package Crypt::Passphrase::Argon2;
$Crypt::Passphrase::Argon2::VERSION = '0.003';
use strict;
use warnings;

use parent 'Crypt::Passphrase::Encoder';

use Carp 'croak';
use Crypt::Argon2 0.009;

my %encoder_for = (
	argon2i  => \&Crypt::Argon2::argon2i_pass,
	argon2d  => \&Crypt::Argon2::argon2d_pass,
	argon2id => \&Crypt::Argon2::argon2id_pass,

sub new {
	my ($class, %args) = @_;
	my $subtype     =  $args{subtype}     || 'argon2id';
	croak "Unknown subtype $subtype" unless $encoder_for{ $subtype };
	return bless {
		memory_cost => $args{memory_cost} || '256M',
		time_cost   => $args{time_cost}   ||    3,
		parallelism => $args{parallelism} ||    1,
		output_size => $args{output_size} ||   16,
		salt_size   => $args{salt_size}   ||   16,
		subtype     => $subtype,
	}, $class;

sub hash_password {
	my ($self, $password) = @_;
	my $salt = $self->random_bytes($self->{salt_size});
	my $encoder = $encoder_for{ $self->{subtype} };
	return $encoder->($password, $salt, $self->{time_cost}, $self->{memory_cost}, $self->{parallelism}, $self->{output_size});

sub needs_rehash {
	my ($self, $hash) = @_;
	return Crypt::Argon2::argon2_needs_rehash($hash, $self->{subtype}, $self->{time_cost}, $self->{memory_cost}, $self->{parallelism}, $self->{output_size}, $self->{salt_size});

my %matcher_for = (
	argon2i  => \&Crypt::Argon2::argon2i_verify,
	argon2d  => \&Crypt::Argon2::argon2d_verify,
	argon2id => \&Crypt::Argon2::argon2id_verify,

sub crypt_subtypes {
	return keys %matcher_for;

sub verify_password {
	my ($class, $password, $hash) = @_;
	my ($type) = $hash =~ / \A \$ ([0-9A-Za-z]+) \$ /x;
	return eval { $matcher_for{$type}->($hash, $password) };

#ABSTRACT: An Argon2 encoder for Crypt::Passphrase



=encoding UTF-8

=head1 NAME

Crypt::Passphrase::Argon2 - An Argon2 encoder for Crypt::Passphrase

=head1 VERSION

version 0.003


This class implements an Argon2 encoder for Crypt::Passphrase. It is the recommended password encoder as of 2021.

The default settings are taken from the intermediate profile of libsodium's password hashing. You are highly encouraged to come up with your own settings: Crypt::Argon2 contains a C<argon2-calibrate> tool to assist you in this.

=head1 METHODS

=head2 new(%args)

This creates a new Argon2 encoder, it takes named parameters that are all optional. Note that some defaults are likely to change at some point in the future, as computers get progressively more powerful and cryptoanalysis gets more advanced.

=over 4

=item * memory_cost

Maximum memory (in bytes) that may be used to compute the Argon2 hash. This currently defaults to 256 megabytes, but this number may change in any future version.

=item * time_cost

Maximum amount of time it may take to compute the Argon2 hash. This currently defaults to C<3>, but this number may change in any future version.

=item * parallelism

The number of lanes (and potentially threads) used for the hash. This defaults to C<1>, but this number may change in any future version.

=item * output_size

The size of a hashed value. This defaults to 16 bytes, increasing it only makes sense if your passwords actually contain more than 128 bits of entropy.

=item * salt_size

The size of the salt. This defaults to 16 bytes, which should be more than enough for any use-case.

=item * subtype

This choses the argon2 subtype. It defaults to C<argon2id>, and unless you know what you're doing you should probably keep it at that. This may change in any future version (but is unlikely to do so unless C<argon2_id> is cryptographically broken).

=over 4

=item * C<argon2id>

This is the default. It's a hybrid of C<argon2i> and C<argon2d> that largely combines the advantages of both.

=item * C<argon2i>

This is optimized against timing attacks, but more vulnerable against other cryptographic attacks. It must not be used with a C<time_cost> lower than 3.

=item * C<argon2d>

This is optimized for resistance to GPU cracking attacks but not against timing based side-channel attacks.



Note: there is no wrong or right configuration, it all depends on your own particular circumstances. I recommend using the algorithm described in L<Crypt::Argon2|Crypt::Argon2/RECOMMENDED-SETTINGS> to pick the right settings for you.

=head2 hash_password($password)

This hashes the passwords with argon2 according to the specified settings and a random salt (and will thus return a different result each time).

=head2 needs_rehash($hash)

This returns true if the hash uses a different cipher or subtype, or if any of the parameters is lower that desired by the encoder.

=head2 crypt_types()

This class supports the following crypt types: C<argon2id>, C<argon2i> and C<argon2d>.

=head2 verify_password($password, $hash)

This will check if a password matches an argon2 hash.

=head1 AUTHOR

Leon Timmermans <>


This software is copyright (c) 2021 by Leon Timmermans.

This is free software; you can redistribute it and/or modify it under
the same terms as the Perl 5 programming language system itself.