DOKK / manpages / debian 11 / libcryptx-perl / Crypt::AuthEnc::ChaCha20Poly1305.3pm.en
Crypt::AuthEnc::ChaCha20Poly1305(3pm) User Contributed Perl Documentation Crypt::AuthEnc::ChaCha20Poly1305(3pm)

Crypt::AuthEnc::ChaCha20Poly1305 - Authenticated encryption in ChaCha20-Poly1305 mode

 ### 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);

Provides encryption and authentication based on ChaCha20 + Poly1305 as defined in RFC 7539 - <https://tools.ietf.org/html/rfc7539>

Nothing is exported by default.

You can export selected functions:

  use Crypt::AuthEnc::ChaCha20Poly1305 qw(chacha20poly1305_encrypt_authenticate chacha20poly1305_decrypt_verify);

 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)

 my $plaintext = chacha20poly1305_decrypt_verify($key, $iv, $adata, $ciphertext, $tag);
 # on error returns undef

 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)

Add additional authenticated data. Can be called before the first "encrypt_add" or "decrypt_add";

 $ae->adata_add($aad_data);                     # can be called multiple times

 $ciphertext = $ae->encrypt_add($data);         # can be called multiple times

 $tag = $ae->encrypt_done();                    # returns $tag value

 $plaintext = $ae->decrypt_add($ciphertext);    # can be called multiple times

 my $tag = $ae->decrypt_done;           # returns $tag value
 #or
 my $result = $ae->decrypt_done($tag);  # returns 1 (success) or 0 (failure)

 my $ae = Crypt::AuthEnc::ChaCha20Poly1305->new($key)->set_iv($iv);
 # $iv ...... initialization vector (64 or 96 bits / 8 or 12 bytes)

See <https://tools.ietf.org/html/rfc7905>

 my $ae = Crypt::AuthEnc::ChaCha20Poly1305->new($key)->set_iv_rfc7905($iv, $seqnum);
 # $iv ...... initialization vector (96 bits / 12 bytes)
 # $seqnum .. 64bit integer (sequence number)

 my $ae_new = $ae->clone;

  • CryptX, Crypt::AuthEnc::GCM, Crypt::AuthEnc::CCM, Crypt::AuthEnc::EAX, Crypt::AuthEnc::OCB
  • <https://tools.ietf.org/html/rfc7539>
2020-11-09 perl v5.32.0