1RAWSHARK(1) RAWSHARK(1)
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6 rawshark - Dump and analyze raw pcap data
7
9 rawshark [ -d <encap:linktype>|<proto:protoname> ]
10 [ -F <field to display> ] [ -h ] [ -l ] [ -m <bytes> ] [ -n ]
11 [ -N <name resolving flags> ] [ -o <preference setting> ] ... [ -p ]
12 [ -r <pipe>|- ] [ -R <read (display) filter> ] [ -s ]
13 [ -S <field format> ] [ -t a|ad|adoy|d|dd|e|r|u|ud|udoy ] [ -v ]
14
16 Rawshark reads a stream of packets from a file or pipe, and prints a
17 line describing its output, followed by a set of matching fields for
18 each packet on stdout.
19
21 Unlike TShark, Rawshark makes no assumptions about encapsulation or
22 input. The -d and -r flags must be specified in order for it to run.
23 One or more -F flags should be specified in order for the output to be
24 useful. The other flags listed above follow the same conventions as
25 Wireshark and TShark.
26
27 Rawshark expects input records with the following format by default.
28 This matches the format of the packet header and packet data in a
29 pcap-formatted file on disk.
30
31 struct rawshark_rec_s {
32 uint32_t ts_sec; /* Time stamp (seconds) */
33 uint32_t ts_usec; /* Time stamp (microseconds) */
34 uint32_t caplen; /* Length of the packet buffer */
35 uint32_t len; /* "On the wire" length of the packet */
36 uint8_t data[caplen]; /* Packet data */
37 };
38
39 If -p is supplied rawshark expects the following format. This matches
40 the struct pcap_pkthdr structure and packet data used in libpcap,
41 Npcap, or WinPcap. This structure’s format is platform-dependent; the
42 size of the tv_sec field in the struct timeval structure could be 32
43 bits or 64 bits. For rawshark to work, the layout of the structure in
44 the input must match the layout of the structure in rawshark. Note that
45 this format will probably be the same as the previous format if
46 rawshark is a 32-bit program, but will not necessarily be the same if
47 rawshark is a 64-bit program.
48
49 struct rawshark_rec_s {
50 struct timeval ts; /* Time stamp */
51 uint32_t caplen; /* Length of the packet buffer */
52 uint32_t len; /* "On the wire" length of the packet */
53 uint8_t data[caplen]; /* Packet data */
54 };
55
56 In either case, the endianness (byte ordering) of each integer must
57 match the system on which rawshark is running.
58
60 If one or more fields are specified via the -F flag, Rawshark prints
61 the number, field type, and display format for each field on the first
62 line as "packet number" 0. For each record, the packet number, matching
63 fields, and a "1" or "0" are printed to indicate if the field matched
64 any supplied display filter. A "-" is used to signal the end of a field
65 description and at the end of each packet line. For example, the flags
66 -F ip.src -F dns.qry.type might generate the following output:
67
68 0 FT_IPv4 BASE_NONE - 1 FT_UINT16 BASE_HEX -
69 1 1="1" 0="192.168.77.10" 1 -
70 2 1="1" 0="192.168.77.250" 1 -
71 3 0="192.168.77.10" 1 -
72 4 0="74.125.19.104" 1 -
73
74 Note that packets 1 and 2 are DNS queries, and 3 and 4 are not. Adding
75 -R "not dns" still prints each line, but there’s an indication that
76 packets 1 and 2 didn’t pass the filter:
77
78 0 FT_IPv4 BASE_NONE - 1 FT_UINT16 BASE_HEX -
79 1 1="1" 0="192.168.77.10" 0 -
80 2 1="1" 0="192.168.77.250" 0 -
81 3 0="192.168.77.10" 1 -
82 4 0="74.125.19.104" 1 -
83
84 Also note that the output may be in any order, and that multiple
85 matching fields might be displayed.
86
88 -d <encapsulation>
89
90 Specify how the packet data should be dissected. The encapsulation
91 is of the form type:value, where type is one of:
92
93 encap:name Packet data should be dissected using the
94 libpcap/Npcap/WinPcap data link type (DLT) name, e.g. encap:EN10MB
95 for Ethernet. Names are converted using
96 pcap_datalink_name_to_val(). A complete list of DLTs can be found
97 at https://www.tcpdump.org/linktypes.html.
98
99 encap:number Packet data should be dissected using the
100 libpcap/Npcap/WinPcap LINKTYPE_ number, e.g. encap:105 for raw IEEE
101 802.11 or encap:101 for raw IP.
102
103 proto:protocol Packet data should be passed to the specified
104 Wireshark protocol dissector, e.g. proto:http for HTTP data.
105
106 -F <field to display>
107
108 Add the matching field to the output. Fields are any valid display
109 filter field. More than one -F flag may be specified, and each
110 field can match multiple times in a given packet. A single field
111 may be specified per -F flag. If you want to apply a display
112 filter, use the -R flag.
113
114 -h
115
116 Print the version and options and exits.
117
118 -l
119
120 Flush the standard output after the information for each packet is
121 printed. (This is not, strictly speaking, line-buffered if -V was
122 specified; however, it is the same as line-buffered if -V wasn’t
123 specified, as only one line is printed for each packet, and, as -l
124 is normally used when piping a live capture to a program or script,
125 so that output for a packet shows up as soon as the packet is seen
126 and dissected, it should work just as well as true line-buffering.
127 We do this as a workaround for a deficiency in the Microsoft Visual
128 C++ C library.)
129
130 This may be useful when piping the output of TShark to another
131 program, as it means that the program to which the output is piped
132 will see the dissected data for a packet as soon as TShark sees the
133 packet and generates that output, rather than seeing it only when
134 the standard output buffer containing that data fills up.
135
136 -m <memory limit bytes>
137
138 Limit rawshark’s memory usage to the specified number of bytes.
139 POSIX (non-Windows) only.
140
141 -n
142
143 Disable network object name resolution (such as hostname, TCP and
144 UDP port names), the -N flag might override this one.
145
146 -N <name resolving flags>
147
148 Turn on name resolving only for particular types of addresses and
149 port numbers, with name resolving for other types of addresses and
150 port numbers turned off. This flag overrides -n if both -N and -n
151 are present. If both -N and -n flags are not present, all name
152 resolutions are turned on.
153
154 The argument is a string that may contain the letters:
155
156 m to enable MAC address resolution
157
158 n to enable network address resolution
159
160 N to enable using external resolvers (e.g., DNS) for network
161 address resolution
162
163 t to enable transport-layer port number resolution
164
165 d to enable resolution from captured DNS packets
166
167 v to enable VLAN IDs to names resolution
168
169 -o <preference>:<value>
170
171 Set a preference value, overriding the default value and any value
172 read from a preference file. The argument to the option is a string
173 of the form prefname:value, where prefname is the name of the
174 preference (which is the same name that would appear in the
175 preference file), and value is the value to which it should be set.
176
177 -p
178
179 Assume that packet data is preceded by a pcap_pkthdr struct as
180 defined in pcap.h. On some systems the size of the timestamp data
181 will be different from the data written to disk. On other systems
182 they are identical and this flag has no effect.
183
184 -r <pipe>|-
185
186 Read packet data from input source. It can be either the name of a
187 FIFO (named pipe) or ``-'' to read data from the standard input,
188 and must have the record format specified above.
189
190 If you are sending data to rawshark from a parent process on
191 Windows you should not close rawshark’s standard input handle
192 prematurely, otherwise the C runtime might trigger an exception.
193
194 -R <read (display) filter>
195
196 Cause the specified filter (which uses the syntax of read/display
197 filters, rather than that of capture filters) to be applied before
198 printing the output.
199
200 -s
201
202 Allows standard pcap files to be used as input, by skipping over
203 the 24 byte pcap file header.
204
205 -S
206
207 Use the specified format string to print each field. The following
208 formats are supported:
209
210 %D Field name or description, e.g. "Type" for dns.qry.type
211
212 %N Base 10 numeric value of the field.
213
214 %S String value of the field.
215
216 For something similar to Wireshark’s standard display ("Type: A
217 (1)") you could use %D: %S (%N).
218
219 -t a|ad|adoy|d|dd|e|r|u|ud|udoy
220
221 Set the format of the packet timestamp printed in summary lines.
222 The format can be one of:
223
224 a absolute: The absolute time, as local time in your time zone, is
225 the actual time the packet was captured, with no date displayed
226
227 ad absolute with date: The absolute date, displayed as YYYY-MM-DD,
228 and time, as local time in your time zone, is the actual time and
229 date the packet was captured
230
231 adoy absolute with date using day of year: The absolute date,
232 displayed as YYYY/DOY, and time, as local time in your time zone,
233 is the actual time and date the packet was captured
234
235 d delta: The delta time is the time since the previous packet was
236 captured
237
238 dd delta_displayed: The delta_displayed time is the time since the
239 previous displayed packet was captured
240
241 e epoch: The time in seconds since epoch (Jan 1, 1970 00:00:00)
242
243 r relative: The relative time is the time elapsed between the first
244 packet and the current packet
245
246 u UTC: The absolute time, as UTC, is the actual time the packet was
247 captured, with no date displayed
248
249 ud UTC with date: The absolute date, displayed as YYYY-MM-DD, and
250 time, as UTC, is the actual time and date the packet was captured
251
252 udoy UTC with date using day of year: The absolute date, displayed
253 as YYYY/DOY, and time, as UTC, is the actual time and date the
254 packet was captured
255
256 The default format is relative.
257
258 -v
259
260 Print the version and exit.
261
263 For a complete table of protocol and protocol fields that are
264 filterable in TShark see the wireshark-filter(4) manual page.
265
267 These files contains various Wireshark configuration values.
268
269 Preferences
270
271 The preferences files contain global (system-wide) and personal
272 preference settings. If the system-wide preference file exists, it
273 is read first, overriding the default settings. If the personal
274 preferences file exists, it is read next, overriding any previous
275 values. Note: If the command line option -o is used (possibly more
276 than once), it will in turn override values from the preferences
277 files.
278
279 The preferences settings are in the form prefname:value, one per
280 line, where prefname is the name of the preference and value is the
281 value to which it should be set; white space is allowed between :
282 and value. A preference setting can be continued on subsequent
283 lines by indenting the continuation lines with white space. A #
284 character starts a comment that runs to the end of the line:
285
286 # Capture in promiscuous mode?
287 # TRUE or FALSE (case-insensitive).
288 capture.prom_mode: TRUE
289
290 The global preferences file is looked for in the wireshark
291 directory under the share subdirectory of the main installation
292 directory (for example, /usr/local/share/wireshark/preferences) on
293 UNIX-compatible systems, and in the main installation directory
294 (for example, C:\Program Files\Wireshark\preferences) on Windows
295 systems.
296
297 The personal preferences file is looked for in
298 $XDG_CONFIG_HOME/wireshark/preferences (or, if
299 $XDG_CONFIG_HOME/wireshark does not exist while $HOME/.wireshark is
300 present, $HOME/.wireshark/preferences) on UNIX-compatible systems
301 and %APPDATA%\Wireshark\preferences (or, if %APPDATA% isn’t
302 defined, %USERPROFILE%\Application Data\Wireshark\preferences) on
303 Windows systems.
304
305 Disabled (Enabled) Protocols
306
307 The disabled_protos files contain system-wide and personal lists of
308 protocols that have been disabled, so that their dissectors are
309 never called. The files contain protocol names, one per line, where
310 the protocol name is the same name that would be used in a display
311 filter for the protocol:
312
313 http
314 tcp # a comment
315
316 The global disabled_protos file uses the same directory as the
317 global preferences file.
318
319 The personal disabled_protos file uses the same directory as the
320 personal preferences file.
321
322 Name Resolution (hosts)
323
324 If the personal hosts file exists, it is used to resolve IPv4 and
325 IPv6 addresses before any other attempts are made to resolve them.
326 The file has the standard hosts file syntax; each line contains one
327 IP address and name, separated by whitespace. The same directory as
328 for the personal preferences file is used.
329
330 Capture filter name resolution is handled by libpcap on
331 UNIX-compatible systems and Npcap or WinPcap on Windows. As such
332 the Wireshark personal hosts file will not be consulted for capture
333 filter name resolution.
334
335 Name Resolution (subnets)
336
337 If an IPv4 address cannot be translated via name resolution (no
338 exact match is found) then a partial match is attempted via the
339 subnets file.
340
341 Each line of this file consists of an IPv4 address, a subnet mask
342 length separated only by a / and a name separated by whitespace.
343 While the address must be a full IPv4 address, any values beyond
344 the mask length are subsequently ignored.
345
346 An example is:
347
348 # Comments must be prepended by the # sign! 192.168.0.0/24
349 ws_test_network
350
351 A partially matched name will be printed as
352 "subnet-name.remaining-address". For example, "192.168.0.1" under
353 the subnet above would be printed as "ws_test_network.1"; if the
354 mask length above had been 16 rather than 24, the printed address
355 would be ``ws_test_network.0.1".
356
357 Name Resolution (ethers)
358
359 The ethers files are consulted to correlate 6-byte hardware
360 addresses to names. First the personal ethers file is tried and if
361 an address is not found there the global ethers file is tried next.
362
363 Each line contains one hardware address and name, separated by
364 whitespace. The digits of the hardware address are separated by
365 colons (:), dashes (-) or periods (.). The same separator character
366 must be used consistently in an address. The following three lines
367 are valid lines of an ethers file:
368
369 ff:ff:ff:ff:ff:ff Broadcast
370 c0-00-ff-ff-ff-ff TR_broadcast
371 00.00.00.00.00.00 Zero_broadcast
372
373 The global ethers file is looked for in the /etc directory on
374 UNIX-compatible systems, and in the main installation directory
375 (for example, C:\Program Files\Wireshark) on Windows systems.
376
377 The personal ethers file is looked for in the same directory as the
378 personal preferences file.
379
380 Capture filter name resolution is handled by libpcap on
381 UNIX-compatible systems and Npcap or WinPcap on Windows. As such
382 the Wireshark personal ethers file will not be consulted for
383 capture filter name resolution.
384
385 Name Resolution (manuf)
386
387 The manuf file is used to match the 3-byte vendor portion of a
388 6-byte hardware address with the manufacturer’s name; it can also
389 contain well-known MAC addresses and address ranges specified with
390 a netmask. The format of the file is the same as the ethers files,
391 except that entries of the form:
392
393 00:00:0C Cisco
394
395 can be provided, with the 3-byte OUI and the name for a vendor, and
396 entries such as:
397
398 00-00-0C-07-AC/40 All-HSRP-routers
399
400 can be specified, with a MAC address and a mask indicating how many
401 bits of the address must match. The above entry, for example, has
402 40 significant bits, or 5 bytes, and would match addresses from
403 00-00-0C-07-AC-00 through 00-00-0C-07-AC-FF. The mask need not be a
404 multiple of 8.
405
406 The manuf file is looked for in the same directory as the global
407 preferences file.
408
409 Name Resolution (services)
410
411 The services file is used to translate port numbers into names.
412
413 The file has the standard services file syntax; each line contains
414 one (service) name and one transport identifier separated by white
415 space. The transport identifier includes one port number and one
416 transport protocol name (typically tcp, udp, or sctp) separated by
417 a /.
418
419 An example is:
420
421 mydns 5045/udp # My own Domain Name Server
422 mydns 5045/tcp # My own Domain Name Server
423
424 Name Resolution (ipxnets)
425
426 The ipxnets files are used to correlate 4-byte IPX network numbers
427 to names. First the global ipxnets file is tried and if that
428 address is not found there the personal one is tried next.
429
430 The format is the same as the ethers file, except that each address
431 is four bytes instead of six. Additionally, the address can be
432 represented as a single hexadecimal number, as is more common in
433 the IPX world, rather than four hex octets. For example, these four
434 lines are valid lines of an ipxnets file:
435
436 C0.A8.2C.00 HR
437 c0-a8-1c-00 CEO
438 00:00:BE:EF IT_Server1
439 110f FileServer3
440
441 The global ipxnets file is looked for in the /etc directory on
442 UNIX-compatible systems, and in the main installation directory
443 (for example, C:\Program Files\Wireshark) on Windows systems.
444
445 The personal ipxnets file is looked for in the same directory as
446 the personal preferences file.
447
449 WIRESHARK_CONFIG_DIR
450
451 This environment variable overrides the location of personal
452 configuration files. It defaults to $XDG_CONFIG_HOME/wireshark (or
453 $HOME/.wireshark if the former is missing while the latter exists).
454 On Windows, %APPDATA%\Wireshark is used instead. Available since
455 Wireshark 3.0.
456
457 WIRESHARK_DEBUG_WMEM_OVERRIDE
458
459 Setting this environment variable forces the wmem framework to use
460 the specified allocator backend for all allocations, regardless of
461 which backend is normally specified by the code. This is mainly
462 useful to developers when testing or debugging. See README.wmem in
463 the source distribution for details.
464
465 WIRESHARK_RUN_FROM_BUILD_DIRECTORY
466
467 This environment variable causes the plugins and other data files
468 to be loaded from the build directory (where the program was
469 compiled) rather than from the standard locations. It has no effect
470 when the program in question is running with root (or setuid)
471 permissions on *NIX.
472
473 WIRESHARK_DATA_DIR
474
475 This environment variable causes the various data files to be
476 loaded from a directory other than the standard locations. It has
477 no effect when the program in question is running with root (or
478 setuid) permissions on *NIX.
479
480 ERF_RECORDS_TO_CHECK
481
482 This environment variable controls the number of ERF records
483 checked when deciding if a file really is in the ERF format.
484 Setting this environment variable a number higher than the default
485 (20) would make false positives less likely.
486
487 IPFIX_RECORDS_TO_CHECK
488
489 This environment variable controls the number of IPFIX records
490 checked when deciding if a file really is in the IPFIX format.
491 Setting this environment variable a number higher than the default
492 (20) would make false positives less likely.
493
494 WIRESHARK_ABORT_ON_DISSECTOR_BUG
495
496 If this environment variable is set, Rawshark will call abort(3)
497 when a dissector bug is encountered. abort(3) will cause the
498 program to exit abnormally; if you are running Rawshark in a
499 debugger, it should halt in the debugger and allow inspection of
500 the process, and, if you are not running it in a debugger, it will,
501 on some OSes, assuming your environment is configured correctly,
502 generate a core dump file. This can be useful to developers
503 attempting to troubleshoot a problem with a protocol dissector.
504
505 WIRESHARK_ABORT_ON_TOO_MANY_ITEMS
506
507 If this environment variable is set, Rawshark will call abort(3) if
508 a dissector tries to add too many items to a tree (generally this
509 is an indication of the dissector not breaking out of a loop soon
510 enough). abort(3) will cause the program to exit abnormally; if you
511 are running Rawshark in a debugger, it should halt in the debugger
512 and allow inspection of the process, and, if you are not running it
513 in a debugger, it will, on some OSes, assuming your environment is
514 configured correctly, generate a core dump file. This can be useful
515 to developers attempting to troubleshoot a problem with a protocol
516 dissector.
517
519 wireshark-filter(4), wireshark(1), tshark(1), editcap(1), pcap(3),
520 dumpcap(1), text2pcap(1), pcap-filter(7) or tcpdump(8)
521
523 This is the manual page for Rawshark 3.6.0. Rawshark is part of the
524 Wireshark distribution. The latest version of Wireshark can be found at
525 https://www.wireshark.org.
526
527 HTML versions of the Wireshark project man pages are available at
528 https://www.wireshark.org/docs/man-pages.
529
531 Rawshark uses the same packet dissection code that Wireshark does, as
532 well as using many other modules from Wireshark; see the list of
533 authors in the Wireshark man page for a list of authors of that code.
534
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537 2021-11-25 RAWSHARK(1)