com.amazonaws.services.paymentcryptographydata

Class AbstractAWSPaymentCryptographyDataAsync

java.lang.Object

com.amazonaws.services.paymentcryptographydata.AbstractAWSPaymentCryptographyData

com.amazonaws.services.paymentcryptographydata.AbstractAWSPaymentCryptographyDataAsync

All Implemented Interfaces:

AWSPaymentCryptographyData, AWSPaymentCryptographyDataAsync

@Generated(value="com.amazonaws:aws-java-sdk-code-generator")
public class AbstractAWSPaymentCryptographyDataAsync
extends AbstractAWSPaymentCryptographyData
implements AWSPaymentCryptographyDataAsync

Abstract implementation of AWSPaymentCryptographyDataAsync. Convenient method forms pass through to the corresponding overload that takes a request object and an AsyncHandler, which throws an UnsupportedOperationException.

Field Summary

Fields inherited from interface com.amazonaws.services.paymentcryptographydata.AWSPaymentCryptographyData

ENDPOINT_PREFIX

Method Summary

Modifier and Type	Method and Description
Future<DecryptDataResult>	decryptDataAsync(DecryptDataRequest request) Decrypts ciphertext data to plaintext using symmetric, asymmetric, or DUKPT data encryption key.
Future<DecryptDataResult>	decryptDataAsync(DecryptDataRequest request, AsyncHandler<DecryptDataRequest,DecryptDataResult> asyncHandler) Decrypts ciphertext data to plaintext using symmetric, asymmetric, or DUKPT data encryption key.
Future<EncryptDataResult>	encryptDataAsync(EncryptDataRequest request) Encrypts plaintext data to ciphertext using symmetric, asymmetric, or DUKPT data encryption key.
Future<EncryptDataResult>	encryptDataAsync(EncryptDataRequest request, AsyncHandler<EncryptDataRequest,EncryptDataResult> asyncHandler) Encrypts plaintext data to ciphertext using symmetric, asymmetric, or DUKPT data encryption key.
Future<GenerateCardValidationDataResult>	generateCardValidationDataAsync(GenerateCardValidationDataRequest request) Generates card-related validation data using algorithms such as Card Verification Values (CVV/CVV2), Dynamic Card Verification Values (dCVV/dCVV2), or Card Security Codes (CSC).
Future<GenerateCardValidationDataResult>	generateCardValidationDataAsync(GenerateCardValidationDataRequest request, AsyncHandler<GenerateCardValidationDataRequest,GenerateCardValidationDataResult> asyncHandler) Generates card-related validation data using algorithms such as Card Verification Values (CVV/CVV2), Dynamic Card Verification Values (dCVV/dCVV2), or Card Security Codes (CSC).
Future<GenerateMacResult>	generateMacAsync(GenerateMacRequest request) Generates a Message Authentication Code (MAC) cryptogram within Amazon Web Services Payment Cryptography.
Future<GenerateMacResult>	generateMacAsync(GenerateMacRequest request, AsyncHandler<GenerateMacRequest,GenerateMacResult> asyncHandler) Generates a Message Authentication Code (MAC) cryptogram within Amazon Web Services Payment Cryptography.
Future<GeneratePinDataResult>	generatePinDataAsync(GeneratePinDataRequest request) Generates pin-related data such as PIN, PIN Verification Value (PVV), PIN Block, and PIN Offset during new card issuance or reissuance.
Future<GeneratePinDataResult>	generatePinDataAsync(GeneratePinDataRequest request, AsyncHandler<GeneratePinDataRequest,GeneratePinDataResult> asyncHandler) Generates pin-related data such as PIN, PIN Verification Value (PVV), PIN Block, and PIN Offset during new card issuance or reissuance.
Future<ReEncryptDataResult>	reEncryptDataAsync(ReEncryptDataRequest request) Re-encrypt ciphertext using DUKPT, Symmetric and Asymmetric Data Encryption Keys.
Future<ReEncryptDataResult>	reEncryptDataAsync(ReEncryptDataRequest request, AsyncHandler<ReEncryptDataRequest,ReEncryptDataResult> asyncHandler) Re-encrypt ciphertext using DUKPT, Symmetric and Asymmetric Data Encryption Keys.
Future<TranslatePinDataResult>	translatePinDataAsync(TranslatePinDataRequest request) Translates encrypted PIN block from and to ISO 9564 formats 0,1,3,4.
Future<TranslatePinDataResult>	translatePinDataAsync(TranslatePinDataRequest request, AsyncHandler<TranslatePinDataRequest,TranslatePinDataResult> asyncHandler) Translates encrypted PIN block from and to ISO 9564 formats 0,1,3,4.
Future<VerifyAuthRequestCryptogramResult>	verifyAuthRequestCryptogramAsync(VerifyAuthRequestCryptogramRequest request) Verifies Authorization Request Cryptogram (ARQC) for a EMV chip payment card authorization.
Future<VerifyAuthRequestCryptogramResult>	verifyAuthRequestCryptogramAsync(VerifyAuthRequestCryptogramRequest request, AsyncHandler<VerifyAuthRequestCryptogramRequest,VerifyAuthRequestCryptogramResult> asyncHandler) Verifies Authorization Request Cryptogram (ARQC) for a EMV chip payment card authorization.
Future<VerifyCardValidationDataResult>	verifyCardValidationDataAsync(VerifyCardValidationDataRequest request) Verifies card-related validation data using algorithms such as Card Verification Values (CVV/CVV2), Dynamic Card Verification Values (dCVV/dCVV2) and Card Security Codes (CSC).
Future<VerifyCardValidationDataResult>	verifyCardValidationDataAsync(VerifyCardValidationDataRequest request, AsyncHandler<VerifyCardValidationDataRequest,VerifyCardValidationDataResult> asyncHandler) Verifies card-related validation data using algorithms such as Card Verification Values (CVV/CVV2), Dynamic Card Verification Values (dCVV/dCVV2) and Card Security Codes (CSC).
Future<VerifyMacResult>	verifyMacAsync(VerifyMacRequest request) Verifies a Message Authentication Code (MAC).
Future<VerifyMacResult>	verifyMacAsync(VerifyMacRequest request, AsyncHandler<VerifyMacRequest,VerifyMacResult> asyncHandler) Verifies a Message Authentication Code (MAC).
Future<VerifyPinDataResult>	verifyPinDataAsync(VerifyPinDataRequest request) Verifies pin-related data such as PIN and PIN Offset using algorithms including VISA PVV and IBM3624.
Future<VerifyPinDataResult>	verifyPinDataAsync(VerifyPinDataRequest request, AsyncHandler<VerifyPinDataRequest,VerifyPinDataResult> asyncHandler) Verifies pin-related data such as PIN and PIN Offset using algorithms including VISA PVV and IBM3624.

Methods inherited from class com.amazonaws.services.paymentcryptographydata.AbstractAWSPaymentCryptographyData

decryptData, encryptData, generateCardValidationData, generateMac, generatePinData, getCachedResponseMetadata, reEncryptData, shutdown, translatePinData, verifyAuthRequestCryptogram, verifyCardValidationData, verifyMac, verifyPinData

Methods inherited from class java.lang.Object

equals, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait

Methods inherited from interface com.amazonaws.services.paymentcryptographydata.AWSPaymentCryptographyData

decryptData, encryptData, generateCardValidationData, generateMac, generatePinData, getCachedResponseMetadata, reEncryptData, shutdown, translatePinData, verifyAuthRequestCryptogram, verifyCardValidationData, verifyMac, verifyPinData

Method Detail

decryptDataAsync

public Future<DecryptDataResult> decryptDataAsync(DecryptDataRequest request)

Description copied from interface: AWSPaymentCryptographyDataAsync

Decrypts ciphertext data to plaintext using symmetric, asymmetric, or DUKPT data encryption key. For more information, see Decrypt data in the Amazon Web Services Payment Cryptography User Guide.

You can use an encryption key generated within Amazon Web Services Payment Cryptography, or you can import your own encryption key by calling ImportKey. For this operation, the key must have KeyModesOfUse set to Decrypt. In asymmetric decryption, Amazon Web Services Payment Cryptography decrypts the ciphertext using the private component of the asymmetric encryption key pair. For data encryption outside of Amazon Web Services Payment Cryptography, you can export the public component of the asymmetric key pair by calling GetPublicCertificate.

For symmetric and DUKPT decryption, Amazon Web Services Payment Cryptography supports TDES and AES algorithms. For asymmetric decryption, Amazon Web Services Payment Cryptography supports RSA. When you use DUKPT, for TDES algorithm, the ciphertext data length must be a multiple of 16 bytes. For AES algorithm, the ciphertext data length must be a multiple of 32 bytes.

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:

• EncryptData

• GetPublicCertificate

• ImportKey

Specified by:

decryptDataAsync in interface AWSPaymentCryptographyDataAsync

Returns:

A Java Future containing the result of the DecryptData operation returned by the service.

See Also:

AWS API Documentation

decryptDataAsync

public Future<DecryptDataResult> decryptDataAsync(DecryptDataRequest request,
                                                  AsyncHandler<DecryptDataRequest,DecryptDataResult> asyncHandler)

Description copied from interface: AWSPaymentCryptographyDataAsync

Decrypts ciphertext data to plaintext using symmetric, asymmetric, or DUKPT data encryption key. For more information, see Decrypt data in the Amazon Web Services Payment Cryptography User Guide.

You can use an encryption key generated within Amazon Web Services Payment Cryptography, or you can import your own encryption key by calling ImportKey. For this operation, the key must have KeyModesOfUse set to Decrypt. In asymmetric decryption, Amazon Web Services Payment Cryptography decrypts the ciphertext using the private component of the asymmetric encryption key pair. For data encryption outside of Amazon Web Services Payment Cryptography, you can export the public component of the asymmetric key pair by calling GetPublicCertificate.

For symmetric and DUKPT decryption, Amazon Web Services Payment Cryptography supports TDES and AES algorithms. For asymmetric decryption, Amazon Web Services Payment Cryptography supports RSA. When you use DUKPT, for TDES algorithm, the ciphertext data length must be a multiple of 16 bytes. For AES algorithm, the ciphertext data length must be a multiple of 32 bytes.

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:

• EncryptData

• GetPublicCertificate

• ImportKey

Specified by:

decryptDataAsync in interface AWSPaymentCryptographyDataAsync

asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an implementation of the callback methods in this interface to receive notification of successful or unsuccessful completion of the operation.

Returns:

A Java Future containing the result of the DecryptData operation returned by the service.

See Also:

AWS API Documentation

encryptDataAsync

public Future<EncryptDataResult> encryptDataAsync(EncryptDataRequest request)

Description copied from interface: AWSPaymentCryptographyDataAsync

Encrypts plaintext data to ciphertext using symmetric, asymmetric, or DUKPT data encryption key. For more information, see Encrypt data in the Amazon Web Services Payment Cryptography User Guide.

You can generate an encryption key within Amazon Web Services Payment Cryptography by calling CreateKey. You can import your own encryption key by calling ImportKey. For this operation, the key must have KeyModesOfUse set to Encrypt. In asymmetric encryption, plaintext is encrypted using public component. You can import the public component of an asymmetric key pair created outside Amazon Web Services Payment Cryptography by calling ImportKey).

for symmetric and DUKPT encryption, Amazon Web Services Payment Cryptography supports TDES and AES algorithms. For asymmetric encryption, Amazon Web Services Payment Cryptography supports RSA. To encrypt using DUKPT, you must already have a DUKPT key in your account with KeyModesOfUse set to DeriveKey, or you can generate a new DUKPT key 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:

• DecryptData

• GetPublicCertificate

• ImportKey

• ReEncryptData

Specified by:

encryptDataAsync in interface AWSPaymentCryptographyDataAsync

Returns:

A Java Future containing the result of the EncryptData operation returned by the service.

See Also:

AWS API Documentation

encryptDataAsync

public Future<EncryptDataResult> encryptDataAsync(EncryptDataRequest request,
                                                  AsyncHandler<EncryptDataRequest,EncryptDataResult> asyncHandler)

Description copied from interface: AWSPaymentCryptographyDataAsync

Encrypts plaintext data to ciphertext using symmetric, asymmetric, or DUKPT data encryption key. For more information, see Encrypt data in the Amazon Web Services Payment Cryptography User Guide.

You can generate an encryption key within Amazon Web Services Payment Cryptography by calling CreateKey. You can import your own encryption key by calling ImportKey. For this operation, the key must have KeyModesOfUse set to Encrypt. In asymmetric encryption, plaintext is encrypted using public component. You can import the public component of an asymmetric key pair created outside Amazon Web Services Payment Cryptography by calling ImportKey).

for symmetric and DUKPT encryption, Amazon Web Services Payment Cryptography supports TDES and AES algorithms. For asymmetric encryption, Amazon Web Services Payment Cryptography supports RSA. To encrypt using DUKPT, you must already have a DUKPT key in your account with KeyModesOfUse set to DeriveKey, or you can generate a new DUKPT key 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:

• DecryptData

• GetPublicCertificate

• ImportKey

• ReEncryptData

Specified by:

encryptDataAsync in interface AWSPaymentCryptographyDataAsync

asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an implementation of the callback methods in this interface to receive notification of successful or unsuccessful completion of the operation.

Returns:

A Java Future containing the result of the EncryptData operation returned by the service.

See Also:

AWS API Documentation

generateCardValidationDataAsync

public Future<GenerateCardValidationDataResult> generateCardValidationDataAsync(GenerateCardValidationDataRequest request)

Description copied from interface: AWSPaymentCryptographyDataAsync

Generates card-related validation data using algorithms such as Card Verification Values (CVV/CVV2), Dynamic Card Verification Values (dCVV/dCVV2), or Card Security Codes (CSC). For more information, see Generate card data in the Amazon Web Services Payment Cryptography User Guide.

This operation generates a CVV or CSC value that is printed on a payment credit or debit card during card production. The CVV or CSC, PAN (Primary Account Number) and expiration date of the card are required to check its validity during transaction processing. To begin this operation, a CVK (Card Verification Key) encryption key is required. You can use CreateKey or ImportKey to establish a CVK within Amazon Web Services Payment Cryptography. The KeyModesOfUse should be set to Generate and Verify for a CVK encryption key.

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:

• ImportKey

• VerifyCardValidationData

Specified by:

generateCardValidationDataAsync in interface AWSPaymentCryptographyDataAsync

Returns:

A Java Future containing the result of the GenerateCardValidationData operation returned by the service.

See Also:

AWS API Documentation

generateCardValidationDataAsync

public Future<GenerateCardValidationDataResult> generateCardValidationDataAsync(GenerateCardValidationDataRequest request,
                                                                                AsyncHandler<GenerateCardValidationDataRequest,GenerateCardValidationDataResult> asyncHandler)

Description copied from interface: AWSPaymentCryptographyDataAsync

Generates card-related validation data using algorithms such as Card Verification Values (CVV/CVV2), Dynamic Card Verification Values (dCVV/dCVV2), or Card Security Codes (CSC). For more information, see Generate card data in the Amazon Web Services Payment Cryptography User Guide.

This operation generates a CVV or CSC value that is printed on a payment credit or debit card during card production. The CVV or CSC, PAN (Primary Account Number) and expiration date of the card are required to check its validity during transaction processing. To begin this operation, a CVK (Card Verification Key) encryption key is required. You can use CreateKey or ImportKey to establish a CVK within Amazon Web Services Payment Cryptography. The KeyModesOfUse should be set to Generate and Verify for a CVK encryption key.

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:

• ImportKey

• VerifyCardValidationData

Specified by:

generateCardValidationDataAsync in interface AWSPaymentCryptographyDataAsync

asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an implementation of the callback methods in this interface to receive notification of successful or unsuccessful completion of the operation.

Returns:

A Java Future containing the result of the GenerateCardValidationData operation returned by the service.

See Also:

AWS API Documentation

generateMacAsync

public Future<GenerateMacResult> generateMacAsync(GenerateMacRequest request)

Description copied from interface: AWSPaymentCryptographyDataAsync

Generates a Message Authentication Code (MAC) cryptogram within Amazon Web Services Payment Cryptography.

You can use this operation when keys won't be shared but mutual data is present on both ends for validation. In this case, known data values are used to generate a MAC on both ends for comparision without sending or receiving data in ciphertext or plaintext. You can use this operation to generate a DUPKT, HMAC or EMV MAC by setting generation attributes and algorithm to the associated values. The MAC generation encryption key must have valid values for KeyUsage such as TR31_M7_HMAC_KEY for HMAC generation, and they key must have KeyModesOfUse set to Generate and Verify.

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:

• VerifyMac

Specified by:

generateMacAsync in interface AWSPaymentCryptographyDataAsync

Returns:

A Java Future containing the result of the GenerateMac operation returned by the service.

See Also:

AWS API Documentation

generateMacAsync

public Future<GenerateMacResult> generateMacAsync(GenerateMacRequest request,
                                                  AsyncHandler<GenerateMacRequest,GenerateMacResult> asyncHandler)

Description copied from interface: AWSPaymentCryptographyDataAsync

Generates a Message Authentication Code (MAC) cryptogram within Amazon Web Services Payment Cryptography.

You can use this operation when keys won't be shared but mutual data is present on both ends for validation. In this case, known data values are used to generate a MAC on both ends for comparision without sending or receiving data in ciphertext or plaintext. You can use this operation to generate a DUPKT, HMAC or EMV MAC by setting generation attributes and algorithm to the associated values. The MAC generation encryption key must have valid values for KeyUsage such as TR31_M7_HMAC_KEY for HMAC generation, and they key must have KeyModesOfUse set to Generate and Verify.

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:

• VerifyMac

Specified by:

generateMacAsync in interface AWSPaymentCryptographyDataAsync

asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an implementation of the callback methods in this interface to receive notification of successful or unsuccessful completion of the operation.

Returns:

A Java Future containing the result of the GenerateMac operation returned by the service.

See Also:

AWS API Documentation

generatePinDataAsync

public Future<GeneratePinDataResult> generatePinDataAsync(GeneratePinDataRequest request)

Description copied from interface: AWSPaymentCryptographyDataAsync

Generates pin-related data such as PIN, PIN Verification Value (PVV), PIN Block, and PIN Offset during new card issuance or reissuance. For more information, see Generate PIN data in the Amazon Web Services Payment Cryptography User Guide.

PIN data is never transmitted in clear to or from Amazon Web Services Payment Cryptography. This operation generates PIN, PVV, or PIN Offset and then encrypts it using Pin Encryption Key (PEK) to create an EncryptedPinBlock for transmission from Amazon Web Services Payment Cryptography. This operation uses a separate Pin Verification Key (PVK) for VISA PVV generation.

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:

• GenerateCardValidationData

• TranslatePinData

• VerifyPinData

Specified by:

generatePinDataAsync in interface AWSPaymentCryptographyDataAsync

Returns:

A Java Future containing the result of the GeneratePinData operation returned by the service.

See Also:

AWS API Documentation

generatePinDataAsync

public Future<GeneratePinDataResult> generatePinDataAsync(GeneratePinDataRequest request,
                                                          AsyncHandler<GeneratePinDataRequest,GeneratePinDataResult> asyncHandler)

Description copied from interface: AWSPaymentCryptographyDataAsync

Generates pin-related data such as PIN, PIN Verification Value (PVV), PIN Block, and PIN Offset during new card issuance or reissuance. For more information, see Generate PIN data in the Amazon Web Services Payment Cryptography User Guide.

PIN data is never transmitted in clear to or from Amazon Web Services Payment Cryptography. This operation generates PIN, PVV, or PIN Offset and then encrypts it using Pin Encryption Key (PEK) to create an EncryptedPinBlock for transmission from Amazon Web Services Payment Cryptography. This operation uses a separate Pin Verification Key (PVK) for VISA PVV generation.

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:

• GenerateCardValidationData

• TranslatePinData

• VerifyPinData

Specified by:

generatePinDataAsync in interface AWSPaymentCryptographyDataAsync

asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an implementation of the callback methods in this interface to receive notification of successful or unsuccessful completion of the operation.

Returns:

A Java Future containing the result of the GeneratePinData operation returned by the service.

See Also:

AWS API Documentation

reEncryptDataAsync

public Future<ReEncryptDataResult> reEncryptDataAsync(ReEncryptDataRequest request)

Description copied from interface: AWSPaymentCryptographyDataAsync

Re-encrypt ciphertext using DUKPT, Symmetric and Asymmetric 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. In asymmetric encryption, ciphertext is encrypted using public component (imported by calling ImportKey) of the asymmetric key pair created outside of Amazon Web Services Payment Cryptography.

For symmetric and DUKPT encryption, Amazon Web Services Payment Cryptography supports TDES and AES algorithms. For asymmetric encryption, Amazon Web Services Payment Cryptography supports RSA. 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:

• DecryptData

• EncryptData

• GetPublicCertificate

• ImportKey

Specified by:

reEncryptDataAsync in interface AWSPaymentCryptographyDataAsync

Returns:

A Java Future containing the result of the ReEncryptData operation returned by the service.

See Also:

AWS API Documentation

reEncryptDataAsync

public Future<ReEncryptDataResult> reEncryptDataAsync(ReEncryptDataRequest request,
                                                      AsyncHandler<ReEncryptDataRequest,ReEncryptDataResult> asyncHandler)

Description copied from interface: AWSPaymentCryptographyDataAsync

Re-encrypt ciphertext using DUKPT, Symmetric and Asymmetric 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. In asymmetric encryption, ciphertext is encrypted using public component (imported by calling ImportKey) of the asymmetric key pair created outside of Amazon Web Services Payment Cryptography.

For symmetric and DUKPT encryption, Amazon Web Services Payment Cryptography supports TDES and AES algorithms. For asymmetric encryption, Amazon Web Services Payment Cryptography supports RSA. 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:

• DecryptData

• EncryptData

• GetPublicCertificate

• ImportKey

Specified by:

reEncryptDataAsync in interface AWSPaymentCryptographyDataAsync

asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an implementation of the callback methods in this interface to receive notification of successful or unsuccessful completion of the operation.

Returns:

A Java Future containing the result of the ReEncryptData operation returned by the service.

See Also:

AWS API Documentation

translatePinDataAsync

public Future<TranslatePinDataResult> translatePinDataAsync(TranslatePinDataRequest request)

Description copied from interface: AWSPaymentCryptographyDataAsync

Translates encrypted PIN block from and to ISO 9564 formats 0,1,3,4. For more information, see Translate PIN data in the Amazon Web Services Payment Cryptography User Guide.

PIN block translation involves changing the encrytion of PIN block from one encryption key to another encryption key and changing PIN block format from one to another without PIN block data leaving Amazon Web Services Payment Cryptography. The encryption key transformation can be from PEK (Pin Encryption Key) to BDK (Base Derivation Key) for DUKPT or from BDK for DUKPT to PEK. Amazon Web Services Payment Cryptography supports TDES and AES key derivation type for DUKPT tranlations. You can use this operation for P2PE (Point to Point Encryption) use cases where the encryption keys should change but the processing system either does not need to, or is not permitted to, decrypt the data.

The allowed combinations of PIN block format translations are guided by PCI. It is important to note that not all encrypted PIN block formats (example, format 1) require PAN (Primary Account Number) as input. And as such, PIN block format that requires PAN (example, formats 0,3,4) cannot be translated to a format (format 1) that does not require a PAN for generation.

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.

At this time, Amazon Web Services Payment Cryptography does not support translations to PIN format 4.

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

Related operations:

• GeneratePinData

• VerifyPinData

Specified by:

translatePinDataAsync in interface AWSPaymentCryptographyDataAsync

Returns:

A Java Future containing the result of the TranslatePinData operation returned by the service.

See Also:

AWS API Documentation

translatePinDataAsync

public Future<TranslatePinDataResult> translatePinDataAsync(TranslatePinDataRequest request,
                                                            AsyncHandler<TranslatePinDataRequest,TranslatePinDataResult> asyncHandler)

Description copied from interface: AWSPaymentCryptographyDataAsync

Translates encrypted PIN block from and to ISO 9564 formats 0,1,3,4. For more information, see Translate PIN data in the Amazon Web Services Payment Cryptography User Guide.

PIN block translation involves changing the encrytion of PIN block from one encryption key to another encryption key and changing PIN block format from one to another without PIN block data leaving Amazon Web Services Payment Cryptography. The encryption key transformation can be from PEK (Pin Encryption Key) to BDK (Base Derivation Key) for DUKPT or from BDK for DUKPT to PEK. Amazon Web Services Payment Cryptography supports TDES and AES key derivation type for DUKPT tranlations. You can use this operation for P2PE (Point to Point Encryption) use cases where the encryption keys should change but the processing system either does not need to, or is not permitted to, decrypt the data.

The allowed combinations of PIN block format translations are guided by PCI. It is important to note that not all encrypted PIN block formats (example, format 1) require PAN (Primary Account Number) as input. And as such, PIN block format that requires PAN (example, formats 0,3,4) cannot be translated to a format (format 1) that does not require a PAN for generation.

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.

At this time, Amazon Web Services Payment Cryptography does not support translations to PIN format 4.

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

Related operations:

• GeneratePinData

• VerifyPinData

Specified by:

translatePinDataAsync in interface AWSPaymentCryptographyDataAsync

asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an implementation of the callback methods in this interface to receive notification of successful or unsuccessful completion of the operation.

Returns:

A Java Future containing the result of the TranslatePinData operation returned by the service.

See Also:

AWS API Documentation

verifyAuthRequestCryptogramAsync

public Future<VerifyAuthRequestCryptogramResult> verifyAuthRequestCryptogramAsync(VerifyAuthRequestCryptogramRequest request)

Description copied from interface: AWSPaymentCryptographyDataAsync

Verifies Authorization Request Cryptogram (ARQC) for a EMV chip payment card authorization. For more information, see Verify auth request cryptogram in the Amazon Web Services Payment Cryptography User Guide.

ARQC generation is done outside of Amazon Web Services Payment Cryptography and is typically generated on a point of sale terminal for an EMV chip card to obtain payment authorization during transaction time. For ARQC verification, you must first import the ARQC generated outside of Amazon Web Services Payment Cryptography by calling ImportKey. This operation uses the imported ARQC and an major encryption key (DUKPT) created by calling CreateKey to either provide a boolean ARQC verification result or provide an APRC (Authorization Response Cryptogram) response using Method 1 or Method 2. The ARPC_METHOD_1 uses AuthResponseCode to generate ARPC and ARPC_METHOD_2 uses CardStatusUpdate to generate ARPC.

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:

• VerifyCardValidationData

• VerifyPinData

Specified by:

verifyAuthRequestCryptogramAsync in interface AWSPaymentCryptographyDataAsync

Returns:

A Java Future containing the result of the VerifyAuthRequestCryptogram operation returned by the service.

See Also:

AWS API Documentation

verifyAuthRequestCryptogramAsync

public Future<VerifyAuthRequestCryptogramResult> verifyAuthRequestCryptogramAsync(VerifyAuthRequestCryptogramRequest request,
                                                                                  AsyncHandler<VerifyAuthRequestCryptogramRequest,VerifyAuthRequestCryptogramResult> asyncHandler)

Description copied from interface: AWSPaymentCryptographyDataAsync

Verifies Authorization Request Cryptogram (ARQC) for a EMV chip payment card authorization. For more information, see Verify auth request cryptogram in the Amazon Web Services Payment Cryptography User Guide.

ARQC generation is done outside of Amazon Web Services Payment Cryptography and is typically generated on a point of sale terminal for an EMV chip card to obtain payment authorization during transaction time. For ARQC verification, you must first import the ARQC generated outside of Amazon Web Services Payment Cryptography by calling ImportKey. This operation uses the imported ARQC and an major encryption key (DUKPT) created by calling CreateKey to either provide a boolean ARQC verification result or provide an APRC (Authorization Response Cryptogram) response using Method 1 or Method 2. The ARPC_METHOD_1 uses AuthResponseCode to generate ARPC and ARPC_METHOD_2 uses CardStatusUpdate to generate ARPC.

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:

• VerifyCardValidationData

• VerifyPinData

Specified by:

verifyAuthRequestCryptogramAsync in interface AWSPaymentCryptographyDataAsync

asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an implementation of the callback methods in this interface to receive notification of successful or unsuccessful completion of the operation.

Returns:

A Java Future containing the result of the VerifyAuthRequestCryptogram operation returned by the service.

See Also:

AWS API Documentation

verifyCardValidationDataAsync

public Future<VerifyCardValidationDataResult> verifyCardValidationDataAsync(VerifyCardValidationDataRequest request)

Description copied from interface: AWSPaymentCryptographyDataAsync

Verifies card-related validation data using algorithms such as Card Verification Values (CVV/CVV2), Dynamic Card Verification Values (dCVV/dCVV2) and Card Security Codes (CSC). For more information, see Verify card data in the Amazon Web Services Payment Cryptography User Guide.

This operation validates the CVV or CSC codes that is printed on a payment credit or debit card during card payment transaction. The input values are typically provided as part of an inbound transaction to an issuer or supporting platform partner. Amazon Web Services Payment Cryptography uses CVV or CSC, PAN (Primary Account Number) and expiration date of the card to check its validity during transaction processing. In this operation, the CVK (Card Verification Key) encryption key for use with card data verification is same as the one in used for GenerateCardValidationData.

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:

• GenerateCardValidationData

• VerifyAuthRequestCryptogram

• VerifyPinData

Specified by:

verifyCardValidationDataAsync in interface AWSPaymentCryptographyDataAsync

Returns:

A Java Future containing the result of the VerifyCardValidationData operation returned by the service.

See Also:

AWS API Documentation

verifyCardValidationDataAsync

public Future<VerifyCardValidationDataResult> verifyCardValidationDataAsync(VerifyCardValidationDataRequest request,
                                                                            AsyncHandler<VerifyCardValidationDataRequest,VerifyCardValidationDataResult> asyncHandler)

Description copied from interface: AWSPaymentCryptographyDataAsync

Verifies card-related validation data using algorithms such as Card Verification Values (CVV/CVV2), Dynamic Card Verification Values (dCVV/dCVV2) and Card Security Codes (CSC). For more information, see Verify card data in the Amazon Web Services Payment Cryptography User Guide.

This operation validates the CVV or CSC codes that is printed on a payment credit or debit card during card payment transaction. The input values are typically provided as part of an inbound transaction to an issuer or supporting platform partner. Amazon Web Services Payment Cryptography uses CVV or CSC, PAN (Primary Account Number) and expiration date of the card to check its validity during transaction processing. In this operation, the CVK (Card Verification Key) encryption key for use with card data verification is same as the one in used for GenerateCardValidationData.

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:

• GenerateCardValidationData

• VerifyAuthRequestCryptogram

• VerifyPinData

Specified by:

verifyCardValidationDataAsync in interface AWSPaymentCryptographyDataAsync

asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an implementation of the callback methods in this interface to receive notification of successful or unsuccessful completion of the operation.

Returns:

A Java Future containing the result of the VerifyCardValidationData operation returned by the service.

See Also:

AWS API Documentation

verifyMacAsync

public Future<VerifyMacResult> verifyMacAsync(VerifyMacRequest request)

Description copied from interface: AWSPaymentCryptographyDataAsync

Verifies a Message Authentication Code (MAC).

You can use this operation when keys won't be shared but mutual data is present on both ends for validation. In this case, known data values are used to generate a MAC on both ends for verification without sending or receiving data in ciphertext or plaintext. You can use this operation to verify a DUPKT, HMAC or EMV MAC by setting generation attributes and algorithm to the associated values. Use the same encryption key for MAC verification as you use for GenerateMac.

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:

• GenerateMac

Specified by:

verifyMacAsync in interface AWSPaymentCryptographyDataAsync

Returns:

A Java Future containing the result of the VerifyMac operation returned by the service.

See Also:

AWS API Documentation

verifyMacAsync

public Future<VerifyMacResult> verifyMacAsync(VerifyMacRequest request,
                                              AsyncHandler<VerifyMacRequest,VerifyMacResult> asyncHandler)

Description copied from interface: AWSPaymentCryptographyDataAsync

Verifies a Message Authentication Code (MAC).

You can use this operation when keys won't be shared but mutual data is present on both ends for validation. In this case, known data values are used to generate a MAC on both ends for verification without sending or receiving data in ciphertext or plaintext. You can use this operation to verify a DUPKT, HMAC or EMV MAC by setting generation attributes and algorithm to the associated values. Use the same encryption key for MAC verification as you use for GenerateMac.

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:

• GenerateMac

Specified by:

verifyMacAsync in interface AWSPaymentCryptographyDataAsync

asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an implementation of the callback methods in this interface to receive notification of successful or unsuccessful completion of the operation.

Returns:

A Java Future containing the result of the VerifyMac operation returned by the service.

See Also:

AWS API Documentation

verifyPinDataAsync

public Future<VerifyPinDataResult> verifyPinDataAsync(VerifyPinDataRequest request)

Description copied from interface: AWSPaymentCryptographyDataAsync

Verifies pin-related data such as PIN and PIN Offset using algorithms including VISA PVV and IBM3624. For more information, see Verify PIN data in the Amazon Web Services Payment Cryptography User Guide.

This operation verifies PIN data for user payment card. A card holder PIN data is never transmitted in clear to or from Amazon Web Services Payment Cryptography. This operation uses PIN Verification Key (PVK) for PIN or PIN Offset generation and then encrypts it using PIN Encryption Key (PEK) to create an EncryptedPinBlock for transmission from Amazon Web Services Payment Cryptography.

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:

• GeneratePinData

• TranslatePinData

Specified by:

verifyPinDataAsync in interface AWSPaymentCryptographyDataAsync

Returns:

A Java Future containing the result of the VerifyPinData operation returned by the service.

See Also:

AWS API Documentation

verifyPinDataAsync

public Future<VerifyPinDataResult> verifyPinDataAsync(VerifyPinDataRequest request,
                                                      AsyncHandler<VerifyPinDataRequest,VerifyPinDataResult> asyncHandler)

Description copied from interface: AWSPaymentCryptographyDataAsync

Verifies pin-related data such as PIN and PIN Offset using algorithms including VISA PVV and IBM3624. For more information, see Verify PIN data in the Amazon Web Services Payment Cryptography User Guide.

This operation verifies PIN data for user payment card. A card holder PIN data is never transmitted in clear to or from Amazon Web Services Payment Cryptography. This operation uses PIN Verification Key (PVK) for PIN or PIN Offset generation and then encrypts it using PIN Encryption Key (PEK) to create an EncryptedPinBlock for transmission from Amazon Web Services Payment Cryptography.

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:

• GeneratePinData

• TranslatePinData

Specified by:

verifyPinDataAsync in interface AWSPaymentCryptographyDataAsync

asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an implementation of the callback methods in this interface to receive notification of successful or unsuccessful completion of the operation.

Returns:

A Java Future containing the result of the VerifyPinData operation returned by the service.

See Also:

AWS API Documentation