PaymentCryptographyDataPlane / Client / re_encrypt_data

re_encrypt_data#

PaymentCryptographyDataPlane.Client.re_encrypt_data(**kwargs)#

Re-encrypt ciphertext using DUKPT or Symmetric data encryption keys.

You can either generate an encryption key within Amazon Web Services Payment Cryptography by calling CreateKey or import your own encryption key by calling ImportKey. The KeyArn for use with this operation must be in a compatible key state with KeyModesOfUse set to Encrypt.

This operation also supports dynamic keys, allowing you to pass a dynamic encryption key as a TR-31 WrappedKeyBlock. This can be used when key material is frequently rotated, such as during every card transaction, and there is need to avoid importing short-lived keys into Amazon Web Services Payment Cryptography. To re-encrypt using dynamic keys, the keyARN is the Key Encryption Key (KEK) of the TR-31 wrapped encryption key material. The incoming wrapped key shall have a key purpose of D0 with a mode of use of B or D. For more information, see Using Dynamic Keys in the Amazon Web Services Payment Cryptography User Guide.

For symmetric and DUKPT encryption, Amazon Web Services Payment Cryptography supports TDES and AES algorithms. To encrypt using DUKPT, a DUKPT key must already exist within your account with KeyModesOfUse set to DeriveKey or a new DUKPT can be generated by calling CreateKey.

For information about valid keys for this operation, see Understanding key attributes and Key types for specific data operations in the Amazon Web Services Payment Cryptography User Guide.

Cross-account use: This operation can’t be used across different Amazon Web Services accounts.

Related operations:

See also: AWS API Documentation

Request Syntax

response = client.re_encrypt_data(
    IncomingKeyIdentifier='string',
    OutgoingKeyIdentifier='string',
    CipherText='string',
    IncomingEncryptionAttributes={
        'Symmetric': {
            'Mode': 'ECB'|'CBC'|'CFB'|'CFB1'|'CFB8'|'CFB64'|'CFB128'|'OFB',
            'InitializationVector': 'string',
            'PaddingType': 'PKCS1'|'OAEP_SHA1'|'OAEP_SHA256'|'OAEP_SHA512'
        },
        'Dukpt': {
            'KeySerialNumber': 'string',
            'Mode': 'ECB'|'CBC',
            'DukptKeyDerivationType': 'TDES_2KEY'|'TDES_3KEY'|'AES_128'|'AES_192'|'AES_256',
            'DukptKeyVariant': 'BIDIRECTIONAL'|'REQUEST'|'RESPONSE',
            'InitializationVector': 'string'
        }
    },
    OutgoingEncryptionAttributes={
        'Symmetric': {
            'Mode': 'ECB'|'CBC'|'CFB'|'CFB1'|'CFB8'|'CFB64'|'CFB128'|'OFB',
            'InitializationVector': 'string',
            'PaddingType': 'PKCS1'|'OAEP_SHA1'|'OAEP_SHA256'|'OAEP_SHA512'
        },
        'Dukpt': {
            'KeySerialNumber': 'string',
            'Mode': 'ECB'|'CBC',
            'DukptKeyDerivationType': 'TDES_2KEY'|'TDES_3KEY'|'AES_128'|'AES_192'|'AES_256',
            'DukptKeyVariant': 'BIDIRECTIONAL'|'REQUEST'|'RESPONSE',
            'InitializationVector': 'string'
        }
    },
    IncomingWrappedKey={
        'WrappedKeyMaterial': {
            'Tr31KeyBlock': 'string',
            'DiffieHellmanSymmetricKey': {
                'CertificateAuthorityPublicKeyIdentifier': 'string',
                'PublicKeyCertificate': 'string',
                'KeyAlgorithm': 'TDES_2KEY'|'TDES_3KEY'|'AES_128'|'AES_192'|'AES_256',
                'KeyDerivationFunction': 'NIST_SP800'|'ANSI_X963',
                'KeyDerivationHashAlgorithm': 'SHA_256'|'SHA_384'|'SHA_512',
                'SharedInformation': 'string'
            }
        },
        'KeyCheckValueAlgorithm': 'CMAC'|'ANSI_X9_24'
    },
    OutgoingWrappedKey={
        'WrappedKeyMaterial': {
            'Tr31KeyBlock': 'string',
            'DiffieHellmanSymmetricKey': {
                'CertificateAuthorityPublicKeyIdentifier': 'string',
                'PublicKeyCertificate': 'string',
                'KeyAlgorithm': 'TDES_2KEY'|'TDES_3KEY'|'AES_128'|'AES_192'|'AES_256',
                'KeyDerivationFunction': 'NIST_SP800'|'ANSI_X963',
                'KeyDerivationHashAlgorithm': 'SHA_256'|'SHA_384'|'SHA_512',
                'SharedInformation': 'string'
            }
        },
        'KeyCheckValueAlgorithm': 'CMAC'|'ANSI_X9_24'
    }
)
Parameters:

  • IncomingKeyIdentifier (string) –

    [REQUIRED]

    The keyARN of the encryption key of incoming ciphertext data.

    When a WrappedKeyBlock is provided, this value will be the identifier to the key wrapping key. Otherwise, it is the key identifier used to perform the operation.

  • OutgoingKeyIdentifier (string) –

    [REQUIRED]

    The keyARN of the encryption key of outgoing ciphertext data after encryption by Amazon Web Services Payment Cryptography.

  • CipherText (string) –

    [REQUIRED]

    Ciphertext to be encrypted. The minimum allowed length is 16 bytes and maximum allowed length is 4096 bytes.

  • IncomingEncryptionAttributes (dict) –

    [REQUIRED]

    The attributes and values for incoming ciphertext.

    Note

    This is a Tagged Union structure. Only one of the following top level keys can be set: Symmetric, Dukpt.

    • Symmetric (dict) –

      Parameters that are required to encrypt data using symmetric keys.

      • Mode (string) – [REQUIRED]

        The block cipher method to use for encryption.

      • InitializationVector (string) –

        An input used to provide the intial state. If no value is provided, Amazon Web Services Payment Cryptography defaults it to zero.

      • PaddingType (string) –

        The padding to be included with the data.

    • Dukpt (dict) –

      Parameters that are required to encrypt plaintext data using DUKPT.

      • KeySerialNumber (string) – [REQUIRED]

        The unique identifier known as Key Serial Number (KSN) that comes from an encrypting device using DUKPT encryption method. The KSN is derived from the encrypting device unique identifier and an internal transaction counter.

      • Mode (string) –

        The block cipher method to use for encryption.

        The default is CBC.

      • DukptKeyDerivationType (string) –

        The key type encrypted using DUKPT from a Base Derivation Key (BDK) and Key Serial Number (KSN). This must be less than or equal to the strength of the BDK. For example, you can’t use AES_128 as a derivation type for a BDK of AES_128 or TDES_2KEY

      • DukptKeyVariant (string) –

        The type of use of DUKPT, which can be incoming data decryption, outgoing data encryption, or both.

      • InitializationVector (string) –

        An input used to provide the intial state. If no value is provided, Amazon Web Services Payment Cryptography defaults it to zero.

  • OutgoingEncryptionAttributes (dict) –

    [REQUIRED]

    The attributes and values for outgoing ciphertext data after encryption by Amazon Web Services Payment Cryptography.

    Note

    This is a Tagged Union structure. Only one of the following top level keys can be set: Symmetric, Dukpt.

    • Symmetric (dict) –

      Parameters that are required to encrypt data using symmetric keys.

      • Mode (string) – [REQUIRED]

        The block cipher method to use for encryption.

      • InitializationVector (string) –

        An input used to provide the intial state. If no value is provided, Amazon Web Services Payment Cryptography defaults it to zero.

      • PaddingType (string) –

        The padding to be included with the data.

    • Dukpt (dict) –

      Parameters that are required to encrypt plaintext data using DUKPT.

      • KeySerialNumber (string) – [REQUIRED]

        The unique identifier known as Key Serial Number (KSN) that comes from an encrypting device using DUKPT encryption method. The KSN is derived from the encrypting device unique identifier and an internal transaction counter.

      • Mode (string) –

        The block cipher method to use for encryption.

        The default is CBC.

      • DukptKeyDerivationType (string) –

        The key type encrypted using DUKPT from a Base Derivation Key (BDK) and Key Serial Number (KSN). This must be less than or equal to the strength of the BDK. For example, you can’t use AES_128 as a derivation type for a BDK of AES_128 or TDES_2KEY

      • DukptKeyVariant (string) –

        The type of use of DUKPT, which can be incoming data decryption, outgoing data encryption, or both.

      • InitializationVector (string) –

        An input used to provide the intial state. If no value is provided, Amazon Web Services Payment Cryptography defaults it to zero.

  • IncomingWrappedKey (dict) –

    The WrappedKeyBlock containing the encryption key of incoming ciphertext data.

    • WrappedKeyMaterial (dict) – [REQUIRED]

      Parameter information of a WrappedKeyBlock for encryption key exchange.

      Note

      This is a Tagged Union structure. Only one of the following top level keys can be set: Tr31KeyBlock, DiffieHellmanSymmetricKey.

      • Tr31KeyBlock (string) –

        The TR-31 wrapped key block.

      • DiffieHellmanSymmetricKey (dict) –

        The parameter information for deriving a ECDH shared key.

        • CertificateAuthorityPublicKeyIdentifier (string) – [REQUIRED]

          The keyArn of the certificate that signed the client’s PublicKeyCertificate.

        • PublicKeyCertificate (string) – [REQUIRED]

          The client’s public key certificate in PEM format (base64 encoded) to use for ECDH key derivation.

        • KeyAlgorithm (string) – [REQUIRED]

          The key algorithm of the derived ECDH key.

        • KeyDerivationFunction (string) – [REQUIRED]

          The key derivation function to use for deriving a key using ECDH.

        • KeyDerivationHashAlgorithm (string) – [REQUIRED]

          The hash type to use for deriving a key using ECDH.

        • SharedInformation (string) – [REQUIRED]

          A byte string containing information that binds the ECDH derived key to the two parties involved or to the context of the key.

          It may include details like identities of the two parties deriving the key, context of the operation, session IDs, and optionally a nonce. It must not contain zero bytes, and re-using shared information for multiple ECDH key derivations is not recommended.

    • KeyCheckValueAlgorithm (string) –

      The algorithm that Amazon Web Services Payment Cryptography uses to calculate the key check value (KCV). It is used to validate the key integrity.

      For TDES keys, the KCV is computed by encrypting 8 bytes, each with value of zero, with the key to be checked and retaining the 3 highest order bytes of the encrypted result. For AES keys, the KCV is computed using a CMAC algorithm where the input data is 16 bytes of zero and retaining the 3 highest order bytes of the encrypted result.

  • OutgoingWrappedKey (dict) –

    The WrappedKeyBlock containing the encryption key of outgoing ciphertext data after encryption by Amazon Web Services Payment Cryptography.

    • WrappedKeyMaterial (dict) – [REQUIRED]

      Parameter information of a WrappedKeyBlock for encryption key exchange.

      Note

      This is a Tagged Union structure. Only one of the following top level keys can be set: Tr31KeyBlock, DiffieHellmanSymmetricKey.

      • Tr31KeyBlock (string) –

        The TR-31 wrapped key block.

      • DiffieHellmanSymmetricKey (dict) –

        The parameter information for deriving a ECDH shared key.

        • CertificateAuthorityPublicKeyIdentifier (string) – [REQUIRED]

          The keyArn of the certificate that signed the client’s PublicKeyCertificate.

        • PublicKeyCertificate (string) – [REQUIRED]

          The client’s public key certificate in PEM format (base64 encoded) to use for ECDH key derivation.

        • KeyAlgorithm (string) – [REQUIRED]

          The key algorithm of the derived ECDH key.

        • KeyDerivationFunction (string) – [REQUIRED]

          The key derivation function to use for deriving a key using ECDH.

        • KeyDerivationHashAlgorithm (string) – [REQUIRED]

          The hash type to use for deriving a key using ECDH.

        • SharedInformation (string) – [REQUIRED]

          A byte string containing information that binds the ECDH derived key to the two parties involved or to the context of the key.

          It may include details like identities of the two parties deriving the key, context of the operation, session IDs, and optionally a nonce. It must not contain zero bytes, and re-using shared information for multiple ECDH key derivations is not recommended.

    • KeyCheckValueAlgorithm (string) –

      The algorithm that Amazon Web Services Payment Cryptography uses to calculate the key check value (KCV). It is used to validate the key integrity.

      For TDES keys, the KCV is computed by encrypting 8 bytes, each with value of zero, with the key to be checked and retaining the 3 highest order bytes of the encrypted result. For AES keys, the KCV is computed using a CMAC algorithm where the input data is 16 bytes of zero and retaining the 3 highest order bytes of the encrypted result.

Return type:

dict

Returns:

Response Syntax

{
    'KeyArn': 'string',
    'KeyCheckValue': 'string',
    'CipherText': 'string'
}

Response Structure

  • (dict) –

    • KeyArn (string) –

      The keyARN (Amazon Resource Name) of the encryption key that Amazon Web Services Payment Cryptography uses for plaintext encryption.

    • KeyCheckValue (string) –

      The key check value (KCV) of the encryption key. The KCV is used to check if all parties holding a given key have the same key or to detect that a key has changed.

      Amazon Web Services Payment Cryptography computes the KCV according to the CMAC specification.

    • CipherText (string) –

      The encrypted ciphertext.

Exceptions

  • PaymentCryptographyDataPlane.Client.exceptions.ValidationException

  • PaymentCryptographyDataPlane.Client.exceptions.AccessDeniedException

  • PaymentCryptographyDataPlane.Client.exceptions.ResourceNotFoundException

  • PaymentCryptographyDataPlane.Client.exceptions.ThrottlingException

  • PaymentCryptographyDataPlane.Client.exceptions.InternalServerException