File "Compat-20241226234416.php"
Full Path: /home/ycoalition/public_html/blog/wp-includes/sodium_compat/src/Core32/Compat-20241226234416.php
File size: 160.24 KB
MIME-type: text/x-php
Charset: utf-8
<?php
/**
* Libsodium compatibility layer
*
* This is the only class you should be interfacing with, as a user of
* sodium_compat.
*
* If the PHP extension for libsodium is installed, it will always use that
* instead of our implementations. You get better performance and stronger
* guarantees against side-channels that way.
*
* However, if your users don't have the PHP extension installed, we offer a
* compatible interface here. It will give you the correct results as if the
* PHP extension was installed. It won't be as fast, of course.
*
* CAUTION * CAUTION * CAUTION * CAUTION * CAUTION * CAUTION * CAUTION * CAUTION *
* *
* Until audited, this is probably not safe to use! DANGER WILL ROBINSON *
* *
* CAUTION * CAUTION * CAUTION * CAUTION * CAUTION * CAUTION * CAUTION * CAUTION *
*/
if (class_exists('ParagonIE_Sodium_Compat', false)) {
return;
}
class ParagonIE_Sodium_Compat
{
/**
* This parameter prevents the use of the PECL extension.
* It should only be used for unit testing.
*
* @var bool
*/
public static $disableFallbackForUnitTests = false;
/**
* Use fast multiplication rather than our constant-time multiplication
* implementation. Can be enabled at runtime. Only enable this if you
* are absolutely certain that there is no timing leak on your platform.
*
* @var bool
*/
public static $fastMult = false;
const LIBRARY_MAJOR_VERSION = 9;
const LIBRARY_MINOR_VERSION = 1;
const LIBRARY_VERSION_MAJOR = 9;
const LIBRARY_VERSION_MINOR = 1;
const VERSION_STRING = 'polyfill-1.0.8';
// From libsodium
const BASE64_VARIANT_ORIGINAL = 1;
const BASE64_VARIANT_ORIGINAL_NO_PADDING = 3;
const BASE64_VARIANT_URLSAFE = 5;
const BASE64_VARIANT_URLSAFE_NO_PADDING = 7;
const CRYPTO_AEAD_AES256GCM_KEYBYTES = 32;
const CRYPTO_AEAD_AES256GCM_NSECBYTES = 0;
const CRYPTO_AEAD_AES256GCM_NPUBBYTES = 12;
const CRYPTO_AEAD_AES256GCM_ABYTES = 16;
const CRYPTO_AEAD_AEGIS128L_KEYBYTES = 16;
const CRYPTO_AEAD_AEGIS128L_NSECBYTES = 0;
const CRYPTO_AEAD_AEGIS128L_NPUBBYTES = 16;
const CRYPTO_AEAD_AEGIS128L_ABYTES = 32;
const CRYPTO_AEAD_AEGIS256_KEYBYTES = 32;
const CRYPTO_AEAD_AEGIS256_NSECBYTES = 0;
const CRYPTO_AEAD_AEGIS256_NPUBBYTES = 32;
const CRYPTO_AEAD_AEGIS256_ABYTES = 32;
const CRYPTO_AEAD_CHACHA20POLY1305_KEYBYTES = 32;
const CRYPTO_AEAD_CHACHA20POLY1305_NSECBYTES = 0;
const CRYPTO_AEAD_CHACHA20POLY1305_NPUBBYTES = 8;
const CRYPTO_AEAD_CHACHA20POLY1305_ABYTES = 16;
const CRYPTO_AEAD_CHACHA20POLY1305_IETF_KEYBYTES = 32;
const CRYPTO_AEAD_CHACHA20POLY1305_IETF_NSECBYTES = 0;
const CRYPTO_AEAD_CHACHA20POLY1305_IETF_NPUBBYTES = 12;
const CRYPTO_AEAD_CHACHA20POLY1305_IETF_ABYTES = 16;
const CRYPTO_AEAD_XCHACHA20POLY1305_IETF_KEYBYTES = 32;
const CRYPTO_AEAD_XCHACHA20POLY1305_IETF_NSECBYTES = 0;
const CRYPTO_AEAD_XCHACHA20POLY1305_IETF_NPUBBYTES = 24;
const CRYPTO_AEAD_XCHACHA20POLY1305_IETF_ABYTES = 16;
const CRYPTO_AUTH_BYTES = 32;
const CRYPTO_AUTH_KEYBYTES = 32;
const CRYPTO_BOX_SEALBYTES = 16;
const CRYPTO_BOX_SECRETKEYBYTES = 32;
const CRYPTO_BOX_PUBLICKEYBYTES = 32;
const CRYPTO_BOX_KEYPAIRBYTES = 64;
const CRYPTO_BOX_MACBYTES = 16;
const CRYPTO_BOX_NONCEBYTES = 24;
const CRYPTO_BOX_SEEDBYTES = 32;
const CRYPTO_CORE_RISTRETTO255_BYTES = 32;
const CRYPTO_CORE_RISTRETTO255_SCALARBYTES = 32;
const CRYPTO_CORE_RISTRETTO255_HASHBYTES = 64;
const CRYPTO_CORE_RISTRETTO255_NONREDUCEDSCALARBYTES = 64;
const CRYPTO_KDF_BYTES_MIN = 16;
const CRYPTO_KDF_BYTES_MAX = 64;
const CRYPTO_KDF_CONTEXTBYTES = 8;
const CRYPTO_KDF_KEYBYTES = 32;
const CRYPTO_KX_BYTES = 32;
const CRYPTO_KX_PRIMITIVE = 'x25519blake2b';
const CRYPTO_KX_SEEDBYTES = 32;
const CRYPTO_KX_KEYPAIRBYTES = 64;
const CRYPTO_KX_PUBLICKEYBYTES = 32;
const CRYPTO_KX_SECRETKEYBYTES = 32;
const CRYPTO_KX_SESSIONKEYBYTES = 32;
const CRYPTO_GENERICHASH_BYTES = 32;
const CRYPTO_GENERICHASH_BYTES_MIN = 16;
const CRYPTO_GENERICHASH_BYTES_MAX = 64;
const CRYPTO_GENERICHASH_KEYBYTES = 32;
const CRYPTO_GENERICHASH_KEYBYTES_MIN = 16;
const CRYPTO_GENERICHASH_KEYBYTES_MAX = 64;
const CRYPTO_PWHASH_SALTBYTES = 16;
const CRYPTO_PWHASH_STRPREFIX = '$argon2id$';
const CRYPTO_PWHASH_ALG_ARGON2I13 = 1;
const CRYPTO_PWHASH_ALG_ARGON2ID13 = 2;
const CRYPTO_PWHASH_MEMLIMIT_INTERACTIVE = 33554432;
const CRYPTO_PWHASH_OPSLIMIT_INTERACTIVE = 4;
const CRYPTO_PWHASH_MEMLIMIT_MODERATE = 134217728;
const CRYPTO_PWHASH_OPSLIMIT_MODERATE = 6;
const CRYPTO_PWHASH_MEMLIMIT_SENSITIVE = 536870912;
const CRYPTO_PWHASH_OPSLIMIT_SENSITIVE = 8;
const CRYPTO_PWHASH_SCRYPTSALSA208SHA256_SALTBYTES = 32;
const CRYPTO_PWHASH_SCRYPTSALSA208SHA256_STRPREFIX = '$7$';
const CRYPTO_PWHASH_SCRYPTSALSA208SHA256_OPSLIMIT_INTERACTIVE = 534288;
const CRYPTO_PWHASH_SCRYPTSALSA208SHA256_MEMLIMIT_INTERACTIVE = 16777216;
const CRYPTO_PWHASH_SCRYPTSALSA208SHA256_OPSLIMIT_SENSITIVE = 33554432;
const CRYPTO_PWHASH_SCRYPTSALSA208SHA256_MEMLIMIT_SENSITIVE = 1073741824;
const CRYPTO_SCALARMULT_BYTES = 32;
const CRYPTO_SCALARMULT_SCALARBYTES = 32;
const CRYPTO_SCALARMULT_RISTRETTO255_BYTES = 32;
const CRYPTO_SCALARMULT_RISTRETTO255_SCALARBYTES = 32;
const CRYPTO_SHORTHASH_BYTES = 8;
const CRYPTO_SHORTHASH_KEYBYTES = 16;
const CRYPTO_SECRETBOX_KEYBYTES = 32;
const CRYPTO_SECRETBOX_MACBYTES = 16;
const CRYPTO_SECRETBOX_NONCEBYTES = 24;
const CRYPTO_SECRETSTREAM_XCHACHA20POLY1305_ABYTES = 17;
const CRYPTO_SECRETSTREAM_XCHACHA20POLY1305_HEADERBYTES = 24;
const CRYPTO_SECRETSTREAM_XCHACHA20POLY1305_KEYBYTES = 32;
const CRYPTO_SECRETSTREAM_XCHACHA20POLY1305_TAG_PUSH = 0;
const CRYPTO_SECRETSTREAM_XCHACHA20POLY1305_TAG_PULL = 1;
const CRYPTO_SECRETSTREAM_XCHACHA20POLY1305_TAG_REKEY = 2;
const CRYPTO_SECRETSTREAM_XCHACHA20POLY1305_TAG_FINAL = 3;
const CRYPTO_SECRETSTREAM_XCHACHA20POLY1305_MESSAGEBYTES_MAX = 0x3fffffff80;
const CRYPTO_SIGN_BYTES = 64;
const CRYPTO_SIGN_SEEDBYTES = 32;
const CRYPTO_SIGN_PUBLICKEYBYTES = 32;
const CRYPTO_SIGN_SECRETKEYBYTES = 64;
const CRYPTO_SIGN_KEYPAIRBYTES = 96;
const CRYPTO_STREAM_KEYBYTES = 32;
const CRYPTO_STREAM_NONCEBYTES = 24;
const CRYPTO_STREAM_XCHACHA20_KEYBYTES = 32;
const CRYPTO_STREAM_XCHACHA20_NONCEBYTES = 24;
/**
* Add two numbers (little-endian unsigned), storing the value in the first
* parameter.
*
* This mutates $val.
*
* @param string $val
* @param string $addv
* @return void
* @throws SodiumException
*/
public static function add(
#[\SensitiveParameter]
&$val,
#[\SensitiveParameter]
$addv
) {
$val_len = ParagonIE_Sodium_Core_Util::strlen($val);
$addv_len = ParagonIE_Sodium_Core_Util::strlen($addv);
if ($val_len !== $addv_len) {
throw new SodiumException('values must have the same length');
}
$A = ParagonIE_Sodium_Core_Util::stringToIntArray($val);
$B = ParagonIE_Sodium_Core_Util::stringToIntArray($addv);
$c = 0;
for ($i = 0; $i < $val_len; $i++) {
$c += ($A[$i] + $B[$i]);
$A[$i] = ($c & 0xff);
$c >>= 8;
}
$val = ParagonIE_Sodium_Core_Util::intArrayToString($A);
}
/**
* @param string $encoded
* @param int $variant
* @param string $ignore
* @return string
* @throws SodiumException
*/
public static function base642bin(
#[\SensitiveParameter]
$encoded,
$variant,
$ignore = ''
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($encoded, 'string', 1);
/** @var string $encoded */
$encoded = (string) $encoded;
if (ParagonIE_Sodium_Core_Util::strlen($encoded) === 0) {
return '';
}
// Just strip before decoding
if (!empty($ignore)) {
$encoded = str_replace($ignore, '', $encoded);
}
try {
switch ($variant) {
case self::BASE64_VARIANT_ORIGINAL:
return ParagonIE_Sodium_Core_Base64_Original::decode($encoded, true);
case self::BASE64_VARIANT_ORIGINAL_NO_PADDING:
return ParagonIE_Sodium_Core_Base64_Original::decode($encoded, false);
case self::BASE64_VARIANT_URLSAFE:
return ParagonIE_Sodium_Core_Base64_UrlSafe::decode($encoded, true);
case self::BASE64_VARIANT_URLSAFE_NO_PADDING:
return ParagonIE_Sodium_Core_Base64_UrlSafe::decode($encoded, false);
default:
throw new SodiumException('invalid base64 variant identifier');
}
} catch (Exception $ex) {
if ($ex instanceof SodiumException) {
throw $ex;
}
throw new SodiumException('invalid base64 string');
}
}
/**
* @param string $decoded
* @param int $variant
* @return string
* @throws SodiumException
*/
public static function bin2base64(
#[\SensitiveParameter]
$decoded,
$variant
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($decoded, 'string', 1);
/** @var string $decoded */
$decoded = (string) $decoded;
if (ParagonIE_Sodium_Core_Util::strlen($decoded) === 0) {
return '';
}
switch ($variant) {
case self::BASE64_VARIANT_ORIGINAL:
return ParagonIE_Sodium_Core_Base64_Original::encode($decoded);
case self::BASE64_VARIANT_ORIGINAL_NO_PADDING:
return ParagonIE_Sodium_Core_Base64_Original::encodeUnpadded($decoded);
case self::BASE64_VARIANT_URLSAFE:
return ParagonIE_Sodium_Core_Base64_UrlSafe::encode($decoded);
case self::BASE64_VARIANT_URLSAFE_NO_PADDING:
return ParagonIE_Sodium_Core_Base64_UrlSafe::encodeUnpadded($decoded);
default:
throw new SodiumException('invalid base64 variant identifier');
}
}
/**
* Cache-timing-safe implementation of bin2hex().
*
* @param string $string A string (probably raw binary)
* @return string A hexadecimal-encoded string
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function bin2hex(
#[\SensitiveParameter]
$string
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($string, 'string', 1);
if (self::useNewSodiumAPI()) {
return (string) sodium_bin2hex($string);
}
if (self::use_fallback('bin2hex')) {
return (string) call_user_func('\\Sodium\\bin2hex', $string);
}
return ParagonIE_Sodium_Core_Util::bin2hex($string);
}
/**
* Compare two strings, in constant-time.
* Compared to memcmp(), compare() is more useful for sorting.
*
* @param string $left The left operand; must be a string
* @param string $right The right operand; must be a string
* @return int If < 0 if the left operand is less than the right
* If = 0 if both strings are equal
* If > 0 if the right operand is less than the left
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function compare(
#[\SensitiveParameter]
$left,
#[\SensitiveParameter]
$right
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($left, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($right, 'string', 2);
if (self::useNewSodiumAPI()) {
return (int) sodium_compare($left, $right);
}
if (self::use_fallback('compare')) {
return (int) call_user_func('\\Sodium\\compare', $left, $right);
}
return ParagonIE_Sodium_Core_Util::compare($left, $right);
}
/**
* Authenticated Encryption with Associated Data: Decryption
*
* Algorithm:
* AEGIS-128L
*
* @param string $ciphertext Encrypted message (with MAC appended)
* @param string $assocData Authenticated Associated Data (unencrypted)
* @param string $nonce Number to be used only Once; must be 32 bytes
* @param string $key Encryption key
*
* @return string The original plaintext message
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
* @psalm-suppress MixedInferredReturnType
* @psalm-suppress MixedReturnStatement
*/
public static function crypto_aead_aegis128l_decrypt(
$ciphertext = '',
$assocData = '',
$nonce = '',
#[\SensitiveParameter]
$key = ''
) {
ParagonIE_Sodium_Core_Util::declareScalarType($ciphertext, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($assocData, 'string', 2);
ParagonIE_Sodium_Core_Util::declareScalarType($nonce, 'string', 3);
ParagonIE_Sodium_Core_Util::declareScalarType($key, 'string', 4);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($nonce) !== self::CRYPTO_AEAD_AEGIS128L_NPUBBYTES) {
throw new SodiumException('Nonce must be CRYPTO_AEAD_AEGIS_128L_NPUBBYTES long');
}
if (ParagonIE_Sodium_Core_Util::strlen($key) !== self::CRYPTO_AEAD_AEGIS128L_KEYBYTES) {
throw new SodiumException('Key must be CRYPTO_AEAD_AEGIS128L_KEYBYTES long');
}
$ct_length = ParagonIE_Sodium_Core_Util::strlen($ciphertext);
if ($ct_length < self::CRYPTO_AEAD_AEGIS128L_ABYTES) {
throw new SodiumException('Message must be at least CRYPTO_AEAD_AEGIS128L_ABYTES long');
}
$ct = ParagonIE_Sodium_Core_Util::substr(
$ciphertext,
0,
$ct_length - self::CRYPTO_AEAD_AEGIS128L_ABYTES
);
$tag = ParagonIE_Sodium_Core_Util::substr(
$ciphertext,
$ct_length - self::CRYPTO_AEAD_AEGIS128L_ABYTES,
self::CRYPTO_AEAD_AEGIS128L_ABYTES
);
return ParagonIE_Sodium_Core_AEGIS128L::decrypt($ct, $tag, $assocData, $key, $nonce);
}
/**
* Authenticated Encryption with Associated Data: Encryption
*
* Algorithm:
* AEGIS-128L
*
* @param string $plaintext Message to be encrypted
* @param string $assocData Authenticated Associated Data (unencrypted)
* @param string $nonce Number to be used only Once; must be 32 bytes
* @param string $key Encryption key
*
* @return string Ciphertext with 32-byte authentication tag appended
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_aead_aegis128l_encrypt(
#[\SensitiveParameter]
$plaintext = '',
$assocData = '',
$nonce = '',
#[\SensitiveParameter]
$key = ''
) {
ParagonIE_Sodium_Core_Util::declareScalarType($plaintext, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($assocData, 'string', 2);
ParagonIE_Sodium_Core_Util::declareScalarType($nonce, 'string', 3);
ParagonIE_Sodium_Core_Util::declareScalarType($key, 'string', 4);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($nonce) !== self::CRYPTO_AEAD_AEGIS128L_NPUBBYTES) {
throw new SodiumException('Nonce must be CRYPTO_AEAD_AEGIS128L_KEYBYTES long');
}
if (ParagonIE_Sodium_Core_Util::strlen($key) !== self::CRYPTO_AEAD_AEGIS128L_KEYBYTES) {
throw new SodiumException('Key must be CRYPTO_AEAD_AEGIS128L_KEYBYTES long');
}
list($ct, $tag) = ParagonIE_Sodium_Core_AEGIS128L::encrypt($plaintext, $assocData, $key, $nonce);
return $ct . $tag;
}
/**
* Return a secure random key for use with the AEGIS-128L
* symmetric AEAD interface.
*
* @return string
* @throws Exception
* @throws Error
*/
public static function crypto_aead_aegis128l_keygen()
{
return random_bytes(self::CRYPTO_AEAD_AEGIS128L_KEYBYTES);
}
/**
* Authenticated Encryption with Associated Data: Decryption
*
* Algorithm:
* AEGIS-256
*
* @param string $ciphertext Encrypted message (with MAC appended)
* @param string $assocData Authenticated Associated Data (unencrypted)
* @param string $nonce Number to be used only Once; must be 32 bytes
* @param string $key Encryption key
*
* @return string The original plaintext message
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
* @psalm-suppress MixedInferredReturnType
* @psalm-suppress MixedReturnStatement
*/
public static function crypto_aead_aegis256_decrypt(
$ciphertext = '',
$assocData = '',
$nonce = '',
#[\SensitiveParameter]
$key = ''
) {
ParagonIE_Sodium_Core_Util::declareScalarType($ciphertext, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($assocData, 'string', 2);
ParagonIE_Sodium_Core_Util::declareScalarType($nonce, 'string', 3);
ParagonIE_Sodium_Core_Util::declareScalarType($key, 'string', 4);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($nonce) !== self::CRYPTO_AEAD_AEGIS256_NPUBBYTES) {
throw new SodiumException('Nonce must be CRYPTO_AEAD_AEGIS256_NPUBBYTES long');
}
if (ParagonIE_Sodium_Core_Util::strlen($key) !== self::CRYPTO_AEAD_AEGIS256_KEYBYTES) {
throw new SodiumException('Key must be CRYPTO_AEAD_AEGIS256_KEYBYTES long');
}
$ct_length = ParagonIE_Sodium_Core_Util::strlen($ciphertext);
if ($ct_length < self::CRYPTO_AEAD_AEGIS256_ABYTES) {
throw new SodiumException('Message must be at least CRYPTO_AEAD_AEGIS256_ABYTES long');
}
$ct = ParagonIE_Sodium_Core_Util::substr(
$ciphertext,
0,
$ct_length - self::CRYPTO_AEAD_AEGIS256_ABYTES
);
$tag = ParagonIE_Sodium_Core_Util::substr(
$ciphertext,
$ct_length - self::CRYPTO_AEAD_AEGIS256_ABYTES,
self::CRYPTO_AEAD_AEGIS256_ABYTES
);
return ParagonIE_Sodium_Core_AEGIS256::decrypt($ct, $tag, $assocData, $key, $nonce);
}
/**
* Authenticated Encryption with Associated Data: Encryption
*
* Algorithm:
* AEGIS-256
*
* @param string $plaintext Message to be encrypted
* @param string $assocData Authenticated Associated Data (unencrypted)
* @param string $nonce Number to be used only Once; must be 32 bytes
* @param string $key Encryption key
*
* @return string Ciphertext with 32-byte authentication tag appended
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_aead_aegis256_encrypt(
#[\SensitiveParameter]
$plaintext = '',
$assocData = '',
$nonce = '',
#[\SensitiveParameter]
$key = ''
) {
ParagonIE_Sodium_Core_Util::declareScalarType($plaintext, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($assocData, 'string', 2);
ParagonIE_Sodium_Core_Util::declareScalarType($nonce, 'string', 3);
ParagonIE_Sodium_Core_Util::declareScalarType($key, 'string', 4);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($nonce) !== self::CRYPTO_AEAD_AEGIS256_NPUBBYTES) {
throw new SodiumException('Nonce must be CRYPTO_AEAD_AEGIS128L_KEYBYTES long');
}
if (ParagonIE_Sodium_Core_Util::strlen($key) !== self::CRYPTO_AEAD_AEGIS256_KEYBYTES) {
throw new SodiumException('Key must be CRYPTO_AEAD_AEGIS128L_KEYBYTES long');
}
list($ct, $tag) = ParagonIE_Sodium_Core_AEGIS256::encrypt($plaintext, $assocData, $key, $nonce);
return $ct . $tag;
}
/**
* Return a secure random key for use with the AEGIS-256
* symmetric AEAD interface.
*
* @return string
* @throws Exception
* @throws Error
*/
public static function crypto_aead_aegis256_keygen()
{
return random_bytes(self::CRYPTO_AEAD_AEGIS256_KEYBYTES);
}
/**
* Is AES-256-GCM even available to use?
*
* @return bool
* @psalm-suppress UndefinedFunction
* @psalm-suppress MixedInferredReturnType
* @psalm-suppress MixedReturnStatement
*/
public static function crypto_aead_aes256gcm_is_available()
{
if (self::useNewSodiumAPI()) {
return sodium_crypto_aead_aes256gcm_is_available();
}
if (self::use_fallback('crypto_aead_aes256gcm_is_available')) {
return call_user_func('\\Sodium\\crypto_aead_aes256gcm_is_available');
}
if (PHP_VERSION_ID < 70100) {
// OpenSSL doesn't support AEAD before 7.1.0
return false;
}
if (!is_callable('openssl_encrypt') || !is_callable('openssl_decrypt')) {
// OpenSSL isn't installed
return false;
}
return (bool) in_array('aes-256-gcm', openssl_get_cipher_methods());
}
/**
* Authenticated Encryption with Associated Data: Decryption
*
* Algorithm:
* AES-256-GCM
*
* This mode uses a 64-bit random nonce with a 64-bit counter.
* IETF mode uses a 96-bit random nonce with a 32-bit counter.
*
* @param string $ciphertext Encrypted message (with Poly1305 MAC appended)
* @param string $assocData Authenticated Associated Data (unencrypted)
* @param string $nonce Number to be used only Once; must be 8 bytes
* @param string $key Encryption key
*
* @return string|bool The original plaintext message
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
* @psalm-suppress MixedInferredReturnType
* @psalm-suppress MixedReturnStatement
*/
public static function crypto_aead_aes256gcm_decrypt(
$ciphertext = '',
$assocData = '',
$nonce = '',
#[\SensitiveParameter]
$key = ''
) {
if (!self::crypto_aead_aes256gcm_is_available()) {
throw new SodiumException('AES-256-GCM is not available');
}
ParagonIE_Sodium_Core_Util::declareScalarType($ciphertext, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($assocData, 'string', 2);
ParagonIE_Sodium_Core_Util::declareScalarType($nonce, 'string', 3);
ParagonIE_Sodium_Core_Util::declareScalarType($key, 'string', 4);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($nonce) !== self::CRYPTO_AEAD_AES256GCM_NPUBBYTES) {
throw new SodiumException('Nonce must be CRYPTO_AEAD_AES256GCM_NPUBBYTES long');
}
if (ParagonIE_Sodium_Core_Util::strlen($key) !== self::CRYPTO_AEAD_AES256GCM_KEYBYTES) {
throw new SodiumException('Key must be CRYPTO_AEAD_AES256GCM_KEYBYTES long');
}
if (ParagonIE_Sodium_Core_Util::strlen($ciphertext) < self::CRYPTO_AEAD_AES256GCM_ABYTES) {
throw new SodiumException('Message must be at least CRYPTO_AEAD_AES256GCM_ABYTES long');
}
if (!is_callable('openssl_decrypt')) {
throw new SodiumException('The OpenSSL extension is not installed, or openssl_decrypt() is not available');
}
/** @var string $ctext */
$ctext = ParagonIE_Sodium_Core_Util::substr($ciphertext, 0, -self::CRYPTO_AEAD_AES256GCM_ABYTES);
/** @var string $authTag */
$authTag = ParagonIE_Sodium_Core_Util::substr($ciphertext, -self::CRYPTO_AEAD_AES256GCM_ABYTES, 16);
return openssl_decrypt(
$ctext,
'aes-256-gcm',
$key,
OPENSSL_RAW_DATA,
$nonce,
$authTag,
$assocData
);
}
/**
* Authenticated Encryption with Associated Data: Encryption
*
* Algorithm:
* AES-256-GCM
*
* @param string $plaintext Message to be encrypted
* @param string $assocData Authenticated Associated Data (unencrypted)
* @param string $nonce Number to be used only Once; must be 8 bytes
* @param string $key Encryption key
*
* @return string Ciphertext with a 16-byte GCM message
* authentication code appended
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_aead_aes256gcm_encrypt(
#[\SensitiveParameter]
$plaintext = '',
$assocData = '',
$nonce = '',
#[\SensitiveParameter]
$key = ''
) {
if (!self::crypto_aead_aes256gcm_is_available()) {
throw new SodiumException('AES-256-GCM is not available');
}
ParagonIE_Sodium_Core_Util::declareScalarType($plaintext, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($assocData, 'string', 2);
ParagonIE_Sodium_Core_Util::declareScalarType($nonce, 'string', 3);
ParagonIE_Sodium_Core_Util::declareScalarType($key, 'string', 4);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($nonce) !== self::CRYPTO_AEAD_AES256GCM_NPUBBYTES) {
throw new SodiumException('Nonce must be CRYPTO_AEAD_AES256GCM_NPUBBYTES long');
}
if (ParagonIE_Sodium_Core_Util::strlen($key) !== self::CRYPTO_AEAD_AES256GCM_KEYBYTES) {
throw new SodiumException('Key must be CRYPTO_AEAD_AES256GCM_KEYBYTES long');
}
if (!is_callable('openssl_encrypt')) {
throw new SodiumException('The OpenSSL extension is not installed, or openssl_encrypt() is not available');
}
$authTag = '';
$ciphertext = openssl_encrypt(
$plaintext,
'aes-256-gcm',
$key,
OPENSSL_RAW_DATA,
$nonce,
$authTag,
$assocData
);
return $ciphertext . $authTag;
}
/**
* Return a secure random key for use with the AES-256-GCM
* symmetric AEAD interface.
*
* @return string
* @throws Exception
* @throws Error
*/
public static function crypto_aead_aes256gcm_keygen()
{
return random_bytes(self::CRYPTO_AEAD_AES256GCM_KEYBYTES);
}
/**
* Authenticated Encryption with Associated Data: Decryption
*
* Algorithm:
* ChaCha20-Poly1305
*
* This mode uses a 64-bit random nonce with a 64-bit counter.
* IETF mode uses a 96-bit random nonce with a 32-bit counter.
*
* @param string $ciphertext Encrypted message (with Poly1305 MAC appended)
* @param string $assocData Authenticated Associated Data (unencrypted)
* @param string $nonce Number to be used only Once; must be 8 bytes
* @param string $key Encryption key
*
* @return string The original plaintext message
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
* @psalm-suppress MixedInferredReturnType
* @psalm-suppress MixedReturnStatement
*/
public static function crypto_aead_chacha20poly1305_decrypt(
$ciphertext = '',
$assocData = '',
$nonce = '',
#[\SensitiveParameter]
$key = ''
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($ciphertext, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($assocData, 'string', 2);
ParagonIE_Sodium_Core_Util::declareScalarType($nonce, 'string', 3);
ParagonIE_Sodium_Core_Util::declareScalarType($key, 'string', 4);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($nonce) !== self::CRYPTO_AEAD_CHACHA20POLY1305_NPUBBYTES) {
throw new SodiumException('Nonce must be CRYPTO_AEAD_CHACHA20POLY1305_NPUBBYTES long');
}
if (ParagonIE_Sodium_Core_Util::strlen($key) !== self::CRYPTO_AEAD_CHACHA20POLY1305_KEYBYTES) {
throw new SodiumException('Key must be CRYPTO_AEAD_CHACHA20POLY1305_KEYBYTES long');
}
if (ParagonIE_Sodium_Core_Util::strlen($ciphertext) < self::CRYPTO_AEAD_CHACHA20POLY1305_ABYTES) {
throw new SodiumException('Message must be at least CRYPTO_AEAD_CHACHA20POLY1305_ABYTES long');
}
if (self::useNewSodiumAPI()) {
/**
* @psalm-suppress InvalidReturnStatement
* @psalm-suppress FalsableReturnStatement
*/
return sodium_crypto_aead_chacha20poly1305_decrypt(
$ciphertext,
$assocData,
$nonce,
$key
);
}
if (self::use_fallback('crypto_aead_chacha20poly1305_decrypt')) {
return call_user_func(
'\\Sodium\\crypto_aead_chacha20poly1305_decrypt',
$ciphertext,
$assocData,
$nonce,
$key
);
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Crypto32::aead_chacha20poly1305_decrypt(
$ciphertext,
$assocData,
$nonce,
$key
);
}
return ParagonIE_Sodium_Crypto::aead_chacha20poly1305_decrypt(
$ciphertext,
$assocData,
$nonce,
$key
);
}
/**
* Authenticated Encryption with Associated Data
*
* Algorithm:
* ChaCha20-Poly1305
*
* This mode uses a 64-bit random nonce with a 64-bit counter.
* IETF mode uses a 96-bit random nonce with a 32-bit counter.
*
* @param string $plaintext Message to be encrypted
* @param string $assocData Authenticated Associated Data (unencrypted)
* @param string $nonce Number to be used only Once; must be 8 bytes
* @param string $key Encryption key
*
* @return string Ciphertext with a 16-byte Poly1305 message
* authentication code appended
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_aead_chacha20poly1305_encrypt(
#[\SensitiveParameter]
$plaintext = '',
$assocData = '',
$nonce = '',
#[\SensitiveParameter]
$key = ''
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($plaintext, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($assocData, 'string', 2);
ParagonIE_Sodium_Core_Util::declareScalarType($nonce, 'string', 3);
ParagonIE_Sodium_Core_Util::declareScalarType($key, 'string', 4);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($nonce) !== self::CRYPTO_AEAD_CHACHA20POLY1305_NPUBBYTES) {
throw new SodiumException('Nonce must be CRYPTO_AEAD_CHACHA20POLY1305_NPUBBYTES long');
}
if (ParagonIE_Sodium_Core_Util::strlen($key) !== self::CRYPTO_AEAD_CHACHA20POLY1305_KEYBYTES) {
throw new SodiumException('Key must be CRYPTO_AEAD_CHACHA20POLY1305_KEYBYTES long');
}
if (self::useNewSodiumAPI()) {
return (string) sodium_crypto_aead_chacha20poly1305_encrypt(
$plaintext,
$assocData,
$nonce,
$key
);
}
if (self::use_fallback('crypto_aead_chacha20poly1305_encrypt')) {
return (string) call_user_func(
'\\Sodium\\crypto_aead_chacha20poly1305_encrypt',
$plaintext,
$assocData,
$nonce,
$key
);
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Crypto32::aead_chacha20poly1305_encrypt(
$plaintext,
$assocData,
$nonce,
$key
);
}
return ParagonIE_Sodium_Crypto::aead_chacha20poly1305_encrypt(
$plaintext,
$assocData,
$nonce,
$key
);
}
/**
* Authenticated Encryption with Associated Data: Decryption
*
* Algorithm:
* ChaCha20-Poly1305
*
* IETF mode uses a 96-bit random nonce with a 32-bit counter.
* Regular mode uses a 64-bit random nonce with a 64-bit counter.
*
* @param string $ciphertext Encrypted message (with Poly1305 MAC appended)
* @param string $assocData Authenticated Associated Data (unencrypted)
* @param string $nonce Number to be used only Once; must be 12 bytes
* @param string $key Encryption key
*
* @return string The original plaintext message
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
* @psalm-suppress MixedInferredReturnType
* @psalm-suppress MixedReturnStatement
*/
public static function crypto_aead_chacha20poly1305_ietf_decrypt(
$ciphertext = '',
$assocData = '',
$nonce = '',
#[\SensitiveParameter]
$key = ''
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($ciphertext, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($assocData, 'string', 2);
ParagonIE_Sodium_Core_Util::declareScalarType($nonce, 'string', 3);
ParagonIE_Sodium_Core_Util::declareScalarType($key, 'string', 4);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($nonce) !== self::CRYPTO_AEAD_CHACHA20POLY1305_IETF_NPUBBYTES) {
throw new SodiumException('Nonce must be CRYPTO_AEAD_CHACHA20POLY1305_IETF_NPUBBYTES long');
}
if (ParagonIE_Sodium_Core_Util::strlen($key) !== self::CRYPTO_AEAD_CHACHA20POLY1305_KEYBYTES) {
throw new SodiumException('Key must be CRYPTO_AEAD_CHACHA20POLY1305_KEYBYTES long');
}
if (ParagonIE_Sodium_Core_Util::strlen($ciphertext) < self::CRYPTO_AEAD_CHACHA20POLY1305_ABYTES) {
throw new SodiumException('Message must be at least CRYPTO_AEAD_CHACHA20POLY1305_ABYTES long');
}
if (self::useNewSodiumAPI()) {
/**
* @psalm-suppress InvalidReturnStatement
* @psalm-suppress FalsableReturnStatement
*/
return sodium_crypto_aead_chacha20poly1305_ietf_decrypt(
$ciphertext,
$assocData,
$nonce,
$key
);
}
if (self::use_fallback('crypto_aead_chacha20poly1305_ietf_decrypt')) {
return call_user_func(
'\\Sodium\\crypto_aead_chacha20poly1305_ietf_decrypt',
$ciphertext,
$assocData,
$nonce,
$key
);
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Crypto32::aead_chacha20poly1305_ietf_decrypt(
$ciphertext,
$assocData,
$nonce,
$key
);
}
return ParagonIE_Sodium_Crypto::aead_chacha20poly1305_ietf_decrypt(
$ciphertext,
$assocData,
$nonce,
$key
);
}
/**
* Return a secure random key for use with the ChaCha20-Poly1305
* symmetric AEAD interface.
*
* @return string
* @throws Exception
* @throws Error
*/
public static function crypto_aead_chacha20poly1305_keygen()
{
return random_bytes(self::CRYPTO_AEAD_CHACHA20POLY1305_KEYBYTES);
}
/**
* Authenticated Encryption with Associated Data
*
* Algorithm:
* ChaCha20-Poly1305
*
* IETF mode uses a 96-bit random nonce with a 32-bit counter.
* Regular mode uses a 64-bit random nonce with a 64-bit counter.
*
* @param string $plaintext Message to be encrypted
* @param string $assocData Authenticated Associated Data (unencrypted)
* @param string $nonce Number to be used only Once; must be 8 bytes
* @param string $key Encryption key
*
* @return string Ciphertext with a 16-byte Poly1305 message
* authentication code appended
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_aead_chacha20poly1305_ietf_encrypt(
#[\SensitiveParameter]
$plaintext = '',
$assocData = '',
$nonce = '',
#[\SensitiveParameter]
$key = ''
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($plaintext, 'string', 1);
if (!is_null($assocData)) {
ParagonIE_Sodium_Core_Util::declareScalarType($assocData, 'string', 2);
}
ParagonIE_Sodium_Core_Util::declareScalarType($nonce, 'string', 3);
ParagonIE_Sodium_Core_Util::declareScalarType($key, 'string', 4);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($nonce) !== self::CRYPTO_AEAD_CHACHA20POLY1305_IETF_NPUBBYTES) {
throw new SodiumException('Nonce must be CRYPTO_AEAD_CHACHA20POLY1305_IETF_NPUBBYTES long');
}
if (ParagonIE_Sodium_Core_Util::strlen($key) !== self::CRYPTO_AEAD_CHACHA20POLY1305_KEYBYTES) {
throw new SodiumException('Key must be CRYPTO_AEAD_CHACHA20POLY1305_KEYBYTES long');
}
if (self::useNewSodiumAPI()) {
return (string) sodium_crypto_aead_chacha20poly1305_ietf_encrypt(
$plaintext,
$assocData,
$nonce,
$key
);
}
if (self::use_fallback('crypto_aead_chacha20poly1305_ietf_encrypt')) {
return (string) call_user_func(
'\\Sodium\\crypto_aead_chacha20poly1305_ietf_encrypt',
$plaintext,
$assocData,
$nonce,
$key
);
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Crypto32::aead_chacha20poly1305_ietf_encrypt(
$plaintext,
$assocData,
$nonce,
$key
);
}
return ParagonIE_Sodium_Crypto::aead_chacha20poly1305_ietf_encrypt(
$plaintext,
$assocData,
$nonce,
$key
);
}
/**
* Return a secure random key for use with the ChaCha20-Poly1305
* symmetric AEAD interface. (IETF version)
*
* @return string
* @throws Exception
* @throws Error
*/
public static function crypto_aead_chacha20poly1305_ietf_keygen()
{
return random_bytes(self::CRYPTO_AEAD_CHACHA20POLY1305_IETF_KEYBYTES);
}
/**
* Authenticated Encryption with Associated Data: Decryption
*
* Algorithm:
* XChaCha20-Poly1305
*
* This mode uses a 64-bit random nonce with a 64-bit counter.
* IETF mode uses a 96-bit random nonce with a 32-bit counter.
*
* @param string $ciphertext Encrypted message (with Poly1305 MAC appended)
* @param string $assocData Authenticated Associated Data (unencrypted)
* @param string $nonce Number to be used only Once; must be 8 bytes
* @param string $key Encryption key
* @param bool $dontFallback Don't fallback to ext/sodium
*
* @return string|bool The original plaintext message
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_aead_xchacha20poly1305_ietf_decrypt(
$ciphertext = '',
$assocData = '',
$nonce = '',
#[\SensitiveParameter]
$key = '',
$dontFallback = false
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($ciphertext, 'string', 1);
if (!is_null($assocData)) {
ParagonIE_Sodium_Core_Util::declareScalarType($assocData, 'string', 2);
} else {
$assocData = '';
}
ParagonIE_Sodium_Core_Util::declareScalarType($nonce, 'string', 3);
ParagonIE_Sodium_Core_Util::declareScalarType($key, 'string', 4);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($nonce) !== self::CRYPTO_AEAD_XCHACHA20POLY1305_IETF_NPUBBYTES) {
throw new SodiumException('Nonce must be CRYPTO_AEAD_XCHACHA20POLY1305_IETF_NPUBBYTES long');
}
if (ParagonIE_Sodium_Core_Util::strlen($key) !== self::CRYPTO_AEAD_XCHACHA20POLY1305_IETF_KEYBYTES) {
throw new SodiumException('Key must be CRYPTO_AEAD_XCHACHA20POLY1305_IETF_KEYBYTES long');
}
if (ParagonIE_Sodium_Core_Util::strlen($ciphertext) < self::CRYPTO_AEAD_XCHACHA20POLY1305_IETF_ABYTES) {
throw new SodiumException('Message must be at least CRYPTO_AEAD_XCHACHA20POLY1305_IETF_ABYTES long');
}
if (self::useNewSodiumAPI() && !$dontFallback) {
if (is_callable('sodium_crypto_aead_xchacha20poly1305_ietf_decrypt')) {
return sodium_crypto_aead_xchacha20poly1305_ietf_decrypt(
$ciphertext,
$assocData,
$nonce,
$key
);
}
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Crypto32::aead_xchacha20poly1305_ietf_decrypt(
$ciphertext,
$assocData,
$nonce,
$key
);
}
return ParagonIE_Sodium_Crypto::aead_xchacha20poly1305_ietf_decrypt(
$ciphertext,
$assocData,
$nonce,
$key
);
}
/**
* Authenticated Encryption with Associated Data
*
* Algorithm:
* XChaCha20-Poly1305
*
* This mode uses a 64-bit random nonce with a 64-bit counter.
* IETF mode uses a 96-bit random nonce with a 32-bit counter.
*
* @param string $plaintext Message to be encrypted
* @param string $assocData Authenticated Associated Data (unencrypted)
* @param string $nonce Number to be used only Once; must be 8 bytes
* @param string $key Encryption key
* @param bool $dontFallback Don't fallback to ext/sodium
*
* @return string Ciphertext with a 16-byte Poly1305 message
* authentication code appended
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_aead_xchacha20poly1305_ietf_encrypt(
#[\SensitiveParameter]
$plaintext = '',
$assocData = '',
$nonce = '',
#[\SensitiveParameter]
$key = '',
$dontFallback = false
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($plaintext, 'string', 1);
if (!is_null($assocData)) {
ParagonIE_Sodium_Core_Util::declareScalarType($assocData, 'string', 2);
} else {
$assocData = '';
}
ParagonIE_Sodium_Core_Util::declareScalarType($nonce, 'string', 3);
ParagonIE_Sodium_Core_Util::declareScalarType($key, 'string', 4);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($nonce) !== self::CRYPTO_AEAD_XCHACHA20POLY1305_IETF_NPUBBYTES) {
throw new SodiumException('Nonce must be CRYPTO_AEAD_XCHACHA20POLY1305_NPUBBYTES long');
}
if (ParagonIE_Sodium_Core_Util::strlen($key) !== self::CRYPTO_AEAD_XCHACHA20POLY1305_IETF_KEYBYTES) {
throw new SodiumException('Key must be CRYPTO_AEAD_XCHACHA20POLY1305_KEYBYTES long');
}
if (self::useNewSodiumAPI() && !$dontFallback) {
if (is_callable('sodium_crypto_aead_xchacha20poly1305_ietf_encrypt')) {
return sodium_crypto_aead_xchacha20poly1305_ietf_encrypt(
$plaintext,
$assocData,
$nonce,
$key
);
}
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Crypto32::aead_xchacha20poly1305_ietf_encrypt(
$plaintext,
$assocData,
$nonce,
$key
);
}
return ParagonIE_Sodium_Crypto::aead_xchacha20poly1305_ietf_encrypt(
$plaintext,
$assocData,
$nonce,
$key
);
}
/**
* Return a secure random key for use with the XChaCha20-Poly1305
* symmetric AEAD interface.
*
* @return string
* @throws Exception
* @throws Error
*/
public static function crypto_aead_xchacha20poly1305_ietf_keygen()
{
return random_bytes(self::CRYPTO_AEAD_XCHACHA20POLY1305_IETF_KEYBYTES);
}
/**
* Authenticate a message. Uses symmetric-key cryptography.
*
* Algorithm:
* HMAC-SHA512-256. Which is HMAC-SHA-512 truncated to 256 bits.
* Not to be confused with HMAC-SHA-512/256 which would use the
* SHA-512/256 hash function (uses different initial parameters
* but still truncates to 256 bits to sidestep length-extension
* attacks).
*
* @param string $message Message to be authenticated
* @param string $key Symmetric authentication key
* @return string Message authentication code
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_auth(
$message,
#[\SensitiveParameter]
$key
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($message, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($key, 'string', 2);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($key) !== self::CRYPTO_AUTH_KEYBYTES) {
throw new SodiumException('Argument 2 must be CRYPTO_AUTH_KEYBYTES long.');
}
if (self::useNewSodiumAPI()) {
return (string) sodium_crypto_auth($message, $key);
}
if (self::use_fallback('crypto_auth')) {
return (string) call_user_func('\\Sodium\\crypto_auth', $message, $key);
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Crypto32::auth($message, $key);
}
return ParagonIE_Sodium_Crypto::auth($message, $key);
}
/**
* @return string
* @throws Exception
* @throws Error
*/
public static function crypto_auth_keygen()
{
return random_bytes(self::CRYPTO_AUTH_KEYBYTES);
}
/**
* Verify the MAC of a message previously authenticated with crypto_auth.
*
* @param string $mac Message authentication code
* @param string $message Message whose authenticity you are attempting to
* verify (with a given MAC and key)
* @param string $key Symmetric authentication key
* @return bool TRUE if authenticated, FALSE otherwise
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_auth_verify(
$mac,
$message,
#[\SensitiveParameter]
$key
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($mac, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($message, 'string', 2);
ParagonIE_Sodium_Core_Util::declareScalarType($key, 'string', 3);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($mac) !== self::CRYPTO_AUTH_BYTES) {
throw new SodiumException('Argument 1 must be CRYPTO_AUTH_BYTES long.');
}
if (ParagonIE_Sodium_Core_Util::strlen($key) !== self::CRYPTO_AUTH_KEYBYTES) {
throw new SodiumException('Argument 3 must be CRYPTO_AUTH_KEYBYTES long.');
}
if (self::useNewSodiumAPI()) {
return (bool) sodium_crypto_auth_verify($mac, $message, $key);
}
if (self::use_fallback('crypto_auth_verify')) {
return (bool) call_user_func('\\Sodium\\crypto_auth_verify', $mac, $message, $key);
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Crypto32::auth_verify($mac, $message, $key);
}
return ParagonIE_Sodium_Crypto::auth_verify($mac, $message, $key);
}
/**
* Authenticated asymmetric-key encryption. Both the sender and recipient
* may decrypt messages.
*
* Algorithm: X25519-XSalsa20-Poly1305.
* X25519: Elliptic-Curve Diffie Hellman over Curve25519.
* XSalsa20: Extended-nonce variant of salsa20.
* Poyl1305: Polynomial MAC for one-time message authentication.
*
* @param string $plaintext The message to be encrypted
* @param string $nonce A Number to only be used Once; must be 24 bytes
* @param string $keypair Your secret key and your recipient's public key
* @return string Ciphertext with 16-byte Poly1305 MAC
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_box(
$plaintext,
$nonce,
#[\SensitiveParameter]
$keypair
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($plaintext, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($nonce, 'string', 2);
ParagonIE_Sodium_Core_Util::declareScalarType($keypair, 'string', 3);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($nonce) !== self::CRYPTO_BOX_NONCEBYTES) {
throw new SodiumException('Argument 2 must be CRYPTO_BOX_NONCEBYTES long.');
}
if (ParagonIE_Sodium_Core_Util::strlen($keypair) !== self::CRYPTO_BOX_KEYPAIRBYTES) {
throw new SodiumException('Argument 3 must be CRYPTO_BOX_KEYPAIRBYTES long.');
}
if (self::useNewSodiumAPI()) {
return (string) sodium_crypto_box($plaintext, $nonce, $keypair);
}
if (self::use_fallback('crypto_box')) {
return (string) call_user_func('\\Sodium\\crypto_box', $plaintext, $nonce, $keypair);
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Crypto32::box($plaintext, $nonce, $keypair);
}
return ParagonIE_Sodium_Crypto::box($plaintext, $nonce, $keypair);
}
/**
* Anonymous public-key encryption. Only the recipient may decrypt messages.
*
* Algorithm: X25519-XSalsa20-Poly1305, as with crypto_box.
* The sender's X25519 keypair is ephemeral.
* Nonce is generated from the BLAKE2b hash of both public keys.
*
* This provides ciphertext integrity.
*
* @param string $plaintext Message to be sealed
* @param string $publicKey Your recipient's public key
* @return string Sealed message that only your recipient can
* decrypt
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_box_seal(
#[\SensitiveParameter]
$plaintext,
$publicKey
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($plaintext, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($publicKey, 'string', 2);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($publicKey) !== self::CRYPTO_BOX_PUBLICKEYBYTES) {
throw new SodiumException('Argument 2 must be CRYPTO_BOX_PUBLICKEYBYTES long.');
}
if (self::useNewSodiumAPI()) {
return (string) sodium_crypto_box_seal($plaintext, $publicKey);
}
if (self::use_fallback('crypto_box_seal')) {
return (string) call_user_func('\\Sodium\\crypto_box_seal', $plaintext, $publicKey);
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Crypto32::box_seal($plaintext, $publicKey);
}
return ParagonIE_Sodium_Crypto::box_seal($plaintext, $publicKey);
}
/**
* Opens a message encrypted with crypto_box_seal(). Requires
* the recipient's keypair (sk || pk) to decrypt successfully.
*
* This validates ciphertext integrity.
*
* @param string $ciphertext Sealed message to be opened
* @param string $keypair Your crypto_box keypair
* @return string The original plaintext message
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
* @psalm-suppress MixedInferredReturnType
* @psalm-suppress MixedReturnStatement
*/
public static function crypto_box_seal_open(
$ciphertext,
#[\SensitiveParameter]
$keypair
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($ciphertext, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($keypair, 'string', 2);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($keypair) !== self::CRYPTO_BOX_KEYPAIRBYTES) {
throw new SodiumException('Argument 2 must be CRYPTO_BOX_KEYPAIRBYTES long.');
}
if (self::useNewSodiumAPI()) {
/**
* @psalm-suppress InvalidReturnStatement
* @psalm-suppress FalsableReturnStatement
*/
return sodium_crypto_box_seal_open($ciphertext, $keypair);
}
if (self::use_fallback('crypto_box_seal_open')) {
return call_user_func('\\Sodium\\crypto_box_seal_open', $ciphertext, $keypair);
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Crypto32::box_seal_open($ciphertext, $keypair);
}
return ParagonIE_Sodium_Crypto::box_seal_open($ciphertext, $keypair);
}
/**
* Generate a new random X25519 keypair.
*
* @return string A 64-byte string; the first 32 are your secret key, while
* the last 32 are your public key. crypto_box_secretkey()
* and crypto_box_publickey() exist to separate them so you
* don't accidentally get them mixed up!
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_box_keypair()
{
if (self::useNewSodiumAPI()) {
return (string) sodium_crypto_box_keypair();
}
if (self::use_fallback('crypto_box_keypair')) {
return (string) call_user_func('\\Sodium\\crypto_box_keypair');
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Crypto32::box_keypair();
}
return ParagonIE_Sodium_Crypto::box_keypair();
}
/**
* Combine two keys into a keypair for use in library methods that expect
* a keypair. This doesn't necessarily have to be the same person's keys.
*
* @param string $secretKey Secret key
* @param string $publicKey Public key
* @return string Keypair
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_box_keypair_from_secretkey_and_publickey(
#[\SensitiveParameter]
$secretKey,
$publicKey
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($secretKey, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($publicKey, 'string', 2);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($secretKey) !== self::CRYPTO_BOX_SECRETKEYBYTES) {
throw new SodiumException('Argument 1 must be CRYPTO_BOX_SECRETKEYBYTES long.');
}
if (ParagonIE_Sodium_Core_Util::strlen($publicKey) !== self::CRYPTO_BOX_PUBLICKEYBYTES) {
throw new SodiumException('Argument 2 must be CRYPTO_BOX_PUBLICKEYBYTES long.');
}
if (self::useNewSodiumAPI()) {
return (string) sodium_crypto_box_keypair_from_secretkey_and_publickey($secretKey, $publicKey);
}
if (self::use_fallback('crypto_box_keypair_from_secretkey_and_publickey')) {
return (string) call_user_func('\\Sodium\\crypto_box_keypair_from_secretkey_and_publickey', $secretKey, $publicKey);
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Crypto32::box_keypair_from_secretkey_and_publickey($secretKey, $publicKey);
}
return ParagonIE_Sodium_Crypto::box_keypair_from_secretkey_and_publickey($secretKey, $publicKey);
}
/**
* Decrypt a message previously encrypted with crypto_box().
*
* @param string $ciphertext Encrypted message
* @param string $nonce Number to only be used Once; must be 24 bytes
* @param string $keypair Your secret key and the sender's public key
* @return string The original plaintext message
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
* @psalm-suppress MixedInferredReturnType
* @psalm-suppress MixedReturnStatement
*/
public static function crypto_box_open(
$ciphertext,
$nonce,
#[\SensitiveParameter]
$keypair
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($ciphertext, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($nonce, 'string', 2);
ParagonIE_Sodium_Core_Util::declareScalarType($keypair, 'string', 3);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($ciphertext) < self::CRYPTO_BOX_MACBYTES) {
throw new SodiumException('Argument 1 must be at least CRYPTO_BOX_MACBYTES long.');
}
if (ParagonIE_Sodium_Core_Util::strlen($nonce) !== self::CRYPTO_BOX_NONCEBYTES) {
throw new SodiumException('Argument 2 must be CRYPTO_BOX_NONCEBYTES long.');
}
if (ParagonIE_Sodium_Core_Util::strlen($keypair) !== self::CRYPTO_BOX_KEYPAIRBYTES) {
throw new SodiumException('Argument 3 must be CRYPTO_BOX_KEYPAIRBYTES long.');
}
if (self::useNewSodiumAPI()) {
/**
* @psalm-suppress InvalidReturnStatement
* @psalm-suppress FalsableReturnStatement
*/
return sodium_crypto_box_open($ciphertext, $nonce, $keypair);
}
if (self::use_fallback('crypto_box_open')) {
return call_user_func('\\Sodium\\crypto_box_open', $ciphertext, $nonce, $keypair);
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Crypto32::box_open($ciphertext, $nonce, $keypair);
}
return ParagonIE_Sodium_Crypto::box_open($ciphertext, $nonce, $keypair);
}
/**
* Extract the public key from a crypto_box keypair.
*
* @param string $keypair Keypair containing secret and public key
* @return string Your crypto_box public key
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_box_publickey(
#[\SensitiveParameter]
$keypair
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($keypair, 'string', 1);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($keypair) !== self::CRYPTO_BOX_KEYPAIRBYTES) {
throw new SodiumException('Argument 1 must be CRYPTO_BOX_KEYPAIRBYTES long.');
}
if (self::useNewSodiumAPI()) {
return (string) sodium_crypto_box_publickey($keypair);
}
if (self::use_fallback('crypto_box_publickey')) {
return (string) call_user_func('\\Sodium\\crypto_box_publickey', $keypair);
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Crypto32::box_publickey($keypair);
}
return ParagonIE_Sodium_Crypto::box_publickey($keypair);
}
/**
* Calculate the X25519 public key from a given X25519 secret key.
*
* @param string $secretKey Any X25519 secret key
* @return string The corresponding X25519 public key
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_box_publickey_from_secretkey(
#[\SensitiveParameter]
$secretKey
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($secretKey, 'string', 1);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($secretKey) !== self::CRYPTO_BOX_SECRETKEYBYTES) {
throw new SodiumException('Argument 1 must be CRYPTO_BOX_SECRETKEYBYTES long.');
}
if (self::useNewSodiumAPI()) {
return (string) sodium_crypto_box_publickey_from_secretkey($secretKey);
}
if (self::use_fallback('crypto_box_publickey_from_secretkey')) {
return (string) call_user_func('\\Sodium\\crypto_box_publickey_from_secretkey', $secretKey);
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Crypto32::box_publickey_from_secretkey($secretKey);
}
return ParagonIE_Sodium_Crypto::box_publickey_from_secretkey($secretKey);
}
/**
* Extract the secret key from a crypto_box keypair.
*
* @param string $keypair
* @return string Your crypto_box secret key
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_box_secretkey(
#[\SensitiveParameter]
$keypair
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($keypair, 'string', 1);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($keypair) !== self::CRYPTO_BOX_KEYPAIRBYTES) {
throw new SodiumException('Argument 1 must be CRYPTO_BOX_KEYPAIRBYTES long.');
}
if (self::useNewSodiumAPI()) {
return (string) sodium_crypto_box_secretkey($keypair);
}
if (self::use_fallback('crypto_box_secretkey')) {
return (string) call_user_func('\\Sodium\\crypto_box_secretkey', $keypair);
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Crypto32::box_secretkey($keypair);
}
return ParagonIE_Sodium_Crypto::box_secretkey($keypair);
}
/**
* Generate an X25519 keypair from a seed.
*
* @param string $seed
* @return string
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
* @psalm-suppress UndefinedFunction
*/
public static function crypto_box_seed_keypair(
#[\SensitiveParameter]
$seed
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($seed, 'string', 1);
if (self::useNewSodiumAPI()) {
return (string) sodium_crypto_box_seed_keypair($seed);
}
if (self::use_fallback('crypto_box_seed_keypair')) {
return (string) call_user_func('\\Sodium\\crypto_box_seed_keypair', $seed);
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Crypto32::box_seed_keypair($seed);
}
return ParagonIE_Sodium_Crypto::box_seed_keypair($seed);
}
/**
* Calculates a BLAKE2b hash, with an optional key.
*
* @param string $message The message to be hashed
* @param string|null $key If specified, must be a string between 16
* and 64 bytes long
* @param int $length Output length in bytes; must be between 16
* and 64 (default = 32)
* @return string Raw binary
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_generichash(
$message,
#[\SensitiveParameter]
$key = '',
$length = self::CRYPTO_GENERICHASH_BYTES
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($message, 'string', 1);
if (is_null($key)) {
$key = '';
}
ParagonIE_Sodium_Core_Util::declareScalarType($key, 'string', 2);
ParagonIE_Sodium_Core_Util::declareScalarType($length, 'int', 3);
/* Input validation: */
if (!empty($key)) {
if (ParagonIE_Sodium_Core_Util::strlen($key) < self::CRYPTO_GENERICHASH_KEYBYTES_MIN) {
throw new SodiumException('Unsupported key size. Must be at least CRYPTO_GENERICHASH_KEYBYTES_MIN bytes long.');
}
if (ParagonIE_Sodium_Core_Util::strlen($key) > self::CRYPTO_GENERICHASH_KEYBYTES_MAX) {
throw new SodiumException('Unsupported key size. Must be at most CRYPTO_GENERICHASH_KEYBYTES_MAX bytes long.');
}
}
if (self::useNewSodiumAPI()) {
return (string) sodium_crypto_generichash($message, $key, $length);
}
if (self::use_fallback('crypto_generichash')) {
return (string) call_user_func('\\Sodium\\crypto_generichash', $message, $key, $length);
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Crypto32::generichash($message, $key, $length);
}
return ParagonIE_Sodium_Crypto::generichash($message, $key, $length);
}
/**
* Get the final BLAKE2b hash output for a given context.
*
* @param string $ctx BLAKE2 hashing context. Generated by crypto_generichash_init().
* @param int $length Hash output size.
* @return string Final BLAKE2b hash.
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
* @psalm-suppress ReferenceConstraintViolation
* @psalm-suppress ConflictingReferenceConstraint
*/
public static function crypto_generichash_final(
#[\SensitiveParameter]
&$ctx,
$length = self::CRYPTO_GENERICHASH_BYTES
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($ctx, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($length, 'int', 2);
if (self::useNewSodiumAPI()) {
return sodium_crypto_generichash_final($ctx, $length);
}
if (self::use_fallback('crypto_generichash_final')) {
$func = '\\Sodium\\crypto_generichash_final';
return (string) $func($ctx, $length);
}
if ($length < 1) {
try {
self::memzero($ctx);
} catch (SodiumException $ex) {
unset($ctx);
}
return '';
}
if (PHP_INT_SIZE === 4) {
$result = ParagonIE_Sodium_Crypto32::generichash_final($ctx, $length);
} else {
$result = ParagonIE_Sodium_Crypto::generichash_final($ctx, $length);
}
try {
self::memzero($ctx);
} catch (SodiumException $ex) {
unset($ctx);
}
return $result;
}
/**
* Initialize a BLAKE2b hashing context, for use in a streaming interface.
*
* @param string|null $key If specified must be a string between 16 and 64 bytes
* @param int $length The size of the desired hash output
* @return string A BLAKE2 hashing context, encoded as a string
* (To be 100% compatible with ext/libsodium)
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_generichash_init(
#[\SensitiveParameter]
$key = '',
$length = self::CRYPTO_GENERICHASH_BYTES
) {
/* Type checks: */
if (is_null($key)) {
$key = '';
}
ParagonIE_Sodium_Core_Util::declareScalarType($key, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($length, 'int', 2);
/* Input validation: */
if (!empty($key)) {
if (ParagonIE_Sodium_Core_Util::strlen($key) < self::CRYPTO_GENERICHASH_KEYBYTES_MIN) {
throw new SodiumException('Unsupported key size. Must be at least CRYPTO_GENERICHASH_KEYBYTES_MIN bytes long.');
}
if (ParagonIE_Sodium_Core_Util::strlen($key) > self::CRYPTO_GENERICHASH_KEYBYTES_MAX) {
throw new SodiumException('Unsupported key size. Must be at most CRYPTO_GENERICHASH_KEYBYTES_MAX bytes long.');
}
}
if (self::useNewSodiumAPI()) {
return sodium_crypto_generichash_init($key, $length);
}
if (self::use_fallback('crypto_generichash_init')) {
return (string) call_user_func('\\Sodium\\crypto_generichash_init', $key, $length);
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Crypto32::generichash_init($key, $length);
}
return ParagonIE_Sodium_Crypto::generichash_init($key, $length);
}
/**
* Initialize a BLAKE2b hashing context, for use in a streaming interface.
*
* @param string|null $key If specified must be a string between 16 and 64 bytes
* @param int $length The size of the desired hash output
* @param string $salt Salt (up to 16 bytes)
* @param string $personal Personalization string (up to 16 bytes)
* @return string A BLAKE2 hashing context, encoded as a string
* (To be 100% compatible with ext/libsodium)
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_generichash_init_salt_personal(
#[\SensitiveParameter]
$key = '',
$length = self::CRYPTO_GENERICHASH_BYTES,
$salt = '',
$personal = ''
) {
/* Type checks: */
if (is_null($key)) {
$key = '';
}
ParagonIE_Sodium_Core_Util::declareScalarType($key, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($length, 'int', 2);
ParagonIE_Sodium_Core_Util::declareScalarType($salt, 'string', 3);
ParagonIE_Sodium_Core_Util::declareScalarType($personal, 'string', 4);
$salt = str_pad($salt, 16, "\0", STR_PAD_RIGHT);
$personal = str_pad($personal, 16, "\0", STR_PAD_RIGHT);
/* Input validation: */
if (!empty($key)) {
/*
if (ParagonIE_Sodium_Core_Util::strlen($key) < self::CRYPTO_GENERICHASH_KEYBYTES_MIN) {
throw new SodiumException('Unsupported key size. Must be at least CRYPTO_GENERICHASH_KEYBYTES_MIN bytes long.');
}
*/
if (ParagonIE_Sodium_Core_Util::strlen($key) > self::CRYPTO_GENERICHASH_KEYBYTES_MAX) {
throw new SodiumException('Unsupported key size. Must be at most CRYPTO_GENERICHASH_KEYBYTES_MAX bytes long.');
}
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Crypto32::generichash_init_salt_personal($key, $length, $salt, $personal);
}
return ParagonIE_Sodium_Crypto::generichash_init_salt_personal($key, $length, $salt, $personal);
}
/**
* Update a BLAKE2b hashing context with additional data.
*
* @param string $ctx BLAKE2 hashing context. Generated by crypto_generichash_init().
* $ctx is passed by reference and gets updated in-place.
* @param-out string $ctx
* @param string $message The message to append to the existing hash state.
* @return void
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
* @psalm-suppress ReferenceConstraintViolation
*/
public static function crypto_generichash_update(
#[\SensitiveParameter]
&$ctx,
$message
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($ctx, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($message, 'string', 2);
if (self::useNewSodiumAPI()) {
sodium_crypto_generichash_update($ctx, $message);
return;
}
if (self::use_fallback('crypto_generichash_update')) {
$func = '\\Sodium\\crypto_generichash_update';
$func($ctx, $message);
return;
}
if (PHP_INT_SIZE === 4) {
$ctx = ParagonIE_Sodium_Crypto32::generichash_update($ctx, $message);
} else {
$ctx = ParagonIE_Sodium_Crypto::generichash_update($ctx, $message);
}
}
/**
* @return string
* @throws Exception
* @throws Error
*/
public static function crypto_generichash_keygen()
{
return random_bytes(self::CRYPTO_GENERICHASH_KEYBYTES);
}
/**
* @param int $subkey_len
* @param int $subkey_id
* @param string $context
* @param string $key
* @return string
* @throws SodiumException
*/
public static function crypto_kdf_derive_from_key(
$subkey_len,
$subkey_id,
$context,
#[\SensitiveParameter]
$key
) {
ParagonIE_Sodium_Core_Util::declareScalarType($subkey_len, 'int', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($subkey_id, 'int', 2);
ParagonIE_Sodium_Core_Util::declareScalarType($context, 'string', 3);
ParagonIE_Sodium_Core_Util::declareScalarType($key, 'string', 4);
$subkey_id = (int) $subkey_id;
$subkey_len = (int) $subkey_len;
$context = (string) $context;
$key = (string) $key;
if ($subkey_len < self::CRYPTO_KDF_BYTES_MIN) {
throw new SodiumException('subkey cannot be smaller than SODIUM_CRYPTO_KDF_BYTES_MIN');
}
if ($subkey_len > self::CRYPTO_KDF_BYTES_MAX) {
throw new SodiumException('subkey cannot be larger than SODIUM_CRYPTO_KDF_BYTES_MAX');
}
if ($subkey_id < 0) {
throw new SodiumException('subkey_id cannot be negative');
}
if (ParagonIE_Sodium_Core_Util::strlen($context) !== self::CRYPTO_KDF_CONTEXTBYTES) {
throw new SodiumException('context should be SODIUM_CRYPTO_KDF_CONTEXTBYTES bytes');
}
if (ParagonIE_Sodium_Core_Util::strlen($key) !== self::CRYPTO_KDF_KEYBYTES) {
throw new SodiumException('key should be SODIUM_CRYPTO_KDF_KEYBYTES bytes');
}
$salt = ParagonIE_Sodium_Core_Util::store64_le($subkey_id);
$state = self::crypto_generichash_init_salt_personal(
$key,
$subkey_len,
$salt,
$context
);
return self::crypto_generichash_final($state, $subkey_len);
}
/**
* @return string
* @throws Exception
* @throws Error
*/
public static function crypto_kdf_keygen()
{
return random_bytes(self::CRYPTO_KDF_KEYBYTES);
}
/**
* Perform a key exchange, between a designated client and a server.
*
* Typically, you would designate one machine to be the client and the
* other to be the server. The first two keys are what you'd expect for
* scalarmult() below, but the latter two public keys don't swap places.
*
* | ALICE | BOB |
* | Client | Server |
* |--------------------------------|-------------------------------------|
* | shared = crypto_kx( | shared = crypto_kx( |
* | alice_sk, | bob_sk, | <- contextual
* | bob_pk, | alice_pk, | <- contextual
* | alice_pk, | alice_pk, | <----- static
* | bob_pk | bob_pk | <----- static
* | ) | ) |
*
* They are used along with the scalarmult product to generate a 256-bit
* BLAKE2b hash unique to the client and server keys.
*
* @param string $my_secret
* @param string $their_public
* @param string $client_public
* @param string $server_public
* @param bool $dontFallback
* @return string
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_kx(
#[\SensitiveParameter]
$my_secret,
$their_public,
$client_public,
$server_public,
$dontFallback = false
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($my_secret, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($their_public, 'string', 2);
ParagonIE_Sodium_Core_Util::declareScalarType($client_public, 'string', 3);
ParagonIE_Sodium_Core_Util::declareScalarType($server_public, 'string', 4);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($my_secret) !== self::CRYPTO_BOX_SECRETKEYBYTES) {
throw new SodiumException('Argument 1 must be CRYPTO_BOX_SECRETKEYBYTES long.');
}
if (ParagonIE_Sodium_Core_Util::strlen($their_public) !== self::CRYPTO_BOX_PUBLICKEYBYTES) {
throw new SodiumException('Argument 2 must be CRYPTO_BOX_PUBLICKEYBYTES long.');
}
if (ParagonIE_Sodium_Core_Util::strlen($client_public) !== self::CRYPTO_BOX_PUBLICKEYBYTES) {
throw new SodiumException('Argument 3 must be CRYPTO_BOX_PUBLICKEYBYTES long.');
}
if (ParagonIE_Sodium_Core_Util::strlen($server_public) !== self::CRYPTO_BOX_PUBLICKEYBYTES) {
throw new SodiumException('Argument 4 must be CRYPTO_BOX_PUBLICKEYBYTES long.');
}
if (self::useNewSodiumAPI() && !$dontFallback) {
if (is_callable('sodium_crypto_kx')) {
return (string) sodium_crypto_kx(
$my_secret,
$their_public,
$client_public,
$server_public
);
}
}
if (self::use_fallback('crypto_kx')) {
return (string) call_user_func(
'\\Sodium\\crypto_kx',
$my_secret,
$their_public,
$client_public,
$server_public
);
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Crypto32::keyExchange(
$my_secret,
$their_public,
$client_public,
$server_public
);
}
return ParagonIE_Sodium_Crypto::keyExchange(
$my_secret,
$their_public,
$client_public,
$server_public
);
}
/**
* @param string $seed
* @return string
* @throws SodiumException
*/
public static function crypto_kx_seed_keypair(
#[\SensitiveParameter]
$seed
) {
ParagonIE_Sodium_Core_Util::declareScalarType($seed, 'string', 1);
$seed = (string) $seed;
if (ParagonIE_Sodium_Core_Util::strlen($seed) !== self::CRYPTO_KX_SEEDBYTES) {
throw new SodiumException('seed must be SODIUM_CRYPTO_KX_SEEDBYTES bytes');
}
$sk = self::crypto_generichash($seed, '', self::CRYPTO_KX_SECRETKEYBYTES);
$pk = self::crypto_scalarmult_base($sk);
return $sk . $pk;
}
/**
* @return string
* @throws Exception
*/
public static function crypto_kx_keypair()
{
$sk = self::randombytes_buf(self::CRYPTO_KX_SECRETKEYBYTES);
$pk = self::crypto_scalarmult_base($sk);
return $sk . $pk;
}
/**
* @param string $keypair
* @param string $serverPublicKey
* @return array{0: string, 1: string}
* @throws SodiumException
*/
public static function crypto_kx_client_session_keys(
#[\SensitiveParameter]
$keypair,
$serverPublicKey
) {
ParagonIE_Sodium_Core_Util::declareScalarType($keypair, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($serverPublicKey, 'string', 2);
$keypair = (string) $keypair;
$serverPublicKey = (string) $serverPublicKey;
if (ParagonIE_Sodium_Core_Util::strlen($keypair) !== self::CRYPTO_KX_KEYPAIRBYTES) {
throw new SodiumException('keypair should be SODIUM_CRYPTO_KX_KEYPAIRBYTES bytes');
}
if (ParagonIE_Sodium_Core_Util::strlen($serverPublicKey) !== self::CRYPTO_KX_PUBLICKEYBYTES) {
throw new SodiumException('public keys must be SODIUM_CRYPTO_KX_PUBLICKEYBYTES bytes');
}
$sk = self::crypto_kx_secretkey($keypair);
$pk = self::crypto_kx_publickey($keypair);
$h = self::crypto_generichash_init(null, self::CRYPTO_KX_SESSIONKEYBYTES * 2);
self::crypto_generichash_update($h, self::crypto_scalarmult($sk, $serverPublicKey));
self::crypto_generichash_update($h, $pk);
self::crypto_generichash_update($h, $serverPublicKey);
$sessionKeys = self::crypto_generichash_final($h, self::CRYPTO_KX_SESSIONKEYBYTES * 2);
return array(
ParagonIE_Sodium_Core_Util::substr(
$sessionKeys,
0,
self::CRYPTO_KX_SESSIONKEYBYTES
),
ParagonIE_Sodium_Core_Util::substr(
$sessionKeys,
self::CRYPTO_KX_SESSIONKEYBYTES,
self::CRYPTO_KX_SESSIONKEYBYTES
)
);
}
/**
* @param string $keypair
* @param string $clientPublicKey
* @return array{0: string, 1: string}
* @throws SodiumException
*/
public static function crypto_kx_server_session_keys(
#[\SensitiveParameter]
$keypair,
$clientPublicKey
) {
ParagonIE_Sodium_Core_Util::declareScalarType($keypair, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($clientPublicKey, 'string', 2);
$keypair = (string) $keypair;
$clientPublicKey = (string) $clientPublicKey;
if (ParagonIE_Sodium_Core_Util::strlen($keypair) !== self::CRYPTO_KX_KEYPAIRBYTES) {
throw new SodiumException('keypair should be SODIUM_CRYPTO_KX_KEYPAIRBYTES bytes');
}
if (ParagonIE_Sodium_Core_Util::strlen($clientPublicKey) !== self::CRYPTO_KX_PUBLICKEYBYTES) {
throw new SodiumException('public keys must be SODIUM_CRYPTO_KX_PUBLICKEYBYTES bytes');
}
$sk = self::crypto_kx_secretkey($keypair);
$pk = self::crypto_kx_publickey($keypair);
$h = self::crypto_generichash_init(null, self::CRYPTO_KX_SESSIONKEYBYTES * 2);
self::crypto_generichash_update($h, self::crypto_scalarmult($sk, $clientPublicKey));
self::crypto_generichash_update($h, $clientPublicKey);
self::crypto_generichash_update($h, $pk);
$sessionKeys = self::crypto_generichash_final($h, self::CRYPTO_KX_SESSIONKEYBYTES * 2);
return array(
ParagonIE_Sodium_Core_Util::substr(
$sessionKeys,
self::CRYPTO_KX_SESSIONKEYBYTES,
self::CRYPTO_KX_SESSIONKEYBYTES
),
ParagonIE_Sodium_Core_Util::substr(
$sessionKeys,
0,
self::CRYPTO_KX_SESSIONKEYBYTES
)
);
}
/**
* @param string $kp
* @return string
* @throws SodiumException
*/
public static function crypto_kx_secretkey(
#[\SensitiveParameter]
$kp
) {
return ParagonIE_Sodium_Core_Util::substr(
$kp,
0,
self::CRYPTO_KX_SECRETKEYBYTES
);
}
/**
* @param string $kp
* @return string
* @throws SodiumException
*/
public static function crypto_kx_publickey($kp)
{
return ParagonIE_Sodium_Core_Util::substr(
$kp,
self::CRYPTO_KX_SECRETKEYBYTES,
self::CRYPTO_KX_PUBLICKEYBYTES
);
}
/**
* @param int $outlen
* @param string $passwd
* @param string $salt
* @param int $opslimit
* @param int $memlimit
* @param int|null $alg
* @return string
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_pwhash(
$outlen,
#[\SensitiveParameter]
$passwd,
$salt,
$opslimit,
$memlimit,
$alg = null
) {
ParagonIE_Sodium_Core_Util::declareScalarType($outlen, 'int', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($passwd, 'string', 2);
ParagonIE_Sodium_Core_Util::declareScalarType($salt, 'string', 3);
ParagonIE_Sodium_Core_Util::declareScalarType($opslimit, 'int', 4);
ParagonIE_Sodium_Core_Util::declareScalarType($memlimit, 'int', 5);
if (self::useNewSodiumAPI()) {
if (!is_null($alg)) {
ParagonIE_Sodium_Core_Util::declareScalarType($alg, 'int', 6);
return sodium_crypto_pwhash($outlen, $passwd, $salt, $opslimit, $memlimit, $alg);
}
return sodium_crypto_pwhash($outlen, $passwd, $salt, $opslimit, $memlimit);
}
if (self::use_fallback('crypto_pwhash')) {
return (string) call_user_func('\\Sodium\\crypto_pwhash', $outlen, $passwd, $salt, $opslimit, $memlimit);
}
// This is the best we can do.
throw new SodiumException(
'This is not implemented, as it is not possible to implement Argon2i with acceptable performance in pure-PHP'
);
}
/**
* !Exclusive to sodium_compat!
*
* This returns TRUE if the native crypto_pwhash API is available by libsodium.
* This returns FALSE if only sodium_compat is available.
*
* @return bool
*/
public static function crypto_pwhash_is_available()
{
if (self::useNewSodiumAPI()) {
return true;
}
if (self::use_fallback('crypto_pwhash')) {
return true;
}
return false;
}
/**
* @param string $passwd
* @param int $opslimit
* @param int $memlimit
* @return string
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_pwhash_str(
#[\SensitiveParameter]
$passwd,
$opslimit,
$memlimit
) {
ParagonIE_Sodium_Core_Util::declareScalarType($passwd, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($opslimit, 'int', 2);
ParagonIE_Sodium_Core_Util::declareScalarType($memlimit, 'int', 3);
if (self::useNewSodiumAPI()) {
return sodium_crypto_pwhash_str($passwd, $opslimit, $memlimit);
}
if (self::use_fallback('crypto_pwhash_str')) {
return (string) call_user_func('\\Sodium\\crypto_pwhash_str', $passwd, $opslimit, $memlimit);
}
// This is the best we can do.
throw new SodiumException(
'This is not implemented, as it is not possible to implement Argon2i with acceptable performance in pure-PHP'
);
}
/**
* Do we need to rehash this password?
*
* @param string $hash
* @param int $opslimit
* @param int $memlimit
* @return bool
* @throws SodiumException
*/
public static function crypto_pwhash_str_needs_rehash(
#[\SensitiveParameter]
$hash,
$opslimit,
$memlimit
) {
ParagonIE_Sodium_Core_Util::declareScalarType($hash, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($opslimit, 'int', 2);
ParagonIE_Sodium_Core_Util::declareScalarType($memlimit, 'int', 3);
// Just grab the first 4 pieces.
$pieces = explode('$', (string) $hash);
$prefix = implode('$', array_slice($pieces, 0, 4));
// Rebuild the expected header.
/** @var int $ops */
$ops = (int) $opslimit;
/** @var int $mem */
$mem = (int) $memlimit >> 10;
$encoded = self::CRYPTO_PWHASH_STRPREFIX . 'v=19$m=' . $mem . ',t=' . $ops . ',p=1';
// Do they match? If so, we don't need to rehash, so return false.
return !ParagonIE_Sodium_Core_Util::hashEquals($encoded, $prefix);
}
/**
* @param string $passwd
* @param string $hash
* @return bool
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_pwhash_str_verify(
#[\SensitiveParameter]
$passwd,
#[\SensitiveParameter]
$hash
) {
ParagonIE_Sodium_Core_Util::declareScalarType($passwd, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($hash, 'string', 2);
if (self::useNewSodiumAPI()) {
return (bool) sodium_crypto_pwhash_str_verify($passwd, $hash);
}
if (self::use_fallback('crypto_pwhash_str_verify')) {
return (bool) call_user_func('\\Sodium\\crypto_pwhash_str_verify', $passwd, $hash);
}
// This is the best we can do.
throw new SodiumException(
'This is not implemented, as it is not possible to implement Argon2i with acceptable performance in pure-PHP'
);
}
/**
* @param int $outlen
* @param string $passwd
* @param string $salt
* @param int $opslimit
* @param int $memlimit
* @return string
* @throws SodiumException
* @throws TypeError
*/
public static function crypto_pwhash_scryptsalsa208sha256(
$outlen,
#[\SensitiveParameter]
$passwd,
$salt,
$opslimit,
$memlimit
) {
ParagonIE_Sodium_Core_Util::declareScalarType($outlen, 'int', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($passwd, 'string', 2);
ParagonIE_Sodium_Core_Util::declareScalarType($salt, 'string', 3);
ParagonIE_Sodium_Core_Util::declareScalarType($opslimit, 'int', 4);
ParagonIE_Sodium_Core_Util::declareScalarType($memlimit, 'int', 5);
if (self::useNewSodiumAPI()) {
return (string) sodium_crypto_pwhash_scryptsalsa208sha256(
(int) $outlen,
(string) $passwd,
(string) $salt,
(int) $opslimit,
(int) $memlimit
);
}
if (self::use_fallback('crypto_pwhash_scryptsalsa208sha256')) {
return (string) call_user_func(
'\\Sodium\\crypto_pwhash_scryptsalsa208sha256',
(int) $outlen,
(string) $passwd,
(string) $salt,
(int) $opslimit,
(int) $memlimit
);
}
// This is the best we can do.
throw new SodiumException(
'This is not implemented, as it is not possible to implement Scrypt with acceptable performance in pure-PHP'
);
}
/**
* !Exclusive to sodium_compat!
*
* This returns TRUE if the native crypto_pwhash API is available by libsodium.
* This returns FALSE if only sodium_compat is available.
*
* @return bool
*/
public static function crypto_pwhash_scryptsalsa208sha256_is_available()
{
if (self::useNewSodiumAPI()) {
return true;
}
if (self::use_fallback('crypto_pwhash_scryptsalsa208sha256')) {
return true;
}
return false;
}
/**
* @param string $passwd
* @param int $opslimit
* @param int $memlimit
* @return string
* @throws SodiumException
* @throws TypeError
*/
public static function crypto_pwhash_scryptsalsa208sha256_str(
#[\SensitiveParameter]
$passwd,
$opslimit,
$memlimit
) {
ParagonIE_Sodium_Core_Util::declareScalarType($passwd, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($opslimit, 'int', 2);
ParagonIE_Sodium_Core_Util::declareScalarType($memlimit, 'int', 3);
if (self::useNewSodiumAPI()) {
return (string) sodium_crypto_pwhash_scryptsalsa208sha256_str(
(string) $passwd,
(int) $opslimit,
(int) $memlimit
);
}
if (self::use_fallback('crypto_pwhash_scryptsalsa208sha256_str')) {
return (string) call_user_func(
'\\Sodium\\crypto_pwhash_scryptsalsa208sha256_str',
(string) $passwd,
(int) $opslimit,
(int) $memlimit
);
}
// This is the best we can do.
throw new SodiumException(
'This is not implemented, as it is not possible to implement Scrypt with acceptable performance in pure-PHP'
);
}
/**
* @param string $passwd
* @param string $hash
* @return bool
* @throws SodiumException
* @throws TypeError
*/
public static function crypto_pwhash_scryptsalsa208sha256_str_verify(
#[\SensitiveParameter]
$passwd,
#[\SensitiveParameter]
$hash
) {
ParagonIE_Sodium_Core_Util::declareScalarType($passwd, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($hash, 'string', 2);
if (self::useNewSodiumAPI()) {
return (bool) sodium_crypto_pwhash_scryptsalsa208sha256_str_verify(
(string) $passwd,
(string) $hash
);
}
if (self::use_fallback('crypto_pwhash_scryptsalsa208sha256_str_verify')) {
return (bool) call_user_func(
'\\Sodium\\crypto_pwhash_scryptsalsa208sha256_str_verify',
(string) $passwd,
(string) $hash
);
}
// This is the best we can do.
throw new SodiumException(
'This is not implemented, as it is not possible to implement Scrypt with acceptable performance in pure-PHP'
);
}
/**
* Calculate the shared secret between your secret key and your
* recipient's public key.
*
* Algorithm: X25519 (ECDH over Curve25519)
*
* @param string $secretKey
* @param string $publicKey
* @return string
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_scalarmult(
#[\SensitiveParameter]
$secretKey,
$publicKey
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($secretKey, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($publicKey, 'string', 2);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($secretKey) !== self::CRYPTO_BOX_SECRETKEYBYTES) {
throw new SodiumException('Argument 1 must be CRYPTO_BOX_SECRETKEYBYTES long.');
}
if (ParagonIE_Sodium_Core_Util::strlen($publicKey) !== self::CRYPTO_BOX_PUBLICKEYBYTES) {
throw new SodiumException('Argument 2 must be CRYPTO_BOX_PUBLICKEYBYTES long.');
}
if (self::useNewSodiumAPI()) {
return sodium_crypto_scalarmult($secretKey, $publicKey);
}
if (self::use_fallback('crypto_scalarmult')) {
return (string) call_user_func('\\Sodium\\crypto_scalarmult', $secretKey, $publicKey);
}
/* Output validation: Forbid all-zero keys */
if (ParagonIE_Sodium_Core_Util::hashEquals($secretKey, str_repeat("\0", self::CRYPTO_BOX_SECRETKEYBYTES))) {
throw new SodiumException('Zero secret key is not allowed');
}
if (ParagonIE_Sodium_Core_Util::hashEquals($publicKey, str_repeat("\0", self::CRYPTO_BOX_PUBLICKEYBYTES))) {
throw new SodiumException('Zero public key is not allowed');
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Crypto32::scalarmult($secretKey, $publicKey);
}
return ParagonIE_Sodium_Crypto::scalarmult($secretKey, $publicKey);
}
/**
* Calculate an X25519 public key from an X25519 secret key.
*
* @param string $secretKey
* @return string
* @throws SodiumException
* @throws TypeError
* @psalm-suppress TooFewArguments
* @psalm-suppress MixedArgument
*/
public static function crypto_scalarmult_base(
#[\SensitiveParameter]
$secretKey
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($secretKey, 'string', 1);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($secretKey) !== self::CRYPTO_BOX_SECRETKEYBYTES) {
throw new SodiumException('Argument 1 must be CRYPTO_BOX_SECRETKEYBYTES long.');
}
if (self::useNewSodiumAPI()) {
return sodium_crypto_scalarmult_base($secretKey);
}
if (self::use_fallback('crypto_scalarmult_base')) {
return (string) call_user_func('\\Sodium\\crypto_scalarmult_base', $secretKey);
}
if (ParagonIE_Sodium_Core_Util::hashEquals($secretKey, str_repeat("\0", self::CRYPTO_BOX_SECRETKEYBYTES))) {
throw new SodiumException('Zero secret key is not allowed');
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Crypto32::scalarmult_base($secretKey);
}
return ParagonIE_Sodium_Crypto::scalarmult_base($secretKey);
}
/**
* Authenticated symmetric-key encryption.
*
* Algorithm: XSalsa20-Poly1305
*
* @param string $plaintext The message you're encrypting
* @param string $nonce A Number to be used Once; must be 24 bytes
* @param string $key Symmetric encryption key
* @return string Ciphertext with Poly1305 MAC
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_secretbox(
#[\SensitiveParameter]
$plaintext,
$nonce,
#[\SensitiveParameter]
$key
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($plaintext, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($nonce, 'string', 2);
ParagonIE_Sodium_Core_Util::declareScalarType($key, 'string', 3);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($nonce) !== self::CRYPTO_SECRETBOX_NONCEBYTES) {
throw new SodiumException('Argument 2 must be CRYPTO_SECRETBOX_NONCEBYTES long.');
}
if (ParagonIE_Sodium_Core_Util::strlen($key) !== self::CRYPTO_SECRETBOX_KEYBYTES) {
throw new SodiumException('Argument 3 must be CRYPTO_SECRETBOX_KEYBYTES long.');
}
if (self::useNewSodiumAPI()) {
return sodium_crypto_secretbox($plaintext, $nonce, $key);
}
if (self::use_fallback('crypto_secretbox')) {
return (string) call_user_func('\\Sodium\\crypto_secretbox', $plaintext, $nonce, $key);
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Crypto32::secretbox($plaintext, $nonce, $key);
}
return ParagonIE_Sodium_Crypto::secretbox($plaintext, $nonce, $key);
}
/**
* Decrypts a message previously encrypted with crypto_secretbox().
*
* @param string $ciphertext Ciphertext with Poly1305 MAC
* @param string $nonce A Number to be used Once; must be 24 bytes
* @param string $key Symmetric encryption key
* @return string Original plaintext message
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
* @psalm-suppress MixedInferredReturnType
* @psalm-suppress MixedReturnStatement
*/
public static function crypto_secretbox_open(
$ciphertext,
$nonce,
#[\SensitiveParameter]
$key
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($ciphertext, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($nonce, 'string', 2);
ParagonIE_Sodium_Core_Util::declareScalarType($key, 'string', 3);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($nonce) !== self::CRYPTO_SECRETBOX_NONCEBYTES) {
throw new SodiumException('Argument 2 must be CRYPTO_SECRETBOX_NONCEBYTES long.');
}
if (ParagonIE_Sodium_Core_Util::strlen($key) !== self::CRYPTO_SECRETBOX_KEYBYTES) {
throw new SodiumException('Argument 3 must be CRYPTO_SECRETBOX_KEYBYTES long.');
}
if (self::useNewSodiumAPI()) {
/**
* @psalm-suppress InvalidReturnStatement
* @psalm-suppress FalsableReturnStatement
*/
return sodium_crypto_secretbox_open($ciphertext, $nonce, $key);
}
if (self::use_fallback('crypto_secretbox_open')) {
return call_user_func('\\Sodium\\crypto_secretbox_open', $ciphertext, $nonce, $key);
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Crypto32::secretbox_open($ciphertext, $nonce, $key);
}
return ParagonIE_Sodium_Crypto::secretbox_open($ciphertext, $nonce, $key);
}
/**
* Return a secure random key for use with crypto_secretbox
*
* @return string
* @throws Exception
* @throws Error
*/
public static function crypto_secretbox_keygen()
{
return random_bytes(self::CRYPTO_SECRETBOX_KEYBYTES);
}
/**
* Authenticated symmetric-key encryption.
*
* Algorithm: XChaCha20-Poly1305
*
* @param string $plaintext The message you're encrypting
* @param string $nonce A Number to be used Once; must be 24 bytes
* @param string $key Symmetric encryption key
* @return string Ciphertext with Poly1305 MAC
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_secretbox_xchacha20poly1305($plaintext, $nonce, $key)
{
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($plaintext, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($nonce, 'string', 2);
ParagonIE_Sodium_Core_Util::declareScalarType($key, 'string', 3);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($nonce) !== self::CRYPTO_SECRETBOX_NONCEBYTES) {
throw new SodiumException('Argument 2 must be CRYPTO_SECRETBOX_NONCEBYTES long.');
}
if (ParagonIE_Sodium_Core_Util::strlen($key) !== self::CRYPTO_SECRETBOX_KEYBYTES) {
throw new SodiumException('Argument 3 must be CRYPTO_SECRETBOX_KEYBYTES long.');
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Crypto32::secretbox_xchacha20poly1305($plaintext, $nonce, $key);
}
return ParagonIE_Sodium_Crypto::secretbox_xchacha20poly1305($plaintext, $nonce, $key);
}
/**
* Decrypts a message previously encrypted with crypto_secretbox_xchacha20poly1305().
*
* @param string $ciphertext Ciphertext with Poly1305 MAC
* @param string $nonce A Number to be used Once; must be 24 bytes
* @param string $key Symmetric encryption key
* @return string Original plaintext message
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_secretbox_xchacha20poly1305_open(
$ciphertext,
$nonce,
#[\SensitiveParameter]
$key
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($ciphertext, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($nonce, 'string', 2);
ParagonIE_Sodium_Core_Util::declareScalarType($key, 'string', 3);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($nonce) !== self::CRYPTO_SECRETBOX_NONCEBYTES) {
throw new SodiumException('Argument 2 must be CRYPTO_SECRETBOX_NONCEBYTES long.');
}
if (ParagonIE_Sodium_Core_Util::strlen($key) !== self::CRYPTO_SECRETBOX_KEYBYTES) {
throw new SodiumException('Argument 3 must be CRYPTO_SECRETBOX_KEYBYTES long.');
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Crypto32::secretbox_xchacha20poly1305_open($ciphertext, $nonce, $key);
}
return ParagonIE_Sodium_Crypto::secretbox_xchacha20poly1305_open($ciphertext, $nonce, $key);
}
/**
* @param string $key
* @return array<int, string> Returns a state and a header.
* @throws Exception
* @throws SodiumException
*/
public static function crypto_secretstream_xchacha20poly1305_init_push(
#[\SensitiveParameter]
$key
) {
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Crypto32::secretstream_xchacha20poly1305_init_push($key);
}
return ParagonIE_Sodium_Crypto::secretstream_xchacha20poly1305_init_push($key);
}
/**
* @param string $header
* @param string $key
* @return string Returns a state.
* @throws Exception
*/
public static function crypto_secretstream_xchacha20poly1305_init_pull(
$header,
#[\SensitiveParameter]
$key
) {
if (ParagonIE_Sodium_Core_Util::strlen($header) < self::CRYPTO_SECRETSTREAM_XCHACHA20POLY1305_HEADERBYTES) {
throw new SodiumException(
'header size should be SODIUM_CRYPTO_SECRETSTREAM_XCHACHA20POLY1305_HEADERBYTES bytes'
);
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Crypto32::secretstream_xchacha20poly1305_init_pull($key, $header);
}
return ParagonIE_Sodium_Crypto::secretstream_xchacha20poly1305_init_pull($key, $header);
}
/**
* @param string $state
* @param string $msg
* @param string $aad
* @param int $tag
* @return string
* @throws SodiumException
*/
public static function crypto_secretstream_xchacha20poly1305_push(
#[\SensitiveParameter]
&$state,
#[\SensitiveParameter]
$msg,
$aad = '',
$tag = 0
) {
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Crypto32::secretstream_xchacha20poly1305_push(
$state,
$msg,
$aad,
$tag
);
}
return ParagonIE_Sodium_Crypto::secretstream_xchacha20poly1305_push(
$state,
$msg,
$aad,
$tag
);
}
/**
* @param string $state
* @param string $msg
* @param string $aad
* @return bool|array{0: string, 1: int}
* @throws SodiumException
*/
public static function crypto_secretstream_xchacha20poly1305_pull(
#[\SensitiveParameter]
&$state,
$msg,
$aad = ''
) {
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Crypto32::secretstream_xchacha20poly1305_pull(
$state,
$msg,
$aad
);
}
return ParagonIE_Sodium_Crypto::secretstream_xchacha20poly1305_pull(
$state,
$msg,
$aad
);
}
/**
* @return string
* @throws Exception
*/
public static function crypto_secretstream_xchacha20poly1305_keygen()
{
return random_bytes(self::CRYPTO_SECRETSTREAM_XCHACHA20POLY1305_KEYBYTES);
}
/**
* @param string $state
* @return void
* @throws SodiumException
*/
public static function crypto_secretstream_xchacha20poly1305_rekey(
#[\SensitiveParameter]
&$state
) {
if (PHP_INT_SIZE === 4) {
ParagonIE_Sodium_Crypto32::secretstream_xchacha20poly1305_rekey($state);
} else {
ParagonIE_Sodium_Crypto::secretstream_xchacha20poly1305_rekey($state);
}
}
/**
* Calculates a SipHash-2-4 hash of a message for a given key.
*
* @param string $message Input message
* @param string $key SipHash-2-4 key
* @return string Hash
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
* @psalm-suppress MixedInferredReturnType
* @psalm-suppress MixedReturnStatement
*/
public static function crypto_shorthash(
$message,
#[\SensitiveParameter]
$key
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($message, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($key, 'string', 2);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($key) !== self::CRYPTO_SHORTHASH_KEYBYTES) {
throw new SodiumException('Argument 2 must be CRYPTO_SHORTHASH_KEYBYTES long.');
}
if (self::useNewSodiumAPI()) {
return sodium_crypto_shorthash($message, $key);
}
if (self::use_fallback('crypto_shorthash')) {
return (string) call_user_func('\\Sodium\\crypto_shorthash', $message, $key);
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Core32_SipHash::sipHash24($message, $key);
}
return ParagonIE_Sodium_Core_SipHash::sipHash24($message, $key);
}
/**
* Return a secure random key for use with crypto_shorthash
*
* @return string
* @throws Exception
* @throws Error
*/
public static function crypto_shorthash_keygen()
{
return random_bytes(self::CRYPTO_SHORTHASH_KEYBYTES);
}
/**
* Returns a signed message. You probably want crypto_sign_detached()
* instead, which only returns the signature.
*
* Algorithm: Ed25519 (EdDSA over Curve25519)
*
* @param string $message Message to be signed.
* @param string $secretKey Secret signing key.
* @return string Signed message (signature is prefixed).
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
* @psalm-suppress MixedInferredReturnType
* @psalm-suppress MixedReturnStatement
*/
public static function crypto_sign(
$message,
#[\SensitiveParameter]
$secretKey
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($message, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($secretKey, 'string', 2);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($secretKey) !== self::CRYPTO_SIGN_SECRETKEYBYTES) {
throw new SodiumException('Argument 2 must be CRYPTO_SIGN_SECRETKEYBYTES long.');
}
if (self::useNewSodiumAPI()) {
return sodium_crypto_sign($message, $secretKey);
}
if (self::use_fallback('crypto_sign')) {
return (string) call_user_func('\\Sodium\\crypto_sign', $message, $secretKey);
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Crypto32::sign($message, $secretKey);
}
return ParagonIE_Sodium_Crypto::sign($message, $secretKey);
}
/**
* Validates a signed message then returns the message.
*
* @param string $signedMessage A signed message
* @param string $publicKey A public key
* @return string The original message (if the signature is
* valid for this public key)
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
* @psalm-suppress MixedInferredReturnType
* @psalm-suppress MixedReturnStatement
*/
public static function crypto_sign_open(
$signedMessage,
$publicKey
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($signedMessage, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($publicKey, 'string', 2);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($signedMessage) < self::CRYPTO_SIGN_BYTES) {
throw new SodiumException('Argument 1 must be at least CRYPTO_SIGN_BYTES long.');
}
if (ParagonIE_Sodium_Core_Util::strlen($publicKey) !== self::CRYPTO_SIGN_PUBLICKEYBYTES) {
throw new SodiumException('Argument 2 must be CRYPTO_SIGN_PUBLICKEYBYTES long.');
}
if (self::useNewSodiumAPI()) {
/**
* @psalm-suppress InvalidReturnStatement
* @psalm-suppress FalsableReturnStatement
*/
return sodium_crypto_sign_open($signedMessage, $publicKey);
}
if (self::use_fallback('crypto_sign_open')) {
return call_user_func('\\Sodium\\crypto_sign_open', $signedMessage, $publicKey);
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Crypto32::sign_open($signedMessage, $publicKey);
}
return ParagonIE_Sodium_Crypto::sign_open($signedMessage, $publicKey);
}
/**
* Generate a new random Ed25519 keypair.
*
* @return string
* @throws SodiumException
* @throws TypeError
*/
public static function crypto_sign_keypair()
{
if (self::useNewSodiumAPI()) {
return sodium_crypto_sign_keypair();
}
if (self::use_fallback('crypto_sign_keypair')) {
return (string) call_user_func('\\Sodium\\crypto_sign_keypair');
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Core32_Ed25519::keypair();
}
return ParagonIE_Sodium_Core_Ed25519::keypair();
}
/**
* @param string $sk
* @param string $pk
* @return string
* @throws SodiumException
*/
public static function crypto_sign_keypair_from_secretkey_and_publickey(
#[\SensitiveParameter]
$sk,
$pk
) {
ParagonIE_Sodium_Core_Util::declareScalarType($sk, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($pk, 'string', 1);
$sk = (string) $sk;
$pk = (string) $pk;
if (ParagonIE_Sodium_Core_Util::strlen($sk) !== self::CRYPTO_SIGN_SECRETKEYBYTES) {
throw new SodiumException('secretkey should be SODIUM_CRYPTO_SIGN_SECRETKEYBYTES bytes');
}
if (ParagonIE_Sodium_Core_Util::strlen($pk) !== self::CRYPTO_SIGN_PUBLICKEYBYTES) {
throw new SodiumException('publickey should be SODIUM_CRYPTO_SIGN_PUBLICKEYBYTES bytes');
}
if (self::useNewSodiumAPI()) {
return sodium_crypto_sign_keypair_from_secretkey_and_publickey($sk, $pk);
}
return $sk . $pk;
}
/**
* Generate an Ed25519 keypair from a seed.
*
* @param string $seed Input seed
* @return string Keypair
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_sign_seed_keypair(
#[\SensitiveParameter]
$seed
) {
ParagonIE_Sodium_Core_Util::declareScalarType($seed, 'string', 1);
if (self::useNewSodiumAPI()) {
return sodium_crypto_sign_seed_keypair($seed);
}
if (self::use_fallback('crypto_sign_keypair')) {
return (string) call_user_func('\\Sodium\\crypto_sign_seed_keypair', $seed);
}
$publicKey = '';
$secretKey = '';
if (PHP_INT_SIZE === 4) {
ParagonIE_Sodium_Core32_Ed25519::seed_keypair($publicKey, $secretKey, $seed);
} else {
ParagonIE_Sodium_Core_Ed25519::seed_keypair($publicKey, $secretKey, $seed);
}
return $secretKey . $publicKey;
}
/**
* Extract an Ed25519 public key from an Ed25519 keypair.
*
* @param string $keypair Keypair
* @return string Public key
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_sign_publickey(
#[\SensitiveParameter]
$keypair
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($keypair, 'string', 1);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($keypair) !== self::CRYPTO_SIGN_KEYPAIRBYTES) {
throw new SodiumException('Argument 1 must be CRYPTO_SIGN_KEYPAIRBYTES long.');
}
if (self::useNewSodiumAPI()) {
return sodium_crypto_sign_publickey($keypair);
}
if (self::use_fallback('crypto_sign_publickey')) {
return (string) call_user_func('\\Sodium\\crypto_sign_publickey', $keypair);
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Core32_Ed25519::publickey($keypair);
}
return ParagonIE_Sodium_Core_Ed25519::publickey($keypair);
}
/**
* Calculate an Ed25519 public key from an Ed25519 secret key.
*
* @param string $secretKey Your Ed25519 secret key
* @return string The corresponding Ed25519 public key
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_sign_publickey_from_secretkey(
#[\SensitiveParameter]
$secretKey
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($secretKey, 'string', 1);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($secretKey) !== self::CRYPTO_SIGN_SECRETKEYBYTES) {
throw new SodiumException('Argument 1 must be CRYPTO_SIGN_SECRETKEYBYTES long.');
}
if (self::useNewSodiumAPI()) {
return sodium_crypto_sign_publickey_from_secretkey($secretKey);
}
if (self::use_fallback('crypto_sign_publickey_from_secretkey')) {
return (string) call_user_func('\\Sodium\\crypto_sign_publickey_from_secretkey', $secretKey);
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Core32_Ed25519::publickey_from_secretkey($secretKey);
}
return ParagonIE_Sodium_Core_Ed25519::publickey_from_secretkey($secretKey);
}
/**
* Extract an Ed25519 secret key from an Ed25519 keypair.
*
* @param string $keypair Keypair
* @return string Secret key
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_sign_secretkey(
#[\SensitiveParameter]
$keypair
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($keypair, 'string', 1);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($keypair) !== self::CRYPTO_SIGN_KEYPAIRBYTES) {
throw new SodiumException('Argument 1 must be CRYPTO_SIGN_KEYPAIRBYTES long.');
}
if (self::useNewSodiumAPI()) {
return sodium_crypto_sign_secretkey($keypair);
}
if (self::use_fallback('crypto_sign_secretkey')) {
return (string) call_user_func('\\Sodium\\crypto_sign_secretkey', $keypair);
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Core32_Ed25519::secretkey($keypair);
}
return ParagonIE_Sodium_Core_Ed25519::secretkey($keypair);
}
/**
* Calculate the Ed25519 signature of a message and return ONLY the signature.
*
* Algorithm: Ed25519 (EdDSA over Curve25519)
*
* @param string $message Message to be signed
* @param string $secretKey Secret signing key
* @return string Digital signature
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_sign_detached(
$message,
#[\SensitiveParameter]
$secretKey
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($message, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($secretKey, 'string', 2);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($secretKey) !== self::CRYPTO_SIGN_SECRETKEYBYTES) {
throw new SodiumException('Argument 2 must be CRYPTO_SIGN_SECRETKEYBYTES long.');
}
if (self::useNewSodiumAPI()) {
return sodium_crypto_sign_detached($message, $secretKey);
}
if (self::use_fallback('crypto_sign_detached')) {
return (string) call_user_func('\\Sodium\\crypto_sign_detached', $message, $secretKey);
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Crypto32::sign_detached($message, $secretKey);
}
return ParagonIE_Sodium_Crypto::sign_detached($message, $secretKey);
}
/**
* Verify the Ed25519 signature of a message.
*
* @param string $signature Digital sginature
* @param string $message Message to be verified
* @param string $publicKey Public key
* @return bool TRUE if this signature is good for this public key;
* FALSE otherwise
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_sign_verify_detached($signature, $message, $publicKey)
{
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($signature, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($message, 'string', 2);
ParagonIE_Sodium_Core_Util::declareScalarType($publicKey, 'string', 3);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($signature) !== self::CRYPTO_SIGN_BYTES) {
throw new SodiumException('Argument 1 must be CRYPTO_SIGN_BYTES long.');
}
if (ParagonIE_Sodium_Core_Util::strlen($publicKey) !== self::CRYPTO_SIGN_PUBLICKEYBYTES) {
throw new SodiumException('Argument 3 must be CRYPTO_SIGN_PUBLICKEYBYTES long.');
}
if (self::useNewSodiumAPI()) {
return sodium_crypto_sign_verify_detached($signature, $message, $publicKey);
}
if (self::use_fallback('crypto_sign_verify_detached')) {
return (bool) call_user_func(
'\\Sodium\\crypto_sign_verify_detached',
$signature,
$message,
$publicKey
);
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Crypto32::sign_verify_detached($signature, $message, $publicKey);
}
return ParagonIE_Sodium_Crypto::sign_verify_detached($signature, $message, $publicKey);
}
/**
* Convert an Ed25519 public key to a Curve25519 public key
*
* @param string $pk
* @return string
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_sign_ed25519_pk_to_curve25519($pk)
{
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($pk, 'string', 1);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($pk) < self::CRYPTO_SIGN_PUBLICKEYBYTES) {
throw new SodiumException('Argument 1 must be at least CRYPTO_SIGN_PUBLICKEYBYTES long.');
}
if (self::useNewSodiumAPI()) {
if (is_callable('crypto_sign_ed25519_pk_to_curve25519')) {
return (string) sodium_crypto_sign_ed25519_pk_to_curve25519($pk);
}
}
if (self::use_fallback('crypto_sign_ed25519_pk_to_curve25519')) {
return (string) call_user_func('\\Sodium\\crypto_sign_ed25519_pk_to_curve25519', $pk);
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Core32_Ed25519::pk_to_curve25519($pk);
}
return ParagonIE_Sodium_Core_Ed25519::pk_to_curve25519($pk);
}
/**
* Convert an Ed25519 secret key to a Curve25519 secret key
*
* @param string $sk
* @return string
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_sign_ed25519_sk_to_curve25519(
#[\SensitiveParameter]
$sk
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($sk, 'string', 1);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($sk) < self::CRYPTO_SIGN_SEEDBYTES) {
throw new SodiumException('Argument 1 must be at least CRYPTO_SIGN_SEEDBYTES long.');
}
if (self::useNewSodiumAPI()) {
if (is_callable('crypto_sign_ed25519_sk_to_curve25519')) {
return sodium_crypto_sign_ed25519_sk_to_curve25519($sk);
}
}
if (self::use_fallback('crypto_sign_ed25519_sk_to_curve25519')) {
return (string) call_user_func('\\Sodium\\crypto_sign_ed25519_sk_to_curve25519', $sk);
}
$h = hash('sha512', ParagonIE_Sodium_Core_Util::substr($sk, 0, 32), true);
$h[0] = ParagonIE_Sodium_Core_Util::intToChr(
ParagonIE_Sodium_Core_Util::chrToInt($h[0]) & 248
);
$h[31] = ParagonIE_Sodium_Core_Util::intToChr(
(ParagonIE_Sodium_Core_Util::chrToInt($h[31]) & 127) | 64
);
return ParagonIE_Sodium_Core_Util::substr($h, 0, 32);
}
/**
* Expand a key and nonce into a keystream of pseudorandom bytes.
*
* @param int $len Number of bytes desired
* @param string $nonce Number to be used Once; must be 24 bytes
* @param string $key XSalsa20 key
* @return string Pseudorandom stream that can be XORed with messages
* to provide encryption (but not authentication; see
* Poly1305 or crypto_auth() for that, which is not
* optional for security)
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_stream(
$len,
$nonce,
#[\SensitiveParameter]
$key
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($len, 'int', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($nonce, 'string', 2);
ParagonIE_Sodium_Core_Util::declareScalarType($key, 'string', 3);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($nonce) !== self::CRYPTO_STREAM_NONCEBYTES) {
throw new SodiumException('Argument 2 must be CRYPTO_SECRETBOX_NONCEBYTES long.');
}
if (ParagonIE_Sodium_Core_Util::strlen($key) !== self::CRYPTO_STREAM_KEYBYTES) {
throw new SodiumException('Argument 3 must be CRYPTO_STREAM_KEYBYTES long.');
}
if (self::useNewSodiumAPI()) {
return sodium_crypto_stream($len, $nonce, $key);
}
if (self::use_fallback('crypto_stream')) {
return (string) call_user_func('\\Sodium\\crypto_stream', $len, $nonce, $key);
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Core32_XSalsa20::xsalsa20($len, $nonce, $key);
}
return ParagonIE_Sodium_Core_XSalsa20::xsalsa20($len, $nonce, $key);
}
/**
* DANGER! UNAUTHENTICATED ENCRYPTION!
*
* Unless you are following expert advice, do not use this feature.
*
* Algorithm: XSalsa20
*
* This DOES NOT provide ciphertext integrity.
*
* @param string $message Plaintext message
* @param string $nonce Number to be used Once; must be 24 bytes
* @param string $key Encryption key
* @return string Encrypted text which is vulnerable to chosen-
* ciphertext attacks unless you implement some
* other mitigation to the ciphertext (i.e.
* Encrypt then MAC)
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_stream_xor(
#[\SensitiveParameter]
$message,
$nonce,
#[\SensitiveParameter]
$key
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($message, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($nonce, 'string', 2);
ParagonIE_Sodium_Core_Util::declareScalarType($key, 'string', 3);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($nonce) !== self::CRYPTO_STREAM_NONCEBYTES) {
throw new SodiumException('Argument 2 must be CRYPTO_SECRETBOX_NONCEBYTES long.');
}
if (ParagonIE_Sodium_Core_Util::strlen($key) !== self::CRYPTO_STREAM_KEYBYTES) {
throw new SodiumException('Argument 3 must be CRYPTO_SECRETBOX_KEYBYTES long.');
}
if (self::useNewSodiumAPI()) {
return sodium_crypto_stream_xor($message, $nonce, $key);
}
if (self::use_fallback('crypto_stream_xor')) {
return (string) call_user_func('\\Sodium\\crypto_stream_xor', $message, $nonce, $key);
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Core32_XSalsa20::xsalsa20_xor($message, $nonce, $key);
}
return ParagonIE_Sodium_Core_XSalsa20::xsalsa20_xor($message, $nonce, $key);
}
/**
* Return a secure random key for use with crypto_stream
*
* @return string
* @throws Exception
* @throws Error
*/
public static function crypto_stream_keygen()
{
return random_bytes(self::CRYPTO_STREAM_KEYBYTES);
}
/**
* Expand a key and nonce into a keystream of pseudorandom bytes.
*
* @param int $len Number of bytes desired
* @param string $nonce Number to be used Once; must be 24 bytes
* @param string $key XChaCha20 key
* @param bool $dontFallback
* @return string Pseudorandom stream that can be XORed with messages
* to provide encryption (but not authentication; see
* Poly1305 or crypto_auth() for that, which is not
* optional for security)
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_stream_xchacha20(
$len,
$nonce,
#[\SensitiveParameter]
$key,
$dontFallback = false
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($len, 'int', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($nonce, 'string', 2);
ParagonIE_Sodium_Core_Util::declareScalarType($key, 'string', 3);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($nonce) !== self::CRYPTO_STREAM_XCHACHA20_NONCEBYTES) {
throw new SodiumException('Argument 2 must be CRYPTO_SECRETBOX_XCHACHA20_NONCEBYTES long.');
}
if (ParagonIE_Sodium_Core_Util::strlen($key) !== self::CRYPTO_STREAM_XCHACHA20_KEYBYTES) {
throw new SodiumException('Argument 3 must be CRYPTO_STREAM_XCHACHA20_KEYBYTES long.');
}
if (self::useNewSodiumAPI() && !$dontFallback) {
return sodium_crypto_stream_xchacha20($len, $nonce, $key);
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Core32_XChaCha20::stream($len, $nonce, $key);
}
return ParagonIE_Sodium_Core_XChaCha20::stream($len, $nonce, $key);
}
/**
* DANGER! UNAUTHENTICATED ENCRYPTION!
*
* Unless you are following expert advice, do not use this feature.
*
* Algorithm: XChaCha20
*
* This DOES NOT provide ciphertext integrity.
*
* @param string $message Plaintext message
* @param string $nonce Number to be used Once; must be 24 bytes
* @param string $key Encryption key
* @return string Encrypted text which is vulnerable to chosen-
* ciphertext attacks unless you implement some
* other mitigation to the ciphertext (i.e.
* Encrypt then MAC)
* @param bool $dontFallback
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_stream_xchacha20_xor(
#[\SensitiveParameter]
$message,
$nonce,
#[\SensitiveParameter]
$key,
$dontFallback = false
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($message, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($nonce, 'string', 2);
ParagonIE_Sodium_Core_Util::declareScalarType($key, 'string', 3);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($nonce) !== self::CRYPTO_STREAM_XCHACHA20_NONCEBYTES) {
throw new SodiumException('Argument 2 must be CRYPTO_SECRETBOX_XCHACHA20_NONCEBYTES long.');
}
if (ParagonIE_Sodium_Core_Util::strlen($key) !== self::CRYPTO_STREAM_XCHACHA20_KEYBYTES) {
throw new SodiumException('Argument 3 must be CRYPTO_SECRETBOX_XCHACHA20_KEYBYTES long.');
}
if (self::useNewSodiumAPI() && !$dontFallback) {
return sodium_crypto_stream_xchacha20_xor($message, $nonce, $key);
}
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Core32_XChaCha20::streamXorIc($message, $nonce, $key);
}
return ParagonIE_Sodium_Core_XChaCha20::streamXorIc($message, $nonce, $key);
}
/**
* DANGER! UNAUTHENTICATED ENCRYPTION!
*
* Unless you are following expert advice, do not use this feature.
*
* Algorithm: XChaCha20
*
* This DOES NOT provide ciphertext integrity.
*
* @param string $message Plaintext message
* @param string $nonce Number to be used Once; must be 24 bytes
* @param int $counter
* @param string $key Encryption key
* @return string Encrypted text which is vulnerable to chosen-
* ciphertext attacks unless you implement some
* other mitigation to the ciphertext (i.e.
* Encrypt then MAC)
* @param bool $dontFallback
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function crypto_stream_xchacha20_xor_ic(
#[\SensitiveParameter]
$message,
$nonce,
$counter,
#[\SensitiveParameter]
$key,
$dontFallback = false
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($message, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($nonce, 'string', 2);
ParagonIE_Sodium_Core_Util::declareScalarType($counter, 'int', 3);
ParagonIE_Sodium_Core_Util::declareScalarType($key, 'string', 4);
/* Input validation: */
if (ParagonIE_Sodium_Core_Util::strlen($nonce) !== self::CRYPTO_STREAM_XCHACHA20_NONCEBYTES) {
throw new SodiumException('Argument 2 must be CRYPTO_SECRETBOX_XCHACHA20_NONCEBYTES long.');
}
if (ParagonIE_Sodium_Core_Util::strlen($key) !== self::CRYPTO_STREAM_XCHACHA20_KEYBYTES) {
throw new SodiumException('Argument 3 must be CRYPTO_SECRETBOX_XCHACHA20_KEYBYTES long.');
}
if (is_callable('sodium_crypto_stream_xchacha20_xor_ic') && !$dontFallback) {
return sodium_crypto_stream_xchacha20_xor_ic($message, $nonce, $counter, $key);
}
$ic = ParagonIE_Sodium_Core_Util::store64_le($counter);
if (PHP_INT_SIZE === 4) {
return ParagonIE_Sodium_Core32_XChaCha20::streamXorIc($message, $nonce, $key, $ic);
}
return ParagonIE_Sodium_Core_XChaCha20::streamXorIc($message, $nonce, $key, $ic);
}
/**
* Return a secure random key for use with crypto_stream_xchacha20
*
* @return string
* @throws Exception
* @throws Error
*/
public static function crypto_stream_xchacha20_keygen()
{
return random_bytes(self::CRYPTO_STREAM_XCHACHA20_KEYBYTES);
}
/**
* Cache-timing-safe implementation of hex2bin().
*
* @param string $string Hexadecimal string
* @param string $ignore List of characters to ignore; useful for whitespace
* @return string Raw binary string
* @throws SodiumException
* @throws TypeError
* @psalm-suppress TooFewArguments
* @psalm-suppress MixedArgument
*/
public static function hex2bin(
#[\SensitiveParameter]
$string,
$ignore = ''
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($string, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($ignore, 'string', 2);
if (self::useNewSodiumAPI()) {
if (is_callable('sodium_hex2bin')) {
return (string) sodium_hex2bin($string, $ignore);
}
}
if (self::use_fallback('hex2bin')) {
return (string) call_user_func('\\Sodium\\hex2bin', $string, $ignore);
}
return ParagonIE_Sodium_Core_Util::hex2bin($string, $ignore);
}
/**
* Increase a string (little endian)
*
* @param string $var
*
* @return void
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function increment(
#[\SensitiveParameter]
&$var
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($var, 'string', 1);
if (self::useNewSodiumAPI()) {
sodium_increment($var);
return;
}
if (self::use_fallback('increment')) {
$func = '\\Sodium\\increment';
$func($var);
return;
}
$len = ParagonIE_Sodium_Core_Util::strlen($var);
$c = 1;
$copy = '';
for ($i = 0; $i < $len; ++$i) {
$c += ParagonIE_Sodium_Core_Util::chrToInt(
ParagonIE_Sodium_Core_Util::substr($var, $i, 1)
);
$copy .= ParagonIE_Sodium_Core_Util::intToChr($c);
$c >>= 8;
}
$var = $copy;
}
/**
* @param string $str
* @return bool
*
* @throws SodiumException
*/
public static function is_zero(
#[\SensitiveParameter]
$str
) {
$d = 0;
for ($i = 0; $i < 32; ++$i) {
$d |= ParagonIE_Sodium_Core_Util::chrToInt($str[$i]);
}
return ((($d - 1) >> 31) & 1) === 1;
}
/**
* The equivalent to the libsodium minor version we aim to be compatible
* with (sans pwhash and memzero).
*
* @return int
*/
public static function library_version_major()
{
if (self::useNewSodiumAPI() && defined('SODIUM_LIBRARY_MAJOR_VERSION')) {
return SODIUM_LIBRARY_MAJOR_VERSION;
}
if (self::use_fallback('library_version_major')) {
/** @psalm-suppress UndefinedFunction */
return (int) call_user_func('\\Sodium\\library_version_major');
}
return self::LIBRARY_VERSION_MAJOR;
}
/**
* The equivalent to the libsodium minor version we aim to be compatible
* with (sans pwhash and memzero).
*
* @return int
*/
public static function library_version_minor()
{
if (self::useNewSodiumAPI() && defined('SODIUM_LIBRARY_MINOR_VERSION')) {
return SODIUM_LIBRARY_MINOR_VERSION;
}
if (self::use_fallback('library_version_minor')) {
/** @psalm-suppress UndefinedFunction */
return (int) call_user_func('\\Sodium\\library_version_minor');
}
return self::LIBRARY_VERSION_MINOR;
}
/**
* Compare two strings.
*
* @param string $left
* @param string $right
* @return int
* @throws SodiumException
* @throws TypeError
* @psalm-suppress MixedArgument
*/
public static function memcmp(
#[\SensitiveParameter]
$left,
#[\SensitiveParameter]
$right
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($left, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($right, 'string', 2);
if (self::useNewSodiumAPI()) {
return sodium_memcmp($left, $right);
}
if (self::use_fallback('memcmp')) {
return (int) call_user_func('\\Sodium\\memcmp', $left, $right);
}
/** @var string $left */
/** @var string $right */
return ParagonIE_Sodium_Core_Util::memcmp($left, $right);
}
/**
* It's actually not possible to zero memory buffers in PHP. You need the
* native library for that.
*
* @param string|null $var
* @param-out string|null $var
*
* @return void
* @throws SodiumException (Unless libsodium is installed)
* @throws TypeError
* @psalm-suppress TooFewArguments
*/
public static function memzero(
#[\SensitiveParameter]
&$var
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($var, 'string', 1);
if (self::useNewSodiumAPI()) {
/** @psalm-suppress MixedArgument */
sodium_memzero($var);
return;
}
if (self::use_fallback('memzero')) {
$func = '\\Sodium\\memzero';
$func($var);
if ($var === null) {
return;
}
}
// This is the best we can do.
throw new SodiumException(
'This is not implemented in sodium_compat, as it is not possible to securely wipe memory from PHP. ' .
'To fix this error, make sure libsodium is installed and the PHP extension is enabled.'
);
}
/**
* @param string $unpadded
* @param int $blockSize
* @param bool $dontFallback
* @return string
* @throws SodiumException
*/
public static function pad(
#[\SensitiveParameter]
$unpadded,
$blockSize,
$dontFallback = false
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($unpadded, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($blockSize, 'int', 2);
$unpadded = (string) $unpadded;
$blockSize = (int) $blockSize;
if (self::useNewSodiumAPI() && !$dontFallback) {
return (string) sodium_pad($unpadded, $blockSize);
}
if ($blockSize <= 0) {
throw new SodiumException(
'block size cannot be less than 1'
);
}
$unpadded_len = ParagonIE_Sodium_Core_Util::strlen($unpadded);
$xpadlen = ($blockSize - 1);
if (($blockSize & ($blockSize - 1)) === 0) {
$xpadlen -= $unpadded_len & ($blockSize - 1);
} else {
$xpadlen -= $unpadded_len % $blockSize;
}
$xpadded_len = $unpadded_len + $xpadlen;
$padded = str_repeat("\0", $xpadded_len - 1);
if ($unpadded_len > 0) {
$st = 1;
$i = 0;
$k = $unpadded_len;
for ($j = 0; $j <= $xpadded_len; ++$j) {
$i = (int) $i;
$k = (int) $k;
$st = (int) $st;
if ($j >= $unpadded_len) {
$padded[$j] = "\0";
} else {
$padded[$j] = $unpadded[$j];
}
/** @var int $k */
$k -= $st;
$st = (int) (~(
(
(
($k >> 48)
|
($k >> 32)
|
($k >> 16)
|
$k
) - 1
) >> 16
)
) & 1;
$i += $st;
}
}
$mask = 0;
$tail = $xpadded_len;
for ($i = 0; $i < $blockSize; ++$i) {
# barrier_mask = (unsigned char)
# (((i ^ xpadlen) - 1U) >> ((sizeof(size_t) - 1U) * CHAR_BIT));
$barrier_mask = (($i ^ $xpadlen) -1) >> ((PHP_INT_SIZE << 3) - 1);
# tail[-i] = (tail[-i] & mask) | (0x80 & barrier_mask);
$padded[$tail - $i] = ParagonIE_Sodium_Core_Util::intToChr(
(ParagonIE_Sodium_Core_Util::chrToInt($padded[$tail - $i]) & $mask)
|
(0x80 & $barrier_mask)
);
# mask |= barrier_mask;
$mask |= $barrier_mask;
}
return $padded;
}
/**
* @param string $padded
* @param int $blockSize
* @param bool $dontFallback
* @return string
* @throws SodiumException
*/
public static function unpad(
#[\SensitiveParameter]
$padded,
$blockSize,
$dontFallback = false
) {
/* Type checks: */
ParagonIE_Sodium_Core_Util::declareScalarType($padded, 'string', 1);
ParagonIE_Sodium_Core_Util::declareScalarType($blockSize, 'int', 2);
$padded = (string) $padded;
$blockSize = (int) $blockSize;
if (self::useNewSodiumAPI() && !$dontFallback) {
return (string) sodium_unpad($padded, $blockSize);
}
if ($blockSize <= 0) {
throw new SodiumException('block size cannot be less than 1');
}
$padded_len = ParagonIE_Sodium_Core_Util::strlen($padded);
if ($padded_len < $blockSize) {
throw new SodiumException('invalid padding');
}
# tail = &padded[padded_len - 1U];
$tail = $padded_len - 1;
$acc = 0;
$valid = 0;
$pad_len = 0;
$found = 0;
for ($i = 0; $i < $blockSize; ++$i) {
# c = tail[-i];
$c = ParagonIE_Sodium_Core_Util::chrToInt($padded[$tail - $i]);
# is_barrier =
# (( (acc - 1U) & (pad_len - 1U) & ((c ^ 0x80) - 1U) ) >> 8) & 1U;
$is_barrier = (
(
($acc - 1) & ($pad_len - 1) & (($c ^ 80) - 1)
) >> 7
) & 1;
$is_barrier &= ~$found;
$found |= $is_barrier;
# acc |= c;
$acc |= $c;
# pad_len |= i & (1U + ~is_barrier);
$pad_len |= $i & (1 + ~$is_barrier);
# valid |= (unsigned char) is_barrier;
$valid |= ($is_barrier & 0xff);
}
# unpadded_len = padded_len - 1U - pad_len;
$unpadded_len = $padded_len - 1 - $pad_len;
if ($valid !== 1) {
throw new SodiumException('invalid padding');
}
return ParagonIE_Sodium_Core_Util::substr($padded, 0, $unpadded_len);
}
/**
* Will sodium_compat run fast on the current hardware and PHP configuration?
*
* @return bool
*/
public static function polyfill_is_fast()
{
if (extension_loaded('sodium')) {
return true;
}
if (extension_loaded('libsodium')) {
return true;
}
return PHP_INT_SIZE === 8;
}
/**
* Generate a string of bytes from the kernel's CSPRNG.
* Proudly uses /dev/urandom (if getrandom(2) is not available).
*
* @param int $numBytes
* @return string
* @throws Exception
* @throws TypeError
*/
public static function randombytes_buf($numBytes)
{
/* Type checks: */
if (!is_int($numBytes)) {
if (is_numeric($numBytes)) {
$numBytes = (int) $numBytes;
} else {
throw new TypeError(
'Argument 1 must be an integer, ' . gettype($numBytes) . ' given.'
);
}
}
/** @var positive-int $numBytes */
if (self::use_fallback('randombytes_buf')) {
return (string) call_user_func('\\Sodium\\randombytes_buf', $numBytes);
}
if ($numBytes < 0) {
throw new SodiumException("Number of bytes must be a positive integer");
}
return random_bytes($numBytes);
}
/**
* Generate an integer between 0 and $range (non-inclusive).
*
* @param int $range
* @return int
* @throws Exception
* @throws Error
* @throws TypeError
*/
public static function randombytes_uniform($range)
{
/* Type checks: */
if (!is_int($range)) {
if (is_numeric($range)) {
$range = (int) $range;
} else {
throw new TypeError(
'Argument 1 must be an integer, ' . gettype($range) . ' given.'
);
}
}
if (self::use_fallback('randombytes_uniform')) {
return (int) call_user_func('\\Sodium\\randombytes_uniform', $range);
}
return random_int(0, $range - 1);
}
/**
* Generate a random 16-bit integer.
*
* @return int
* @throws Exception
* @throws Error
* @throws TypeError
*/
public static function randombytes_random16()
{
if (self::use_fallback('randombytes_random16')) {
return (int) call_user_func('\\Sodium\\randombytes_random16');
}
return random_int(0, 65535);
}
/**
* @param string $p
* @param bool $dontFallback
* @return bool
* @throws SodiumException
*/
public static function ristretto255_is_valid_point(
#[\SensitiveParameter]
$p,
$dontFallback = false
) {
if (self::useNewSodiumAPI() && !$dontFallback) {
return sodium_crypto_core_ristretto255_is_valid_point($p);
}
try {
$r = ParagonIE_Sodium_Core_Ristretto255::ristretto255_frombytes($p);
return $r['res'] === 0 &&
ParagonIE_Sodium_Core_Ristretto255::ristretto255_point_is_canonical($p) === 1;
} catch (SodiumException $ex) {
if ($ex->getMessage() === 'S is not canonical') {
return false;
}
throw $ex;
}
}
/**
* @param string $p
* @param string $q
* @param bool $dontFallback
* @return string
* @throws SodiumException
*/
public static function ristretto255_add(
#[\SensitiveParameter]
$p,
#[\SensitiveParameter]
$q,
$dontFallback = false
) {
if (self::useNewSodiumAPI() && !$dontFallback) {
return sodium_crypto_core_ristretto255_add($p, $q);
}
return ParagonIE_Sodium_Core_Ristretto255::ristretto255_add($p, $q);
}
/**
* @param string $p
* @param string $q
* @param bool $dontFallback
* @return string
* @throws SodiumException
*/
public static function ristretto255_sub(
#[\SensitiveParameter]
$p,
#[\SensitiveParameter]
$q,
$dontFallback = false
) {
if (self::useNewSodiumAPI() && !$dontFallback) {
return sodium_crypto_core_ristretto255_sub($p, $q);
}
return ParagonIE_Sodium_Core_Ristretto255::ristretto255_sub($p, $q);
}
/**
* @param string $r
* @param bool $dontFallback
* @return string
*
* @throws SodiumException
*/
public static function ristretto255_from_hash(
#[\SensitiveParameter]
$r,
$dontFallback = false
) {
if (self::useNewSodiumAPI() && !$dontFallback) {
return sodium_crypto_core_ristretto255_from_hash($r);
}
return ParagonIE_Sodium_Core_Ristretto255::ristretto255_from_hash($r);
}
/**
* @param bool $dontFallback
* @return string
*
* @throws SodiumException
*/
public static function ristretto255_random($dontFallback = false)
{
if (self::useNewSodiumAPI() && !$dontFallback) {
return sodium_crypto_core_ristretto255_random();
}
return ParagonIE_Sodium_Core_Ristretto255::ristretto255_random();
}
/**
* @param bool $dontFallback
* @return string
*
* @throws SodiumException
*/
public static function ristretto255_scalar_random($dontFallback = false)
{
if (self::useNewSodiumAPI() && !$dontFallback) {
return sodium_crypto_core_ristretto255_scalar_random();
}
return ParagonIE_Sodium_Core_Ristretto255::ristretto255_scalar_random();
}
/**
* @param string $s
* @param bool $dontFallback
* @return string
* @throws SodiumException
*/
public static function ristretto255_scalar_invert(
#[\SensitiveParameter]
$s,
$dontFallback = false
) {
if (self::useNewSodiumAPI() && !$dontFallback) {
return sodium_crypto_core_ristretto255_scalar_invert($s);
}
return ParagonIE_Sodium_Core_Ristretto255::ristretto255_scalar_invert($s);
}
/**
* @param string $s
* @param bool $dontFallback
* @return string
* @throws SodiumException
*/
public static function ristretto255_scalar_negate(
#[\SensitiveParameter]
$s,
$dontFallback = false
) {
if (self::useNewSodiumAPI() && !$dontFallback) {
return sodium_crypto_core_ristretto255_scalar_negate($s);
}
return ParagonIE_Sodium_Core_Ristretto255::ristretto255_scalar_negate($s);
}
/**
* @param string $s
* @param bool $dontFallback
* @return string
* @throws SodiumException
*/
public static function ristretto255_scalar_complement(
#[\SensitiveParameter]
$s,
$dontFallback = false
) {
if (self::useNewSodiumAPI() && !$dontFallback) {
return sodium_crypto_core_ristretto255_scalar_complement($s);
}
return ParagonIE_Sodium_Core_Ristretto255::ristretto255_scalar_complement($s);
}
/**
* @param string $x
* @param string $y
* @param bool $dontFallback
* @return string
* @throws SodiumException
*/
public static function ristretto255_scalar_add(
#[\SensitiveParameter]
$x,
#[\SensitiveParameter]
$y,
$dontFallback = false
) {
if (self::useNewSodiumAPI() && !$dontFallback) {
return sodium_crypto_core_ristretto255_scalar_add($x, $y);
}
return ParagonIE_Sodium_Core_Ristretto255::ristretto255_scalar_add($x, $y);
}
/**
* @param string $x
* @param string $y
* @param bool $dontFallback
* @return string
* @throws SodiumException
*/
public static function ristretto255_scalar_sub(
#[\SensitiveParameter]
$x,
#[\SensitiveParameter]
$y,
$dontFallback = false
) {
if (self::useNewSodiumAPI() && !$dontFallback) {
return sodium_crypto_core_ristretto255_scalar_sub($x, $y);
}
return ParagonIE_Sodium_Core_Ristretto255::ristretto255_scalar_sub($x, $y);
}
/**
* @param string $x
* @param string $y
* @param bool $dontFallback
* @return string
* @throws SodiumException
*/
public static function ristretto255_scalar_mul(
#[\SensitiveParameter]
$x,
#[\SensitiveParameter]
$y,
$dontFallback = false
) {
if (self::useNewSodiumAPI() && !$dontFallback) {
return sodium_crypto_core_ristretto255_scalar_mul($x, $y);
}
return ParagonIE_Sodium_Core_Ristretto255::ristretto255_scalar_mul($x, $y);
}
/**
* @param string $n
* @param string $p
* @param bool $dontFallback
* @return string
* @throws SodiumException
*/
public static function scalarmult_ristretto255(
#[\SensitiveParameter]
$n,
#[\SensitiveParameter]
$p,
$dontFallback = false
) {
if (self::useNewSodiumAPI() && !$dontFallback) {
return sodium_crypto_scalarmult_ristretto255($n, $p);
}
return ParagonIE_Sodium_Core_Ristretto255::scalarmult_ristretto255($n, $p);
}
/**
* @param string $n
* @param string $p
* @param bool $dontFallback
* @return string
* @throws SodiumException
*/
public static function scalarmult_ristretto255_base(
#[\SensitiveParameter]
$n,
$dontFallback = false
) {
if (self::useNewSodiumAPI() && !$dontFallback) {
return sodium_crypto_scalarmult_ristretto255_base($n);
}
return ParagonIE_Sodium_Core_Ristretto255::scalarmult_ristretto255_base($n);
}
/**
* @param string $s
* @param bool $dontFallback
* @return string
* @throws SodiumException
*/
public static function ristretto255_scalar_reduce(
#[\SensitiveParameter]
$s,
$dontFallback = false
) {
if (self::useNewSodiumAPI() && !$dontFallback) {
return sodium_crypto_core_ristretto255_scalar_reduce($s);
}
return ParagonIE_Sodium_Core_Ristretto255::sc_reduce($s);
}
/**
* Runtime testing method for 32-bit platforms.
*
* Usage: If runtime_speed_test() returns FALSE, then our 32-bit
* implementation is to slow to use safely without risking timeouts.
* If this happens, install sodium from PECL to get acceptable
* performance.
*
* @param int $iterations Number of multiplications to attempt
* @param int $maxTimeout Milliseconds
* @return bool TRUE if we're fast enough, FALSE is not
* @throws SodiumException
*/
public static function runtime_speed_test($iterations, $maxTimeout)
{
if (self::polyfill_is_fast()) {
return true;
}
/** @var float $end */
$end = 0.0;
/** @var float $start */
$start = microtime(true);
/** @var ParagonIE_Sodium_Core32_Int64 $a */
$a = ParagonIE_Sodium_Core32_Int64::fromInt(random_int(3, 1 << 16));
for ($i = 0; $i < $iterations; ++$i) {
/** @var ParagonIE_Sodium_Core32_Int64 $b */
$b = ParagonIE_Sodium_Core32_Int64::fromInt(random_int(3, 1 << 16));
$a->mulInt64($b);
}
/** @var float $end */
$end = microtime(true);
/** @var int $diff */
$diff = (int) ceil(($end - $start) * 1000);
return $diff < $maxTimeout;
}
/**
* Add two numbers (little-endian unsigned), storing the value in the first
* parameter.
*
* This mutates $val.
*
* @param string $val
* @param string $addv
* @return void
* @throws SodiumException
*/
public static function sub(
#[\SensitiveParameter]
&$val,
#[\SensitiveParameter]
$addv
) {
$val_len = ParagonIE_Sodium_Core_Util::strlen($val);
$addv_len = ParagonIE_Sodium_Core_Util::strlen($addv);
if ($val_len !== $addv_len) {
throw new SodiumException('values must have the same length');
}
$A = ParagonIE_Sodium_Core_Util::stringToIntArray($val);
$B = ParagonIE_Sodium_Core_Util::stringToIntArray($addv);
$c = 0;
for ($i = 0; $i < $val_len; $i++) {
$c = ($A[$i] - $B[$i] - $c);
$A[$i] = ($c & 0xff);
$c = ($c >> 8) & 1;
}
$val = ParagonIE_Sodium_Core_Util::intArrayToString($A);
}
/**
* This emulates libsodium's version_string() function, except ours is
* prefixed with 'polyfill-'.
*
* @return string
* @psalm-suppress MixedInferredReturnType
* @psalm-suppress UndefinedFunction
*/
public static function version_string()
{
if (self::useNewSodiumAPI()) {
return (string) sodium_version_string();
}
if (self::use_fallback('version_string')) {
return (string) call_user_func('\\Sodium\\version_string');
}
return (string) self::VERSION_STRING;
}
/**
* Should we use the libsodium core function instead?
* This is always a good idea, if it's available. (Unless we're in the
* middle of running our unit test suite.)
*
* If ext/libsodium is available, use it. Return TRUE.
* Otherwise, we have to use the code provided herein. Return FALSE.
*
* @param string $sodium_func_name
*
* @return bool
*/
protected static function use_fallback($sodium_func_name = '')
{
static $res = null;
if ($res === null) {
$res = extension_loaded('libsodium') && PHP_VERSION_ID >= 50300;
}
if ($res === false) {
// No libsodium installed
return false;
}
if (self::$disableFallbackForUnitTests) {
// Don't fallback. Use the PHP implementation.
return false;
}
if (!empty($sodium_func_name)) {
return is_callable('\\Sodium\\' . $sodium_func_name);
}
return true;
}
/**
* Libsodium as implemented in PHP 7.2
* and/or ext/sodium (via PECL)
*
* @ref https://wiki.php.net/rfc/libsodium
* @return bool
*/
protected static function useNewSodiumAPI()
{
static $res = null;
if ($res === null) {
$res = PHP_VERSION_ID >= 70000 && extension_loaded('sodium');
}
if (self::$disableFallbackForUnitTests) {
// Don't fallback. Use the PHP implementation.
return false;
}
return (bool) $res;
}
}