2013-07-23 16:30:38 -06:00
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The Fluffy Suite
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============
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Fluffy was begun in April 2011 in Tennessee,
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as a replacement for the aging "dirtbags.ip" codebase.
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It is comprised of multiple small standalone binaries,
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which are meant to be chained together,
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either on the command-line or from a shell script,
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to create a more powerful (and specific) piece of software.
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Usually, a program expects input on stdin,
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and produces output on stdout.
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Flags are sparse by design.
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2017-08-08 18:14:02 -06:00
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Fluffy source code is purposefully spartan and easy to audit.
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Forks are encouraged,
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please let me know if you make one.
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2013-07-23 16:30:38 -06:00
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2020-11-17 15:48:04 -07:00
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How To Build And Install
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2018-06-11 17:57:35 -06:00
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============
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2017-07-09 11:21:46 -06:00
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2020-11-17 15:48:04 -07:00
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Ubuntu
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-------
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2018-01-08 23:07:42 -07:00
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2020-11-17 15:48:04 -07:00
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sudo apt install build-essential
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2018-07-10 16:24:16 -06:00
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curl -L https://github.com/dirtbags/fluffy/archive/master.tar.gz | tar xzvf -
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cd fluffy-master
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2020-11-17 15:48:04 -07:00
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make
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2020-11-17 14:56:19 -07:00
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sudo make DESTDIR=/usr/local install
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2020-11-17 15:48:04 -07:00
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Red Hat
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-------
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2017-08-08 06:56:13 -06:00
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2020-11-17 15:48:04 -07:00
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yum groupinstall 'Development Tools'
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2020-11-17 14:56:19 -07:00
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curl -L https://github.com/dirtbags/fluffy/archive/master.tar.gz | tar xzvf -
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cd fluffy-master
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2020-11-17 15:48:04 -07:00
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make
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sudo make DESTDIR=/usr/local install
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2017-07-09 11:21:46 -06:00
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2020-11-17 14:51:26 -07:00
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2020-11-17 15:48:04 -07:00
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How To Uninstall
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============
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make DESTDIR=/usr/local uninstall
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2020-11-17 14:51:26 -07:00
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2020-11-17 14:47:44 -07:00
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Forks and Packages
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==================
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2018-07-19 10:09:58 -06:00
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## Ubuntu
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2020-11-17 14:47:44 -07:00
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pi-rho, a network archaeology instructor,
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has forked these tools,
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added command-line options,
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manual pages,
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and packaged them for Ubuntu.
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This fork is mostly compatible with these tools,
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but there are a few subtle differences.
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If you are installing these for Cyber Fire,
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you should probably stick with a source install.
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[pi-rho's packages](https://launchpad.net/~pi-rho/+archive/ubuntu/security)
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2018-07-19 10:09:58 -06:00
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2018-06-11 17:57:35 -06:00
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## Arch Linux
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2018-01-08 23:07:42 -07:00
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The AUR package [`fluffy-git`](https://aur.archlinux.org/packages/fluffy-git/)
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2020-11-17 14:47:44 -07:00
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builds against the latest revision and installs it to `/usr/bin`.
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This was packaged by Cyber Fire attendee AGausmann.
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Thanks!
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2018-01-08 23:07:42 -07:00
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2017-07-09 11:21:46 -06:00
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Programs
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========
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2017-07-09 11:21:46 -06:00
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2018-06-11 17:57:35 -06:00
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## hd: Hex Dump
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2013-07-23 16:30:38 -06:00
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Like the normal hd,
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but with unicode characters to represent all 256 octets,
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instead of using "." for unprintable characters.
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2018-07-10 16:24:16 -06:00
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$ printf "\0\x01\x02\x03\x30\x52\x9a" | hd
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2020-12-22 14:28:20 -07:00
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00000000 00 01 02 03 30 52 9a ·☺☻♥0RÜ
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2018-07-10 16:24:16 -06:00
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00000007
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2017-08-08 18:44:44 -06:00
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2020-03-17 11:00:48 -06:00
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Also like the normal hd,
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2020-12-22 09:15:56 -07:00
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this one will print an ellipsis if the preceding 16 octets are repeated.
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2020-03-17 11:00:48 -06:00
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Use the offset printed next to determine how many repeats you have.
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2020-12-22 09:15:56 -07:00
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$ printf '%64s' hello | hd
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2020-03-17 11:00:48 -06:00
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00000000 20 20 20 20 20 20 20 20 20 20 20 20 20 20 20 20
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2020-12-22 09:15:56 -07:00
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⋮
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2020-03-17 11:00:48 -06:00
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00000030 20 20 20 20 20 20 20 20 20 20 20 68 65 6c 6c 6f hello
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00000040
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2020-12-22 09:15:56 -07:00
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You can disable this with `-v`
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2021-02-02 20:44:15 -07:00
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$ printf '%64s' hello | hd -v
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2020-12-22 09:15:56 -07:00
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00000000 20 20 20 20 20 20 20 20 20 20 20 20 20 20 20 20
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00000010 20 20 20 20 20 20 20 20 20 20 20 20 20 20 20 20
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00000020 20 20 20 20 20 20 20 20 20 20 20 20 20 20 20 20
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00000030 20 20 20 20 20 20 20 20 20 20 20 68 65 6c 6c 6f hello
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00000040
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2013-07-23 16:30:38 -06:00
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2018-06-11 17:57:35 -06:00
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## unhex: unescape hex
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2017-07-09 11:21:46 -06:00
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Reads ASCII hex codes on stdin,
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writes those octets to stdout.
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2018-07-10 16:24:16 -06:00
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$ echo 68 65 6c 6c 6f 0a | unhex
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hello
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2017-07-09 11:21:46 -06:00
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2018-06-11 17:57:35 -06:00
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## xor: xor octets
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2017-07-09 11:21:46 -06:00
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Applies the given mask as an xor to input.
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The mask will be repeated,
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so for a 1-value mask, every octet is xored against that value.
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For a 16-value mask, the mask is applied to 16-octet chunks at a time.
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The "-x" option treats values as hex.
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2018-07-10 16:24:16 -06:00
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$ printf 'hello' | xor 22; echo
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~szzy
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$ printf 'hello' | xor 0x16; echo
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~szzy
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$ printf 'hello' | xor -x 16; echo
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~szzy
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$ printf 'bbbbbb' | xor 1 0; echo
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cbcbcb
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2017-07-09 11:21:46 -06:00
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2018-06-11 17:57:35 -06:00
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## slice: slice octet stream
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2017-08-08 17:55:05 -06:00
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2017-08-10 09:09:58 -06:00
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Slices up input octet stream,
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similar to Python's slice operation.
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2017-08-08 17:55:05 -06:00
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2020-12-22 09:15:56 -07:00
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$ printf '0123456789abcdef' | slice 2; echo
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2018-07-10 16:24:16 -06:00
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23456789abcdef
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2020-12-22 09:15:56 -07:00
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$ printf '0123456789abcdef' | slice 2 6; echo
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2018-07-10 16:24:16 -06:00
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2345
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2020-12-22 09:15:56 -07:00
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$ printf '0123456789abcdef' | slice 2 6 8; echo
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2018-07-10 16:24:16 -06:00
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234589abcdef
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2020-12-22 09:15:56 -07:00
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$ printf '0123456789abcdef' | slice 2 6 8 0xa
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2018-07-10 16:24:16 -06:00
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234589
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2017-08-08 17:55:05 -06:00
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2018-06-11 17:57:35 -06:00
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## pcat: print text representation of pcap file
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2013-07-23 16:30:38 -06:00
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Prints a (lossy) text representation of a pcap file to stdout.
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2017-08-08 17:55:05 -06:00
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2013-07-23 16:30:38 -06:00
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This program is the keystone of the Fluffy Suite.
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By representing everything as text,
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programmers can use any number of standard Unix text processing tools,
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such as sed, awk, cut, grep, or head.
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2017-08-08 17:55:05 -06:00
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Output is tab-separated, of the format:
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2020-09-21 14:52:53 -06:00
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timestamp protocol src dst options payload
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2017-08-08 17:55:05 -06:00
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Frequently you are only interested in the payload,
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so you can run pcat like:
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2020-12-22 09:15:56 -07:00
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$ cat myfile.pcap | pcat | cut -f 6
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2017-08-08 17:55:05 -06:00
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Remember the `unhex` program,
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which will convert payloads to an octet stream,
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after you have done any maniuplations you want.
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2013-07-23 16:30:38 -06:00
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2018-07-10 16:12:53 -06:00
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## pmerge: merge pcap files
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2013-07-23 16:30:38 -06:00
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Takes a list of pcap files, assuming they are sorted by time
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(you would have to work hard to create any other kind),
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and merges them into a single sorted output.
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2018-06-11 17:57:35 -06:00
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## puniq: omit repeated frames
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2013-07-23 16:30:38 -06:00
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2018-07-10 16:12:53 -06:00
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Removes duplicate frames from input,
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2013-07-23 16:30:38 -06:00
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writing to output.
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2018-06-11 17:57:35 -06:00
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## hex: hex-encode input
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2017-08-08 18:14:02 -06:00
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2017-08-08 18:44:44 -06:00
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The opposite of `unhex`:
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encoding all input into a single output line.
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2017-08-08 18:14:02 -06:00
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2017-08-10 09:09:58 -06:00
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This differs from `hexdump` in the following ways:
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* All input is encoded into a single line of output
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* Does not output offsets
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* Does not output glyph representations of octets
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In other words: you can feed `hex` output into `unhex` with no manipulations.
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2018-07-10 16:24:16 -06:00
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$ printf "hello\nworld\n" | hex
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68 65 6c 6c 6f 0a 77 6f 72 6c 64 0a
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$ printf A | hex
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41
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2017-08-08 17:55:05 -06:00
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2018-06-11 17:57:35 -06:00
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## entropy: compute shannon entropy
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2018-01-09 09:42:14 -07:00
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Displays the Shannon entropy of the input.
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2020-12-22 09:15:56 -07:00
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$ echo -n a | ./entropy
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2018-07-10 16:24:16 -06:00
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0.000000
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2020-12-22 09:15:56 -07:00
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$ echo -n aaaaaaaaa | ./entropy
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2018-07-10 16:24:16 -06:00
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0.000000
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2020-12-22 09:15:56 -07:00
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$ echo -n aaaaaaaaab | ./entropy
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2018-07-10 16:24:16 -06:00
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0.468996
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2020-12-22 09:15:56 -07:00
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$ echo -n aaaaaaaaabc | ./entropy
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2018-07-10 16:24:16 -06:00
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0.865857
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2018-01-09 09:42:14 -07:00
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2018-06-11 17:57:35 -06:00
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## pyesc: python escape input
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2013-07-23 16:30:38 -06:00
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Escapes input octets for pasting into a python "print" statement.
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2017-08-08 18:44:44 -06:00
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Also suitable for use as a C string,
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a Go string,
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and many other languages' string literals.
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2013-07-23 16:30:38 -06:00
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2018-07-10 16:24:16 -06:00
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$ printf "hello\nworld\n" | pyesc
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hello\nworld\n
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2017-08-13 11:52:17 -06:00
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2018-06-11 17:57:35 -06:00
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## octets: display all octets
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2017-08-13 11:52:17 -06:00
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Shows all octets from `00` to `ff` in a hex dump.
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This is occasionally more helpful than `man ascii`.
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2018-07-10 16:12:53 -06:00
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$ octets
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2020-12-22 14:28:20 -07:00
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00000000 00 01 02 03 04 05 06 07 08 09 0a 0b 0c 0d 0e 0f ·☺☻♥♦♣♠•◘○◙♂♀♪♫☼
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00000010 10 11 12 13 14 15 16 17 18 19 1a 1b 1c 1d 1e 1f ⏵⏴↕‼¶§‽↨↑↓→←∟↔⏶⏷
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2018-07-10 16:24:16 -06:00
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00000020 20 21 22 23 24 25 26 27 28 29 2a 2b 2c 2d 2e 2f !"#$%&'()*+,-./
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00000030 30 31 32 33 34 35 36 37 38 39 3a 3b 3c 3d 3e 3f 0123456789:;<=>?
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00000040 40 41 42 43 44 45 46 47 48 49 4a 4b 4c 4d 4e 4f @ABCDEFGHIJKLMNO
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00000050 50 51 52 53 54 55 56 57 58 59 5a 5b 5c 5d 5e 5f PQRSTUVWXYZ[\]^_
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00000060 60 61 62 63 64 65 66 67 68 69 6a 6b 6c 6d 6e 6f `abcdefghijklmno
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00000070 70 71 72 73 74 75 76 77 78 79 7a 7b 7c 7d 7e 7f pqrstuvwxyz{|}~⌂
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00000080 80 81 82 83 84 85 86 87 88 89 8a 8b 8c 8d 8e 8f ÇüéâäàåçêëèïîìÄÅ
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00000090 90 91 92 93 94 95 96 97 98 99 9a 9b 9c 9d 9e 9f ÉæÆôöòûùÿÖÜ¢£¥₧ƒ
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000000a0 a0 a1 a2 a3 a4 a5 a6 a7 a8 a9 aa ab ac ad ae af áíóúñѪº¿⌐¬½¼¡«»
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000000b0 b0 b1 b2 b3 b4 b5 b6 b7 b8 b9 ba bb bc bd be bf ░▒▓│┤╡╢╖╕╣║╗╝╜╛┐
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000000c0 c0 c1 c2 c3 c4 c5 c6 c7 c8 c9 ca cb cc cd ce cf └┴┬├─┼╞╟╚╔╩╦╠═╬╧
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000000d0 d0 d1 d2 d3 d4 d5 d6 d7 d8 d9 da db dc dd de df ╨╤╥╙╘╒╓╫╪┘┌█▄▌▐▀
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000000e0 e0 e1 e2 e3 e4 e5 e6 e7 e8 e9 ea eb ec ed ee ef αßΓπΣσµτΦΘΩδ∞φε∩
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2020-12-22 14:28:20 -07:00
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000000f0 f0 f1 f2 f3 f4 f5 f6 f7 f8 f9 fa fb fc fd fe ff ≡±≥≤⌠⌡÷≈°∞⊻√ⁿ²■¤
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2017-08-13 11:52:17 -06:00
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00000100
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2018-06-11 17:57:35 -06:00
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2020-12-22 09:15:56 -07:00
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## freq: count octet frequencies
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For all 256 octets,
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show frequency of each in input.
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$ printf 'hello' | freq
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1 65 e
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1 68 h
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2 6c l
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1 6f o
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2020-12-22 14:29:33 -07:00
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$ printf 'hello' | freq -a
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2020-12-22 09:15:56 -07:00
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0 00 ·
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0 01 ☺
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0 02 ☻
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0 03 ♥
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0 04 ♦
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0 05 ♣
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0 06 ♠
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0 07 •
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0 08 ◘
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...
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## histogram: display histogram for input
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Reads the first number of each line, and prints a histogram.
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`-d DIVISOR` will divide each bar's width.
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$ echo 'aaaaaaaaAAAAAAAAaaaaaaaa' | freq | histogram
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0a ◙ # 1
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41 A ######## 8
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61 a ################ 16
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$ echo 'aaaaaaaaAAAAAAAAaaaaaaaa' | freq | histogram -d 4
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0a ◙ 1
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41 A ## 8
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61 a #### 16
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2018-06-11 17:57:35 -06:00
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Example Recipes
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===============
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## Brute force single-byte xor
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2018-06-12 14:25:25 -06:00
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for i in $(seq 255); do cat data | xor $i; done
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2018-06-11 17:57:35 -06:00
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## Pretty xor brute force
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For each attempt, display the value used in the xor, and hexdump the result
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for i in $(seq 255); do printf "=== %02x\n" $i; cat data | xor $i | hd; done
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## Brute force xor of base64-encoded data
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Same pretty-print as before, and also pipe to `less` so we can page through it.
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for i in $(seq 255); do
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printf "=== %02x\n" $i; cat data.txt | base64 -d | xor $i | hd
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done | less
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## Protocol manipulation
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For each ICMP packet, drop the first 5 octets, and base64-decode the remainder, preserving conversation chunks
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2018-07-10 16:12:53 -06:00
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cat input.pcap | pcat | grep ICMP | while read ts proto src dst payload; do
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2018-06-11 17:57:35 -06:00
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printf "%s -> %s (%s)\n" $src $dst $ts
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echo $payload | unhex | slice 5 | base64 -d | hd
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done
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## Elementary protocol analysis framework
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This merges (by time) `file1.pcap` and `file2.pcap`,
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decoding payloads from each one,
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hex dumping payloads,
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and displaying meta information about each.
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It displays information conversationally,
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sort of like wireshark's "Follow TCP Stream",
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but with more details about meta-information.
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./pmerge file1.pcap file2.pcap | ./pcat | while read ts proto src dst payload; do
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when=$(TZ=Z date -d @${ts%.*} "+%Y-%m-%d %H:%M:%S")
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printf "Packet %s None: None\n" $proto
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printf " %s -> %s (%s)\n" ${src%,*} ${dst%,*} "$when"
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echo $payload | ./unhex | ./hd
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echo
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done
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