@Generated(value="software.amazon.awssdk:codegen") @ThreadSafe public interface PaymentCryptographyAsyncClient extends AwsClient
builder() method.
You use the Amazon Web Services Payment Cryptography Control Plane to manage the encryption keys you use for payment-related cryptographic operations. You can create, import, export, share, manage, and delete keys. You can also manage Identity and Access Management (IAM) policies for keys. For more information, see Identity and access management in the Amazon Web Services Payment Cryptography User Guide.
To use encryption keys for payment-related transaction processing and associated cryptographic operations, you use the Amazon Web Services Payment Cryptography Data Plane. You can encrypt, decrypt, generate, verify, and translate payment-related cryptographic operations.
All Amazon Web Services Payment Cryptography API calls must be signed and transmitted using Transport Layer Security (TLS). We recommend you always use the latest supported TLS version for logging API requests.
Amazon Web Services Payment Cryptography supports CloudTrail, a service that logs Amazon Web Services API calls and related events for your Amazon Web Services account and delivers them to an Amazon S3 bucket that you specify. By using the information collected by CloudTrail, you can determine what requests were made to Amazon Web Services Payment Cryptography, who made the request, when it was made, and so on. If you don't configure a trail, you can still view the most recent events in the CloudTrail console. For more information, see the CloudTrail User Guide.
| Modifier and Type | Field and Description |
|---|---|
static String |
SERVICE_METADATA_ID
Value for looking up the service's metadata from the
ServiceMetadataProvider. |
static String |
SERVICE_NAME |
| Modifier and Type | Method and Description |
|---|---|
static PaymentCryptographyAsyncClientBuilder |
builder()
Create a builder that can be used to configure and create a
PaymentCryptographyAsyncClient. |
static PaymentCryptographyAsyncClient |
create()
Create a
PaymentCryptographyAsyncClient with the region loaded from the
DefaultAwsRegionProviderChain and credentials loaded from the
DefaultCredentialsProvider. |
default CompletableFuture<CreateAliasResponse> |
createAlias(Consumer<CreateAliasRequest.Builder> createAliasRequest)
Creates an alias, or a friendly name, for an Amazon Web Services Payment Cryptography key.
|
default CompletableFuture<CreateAliasResponse> |
createAlias(CreateAliasRequest createAliasRequest)
Creates an alias, or a friendly name, for an Amazon Web Services Payment Cryptography key.
|
default CompletableFuture<CreateKeyResponse> |
createKey(Consumer<CreateKeyRequest.Builder> createKeyRequest)
Creates an Amazon Web Services Payment Cryptography key, a logical representation of a cryptographic key, that is
unique in your account and Amazon Web Services Region.
|
default CompletableFuture<CreateKeyResponse> |
createKey(CreateKeyRequest createKeyRequest)
Creates an Amazon Web Services Payment Cryptography key, a logical representation of a cryptographic key, that is
unique in your account and Amazon Web Services Region.
|
default CompletableFuture<DeleteAliasResponse> |
deleteAlias(Consumer<DeleteAliasRequest.Builder> deleteAliasRequest)
Deletes the alias, but doesn't affect the underlying key.
|
default CompletableFuture<DeleteAliasResponse> |
deleteAlias(DeleteAliasRequest deleteAliasRequest)
Deletes the alias, but doesn't affect the underlying key.
|
default CompletableFuture<DeleteKeyResponse> |
deleteKey(Consumer<DeleteKeyRequest.Builder> deleteKeyRequest)
Deletes the key material and all metadata associated with Amazon Web Services Payment Cryptography key.
|
default CompletableFuture<DeleteKeyResponse> |
deleteKey(DeleteKeyRequest deleteKeyRequest)
Deletes the key material and all metadata associated with Amazon Web Services Payment Cryptography key.
|
default CompletableFuture<ExportKeyResponse> |
exportKey(Consumer<ExportKeyRequest.Builder> exportKeyRequest)
Exports a key from Amazon Web Services Payment Cryptography using either ANSI X9 TR-34 or TR-31 key export
standard.
|
default CompletableFuture<ExportKeyResponse> |
exportKey(ExportKeyRequest exportKeyRequest)
Exports a key from Amazon Web Services Payment Cryptography using either ANSI X9 TR-34 or TR-31 key export
standard.
|
default CompletableFuture<GetAliasResponse> |
getAlias(Consumer<GetAliasRequest.Builder> getAliasRequest)
Gets the Amazon Web Services Payment Cryptography key associated with the alias.
|
default CompletableFuture<GetAliasResponse> |
getAlias(GetAliasRequest getAliasRequest)
Gets the Amazon Web Services Payment Cryptography key associated with the alias.
|
default CompletableFuture<GetKeyResponse> |
getKey(Consumer<GetKeyRequest.Builder> getKeyRequest)
Gets the key material for an Amazon Web Services Payment Cryptography key, including the immutable and mutable
data specified when the key was created.
|
default CompletableFuture<GetKeyResponse> |
getKey(GetKeyRequest getKeyRequest)
Gets the key material for an Amazon Web Services Payment Cryptography key, including the immutable and mutable
data specified when the key was created.
|
default CompletableFuture<GetParametersForExportResponse> |
getParametersForExport(Consumer<GetParametersForExportRequest.Builder> getParametersForExportRequest)
Gets the export token and the signing key certificate to initiate a TR-34 key export from Amazon Web Services
Payment Cryptography.
|
default CompletableFuture<GetParametersForExportResponse> |
getParametersForExport(GetParametersForExportRequest getParametersForExportRequest)
Gets the export token and the signing key certificate to initiate a TR-34 key export from Amazon Web Services
Payment Cryptography.
|
default CompletableFuture<GetParametersForImportResponse> |
getParametersForImport(Consumer<GetParametersForImportRequest.Builder> getParametersForImportRequest)
Gets the import token and the wrapping key certificate to initiate a TR-34 key import into Amazon Web Services
Payment Cryptography.
|
default CompletableFuture<GetParametersForImportResponse> |
getParametersForImport(GetParametersForImportRequest getParametersForImportRequest)
Gets the import token and the wrapping key certificate to initiate a TR-34 key import into Amazon Web Services
Payment Cryptography.
|
default CompletableFuture<GetPublicKeyCertificateResponse> |
getPublicKeyCertificate(Consumer<GetPublicKeyCertificateRequest.Builder> getPublicKeyCertificateRequest)
Gets the public key certificate of the asymmetric key pair that exists within Amazon Web Services Payment
Cryptography.
|
default CompletableFuture<GetPublicKeyCertificateResponse> |
getPublicKeyCertificate(GetPublicKeyCertificateRequest getPublicKeyCertificateRequest)
Gets the public key certificate of the asymmetric key pair that exists within Amazon Web Services Payment
Cryptography.
|
default CompletableFuture<ImportKeyResponse> |
importKey(Consumer<ImportKeyRequest.Builder> importKeyRequest)
Imports keys and public key certificates into Amazon Web Services Payment Cryptography.
|
default CompletableFuture<ImportKeyResponse> |
importKey(ImportKeyRequest importKeyRequest)
Imports keys and public key certificates into Amazon Web Services Payment Cryptography.
|
default CompletableFuture<ListAliasesResponse> |
listAliases(Consumer<ListAliasesRequest.Builder> listAliasesRequest)
Lists the aliases for all keys in the caller's Amazon Web Services account and Amazon Web Services Region.
|
default CompletableFuture<ListAliasesResponse> |
listAliases(ListAliasesRequest listAliasesRequest)
Lists the aliases for all keys in the caller's Amazon Web Services account and Amazon Web Services Region.
|
default ListAliasesPublisher |
listAliasesPaginator(Consumer<ListAliasesRequest.Builder> listAliasesRequest)
Lists the aliases for all keys in the caller's Amazon Web Services account and Amazon Web Services Region.
|
default ListAliasesPublisher |
listAliasesPaginator(ListAliasesRequest listAliasesRequest)
Lists the aliases for all keys in the caller's Amazon Web Services account and Amazon Web Services Region.
|
default CompletableFuture<ListKeysResponse> |
listKeys(Consumer<ListKeysRequest.Builder> listKeysRequest)
Lists the keys in the caller's Amazon Web Services account and Amazon Web Services Region.
|
default CompletableFuture<ListKeysResponse> |
listKeys(ListKeysRequest listKeysRequest)
Lists the keys in the caller's Amazon Web Services account and Amazon Web Services Region.
|
default ListKeysPublisher |
listKeysPaginator(Consumer<ListKeysRequest.Builder> listKeysRequest)
Lists the keys in the caller's Amazon Web Services account and Amazon Web Services Region.
|
default ListKeysPublisher |
listKeysPaginator(ListKeysRequest listKeysRequest)
Lists the keys in the caller's Amazon Web Services account and Amazon Web Services Region.
|
default CompletableFuture<ListTagsForResourceResponse> |
listTagsForResource(Consumer<ListTagsForResourceRequest.Builder> listTagsForResourceRequest)
Lists the tags for an Amazon Web Services resource.
|
default CompletableFuture<ListTagsForResourceResponse> |
listTagsForResource(ListTagsForResourceRequest listTagsForResourceRequest)
Lists the tags for an Amazon Web Services resource.
|
default ListTagsForResourcePublisher |
listTagsForResourcePaginator(Consumer<ListTagsForResourceRequest.Builder> listTagsForResourceRequest)
Lists the tags for an Amazon Web Services resource.
|
default ListTagsForResourcePublisher |
listTagsForResourcePaginator(ListTagsForResourceRequest listTagsForResourceRequest)
Lists the tags for an Amazon Web Services resource.
|
default CompletableFuture<RestoreKeyResponse> |
restoreKey(Consumer<RestoreKeyRequest.Builder> restoreKeyRequest)
Cancels a scheduled key deletion during the waiting period.
|
default CompletableFuture<RestoreKeyResponse> |
restoreKey(RestoreKeyRequest restoreKeyRequest)
Cancels a scheduled key deletion during the waiting period.
|
default PaymentCryptographyServiceClientConfiguration |
serviceClientConfiguration() |
default CompletableFuture<StartKeyUsageResponse> |
startKeyUsage(Consumer<StartKeyUsageRequest.Builder> startKeyUsageRequest)
Enables an Amazon Web Services Payment Cryptography key, which makes it active for cryptographic operations
within Amazon Web Services Payment Cryptography
|
default CompletableFuture<StartKeyUsageResponse> |
startKeyUsage(StartKeyUsageRequest startKeyUsageRequest)
Enables an Amazon Web Services Payment Cryptography key, which makes it active for cryptographic operations
within Amazon Web Services Payment Cryptography
|
default CompletableFuture<StopKeyUsageResponse> |
stopKeyUsage(Consumer<StopKeyUsageRequest.Builder> stopKeyUsageRequest)
Disables an Amazon Web Services Payment Cryptography key, which makes it inactive within Amazon Web Services
Payment Cryptography.
|
default CompletableFuture<StopKeyUsageResponse> |
stopKeyUsage(StopKeyUsageRequest stopKeyUsageRequest)
Disables an Amazon Web Services Payment Cryptography key, which makes it inactive within Amazon Web Services
Payment Cryptography.
|
default CompletableFuture<TagResourceResponse> |
tagResource(Consumer<TagResourceRequest.Builder> tagResourceRequest)
Adds or edits tags on an Amazon Web Services Payment Cryptography key.
|
default CompletableFuture<TagResourceResponse> |
tagResource(TagResourceRequest tagResourceRequest)
Adds or edits tags on an Amazon Web Services Payment Cryptography key.
|
default CompletableFuture<UntagResourceResponse> |
untagResource(Consumer<UntagResourceRequest.Builder> untagResourceRequest)
Deletes a tag from an Amazon Web Services Payment Cryptography key.
|
default CompletableFuture<UntagResourceResponse> |
untagResource(UntagResourceRequest untagResourceRequest)
Deletes a tag from an Amazon Web Services Payment Cryptography key.
|
default CompletableFuture<UpdateAliasResponse> |
updateAlias(Consumer<UpdateAliasRequest.Builder> updateAliasRequest)
Associates an existing Amazon Web Services Payment Cryptography alias with a different key.
|
default CompletableFuture<UpdateAliasResponse> |
updateAlias(UpdateAliasRequest updateAliasRequest)
Associates an existing Amazon Web Services Payment Cryptography alias with a different key.
|
serviceNameclosestatic final String SERVICE_NAME
static final String SERVICE_METADATA_ID
ServiceMetadataProvider.default CompletableFuture<CreateAliasResponse> createAlias(CreateAliasRequest createAliasRequest)
Creates an alias, or a friendly name, for an Amazon Web Services Payment Cryptography key. You can use an alias to identify a key in the console and when you call cryptographic operations such as EncryptData or DecryptData.
You can associate the alias with any key in the same Amazon Web Services Region. Each alias is associated with only one key at a time, but a key can have multiple aliases. You can't create an alias without a key. The alias must be unique in the account and Amazon Web Services Region, but you can create another alias with the same name in a different Amazon Web Services Region.
To change the key that's associated with the alias, call UpdateAlias. To delete the alias, call DeleteAlias. These operations don't affect the underlying key. To get the alias that you created, call ListAliases.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
createAliasRequest - default CompletableFuture<CreateAliasResponse> createAlias(Consumer<CreateAliasRequest.Builder> createAliasRequest)
Creates an alias, or a friendly name, for an Amazon Web Services Payment Cryptography key. You can use an alias to identify a key in the console and when you call cryptographic operations such as EncryptData or DecryptData.
You can associate the alias with any key in the same Amazon Web Services Region. Each alias is associated with only one key at a time, but a key can have multiple aliases. You can't create an alias without a key. The alias must be unique in the account and Amazon Web Services Region, but you can create another alias with the same name in a different Amazon Web Services Region.
To change the key that's associated with the alias, call UpdateAlias. To delete the alias, call DeleteAlias. These operations don't affect the underlying key. To get the alias that you created, call ListAliases.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
This is a convenience which creates an instance of the CreateAliasRequest.Builder avoiding the need to
create one manually via CreateAliasRequest.builder()
createAliasRequest - A Consumer that will call methods on
CreateAliasRequest.Builder to create a
request.default CompletableFuture<CreateKeyResponse> createKey(CreateKeyRequest createKeyRequest)
Creates an Amazon Web Services Payment Cryptography key, a logical representation of a cryptographic key, that is unique in your account and Amazon Web Services Region. You use keys for cryptographic functions such as encryption and decryption.
In addition to the key material used in cryptographic operations, an Amazon Web Services Payment Cryptography key includes metadata such as the key ARN, key usage, key origin, creation date, description, and key state.
When you create a key, you specify both immutable and mutable data about the key. The immutable data contains key
attributes that defines the scope and cryptographic operations that you can perform using the key, for example
key class (example: SYMMETRIC_KEY), key algorithm (example: TDES_2KEY), key usage
(example: TR31_P0_PIN_ENCRYPTION_KEY) and key modes of use (example: Encrypt). For
information about valid combinations of key attributes, see Understanding
key attributes in the Amazon Web Services Payment Cryptography User Guide. The mutable data contained
within a key includes usage timestamp and key deletion timestamp and can be modified after creation.
Amazon Web Services Payment Cryptography binds key attributes to keys using key blocks when you store or export them. Amazon Web Services Payment Cryptography stores the key contents wrapped and never stores or transmits them in the clear.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
createKeyRequest - default CompletableFuture<CreateKeyResponse> createKey(Consumer<CreateKeyRequest.Builder> createKeyRequest)
Creates an Amazon Web Services Payment Cryptography key, a logical representation of a cryptographic key, that is unique in your account and Amazon Web Services Region. You use keys for cryptographic functions such as encryption and decryption.
In addition to the key material used in cryptographic operations, an Amazon Web Services Payment Cryptography key includes metadata such as the key ARN, key usage, key origin, creation date, description, and key state.
When you create a key, you specify both immutable and mutable data about the key. The immutable data contains key
attributes that defines the scope and cryptographic operations that you can perform using the key, for example
key class (example: SYMMETRIC_KEY), key algorithm (example: TDES_2KEY), key usage
(example: TR31_P0_PIN_ENCRYPTION_KEY) and key modes of use (example: Encrypt). For
information about valid combinations of key attributes, see Understanding
key attributes in the Amazon Web Services Payment Cryptography User Guide. The mutable data contained
within a key includes usage timestamp and key deletion timestamp and can be modified after creation.
Amazon Web Services Payment Cryptography binds key attributes to keys using key blocks when you store or export them. Amazon Web Services Payment Cryptography stores the key contents wrapped and never stores or transmits them in the clear.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
This is a convenience which creates an instance of the CreateKeyRequest.Builder avoiding the need to
create one manually via CreateKeyRequest.builder()
createKeyRequest - A Consumer that will call methods on
CreateKeyRequest.Builder to create a
request.default CompletableFuture<DeleteAliasResponse> deleteAlias(DeleteAliasRequest deleteAliasRequest)
Deletes the alias, but doesn't affect the underlying key.
Each key can have multiple aliases. To get the aliases of all keys, use the ListAliases operation. To change the alias of a key, first use DeleteAlias to delete the current alias and then use CreateAlias to create a new alias. To associate an existing alias with a different key, call UpdateAlias.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
deleteAliasRequest - default CompletableFuture<DeleteAliasResponse> deleteAlias(Consumer<DeleteAliasRequest.Builder> deleteAliasRequest)
Deletes the alias, but doesn't affect the underlying key.
Each key can have multiple aliases. To get the aliases of all keys, use the ListAliases operation. To change the alias of a key, first use DeleteAlias to delete the current alias and then use CreateAlias to create a new alias. To associate an existing alias with a different key, call UpdateAlias.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
This is a convenience which creates an instance of the DeleteAliasRequest.Builder avoiding the need to
create one manually via DeleteAliasRequest.builder()
deleteAliasRequest - A Consumer that will call methods on
DeleteAliasRequest.Builder to create a
request.default CompletableFuture<DeleteKeyResponse> deleteKey(DeleteKeyRequest deleteKeyRequest)
Deletes the key material and all metadata associated with Amazon Web Services Payment Cryptography key.
Key deletion is irreversible. After a key is deleted, you can't perform cryptographic operations using the key.
For example, you can't decrypt data that was encrypted by a deleted Amazon Web Services Payment Cryptography key,
and the data may become unrecoverable. Because key deletion is destructive, Amazon Web Services Payment
Cryptography has a safety mechanism to prevent accidental deletion of a key. When you call this operation, Amazon
Web Services Payment Cryptography disables the specified key but doesn't delete it until after a waiting period.
The default waiting period is 7 days. To set a different waiting period, set DeleteKeyInDays. During
the waiting period, the KeyState is DELETE_PENDING. After the key is deleted, the
KeyState is DELETE_COMPLETE.
If you delete key material, you can use ImportKey to reimport the same key material into the Amazon Web Services Payment Cryptography key.
You should delete a key only when you are sure that you don't need to use it anymore and no other parties are utilizing this key. If you aren't sure, consider deactivating it instead by calling StopKeyUsage.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
deleteKeyRequest - default CompletableFuture<DeleteKeyResponse> deleteKey(Consumer<DeleteKeyRequest.Builder> deleteKeyRequest)
Deletes the key material and all metadata associated with Amazon Web Services Payment Cryptography key.
Key deletion is irreversible. After a key is deleted, you can't perform cryptographic operations using the key.
For example, you can't decrypt data that was encrypted by a deleted Amazon Web Services Payment Cryptography key,
and the data may become unrecoverable. Because key deletion is destructive, Amazon Web Services Payment
Cryptography has a safety mechanism to prevent accidental deletion of a key. When you call this operation, Amazon
Web Services Payment Cryptography disables the specified key but doesn't delete it until after a waiting period.
The default waiting period is 7 days. To set a different waiting period, set DeleteKeyInDays. During
the waiting period, the KeyState is DELETE_PENDING. After the key is deleted, the
KeyState is DELETE_COMPLETE.
If you delete key material, you can use ImportKey to reimport the same key material into the Amazon Web Services Payment Cryptography key.
You should delete a key only when you are sure that you don't need to use it anymore and no other parties are utilizing this key. If you aren't sure, consider deactivating it instead by calling StopKeyUsage.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
This is a convenience which creates an instance of the DeleteKeyRequest.Builder avoiding the need to
create one manually via DeleteKeyRequest.builder()
deleteKeyRequest - A Consumer that will call methods on
DeleteKeyRequest.Builder to create a
request.default CompletableFuture<ExportKeyResponse> exportKey(ExportKeyRequest exportKeyRequest)
Exports a key from Amazon Web Services Payment Cryptography using either ANSI X9 TR-34 or TR-31 key export standard.
Amazon Web Services Payment Cryptography simplifies main or root key exchange process by eliminating the need of a paper-based key exchange process. It takes a modern and secure approach based of the ANSI X9 TR-34 key exchange standard.
You can use ExportKey to export main or root keys such as KEK (Key Encryption Key), using asymmetric
key exchange technique following ANSI X9 TR-34 standard. The ANSI X9 TR-34 standard uses asymmetric keys to
establishes bi-directional trust between the two parties exchanging keys. After which you can export working keys
using the ANSI X9 TR-31 symmetric key exchange standard as mandated by PCI PIN. Using this operation, you can
share your Amazon Web Services Payment Cryptography generated keys with other service partners to perform
cryptographic operations outside of Amazon Web Services Payment Cryptography
TR-34 key export
Amazon Web Services Payment Cryptography uses TR-34 asymmetric key exchange standard to export main keys such as KEK. In TR-34 terminology, the sending party of the key is called Key Distribution Host (KDH) and the receiving party of the key is called Key Receiving Host (KRH). In key export process, KDH is Amazon Web Services Payment Cryptography which initiates key export. KRH is the user receiving the key. Before you initiate TR-34 key export, you must obtain an export token by calling GetParametersForExport. This operation also returns the signing key certificate that KDH uses to sign the wrapped key to generate a TR-34 wrapped key block. The export token expires after 7 days.
Set the following parameters:
The KeyARN of the certificate chain that will sign the wrapping key certificate. This must exist
within Amazon Web Services Payment Cryptography before you initiate TR-34 key export. If it does not exist, you
can import it by calling ImportKey for RootCertificatePublicKey.
Obtained from KDH by calling GetParametersForExport.
Amazon Web Services Payment Cryptography uses this to wrap the key under export.
When this operation is successful, Amazon Web Services Payment Cryptography returns the TR-34 wrapped key block.
TR-31 key export
Amazon Web Services Payment Cryptography uses TR-31 symmetric key exchange standard to export working keys. In TR-31, you must use a main key such as KEK to encrypt or wrap the key under export. To establish a KEK, you can use CreateKey or ImportKey. When this operation is successful, Amazon Web Services Payment Cryptography returns a TR-31 wrapped key block.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
exportKeyRequest - default CompletableFuture<ExportKeyResponse> exportKey(Consumer<ExportKeyRequest.Builder> exportKeyRequest)
Exports a key from Amazon Web Services Payment Cryptography using either ANSI X9 TR-34 or TR-31 key export standard.
Amazon Web Services Payment Cryptography simplifies main or root key exchange process by eliminating the need of a paper-based key exchange process. It takes a modern and secure approach based of the ANSI X9 TR-34 key exchange standard.
You can use ExportKey to export main or root keys such as KEK (Key Encryption Key), using asymmetric
key exchange technique following ANSI X9 TR-34 standard. The ANSI X9 TR-34 standard uses asymmetric keys to
establishes bi-directional trust between the two parties exchanging keys. After which you can export working keys
using the ANSI X9 TR-31 symmetric key exchange standard as mandated by PCI PIN. Using this operation, you can
share your Amazon Web Services Payment Cryptography generated keys with other service partners to perform
cryptographic operations outside of Amazon Web Services Payment Cryptography
TR-34 key export
Amazon Web Services Payment Cryptography uses TR-34 asymmetric key exchange standard to export main keys such as KEK. In TR-34 terminology, the sending party of the key is called Key Distribution Host (KDH) and the receiving party of the key is called Key Receiving Host (KRH). In key export process, KDH is Amazon Web Services Payment Cryptography which initiates key export. KRH is the user receiving the key. Before you initiate TR-34 key export, you must obtain an export token by calling GetParametersForExport. This operation also returns the signing key certificate that KDH uses to sign the wrapped key to generate a TR-34 wrapped key block. The export token expires after 7 days.
Set the following parameters:
The KeyARN of the certificate chain that will sign the wrapping key certificate. This must exist
within Amazon Web Services Payment Cryptography before you initiate TR-34 key export. If it does not exist, you
can import it by calling ImportKey for RootCertificatePublicKey.
Obtained from KDH by calling GetParametersForExport.
Amazon Web Services Payment Cryptography uses this to wrap the key under export.
When this operation is successful, Amazon Web Services Payment Cryptography returns the TR-34 wrapped key block.
TR-31 key export
Amazon Web Services Payment Cryptography uses TR-31 symmetric key exchange standard to export working keys. In TR-31, you must use a main key such as KEK to encrypt or wrap the key under export. To establish a KEK, you can use CreateKey or ImportKey. When this operation is successful, Amazon Web Services Payment Cryptography returns a TR-31 wrapped key block.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
This is a convenience which creates an instance of the ExportKeyRequest.Builder avoiding the need to
create one manually via ExportKeyRequest.builder()
exportKeyRequest - A Consumer that will call methods on
ExportKeyRequest.Builder to create a
request.default CompletableFuture<GetAliasResponse> getAlias(GetAliasRequest getAliasRequest)
Gets the Amazon Web Services Payment Cryptography key associated with the alias.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
getAliasRequest - default CompletableFuture<GetAliasResponse> getAlias(Consumer<GetAliasRequest.Builder> getAliasRequest)
Gets the Amazon Web Services Payment Cryptography key associated with the alias.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
This is a convenience which creates an instance of the GetAliasRequest.Builder avoiding the need to
create one manually via GetAliasRequest.builder()
getAliasRequest - A Consumer that will call methods on
GetAliasRequest.Builder to create a
request.default CompletableFuture<GetKeyResponse> getKey(GetKeyRequest getKeyRequest)
Gets the key material for an Amazon Web Services Payment Cryptography key, including the immutable and mutable data specified when the key was created.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
getKeyRequest - default CompletableFuture<GetKeyResponse> getKey(Consumer<GetKeyRequest.Builder> getKeyRequest)
Gets the key material for an Amazon Web Services Payment Cryptography key, including the immutable and mutable data specified when the key was created.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
This is a convenience which creates an instance of the GetKeyRequest.Builder avoiding the need to create
one manually via GetKeyRequest.builder()
getKeyRequest - A Consumer that will call methods on
GetKeyRequest.Builder to create a
request.default CompletableFuture<GetParametersForExportResponse> getParametersForExport(GetParametersForExportRequest getParametersForExportRequest)
Gets the export token and the signing key certificate to initiate a TR-34 key export from Amazon Web Services Payment Cryptography.
The signing key certificate signs the wrapped key under export within the TR-34 key payload. The export token and signing key certificate must be in place and operational before calling ExportKey. The export token expires in 7 days. You can use the same export token to export multiple keys from your service account.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
getParametersForExportRequest - default CompletableFuture<GetParametersForExportResponse> getParametersForExport(Consumer<GetParametersForExportRequest.Builder> getParametersForExportRequest)
Gets the export token and the signing key certificate to initiate a TR-34 key export from Amazon Web Services Payment Cryptography.
The signing key certificate signs the wrapped key under export within the TR-34 key payload. The export token and signing key certificate must be in place and operational before calling ExportKey. The export token expires in 7 days. You can use the same export token to export multiple keys from your service account.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
This is a convenience which creates an instance of the GetParametersForExportRequest.Builder avoiding the
need to create one manually via GetParametersForExportRequest.builder()
getParametersForExportRequest - A Consumer that will call methods on
GetParametersForExportRequest.Builder to
create a request.default CompletableFuture<GetParametersForImportResponse> getParametersForImport(GetParametersForImportRequest getParametersForImportRequest)
Gets the import token and the wrapping key certificate to initiate a TR-34 key import into Amazon Web Services Payment Cryptography.
The wrapping key certificate wraps the key under import within the TR-34 key payload. The import token and wrapping key certificate must be in place and operational before calling ImportKey. The import token expires in 7 days. The same import token can be used to import multiple keys into your service account.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
getParametersForImportRequest - default CompletableFuture<GetParametersForImportResponse> getParametersForImport(Consumer<GetParametersForImportRequest.Builder> getParametersForImportRequest)
Gets the import token and the wrapping key certificate to initiate a TR-34 key import into Amazon Web Services Payment Cryptography.
The wrapping key certificate wraps the key under import within the TR-34 key payload. The import token and wrapping key certificate must be in place and operational before calling ImportKey. The import token expires in 7 days. The same import token can be used to import multiple keys into your service account.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
This is a convenience which creates an instance of the GetParametersForImportRequest.Builder avoiding the
need to create one manually via GetParametersForImportRequest.builder()
getParametersForImportRequest - A Consumer that will call methods on
GetParametersForImportRequest.Builder to
create a request.default CompletableFuture<GetPublicKeyCertificateResponse> getPublicKeyCertificate(GetPublicKeyCertificateRequest getPublicKeyCertificateRequest)
Gets the public key certificate of the asymmetric key pair that exists within Amazon Web Services Payment Cryptography.
Unlike the private key of an asymmetric key, which never leaves Amazon Web Services Payment Cryptography
unencrypted, callers with GetPublicKeyCertificate permission can download the public key certificate
of the asymmetric key. You can share the public key certificate to allow others to encrypt messages and verify
signatures outside of Amazon Web Services Payment Cryptography
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
getPublicKeyCertificateRequest - default CompletableFuture<GetPublicKeyCertificateResponse> getPublicKeyCertificate(Consumer<GetPublicKeyCertificateRequest.Builder> getPublicKeyCertificateRequest)
Gets the public key certificate of the asymmetric key pair that exists within Amazon Web Services Payment Cryptography.
Unlike the private key of an asymmetric key, which never leaves Amazon Web Services Payment Cryptography
unencrypted, callers with GetPublicKeyCertificate permission can download the public key certificate
of the asymmetric key. You can share the public key certificate to allow others to encrypt messages and verify
signatures outside of Amazon Web Services Payment Cryptography
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
This is a convenience which creates an instance of the GetPublicKeyCertificateRequest.Builder avoiding
the need to create one manually via GetPublicKeyCertificateRequest.builder()
getPublicKeyCertificateRequest - A Consumer that will call methods on
GetPublicKeyCertificateRequest.Builder
to create a request.default CompletableFuture<ImportKeyResponse> importKey(ImportKeyRequest importKeyRequest)
Imports keys and public key certificates into Amazon Web Services Payment Cryptography.
Amazon Web Services Payment Cryptography simplifies main or root key exchange process by eliminating the need of a paper-based key exchange process. It takes a modern and secure approach based of the ANSI X9 TR-34 key exchange standard.
You can use ImportKey to import main or root keys such as KEK (Key Encryption Key) using asymmetric
key exchange technique following the ANSI X9 TR-34 standard. The ANSI X9 TR-34 standard uses asymmetric keys to
establishes bi-directional trust between the two parties exchanging keys.
After you have imported a main or root key, you can import working keys to perform various cryptographic operations within Amazon Web Services Payment Cryptography using the ANSI X9 TR-31 symmetric key exchange standard as mandated by PCI PIN.
You can also import a root public key certificate, a self-signed certificate used to sign other public key certificates, or a trusted public key certificate under an already established root public key certificate.
To import a public root key certificate
Using this operation, you can import the public component (in PEM cerificate format) of your private root key. You can use the imported public root key certificate for digital signatures, for example signing wrapping key or signing key in TR-34, within your Amazon Web Services Payment Cryptography account.
Set the following parameters:
KeyMaterial: RootCertificatePublicKey
KeyClass: PUBLIC_KEY
KeyModesOfUse: Verify
KeyUsage: TR31_S0_ASYMMETRIC_KEY_FOR_DIGITAL_SIGNATURE
PublicKeyCertificate: The certificate authority used to sign the root public key certificate.
To import a trusted public key certificate
The root public key certificate must be in place and operational before you import a trusted public key certificate. Set the following parameters:
KeyMaterial: TrustedCertificatePublicKey
CertificateAuthorityPublicKeyIdentifier: KeyArn of the
RootCertificatePublicKey.
KeyModesOfUse and KeyUsage: Corresponding to the cryptographic operations such as wrap,
sign, or encrypt that you will allow the trusted public key certificate to perform.
PublicKeyCertificate: The certificate authority used to sign the trusted public key certificate.
Import main keys
Amazon Web Services Payment Cryptography uses TR-34 asymmetric key exchange standard to import main keys such as KEK. In TR-34 terminology, the sending party of the key is called Key Distribution Host (KDH) and the receiving party of the key is called Key Receiving Host (KRH). During the key import process, KDH is the user who initiates the key import and KRH is Amazon Web Services Payment Cryptography who receives the key. Before initiating TR-34 key import, you must obtain an import token by calling GetParametersForImport. This operation also returns the wrapping key certificate that KDH uses wrap key under import to generate a TR-34 wrapped key block. The import token expires after 7 days.
Set the following parameters:
CertificateAuthorityPublicKeyIdentifier: The KeyArn of the certificate chain that will
sign the signing key certificate and should exist within Amazon Web Services Payment Cryptography before
initiating TR-34 key import. If it does not exist, you can import it by calling by calling ImportKey
for RootCertificatePublicKey.
ImportToken: Obtained from KRH by calling GetParametersForImport.
WrappedKeyBlock: The TR-34 wrapped key block from KDH. It contains the KDH key under import, wrapped
with KRH provided wrapping key certificate and signed by the KDH private signing key. This TR-34 key block is
generated by the KDH Hardware Security Module (HSM) outside of Amazon Web Services Payment Cryptography.
SigningKeyCertificate: The public component of the private key that signed the KDH TR-34 wrapped key
block. In PEM certificate format.
TR-34 is intended primarily to exchange 3DES keys. Your ability to export AES-128 and larger AES keys may be dependent on your source system.
Import working keys
Amazon Web Services Payment Cryptography uses TR-31 symmetric key exchange standard to import working keys. A KEK must be established within Amazon Web Services Payment Cryptography by using TR-34 key import. To initiate a TR-31 key import, set the following parameters:
WrappedKeyBlock: The key under import and encrypted using KEK. The TR-31 key block generated by your
HSM outside of Amazon Web Services Payment Cryptography.
WrappingKeyIdentifier: The KeyArn of the KEK that Amazon Web Services Payment
Cryptography uses to decrypt or unwrap the key under import.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
importKeyRequest - default CompletableFuture<ImportKeyResponse> importKey(Consumer<ImportKeyRequest.Builder> importKeyRequest)
Imports keys and public key certificates into Amazon Web Services Payment Cryptography.
Amazon Web Services Payment Cryptography simplifies main or root key exchange process by eliminating the need of a paper-based key exchange process. It takes a modern and secure approach based of the ANSI X9 TR-34 key exchange standard.
You can use ImportKey to import main or root keys such as KEK (Key Encryption Key) using asymmetric
key exchange technique following the ANSI X9 TR-34 standard. The ANSI X9 TR-34 standard uses asymmetric keys to
establishes bi-directional trust between the two parties exchanging keys.
After you have imported a main or root key, you can import working keys to perform various cryptographic operations within Amazon Web Services Payment Cryptography using the ANSI X9 TR-31 symmetric key exchange standard as mandated by PCI PIN.
You can also import a root public key certificate, a self-signed certificate used to sign other public key certificates, or a trusted public key certificate under an already established root public key certificate.
To import a public root key certificate
Using this operation, you can import the public component (in PEM cerificate format) of your private root key. You can use the imported public root key certificate for digital signatures, for example signing wrapping key or signing key in TR-34, within your Amazon Web Services Payment Cryptography account.
Set the following parameters:
KeyMaterial: RootCertificatePublicKey
KeyClass: PUBLIC_KEY
KeyModesOfUse: Verify
KeyUsage: TR31_S0_ASYMMETRIC_KEY_FOR_DIGITAL_SIGNATURE
PublicKeyCertificate: The certificate authority used to sign the root public key certificate.
To import a trusted public key certificate
The root public key certificate must be in place and operational before you import a trusted public key certificate. Set the following parameters:
KeyMaterial: TrustedCertificatePublicKey
CertificateAuthorityPublicKeyIdentifier: KeyArn of the
RootCertificatePublicKey.
KeyModesOfUse and KeyUsage: Corresponding to the cryptographic operations such as wrap,
sign, or encrypt that you will allow the trusted public key certificate to perform.
PublicKeyCertificate: The certificate authority used to sign the trusted public key certificate.
Import main keys
Amazon Web Services Payment Cryptography uses TR-34 asymmetric key exchange standard to import main keys such as KEK. In TR-34 terminology, the sending party of the key is called Key Distribution Host (KDH) and the receiving party of the key is called Key Receiving Host (KRH). During the key import process, KDH is the user who initiates the key import and KRH is Amazon Web Services Payment Cryptography who receives the key. Before initiating TR-34 key import, you must obtain an import token by calling GetParametersForImport. This operation also returns the wrapping key certificate that KDH uses wrap key under import to generate a TR-34 wrapped key block. The import token expires after 7 days.
Set the following parameters:
CertificateAuthorityPublicKeyIdentifier: The KeyArn of the certificate chain that will
sign the signing key certificate and should exist within Amazon Web Services Payment Cryptography before
initiating TR-34 key import. If it does not exist, you can import it by calling by calling ImportKey
for RootCertificatePublicKey.
ImportToken: Obtained from KRH by calling GetParametersForImport.
WrappedKeyBlock: The TR-34 wrapped key block from KDH. It contains the KDH key under import, wrapped
with KRH provided wrapping key certificate and signed by the KDH private signing key. This TR-34 key block is
generated by the KDH Hardware Security Module (HSM) outside of Amazon Web Services Payment Cryptography.
SigningKeyCertificate: The public component of the private key that signed the KDH TR-34 wrapped key
block. In PEM certificate format.
TR-34 is intended primarily to exchange 3DES keys. Your ability to export AES-128 and larger AES keys may be dependent on your source system.
Import working keys
Amazon Web Services Payment Cryptography uses TR-31 symmetric key exchange standard to import working keys. A KEK must be established within Amazon Web Services Payment Cryptography by using TR-34 key import. To initiate a TR-31 key import, set the following parameters:
WrappedKeyBlock: The key under import and encrypted using KEK. The TR-31 key block generated by your
HSM outside of Amazon Web Services Payment Cryptography.
WrappingKeyIdentifier: The KeyArn of the KEK that Amazon Web Services Payment
Cryptography uses to decrypt or unwrap the key under import.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
This is a convenience which creates an instance of the ImportKeyRequest.Builder avoiding the need to
create one manually via ImportKeyRequest.builder()
importKeyRequest - A Consumer that will call methods on
ImportKeyRequest.Builder to create a
request.default CompletableFuture<ListAliasesResponse> listAliases(ListAliasesRequest listAliasesRequest)
Lists the aliases for all keys in the caller's Amazon Web Services account and Amazon Web Services Region. You can filter the list of aliases. For more information, see Using aliases in the Amazon Web Services Payment Cryptography User Guide.
This is a paginated operation, which means that each response might contain only a subset of all the aliases.
When the response contains only a subset of aliases, it includes a NextToken value. Use this value
in a subsequent ListAliases request to get more aliases. When you receive a response with no
NextToken (or an empty or null value), that means there are no more aliases to get.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
listAliasesRequest - default CompletableFuture<ListAliasesResponse> listAliases(Consumer<ListAliasesRequest.Builder> listAliasesRequest)
Lists the aliases for all keys in the caller's Amazon Web Services account and Amazon Web Services Region. You can filter the list of aliases. For more information, see Using aliases in the Amazon Web Services Payment Cryptography User Guide.
This is a paginated operation, which means that each response might contain only a subset of all the aliases.
When the response contains only a subset of aliases, it includes a NextToken value. Use this value
in a subsequent ListAliases request to get more aliases. When you receive a response with no
NextToken (or an empty or null value), that means there are no more aliases to get.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
This is a convenience which creates an instance of the ListAliasesRequest.Builder avoiding the need to
create one manually via ListAliasesRequest.builder()
listAliasesRequest - A Consumer that will call methods on
ListAliasesRequest.Builder to create a
request.default ListAliasesPublisher listAliasesPaginator(ListAliasesRequest listAliasesRequest)
Lists the aliases for all keys in the caller's Amazon Web Services account and Amazon Web Services Region. You can filter the list of aliases. For more information, see Using aliases in the Amazon Web Services Payment Cryptography User Guide.
This is a paginated operation, which means that each response might contain only a subset of all the aliases.
When the response contains only a subset of aliases, it includes a NextToken value. Use this value
in a subsequent ListAliases request to get more aliases. When you receive a response with no
NextToken (or an empty or null value), that means there are no more aliases to get.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
This is a variant of
listAliases(software.amazon.awssdk.services.paymentcryptography.model.ListAliasesRequest) operation. The
return type is a custom publisher that can be subscribed to request a stream of response pages. SDK will
internally handle making service calls for you.
When the operation is called, an instance of this class is returned. At this point, no service calls are made yet
and so there is no guarantee that the request is valid. If there are errors in your request, you will see the
failures only after you start streaming the data. The subscribe method should be called as a request to start
streaming data. For more info, see
Publisher.subscribe(org.reactivestreams.Subscriber). Each call to the subscribe
method will result in a new Subscription i.e., a new contract to stream data from the
starting request.
The following are few ways to use the response class:
1) Using the subscribe helper method
software.amazon.awssdk.services.paymentcryptography.paginators.ListAliasesPublisher publisher = client.listAliasesPaginator(request);
CompletableFuture<Void> future = publisher.subscribe(res -> { // Do something with the response });
future.get();
2) Using a custom subscriber
software.amazon.awssdk.services.paymentcryptography.paginators.ListAliasesPublisher publisher = client.listAliasesPaginator(request);
publisher.subscribe(new Subscriber<software.amazon.awssdk.services.paymentcryptography.model.ListAliasesResponse>() {
public void onSubscribe(org.reactivestreams.Subscriber subscription) { //... };
public void onNext(software.amazon.awssdk.services.paymentcryptography.model.ListAliasesResponse response) { //... };
});
As the response is a publisher, it can work well with third party reactive streams implementations like RxJava2.
Please notice that the configuration of MaxResults won't limit the number of results you get with the paginator. It only limits the number of results in each page.
Note: If you prefer to have control on service calls, use the
listAliases(software.amazon.awssdk.services.paymentcryptography.model.ListAliasesRequest) operation.
listAliasesRequest - default ListAliasesPublisher listAliasesPaginator(Consumer<ListAliasesRequest.Builder> listAliasesRequest)
Lists the aliases for all keys in the caller's Amazon Web Services account and Amazon Web Services Region. You can filter the list of aliases. For more information, see Using aliases in the Amazon Web Services Payment Cryptography User Guide.
This is a paginated operation, which means that each response might contain only a subset of all the aliases.
When the response contains only a subset of aliases, it includes a NextToken value. Use this value
in a subsequent ListAliases request to get more aliases. When you receive a response with no
NextToken (or an empty or null value), that means there are no more aliases to get.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
This is a variant of
listAliases(software.amazon.awssdk.services.paymentcryptography.model.ListAliasesRequest) operation. The
return type is a custom publisher that can be subscribed to request a stream of response pages. SDK will
internally handle making service calls for you.
When the operation is called, an instance of this class is returned. At this point, no service calls are made yet
and so there is no guarantee that the request is valid. If there are errors in your request, you will see the
failures only after you start streaming the data. The subscribe method should be called as a request to start
streaming data. For more info, see
Publisher.subscribe(org.reactivestreams.Subscriber). Each call to the subscribe
method will result in a new Subscription i.e., a new contract to stream data from the
starting request.
The following are few ways to use the response class:
1) Using the subscribe helper method
software.amazon.awssdk.services.paymentcryptography.paginators.ListAliasesPublisher publisher = client.listAliasesPaginator(request);
CompletableFuture<Void> future = publisher.subscribe(res -> { // Do something with the response });
future.get();
2) Using a custom subscriber
software.amazon.awssdk.services.paymentcryptography.paginators.ListAliasesPublisher publisher = client.listAliasesPaginator(request);
publisher.subscribe(new Subscriber<software.amazon.awssdk.services.paymentcryptography.model.ListAliasesResponse>() {
public void onSubscribe(org.reactivestreams.Subscriber subscription) { //... };
public void onNext(software.amazon.awssdk.services.paymentcryptography.model.ListAliasesResponse response) { //... };
});
As the response is a publisher, it can work well with third party reactive streams implementations like RxJava2.
Please notice that the configuration of MaxResults won't limit the number of results you get with the paginator. It only limits the number of results in each page.
Note: If you prefer to have control on service calls, use the
listAliases(software.amazon.awssdk.services.paymentcryptography.model.ListAliasesRequest) operation.
This is a convenience which creates an instance of the ListAliasesRequest.Builder avoiding the need to
create one manually via ListAliasesRequest.builder()
listAliasesRequest - A Consumer that will call methods on
ListAliasesRequest.Builder to create a
request.default CompletableFuture<ListKeysResponse> listKeys(ListKeysRequest listKeysRequest)
Lists the keys in the caller's Amazon Web Services account and Amazon Web Services Region. You can filter the list of keys.
This is a paginated operation, which means that each response might contain only a subset of all the keys. When
the response contains only a subset of keys, it includes a NextToken value. Use this value in a
subsequent ListKeys request to get more keys. When you receive a response with no NextToken (or an
empty or null value), that means there are no more keys to get.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
listKeysRequest - default CompletableFuture<ListKeysResponse> listKeys(Consumer<ListKeysRequest.Builder> listKeysRequest)
Lists the keys in the caller's Amazon Web Services account and Amazon Web Services Region. You can filter the list of keys.
This is a paginated operation, which means that each response might contain only a subset of all the keys. When
the response contains only a subset of keys, it includes a NextToken value. Use this value in a
subsequent ListKeys request to get more keys. When you receive a response with no NextToken (or an
empty or null value), that means there are no more keys to get.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
This is a convenience which creates an instance of the ListKeysRequest.Builder avoiding the need to
create one manually via ListKeysRequest.builder()
listKeysRequest - A Consumer that will call methods on
ListKeysRequest.Builder to create a
request.default ListKeysPublisher listKeysPaginator(ListKeysRequest listKeysRequest)
Lists the keys in the caller's Amazon Web Services account and Amazon Web Services Region. You can filter the list of keys.
This is a paginated operation, which means that each response might contain only a subset of all the keys. When
the response contains only a subset of keys, it includes a NextToken value. Use this value in a
subsequent ListKeys request to get more keys. When you receive a response with no NextToken (or an
empty or null value), that means there are no more keys to get.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
This is a variant of listKeys(software.amazon.awssdk.services.paymentcryptography.model.ListKeysRequest)
operation. The return type is a custom publisher that can be subscribed to request a stream of response pages.
SDK will internally handle making service calls for you.
When the operation is called, an instance of this class is returned. At this point, no service calls are made yet
and so there is no guarantee that the request is valid. If there are errors in your request, you will see the
failures only after you start streaming the data. The subscribe method should be called as a request to start
streaming data. For more info, see
Publisher.subscribe(org.reactivestreams.Subscriber). Each call to the subscribe
method will result in a new Subscription i.e., a new contract to stream data from the
starting request.
The following are few ways to use the response class:
1) Using the subscribe helper method
software.amazon.awssdk.services.paymentcryptography.paginators.ListKeysPublisher publisher = client.listKeysPaginator(request);
CompletableFuture<Void> future = publisher.subscribe(res -> { // Do something with the response });
future.get();
2) Using a custom subscriber
software.amazon.awssdk.services.paymentcryptography.paginators.ListKeysPublisher publisher = client.listKeysPaginator(request);
publisher.subscribe(new Subscriber<software.amazon.awssdk.services.paymentcryptography.model.ListKeysResponse>() {
public void onSubscribe(org.reactivestreams.Subscriber subscription) { //... };
public void onNext(software.amazon.awssdk.services.paymentcryptography.model.ListKeysResponse response) { //... };
});
As the response is a publisher, it can work well with third party reactive streams implementations like RxJava2.
Please notice that the configuration of MaxResults won't limit the number of results you get with the paginator. It only limits the number of results in each page.
Note: If you prefer to have control on service calls, use the
listKeys(software.amazon.awssdk.services.paymentcryptography.model.ListKeysRequest) operation.
listKeysRequest - default ListKeysPublisher listKeysPaginator(Consumer<ListKeysRequest.Builder> listKeysRequest)
Lists the keys in the caller's Amazon Web Services account and Amazon Web Services Region. You can filter the list of keys.
This is a paginated operation, which means that each response might contain only a subset of all the keys. When
the response contains only a subset of keys, it includes a NextToken value. Use this value in a
subsequent ListKeys request to get more keys. When you receive a response with no NextToken (or an
empty or null value), that means there are no more keys to get.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
This is a variant of listKeys(software.amazon.awssdk.services.paymentcryptography.model.ListKeysRequest)
operation. The return type is a custom publisher that can be subscribed to request a stream of response pages.
SDK will internally handle making service calls for you.
When the operation is called, an instance of this class is returned. At this point, no service calls are made yet
and so there is no guarantee that the request is valid. If there are errors in your request, you will see the
failures only after you start streaming the data. The subscribe method should be called as a request to start
streaming data. For more info, see
Publisher.subscribe(org.reactivestreams.Subscriber). Each call to the subscribe
method will result in a new Subscription i.e., a new contract to stream data from the
starting request.
The following are few ways to use the response class:
1) Using the subscribe helper method
software.amazon.awssdk.services.paymentcryptography.paginators.ListKeysPublisher publisher = client.listKeysPaginator(request);
CompletableFuture<Void> future = publisher.subscribe(res -> { // Do something with the response });
future.get();
2) Using a custom subscriber
software.amazon.awssdk.services.paymentcryptography.paginators.ListKeysPublisher publisher = client.listKeysPaginator(request);
publisher.subscribe(new Subscriber<software.amazon.awssdk.services.paymentcryptography.model.ListKeysResponse>() {
public void onSubscribe(org.reactivestreams.Subscriber subscription) { //... };
public void onNext(software.amazon.awssdk.services.paymentcryptography.model.ListKeysResponse response) { //... };
});
As the response is a publisher, it can work well with third party reactive streams implementations like RxJava2.
Please notice that the configuration of MaxResults won't limit the number of results you get with the paginator. It only limits the number of results in each page.
Note: If you prefer to have control on service calls, use the
listKeys(software.amazon.awssdk.services.paymentcryptography.model.ListKeysRequest) operation.
This is a convenience which creates an instance of the ListKeysRequest.Builder avoiding the need to
create one manually via ListKeysRequest.builder()
listKeysRequest - A Consumer that will call methods on
ListKeysRequest.Builder to create a
request.default CompletableFuture<ListTagsForResourceResponse> listTagsForResource(ListTagsForResourceRequest listTagsForResourceRequest)
Lists the tags for an Amazon Web Services resource.
This is a paginated operation, which means that each response might contain only a subset of all the tags. When
the response contains only a subset of tags, it includes a NextToken value. Use this value in a
subsequent ListTagsForResource request to get more tags. When you receive a response with no
NextToken (or an empty or null value), that means there are no more tags to get.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
listTagsForResourceRequest - default CompletableFuture<ListTagsForResourceResponse> listTagsForResource(Consumer<ListTagsForResourceRequest.Builder> listTagsForResourceRequest)
Lists the tags for an Amazon Web Services resource.
This is a paginated operation, which means that each response might contain only a subset of all the tags. When
the response contains only a subset of tags, it includes a NextToken value. Use this value in a
subsequent ListTagsForResource request to get more tags. When you receive a response with no
NextToken (or an empty or null value), that means there are no more tags to get.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
This is a convenience which creates an instance of the ListTagsForResourceRequest.Builder avoiding the
need to create one manually via ListTagsForResourceRequest.builder()
listTagsForResourceRequest - A Consumer that will call methods on
ListTagsForResourceRequest.Builder to
create a request.default ListTagsForResourcePublisher listTagsForResourcePaginator(ListTagsForResourceRequest listTagsForResourceRequest)
Lists the tags for an Amazon Web Services resource.
This is a paginated operation, which means that each response might contain only a subset of all the tags. When
the response contains only a subset of tags, it includes a NextToken value. Use this value in a
subsequent ListTagsForResource request to get more tags. When you receive a response with no
NextToken (or an empty or null value), that means there are no more tags to get.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
This is a variant of
listTagsForResource(software.amazon.awssdk.services.paymentcryptography.model.ListTagsForResourceRequest)
operation. The return type is a custom publisher that can be subscribed to request a stream of response pages.
SDK will internally handle making service calls for you.
When the operation is called, an instance of this class is returned. At this point, no service calls are made yet
and so there is no guarantee that the request is valid. If there are errors in your request, you will see the
failures only after you start streaming the data. The subscribe method should be called as a request to start
streaming data. For more info, see
Publisher.subscribe(org.reactivestreams.Subscriber). Each call to the subscribe
method will result in a new Subscription i.e., a new contract to stream data from the
starting request.
The following are few ways to use the response class:
1) Using the subscribe helper method
software.amazon.awssdk.services.paymentcryptography.paginators.ListTagsForResourcePublisher publisher = client.listTagsForResourcePaginator(request);
CompletableFuture<Void> future = publisher.subscribe(res -> { // Do something with the response });
future.get();
2) Using a custom subscriber
software.amazon.awssdk.services.paymentcryptography.paginators.ListTagsForResourcePublisher publisher = client.listTagsForResourcePaginator(request);
publisher.subscribe(new Subscriber<software.amazon.awssdk.services.paymentcryptography.model.ListTagsForResourceResponse>() {
public void onSubscribe(org.reactivestreams.Subscriber subscription) { //... };
public void onNext(software.amazon.awssdk.services.paymentcryptography.model.ListTagsForResourceResponse response) { //... };
});
As the response is a publisher, it can work well with third party reactive streams implementations like RxJava2.
Please notice that the configuration of MaxResults won't limit the number of results you get with the paginator. It only limits the number of results in each page.
Note: If you prefer to have control on service calls, use the
listTagsForResource(software.amazon.awssdk.services.paymentcryptography.model.ListTagsForResourceRequest)
operation.
listTagsForResourceRequest - default ListTagsForResourcePublisher listTagsForResourcePaginator(Consumer<ListTagsForResourceRequest.Builder> listTagsForResourceRequest)
Lists the tags for an Amazon Web Services resource.
This is a paginated operation, which means that each response might contain only a subset of all the tags. When
the response contains only a subset of tags, it includes a NextToken value. Use this value in a
subsequent ListTagsForResource request to get more tags. When you receive a response with no
NextToken (or an empty or null value), that means there are no more tags to get.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
This is a variant of
listTagsForResource(software.amazon.awssdk.services.paymentcryptography.model.ListTagsForResourceRequest)
operation. The return type is a custom publisher that can be subscribed to request a stream of response pages.
SDK will internally handle making service calls for you.
When the operation is called, an instance of this class is returned. At this point, no service calls are made yet
and so there is no guarantee that the request is valid. If there are errors in your request, you will see the
failures only after you start streaming the data. The subscribe method should be called as a request to start
streaming data. For more info, see
Publisher.subscribe(org.reactivestreams.Subscriber). Each call to the subscribe
method will result in a new Subscription i.e., a new contract to stream data from the
starting request.
The following are few ways to use the response class:
1) Using the subscribe helper method
software.amazon.awssdk.services.paymentcryptography.paginators.ListTagsForResourcePublisher publisher = client.listTagsForResourcePaginator(request);
CompletableFuture<Void> future = publisher.subscribe(res -> { // Do something with the response });
future.get();
2) Using a custom subscriber
software.amazon.awssdk.services.paymentcryptography.paginators.ListTagsForResourcePublisher publisher = client.listTagsForResourcePaginator(request);
publisher.subscribe(new Subscriber<software.amazon.awssdk.services.paymentcryptography.model.ListTagsForResourceResponse>() {
public void onSubscribe(org.reactivestreams.Subscriber subscription) { //... };
public void onNext(software.amazon.awssdk.services.paymentcryptography.model.ListTagsForResourceResponse response) { //... };
});
As the response is a publisher, it can work well with third party reactive streams implementations like RxJava2.
Please notice that the configuration of MaxResults won't limit the number of results you get with the paginator. It only limits the number of results in each page.
Note: If you prefer to have control on service calls, use the
listTagsForResource(software.amazon.awssdk.services.paymentcryptography.model.ListTagsForResourceRequest)
operation.
This is a convenience which creates an instance of the ListTagsForResourceRequest.Builder avoiding the
need to create one manually via ListTagsForResourceRequest.builder()
listTagsForResourceRequest - A Consumer that will call methods on
ListTagsForResourceRequest.Builder to
create a request.default CompletableFuture<RestoreKeyResponse> restoreKey(RestoreKeyRequest restoreKeyRequest)
Cancels a scheduled key deletion during the waiting period. Use this operation to restore a Key that
is scheduled for deletion.
During the waiting period, the KeyState is DELETE_PENDING and
deletePendingTimestamp contains the date and time after which the Key will be deleted.
After Key is restored, the KeyState is CREATE_COMPLETE, and the value for
deletePendingTimestamp is removed.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
restoreKeyRequest - default CompletableFuture<RestoreKeyResponse> restoreKey(Consumer<RestoreKeyRequest.Builder> restoreKeyRequest)
Cancels a scheduled key deletion during the waiting period. Use this operation to restore a Key that
is scheduled for deletion.
During the waiting period, the KeyState is DELETE_PENDING and
deletePendingTimestamp contains the date and time after which the Key will be deleted.
After Key is restored, the KeyState is CREATE_COMPLETE, and the value for
deletePendingTimestamp is removed.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
This is a convenience which creates an instance of the RestoreKeyRequest.Builder avoiding the need to
create one manually via RestoreKeyRequest.builder()
restoreKeyRequest - A Consumer that will call methods on
RestoreKeyRequest.Builder to create a
request.default CompletableFuture<StartKeyUsageResponse> startKeyUsage(StartKeyUsageRequest startKeyUsageRequest)
Enables an Amazon Web Services Payment Cryptography key, which makes it active for cryptographic operations within Amazon Web Services Payment Cryptography
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
startKeyUsageRequest - default CompletableFuture<StartKeyUsageResponse> startKeyUsage(Consumer<StartKeyUsageRequest.Builder> startKeyUsageRequest)
Enables an Amazon Web Services Payment Cryptography key, which makes it active for cryptographic operations within Amazon Web Services Payment Cryptography
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
This is a convenience which creates an instance of the StartKeyUsageRequest.Builder avoiding the need to
create one manually via StartKeyUsageRequest.builder()
startKeyUsageRequest - A Consumer that will call methods on
StartKeyUsageRequest.Builder to create a
request.default CompletableFuture<StopKeyUsageResponse> stopKeyUsage(StopKeyUsageRequest stopKeyUsageRequest)
Disables an Amazon Web Services Payment Cryptography key, which makes it inactive within Amazon Web Services Payment Cryptography.
You can use this operation instead of DeleteKey to deactivate a key. You can enable the key in the future by calling StartKeyUsage.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
stopKeyUsageRequest - default CompletableFuture<StopKeyUsageResponse> stopKeyUsage(Consumer<StopKeyUsageRequest.Builder> stopKeyUsageRequest)
Disables an Amazon Web Services Payment Cryptography key, which makes it inactive within Amazon Web Services Payment Cryptography.
You can use this operation instead of DeleteKey to deactivate a key. You can enable the key in the future by calling StartKeyUsage.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
This is a convenience which creates an instance of the StopKeyUsageRequest.Builder avoiding the need to
create one manually via StopKeyUsageRequest.builder()
stopKeyUsageRequest - A Consumer that will call methods on
StopKeyUsageRequest.Builder to create a
request.default CompletableFuture<TagResourceResponse> tagResource(TagResourceRequest tagResourceRequest)
Adds or edits tags on an Amazon Web Services Payment Cryptography key.
Tagging or untagging an Amazon Web Services Payment Cryptography key can allow or deny permission to the key.
Each tag consists of a tag key and a tag value, both of which are case-sensitive strings. The tag value can be an empty (null) string. To add a tag, specify a new tag key and a tag value. To edit a tag, specify an existing tag key and a new tag value. You can also add tags to an Amazon Web Services Payment Cryptography key when you create it with CreateKey.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
tagResourceRequest - default CompletableFuture<TagResourceResponse> tagResource(Consumer<TagResourceRequest.Builder> tagResourceRequest)
Adds or edits tags on an Amazon Web Services Payment Cryptography key.
Tagging or untagging an Amazon Web Services Payment Cryptography key can allow or deny permission to the key.
Each tag consists of a tag key and a tag value, both of which are case-sensitive strings. The tag value can be an empty (null) string. To add a tag, specify a new tag key and a tag value. To edit a tag, specify an existing tag key and a new tag value. You can also add tags to an Amazon Web Services Payment Cryptography key when you create it with CreateKey.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
This is a convenience which creates an instance of the TagResourceRequest.Builder avoiding the need to
create one manually via TagResourceRequest.builder()
tagResourceRequest - A Consumer that will call methods on
TagResourceRequest.Builder to create a
request.default CompletableFuture<UntagResourceResponse> untagResource(UntagResourceRequest untagResourceRequest)
Deletes a tag from an Amazon Web Services Payment Cryptography key.
Tagging or untagging an Amazon Web Services Payment Cryptography key can allow or deny permission to the key.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
untagResourceRequest - default CompletableFuture<UntagResourceResponse> untagResource(Consumer<UntagResourceRequest.Builder> untagResourceRequest)
Deletes a tag from an Amazon Web Services Payment Cryptography key.
Tagging or untagging an Amazon Web Services Payment Cryptography key can allow or deny permission to the key.
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
This is a convenience which creates an instance of the UntagResourceRequest.Builder avoiding the need to
create one manually via UntagResourceRequest.builder()
untagResourceRequest - A Consumer that will call methods on
UntagResourceRequest.Builder to create a
request.default CompletableFuture<UpdateAliasResponse> updateAlias(UpdateAliasRequest updateAliasRequest)
Associates an existing Amazon Web Services Payment Cryptography alias with a different key. Each alias is associated with only one Amazon Web Services Payment Cryptography key at a time, although a key can have multiple aliases. The alias and the Amazon Web Services Payment Cryptography key must be in the same Amazon Web Services account and Amazon Web Services Region
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
updateAliasRequest - default CompletableFuture<UpdateAliasResponse> updateAlias(Consumer<UpdateAliasRequest.Builder> updateAliasRequest)
Associates an existing Amazon Web Services Payment Cryptography alias with a different key. Each alias is associated with only one Amazon Web Services Payment Cryptography key at a time, although a key can have multiple aliases. The alias and the Amazon Web Services Payment Cryptography key must be in the same Amazon Web Services account and Amazon Web Services Region
Cross-account use: This operation can't be used across different Amazon Web Services accounts.
Related operations:
This is a convenience which creates an instance of the UpdateAliasRequest.Builder avoiding the need to
create one manually via UpdateAliasRequest.builder()
updateAliasRequest - A Consumer that will call methods on
UpdateAliasRequest.Builder to create a
request.default PaymentCryptographyServiceClientConfiguration serviceClientConfiguration()
serviceClientConfiguration in interface AwsClientserviceClientConfiguration in interface SdkClientstatic PaymentCryptographyAsyncClient create()
PaymentCryptographyAsyncClient with the region loaded from the
DefaultAwsRegionProviderChain and credentials loaded from the
DefaultCredentialsProvider.static PaymentCryptographyAsyncClientBuilder builder()
PaymentCryptographyAsyncClient.Copyright © 2023. All rights reserved.