| blob | afaeb0566571fddbfd176c9764805f1dfc5da41a |
1 /*
2 * Copyright (c) 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 * sf-pcapng.c - pcapng-file-format-specific code from savefile.c
22 */
24 #ifdef HAVE_CONFIG_H
25 #include <config.h>
26 #endif
28 #include <pcap/pcap-inttypes.h>
30 #include <errno.h>
31 #include <memory.h>
32 #include <stdio.h>
33 #include <stdlib.h>
34 #include <string.h>
40 #ifdef HAVE_OS_PROTO_H
42 #endif
46 /*
47 * Block types.
48 */
50 /*
51 * Common part at the beginning of all blocks.
52 */
54 bpf_u_int32 block_type;
55 bpf_u_int32 total_length;
56 };
58 /*
59 * Common trailer at the end of all blocks.
60 */
62 bpf_u_int32 total_length;
63 };
65 /*
66 * Common options.
67 */
71 /*
72 * Option header.
73 */
75 u_short option_code;
76 u_short option_length;
77 };
79 /*
80 * Structures for the part of each block type following the common
81 * part.
82 */
84 /*
85 * Section Header Block.
86 */
87 #define BT_SHB 0x0A0D0D0A
90 bpf_u_int32 byte_order_magic;
91 u_short major_version;
92 u_short minor_version;
94 /* followed by options and trailer */
95 };
97 /*
98 * Byte-order magic value.
99 */
100 #define BYTE_ORDER_MAGIC 0x1A2B3C4D
102 /*
103 * Current version number. If major_version isn't PCAP_NG_VERSION_MAJOR,
104 * that means that this code can't read the file.
105 */
106 #define PCAP_NG_VERSION_MAJOR 1
107 #define PCAP_NG_VERSION_MINOR 0
109 /*
110 * Interface Description Block.
111 */
112 #define BT_IDB 0x00000001
115 u_short linktype;
116 u_short reserved;
117 bpf_u_int32 snaplen;
118 /* followed by options and trailer */
119 };
121 /*
122 * Options in the IDB.
123 */
138 /*
139 * Enhanced Packet Block.
140 */
141 #define BT_EPB 0x00000006
144 bpf_u_int32 interface_id;
145 bpf_u_int32 timestamp_high;
146 bpf_u_int32 timestamp_low;
147 bpf_u_int32 caplen;
148 bpf_u_int32 len;
149 /* followed by packet data, options, and trailer */
150 };
152 /*
153 * Simple Packet Block.
154 */
155 #define BT_SPB 0x00000003
158 bpf_u_int32 len;
159 /* followed by packet data and trailer */
160 };
162 /*
163 * Packet Block.
164 */
165 #define BT_PB 0x00000002
168 u_short interface_id;
169 u_short drops_count;
170 bpf_u_int32 timestamp_high;
171 bpf_u_int32 timestamp_low;
172 bpf_u_int32 caplen;
173 bpf_u_int32 len;
174 /* followed by packet data, options, and trailer */
175 };
177 /*
178 * Block cursor - used when processing the contents of a block.
179 * Contains a pointer into the data being processed and a count
180 * of bytes remaining in the block.
181 */
185 bpf_u_int32 block_type;
186 };
189 PASS_THROUGH,
190 SCALE_UP_DEC,
191 SCALE_DOWN_DEC,
192 SCALE_UP_BIN,
193 SCALE_DOWN_BIN
196 /*
197 * Per-interface information.
198 */
204 };
206 /*
207 * Per-pcap_t private data.
208 *
209 * max_blocksize is the maximum size of a block that we'll accept. We
210 * reject blocks bigger than this, so we don't consume too much memory
211 * with a truly huge block. It can change as we see IDBs with different
212 * link-layer header types. (Currently, we don't support IDBs with
213 * different link-layer header types, but we will support it in the
214 * future, when we offer file-reading APIs that support it.)
215 *
216 * XXX - that's an issue on ILP32 platforms, where the maximum block
217 * size of 2^31-1 would eat all but one byte of the entire address space.
218 * It's less of an issue on ILP64/LLP64 platforms, but the actual size
219 * of the address space may be limited by 1) the number of *significant*
220 * address bits (currently, x86-64 only supports 48 bits of address), 2)
221 * any limitations imposed by the operating system; 3) any limitations
222 * imposed by the amount of available backing store for anonymous pages,
223 * so we impose a limit regardless of the size of a pointer.
224 */
231 };
233 /*
234 * The maximum block size we start with; we use an arbitrary value of
235 * 16 MiB.
236 */
237 #define INITIAL_MAX_BLOCKSIZE (16*1024*1024)
239 /*
240 * Maximum block size for a given maximum snapshot length; we define it
241 * as the size of an EPB with a max_snaplen-sized packet and 128KB of
242 * options.
243 */
244 #define MAX_BLOCKSIZE_FOR_SNAPLEN(max_snaplen) \
245 (sizeof (struct block_header) + \
246 sizeof (struct enhanced_packet_block) + \
247 (max_snaplen) + 131072 + \
248 sizeof (struct block_trailer))
254 static int
257 {
271 }
273 }
275 }
277 static int
279 {
296 }
298 /*
299 * Is this block "too small" - i.e., is it shorter than a block
300 * header plus a block trailer?
301 */
309 }
311 /*
312 * Is the block total length a multiple of 4?
313 */
315 /*
316 * No. Report that as an error.
317 */
322 }
324 /*
325 * Is the buffer big enough?
326 */
328 /*
329 * No - make it big enough, unless it's too big, in
330 * which case we fail.
331 */
338 }
343 }
345 }
347 /*
348 * Copy the stuff we've read to the buffer, and read the rest
349 * of the block.
350 */
357 /*
358 * Get the block size from the trailer.
359 */
364 /*
365 * Is the total length from the trailer the same as the total
366 * length from the header?
367 */
369 /*
370 * No.
371 */
375 }
377 /*
378 * Initialize the cursor.
379 */
384 }
389 {
392 /*
393 * Make sure we have the specified amount of data remaining in
394 * the block data.
395 */
401 }
403 /*
404 * Return the current pointer, and skip past the chunk.
405 */
410 }
414 {
419 /*
420 * Option header is cut short.
421 */
423 }
425 /*
426 * Byte-swap it if necessary.
427 */
431 }
434 }
439 {
443 /* Pad option length to 4-byte boundary */
449 /*
450 * Option value is cut short.
451 */
453 }
456 }
458 static int
461 {
466 u_int i;
471 /*
472 * Get the option header.
473 */
476 /*
477 * Option header is cut short.
478 */
480 }
482 /*
483 * Get option value.
484 */
486 errbuf);
488 /*
489 * Option value is cut short.
490 */
492 }
502 }
511 }
516 }
520 /*
521 * Resolution is negative power of 2.
522 */
526 /*
527 * Resolution is too high; 2^-{res}
528 * won't fit in a 64-bit value.
529 */
532 tsresol_shift);
534 }
538 /*
539 * Resolution is negative power of 10.
540 */
542 /*
543 * Resolution is too high; 2^-{res}
544 * won't fit in a 64-bit value (the
545 * largest power of 10 that fits
546 * in a 64-bit value is 10^19, as
547 * the largest 64-bit unsigned
548 * value is ~1.8*10^19).
549 */
552 tsresol_opt);
554 }
559 }
568 }
573 }
582 }
583 }
585 done:
587 }
589 static int
591 {
599 /*
600 * Count this interface.
601 */
604 /*
605 * Grow the array of per-interface information as necessary.
606 */
608 /*
609 * We need to grow the array.
610 */
611 bpf_u_int32 new_ifaces_size;
615 /*
616 * It's currently empty.
617 *
618 * (The Clang static analyzer doesn't do enough,
619 * err, umm, dataflow *analysis* to realize that
620 * ps->ifaces_size == 0 if ps->ifaces == NULL,
621 * and so complains about a possible zero argument
622 * to realloc(), so we check for the former
623 * condition to shut it up.
624 *
625 * However, it doesn't complain that one of the
626 * multiplications below could overflow, which is
627 * a real, albeit extremely unlikely, problem (you'd
628 * need a pcapng file with tens of millions of
629 * interfaces).)
630 */
634 /*
635 * It's not currently empty; double its size.
636 * (Perhaps overkill once we have a lot of interfaces.)
637 *
638 * Check for overflow if we double it.
639 */
641 /*
642 * The maximum number of interfaces before
643 * ps->ifaces_size overflows is the largest
644 * possible 32-bit power of 2, as we do
645 * size doubling.
646 */
651 }
653 /*
654 * ps->ifaces_size * 2 doesn't overflow, so it's
655 * safe to multiply.
656 */
659 /*
660 * Now make sure that's not so big that it overflows
661 * if we multiply by sizeof (struct pcap_ng_if).
662 *
663 * That can happen on 32-bit platforms, with a 32-bit
664 * size_t; it shouldn't happen on 64-bit platforms,
665 * with a 64-bit size_t, as new_ifaces_size is
666 * 32 bits.
667 */
669 /*
670 * As this fails only with 32-bit size_t,
671 * the multiplication was 32x32->32, and
672 * the largest 32-bit value that can safely
673 * be multiplied by sizeof (struct pcap_ng_if)
674 * without overflow is the largest 32-bit
675 * (unsigned) value divided by
676 * sizeof (struct pcap_ng_if).
677 */
682 }
684 }
686 /*
687 * We ran out of memory.
688 * Give up.
689 */
694 }
697 }
699 /*
700 * Set the default time stamp resolution and offset.
701 */
706 /*
707 * Now look for various time stamp options, so we know
708 * how to interpret the time stamps for this interface.
709 */
717 /*
718 * Determine whether we're scaling up or down or not
719 * at all for this interface.
720 */
722 /*
723 * The resolution is the resolution the user wants,
724 * so we don't have to do scaling.
725 */
728 /*
729 * The resolution is greater than what the user wants,
730 * so we have to scale the timestamps down.
731 */
735 /*
736 * Calculate the scale factor.
737 */
740 }
742 /*
743 * The resolution is less than what the user wants,
744 * so we have to scale the timestamps up.
745 */
749 /*
750 * Calculate the scale factor.
751 */
754 }
755 }
757 }
759 /*
760 * Check whether this is a pcapng savefile and, if it is, extract the
761 * relevant information from the header.
762 */
763 pcap_t *
766 {
767 bpf_u_int32 magic_int;
769 bpf_u_int32 total_length;
770 bpf_u_int32 byte_order_magic;
780 /*
781 * Assume no read errors.
782 */
785 /*
786 * Check whether the first 4 bytes of the file are the block
787 * type for a pcapng savefile.
788 */
791 /*
792 * XXX - check whether this looks like what the block
793 * type would be after being munged by mapping between
794 * UN*X and DOS/Windows text file format and, if it
795 * does, look for the byte-order magic number in
796 * the appropriate place and, if we find it, report
797 * this as possibly being a pcapng file transferred
798 * between UN*X and Windows in text file format?
799 */
801 }
803 /*
804 * OK, they are. However, that's just \n\r\r\n, so it could,
805 * conceivably, be an ordinary text file.
806 *
807 * It could not, however, conceivably be any other type of
808 * capture file, so we can read the rest of the putative
809 * Section Header Block; put the block type in the common
810 * header, read the rest of the common header and the
811 * fixed-length portion of the SHB, and look for the byte-order
812 * magic value.
813 */
821 }
823 /*
824 * Possibly a weird short text file, so just say
825 * "not pcapng".
826 */
828 }
836 }
838 /*
839 * Possibly a weird short text file, so just say
840 * "not pcapng".
841 */
843 }
847 /*
848 * Not a pcapng file.
849 */
851 }
854 }
856 /*
857 * Check the sanity of the total length.
858 */
862 "Section Header Block in pcapng dump file has invalid length %" PRIsize " < _%u_ < %u (BT_SHB_INSANE_MAX)",
864 total_length,
865 BT_SHB_INSANE_MAX);
869 }
871 /*
872 * OK, this is a good pcapng file.
873 * Allocate a pcap_t for it.
874 */
877 /* Allocation failed. */
880 }
884 /*
885 * What precision does the user want?
886 */
903 }
907 /*
908 * Allocate a buffer into which to read blocks. We default to
909 * the maximum of:
910 *
911 * the total length of the SHB for which we read the header;
912 *
913 * 2K, which should be more than large enough for an Enhanced
914 * Packet Block containing a full-size Ethernet frame, and
915 * leaving room for some options.
916 *
917 * If we find a bigger block, we reallocate the buffer, up to
918 * the maximum size. We start out with a maximum size of
919 * INITIAL_MAX_BLOCKSIZE; if we see any link-layer header types
920 * with a maximum snapshot that results in a larger maximum
921 * block length, we boost the maximum.
922 */
932 }
935 /*
936 * Copy the stuff we've read to the buffer, and read the rest
937 * of the SHB.
938 */
951 /*
952 * Byte-swap the fields we've read.
953 */
957 /*
958 * XXX - we don't care about the section length.
959 */
960 }
961 /* currently only SHB version 1.0 is supported */
968 }
972 /*
973 * Save the time stamp resolution the user requested.
974 */
977 /*
978 * Now start looking for an Interface Description Block.
979 */
981 /*
982 * Read the next block.
983 */
986 /* EOF - no IDB in this file */
990 }
996 /*
997 * Get a pointer to the fixed-length portion of the
998 * IDB.
999 */
1001 errbuf);
1005 /*
1006 * Byte-swap it if necessary.
1007 */
1011 }
1013 /*
1014 * Try to add this interface.
1015 */
1024 /*
1025 * Saw a packet before we saw any IDBs. That's
1026 * not valid, as we don't know what link-layer
1027 * encapsulation the packet has.
1028 */
1034 /*
1035 * Just ignore it.
1036 */
1038 }
1039 }
1041 done:
1047 /*
1048 * If the maximum block size for a packet with the maximum
1049 * snapshot length for this DLT_ is bigger than the current
1050 * maximum block size, increase the maximum.
1051 */
1060 fail:
1066 }
1068 static void
1070 {
1075 }
1077 /*
1078 * Read and return the next packet from the savefile. Return the header
1079 * in hdr and a pointer to the contents in data. Return 0 on success, 1
1080 * if there were no more packets, and -1 on an error.
1081 */
1082 static int
1084 {
1097 /*
1098 * Look for an Enhanced Packet Block, a Simple Packet Block,
1099 * or a Packet Block.
1100 */
1102 /*
1103 * Read the block type and length; those are common
1104 * to all blocks.
1105 */
1114 /*
1115 * Get a pointer to the fixed-length portion of the
1116 * EPB.
1117 */
1123 /*
1124 * Byte-swap it if necessary.
1125 */
1127 /* these were written in opposite byte order */
1139 }
1143 /*
1144 * Get a pointer to the fixed-length portion of the
1145 * SPB.
1146 */
1152 /*
1153 * SPB packets are assumed to have arrived on
1154 * the first interface.
1155 */
1158 /*
1159 * Byte-swap it if necessary.
1160 */
1162 /* these were written in opposite byte order */
1167 /*
1168 * The SPB doesn't give the captured length;
1169 * it's the minimum of the snapshot length
1170 * and the packet length.
1171 */
1179 /*
1180 * Get a pointer to the fixed-length portion of the
1181 * PB.
1182 */
1188 /*
1189 * Byte-swap it if necessary.
1190 */
1192 /* these were written in opposite byte order */
1204 }
1208 /*
1209 * Interface Description Block. Get a pointer
1210 * to its fixed-length portion.
1211 */
1217 /*
1218 * Byte-swap it if necessary.
1219 */
1223 }
1225 /*
1226 * If the link-layer type or snapshot length
1227 * differ from the ones for the first IDB we
1228 * saw, quit.
1229 *
1230 * XXX - just discard packets from those
1231 * interfaces?
1232 */
1238 }
1240 /*
1241 * Check against the *adjusted* value of this IDB's
1242 * snapshot length.
1243 */
1250 }
1252 /*
1253 * Try to add this interface.
1254 */
1260 /*
1261 * Section Header Block. Get a pointer
1262 * to its fixed-length portion.
1263 */
1269 /*
1270 * Assume the byte order of this section is
1271 * the same as that of the previous section.
1272 * We'll check for that later.
1273 */
1279 }
1281 /*
1282 * Make sure the byte order doesn't change;
1283 * pcap_is_swapped() shouldn't change its
1284 * return value in the middle of reading a capture.
1285 */
1289 /*
1290 * OK.
1291 */
1295 /*
1296 * Byte order changes.
1297 */
1303 /*
1304 * Not a valid SHB.
1305 */
1309 }
1311 /*
1312 * Make sure the major version is the version
1313 * we handle.
1314 */
1320 }
1322 /*
1323 * Reset the interface count; this section should
1324 * have its own set of IDBs. If any of them
1325 * don't have the same interface type, snapshot
1326 * length, or resolution as the first interface
1327 * we saw, we'll fail. (And if we don't see
1328 * any IDBs, we'll fail when we see a packet
1329 * block.)
1330 */
1335 /*
1336 * Not a packet block, IDB, or SHB; ignore it.
1337 */
1339 }
1340 }
1342 found:
1343 /*
1344 * Is the interface ID an interface we know?
1345 */
1347 /*
1348 * Yes. Fail.
1349 */
1351 "a packet arrived on interface %u, but there's no Interface Description Block for that interface",
1352 interface_id);
1354 }
1358 "invalid packet capture length %u, bigger than "
1361 }
1363 /*
1364 * Convert the time stamp to seconds and fractions of a second,
1365 * with the fractions being in units of the file-supplied resolution.
1366 */
1370 /*
1371 * Convert the fractions from units of the file-supplied resolution
1372 * to units of the user-requested resolution.
1373 */
1377 /*
1378 * The interface resolution is what the user wants,
1379 * so we're done.
1380 */
1384 /*
1385 * The interface resolution is less than what the user
1386 * wants; scale the fractional part up to the units of
1387 * the resolution the user requested by multiplying by
1388 * the quotient of the user-requested resolution and the
1389 * file-supplied resolution.
1390 *
1391 * Those resolutions are both powers of 10, and the user-
1392 * requested resolution is greater than the file-supplied
1393 * resolution, so the quotient in question is an integer.
1394 * We've calculated that quotient already, so we just
1395 * multiply by it.
1396 */
1401 /*
1402 * The interface resolution is less than what the user
1403 * wants; scale the fractional part up to the units of
1404 * the resolution the user requested by multiplying by
1405 * the quotient of the user-requested resolution and the
1406 * file-supplied resolution.
1407 *
1408 * The file-supplied resolution is a power of 2, so the
1409 * quotient is not an integer, so, in order to do this
1410 * entirely with integer arithmetic, we multiply by the
1411 * user-requested resolution and divide by the file-
1412 * supplied resolution.
1413 *
1414 * XXX - Is there something clever we could do here,
1415 * given that we know that the file-supplied resolution
1416 * is a power of 2? Doing a multiplication followed by
1417 * a division runs the risk of overflowing, and involves
1418 * two non-simple arithmetic operations.
1419 */
1425 /*
1426 * The interface resolution is greater than what the user
1427 * wants; scale the fractional part up to the units of
1428 * the resolution the user requested by multiplying by
1429 * the quotient of the user-requested resolution and the
1430 * file-supplied resolution.
1431 *
1432 * Those resolutions are both powers of 10, and the user-
1433 * requested resolution is less than the file-supplied
1434 * resolution, so the quotient in question isn't an
1435 * integer, but its reciprocal is, and we can just divide
1436 * by the reciprocal of the quotient. We've calculated
1437 * the reciprocal of that quotient already, so we must
1438 * divide by it.
1439 */
1445 /*
1446 * The interface resolution is greater than what the user
1447 * wants; convert the fractional part to units of the
1448 * resolution the user requested by multiplying by the
1449 * quotient of the user-requested resolution and the
1450 * file-supplied resolution. We do that by multiplying
1451 * by the user-requested resolution and dividing by the
1452 * file-supplied resolution, as the quotient might not
1453 * fit in an integer.
1454 *
1455 * The file-supplied resolution is a power of 2, so the
1456 * quotient is not an integer, and neither is its
1457 * reciprocal, so, in order to do this entirely with
1458 * integer arithmetic, we multiply by the user-requested
1459 * resolution and divide by the file-supplied resolution.
1460 *
1461 * XXX - Is there something clever we could do here,
1462 * given that we know that the file-supplied resolution
1463 * is a power of 2? Doing a multiplication followed by
1464 * a division runs the risk of overflowing, and involves
1465 * two non-simple arithmetic operations.
1466 */
1470 }
1471 #ifdef _WIN32
1472 /*
1473 * tv_sec and tv_used in the Windows struct timeval are both
1474 * longs.
1475 */
1478 #else
1479 /*
1480 * tv_sec in the UN*X struct timeval is a time_t; tv_usec is
1481 * suseconds_t in UN*Xes that work the way the current Single
1482 * UNIX Standard specify - but not all older UN*Xes necessarily
1483 * support that type, so just cast to int.
1484 */
1487 #endif
1489 /*
1490 * Get a pointer to the packet data.
1491 */
1500 }