/**
* @param $base64
* @return array
*/
public function unserialize($base64)
{
$binary = base64_decode($base64, true);
if ($binary === false) {
throw new \InvalidArgumentException('Invalid base64');
}
$values = [];
$pos = 0;
$end = strlen($binary);
for ($i = 0; $i < 3; $i++) {
if ($end - $pos < 4) {
throw new \RuntimeException('Length marker too short');
}
$length = unpack("N", substr($binary, $pos, 4))[1];
$pos += 4;
if ($end - $pos < $length) {
throw new \RuntimeException('Not enough data');
}
$value = substr($binary, $pos, $length);
$pos += $length;
$values[$i] = $value;
}
$curveName = $values[1];
$pointHex = unpack("H*", $values[2])[1];
$curve = Curves::curve($curveName);
$generator = Curves::generator($curveName);
$point = $this->pointSerializer->unserialize($curve, $pointHex);
$publicKey = new PublicKey($this->math, $generator, $point);
return [$curve, $publicKey];
}
function setVAPIDInfo($privateKey, $audience, $subject)
{
if (!USE_VAPID || !$privateKey || !$audience || !$subject) {
return;
}
$builder = new Builder();
$token = $builder->setAudience($audience)->setExpiration(time() + 86400)->setSubject($subject)->sign(new Sha256(), new Key($privateKey))->getToken();
$this->additionalHeaders['Authorization'] = 'Bearer ' . $token;
$privKeySerializer = new PemPrivateKeySerializer(new DerPrivateKeySerializer());
$privateKeyObject = $privKeySerializer->parse($privateKey);
$publicKeyObject = $privateKeyObject->getPublicKey();
$pointSerializer = new UncompressedPointSerializer(EccFactory::getAdapter());
$this->additionalHeaders['Crypto-Key'] = 'p256ecdsa=' . Base64Url::encode(hex2bin($pointSerializer->serialize($publicKeyObject->getPoint())));
}
function get_public_key($privateKey)
{
$publicKeyVal = __('Your private key is invalid.', 'web-push');
error_reporting(E_ERROR);
try {
$privKeySerializer = new PemPrivateKeySerializer(new DerPrivateKeySerializer());
$privateKeyObject = $privKeySerializer->parse($privateKey);
$publicKeyObject = $privateKeyObject->getPublicKey();
$pointSerializer = new UncompressedPointSerializer(EccFactory::getAdapter());
$publicKeyVal = Base64Url::encode(hex2bin($pointSerializer->serialize($publicKeyObject->getPoint())));
} catch (Exception $e) {
// Ignore exceptions while getting the public key from the private key.
}
error_reporting(E_ALL);
return $publicKeyVal;
}
/**
* @param string $payload With padding
* @param string $userPublicKey Base 64 encoded (MIME or URL-safe)
* @param string $userAuthToken Base 64 encoded (MIME or URL-safe)
* @param bool $nativeEncryption Use OpenSSL (>PHP7.1)
*
* @return array
*/
public static function encrypt($payload, $userPublicKey, $userAuthToken, $nativeEncryption)
{
$userPublicKey = Base64Url::decode($userPublicKey);
$userAuthToken = Base64Url::decode($userAuthToken);
// initialize utilities
$math = EccFactory::getAdapter();
$pointSerializer = new UncompressedPointSerializer($math);
$generator = EccFactory::getNistCurves()->generator256();
$curve = EccFactory::getNistCurves()->curve256();
// get local key pair
$localPrivateKeyObject = $generator->createPrivateKey();
$localPublicKeyObject = $localPrivateKeyObject->getPublicKey();
$localPublicKey = hex2bin($pointSerializer->serialize($localPublicKeyObject->getPoint()));
// get user public key object
$pointUserPublicKey = $pointSerializer->unserialize($curve, bin2hex($userPublicKey));
$userPublicKeyObject = $generator->getPublicKeyFrom($pointUserPublicKey->getX(), $pointUserPublicKey->getY(), $generator->getOrder());
// get shared secret from user public key and local private key
$sharedSecret = hex2bin($math->decHex(gmp_strval($userPublicKeyObject->getPoint()->mul($localPrivateKeyObject->getSecret())->getX())));
// generate salt
$salt = openssl_random_pseudo_bytes(16);
// section 4.3
$ikm = !empty($userAuthToken) ? self::hkdf($userAuthToken, $sharedSecret, 'Content-Encoding: auth' . chr(0), 32) : $sharedSecret;
// section 4.2
$context = self::createContext($userPublicKey, $localPublicKey);
// derive the Content Encryption Key
$contentEncryptionKeyInfo = self::createInfo('aesgcm', $context);
$contentEncryptionKey = self::hkdf($salt, $ikm, $contentEncryptionKeyInfo, 16);
// section 3.3, derive the nonce
$nonceInfo = self::createInfo('nonce', $context);
$nonce = self::hkdf($salt, $ikm, $nonceInfo, 12);
// encrypt
// "The additional data passed to each invocation of AEAD_AES_128_GCM is a zero-length octet sequence."
if (!$nativeEncryption) {
list($encryptedText, $tag) = \AESGCM\AESGCM::encrypt($contentEncryptionKey, $nonce, $payload, '');
} else {
$encryptedText = openssl_encrypt($payload, 'aes-128-gcm', $contentEncryptionKey, OPENSSL_RAW_DATA, $nonce, $tag);
// base 64 encoded
}
// return values in url safe base64
return array('localPublicKey' => Base64Url::encode($localPublicKey), 'salt' => Base64Url::encode($salt), 'cipherText' => $encryptedText . $tag);
}
private static function getUncompressedKeys(PrivateKeyInterface $privateKeyObject)
{
$pointSerializer = new UncompressedPointSerializer(EccFactory::getAdapter());
$vapid['publicKey'] = base64_encode(hex2bin($pointSerializer->serialize($privateKeyObject->getPublicKey()->getPoint())));
$vapid['privateKey'] = base64_encode(hex2bin(str_pad(gmp_strval($privateKeyObject->getSecret(), 16), 2 * self::PRIVATE_KEY_LENGTH, '0', STR_PAD_LEFT)));
return $vapid;
}
