package Crypt::AuthEnc::ChaCha20Poly1305; use strict; use warnings; our $VERSION = '0.084'; require Exporter; our @ISA = qw(Exporter); ### use Exporter 5.57 'import'; our %EXPORT_TAGS = ( all => [qw( chacha20poly1305_encrypt_authenticate chacha20poly1305_decrypt_verify )] ); our @EXPORT_OK = ( @{ $EXPORT_TAGS{'all'} } ); our @EXPORT = qw(); use Carp; $Carp::Internal{(__PACKAGE__)}++; use CryptX; sub CLONE_SKIP { 1 } # prevent cloning 1; =pod =head1 NAME Crypt::AuthEnc::ChaCha20Poly1305 - Authenticated encryption in ChaCha20-Poly1305 mode =head1 SYNOPSIS ### OO interface use Crypt::AuthEnc::ChaCha20Poly1305; # encrypt and authenticate my $ae = Crypt::AuthEnc::ChaCha20Poly1305->new($key, $iv); $ae->adata_add('additional_authenticated_data1'); $ae->adata_add('additional_authenticated_data2'); my $ct = $ae->encrypt_add('data1'); $ct .= $ae->encrypt_add('data2'); $ct .= $ae->encrypt_add('data3'); my $tag = $ae->encrypt_done(); # decrypt and verify my $ae = Crypt::AuthEnc::ChaCha20Poly1305->new($key, $iv); $ae->adata_add('additional_authenticated_data1'); $ae->adata_add('additional_authenticated_data2'); my $pt = $ae->decrypt_add('ciphertext1'); $pt .= $ae->decrypt_add('ciphertext2'); $pt .= $ae->decrypt_add('ciphertext3'); my $tag = $ae->decrypt_done(); die "decrypt failed" unless $tag eq $expected_tag; #or my $result = $ae->decrypt_done($expected_tag); # 0 or 1 ### functional interface use Crypt::AuthEnc::ChaCha20Poly1305 qw(chacha20poly1305_encrypt_authenticate chacha20poly1305_decrypt_verify); my ($ciphertext, $tag) = chacha20poly1305_encrypt_authenticate($key, $iv, $adata, $plaintext); my $plaintext = chacha20poly1305_decrypt_verify($key, $iv, $adata, $ciphertext, $tag); =head1 DESCRIPTION Provides encryption and authentication based on ChaCha20 + Poly1305 as defined in RFC 7539 - L =head1 EXPORT Nothing is exported by default. You can export selected functions: use Crypt::AuthEnc::ChaCha20Poly1305 qw(chacha20poly1305_encrypt_authenticate chacha20poly1305_decrypt_verify); =head1 FUNCTIONS =head2 chacha20poly1305_encrypt_authenticate my ($ciphertext, $tag) = chacha20poly1305_encrypt_authenticate($key, $iv, $adata, $plaintext); # $key ..... key of proper length (128 or 256 bits / 16 or 32 bytes) # $iv ...... initialization vector (64 or 96 bits / 8 or 12 bytes) # $adata ... additional authenticated data (optional) =head2 chacha20poly1305_decrypt_verify my $plaintext = chacha20poly1305_decrypt_verify($key, $iv, $adata, $ciphertext, $tag); # on error returns undef =head1 METHODS =head2 new my $ae = Crypt::AuthEnc::ChaCha20Poly1305->new($key, $iv); # $key ..... encryption key of proper length (128 or 256 bits / 16 or 32 bytes) # $iv ...... initialization vector (64 or 96 bits / 8 or 12 bytes) =head2 adata_add Add B. Can be called before the first C or C; $ae->adata_add($aad_data); # can be called multiple times =head2 encrypt_add $ciphertext = $ae->encrypt_add($data); # can be called multiple times =head2 encrypt_done $tag = $ae->encrypt_done(); # returns $tag value =head2 decrypt_add $plaintext = $ae->decrypt_add($ciphertext); # can be called multiple times =head2 decrypt_done my $tag = $ae->decrypt_done; # returns $tag value #or my $result = $ae->decrypt_done($tag); # returns 1 (success) or 0 (failure) =head2 set_iv my $ae = Crypt::AuthEnc::ChaCha20Poly1305->new($key)->set_iv($iv); # $iv ...... initialization vector (64 or 96 bits / 8 or 12 bytes) =head2 set_iv_rfc7905 See L my $ae = Crypt::AuthEnc::ChaCha20Poly1305->new($key)->set_iv_rfc7905($iv, $seqnum); # $iv ...... initialization vector (96 bits / 12 bytes) # $seqnum .. 64bit integer (sequence number) =head2 clone my $ae_new = $ae->clone; =head1 SEE ALSO =over =item * L, L, L, L, L =item * L =back =cut