editcap - Edit and/or translate the format of capture files
editcap [ -a <frame:comment> ] [ -A <start time> ] [ -B <stop time> ] [ -c <packets per file> ] [ -C [offset:]<choplen> ] [ -E <error probability> ] [ -F <file format> ] [ -h ] [ -i <seconds per file> ] [ -o <change offset> ] [ -L ] [ -r ] [ -s <snaplen> ] [ -S <strict time adjustment> ] [ -t <time adjustment> ] [ -T <encapsulation type> ] [ -v ] [ --inject-secrets <secrets type>,<file> ] [ --discard-all-secrets ] [ --capture-comment <comment> ] [ --discard-capture-comment ] infile outfile [ packet#[-packet#] ... ] editcap -d -D <dup window> -w <dup time window> [ -v ] [ -I <bytes to ignore> ] [ --skip-radiotap-header ] infile outfile editcap [ -V ]
EDITCAP(1) EDITCAP(1)
NAME
editcap - Edit and/or translate the format of capture files
SYNOPSIS
editcap [ -a <frame:comment> ] [ -A <start time> ] [ -B <stop time> ]
[ -c <packets per file> ] [ -C [offset:]<choplen> ]
[ -E <error probability> ] [ -F <file format> ] [ -h ]
[ -i <seconds per file> ] [ -o <change offset> ] [ -L ] [ -r ]
[ -s <snaplen> ] [ -S <strict time adjustment> ]
[ -t <time adjustment> ] [ -T <encapsulation type> ] [ -v ]
[ --inject-secrets <secrets type>,<file> ] [ --discard-all-secrets ]
[ --capture-comment <comment> ] [ --discard-capture-comment ] infile
outfile [ packet#[-packet#] ... ]
editcap -d -D <dup window> -w <dup time window> [ -v ]
[ -I <bytes to ignore> ] [ --skip-radiotap-header ] infile outfile
editcap [ -V ]
DESCRIPTION
Editcap is a program that reads some or all of the captured packets
from the infile, optionally converts them in various ways and writes
the resulting packets to the capture outfile (or outfiles).
By default, it reads all packets from the infile and writes them to the
outfile in pcapng file format.
The -A and -B option allow you to limit the time range from which
packets are read from the infile.
An optional list of packet numbers can be specified on the command
tail; individual packet numbers separated by whitespace and/or ranges
of packet numbers can be specified as start-end, referring to all
packets from start to end. By default the selected packets with those
numbers will not be written to the capture file. If the -r flag is
specified, the whole packet selection is reversed; in that case only
the selected packets will be written to the capture file.
Editcap can also be used to remove duplicate packets. Several different
options (-d, -D and -w) are used to control the packet window or
relative time window to be used for duplicate comparison.
Editcap can be used to assign comment strings to frame numbers.
Editcap is able to detect, read and write the same capture files that
are supported by Wireshark. The input file doesn't need a specific
filename extension; the file format and an optional gzip, zstd or lz4
compression will be automatically detected. Near the beginning of the
DESCRIPTION section of wireshark(1) or
https://www.wireshark.org/docs/man-pages/wireshark.html is a detailed
description of the way Wireshark handles this, which is the same way
Editcap handles this.
Editcap can write the file in several output formats. The -F flag can
be used to specify the format in which to write the capture file;
editcap -F provides a list of the available output formats.
OPTIONS
-a <framenum:comment>
For the specified frame number, assign the given comment string.
Can be repeated for multiple frames. Quotes should be used with
comment strings that include spaces.
-A <start time>
Reads only the packets whose timestamp is on or after start time.
The time is given in ISO 8601 format, either YYYY-MM-DD
HH:MM:SS[.nnnnnnnnn][Z|+-hh:mm] or
YYYY-MM-DDTHH:MM:SS[.nnnnnnnnn][Z|+-hh:mm] . The fractional seconds
are optional, as is the time zone offset from UTC (in which case
local time is assumed). Unix epoch timestamps (floating point
format) are also accepted.
-B <stop time>
Reads only the packets whose timestamp is before stop time. The
time is given in ISO 8601 format, either YYYY-MM-DD
HH:MM:SS[.nnnnnnnnn][Z|+-hh:mm] or
YYYY-MM-DDTHH:MM:SS[.nnnnnnnnn][Z|+-hh:mm] . The fractional seconds
are optional, as is the time zone offset from UTC (in which case
local time is assumed). Unix epoch timestamps (floating point
format) are also accepted.
-c <packets per file>
Splits the packet output to different files based on uniform packet
counts with a maximum of <packets per file> each.
Each output file will be created with an infix
_nnnnn[_YYYYmmddHHMMSS] inserted before the file extension (which
may be null) of outfile. The infix consists of the ordinal number
of the output file, starting with 00000, followed by the timestamp
of its first packet. The timestamp is omitted if the input file
does not contain timestamp information.
After the specified number of packets is written to the output
file, the next output file is opened. The default is to use a
single output file. This option conflicts with -i.
-C [offset:]<choplen>
Sets the chop length to use when writing the packet data. Each
packet is chopped by <choplen> bytes of data. Positive values chop
at the packet beginning while negative values chop at the packet
end.
If an optional offset precedes the <choplen>, then the bytes
chopped will be offset from that value. Positive offsets are from
the packet beginning, while negative offsets are from the packet
end.
This is useful for chopping headers for decapsulation of an entire
capture, removing tunneling headers, or in the rare case that the
conversion between two file formats leaves some random bytes at the
end of each packet. Another use is for removing vlan tags.
Note
This option can be used more than once, effectively allowing
you to chop bytes from up to two different areas of a packet in
a single pass provided that you specify at least one chop
length as a positive value and at least one as a negative
value. All positive chop lengths are added together as are all
negative chop lengths.
-d
Attempts to remove duplicate packets. The length and MD5 hash of
the current packet are compared to the previous four (4) packets.
If a match is found, the current packet is skipped. This option is
equivalent to using the option -D 5.
-D <dup window>
Attempts to remove duplicate packets. The length and MD5 hash of
the current packet are compared to the previous <dup window> - 1
packets. If a match is found, the current packet is skipped.
The use of the option -D 0 combined with the -v option is useful in
that each packet's Packet number, Len and MD5 Hash will be printed
to standard out. This verbose output (specifically the MD5 hash
strings) can be useful in scripts to identify duplicate packets
across trace files.
The <dup window> is specified as an integer value between 0 and
1000000 (inclusive).
Note
Specifying large <dup window> values with large tracefiles can
result in very long processing times for editcap.
-E <error probability>
Sets the probability that bytes in the output file are randomly
changed. Editcap uses that probability (between 0.0 and 1.0
inclusive) to apply errors to each data byte in the file. For
instance, a probability of 0.02 means that each byte has a 2%
chance of having an error.
This option is meant to be used for fuzz-testing protocol
dissectors.
-F <file format>
Sets the file format of the output capture file. Editcap can write
the file in several formats, editcap -F provides a list of the
available output formats. The default is the pcapng format.
-h
Prints the version and options and exits.
-i <seconds per file>
Splits the packet output to different files based on uniform time
intervals using a maximum interval of <seconds per file> each.
Floating point values (e.g. 0.5) are allowed.
Each output file will be created with an infix
_nnnnn[_YYYYmmddHHMMSS] inserted before the file extension (which
may be null) of outfile. The infix consists of the ordinal number
of the output file, starting with 00000, followed by the timestamp
of its first packet. The timestamp is omitted if the input file
does not contain timestamp information.
After packets for the specified time interval are written to the
output file, the next output file is opened. The default is to use
a single output file. This option conflicts with -c.
-I <bytes to ignore>
Ignore the specified number of bytes at the beginning of the frame
during MD5 hash calculation, unless the frame is too short, then
the full frame is used. Useful to remove duplicated packets taken
on several routers (different mac addresses for example) e.g. -I 26
in case of Ether/IP will ignore ether(14) and IP header(20 - 4(src
ip) - 4(dst ip)). The default value is 0.
-L
Adjust the original frame length accordingly when chopping and/or
snapping (in addition to the captured length, which is always
adjusted regardless of whether -L is specified or not). See also -C
<choplen> and -s <snaplen>.
-o <change offset>
When used in conjunction with -E, skip some bytes from the
beginning of the packet from being changed. In this way some
headers don't get changed, and the fuzzer is more focused on a
smaller part of the packet. Keeping a part of the packet fixed the
same dissector is triggered, that make the fuzzing more precise.
-r
Reverse the packet selection. Causes the packets whose packet
numbers are specified on the command line to be written to the
output capture file, instead of discarding them.
-s <snaplen>
Sets the snapshot length to use when writing the data. If the -s
flag is used to specify a snapshot length, packets in the input
file with more captured data than the specified snapshot length
will have only the amount of data specified by the snapshot length
written to the output file.
This may be useful if the program that is to read the output file
cannot handle packets larger than a certain size (for example, the
versions of snoop in Solaris 2.5.1 and Solaris 2.6 appear to reject
Ethernet packets larger than the standard Ethernet MTU, making them
incapable of handling gigabit Ethernet captures if jumbo packets
were used).
--seed <seed>
When used in conjunction with -E, set the seed for the
pseudo-random number generator. This is useful for recreating a
particular sequence of errors.
--skip-radiotap-header
Skip the radiotap header of each frame when checking for packet
duplicates. This is useful when processing a capture created by
combining outputs of multiple capture devices on the same channel
in the vicinity of each other.
-S <strict time adjustment>
Time adjust selected packets to ensure strict chronological order.
The <strict time adjustment> value represents relative seconds
specified as seconds[.fractional seconds].
As the capture file is processed each packet's absolute time is
possibly adjusted to be equal to or greater than the previous
packet's absolute timestamp depending on the <strict time
adjustment> value.
If <strict time adjustment> value is 0 or greater (e.g. 0.000001)
then only packets with a timestamp less than the previous packet
will adjusted. The adjusted timestamp value will be set to be equal
to the timestamp value of the previous packet plus the value of the
<strict time adjustment> value. A <strict time adjustment> value of
0 will adjust the minimum number of timestamp values necessary to
ensure that the resulting capture file is in strict chronological
order.
If <strict time adjustment> value is specified as a negative value,
then the timestamp values of all packets will be adjusted to be
equal to the timestamp value of the previous packet plus the
absolute value of the <strict time adjustment> value. A <strict
time adjustment> value of -0 will result in all packets having the
timestamp value of the first packet.
This feature is useful when the trace file has an occasional packet
with a negative delta time relative to the previous packet.
-t <time adjustment>
Sets the time adjustment to use on selected packets. If the -t flag
is used to specify a time adjustment, the specified adjustment will
be applied to all selected packets in the capture file. The
adjustment is specified as seconds[.fractional seconds]. For
example, -t 3600 advances the timestamp on selected packets by one
hour while -t -0.5 reduces the timestamp on selected packets by
one-half second.
This feature is useful when synchronizing dumps collected on
different machines where the time difference between the two
machines is known or can be estimated.
-T <encapsulation type>
Sets the packet encapsulation type of the output capture file. If
the -T flag is used to specify an encapsulation type, the
encapsulation type of the output capture file will be forced to the
specified type. editcap -T provides a list of the available types.
The default type is the one appropriate to the encapsulation type
of the input capture file.
Note: this merely forces the encapsulation type of the output file
to be the specified type; the packet headers of the packets will
not be translated from the encapsulation type of the input capture
file to the specified encapsulation type (for example, it will not
translate an Ethernet capture to an FDDI capture if an Ethernet
capture is read and '-T fddi' is specified). If you need to
remove/add headers from/to a packet, you will need
od(1)/text2pcap(1).
-v
Causes editcap to print verbose messages while it's working.
Use of -v with the de-duplication switches of -d, -D or -w will
cause all MD5 hashes to be printed whether the packet is skipped or
not.
-V
Print the version and exit.
-w <dup time window>
Attempts to remove duplicate packets. The current packet's arrival
time is compared with up to 1000000 previous packets. If the
packet's relative arrival time is less than or equal to the <dup
time window> of a previous packet and the packet length and MD5
hash of the current packet are the same then the packet to skipped.
The duplicate comparison test stops when the current packet's
relative arrival time is greater than <dup time window>.
The <dup time window> is specified as seconds[.fractional seconds].
The [.fractional seconds] component can be specified to nine (9)
decimal places (billionths of a second) but most typical trace
files have resolution to six (6) decimal places (millionths of a
second).
Note
Specifying large <dup time window> values with large tracefiles
can result in very long processing times for editcap.
Note
The -w option assumes that the packets are in chronological
order. If the packets are NOT in chronological order then the
-w duplication removal option may not identify some duplicates.
--inject-secrets <secrets type>,<file>
Inserts the contents of <file> into a Decryption Secrets Block
(DSB) within the pcapng output file. This enables decryption
without requiring additional configuration in protocol preferences.
The file format is described by <secrets type> which can be one of:
tls TLS Key Log as described at
https://developer.mozilla.org/NSS_Key_Log_Format wg WireGuard Key
Log, see
https://gitlab.com/wireshark/wireshark/-/wikis/WireGuard#key-log-format
This option may be specified multiple times. The available options
for <secrets type> can be listed with --inject-secrets help.
--discard-all-secrets
Discard all decryption secrets from the input file when writing the
output file. Does not discard secrets added by --inject-secrets in
the same command line.
--capture-comment <comment>
Adds the given comment to the output file, if supported by the
output file format. New comments will be added after any comments
present in the input file unless --discard-capture-comment is also
specified.
This option may be specified multiple times. Note that Wireshark
currently only displays the first comment of a capture file.
--discard-capture-comment
Discard all capture file comments from the input file when writing
the output file. Does not discard comments added by
--capture-comment in the same command line.
EXAMPLES
To see more detailed description of the options use:
editcap -h
To shrink the capture file by truncating the packets at 64 bytes and
writing it as Sun snoop file use:
editcap -s 64 -F snoop capture.pcapng shortcapture.snoop
To delete packet 1000 from the capture file use:
editcap capture.pcapng sans1000.pcapng 1000
To limit a capture file to packets from number 200 to 750 (inclusive)
use:
editcap -r capture.pcapng small.pcapng 200-750
To get all packets from number 1-500 (inclusive) use:
editcap -r capture.pcapng first500.pcapng 1-500
or
editcap capture.pcapng first500.pcapng 501-9999999
To exclude packets 1, 5, 10 to 20 and 30 to 40 from the new file use:
editcap capture.pcapng exclude.pcapng 1 5 10-20 30-40
To select just packets 1, 5, 10 to 20 and 30 to 40 for the new file
use:
editcap -r capture.pcapng select.pcapng 1 5 10-20 30-40
To remove duplicate packets seen within the prior four frames use:
editcap -d capture.pcapng dedup.pcapng
To remove duplicate packets seen within the prior four frames while
skipping radiotap headers use:
editcap -d --skip-radiotap-header capture.pcapng dedup.pcapng
To remove duplicate packets seen within the prior 100 frames use:
editcap -D 101 capture.pcapng dedup.pcapng
To remove duplicate packets seen equal to or less than 1/10th of a
second:
editcap -w 0.1 capture.pcapng dedup.pcapng
To display the MD5 hash for all of the packets (and NOT generate any
real output file):
editcap -v -D 0 capture.pcapng /dev/null
or on Windows systems
editcap -v -D 0 capture.pcapng NUL
To advance the timestamps of each packet forward by 3.0827 seconds:
editcap -t 3.0827 capture.pcapng adjusted.pcapng
To ensure all timestamps are in strict chronological order:
editcap -S 0 capture.pcapng adjusted.pcapng
To introduce 5% random errors in a capture file use:
editcap -E 0.05 capture.pcapng capture_error.pcapng
To remove vlan tags from all packets within an Ethernet-encapsulated
capture file, use:
editcap -L -C 12:4 capture_vlan.pcapng capture_no_vlan.pcapng
To chop both the 10 byte and 20 byte regions from the following 75 byte
packet in a single pass, use any of the 8 possible methods provided
below:
<--------------------------- 75 ---------------------------->
+---+-------+-----------+---------------+-------------------+
| 5 | 10 | 15 | 20 | 25 |
+---+-------+-----------+---------------+-------------------+
1) editcap -C 5:10 -C -25:-20 capture.pcapng chopped.pcapng
2) editcap -C 5:10 -C 50:-20 capture.pcapng chopped.pcapng
3) editcap -C -70:10 -C -25:-20 capture.pcapng chopped.pcapng
4) editcap -C -70:10 -C 50:-20 capture.pcapng chopped.pcapng
5) editcap -C 30:20 -C -60:-10 capture.pcapng chopped.pcapng
6) editcap -C 30:20 -C 15:-10 capture.pcapng chopped.pcapng
7) editcap -C -45:20 -C -60:-10 capture.pcapng chopped.pcapng
8) editcap -C -45:20 -C 15:-10 capture.pcapng chopped.pcapng
To add comment strings to the first 2 input frames, use:
editcap -a "1:1st frame" -a 2:Second capture.pcapng capture-comments.pcapng
ATTRIBUTES
See attributes(7) for descriptions of the following attributes:
+---------------+---------------------------------------+
|ATTRIBUTE TYPE | ATTRIBUTE VALUE |
+---------------+---------------------------------------+
|Availability | diagnostic/wireshark/wireshark-common |
+---------------+---------------------------------------+
|Stability | Uncommitted |
+---------------+---------------------------------------+
SEE ALSO
pcap(3), wireshark(1), tshark(1), mergecap(1), dumpcap(1), capinfos(1),
text2pcap(1), reordercap(1), od(1), pcap-filter(7) or tcpdump(8)
NOTES
This is the manual page for Editcap 3.6.6. Editcap is part of the
Wireshark distribution. The latest version of Wireshark can be found at
https://www.wireshark.org.
HTML versions of the Wireshark project man pages are available at
https://www.wireshark.org/docs/man-pages.
Source code for open source software components in Oracle Solaris can
be found at https://www.oracle.com/downloads/opensource/solaris-source-
code-downloads.html.
This software was built from source available at
https://github.com/oracle/solaris-userland. The original community
source was downloaded from http://www.wireshark.org/download/src/all-
versions/wireshark-3.6.6.tar.xz.
Further information about this software can be found on the open source
community website at http://www.wireshark.org/.
AUTHORS
Original Author
Richard Sharpe <sharpe[AT]ns.aus.com>
Contributors
Guy Harris <guy[AT]alum.mit.edu>
Ulf Lamping <ulf.lamping[AT]web.de>
EDITCAP(1)