Crypt::Argon2 - Perl interface to the Argon2 key derivation functions
version 0.005
use Crypt::Argon2 qw/argon2id_pass argon2id_verify/; sub add_pass { my ($user, $password) = @_; my $salt = get_random(16); my $encoded = argon2id_pass($password, $salt, 3, '32M', 1, 16); store_password($user, $encoded); } sub check_password { my ($user, $password) = @_; my $encoded = fetch_encoded($user); return argon2id_verify($encoded, $password); }
This module implements the Argon2 key derivation function, which is suitable to convert any password into a cryptographic key. This is most often used to for secure storage of passwords but can also be used to derive a encryption key from a password. It offers variable time and memory costs as well as output size.
This function processes the $password with the given $salt and parameters. It encodes the resulting tag and the parameters as a password string (e.g. $argon2id$v=19$m=65536,t=2,p=1$c29tZXNhbHQ$wWKIMhR9lyDFvRz9YTZweHKfbftvj+qf+YFY4NeBbtA).
$password
$salt
$argon2id$v=19$m=65536,t=2,p=1$c29tZXNhbHQ$wWKIMhR9lyDFvRz9YTZweHKfbftvj+qf+YFY4NeBbtA
This is the password that is to be turned into a cryptographic key.
This is the salt that is used. It must be long enough to be unique.
$t_cost
This is the time-cost factor, typically a small integer that can be derived as explained above.
$m_factor
This is the memory costs factor. This must be given as a integer followed by an order of magnitude (k, M or G for kilobytes, megabytes or gigabytes respectively), e.g. '64M'.
k
M
G
'64M'
$parallelism
This is the number of threads that are used in computing it.
$tag_size
This is the size of the raw result in bytes. Typical values are 16 or 32.
This verifies that the $password matches $encoded. All parameters and the tag value are extracted from $encoded, so no further arguments are necessary.
$encoded
This function processes the $password with the given $salt and parameters much like argon2i_pass, but returns the binary tag instead of a formatted string.
argon2i_pass
This function processes the $password with the given $salt and parameters much like argon2id_pass, but uses the argon2i variant instead.
This function processes the $password with the given $salt and parameters much like argon2i_pass, but returns a binary tag for argon2d instead of a formatted string for argon2i.
The following procedure to find settings can be followed:
y
h
parallelism
m
x
t
t = 1
This module is based on the reference implementation as can be found at https://github.com/P-H-C/phc-winner-argon2.
You will also need a good source of randomness to generate good salts. Some possible solutions include:
Net::SSLeay
Its RAND_bytes function is OpenSSL's pseudo-randomness source.
Crypt::URandom
A minimalistic abstraction around OS-provided non-blocking (pseudo-)randomness.
Implementations of other similar algorithms include:
Crypt::ScryptKDF
An implementation of scrypt, a older scheme that also tries to be memory hard.
Crypt::Eksblowfish::Bcrypt
An implementation of bcrypt, a battle-tested algortihm that tries to be CPU but not particularly memory intensive.
Leon Timmermans <leont@cpan.org>
Daniel Dinu, Dmitry Khovratovich, Jean-Philippe Aumasson, Samuel Neves, Thomas Pornin and Leon Timmermans has dedicated the work to the Commons by waiving all of his or her rights to the work worldwide under copyright law and all related or neighboring legal rights he or she had in the work, to the extent allowable by law.
Works under CC0 do not require attribution. When citing the work, you should not imply endorsement by the author.
To install Crypt::Argon2, copy and paste the appropriate command in to your terminal.
cpanm
cpanm Crypt::Argon2
CPAN shell
perl -MCPAN -e shell install Crypt::Argon2
For more information on module installation, please visit the detailed CPAN module installation guide.