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source: mainline/uspace/lib/usb/src/hidparser.c@ 0bd4810c

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Last change on this file since 0bd4810c was 0bd4810c, checked in by Matej Klonfar <maklf@…>, 14 years ago
Buffer length of parsed input report
Property mode set to `100644`
File size: 19.2 KB

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1	/*
2	* Copyright (c) 2010 Vojtech Horky
3	* All rights reserved.
4	*
5	* Redistribution and use in source and binary forms, with or without
6	* modification, are permitted provided that the following conditions
7	* are met:
8	*
9	* - Redistributions of source code must retain the above copyright
10	* notice, this list of conditions and the following disclaimer.
11	* - Redistributions in binary form must reproduce the above copyright
12	* notice, this list of conditions and the following disclaimer in the
13	* documentation and/or other materials provided with the distribution.
14	* - The name of the author may not be used to endorse or promote products
15	* derived from this software without specific prior written permission.
16	*
17	* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
18	* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
19	* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
20	* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
21	* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
22	* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
23	* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
24	* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
25	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
26	* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
27	*/
28
29	/** @addtogroup libusb
30	* @{
31	*/
32	/** @file
33	* @brief HID parser implementation.
34	*/
35	#include <usb/classes/hidparser.h>
36	#include <errno.h>
37	#include <stdio.h>
38	#include <malloc.h>
39	#include <mem.h>
40	#include <usb/debug.h>
41
42	#define USB_HID_NEW_REPORT_ITEM 1
43	#define USB_HID_NO_ACTION 2
44	#define USB_HID_UNKNOWN_TAG -99
45
46	#define BAD_HACK_USAGE_PAGE 0x07
47
48	int usb_hid_report_parse_tag(uint8_t tag, uint8_t class, const uint8_t *data, size_t item_size,
49	usb_hid_report_item_t *report_item);
50	int usb_hid_report_parse_main_tag(uint8_t tag, const uint8_t *data, size_t item_size,
51	usb_hid_report_item_t *report_item);
52	int usb_hid_report_parse_global_tag(uint8_t tag, const uint8_t *data, size_t item_size,
53	usb_hid_report_item_t *report_item);
54	int usb_hid_report_parse_local_tag(uint8_t tag, const uint8_t *data, size_t item_size,
55	usb_hid_report_item_t *report_item);
56
57	void usb_hid_descriptor_print_list(link_t *head);
58	int usb_hid_report_reset_local_items();
59	void usb_hid_free_report_list(link_t *head);
60	int32_t usb_hid_report_tag_data_int32(const uint8_t *data, size_t size);
61	inline size_t usb_hid_count_item_offset(usb_hid_report_item_t * report_item, size_t offset);
62	int usb_hid_translate_data(usb_hid_report_item_t item, const uint8_t data, size_t j);
63	int usb_pow(int a, int b);
64
65	int usb_pow(int a, int b)
66	{
67	switch(b) {
68	case 0:
69	return 1;
70	break;
71	case 1:
72	return a;
73	break;
74	default:
75	return a * usb_pow(a, b-1);
76	break;
77	}
78	}
79
80	/**
81	*
82	*/
83	int usb_hid_parser_init(usb_hid_report_parser_t *parser)
84	{
85	if(parser == NULL) {
86	return -1;
87	}
88
89	list_initialize(&(parser->input));
90	list_initialize(&(parser->output));
91	list_initialize(&(parser->feature));
92
93	return EOK;
94	}
95
96
97	/** Parse HID report descriptor.
98	*
99	* @param parser Opaque HID report parser structure.
100	* @param data Data describing the report.
101	* @return Error code.
102	*/
103	int usb_hid_parse_report_descriptor(usb_hid_report_parser_t *parser,
104	const uint8_t *data, size_t size)
105	{
106	size_t i=0;
107	uint8_t tag=0;
108	uint8_t item_size=0;
109	int class=0;
110	int ret;
111	usb_hid_report_item_t *report_item=0;
112	usb_hid_report_item_t *new_report_item;
113
114	size_t offset_input=0;
115	size_t offset_output=0;
116	size_t offset_feature=0;
117
118
119	if(!(report_item=malloc(sizeof(usb_hid_report_item_t)))){
120	return ENOMEM;
121	}
122	memset(report_item, 0, sizeof(usb_hid_report_item_t));
123
124	link_initialize(&(report_item->link));
125
126	while(i<size){
127	if(!USB_HID_ITEM_IS_LONG(data[i])){
128
129	if((i+USB_HID_ITEM_SIZE(data[i]))>= size){
130	return -1; // TODO ERROR CODE
131	}
132
133	tag = USB_HID_ITEM_TAG(data[i]);
134	item_size = USB_HID_ITEM_SIZE(data[i]);
135	class = USB_HID_ITEM_TAG_CLASS(data[i]);
136
137	usb_log_debug2(
138	"i(%u) data(%X) value(%X): TAG %u, class %u, size %u - ", i,
139	data[i], usb_hid_report_tag_data_int32(data+i+1,item_size),
140	tag, class, item_size);
141
142	ret = usb_hid_report_parse_tag(tag,class,data+i+1,
143	item_size,report_item);
144	usb_log_debug2("ret: %u\n", ret);
145	switch(ret){
146	case USB_HID_NEW_REPORT_ITEM:
147	// store report item to report and create the new one
148	usb_log_debug("\nNEW REPORT ITEM: %X",tag);
149
150	switch(tag) {
151	case USB_HID_REPORT_TAG_INPUT:
152	report_item->offset = offset_input;
153	offset_input += report_item->count * report_item->size;
154	usb_log_debug(" - INPUT\n");
155	list_append(&(report_item->link), &(parser->input));
156	break;
157	case USB_HID_REPORT_TAG_OUTPUT:
158	report_item->offset = offset_output;
159	offset_output += report_item->count * report_item->size;
160	usb_log_debug(" - OUTPUT\n");
161	list_append(&(report_item->link), &(parser->output));
162
163	break;
164	case USB_HID_REPORT_TAG_FEATURE:
165	report_item->offset = offset_feature;
166	offset_feature += report_item->count * report_item->size;
167	usb_log_debug(" - FEATURE\n");
168	list_append(&(report_item->link), &(parser->feature));
169	break;
170	default:
171	usb_log_debug("\tjump over - tag %X\n", tag);
172	break;
173	}
174
175	/* clone current state table to the new item */
176	if(!(new_report_item = malloc(sizeof(usb_hid_report_item_t)))) {
177	return ENOMEM;
178	}
179	memcpy(new_report_item,report_item, sizeof(usb_hid_report_item_t));
180	link_initialize(&(new_report_item->link));
181	report_item = new_report_item;
182
183	break;
184	case USB_HID_REPORT_TAG_PUSH:
185	// push current state to stack
186	// not yet implemented
187	break;
188	case USB_HID_REPORT_TAG_POP:
189	// restore current state from stack
190	// not yet implemented
191	break;
192
193	default:
194	// nothing special to do
195	break;
196	}
197
198	/* jump over the processed block */
199	i += 1 + USB_HID_ITEM_SIZE(data[i]);
200	}
201	else{
202	// TBD
203	i += 3 + USB_HID_ITEM_SIZE(data[i+1]);
204	}
205
206
207	}
208
209	return EOK;
210	}
211
212
213	/**
214	* Parse input report.
215	*
216	* @param data Data for report
217	* @param size Size of report
218	* @param callbacks Callbacks for report actions
219	* @param arg Custom arguments
220	*
221	* @return Error code
222	*/
223	int usb_hid_boot_keyboard_input_report(const uint8_t *data, size_t size,
224	const usb_hid_report_in_callbacks_t callbacks, void arg)
225	{
226	int i;
227	usb_hid_report_item_t item;
228
229	/* fill item due to the boot protocol report descriptor */
230	// modifier keys are in the first byte
231	uint8_t modifiers = data[0];
232
233	item.offset = 2; /* second byte is reserved */
234	item.size = 8;
235	item.count = 6;
236	item.usage_minimum = 0;
237	item.usage_maximum = 255;
238	item.logical_minimum = 0;
239	item.logical_maximum = 255;
240
241	if (size != 8) {
242	return -1; //ERANGE;
243	}
244
245	uint8_t keys[6];
246	for (i = 0; i < item.count; i++) {
247	keys[i] = data[i + item.offset];
248	}
249
250	callbacks->keyboard(keys, 6, modifiers, arg);
251	return EOK;
252	}
253
254	/**
255	* Makes output report for keyboard boot protocol
256	*
257	* @param leds
258	* @param output Output report data buffer
259	* @param size Size of the output buffer
260	* @return Error code
261	*/
262	int usb_hid_boot_keyboard_output_report(uint8_t leds, uint8_t *data, size_t size)
263	{
264	if(size != 1){
265	return -1;
266	}
267
268	/* used only first five bits, others are only padding*/
269	*data = leds;
270	return EOK;
271	}
272
273	/**
274	*
275	* @param Tag to parse
276	* @param Report descriptor buffer
277	* @param Size of data belongs to this tag
278	* @param Current report item structe
279	* @return Code of action to be done next
280	*/
281	int usb_hid_report_parse_tag(uint8_t tag, uint8_t class, const uint8_t *data, size_t item_size,
282	usb_hid_report_item_t *report_item)
283	{
284	int ret;
285
286	switch(class){
287	case USB_HID_TAG_CLASS_MAIN:
288
289	if((ret=usb_hid_report_parse_main_tag(tag,data,item_size,report_item)) == EOK) {
290	return USB_HID_NEW_REPORT_ITEM;
291	}
292	else {
293	/TODO process the error /
294	return ret;
295	}
296	break;
297
298	case USB_HID_TAG_CLASS_GLOBAL:
299	return usb_hid_report_parse_global_tag(tag,data,item_size,report_item);
300	break;
301
302	case USB_HID_TAG_CLASS_LOCAL:
303	return usb_hid_report_parse_local_tag(tag,data,item_size,report_item);
304	break;
305	default:
306	return USB_HID_NO_ACTION;
307	}
308	}
309
310	/**
311	* Parse main tags of report descriptor
312	*
313	* @param Tag identifier
314	* @param Data buffer
315	* @param Length of data buffer
316	* @param Current state table
317	* @return Error code
318	*/
319
320	int usb_hid_report_parse_main_tag(uint8_t tag, const uint8_t *data, size_t item_size,
321	usb_hid_report_item_t *report_item)
322	{
323	switch(tag)
324	{
325	case USB_HID_REPORT_TAG_INPUT:
326	case USB_HID_REPORT_TAG_OUTPUT:
327	case USB_HID_REPORT_TAG_FEATURE:
328	report_item->item_flags = *data;
329	return EOK;
330	break;
331
332	case USB_HID_REPORT_TAG_COLLECTION:
333	// TODO
334	return USB_HID_NO_ACTION;
335	break;
336
337	case USB_HID_REPORT_TAG_END_COLLECTION:
338	/* should be ignored */
339	return USB_HID_NO_ACTION;
340	break;
341	default:
342	return USB_HID_NO_ACTION;
343	}
344
345	return EOK;
346	}
347
348	/**
349	* Parse global tags of report descriptor
350	*
351	* @param Tag identifier
352	* @param Data buffer
353	* @param Length of data buffer
354	* @param Current state table
355	* @return Error code
356	*/
357
358	int usb_hid_report_parse_global_tag(uint8_t tag, const uint8_t *data, size_t item_size,
359	usb_hid_report_item_t *report_item)
360	{
361	// TODO take care about the bit length of data
362	switch(tag)
363	{
364	case USB_HID_REPORT_TAG_USAGE_PAGE:
365	report_item->usage_page = usb_hid_report_tag_data_int32(data,item_size);
366	break;
367	case USB_HID_REPORT_TAG_LOGICAL_MINIMUM:
368	report_item->logical_minimum = usb_hid_report_tag_data_int32(data,item_size);
369	break;
370	case USB_HID_REPORT_TAG_LOGICAL_MAXIMUM:
371	report_item->logical_maximum = usb_hid_report_tag_data_int32(data,item_size);
372	break;
373	case USB_HID_REPORT_TAG_PHYSICAL_MINIMUM:
374	report_item->physical_minimum = usb_hid_report_tag_data_int32(data,item_size);
375	break;
376	case USB_HID_REPORT_TAG_PHYSICAL_MAXIMUM:
377	report_item->physical_maximum = usb_hid_report_tag_data_int32(data,item_size);
378	break;
379	case USB_HID_REPORT_TAG_UNIT_EXPONENT:
380	report_item->unit_exponent = usb_hid_report_tag_data_int32(data,item_size);
381	break;
382	case USB_HID_REPORT_TAG_UNIT:
383	report_item->unit = usb_hid_report_tag_data_int32(data,item_size);
384	break;
385	case USB_HID_REPORT_TAG_REPORT_SIZE:
386	report_item->size = usb_hid_report_tag_data_int32(data,item_size);
387	break;
388	case USB_HID_REPORT_TAG_REPORT_COUNT:
389	report_item->count = usb_hid_report_tag_data_int32(data,item_size);
390	break;
391	case USB_HID_REPORT_TAG_REPORT_ID:
392	report_item->id = usb_hid_report_tag_data_int32(data,item_size);
393	break;
394	case USB_HID_REPORT_TAG_PUSH:
395	case USB_HID_REPORT_TAG_POP:
396	return tag;
397	break;
398
399	default:
400	return USB_HID_NO_ACTION;
401	}
402
403	return EOK;
404	}
405
406	/**
407	* Parse local tags of report descriptor
408	*
409	* @param Tag identifier
410	* @param Data buffer
411	* @param Length of data buffer
412	* @param Current state table
413	* @return Error code
414	*/
415	int usb_hid_report_parse_local_tag(uint8_t tag, const uint8_t *data, size_t item_size,
416	usb_hid_report_item_t *report_item)
417	{
418	switch(tag)
419	{
420	case USB_HID_REPORT_TAG_USAGE:
421	report_item->usage = usb_hid_report_tag_data_int32(data,item_size);
422	break;
423	case USB_HID_REPORT_TAG_USAGE_MINIMUM:
424	report_item->usage_minimum = usb_hid_report_tag_data_int32(data,item_size);
425	break;
426	case USB_HID_REPORT_TAG_USAGE_MAXIMUM:
427	report_item->usage_maximum = usb_hid_report_tag_data_int32(data,item_size);
428	break;
429	case USB_HID_REPORT_TAG_DESIGNATOR_INDEX:
430	report_item->designator_index = usb_hid_report_tag_data_int32(data,item_size);
431	break;
432	case USB_HID_REPORT_TAG_DESIGNATOR_MINIMUM:
433	report_item->designator_minimum = usb_hid_report_tag_data_int32(data,item_size);
434	break;
435	case USB_HID_REPORT_TAG_DESIGNATOR_MAXIMUM:
436	report_item->designator_maximum = usb_hid_report_tag_data_int32(data,item_size);
437	break;
438	case USB_HID_REPORT_TAG_STRING_INDEX:
439	report_item->string_index = usb_hid_report_tag_data_int32(data,item_size);
440	break;
441	case USB_HID_REPORT_TAG_STRING_MINIMUM:
442	report_item->string_minimum = usb_hid_report_tag_data_int32(data,item_size);
443	break;
444	case USB_HID_REPORT_TAG_STRING_MAXIMUM:
445	report_item->string_maximum = usb_hid_report_tag_data_int32(data,item_size);
446	break;
447	case USB_HID_REPORT_TAG_DELIMITER:
448	report_item->delimiter = usb_hid_report_tag_data_int32(data,item_size);
449	break;
450
451	default:
452	return USB_HID_NO_ACTION;
453	}
454
455	return EOK;
456	}
457
458	/**
459	* Converts raw data to int32 (thats the maximum length of short item data)
460	*
461	* @param Data buffer
462	* @param Size of buffer
463	* @return Converted int32 number
464	*/
465	int32_t usb_hid_report_tag_data_int32(const uint8_t *data, size_t size)
466	{
467	unsigned int i;
468	int32_t result;
469
470	result = 0;
471	for(i=0; i<size; i++) {
472	result = (result \| (data[i]) << (i*8));
473	}
474
475	return result;
476	}
477
478
479
480	/**
481	* Prints content of given list of report items.
482	*
483	* @param List of report items
484	* @return void
485	*/
486	void usb_hid_descriptor_print_list(link_t *head)
487	{
488	usb_hid_report_item_t *report_item;
489	link_t *item;
490
491	if(head == NULL \|\| list_empty(head)) {
492	usb_log_debug("\tempty\n");
493	return;
494	}
495
496	for(item = head->next; item != head; item = item->next) {
497
498	report_item = list_get_instance(item, usb_hid_report_item_t, link);
499
500	usb_log_debug("\tOFFSET: %X\n", report_item->offset);
501	usb_log_debug("\tCOUNT: %X\n", report_item->count);
502	usb_log_debug("\tSIZE: %X\n", report_item->size);
503	usb_log_debug("\tCONSTANT: %X\n", USB_HID_ITEM_FLAG_CONSTANT(report_item->item_flags));
504	usb_log_debug("\tUSAGE: %X\n", report_item->usage);
505	usb_log_debug("\tUSAGE PAGE: %X\n", report_item->usage_page);
506	usb_log_debug("\tLOGMIN: %X\n", report_item->logical_minimum);
507	usb_log_debug("\tLOGMAX: %X\n", report_item->logical_maximum);
508	usb_log_debug("\tPHYMIN: %X\n", report_item->physical_minimum);
509	usb_log_debug("\tPHYMAX: %X\n", report_item->physical_maximum);
510	usb_log_debug("\n");
511
512	}
513
514
515	}
516	/**
517	* Prints content of given descriptor in human readable format.
518	*
519	* @param Parsed descriptor to print
520	* @return void
521	*/
522	void usb_hid_descriptor_print(usb_hid_report_parser_t *parser)
523	{
524	usb_log_debug("INPUT:\n");
525	usb_hid_descriptor_print_list(&parser->input);
526
527	usb_log_debug("OUTPUT: \n");
528	usb_hid_descriptor_print_list(&parser->output);
529
530	usb_log_debug("FEATURE:\n");
531	usb_hid_descriptor_print_list(&parser->feature);
532
533	}
534
535	/**
536	* Releases whole linked list of report items
537	*
538	*
539	*/
540	void usb_hid_free_report_list(link_t *head)
541	{
542	return;
543
544	usb_hid_report_item_t *report_item;
545	link_t *next;
546
547	if(head == NULL \|\| list_empty(head)) {
548	return;
549	}
550
551	next = head->next;
552	while(next != head) {
553
554	report_item = list_get_instance(next, usb_hid_report_item_t, link);
555	next = next->next;
556
557	free(report_item);
558	}
559
560	return;
561
562	}
563
564	/** Free the HID report parser structure
565	*
566	* @param parser Opaque HID report parser structure
567	* @return Error code
568	*/
569	void usb_hid_free_report_parser(usb_hid_report_parser_t *parser)
570	{
571	if(parser == NULL){
572	return;
573	}
574
575	usb_hid_free_report_list(&parser->input);
576	usb_hid_free_report_list(&parser->output);
577	usb_hid_free_report_list(&parser->feature);
578
579	return;
580	}
581
582	/** Parse and act upon a HID report.
583	*
584	* @see usb_hid_parse_report_descriptor
585	*
586	* @param parser Opaque HID report parser structure.
587	* @param data Data for the report.
588	* @param callbacks Callbacks for report actions.
589	* @param arg Custom argument (passed through to the callbacks).
590	* @return Error code.
591	*/
592	int usb_hid_parse_report(const usb_hid_report_parser_t *parser,
593	const uint8_t *data, size_t size,
594	const usb_hid_report_in_callbacks_t callbacks, void arg)
595	{
596	/*
597	*
598	* only key codes (usage page 0x07) will be processed
599	* other usages will be ignored
600	*/
601	link_t *list_item;
602	usb_hid_report_item_t *item;
603	uint8_t *keys;
604	size_t key_count=0;
605	size_t i=0;
606	size_t j=0;
607
608	// get the size of result keycodes array
609	list_item = parser->input.next;
610	while(list_item != &(parser->input)) {
611
612	item = list_get_instance(list_item, usb_hid_report_item_t, link);
613	if(item->usage_page == BAD_HACK_USAGE_PAGE) {
614	key_count += item->count;
615	}
616
617	list_item = list_item->next;
618	}
619
620
621	if(!(keys = malloc(sizeof(uint8_t) * key_count))){
622	return ENOMEM;
623	}
624
625	// read data
626	list_item = parser->input.next;
627	while(list_item != &(parser->input)) {
628
629	item = list_get_instance(list_item, usb_hid_report_item_t, link);
630	if(item->usage_page == BAD_HACK_USAGE_PAGE) {
631	for(j=0; j<(size_t)(item->count); j++) {
632	keys[i++] = usb_hid_translate_data(item, data,j);
633	}
634	}
635	list_item = list_item->next;
636	}
637
638	callbacks->keyboard(keys, key_count, 0, arg);
639
640	free(keys);
641	return EOK;
642
643	}
644
645
646	int usb_hid_translate_data(usb_hid_report_item_t item, const uint8_t data, size_t j)
647	{
648	int resolution;
649	int offset;
650	int part_size;
651
652	int32_t value;
653	int32_t mask;
654	const uint8_t *foo;
655
656	// now only common numbers llowed
657	if(item->size > 32) {
658	return 0;
659	}
660
661	if((item->physical_minimum == 0) && (item->physical_maximum == 0)) {
662	item->physical_minimum = item->logical_minimum;
663	item->physical_maximum = item->logical_maximum;
664	}
665
666	if(item->physical_maximum == item->physical_minimum){
667	resolution = 1;
668	}
669	else {
670	resolution = (item->logical_maximum - item->logical_minimum) /
671	((item->physical_maximum - item->physical_minimum) *
672	(usb_pow(10,(item->unit_exponent))));
673	}
674	offset = item->offset + (j * item->size);
675
676	// FIXME
677	if((offset/8) != ((offset+item->size)/8)) {
678	usb_log_debug2("offset %d\n", offset);
679
680	part_size = ((offset+item->size)%8);
681	usb_log_debug2("part size %d\n",part_size);
682
683	// the higher one
684	foo = data+(offset/8);
685	mask = ((1 << (item->size-part_size))-1);
686	value = (*foo & mask) << part_size;
687
688	usb_log_debug2("hfoo %x\n", *foo);
689	usb_log_debug2("hmaska %x\n", mask);
690	usb_log_debug2("hval %d\n", value);
691
692	// the lower one
693	foo = data+((offset+item->size)/8);
694	mask = ((1 << part_size)-1) << (8-part_size);
695	value += ((*foo & mask) >> (8-part_size));
696
697	usb_log_debug2("lfoo %x\n", *foo);
698	usb_log_debug2("lmaska %x\n", mask);
699	usb_log_debug2("lval %d\n", ((*foo & mask) >> (8-(item->size-part_size))));
700	usb_log_debug2("val %d\n", value);
701
702
703	}
704	else {
705	foo = data+(offset/8);
706	mask = ((1 << item->size)-1) << (8-((offset%8)+item->size));
707	value = (*foo & mask) >> (8-((offset%8)+item->size));
708
709	usb_log_debug2("offset %d\n", offset);
710
711	usb_log_debug2("foo %x\n", *foo);
712	usb_log_debug2("maska %x\n", mask);
713	usb_log_debug2("val %d\n", value);
714	}
715
716	usb_log_debug2("---\n\n");
717
718	return (int)(((value - item->logical_minimum) / resolution) + item->physical_minimum);
719
720	}
721
722	int usb_hid_report_input_length(const usb_hid_report_parser_t *parser,
723	const usb_hid_report_path_t *path)
724	{
725	int ret = 0;
726	link_t *item;
727	usb_hid_report_item_t *report_item;
728
729	item = (&parser->input)->next;
730	while(&parser->input != item) {
731	report_item = list_get_instance(item, usb_hid_report_item_t, link);
732	if(report_item->usage_page == path->usage_page) {
733	ret += report_item->count;
734	}
735
736	item = item->next;
737	}
738
739	return ret;
740	}
741
742
743
744	/**
745	* @}
746	*/

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