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mirror of https://github.com/rapid7/metasploit-framework synced 2024-10-29 18:07:27 +01:00
metasploit-framework/data/john
David Maloney 5480cb81f5
add updated KoreLogic rules to john.conf
updated our shipped john.conf to include a
more up to date version of the KoreLogic JtR rules.
They add overhead to the cracking time but are
probably some of the best/most effective JtR
rules out there.
2015-01-07 12:25:04 -06:00
..
confs add updated KoreLogic rules to john.conf 2015-01-07 12:25:04 -06:00
doc Permission changes (to sync) 2011-11-10 19:48:32 -06:00
run.linux.x64.mmx Retab all the things (except external/) 2013-09-30 13:47:53 -05:00
run.linux.x86.any Retab all the things (except external/) 2013-09-30 13:47:53 -05:00
run.linux.x86.mmx Retab all the things (except external/) 2013-09-30 13:47:53 -05:00
run.linux.x86.sse2 Retab all the things (except external/) 2013-09-30 13:47:53 -05:00
run.win32.any Retab all the things (except external/) 2013-09-30 13:47:53 -05:00
run.win32.mmx Retab all the things (except external/) 2013-09-30 13:47:53 -05:00
run.win32.sse2 Retab all the things (except external/) 2013-09-30 13:47:53 -05:00
wordlists add common root words wordlist 2014-06-14 14:13:59 -05:00
README Permission changes (to sync) 2011-11-10 19:48:32 -06:00
README-jumbo Permission changes (to sync) 2011-11-10 19:48:32 -06:00
README.Rapid7.txt Permission changes (to sync) 2011-11-10 19:48:32 -06:00
src.tar.bz2 Permission changes (to sync) 2011-11-10 19:48:32 -06:00

	John the Ripper password cracker.

John the Ripper is a fast password cracker, currently available for
many flavors of Unix (11 are officially supported, not counting
different architectures), DOS, Win32, BeOS, and OpenVMS (the latter
requires a contributed patch).  Its primary purpose is to detect weak
Unix passwords.  Besides several crypt(3) password hash types most
commonly found on various Unix flavors, supported out of the box are
Kerberos/AFS and Windows LM hashes, plus many more with contributed
patches.


	How to install.

See INSTALL for information on installing John on your system.


	How to use.

To run John, you need to supply it with some password files and
optionally specify a cracking mode, like this, using the default order
of modes and assuming that "passwd" is a copy of your password file:

	john passwd

or, to restrict it to the wordlist mode only, but permitting the use
of word mangling rules:

	john --wordlist=password.lst --rules passwd

Cracked passwords will be printed to the terminal and saved in the
file called $JOHN/john.pot (in the documentation and in the
configuration file for John, "$JOHN" refers to John's "home
directory"; which directory it really is depends on how you installed
John).  The $JOHN/john.pot file is also used to not load password
hashes that you already cracked when you run John the next time.

To retrieve the cracked passwords, run:

	john --show passwd

While cracking, you can press any key for status, or Ctrl-C to abort
the session saving its state to a file ($JOHN/john.rec by default).
If you press Ctrl-C for a second time before John had a chance to
handle your first Ctrl-C, John will abort immediately without saving.
By default, the state is also saved every 10 minutes to permit for
recovery in case of a crash.

To continue an interrupted session, run:

	john --restore

These are just the most essential things you can do with John.  For
a complete list of command line options and for more complicated usage
examples you should refer to OPTIONS and EXAMPLES, respectively.

Please note that "binary" (pre-compiled) distributions of John may
include alternate executables instead of just "john".  You may need to
choose the executable which fits your system best, e.g. "john-mmx" to
take advantage of MMX acceleration.


	Features and performance.

John the Ripper is designed to be both feature-rich and fast.  It
combines several cracking modes in one program and is fully
configurable for your particular needs (you can even define a custom
cracking mode using the built-in compiler supporting a subset of C).
Also, John is available for several different platforms which enables
you to use the same cracker everywhere (you can even continue a
cracking session which you started on another platform).

Out of the box, John supports (and autodetects) the following Unix
crypt(3) hash types: traditional DES-based, "bigcrypt", BSDI extended
DES-based, FreeBSD MD5-based (also used on Linux and in Cisco IOS), and
OpenBSD Blowfish-based (now also used on some Linux distributions and
supported by recent versions of Solaris).  Also supported out of the box
are Kerberos/AFS and Windows LM (DES-based) hashes.

When running on Linux distributions with glibc 2.7+, John 1.7.6+
additionally supports (and autodetects) SHA-crypt hashes (which are
actually used by recent versions of Fedora and Ubuntu), with optional
OpenMP parallelization (requires GCC 4.2+, needs to be explicitly
enabled at compile-time by uncommenting the proper OMPFLAGS line near
the beginning of the Makefile).

Similarly, when running on recent versions of Solaris, John 1.7.6+
supports and autodetects SHA-crypt and SunMD5 hashes, also with
optional OpenMP parallelization (requires GCC 4.2+ or recent Sun Studio,
needs to be explicitly enabled at compile-time by uncommenting the
proper OMPFLAGS line near the beginning of the Makefile and at runtime
by setting the OMP_NUM_THREADS environment variable to the desired
number of threads).

John the Ripper Pro adds support for Windows NTLM (MD4-based) and Mac
OS X 10.4+ salted SHA-1 hashes.

Contributed patches, combined into the "jumbo patch", add support for
many more password hash types, including Windows NTLM (MD4-based)
and Mac OS X 10.4+ salted SHA-1 hashes, raw MD5 and SHA-1, arbitrary
MD5-based "web application" password hash types, hashes used by SQL
database servers (MySQL, MS SQL, Oracle) and by some LDAP servers,
several hash types used on OpenVMS, password hashes of the Eggdrop IRC
bot, and many others, as well as S/Key skeykeys files and Kerberos TGTs.

Unlike other crackers, John normally does not use a crypt(3)-style
routine.  Instead, it has its own highly optimized modules for different
hash types and processor architectures.  Some of the algorithms used,
such as bitslice DES, couldn't have been implemented within the crypt(3)
API; they require a more powerful interface such as the one used in
John.  Additionally, there are assembly language routines for several
processor architectures, most importantly for x86-64 and x86 with SSE2.


	Documentation.

The rest of documentation is located in separate files, listed here in
the recommended order of reading:

* INSTALL - installation instructions
* OPTIONS - command line options and additional utilities
* MODES - cracking modes: what they are
* CONFIG (*) - how to customize
* RULES (*) - wordlist rules syntax
* EXTERNAL (*) - defining an external mode
* EXAMPLES - usage examples - strongly recommended
* FAQ - guess
* CHANGES (*) - history of changes
* CONTACT (*) - how to contact the author or otherwise obtain support
* CREDITS (*) - credits
* LICENSE - copyrights and licensing terms

(*) most users can safely skip these.

Happy reading!

$Owl: Owl/packages/john/john/doc/README,v 1.20 2011/04/27 18:02:49 solar Exp $