Crypt::GCrypt(3pm) User Contributed Perl Documentation Crypt::GCrypt(3pm)
NAME
Crypt::GCrypt - Perl interface to the GNU Cryptographic library
SYNOPSIS
use Crypt::GCrypt;
my $cipher = Crypt::GCrypt->new(
type => 'cipher',
algorithm => 'aes',
mode => 'cbc'
);
$cipher->start('encrypting');
$cipher->setkey('my secret key');
$cipher->setiv('my init vector');
my $ciphertext = $cipher->encrypt('plaintext');
$ciphertext .= $cipher->finish;
my $plaintext = $cipher->decrypt($ciphertext);
$plaintext .= $cipher->finish;
ABSTRACT
Crypt::GCrypt provides an object interface to the C libgcrypt library. It currently supports symmetric encryption/decryption and message
digests, while asymmetric cryptography is being worked on.
BINDING INFO
gcrypt_version()
Returns a string indicating the running version of gcrypt.
built_against_version()
Returns a string indicating the version of gcrypt that this module was built against. This is likely only to be useful in a debugging
situation.
SYMMETRIC CRYPTOGRAPHY
cipher_algo_available()
Determines whether a given cipher algorithm is available in the local gcrypt installation:
if (Crypt::GCrypt::cipher_algo_available('aes')) {
# do stuff with aes
}
new()
In order to encrypt/decrypt your data using a symmetric cipher you first have to build a Crypt::GCrypt object:
my $cipher = Crypt::GCrypt->new(
type => 'cipher',
algorithm => 'aes',
mode => 'cbc'
);
The type argument must be "cipher" and algorithm is required too. See below for a description of available algorithms and other
initialization parameters:
algorithm
This may be one of the following:
3des Triple-DES with 3 Keys as EDE. The key size of this algorithm is 168 but you have to pass 192 bits because the most
significant bits of each byte are ignored.
aes AES (Rijndael) with a 128 bit key.
aes192 AES (Rijndael) with a 192 bit key.
aes256 AES (Rijndael) with a 256 bit key.
blowfish
The blowfish algorithm. The current implementation allows only for a key size of 128 bits (and thus is not compatible with
Crypt::Blowfish).
cast5 CAST128-5 block cipher algorithm. The key size is 128 bits.
des Standard DES with a 56 bit key. You need to pass 64 bit but the high bits of each byte are ignored. Note, that this is a weak
algorithm which can be broken in reasonable time using a brute force approach.
twofish The Twofish algorithm with a 256 bit key.
twofish128
The Twofish algorithm with a 128 bit key.
arcfour An algorithm which is 100% compatible with RSA Inc.'s RC4 algorithm. Note that this is a stream cipher and must be used very
carefully to avoid a couple of weaknesses.
mode
This is a string specifying one of the following encryption/decryption modes:
stream only available for stream ciphers
ecb doesn't use an IV, encrypts each block independently
cbc the current ciphertext block is encryption of current plaintext block xor-ed with last ciphertext block
cfb the current ciphertext block is the current plaintext block xor-ed with the current keystream block, which is the encryption of
the last ciphertext block
ofb the current ciphertext block is the current plaintext block xor-ed with the current keystream block, which is the encryption of
the last keystream block
If no mode is specified then cbc is selected for block ciphers, and stream for stream ciphers.
padding
When the last block of plaintext is shorter than the block size, it must be padded before encryption. Padding should permit a safe
unpadding after decryption. Crypt::GCrypt currently supports two methods:
standard
This is also known as PKCS#5 padding, as it's binary safe. The string is padded with the number of bytes that should be
truncated. It's compatible with Crypt::CBC.
null Only for text strings. The block will be padded with null bytes(00). If the last block is a full block and blocksize is 8, a
block of "0000000000000000" will be appended.
none By setting the padding method to "none", Crypt::GCrypt will only accept a multiple of blklen as input for "encrypt()".
secure
If this option is set to a true value, all data associated with this cipher will be put into non-swappable storage, if possible.
enable_sync
Enable the CFB sync operation.
Once you've got your cipher object the following methods are available:
start()
$cipher->start('encrypting');
$cipher->start('decrypting');
This method must be called before any call to setkey() or setiv(). It prepares the cipher for encryption or decryption, resetting the
internal state.
setkey()
$cipher->setkey('my secret key');
Encryption and decryption operations will use this key until a different one is set. If your key is shorter than the cipher's keylen (see
the "keylen" method) it will be zero-padded, if it is longer it will be truncated.
setiv()
$cipher->setiv('my iv');
Set the initialisation vector for the next encrypt/decrypt operation. If IV is missing a "standard" IV of all zero is used. The same IV is
set in newly created cipher objects.
encrypt()
$ciphertext = $cipher->encrypt($plaintext);
This method encrypts $plaintext with $cipher, returning the corresponding ciphertext. The output is buffered; this means that you'll only
get multiples of $cipher's block size and that at the end you'll have to call "finish()".
finish()
$ciphertext .= $cipher->finish;
$plaintext .= $cipher->finish;
The CBC algorithm must buffer data blocks internally until there are even multiples of the encryption algorithm's blocksize (typically 8 or
16 bytes). After the last call to encrypt() or decrypt() you should call finish() to flush the internal buffer and return any leftover
data. This method will also take care of padding/unpadding of data (see the "padding" option above).
decrypt()
$plaintext = $cipher->decrypt($ciphertext);
The counterpart to encrypt, decrypt takes a $ciphertext and produces the original plaintext (given that the right key was used, of course).
The output is buffered; this means that you'll only get multiples of $cipher's block size and that at the end you'll have to call
"finish()".
keylen()
print "Key length is " . $cipher->keylen();
Returns the number of bytes of keying material this cipher needs.
blklen()
print "Block size is " . $cipher->blklen();
As their name implies, block ciphers operate on blocks of data. This method returns the size of this blocks in bytes for this particular
cipher. For stream ciphers 1 is returned, since this implementation does not feed less than a byte into the cipher.
sync()
$cipher->sync();
Apply the CFB sync operation.
MESSAGE DIGESTS
digest_algo_available()
Determines whether a given digest algorithm is available in the local gcrypt installation:
if (Crypt::GCrypt::digest_algo_available('sha256')) {
# do stuff with sha256
}
new()
In order to create a message digest, you first have to build a Crypt::GCrypt object:
my $digest = Crypt::GCrypt->new(
type => 'digest',
algorithm => 'sha256',
);
The type argument must be "digest" and algorithm is required too. See below for a description of available algorithms and other
initialization parameters:
algorithm
Depending on your available version of gcrypt, this can be one of the following hash algorithms. Note that some gcrypt installations
do not implement certain algorithms (see digest_algo_available()).
md4
md5
ripemd160
sha1
sha224
sha256
sha384
sha512
tiger192
whirlpool
secure
If this option is set to a true value, all data associated with this digest will be put into non-swappable storage, if possible.
hmac
If the digest is expected to be used as a keyed-Hash Message Authentication Code (HMAC), supply the key with this argument. It is good
practice to ensure that the key is at least as long as the digest used.
Once you've got your digest object the following methods are available:
digest_length()
my $len = $digest->digest_length();
Returns the length in bytes of the digest produced by this algorithm.
write()
$digest->write($data);
Feeds data into the hash context. Once you have called read(), this method can't be called anymore.
reset()
Re-initializes the digest with the same parameters it was initially created with. This allows write()ing again, after a call to read().
clone()
Creates a new digest object with the exact same internal state. This is useful if you want to retrieve intermediate digests (i.e. read()
from the copy and continue write()ing to the original).
read()
my $md = $digest->read();
Completes the digest and return the resultant string. You can call this multiple times, and it will return the same information. Once a
digest object has been read(), it may not be written to.
THREAD SAFETY
libgcrypt is initialized with support for Pthread, so this module should be thread safe.
SEE ALSO
Crypt::GCrypt::MPI supports Multi-precision integers (bignum math) using libgcrypt as the backend implementation.
BUGS AND FEEDBACK
There are no known bugs. You are very welcome to write mail to the author (aar@cpan.org) with your contributions, comments, suggestions,
bug reports or complaints.
AUTHORS AND CONTRIBUTORS
Alessandro Ranellucci <aar@cpan.org>
Daniel Kahn Gillmor (message digests) <dkg@fifthhorseman.net>
COPYRIGHT AND LICENSE
Copyright (c) Alessandro Ranellucci. Crypt::GCrypt is free software, you may redistribute it and/or modify it under the same terms as Perl
itself.
ACKNOWLEDGEMENTS
This module was initially inspired by the GCrypt.pm bindings made by Robert Bihlmeyer in 2002. Thanks to users who give feedback and submit
patches (see Changelog).
DISCLAIMER
This software is provided by the copyright holders and contributors ``as is'' and any express or implied warranties, including, but not
limited to, the implied warranties of merchantability and fitness for a particular purpose are disclaimed. In no event shall the regents or
contributors be liable for any direct, indirect, incidental, special, exemplary, or consequential damages (including, but not limited to,
procurement of substitute goods or services; loss of use, data, or profits; or business interruption) however caused and on any theory of
liability, whether in contract, strict liability, or tort (including negligence or otherwise) arising in any way out of the use of this
software, even if advised of the possibility of such damage.
perl v5.14.2 2011-07-26 Crypt::GCrypt(3pm)