Annotation of src/usr.bin/usbhidctl/usbhid.c, Revision 1.8
1.8 ! ray 1: /* $OpenBSD: usbhid.c,v 1.7 2004/10/04 05:21:27 jsg Exp $ */
1.4 nate 2: /* $NetBSD: usbhid.c,v 1.22 2002/02/20 20:30:42 christos Exp $ */
1.1 pvalchev 3:
4: /*
1.4 nate 5: * Copyright (c) 2001 The NetBSD Foundation, Inc.
1.1 pvalchev 6: * All rights reserved.
7: *
8: * This code is derived from software contributed to The NetBSD Foundation
9: * by David Sainty <David.Sainty@dtsp.co.nz>
10: *
11: * Redistribution and use in source and binary forms, with or without
12: * modification, are permitted provided that the following conditions
13: * are met:
14: * 1. Redistributions of source code must retain the above copyright
15: * notice, this list of conditions and the following disclaimer.
16: * 2. Redistributions in binary form must reproduce the above copyright
17: * notice, this list of conditions and the following disclaimer in the
18: * documentation and/or other materials provided with the distribution.
19: *
20: * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
21: * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
22: * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
23: * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
24: * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
25: * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
26: * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
27: * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
28: * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
29: * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
30: * POSSIBILITY OF SUCH DAMAGE.
31: */
32:
33: #include <sys/types.h>
34:
35: #include <dev/usb/usb.h>
36: #include <dev/usb/usbhid.h>
37:
38: #include <ctype.h>
39: #include <err.h>
40: #include <errno.h>
41: #include <fcntl.h>
42: #include <limits.h>
43: #include <stdio.h>
44: #include <stdlib.h>
45: #include <string.h>
46: #include <unistd.h>
1.2 pvalchev 47: #include <usbhid.h>
1.1 pvalchev 48:
1.4 nate 49: /*
50: * Zero if not in a verbose mode. Greater levels of verbosity
51: * are indicated by values larger than one.
52: */
53: unsigned int verbose;
54:
1.1 pvalchev 55: /* Parser tokens */
56: #define DELIM_USAGE '.'
57: #define DELIM_PAGE ':'
58: #define DELIM_SET '='
59:
1.4 nate 60: static int reportid;
1.1 pvalchev 61:
62: struct Susbvar {
63: /* Variable name, not NUL terminated */
64: char const *variable;
65: size_t varlen;
66:
67: char const *value; /* Value to set variable to */
68:
69: #define MATCH_ALL (1 << 0)
70: #define MATCH_COLLECTIONS (1 << 1)
71: #define MATCH_NODATA (1 << 2)
72: #define MATCH_CONSTANTS (1 << 3)
73: #define MATCH_WASMATCHED (1 << 4)
74: #define MATCH_SHOWPAGENAME (1 << 5)
75: #define MATCH_SHOWNUMERIC (1 << 6)
76: #define MATCH_WRITABLE (1 << 7)
1.4 nate 77: #define MATCH_SHOWVALUES (1 << 8)
1.1 pvalchev 78: unsigned int mflags;
79:
80: /* Workspace for hidmatch() */
81: ssize_t matchindex;
82:
83: int (*opfunc)(struct hid_item *item, struct Susbvar *var,
84: u_int32_t const *collist, size_t collen, u_char *buf);
85: };
86:
87: struct Sreport {
88: struct usb_ctl_report *buffer;
89:
90: enum {srs_uninit, srs_clean, srs_dirty} status;
91: int report_id;
92: size_t size;
93: };
94:
95: static struct {
96: int uhid_report;
97: hid_kind_t hid_kind;
98: char const *name;
99: } const reptoparam[] = {
100: #define REPORT_INPUT 0
101: { UHID_INPUT_REPORT, hid_input, "input" },
102: #define REPORT_OUTPUT 1
103: { UHID_OUTPUT_REPORT, hid_output, "output" },
104: #define REPORT_FEATURE 2
105: { UHID_FEATURE_REPORT, hid_feature, "feature" }
106: #define REPORT_MAXVAL 2
107: };
108:
1.4 nate 109: /*
110: * Extract 16-bit unsigned usage ID from a numeric string. Returns -1
111: * if string failed to parse correctly.
112: */
113: static int
114: strtousage(const char *nptr, size_t nlen)
115: {
116: char *endptr;
117: long result;
118: char numstr[16];
119:
120: if (nlen >= sizeof(numstr) || !isdigit((unsigned char)*nptr))
121: return -1;
122:
123: /*
124: * We use strtol() here, but unfortunately strtol() requires a
125: * NUL terminated string - which we don't have - at least not
126: * officially.
127: */
128: memcpy(numstr, nptr, nlen);
129: numstr[nlen] = '\0';
130:
131: result = strtol(numstr, &endptr, 0);
132:
133: if (result < 0 || result > 0xffff || endptr != &numstr[nlen])
134: return -1;
135:
136: return result;
137: }
138:
139: struct usagedata {
140: char const *page_name;
141: char const *usage_name;
142: size_t page_len;
143: size_t usage_len;
144: int isfinal;
145: u_int32_t usage_id;
146: };
147:
148: /*
149: * Test a rule against the current usage data. Returns -1 on no
150: * match, 0 on partial match and 1 on complete match.
151: */
152: static int
153: hidtestrule(struct Susbvar *var, struct usagedata *cache)
154: {
155: char const *varname;
156: ssize_t matchindex, pagesplit;
157: size_t strind, varlen;
158: int numusage;
159: u_int32_t usage_id;
160:
161: matchindex = var->matchindex;
162: varname = var->variable;
163: varlen = var->varlen;
164:
165: usage_id = cache->usage_id;
166:
167: /*
168: * Parse the current variable name, locating the end of the
169: * current 'usage', and possibly where the usage page name
170: * ends.
171: */
172: pagesplit = -1;
173: for (strind = matchindex; strind < varlen; strind++) {
174: if (varname[strind] == DELIM_USAGE)
175: break;
176: if (varname[strind] == DELIM_PAGE)
177: pagesplit = strind;
178: }
179:
180: if (cache->isfinal && strind != varlen)
181: /*
182: * Variable name is too long (hit delimiter instead of
183: * end-of-variable).
184: */
185: return -1;
186:
187: if (pagesplit >= 0) {
188: /*
189: * Page name was specified, determine whether it was
190: * symbolic or numeric.
191: */
192: char const *strstart;
193: int numpage;
194:
195: strstart = &varname[matchindex];
196:
197: numpage = strtousage(strstart, pagesplit - matchindex);
198:
199: if (numpage >= 0) {
200: /* Valid numeric */
201:
202: if (numpage != HID_PAGE(usage_id))
203: /* Numeric didn't match page ID */
204: return -1;
205: } else {
206: /* Not a valid numeric */
207:
208: /*
209: * Load and cache the page name if and only if
210: * it hasn't already been loaded (it's a
211: * fairly expensive operation).
212: */
213: if (cache->page_name == NULL) {
214: cache->page_name = hid_usage_page(HID_PAGE(usage_id));
215: cache->page_len = strlen(cache->page_name);
216: }
217:
218: /*
219: * Compare specified page name to actual page
220: * name.
221: */
222: if (cache->page_len !=
223: (size_t)(pagesplit - matchindex) ||
224: memcmp(cache->page_name,
225: &varname[matchindex],
226: cache->page_len) != 0)
227: /* Mismatch, page name wrong */
228: return -1;
229: }
230:
231: /* Page matches, discard page name */
232: matchindex = pagesplit + 1;
233: }
234:
235: numusage = strtousage(&varname[matchindex], strind - matchindex);
236:
237: if (numusage >= 0) {
238: /* Valid numeric */
239:
240: if (numusage != HID_USAGE(usage_id))
241: /* Numeric didn't match usage ID */
242: return -1;
243: } else {
244: /* Not a valid numeric */
245:
246: /* Load and cache the usage name */
247: if (cache->usage_name == NULL) {
248: cache->usage_name = hid_usage_in_page(usage_id);
249: cache->usage_len = strlen(cache->usage_name);
250: }
251:
252: /*
253: * Compare specified usage name to actual usage name
254: */
255: if (cache->usage_len != (size_t)(strind - matchindex) ||
256: memcmp(cache->usage_name, &varname[matchindex],
257: cache->usage_len) != 0)
258: /* Mismatch, usage name wrong */
259: return -1;
260: }
261:
262: if (cache->isfinal)
263: /* Match */
264: return 1;
265:
266: /*
267: * Partial match: Move index past this usage string +
268: * delimiter
269: */
270: var->matchindex = strind + 1;
271:
272: return 0;
273: }
274:
275: /*
276: * hidmatch() determines whether the item specified in 'item', and
1.7 jsg 277: * nested within a hierarchy of collections specified in 'collist'
1.4 nate 278: * matches any of the rules in the list 'varlist'. Returns the
279: * matching rule on success, or NULL on no match.
280: */
1.1 pvalchev 281: static struct Susbvar*
282: hidmatch(u_int32_t const *collist, size_t collen, struct hid_item *item,
283: struct Susbvar *varlist, size_t vlsize)
284: {
1.4 nate 285: size_t colind, vlactive, vlind;
1.1 pvalchev 286: int iscollection;
287:
288: /*
289: * Keep track of how many variables are still "active". When
290: * the active count reaches zero, don't bother to continue
291: * looking for matches.
292: */
293: vlactive = vlsize;
294:
295: iscollection = item->kind == hid_collection ||
296: item->kind == hid_endcollection;
297:
298: for (vlind = 0; vlind < vlsize; vlind++) {
299: struct Susbvar *var;
300:
301: var = &varlist[vlind];
302:
303: var->matchindex = 0;
304:
305: if (!(var->mflags & MATCH_COLLECTIONS) && iscollection) {
306: /* Don't match collections for this variable */
307: var->matchindex = -1;
308: vlactive--;
309: } else if (!iscollection && !(var->mflags & MATCH_CONSTANTS) &&
310: (item->flags & HIO_CONST)) {
311: /*
312: * Don't match constants for this variable,
313: * but ignore the constant bit on collections.
314: */
315: var->matchindex = -1;
316: vlactive--;
317: } else if ((var->mflags & MATCH_WRITABLE) &&
318: ((item->kind != hid_output &&
319: item->kind != hid_feature) ||
320: (item->flags & HIO_CONST))) {
321: /*
322: * If we are only matching writable items, if
323: * this is not an output or feature kind, or
324: * it is a constant, reject it.
325: */
326: var->matchindex = -1;
327: vlactive--;
328: } else if (var->mflags & MATCH_ALL) {
329: /* Match immediately */
330: return &varlist[vlind];
331: }
332: }
333:
1.4 nate 334: /*
335: * Loop through each usage in the collection list, including
336: * the 'item' itself on the final iteration. For each usage,
337: * test which variables named in the rule list are still
338: * applicable - if any.
339: */
1.1 pvalchev 340: for (colind = 0; vlactive > 0 && colind <= collen; colind++) {
1.4 nate 341: struct usagedata cache;
1.1 pvalchev 342:
1.4 nate 343: cache.isfinal = (colind == collen);
344: if (cache.isfinal)
345: cache.usage_id = item->usage;
1.1 pvalchev 346: else
1.4 nate 347: cache.usage_id = collist[colind];
1.1 pvalchev 348:
1.4 nate 349: cache.usage_name = NULL;
350: cache.page_name = NULL;
1.1 pvalchev 351:
1.4 nate 352: /*
353: * Loop through each rule, testing whether the rule is
354: * still applicable or not. For each rule,
355: * 'matchindex' retains the current match state as an
356: * index into the variable name string, or -1 if this
357: * rule has been proven not to match.
358: */
1.1 pvalchev 359: for (vlind = 0; vlind < vlsize; vlind++) {
360: struct Susbvar *var;
1.4 nate 361: int matchres;
1.1 pvalchev 362:
363: var = &varlist[vlind];
364:
1.4 nate 365: if (var->matchindex < 0)
1.1 pvalchev 366: /* Mismatch at a previous level */
367: continue;
368:
1.4 nate 369: matchres = hidtestrule(var, &cache);
1.1 pvalchev 370:
1.4 nate 371: if (matchres < 0) {
372: /* Bad match */
1.1 pvalchev 373: var->matchindex = -1;
374: vlactive--;
375: continue;
1.4 nate 376: } else if (matchres > 0) {
377: /* Complete match */
378: return var;
1.1 pvalchev 379: }
380: }
381: }
382:
383: return NULL;
384: }
385:
386: static void
387: allocreport(struct Sreport *report, report_desc_t rd, int repindex)
388: {
389: int reptsize;
390:
1.4 nate 391: reptsize = hid_report_size(rd, reptoparam[repindex].hid_kind, reportid);
1.1 pvalchev 392: if (reptsize < 0)
393: errx(1, "Negative report size");
394: report->size = reptsize;
395:
396: if (report->size > 0) {
397: /*
398: * Allocate a buffer with enough space for the
399: * report in the variable-sized data field.
400: */
401: report->buffer = malloc(sizeof(*report->buffer) -
1.3 nate 402: sizeof(report->buffer->ucr_data) +
1.1 pvalchev 403: report->size);
404: if (report->buffer == NULL)
405: err(1, NULL);
406: } else
407: report->buffer = NULL;
408:
409: report->status = srs_clean;
410: }
411:
412: static void
413: freereport(struct Sreport *report)
414: {
415: if (report->buffer != NULL)
416: free(report->buffer);
417: report->status = srs_uninit;
418: }
419:
420: static void
421: getreport(struct Sreport *report, int hidfd, report_desc_t rd, int repindex)
422: {
423: if (report->status == srs_uninit) {
424: allocreport(report, rd, repindex);
425: if (report->size == 0)
426: return;
427:
1.3 nate 428: report->buffer->ucr_report = reptoparam[repindex].uhid_report;
1.1 pvalchev 429: if (ioctl(hidfd, USB_GET_REPORT, report->buffer) < 0)
1.4 nate 430: err(1, "USB_GET_REPORT (probably not supported by "
431: "device)");
1.1 pvalchev 432: }
433: }
434:
435: static void
436: setreport(struct Sreport *report, int hidfd, int repindex)
437: {
438: if (report->status == srs_dirty) {
1.3 nate 439: report->buffer->ucr_report = reptoparam[repindex].uhid_report;
1.1 pvalchev 440:
441: if (ioctl(hidfd, USB_SET_REPORT, report->buffer) < 0)
442: err(1, "USB_SET_REPORT(%s)",
443: reptoparam[repindex].name);
444:
445: report->status = srs_clean;
446: }
447: }
448:
449: /* ARGSUSED1 */
450: static int
451: varop_value(struct hid_item *item, struct Susbvar *var,
452: u_int32_t const *collist, size_t collen, u_char *buf)
453: {
454: printf("%d\n", hid_get_data(buf, item));
455: return 0;
456: }
457:
458: /* ARGSUSED1 */
459: static int
460: varop_display(struct hid_item *item, struct Susbvar *var,
461: u_int32_t const *collist, size_t collen, u_char *buf)
462: {
463: size_t colitem;
1.4 nate 464: int val, i;
1.1 pvalchev 465:
1.4 nate 466: for (i = 0; i < item->report_count; i++) {
467: for (colitem = 0; colitem < collen; colitem++) {
468: if (var->mflags & MATCH_SHOWPAGENAME)
469: printf("%s:",
470: hid_usage_page(HID_PAGE(collist[colitem])));
471: printf("%s.", hid_usage_in_page(collist[colitem]));
472: }
1.1 pvalchev 473: if (var->mflags & MATCH_SHOWPAGENAME)
1.4 nate 474: printf("%s:", hid_usage_page(HID_PAGE(item->usage)));
475: val = hid_get_data(buf, item);
476: item->pos += item->report_size;
477: if (item->usage_minimum != 0 || item->usage_maximum != 0) {
478: val += item->usage_minimum;
479: printf("%s=1", hid_usage_in_page(val));
480: } else {
481: printf("%s=%d%s", hid_usage_in_page(item->usage),
482: val, item->flags & HIO_CONST ? " (const)" : "");
483: }
484: if (item->report_count > 1)
485: printf(" [%d]", i);
486: printf("\n");
1.1 pvalchev 487: }
488: return 0;
489: }
490:
491: /* ARGSUSED1 */
492: static int
493: varop_modify(struct hid_item *item, struct Susbvar *var,
494: u_int32_t const *collist, size_t collen, u_char *buf)
495: {
496: u_int dataval;
497:
498: dataval = (u_int)strtol(var->value, NULL, 10);
499:
500: hid_set_data(buf, item, dataval);
501:
1.4 nate 502: if (var->mflags & MATCH_SHOWVALUES)
503: /* Display set value */
1.1 pvalchev 504: varop_display(item, var, collist, collen, buf);
505:
506: return 1;
507: }
508:
509: static void
510: reportitem(char const *label, struct hid_item const *item, unsigned int mflags)
511: {
1.4 nate 512: int isconst = item->flags & HIO_CONST,
513: isvar = item->flags & HIO_VARIABLE;
514: printf("%s size=%d count=%d%s%s page=%s", label,
1.1 pvalchev 515: item->report_size, item->report_count,
1.4 nate 516: isconst ? " Const" : "",
517: !isvar && !isconst ? " Array" : "",
518: hid_usage_page(HID_PAGE(item->usage)));
519: if (item->usage_minimum != 0 || item->usage_maximum != 0) {
520: printf(" usage=%s..%s", hid_usage_in_page(item->usage_minimum),
521: hid_usage_in_page(item->usage_maximum));
522: if (mflags & MATCH_SHOWNUMERIC)
523: printf(" (%u:0x%x..%u:0x%x)",
524: HID_PAGE(item->usage_minimum),
525: HID_USAGE(item->usage_minimum),
526: HID_PAGE(item->usage_maximum),
527: HID_USAGE(item->usage_maximum));
528: } else {
529: printf(" usage=%s", hid_usage_in_page(item->usage));
530: if (mflags & MATCH_SHOWNUMERIC)
531: printf(" (%u:0x%x)",
532: HID_PAGE(item->usage), HID_USAGE(item->usage));
533: }
1.1 pvalchev 534: printf(", logical range %d..%d",
535: item->logical_minimum, item->logical_maximum);
536: if (item->physical_minimum != item->physical_maximum)
537: printf(", physical range %d..%d",
538: item->physical_minimum, item->physical_maximum);
539: if (item->unit)
540: printf(", unit=0x%02x exp=%d", item->unit,
541: item->unit_exponent);
542: printf("\n");
543: }
544:
545: /* ARGSUSED1 */
546: static int
547: varop_report(struct hid_item *item, struct Susbvar *var,
548: u_int32_t const *collist, size_t collen, u_char *buf)
549: {
550: switch (item->kind) {
551: case hid_collection:
1.4 nate 552: printf("Collection page=%s usage=%s",
1.1 pvalchev 553: hid_usage_page(HID_PAGE(item->usage)),
554: hid_usage_in_page(item->usage));
1.4 nate 555: if (var->mflags & MATCH_SHOWNUMERIC)
556: printf(" (%u:0x%x)\n",
557: HID_PAGE(item->usage), HID_USAGE(item->usage));
558: else
559: printf("\n");
1.1 pvalchev 560: break;
561: case hid_endcollection:
562: printf("End collection\n");
563: break;
564: case hid_input:
565: reportitem("Input ", item, var->mflags);
566: break;
567: case hid_output:
568: reportitem("Output ", item, var->mflags);
569: break;
570: case hid_feature:
571: reportitem("Feature", item, var->mflags);
572: break;
573: }
574:
575: return 0;
576: }
577:
578: static void
579: devloop(int hidfd, report_desc_t rd, struct Susbvar *varlist, size_t vlsize)
580: {
1.4 nate 581: u_char *dbuf;
1.1 pvalchev 582: struct hid_data *hdata;
1.4 nate 583: size_t collind, dlen;
1.1 pvalchev 584: struct hid_item hitem;
585: u_int32_t colls[128];
586: struct Sreport inreport;
587:
588: allocreport(&inreport, rd, REPORT_INPUT);
589:
590: if (inreport.size <= 0)
591: errx(1, "Input report descriptor invalid length");
592:
593: dlen = inreport.size;
1.3 nate 594: dbuf = inreport.buffer->ucr_data;
1.1 pvalchev 595:
596: for (;;) {
597: ssize_t readlen;
598:
599: readlen = read(hidfd, dbuf, dlen);
1.4 nate 600: if (readlen < 0)
601: err(1, "Device read error");
602: if (dlen != (size_t)readlen)
603: errx(1, "Unexpected response length: %lu != %lu",
604: (unsigned long)readlen, (unsigned long)dlen);
1.1 pvalchev 605:
606: collind = 0;
1.4 nate 607: hdata = hid_start_parse(rd, 1 << hid_input, reportid);
1.1 pvalchev 608: if (hdata == NULL)
609: errx(1, "Failed to start parser");
610:
611: while (hid_get_item(hdata, &hitem)) {
612: struct Susbvar *matchvar;
613:
614: switch (hitem.kind) {
615: case hid_collection:
616: if (collind >= (sizeof(colls) / sizeof(*colls)))
617: errx(1, "Excessive nested collections");
618: colls[collind++] = hitem.usage;
619: break;
620: case hid_endcollection:
621: if (collind == 0)
622: errx(1, "Excessive collection ends");
623: collind--;
624: break;
625: case hid_input:
626: break;
627: case hid_output:
628: case hid_feature:
629: errx(1, "Unexpected non-input item returned");
630: }
631:
1.4 nate 632: if (reportid != -1 && hitem.report_ID != reportid)
633: continue;
634:
1.1 pvalchev 635: matchvar = hidmatch(colls, collind, &hitem,
636: varlist, vlsize);
637:
638: if (matchvar != NULL)
639: matchvar->opfunc(&hitem, matchvar,
640: colls, collind,
1.3 nate 641: inreport.buffer->ucr_data);
1.1 pvalchev 642: }
643: hid_end_parse(hdata);
644: printf("\n");
645: }
646: /* NOTREACHED */
647: }
648:
649: static void
650: devshow(int hidfd, report_desc_t rd, struct Susbvar *varlist, size_t vlsize,
651: int kindset)
652: {
653: struct hid_data *hdata;
1.4 nate 654: size_t collind, repind, vlind;
1.1 pvalchev 655: struct hid_item hitem;
656: u_int32_t colls[128];
657: struct Sreport reports[REPORT_MAXVAL + 1];
658:
659:
660: for (repind = 0; repind < (sizeof(reports) / sizeof(*reports));
661: repind++) {
662: reports[repind].status = srs_uninit;
663: reports[repind].buffer = NULL;
664: }
665:
666: collind = 0;
1.4 nate 667: hdata = hid_start_parse(rd, kindset, reportid);
1.1 pvalchev 668: if (hdata == NULL)
669: errx(1, "Failed to start parser");
670:
671: while (hid_get_item(hdata, &hitem)) {
672: struct Susbvar *matchvar;
673: int repindex;
674:
1.4 nate 675: if (verbose > 3)
676: printf("item: kind=%d repid=%d usage=0x%x\n",
677: hitem.kind, hitem.report_ID, hitem.usage);
1.1 pvalchev 678: repindex = -1;
679: switch (hitem.kind) {
680: case hid_collection:
681: if (collind >= (sizeof(colls) / sizeof(*colls)))
682: errx(1, "Excessive nested collections");
683: colls[collind++] = hitem.usage;
684: break;
685: case hid_endcollection:
686: if (collind == 0)
687: errx(1, "Excessive collection ends");
688: collind--;
689: break;
690: case hid_input:
691: repindex = REPORT_INPUT;
692: break;
693: case hid_output:
694: repindex = REPORT_OUTPUT;
695: break;
696: case hid_feature:
697: repindex = REPORT_FEATURE;
698: break;
699: }
700:
1.4 nate 701: if (reportid != -1 && hitem.report_ID != reportid)
702: continue;
703:
1.1 pvalchev 704: matchvar = hidmatch(colls, collind, &hitem, varlist, vlsize);
705:
706: if (matchvar != NULL) {
707: u_char *bufdata;
708: struct Sreport *repptr;
709:
710: matchvar->mflags |= MATCH_WASMATCHED;
711:
712: if (repindex >= 0)
713: repptr = &reports[repindex];
714: else
715: repptr = NULL;
716:
717: if (repptr != NULL &&
718: !(matchvar->mflags & MATCH_NODATA))
719: getreport(repptr, hidfd, rd, repindex);
720:
721: bufdata = (repptr == NULL || repptr->buffer == NULL) ?
1.3 nate 722: NULL : repptr->buffer->ucr_data;
1.1 pvalchev 723:
724: if (matchvar->opfunc(&hitem, matchvar, colls, collind,
725: bufdata))
726: repptr->status = srs_dirty;
727: }
728: }
729: hid_end_parse(hdata);
730:
731: for (repind = 0; repind < (sizeof(reports) / sizeof(*reports));
732: repind++) {
733: setreport(&reports[repind], hidfd, repind);
734: freereport(&reports[repind]);
735: }
736:
737: /* Warn about any items that we couldn't find a match for */
738: for (vlind = 0; vlind < vlsize; vlind++) {
739: struct Susbvar *var;
740:
741: var = &varlist[vlind];
742:
743: if (var->variable != NULL &&
744: !(var->mflags & MATCH_WASMATCHED))
745: warnx("Failed to match: %.*s", (int)var->varlen,
746: var->variable);
747: }
748: }
749:
750: static void
751: usage(void)
752: {
753: extern char *__progname;
754:
1.5 jmc 755: fprintf(stderr, "Usage: %s -f device [-t table] [-lv] -a\n",
1.1 pvalchev 756: __progname);
1.5 jmc 757: fprintf(stderr, " %s -f device [-t table] [-v] -r\n",
1.1 pvalchev 758: __progname);
759: fprintf(stderr,
1.5 jmc 760: " %s -f device [-t table] [-lnv] name ...\n",
1.1 pvalchev 761: __progname);
762: fprintf(stderr,
1.5 jmc 763: " %s -f device [-t table] -w name=value ...\n",
1.1 pvalchev 764: __progname);
765: exit(1);
766: }
767:
768: int
769: main(int argc, char **argv)
770: {
1.4 nate 771: char const *dev;
772: char const *table;
773: size_t varnum;
774: int aflag, lflag, nflag, rflag, wflag;
775: int ch, hidfd;
1.1 pvalchev 776: report_desc_t repdesc;
777: char devnamebuf[PATH_MAX];
778: struct Susbvar variables[128];
779:
780: wflag = aflag = nflag = verbose = rflag = lflag = 0;
781: dev = NULL;
782: table = NULL;
783: while ((ch = getopt(argc, argv, "?af:lnrt:vw")) != -1) {
784: switch (ch) {
785: case 'a':
786: aflag = 1;
787: break;
788: case 'f':
789: dev = optarg;
790: break;
791: case 'l':
792: lflag = 1;
793: break;
794: case 'n':
795: nflag = 1;
796: break;
797: case 'r':
798: rflag = 1;
799: break;
800: case 't':
801: table = optarg;
802: break;
803: case 'v':
804: verbose++;
805: break;
806: case 'w':
807: wflag = 1;
808: break;
809: case '?':
810: default:
811: usage();
812: /* NOTREACHED */
813: }
814: }
815: argc -= optind;
816: argv += optind;
817: if (dev == NULL || (lflag && (wflag || rflag))) {
818: /*
819: * No device specified, or attempting to loop and set
820: * or dump report at the same time
821: */
822: usage();
823: /* NOTREACHED */
824: }
825:
826: for (varnum = 0; varnum < (size_t)argc; varnum++) {
827: char const *name, *valuesep;
828: struct Susbvar *svar;
829:
830: svar = &variables[varnum];
831: name = argv[varnum];
832: valuesep = strchr(name, DELIM_SET);
833:
834: svar->variable = name;
835: svar->mflags = 0;
836:
837: if (valuesep == NULL) {
838: /* Read variable */
839: if (wflag)
840: errx(1, "Must not specify -w to read variables");
841: svar->value = NULL;
842: svar->varlen = strlen(name);
843:
844: if (nflag) {
845: /* Display value of variable only */
846: svar->opfunc = varop_value;
847: } else {
848: /* Display name and value of variable */
849: svar->opfunc = varop_display;
850:
851: if (verbose >= 1)
852: /* Show page names in verbose modes */
853: svar->mflags |= MATCH_SHOWPAGENAME;
854: }
855: } else {
856: /* Write variable */
857: if (!wflag)
858: errx(2, "Must specify -w to set variables");
859: svar->mflags |= MATCH_WRITABLE;
1.4 nate 860: if (verbose >= 1)
861: /*
862: * Allow displaying of set value in
863: * verbose mode. This isn't
864: * particularly useful though, so
865: * don't bother documenting it.
866: */
867: svar->mflags |= MATCH_SHOWVALUES;
1.1 pvalchev 868: svar->varlen = valuesep - name;
869: svar->value = valuesep + 1;
870: svar->opfunc = varop_modify;
871: }
872: }
873:
874: if (aflag || rflag) {
875: struct Susbvar *svar;
876:
877: svar = &variables[varnum++];
878:
879: svar->variable = NULL;
880: svar->mflags = MATCH_ALL;
881:
882: if (rflag) {
883: /*
884: * Dump report descriptor. Do dump collection
885: * items also, and hint that it won't be
886: * necessary to get the item status.
887: */
888: svar->opfunc = varop_report;
889: svar->mflags |= MATCH_COLLECTIONS | MATCH_NODATA;
890:
891: switch (verbose) {
892: default:
893: /* Level 2: Show item numerics and constants */
894: svar->mflags |= MATCH_SHOWNUMERIC;
895: /* FALLTHROUGH */
896: case 1:
897: /* Level 1: Just show constants */
898: svar->mflags |= MATCH_CONSTANTS;
899: /* FALLTHROUGH */
900: case 0:
901: break;
902: }
903: } else {
904: /* Display name and value of variable */
905: svar->opfunc = varop_display;
906:
907: switch (verbose) {
908: default:
909: /* Level 2: Show constants and page names */
910: svar->mflags |= MATCH_CONSTANTS;
911: /* FALLTHROUGH */
912: case 1:
913: /* Level 1: Just show page names */
914: svar->mflags |= MATCH_SHOWPAGENAME;
915: /* FALLTHROUGH */
916: case 0:
917: break;
918: }
919: }
920: }
921:
922: if (varnum == 0) {
923: /* Nothing to do... Display usage information. */
924: usage();
925: /* NOTREACHED */
926: }
927:
1.6 deraadt 928: if (hid_start(table) == -1)
929: errx(1, "hid_init");
1.1 pvalchev 930:
931: if (dev[0] != '/') {
932: snprintf(devnamebuf, sizeof(devnamebuf), "/dev/%s%s",
933: isdigit(dev[0]) ? "uhid" : "", dev);
934: dev = devnamebuf;
935: }
936:
937: hidfd = open(dev, O_RDWR);
938: if (hidfd < 0)
939: err(1, "%s", dev);
940:
1.4 nate 941: if (ioctl(hidfd, USB_GET_REPORT_ID, &reportid) < 0)
942: reportid = -1;
943: if (verbose > 1)
944: printf("report ID=%d\n", reportid);
1.1 pvalchev 945: repdesc = hid_get_report_desc(hidfd);
946: if (repdesc == 0)
947: errx(1, "USB_GET_REPORT_DESC");
948:
949: if (lflag) {
950: devloop(hidfd, repdesc, variables, varnum);
951: /* NOTREACHED */
952: }
953:
954: if (rflag)
955: /* Report mode header */
956: printf("Report descriptor:\n");
957:
958: devshow(hidfd, repdesc, variables, varnum,
959: 1 << hid_input |
960: 1 << hid_output |
961: 1 << hid_feature);
962:
963: if (rflag) {
964: /* Report mode trailer */
965: size_t repindex;
966: for (repindex = 0;
967: repindex < (sizeof(reptoparam) / sizeof(*reptoparam));
968: repindex++) {
1.4 nate 969: int size;
1.1 pvalchev 970: size = hid_report_size(repdesc,
971: reptoparam[repindex].hid_kind,
1.4 nate 972: reportid);
973: printf("Total %7s size %d bytes\n",
974: reptoparam[repindex].name, size);
1.1 pvalchev 975: }
976: }
977:
978: hid_dispose_report_desc(repdesc);
979: exit(0);
980: /* NOTREACHED */
981: }