|<B>new KEYB>||The constructor takes as its single argument a key of 16, 24 or 32 bytes length. Calling it with other key lenghts, will cause the module to throw an exception.|
|<B>encrypt BLOCKB>||Returns the encrypted block. The length of the block must be exactly 16 bytes, otherwise the behaviour will be undefined. You can safely right-pad shorter blocks with null bytes.|
|<B>decrypt BLOCKB>||Returns the encrypted block. The length of the block must be exactly 16 bytes, otherwise the behaviour will be undefined. You can safely right-pad shorter blocks with null bytes.|
|<B>blocksizeB>||Returns the constant value 16.|
|<B>keysizeB>||Returns the length of the key in bytes. When called as a class method, it returns the value $Crypt::Twofish_PP::KEYSIZE which is initialized to 32.|
When encrypting streams of data you will need an additional block chaining mechanism like CBC as provided by Crypt::CBC(3). When used with Crypt::CBC(3), Crypt::Twofish_PP(3) will usually work with a fixed key length of 32 bytes, since Crypt::CBC(3) is not capable of handling variable length keys.
If you need to use shorter keys with Crypt::CBC(3), you have two choices: You can either overwrite the variable $Crypt::CBC::KEYSIZE with the desired length (16 or 24) in bytes, or you can specify Twofish_PP::Key16 resp. Twofish_PP::Key24 as the cipher algorithm to Crypt::CBC(3). The modules Crypt::Twofish_PP::Key32(3), Crypt::Twofish_PP::Key24(3), and Crypt::Twofish_PP::Key16(3), inherit all functionality from <B>Crypt::Twofish_PPB> but overwrite the keysize() method, such that another default key length is reported back to Crypt::CBC(3).
Beginning with Perl 5.6, Perl scalars might be internally flagged as being UTF-8 strings, and are treated as character-oriented data, not as byte-oriented data (one character may require one to six bytes for its internal representation). In most cases you will gain nothing from the introduction of that flag, and rather find yourself trying to get rid of it. <B>Crypt::Twofish_PPB> uses byte-oriented keys, and encrypts/decrypts blocks of 16 bytes, and it is the callers responsability to clean input data from that flag.
The most expansive method by far is the constructor. The constructor will set up the key scheduling which is a time-consuming process that has to be repeated for every new key. Processing one 16 byte key currently (on my machine) takes about 15 times longer than encrypting one 16 byte data block with that key. If you plan to use the same key several times in your application, you will probably want to keep the encryption/decryption module around for later perusal. By the way, this behavior of <B>Crypt::Twofish_PPB> is a typical characteristic of most modern encryption algorithms. Although the details may differ a lot between algorithms, setting up the decoder/encoder with a key usually takes a lot more time than performing the encryption/decryption.
The length of your key is also important. The longer it is, the more time is consumed to set up the key scheduling. Once you have the module ready to encrypt/decrypt, the key length has no impact on performance. This is a general property of the Twofish algorithm, other algorithms show a different behavior, and may vary in speed depending on the particular key length (Rijndael now AES is an example for this).
The subdirectory benchmark of the source distribution contains a script benchmark.pl that you can use to test the performance of a variety of cryptographic modules installed on your system.
There are two other modules available on CPAN that also implement the Twofish algorith, but in C, not in Perl as <B>Crypt::Twofish_PPB> does. Of course the C implementations are a lot faster than the pure Perl implementation, and you should rather use one of them whenever possible. However, at the time of this writing (November 2003), Crypt::Twofish_PP offers by far the fastest pure Perl 256 bit encryption available on CPAN. For shorter key lengths Crypt::CAST5_PP(3) is faster only when encrypting/decrypting large chunks of data.
The environement variables LANG, LANGUAGE, LC_MESSAGES, resp. LC_ALL control the language for messages produced by the module. The environemt variable OUTPUT_CHARSET may be used to control the output character set. See the file README-NLS in the source distribution for details.
The module has been tested on big- and little-endian machines with integer sizes of 32 and 64 bits, and no bugs showed up. It should therefore be considered safe to use it everywhere.
Copyright (C) 2003, Guido Flohr <email@example.com>, all rights reserved. See the source code for details.
This software is contributed to the Perl community by Imperia (<http://www.imperia.net/>).
Crypt::Twofish_PP::Key32(3), Crypt::Twofish_PP::Key24(3), Crypt::Twofish_PP::Key16(3), Crypt::CBC(3), Crypt::Twofish2(3), Crypt::Twofish(3), perl(1)
Hey! <B>The above document had some coding errors, which are explained below:B>
Around line 1276: =cut found outside a pod block. Skipping to next block.
|perl v5.20.3||CRYPT::TWOFISH_PP (3)||2003-11-27|