search:
summary | log | graphiclog1 | graphiclog2 | commit | commitdiff | tree | refs | edit | fork
blame | history | raw | HEAD
some more minor stuff and a lot of debugging stuff that will be removed later.
[dragonfly/vkernel-mp.git] / contrib / tcpdump-3.9 / print-llc.c
blob4c9fc4f06ddfdb466bbbb30bfb9251df6f487435
1 /*
2 * Copyright (c) 1992, 1993, 1994, 1995, 1996, 1997
3 * The Regents of the University of California. All rights reserved.
4 *
5 * Redistribution and use in source and binary forms, with or without
6 * modification, are permitted provided that: (1) source code distributions
7 * retain the above copyright notice and this paragraph in its entirety, (2)
8 * distributions including binary code include the above copyright notice and
9 * this paragraph in its entirety in the documentation or other materials
10 * provided with the distribution, and (3) all advertising materials mentioning
11 * features or use of this software display the following acknowledgement:
12 * ``This product includes software developed by the University of California,
13 * Lawrence Berkeley Laboratory and its contributors.'' Neither the name of
14 * the University nor the names of its contributors may be used to endorse
15 * or promote products derived from this software without specific prior
16 * written permission.
17 * THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR IMPLIED
18 * WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED WARRANTIES OF
19 * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
20 *
21 * Code by Matt Thomas, Digital Equipment Corporation
22 * with an awful lot of hacking by Jeffrey Mogul, DECWRL
23 */
24
25 #ifndef lint
26 static const char rcsid[] _U_ =
27 "@(#) $Header: /tcpdump/master/tcpdump/print-llc.c,v 1.61.2.9 2006/01/17 17:44:46 hannes Exp $";
28 #endif
29
30 #ifdef HAVE_CONFIG_H
31 #include "config.h"
32 #endif
33
34 #include <tcpdump-stdinc.h>
35
36 #include <stdio.h>
37 #include <string.h>
38
39 #include "interface.h"
40 #include "addrtoname.h"
41 #include "extract.h" /* must come after interface.h */
42
43 #include "llc.h"
44 #include "ethertype.h"
45 #include "oui.h"
46
47 static struct tok llc_values[] = {
48 { LLCSAP_NULL, "Null" },
49 { LLCSAP_GLOBAL, "Global" },
50 { LLCSAP_8021B_I, "802.1B I" },
51 { LLCSAP_8021B_G, "802.1B G" },
52 { LLCSAP_IP, "IP" },
53 { LLCSAP_SNA, "SNA" },
54 { LLCSAP_PROWAYNM, "ProWay NM" },
55 { LLCSAP_8021D, "STP" },
56 { LLCSAP_RS511, "RS511" },
57 { LLCSAP_ISO8208, "ISO8208" },
58 { LLCSAP_PROWAY, "ProWay" },
59 { LLCSAP_SNAP, "SNAP" },
60 { LLCSAP_IPX, "IPX" },
61 { LLCSAP_NETBEUI, "NetBeui" },
62 { LLCSAP_ISONS, "OSI" },
63 { 0, NULL },
64 };
65
66 static struct tok llc_cmd_values[] = {
67 { LLC_UI, "ui" },
68 { LLC_TEST, "test" },
69 { LLC_XID, "xid" },
70 { LLC_UA, "ua" },
71 { LLC_DISC, "disc" },
72 { LLC_DM, "dm" },
73 { LLC_SABME, "sabme" },
74 { LLC_FRMR, "frmr" },
75 { 0, NULL }
76 };
77
78 static const struct tok llc_flag_values[] = {
79 { 0, "Command" },
80 { LLC_GSAP, "Response" },
81 { LLC_U_POLL, "Poll" },
82 { LLC_GSAP|LLC_U_POLL, "Final" },
83 { LLC_IS_POLL, "Poll" },
84 { LLC_GSAP|LLC_IS_POLL, "Final" },
85 { 0, NULL }
86 };
87
88
89 static const struct tok llc_ig_flag_values[] = {
90 { 0, "Individual" },
91 { LLC_IG, "Group" },
92 { 0, NULL }
93 };
94
95
96 static const struct tok llc_supervisory_values[] = {
97 { 0, "Receiver Ready" },
98 { 1, "Receiver not Ready" },
99 { 2, "Reject" },
100 { 0, NULL }
101 };
102
103
104 static const struct tok cisco_values[] = {
105 { PID_CISCO_CDP, "CDP" },
106 { 0, NULL }
107 };
108
109 static const struct tok bridged_values[] = {
110 { PID_RFC2684_ETH_FCS, "Ethernet + FCS" },
111 { PID_RFC2684_ETH_NOFCS, "Ethernet w/o FCS" },
112 { PID_RFC2684_802_4_FCS, "802.4 + FCS" },
113 { PID_RFC2684_802_4_NOFCS, "802.4 w/o FCS" },
114 { PID_RFC2684_802_5_FCS, "Token Ring + FCS" },
115 { PID_RFC2684_802_5_NOFCS, "Token Ring w/o FCS" },
116 { PID_RFC2684_FDDI_FCS, "FDDI + FCS" },
117 { PID_RFC2684_FDDI_NOFCS, "FDDI w/o FCS" },
118 { PID_RFC2684_802_6_FCS, "802.6 + FCS" },
119 { PID_RFC2684_802_6_NOFCS, "802.6 w/o FCS" },
120 { PID_RFC2684_BPDU, "BPDU" },
121 { 0, NULL },
122 };
123
124 static const struct tok null_values[] = {
125 { 0, NULL }
126 };
127
128 struct oui_tok {
129 u_int32_t oui;
130 const struct tok *tok;
131 };
132
133 static const struct oui_tok oui_to_tok[] = {
134 { OUI_ENCAP_ETHER, ethertype_values },
135 { OUI_CISCO_90, ethertype_values }, /* uses some Ethertype values */
136 { OUI_APPLETALK, ethertype_values }, /* uses some Ethertype values */
137 { OUI_CISCO, cisco_values },
138 { OUI_RFC2684, bridged_values }, /* bridged, RFC 2427 FR or RFC 2864 ATM */
139 { 0, NULL }
140 };
141
142 /*
143 * Returns non-zero IFF it succeeds in printing the header
144 */
145 int
146 llc_print(const u_char *p, u_int length, u_int caplen,
147 const u_char *esrc, const u_char *edst, u_short *extracted_ethertype)
148 {
149 u_int8_t dsap_field, dsap, ssap_field, ssap;
150 u_int16_t control;
151 int is_u;
152 register int ret;
153
154 *extracted_ethertype = 0;
155
156 if (caplen < 3) {
157 (void)printf("[|llc]");
158 default_print((u_char *)p, caplen);
159 return(0);
160 }
161
162 dsap_field = *p;
163 ssap_field = *(p + 1);
164
165 /*
166 * OK, what type of LLC frame is this? The length
167 * of the control field depends on that - I frames
168 * have a two-byte control field, and U frames have
169 * a one-byte control field.
170 */
171 control = *(p + 2);
172 if ((control & LLC_U_FMT) == LLC_U_FMT) {
173 /*
174 * U frame.
175 */
176 is_u = 1;
177 } else {
178 /*
179 * The control field in I and S frames is
180 * 2 bytes...
181 */
182 if (caplen < 4) {
183 (void)printf("[|llc]");
184 default_print((u_char *)p, caplen);
185 return(0);
186 }
187
188 /*
189 * ...and is little-endian.
190 */
191 control = EXTRACT_LE_16BITS(p + 2);
192 is_u = 0;
193 }
194
195 if (ssap_field == LLCSAP_GLOBAL && dsap_field == LLCSAP_GLOBAL) {
196 /*
197 * This is an Ethernet_802.3 IPX frame; it has an
198 * 802.3 header (i.e., an Ethernet header where the
199 * type/length field is <= ETHERMTU, i.e. it's a length
200 * field, not a type field), but has no 802.2 header -
201 * the IPX packet starts right after the Ethernet header,
202 * with a signature of two bytes of 0xFF (which is
203 * LLCSAP_GLOBAL).
204 *
205 * (It might also have been an Ethernet_802.3 IPX at
206 * one time, but got bridged onto another network,
207 * such as an 802.11 network; this has appeared in at
208 * least one capture file.)
209 */
210
211 if (eflag)
212 printf("IPX 802.3: ");
213
214 ipx_print(p, length);
215 return (1);
216 }
217
218 dsap = dsap_field & ~LLC_IG;
219 ssap = ssap_field & ~LLC_GSAP;
220
221 if (eflag) {
222 printf("LLC, dsap %s (0x%02x) %s, ssap %s (0x%02x) %s",
223 tok2str(llc_values, "Unknown", dsap),
224 dsap,
225 tok2str(llc_ig_flag_values, "Unknown", dsap_field & LLC_IG),
226 tok2str(llc_values, "Unknown", ssap),
227 ssap,
228 tok2str(llc_flag_values, "Unknown", ssap_field & LLC_GSAP));
229
230 if (is_u) {
231 printf(", ctrl 0x%02x: ", control);
232 } else {
233 printf(", ctrl 0x%04x: ", control);
234 }
235 }
236
237 if (ssap == LLCSAP_8021D && dsap == LLCSAP_8021D &&
238 control == LLC_UI) {
239 stp_print(p+3, length-3);
240 return (1);
241 }
242
243 if (ssap == LLCSAP_IP && dsap == LLCSAP_IP &&
244 control == LLC_UI) {
245 ip_print(gndo, p+4, length-4);
246 return (1);
247 }
248
249 if (ssap == LLCSAP_IPX && dsap == LLCSAP_IPX &&
250 control == LLC_UI) {
251 /*
252 * This is an Ethernet_802.2 IPX frame, with an 802.3
253 * header and an 802.2 LLC header with the source and
254 * destination SAPs being the IPX SAP.
255 *
256 * Skip DSAP, LSAP, and control field.
257 */
258 if (eflag)
259 printf("IPX 802.2: ");
260
261 ipx_print(p+3, length-3);
262 return (1);
263 }
264
265 #ifdef TCPDUMP_DO_SMB
266 if (ssap == LLCSAP_NETBEUI && dsap == LLCSAP_NETBEUI
267 && (!(control & LLC_S_FMT) || control == LLC_U_FMT)) {
268 /*
269 * we don't actually have a full netbeui parser yet, but the
270 * smb parser can handle many smb-in-netbeui packets, which
271 * is very useful, so we call that
272 *
273 * We don't call it for S frames, however, just I frames
274 * (which are frames that don't have the low-order bit,
275 * LLC_S_FMT, set in the first byte of the control field)
276 * and UI frames (whose control field is just 3, LLC_U_FMT).
277 */
278
279 /*
280 * Skip the LLC header.
281 */
282 if (is_u) {
283 p += 3;
284 length -= 3;
285 caplen -= 3;
286 } else {
287 p += 4;
288 length -= 4;
289 caplen -= 4;
290 }
291 netbeui_print(control, p, length);
292 return (1);
293 }
294 #endif
295 if (ssap == LLCSAP_ISONS && dsap == LLCSAP_ISONS
296 && control == LLC_UI) {
297 isoclns_print(p + 3, length - 3, caplen - 3);
298 return (1);
299 }
300
301 if (ssap == LLCSAP_SNAP && dsap == LLCSAP_SNAP
302 && control == LLC_UI) {
303 /*
304 * XXX - what *is* the right bridge pad value here?
305 * Does anybody ever bridge one form of LAN traffic
306 * over a networking type that uses 802.2 LLC?
307 */
308 ret = snap_print(p+3, length-3, caplen-3, extracted_ethertype,
309 2);
310 if (ret)
311 return (ret);
312 }
313
314 if (!eflag) {
315 if (ssap == dsap) {
316 if (esrc == NULL || edst == NULL)
317 (void)printf("%s ", tok2str(llc_values, "Unknown DSAP 0x%02x", dsap));
318 else
319 (void)printf("%s > %s %s ",
320 etheraddr_string(esrc),
321 etheraddr_string(edst),
322 tok2str(llc_values, "Unknown DSAP 0x%02x", dsap));
323 } else {
324 if (esrc == NULL || edst == NULL)
325 (void)printf("%s > %s ",
326 tok2str(llc_values, "Unknown SSAP 0x%02x", ssap),
327 tok2str(llc_values, "Unknown DSAP 0x%02x", dsap));
328 else
329 (void)printf("%s %s > %s %s ",
330 etheraddr_string(esrc),
331 tok2str(llc_values, "Unknown SSAP 0x%02x", ssap),
332 etheraddr_string(edst),
333 tok2str(llc_values, "Unknown DSAP 0x%02x", dsap));
334 }
335 }
336
337 if (is_u) {
338 printf("Unnumbered, %s, Flags [%s], length %u",
339 tok2str(llc_cmd_values, "%02x", LLC_U_CMD(control)),
340 tok2str(llc_flag_values,"?",(ssap_field & LLC_GSAP) | (control & LLC_U_POLL)),
341 length);
342
343 p += 3;
344 length -= 3;
345 caplen -= 3;
346
347 if ((control & ~LLC_U_POLL) == LLC_XID) {
348 if (*p == LLC_XID_FI) {
349 printf(": %02x %02x", p[1], p[2]);
350 p += 3;
351 length -= 3;
352 caplen -= 3;
353 }
354 }
355 } else {
356 if ((control & LLC_S_FMT) == LLC_S_FMT) {
357 (void)printf("Supervisory, %s, rcv seq %u, Flags [%s], length %u",
358 tok2str(llc_supervisory_values,"?",LLC_S_CMD(control)),
359 LLC_IS_NR(control),
360 tok2str(llc_flag_values,"?",(ssap_field & LLC_GSAP) | (control & LLC_IS_POLL)),
361 length);
362 } else {
363 (void)printf("Information, send seq %u, rcv seq %u, Flags [%s], length %u",
364 LLC_I_NS(control),
365 LLC_IS_NR(control),
366 tok2str(llc_flag_values,"?",(ssap_field & LLC_GSAP) | (control & LLC_IS_POLL)),
367 length);
368 }
369 p += 4;
370 length -= 4;
371 caplen -= 4;
372 }
373 return(1);
374 }
375
376 int
377 snap_print(const u_char *p, u_int length, u_int caplen,
378 u_short *extracted_ethertype, u_int bridge_pad)
379 {
380 u_int32_t orgcode;
381 register u_short et;
382 register int ret;
383
384 TCHECK2(*p, 5);
385 orgcode = EXTRACT_24BITS(p);
386 et = EXTRACT_16BITS(p + 3);
387
388 if (eflag) {
389 const struct tok *tok = null_values;
390 const struct oui_tok *otp;
391
392 for (otp = &oui_to_tok[0]; otp->tok != NULL; otp++) {
393 if (otp->oui == orgcode) {
394 tok = otp->tok;
395 break;
396 }
397 }
398 (void)printf("oui %s (0x%06x), %s %s (0x%04x): ",
399 tok2str(oui_values, "Unknown", orgcode),
400 orgcode,
401 (orgcode == 0x000000 ? "ethertype" : "pid"),
402 tok2str(tok, "Unknown", et),
403 et);
404 }
405 p += 5;
406 length -= 5;
407 caplen -= 5;
408
409 switch (orgcode) {
410 case OUI_ENCAP_ETHER:
411 case OUI_CISCO_90:
412 /*
413 * This is an encapsulated Ethernet packet,
414 * or a packet bridged by some piece of
415 * Cisco hardware; the protocol ID is
416 * an Ethernet protocol type.
417 */
418 ret = ether_encap_print(et, p, length, caplen,
419 extracted_ethertype);
420 if (ret)
421 return (ret);
422 break;
423
424 case OUI_APPLETALK:
425 if (et == ETHERTYPE_ATALK) {
426 /*
427 * No, I have no idea why Apple used one
428 * of their own OUIs, rather than
429 * 0x000000, and an Ethernet packet
430 * type, for Appletalk data packets,
431 * but used 0x000000 and an Ethernet
432 * packet type for AARP packets.
433 */
434 ret = ether_encap_print(et, p, length, caplen,
435 extracted_ethertype);
436 if (ret)
437 return (ret);
438 }
439 break;
440
441 case OUI_CISCO:
442 if (et == PID_CISCO_CDP) {
443 cdp_print(p, length, caplen);
444 return (1);
445 }
446 break;
447
448 case OUI_RFC2684:
449 switch (et) {
450
451 case PID_RFC2684_ETH_FCS:
452 case PID_RFC2684_ETH_NOFCS:
453 /*
454 * XXX - remove the last two bytes for
455 * PID_RFC2684_ETH_FCS?
456 */
457 /*
458 * Skip the padding.
459 */
460 TCHECK2(*p, bridge_pad);
461 caplen -= bridge_pad;
462 length -= bridge_pad;
463 p += bridge_pad;
464
465 /*
466 * What remains is an Ethernet packet.
467 */
468 ether_print(p, length, caplen);
469 return (1);
470
471 case PID_RFC2684_802_5_FCS:
472 case PID_RFC2684_802_5_NOFCS:
473 /*
474 * XXX - remove the last two bytes for
475 * PID_RFC2684_ETH_FCS?
476 */
477 /*
478 * Skip the padding, but not the Access
479 * Control field.
480 */
481 TCHECK2(*p, bridge_pad);
482 caplen -= bridge_pad;
483 length -= bridge_pad;
484 p += bridge_pad;
485
486 /*
487 * What remains is an 802.5 Token Ring
488 * packet.
489 */
490 token_print(p, length, caplen);
491 return (1);
492
493 case PID_RFC2684_FDDI_FCS:
494 case PID_RFC2684_FDDI_NOFCS:
495 /*
496 * XXX - remove the last two bytes for
497 * PID_RFC2684_ETH_FCS?
498 */
499 /*
500 * Skip the padding.
501 */
502 TCHECK2(*p, bridge_pad + 1);
503 caplen -= bridge_pad + 1;
504 length -= bridge_pad + 1;
505 p += bridge_pad + 1;
506
507 /*
508 * What remains is an FDDI packet.
509 */
510 fddi_print(p, length, caplen);
511 return (1);
512
513 case PID_RFC2684_BPDU:
514 stp_print(p, length);
515 return (1);
516 }
517 }
518 return (0);
519
520 trunc:
521 (void)printf("[|snap]");
522 return (1);
523 }
524
525
526 /*
527 * Local Variables:
528 * c-style: whitesmith
529 * c-basic-offset: 8
530 * End:
531 */
DragonFly vkernel multiprocessor port