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The Secure RPC implementation in glibc uses DES encryption during authentication of the user. This use of DES means that anyone using Sun RPC will likely not be compliant with FIPS 140-2 which forbids the use of DES. One solution to the compliance issue is to disable AUTH_DES and AUTH_KERB, both use DES, when in FIPS compliance mode. This is not a good idea because it disables all of the even mildly secure methods of authentication allowing only plain text methods. Instead we leave AUTH_DES and AUTH_KERB enabled in FIPS compliance mode and document the compliance issue in the manual. FIPS allows this, that is to say that if you can't fix it you must document the non-compliance. This commit adds documentation to that effect in the "DES encryption and password handling" section of the manual.
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401 lines
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@c This node must have no pointers.
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@node Cryptographic Functions
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@c @node Cryptographic Functions, Debugging Support, System Configuration, Top
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@chapter DES Encryption and Password Handling
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@c %MENU% DES encryption and password handling
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On many systems, it is unnecessary to have any kind of user
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authentication; for instance, a workstation which is not connected to a
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network probably does not need any user authentication, because to use
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the machine an intruder must have physical access.
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Sometimes, however, it is necessary to be sure that a user is authorized
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to use some service a machine provides---for instance, to log in as a
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particular user id (@pxref{Users and Groups}). One traditional way of
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doing this is for each user to choose a secret @dfn{password}; then, the
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system can ask someone claiming to be a user what the user's password
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is, and if the person gives the correct password then the system can
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grant the appropriate privileges.
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If all the passwords are just stored in a file somewhere, then this file
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has to be very carefully protected. To avoid this, passwords are run
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through a @dfn{one-way function}, a function which makes it difficult to
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work out what its input was by looking at its output, before storing in
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the file.
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@Theglibc{} provides a one-way function that is compatible with
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the behavior of the @code{crypt} function introduced in FreeBSD 2.0.
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It supports two one-way algorithms: one based on the MD5
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message-digest algorithm that is compatible with modern BSD systems,
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and the other based on the Data Encryption Standard (DES) that is
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compatible with Unix systems.
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@vindex AUTH_DES
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@cindex FIPS 140-2
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It also provides support for Secure RPC, and some library functions that
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can be used to perform normal DES encryption. The @code{AUTH_DES}
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authentication flavor in Secure RPC, as provided by @theglibc{},
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uses DES and does not comply with FIPS 140-2 nor does any other use of DES
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within @theglibc{}. It is recommended that Secure RPC should not be used
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for systems that need to comply with FIPS 140-2 since all flavors of
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encrypted authentication use normal DES.
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@menu
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* Legal Problems:: This software can get you locked up, or worse.
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* getpass:: Prompting the user for a password.
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* crypt:: A one-way function for passwords.
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* DES Encryption:: Routines for DES encryption.
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@end menu
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@node Legal Problems
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@section Legal Problems
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Because of the continuously changing state of the law, it's not possible
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to provide a definitive survey of the laws affecting cryptography.
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Instead, this section warns you of some of the known trouble spots; this
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may help you when you try to find out what the laws of your country are.
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Some countries require that you have a licence to use, possess, or import
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cryptography. These countries are believed to include Byelorussia,
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Burma, India, Indonesia, Israel, Kazakhstan, Pakistan, Russia, and Saudi
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Arabia.
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Some countries restrict the transmission of encrypted messages by radio;
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some telecommunications carriers restrict the transmission of encrypted
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messages over their network.
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Many countries have some form of export control for encryption software.
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The Wassenaar Arrangement is a multilateral agreement between 33
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countries (Argentina, Australia, Austria, Belgium, Bulgaria, Canada, the
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Czech Republic, Denmark, Finland, France, Germany, Greece, Hungary,
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Ireland, Italy, Japan, Luxembourg, the Netherlands, New Zealand, Norway,
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Poland, Portugal, the Republic of Korea, Romania, the Russian
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Federation, the Slovak Republic, Spain, Sweden, Switzerland, Turkey,
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Ukraine, the United Kingdom and the United States) which restricts some
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kinds of encryption exports. Different countries apply the arrangement
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in different ways; some do not allow the exception for certain kinds of
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``public domain'' software (which would include this library), some
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only restrict the export of software in tangible form, and others impose
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significant additional restrictions.
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The United States has additional rules. This software would generally
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be exportable under 15 CFR 740.13(e), which permits exports of
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``encryption source code'' which is ``publicly available'' and which is
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``not subject to an express agreement for the payment of a licensing fee or
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royalty for commercial production or sale of any product developed with
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the source code'' to most countries.
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The rules in this area are continuously changing. If you know of any
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information in this manual that is out-of-date, please report it to
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the bug database. @xref{Reporting Bugs}.
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@node getpass
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@section Reading Passwords
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When reading in a password, it is desirable to avoid displaying it on
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the screen, to help keep it secret. The following function handles this
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in a convenient way.
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@comment unistd.h
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@comment BSD
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@deftypefun {char *} getpass (const char *@var{prompt})
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@code{getpass} outputs @var{prompt}, then reads a string in from the
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terminal without echoing it. It tries to connect to the real terminal,
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@file{/dev/tty}, if possible, to encourage users not to put plaintext
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passwords in files; otherwise, it uses @code{stdin} and @code{stderr}.
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@code{getpass} also disables the INTR, QUIT, and SUSP characters on the
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terminal using the @code{ISIG} terminal attribute (@pxref{Local Modes}).
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The terminal is flushed before and after @code{getpass}, so that
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characters of a mistyped password are not accidentally visible.
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In other C libraries, @code{getpass} may only return the first
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@code{PASS_MAX} bytes of a password. @Theglibc{} has no limit, so
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@code{PASS_MAX} is undefined.
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The prototype for this function is in @file{unistd.h}. @code{PASS_MAX}
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would be defined in @file{limits.h}.
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@end deftypefun
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This precise set of operations may not suit all possible situations. In
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this case, it is recommended that users write their own @code{getpass}
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substitute. For instance, a very simple substitute is as follows:
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@smallexample
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@include mygetpass.c.texi
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@end smallexample
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The substitute takes the same parameters as @code{getline}
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(@pxref{Line Input}); the user must print any prompt desired.
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@node crypt
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@section Encrypting Passwords
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@comment crypt.h
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@comment BSD, SVID
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@deftypefun {char *} crypt (const char *@var{key}, const char *@var{salt})
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The @code{crypt} function takes a password, @var{key}, as a string, and
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a @var{salt} character array which is described below, and returns a
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printable ASCII string which starts with another salt. It is believed
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that, given the output of the function, the best way to find a @var{key}
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that will produce that output is to guess values of @var{key} until the
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original value of @var{key} is found.
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The @var{salt} parameter does two things. Firstly, it selects which
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algorithm is used, the MD5-based one or the DES-based one. Secondly, it
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makes life harder for someone trying to guess passwords against a file
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containing many passwords; without a @var{salt}, an intruder can make a
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guess, run @code{crypt} on it once, and compare the result with all the
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passwords. With a @var{salt}, the intruder must run @code{crypt} once
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for each different salt.
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For the MD5-based algorithm, the @var{salt} should consist of the string
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@code{$1$}, followed by up to 8 characters, terminated by either
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another @code{$} or the end of the string. The result of @code{crypt}
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will be the @var{salt}, followed by a @code{$} if the salt didn't end
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with one, followed by 22 characters from the alphabet
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@code{./0-9A-Za-z}, up to 34 characters total. Every character in the
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@var{key} is significant.
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For the DES-based algorithm, the @var{salt} should consist of two
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characters from the alphabet @code{./0-9A-Za-z}, and the result of
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@code{crypt} will be those two characters followed by 11 more from the
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same alphabet, 13 in total. Only the first 8 characters in the
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@var{key} are significant.
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The MD5-based algorithm has no limit on the useful length of the
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password used, and is slightly more secure. It is therefore preferred
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over the DES-based algorithm.
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When the user enters their password for the first time, the @var{salt}
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should be set to a new string which is reasonably random. To verify a
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password against the result of a previous call to @code{crypt}, pass
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the result of the previous call as the @var{salt}.
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@end deftypefun
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The following short program is an example of how to use @code{crypt} the
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first time a password is entered. Note that the @var{salt} generation
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is just barely acceptable; in particular, it is not unique between
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machines, and in many applications it would not be acceptable to let an
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attacker know what time the user's password was last set.
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@smallexample
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@include genpass.c.texi
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@end smallexample
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The next program shows how to verify a password. It prompts the user
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for a password and prints ``Access granted.'' if the user types
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@code{GNU libc manual}.
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@smallexample
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@include testpass.c.texi
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@end smallexample
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@comment crypt.h
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@comment GNU
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@deftypefun {char *} crypt_r (const char *@var{key}, const char *@var{salt}, {struct crypt_data *} @var{data})
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The @code{crypt_r} function does the same thing as @code{crypt}, but
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takes an extra parameter which includes space for its result (among
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other things), so it can be reentrant. @code{data@w{->}initialized} must be
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cleared to zero before the first time @code{crypt_r} is called.
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The @code{crypt_r} function is a GNU extension.
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@end deftypefun
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The @code{crypt} and @code{crypt_r} functions are prototyped in the
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header @file{crypt.h}.
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@node DES Encryption
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@section DES Encryption
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@cindex FIPS 46-3
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The Data Encryption Standard is described in the US Government Federal
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Information Processing Standards (FIPS) 46-3 published by the National
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Institute of Standards and Technology. The DES has been very thoroughly
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analyzed since it was developed in the late 1970s, and no new
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significant flaws have been found.
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However, the DES uses only a 56-bit key (plus 8 parity bits), and a
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machine has been built in 1998 which can search through all possible
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keys in about 6 days, which cost about US$200000; faster searches would
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be possible with more money. This makes simple DES insecure for most
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purposes, and NIST no longer permits new US government systems
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to use simple DES.
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For serious encryption functionality, it is recommended that one of the
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many free encryption libraries be used instead of these routines.
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The DES is a reversible operation which takes a 64-bit block and a
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64-bit key, and produces another 64-bit block. Usually the bits are
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numbered so that the most-significant bit, the first bit, of each block
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is numbered 1.
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Under that numbering, every 8th bit of the key (the 8th, 16th, and so
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on) is not used by the encryption algorithm itself. But the key must
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have odd parity; that is, out of bits 1 through 8, and 9 through 16, and
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so on, there must be an odd number of `1' bits, and this completely
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specifies the unused bits.
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@comment crypt.h
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@comment BSD, SVID
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@deftypefun void setkey (const char *@var{key})
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The @code{setkey} function sets an internal data structure to be an
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expanded form of @var{key}. @var{key} is specified as an array of 64
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bits each stored in a @code{char}, the first bit is @code{key[0]} and
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the 64th bit is @code{key[63]}. The @var{key} should have the correct
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parity.
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@end deftypefun
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@comment crypt.h
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@comment BSD, SVID
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@deftypefun void encrypt (char *@var{block}, int @var{edflag})
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The @code{encrypt} function encrypts @var{block} if
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@var{edflag} is 0, otherwise it decrypts @var{block}, using a key
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previously set by @code{setkey}. The result is
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placed in @var{block}.
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Like @code{setkey}, @var{block} is specified as an array of 64 bits each
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stored in a @code{char}, but there are no parity bits in @var{block}.
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@end deftypefun
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@comment crypt.h
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@comment GNU
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@deftypefun void setkey_r (const char *@var{key}, {struct crypt_data *} @var{data})
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@comment crypt.h
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@comment GNU
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@deftypefunx void encrypt_r (char *@var{block}, int @var{edflag}, {struct crypt_data *} @var{data})
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These are reentrant versions of @code{setkey} and @code{encrypt}. The
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only difference is the extra parameter, which stores the expanded
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version of @var{key}. Before calling @code{setkey_r} the first time,
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@code{data->initialized} must be cleared to zero.
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@end deftypefun
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The @code{setkey_r} and @code{encrypt_r} functions are GNU extensions.
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@code{setkey}, @code{encrypt}, @code{setkey_r}, and @code{encrypt_r} are
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defined in @file{crypt.h}.
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@comment rpc/des_crypt.h
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@comment SUNRPC
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@deftypefun int ecb_crypt (char *@var{key}, char *@var{blocks}, unsigned @var{len}, unsigned @var{mode})
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The function @code{ecb_crypt} encrypts or decrypts one or more blocks
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using DES. Each block is encrypted independently.
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The @var{blocks} and the @var{key} are stored packed in 8-bit bytes, so
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that the first bit of the key is the most-significant bit of
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@code{key[0]} and the 63rd bit of the key is stored as the
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least-significant bit of @code{key[7]}. The @var{key} should have the
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correct parity.
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@var{len} is the number of bytes in @var{blocks}. It should be a
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multiple of 8 (so that there is a whole number of blocks to encrypt).
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@var{len} is limited to a maximum of @code{DES_MAXDATA} bytes.
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The result of the encryption replaces the input in @var{blocks}.
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The @var{mode} parameter is the bitwise OR of two of the following:
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@vtable @code
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@comment rpc/des_crypt.h
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@comment SUNRPC
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@item DES_ENCRYPT
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This constant, used in the @var{mode} parameter, specifies that
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@var{blocks} is to be encrypted.
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@comment rpc/des_crypt.h
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@comment SUNRPC
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@item DES_DECRYPT
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This constant, used in the @var{mode} parameter, specifies that
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@var{blocks} is to be decrypted.
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@comment rpc/des_crypt.h
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@comment SUNRPC
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@item DES_HW
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This constant, used in the @var{mode} parameter, asks to use a hardware
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device. If no hardware device is available, encryption happens anyway,
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but in software.
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@comment rpc/des_crypt.h
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@comment SUNRPC
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@item DES_SW
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This constant, used in the @var{mode} parameter, specifies that no
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hardware device is to be used.
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@end vtable
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The result of the function will be one of these values:
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@vtable @code
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@comment rpc/des_crypt.h
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@comment SUNRPC
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@item DESERR_NONE
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The encryption succeeded.
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@comment rpc/des_crypt.h
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@comment SUNRPC
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@item DESERR_NOHWDEVICE
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The encryption succeeded, but there was no hardware device available.
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@comment rpc/des_crypt.h
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@comment SUNRPC
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@item DESERR_HWERROR
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The encryption failed because of a hardware problem.
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@comment rpc/des_crypt.h
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@comment SUNRPC
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@item DESERR_BADPARAM
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The encryption failed because of a bad parameter, for instance @var{len}
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is not a multiple of 8 or @var{len} is larger than @code{DES_MAXDATA}.
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@end vtable
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@end deftypefun
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@comment rpc/des_crypt.h
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@comment SUNRPC
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@deftypefun int DES_FAILED (int @var{err})
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This macro returns 1 if @var{err} is a `success' result code from
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@code{ecb_crypt} or @code{cbc_crypt}, and 0 otherwise.
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@end deftypefun
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@comment rpc/des_crypt.h
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@comment SUNRPC
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@deftypefun int cbc_crypt (char *@var{key}, char *@var{blocks}, unsigned @var{len}, unsigned @var{mode}, char *@var{ivec})
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The function @code{cbc_crypt} encrypts or decrypts one or more blocks
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using DES in Cipher Block Chaining mode.
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For encryption in CBC mode, each block is exclusive-ored with @var{ivec}
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before being encrypted, then @var{ivec} is replaced with the result of
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the encryption, then the next block is processed. Decryption is the
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reverse of this process.
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This has the advantage that blocks which are the same before being
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encrypted are very unlikely to be the same after being encrypted, making
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it much harder to detect patterns in the data.
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Usually, @var{ivec} is set to 8 random bytes before encryption starts.
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Then the 8 random bytes are transmitted along with the encrypted data
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(without themselves being encrypted), and passed back in as @var{ivec}
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for decryption. Another possibility is to set @var{ivec} to 8 zeroes
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initially, and have the first the block encrypted consist of 8 random
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bytes.
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Otherwise, all the parameters are similar to those for @code{ecb_crypt}.
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@end deftypefun
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@comment rpc/des_crypt.h
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@comment SUNRPC
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@deftypefun void des_setparity (char *@var{key})
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The function @code{des_setparity} changes the 64-bit @var{key}, stored
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packed in 8-bit bytes, to have odd parity by altering the low bits of
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each byte.
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@end deftypefun
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The @code{ecb_crypt}, @code{cbc_crypt}, and @code{des_setparity}
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functions and their accompanying macros are all defined in the header
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@file{rpc/des_crypt.h}.
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