Provided by: wireshark-common_4.0.3-1_amd64 bug

NAME

       text2pcap - Generate a capture file from an ASCII hexdump of packets

SYNOPSIS

       text2pcap [ -a ] [ -b 2|8|16|64 ] [ -D ] [ -e <l3pid> ] [ -E <encapsulation type> ]
       [ -F <file format> ] [ -h ] [ -i <proto> ] [ -l <typenum> ] [ -N <intf-name> ]
       [ -m <max-packet> ] [ -o hex|oct|dec|none ] [ -q ] [ -r <regex> ]
       [ -s <srcport>,<destport>,<tag> ] [ -S <srcport>,<destport>,<ppi> ] [ -t <timefmt> ]
       [ -T <srcport>,<destport> ] [ -u <srcport>,<destport> ] [ -v ] [ -4 <srcip>,<destip> ]
       [ -6 <srcip>,<destip> ] <infile>|- <outfile>|-

DESCRIPTION

       Text2pcap is a program that reads in an ASCII hex dump and writes the data described into
       a capture file. text2pcap can read hexdumps with multiple packets in them, and build a
       capture file of multiple packets. Text2pcap is also capable of generating dummy Ethernet,
       IP, and UDP, TCP or SCTP headers, in order to build fully processable packet dumps from
       hexdumps of application-level data only.

       Text2pcap 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, text2pcap -F provides a list of the
       available output formats. By default, it writes the packets to outfile in the pcapng file
       format.

       Text2pcap understands a hexdump of the form generated by od -Ax -tx1 -v. In other words,
       each byte is individually displayed, with spaces separating the bytes from each other. Hex
       digits can be upper or lowercase.

       In normal operation, each line must begin with an offset describing the position in the
       packet, followed a colon, space, or tab separating it from the bytes. There is no limit on
       the width or number of bytes per line, but lines with only hex bytes without a leading
       offset are ignored (in other words, line breaks should not be inserted in long lines that
       wrap.) Offsets are more than two digits; they are in hex by default, but can also be in
       octal or decimal - see -o. Each packet must begin with offset zero, and an offset zero
       indicates the beginning of a new packet. Offset values must be correct; an unexpected
       value causes the current packet to be aborted and the next packet start awaited. There is
       also a single packet mode with no offsets; see -o.

       Packets may be preceded by a direction indicator ('I' or 'O') and/or a timestamp if
       indicated by the command line (see -D and -t). If both are present, the direction
       indicator precedes the timestamp. The format of the timestamps is specified as a mandatory
       parameter to -t. If no timestamp is parsed, in the case of the first packet the current
       system time is used, while subsequent packets are written with timestamps one microsecond
       later than that of the previous packet.

       Other text in the input data is ignored. Any text before the offset is ignored, including
       email forwarding characters '>'. Any text on a line after the bytes is ignored, e.g. an
       ASCII character dump (but see -a to ensure that hex digits in the character dump are
       ignored). Any line where the first non-whitespace character is a '#' will be ignored as a
       comment. Any lines of text between the bytestring lines are considered preamble; the
       beginning of the preamble is scanned for the direction indicator and timestamp as
       mentioned above and otherwise ignored.

       Any line beginning with #TEXT2PCAP is a directive and options can be inserted after this
       command to be processed by text2pcap. Currently there are no directives implemented; in
       the future, these may be used to give more fine grained control on the dump and the way it
       should be processed e.g. timestamps, encapsulation type etc.

       In general, short of these restrictions, text2pcap is pretty liberal about reading in
       hexdumps and has been tested with a variety of mangled outputs (including being forwarded
       through email multiple times, with limited line wrap etc.)

       Here is a sample dump that text2pcap can recognize, with optional directional indicator
       and timestamp:

           I 2019-05-14T19:04:57Z
           000000 00 0e b6 00 00 02 00 0e b6 00 00 01 08 00 45 00
           000010 00 28 00 00 00 00 ff 01 37 d1 c0 00 02 01 c0 00
           000020 02 02 08 00 a6 2f 00 01 00 01 48 65 6c 6c 6f 20
           000030 57 6f 72 6c 64 21
           000036

       Text2pcap is also capable of scanning a text input file using a custom Perl compatible
       regular expression that matches a single packet. text2pcap searches the given file (which
       must end with '\n') for non-overlapping non-empty strings matching the regex. Named
       capturing subgroups, which must match exactly once per packet, are used to identify fields
       to import. The following fields are supported in regex mode, one mandatory and three
       optional:

           "data"  Actual captured frame data to import
           "time"  Timestamp of packet
           "dir"   Direction of packet
           "seqno" Arbitrary ID of packet

       The 'data' field is the captured data, which must be in a selected encoding: hexadecimal
       (the default), octal, binary, or base64 and containing no characters in the data field
       outside the encoding set besides whitespace. The 'time' field is parsed according to the
       format in the -t parameter. The first character of the 'dir' field is compared against a
       set of characters corresponding to inbound and outbound that default to "iI<" for inbound
       and "oO>" for outbound to assign a direction. The 'seqno' field is assumed to be a
       positive integer base 10 used for an arbitrary ID. An optional field’s information will
       only be written if the field is present in the regex and if the capture file format
       supports it. (E.g., the pcapng format supports all three fields, but the pcap format only
       supports timestamps.)

       Here is a sample dump that the regex mode can process with the regex
       '^(?<dir>[<>])\s(?<time>\d+:\d\d:\d\d.\d+)\s(?<data>[0-9a-fA-F]+)$' along with timestamp
       format '%H:%M:%S.%f', directional indications of '<' and '>', and hex encoding:

           > 0:00:00.265620 a130368b000000080060
           > 0:00:00.280836 a1216c8b00000000000089086b0b82020407
           < 0:00:00.295459 a2010800000000000000000800000000
           > 0:00:00.296982 a1303c8b00000008007088286b0bc1ffcbf0f9ff
           > 0:00:00.305644 a121718b0000000000008ba86a0b8008
           < 0:00:00.319061 a2010900000000000000001000600000
           > 0:00:00.330937 a130428b00000008007589186b0bb9ffd9f0fdfa3eb4295e99f3aaffd2f005
           > 0:00:00.356037 a121788b0000000000008a18

       The regex is compiled with multiline support, and it is recommended to use the anchors '^'
       and '$' for best results.

       Text2pcap also allows the user to read in dumps of application-level data and insert dummy
       L2, L3 and L4 headers before each packet. This allows Wireshark or any other full-packet
       decoder to handle these dumps. If the encapsulation type is Ethernet, the user can elect
       to insert Ethernet headers, Ethernet and IP, or Ethernet, IP and UDP/TCP/SCTP headers
       before each packet. The fake headers can also be used with the Raw IP, Raw IPv4, or Raw
       IPv6 encapsulations, with the Ethernet header omitted. These encapsulation options can be
       used in both hexdump mode and regex mode.

       When <infile> or <outfile> are '-', standard input or standard output, respectively, are
       used.

OPTIONS

       -a

           Enables ASCII text dump identification. It allows one to identify the start of the
           ASCII text dump and not include it in the packet even if it looks like HEX. This
           parameter has no effect in regex mode.

           NOTE: Do not enable it if the input file does not contain the ASCII text dump.

       -b 2|8|16|64

           Specify the base (radix) of the encoding of the packet data in regex mode. The
           supported options are 2 (binary), 8 (octal), 16 (hexadecimal), and 64 (base64
           encoding), with hex as the default. This parameter has no effect in hexdump mode.

       -D

           Indicates that the text before each input packet may start either with an I or O
           indicating that the packet is inbound or outbound. If both this flag and the t flag
           are used, the directional indicator is expected before the time code. This parameter
           has no effect in regex mode, where the presence of the <dir> capturing group
           determines whether direction indicators are expected.

           Direction indication is stored in the packet headers if the output format supports it
           (e.g. pcapng), and is also used when generating dummy headers to swap the source and
           destination addresses and ports as appropriate.

       -e <l3pid>

           Include a dummy Ethernet header before each packet. Specify the L3PID for the Ethernet
           header in hex. Use this option if your dump has Layer 3 header and payload (e.g. IP
           header), but no Layer 2 encapsulation. Example: -e 0x806 to specify an ARP packet.

           For IP packets, instead of generating a fake Ethernet header you can also use -E rawip
           or -l 101 to indicate raw IP encapsulation. Note that raw IP encapsulation does not
           work for any non-IP Layer 3 packet (e.g. ARP), whereas generating a dummy Ethernet
           header with -e works for any sort of L3 packet.

       -E <encapsulation type>

           Sets the packet encapsulation type of the output capture file. text2pcap -E provides a
           list of the available types; note that not all file formats support all encapsulation
           types. The default type is ether (Ethernet).

           NOTE: This sets the encapsulation type of the output file, but does not translate the
           packet headers or add additional headers. It is used to specify the encapsulation that
           matches the input data.

       -F <file format>

           Sets the file format of the output capture file. Text2pcap can write the file in
           several formats; text2pcap -F provides a list of the available output formats. The
           default is the pcapng format.

       -h
           Displays a help message.

       -i <proto>

           Include dummy IP headers before each packet. Specify the IP protocol for the packet in
           decimal. Use this option if your dump is the payload of an IP packet (i.e. has
           complete L4 information) but does not have an IP header with each packet. Note that an
           appropriate Ethernet header is automatically included with each packet as well if the
           link-layer type is Ethernet. Example: -i 46 to specify an RSVP packet (IP protocol
           46). See https://www.iana.org/assignments/protocol-numbers/protocol-numbers.xhtml for
           the complete list of assigned internet protocol numbers.

       -l <typenum>

           Sets the packet encapsulation type of the output capture file, using pcap link-layer
           header type numbers. Default is Ethernet (1). See
           https://www.tcpdump.org/linktypes.html for the complete list of possible
           encapsulations. Example: -l 7 for ARCNet packets encapsulated BSD-style.

       -m <max-packet>

           Set the maximum packet length, default is 262144. Useful for testing various packet
           boundaries when only an application level datastream is available. Example:

           od -Ax -tx1 -v stream | text2pcap -m1460 -T1234,1234 - stream.pcap

           will convert from plain datastream format to a sequence of Ethernet TCP packets.

       -N <intf-name>
           Specify a name for the interface included when writing a pcapng format file.

       -o hex|oct|dec|none

           Specify the radix for the offsets (hex, octal, decimal, or none). Defaults to hex.
           This corresponds to the -A option for od. This parameter has no effect in regex mode.

           NOTE: With -o none, only one packet will be created, ignoring any direction indicators
           or timestamps after the first byte along with any offsets.

       -P <dissector>

           Include an EXPORTED_PDU header before each packet. Specify, as a string, the dissector
           to be called for the packet (DISSECTOR_NAME tag). Use this option if your dump is the
           payload for a single upper layer protocol (so specifying a link layer type would not
           work) and you wish to create a capture file without a full dummy protocol stack.
           Automatically sets the link layer type to Wireshark Upper PDU export. Without this
           option, if the Upper PDU export link layer type (252) is selected the dissector
           defaults to "data".

       -q
           Don’t display the summary of the options selected at the beginning, or the count of
           packets processed at the end.

       -r <regex>

           Process the file in regex mode using regex as described above.

           NOTE: The regex mode uses memory-mapped I/O and does not work on streams that do not
           support seeking, like terminals and pipes.

       -s <srcport>,<destport>,<tag>

           Include dummy SCTP headers before each packet. Specify, in decimal, the source and
           destination SCTP ports, and verification tag, for the packet. Use this option if your
           dump is the SCTP payload of a packet but does not include any SCTP, IP or Ethernet
           headers. Note that appropriate Ethernet and IP headers are automatically also included
           with each packet. A CRC32C checksum will be put into the SCTP header.

       -S <srcport>,<destport>,<ppi>

           Include dummy SCTP headers before each packet. Specify, in decimal, the source and
           destination SCTP ports, and a verification tag of 0, for the packet, and prepend a
           dummy SCTP DATA chunk header with a payload protocol identifier if ppi. Use this
           option if your dump is the SCTP payload of a packet but does not include any SCTP, IP
           or Ethernet headers. Note that appropriate Ethernet and IP headers are automatically
           included with each packet. A CRC32C checksum will be put into the SCTP header.

       -t <timefmt>

           Treats the text before the packet as a date/time code; timefmt is a format string
           supported by strftime(3), supplemented with the field descriptor '%f' for fractional
           seconds up to nanoseconds. Example: The time "10:15:14.5476" has the format code
           "%H:%M:%S.%f" The special format string ISO indicates that the string should be parsed
           according to the ISO-8601 specification. This parameter is used in regex mode if and
           only if the <time> capturing group is present.

           NOTE: Date/time fields from the current date/time are used as the default for
           unspecified fields.

       -T <srcport>,<destport>

           Include dummy TCP headers before each packet. Specify the source and destination TCP
           ports for the packet in decimal. Use this option if your dump is the TCP payload of a
           packet but does not include any TCP, IP or Ethernet headers. Note that appropriate
           Ethernet and IP headers are automatically also included with each packet. Sequence
           numbers will start at 0.

       -u <srcport>,<destport>

           Include dummy UDP headers before each packet. Specify the source and destination UDP
           ports for the packet in decimal. Use this option if your dump is the UDP payload of a
           packet but does not include any UDP, IP or Ethernet headers. Note that appropriate
           Ethernet and IP headers are automatically also included with each packet. Example:
           -u1000,69 to make the packets look like TFTP/UDP packets.

       -v
           Print the version and exit.

       -4 <srcip>,<destip>

           Prepend dummy IP header with specified IPv4 dest and source address. This option
           should be accompanied by one of the following options: -i, -s, -S, -T, -u Use this
           option to apply "custom" IP addresses. Example: -4 10.0.0.1,10.0.0.2 to use 10.0.0.1
           and 10.0.0.2 for all IP packets.

       -6 <srcip>,<destip>

           Prepend dummy IP header with specified IPv6 dest and source address. This option
           should be accompanied by one of the following options: -i, -s, -S, -T, -u Use this
           option to apply "custom" IP addresses. Example: -6
           2001:db8::b3ff:fe1e:8329,2001:0db8:85a3::8a2e:0370:7334 to use
           2001:db8::b3ff:fe1e:8329 and 2001:0db8:85a3::8a2e:0370:7334 for all IP packets.

DIAGNOSTIC OPTIONS

       --log-level <level>
           Set the active log level. Supported levels in lowest to highest order are "noisy",
           "debug", "info", "message", "warning", "critical", and "error". Messages at each level
           and higher will be printed, for example "warning" prints "warning", "critical", and
           "error" messages and "noisy" prints all messages. Levels are case insensitive.

       --log-fatal <level>
           Abort the program if any messages are logged at the specified level or higher. For
           example, "warning" aborts on any "warning", "critical", or "error" messages.

       --log-domains <list>
           Only print messages for the specified log domains, e.g. "GUI,Epan,sshdump". List of
           domains must be comma-separated.

       --log-debug <list>
           Force the specified domains to log at the "debug" level. List of domains must be
           comma-separated.

       --log-noisy <list>
           Force the specified domains to log at the "noisy" level. List of domains must be
           comma-separated.

       --log-file <path>
           Write log messages and stderr output to the specified file.

SEE ALSO

       od(1), pcap(3), wireshark(1), tshark(1), dumpcap(1), mergecap(1), editcap(1), strftime(3),
       pcap-filter(7) or tcpdump(8)

NOTES

       This is the manual page for Text2pcap 4.0.3. Text2pcap is part of the Wireshark
       distribution. The latest version of Wireshark can be found at https://www.wireshark.org.

AUTHORS

       Original Author
       Ashok Narayanan <ashokn[AT]cisco.com>

                                            2023-01-20                               TEXT2PCAP(1)