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NAME

Crypt::Argon2 - Perl interface to the Argon2 key derivation functions

VERSION

version 0.026

SYNOPSIS

use Crypt::Argon2 qw/argon2id_pass argon2_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 argon2_verify($encoded, $password);
}

DESCRIPTION

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.

To find appropriate parameters, the bundled program argon2-calibrate can be used.

FUNCTIONS

argon2_pass($type, $password, $salt, $t_cost, $m_factor, $parallelism, $tag_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).

  • $type

    The argon2 type that is used. This must be one of 'argon2id', 'argon2i' or 'argon2d'.

  • $password

    This is the password that is to be turned into a cryptographic key.

  • $salt

    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'.

  • $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.

argon2_verify($encoded, $password)

This verifies that the $password matches $encoded. All parameters and the tag value are extracted from $encoded, so no further arguments are necessary.

argon2_raw($type, $password, $salt, $t_cost, $m_factor, $parallelism, $tag_size)

This function processes the $password with the given $salt and parameters much like argon2_pass, but returns the binary tag instead of a formatted string.

argon2id_pass($password, $salt, $t_cost, $m_factor, $parallelism, $tag_size)

argon2i_pass($password, $salt, $t_cost, $m_factor, $parallelism, $tag_size)

argon2d_pass($password, $salt, $t_cost, $m_factor, $parallelism, $tag_size)

This function processes the $password much like argon2_pass does, but the $type argument is set like the function name.

argon2id_verify($encoded, $password)

argon2i_verify($encoded, $password)

argon2d_verify($encoded, $password)

This verifies that the $password matches $encoded and the given type. All parameters and the tag value are extracted from $encoded, so no further arguments are necessary.

argon2id_raw($password, $salt, $t_cost, $m_factor, $parallelism, $tag_size)

argon2i_raw($password, $salt, $t_cost, $m_factor, $parallelism, $tag_size)

argon2d_raw($password, $salt, $t_cost, $m_factor, $parallelism, $tag_size)

This function processes the $password much like argon2_raw does, but the $type argument is set like the function name.

argon2_needs_rehash($encoded, $type, $t_cost, $m_cost, $parallelism, $output_length, $salt_length)

This function checks if a password-encoded string needs a rehash. It will return true if the $type (valid values are argon2i, argon2id or argon2d), $t_cost, $m_cost, $parallelism, $output_length or $salt_length arguments mismatches any of the parameters of the password-encoded hash.

argon2_types

This returns all supported argon2 subtypes. Currently that's 'argon2id', 'argon2i' and 'argon2d'.

ACKNOWLEDGEMENTS

This module is based on the reference implementation as can be found at https://github.com/P-H-C/phc-winner-argon2.

SEE ALSO

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.

  • /dev/random / /dev/urandom

    A Linux/BSD specific pseudo-file that will allow you to read random bytes.

Implementations of other similar algorithms include:

  • Crypt::Bcrypt

    An implementation of bcrypt, a battle-tested algorithm that tries to be CPU but not particularly memory intensive.

  • Crypt::ScryptKDF

    An implementation of scrypt, a older scheme that also tries to be memory hard.

AUTHOR

Leon Timmermans <leont@cpan.org>

COPYRIGHT AND LICENSE

This software is Copyright (c) 2013 by Daniel Dinu, Dmitry Khovratovich, Jean-Philippe Aumasson, Samuel Neves, Thomas Pornin and Leon Timmermans.

This is free software, licensed under:

The Apache License, Version 2.0, January 2004