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aws-sdk - npm Package Compare versions

Comparing version 2.1654.0 to 2.1655.0

5

apis/acm-2015-12-08.min.json

@@ -16,3 +16,6 @@ {

"targetPrefix": "CertificateManager",
"uid": "acm-2015-12-08"
"uid": "acm-2015-12-08",
"auth": [
"aws.auth#sigv4"
]
},

@@ -19,0 +22,0 @@ "operations": {

@@ -17,3 +17,6 @@ {

"targetPrefix": "AmazonEC2ContainerRegistry_V20150921",
"uid": "ecr-2015-09-21"
"uid": "ecr-2015-09-21",
"auth": [
"aws.auth#sigv4"
]
},

@@ -20,0 +23,0 @@ "operations": {

281

apis/payment-cryptography-data-2022-02-03.min.json

@@ -59,3 +59,4 @@ {

"PlainText": {
"shape": "S3"
"type": "string",
"sensitive": true
}

@@ -130,21 +131,21 @@ }

"AmexCardSecurityCodeVersion1": {
"shape": "Sx"
"shape": "Sy"
},
"AmexCardSecurityCodeVersion2": {
"shape": "Sz"
"shape": "S10"
},
"CardVerificationValue1": {
"shape": "S11"
"shape": "S12"
},
"CardVerificationValue2": {
"shape": "S12"
"shape": "S13"
},
"CardHolderVerificationValue": {
"shape": "S13"
"shape": "S14"
},
"DynamicCardVerificationCode": {
"shape": "S16"
"shape": "S17"
},
"DynamicCardVerificationValue": {
"shape": "S18"
"shape": "S19"
}

@@ -169,3 +170,5 @@ },

"KeyCheckValue": {},
"ValidationData": {}
"ValidationData": {
"shape": "S1c"
}
}

@@ -189,6 +192,6 @@ }

"MessageData": {
"shape": "S1d"
"shape": "S1e"
},
"GenerationAttributes": {
"shape": "S1e"
"shape": "S1f"
},

@@ -210,3 +213,6 @@ "MacLength": {

"KeyCheckValue": {},
"Mac": {}
"Mac": {
"type": "string",
"sensitive": true
}
}

@@ -253,3 +259,5 @@ }

"members": {
"EncryptedPinBlock": {},
"EncryptedPinBlock": {
"shape": "S1v"
},
"PinVerificationKeyIndex": {

@@ -269,6 +277,12 @@ "type": "integer"

"members": {
"EncryptedPinBlock": {},
"DecimalizationTable": {},
"EncryptedPinBlock": {
"shape": "S1v"
},
"DecimalizationTable": {
"shape": "S1x"
},
"PinValidationDataPadCharacter": {},
"PinValidationData": {}
"PinValidationData": {
"shape": "S1z"
}
}

@@ -284,5 +298,9 @@ },

"members": {
"DecimalizationTable": {},
"DecimalizationTable": {
"shape": "S1x"
},
"PinValidationDataPadCharacter": {},
"PinValidationData": {}
"PinValidationData": {
"shape": "S1z"
}
}

@@ -298,5 +316,9 @@ },

"members": {
"DecimalizationTable": {},
"DecimalizationTable": {
"shape": "S1x"
},
"PinValidationDataPadCharacter": {},
"PinValidationData": {}
"PinValidationData": {
"shape": "S1z"
}
}

@@ -313,6 +335,12 @@ },

"members": {
"DecimalizationTable": {},
"DecimalizationTable": {
"shape": "S1x"
},
"PinValidationDataPadCharacter": {},
"PinValidationData": {},
"PinOffset": {}
"PinValidationData": {
"shape": "S1z"
},
"PinOffset": {
"shape": "S23"
}
}

@@ -347,8 +375,14 @@ }

"EncryptionKeyCheckValue": {},
"EncryptedPinBlock": {},
"EncryptedPinBlock": {
"shape": "S1v"
},
"PinData": {
"type": "structure",
"members": {
"PinOffset": {},
"VerificationValue": {}
"PinOffset": {
"shape": "S23"
},
"VerificationValue": {
"shape": "S28"
}
},

@@ -384,6 +418,6 @@ "union": true

"IncomingEncryptionAttributes": {
"shape": "S27"
"shape": "S2a"
},
"OutgoingEncryptionAttributes": {
"shape": "S27"
"shape": "S2a"
},

@@ -432,6 +466,6 @@ "IncomingWrappedKey": {

"IncomingTranslationAttributes": {
"shape": "S2a"
"shape": "S2d"
},
"OutgoingTranslationAttributes": {
"shape": "S2a"
"shape": "S2d"
},

@@ -443,6 +477,6 @@ "EncryptedPinBlock": {

"IncomingDukptAttributes": {
"shape": "S2e"
"shape": "S2h"
},
"OutgoingDukptAttributes": {
"shape": "S2e"
"shape": "S2h"
},

@@ -465,3 +499,5 @@ "IncomingWrappedKey": {

"members": {
"PinBlock": {},
"PinBlock": {
"shape": "S1v"
},
"KeyArn": {},

@@ -488,4 +524,10 @@ "KeyCheckValue": {}

"KeyIdentifier": {},
"TransactionData": {},
"AuthRequestCryptogram": {},
"TransactionData": {
"type": "string",
"sensitive": true
},
"AuthRequestCryptogram": {
"type": "string",
"sensitive": true
},
"MajorKeyDerivationMode": {},

@@ -590,3 +632,6 @@ "SessionKeyDerivationAttributes": {

"CardStatusUpdate": {},
"ProprietaryAuthenticationData": {}
"ProprietaryAuthenticationData": {
"type": "string",
"sensitive": true
}
}

@@ -608,3 +653,6 @@ }

"KeyCheckValue": {},
"AuthResponseValue": {}
"AuthResponseValue": {
"type": "string",
"sensitive": true
}
}

@@ -635,21 +683,21 @@ }

"AmexCardSecurityCodeVersion1": {
"shape": "Sx"
"shape": "Sy"
},
"AmexCardSecurityCodeVersion2": {
"shape": "Sz"
"shape": "S10"
},
"CardVerificationValue1": {
"shape": "S11"
"shape": "S12"
},
"CardVerificationValue2": {
"shape": "S12"
"shape": "S13"
},
"CardHolderVerificationValue": {
"shape": "S13"
"shape": "S14"
},
"DynamicCardVerificationCode": {
"shape": "S16"
"shape": "S17"
},
"DynamicCardVerificationValue": {
"shape": "S18"
"shape": "S19"
},

@@ -664,3 +712,5 @@ "DiscoverDynamicCardVerificationCode": {

"members": {
"CardExpiryDate": {},
"CardExpiryDate": {
"shape": "Sz"
},
"UnpredictableNumber": {},

@@ -673,3 +723,5 @@ "ApplicationTransactionCounter": {}

},
"ValidationData": {}
"ValidationData": {
"shape": "S1c"
}
}

@@ -705,3 +757,3 @@ },

"MessageData": {
"shape": "S1d"
"shape": "S1e"
},

@@ -713,3 +765,3 @@ "Mac": {

"VerificationAttributes": {
"shape": "S1e"
"shape": "S1f"
},

@@ -764,3 +816,5 @@ "MacLength": {

},
"VerificationValue": {}
"VerificationValue": {
"shape": "S28"
}
}

@@ -777,6 +831,12 @@ },

"members": {
"DecimalizationTable": {},
"DecimalizationTable": {
"shape": "S1x"
},
"PinValidationDataPadCharacter": {},
"PinValidationData": {},
"PinOffset": {}
"PinValidationData": {
"shape": "S1z"
},
"PinOffset": {
"shape": "S23"
}
}

@@ -787,3 +847,5 @@ }

},
"EncryptedPinBlock": {},
"EncryptedPinBlock": {
"shape": "S1v"
},
"PrimaryAccountNumber": {

@@ -860,3 +922,6 @@ "shape": "Sh"

"PanSequenceNumber": {},
"SessionDerivationData": {},
"SessionDerivationData": {
"type": "string",
"sensitive": true
},
"Mode": {},

@@ -926,3 +991,3 @@ "InitializationVector": {

},
"Sx": {
"Sy": {
"type": "structure",

@@ -933,6 +998,12 @@ "required": [

"members": {
"CardExpiryDate": {}
"CardExpiryDate": {
"shape": "Sz"
}
}
},
"Sz": {
"type": "string",
"sensitive": true
},
"S10": {
"type": "structure",

@@ -944,7 +1015,15 @@ "required": [

"members": {
"CardExpiryDate": {},
"ServiceCode": {}
"CardExpiryDate": {
"shape": "Sz"
},
"ServiceCode": {
"shape": "S11"
}
}
},
"S11": {
"type": "string",
"sensitive": true
},
"S12": {
"type": "structure",

@@ -956,7 +1035,11 @@ "required": [

"members": {
"CardExpiryDate": {},
"ServiceCode": {}
"CardExpiryDate": {
"shape": "Sz"
},
"ServiceCode": {
"shape": "S11"
}
}
},
"S12": {
"S13": {
"type": "structure",

@@ -967,6 +1050,8 @@ "required": [

"members": {
"CardExpiryDate": {}
"CardExpiryDate": {
"shape": "Sz"
}
}
},
"S13": {
"S14": {
"type": "structure",

@@ -984,3 +1069,3 @@ "required": [

},
"S16": {
"S17": {
"type": "structure",

@@ -997,6 +1082,9 @@ "required": [

"ApplicationTransactionCounter": {},
"TrackData": {}
"TrackData": {
"type": "string",
"sensitive": true
}
}
},
"S18": {
"S19": {
"type": "structure",

@@ -1011,8 +1099,12 @@ "required": [

"PanSequenceNumber": {},
"CardExpiryDate": {},
"ServiceCode": {},
"CardExpiryDate": {
"shape": "Sz"
},
"ServiceCode": {
"shape": "S11"
},
"ApplicationTransactionCounter": {}
}
},
"S1d": {
"S1c": {
"type": "string",

@@ -1022,2 +1114,6 @@ "sensitive": true

"S1e": {
"type": "string",
"sensitive": true
},
"S1f": {
"type": "structure",

@@ -1045,3 +1141,6 @@ "members": {

"members": {
"ApplicationCryptogram": {},
"ApplicationCryptogram": {
"type": "string",
"sensitive": true
},
"ApplicationTransactionCounter": {}

@@ -1054,9 +1153,9 @@ },

"DukptIso9797Algorithm1": {
"shape": "S1k"
"shape": "S1m"
},
"DukptIso9797Algorithm3": {
"shape": "S1k"
"shape": "S1m"
},
"DukptCmac": {
"shape": "S1k"
"shape": "S1m"
}

@@ -1066,3 +1165,3 @@ },

},
"S1k": {
"S1m": {
"type": "structure",

@@ -1079,3 +1178,23 @@ "required": [

},
"S27": {
"S1v": {
"type": "string",
"sensitive": true
},
"S1x": {
"type": "string",
"sensitive": true
},
"S1z": {
"type": "string",
"sensitive": true
},
"S23": {
"type": "string",
"sensitive": true
},
"S28": {
"type": "string",
"sensitive": true
},
"S2a": {
"type": "structure",

@@ -1092,7 +1211,7 @@ "members": {

},
"S2a": {
"S2d": {
"type": "structure",
"members": {
"IsoFormat0": {
"shape": "S2b"
"shape": "S2e"
},

@@ -1104,6 +1223,6 @@ "IsoFormat1": {

"IsoFormat3": {
"shape": "S2b"
"shape": "S2e"
},
"IsoFormat4": {
"shape": "S2b"
"shape": "S2e"
}

@@ -1113,3 +1232,3 @@ },

},
"S2b": {
"S2e": {
"type": "structure",

@@ -1125,3 +1244,3 @@ "required": [

},
"S2e": {
"S2h": {
"type": "structure",

@@ -1128,0 +1247,0 @@ "required": [

@@ -52,23 +52,23 @@ import {Request} from '../lib/request';

/**
* Retrieves an Amazon-issued certificate and its certificate chain. The chain consists of the certificate of the issuing CA and the intermediate certificates of any other subordinate CAs. All of the certificates are base64 encoded. You can use OpenSSL to decode the certificates and inspect individual fields.
* Retrieves a certificate and its certificate chain. The certificate may be either a public or private certificate issued using the ACM RequestCertificate action, or a certificate imported into ACM using the ImportCertificate action. The chain consists of the certificate of the issuing CA and the intermediate certificates of any other subordinate CAs. All of the certificates are base64 encoded. You can use OpenSSL to decode the certificates and inspect individual fields.
*/
getCertificate(params: ACM.Types.GetCertificateRequest, callback?: (err: AWSError, data: ACM.Types.GetCertificateResponse) => void): Request<ACM.Types.GetCertificateResponse, AWSError>;
/**
* Retrieves an Amazon-issued certificate and its certificate chain. The chain consists of the certificate of the issuing CA and the intermediate certificates of any other subordinate CAs. All of the certificates are base64 encoded. You can use OpenSSL to decode the certificates and inspect individual fields.
* Retrieves a certificate and its certificate chain. The certificate may be either a public or private certificate issued using the ACM RequestCertificate action, or a certificate imported into ACM using the ImportCertificate action. The chain consists of the certificate of the issuing CA and the intermediate certificates of any other subordinate CAs. All of the certificates are base64 encoded. You can use OpenSSL to decode the certificates and inspect individual fields.
*/
getCertificate(callback?: (err: AWSError, data: ACM.Types.GetCertificateResponse) => void): Request<ACM.Types.GetCertificateResponse, AWSError>;
/**
* Imports a certificate into Certificate Manager (ACM) to use with services that are integrated with ACM. Note that integrated services allow only certificate types and keys they support to be associated with their resources. Further, their support differs depending on whether the certificate is imported into IAM or into ACM. For more information, see the documentation for each service. For more information about importing certificates into ACM, see Importing Certificates in the Certificate Manager User Guide. ACM does not provide managed renewal for certificates that you import. Note the following guidelines when importing third party certificates: You must enter the private key that matches the certificate you are importing. The private key must be unencrypted. You cannot import a private key that is protected by a password or a passphrase. The private key must be no larger than 5 KB (5,120 bytes). If the certificate you are importing is not self-signed, you must enter its certificate chain. If a certificate chain is included, the issuer must be the subject of one of the certificates in the chain. The certificate, private key, and certificate chain must be PEM-encoded. The current time must be between the Not Before and Not After certificate fields. The Issuer field must not be empty. The OCSP authority URL, if present, must not exceed 1000 characters. To import a new certificate, omit the CertificateArn argument. Include this argument only when you want to replace a previously imported certificate. When you import a certificate by using the CLI, you must specify the certificate, the certificate chain, and the private key by their file names preceded by fileb://. For example, you can specify a certificate saved in the C:\temp folder as fileb://C:\temp\certificate_to_import.pem. If you are making an HTTP or HTTPS Query request, include these arguments as BLOBs. When you import a certificate by using an SDK, you must specify the certificate, the certificate chain, and the private key files in the manner required by the programming language you're using. The cryptographic algorithm of an imported certificate must match the algorithm of the signing CA. For example, if the signing CA key type is RSA, then the certificate key type must also be RSA. This operation returns the Amazon Resource Name (ARN) of the imported certificate.
* Imports a certificate into Certificate Manager (ACM) to use with services that are integrated with ACM. Note that integrated services allow only certificate types and keys they support to be associated with their resources. Further, their support differs depending on whether the certificate is imported into IAM or into ACM. For more information, see the documentation for each service. For more information about importing certificates into ACM, see Importing Certificates in the Certificate Manager User Guide. ACM does not provide managed renewal for certificates that you import. Note the following guidelines when importing third party certificates: You must enter the private key that matches the certificate you are importing. The private key must be unencrypted. You cannot import a private key that is protected by a password or a passphrase. The private key must be no larger than 5 KB (5,120 bytes). The certificate, private key, and certificate chain must be PEM-encoded. The current time must be between the Not Before and Not After certificate fields. The Issuer field must not be empty. The OCSP authority URL, if present, must not exceed 1000 characters. To import a new certificate, omit the CertificateArn argument. Include this argument only when you want to replace a previously imported certificate. When you import a certificate by using the CLI, you must specify the certificate, the certificate chain, and the private key by their file names preceded by fileb://. For example, you can specify a certificate saved in the C:\temp folder as fileb://C:\temp\certificate_to_import.pem. If you are making an HTTP or HTTPS Query request, include these arguments as BLOBs. When you import a certificate by using an SDK, you must specify the certificate, the certificate chain, and the private key files in the manner required by the programming language you're using. The cryptographic algorithm of an imported certificate must match the algorithm of the signing CA. For example, if the signing CA key type is RSA, then the certificate key type must also be RSA. This operation returns the Amazon Resource Name (ARN) of the imported certificate.
*/
importCertificate(params: ACM.Types.ImportCertificateRequest, callback?: (err: AWSError, data: ACM.Types.ImportCertificateResponse) => void): Request<ACM.Types.ImportCertificateResponse, AWSError>;
/**
* Imports a certificate into Certificate Manager (ACM) to use with services that are integrated with ACM. Note that integrated services allow only certificate types and keys they support to be associated with their resources. Further, their support differs depending on whether the certificate is imported into IAM or into ACM. For more information, see the documentation for each service. For more information about importing certificates into ACM, see Importing Certificates in the Certificate Manager User Guide. ACM does not provide managed renewal for certificates that you import. Note the following guidelines when importing third party certificates: You must enter the private key that matches the certificate you are importing. The private key must be unencrypted. You cannot import a private key that is protected by a password or a passphrase. The private key must be no larger than 5 KB (5,120 bytes). If the certificate you are importing is not self-signed, you must enter its certificate chain. If a certificate chain is included, the issuer must be the subject of one of the certificates in the chain. The certificate, private key, and certificate chain must be PEM-encoded. The current time must be between the Not Before and Not After certificate fields. The Issuer field must not be empty. The OCSP authority URL, if present, must not exceed 1000 characters. To import a new certificate, omit the CertificateArn argument. Include this argument only when you want to replace a previously imported certificate. When you import a certificate by using the CLI, you must specify the certificate, the certificate chain, and the private key by their file names preceded by fileb://. For example, you can specify a certificate saved in the C:\temp folder as fileb://C:\temp\certificate_to_import.pem. If you are making an HTTP or HTTPS Query request, include these arguments as BLOBs. When you import a certificate by using an SDK, you must specify the certificate, the certificate chain, and the private key files in the manner required by the programming language you're using. The cryptographic algorithm of an imported certificate must match the algorithm of the signing CA. For example, if the signing CA key type is RSA, then the certificate key type must also be RSA. This operation returns the Amazon Resource Name (ARN) of the imported certificate.
* Imports a certificate into Certificate Manager (ACM) to use with services that are integrated with ACM. Note that integrated services allow only certificate types and keys they support to be associated with their resources. Further, their support differs depending on whether the certificate is imported into IAM or into ACM. For more information, see the documentation for each service. For more information about importing certificates into ACM, see Importing Certificates in the Certificate Manager User Guide. ACM does not provide managed renewal for certificates that you import. Note the following guidelines when importing third party certificates: You must enter the private key that matches the certificate you are importing. The private key must be unencrypted. You cannot import a private key that is protected by a password or a passphrase. The private key must be no larger than 5 KB (5,120 bytes). The certificate, private key, and certificate chain must be PEM-encoded. The current time must be between the Not Before and Not After certificate fields. The Issuer field must not be empty. The OCSP authority URL, if present, must not exceed 1000 characters. To import a new certificate, omit the CertificateArn argument. Include this argument only when you want to replace a previously imported certificate. When you import a certificate by using the CLI, you must specify the certificate, the certificate chain, and the private key by their file names preceded by fileb://. For example, you can specify a certificate saved in the C:\temp folder as fileb://C:\temp\certificate_to_import.pem. If you are making an HTTP or HTTPS Query request, include these arguments as BLOBs. When you import a certificate by using an SDK, you must specify the certificate, the certificate chain, and the private key files in the manner required by the programming language you're using. The cryptographic algorithm of an imported certificate must match the algorithm of the signing CA. For example, if the signing CA key type is RSA, then the certificate key type must also be RSA. This operation returns the Amazon Resource Name (ARN) of the imported certificate.
*/
importCertificate(callback?: (err: AWSError, data: ACM.Types.ImportCertificateResponse) => void): Request<ACM.Types.ImportCertificateResponse, AWSError>;
/**
* Retrieves a list of certificate ARNs and domain names. You can request that only certificates that match a specific status be listed. You can also filter by specific attributes of the certificate. Default filtering returns only RSA_2048 certificates. For more information, see Filters.
* Retrieves a list of certificate ARNs and domain names. By default, the API returns RSA_2048 certificates. To return all certificates in the account, include the keyType filter with the values [RSA_1024, RSA_2048, RSA_3072, RSA_4096, EC_prime256v1, EC_secp384r1, EC_secp521r1]. In addition to keyType, you can also filter by the CertificateStatuses, keyUsage, and extendedKeyUsage attributes on the certificate. For more information, see Filters.
*/
listCertificates(params: ACM.Types.ListCertificatesRequest, callback?: (err: AWSError, data: ACM.Types.ListCertificatesResponse) => void): Request<ACM.Types.ListCertificatesResponse, AWSError>;
/**
* Retrieves a list of certificate ARNs and domain names. You can request that only certificates that match a specific status be listed. You can also filter by specific attributes of the certificate. Default filtering returns only RSA_2048 certificates. For more information, see Filters.
* Retrieves a list of certificate ARNs and domain names. By default, the API returns RSA_2048 certificates. To return all certificates in the account, include the keyType filter with the values [RSA_1024, RSA_2048, RSA_3072, RSA_4096, EC_prime256v1, EC_secp384r1, EC_secp521r1]. In addition to keyType, you can also filter by the CertificateStatuses, keyUsage, and extendedKeyUsage attributes on the certificate. For more information, see Filters.
*/

@@ -383,3 +383,3 @@ listCertificates(callback?: (err: AWSError, data: ACM.Types.ListCertificatesResponse) => void): Request<ACM.Types.ListCertificatesResponse, AWSError>;

/**
* The validation status of the domain name. This can be one of the following values: PENDING_VALIDATION SUCCESS FAILED
* The validation status of the domain name. This can be one of the following values: PENDING_VALIDATION SUCCESS FAILED
*/

@@ -668,3 +668,3 @@ ValidationStatus?: DomainStatus;

/**
* Specifies the algorithm of the public and private key pair that your certificate uses to encrypt data. RSA is the default key algorithm for ACM certificates. Elliptic Curve Digital Signature Algorithm (ECDSA) keys are smaller, offering security comparable to RSA keys but with greater computing efficiency. However, ECDSA is not supported by all network clients. Some AWS services may require RSA keys, or only support ECDSA keys of a particular size, while others allow the use of either RSA and ECDSA keys to ensure that compatibility is not broken. Check the requirements for the AWS service where you plan to deploy your certificate. Default: RSA_2048
* Specifies the algorithm of the public and private key pair that your certificate uses to encrypt data. RSA is the default key algorithm for ACM certificates. Elliptic Curve Digital Signature Algorithm (ECDSA) keys are smaller, offering security comparable to RSA keys but with greater computing efficiency. However, ECDSA is not supported by all network clients. Some Amazon Web Services services may require RSA keys, or only support ECDSA keys of a particular size, while others allow the use of either RSA and ECDSA keys to ensure that compatibility is not broken. Check the requirements for the Amazon Web Services service where you plan to deploy your certificate. For more information about selecting an algorithm, see Key algorithms. Algorithms supported for an ACM certificate request include: RSA_2048 EC_prime256v1 EC_secp384r1 Other listed algorithms are for imported certificates only. When you request a private PKI certificate signed by a CA from Amazon Web Services Private CA, the specified signing algorithm family (RSA or ECDSA) must match the algorithm family of the CA's secret key. Default: RSA_2048
*/

@@ -671,0 +671,0 @@ KeyAlgorithm?: KeyAlgorithm;

@@ -23,3 +23,3 @@ /**

*/
VERSION: '2.1654.0',
VERSION: '2.1655.0',

@@ -26,0 +26,0 @@ /**

{
"name": "aws-sdk",
"description": "AWS SDK for JavaScript",
"version": "2.1654.0",
"version": "2.1655.0",
"author": {

@@ -6,0 +6,0 @@ "name": "Amazon Web Services",

@@ -67,3 +67,3 @@ # AWS SDK for JavaScript

<script src="https://sdk.amazonaws.com/js/aws-sdk-2.1654.0.min.js"></script>
<script src="https://sdk.amazonaws.com/js/aws-sdk-2.1655.0.min.js"></script>

@@ -70,0 +70,0 @@ You can also build a custom browser SDK with your specified set of AWS services.

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