getKeyCommitmentPolicy($options); unset($options['@CommitmentPolicy']); if (isset($envelope[MetadataEnvelope::ENCRYPTED_DATA_KEY_V3])) { if ($commitmentPolicy !== "FORBID_ENCRYPT_ALLOW_DECRYPT") { throw new CryptoException( "The requested item is encrypted" . " with Key Commitment. The current policy {$commitmentPolicy}" . " conflicts with the object metadata. Select an appropriate" . " '@CommitmentPolicy' to decrypt this item." ); } $algorithmSuite = AlgorithmSuite::ALG_AES_256_GCM_HKDF_SHA512_COMMIT_KEY; $options['@CipherOptions'] = $options['@CipherOptions'] ?? []; $options['@CipherOptions']['Iv'] = str_repeat("\1", 12); $options['@CipherOptions']['TagLength'] = $algorithmSuite->getCipherTagLengthInBytes(); $materialDescription = json_decode( $envelope[MetadataEnvelope::ENCRYPTION_CONTEXT_V3], true ); $cek = $provider->decryptCek( base64_decode($envelope[MetadataEnvelope::ENCRYPTED_DATA_KEY_V3]), $materialDescription, $options ); $options['@CipherOptions']['KeySize'] = strlen($cek) * 8; $options['@CipherOptions']['Cipher'] = $this->getCipherFromAesName( $this->numericalContenCipherToAesName($envelope) ); $this->validateOptionsAndEnvelope($options, $envelope); $messageId = base64_decode($envelope[MetadataEnvelope::MESSAGE_ID_V3]); $commitmentKey = base64_decode($envelope[MetadataEnvelope::KEY_COMMITMENT_V3]); if (strlen($messageId) !== ($algorithmSuite->getKeyCommitmentSaltLengthBits()) / 8) { throw new CryptoException("Invalid MessageId length found in object envelope."); } if (strlen($commitmentKey) !== $algorithmSuite->getCommitmentOutputKeyLengthBytes()) { throw new CryptoException("Invalid Commitment Key length found in object envelope."); } $decryptionStream = $this->getCommitingDecryptingStream( $cipherText, $cek, $options['@CipherOptions'], $messageId, $commitmentKey, $algorithmSuite ); unset($cek); return $decryptionStream; } else { $options['@CipherOptions'] = $options['@CipherOptions'] ?? []; $options['@CipherOptions']['Iv'] = base64_decode( $envelope[MetadataEnvelope::IV_HEADER] ); $options['@CipherOptions']['TagLength'] = $envelope[MetadataEnvelope::CRYPTO_TAG_LENGTH_HEADER] / 8; $cek = $provider->decryptCek( base64_decode( $envelope[MetadataEnvelope::CONTENT_KEY_V2_HEADER] ), json_decode( $envelope[MetadataEnvelope::MATERIALS_DESCRIPTION_HEADER], true ), $options ); $options['@CipherOptions']['KeySize'] = strlen($cek) * 8; $options['@CipherOptions']['Cipher'] = $this->getCipherFromAesName( $envelope[MetadataEnvelope::CONTENT_CRYPTO_SCHEME_HEADER] ); $this->validateOptionsAndEnvelope($options, $envelope); $decryptionStream = $this->getDecryptingStream( $cipherText, $cek, $options['@CipherOptions'] ); unset($cek); return $decryptionStream; } } private function buildMaterialDescription( MetadataEnvelope $envelope ): array { switch ($envelope[MetadataEnvelope::ENCRYPTED_DATA_KEY_ALGORITHM_V3]) { case 12: return ['aws:x-amz-cek-alg' => '115']; default: throw new CryptoException( "Unknown Encrypted Data Key " . "wrapping algorithm found: " . "{$envelope[MetadataEnvelope::ENCRYPTED_DATA_KEY_ALGORITHM_V3]}" ); } } private function numericalContenCipherToAesName( MetadataEnvelope $envelope ): string { switch ($envelope[MetadataEnvelope::CONTENT_CIPHER_V3]) { case 115: return 'AES/GCM/NoPadding'; default: throw new CryptoException( "Unknown Encrypted Data Key " . "wrapping algorithm found: " . "{$envelope[MetadataEnvelope::ENCRYPTED_DATA_KEY_ALGORITHM_V3]}" ); } } private function getTagFromCiphertextStream( StreamInterface $cipherText, $tagLength ) { $cipherTextSize = $cipherText->getSize(); if ($cipherTextSize == null || $cipherTextSize <= 0) { throw new \RuntimeException('Cannot decrypt a stream of unknown' . ' size.'); } return (string) new LimitStream( $cipherText, $tagLength, $cipherTextSize - $tagLength ); } private function getStrippedCiphertextStream( StreamInterface $cipherText, $tagLength ) { $cipherTextSize = $cipherText->getSize(); if ($cipherTextSize == null || $cipherTextSize <= 0) { throw new \RuntimeException('Cannot decrypt a stream of unknown' . ' size.'); } return new LimitStream( $cipherText, $cipherTextSize - $tagLength, 0 ); } private function validateOptionsAndEnvelope($options, $envelope): void { $allowedCiphers = AbstractCryptoClientV2::$supportedCiphers; $allowedKeywraps = AbstractCryptoClientV2::$supportedKeyWraps; if ($options['@SecurityProfile'] == 'V2_AND_LEGACY') { $allowedCiphers = array_unique(array_merge( $allowedCiphers, AbstractCryptoClient::$supportedCiphers )); $allowedKeywraps = array_unique(array_merge( $allowedKeywraps, AbstractCryptoClient::$supportedKeyWraps )); } $v1SchemaException = new CryptoException("The requested object is encrypted" . " with V1 encryption schemas that have been disabled by" . " client configuration @SecurityProfile=V2. Retry with" . " V2_AND_LEGACY enabled or reencrypt the object."); if (!in_array($options['@CipherOptions']['Cipher'], $allowedCiphers)) { if (in_array($options['@CipherOptions']['Cipher'], AbstractCryptoClient::$supportedCiphers)) { throw $v1SchemaException; } throw new CryptoException("The requested object is encrypted with" . " the cipher '{$options['@CipherOptions']['Cipher']}', which is not" . " supported for decryption with the selected security profile." . " This profile allows decryption with: " . implode(", ", $allowedCiphers)); } if (isset($envelope[MetadataEnvelope::ENCRYPTED_DATA_KEY_V3])) { if ($envelope[MetadataEnvelope::ENCRYPTED_DATA_KEY_ALGORITHM_V3] !== '12') { throw new CryptoException("The requested object is encrypted with" . " the keywrap schema '{$envelope[MetadataEnvelope::ENCRYPTED_DATA_KEY_ALGORITHM_V3]}'," . " which is not supported for decryption with the current security" . " profile."); } } else { if (!in_array($envelope[MetadataEnvelope::KEY_WRAP_ALGORITHM_HEADER], $allowedKeywraps)) { if (in_array($envelope[MetadataEnvelope::KEY_WRAP_ALGORITHM_HEADER], AbstractCryptoClient::$supportedKeyWraps)) { throw $v1SchemaException; } throw new CryptoException("The requested object is encrypted with" . " the keywrap schema '{$envelope[MetadataEnvelope::KEY_WRAP_ALGORITHM_HEADER]}'," . " which is not supported for decryption with the current security" . " profile."); } $matdesc = json_decode( $envelope[MetadataEnvelope::MATERIALS_DESCRIPTION_HEADER], true ); if (isset($matdesc['aws:x-amz-cek-alg']) && ($envelope[MetadataEnvelope::CONTENT_CRYPTO_SCHEME_HEADER] !== $matdesc['aws:x-amz-cek-alg']) ) { throw new CryptoException("There is a mismatch in specified content" . " encryption algrithm between the materials description value" . " and the metadata envelope value: {$matdesc['aws:x-amz-cek-alg']}" . " vs. {$envelope[MetadataEnvelope::CONTENT_CRYPTO_SCHEME_HEADER]}."); } } } /** * Generates a stream that wraps the cipher text with the proper cipher and * uses the content encryption key (CEK) to decrypt the data when read. * * @param string $cipherText Plain-text data to be encrypted using the * materials, algorithm, and data provided. * @param string $cek A content encryption key for use by the stream for * encrypting the plaintext data. * @param array $cipherOptions Options for use in determining the cipher to * be used for encrypting data. * * @return AesStreamInterface * * @internal */ protected function getDecryptingStream( $cipherText, $cek, $cipherOptions ) { $cipherTextStream = Psr7\Utils::streamFor($cipherText); switch ($cipherOptions['Cipher']) { case 'gcm': $cipherOptions['Tag'] = $this->getTagFromCiphertextStream( $cipherTextStream, $cipherOptions['TagLength'] ); return new AesGcmDecryptingStream( $this->getStrippedCiphertextStream( $cipherTextStream, $cipherOptions['TagLength'] ), $cek, $cipherOptions['Iv'], $cipherOptions['Tag'], $cipherOptions['Aad'] = $cipherOptions['Aad'] ?? '', $cipherOptions['TagLength'] ?: null, $cipherOptions['KeySize'] ); default: $cipherMethod = $this->buildCipherMethod( $cipherOptions['Cipher'], $cipherOptions['Iv'], $cipherOptions['KeySize'] ); return new AesDecryptingStream( $cipherTextStream, $cek, $cipherMethod ); } } /** * Generates a stream that wraps the cipher text with the proper cipher and * uses the content encryption key (CEK) to derive both a derived content encryption key * and a commitment key to decrypt the data when read. * * @param string $cipherText Plain-text data to be encrypted using the * materials, algorithm, and data provided. * @param string $cek A content encryption key for use by the stream for * encrypting the plaintext data. * @param array $cipherOptions Options for use in determining the cipher to * be used for encrypting data. * @param string $messageId a string value used to calculate both a commitment * key and derived content encryption key * @param string $commitmentKey a string value to compare with the calculated commitment * key value, if the values don't match an exception is raised. * * @return AesStreamInterface | CryptoException * * @internal */ protected function getCommitingDecryptingStream( string $cipherText, string $cek, array $cipherOptions, string $messageId, string $commitmentKey, AlgorithmSuite $algorithmSuite ): AesStreamInterface|CryptoException { $algorithmSuiteIdAsBytes = pack('n', $algorithmSuite->getId()); $derivedEncryptionKeyInfo = $algorithmSuiteIdAsBytes . "DERIVEKEY"; $commitmentKeyInfo = $algorithmSuiteIdAsBytes . "COMMITKEY"; $derivedEncryptionKey = hash_hkdf( $algorithmSuite->getHashingAlgorithm(), $cek, $algorithmSuite->getDerivationOutputKeyLengthBytes(), $derivedEncryptionKeyInfo, $messageId ); $calculatedCommitmentKey = hash_hkdf( $algorithmSuite->getHashingAlgorithm(), $cek, $algorithmSuite->getCommitmentOutputKeyLengthBytes(), $commitmentKeyInfo, $messageId ); if ($commitmentKey != $calculatedCommitmentKey) { throw new CryptoException("Calculated commitment key does " . "not match expected commitment key value "); } $cipherTextStream = Psr7\Utils::streamFor($cipherText); switch ($cipherOptions['Cipher']) { case 'gcm': $cipherOptions['Tag'] = $this->getTagFromCiphertextStream( $cipherTextStream, $cipherOptions['TagLength'] ); $cipherOptions['Aad'] = isset($cipherOptions['Aad']) ? $cipherOptions['Aad'] + $algorithmSuiteIdAsBytes : $algorithmSuiteIdAsBytes; return new AesGcmDecryptingStream( $this->getStrippedCiphertextStream( $cipherTextStream, $cipherOptions['TagLength'] ), $derivedEncryptionKey, $cipherOptions['Iv'], $cipherOptions['Tag'], $cipherOptions['Aad'], $cipherOptions['TagLength'] ?: null, $cipherOptions['KeySize'] ); default: throw new CryptoException("Unsupported Cipher used for key commitment messages." . " Found {$cipherOptions["Cipher"]}. Only 'gcm' is supported."); } } }