/*******************************************************************************
* Copyright 2012-2019 Amazon.com, Inc. or its affiliates. All Rights Reserved.
* Licensed under the Apache License, Version 2.0 (the "License"). You may not use
* this file except in compliance with the License. A copy of the License is located at
*
* http://aws.amazon.com/apache2.0
*
* or in the "license" file accompanying this file.
* This file is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR
* CONDITIONS OF ANY KIND, either express or implied. See the License for the
* specific language governing permissions and limitations under the License.
* *****************************************************************************
*
* AWS Tools for Windows (TM) PowerShell (TM)
*
*/
using System;
using System.Collections.Generic;
using System.Linq;
using System.Management.Automation;
using System.Text;
using Amazon.PowerShell.Common;
using Amazon.Runtime;
using Amazon.PaymentCryptographyData;
using Amazon.PaymentCryptographyData.Model;
namespace Amazon.PowerShell.Cmdlets.PAYCD
{
///
/// Re-encrypt ciphertext using DUKPT, Symmetric and Asymmetric Data Encryption Keys.
///
///
///
///
/// You can either generate an encryption key within Amazon Web Services Payment Cryptography
/// by calling CreateKey
/// or import your own encryption key by calling ImportKey.
/// The KeyArn for use with this operation must be in a compatible key state
/// with KeyModesOfUse set to Encrypt. In asymmetric encryption,
/// ciphertext is encrypted using public component (imported by calling ImportKey)
/// of the asymmetric key pair created outside of Amazon Web Services Payment Cryptography.
///
///
/// For symmetric and DUKPT encryption, Amazon Web Services Payment Cryptography supports
/// TDES and AES algorithms. For asymmetric encryption, Amazon
/// Web Services Payment Cryptography supports RSA. To encrypt using DUKPT,
/// a DUKPT key must already exist within your account with KeyModesOfUse
/// set to DeriveKey or a new DUKPT can be generated by calling CreateKey.
///
/// For information about valid keys for this operation, see Understanding
/// key attributes and Key
/// types for specific data operations in the Amazon Web Services Payment Cryptography
/// User Guide.
/// Cross-account use: This operation can't be used across different Amazon Web
/// Services accounts.
/// Related operations:
///
[Cmdlet("Update", "PAYCDEncryptData", SupportsShouldProcess = true, ConfirmImpact = ConfirmImpact.Medium)]
[OutputType("Amazon.PaymentCryptographyData.Model.ReEncryptDataResponse")]
[AWSCmdlet("Calls the Payment Cryptography Data ReEncryptData API operation.", Operation = new[] {"ReEncryptData"}, SelectReturnType = typeof(Amazon.PaymentCryptographyData.Model.ReEncryptDataResponse))]
[AWSCmdletOutput("Amazon.PaymentCryptographyData.Model.ReEncryptDataResponse",
"This cmdlet returns an Amazon.PaymentCryptographyData.Model.ReEncryptDataResponse object containing multiple properties. The object can also be referenced from properties attached to the cmdlet entry in the $AWSHistory stack."
)]
public partial class UpdatePAYCDEncryptDataCmdlet : AmazonPaymentCryptographyDataClientCmdlet, IExecutor
{
protected override bool IsSensitiveRequest { get; set; } = true;
protected override bool IsSensitiveResponse { get; set; } = true;
#region Parameter CipherText
///
///
/// Ciphertext to be encrypted. The minimum allowed length is 16 bytes and maximum allowed
/// length is 4096 bytes.
///
///
#if !MODULAR
[System.Management.Automation.Parameter(ValueFromPipelineByPropertyName = true)]
#else
[System.Management.Automation.Parameter(ValueFromPipelineByPropertyName = true, Mandatory = true)]
[System.Management.Automation.AllowEmptyString]
[System.Management.Automation.AllowNull]
#endif
[Amazon.PowerShell.Common.AWSRequiredParameter]
public System.String CipherText { get; set; }
#endregion
#region Parameter IncomingEncryptionAttributes_Dukpt_DukptKeyDerivationType
///
///
/// The key type encrypted using DUKPT from a Base Derivation Key (BDK) and Key Serial
/// Number (KSN). This must be less than or equal to the strength of the BDK. For example,
/// you can't use AES_128 as a derivation type for a BDK of AES_128
/// or TDES_2KEY
///
///
[System.Management.Automation.Parameter(ValueFromPipelineByPropertyName = true)]
[AWSConstantClassSource("Amazon.PaymentCryptographyData.DukptDerivationType")]
public Amazon.PaymentCryptographyData.DukptDerivationType IncomingEncryptionAttributes_Dukpt_DukptKeyDerivationType { get; set; }
#endregion
#region Parameter OutgoingEncryptionAttributes_Dukpt_DukptKeyDerivationType
///
///
/// The key type encrypted using DUKPT from a Base Derivation Key (BDK) and Key Serial
/// Number (KSN). This must be less than or equal to the strength of the BDK. For example,
/// you can't use AES_128 as a derivation type for a BDK of AES_128
/// or TDES_2KEY
///
///
[System.Management.Automation.Parameter(ValueFromPipelineByPropertyName = true)]
[AWSConstantClassSource("Amazon.PaymentCryptographyData.DukptDerivationType")]
public Amazon.PaymentCryptographyData.DukptDerivationType OutgoingEncryptionAttributes_Dukpt_DukptKeyDerivationType { get; set; }
#endregion
#region Parameter IncomingEncryptionAttributes_Dukpt_DukptKeyVariant
///
///
/// The type of use of DUKPT, which can be incoming data decryption, outgoing data encryption,
/// or both.
///
///
[System.Management.Automation.Parameter(ValueFromPipelineByPropertyName = true)]
[AWSConstantClassSource("Amazon.PaymentCryptographyData.DukptKeyVariant")]
public Amazon.PaymentCryptographyData.DukptKeyVariant IncomingEncryptionAttributes_Dukpt_DukptKeyVariant { get; set; }
#endregion
#region Parameter OutgoingEncryptionAttributes_Dukpt_DukptKeyVariant
///
///
/// The type of use of DUKPT, which can be incoming data decryption, outgoing data encryption,
/// or both.
///
///
[System.Management.Automation.Parameter(ValueFromPipelineByPropertyName = true)]
[AWSConstantClassSource("Amazon.PaymentCryptographyData.DukptKeyVariant")]
public Amazon.PaymentCryptographyData.DukptKeyVariant OutgoingEncryptionAttributes_Dukpt_DukptKeyVariant { get; set; }
#endregion
#region Parameter IncomingKeyIdentifier
///
///
/// The keyARN of the encryption key of incoming ciphertext data.
///
///
#if !MODULAR
[System.Management.Automation.Parameter(ValueFromPipelineByPropertyName = true)]
#else
[System.Management.Automation.Parameter(ValueFromPipelineByPropertyName = true, Mandatory = true)]
[System.Management.Automation.AllowEmptyString]
[System.Management.Automation.AllowNull]
#endif
[Amazon.PowerShell.Common.AWSRequiredParameter]
public System.String IncomingKeyIdentifier { get; set; }
#endregion
#region Parameter IncomingEncryptionAttributes_Dukpt_InitializationVector
///
///
/// An input to cryptographic primitive used to provide the intial state. Typically the
/// InitializationVector must have a random or psuedo-random value, but sometimes
/// it only needs to be unpredictable or unique. If you don't provide a value, Amazon
/// Web Services Payment Cryptography generates a random value.
///
///
[System.Management.Automation.Parameter(ValueFromPipelineByPropertyName = true)]
public System.String IncomingEncryptionAttributes_Dukpt_InitializationVector { get; set; }
#endregion
#region Parameter IncomingEncryptionAttributes_Symmetric_InitializationVector
///
///
/// An input to cryptographic primitive used to provide the intial state. The InitializationVector
/// is typically required have a random or psuedo-random value, but sometimes it only
/// needs to be unpredictable or unique. If a value is not provided, Amazon Web Services
/// Payment Cryptography generates a random value.
///
///
[System.Management.Automation.Parameter(ValueFromPipelineByPropertyName = true)]
public System.String IncomingEncryptionAttributes_Symmetric_InitializationVector { get; set; }
#endregion
#region Parameter OutgoingEncryptionAttributes_Dukpt_InitializationVector
///
///
/// An input to cryptographic primitive used to provide the intial state. Typically the
/// InitializationVector must have a random or psuedo-random value, but sometimes
/// it only needs to be unpredictable or unique. If you don't provide a value, Amazon
/// Web Services Payment Cryptography generates a random value.
///
///
[System.Management.Automation.Parameter(ValueFromPipelineByPropertyName = true)]
public System.String OutgoingEncryptionAttributes_Dukpt_InitializationVector { get; set; }
#endregion
#region Parameter OutgoingEncryptionAttributes_Symmetric_InitializationVector
///
///
/// An input to cryptographic primitive used to provide the intial state. The InitializationVector
/// is typically required have a random or psuedo-random value, but sometimes it only
/// needs to be unpredictable or unique. If a value is not provided, Amazon Web Services
/// Payment Cryptography generates a random value.
///
///
[System.Management.Automation.Parameter(ValueFromPipelineByPropertyName = true)]
public System.String OutgoingEncryptionAttributes_Symmetric_InitializationVector { get; set; }
#endregion
#region Parameter IncomingEncryptionAttributes_Dukpt_KeySerialNumber
///
///
/// The unique identifier known as Key Serial Number (KSN) that comes from an encrypting
/// device using DUKPT encryption method. The KSN is derived from the encrypting device
/// unique identifier and an internal transaction counter.
///
///
[System.Management.Automation.Parameter(ValueFromPipelineByPropertyName = true)]
public System.String IncomingEncryptionAttributes_Dukpt_KeySerialNumber { get; set; }
#endregion
#region Parameter OutgoingEncryptionAttributes_Dukpt_KeySerialNumber
///
///
/// The unique identifier known as Key Serial Number (KSN) that comes from an encrypting
/// device using DUKPT encryption method. The KSN is derived from the encrypting device
/// unique identifier and an internal transaction counter.
///
///
[System.Management.Automation.Parameter(ValueFromPipelineByPropertyName = true)]
public System.String OutgoingEncryptionAttributes_Dukpt_KeySerialNumber { get; set; }
#endregion
#region Parameter IncomingEncryptionAttributes_Dukpt_Mode
///
///
/// The block cipher mode of operation. Block ciphers are designed to encrypt a block
/// of data of fixed size, for example, 128 bits. The size of the input block is usually
/// same as the size of the encrypted output block, while the key length can be different.
/// A mode of operation describes how to repeatedly apply a cipher's single-block operation
/// to securely transform amounts of data larger than a block.The default is CBC.
///
///
[System.Management.Automation.Parameter(ValueFromPipelineByPropertyName = true)]
[AWSConstantClassSource("Amazon.PaymentCryptographyData.DukptEncryptionMode")]
public Amazon.PaymentCryptographyData.DukptEncryptionMode IncomingEncryptionAttributes_Dukpt_Mode { get; set; }
#endregion
#region Parameter IncomingEncryptionAttributes_Symmetric_Mode
///
///
/// The block cipher mode of operation. Block ciphers are designed to encrypt a block
/// of data of fixed size (for example, 128 bits). The size of the input block is usually
/// same as the size of the encrypted output block, while the key length can be different.
/// A mode of operation describes how to repeatedly apply a cipher's single-block operation
/// to securely transform amounts of data larger than a block.
///
///
[System.Management.Automation.Parameter(ValueFromPipelineByPropertyName = true)]
[AWSConstantClassSource("Amazon.PaymentCryptographyData.EncryptionMode")]
public Amazon.PaymentCryptographyData.EncryptionMode IncomingEncryptionAttributes_Symmetric_Mode { get; set; }
#endregion
#region Parameter OutgoingEncryptionAttributes_Dukpt_Mode
///
///
/// The block cipher mode of operation. Block ciphers are designed to encrypt a block
/// of data of fixed size, for example, 128 bits. The size of the input block is usually
/// same as the size of the encrypted output block, while the key length can be different.
/// A mode of operation describes how to repeatedly apply a cipher's single-block operation
/// to securely transform amounts of data larger than a block.The default is CBC.
///
///
[System.Management.Automation.Parameter(ValueFromPipelineByPropertyName = true)]
[AWSConstantClassSource("Amazon.PaymentCryptographyData.DukptEncryptionMode")]
public Amazon.PaymentCryptographyData.DukptEncryptionMode OutgoingEncryptionAttributes_Dukpt_Mode { get; set; }
#endregion
#region Parameter OutgoingEncryptionAttributes_Symmetric_Mode
///
///
/// The block cipher mode of operation. Block ciphers are designed to encrypt a block
/// of data of fixed size (for example, 128 bits). The size of the input block is usually
/// same as the size of the encrypted output block, while the key length can be different.
/// A mode of operation describes how to repeatedly apply a cipher's single-block operation
/// to securely transform amounts of data larger than a block.
///
///
[System.Management.Automation.Parameter(ValueFromPipelineByPropertyName = true)]
[AWSConstantClassSource("Amazon.PaymentCryptographyData.EncryptionMode")]
public Amazon.PaymentCryptographyData.EncryptionMode OutgoingEncryptionAttributes_Symmetric_Mode { get; set; }
#endregion
#region Parameter OutgoingKeyIdentifier
///
///
/// The keyARN of the encryption key of outgoing ciphertext data after encryption
/// by Amazon Web Services Payment Cryptography.
///
///
#if !MODULAR
[System.Management.Automation.Parameter(ValueFromPipelineByPropertyName = true)]
#else
[System.Management.Automation.Parameter(ValueFromPipelineByPropertyName = true, Mandatory = true)]
[System.Management.Automation.AllowEmptyString]
[System.Management.Automation.AllowNull]
#endif
[Amazon.PowerShell.Common.AWSRequiredParameter]
public System.String OutgoingKeyIdentifier { get; set; }
#endregion
#region Parameter IncomingEncryptionAttributes_Symmetric_PaddingType
///
///
/// The padding to be included with the data.
///
///
[System.Management.Automation.Parameter(ValueFromPipelineByPropertyName = true)]
[AWSConstantClassSource("Amazon.PaymentCryptographyData.PaddingType")]
public Amazon.PaymentCryptographyData.PaddingType IncomingEncryptionAttributes_Symmetric_PaddingType { get; set; }
#endregion
#region Parameter OutgoingEncryptionAttributes_Symmetric_PaddingType
///
///
/// The padding to be included with the data.
///
///
[System.Management.Automation.Parameter(ValueFromPipelineByPropertyName = true)]
[AWSConstantClassSource("Amazon.PaymentCryptographyData.PaddingType")]
public Amazon.PaymentCryptographyData.PaddingType OutgoingEncryptionAttributes_Symmetric_PaddingType { get; set; }
#endregion
#region Parameter Select
///
/// Use the -Select parameter to control the cmdlet output. The default value is '*'.
/// Specifying -Select '*' will result in the cmdlet returning the whole service response (Amazon.PaymentCryptographyData.Model.ReEncryptDataResponse).
/// Specifying the name of a property of type Amazon.PaymentCryptographyData.Model.ReEncryptDataResponse will result in that property being returned.
/// Specifying -Select '^ParameterName' will result in the cmdlet returning the selected cmdlet parameter value.
///
[System.Management.Automation.Parameter(ValueFromPipelineByPropertyName = true)]
public string Select { get; set; } = "*";
#endregion
#region Parameter Force
///
/// This parameter overrides confirmation prompts to force
/// the cmdlet to continue its operation. This parameter should always
/// be used with caution.
///
[System.Management.Automation.Parameter(ValueFromPipelineByPropertyName = true)]
public SwitchParameter Force { get; set; }
#endregion
protected override void ProcessRecord()
{
this._AWSSignerType = "v4";
base.ProcessRecord();
var resourceIdentifiersText = string.Empty;
if (!ConfirmShouldProceed(this.Force.IsPresent, resourceIdentifiersText, "Update-PAYCDEncryptData (ReEncryptData)"))
{
return;
}
var context = new CmdletContext();
// allow for manipulation of parameters prior to loading into context
PreExecutionContextLoad(context);
if (ParameterWasBound(nameof(this.Select)))
{
context.Select = CreateSelectDelegate(Select) ??
throw new System.ArgumentException("Invalid value for -Select parameter.", nameof(this.Select));
}
context.CipherText = this.CipherText;
#if MODULAR
if (this.CipherText == null && ParameterWasBound(nameof(this.CipherText)))
{
WriteWarning("You are passing $null as a value for parameter CipherText which is marked as required. In case you believe this parameter was incorrectly marked as required, report this by opening an issue at https://github.com/aws/aws-tools-for-powershell/issues.");
}
#endif
context.IncomingEncryptionAttributes_Dukpt_DukptKeyDerivationType = this.IncomingEncryptionAttributes_Dukpt_DukptKeyDerivationType;
context.IncomingEncryptionAttributes_Dukpt_DukptKeyVariant = this.IncomingEncryptionAttributes_Dukpt_DukptKeyVariant;
context.IncomingEncryptionAttributes_Dukpt_InitializationVector = this.IncomingEncryptionAttributes_Dukpt_InitializationVector;
context.IncomingEncryptionAttributes_Dukpt_KeySerialNumber = this.IncomingEncryptionAttributes_Dukpt_KeySerialNumber;
context.IncomingEncryptionAttributes_Dukpt_Mode = this.IncomingEncryptionAttributes_Dukpt_Mode;
context.IncomingEncryptionAttributes_Symmetric_InitializationVector = this.IncomingEncryptionAttributes_Symmetric_InitializationVector;
context.IncomingEncryptionAttributes_Symmetric_Mode = this.IncomingEncryptionAttributes_Symmetric_Mode;
context.IncomingEncryptionAttributes_Symmetric_PaddingType = this.IncomingEncryptionAttributes_Symmetric_PaddingType;
context.IncomingKeyIdentifier = this.IncomingKeyIdentifier;
#if MODULAR
if (this.IncomingKeyIdentifier == null && ParameterWasBound(nameof(this.IncomingKeyIdentifier)))
{
WriteWarning("You are passing $null as a value for parameter IncomingKeyIdentifier which is marked as required. In case you believe this parameter was incorrectly marked as required, report this by opening an issue at https://github.com/aws/aws-tools-for-powershell/issues.");
}
#endif
context.OutgoingEncryptionAttributes_Dukpt_DukptKeyDerivationType = this.OutgoingEncryptionAttributes_Dukpt_DukptKeyDerivationType;
context.OutgoingEncryptionAttributes_Dukpt_DukptKeyVariant = this.OutgoingEncryptionAttributes_Dukpt_DukptKeyVariant;
context.OutgoingEncryptionAttributes_Dukpt_InitializationVector = this.OutgoingEncryptionAttributes_Dukpt_InitializationVector;
context.OutgoingEncryptionAttributes_Dukpt_KeySerialNumber = this.OutgoingEncryptionAttributes_Dukpt_KeySerialNumber;
context.OutgoingEncryptionAttributes_Dukpt_Mode = this.OutgoingEncryptionAttributes_Dukpt_Mode;
context.OutgoingEncryptionAttributes_Symmetric_InitializationVector = this.OutgoingEncryptionAttributes_Symmetric_InitializationVector;
context.OutgoingEncryptionAttributes_Symmetric_Mode = this.OutgoingEncryptionAttributes_Symmetric_Mode;
context.OutgoingEncryptionAttributes_Symmetric_PaddingType = this.OutgoingEncryptionAttributes_Symmetric_PaddingType;
context.OutgoingKeyIdentifier = this.OutgoingKeyIdentifier;
#if MODULAR
if (this.OutgoingKeyIdentifier == null && ParameterWasBound(nameof(this.OutgoingKeyIdentifier)))
{
WriteWarning("You are passing $null as a value for parameter OutgoingKeyIdentifier which is marked as required. In case you believe this parameter was incorrectly marked as required, report this by opening an issue at https://github.com/aws/aws-tools-for-powershell/issues.");
}
#endif
// allow further manipulation of loaded context prior to processing
PostExecutionContextLoad(context);
var output = Execute(context) as CmdletOutput;
ProcessOutput(output);
}
#region IExecutor Members
public object Execute(ExecutorContext context)
{
var cmdletContext = context as CmdletContext;
// create request
var request = new Amazon.PaymentCryptographyData.Model.ReEncryptDataRequest();
if (cmdletContext.CipherText != null)
{
request.CipherText = cmdletContext.CipherText;
}
// populate IncomingEncryptionAttributes
var requestIncomingEncryptionAttributesIsNull = true;
request.IncomingEncryptionAttributes = new Amazon.PaymentCryptographyData.Model.ReEncryptionAttributes();
Amazon.PaymentCryptographyData.Model.SymmetricEncryptionAttributes requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Symmetric = null;
// populate Symmetric
var requestIncomingEncryptionAttributes_incomingEncryptionAttributes_SymmetricIsNull = true;
requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Symmetric = new Amazon.PaymentCryptographyData.Model.SymmetricEncryptionAttributes();
System.String requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Symmetric_incomingEncryptionAttributes_Symmetric_InitializationVector = null;
if (cmdletContext.IncomingEncryptionAttributes_Symmetric_InitializationVector != null)
{
requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Symmetric_incomingEncryptionAttributes_Symmetric_InitializationVector = cmdletContext.IncomingEncryptionAttributes_Symmetric_InitializationVector;
}
if (requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Symmetric_incomingEncryptionAttributes_Symmetric_InitializationVector != null)
{
requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Symmetric.InitializationVector = requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Symmetric_incomingEncryptionAttributes_Symmetric_InitializationVector;
requestIncomingEncryptionAttributes_incomingEncryptionAttributes_SymmetricIsNull = false;
}
Amazon.PaymentCryptographyData.EncryptionMode requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Symmetric_incomingEncryptionAttributes_Symmetric_Mode = null;
if (cmdletContext.IncomingEncryptionAttributes_Symmetric_Mode != null)
{
requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Symmetric_incomingEncryptionAttributes_Symmetric_Mode = cmdletContext.IncomingEncryptionAttributes_Symmetric_Mode;
}
if (requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Symmetric_incomingEncryptionAttributes_Symmetric_Mode != null)
{
requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Symmetric.Mode = requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Symmetric_incomingEncryptionAttributes_Symmetric_Mode;
requestIncomingEncryptionAttributes_incomingEncryptionAttributes_SymmetricIsNull = false;
}
Amazon.PaymentCryptographyData.PaddingType requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Symmetric_incomingEncryptionAttributes_Symmetric_PaddingType = null;
if (cmdletContext.IncomingEncryptionAttributes_Symmetric_PaddingType != null)
{
requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Symmetric_incomingEncryptionAttributes_Symmetric_PaddingType = cmdletContext.IncomingEncryptionAttributes_Symmetric_PaddingType;
}
if (requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Symmetric_incomingEncryptionAttributes_Symmetric_PaddingType != null)
{
requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Symmetric.PaddingType = requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Symmetric_incomingEncryptionAttributes_Symmetric_PaddingType;
requestIncomingEncryptionAttributes_incomingEncryptionAttributes_SymmetricIsNull = false;
}
// determine if requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Symmetric should be set to null
if (requestIncomingEncryptionAttributes_incomingEncryptionAttributes_SymmetricIsNull)
{
requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Symmetric = null;
}
if (requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Symmetric != null)
{
request.IncomingEncryptionAttributes.Symmetric = requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Symmetric;
requestIncomingEncryptionAttributesIsNull = false;
}
Amazon.PaymentCryptographyData.Model.DukptEncryptionAttributes requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Dukpt = null;
// populate Dukpt
var requestIncomingEncryptionAttributes_incomingEncryptionAttributes_DukptIsNull = true;
requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Dukpt = new Amazon.PaymentCryptographyData.Model.DukptEncryptionAttributes();
Amazon.PaymentCryptographyData.DukptDerivationType requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Dukpt_incomingEncryptionAttributes_Dukpt_DukptKeyDerivationType = null;
if (cmdletContext.IncomingEncryptionAttributes_Dukpt_DukptKeyDerivationType != null)
{
requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Dukpt_incomingEncryptionAttributes_Dukpt_DukptKeyDerivationType = cmdletContext.IncomingEncryptionAttributes_Dukpt_DukptKeyDerivationType;
}
if (requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Dukpt_incomingEncryptionAttributes_Dukpt_DukptKeyDerivationType != null)
{
requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Dukpt.DukptKeyDerivationType = requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Dukpt_incomingEncryptionAttributes_Dukpt_DukptKeyDerivationType;
requestIncomingEncryptionAttributes_incomingEncryptionAttributes_DukptIsNull = false;
}
Amazon.PaymentCryptographyData.DukptKeyVariant requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Dukpt_incomingEncryptionAttributes_Dukpt_DukptKeyVariant = null;
if (cmdletContext.IncomingEncryptionAttributes_Dukpt_DukptKeyVariant != null)
{
requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Dukpt_incomingEncryptionAttributes_Dukpt_DukptKeyVariant = cmdletContext.IncomingEncryptionAttributes_Dukpt_DukptKeyVariant;
}
if (requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Dukpt_incomingEncryptionAttributes_Dukpt_DukptKeyVariant != null)
{
requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Dukpt.DukptKeyVariant = requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Dukpt_incomingEncryptionAttributes_Dukpt_DukptKeyVariant;
requestIncomingEncryptionAttributes_incomingEncryptionAttributes_DukptIsNull = false;
}
System.String requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Dukpt_incomingEncryptionAttributes_Dukpt_InitializationVector = null;
if (cmdletContext.IncomingEncryptionAttributes_Dukpt_InitializationVector != null)
{
requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Dukpt_incomingEncryptionAttributes_Dukpt_InitializationVector = cmdletContext.IncomingEncryptionAttributes_Dukpt_InitializationVector;
}
if (requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Dukpt_incomingEncryptionAttributes_Dukpt_InitializationVector != null)
{
requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Dukpt.InitializationVector = requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Dukpt_incomingEncryptionAttributes_Dukpt_InitializationVector;
requestIncomingEncryptionAttributes_incomingEncryptionAttributes_DukptIsNull = false;
}
System.String requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Dukpt_incomingEncryptionAttributes_Dukpt_KeySerialNumber = null;
if (cmdletContext.IncomingEncryptionAttributes_Dukpt_KeySerialNumber != null)
{
requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Dukpt_incomingEncryptionAttributes_Dukpt_KeySerialNumber = cmdletContext.IncomingEncryptionAttributes_Dukpt_KeySerialNumber;
}
if (requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Dukpt_incomingEncryptionAttributes_Dukpt_KeySerialNumber != null)
{
requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Dukpt.KeySerialNumber = requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Dukpt_incomingEncryptionAttributes_Dukpt_KeySerialNumber;
requestIncomingEncryptionAttributes_incomingEncryptionAttributes_DukptIsNull = false;
}
Amazon.PaymentCryptographyData.DukptEncryptionMode requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Dukpt_incomingEncryptionAttributes_Dukpt_Mode = null;
if (cmdletContext.IncomingEncryptionAttributes_Dukpt_Mode != null)
{
requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Dukpt_incomingEncryptionAttributes_Dukpt_Mode = cmdletContext.IncomingEncryptionAttributes_Dukpt_Mode;
}
if (requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Dukpt_incomingEncryptionAttributes_Dukpt_Mode != null)
{
requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Dukpt.Mode = requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Dukpt_incomingEncryptionAttributes_Dukpt_Mode;
requestIncomingEncryptionAttributes_incomingEncryptionAttributes_DukptIsNull = false;
}
// determine if requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Dukpt should be set to null
if (requestIncomingEncryptionAttributes_incomingEncryptionAttributes_DukptIsNull)
{
requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Dukpt = null;
}
if (requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Dukpt != null)
{
request.IncomingEncryptionAttributes.Dukpt = requestIncomingEncryptionAttributes_incomingEncryptionAttributes_Dukpt;
requestIncomingEncryptionAttributesIsNull = false;
}
// determine if request.IncomingEncryptionAttributes should be set to null
if (requestIncomingEncryptionAttributesIsNull)
{
request.IncomingEncryptionAttributes = null;
}
if (cmdletContext.IncomingKeyIdentifier != null)
{
request.IncomingKeyIdentifier = cmdletContext.IncomingKeyIdentifier;
}
// populate OutgoingEncryptionAttributes
var requestOutgoingEncryptionAttributesIsNull = true;
request.OutgoingEncryptionAttributes = new Amazon.PaymentCryptographyData.Model.ReEncryptionAttributes();
Amazon.PaymentCryptographyData.Model.SymmetricEncryptionAttributes requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Symmetric = null;
// populate Symmetric
var requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_SymmetricIsNull = true;
requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Symmetric = new Amazon.PaymentCryptographyData.Model.SymmetricEncryptionAttributes();
System.String requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Symmetric_outgoingEncryptionAttributes_Symmetric_InitializationVector = null;
if (cmdletContext.OutgoingEncryptionAttributes_Symmetric_InitializationVector != null)
{
requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Symmetric_outgoingEncryptionAttributes_Symmetric_InitializationVector = cmdletContext.OutgoingEncryptionAttributes_Symmetric_InitializationVector;
}
if (requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Symmetric_outgoingEncryptionAttributes_Symmetric_InitializationVector != null)
{
requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Symmetric.InitializationVector = requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Symmetric_outgoingEncryptionAttributes_Symmetric_InitializationVector;
requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_SymmetricIsNull = false;
}
Amazon.PaymentCryptographyData.EncryptionMode requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Symmetric_outgoingEncryptionAttributes_Symmetric_Mode = null;
if (cmdletContext.OutgoingEncryptionAttributes_Symmetric_Mode != null)
{
requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Symmetric_outgoingEncryptionAttributes_Symmetric_Mode = cmdletContext.OutgoingEncryptionAttributes_Symmetric_Mode;
}
if (requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Symmetric_outgoingEncryptionAttributes_Symmetric_Mode != null)
{
requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Symmetric.Mode = requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Symmetric_outgoingEncryptionAttributes_Symmetric_Mode;
requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_SymmetricIsNull = false;
}
Amazon.PaymentCryptographyData.PaddingType requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Symmetric_outgoingEncryptionAttributes_Symmetric_PaddingType = null;
if (cmdletContext.OutgoingEncryptionAttributes_Symmetric_PaddingType != null)
{
requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Symmetric_outgoingEncryptionAttributes_Symmetric_PaddingType = cmdletContext.OutgoingEncryptionAttributes_Symmetric_PaddingType;
}
if (requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Symmetric_outgoingEncryptionAttributes_Symmetric_PaddingType != null)
{
requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Symmetric.PaddingType = requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Symmetric_outgoingEncryptionAttributes_Symmetric_PaddingType;
requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_SymmetricIsNull = false;
}
// determine if requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Symmetric should be set to null
if (requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_SymmetricIsNull)
{
requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Symmetric = null;
}
if (requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Symmetric != null)
{
request.OutgoingEncryptionAttributes.Symmetric = requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Symmetric;
requestOutgoingEncryptionAttributesIsNull = false;
}
Amazon.PaymentCryptographyData.Model.DukptEncryptionAttributes requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Dukpt = null;
// populate Dukpt
var requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_DukptIsNull = true;
requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Dukpt = new Amazon.PaymentCryptographyData.Model.DukptEncryptionAttributes();
Amazon.PaymentCryptographyData.DukptDerivationType requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Dukpt_outgoingEncryptionAttributes_Dukpt_DukptKeyDerivationType = null;
if (cmdletContext.OutgoingEncryptionAttributes_Dukpt_DukptKeyDerivationType != null)
{
requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Dukpt_outgoingEncryptionAttributes_Dukpt_DukptKeyDerivationType = cmdletContext.OutgoingEncryptionAttributes_Dukpt_DukptKeyDerivationType;
}
if (requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Dukpt_outgoingEncryptionAttributes_Dukpt_DukptKeyDerivationType != null)
{
requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Dukpt.DukptKeyDerivationType = requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Dukpt_outgoingEncryptionAttributes_Dukpt_DukptKeyDerivationType;
requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_DukptIsNull = false;
}
Amazon.PaymentCryptographyData.DukptKeyVariant requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Dukpt_outgoingEncryptionAttributes_Dukpt_DukptKeyVariant = null;
if (cmdletContext.OutgoingEncryptionAttributes_Dukpt_DukptKeyVariant != null)
{
requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Dukpt_outgoingEncryptionAttributes_Dukpt_DukptKeyVariant = cmdletContext.OutgoingEncryptionAttributes_Dukpt_DukptKeyVariant;
}
if (requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Dukpt_outgoingEncryptionAttributes_Dukpt_DukptKeyVariant != null)
{
requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Dukpt.DukptKeyVariant = requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Dukpt_outgoingEncryptionAttributes_Dukpt_DukptKeyVariant;
requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_DukptIsNull = false;
}
System.String requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Dukpt_outgoingEncryptionAttributes_Dukpt_InitializationVector = null;
if (cmdletContext.OutgoingEncryptionAttributes_Dukpt_InitializationVector != null)
{
requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Dukpt_outgoingEncryptionAttributes_Dukpt_InitializationVector = cmdletContext.OutgoingEncryptionAttributes_Dukpt_InitializationVector;
}
if (requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Dukpt_outgoingEncryptionAttributes_Dukpt_InitializationVector != null)
{
requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Dukpt.InitializationVector = requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Dukpt_outgoingEncryptionAttributes_Dukpt_InitializationVector;
requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_DukptIsNull = false;
}
System.String requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Dukpt_outgoingEncryptionAttributes_Dukpt_KeySerialNumber = null;
if (cmdletContext.OutgoingEncryptionAttributes_Dukpt_KeySerialNumber != null)
{
requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Dukpt_outgoingEncryptionAttributes_Dukpt_KeySerialNumber = cmdletContext.OutgoingEncryptionAttributes_Dukpt_KeySerialNumber;
}
if (requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Dukpt_outgoingEncryptionAttributes_Dukpt_KeySerialNumber != null)
{
requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Dukpt.KeySerialNumber = requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Dukpt_outgoingEncryptionAttributes_Dukpt_KeySerialNumber;
requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_DukptIsNull = false;
}
Amazon.PaymentCryptographyData.DukptEncryptionMode requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Dukpt_outgoingEncryptionAttributes_Dukpt_Mode = null;
if (cmdletContext.OutgoingEncryptionAttributes_Dukpt_Mode != null)
{
requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Dukpt_outgoingEncryptionAttributes_Dukpt_Mode = cmdletContext.OutgoingEncryptionAttributes_Dukpt_Mode;
}
if (requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Dukpt_outgoingEncryptionAttributes_Dukpt_Mode != null)
{
requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Dukpt.Mode = requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Dukpt_outgoingEncryptionAttributes_Dukpt_Mode;
requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_DukptIsNull = false;
}
// determine if requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Dukpt should be set to null
if (requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_DukptIsNull)
{
requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Dukpt = null;
}
if (requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Dukpt != null)
{
request.OutgoingEncryptionAttributes.Dukpt = requestOutgoingEncryptionAttributes_outgoingEncryptionAttributes_Dukpt;
requestOutgoingEncryptionAttributesIsNull = false;
}
// determine if request.OutgoingEncryptionAttributes should be set to null
if (requestOutgoingEncryptionAttributesIsNull)
{
request.OutgoingEncryptionAttributes = null;
}
if (cmdletContext.OutgoingKeyIdentifier != null)
{
request.OutgoingKeyIdentifier = cmdletContext.OutgoingKeyIdentifier;
}
CmdletOutput output;
// issue call
var client = Client ?? CreateClient(_CurrentCredentials, _RegionEndpoint);
try
{
var response = CallAWSServiceOperation(client, request);
object pipelineOutput = null;
pipelineOutput = cmdletContext.Select(response, this);
output = new CmdletOutput
{
PipelineOutput = pipelineOutput,
ServiceResponse = response
};
}
catch (Exception e)
{
output = new CmdletOutput { ErrorResponse = e };
}
return output;
}
public ExecutorContext CreateContext()
{
return new CmdletContext();
}
#endregion
#region AWS Service Operation Call
private Amazon.PaymentCryptographyData.Model.ReEncryptDataResponse CallAWSServiceOperation(IAmazonPaymentCryptographyData client, Amazon.PaymentCryptographyData.Model.ReEncryptDataRequest request)
{
Utils.Common.WriteVerboseEndpointMessage(this, client.Config, "Payment Cryptography Data", "ReEncryptData");
try
{
#if DESKTOP
return client.ReEncryptData(request);
#elif CORECLR
return client.ReEncryptDataAsync(request).GetAwaiter().GetResult();
#else
#error "Unknown build edition"
#endif
}
catch (AmazonServiceException exc)
{
var webException = exc.InnerException as System.Net.WebException;
if (webException != null)
{
throw new Exception(Utils.Common.FormatNameResolutionFailureMessage(client.Config, webException.Message), webException);
}
throw;
}
}
#endregion
internal partial class CmdletContext : ExecutorContext
{
public System.String CipherText { get; set; }
public Amazon.PaymentCryptographyData.DukptDerivationType IncomingEncryptionAttributes_Dukpt_DukptKeyDerivationType { get; set; }
public Amazon.PaymentCryptographyData.DukptKeyVariant IncomingEncryptionAttributes_Dukpt_DukptKeyVariant { get; set; }
public System.String IncomingEncryptionAttributes_Dukpt_InitializationVector { get; set; }
public System.String IncomingEncryptionAttributes_Dukpt_KeySerialNumber { get; set; }
public Amazon.PaymentCryptographyData.DukptEncryptionMode IncomingEncryptionAttributes_Dukpt_Mode { get; set; }
public System.String IncomingEncryptionAttributes_Symmetric_InitializationVector { get; set; }
public Amazon.PaymentCryptographyData.EncryptionMode IncomingEncryptionAttributes_Symmetric_Mode { get; set; }
public Amazon.PaymentCryptographyData.PaddingType IncomingEncryptionAttributes_Symmetric_PaddingType { get; set; }
public System.String IncomingKeyIdentifier { get; set; }
public Amazon.PaymentCryptographyData.DukptDerivationType OutgoingEncryptionAttributes_Dukpt_DukptKeyDerivationType { get; set; }
public Amazon.PaymentCryptographyData.DukptKeyVariant OutgoingEncryptionAttributes_Dukpt_DukptKeyVariant { get; set; }
public System.String OutgoingEncryptionAttributes_Dukpt_InitializationVector { get; set; }
public System.String OutgoingEncryptionAttributes_Dukpt_KeySerialNumber { get; set; }
public Amazon.PaymentCryptographyData.DukptEncryptionMode OutgoingEncryptionAttributes_Dukpt_Mode { get; set; }
public System.String OutgoingEncryptionAttributes_Symmetric_InitializationVector { get; set; }
public Amazon.PaymentCryptographyData.EncryptionMode OutgoingEncryptionAttributes_Symmetric_Mode { get; set; }
public Amazon.PaymentCryptographyData.PaddingType OutgoingEncryptionAttributes_Symmetric_PaddingType { get; set; }
public System.String OutgoingKeyIdentifier { get; set; }
public System.Func Select { get; set; } =
(response, cmdlet) => response;
}
}
}