
413	UnlockDisplay(dpy)if ((dpy)->lock_fns) (*(dpy)->lock_fns->unlock_display )(dpy);
414	return -1;
415	}
416
417	return (0);
418	}
419
420	/***********************************************************************
421	*
422	* Close display routine.
423	*
424	*/
425
426	static int
427	XInputClose(
428	Display *dpy,
429	XExtCodes *codes)
430	{
431	XExtDisplayInfo *info = XInput_find_display(dpy);
432
433	if (info->data != NULL((void*)0)) {
434	XFree((char )((XInputData ) info->data)->vers);
435	XFree((char *)info->data);
436	}
437
438	if (!XextRemoveDisplay(xinput_info, dpy))
439	return 0;
440
441	if (xinput_info->ndisplays == 0) {
442	XextDestroyExtension(xinput_info);
443	xinput_info = NULL((void*)0);
444	}
445
446	return 1;
447	}
448
449	static int
450	Ones(Mask mask)
451	{
452	register Mask y;
453
454	y = (mask >> 1) & 033333333333;
455	y = mask - y - ((y >> 1) & 033333333333);
456	return (((y + (y >> 3)) & 030707070707) % 077);
457	}
458
459	static int count_bits(unsigned char* ptr, int len)
460	{
461	int bits = 0;
462	unsigned int i;
463	unsigned char x;
464
465	for (i = 0; i < len; i++)
466	{
467	x = ptr[i];
468	while(x > 0)
469	{
470	bits += (x & 0x1);
471	x >>= 1;
472	}
473	}
474	return bits;
475	}
476
477	int
478	_XiGetDevicePresenceNotifyEvent(Display * dpy)
479	{
480	XExtDisplayInfo *info = XInput_find_display(dpy);
481
482	return info->codes->first_event + XI_DevicePresenceNotify15;
483	}
484
485	/***********************************************************************
486	*
487	* Handle Input extension events.
488	* Reformat a wire event into an XEvent structure of the right type.
489	*
490	*/
491
492	static Boolint
493	XInputWireToEvent(
494	Display *dpy,
495	XEvent *re,
496	xEvent *event)
497	{
498	unsigned int type, reltype;
499	unsigned int i, j;
500	XExtDisplayInfo *info = XInput_find_display(dpy);
501	XEvent save = (XEvent ) info->data;
502
503	type = event->u.u.type & 0x7f;
504	reltype = (type - info->codes->first_event);
505
506	if (type == GenericEvent35 \|\|
507	(reltype != XI_DeviceValuator0 &&
508	reltype != XI_DeviceKeystateNotify13 &&
509	reltype != XI_DeviceButtonstateNotify14)) {
510	*save = emptyevent;
511	save->type = type;
512	((XAnyEvent *) save)->serial = _XSetLastRequestRead(dpy,
513	(xGenericReply *)
514	event);
515	((XAnyEvent *) save)->send_event = ((event->u.u.type & 0x80) != 0);
516	((XAnyEvent *) save)->display = dpy;
517	}
518
519	/* Process traditional events */
520	if (type != GenericEvent35)
521	{
522	switch (reltype) {
523	case XI_DeviceMotionNotify5:
524	{
525	register XDeviceMotionEvent ev = (XDeviceMotionEvent ) save;
526	deviceKeyButtonPointer ev2 = (deviceKeyButtonPointer ) event;
527
528	ev->root = ev2->root;
529	ev->window = ev2->event;
530	ev->subwindow = ev2->child;
531	ev->time = ev2->time;
532	ev->x_root = ev2->root_x;
533	ev->y_root = ev2->root_y;
534	ev->x = ev2->event_x;
535	ev->y = ev2->event_y;
536	ev->state = ev2->state;
537	ev->same_screen = ev2->same_screen;
538	ev->is_hint = ev2->detail;
539	ev->deviceid = ev2->deviceid & DEVICE_BITS0x7F;
540	return (DONT_ENQUEUE0);
541	}
542	break;
543	case XI_DeviceKeyPress1:
544	case XI_DeviceKeyRelease2:
545	{
546	register XDeviceKeyEvent ev = (XDeviceKeyEvent ) save;
547	deviceKeyButtonPointer ev2 = (deviceKeyButtonPointer ) event;
548
549	ev->root = ev2->root;
550	ev->window = ev2->event;
551	ev->subwindow = ev2->child;
552	ev->time = ev2->time;
553	ev->x_root = ev2->root_x;
554	ev->y_root = ev2->root_y;
555	ev->x = ev2->event_x;
556	ev->y = ev2->event_y;
557	ev->state = ev2->state;
558	ev->same_screen = ev2->same_screen;
559	ev->keycode = ev2->detail;
560	ev->deviceid = ev2->deviceid & DEVICE_BITS0x7F;
561	if (ev2->deviceid & MORE_EVENTS0x80)
562	return (DONT_ENQUEUE0);
563	else {
564	re = save;
565	return (ENQUEUE_EVENT1);
566	}
567	}
568	break;
569	case XI_DeviceButtonPress3:
570	case XI_DeviceButtonRelease4:
571	{
572	register XDeviceButtonEvent ev = (XDeviceButtonEvent ) save;
573	deviceKeyButtonPointer ev2 = (deviceKeyButtonPointer ) event;
574
575	ev->root = ev2->root;
576	ev->window = ev2->event;
577	ev->subwindow = ev2->child;
578	ev->time = ev2->time;
579	ev->x_root = ev2->root_x;
580	ev->y_root = ev2->root_y;
581	ev->x = ev2->event_x;
582	ev->y = ev2->event_y;
583	ev->state = ev2->state;
584	ev->same_screen = ev2->same_screen;
585	ev->button = ev2->detail;
586	ev->deviceid = ev2->deviceid & DEVICE_BITS0x7F;
587	if (ev2->deviceid & MORE_EVENTS0x80)
588	return (DONT_ENQUEUE0);
589	else {
590	re = save;
591	return (ENQUEUE_EVENT1);
592	}
593	}
594	break;
595	case XI_ProximityIn8:
596	case XI_ProximityOut9:
597	{
598	register XProximityNotifyEvent ev = (XProximityNotifyEvent ) save;
599	deviceKeyButtonPointer ev2 = (deviceKeyButtonPointer ) event;
600
601	ev->root = ev2->root;
602	ev->window = ev2->event;
603	ev->subwindow = ev2->child;
604	ev->time = ev2->time;
605	ev->x_root = ev2->root_x;
606	ev->y_root = ev2->root_y;
607	ev->x = ev2->event_x;
608	ev->y = ev2->event_y;
609	ev->state = ev2->state;
610	ev->same_screen = ev2->same_screen;
611	ev->deviceid = ev2->deviceid & DEVICE_BITS0x7F;
612	if (ev2->deviceid & MORE_EVENTS0x80)
613	return (DONT_ENQUEUE0);
614	else {
615	re = save;
616	return (ENQUEUE_EVENT1);
617	}
618	}
619	break;
620	case XI_DeviceValuator0:
621	{
622	deviceValuator xev = (deviceValuator ) event;
623	int save_type = save->type - info->codes->first_event;
624
625	if (save_type == XI_DeviceKeyPress1 \|\| save_type == XI_DeviceKeyRelease2) {
626	XDeviceKeyEvent kev = (XDeviceKeyEvent ) save;
627
628	kev->device_state = xev->device_state;
629	kev->axes_count = xev->num_valuators;
630	kev->first_axis = xev->first_valuator;
631	i = xev->num_valuators;
632	if (i > 6)
633	i = 6;
634	switch (i) {
635	case 6:
636	kev->axis_data[5] = xev->valuator5;
637	case 5:
638	kev->axis_data[4] = xev->valuator4;
639	case 4:
640	kev->axis_data[3] = xev->valuator3;
641	case 3:
642	kev->axis_data[2] = xev->valuator2;
643	case 2:
644	kev->axis_data[1] = xev->valuator1;
645	case 1:
646	kev->axis_data[0] = xev->valuator0;
647	}
648	} else if (save_type == XI_DeviceButtonPress3 \|\|
649	save_type == XI_DeviceButtonRelease4) {
650	XDeviceButtonEvent bev = (XDeviceButtonEvent ) save;
651
652	bev->device_state = xev->device_state;
653	bev->axes_count = xev->num_valuators;
654	bev->first_axis = xev->first_valuator;
655	i = xev->num_valuators;
656	if (i > 6)
657	i = 6;
658	switch (i) {
659	case 6:
660	bev->axis_data[5] = xev->valuator5;
661	case 5:
662	bev->axis_data[4] = xev->valuator4;
663	case 4:
664	bev->axis_data[3] = xev->valuator3;
665	case 3:
666	bev->axis_data[2] = xev->valuator2;
667	case 2:
668	bev->axis_data[1] = xev->valuator1;
669	case 1:
670	bev->axis_data[0] = xev->valuator0;
671	}
672	} else if (save_type == XI_DeviceMotionNotify5) {
673	XDeviceMotionEvent mev = (XDeviceMotionEvent ) save;
674
675	mev->device_state = xev->device_state;
676	mev->axes_count = xev->num_valuators;
677	mev->first_axis = xev->first_valuator;
678	i = xev->num_valuators;
679	if (i > 6)
680	i = 6;
681	switch (i) {
682	case 6:
683	mev->axis_data[5] = xev->valuator5;
684	case 5:
685	mev->axis_data[4] = xev->valuator4;
686	case 4:
687	mev->axis_data[3] = xev->valuator3;
688	case 3:
689	mev->axis_data[2] = xev->valuator2;
690	case 2:
691	mev->axis_data[1] = xev->valuator1;
692	case 1:
693	mev->axis_data[0] = xev->valuator0;
694	}
695	} else if (save_type == XI_ProximityIn8 \|\| save_type == XI_ProximityOut9) {
696	XProximityNotifyEvent pev = (XProximityNotifyEvent ) save;
697
698	pev->device_state = xev->device_state;
699	pev->axes_count = xev->num_valuators;
700	pev->first_axis = xev->first_valuator;
701	i = xev->num_valuators;
702	if (i > 6)
703	i = 6;
704	switch (i) {
705	case 6:
706	pev->axis_data[5] = xev->valuator5;
707	case 5:
708	pev->axis_data[4] = xev->valuator4;
709	case 4:
710	pev->axis_data[3] = xev->valuator3;
711	case 3:
712	pev->axis_data[2] = xev->valuator2;
713	case 2:
714	pev->axis_data[1] = xev->valuator1;
715	case 1:
716	pev->axis_data[0] = xev->valuator0;
717	}
718	} else if (save_type == XI_DeviceStateNotify10) {
719	XDeviceStateNotifyEvent sev = (XDeviceStateNotifyEvent ) save;
720	XInputClass any = (XInputClass ) & sev->data[0];
721	XValuatorStatus *v;
722
723	for (i = 0; i < sev->num_classes; i++)
724	if (any->class != ValuatorClass2)
725	any = (XInputClass ) ((char )any + any->length);
726	v = (XValuatorStatus *) any;
727	i = v->num_valuators;
728	j = xev->num_valuators;
729	if (j > 3)
730	j = 3;
731	switch (j) {
732	case 3:
733	v->valuators[i + 2] = xev->valuator2;
734	case 2:
735	v->valuators[i + 1] = xev->valuator1;
736	case 1:
737	v->valuators[i + 0] = xev->valuator0;
738	}
739	v->num_valuators += j;
740
741	}
742	re = save;
743	return (ENQUEUE_EVENT1);
744	}
745	break;
746	case XI_DeviceFocusIn6:
747	case XI_DeviceFocusOut7:
748	{
749	register XDeviceFocusChangeEvent ev = (XDeviceFocusChangeEvent ) re;
750	deviceFocus fev = (deviceFocus ) event;
751
752	ev = ((XDeviceFocusChangeEvent *) save);
753	ev->window = fev->window;
754	ev->time = fev->time;
755	ev->mode = fev->mode;
756	ev->detail = fev->detail;
757	ev->deviceid = fev->deviceid & DEVICE_BITS0x7F;
758	return (ENQUEUE_EVENT1);
759	}
760	break;
761	case XI_DeviceStateNotify10:
762	{
763	XDeviceStateNotifyEvent stev = (XDeviceStateNotifyEvent ) save;
764	deviceStateNotify sev = (deviceStateNotify ) event;
765	char *data;
766
767	stev->window = None0L;
768	stev->deviceid = sev->deviceid & DEVICE_BITS0x7F;
769	stev->time = sev->time;
770	stev->num_classes = Ones((Mask) sev->classes_reported & InputClassBits0x3F);
771	data = (char *)&stev->data[0];
772	if (sev->classes_reported & (1 << KeyClass0)) {
773	register XKeyStatus kstev = (XKeyStatus ) data;
774
775	kstev->class = KeyClass0;
776	kstev->length = sizeof(XKeyStatus);
777	kstev->num_keys = sev->num_keys;
778	memcpy((char )&kstev->keys[0], (char )&sev->keys[0], 4);
779	data += sizeof(XKeyStatus);
780	}
781	if (sev->classes_reported & (1 << ButtonClass1)) {
782	register XButtonStatus bev = (XButtonStatus ) data;
783
784	bev->class = ButtonClass1;
785	bev->length = sizeof(XButtonStatus);
786	bev->num_buttons = sev->num_buttons;
787	memcpy((char )bev->buttons, (char )sev->buttons, 4);
788	data += sizeof(XButtonStatus);
789	}
790	if (sev->classes_reported & (1 << ValuatorClass2)) {
791	register XValuatorStatus vev = (XValuatorStatus ) data;
792
793	vev->class = ValuatorClass2;
794	vev->length = sizeof(XValuatorStatus);
795	vev->num_valuators = sev->num_valuators;
796	vev->mode = sev->classes_reported >> ModeBitsShift6;
797	j = sev->num_valuators;
798	if (j > 3)
799	j = 3;
800	switch (j) {
801	case 3:
802	vev->valuators[2] = sev->valuator2;
803	case 2:
804	vev->valuators[1] = sev->valuator1;
805	case 1:
806	vev->valuators[0] = sev->valuator0;
807	}
808	data += sizeof(XValuatorStatus);
	Value stored to 'data' is never read
809	}
810	if (sev->deviceid & MORE_EVENTS0x80)
811	return (DONT_ENQUEUE0);
812	else {
813	re = save;
814	return (ENQUEUE_EVENT1);
815	}
816	}
817	break;
818	case XI_DeviceKeystateNotify13:
819	{
820	int i;
821	XInputClass *anyclass;
822	register XKeyStatus *kv;
823	deviceKeyStateNotify ksev = (deviceKeyStateNotify ) event;
824	XDeviceStateNotifyEvent kstev = (XDeviceStateNotifyEvent ) save;
825
826	anyclass = (XInputClass *) & kstev->data[0];
827	for (i = 0; i < kstev->num_classes; i++)
828	if (anyclass->class == KeyClass0)
829	break;
830	else
831	anyclass = (XInputClass ) ((char )anyclass +
832	anyclass->length);
833
834	kv = (XKeyStatus *) anyclass;
835	kv->num_keys = 256;
836	memcpy((char )&kv->keys[4], (char )ksev->keys, 28);
837	if (ksev->deviceid & MORE_EVENTS0x80)
838	return (DONT_ENQUEUE0);
839	else {
840	re = save;
841	return (ENQUEUE_EVENT1);
842	}
843	}
844	break;
845	case XI_DeviceButtonstateNotify14:
846	{
847	int i;
848	XInputClass *anyclass;
849	register XButtonStatus *bv;
850	deviceButtonStateNotify bsev = (deviceButtonStateNotify ) event;
851	XDeviceStateNotifyEvent bstev = (XDeviceStateNotifyEvent ) save;
852
853	anyclass = (XInputClass *) & bstev->data[0];
854	for (i = 0; i < bstev->num_classes; i++)
855	if (anyclass->class == ButtonClass1)
856	break;
857	else
858	anyclass = (XInputClass ) ((char )anyclass +
859	anyclass->length);
860
861	bv = (XButtonStatus *) anyclass;
862	bv->num_buttons = 256;
863	memcpy((char )&bv->buttons[4], (char )bsev->buttons, 28);
864	if (bsev->deviceid & MORE_EVENTS0x80)
865	return (DONT_ENQUEUE0);
866	else {
867	re = save;
868	return (ENQUEUE_EVENT1);
869	}
870	}
871	break;
872	case XI_DeviceMappingNotify11:
873	{
874	register XDeviceMappingEvent ev = (XDeviceMappingEvent ) re;
875	deviceMappingNotify ev2 = (deviceMappingNotify ) event;
876
877	ev = ((XDeviceMappingEvent *) save);
878	ev->window = 0;
879	ev->first_keycode = ev2->firstKeyCode;
880	ev->request = ev2->request;
881	ev->count = ev2->count;
882	ev->time = ev2->time;
883	ev->deviceid = ev2->deviceid & DEVICE_BITS0x7F;
884	return (ENQUEUE_EVENT1);
885	}
886	break;
887	case XI_ChangeDeviceNotify12:
888	{
889	register XChangeDeviceNotifyEvent ev = (XChangeDeviceNotifyEvent ) re;
890	changeDeviceNotify ev2 = (changeDeviceNotify ) event;
891
892	ev = ((XChangeDeviceNotifyEvent *) save);
893	ev->window = 0;
894	ev->request = ev2->request;
895	ev->time = ev2->time;
896	ev->deviceid = ev2->deviceid & DEVICE_BITS0x7F;
897	return (ENQUEUE_EVENT1);
898	}
899	break;
900
901	case XI_DevicePresenceNotify15:
902	{
903	XDevicePresenceNotifyEvent ev = (XDevicePresenceNotifyEvent ) re;
904	devicePresenceNotify ev2 = (devicePresenceNotify ) event;
905
906	ev = (XDevicePresenceNotifyEvent *) save;
907	ev->window = 0;
908	ev->time = ev2->time;
909	ev->devchange = ev2->devchange;
910	ev->deviceid = ev2->deviceid;
911	ev->control = ev2->control;
912	return (ENQUEUE_EVENT1);
913	}
914	break;
915	case XI_DevicePropertyNotify16:
916	{
917	XDevicePropertyNotifyEvent* ev = (XDevicePropertyNotifyEvent*)re;
918	devicePropertyNotify ev2 = (devicePropertyNotify)event;
919
920	ev = (XDevicePropertyNotifyEvent*)save;
921	ev->time = ev2->time;
922	ev->deviceid = ev2->deviceid;
923	ev->atom = ev2->atom;
924	ev->state = ev2->state;
925	return ENQUEUE_EVENT1;
926	}
927	break;
928	default:
929	printf("XInputWireToEvent: UNKNOWN WIRE EVENT! type=%d\n", type);
930	break;
931	}
932	}
933	return (DONT_ENQUEUE0);
934	}
935
936	static void xge_copy_to_cookie(xGenericEvent* ev,
937	XGenericEventCookie *cookie)
938	{
939	cookie->type = ev->type;
940	cookie->evtype = ev->evtype;
941	cookie->extension = ev->extension;
942	}
943
944	static Boolint
945	XInputWireToCookie(
946	Display *dpy,
947	XGenericEventCookie *cookie,
948	xEvent *event)
949	{
950	XExtDisplayInfo *info = XInput_find_display(dpy);
951	XEvent save = (XEvent ) info->data;
952	xGenericEvent* ge = (xGenericEvent*)event;
953
954	if (ge->extension != info->codes->major_opcode)
955	{
956	printf("XInputWireToCookie: wrong extension opcode %d\n",
957	ge->extension);
958	return DONT_ENQUEUE0;
959	}
960
961	*save = emptyevent;
962	save->type = event->u.u.type;
963	((XAnyEvent)save)->serial = _XSetLastRequestRead(dpy, (xGenericReply ) event);
964	((XAnyEvent*)save)->send_event = ((event->u.u.type & 0x80) != 0);
965	((XAnyEvent*)save)->display = dpy;
966
967	xge_copy_to_cookie((xGenericEvent)event, (XGenericEventCookie)save);
968	switch(ge->evtype)
969	{
970	case XI_Motion6:
971	case XI_ButtonPress4:
972	case XI_ButtonRelease5:
973	case XI_KeyPress2:
974	case XI_KeyRelease3:
975	case XI_TouchBegin18:
976	case XI_TouchUpdate19:
977	case XI_TouchEnd20:
978	cookie = (XGenericEventCookie*)save;
979	if (!wireToDeviceEvent((xXIDeviceEvent*)event, cookie))
980	{
981	printf("XInputWireToCookie: CONVERSION FAILURE! evtype=%d\n",
982	ge->evtype);
983	break;
984	}
985	return ENQUEUE_EVENT1;
986	case XI_DeviceChanged1:
987	cookie = (XGenericEventCookie*)save;
988	if (!wireToDeviceChangedEvent((xXIDeviceChangedEvent*)event, cookie))
989	{
990	printf("XInputWireToCookie: CONVERSION FAILURE! evtype=%d\n",
991	ge->evtype);
992	break;
993	}
994	return ENQUEUE_EVENT1;
995	case XI_HierarchyChanged11:
996	cookie = (XGenericEventCookie*)save;
997	if (!wireToHierarchyChangedEvent((xXIHierarchyEvent*)event, cookie))
998	{
999	printf("XInputWireToCookie: CONVERSION FAILURE! evtype=%d\n",
1000	ge->evtype);
1001	break;
1002	}
1003	return ENQUEUE_EVENT1;
1004	case XI_TouchOwnership21:
1005	cookie = (XGenericEventCookie*)save;
1006	if (!wireToTouchOwnershipEvent((xXITouchOwnershipEvent*)event,
1007	cookie))
1008	{
1009	printf("XInputWireToCookie: CONVERSION FAILURE! evtype=%d\n",
1010	ge->evtype);
1011	break;
1012	}
1013	return ENQUEUE_EVENT1;
1014
1015	case XI_RawKeyPress13:
1016	case XI_RawKeyRelease14:
1017	case XI_RawButtonPress15:
1018	case XI_RawButtonRelease16:
1019	case XI_RawMotion17:
1020	case XI_RawTouchBegin22:
1021	case XI_RawTouchUpdate23:
1022	case XI_RawTouchEnd24:
1023	cookie = (XGenericEventCookie*)save;
1024	if (!wireToRawEvent(info, (xXIRawEvent*)event, cookie))
1025	{
1026	printf("XInputWireToCookie: CONVERSION FAILURE! evtype=%d\n",
1027	ge->evtype);
1028	break;
1029	}
1030	return ENQUEUE_EVENT1;
1031	case XI_Enter7:
1032	case XI_Leave8:
1033	case XI_FocusIn9:
1034	case XI_FocusOut10:
1035	cookie = (XGenericEventCookie*)save;
1036	if (!wireToEnterLeave((xXIEnterEvent*)event, cookie))
1037	{
1038	printf("XInputWireToCookie: CONVERSION FAILURE! evtype=%d\n",
1039	ge->evtype);
1040	break;
1041	}
1042	return ENQUEUE_EVENT1;
1043	case XI_PropertyEvent12:
1044	cookie = (XGenericEventCookie*)save;
1045	if (!wireToPropertyEvent((xXIPropertyEvent*)event, cookie))
1046	{
1047	printf("XInputWireToCookie: CONVERSION FAILURE! evtype=%d\n",
1048	ge->evtype);
1049	break;
1050	}
1051	return ENQUEUE_EVENT1;
1052	default:
1053	printf("XInputWireToCookie: Unknown generic event. type %d\n", ge->evtype);
1054
1055	}
1056	return DONT_ENQUEUE0;
1057	}
1058
1059	/**
1060	* Calculate length in bytes needed for the device event with the given
1061	* button mask length, valuator mask length + valuator mask. All parameters
1062	* in bytes.
1063	*/
1064	static inline int
1065	sizeDeviceEvent(int buttons_len, int valuators_len,
1066	unsigned char *valuators_mask)
1067	{
1068	int len;
1069
1070	len = sizeof(XIDeviceEvent);
1071	len += sizeof(XIButtonState) + buttons_len;
1072	len += sizeof(XIValuatorState) + valuators_len;
1073	len += count_bits(valuators_mask, valuators_len) * sizeof(double);
1074	len += sizeof(XIModifierState) + sizeof(XIGroupState);
1075
1076	return len;
1077	}
1078
1079	/* Return the size with added padding so next element would be
1080	double-aligned unless the architecture is known to allow unaligned
1081	data accesses. Not doing this can cause a bus error on
1082	MIPS N32. */
1083	static int
1084	pad_to_double(int size)
1085	{
1086	#if !defined(__i386__) && !defined(__sh__)
1087	if (size % sizeof(double) != 0)
1088	size += sizeof(double) - size % sizeof(double);
1089	#endif
1090	return size;
1091	}
1092
1093	/**
1094	* Set structure and atoms to size in bytes of XIButtonClassInfo, its
1095	* button state mask and labels array.
1096	*/
1097	static void
1098	sizeXIButtonClassType(int num_buttons, int* structure, int* state, int* atoms)
1099	{
1100	int size;
1101	int labels;
1102
1103	*structure = pad_to_double(sizeof(XIButtonClassInfo));
1104	size = ((((num_buttons + 7)/8) + 3)/4);
1105
1106	/* Force mask alignment with longs to avoid unaligned
1107	* access when accessing the atoms. */
1108	state = pad_to_double(size 4);
1109	labels = num_buttons * sizeof(Atom);
1110
1111	/* Force mask alignment with longs to avoid
1112	* unaligned access when accessing the atoms. */
1113	labels += ((((num_buttons + 7)/8) + 3)/4) * sizeof(Atom);
1114	*atoms = pad_to_double(labels);
1115	}
1116
1117	/**
1118	* Set structure and keycodes to size in bytes of XIKeyClassInfo and
1119	* its keycodes array.
1120	*/
1121	static void
1122	sizeXIKeyClassType(int num_keycodes, int* structure, int* keycodes)
1123	{
1124	*structure = pad_to_double(sizeof(XIKeyClassInfo));
1125	keycodes = pad_to_double(num_keycodes sizeof(int));
1126	}
1127
1128	/**
1129	* Return the size in bytes required to store the matching class type
1130	* num_elements is num_buttons for XIButtonClass or num_keycodes for
1131	* XIKeyClass.
1132	*
1133	* Also used from copy_classes in XIQueryDevice.c
1134	*/
1135	static int
1136	sizeDeviceClassType(int type, int num_elements)
1137	{
1138	int l = 0;
1139	int extra1 = 0;
1140	int extra2 = 0;
1141	switch(type)
1142	{
1143	case XIButtonClass1:
1144	sizeXIButtonClassType(num_elements, &l, &extra1, &extra2);
1145	l += extra1 + extra2;
1146	break;
1147	case XIKeyClass0:
1148	sizeXIKeyClassType(num_elements, &l, &extra1);
1149	l += extra1;
1150	break;
1151	case XIValuatorClass2:
1152	l = pad_to_double(sizeof(XIValuatorClassInfo));
1153	break;
1154	case XIScrollClass3:
1155	l = pad_to_double(sizeof(XIScrollClassInfo));
1156	break;
1157	case XITouchClass8:
1158	l = pad_to_double(sizeof(XITouchClassInfo));
1159	break;
1160	default:
1161	printf("sizeDeviceClassType: unknown type %d\n", type);
1162	break;
1163	}
1164	return l;
1165	}
1166
1167	static Boolint
1168	copyHierarchyEvent(XGenericEventCookie *cookie_in,
1169	XGenericEventCookie *cookie_out)
1170	{
1171	XIHierarchyEvent in, out;
1172	void *ptr;
1173
1174	in = cookie_in->data;
1175
1176	ptr = cookie_out->data = malloc(sizeof(XIHierarchyEvent) +
1177	in->num_info * sizeof(XIHierarchyInfo));
1178	if (!ptr)
1179	return False0;
1180
1181	out = next_block(&ptr, sizeof(XIHierarchyEvent));
1182	out = in;
1183	out->info = next_block(&ptr, in->num_info * sizeof(XIHierarchyInfo));
1184	memcpy(out->info, in->info, in->num_info * sizeof(XIHierarchyInfo));
1185
1186	return True1;
1187	}
1188
1189	static Boolint
1190	copyDeviceChangedEvent(XGenericEventCookie *in_cookie,
1191	XGenericEventCookie *out_cookie)
1192	{
1193	int len, i;
1194	XIDeviceChangedEvent in, out;
1195	XIAnyClassInfo *any;
1196	void *ptr;
1197
1198	in = in_cookie->data;
1199
1200	len = sizeof(XIDeviceChangedEvent);
1201	len += in->num_classes * sizeof(XIAnyClassInfo*);
1202
1203	for (i = 0; i < in->num_classes; i++)
1204	{
1205	any = in->classes[i];
1206	switch(any->type)
1207	{
1208	case XIButtonClass1:
1209	len += sizeDeviceClassType(XIButtonClass1,
1210	((XIButtonClassInfo*)any)->num_buttons);
1211	break;
1212	case XIKeyClass0:
1213	len += sizeDeviceClassType(XIKeyClass0,
1214	((XIKeyClassInfo*)any)->num_keycodes);
1215	break;
1216	case XIValuatorClass2:
1217	len += sizeDeviceClassType(XIValuatorClass2, 0);
1218	break;
1219	case XIScrollClass3:
1220	len += sizeDeviceClassType(XIScrollClass3, 0);
1221	break;
1222	default:
1223	printf("copyDeviceChangedEvent: unknown type %d\n",
1224	any->type);
1225	break;
1226	}
1227
1228	}
1229
1230	ptr = out_cookie->data = malloc(len);
1231	if (!ptr)
1232	return False0;
1233	out = next_block(&ptr, sizeof(XIDeviceChangedEvent));
1234	out = in;
1235
1236	out->classes = next_block(&ptr,
1237	out->num_classes * sizeof(XIAnyClassInfo*));
1238
1239	for (i = 0; i < in->num_classes; i++)
1240	{
1241	any = in->classes[i];
1242
1243	switch(any->type)
1244	{
1245	case XIButtonClass1:
1246	{
1247	int struct_size;
1248	int state_size;
1249	int labels_size;
1250	XIButtonClassInfo bin, bout;
1251	bin = (XIButtonClassInfo*)any;
1252	sizeXIButtonClassType(bin->num_buttons, &struct_size,
1253	&state_size, &labels_size);
1254	bout = next_block(&ptr, struct_size);
1255
1256	bout = bin;
1257	bout->state.mask = next_block(&ptr, state_size);
1258	memcpy(bout->state.mask, bin->state.mask,
1259	bout->state.mask_len);
1260
1261	bout->labels = next_block(&ptr, labels_size);
1262	memcpy(bout->labels, bin->labels, bout->num_buttons * sizeof(Atom));
1263	out->classes[i] = (XIAnyClassInfo*)bout;
1264	break;
1265	}
1266	case XIKeyClass0:
1267	{
1268	XIKeyClassInfo kin, kout;
1269	int struct_size;
1270	int keycodes_size;
1271	kin = (XIKeyClassInfo*)any;
1272	sizeXIKeyClassType(kin->num_keycodes, &struct_size,
1273	&keycodes_size);
1274
1275	kout = next_block(&ptr, struct_size);
1276	kout = kin;
1277	kout->keycodes = next_block(&ptr, keycodes_size);
1278	memcpy(kout->keycodes, kin->keycodes, kout->num_keycodes * sizeof(int));
1279	out->classes[i] = (XIAnyClassInfo*)kout;
1280	break;
1281	}
1282	case XIValuatorClass2:
1283	{
1284	XIValuatorClassInfo vin, vout;
1285	vin = (XIValuatorClassInfo*)any;
1286	vout = next_block(&ptr,
1287	sizeDeviceClassType(XIValuatorClass2, 0));
1288	vout = vin;
1289	out->classes[i] = (XIAnyClassInfo*)vout;
1290	break;
1291	}
1292	case XIScrollClass3:
1293	{
1294	XIScrollClassInfo sin, sout;
1295	sin = (XIScrollClassInfo*)any;
1296	sout = next_block(&ptr,
1297	sizeDeviceClassType(XIScrollClass3, 0));
1298	sout = sin;
1299	out->classes[i] = (XIAnyClassInfo*)sout;
1300	break;
1301	}
1302	}
1303	}
1304
1305	return True1;
1306	}
1307
1308	static Boolint
1309	copyDeviceEvent(XGenericEventCookie *cookie_in,
1310	XGenericEventCookie *cookie_out)
1311	{
1312	int len;
1313	XIDeviceEvent in, out;
1314	int bits; /* valuator bits */
1315	void *ptr;
1316
1317	in = cookie_in->data;
1318	bits = count_bits(in->valuators.mask, in->valuators.mask_len);
1319
1320	len = sizeDeviceEvent(in->buttons.mask_len, in->valuators.mask_len,
1321	in->valuators.mask);
1322
1323	ptr = cookie_out->data = malloc(len);
1324	if (!ptr)
1325	return False0;
1326
1327	out = next_block(&ptr, sizeof(XIDeviceEvent));
1328	out = in;
1329
1330	out->buttons.mask = next_block(&ptr, in->buttons.mask_len);
1331	memcpy(out->buttons.mask, in->buttons.mask,
1332	out->buttons.mask_len);
1333	out->valuators.mask = next_block(&ptr, in->valuators.mask_len);
1334	memcpy(out->valuators.mask, in->valuators.mask,
1335	out->valuators.mask_len);
1336	out->valuators.values = next_block(&ptr, bits * sizeof(double));
1337	memcpy(out->valuators.values, in->valuators.values,
1338	bits * sizeof(double));
1339
1340	return True1;
1341	}
1342
1343	static Boolint
1344	copyEnterEvent(XGenericEventCookie *cookie_in,
1345	XGenericEventCookie *cookie_out)
1346	{
1347	int len;
1348	XIEnterEvent in, out;
1349	void *ptr;
1350
1351	in = cookie_in->data;
1352
1353	len = sizeof(XIEnterEvent) + in->buttons.mask_len;
1354
1355	ptr = cookie_out->data = malloc(len);
1356	if (!ptr)
1357	return False0;
1358
1359	out = next_block(&ptr, sizeof(XIEnterEvent));
1360	out = in;
1361
1362	out->buttons.mask = next_block(&ptr, in->buttons.mask_len);
1363	memcpy(out->buttons.mask, in->buttons.mask, out->buttons.mask_len);
1364
1365	return True1;
1366	}
1367
1368	static Boolint
1369	copyPropertyEvent(XGenericEventCookie *cookie_in,
1370	XGenericEventCookie *cookie_out)
1371	{
1372	XIPropertyEvent in, out;
1373
1374	in = cookie_in->data;
1375
1376	out = cookie_out->data = malloc(sizeof(XIPropertyEvent));
1377	if (!out)
1378	return False0;
1379
1380	out = in;
1381	return True1;
1382	}
1383
1384	static Boolint
1385	copyTouchOwnershipEvent(XGenericEventCookie *cookie_in,
1386	XGenericEventCookie *cookie_out)
1387	{
1388	XITouchOwnershipEvent in, out;
1389
1390	in = cookie_in->data;
1391
1392	out = cookie_out->data = malloc(sizeof(XITouchOwnershipEvent));
1393	if (!out)
1394	return False0;
1395
1396	out = in;
1397	return True1;
1398	}
1399
1400	static Boolint
1401	copyRawEvent(XGenericEventCookie *cookie_in,
1402	XGenericEventCookie *cookie_out)
1403	{
1404	XIRawEvent in, out;
1405	void *ptr;
1406	int len;
1407	int bits;
1408
1409	in = cookie_in->data;
1410
1411	bits = count_bits(in->valuators.mask, in->valuators.mask_len);
1412	len = sizeof(XIRawEvent) + in->valuators.mask_len;
1413	len += bits * sizeof(double) * 2;
1414
1415	ptr = cookie_out->data = malloc(len);
1416	if (!ptr)
1417	return False0;
1418
1419	out = next_block(&ptr, sizeof(XIRawEvent));
1420	out = in;
1421	out->valuators.mask = next_block(&ptr, out->valuators.mask_len);
1422	memcpy(out->valuators.mask, in->valuators.mask, out->valuators.mask_len);
1423
1424	out->valuators.values = next_block(&ptr, bits * sizeof(double));
1425	memcpy(out->valuators.values, in->valuators.values, bits * sizeof(double));
1426
1427	out->raw_values = next_block(&ptr, bits * sizeof(double));
1428	memcpy(out->raw_values, in->raw_values, bits * sizeof(double));
1429
1430	return True1;
1431	}
1432
1433
1434
1435	static Boolint
1436	XInputCopyCookie(Display dpy, XGenericEventCookie in, XGenericEventCookie *out)
1437	{
1438	int ret = True1;
1439
1440	XExtDisplayInfo *info = XInput_find_display(dpy);
1441
1442	if (in->extension != info->codes->major_opcode)
1443	{
1444	printf("XInputCopyCookie: wrong extension opcode %d\n",
1445	in->extension);
1446	return False0;
1447	}
1448
1449	out = in;
1450	out->data = NULL((void*)0);
1451	out->cookie = 0;
1452
1453	switch(in->evtype) {
1454	case XI_Motion6:
1455	case XI_ButtonPress4:
1456	case XI_ButtonRelease5:
1457	case XI_KeyPress2:
1458	case XI_KeyRelease3:
1459	case XI_TouchBegin18:
1460	case XI_TouchUpdate19:
1461	case XI_TouchEnd20:
1462	ret = copyDeviceEvent(in, out);
1463	break;
1464	case XI_DeviceChanged1:
1465	ret = copyDeviceChangedEvent(in, out);
1466	break;
1467	case XI_HierarchyChanged11:
1468	ret = copyHierarchyEvent(in, out);
1469	break;
1470	case XI_Enter7:
1471	case XI_Leave8:
1472	case XI_FocusIn9:
1473	case XI_FocusOut10:
1474	ret = copyEnterEvent(in, out);
1475	break;
1476	case XI_PropertyEvent12:
1477	ret = copyPropertyEvent(in, out);
1478	break;
1479	case XI_TouchOwnership21:
1480	ret = copyTouchOwnershipEvent(in, out);
1481	break;
1482	case XI_RawKeyPress13:
1483	case XI_RawKeyRelease14:
1484	case XI_RawButtonPress15:
1485	case XI_RawButtonRelease16:
1486	case XI_RawMotion17:
1487	ret = copyRawEvent(in, out);
1488	break;
1489	default:
1490	printf("XInputCopyCookie: unknown evtype %d\n", in->evtype);
1491	ret = False0;
1492	}
1493
1494	if (!ret)
1495	printf("XInputCopyCookie: Failed to copy evtype %d", in->evtype);
1496	return ret;
1497	}
1498
1499	static int
1500	wireToDeviceEvent(xXIDeviceEvent in, XGenericEventCookie cookie)
1501	{
1502	int len, i;
1503	unsigned char *ptr;
1504	void *ptr_lib;
1505	FP3232 *values;
1506	XIDeviceEvent *out;
1507
1508	ptr = (unsigned char)&in[1] + in->buttons_len 4;
1509
1510	len = sizeDeviceEvent(in->buttons_len * 4, in->valuators_len * 4, ptr);
1511
1512	cookie->data = ptr_lib = malloc(len);
1513
1514	out = next_block(&ptr_lib, sizeof(XIDeviceEvent));
1515	out->display = cookie->display;
1516	out->type = in->type;
1517	out->extension = in->extension;
1518	out->evtype = in->evtype;
1519	out->send_event = ((in->type & 0x80) != 0);
1520	out->time = in->time;
1521	out->deviceid = in->deviceid;
1522	out->sourceid = in->sourceid;
1523	out->detail = in->detail;
1524	out->root = in->root;
1525	out->event = in->event;
1526	out->child = in->child;
1527	out->root_x = FP1616toDBL(in->root_x)((in->root_x) * 1.0 / (1 << 16));
1528	out->root_y = FP1616toDBL(in->root_y)((in->root_y) * 1.0 / (1 << 16));
1529	out->event_x = FP1616toDBL(in->event_x)((in->event_x) * 1.0 / (1 << 16));
1530	out->event_y = FP1616toDBL(in->event_y)((in->event_y) * 1.0 / (1 << 16));
1531	out->flags = in->flags;
1532	out->mods.base = in->mods.base_mods;
1533	out->mods.locked = in->mods.locked_mods;
1534	out->mods.latched = in->mods.latched_mods;
1535	out->mods.effective = in->mods.effective_mods;
1536	out->group.base = in->group.base_group;
1537	out->group.locked = in->group.locked_group;
1538	out->group.latched = in->group.latched_group;
1539	out->group.effective = in->group.effective_group;
1540	out->buttons.mask_len = in->buttons_len * 4;
1541	out->valuators.mask_len = in->valuators_len * 4;
1542
1543	out->buttons.mask = next_block(&ptr_lib, out->buttons.mask_len);
1544
1545	/* buttons */
1546	ptr = (unsigned char*)&in[1];
1547	memcpy(out->buttons.mask, ptr, out->buttons.mask_len);
1548	ptr += in->buttons_len * 4;
1549
1550	/* valuators */
1551	out->valuators.mask = next_block(&ptr_lib, out->valuators.mask_len);
1552	memcpy(out->valuators.mask, ptr, out->valuators.mask_len);
1553	ptr += in->valuators_len * 4;
1554
1555	len = count_bits(out->valuators.mask, out->valuators.mask_len);
1556	out->valuators.values = next_block(&ptr_lib, len * sizeof(double));
1557
1558	values = (FP3232*)ptr;
1559	for (i = 0; i < len; i++, values++)
1560	{
1561	out->valuators.values[i] = values->integral;
1562	out->valuators.values[i] += ((double)values->frac / (1 << 16) / (1 << 16));
1563	}
1564
1565
1566	return 1;
1567	}
1568
1569	_X_HIDDEN__attribute__((visibility("hidden"))) int
1570	size_classes(xXIAnyInfo* from, int nclasses)
1571	{
1572	int len, i;
1573	xXIAnyInfo *any_wire;
1574	char *ptr_wire;
1575
1576	/* len for to->classes */
1577	len = pad_to_double(nclasses * sizeof(XIAnyClassInfo*));
1578	ptr_wire = (char*)from;
1579	for (i = 0; i < nclasses; i++)
1580	{
1581	int l = 0;
1582	any_wire = (xXIAnyInfo*)ptr_wire;
1583	switch(any_wire->type)
1584	{
1585	case XIButtonClass1:
1586	l = sizeDeviceClassType(XIButtonClass1,
1587	((xXIButtonInfo*)any_wire)->num_buttons);
1588	break;
1589	case XIKeyClass0:
1590	l = sizeDeviceClassType(XIKeyClass0,
1591	((xXIKeyInfo*)any_wire)->num_keycodes);
1592	break;
1593	case XIValuatorClass2:
1594	l = sizeDeviceClassType(XIValuatorClass2, 0);
1595	break;
1596	case XIScrollClass3:
1597	l = sizeDeviceClassType(XIScrollClass3, 0);
1598	break;
1599	case XITouchClass8:
1600	l = sizeDeviceClassType(XITouchClass8, 0);
1601	break;
1602	}
1603
1604	len += l;
1605	ptr_wire += any_wire->length * 4;
1606	}
1607
1608	return len;
1609	}
1610
1611	/* Copy classes from any into to->classes and return the number of bytes
1612	* copied. Memory layout of to->classes is
1613	* [clsptr][clsptr][clsptr][classinfo][classinfo]...
1614	* \|________\|___________^
1615	* \|______________________^
1616	*/
1617	_X_HIDDEN__attribute__((visibility("hidden"))) int
1618	copy_classes(XIDeviceInfo* to, xXIAnyInfo* from, int *nclasses)
1619	{
1620	XIAnyClassInfo *any_lib;
1621	xXIAnyInfo *any_wire;
1622	void *ptr_lib;
1623	char *ptr_wire;
1624	int i, len;
1625	int cls_idx = 0;
1626
1627	if (!to->classes)
1628	return -1;
1629
1630	ptr_wire = (char*)from;
1631	ptr_lib = to->classes;
1632	to->classes = next_block(&ptr_lib,
1633	pad_to_double((nclasses) sizeof(XIAnyClassInfo*)));
1634	memset(to->classes, 0, (nclasses) sizeof(XIAnyClassInfo*));
1635	len = 0; /* count wire length */
1636
1637	for (i = 0; i < *nclasses; i++)
1638	{
1639	any_lib = (XIAnyClassInfo*)ptr_lib;
1640	any_wire = (xXIAnyInfo*)ptr_wire;
1641
1642	switch(any_wire->type)
1643	{
1644	case XIButtonClass1:
1645	{
1646	XIButtonClassInfo *cls_lib;
1647	xXIButtonInfo *cls_wire;
1648	uint32_t *atoms;
1649	int j;
1650	int struct_size;
1651	int state_size;
1652	int labels_size;
1653	int wire_mask_size;
1654
1655	cls_wire = (xXIButtonInfo*)any_wire;
1656	sizeXIButtonClassType(cls_wire->num_buttons,
1657	&struct_size, &state_size,
1658	&labels_size);
1659	cls_lib = next_block(&ptr_lib, struct_size);
1660	wire_mask_size = ((cls_wire->num_buttons + 7)/8 + 3)/4 * 4;
1661
1662	cls_lib->type = cls_wire->type;
1663	cls_lib->sourceid = cls_wire->sourceid;
1664	cls_lib->num_buttons = cls_wire->num_buttons;
1665	cls_lib->state.mask_len = state_size;
1666	cls_lib->state.mask = next_block(&ptr_lib, state_size);
1667	memcpy(cls_lib->state.mask, &cls_wire[1],
1668	wire_mask_size);
1669	if (state_size != wire_mask_size)
1670	memset(&cls_lib->state.mask[wire_mask_size], 0,
1671	state_size - wire_mask_size);
1672
1673	cls_lib->labels = next_block(&ptr_lib, labels_size);
1674
1675	atoms =(uint32_t)((char)&cls_wire[1] + wire_mask_size);
1676	for (j = 0; j < cls_lib->num_buttons; j++)
1677	cls_lib->labels[j] = *atoms++;
1678
1679	to->classes[cls_idx++] = any_lib;
1680	break;
1681	}
1682	case XIKeyClass0:
1683	{
1684	XIKeyClassInfo *cls_lib;
1685	xXIKeyInfo *cls_wire;
1686	int struct_size;
1687	int keycodes_size;
1688
1689	cls_wire = (xXIKeyInfo*)any_wire;
1690	sizeXIKeyClassType(cls_wire->num_keycodes,
1691	&struct_size, &keycodes_size);
1692	cls_lib = next_block(&ptr_lib, struct_size);
1693
1694	cls_lib->type = cls_wire->type;
1695	cls_lib->sourceid = cls_wire->sourceid;
1696	cls_lib->num_keycodes = cls_wire->num_keycodes;
1697	cls_lib->keycodes = next_block(&ptr_lib, keycodes_size);
1698	memcpy(cls_lib->keycodes, &cls_wire[1],
1699	cls_lib->num_keycodes);
1700
1701	to->classes[cls_idx++] = any_lib;
1702	break;
1703	}
1704	case XIValuatorClass2:
1705	{
1706	XIValuatorClassInfo *cls_lib;
1707	xXIValuatorInfo *cls_wire;
1708
1709	cls_lib =
1710	next_block(&ptr_lib,
1711	sizeDeviceClassType(XIValuatorClass2, 0));
1712	cls_wire = (xXIValuatorInfo*)any_wire;
1713
1714	cls_lib->type = cls_wire->type;
1715	cls_lib->sourceid = cls_wire->sourceid;
1716	cls_lib->number = cls_wire->number;
1717	cls_lib->label = cls_wire->label;
1718	cls_lib->resolution = cls_wire->resolution;
1719	cls_lib->min = cls_wire->min.integral;
1720	cls_lib->max = cls_wire->max.integral;
1721	cls_lib->value = cls_wire->value.integral;
1722	/* FIXME: fractional parts */
1723	cls_lib->mode = cls_wire->mode;
1724
1725	to->classes[cls_idx++] = any_lib;
1726	}
1727	break;
1728	case XIScrollClass3:
1729	{
1730	XIScrollClassInfo *cls_lib;
1731	xXIScrollInfo *cls_wire;
1732
1733	cls_lib =
1734	next_block(&ptr_lib,
1735	sizeDeviceClassType(XIScrollClass3, 0));
1736	cls_wire = (xXIScrollInfo*)any_wire;
1737
1738	cls_lib->type = cls_wire->type;
1739	cls_lib->sourceid = cls_wire->sourceid;
1740	cls_lib->number = cls_wire->number;
1741	cls_lib->scroll_type= cls_wire->scroll_type;
1742	cls_lib->flags = cls_wire->flags;
1743	cls_lib->increment = cls_wire->increment.integral;
1744	cls_lib->increment += (unsigned int)cls_wire->increment.frac/(double)(1ULL << 32);
1745
1746	to->classes[cls_idx++] = any_lib;
1747	}
1748	break;
1749	case XITouchClass8:
1750	{
1751	XITouchClassInfo *cls_lib;
1752	xXITouchInfo *cls_wire;
1753
1754	cls_wire = (xXITouchInfo*)any_wire;
1755	cls_lib = next_block(&ptr_lib, sizeof(XITouchClassInfo));
1756
1757	cls_lib->type = cls_wire->type;
1758	cls_lib->sourceid = cls_wire->sourceid;
1759	cls_lib->mode = cls_wire->mode;
1760	cls_lib->num_touches = cls_wire->num_touches;
1761
1762	to->classes[cls_idx++] = any_lib;
1763	}
1764	break;
1765	}
1766	len += any_wire->length * 4;
1767	ptr_wire += any_wire->length * 4;
1768	}
1769
1770	/* we may have skipped unknown classes, reset nclasses */
1771	*nclasses = cls_idx;
1772	return len;
1773	}
1774
1775
1776	static int
1777	wireToDeviceChangedEvent(xXIDeviceChangedEvent in, XGenericEventCookie cookie)
1778	{
1779	XIDeviceChangedEvent *out;
1780	XIDeviceInfo info;
1781	int len;
1782	int nclasses = in->num_classes;
1783
1784	len = size_classes((xXIAnyInfo*)&in[1], in->num_classes);
1785
1786	cookie->data = out = malloc(sizeof(XIDeviceChangedEvent) + len);
1787
1788	out->type = in->type;
1789	out->display = cookie->display;
1790	out->extension = in->extension;
1791	out->evtype = in->evtype;
1792	out->send_event = ((in->type & 0x80) != 0);
1793	out->time = in->time;
1794	out->deviceid = in->deviceid;
1795	out->sourceid = in->sourceid;
1796	out->reason = in->reason;
1797
1798	out->classes = (XIAnyClassInfo**)&out[1];
1799
1800	info.classes = out->classes;
1801
1802	copy_classes(&info, (xXIAnyInfo*)&in[1], &nclasses);
1803	out->num_classes = nclasses;
1804
1805	return 1;
1806	}
1807
1808	static int
1809	wireToHierarchyChangedEvent(xXIHierarchyEvent in, XGenericEventCookie cookie)
1810	{
1811	int i;
1812	XIHierarchyInfo *info_out;
1813	xXIHierarchyInfo *info_in;
1814	XIHierarchyEvent *out;
1815
1816	cookie->data = out = malloc(sizeof(XIHierarchyEvent) + in->num_info * sizeof(XIHierarchyInfo));;
1817
1818	out->info = (XIHierarchyInfo*)&out[1];
1819	out->display = cookie->display;
1820	out->type = in->type;
1821	out->extension = in->extension;
1822	out->evtype = in->evtype;
1823	out->send_event = ((in->type & 0x80) != 0);
1824	out->time = in->time;
1825	out->flags = in->flags;
1826	out->num_info = in->num_info;
1827
1828	info_out = out->info;
1829	info_in = (xXIHierarchyInfo*)&in[1];
1830
1831	for (i = 0; i < out->num_info; i++, info_out++, info_in++)
1832	{
1833	info_out->deviceid = info_in->deviceid;
1834	info_out->attachment = info_in->attachment;
1835	info_out->use = info_in->use;
1836	info_out->enabled = info_in->enabled;
1837	info_out->flags = info_in->flags;
1838	}
1839
1840	return 1;
1841	}
1842
1843	static int
1844	wireToRawEvent(XExtDisplayInfo info, xXIRawEvent in, XGenericEventCookie *cookie)
1845	{
1846	int len, i, bits;
1847	FP3232 *values;
1848	XIRawEvent *out;
1849	void *ptr;
1850
1851	len = sizeof(XIRawEvent) + in->valuators_len * 4;
1852	bits = count_bits((unsigned char)&in[1], in->valuators_len 4);
1853	len += bits * sizeof(double) * 2; /* raw + normal */
1854
1855	cookie->data = ptr = calloc(1, len);
1856	if (!ptr)
1857	return 0;
1858
1859	out = next_block(&ptr, sizeof(XIRawEvent));
1860	out->type = in->type;
1861	out->display = cookie->display;
1862	out->extension = in->extension;
1863	out->evtype = in->evtype;
1864	out->send_event = ((in->type & 0x80) != 0);
1865	out->time = in->time;
1866	out->detail = in->detail;
1867	out->deviceid = in->deviceid;
1868	out->flags = in->flags;
1869
1870	/* https://bugs.freedesktop.org/show_bug.cgi?id=34240 */
1871	if (_XiCheckVersion(info, XInput_2_29) >= 0)
1872	out->sourceid = in->sourceid;
1873	else
1874	out->sourceid = 0;
1875
1876	out->valuators.mask_len = in->valuators_len * 4;
1877	out->valuators.mask = next_block(&ptr, out->valuators.mask_len);
1878	memcpy(out->valuators.mask, &in[1], out->valuators.mask_len);
1879
1880	out->valuators.values = next_block(&ptr, bits * sizeof(double));
1881	out->raw_values = next_block(&ptr, bits * sizeof(double));
1882
1883	values = (FP3232)(((char)&in[1]) + in->valuators_len * 4);
1884	for (i = 0; i < bits; i++)
1885	{
1886	out->valuators.values[i] = values->integral;
1887	out->valuators.values[i] += ((double)values->frac / (1 << 16) / (1 << 16));
1888	out->raw_values[i] = (values + bits)->integral;
1889	out->raw_values[i] += ((double)(values + bits)->frac / (1 << 16) / (1 << 16));
1890	values++;
1891	}
1892
1893	return 1;
1894	}
1895
1896	/* Memory layout of XIEnterEvents:
1897	[event][modifiers][group][button]
1898	*/
1899	static int
1900	wireToEnterLeave(xXIEnterEvent in, XGenericEventCookie cookie)
1901	{
1902	int len;
1903	XIEnterEvent *out;
1904
1905	len = sizeof(XIEnterEvent) + in->buttons_len * 4;
1906
1907	cookie->data = out = malloc(len);
1908	out->buttons.mask = (unsigned char*)&out[1];
1909
1910	out->type = in->type;
1911	out->display = cookie->display;
1912	out->extension = in->extension;
1913	out->evtype = in->evtype;
1914	out->send_event = ((in->type & 0x80) != 0);
1915	out->time = in->time;
1916	out->detail = in->detail;
1917	out->deviceid = in->deviceid;
1918	out->root = in->root;
1919	out->event = in->event;
1920	out->child = in->child;
1921	out->sourceid = in->sourceid;
1922	out->root_x = FP1616toDBL(in->root_x)((in->root_x) * 1.0 / (1 << 16));
1923	out->root_y = FP1616toDBL(in->root_y)((in->root_y) * 1.0 / (1 << 16));
1924	out->event_x = FP1616toDBL(in->event_x)((in->event_x) * 1.0 / (1 << 16));
1925	out->event_y = FP1616toDBL(in->event_y)((in->event_y) * 1.0 / (1 << 16));
1926	out->mode = in->mode;
1927	out->focus = in->focus;
1928	out->same_screen = in->same_screen;
1929
1930	out->mods.base = in->mods.base_mods;
1931	out->mods.locked = in->mods.locked_mods;
1932	out->mods.latched = in->mods.latched_mods;
1933	out->mods.effective = in->mods.effective_mods;
1934	out->group.base = in->group.base_group;
1935	out->group.locked = in->group.locked_group;
1936	out->group.latched = in->group.latched_group;
1937	out->group.effective = in->group.effective_group;
1938
1939	out->buttons.mask_len = in->buttons_len * 4;
1940	memcpy(out->buttons.mask, &in[1], out->buttons.mask_len);
1941
1942	return 1;
1943	}
1944
1945	static int
1946	wireToPropertyEvent(xXIPropertyEvent in, XGenericEventCookie cookie)
1947	{
1948	XIPropertyEvent *out = malloc(sizeof(XIPropertyEvent));
1949
1950	cookie->data = out;
1951
1952	out->type = in->type;
1953	out->extension = in->extension;
1954	out->evtype = in->evtype;
1955	out->send_event = ((in->type & 0x80) != 0);
1956	out->time = in->time;
1957	out->property = in->property;
1958	out->what = in->what;
1959	out->deviceid = in->deviceid;
1960
1961	return 1;
1962	}
1963
1964	static int
1965	wireToTouchOwnershipEvent(xXITouchOwnershipEvent *in,
1966	XGenericEventCookie *cookie)
1967	{
1968	XITouchOwnershipEvent *out = malloc(sizeof(XITouchOwnershipEvent));
1969
1970	cookie->data = out;
1971
1972	out->type = in->type;
1973	out->display = cookie->display;
1974	out->extension = in->extension;
1975	out->evtype = in->evtype;
1976	out->send_event = ((in->type & 0x80) != 0);
1977	out->time = in->time;
1978	out->deviceid = in->deviceid;
1979	out->sourceid = in->sourceid;
1980	out->touchid = in->touchid;
1981	out->root = in->root;
1982	out->event = in->event;
1983	out->child = in->child;
1984	out->flags = in->flags;
1985
1986	return 1;
1987	}