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aws-cryptographic-material-providers-library-java	aws	C#	// Copyright Amazon.com Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using Wrappers_Compile; using ibyteseq = Dafny.ISequence<byte>; using byteseq = Dafny.Sequence<byte>; using icharseq = Dafny.ISequence<char>; using charseq = Dafny.Sequence<char>; namespace UUID { public partial class __default { public static _IResult<ibyteseq, icharseq> ToByteArray(icharseq s) { try { Guid fromString = new Guid(new String(s.CloneAsArray())); byte[] bytes = ReOrderUuidBytes(fromString.ToByteArray()); return Result<ibyteseq, icharseq>.create_Success(byteseq.FromArray(bytes)); } catch (Exception e) when (e is ArgumentNullException or FormatException or OverflowException) { return Result<ibyteseq, icharseq> .create_Failure(Dafny.Sequence<char>.FromString("Unable to convert input to a UUID")); } } public static _IResult<icharseq, icharseq> FromByteArray(ibyteseq b) { try { byte[] bytes = ReOrderUuidBytes(b.CloneAsArray()); Guid fromBytes = new Guid(bytes); return Result<icharseq, icharseq>.create_Success(charseq.FromString(fromBytes.ToString())); } catch (Exception e) when (e is ArgumentNullException or ArgumentException) { return Result<icharseq, icharseq>.create_Failure( charseq.FromString("Unable to convert bytes to valid UUID")); } } public static _IResult<icharseq, icharseq> GenerateUUID() { Guid uuid = Guid.NewGuid(); return Result<icharseq, icharseq>.create_Success(charseq.FromString(uuid.ToString())); } // https://learn.microsoft.com/en-us/dotnet/api/system.guid.tobytearray?redirectedfrom=MSDN&view=net-7.0#remarks private static byte[] ReOrderUuidBytes(byte[] uuid) { // When using the .ToByteArray() method the byte // representation is different than that of the // string representation. // The order of the beginning four-byte group and // the next two two-byte groups is reversed // whereas the order of the last two-byte group // and the closing six-byte group is the same byte[] bytes = { uuid[3], uuid[2], uuid[1], uuid[0], uuid[5], uuid[4], uuid[7], uuid[6], uuid[8], uuid[9], uuid[10], uuid[11], uuid[12], uuid[13], uuid[14], uuid[15] }; return bytes; } } }	71
aws-cryptographic-material-providers-library-java	aws	C#	using Wrappers_Compile; namespace software.amazon.cryptography.materialproviders.internaldafny.wrapped { public partial class __default { public static _IResult< types.IAwsCryptographicMaterialProvidersClient, types._IError > WrappedMaterialProviders( types._IMaterialProvidersConfig config ) { var wrappedConfig = AWS.Cryptography.MaterialProviders.Wrapped.TypeConversion .FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_MaterialProvidersConfig(config); var impl = new AWS.Cryptography.MaterialProviders.MaterialProviders(wrappedConfig); var wrappedClient = new AWS.Cryptography.MaterialProviders.Wrapped.AwsCryptographicMaterialProvidersShim(impl); return Result< types.IAwsCryptographicMaterialProvidersClient, types._IError > .create_Success(wrappedClient); } static void Main(string[] args) { WrappedMaterialProvidersMain_Compile.__default.CheckKeyrings(); } } }	34
aws-cryptographic-material-providers-library-java	aws	C#	// Copyright Amazon.com Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 // Do not modify this file. This file is machine generated, and any changes to it will be overwritten. using System; using AWS.Cryptography.MaterialProvidersTestVectorKeys; namespace AWS.Cryptography.MaterialProvidersTestVectorKeys { public class CollectionOfErrors : Exception { public readonly System.Collections.Generic.List<Exception> list; public CollectionOfErrors(System.Collections.Generic.List<Exception> list, string message) : base(message) { this.list = list; } public CollectionOfErrors(string message) : base(message) { this.list = new System.Collections.Generic.List<Exception>(); } public CollectionOfErrors() : base("CollectionOfErrors") { this.list = new System.Collections.Generic.List<Exception>(); } } }	14
aws-cryptographic-material-providers-library-java	aws	C#	// Copyright Amazon.com Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 // Do not modify this file. This file is machine generated, and any changes to it will be overwritten. using System; using AWS.Cryptography.MaterialProvidersTestVectorKeys; namespace AWS.Cryptography.MaterialProvidersTestVectorKeys { public class GetKeyDescriptionInput { private System.IO.MemoryStream _json ; public System.IO.MemoryStream Json { get { return this._json; } set { this._json = value; } } public bool IsSetJson () { return this._json != null; } public void Validate() { if (!IsSetJson()) throw new System.ArgumentException("Missing value for required property 'Json'"); } } }	21
aws-cryptographic-material-providers-library-java	aws	C#	// Copyright Amazon.com Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 // Do not modify this file. This file is machine generated, and any changes to it will be overwritten. using System; using AWS.Cryptography.MaterialProvidersTestVectorKeys; namespace AWS.Cryptography.MaterialProvidersTestVectorKeys { public class GetKeyDescriptionOutput { private AWS.Cryptography.MaterialProvidersTestVectorKeys.KeyDescription _keyDescription ; public AWS.Cryptography.MaterialProvidersTestVectorKeys.KeyDescription KeyDescription { get { return this._keyDescription; } set { this._keyDescription = value; } } public bool IsSetKeyDescription () { return this._keyDescription != null; } public void Validate() { if (!IsSetKeyDescription()) throw new System.ArgumentException("Missing value for required property 'KeyDescription'"); } } }	21
aws-cryptographic-material-providers-library-java	aws	C#	// Copyright Amazon.com Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 // Do not modify this file. This file is machine generated, and any changes to it will be overwritten. using System; using AWS.Cryptography.MaterialProvidersTestVectorKeys; namespace AWS.Cryptography.MaterialProvidersTestVectorKeys { public class Hierarchy { private string _branchKeyId ; public string BranchKeyId { get { return this._branchKeyId; } set { this._branchKeyId = value; } } public bool IsSetBranchKeyId () { return this._branchKeyId != null; } public void Validate() { if (!IsSetBranchKeyId()) throw new System.ArgumentException("Missing value for required property 'BranchKeyId'"); } } }	21
aws-cryptographic-material-providers-library-java	aws	C#	// Copyright Amazon.com Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 // Do not modify this file. This file is machine generated, and any changes to it will be overwritten. using System; using AWS.Cryptography.MaterialProvidersTestVectorKeys; namespace AWS.Cryptography.MaterialProvidersTestVectorKeys { public class HierarchyKeyring { private string _keyId ; public string KeyId { get { return this._keyId; } set { this._keyId = value; } } public bool IsSetKeyId () { return this._keyId != null; } public void Validate() { if (!IsSetKeyId()) throw new System.ArgumentException("Missing value for required property 'KeyId'"); } } }	21
aws-cryptographic-material-providers-library-java	aws	C#	// Copyright Amazon.com Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 // Do not modify this file. This file is machine generated, and any changes to it will be overwritten. using System; using AWS.Cryptography.MaterialProvidersTestVectorKeys; namespace AWS.Cryptography.MaterialProvidersTestVectorKeys { public class InvalidKeyring { private string _keyId ; public string KeyId { get { return this._keyId; } set { this._keyId = value; } } public bool IsSetKeyId () { return this._keyId != null; } public void Validate() { if (!IsSetKeyId()) throw new System.ArgumentException("Missing value for required property 'KeyId'"); } } }	21
aws-cryptographic-material-providers-library-java	aws	C#	// Copyright Amazon.com Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 // Do not modify this file. This file is machine generated, and any changes to it will be overwritten. using System; using AWS.Cryptography.MaterialProvidersTestVectorKeys; namespace AWS.Cryptography.MaterialProvidersTestVectorKeys { public class KeyDescription { private AWS.Cryptography.MaterialProvidersTestVectorKeys.KMSInfo _kms ; private AWS.Cryptography.MaterialProvidersTestVectorKeys.KmsMrkAware _kmsMrk ; private AWS.Cryptography.MaterialProvidersTestVectorKeys.KmsMrkAwareDiscovery _kmsMrkDiscovery ; private AWS.Cryptography.MaterialProvidersTestVectorKeys.RawRSA _rSA ; private AWS.Cryptography.MaterialProvidersTestVectorKeys.RawAES _aES ; private AWS.Cryptography.MaterialProvidersTestVectorKeys.StaticKeyring _static ; private AWS.Cryptography.MaterialProvidersTestVectorKeys.KmsRsaKeyring _kmsRsa ; private AWS.Cryptography.MaterialProvidersTestVectorKeys.HierarchyKeyring _hierarchy ; public AWS.Cryptography.MaterialProvidersTestVectorKeys.KMSInfo Kms { get { return this._kms; } set { this._kms = value; } } public bool IsSetKms () { return this._kms != null; } public AWS.Cryptography.MaterialProvidersTestVectorKeys.KmsMrkAware KmsMrk { get { return this._kmsMrk; } set { this._kmsMrk = value; } } public bool IsSetKmsMrk () { return this._kmsMrk != null; } public AWS.Cryptography.MaterialProvidersTestVectorKeys.KmsMrkAwareDiscovery KmsMrkDiscovery { get { return this._kmsMrkDiscovery; } set { this._kmsMrkDiscovery = value; } } public bool IsSetKmsMrkDiscovery () { return this._kmsMrkDiscovery != null; } public AWS.Cryptography.MaterialProvidersTestVectorKeys.RawRSA RSA { get { return this._rSA; } set { this._rSA = value; } } public bool IsSetRSA () { return this._rSA != null; } public AWS.Cryptography.MaterialProvidersTestVectorKeys.RawAES AES { get { return this._aES; } set { this._aES = value; } } public bool IsSetAES () { return this._aES != null; } public AWS.Cryptography.MaterialProvidersTestVectorKeys.StaticKeyring Static { get { return this._static; } set { this._static = value; } } public bool IsSetStatic () { return this._static != null; } public AWS.Cryptography.MaterialProvidersTestVectorKeys.KmsRsaKeyring KmsRsa { get { return this._kmsRsa; } set { this._kmsRsa = value; } } public bool IsSetKmsRsa () { return this._kmsRsa != null; } public AWS.Cryptography.MaterialProvidersTestVectorKeys.HierarchyKeyring Hierarchy { get { return this._hierarchy; } set { this._hierarchy = value; } } public bool IsSetHierarchy () { return this._hierarchy != null; } public void Validate() { var numberOfPropertiesSet = Convert.ToUInt16(IsSetKms()) + Convert.ToUInt16(IsSetKmsMrk()) + Convert.ToUInt16(IsSetKmsMrkDiscovery()) + Convert.ToUInt16(IsSetRSA()) + Convert.ToUInt16(IsSetAES()) + Convert.ToUInt16(IsSetStatic()) + Convert.ToUInt16(IsSetKmsRsa()) + Convert.ToUInt16(IsSetHierarchy()) ; if (numberOfPropertiesSet == 0) throw new System.ArgumentException("No union value set"); if (numberOfPropertiesSet > 1) throw new System.ArgumentException("Multiple union values set"); } } }	87
aws-cryptographic-material-providers-library-java	aws	C#	// Copyright Amazon.com Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 // Do not modify this file. This file is machine generated, and any changes to it will be overwritten. using System; using AWS.Cryptography.MaterialProvidersTestVectorKeys; namespace AWS.Cryptography.MaterialProvidersTestVectorKeys { public class KeyVectorException : Exception { public KeyVectorException(string message) : base(message) {} } }	10
aws-cryptographic-material-providers-library-java	aws	C#	// Copyright Amazon.com Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 // Do not modify this file. This file is machine generated, and any changes to it will be overwritten. using System; using System.IO; using System.Collections.Generic; using AWS.Cryptography.MaterialProvidersTestVectorKeys; using software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types; namespace AWS.Cryptography.MaterialProvidersTestVectorKeys { public class KeyVectors { private readonly software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.IKeyVectorsClient _impl; public KeyVectors(software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.IKeyVectorsClient impl) { this._impl = impl; } public software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.IKeyVectorsClient impl() { return this._impl; } public KeyVectors(AWS.Cryptography.MaterialProvidersTestVectorKeys.KeyVectorsConfig input) { software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IKeyVectorsConfig internalInput = TypeConversion.ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S16_KeyVectorsConfig(input); var result = software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.__default.KeyVectors(internalInput); if (result.is_Failure) throw TypeConversion.FromDafny_CommonError(result.dtor_error); this._impl = result.dtor_value; } public AWS.Cryptography.MaterialProviders.IKeyring CreateTestVectorKeyring(AWS.Cryptography.MaterialProvidersTestVectorKeys.TestVectorKeyringInput input) { software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._ITestVectorKeyringInput internalInput = TypeConversion.ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S22_TestVectorKeyringInput(input); Wrappers_Compile._IResult<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IError> result = _impl.CreateTestVectorKeyring(internalInput); if (result.is_Failure) throw TypeConversion.FromDafny_CommonError(result.dtor_error); return TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_CreateKeyringOutput(result.dtor_value); } public AWS.Cryptography.MaterialProviders.IKeyring CreateWappedTestVectorKeyring(AWS.Cryptography.MaterialProvidersTestVectorKeys.TestVectorKeyringInput input) { software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._ITestVectorKeyringInput internalInput = TypeConversion.ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S22_TestVectorKeyringInput(input); Wrappers_Compile._IResult<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IError> result = _impl.CreateWappedTestVectorKeyring(internalInput); if (result.is_Failure) throw TypeConversion.FromDafny_CommonError(result.dtor_error); return TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_CreateKeyringOutput(result.dtor_value); } public AWS.Cryptography.MaterialProvidersTestVectorKeys.GetKeyDescriptionOutput GetKeyDescription(AWS.Cryptography.MaterialProvidersTestVectorKeys.GetKeyDescriptionInput input) { software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IGetKeyDescriptionInput internalInput = TypeConversion.ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S22_GetKeyDescriptionInput(input); Wrappers_Compile._IResult<software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IGetKeyDescriptionOutput, software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IError> result = _impl.GetKeyDescription(internalInput); if (result.is_Failure) throw TypeConversion.FromDafny_CommonError(result.dtor_error); return TypeConversion.FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S23_GetKeyDescriptionOutput(result.dtor_value); } public AWS.Cryptography.MaterialProvidersTestVectorKeys.SerializeKeyDescriptionOutput SerializeKeyDescription(AWS.Cryptography.MaterialProvidersTestVectorKeys.SerializeKeyDescriptionInput input) { software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._ISerializeKeyDescriptionInput internalInput = TypeConversion.ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S28_SerializeKeyDescriptionInput(input); Wrappers_Compile._IResult<software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._ISerializeKeyDescriptionOutput, software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IError> result = _impl.SerializeKeyDescription(internalInput); if (result.is_Failure) throw TypeConversion.FromDafny_CommonError(result.dtor_error); return TypeConversion.FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S29_SerializeKeyDescriptionOutput(result.dtor_value); } } }	50
aws-cryptographic-material-providers-library-java	aws	C#	// Copyright Amazon.com Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 // Do not modify this file. This file is machine generated, and any changes to it will be overwritten. using System; using AWS.Cryptography.MaterialProvidersTestVectorKeys; namespace AWS.Cryptography.MaterialProvidersTestVectorKeys { public class KeyVectorsConfig { private string _keyManifiestPath ; public string KeyManifiestPath { get { return this._keyManifiestPath; } set { this._keyManifiestPath = value; } } public bool IsSetKeyManifiestPath () { return this._keyManifiestPath != null; } public void Validate() { if (!IsSetKeyManifiestPath()) throw new System.ArgumentException("Missing value for required property 'KeyManifiestPath'"); } } }	21
aws-cryptographic-material-providers-library-java	aws	C#	// Copyright Amazon.com Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 // Do not modify this file. This file is machine generated, and any changes to it will be overwritten. using System; using AWS.Cryptography.MaterialProvidersTestVectorKeys; namespace AWS.Cryptography.MaterialProvidersTestVectorKeys { public class KMSInfo { private string _keyId ; public string KeyId { get { return this._keyId; } set { this._keyId = value; } } public bool IsSetKeyId () { return this._keyId != null; } public void Validate() { if (!IsSetKeyId()) throw new System.ArgumentException("Missing value for required property 'KeyId'"); } } }	21
aws-cryptographic-material-providers-library-java	aws	C#	// Copyright Amazon.com Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 // Do not modify this file. This file is machine generated, and any changes to it will be overwritten. using System; using AWS.Cryptography.MaterialProvidersTestVectorKeys; namespace AWS.Cryptography.MaterialProvidersTestVectorKeys { public class KmsMrkAware { private string _keyId ; public string KeyId { get { return this._keyId; } set { this._keyId = value; } } public bool IsSetKeyId () { return this._keyId != null; } public void Validate() { if (!IsSetKeyId()) throw new System.ArgumentException("Missing value for required property 'KeyId'"); } } }	21
aws-cryptographic-material-providers-library-java	aws	C#	// Copyright Amazon.com Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 // Do not modify this file. This file is machine generated, and any changes to it will be overwritten. using System; using AWS.Cryptography.MaterialProvidersTestVectorKeys; namespace AWS.Cryptography.MaterialProvidersTestVectorKeys { public class KmsMrkAwareDiscovery { private string _keyId ; private string _defaultMrkRegion ; private AWS.Cryptography.MaterialProviders.DiscoveryFilter _awsKmsDiscoveryFilter ; public string KeyId { get { return this._keyId; } set { this._keyId = value; } } public bool IsSetKeyId () { return this._keyId != null; } public string DefaultMrkRegion { get { return this._defaultMrkRegion; } set { this._defaultMrkRegion = value; } } public bool IsSetDefaultMrkRegion () { return this._defaultMrkRegion != null; } public AWS.Cryptography.MaterialProviders.DiscoveryFilter AwsKmsDiscoveryFilter { get { return this._awsKmsDiscoveryFilter; } set { this._awsKmsDiscoveryFilter = value; } } public bool IsSetAwsKmsDiscoveryFilter () { return this._awsKmsDiscoveryFilter != null; } public void Validate() { if (!IsSetKeyId()) throw new System.ArgumentException("Missing value for required property 'KeyId'"); if (!IsSetDefaultMrkRegion()) throw new System.ArgumentException("Missing value for required property 'DefaultMrkRegion'"); } } }	38
aws-cryptographic-material-providers-library-java	aws	C#	// Copyright Amazon.com Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 // Do not modify this file. This file is machine generated, and any changes to it will be overwritten. using System; using AWS.Cryptography.MaterialProvidersTestVectorKeys; namespace AWS.Cryptography.MaterialProvidersTestVectorKeys { public class KmsRsa { private string _keyId ; public string KeyId { get { return this._keyId; } set { this._keyId = value; } } public bool IsSetKeyId () { return this._keyId != null; } public void Validate() { if (!IsSetKeyId()) throw new System.ArgumentException("Missing value for required property 'KeyId'"); } } }	21
aws-cryptographic-material-providers-library-java	aws	C#	// Copyright Amazon.com Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 // Do not modify this file. This file is machine generated, and any changes to it will be overwritten. using System; using AWS.Cryptography.MaterialProvidersTestVectorKeys; namespace AWS.Cryptography.MaterialProvidersTestVectorKeys { public class KmsRsaKeyring { private string _keyId ; private Amazon.KeyManagementService.EncryptionAlgorithmSpec _encryptionAlgorithm ; public string KeyId { get { return this._keyId; } set { this._keyId = value; } } public bool IsSetKeyId () { return this._keyId != null; } public Amazon.KeyManagementService.EncryptionAlgorithmSpec EncryptionAlgorithm { get { return this._encryptionAlgorithm; } set { this._encryptionAlgorithm = value; } } public bool IsSetEncryptionAlgorithm () { return this._encryptionAlgorithm != null; } public void Validate() { if (!IsSetKeyId()) throw new System.ArgumentException("Missing value for required property 'KeyId'"); if (!IsSetEncryptionAlgorithm()) throw new System.ArgumentException("Missing value for required property 'EncryptionAlgorithm'"); } } }	30
aws-cryptographic-material-providers-library-java	aws	C#	// Copyright Amazon.com Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 // Do not modify this file. This file is machine generated, and any changes to it will be overwritten. using System; using AWS.Cryptography.MaterialProvidersTestVectorKeys; namespace AWS.Cryptography.MaterialProvidersTestVectorKeys { public class OpaqueError : Exception { public readonly object obj; public OpaqueError(Exception ex) : base("OpaqueError:", ex) { this.obj = ex; } public OpaqueError() : base("Unknown Unexpected Error") { } public OpaqueError(object obj) : base("Opaque obj is not an Exception.") { this.obj = obj;} } }	14
aws-cryptographic-material-providers-library-java	aws	C#	// Copyright Amazon.com Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 // Do not modify this file. This file is machine generated, and any changes to it will be overwritten. using System; using AWS.Cryptography.MaterialProvidersTestVectorKeys; namespace AWS.Cryptography.MaterialProvidersTestVectorKeys { public class RawAES { private string _keyId ; private string _providerId ; public string KeyId { get { return this._keyId; } set { this._keyId = value; } } public bool IsSetKeyId () { return this._keyId != null; } public string ProviderId { get { return this._providerId; } set { this._providerId = value; } } public bool IsSetProviderId () { return this._providerId != null; } public void Validate() { if (!IsSetKeyId()) throw new System.ArgumentException("Missing value for required property 'KeyId'"); if (!IsSetProviderId()) throw new System.ArgumentException("Missing value for required property 'ProviderId'"); } } }	30
aws-cryptographic-material-providers-library-java	aws	C#	// Copyright Amazon.com Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 // Do not modify this file. This file is machine generated, and any changes to it will be overwritten. using System; using AWS.Cryptography.MaterialProvidersTestVectorKeys; namespace AWS.Cryptography.MaterialProvidersTestVectorKeys { public class RawRSA { private string _keyId ; private string _providerId ; private AWS.Cryptography.MaterialProviders.PaddingScheme _padding ; public string KeyId { get { return this._keyId; } set { this._keyId = value; } } public bool IsSetKeyId () { return this._keyId != null; } public string ProviderId { get { return this._providerId; } set { this._providerId = value; } } public bool IsSetProviderId () { return this._providerId != null; } public AWS.Cryptography.MaterialProviders.PaddingScheme Padding { get { return this._padding; } set { this._padding = value; } } public bool IsSetPadding () { return this._padding != null; } public void Validate() { if (!IsSetKeyId()) throw new System.ArgumentException("Missing value for required property 'KeyId'"); if (!IsSetProviderId()) throw new System.ArgumentException("Missing value for required property 'ProviderId'"); if (!IsSetPadding()) throw new System.ArgumentException("Missing value for required property 'Padding'"); } } }	39
aws-cryptographic-material-providers-library-java	aws	C#	// Copyright Amazon.com Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 // Do not modify this file. This file is machine generated, and any changes to it will be overwritten. using System; using AWS.Cryptography.MaterialProvidersTestVectorKeys; namespace AWS.Cryptography.MaterialProvidersTestVectorKeys { public class SerializeKeyDescriptionInput { private AWS.Cryptography.MaterialProvidersTestVectorKeys.KeyDescription _keyDescription ; public AWS.Cryptography.MaterialProvidersTestVectorKeys.KeyDescription KeyDescription { get { return this._keyDescription; } set { this._keyDescription = value; } } public bool IsSetKeyDescription () { return this._keyDescription != null; } public void Validate() { if (!IsSetKeyDescription()) throw new System.ArgumentException("Missing value for required property 'KeyDescription'"); } } }	21
aws-cryptographic-material-providers-library-java	aws	C#	// Copyright Amazon.com Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 // Do not modify this file. This file is machine generated, and any changes to it will be overwritten. using System; using AWS.Cryptography.MaterialProvidersTestVectorKeys; namespace AWS.Cryptography.MaterialProvidersTestVectorKeys { public class SerializeKeyDescriptionOutput { private System.IO.MemoryStream _json ; public System.IO.MemoryStream Json { get { return this._json; } set { this._json = value; } } public bool IsSetJson () { return this._json != null; } public void Validate() { if (!IsSetJson()) throw new System.ArgumentException("Missing value for required property 'Json'"); } } }	21
aws-cryptographic-material-providers-library-java	aws	C#	// Copyright Amazon.com Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 // Do not modify this file. This file is machine generated, and any changes to it will be overwritten. using System; using AWS.Cryptography.MaterialProvidersTestVectorKeys; namespace AWS.Cryptography.MaterialProvidersTestVectorKeys { public class StaticKeyring { private string _keyId ; public string KeyId { get { return this._keyId; } set { this._keyId = value; } } public bool IsSetKeyId () { return this._keyId != null; } public void Validate() { if (!IsSetKeyId()) throw new System.ArgumentException("Missing value for required property 'KeyId'"); } } }	21
aws-cryptographic-material-providers-library-java	aws	C#	// Copyright Amazon.com Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 // Do not modify this file. This file is machine generated, and any changes to it will be overwritten. using System; using AWS.Cryptography.MaterialProvidersTestVectorKeys; namespace AWS.Cryptography.MaterialProvidersTestVectorKeys { public class TestVectorKeyringInput { private AWS.Cryptography.MaterialProvidersTestVectorKeys.KeyDescription _keyDescription ; public AWS.Cryptography.MaterialProvidersTestVectorKeys.KeyDescription KeyDescription { get { return this._keyDescription; } set { this._keyDescription = value; } } public bool IsSetKeyDescription () { return this._keyDescription != null; } public void Validate() { if (!IsSetKeyDescription()) throw new System.ArgumentException("Missing value for required property 'KeyDescription'"); } } }	21
aws-cryptographic-material-providers-library-java	aws	C#	// Copyright Amazon.com Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 // Do not modify this file. This file is machine generated, and any changes to it will be overwritten. using System.Linq; using System; namespace AWS.Cryptography.MaterialProvidersTestVectorKeys { public static class TypeConversion { internal static AWS.Cryptography.MaterialProviders.IKeyring FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_CreateKeyringOutput (software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_CreateKeyringOutput__M7_keyring(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_CreateKeyringOutput (AWS.Cryptography.MaterialProviders.IKeyring value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_CreateKeyringOutput__M7_keyring(value); } internal static AWS.Cryptography.MaterialProvidersTestVectorKeys.GetKeyDescriptionInput FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S22_GetKeyDescriptionInput (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IGetKeyDescriptionInput value) { software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.GetKeyDescriptionInput concrete = (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.GetKeyDescriptionInput)value; AWS.Cryptography.MaterialProvidersTestVectorKeys.GetKeyDescriptionInput converted = new AWS.Cryptography.MaterialProvidersTestVectorKeys.GetKeyDescriptionInput(); converted.Json = (System.IO.MemoryStream) FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S22_GetKeyDescriptionInput__M4_json(concrete._json); return converted; } internal static software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IGetKeyDescriptionInput ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S22_GetKeyDescriptionInput (AWS.Cryptography.MaterialProvidersTestVectorKeys.GetKeyDescriptionInput value) { return new software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.GetKeyDescriptionInput ( ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S22_GetKeyDescriptionInput__M4_json(value.Json) ) ; } internal static AWS.Cryptography.MaterialProvidersTestVectorKeys.GetKeyDescriptionOutput FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S23_GetKeyDescriptionOutput (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IGetKeyDescriptionOutput value) { software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.GetKeyDescriptionOutput concrete = (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.GetKeyDescriptionOutput)value; AWS.Cryptography.MaterialProvidersTestVectorKeys.GetKeyDescriptionOutput converted = new AWS.Cryptography.MaterialProvidersTestVectorKeys.GetKeyDescriptionOutput(); converted.KeyDescription = (AWS.Cryptography.MaterialProvidersTestVectorKeys.KeyDescription) FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S23_GetKeyDescriptionOutput__M14_keyDescription(concrete._keyDescription); return converted; } internal static software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IGetKeyDescriptionOutput ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S23_GetKeyDescriptionOutput (AWS.Cryptography.MaterialProvidersTestVectorKeys.GetKeyDescriptionOutput value) { return new software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.GetKeyDescriptionOutput ( ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S23_GetKeyDescriptionOutput__M14_keyDescription(value.KeyDescription) ) ; } internal static AWS.Cryptography.MaterialProvidersTestVectorKeys.KeyDescription FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IKeyDescription value) { software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.KeyDescription concrete = (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.KeyDescription)value; var converted = new AWS.Cryptography.MaterialProvidersTestVectorKeys.KeyDescription(); if (value.is_Kms) { converted.Kms = FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription__M3_Kms(concrete.dtor_Kms); return converted; } if (value.is_KmsMrk) { converted.KmsMrk = FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription__M6_KmsMrk(concrete.dtor_KmsMrk); return converted; } if (value.is_KmsMrkDiscovery) { converted.KmsMrkDiscovery = FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription__M15_KmsMrkDiscovery(concrete.dtor_KmsMrkDiscovery); return converted; } if (value.is_RSA) { converted.RSA = FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription__M3_RSA(concrete.dtor_RSA); return converted; } if (value.is_AES) { converted.AES = FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription__M3_AES(concrete.dtor_AES); return converted; } if (value.is_Static) { converted.Static = FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription__M6_Static(concrete.dtor_Static); return converted; } if (value.is_KmsRsa) { converted.KmsRsa = FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription__M6_KmsRsa(concrete.dtor_KmsRsa); return converted; } if (value.is_Hierarchy) { converted.Hierarchy = FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription__M9_Hierarchy(concrete.dtor_Hierarchy); return converted; } throw new System.ArgumentException("Invalid AWS.Cryptography.MaterialProvidersTestVectorKeys.KeyDescription state"); } internal static software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IKeyDescription ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription (AWS.Cryptography.MaterialProvidersTestVectorKeys.KeyDescription value) { if (value.IsSetKms()) { return software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.KeyDescription.create_Kms(ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription__M3_Kms(value.Kms)); } if (value.IsSetKmsMrk()) { return software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.KeyDescription.create_KmsMrk(ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription__M6_KmsMrk(value.KmsMrk)); } if (value.IsSetKmsMrkDiscovery()) { return software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.KeyDescription.create_KmsMrkDiscovery(ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription__M15_KmsMrkDiscovery(value.KmsMrkDiscovery)); } if (value.IsSetRSA()) { return software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.KeyDescription.create_RSA(ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription__M3_RSA(value.RSA)); } if (value.IsSetAES()) { return software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.KeyDescription.create_AES(ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription__M3_AES(value.AES)); } if (value.IsSetStatic()) { return software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.KeyDescription.create_Static(ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription__M6_Static(value.Static)); } if (value.IsSetKmsRsa()) { return software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.KeyDescription.create_KmsRsa(ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription__M6_KmsRsa(value.KmsRsa)); } if (value.IsSetHierarchy()) { return software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.KeyDescription.create_Hierarchy(ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription__M9_Hierarchy(value.Hierarchy)); } throw new System.ArgumentException("Invalid AWS.Cryptography.MaterialProvidersTestVectorKeys.KeyDescription state"); } internal static AWS.Cryptography.MaterialProvidersTestVectorKeys.KeyVectorException FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S18_KeyVectorException (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.Error_KeyVectorException value) { return new AWS.Cryptography.MaterialProvidersTestVectorKeys.KeyVectorException ( FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S18_KeyVectorException__M7_message(value._message) ) ; } internal static software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.Error_KeyVectorException ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S18_KeyVectorException (AWS.Cryptography.MaterialProvidersTestVectorKeys.KeyVectorException value) { return new software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.Error_KeyVectorException ( ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S18_KeyVectorException__M7_message(value.Message) ) ; } internal static AWS.Cryptography.MaterialProvidersTestVectorKeys.KeyVectorsConfig FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S16_KeyVectorsConfig (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IKeyVectorsConfig value) { software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.KeyVectorsConfig concrete = (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.KeyVectorsConfig)value; AWS.Cryptography.MaterialProvidersTestVectorKeys.KeyVectorsConfig converted = new AWS.Cryptography.MaterialProvidersTestVectorKeys.KeyVectorsConfig(); converted.KeyManifiestPath = (string) FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S16_KeyVectorsConfig__M16_keyManifiestPath(concrete._keyManifiestPath); return converted; } internal static software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IKeyVectorsConfig ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S16_KeyVectorsConfig (AWS.Cryptography.MaterialProvidersTestVectorKeys.KeyVectorsConfig value) { return new software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.KeyVectorsConfig ( ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S16_KeyVectorsConfig__M16_keyManifiestPath(value.KeyManifiestPath) ) ; } internal static AWS.Cryptography.MaterialProvidersTestVectorKeys.SerializeKeyDescriptionInput FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S28_SerializeKeyDescriptionInput (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._ISerializeKeyDescriptionInput value) { software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.SerializeKeyDescriptionInput concrete = (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.SerializeKeyDescriptionInput)value; AWS.Cryptography.MaterialProvidersTestVectorKeys.SerializeKeyDescriptionInput converted = new AWS.Cryptography.MaterialProvidersTestVectorKeys.SerializeKeyDescriptionInput(); converted.KeyDescription = (AWS.Cryptography.MaterialProvidersTestVectorKeys.KeyDescription) FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S28_SerializeKeyDescriptionInput__M14_keyDescription(concrete._keyDescription); return converted; } internal static software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._ISerializeKeyDescriptionInput ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S28_SerializeKeyDescriptionInput (AWS.Cryptography.MaterialProvidersTestVectorKeys.SerializeKeyDescriptionInput value) { return new software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.SerializeKeyDescriptionInput ( ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S28_SerializeKeyDescriptionInput__M14_keyDescription(value.KeyDescription) ) ; } internal static AWS.Cryptography.MaterialProvidersTestVectorKeys.SerializeKeyDescriptionOutput FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S29_SerializeKeyDescriptionOutput (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._ISerializeKeyDescriptionOutput value) { software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.SerializeKeyDescriptionOutput concrete = (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.SerializeKeyDescriptionOutput)value; AWS.Cryptography.MaterialProvidersTestVectorKeys.SerializeKeyDescriptionOutput converted = new AWS.Cryptography.MaterialProvidersTestVectorKeys.SerializeKeyDescriptionOutput(); converted.Json = (System.IO.MemoryStream) FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S29_SerializeKeyDescriptionOutput__M4_json(concrete._json); return converted; } internal static software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._ISerializeKeyDescriptionOutput ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S29_SerializeKeyDescriptionOutput (AWS.Cryptography.MaterialProvidersTestVectorKeys.SerializeKeyDescriptionOutput value) { return new software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.SerializeKeyDescriptionOutput ( ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S29_SerializeKeyDescriptionOutput__M4_json(value.Json) ) ; } internal static AWS.Cryptography.MaterialProvidersTestVectorKeys.TestVectorKeyringInput FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S22_TestVectorKeyringInput (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._ITestVectorKeyringInput value) { software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.TestVectorKeyringInput concrete = (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.TestVectorKeyringInput)value; AWS.Cryptography.MaterialProvidersTestVectorKeys.TestVectorKeyringInput converted = new AWS.Cryptography.MaterialProvidersTestVectorKeys.TestVectorKeyringInput(); converted.KeyDescription = (AWS.Cryptography.MaterialProvidersTestVectorKeys.KeyDescription) FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S22_TestVectorKeyringInput__M14_keyDescription(concrete._keyDescription); return converted; } internal static software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._ITestVectorKeyringInput ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S22_TestVectorKeyringInput (AWS.Cryptography.MaterialProvidersTestVectorKeys.TestVectorKeyringInput value) { return new software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.TestVectorKeyringInput ( ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S22_TestVectorKeyringInput__M14_keyDescription(value.KeyDescription) ) ; } internal static AWS.Cryptography.MaterialProviders.IKeyring FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_CreateKeyringOutput__M7_keyring (software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_KeyringReference(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_CreateKeyringOutput__M7_keyring (AWS.Cryptography.MaterialProviders.IKeyring value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_KeyringReference(value); } internal static System.IO.MemoryStream FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S22_GetKeyDescriptionInput__M4_json (Dafny.ISequence<byte> value) { return FromDafny_N6_smithy__N3_api__S4_Blob(value); } internal static Dafny.ISequence<byte> ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S22_GetKeyDescriptionInput__M4_json (System.IO.MemoryStream value) { return ToDafny_N6_smithy__N3_api__S4_Blob(value); } internal static AWS.Cryptography.MaterialProvidersTestVectorKeys.KeyDescription FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S23_GetKeyDescriptionOutput__M14_keyDescription (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IKeyDescription value) { return FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription(value); } internal static software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IKeyDescription ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S23_GetKeyDescriptionOutput__M14_keyDescription (AWS.Cryptography.MaterialProvidersTestVectorKeys.KeyDescription value) { return ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription(value); } internal static AWS.Cryptography.MaterialProvidersTestVectorKeys.KMSInfo FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription__M3_Kms (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IKMSInfo value) { return FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S7_KMSInfo(value); } internal static software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IKMSInfo ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription__M3_Kms (AWS.Cryptography.MaterialProvidersTestVectorKeys.KMSInfo value) { return ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S7_KMSInfo(value); } internal static AWS.Cryptography.MaterialProvidersTestVectorKeys.KmsMrkAware FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription__M6_KmsMrk (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IKmsMrkAware value) { return FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S11_KmsMrkAware(value); } internal static software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IKmsMrkAware ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription__M6_KmsMrk (AWS.Cryptography.MaterialProvidersTestVectorKeys.KmsMrkAware value) { return ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S11_KmsMrkAware(value); } internal static AWS.Cryptography.MaterialProvidersTestVectorKeys.KmsMrkAwareDiscovery FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription__M15_KmsMrkDiscovery (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IKmsMrkAwareDiscovery value) { return FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S20_KmsMrkAwareDiscovery(value); } internal static software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IKmsMrkAwareDiscovery ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription__M15_KmsMrkDiscovery (AWS.Cryptography.MaterialProvidersTestVectorKeys.KmsMrkAwareDiscovery value) { return ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S20_KmsMrkAwareDiscovery(value); } internal static AWS.Cryptography.MaterialProvidersTestVectorKeys.RawRSA FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription__M3_RSA (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IRawRSA value) { return FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S6_RawRSA(value); } internal static software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IRawRSA ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription__M3_RSA (AWS.Cryptography.MaterialProvidersTestVectorKeys.RawRSA value) { return ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S6_RawRSA(value); } internal static AWS.Cryptography.MaterialProvidersTestVectorKeys.RawAES FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription__M3_AES (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IRawAES value) { return FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S6_RawAES(value); } internal static software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IRawAES ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription__M3_AES (AWS.Cryptography.MaterialProvidersTestVectorKeys.RawAES value) { return ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S6_RawAES(value); } internal static AWS.Cryptography.MaterialProvidersTestVectorKeys.StaticKeyring FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription__M6_Static (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IStaticKeyring value) { return FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S13_StaticKeyring(value); } internal static software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IStaticKeyring ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription__M6_Static (AWS.Cryptography.MaterialProvidersTestVectorKeys.StaticKeyring value) { return ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S13_StaticKeyring(value); } internal static AWS.Cryptography.MaterialProvidersTestVectorKeys.KmsRsaKeyring FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription__M6_KmsRsa (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IKmsRsaKeyring value) { return FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S13_KmsRsaKeyring(value); } internal static software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IKmsRsaKeyring ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription__M6_KmsRsa (AWS.Cryptography.MaterialProvidersTestVectorKeys.KmsRsaKeyring value) { return ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S13_KmsRsaKeyring(value); } internal static AWS.Cryptography.MaterialProvidersTestVectorKeys.HierarchyKeyring FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription__M9_Hierarchy (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IHierarchyKeyring value) { return FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S16_HierarchyKeyring(value); } internal static software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IHierarchyKeyring ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription__M9_Hierarchy (AWS.Cryptography.MaterialProvidersTestVectorKeys.HierarchyKeyring value) { return ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S16_HierarchyKeyring(value); } internal static string FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S18_KeyVectorException__M7_message (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S18_KeyVectorException__M7_message (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static string FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S16_KeyVectorsConfig__M16_keyManifiestPath (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S16_KeyVectorsConfig__M16_keyManifiestPath (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static AWS.Cryptography.MaterialProvidersTestVectorKeys.KeyDescription FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S28_SerializeKeyDescriptionInput__M14_keyDescription (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IKeyDescription value) { return FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription(value); } internal static software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IKeyDescription ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S28_SerializeKeyDescriptionInput__M14_keyDescription (AWS.Cryptography.MaterialProvidersTestVectorKeys.KeyDescription value) { return ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription(value); } internal static System.IO.MemoryStream FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S29_SerializeKeyDescriptionOutput__M4_json (Dafny.ISequence<byte> value) { return FromDafny_N6_smithy__N3_api__S4_Blob(value); } internal static Dafny.ISequence<byte> ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S29_SerializeKeyDescriptionOutput__M4_json (System.IO.MemoryStream value) { return ToDafny_N6_smithy__N3_api__S4_Blob(value); } internal static AWS.Cryptography.MaterialProvidersTestVectorKeys.KeyDescription FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S22_TestVectorKeyringInput__M14_keyDescription (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IKeyDescription value) { return FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription(value); } internal static software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IKeyDescription ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S22_TestVectorKeyringInput__M14_keyDescription (AWS.Cryptography.MaterialProvidersTestVectorKeys.KeyDescription value) { return ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S14_KeyDescription(value); } internal static AWS.Cryptography.MaterialProviders.IKeyring FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_KeyringReference (software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring value) { // This is converting a reference type in a dependant module. // Therefore it defers to the dependant module for conversion return AWS.Cryptography.MaterialProviders.TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_KeyringReference(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_KeyringReference (AWS.Cryptography.MaterialProviders.IKeyring value) { // This is converting a reference type in a dependant module. // Therefore it defers to the dependant module for conversion return AWS.Cryptography.MaterialProviders.TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_KeyringReference(value); } internal static System.IO.MemoryStream FromDafny_N6_smithy__N3_api__S4_Blob (Dafny.ISequence<byte> value) { return new System.IO.MemoryStream(value.Elements); } internal static Dafny.ISequence<byte> ToDafny_N6_smithy__N3_api__S4_Blob (System.IO.MemoryStream value) { return Dafny.Sequence<byte>.FromArray(value.ToArray()); } internal static AWS.Cryptography.MaterialProvidersTestVectorKeys.KMSInfo FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S7_KMSInfo (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IKMSInfo value) { software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.KMSInfo concrete = (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.KMSInfo)value; AWS.Cryptography.MaterialProvidersTestVectorKeys.KMSInfo converted = new AWS.Cryptography.MaterialProvidersTestVectorKeys.KMSInfo(); converted.KeyId = (string) FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S7_KMSInfo__M5_keyId(concrete._keyId); return converted; } internal static software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IKMSInfo ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S7_KMSInfo (AWS.Cryptography.MaterialProvidersTestVectorKeys.KMSInfo value) { return new software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.KMSInfo ( ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S7_KMSInfo__M5_keyId(value.KeyId) ) ; } internal static AWS.Cryptography.MaterialProvidersTestVectorKeys.KmsMrkAware FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S11_KmsMrkAware (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IKmsMrkAware value) { software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.KmsMrkAware concrete = (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.KmsMrkAware)value; AWS.Cryptography.MaterialProvidersTestVectorKeys.KmsMrkAware converted = new AWS.Cryptography.MaterialProvidersTestVectorKeys.KmsMrkAware(); converted.KeyId = (string) FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S11_KmsMrkAware__M5_keyId(concrete._keyId); return converted; } internal static software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IKmsMrkAware ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S11_KmsMrkAware (AWS.Cryptography.MaterialProvidersTestVectorKeys.KmsMrkAware value) { return new software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.KmsMrkAware ( ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S11_KmsMrkAware__M5_keyId(value.KeyId) ) ; } internal static AWS.Cryptography.MaterialProvidersTestVectorKeys.KmsMrkAwareDiscovery FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S20_KmsMrkAwareDiscovery (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IKmsMrkAwareDiscovery value) { software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.KmsMrkAwareDiscovery concrete = (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.KmsMrkAwareDiscovery)value; AWS.Cryptography.MaterialProvidersTestVectorKeys.KmsMrkAwareDiscovery converted = new AWS.Cryptography.MaterialProvidersTestVectorKeys.KmsMrkAwareDiscovery(); converted.KeyId = (string) FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S20_KmsMrkAwareDiscovery__M5_keyId(concrete._keyId); converted.DefaultMrkRegion = (string) FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S20_KmsMrkAwareDiscovery__M16_defaultMrkRegion(concrete._defaultMrkRegion); if (concrete._awsKmsDiscoveryFilter.is_Some) converted.AwsKmsDiscoveryFilter = (AWS.Cryptography.MaterialProviders.DiscoveryFilter) FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S20_KmsMrkAwareDiscovery__M21_awsKmsDiscoveryFilter(concrete._awsKmsDiscoveryFilter); return converted; } internal static software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IKmsMrkAwareDiscovery ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S20_KmsMrkAwareDiscovery (AWS.Cryptography.MaterialProvidersTestVectorKeys.KmsMrkAwareDiscovery value) { AWS.Cryptography.MaterialProviders.DiscoveryFilter var_awsKmsDiscoveryFilter = value.IsSetAwsKmsDiscoveryFilter() ? value.AwsKmsDiscoveryFilter : (AWS.Cryptography.MaterialProviders.DiscoveryFilter) null; return new software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.KmsMrkAwareDiscovery ( ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S20_KmsMrkAwareDiscovery__M5_keyId(value.KeyId) , ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S20_KmsMrkAwareDiscovery__M16_defaultMrkRegion(value.DefaultMrkRegion) , ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S20_KmsMrkAwareDiscovery__M21_awsKmsDiscoveryFilter(var_awsKmsDiscoveryFilter) ) ; } internal static AWS.Cryptography.MaterialProvidersTestVectorKeys.RawRSA FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S6_RawRSA (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IRawRSA value) { software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.RawRSA concrete = (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.RawRSA)value; AWS.Cryptography.MaterialProvidersTestVectorKeys.RawRSA converted = new AWS.Cryptography.MaterialProvidersTestVectorKeys.RawRSA(); converted.KeyId = (string) FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S6_RawRSA__M5_keyId(concrete._keyId); converted.ProviderId = (string) FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S6_RawRSA__M10_providerId(concrete._providerId); converted.Padding = (AWS.Cryptography.MaterialProviders.PaddingScheme) FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S6_RawRSA__M7_padding(concrete._padding); return converted; } internal static software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IRawRSA ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S6_RawRSA (AWS.Cryptography.MaterialProvidersTestVectorKeys.RawRSA value) { return new software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.RawRSA ( ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S6_RawRSA__M5_keyId(value.KeyId) , ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S6_RawRSA__M10_providerId(value.ProviderId) , ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S6_RawRSA__M7_padding(value.Padding) ) ; } internal static AWS.Cryptography.MaterialProvidersTestVectorKeys.RawAES FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S6_RawAES (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IRawAES value) { software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.RawAES concrete = (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.RawAES)value; AWS.Cryptography.MaterialProvidersTestVectorKeys.RawAES converted = new AWS.Cryptography.MaterialProvidersTestVectorKeys.RawAES(); converted.KeyId = (string) FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S6_RawAES__M5_keyId(concrete._keyId); converted.ProviderId = (string) FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S6_RawAES__M10_providerId(concrete._providerId); return converted; } internal static software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IRawAES ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S6_RawAES (AWS.Cryptography.MaterialProvidersTestVectorKeys.RawAES value) { return new software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.RawAES ( ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S6_RawAES__M5_keyId(value.KeyId) , ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S6_RawAES__M10_providerId(value.ProviderId) ) ; } internal static AWS.Cryptography.MaterialProvidersTestVectorKeys.StaticKeyring FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S13_StaticKeyring (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IStaticKeyring value) { software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.StaticKeyring concrete = (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.StaticKeyring)value; AWS.Cryptography.MaterialProvidersTestVectorKeys.StaticKeyring converted = new AWS.Cryptography.MaterialProvidersTestVectorKeys.StaticKeyring(); converted.KeyId = (string) FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S13_StaticKeyring__M5_keyId(concrete._keyId); return converted; } internal static software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IStaticKeyring ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S13_StaticKeyring (AWS.Cryptography.MaterialProvidersTestVectorKeys.StaticKeyring value) { return new software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.StaticKeyring ( ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S13_StaticKeyring__M5_keyId(value.KeyId) ) ; } internal static AWS.Cryptography.MaterialProvidersTestVectorKeys.KmsRsaKeyring FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S13_KmsRsaKeyring (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IKmsRsaKeyring value) { software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.KmsRsaKeyring concrete = (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.KmsRsaKeyring)value; AWS.Cryptography.MaterialProvidersTestVectorKeys.KmsRsaKeyring converted = new AWS.Cryptography.MaterialProvidersTestVectorKeys.KmsRsaKeyring(); converted.KeyId = (string) FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S13_KmsRsaKeyring__M5_keyId(concrete._keyId); converted.EncryptionAlgorithm = (Amazon.KeyManagementService.EncryptionAlgorithmSpec) FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S13_KmsRsaKeyring__M19_encryptionAlgorithm(concrete._encryptionAlgorithm); return converted; } internal static software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IKmsRsaKeyring ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S13_KmsRsaKeyring (AWS.Cryptography.MaterialProvidersTestVectorKeys.KmsRsaKeyring value) { return new software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.KmsRsaKeyring ( ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S13_KmsRsaKeyring__M5_keyId(value.KeyId) , ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S13_KmsRsaKeyring__M19_encryptionAlgorithm(value.EncryptionAlgorithm) ) ; } internal static AWS.Cryptography.MaterialProvidersTestVectorKeys.HierarchyKeyring FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S16_HierarchyKeyring (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IHierarchyKeyring value) { software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.HierarchyKeyring concrete = (software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.HierarchyKeyring)value; AWS.Cryptography.MaterialProvidersTestVectorKeys.HierarchyKeyring converted = new AWS.Cryptography.MaterialProvidersTestVectorKeys.HierarchyKeyring(); converted.KeyId = (string) FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S16_HierarchyKeyring__M5_keyId(concrete._keyId); return converted; } internal static software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IHierarchyKeyring ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S16_HierarchyKeyring (AWS.Cryptography.MaterialProvidersTestVectorKeys.HierarchyKeyring value) { return new software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.HierarchyKeyring ( ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S16_HierarchyKeyring__M5_keyId(value.KeyId) ) ; } internal static string FromDafny_N6_smithy__N3_api__S6_String (Dafny.ISequence<char> value) { return new string(value.Elements); } internal static Dafny.ISequence<char> ToDafny_N6_smithy__N3_api__S6_String (string value) { return Dafny.Sequence<char>.FromString(value); } internal static string FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S7_KMSInfo__M5_keyId (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S7_KMSInfo__M5_keyId (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static string FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S11_KmsMrkAware__M5_keyId (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S11_KmsMrkAware__M5_keyId (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static string FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S20_KmsMrkAwareDiscovery__M5_keyId (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S20_KmsMrkAwareDiscovery__M5_keyId (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static string FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S20_KmsMrkAwareDiscovery__M16_defaultMrkRegion (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S20_KmsMrkAwareDiscovery__M16_defaultMrkRegion (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static AWS.Cryptography.MaterialProviders.DiscoveryFilter FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S20_KmsMrkAwareDiscovery__M21_awsKmsDiscoveryFilter (Wrappers_Compile._IOption<software.amazon.cryptography.materialproviders.internaldafny.types._IDiscoveryFilter> value) { return value.is_None ? (AWS.Cryptography.MaterialProviders.DiscoveryFilter) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_DiscoveryFilter(value.Extract()); } internal static Wrappers_Compile._IOption<software.amazon.cryptography.materialproviders.internaldafny.types._IDiscoveryFilter> ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S20_KmsMrkAwareDiscovery__M21_awsKmsDiscoveryFilter (AWS.Cryptography.MaterialProviders.DiscoveryFilter value) { return value == null ? Wrappers_Compile.Option<software.amazon.cryptography.materialproviders.internaldafny.types._IDiscoveryFilter>.create_None() : Wrappers_Compile.Option<software.amazon.cryptography.materialproviders.internaldafny.types._IDiscoveryFilter>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_DiscoveryFilter((AWS.Cryptography.MaterialProviders.DiscoveryFilter) value)); } internal static string FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S6_RawRSA__M5_keyId (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S6_RawRSA__M5_keyId (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static string FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S6_RawRSA__M10_providerId (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S6_RawRSA__M10_providerId (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static AWS.Cryptography.MaterialProviders.PaddingScheme FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S6_RawRSA__M7_padding (software.amazon.cryptography.materialproviders.internaldafny.types._IPaddingScheme value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S13_PaddingScheme(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IPaddingScheme ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S6_RawRSA__M7_padding (AWS.Cryptography.MaterialProviders.PaddingScheme value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S13_PaddingScheme(value); } internal static string FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S6_RawAES__M5_keyId (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S6_RawAES__M5_keyId (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static string FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S6_RawAES__M10_providerId (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S6_RawAES__M10_providerId (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static string FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S13_StaticKeyring__M5_keyId (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S13_StaticKeyring__M5_keyId (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static string FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S13_KmsRsaKeyring__M5_keyId (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S13_KmsRsaKeyring__M5_keyId (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static Amazon.KeyManagementService.EncryptionAlgorithmSpec FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S13_KmsRsaKeyring__M19_encryptionAlgorithm (software.amazon.cryptography.services.kms.internaldafny.types._IEncryptionAlgorithmSpec value) { return FromDafny_N3_com__N9_amazonaws__N3_kms__S23_EncryptionAlgorithmSpec(value); } internal static software.amazon.cryptography.services.kms.internaldafny.types._IEncryptionAlgorithmSpec ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S13_KmsRsaKeyring__M19_encryptionAlgorithm (Amazon.KeyManagementService.EncryptionAlgorithmSpec value) { return ToDafny_N3_com__N9_amazonaws__N3_kms__S23_EncryptionAlgorithmSpec(value); } internal static string FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S16_HierarchyKeyring__M5_keyId (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S16_HierarchyKeyring__M5_keyId (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static AWS.Cryptography.MaterialProviders.DiscoveryFilter FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_DiscoveryFilter (software.amazon.cryptography.materialproviders.internaldafny.types._IDiscoveryFilter value) { software.amazon.cryptography.materialproviders.internaldafny.types.DiscoveryFilter concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.DiscoveryFilter)value; AWS.Cryptography.MaterialProviders.DiscoveryFilter converted = new AWS.Cryptography.MaterialProviders.DiscoveryFilter(); converted.AccountIds = (System.Collections.Generic.List<string>) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_DiscoveryFilter__M10_accountIds(concrete._accountIds); converted.Partition = (string) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_DiscoveryFilter__M9_partition(concrete._partition); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IDiscoveryFilter ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_DiscoveryFilter (AWS.Cryptography.MaterialProviders.DiscoveryFilter value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.DiscoveryFilter ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_DiscoveryFilter__M10_accountIds(value.AccountIds) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_DiscoveryFilter__M9_partition(value.Partition) ) ; } internal static AWS.Cryptography.MaterialProviders.PaddingScheme FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S13_PaddingScheme (software.amazon.cryptography.materialproviders.internaldafny.types._IPaddingScheme value) { if (value.is_PKCS1) return AWS.Cryptography.MaterialProviders.PaddingScheme.PKCS1; if (value.is_OAEP__SHA1__MGF1) return AWS.Cryptography.MaterialProviders.PaddingScheme.OAEP_SHA1_MGF1; if (value.is_OAEP__SHA256__MGF1) return AWS.Cryptography.MaterialProviders.PaddingScheme.OAEP_SHA256_MGF1; if (value.is_OAEP__SHA384__MGF1) return AWS.Cryptography.MaterialProviders.PaddingScheme.OAEP_SHA384_MGF1; if (value.is_OAEP__SHA512__MGF1) return AWS.Cryptography.MaterialProviders.PaddingScheme.OAEP_SHA512_MGF1; throw new System.ArgumentException("Invalid AWS.Cryptography.MaterialProviders.PaddingScheme value"); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IPaddingScheme ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S13_PaddingScheme (AWS.Cryptography.MaterialProviders.PaddingScheme value) { if (AWS.Cryptography.MaterialProviders.PaddingScheme.PKCS1.Equals(value)) return software.amazon.cryptography.materialproviders.internaldafny.types.PaddingScheme.create_PKCS1(); if (AWS.Cryptography.MaterialProviders.PaddingScheme.OAEP_SHA1_MGF1.Equals(value)) return software.amazon.cryptography.materialproviders.internaldafny.types.PaddingScheme.create_OAEP__SHA1__MGF1(); if (AWS.Cryptography.MaterialProviders.PaddingScheme.OAEP_SHA256_MGF1.Equals(value)) return software.amazon.cryptography.materialproviders.internaldafny.types.PaddingScheme.create_OAEP__SHA256__MGF1(); if (AWS.Cryptography.MaterialProviders.PaddingScheme.OAEP_SHA384_MGF1.Equals(value)) return software.amazon.cryptography.materialproviders.internaldafny.types.PaddingScheme.create_OAEP__SHA384__MGF1(); if (AWS.Cryptography.MaterialProviders.PaddingScheme.OAEP_SHA512_MGF1.Equals(value)) return software.amazon.cryptography.materialproviders.internaldafny.types.PaddingScheme.create_OAEP__SHA512__MGF1(); throw new System.ArgumentException("Invalid AWS.Cryptography.MaterialProviders.PaddingScheme value"); } internal static Amazon.KeyManagementService.EncryptionAlgorithmSpec FromDafny_N3_com__N9_amazonaws__N3_kms__S23_EncryptionAlgorithmSpec (software.amazon.cryptography.services.kms.internaldafny.types._IEncryptionAlgorithmSpec value) { if (value.is_SYMMETRIC__DEFAULT) return Amazon.KeyManagementService.EncryptionAlgorithmSpec.SYMMETRIC_DEFAULT; if (value.is_RSAES__OAEP__SHA__1) return Amazon.KeyManagementService.EncryptionAlgorithmSpec.RSAES_OAEP_SHA_1; if (value.is_RSAES__OAEP__SHA__256) return Amazon.KeyManagementService.EncryptionAlgorithmSpec.RSAES_OAEP_SHA_256; throw new System.ArgumentException("Invalid Amazon.KeyManagementService.EncryptionAlgorithmSpec value"); } internal static software.amazon.cryptography.services.kms.internaldafny.types._IEncryptionAlgorithmSpec ToDafny_N3_com__N9_amazonaws__N3_kms__S23_EncryptionAlgorithmSpec (Amazon.KeyManagementService.EncryptionAlgorithmSpec value) { if (Amazon.KeyManagementService.EncryptionAlgorithmSpec.SYMMETRIC_DEFAULT.Equals(value)) return software.amazon.cryptography.services.kms.internaldafny.types.EncryptionAlgorithmSpec.create_SYMMETRIC__DEFAULT(); if (Amazon.KeyManagementService.EncryptionAlgorithmSpec.RSAES_OAEP_SHA_1.Equals(value)) return software.amazon.cryptography.services.kms.internaldafny.types.EncryptionAlgorithmSpec.create_RSAES__OAEP__SHA__1(); if (Amazon.KeyManagementService.EncryptionAlgorithmSpec.RSAES_OAEP_SHA_256.Equals(value)) return software.amazon.cryptography.services.kms.internaldafny.types.EncryptionAlgorithmSpec.create_RSAES__OAEP__SHA__256(); throw new System.ArgumentException("Invalid Amazon.KeyManagementService.EncryptionAlgorithmSpec value"); } internal static System.Collections.Generic.List<string> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_DiscoveryFilter__M10_accountIds (Dafny.ISequence<Dafny.ISequence<char>> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S13_AccountIdList(value); } internal static Dafny.ISequence<Dafny.ISequence<char>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_DiscoveryFilter__M10_accountIds (System.Collections.Generic.List<string> value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S13_AccountIdList(value); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_DiscoveryFilter__M9_partition (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_DiscoveryFilter__M9_partition (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static System.Collections.Generic.List<string> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S13_AccountIdList (Dafny.ISequence<Dafny.ISequence<char>> value) { return new System.Collections.Generic.List<string>(value.Elements.Select(FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S13_AccountIdList__M6_member)); } internal static Dafny.ISequence<Dafny.ISequence<char>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S13_AccountIdList (System.Collections.Generic.List<string> value) { return Dafny.Sequence<Dafny.ISequence<char>>.FromArray(value.Select(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S13_AccountIdList__M6_member).ToArray()); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S13_AccountIdList__M6_member (Dafny.ISequence<char> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_AccountId(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S13_AccountIdList__M6_member (string value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_AccountId(value); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_AccountId (Dafny.ISequence<char> value) { return new string(value.Elements); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_AccountId (string value) { return Dafny.Sequence<char>.FromString(value); } public static System.Exception FromDafny_CommonError(software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IError value) { switch(value) { case software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.Error_KeyVectorException dafnyVal: return FromDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S18_KeyVectorException(dafnyVal); case software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.Error_CollectionOfErrors dafnyVal: return new CollectionOfErrors( new System.Collections.Generic.List<Exception>(dafnyVal.dtor_list.CloneAsArray() .Select(x => TypeConversion.FromDafny_CommonError(x))), new string(dafnyVal.dtor_message.Elements)); case software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.Error_Opaque dafnyVal: return new OpaqueError(dafnyVal._obj); default: // The switch MUST be complete for _IError, so `value` MUST NOT be an _IError. (How did you get here?) return new OpaqueError(); } } public static software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IError ToDafny_CommonError(System.Exception value) { switch (value) { case AWS.Cryptography.MaterialProvidersTestVectorKeys.KeyVectorException exception: return ToDafny_N3_aws__N12_cryptography__N31_materialProvidersTestVectorKeys__S18_KeyVectorException(exception); case CollectionOfErrors collectionOfErrors: return new software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.Error_CollectionOfErrors( Dafny.Sequence<software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types._IError> .FromArray( collectionOfErrors.list.Select (x => TypeConversion.ToDafny_CommonError(x)) .ToArray()), Dafny.Sequence<char>.FromString(collectionOfErrors.Message) ); // OpaqueError is redundant, but listed for completeness. case OpaqueError exception: return new software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.Error_Opaque(exception); case System.Exception exception: return new software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.Error_Opaque(exception); default: // The switch MUST be complete for System.Exception, so `value` MUST NOT be an System.Exception. (How did you get here?) return new software.amazon.cryptography.materialproviderstestvectorkeys.internaldafny.types.Error_Opaque(value); } } } }	489
aws-cryptographic-material-providers-library-java	aws	C#	// Copyright Amazon.com Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 // Do not modify this file. This file is machine generated, and any changes to it will be overwritten. using System; using System.Collections.Generic; using System.IO; using System.Linq; namespace AWS.Cryptography.MaterialProviders.Wrapped { public class AwsCryptographicMaterialProvidersShim : software.amazon.cryptography.materialproviders.internaldafny.types.IAwsCryptographicMaterialProvidersClient { public AWS.Cryptography.MaterialProviders.MaterialProviders _impl; public AwsCryptographicMaterialProvidersShim(AWS.Cryptography.MaterialProviders.MaterialProviders impl) { this._impl = impl; } public Wrappers_Compile._IResult<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError> CreateAwsKmsKeyring(software.amazon.cryptography.materialproviders.internaldafny.types._ICreateAwsKmsKeyringInput request) { AWS.Cryptography.MaterialProviders.CreateAwsKmsKeyringInput unWrappedRequest = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateAwsKmsKeyringInput(request); try { AWS.Cryptography.MaterialProviders.IKeyring wrappedResponse = this._impl.CreateAwsKmsKeyring(unWrappedRequest); return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_CreateKeyringOutput(wrappedResponse)); } catch (System.Exception ex) { return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(this.ConvertError(ex)); } } public Wrappers_Compile._IResult<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError> CreateAwsKmsDiscoveryKeyring(software.amazon.cryptography.materialproviders.internaldafny.types._ICreateAwsKmsDiscoveryKeyringInput request) { AWS.Cryptography.MaterialProviders.CreateAwsKmsDiscoveryKeyringInput unWrappedRequest = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S33_CreateAwsKmsDiscoveryKeyringInput(request); try { AWS.Cryptography.MaterialProviders.IKeyring wrappedResponse = this._impl.CreateAwsKmsDiscoveryKeyring(unWrappedRequest); return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_CreateKeyringOutput(wrappedResponse)); } catch (System.Exception ex) { return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(this.ConvertError(ex)); } } public Wrappers_Compile._IResult<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError> CreateAwsKmsMultiKeyring(software.amazon.cryptography.materialproviders.internaldafny.types._ICreateAwsKmsMultiKeyringInput request) { AWS.Cryptography.MaterialProviders.CreateAwsKmsMultiKeyringInput unWrappedRequest = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S29_CreateAwsKmsMultiKeyringInput(request); try { AWS.Cryptography.MaterialProviders.IKeyring wrappedResponse = this._impl.CreateAwsKmsMultiKeyring(unWrappedRequest); return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_CreateKeyringOutput(wrappedResponse)); } catch (System.Exception ex) { return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(this.ConvertError(ex)); } } public Wrappers_Compile._IResult<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError> CreateAwsKmsDiscoveryMultiKeyring(software.amazon.cryptography.materialproviders.internaldafny.types._ICreateAwsKmsDiscoveryMultiKeyringInput request) { AWS.Cryptography.MaterialProviders.CreateAwsKmsDiscoveryMultiKeyringInput unWrappedRequest = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CreateAwsKmsDiscoveryMultiKeyringInput(request); try { AWS.Cryptography.MaterialProviders.IKeyring wrappedResponse = this._impl.CreateAwsKmsDiscoveryMultiKeyring(unWrappedRequest); return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_CreateKeyringOutput(wrappedResponse)); } catch (System.Exception ex) { return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(this.ConvertError(ex)); } } public Wrappers_Compile._IResult<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError> CreateAwsKmsMrkKeyring(software.amazon.cryptography.materialproviders.internaldafny.types._ICreateAwsKmsMrkKeyringInput request) { AWS.Cryptography.MaterialProviders.CreateAwsKmsMrkKeyringInput unWrappedRequest = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsMrkKeyringInput(request); try { AWS.Cryptography.MaterialProviders.IKeyring wrappedResponse = this._impl.CreateAwsKmsMrkKeyring(unWrappedRequest); return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_CreateKeyringOutput(wrappedResponse)); } catch (System.Exception ex) { return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(this.ConvertError(ex)); } } public Wrappers_Compile._IResult<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError> CreateAwsKmsMrkMultiKeyring(software.amazon.cryptography.materialproviders.internaldafny.types._ICreateAwsKmsMrkMultiKeyringInput request) { AWS.Cryptography.MaterialProviders.CreateAwsKmsMrkMultiKeyringInput unWrappedRequest = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S32_CreateAwsKmsMrkMultiKeyringInput(request); try { AWS.Cryptography.MaterialProviders.IKeyring wrappedResponse = this._impl.CreateAwsKmsMrkMultiKeyring(unWrappedRequest); return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_CreateKeyringOutput(wrappedResponse)); } catch (System.Exception ex) { return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(this.ConvertError(ex)); } } public Wrappers_Compile._IResult<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError> CreateAwsKmsMrkDiscoveryKeyring(software.amazon.cryptography.materialproviders.internaldafny.types._ICreateAwsKmsMrkDiscoveryKeyringInput request) { AWS.Cryptography.MaterialProviders.CreateAwsKmsMrkDiscoveryKeyringInput unWrappedRequest = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsMrkDiscoveryKeyringInput(request); try { AWS.Cryptography.MaterialProviders.IKeyring wrappedResponse = this._impl.CreateAwsKmsMrkDiscoveryKeyring(unWrappedRequest); return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_CreateKeyringOutput(wrappedResponse)); } catch (System.Exception ex) { return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(this.ConvertError(ex)); } } public Wrappers_Compile._IResult<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError> CreateAwsKmsMrkDiscoveryMultiKeyring(software.amazon.cryptography.materialproviders.internaldafny.types._ICreateAwsKmsMrkDiscoveryMultiKeyringInput request) { AWS.Cryptography.MaterialProviders.CreateAwsKmsMrkDiscoveryMultiKeyringInput unWrappedRequest = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S41_CreateAwsKmsMrkDiscoveryMultiKeyringInput(request); try { AWS.Cryptography.MaterialProviders.IKeyring wrappedResponse = this._impl.CreateAwsKmsMrkDiscoveryMultiKeyring(unWrappedRequest); return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_CreateKeyringOutput(wrappedResponse)); } catch (System.Exception ex) { return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(this.ConvertError(ex)); } } public Wrappers_Compile._IResult<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError> CreateAwsKmsHierarchicalKeyring(software.amazon.cryptography.materialproviders.internaldafny.types._ICreateAwsKmsHierarchicalKeyringInput request) { AWS.Cryptography.MaterialProviders.CreateAwsKmsHierarchicalKeyringInput unWrappedRequest = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsHierarchicalKeyringInput(request); try { AWS.Cryptography.MaterialProviders.IKeyring wrappedResponse = this._impl.CreateAwsKmsHierarchicalKeyring(unWrappedRequest); return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_CreateKeyringOutput(wrappedResponse)); } catch (System.Exception ex) { return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(this.ConvertError(ex)); } } public Wrappers_Compile._IResult<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError> CreateMultiKeyring(software.amazon.cryptography.materialproviders.internaldafny.types._ICreateMultiKeyringInput request) { AWS.Cryptography.MaterialProviders.CreateMultiKeyringInput unWrappedRequest = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_CreateMultiKeyringInput(request); try { AWS.Cryptography.MaterialProviders.IKeyring wrappedResponse = this._impl.CreateMultiKeyring(unWrappedRequest); return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_CreateKeyringOutput(wrappedResponse)); } catch (System.Exception ex) { return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(this.ConvertError(ex)); } } public Wrappers_Compile._IResult<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError> CreateRawAesKeyring(software.amazon.cryptography.materialproviders.internaldafny.types._ICreateRawAesKeyringInput request) { AWS.Cryptography.MaterialProviders.CreateRawAesKeyringInput unWrappedRequest = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawAesKeyringInput(request); try { AWS.Cryptography.MaterialProviders.IKeyring wrappedResponse = this._impl.CreateRawAesKeyring(unWrappedRequest); return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_CreateKeyringOutput(wrappedResponse)); } catch (System.Exception ex) { return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(this.ConvertError(ex)); } } public Wrappers_Compile._IResult<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError> CreateRawRsaKeyring(software.amazon.cryptography.materialproviders.internaldafny.types._ICreateRawRsaKeyringInput request) { AWS.Cryptography.MaterialProviders.CreateRawRsaKeyringInput unWrappedRequest = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawRsaKeyringInput(request); try { AWS.Cryptography.MaterialProviders.IKeyring wrappedResponse = this._impl.CreateRawRsaKeyring(unWrappedRequest); return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_CreateKeyringOutput(wrappedResponse)); } catch (System.Exception ex) { return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(this.ConvertError(ex)); } } public Wrappers_Compile._IResult<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError> CreateAwsKmsRsaKeyring(software.amazon.cryptography.materialproviders.internaldafny.types._ICreateAwsKmsRsaKeyringInput request) { AWS.Cryptography.MaterialProviders.CreateAwsKmsRsaKeyringInput unWrappedRequest = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsRsaKeyringInput(request); try { AWS.Cryptography.MaterialProviders.IKeyring wrappedResponse = this._impl.CreateAwsKmsRsaKeyring(unWrappedRequest); return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_CreateKeyringOutput(wrappedResponse)); } catch (System.Exception ex) { return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(this.ConvertError(ex)); } } public Wrappers_Compile._IResult<software.amazon.cryptography.materialproviders.internaldafny.types.ICryptographicMaterialsManager, software.amazon.cryptography.materialproviders.internaldafny.types._IError> CreateDefaultCryptographicMaterialsManager(software.amazon.cryptography.materialproviders.internaldafny.types._ICreateDefaultCryptographicMaterialsManagerInput request) { AWS.Cryptography.MaterialProviders.CreateDefaultCryptographicMaterialsManagerInput unWrappedRequest = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S47_CreateDefaultCryptographicMaterialsManagerInput(request); try { AWS.Cryptography.MaterialProviders.ICryptographicMaterialsManager wrappedResponse = this._impl.CreateDefaultCryptographicMaterialsManager(unWrappedRequest); return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types.ICryptographicMaterialsManager, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S41_CreateCryptographicMaterialsManagerOutput(wrappedResponse)); } catch (System.Exception ex) { return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types.ICryptographicMaterialsManager, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(this.ConvertError(ex)); } } public Wrappers_Compile._IResult<software.amazon.cryptography.materialproviders.internaldafny.types.ICryptographicMaterialsManager, software.amazon.cryptography.materialproviders.internaldafny.types._IError> CreateRequiredEncryptionContextCMM(software.amazon.cryptography.materialproviders.internaldafny.types._ICreateRequiredEncryptionContextCMMInput request) { AWS.Cryptography.MaterialProviders.CreateRequiredEncryptionContextCMMInput unWrappedRequest = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_CreateRequiredEncryptionContextCMMInput(request); try { AWS.Cryptography.MaterialProviders.ICryptographicMaterialsManager wrappedResponse = this._impl.CreateRequiredEncryptionContextCMM(unWrappedRequest); return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types.ICryptographicMaterialsManager, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S40_CreateRequiredEncryptionContextCMMOutput(wrappedResponse)); } catch (System.Exception ex) { return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types.ICryptographicMaterialsManager, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(this.ConvertError(ex)); } } public Wrappers_Compile._IResult<software.amazon.cryptography.materialproviders.internaldafny.types.ICryptographicMaterialsCache, software.amazon.cryptography.materialproviders.internaldafny.types._IError> CreateCryptographicMaterialsCache(software.amazon.cryptography.materialproviders.internaldafny.types._ICreateCryptographicMaterialsCacheInput request) { AWS.Cryptography.MaterialProviders.CreateCryptographicMaterialsCacheInput unWrappedRequest = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CreateCryptographicMaterialsCacheInput(request); try { AWS.Cryptography.MaterialProviders.ICryptographicMaterialsCache wrappedResponse = this._impl.CreateCryptographicMaterialsCache(unWrappedRequest); return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types.ICryptographicMaterialsCache, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_CreateCryptographicMaterialsCacheOutput(wrappedResponse)); } catch (System.Exception ex) { return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types.ICryptographicMaterialsCache, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(this.ConvertError(ex)); } } public Wrappers_Compile._IResult<software.amazon.cryptography.materialproviders.internaldafny.types.IClientSupplier, software.amazon.cryptography.materialproviders.internaldafny.types._IError> CreateDefaultClientSupplier(software.amazon.cryptography.materialproviders.internaldafny.types._ICreateDefaultClientSupplierInput request) { AWS.Cryptography.MaterialProviders.CreateDefaultClientSupplierInput unWrappedRequest = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S32_CreateDefaultClientSupplierInput(request); try { AWS.Cryptography.MaterialProviders.IClientSupplier wrappedResponse = this._impl.CreateDefaultClientSupplier(unWrappedRequest); return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types.IClientSupplier, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S33_CreateDefaultClientSupplierOutput(wrappedResponse)); } catch (System.Exception ex) { return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types.IClientSupplier, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(this.ConvertError(ex)); } } public Wrappers_Compile._IResult<software.amazon.cryptography.materialproviders.internaldafny.types._IEncryptionMaterials, software.amazon.cryptography.materialproviders.internaldafny.types._IError> InitializeEncryptionMaterials(software.amazon.cryptography.materialproviders.internaldafny.types._IInitializeEncryptionMaterialsInput request) { AWS.Cryptography.MaterialProviders.InitializeEncryptionMaterialsInput unWrappedRequest = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeEncryptionMaterialsInput(request); try { AWS.Cryptography.MaterialProviders.EncryptionMaterials wrappedResponse = this._impl.InitializeEncryptionMaterials(unWrappedRequest); return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types._IEncryptionMaterials, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials(wrappedResponse)); } catch (System.Exception ex) { return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types._IEncryptionMaterials, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(this.ConvertError(ex)); } } public Wrappers_Compile._IResult<software.amazon.cryptography.materialproviders.internaldafny.types._IDecryptionMaterials, software.amazon.cryptography.materialproviders.internaldafny.types._IError> InitializeDecryptionMaterials(software.amazon.cryptography.materialproviders.internaldafny.types._IInitializeDecryptionMaterialsInput request) { AWS.Cryptography.MaterialProviders.InitializeDecryptionMaterialsInput unWrappedRequest = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeDecryptionMaterialsInput(request); try { AWS.Cryptography.MaterialProviders.DecryptionMaterials wrappedResponse = this._impl.InitializeDecryptionMaterials(unWrappedRequest); return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types._IDecryptionMaterials, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials(wrappedResponse)); } catch (System.Exception ex) { return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types._IDecryptionMaterials, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(this.ConvertError(ex)); } } public Wrappers_Compile._IResult<_System._ITuple0, software.amazon.cryptography.materialproviders.internaldafny.types._IError> ValidEncryptionMaterialsTransition(software.amazon.cryptography.materialproviders.internaldafny.types._IValidEncryptionMaterialsTransitionInput request) { AWS.Cryptography.MaterialProviders.ValidEncryptionMaterialsTransitionInput unWrappedRequest = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_ValidEncryptionMaterialsTransitionInput(request); try { this._impl.ValidEncryptionMaterialsTransition(unWrappedRequest); return Wrappers_Compile.Result<_System._ITuple0, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(_System.Tuple0.Default()); } catch (System.Exception ex) { return Wrappers_Compile.Result<_System._ITuple0, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(this.ConvertError(ex)); } } public Wrappers_Compile._IResult<_System._ITuple0, software.amazon.cryptography.materialproviders.internaldafny.types._IError> ValidDecryptionMaterialsTransition(software.amazon.cryptography.materialproviders.internaldafny.types._IValidDecryptionMaterialsTransitionInput request) { AWS.Cryptography.MaterialProviders.ValidDecryptionMaterialsTransitionInput unWrappedRequest = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_ValidDecryptionMaterialsTransitionInput(request); try { this._impl.ValidDecryptionMaterialsTransition(unWrappedRequest); return Wrappers_Compile.Result<_System._ITuple0, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(_System.Tuple0.Default()); } catch (System.Exception ex) { return Wrappers_Compile.Result<_System._ITuple0, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(this.ConvertError(ex)); } } public Wrappers_Compile._IResult<_System._ITuple0, software.amazon.cryptography.materialproviders.internaldafny.types._IError> EncryptionMaterialsHasPlaintextDataKey(software.amazon.cryptography.materialproviders.internaldafny.types._IEncryptionMaterials request) { AWS.Cryptography.MaterialProviders.EncryptionMaterials unWrappedRequest = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials(request); try { this._impl.EncryptionMaterialsHasPlaintextDataKey(unWrappedRequest); return Wrappers_Compile.Result<_System._ITuple0, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(_System.Tuple0.Default()); } catch (System.Exception ex) { return Wrappers_Compile.Result<_System._ITuple0, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(this.ConvertError(ex)); } } public Wrappers_Compile._IResult<_System._ITuple0, software.amazon.cryptography.materialproviders.internaldafny.types._IError> DecryptionMaterialsWithPlaintextDataKey(software.amazon.cryptography.materialproviders.internaldafny.types._IDecryptionMaterials request) { AWS.Cryptography.MaterialProviders.DecryptionMaterials unWrappedRequest = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials(request); try { this._impl.DecryptionMaterialsWithPlaintextDataKey(unWrappedRequest); return Wrappers_Compile.Result<_System._ITuple0, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(_System.Tuple0.Default()); } catch (System.Exception ex) { return Wrappers_Compile.Result<_System._ITuple0, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(this.ConvertError(ex)); } } public Wrappers_Compile._IResult<software.amazon.cryptography.materialproviders.internaldafny.types._IAlgorithmSuiteInfo, software.amazon.cryptography.materialproviders.internaldafny.types._IError> GetAlgorithmSuiteInfo(Dafny.ISequence<byte> request) { System.IO.MemoryStream unWrappedRequest = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S26_GetAlgorithmSuiteInfoInput(request); try { AWS.Cryptography.MaterialProviders.AlgorithmSuiteInfo wrappedResponse = this._impl.GetAlgorithmSuiteInfo(unWrappedRequest); return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types._IAlgorithmSuiteInfo, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo(wrappedResponse)); } catch (System.Exception ex) { return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types._IAlgorithmSuiteInfo, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(this.ConvertError(ex)); } } public Wrappers_Compile._IResult<_System._ITuple0, software.amazon.cryptography.materialproviders.internaldafny.types._IError> ValidAlgorithmSuiteInfo(software.amazon.cryptography.materialproviders.internaldafny.types._IAlgorithmSuiteInfo request) { AWS.Cryptography.MaterialProviders.AlgorithmSuiteInfo unWrappedRequest = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo(request); try { this._impl.ValidAlgorithmSuiteInfo(unWrappedRequest); return Wrappers_Compile.Result<_System._ITuple0, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(_System.Tuple0.Default()); } catch (System.Exception ex) { return Wrappers_Compile.Result<_System._ITuple0, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(this.ConvertError(ex)); } } public Wrappers_Compile._IResult<_System._ITuple0, software.amazon.cryptography.materialproviders.internaldafny.types._IError> ValidateCommitmentPolicyOnEncrypt(software.amazon.cryptography.materialproviders.internaldafny.types._IValidateCommitmentPolicyOnEncryptInput request) { AWS.Cryptography.MaterialProviders.ValidateCommitmentPolicyOnEncryptInput unWrappedRequest = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_ValidateCommitmentPolicyOnEncryptInput(request); try { this._impl.ValidateCommitmentPolicyOnEncrypt(unWrappedRequest); return Wrappers_Compile.Result<_System._ITuple0, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(_System.Tuple0.Default()); } catch (System.Exception ex) { return Wrappers_Compile.Result<_System._ITuple0, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(this.ConvertError(ex)); } } public Wrappers_Compile._IResult<_System._ITuple0, software.amazon.cryptography.materialproviders.internaldafny.types._IError> ValidateCommitmentPolicyOnDecrypt(software.amazon.cryptography.materialproviders.internaldafny.types._IValidateCommitmentPolicyOnDecryptInput request) { AWS.Cryptography.MaterialProviders.ValidateCommitmentPolicyOnDecryptInput unWrappedRequest = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_ValidateCommitmentPolicyOnDecryptInput(request); try { this._impl.ValidateCommitmentPolicyOnDecrypt(unWrappedRequest); return Wrappers_Compile.Result<_System._ITuple0, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(_System.Tuple0.Default()); } catch (System.Exception ex) { return Wrappers_Compile.Result<_System._ITuple0, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(this.ConvertError(ex)); } } private software.amazon.cryptography.materialproviders.internaldafny.types._IError ConvertError(System.Exception error) { switch (error) { case AWS.Cryptography.MaterialProviders.AwsCryptographicMaterialProvidersException e: return TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S42_AwsCryptographicMaterialProvidersException(e); case AWS.Cryptography.MaterialProviders.EntryAlreadyExists e: return TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_EntryAlreadyExists(e); case AWS.Cryptography.MaterialProviders.EntryDoesNotExist e: return TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_EntryDoesNotExist(e); case AWS.Cryptography.MaterialProviders.InvalidAlgorithmSuiteInfo e: return TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S25_InvalidAlgorithmSuiteInfo(e); case AWS.Cryptography.MaterialProviders.InvalidAlgorithmSuiteInfoOnDecrypt e: return TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InvalidAlgorithmSuiteInfoOnDecrypt(e); case AWS.Cryptography.MaterialProviders.InvalidAlgorithmSuiteInfoOnEncrypt e: return TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InvalidAlgorithmSuiteInfoOnEncrypt(e); case AWS.Cryptography.MaterialProviders.InvalidDecryptionMaterials e: return TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S26_InvalidDecryptionMaterials(e); case AWS.Cryptography.MaterialProviders.InvalidDecryptionMaterialsTransition e: return TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_InvalidDecryptionMaterialsTransition(e); case AWS.Cryptography.MaterialProviders.InvalidEncryptionMaterials e: return TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S26_InvalidEncryptionMaterials(e); case AWS.Cryptography.MaterialProviders.InvalidEncryptionMaterialsTransition e: return TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_InvalidEncryptionMaterialsTransition(e); case CollectionOfErrors collectionOfErrors: return new software.amazon.cryptography.materialproviders.internaldafny.types.Error_CollectionOfErrors( Dafny.Sequence<software.amazon.cryptography.materialproviders.internaldafny.types._IError> .FromArray( collectionOfErrors.list.Select (x => TypeConversion.ToDafny_CommonError(x)) .ToArray()), Dafny.Sequence<char>.FromString(collectionOfErrors.Message) ); default: return new software.amazon.cryptography.materialproviders.internaldafny.types.Error_Opaque(error); } } } }	332
aws-cryptographic-material-providers-library-java	aws	C#	// Copyright Amazon.com Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 // Do not modify this file. This file is machine generated, and any changes to it will be overwritten. using System.Linq; using System; namespace AWS.Cryptography.MaterialProviders.Wrapped { public static class TypeConversion { internal static AWS.Cryptography.MaterialProviders.AesWrappingAlg FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_AesWrappingAlg (software.amazon.cryptography.materialproviders.internaldafny.types._IAesWrappingAlg value) { if (value.is_ALG__AES128__GCM__IV12__TAG16) return AWS.Cryptography.MaterialProviders.AesWrappingAlg.ALG_AES128_GCM_IV12_TAG16; if (value.is_ALG__AES192__GCM__IV12__TAG16) return AWS.Cryptography.MaterialProviders.AesWrappingAlg.ALG_AES192_GCM_IV12_TAG16; if (value.is_ALG__AES256__GCM__IV12__TAG16) return AWS.Cryptography.MaterialProviders.AesWrappingAlg.ALG_AES256_GCM_IV12_TAG16; throw new System.ArgumentException("Invalid AWS.Cryptography.MaterialProviders.AesWrappingAlg value"); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IAesWrappingAlg ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_AesWrappingAlg (AWS.Cryptography.MaterialProviders.AesWrappingAlg value) { if (AWS.Cryptography.MaterialProviders.AesWrappingAlg.ALG_AES128_GCM_IV12_TAG16.Equals(value)) return software.amazon.cryptography.materialproviders.internaldafny.types.AesWrappingAlg.create_ALG__AES128__GCM__IV12__TAG16(); if (AWS.Cryptography.MaterialProviders.AesWrappingAlg.ALG_AES192_GCM_IV12_TAG16.Equals(value)) return software.amazon.cryptography.materialproviders.internaldafny.types.AesWrappingAlg.create_ALG__AES192__GCM__IV12__TAG16(); if (AWS.Cryptography.MaterialProviders.AesWrappingAlg.ALG_AES256_GCM_IV12_TAG16.Equals(value)) return software.amazon.cryptography.materialproviders.internaldafny.types.AesWrappingAlg.create_ALG__AES256__GCM__IV12__TAG16(); throw new System.ArgumentException("Invalid AWS.Cryptography.MaterialProviders.AesWrappingAlg value"); } internal static AWS.Cryptography.MaterialProviders.AlgorithmSuiteId FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_AlgorithmSuiteId (software.amazon.cryptography.materialproviders.internaldafny.types._IAlgorithmSuiteId value) { software.amazon.cryptography.materialproviders.internaldafny.types.AlgorithmSuiteId concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.AlgorithmSuiteId)value; var converted = new AWS.Cryptography.MaterialProviders.AlgorithmSuiteId(); if (value.is_ESDK) { converted.ESDK = FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_AlgorithmSuiteId__M4_ESDK(concrete.dtor_ESDK); return converted; } if (value.is_DBE) { converted.DBE = FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_AlgorithmSuiteId__M3_DBE(concrete.dtor_DBE); return converted; } throw new System.ArgumentException("Invalid AWS.Cryptography.MaterialProviders.AlgorithmSuiteId state"); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IAlgorithmSuiteId ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_AlgorithmSuiteId (AWS.Cryptography.MaterialProviders.AlgorithmSuiteId value) { if (value.IsSetESDK()) { return software.amazon.cryptography.materialproviders.internaldafny.types.AlgorithmSuiteId.create_ESDK(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_AlgorithmSuiteId__M4_ESDK(value.ESDK)); } if (value.IsSetDBE()) { return software.amazon.cryptography.materialproviders.internaldafny.types.AlgorithmSuiteId.create_DBE(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_AlgorithmSuiteId__M3_DBE(value.DBE)); } throw new System.ArgumentException("Invalid AWS.Cryptography.MaterialProviders.AlgorithmSuiteId state"); } internal static AWS.Cryptography.MaterialProviders.AlgorithmSuiteInfo FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo (software.amazon.cryptography.materialproviders.internaldafny.types._IAlgorithmSuiteInfo value) { software.amazon.cryptography.materialproviders.internaldafny.types.AlgorithmSuiteInfo concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.AlgorithmSuiteInfo)value; AWS.Cryptography.MaterialProviders.AlgorithmSuiteInfo converted = new AWS.Cryptography.MaterialProviders.AlgorithmSuiteInfo(); converted.Id = (AWS.Cryptography.MaterialProviders.AlgorithmSuiteId) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo__M2_id(concrete._id); converted.BinaryId = (System.IO.MemoryStream) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo__M8_binaryId(concrete._binaryId); converted.MessageVersion = (int) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo__M14_messageVersion(concrete._messageVersion); converted.Encrypt = (AWS.Cryptography.MaterialProviders.Encrypt) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo__M7_encrypt(concrete._encrypt); converted.Kdf = (AWS.Cryptography.MaterialProviders.DerivationAlgorithm) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo__M3_kdf(concrete._kdf); converted.Commitment = (AWS.Cryptography.MaterialProviders.DerivationAlgorithm) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo__M10_commitment(concrete._commitment); converted.Signature = (AWS.Cryptography.MaterialProviders.SignatureAlgorithm) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo__M9_signature(concrete._signature); converted.SymmetricSignature = (AWS.Cryptography.MaterialProviders.SymmetricSignatureAlgorithm) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo__M18_symmetricSignature(concrete._symmetricSignature); converted.EdkWrapping = (AWS.Cryptography.MaterialProviders.EdkWrappingAlgorithm) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo__M11_edkWrapping(concrete._edkWrapping); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IAlgorithmSuiteInfo ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo (AWS.Cryptography.MaterialProviders.AlgorithmSuiteInfo value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.AlgorithmSuiteInfo ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo__M2_id(value.Id) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo__M8_binaryId(value.BinaryId) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo__M14_messageVersion(value.MessageVersion) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo__M7_encrypt(value.Encrypt) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo__M3_kdf(value.Kdf) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo__M10_commitment(value.Commitment) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo__M9_signature(value.Signature) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo__M18_symmetricSignature(value.SymmetricSignature) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo__M11_edkWrapping(value.EdkWrapping) ) ; } internal static AWS.Cryptography.MaterialProviders.AwsCryptographicMaterialProvidersException FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S42_AwsCryptographicMaterialProvidersException (software.amazon.cryptography.materialproviders.internaldafny.types.Error_AwsCryptographicMaterialProvidersException value) { return new AWS.Cryptography.MaterialProviders.AwsCryptographicMaterialProvidersException ( FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S42_AwsCryptographicMaterialProvidersException__M7_message(value._message) ) ; } internal static software.amazon.cryptography.materialproviders.internaldafny.types.Error_AwsCryptographicMaterialProvidersException ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S42_AwsCryptographicMaterialProvidersException (AWS.Cryptography.MaterialProviders.AwsCryptographicMaterialProvidersException value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.Error_AwsCryptographicMaterialProvidersException ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S42_AwsCryptographicMaterialProvidersException__M7_message(value.Message) ) ; } internal static AWS.Cryptography.MaterialProviders.CommitmentPolicy FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_CommitmentPolicy (software.amazon.cryptography.materialproviders.internaldafny.types._ICommitmentPolicy value) { software.amazon.cryptography.materialproviders.internaldafny.types.CommitmentPolicy concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.CommitmentPolicy)value; var converted = new AWS.Cryptography.MaterialProviders.CommitmentPolicy(); if (value.is_ESDK) { converted.ESDK = FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_CommitmentPolicy__M4_ESDK(concrete.dtor_ESDK); return converted; } if (value.is_DBE) { converted.DBE = FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_CommitmentPolicy__M3_DBE(concrete.dtor_DBE); return converted; } throw new System.ArgumentException("Invalid AWS.Cryptography.MaterialProviders.CommitmentPolicy state"); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._ICommitmentPolicy ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_CommitmentPolicy (AWS.Cryptography.MaterialProviders.CommitmentPolicy value) { if (value.IsSetESDK()) { return software.amazon.cryptography.materialproviders.internaldafny.types.CommitmentPolicy.create_ESDK(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_CommitmentPolicy__M4_ESDK(value.ESDK)); } if (value.IsSetDBE()) { return software.amazon.cryptography.materialproviders.internaldafny.types.CommitmentPolicy.create_DBE(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_CommitmentPolicy__M3_DBE(value.DBE)); } throw new System.ArgumentException("Invalid AWS.Cryptography.MaterialProviders.CommitmentPolicy state"); } internal static AWS.Cryptography.MaterialProviders.CreateAwsKmsDiscoveryKeyringInput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S33_CreateAwsKmsDiscoveryKeyringInput (software.amazon.cryptography.materialproviders.internaldafny.types._ICreateAwsKmsDiscoveryKeyringInput value) { software.amazon.cryptography.materialproviders.internaldafny.types.CreateAwsKmsDiscoveryKeyringInput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.CreateAwsKmsDiscoveryKeyringInput)value; AWS.Cryptography.MaterialProviders.CreateAwsKmsDiscoveryKeyringInput converted = new AWS.Cryptography.MaterialProviders.CreateAwsKmsDiscoveryKeyringInput(); converted.KmsClient = (Amazon.KeyManagementService.IAmazonKeyManagementService) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S33_CreateAwsKmsDiscoveryKeyringInput__M9_kmsClient(concrete._kmsClient); if (concrete._discoveryFilter.is_Some) converted.DiscoveryFilter = (AWS.Cryptography.MaterialProviders.DiscoveryFilter) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S33_CreateAwsKmsDiscoveryKeyringInput__M15_discoveryFilter(concrete._discoveryFilter); if (concrete._grantTokens.is_Some) converted.GrantTokens = (System.Collections.Generic.List<string>) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S33_CreateAwsKmsDiscoveryKeyringInput__M11_grantTokens(concrete._grantTokens); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._ICreateAwsKmsDiscoveryKeyringInput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S33_CreateAwsKmsDiscoveryKeyringInput (AWS.Cryptography.MaterialProviders.CreateAwsKmsDiscoveryKeyringInput value) { AWS.Cryptography.MaterialProviders.DiscoveryFilter var_discoveryFilter = value.IsSetDiscoveryFilter() ? value.DiscoveryFilter : (AWS.Cryptography.MaterialProviders.DiscoveryFilter) null; System.Collections.Generic.List<string> var_grantTokens = value.IsSetGrantTokens() ? value.GrantTokens : (System.Collections.Generic.List<string>) null; return new software.amazon.cryptography.materialproviders.internaldafny.types.CreateAwsKmsDiscoveryKeyringInput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S33_CreateAwsKmsDiscoveryKeyringInput__M9_kmsClient(value.KmsClient) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S33_CreateAwsKmsDiscoveryKeyringInput__M15_discoveryFilter(var_discoveryFilter) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S33_CreateAwsKmsDiscoveryKeyringInput__M11_grantTokens(var_grantTokens) ) ; } internal static AWS.Cryptography.MaterialProviders.CreateAwsKmsDiscoveryMultiKeyringInput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CreateAwsKmsDiscoveryMultiKeyringInput (software.amazon.cryptography.materialproviders.internaldafny.types._ICreateAwsKmsDiscoveryMultiKeyringInput value) { software.amazon.cryptography.materialproviders.internaldafny.types.CreateAwsKmsDiscoveryMultiKeyringInput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.CreateAwsKmsDiscoveryMultiKeyringInput)value; AWS.Cryptography.MaterialProviders.CreateAwsKmsDiscoveryMultiKeyringInput converted = new AWS.Cryptography.MaterialProviders.CreateAwsKmsDiscoveryMultiKeyringInput(); converted.Regions = (System.Collections.Generic.List<string>) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CreateAwsKmsDiscoveryMultiKeyringInput__M7_regions(concrete._regions); if (concrete._discoveryFilter.is_Some) converted.DiscoveryFilter = (AWS.Cryptography.MaterialProviders.DiscoveryFilter) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CreateAwsKmsDiscoveryMultiKeyringInput__M15_discoveryFilter(concrete._discoveryFilter); if (concrete._clientSupplier.is_Some) converted.ClientSupplier = (AWS.Cryptography.MaterialProviders.IClientSupplier) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CreateAwsKmsDiscoveryMultiKeyringInput__M14_clientSupplier(concrete._clientSupplier); if (concrete._grantTokens.is_Some) converted.GrantTokens = (System.Collections.Generic.List<string>) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CreateAwsKmsDiscoveryMultiKeyringInput__M11_grantTokens(concrete._grantTokens); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._ICreateAwsKmsDiscoveryMultiKeyringInput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CreateAwsKmsDiscoveryMultiKeyringInput (AWS.Cryptography.MaterialProviders.CreateAwsKmsDiscoveryMultiKeyringInput value) { AWS.Cryptography.MaterialProviders.DiscoveryFilter var_discoveryFilter = value.IsSetDiscoveryFilter() ? value.DiscoveryFilter : (AWS.Cryptography.MaterialProviders.DiscoveryFilter) null; AWS.Cryptography.MaterialProviders.IClientSupplier var_clientSupplier = value.IsSetClientSupplier() ? value.ClientSupplier : (AWS.Cryptography.MaterialProviders.IClientSupplier) null; System.Collections.Generic.List<string> var_grantTokens = value.IsSetGrantTokens() ? value.GrantTokens : (System.Collections.Generic.List<string>) null; return new software.amazon.cryptography.materialproviders.internaldafny.types.CreateAwsKmsDiscoveryMultiKeyringInput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CreateAwsKmsDiscoveryMultiKeyringInput__M7_regions(value.Regions) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CreateAwsKmsDiscoveryMultiKeyringInput__M15_discoveryFilter(var_discoveryFilter) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CreateAwsKmsDiscoveryMultiKeyringInput__M14_clientSupplier(var_clientSupplier) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CreateAwsKmsDiscoveryMultiKeyringInput__M11_grantTokens(var_grantTokens) ) ; } internal static AWS.Cryptography.MaterialProviders.CreateAwsKmsHierarchicalKeyringInput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsHierarchicalKeyringInput (software.amazon.cryptography.materialproviders.internaldafny.types._ICreateAwsKmsHierarchicalKeyringInput value) { software.amazon.cryptography.materialproviders.internaldafny.types.CreateAwsKmsHierarchicalKeyringInput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.CreateAwsKmsHierarchicalKeyringInput)value; AWS.Cryptography.MaterialProviders.CreateAwsKmsHierarchicalKeyringInput converted = new AWS.Cryptography.MaterialProviders.CreateAwsKmsHierarchicalKeyringInput(); if (concrete._branchKeyId.is_Some) converted.BranchKeyId = (string) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsHierarchicalKeyringInput__M11_branchKeyId(concrete._branchKeyId); if (concrete._branchKeyIdSupplier.is_Some) converted.BranchKeyIdSupplier = (AWS.Cryptography.MaterialProviders.IBranchKeyIdSupplier) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsHierarchicalKeyringInput__M19_branchKeyIdSupplier(concrete._branchKeyIdSupplier); converted.KeyStore = (AWS.Cryptography.KeyStore.KeyStore) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsHierarchicalKeyringInput__M8_keyStore(concrete._keyStore); converted.TtlSeconds = (long) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsHierarchicalKeyringInput__M10_ttlSeconds(concrete._ttlSeconds); if (concrete._maxCacheSize.is_Some) converted.MaxCacheSize = (int) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsHierarchicalKeyringInput__M12_maxCacheSize(concrete._maxCacheSize); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._ICreateAwsKmsHierarchicalKeyringInput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsHierarchicalKeyringInput (AWS.Cryptography.MaterialProviders.CreateAwsKmsHierarchicalKeyringInput value) { string var_branchKeyId = value.IsSetBranchKeyId() ? value.BranchKeyId : (string) null; AWS.Cryptography.MaterialProviders.IBranchKeyIdSupplier var_branchKeyIdSupplier = value.IsSetBranchKeyIdSupplier() ? value.BranchKeyIdSupplier : (AWS.Cryptography.MaterialProviders.IBranchKeyIdSupplier) null; int? var_maxCacheSize = value.IsSetMaxCacheSize() ? value.MaxCacheSize : (int?) null; return new software.amazon.cryptography.materialproviders.internaldafny.types.CreateAwsKmsHierarchicalKeyringInput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsHierarchicalKeyringInput__M11_branchKeyId(var_branchKeyId) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsHierarchicalKeyringInput__M19_branchKeyIdSupplier(var_branchKeyIdSupplier) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsHierarchicalKeyringInput__M8_keyStore(value.KeyStore) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsHierarchicalKeyringInput__M10_ttlSeconds(value.TtlSeconds) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsHierarchicalKeyringInput__M12_maxCacheSize(var_maxCacheSize) ) ; } internal static AWS.Cryptography.MaterialProviders.CreateAwsKmsKeyringInput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateAwsKmsKeyringInput (software.amazon.cryptography.materialproviders.internaldafny.types._ICreateAwsKmsKeyringInput value) { software.amazon.cryptography.materialproviders.internaldafny.types.CreateAwsKmsKeyringInput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.CreateAwsKmsKeyringInput)value; AWS.Cryptography.MaterialProviders.CreateAwsKmsKeyringInput converted = new AWS.Cryptography.MaterialProviders.CreateAwsKmsKeyringInput(); converted.KmsKeyId = (string) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateAwsKmsKeyringInput__M8_kmsKeyId(concrete._kmsKeyId); converted.KmsClient = (Amazon.KeyManagementService.IAmazonKeyManagementService) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateAwsKmsKeyringInput__M9_kmsClient(concrete._kmsClient); if (concrete._grantTokens.is_Some) converted.GrantTokens = (System.Collections.Generic.List<string>) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateAwsKmsKeyringInput__M11_grantTokens(concrete._grantTokens); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._ICreateAwsKmsKeyringInput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateAwsKmsKeyringInput (AWS.Cryptography.MaterialProviders.CreateAwsKmsKeyringInput value) { System.Collections.Generic.List<string> var_grantTokens = value.IsSetGrantTokens() ? value.GrantTokens : (System.Collections.Generic.List<string>) null; return new software.amazon.cryptography.materialproviders.internaldafny.types.CreateAwsKmsKeyringInput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateAwsKmsKeyringInput__M8_kmsKeyId(value.KmsKeyId) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateAwsKmsKeyringInput__M9_kmsClient(value.KmsClient) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateAwsKmsKeyringInput__M11_grantTokens(var_grantTokens) ) ; } internal static AWS.Cryptography.MaterialProviders.CreateAwsKmsMrkDiscoveryKeyringInput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsMrkDiscoveryKeyringInput (software.amazon.cryptography.materialproviders.internaldafny.types._ICreateAwsKmsMrkDiscoveryKeyringInput value) { software.amazon.cryptography.materialproviders.internaldafny.types.CreateAwsKmsMrkDiscoveryKeyringInput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.CreateAwsKmsMrkDiscoveryKeyringInput)value; AWS.Cryptography.MaterialProviders.CreateAwsKmsMrkDiscoveryKeyringInput converted = new AWS.Cryptography.MaterialProviders.CreateAwsKmsMrkDiscoveryKeyringInput(); converted.KmsClient = (Amazon.KeyManagementService.IAmazonKeyManagementService) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsMrkDiscoveryKeyringInput__M9_kmsClient(concrete._kmsClient); if (concrete._discoveryFilter.is_Some) converted.DiscoveryFilter = (AWS.Cryptography.MaterialProviders.DiscoveryFilter) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsMrkDiscoveryKeyringInput__M15_discoveryFilter(concrete._discoveryFilter); if (concrete._grantTokens.is_Some) converted.GrantTokens = (System.Collections.Generic.List<string>) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsMrkDiscoveryKeyringInput__M11_grantTokens(concrete._grantTokens); converted.Region = (string) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsMrkDiscoveryKeyringInput__M6_region(concrete._region); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._ICreateAwsKmsMrkDiscoveryKeyringInput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsMrkDiscoveryKeyringInput (AWS.Cryptography.MaterialProviders.CreateAwsKmsMrkDiscoveryKeyringInput value) { AWS.Cryptography.MaterialProviders.DiscoveryFilter var_discoveryFilter = value.IsSetDiscoveryFilter() ? value.DiscoveryFilter : (AWS.Cryptography.MaterialProviders.DiscoveryFilter) null; System.Collections.Generic.List<string> var_grantTokens = value.IsSetGrantTokens() ? value.GrantTokens : (System.Collections.Generic.List<string>) null; return new software.amazon.cryptography.materialproviders.internaldafny.types.CreateAwsKmsMrkDiscoveryKeyringInput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsMrkDiscoveryKeyringInput__M9_kmsClient(value.KmsClient) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsMrkDiscoveryKeyringInput__M15_discoveryFilter(var_discoveryFilter) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsMrkDiscoveryKeyringInput__M11_grantTokens(var_grantTokens) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsMrkDiscoveryKeyringInput__M6_region(value.Region) ) ; } internal static AWS.Cryptography.MaterialProviders.CreateAwsKmsMrkDiscoveryMultiKeyringInput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S41_CreateAwsKmsMrkDiscoveryMultiKeyringInput (software.amazon.cryptography.materialproviders.internaldafny.types._ICreateAwsKmsMrkDiscoveryMultiKeyringInput value) { software.amazon.cryptography.materialproviders.internaldafny.types.CreateAwsKmsMrkDiscoveryMultiKeyringInput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.CreateAwsKmsMrkDiscoveryMultiKeyringInput)value; AWS.Cryptography.MaterialProviders.CreateAwsKmsMrkDiscoveryMultiKeyringInput converted = new AWS.Cryptography.MaterialProviders.CreateAwsKmsMrkDiscoveryMultiKeyringInput(); converted.Regions = (System.Collections.Generic.List<string>) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S41_CreateAwsKmsMrkDiscoveryMultiKeyringInput__M7_regions(concrete._regions); if (concrete._discoveryFilter.is_Some) converted.DiscoveryFilter = (AWS.Cryptography.MaterialProviders.DiscoveryFilter) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S41_CreateAwsKmsMrkDiscoveryMultiKeyringInput__M15_discoveryFilter(concrete._discoveryFilter); if (concrete._clientSupplier.is_Some) converted.ClientSupplier = (AWS.Cryptography.MaterialProviders.IClientSupplier) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S41_CreateAwsKmsMrkDiscoveryMultiKeyringInput__M14_clientSupplier(concrete._clientSupplier); if (concrete._grantTokens.is_Some) converted.GrantTokens = (System.Collections.Generic.List<string>) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S41_CreateAwsKmsMrkDiscoveryMultiKeyringInput__M11_grantTokens(concrete._grantTokens); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._ICreateAwsKmsMrkDiscoveryMultiKeyringInput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S41_CreateAwsKmsMrkDiscoveryMultiKeyringInput (AWS.Cryptography.MaterialProviders.CreateAwsKmsMrkDiscoveryMultiKeyringInput value) { AWS.Cryptography.MaterialProviders.DiscoveryFilter var_discoveryFilter = value.IsSetDiscoveryFilter() ? value.DiscoveryFilter : (AWS.Cryptography.MaterialProviders.DiscoveryFilter) null; AWS.Cryptography.MaterialProviders.IClientSupplier var_clientSupplier = value.IsSetClientSupplier() ? value.ClientSupplier : (AWS.Cryptography.MaterialProviders.IClientSupplier) null; System.Collections.Generic.List<string> var_grantTokens = value.IsSetGrantTokens() ? value.GrantTokens : (System.Collections.Generic.List<string>) null; return new software.amazon.cryptography.materialproviders.internaldafny.types.CreateAwsKmsMrkDiscoveryMultiKeyringInput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S41_CreateAwsKmsMrkDiscoveryMultiKeyringInput__M7_regions(value.Regions) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S41_CreateAwsKmsMrkDiscoveryMultiKeyringInput__M15_discoveryFilter(var_discoveryFilter) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S41_CreateAwsKmsMrkDiscoveryMultiKeyringInput__M14_clientSupplier(var_clientSupplier) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S41_CreateAwsKmsMrkDiscoveryMultiKeyringInput__M11_grantTokens(var_grantTokens) ) ; } internal static AWS.Cryptography.MaterialProviders.CreateAwsKmsMrkKeyringInput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsMrkKeyringInput (software.amazon.cryptography.materialproviders.internaldafny.types._ICreateAwsKmsMrkKeyringInput value) { software.amazon.cryptography.materialproviders.internaldafny.types.CreateAwsKmsMrkKeyringInput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.CreateAwsKmsMrkKeyringInput)value; AWS.Cryptography.MaterialProviders.CreateAwsKmsMrkKeyringInput converted = new AWS.Cryptography.MaterialProviders.CreateAwsKmsMrkKeyringInput(); converted.KmsKeyId = (string) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsMrkKeyringInput__M8_kmsKeyId(concrete._kmsKeyId); converted.KmsClient = (Amazon.KeyManagementService.IAmazonKeyManagementService) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsMrkKeyringInput__M9_kmsClient(concrete._kmsClient); if (concrete._grantTokens.is_Some) converted.GrantTokens = (System.Collections.Generic.List<string>) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsMrkKeyringInput__M11_grantTokens(concrete._grantTokens); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._ICreateAwsKmsMrkKeyringInput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsMrkKeyringInput (AWS.Cryptography.MaterialProviders.CreateAwsKmsMrkKeyringInput value) { System.Collections.Generic.List<string> var_grantTokens = value.IsSetGrantTokens() ? value.GrantTokens : (System.Collections.Generic.List<string>) null; return new software.amazon.cryptography.materialproviders.internaldafny.types.CreateAwsKmsMrkKeyringInput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsMrkKeyringInput__M8_kmsKeyId(value.KmsKeyId) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsMrkKeyringInput__M9_kmsClient(value.KmsClient) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsMrkKeyringInput__M11_grantTokens(var_grantTokens) ) ; } internal static AWS.Cryptography.MaterialProviders.CreateAwsKmsMrkMultiKeyringInput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S32_CreateAwsKmsMrkMultiKeyringInput (software.amazon.cryptography.materialproviders.internaldafny.types._ICreateAwsKmsMrkMultiKeyringInput value) { software.amazon.cryptography.materialproviders.internaldafny.types.CreateAwsKmsMrkMultiKeyringInput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.CreateAwsKmsMrkMultiKeyringInput)value; AWS.Cryptography.MaterialProviders.CreateAwsKmsMrkMultiKeyringInput converted = new AWS.Cryptography.MaterialProviders.CreateAwsKmsMrkMultiKeyringInput(); if (concrete._generator.is_Some) converted.Generator = (string) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S32_CreateAwsKmsMrkMultiKeyringInput__M9_generator(concrete._generator); if (concrete._kmsKeyIds.is_Some) converted.KmsKeyIds = (System.Collections.Generic.List<string>) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S32_CreateAwsKmsMrkMultiKeyringInput__M9_kmsKeyIds(concrete._kmsKeyIds); if (concrete._clientSupplier.is_Some) converted.ClientSupplier = (AWS.Cryptography.MaterialProviders.IClientSupplier) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S32_CreateAwsKmsMrkMultiKeyringInput__M14_clientSupplier(concrete._clientSupplier); if (concrete._grantTokens.is_Some) converted.GrantTokens = (System.Collections.Generic.List<string>) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S32_CreateAwsKmsMrkMultiKeyringInput__M11_grantTokens(concrete._grantTokens); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._ICreateAwsKmsMrkMultiKeyringInput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S32_CreateAwsKmsMrkMultiKeyringInput (AWS.Cryptography.MaterialProviders.CreateAwsKmsMrkMultiKeyringInput value) { string var_generator = value.IsSetGenerator() ? value.Generator : (string) null; System.Collections.Generic.List<string> var_kmsKeyIds = value.IsSetKmsKeyIds() ? value.KmsKeyIds : (System.Collections.Generic.List<string>) null; AWS.Cryptography.MaterialProviders.IClientSupplier var_clientSupplier = value.IsSetClientSupplier() ? value.ClientSupplier : (AWS.Cryptography.MaterialProviders.IClientSupplier) null; System.Collections.Generic.List<string> var_grantTokens = value.IsSetGrantTokens() ? value.GrantTokens : (System.Collections.Generic.List<string>) null; return new software.amazon.cryptography.materialproviders.internaldafny.types.CreateAwsKmsMrkMultiKeyringInput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S32_CreateAwsKmsMrkMultiKeyringInput__M9_generator(var_generator) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S32_CreateAwsKmsMrkMultiKeyringInput__M9_kmsKeyIds(var_kmsKeyIds) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S32_CreateAwsKmsMrkMultiKeyringInput__M14_clientSupplier(var_clientSupplier) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S32_CreateAwsKmsMrkMultiKeyringInput__M11_grantTokens(var_grantTokens) ) ; } internal static AWS.Cryptography.MaterialProviders.CreateAwsKmsMultiKeyringInput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S29_CreateAwsKmsMultiKeyringInput (software.amazon.cryptography.materialproviders.internaldafny.types._ICreateAwsKmsMultiKeyringInput value) { software.amazon.cryptography.materialproviders.internaldafny.types.CreateAwsKmsMultiKeyringInput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.CreateAwsKmsMultiKeyringInput)value; AWS.Cryptography.MaterialProviders.CreateAwsKmsMultiKeyringInput converted = new AWS.Cryptography.MaterialProviders.CreateAwsKmsMultiKeyringInput(); if (concrete._generator.is_Some) converted.Generator = (string) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S29_CreateAwsKmsMultiKeyringInput__M9_generator(concrete._generator); if (concrete._kmsKeyIds.is_Some) converted.KmsKeyIds = (System.Collections.Generic.List<string>) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S29_CreateAwsKmsMultiKeyringInput__M9_kmsKeyIds(concrete._kmsKeyIds); if (concrete._clientSupplier.is_Some) converted.ClientSupplier = (AWS.Cryptography.MaterialProviders.IClientSupplier) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S29_CreateAwsKmsMultiKeyringInput__M14_clientSupplier(concrete._clientSupplier); if (concrete._grantTokens.is_Some) converted.GrantTokens = (System.Collections.Generic.List<string>) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S29_CreateAwsKmsMultiKeyringInput__M11_grantTokens(concrete._grantTokens); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._ICreateAwsKmsMultiKeyringInput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S29_CreateAwsKmsMultiKeyringInput (AWS.Cryptography.MaterialProviders.CreateAwsKmsMultiKeyringInput value) { string var_generator = value.IsSetGenerator() ? value.Generator : (string) null; System.Collections.Generic.List<string> var_kmsKeyIds = value.IsSetKmsKeyIds() ? value.KmsKeyIds : (System.Collections.Generic.List<string>) null; AWS.Cryptography.MaterialProviders.IClientSupplier var_clientSupplier = value.IsSetClientSupplier() ? value.ClientSupplier : (AWS.Cryptography.MaterialProviders.IClientSupplier) null; System.Collections.Generic.List<string> var_grantTokens = value.IsSetGrantTokens() ? value.GrantTokens : (System.Collections.Generic.List<string>) null; return new software.amazon.cryptography.materialproviders.internaldafny.types.CreateAwsKmsMultiKeyringInput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S29_CreateAwsKmsMultiKeyringInput__M9_generator(var_generator) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S29_CreateAwsKmsMultiKeyringInput__M9_kmsKeyIds(var_kmsKeyIds) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S29_CreateAwsKmsMultiKeyringInput__M14_clientSupplier(var_clientSupplier) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S29_CreateAwsKmsMultiKeyringInput__M11_grantTokens(var_grantTokens) ) ; } internal static AWS.Cryptography.MaterialProviders.CreateAwsKmsRsaKeyringInput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsRsaKeyringInput (software.amazon.cryptography.materialproviders.internaldafny.types._ICreateAwsKmsRsaKeyringInput value) { software.amazon.cryptography.materialproviders.internaldafny.types.CreateAwsKmsRsaKeyringInput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.CreateAwsKmsRsaKeyringInput)value; AWS.Cryptography.MaterialProviders.CreateAwsKmsRsaKeyringInput converted = new AWS.Cryptography.MaterialProviders.CreateAwsKmsRsaKeyringInput(); if (concrete._publicKey.is_Some) converted.PublicKey = (System.IO.MemoryStream) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsRsaKeyringInput__M9_publicKey(concrete._publicKey); converted.KmsKeyId = (string) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsRsaKeyringInput__M8_kmsKeyId(concrete._kmsKeyId); converted.EncryptionAlgorithm = (Amazon.KeyManagementService.EncryptionAlgorithmSpec) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsRsaKeyringInput__M19_encryptionAlgorithm(concrete._encryptionAlgorithm); if (concrete._kmsClient.is_Some) converted.KmsClient = (Amazon.KeyManagementService.IAmazonKeyManagementService) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsRsaKeyringInput__M9_kmsClient(concrete._kmsClient); if (concrete._grantTokens.is_Some) converted.GrantTokens = (System.Collections.Generic.List<string>) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsRsaKeyringInput__M11_grantTokens(concrete._grantTokens); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._ICreateAwsKmsRsaKeyringInput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsRsaKeyringInput (AWS.Cryptography.MaterialProviders.CreateAwsKmsRsaKeyringInput value) { System.IO.MemoryStream var_publicKey = value.IsSetPublicKey() ? value.PublicKey : (System.IO.MemoryStream) null; Amazon.KeyManagementService.IAmazonKeyManagementService var_kmsClient = value.IsSetKmsClient() ? value.KmsClient : (Amazon.KeyManagementService.IAmazonKeyManagementService) null; System.Collections.Generic.List<string> var_grantTokens = value.IsSetGrantTokens() ? value.GrantTokens : (System.Collections.Generic.List<string>) null; return new software.amazon.cryptography.materialproviders.internaldafny.types.CreateAwsKmsRsaKeyringInput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsRsaKeyringInput__M9_publicKey(var_publicKey) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsRsaKeyringInput__M8_kmsKeyId(value.KmsKeyId) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsRsaKeyringInput__M19_encryptionAlgorithm(value.EncryptionAlgorithm) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsRsaKeyringInput__M9_kmsClient(var_kmsClient) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsRsaKeyringInput__M11_grantTokens(var_grantTokens) ) ; } internal static AWS.Cryptography.MaterialProviders.CreateCryptographicMaterialsCacheInput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CreateCryptographicMaterialsCacheInput (software.amazon.cryptography.materialproviders.internaldafny.types._ICreateCryptographicMaterialsCacheInput value) { software.amazon.cryptography.materialproviders.internaldafny.types.CreateCryptographicMaterialsCacheInput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.CreateCryptographicMaterialsCacheInput)value; AWS.Cryptography.MaterialProviders.CreateCryptographicMaterialsCacheInput converted = new AWS.Cryptography.MaterialProviders.CreateCryptographicMaterialsCacheInput(); converted.EntryCapacity = (int) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CreateCryptographicMaterialsCacheInput__M13_entryCapacity(concrete._entryCapacity); if (concrete._entryPruningTailSize.is_Some) converted.EntryPruningTailSize = (int) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CreateCryptographicMaterialsCacheInput__M20_entryPruningTailSize(concrete._entryPruningTailSize); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._ICreateCryptographicMaterialsCacheInput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CreateCryptographicMaterialsCacheInput (AWS.Cryptography.MaterialProviders.CreateCryptographicMaterialsCacheInput value) { int? var_entryPruningTailSize = value.IsSetEntryPruningTailSize() ? value.EntryPruningTailSize : (int?) null; return new software.amazon.cryptography.materialproviders.internaldafny.types.CreateCryptographicMaterialsCacheInput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CreateCryptographicMaterialsCacheInput__M13_entryCapacity(value.EntryCapacity) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CreateCryptographicMaterialsCacheInput__M20_entryPruningTailSize(var_entryPruningTailSize) ) ; } internal static AWS.Cryptography.MaterialProviders.ICryptographicMaterialsCache FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_CreateCryptographicMaterialsCacheOutput (software.amazon.cryptography.materialproviders.internaldafny.types.ICryptographicMaterialsCache value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_CreateCryptographicMaterialsCacheOutput__M14_materialsCache(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types.ICryptographicMaterialsCache ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_CreateCryptographicMaterialsCacheOutput (AWS.Cryptography.MaterialProviders.ICryptographicMaterialsCache value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_CreateCryptographicMaterialsCacheOutput__M14_materialsCache(value); } internal static AWS.Cryptography.MaterialProviders.ICryptographicMaterialsManager FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S41_CreateCryptographicMaterialsManagerOutput (software.amazon.cryptography.materialproviders.internaldafny.types.ICryptographicMaterialsManager value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S41_CreateCryptographicMaterialsManagerOutput__M16_materialsManager(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types.ICryptographicMaterialsManager ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S41_CreateCryptographicMaterialsManagerOutput (AWS.Cryptography.MaterialProviders.ICryptographicMaterialsManager value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S41_CreateCryptographicMaterialsManagerOutput__M16_materialsManager(value); } internal static AWS.Cryptography.MaterialProviders.CreateDefaultClientSupplierInput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S32_CreateDefaultClientSupplierInput (software.amazon.cryptography.materialproviders.internaldafny.types._ICreateDefaultClientSupplierInput value) { software.amazon.cryptography.materialproviders.internaldafny.types.CreateDefaultClientSupplierInput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.CreateDefaultClientSupplierInput)value; AWS.Cryptography.MaterialProviders.CreateDefaultClientSupplierInput converted = new AWS.Cryptography.MaterialProviders.CreateDefaultClientSupplierInput(); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._ICreateDefaultClientSupplierInput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S32_CreateDefaultClientSupplierInput (AWS.Cryptography.MaterialProviders.CreateDefaultClientSupplierInput value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.CreateDefaultClientSupplierInput ( ) ; } internal static AWS.Cryptography.MaterialProviders.IClientSupplier FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S33_CreateDefaultClientSupplierOutput (software.amazon.cryptography.materialproviders.internaldafny.types.IClientSupplier value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S33_CreateDefaultClientSupplierOutput__M6_client(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types.IClientSupplier ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S33_CreateDefaultClientSupplierOutput (AWS.Cryptography.MaterialProviders.IClientSupplier value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S33_CreateDefaultClientSupplierOutput__M6_client(value); } internal static AWS.Cryptography.MaterialProviders.CreateDefaultCryptographicMaterialsManagerInput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S47_CreateDefaultCryptographicMaterialsManagerInput (software.amazon.cryptography.materialproviders.internaldafny.types._ICreateDefaultCryptographicMaterialsManagerInput value) { software.amazon.cryptography.materialproviders.internaldafny.types.CreateDefaultCryptographicMaterialsManagerInput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.CreateDefaultCryptographicMaterialsManagerInput)value; AWS.Cryptography.MaterialProviders.CreateDefaultCryptographicMaterialsManagerInput converted = new AWS.Cryptography.MaterialProviders.CreateDefaultCryptographicMaterialsManagerInput(); converted.Keyring = (AWS.Cryptography.MaterialProviders.IKeyring) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S47_CreateDefaultCryptographicMaterialsManagerInput__M7_keyring(concrete._keyring); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._ICreateDefaultCryptographicMaterialsManagerInput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S47_CreateDefaultCryptographicMaterialsManagerInput (AWS.Cryptography.MaterialProviders.CreateDefaultCryptographicMaterialsManagerInput value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.CreateDefaultCryptographicMaterialsManagerInput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S47_CreateDefaultCryptographicMaterialsManagerInput__M7_keyring(value.Keyring) ) ; } internal static AWS.Cryptography.MaterialProviders.CreateRequiredEncryptionContextCMMInput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_CreateRequiredEncryptionContextCMMInput (software.amazon.cryptography.materialproviders.internaldafny.types._ICreateRequiredEncryptionContextCMMInput value) { software.amazon.cryptography.materialproviders.internaldafny.types.CreateRequiredEncryptionContextCMMInput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.CreateRequiredEncryptionContextCMMInput)value; AWS.Cryptography.MaterialProviders.CreateRequiredEncryptionContextCMMInput converted = new AWS.Cryptography.MaterialProviders.CreateRequiredEncryptionContextCMMInput(); if (concrete._underlyingCMM.is_Some) converted.UnderlyingCMM = (AWS.Cryptography.MaterialProviders.ICryptographicMaterialsManager) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_CreateRequiredEncryptionContextCMMInput__M13_underlyingCMM(concrete._underlyingCMM); if (concrete._keyring.is_Some) converted.Keyring = (AWS.Cryptography.MaterialProviders.IKeyring) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_CreateRequiredEncryptionContextCMMInput__M7_keyring(concrete._keyring); converted.RequiredEncryptionContextKeys = (System.Collections.Generic.List<string>) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_CreateRequiredEncryptionContextCMMInput__M29_requiredEncryptionContextKeys(concrete._requiredEncryptionContextKeys); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._ICreateRequiredEncryptionContextCMMInput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_CreateRequiredEncryptionContextCMMInput (AWS.Cryptography.MaterialProviders.CreateRequiredEncryptionContextCMMInput value) { AWS.Cryptography.MaterialProviders.ICryptographicMaterialsManager var_underlyingCMM = value.IsSetUnderlyingCMM() ? value.UnderlyingCMM : (AWS.Cryptography.MaterialProviders.ICryptographicMaterialsManager) null; AWS.Cryptography.MaterialProviders.IKeyring var_keyring = value.IsSetKeyring() ? value.Keyring : (AWS.Cryptography.MaterialProviders.IKeyring) null; return new software.amazon.cryptography.materialproviders.internaldafny.types.CreateRequiredEncryptionContextCMMInput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_CreateRequiredEncryptionContextCMMInput__M13_underlyingCMM(var_underlyingCMM) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_CreateRequiredEncryptionContextCMMInput__M7_keyring(var_keyring) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_CreateRequiredEncryptionContextCMMInput__M29_requiredEncryptionContextKeys(value.RequiredEncryptionContextKeys) ) ; } internal static AWS.Cryptography.MaterialProviders.ICryptographicMaterialsManager FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S40_CreateRequiredEncryptionContextCMMOutput (software.amazon.cryptography.materialproviders.internaldafny.types.ICryptographicMaterialsManager value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S40_CreateRequiredEncryptionContextCMMOutput__M16_materialsManager(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types.ICryptographicMaterialsManager ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S40_CreateRequiredEncryptionContextCMMOutput (AWS.Cryptography.MaterialProviders.ICryptographicMaterialsManager value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S40_CreateRequiredEncryptionContextCMMOutput__M16_materialsManager(value); } internal static AWS.Cryptography.MaterialProviders.IKeyring FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_CreateKeyringOutput (software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_CreateKeyringOutput__M7_keyring(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_CreateKeyringOutput (AWS.Cryptography.MaterialProviders.IKeyring value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_CreateKeyringOutput__M7_keyring(value); } internal static AWS.Cryptography.MaterialProviders.CreateMultiKeyringInput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_CreateMultiKeyringInput (software.amazon.cryptography.materialproviders.internaldafny.types._ICreateMultiKeyringInput value) { software.amazon.cryptography.materialproviders.internaldafny.types.CreateMultiKeyringInput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.CreateMultiKeyringInput)value; AWS.Cryptography.MaterialProviders.CreateMultiKeyringInput converted = new AWS.Cryptography.MaterialProviders.CreateMultiKeyringInput(); if (concrete._generator.is_Some) converted.Generator = (AWS.Cryptography.MaterialProviders.IKeyring) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_CreateMultiKeyringInput__M9_generator(concrete._generator); converted.ChildKeyrings = (System.Collections.Generic.List<AWS.Cryptography.MaterialProviders.IKeyring>) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_CreateMultiKeyringInput__M13_childKeyrings(concrete._childKeyrings); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._ICreateMultiKeyringInput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_CreateMultiKeyringInput (AWS.Cryptography.MaterialProviders.CreateMultiKeyringInput value) { AWS.Cryptography.MaterialProviders.IKeyring var_generator = value.IsSetGenerator() ? value.Generator : (AWS.Cryptography.MaterialProviders.IKeyring) null; return new software.amazon.cryptography.materialproviders.internaldafny.types.CreateMultiKeyringInput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_CreateMultiKeyringInput__M9_generator(var_generator) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_CreateMultiKeyringInput__M13_childKeyrings(value.ChildKeyrings) ) ; } internal static AWS.Cryptography.MaterialProviders.CreateRawAesKeyringInput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawAesKeyringInput (software.amazon.cryptography.materialproviders.internaldafny.types._ICreateRawAesKeyringInput value) { software.amazon.cryptography.materialproviders.internaldafny.types.CreateRawAesKeyringInput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.CreateRawAesKeyringInput)value; AWS.Cryptography.MaterialProviders.CreateRawAesKeyringInput converted = new AWS.Cryptography.MaterialProviders.CreateRawAesKeyringInput(); converted.KeyNamespace = (string) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawAesKeyringInput__M12_keyNamespace(concrete._keyNamespace); converted.KeyName = (string) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawAesKeyringInput__M7_keyName(concrete._keyName); converted.WrappingKey = (System.IO.MemoryStream) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawAesKeyringInput__M11_wrappingKey(concrete._wrappingKey); converted.WrappingAlg = (AWS.Cryptography.MaterialProviders.AesWrappingAlg) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawAesKeyringInput__M11_wrappingAlg(concrete._wrappingAlg); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._ICreateRawAesKeyringInput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawAesKeyringInput (AWS.Cryptography.MaterialProviders.CreateRawAesKeyringInput value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.CreateRawAesKeyringInput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawAesKeyringInput__M12_keyNamespace(value.KeyNamespace) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawAesKeyringInput__M7_keyName(value.KeyName) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawAesKeyringInput__M11_wrappingKey(value.WrappingKey) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawAesKeyringInput__M11_wrappingAlg(value.WrappingAlg) ) ; } internal static AWS.Cryptography.MaterialProviders.CreateRawRsaKeyringInput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawRsaKeyringInput (software.amazon.cryptography.materialproviders.internaldafny.types._ICreateRawRsaKeyringInput value) { software.amazon.cryptography.materialproviders.internaldafny.types.CreateRawRsaKeyringInput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.CreateRawRsaKeyringInput)value; AWS.Cryptography.MaterialProviders.CreateRawRsaKeyringInput converted = new AWS.Cryptography.MaterialProviders.CreateRawRsaKeyringInput(); converted.KeyNamespace = (string) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawRsaKeyringInput__M12_keyNamespace(concrete._keyNamespace); converted.KeyName = (string) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawRsaKeyringInput__M7_keyName(concrete._keyName); converted.PaddingScheme = (AWS.Cryptography.MaterialProviders.PaddingScheme) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawRsaKeyringInput__M13_paddingScheme(concrete._paddingScheme); if (concrete._publicKey.is_Some) converted.PublicKey = (System.IO.MemoryStream) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawRsaKeyringInput__M9_publicKey(concrete._publicKey); if (concrete._privateKey.is_Some) converted.PrivateKey = (System.IO.MemoryStream) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawRsaKeyringInput__M10_privateKey(concrete._privateKey); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._ICreateRawRsaKeyringInput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawRsaKeyringInput (AWS.Cryptography.MaterialProviders.CreateRawRsaKeyringInput value) { System.IO.MemoryStream var_publicKey = value.IsSetPublicKey() ? value.PublicKey : (System.IO.MemoryStream) null; System.IO.MemoryStream var_privateKey = value.IsSetPrivateKey() ? value.PrivateKey : (System.IO.MemoryStream) null; return new software.amazon.cryptography.materialproviders.internaldafny.types.CreateRawRsaKeyringInput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawRsaKeyringInput__M12_keyNamespace(value.KeyNamespace) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawRsaKeyringInput__M7_keyName(value.KeyName) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawRsaKeyringInput__M13_paddingScheme(value.PaddingScheme) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawRsaKeyringInput__M9_publicKey(var_publicKey) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawRsaKeyringInput__M10_privateKey(var_privateKey) ) ; } internal static AWS.Cryptography.MaterialProviders.DBEAlgorithmSuiteId FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DBEAlgorithmSuiteId (software.amazon.cryptography.materialproviders.internaldafny.types._IDBEAlgorithmSuiteId value) { if (value.is_ALG__AES__256__GCM__HKDF__SHA512__COMMIT__KEY__SYMSIG__HMAC__SHA384) return AWS.Cryptography.MaterialProviders.DBEAlgorithmSuiteId.ALG_AES_256_GCM_HKDF_SHA512_COMMIT_KEY_SYMSIG_HMAC_SHA384; if (value.is_ALG__AES__256__GCM__HKDF__SHA512__COMMIT__KEY__ECDSA__P384__SYMSIG__HMAC__SHA384) return AWS.Cryptography.MaterialProviders.DBEAlgorithmSuiteId.ALG_AES_256_GCM_HKDF_SHA512_COMMIT_KEY_ECDSA_P384_SYMSIG_HMAC_SHA384; throw new System.ArgumentException("Invalid AWS.Cryptography.MaterialProviders.DBEAlgorithmSuiteId value"); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IDBEAlgorithmSuiteId ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DBEAlgorithmSuiteId (AWS.Cryptography.MaterialProviders.DBEAlgorithmSuiteId value) { if (AWS.Cryptography.MaterialProviders.DBEAlgorithmSuiteId.ALG_AES_256_GCM_HKDF_SHA512_COMMIT_KEY_SYMSIG_HMAC_SHA384.Equals(value)) return software.amazon.cryptography.materialproviders.internaldafny.types.DBEAlgorithmSuiteId.create_ALG__AES__256__GCM__HKDF__SHA512__COMMIT__KEY__SYMSIG__HMAC__SHA384(); if (AWS.Cryptography.MaterialProviders.DBEAlgorithmSuiteId.ALG_AES_256_GCM_HKDF_SHA512_COMMIT_KEY_ECDSA_P384_SYMSIG_HMAC_SHA384.Equals(value)) return software.amazon.cryptography.materialproviders.internaldafny.types.DBEAlgorithmSuiteId.create_ALG__AES__256__GCM__HKDF__SHA512__COMMIT__KEY__ECDSA__P384__SYMSIG__HMAC__SHA384(); throw new System.ArgumentException("Invalid AWS.Cryptography.MaterialProviders.DBEAlgorithmSuiteId value"); } internal static AWS.Cryptography.MaterialProviders.DBECommitmentPolicy FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DBECommitmentPolicy (software.amazon.cryptography.materialproviders.internaldafny.types._IDBECommitmentPolicy value) { if (value.is_REQUIRE__ENCRYPT__REQUIRE__DECRYPT) return AWS.Cryptography.MaterialProviders.DBECommitmentPolicy.REQUIRE_ENCRYPT_REQUIRE_DECRYPT; throw new System.ArgumentException("Invalid AWS.Cryptography.MaterialProviders.DBECommitmentPolicy value"); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IDBECommitmentPolicy ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DBECommitmentPolicy (AWS.Cryptography.MaterialProviders.DBECommitmentPolicy value) { if (AWS.Cryptography.MaterialProviders.DBECommitmentPolicy.REQUIRE_ENCRYPT_REQUIRE_DECRYPT.Equals(value)) return software.amazon.cryptography.materialproviders.internaldafny.types.DBECommitmentPolicy.create(); throw new System.ArgumentException("Invalid AWS.Cryptography.MaterialProviders.DBECommitmentPolicy value"); } internal static AWS.Cryptography.MaterialProviders.DecryptionMaterials FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials (software.amazon.cryptography.materialproviders.internaldafny.types._IDecryptionMaterials value) { software.amazon.cryptography.materialproviders.internaldafny.types.DecryptionMaterials concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.DecryptionMaterials)value; AWS.Cryptography.MaterialProviders.DecryptionMaterials converted = new AWS.Cryptography.MaterialProviders.DecryptionMaterials(); converted.AlgorithmSuite = (AWS.Cryptography.MaterialProviders.AlgorithmSuiteInfo) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials__M14_algorithmSuite(concrete._algorithmSuite); converted.EncryptionContext = (System.Collections.Generic.Dictionary<string, string>) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials__M17_encryptionContext(concrete._encryptionContext); converted.RequiredEncryptionContextKeys = (System.Collections.Generic.List<string>) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials__M29_requiredEncryptionContextKeys(concrete._requiredEncryptionContextKeys); if (concrete._plaintextDataKey.is_Some) converted.PlaintextDataKey = (System.IO.MemoryStream) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials__M16_plaintextDataKey(concrete._plaintextDataKey); if (concrete._verificationKey.is_Some) converted.VerificationKey = (System.IO.MemoryStream) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials__M15_verificationKey(concrete._verificationKey); if (concrete._symmetricSigningKey.is_Some) converted.SymmetricSigningKey = (System.IO.MemoryStream) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials__M19_symmetricSigningKey(concrete._symmetricSigningKey); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IDecryptionMaterials ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials (AWS.Cryptography.MaterialProviders.DecryptionMaterials value) { System.IO.MemoryStream var_plaintextDataKey = value.IsSetPlaintextDataKey() ? value.PlaintextDataKey : (System.IO.MemoryStream) null; System.IO.MemoryStream var_verificationKey = value.IsSetVerificationKey() ? value.VerificationKey : (System.IO.MemoryStream) null; System.IO.MemoryStream var_symmetricSigningKey = value.IsSetSymmetricSigningKey() ? value.SymmetricSigningKey : (System.IO.MemoryStream) null; return new software.amazon.cryptography.materialproviders.internaldafny.types.DecryptionMaterials ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials__M14_algorithmSuite(value.AlgorithmSuite) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials__M17_encryptionContext(value.EncryptionContext) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials__M29_requiredEncryptionContextKeys(value.RequiredEncryptionContextKeys) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials__M16_plaintextDataKey(var_plaintextDataKey) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials__M15_verificationKey(var_verificationKey) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials__M19_symmetricSigningKey(var_symmetricSigningKey) ) ; } internal static AWS.Cryptography.MaterialProviders.DecryptMaterialsInput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_DecryptMaterialsInput (software.amazon.cryptography.materialproviders.internaldafny.types._IDecryptMaterialsInput value) { software.amazon.cryptography.materialproviders.internaldafny.types.DecryptMaterialsInput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.DecryptMaterialsInput)value; AWS.Cryptography.MaterialProviders.DecryptMaterialsInput converted = new AWS.Cryptography.MaterialProviders.DecryptMaterialsInput(); converted.AlgorithmSuiteId = (AWS.Cryptography.MaterialProviders.AlgorithmSuiteId) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_DecryptMaterialsInput__M16_algorithmSuiteId(concrete._algorithmSuiteId); converted.CommitmentPolicy = (AWS.Cryptography.MaterialProviders.CommitmentPolicy) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_DecryptMaterialsInput__M16_commitmentPolicy(concrete._commitmentPolicy); converted.EncryptedDataKeys = (System.Collections.Generic.List<AWS.Cryptography.MaterialProviders.EncryptedDataKey>) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_DecryptMaterialsInput__M17_encryptedDataKeys(concrete._encryptedDataKeys); converted.EncryptionContext = (System.Collections.Generic.Dictionary<string, string>) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_DecryptMaterialsInput__M17_encryptionContext(concrete._encryptionContext); if (concrete._reproducedEncryptionContext.is_Some) converted.ReproducedEncryptionContext = (System.Collections.Generic.Dictionary<string, string>) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_DecryptMaterialsInput__M27_reproducedEncryptionContext(concrete._reproducedEncryptionContext); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IDecryptMaterialsInput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_DecryptMaterialsInput (AWS.Cryptography.MaterialProviders.DecryptMaterialsInput value) { System.Collections.Generic.Dictionary<string, string> var_reproducedEncryptionContext = value.IsSetReproducedEncryptionContext() ? value.ReproducedEncryptionContext : (System.Collections.Generic.Dictionary<string, string>) null; return new software.amazon.cryptography.materialproviders.internaldafny.types.DecryptMaterialsInput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_DecryptMaterialsInput__M16_algorithmSuiteId(value.AlgorithmSuiteId) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_DecryptMaterialsInput__M16_commitmentPolicy(value.CommitmentPolicy) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_DecryptMaterialsInput__M17_encryptedDataKeys(value.EncryptedDataKeys) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_DecryptMaterialsInput__M17_encryptionContext(value.EncryptionContext) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_DecryptMaterialsInput__M27_reproducedEncryptionContext(var_reproducedEncryptionContext) ) ; } internal static AWS.Cryptography.MaterialProviders.DecryptMaterialsOutput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S22_DecryptMaterialsOutput (software.amazon.cryptography.materialproviders.internaldafny.types._IDecryptMaterialsOutput value) { software.amazon.cryptography.materialproviders.internaldafny.types.DecryptMaterialsOutput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.DecryptMaterialsOutput)value; AWS.Cryptography.MaterialProviders.DecryptMaterialsOutput converted = new AWS.Cryptography.MaterialProviders.DecryptMaterialsOutput(); converted.DecryptionMaterials = (AWS.Cryptography.MaterialProviders.DecryptionMaterials) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S22_DecryptMaterialsOutput__M19_decryptionMaterials(concrete._decryptionMaterials); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IDecryptMaterialsOutput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S22_DecryptMaterialsOutput (AWS.Cryptography.MaterialProviders.DecryptMaterialsOutput value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.DecryptMaterialsOutput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S22_DecryptMaterialsOutput__M19_decryptionMaterials(value.DecryptionMaterials) ) ; } internal static AWS.Cryptography.MaterialProviders.DeleteCacheEntryInput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_DeleteCacheEntryInput (software.amazon.cryptography.materialproviders.internaldafny.types._IDeleteCacheEntryInput value) { software.amazon.cryptography.materialproviders.internaldafny.types.DeleteCacheEntryInput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.DeleteCacheEntryInput)value; AWS.Cryptography.MaterialProviders.DeleteCacheEntryInput converted = new AWS.Cryptography.MaterialProviders.DeleteCacheEntryInput(); converted.Identifier = (System.IO.MemoryStream) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_DeleteCacheEntryInput__M10_identifier(concrete._identifier); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IDeleteCacheEntryInput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_DeleteCacheEntryInput (AWS.Cryptography.MaterialProviders.DeleteCacheEntryInput value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.DeleteCacheEntryInput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_DeleteCacheEntryInput__M10_identifier(value.Identifier) ) ; } internal static AWS.Cryptography.MaterialProviders.DerivationAlgorithm FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DerivationAlgorithm (software.amazon.cryptography.materialproviders.internaldafny.types._IDerivationAlgorithm value) { software.amazon.cryptography.materialproviders.internaldafny.types.DerivationAlgorithm concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.DerivationAlgorithm)value; var converted = new AWS.Cryptography.MaterialProviders.DerivationAlgorithm(); if (value.is_HKDF) { converted.HKDF = FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DerivationAlgorithm__M4_HKDF(concrete.dtor_HKDF); return converted; } if (value.is_IDENTITY) { converted.IDENTITY = FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DerivationAlgorithm__M8_IDENTITY(concrete.dtor_IDENTITY); return converted; } if (value.is_None) { converted.None = FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DerivationAlgorithm__M4_None(concrete.dtor_None); return converted; } throw new System.ArgumentException("Invalid AWS.Cryptography.MaterialProviders.DerivationAlgorithm state"); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IDerivationAlgorithm ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DerivationAlgorithm (AWS.Cryptography.MaterialProviders.DerivationAlgorithm value) { if (value.IsSetHKDF()) { return software.amazon.cryptography.materialproviders.internaldafny.types.DerivationAlgorithm.create_HKDF(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DerivationAlgorithm__M4_HKDF(value.HKDF)); } if (value.IsSetIDENTITY()) { return software.amazon.cryptography.materialproviders.internaldafny.types.DerivationAlgorithm.create_IDENTITY(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DerivationAlgorithm__M8_IDENTITY(value.IDENTITY)); } if (value.IsSetNone()) { return software.amazon.cryptography.materialproviders.internaldafny.types.DerivationAlgorithm.create_None(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DerivationAlgorithm__M4_None(value.None)); } throw new System.ArgumentException("Invalid AWS.Cryptography.MaterialProviders.DerivationAlgorithm state"); } internal static AWS.Cryptography.MaterialProviders.EdkWrappingAlgorithm FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_EdkWrappingAlgorithm (software.amazon.cryptography.materialproviders.internaldafny.types._IEdkWrappingAlgorithm value) { software.amazon.cryptography.materialproviders.internaldafny.types.EdkWrappingAlgorithm concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.EdkWrappingAlgorithm)value; var converted = new AWS.Cryptography.MaterialProviders.EdkWrappingAlgorithm(); if (value.is_DIRECT__KEY__WRAPPING) { converted.DIRECT__KEY__WRAPPING = FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_EdkWrappingAlgorithm__M19_DIRECT_KEY_WRAPPING(concrete.dtor_DIRECT__KEY__WRAPPING); return converted; } if (value.is_IntermediateKeyWrapping) { converted.IntermediateKeyWrapping = FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_EdkWrappingAlgorithm__M23_IntermediateKeyWrapping(concrete.dtor_IntermediateKeyWrapping); return converted; } throw new System.ArgumentException("Invalid AWS.Cryptography.MaterialProviders.EdkWrappingAlgorithm state"); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IEdkWrappingAlgorithm ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_EdkWrappingAlgorithm (AWS.Cryptography.MaterialProviders.EdkWrappingAlgorithm value) { if (value.IsSetDIRECT__KEY__WRAPPING()) { return software.amazon.cryptography.materialproviders.internaldafny.types.EdkWrappingAlgorithm.create_DIRECT__KEY__WRAPPING(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_EdkWrappingAlgorithm__M19_DIRECT_KEY_WRAPPING(value.DIRECT__KEY__WRAPPING)); } if (value.IsSetIntermediateKeyWrapping()) { return software.amazon.cryptography.materialproviders.internaldafny.types.EdkWrappingAlgorithm.create_IntermediateKeyWrapping(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_EdkWrappingAlgorithm__M23_IntermediateKeyWrapping(value.IntermediateKeyWrapping)); } throw new System.ArgumentException("Invalid AWS.Cryptography.MaterialProviders.EdkWrappingAlgorithm state"); } internal static AWS.Cryptography.MaterialProviders.Encrypt FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S7_Encrypt (software.amazon.cryptography.materialproviders.internaldafny.types._IEncrypt value) { software.amazon.cryptography.materialproviders.internaldafny.types.Encrypt concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.Encrypt)value; var converted = new AWS.Cryptography.MaterialProviders.Encrypt(); if (value.is_AES__GCM) { converted.AES__GCM = FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S7_Encrypt__M7_AES_GCM(concrete.dtor_AES__GCM); return converted; } throw new System.ArgumentException("Invalid AWS.Cryptography.MaterialProviders.Encrypt state"); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IEncrypt ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S7_Encrypt (AWS.Cryptography.MaterialProviders.Encrypt value) { if (value.IsSetAES__GCM()) { return software.amazon.cryptography.materialproviders.internaldafny.types.Encrypt.create(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S7_Encrypt__M7_AES_GCM(value.AES__GCM)); } throw new System.ArgumentException("Invalid AWS.Cryptography.MaterialProviders.Encrypt state"); } internal static AWS.Cryptography.MaterialProviders.EncryptionMaterials FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials (software.amazon.cryptography.materialproviders.internaldafny.types._IEncryptionMaterials value) { software.amazon.cryptography.materialproviders.internaldafny.types.EncryptionMaterials concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.EncryptionMaterials)value; AWS.Cryptography.MaterialProviders.EncryptionMaterials converted = new AWS.Cryptography.MaterialProviders.EncryptionMaterials(); converted.AlgorithmSuite = (AWS.Cryptography.MaterialProviders.AlgorithmSuiteInfo) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials__M14_algorithmSuite(concrete._algorithmSuite); converted.EncryptionContext = (System.Collections.Generic.Dictionary<string, string>) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials__M17_encryptionContext(concrete._encryptionContext); converted.EncryptedDataKeys = (System.Collections.Generic.List<AWS.Cryptography.MaterialProviders.EncryptedDataKey>) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials__M17_encryptedDataKeys(concrete._encryptedDataKeys); converted.RequiredEncryptionContextKeys = (System.Collections.Generic.List<string>) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials__M29_requiredEncryptionContextKeys(concrete._requiredEncryptionContextKeys); if (concrete._plaintextDataKey.is_Some) converted.PlaintextDataKey = (System.IO.MemoryStream) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials__M16_plaintextDataKey(concrete._plaintextDataKey); if (concrete._signingKey.is_Some) converted.SigningKey = (System.IO.MemoryStream) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials__M10_signingKey(concrete._signingKey); if (concrete._symmetricSigningKeys.is_Some) converted.SymmetricSigningKeys = (System.Collections.Generic.List<System.IO.MemoryStream>) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials__M20_symmetricSigningKeys(concrete._symmetricSigningKeys); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IEncryptionMaterials ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials (AWS.Cryptography.MaterialProviders.EncryptionMaterials value) { System.IO.MemoryStream var_plaintextDataKey = value.IsSetPlaintextDataKey() ? value.PlaintextDataKey : (System.IO.MemoryStream) null; System.IO.MemoryStream var_signingKey = value.IsSetSigningKey() ? value.SigningKey : (System.IO.MemoryStream) null; System.Collections.Generic.List<System.IO.MemoryStream> var_symmetricSigningKeys = value.IsSetSymmetricSigningKeys() ? value.SymmetricSigningKeys : (System.Collections.Generic.List<System.IO.MemoryStream>) null; return new software.amazon.cryptography.materialproviders.internaldafny.types.EncryptionMaterials ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials__M14_algorithmSuite(value.AlgorithmSuite) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials__M17_encryptionContext(value.EncryptionContext) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials__M17_encryptedDataKeys(value.EncryptedDataKeys) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials__M29_requiredEncryptionContextKeys(value.RequiredEncryptionContextKeys) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials__M16_plaintextDataKey(var_plaintextDataKey) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials__M10_signingKey(var_signingKey) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials__M20_symmetricSigningKeys(var_symmetricSigningKeys) ) ; } internal static AWS.Cryptography.MaterialProviders.EntryAlreadyExists FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_EntryAlreadyExists (software.amazon.cryptography.materialproviders.internaldafny.types.Error_EntryAlreadyExists value) { return new AWS.Cryptography.MaterialProviders.EntryAlreadyExists ( FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_EntryAlreadyExists__M7_message(value._message) ) ; } internal static software.amazon.cryptography.materialproviders.internaldafny.types.Error_EntryAlreadyExists ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_EntryAlreadyExists (AWS.Cryptography.MaterialProviders.EntryAlreadyExists value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.Error_EntryAlreadyExists ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_EntryAlreadyExists__M7_message(value.Message) ) ; } internal static AWS.Cryptography.MaterialProviders.EntryDoesNotExist FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_EntryDoesNotExist (software.amazon.cryptography.materialproviders.internaldafny.types.Error_EntryDoesNotExist value) { return new AWS.Cryptography.MaterialProviders.EntryDoesNotExist ( FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_EntryDoesNotExist__M7_message(value._message) ) ; } internal static software.amazon.cryptography.materialproviders.internaldafny.types.Error_EntryDoesNotExist ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_EntryDoesNotExist (AWS.Cryptography.MaterialProviders.EntryDoesNotExist value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.Error_EntryDoesNotExist ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_EntryDoesNotExist__M7_message(value.Message) ) ; } internal static AWS.Cryptography.MaterialProviders.ESDKAlgorithmSuiteId FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_ESDKAlgorithmSuiteId (software.amazon.cryptography.materialproviders.internaldafny.types._IESDKAlgorithmSuiteId value) { if (value.is_ALG__AES__128__GCM__IV12__TAG16__NO__KDF) return AWS.Cryptography.MaterialProviders.ESDKAlgorithmSuiteId.ALG_AES_128_GCM_IV12_TAG16_NO_KDF; if (value.is_ALG__AES__192__GCM__IV12__TAG16__NO__KDF) return AWS.Cryptography.MaterialProviders.ESDKAlgorithmSuiteId.ALG_AES_192_GCM_IV12_TAG16_NO_KDF; if (value.is_ALG__AES__256__GCM__IV12__TAG16__NO__KDF) return AWS.Cryptography.MaterialProviders.ESDKAlgorithmSuiteId.ALG_AES_256_GCM_IV12_TAG16_NO_KDF; if (value.is_ALG__AES__128__GCM__IV12__TAG16__HKDF__SHA256) return AWS.Cryptography.MaterialProviders.ESDKAlgorithmSuiteId.ALG_AES_128_GCM_IV12_TAG16_HKDF_SHA256; if (value.is_ALG__AES__192__GCM__IV12__TAG16__HKDF__SHA256) return AWS.Cryptography.MaterialProviders.ESDKAlgorithmSuiteId.ALG_AES_192_GCM_IV12_TAG16_HKDF_SHA256; if (value.is_ALG__AES__256__GCM__IV12__TAG16__HKDF__SHA256) return AWS.Cryptography.MaterialProviders.ESDKAlgorithmSuiteId.ALG_AES_256_GCM_IV12_TAG16_HKDF_SHA256; if (value.is_ALG__AES__128__GCM__IV12__TAG16__HKDF__SHA256__ECDSA__P256) return AWS.Cryptography.MaterialProviders.ESDKAlgorithmSuiteId.ALG_AES_128_GCM_IV12_TAG16_HKDF_SHA256_ECDSA_P256; if (value.is_ALG__AES__192__GCM__IV12__TAG16__HKDF__SHA384__ECDSA__P384) return AWS.Cryptography.MaterialProviders.ESDKAlgorithmSuiteId.ALG_AES_192_GCM_IV12_TAG16_HKDF_SHA384_ECDSA_P384; if (value.is_ALG__AES__256__GCM__IV12__TAG16__HKDF__SHA384__ECDSA__P384) return AWS.Cryptography.MaterialProviders.ESDKAlgorithmSuiteId.ALG_AES_256_GCM_IV12_TAG16_HKDF_SHA384_ECDSA_P384; if (value.is_ALG__AES__256__GCM__HKDF__SHA512__COMMIT__KEY) return AWS.Cryptography.MaterialProviders.ESDKAlgorithmSuiteId.ALG_AES_256_GCM_HKDF_SHA512_COMMIT_KEY; if (value.is_ALG__AES__256__GCM__HKDF__SHA512__COMMIT__KEY__ECDSA__P384) return AWS.Cryptography.MaterialProviders.ESDKAlgorithmSuiteId.ALG_AES_256_GCM_HKDF_SHA512_COMMIT_KEY_ECDSA_P384; throw new System.ArgumentException("Invalid AWS.Cryptography.MaterialProviders.ESDKAlgorithmSuiteId value"); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IESDKAlgorithmSuiteId ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_ESDKAlgorithmSuiteId (AWS.Cryptography.MaterialProviders.ESDKAlgorithmSuiteId value) { if (AWS.Cryptography.MaterialProviders.ESDKAlgorithmSuiteId.ALG_AES_128_GCM_IV12_TAG16_NO_KDF.Equals(value)) return software.amazon.cryptography.materialproviders.internaldafny.types.ESDKAlgorithmSuiteId.create_ALG__AES__128__GCM__IV12__TAG16__NO__KDF(); if (AWS.Cryptography.MaterialProviders.ESDKAlgorithmSuiteId.ALG_AES_192_GCM_IV12_TAG16_NO_KDF.Equals(value)) return software.amazon.cryptography.materialproviders.internaldafny.types.ESDKAlgorithmSuiteId.create_ALG__AES__192__GCM__IV12__TAG16__NO__KDF(); if (AWS.Cryptography.MaterialProviders.ESDKAlgorithmSuiteId.ALG_AES_256_GCM_IV12_TAG16_NO_KDF.Equals(value)) return software.amazon.cryptography.materialproviders.internaldafny.types.ESDKAlgorithmSuiteId.create_ALG__AES__256__GCM__IV12__TAG16__NO__KDF(); if (AWS.Cryptography.MaterialProviders.ESDKAlgorithmSuiteId.ALG_AES_128_GCM_IV12_TAG16_HKDF_SHA256.Equals(value)) return software.amazon.cryptography.materialproviders.internaldafny.types.ESDKAlgorithmSuiteId.create_ALG__AES__128__GCM__IV12__TAG16__HKDF__SHA256(); if (AWS.Cryptography.MaterialProviders.ESDKAlgorithmSuiteId.ALG_AES_192_GCM_IV12_TAG16_HKDF_SHA256.Equals(value)) return software.amazon.cryptography.materialproviders.internaldafny.types.ESDKAlgorithmSuiteId.create_ALG__AES__192__GCM__IV12__TAG16__HKDF__SHA256(); if (AWS.Cryptography.MaterialProviders.ESDKAlgorithmSuiteId.ALG_AES_256_GCM_IV12_TAG16_HKDF_SHA256.Equals(value)) return software.amazon.cryptography.materialproviders.internaldafny.types.ESDKAlgorithmSuiteId.create_ALG__AES__256__GCM__IV12__TAG16__HKDF__SHA256(); if (AWS.Cryptography.MaterialProviders.ESDKAlgorithmSuiteId.ALG_AES_128_GCM_IV12_TAG16_HKDF_SHA256_ECDSA_P256.Equals(value)) return software.amazon.cryptography.materialproviders.internaldafny.types.ESDKAlgorithmSuiteId.create_ALG__AES__128__GCM__IV12__TAG16__HKDF__SHA256__ECDSA__P256(); if (AWS.Cryptography.MaterialProviders.ESDKAlgorithmSuiteId.ALG_AES_192_GCM_IV12_TAG16_HKDF_SHA384_ECDSA_P384.Equals(value)) return software.amazon.cryptography.materialproviders.internaldafny.types.ESDKAlgorithmSuiteId.create_ALG__AES__192__GCM__IV12__TAG16__HKDF__SHA384__ECDSA__P384(); if (AWS.Cryptography.MaterialProviders.ESDKAlgorithmSuiteId.ALG_AES_256_GCM_IV12_TAG16_HKDF_SHA384_ECDSA_P384.Equals(value)) return software.amazon.cryptography.materialproviders.internaldafny.types.ESDKAlgorithmSuiteId.create_ALG__AES__256__GCM__IV12__TAG16__HKDF__SHA384__ECDSA__P384(); if (AWS.Cryptography.MaterialProviders.ESDKAlgorithmSuiteId.ALG_AES_256_GCM_HKDF_SHA512_COMMIT_KEY.Equals(value)) return software.amazon.cryptography.materialproviders.internaldafny.types.ESDKAlgorithmSuiteId.create_ALG__AES__256__GCM__HKDF__SHA512__COMMIT__KEY(); if (AWS.Cryptography.MaterialProviders.ESDKAlgorithmSuiteId.ALG_AES_256_GCM_HKDF_SHA512_COMMIT_KEY_ECDSA_P384.Equals(value)) return software.amazon.cryptography.materialproviders.internaldafny.types.ESDKAlgorithmSuiteId.create_ALG__AES__256__GCM__HKDF__SHA512__COMMIT__KEY__ECDSA__P384(); throw new System.ArgumentException("Invalid AWS.Cryptography.MaterialProviders.ESDKAlgorithmSuiteId value"); } internal static AWS.Cryptography.MaterialProviders.ESDKCommitmentPolicy FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_ESDKCommitmentPolicy (software.amazon.cryptography.materialproviders.internaldafny.types._IESDKCommitmentPolicy value) { if (value.is_FORBID__ENCRYPT__ALLOW__DECRYPT) return AWS.Cryptography.MaterialProviders.ESDKCommitmentPolicy.FORBID_ENCRYPT_ALLOW_DECRYPT; if (value.is_REQUIRE__ENCRYPT__ALLOW__DECRYPT) return AWS.Cryptography.MaterialProviders.ESDKCommitmentPolicy.REQUIRE_ENCRYPT_ALLOW_DECRYPT; if (value.is_REQUIRE__ENCRYPT__REQUIRE__DECRYPT) return AWS.Cryptography.MaterialProviders.ESDKCommitmentPolicy.REQUIRE_ENCRYPT_REQUIRE_DECRYPT; throw new System.ArgumentException("Invalid AWS.Cryptography.MaterialProviders.ESDKCommitmentPolicy value"); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IESDKCommitmentPolicy ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_ESDKCommitmentPolicy (AWS.Cryptography.MaterialProviders.ESDKCommitmentPolicy value) { if (AWS.Cryptography.MaterialProviders.ESDKCommitmentPolicy.FORBID_ENCRYPT_ALLOW_DECRYPT.Equals(value)) return software.amazon.cryptography.materialproviders.internaldafny.types.ESDKCommitmentPolicy.create_FORBID__ENCRYPT__ALLOW__DECRYPT(); if (AWS.Cryptography.MaterialProviders.ESDKCommitmentPolicy.REQUIRE_ENCRYPT_ALLOW_DECRYPT.Equals(value)) return software.amazon.cryptography.materialproviders.internaldafny.types.ESDKCommitmentPolicy.create_REQUIRE__ENCRYPT__ALLOW__DECRYPT(); if (AWS.Cryptography.MaterialProviders.ESDKCommitmentPolicy.REQUIRE_ENCRYPT_REQUIRE_DECRYPT.Equals(value)) return software.amazon.cryptography.materialproviders.internaldafny.types.ESDKCommitmentPolicy.create_REQUIRE__ENCRYPT__REQUIRE__DECRYPT(); throw new System.ArgumentException("Invalid AWS.Cryptography.MaterialProviders.ESDKCommitmentPolicy value"); } internal static System.IO.MemoryStream FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S26_GetAlgorithmSuiteInfoInput (Dafny.ISequence<byte> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S26_GetAlgorithmSuiteInfoInput__M8_binaryId(value); } internal static Dafny.ISequence<byte> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S26_GetAlgorithmSuiteInfoInput (System.IO.MemoryStream value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S26_GetAlgorithmSuiteInfoInput__M8_binaryId(value); } internal static AWS.Cryptography.MaterialProviders.GetBranchKeyIdInput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_GetBranchKeyIdInput (software.amazon.cryptography.materialproviders.internaldafny.types._IGetBranchKeyIdInput value) { software.amazon.cryptography.materialproviders.internaldafny.types.GetBranchKeyIdInput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.GetBranchKeyIdInput)value; AWS.Cryptography.MaterialProviders.GetBranchKeyIdInput converted = new AWS.Cryptography.MaterialProviders.GetBranchKeyIdInput(); converted.EncryptionContext = (System.Collections.Generic.Dictionary<string, string>) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_GetBranchKeyIdInput__M17_encryptionContext(concrete._encryptionContext); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IGetBranchKeyIdInput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_GetBranchKeyIdInput (AWS.Cryptography.MaterialProviders.GetBranchKeyIdInput value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.GetBranchKeyIdInput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_GetBranchKeyIdInput__M17_encryptionContext(value.EncryptionContext) ) ; } internal static AWS.Cryptography.MaterialProviders.GetBranchKeyIdOutput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_GetBranchKeyIdOutput (software.amazon.cryptography.materialproviders.internaldafny.types._IGetBranchKeyIdOutput value) { software.amazon.cryptography.materialproviders.internaldafny.types.GetBranchKeyIdOutput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.GetBranchKeyIdOutput)value; AWS.Cryptography.MaterialProviders.GetBranchKeyIdOutput converted = new AWS.Cryptography.MaterialProviders.GetBranchKeyIdOutput(); converted.BranchKeyId = (string) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_GetBranchKeyIdOutput__M11_branchKeyId(concrete._branchKeyId); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IGetBranchKeyIdOutput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_GetBranchKeyIdOutput (AWS.Cryptography.MaterialProviders.GetBranchKeyIdOutput value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.GetBranchKeyIdOutput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_GetBranchKeyIdOutput__M11_branchKeyId(value.BranchKeyId) ) ; } internal static AWS.Cryptography.MaterialProviders.GetCacheEntryInput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_GetCacheEntryInput (software.amazon.cryptography.materialproviders.internaldafny.types._IGetCacheEntryInput value) { software.amazon.cryptography.materialproviders.internaldafny.types.GetCacheEntryInput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.GetCacheEntryInput)value; AWS.Cryptography.MaterialProviders.GetCacheEntryInput converted = new AWS.Cryptography.MaterialProviders.GetCacheEntryInput(); converted.Identifier = (System.IO.MemoryStream) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_GetCacheEntryInput__M10_identifier(concrete._identifier); if (concrete._bytesUsed.is_Some) converted.BytesUsed = (long) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_GetCacheEntryInput__M9_bytesUsed(concrete._bytesUsed); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IGetCacheEntryInput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_GetCacheEntryInput (AWS.Cryptography.MaterialProviders.GetCacheEntryInput value) { long? var_bytesUsed = value.IsSetBytesUsed() ? value.BytesUsed : (long?) null; return new software.amazon.cryptography.materialproviders.internaldafny.types.GetCacheEntryInput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_GetCacheEntryInput__M10_identifier(value.Identifier) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_GetCacheEntryInput__M9_bytesUsed(var_bytesUsed) ) ; } internal static AWS.Cryptography.MaterialProviders.GetCacheEntryOutput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_GetCacheEntryOutput (software.amazon.cryptography.materialproviders.internaldafny.types._IGetCacheEntryOutput value) { software.amazon.cryptography.materialproviders.internaldafny.types.GetCacheEntryOutput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.GetCacheEntryOutput)value; AWS.Cryptography.MaterialProviders.GetCacheEntryOutput converted = new AWS.Cryptography.MaterialProviders.GetCacheEntryOutput(); converted.Materials = (AWS.Cryptography.MaterialProviders.Materials) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_GetCacheEntryOutput__M9_materials(concrete._materials); converted.CreationTime = (long) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_GetCacheEntryOutput__M12_creationTime(concrete._creationTime); converted.ExpiryTime = (long) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_GetCacheEntryOutput__M10_expiryTime(concrete._expiryTime); converted.MessagesUsed = (int) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_GetCacheEntryOutput__M12_messagesUsed(concrete._messagesUsed); converted.BytesUsed = (int) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_GetCacheEntryOutput__M9_bytesUsed(concrete._bytesUsed); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IGetCacheEntryOutput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_GetCacheEntryOutput (AWS.Cryptography.MaterialProviders.GetCacheEntryOutput value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.GetCacheEntryOutput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_GetCacheEntryOutput__M9_materials(value.Materials) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_GetCacheEntryOutput__M12_creationTime(value.CreationTime) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_GetCacheEntryOutput__M10_expiryTime(value.ExpiryTime) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_GetCacheEntryOutput__M12_messagesUsed(value.MessagesUsed) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_GetCacheEntryOutput__M9_bytesUsed(value.BytesUsed) ) ; } internal static AWS.Cryptography.MaterialProviders.GetClientInput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_GetClientInput (software.amazon.cryptography.materialproviders.internaldafny.types._IGetClientInput value) { software.amazon.cryptography.materialproviders.internaldafny.types.GetClientInput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.GetClientInput)value; AWS.Cryptography.MaterialProviders.GetClientInput converted = new AWS.Cryptography.MaterialProviders.GetClientInput(); converted.Region = (string) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_GetClientInput__M6_region(concrete._region); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IGetClientInput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_GetClientInput (AWS.Cryptography.MaterialProviders.GetClientInput value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.GetClientInput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_GetClientInput__M6_region(value.Region) ) ; } internal static Amazon.KeyManagementService.IAmazonKeyManagementService FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_GetClientOutput (software.amazon.cryptography.services.kms.internaldafny.types.IKMSClient value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_GetClientOutput__M6_client(value); } internal static software.amazon.cryptography.services.kms.internaldafny.types.IKMSClient ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_GetClientOutput (Amazon.KeyManagementService.IAmazonKeyManagementService value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_GetClientOutput__M6_client(value); } internal static AWS.Cryptography.MaterialProviders.GetEncryptionMaterialsInput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_GetEncryptionMaterialsInput (software.amazon.cryptography.materialproviders.internaldafny.types._IGetEncryptionMaterialsInput value) { software.amazon.cryptography.materialproviders.internaldafny.types.GetEncryptionMaterialsInput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.GetEncryptionMaterialsInput)value; AWS.Cryptography.MaterialProviders.GetEncryptionMaterialsInput converted = new AWS.Cryptography.MaterialProviders.GetEncryptionMaterialsInput(); converted.EncryptionContext = (System.Collections.Generic.Dictionary<string, string>) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_GetEncryptionMaterialsInput__M17_encryptionContext(concrete._encryptionContext); converted.CommitmentPolicy = (AWS.Cryptography.MaterialProviders.CommitmentPolicy) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_GetEncryptionMaterialsInput__M16_commitmentPolicy(concrete._commitmentPolicy); if (concrete._algorithmSuiteId.is_Some) converted.AlgorithmSuiteId = (AWS.Cryptography.MaterialProviders.AlgorithmSuiteId) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_GetEncryptionMaterialsInput__M16_algorithmSuiteId(concrete._algorithmSuiteId); if (concrete._maxPlaintextLength.is_Some) converted.MaxPlaintextLength = (long) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_GetEncryptionMaterialsInput__M18_maxPlaintextLength(concrete._maxPlaintextLength); if (concrete._requiredEncryptionContextKeys.is_Some) converted.RequiredEncryptionContextKeys = (System.Collections.Generic.List<string>) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_GetEncryptionMaterialsInput__M29_requiredEncryptionContextKeys(concrete._requiredEncryptionContextKeys); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IGetEncryptionMaterialsInput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_GetEncryptionMaterialsInput (AWS.Cryptography.MaterialProviders.GetEncryptionMaterialsInput value) { AWS.Cryptography.MaterialProviders.AlgorithmSuiteId var_algorithmSuiteId = value.IsSetAlgorithmSuiteId() ? value.AlgorithmSuiteId : (AWS.Cryptography.MaterialProviders.AlgorithmSuiteId) null; long? var_maxPlaintextLength = value.IsSetMaxPlaintextLength() ? value.MaxPlaintextLength : (long?) null; System.Collections.Generic.List<string> var_requiredEncryptionContextKeys = value.IsSetRequiredEncryptionContextKeys() ? value.RequiredEncryptionContextKeys : (System.Collections.Generic.List<string>) null; return new software.amazon.cryptography.materialproviders.internaldafny.types.GetEncryptionMaterialsInput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_GetEncryptionMaterialsInput__M17_encryptionContext(value.EncryptionContext) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_GetEncryptionMaterialsInput__M16_commitmentPolicy(value.CommitmentPolicy) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_GetEncryptionMaterialsInput__M16_algorithmSuiteId(var_algorithmSuiteId) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_GetEncryptionMaterialsInput__M18_maxPlaintextLength(var_maxPlaintextLength) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_GetEncryptionMaterialsInput__M29_requiredEncryptionContextKeys(var_requiredEncryptionContextKeys) ) ; } internal static AWS.Cryptography.MaterialProviders.GetEncryptionMaterialsOutput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S28_GetEncryptionMaterialsOutput (software.amazon.cryptography.materialproviders.internaldafny.types._IGetEncryptionMaterialsOutput value) { software.amazon.cryptography.materialproviders.internaldafny.types.GetEncryptionMaterialsOutput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.GetEncryptionMaterialsOutput)value; AWS.Cryptography.MaterialProviders.GetEncryptionMaterialsOutput converted = new AWS.Cryptography.MaterialProviders.GetEncryptionMaterialsOutput(); converted.EncryptionMaterials = (AWS.Cryptography.MaterialProviders.EncryptionMaterials) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S28_GetEncryptionMaterialsOutput__M19_encryptionMaterials(concrete._encryptionMaterials); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IGetEncryptionMaterialsOutput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S28_GetEncryptionMaterialsOutput (AWS.Cryptography.MaterialProviders.GetEncryptionMaterialsOutput value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.GetEncryptionMaterialsOutput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S28_GetEncryptionMaterialsOutput__M19_encryptionMaterials(value.EncryptionMaterials) ) ; } internal static AWS.Cryptography.MaterialProviders.InitializeDecryptionMaterialsInput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeDecryptionMaterialsInput (software.amazon.cryptography.materialproviders.internaldafny.types._IInitializeDecryptionMaterialsInput value) { software.amazon.cryptography.materialproviders.internaldafny.types.InitializeDecryptionMaterialsInput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.InitializeDecryptionMaterialsInput)value; AWS.Cryptography.MaterialProviders.InitializeDecryptionMaterialsInput converted = new AWS.Cryptography.MaterialProviders.InitializeDecryptionMaterialsInput(); converted.AlgorithmSuiteId = (AWS.Cryptography.MaterialProviders.AlgorithmSuiteId) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeDecryptionMaterialsInput__M16_algorithmSuiteId(concrete._algorithmSuiteId); converted.EncryptionContext = (System.Collections.Generic.Dictionary<string, string>) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeDecryptionMaterialsInput__M17_encryptionContext(concrete._encryptionContext); converted.RequiredEncryptionContextKeys = (System.Collections.Generic.List<string>) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeDecryptionMaterialsInput__M29_requiredEncryptionContextKeys(concrete._requiredEncryptionContextKeys); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IInitializeDecryptionMaterialsInput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeDecryptionMaterialsInput (AWS.Cryptography.MaterialProviders.InitializeDecryptionMaterialsInput value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.InitializeDecryptionMaterialsInput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeDecryptionMaterialsInput__M16_algorithmSuiteId(value.AlgorithmSuiteId) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeDecryptionMaterialsInput__M17_encryptionContext(value.EncryptionContext) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeDecryptionMaterialsInput__M29_requiredEncryptionContextKeys(value.RequiredEncryptionContextKeys) ) ; } internal static AWS.Cryptography.MaterialProviders.InitializeEncryptionMaterialsInput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeEncryptionMaterialsInput (software.amazon.cryptography.materialproviders.internaldafny.types._IInitializeEncryptionMaterialsInput value) { software.amazon.cryptography.materialproviders.internaldafny.types.InitializeEncryptionMaterialsInput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.InitializeEncryptionMaterialsInput)value; AWS.Cryptography.MaterialProviders.InitializeEncryptionMaterialsInput converted = new AWS.Cryptography.MaterialProviders.InitializeEncryptionMaterialsInput(); converted.AlgorithmSuiteId = (AWS.Cryptography.MaterialProviders.AlgorithmSuiteId) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeEncryptionMaterialsInput__M16_algorithmSuiteId(concrete._algorithmSuiteId); converted.EncryptionContext = (System.Collections.Generic.Dictionary<string, string>) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeEncryptionMaterialsInput__M17_encryptionContext(concrete._encryptionContext); converted.RequiredEncryptionContextKeys = (System.Collections.Generic.List<string>) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeEncryptionMaterialsInput__M29_requiredEncryptionContextKeys(concrete._requiredEncryptionContextKeys); if (concrete._signingKey.is_Some) converted.SigningKey = (System.IO.MemoryStream) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeEncryptionMaterialsInput__M10_signingKey(concrete._signingKey); if (concrete._verificationKey.is_Some) converted.VerificationKey = (System.IO.MemoryStream) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeEncryptionMaterialsInput__M15_verificationKey(concrete._verificationKey); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IInitializeEncryptionMaterialsInput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeEncryptionMaterialsInput (AWS.Cryptography.MaterialProviders.InitializeEncryptionMaterialsInput value) { System.IO.MemoryStream var_signingKey = value.IsSetSigningKey() ? value.SigningKey : (System.IO.MemoryStream) null; System.IO.MemoryStream var_verificationKey = value.IsSetVerificationKey() ? value.VerificationKey : (System.IO.MemoryStream) null; return new software.amazon.cryptography.materialproviders.internaldafny.types.InitializeEncryptionMaterialsInput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeEncryptionMaterialsInput__M16_algorithmSuiteId(value.AlgorithmSuiteId) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeEncryptionMaterialsInput__M17_encryptionContext(value.EncryptionContext) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeEncryptionMaterialsInput__M29_requiredEncryptionContextKeys(value.RequiredEncryptionContextKeys) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeEncryptionMaterialsInput__M10_signingKey(var_signingKey) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeEncryptionMaterialsInput__M15_verificationKey(var_verificationKey) ) ; } internal static AWS.Cryptography.MaterialProviders.InvalidAlgorithmSuiteInfo FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S25_InvalidAlgorithmSuiteInfo (software.amazon.cryptography.materialproviders.internaldafny.types.Error_InvalidAlgorithmSuiteInfo value) { return new AWS.Cryptography.MaterialProviders.InvalidAlgorithmSuiteInfo ( FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S25_InvalidAlgorithmSuiteInfo__M7_message(value._message) ) ; } internal static software.amazon.cryptography.materialproviders.internaldafny.types.Error_InvalidAlgorithmSuiteInfo ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S25_InvalidAlgorithmSuiteInfo (AWS.Cryptography.MaterialProviders.InvalidAlgorithmSuiteInfo value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.Error_InvalidAlgorithmSuiteInfo ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S25_InvalidAlgorithmSuiteInfo__M7_message(value.Message) ) ; } internal static AWS.Cryptography.MaterialProviders.InvalidAlgorithmSuiteInfoOnDecrypt FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InvalidAlgorithmSuiteInfoOnDecrypt (software.amazon.cryptography.materialproviders.internaldafny.types.Error_InvalidAlgorithmSuiteInfoOnDecrypt value) { return new AWS.Cryptography.MaterialProviders.InvalidAlgorithmSuiteInfoOnDecrypt ( FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InvalidAlgorithmSuiteInfoOnDecrypt__M7_message(value._message) ) ; } internal static software.amazon.cryptography.materialproviders.internaldafny.types.Error_InvalidAlgorithmSuiteInfoOnDecrypt ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InvalidAlgorithmSuiteInfoOnDecrypt (AWS.Cryptography.MaterialProviders.InvalidAlgorithmSuiteInfoOnDecrypt value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.Error_InvalidAlgorithmSuiteInfoOnDecrypt ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InvalidAlgorithmSuiteInfoOnDecrypt__M7_message(value.Message) ) ; } internal static AWS.Cryptography.MaterialProviders.InvalidAlgorithmSuiteInfoOnEncrypt FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InvalidAlgorithmSuiteInfoOnEncrypt (software.amazon.cryptography.materialproviders.internaldafny.types.Error_InvalidAlgorithmSuiteInfoOnEncrypt value) { return new AWS.Cryptography.MaterialProviders.InvalidAlgorithmSuiteInfoOnEncrypt ( FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InvalidAlgorithmSuiteInfoOnEncrypt__M7_message(value._message) ) ; } internal static software.amazon.cryptography.materialproviders.internaldafny.types.Error_InvalidAlgorithmSuiteInfoOnEncrypt ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InvalidAlgorithmSuiteInfoOnEncrypt (AWS.Cryptography.MaterialProviders.InvalidAlgorithmSuiteInfoOnEncrypt value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.Error_InvalidAlgorithmSuiteInfoOnEncrypt ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InvalidAlgorithmSuiteInfoOnEncrypt__M7_message(value.Message) ) ; } internal static AWS.Cryptography.MaterialProviders.InvalidDecryptionMaterials FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S26_InvalidDecryptionMaterials (software.amazon.cryptography.materialproviders.internaldafny.types.Error_InvalidDecryptionMaterials value) { return new AWS.Cryptography.MaterialProviders.InvalidDecryptionMaterials ( FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S26_InvalidDecryptionMaterials__M7_message(value._message) ) ; } internal static software.amazon.cryptography.materialproviders.internaldafny.types.Error_InvalidDecryptionMaterials ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S26_InvalidDecryptionMaterials (AWS.Cryptography.MaterialProviders.InvalidDecryptionMaterials value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.Error_InvalidDecryptionMaterials ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S26_InvalidDecryptionMaterials__M7_message(value.Message) ) ; } internal static AWS.Cryptography.MaterialProviders.InvalidDecryptionMaterialsTransition FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_InvalidDecryptionMaterialsTransition (software.amazon.cryptography.materialproviders.internaldafny.types.Error_InvalidDecryptionMaterialsTransition value) { return new AWS.Cryptography.MaterialProviders.InvalidDecryptionMaterialsTransition ( FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_InvalidDecryptionMaterialsTransition__M7_message(value._message) ) ; } internal static software.amazon.cryptography.materialproviders.internaldafny.types.Error_InvalidDecryptionMaterialsTransition ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_InvalidDecryptionMaterialsTransition (AWS.Cryptography.MaterialProviders.InvalidDecryptionMaterialsTransition value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.Error_InvalidDecryptionMaterialsTransition ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_InvalidDecryptionMaterialsTransition__M7_message(value.Message) ) ; } internal static AWS.Cryptography.MaterialProviders.InvalidEncryptionMaterials FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S26_InvalidEncryptionMaterials (software.amazon.cryptography.materialproviders.internaldafny.types.Error_InvalidEncryptionMaterials value) { return new AWS.Cryptography.MaterialProviders.InvalidEncryptionMaterials ( FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S26_InvalidEncryptionMaterials__M7_message(value._message) ) ; } internal static software.amazon.cryptography.materialproviders.internaldafny.types.Error_InvalidEncryptionMaterials ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S26_InvalidEncryptionMaterials (AWS.Cryptography.MaterialProviders.InvalidEncryptionMaterials value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.Error_InvalidEncryptionMaterials ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S26_InvalidEncryptionMaterials__M7_message(value.Message) ) ; } internal static AWS.Cryptography.MaterialProviders.InvalidEncryptionMaterialsTransition FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_InvalidEncryptionMaterialsTransition (software.amazon.cryptography.materialproviders.internaldafny.types.Error_InvalidEncryptionMaterialsTransition value) { return new AWS.Cryptography.MaterialProviders.InvalidEncryptionMaterialsTransition ( FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_InvalidEncryptionMaterialsTransition__M7_message(value._message) ) ; } internal static software.amazon.cryptography.materialproviders.internaldafny.types.Error_InvalidEncryptionMaterialsTransition ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_InvalidEncryptionMaterialsTransition (AWS.Cryptography.MaterialProviders.InvalidEncryptionMaterialsTransition value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.Error_InvalidEncryptionMaterialsTransition ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_InvalidEncryptionMaterialsTransition__M7_message(value.Message) ) ; } internal static AWS.Cryptography.MaterialProviders.MaterialProvidersConfig FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_MaterialProvidersConfig (software.amazon.cryptography.materialproviders.internaldafny.types._IMaterialProvidersConfig value) { software.amazon.cryptography.materialproviders.internaldafny.types.MaterialProvidersConfig concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.MaterialProvidersConfig)value; AWS.Cryptography.MaterialProviders.MaterialProvidersConfig converted = new AWS.Cryptography.MaterialProviders.MaterialProvidersConfig(); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IMaterialProvidersConfig ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_MaterialProvidersConfig (AWS.Cryptography.MaterialProviders.MaterialProvidersConfig value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.MaterialProvidersConfig ( ) ; } internal static AWS.Cryptography.MaterialProviders.Materials FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_Materials (software.amazon.cryptography.materialproviders.internaldafny.types._IMaterials value) { software.amazon.cryptography.materialproviders.internaldafny.types.Materials concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.Materials)value; var converted = new AWS.Cryptography.MaterialProviders.Materials(); if (value.is_Encryption) { converted.Encryption = FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_Materials__M10_Encryption(concrete.dtor_Encryption); return converted; } if (value.is_Decryption) { converted.Decryption = FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_Materials__M10_Decryption(concrete.dtor_Decryption); return converted; } if (value.is_BranchKey) { converted.BranchKey = FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_Materials__M9_BranchKey(concrete.dtor_BranchKey); return converted; } if (value.is_BeaconKey) { converted.BeaconKey = FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_Materials__M9_BeaconKey(concrete.dtor_BeaconKey); return converted; } throw new System.ArgumentException("Invalid AWS.Cryptography.MaterialProviders.Materials state"); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IMaterials ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_Materials (AWS.Cryptography.MaterialProviders.Materials value) { if (value.IsSetEncryption()) { return software.amazon.cryptography.materialproviders.internaldafny.types.Materials.create_Encryption(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_Materials__M10_Encryption(value.Encryption)); } if (value.IsSetDecryption()) { return software.amazon.cryptography.materialproviders.internaldafny.types.Materials.create_Decryption(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_Materials__M10_Decryption(value.Decryption)); } if (value.IsSetBranchKey()) { return software.amazon.cryptography.materialproviders.internaldafny.types.Materials.create_BranchKey(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_Materials__M9_BranchKey(value.BranchKey)); } if (value.IsSetBeaconKey()) { return software.amazon.cryptography.materialproviders.internaldafny.types.Materials.create_BeaconKey(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_Materials__M9_BeaconKey(value.BeaconKey)); } throw new System.ArgumentException("Invalid AWS.Cryptography.MaterialProviders.Materials state"); } internal static AWS.Cryptography.MaterialProviders.OnDecryptInput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_OnDecryptInput (software.amazon.cryptography.materialproviders.internaldafny.types._IOnDecryptInput value) { software.amazon.cryptography.materialproviders.internaldafny.types.OnDecryptInput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.OnDecryptInput)value; AWS.Cryptography.MaterialProviders.OnDecryptInput converted = new AWS.Cryptography.MaterialProviders.OnDecryptInput(); converted.Materials = (AWS.Cryptography.MaterialProviders.DecryptionMaterials) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_OnDecryptInput__M9_materials(concrete._materials); converted.EncryptedDataKeys = (System.Collections.Generic.List<AWS.Cryptography.MaterialProviders.EncryptedDataKey>) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_OnDecryptInput__M17_encryptedDataKeys(concrete._encryptedDataKeys); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IOnDecryptInput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_OnDecryptInput (AWS.Cryptography.MaterialProviders.OnDecryptInput value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.OnDecryptInput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_OnDecryptInput__M9_materials(value.Materials) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_OnDecryptInput__M17_encryptedDataKeys(value.EncryptedDataKeys) ) ; } internal static AWS.Cryptography.MaterialProviders.OnDecryptOutput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_OnDecryptOutput (software.amazon.cryptography.materialproviders.internaldafny.types._IOnDecryptOutput value) { software.amazon.cryptography.materialproviders.internaldafny.types.OnDecryptOutput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.OnDecryptOutput)value; AWS.Cryptography.MaterialProviders.OnDecryptOutput converted = new AWS.Cryptography.MaterialProviders.OnDecryptOutput(); converted.Materials = (AWS.Cryptography.MaterialProviders.DecryptionMaterials) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_OnDecryptOutput__M9_materials(concrete._materials); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IOnDecryptOutput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_OnDecryptOutput (AWS.Cryptography.MaterialProviders.OnDecryptOutput value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.OnDecryptOutput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_OnDecryptOutput__M9_materials(value.Materials) ) ; } internal static AWS.Cryptography.MaterialProviders.OnEncryptInput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_OnEncryptInput (software.amazon.cryptography.materialproviders.internaldafny.types._IOnEncryptInput value) { software.amazon.cryptography.materialproviders.internaldafny.types.OnEncryptInput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.OnEncryptInput)value; AWS.Cryptography.MaterialProviders.OnEncryptInput converted = new AWS.Cryptography.MaterialProviders.OnEncryptInput(); converted.Materials = (AWS.Cryptography.MaterialProviders.EncryptionMaterials) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_OnEncryptInput__M9_materials(concrete._materials); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IOnEncryptInput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_OnEncryptInput (AWS.Cryptography.MaterialProviders.OnEncryptInput value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.OnEncryptInput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_OnEncryptInput__M9_materials(value.Materials) ) ; } internal static AWS.Cryptography.MaterialProviders.OnEncryptOutput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_OnEncryptOutput (software.amazon.cryptography.materialproviders.internaldafny.types._IOnEncryptOutput value) { software.amazon.cryptography.materialproviders.internaldafny.types.OnEncryptOutput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.OnEncryptOutput)value; AWS.Cryptography.MaterialProviders.OnEncryptOutput converted = new AWS.Cryptography.MaterialProviders.OnEncryptOutput(); converted.Materials = (AWS.Cryptography.MaterialProviders.EncryptionMaterials) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_OnEncryptOutput__M9_materials(concrete._materials); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IOnEncryptOutput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_OnEncryptOutput (AWS.Cryptography.MaterialProviders.OnEncryptOutput value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.OnEncryptOutput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_OnEncryptOutput__M9_materials(value.Materials) ) ; } internal static AWS.Cryptography.MaterialProviders.PaddingScheme FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S13_PaddingScheme (software.amazon.cryptography.materialproviders.internaldafny.types._IPaddingScheme value) { if (value.is_PKCS1) return AWS.Cryptography.MaterialProviders.PaddingScheme.PKCS1; if (value.is_OAEP__SHA1__MGF1) return AWS.Cryptography.MaterialProviders.PaddingScheme.OAEP_SHA1_MGF1; if (value.is_OAEP__SHA256__MGF1) return AWS.Cryptography.MaterialProviders.PaddingScheme.OAEP_SHA256_MGF1; if (value.is_OAEP__SHA384__MGF1) return AWS.Cryptography.MaterialProviders.PaddingScheme.OAEP_SHA384_MGF1; if (value.is_OAEP__SHA512__MGF1) return AWS.Cryptography.MaterialProviders.PaddingScheme.OAEP_SHA512_MGF1; throw new System.ArgumentException("Invalid AWS.Cryptography.MaterialProviders.PaddingScheme value"); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IPaddingScheme ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S13_PaddingScheme (AWS.Cryptography.MaterialProviders.PaddingScheme value) { if (AWS.Cryptography.MaterialProviders.PaddingScheme.PKCS1.Equals(value)) return software.amazon.cryptography.materialproviders.internaldafny.types.PaddingScheme.create_PKCS1(); if (AWS.Cryptography.MaterialProviders.PaddingScheme.OAEP_SHA1_MGF1.Equals(value)) return software.amazon.cryptography.materialproviders.internaldafny.types.PaddingScheme.create_OAEP__SHA1__MGF1(); if (AWS.Cryptography.MaterialProviders.PaddingScheme.OAEP_SHA256_MGF1.Equals(value)) return software.amazon.cryptography.materialproviders.internaldafny.types.PaddingScheme.create_OAEP__SHA256__MGF1(); if (AWS.Cryptography.MaterialProviders.PaddingScheme.OAEP_SHA384_MGF1.Equals(value)) return software.amazon.cryptography.materialproviders.internaldafny.types.PaddingScheme.create_OAEP__SHA384__MGF1(); if (AWS.Cryptography.MaterialProviders.PaddingScheme.OAEP_SHA512_MGF1.Equals(value)) return software.amazon.cryptography.materialproviders.internaldafny.types.PaddingScheme.create_OAEP__SHA512__MGF1(); throw new System.ArgumentException("Invalid AWS.Cryptography.MaterialProviders.PaddingScheme value"); } internal static AWS.Cryptography.MaterialProviders.PutCacheEntryInput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_PutCacheEntryInput (software.amazon.cryptography.materialproviders.internaldafny.types._IPutCacheEntryInput value) { software.amazon.cryptography.materialproviders.internaldafny.types.PutCacheEntryInput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.PutCacheEntryInput)value; AWS.Cryptography.MaterialProviders.PutCacheEntryInput converted = new AWS.Cryptography.MaterialProviders.PutCacheEntryInput(); converted.Identifier = (System.IO.MemoryStream) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_PutCacheEntryInput__M10_identifier(concrete._identifier); converted.Materials = (AWS.Cryptography.MaterialProviders.Materials) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_PutCacheEntryInput__M9_materials(concrete._materials); converted.CreationTime = (long) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_PutCacheEntryInput__M12_creationTime(concrete._creationTime); converted.ExpiryTime = (long) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_PutCacheEntryInput__M10_expiryTime(concrete._expiryTime); if (concrete._messagesUsed.is_Some) converted.MessagesUsed = (int) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_PutCacheEntryInput__M12_messagesUsed(concrete._messagesUsed); if (concrete._bytesUsed.is_Some) converted.BytesUsed = (int) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_PutCacheEntryInput__M9_bytesUsed(concrete._bytesUsed); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IPutCacheEntryInput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_PutCacheEntryInput (AWS.Cryptography.MaterialProviders.PutCacheEntryInput value) { int? var_messagesUsed = value.IsSetMessagesUsed() ? value.MessagesUsed : (int?) null; int? var_bytesUsed = value.IsSetBytesUsed() ? value.BytesUsed : (int?) null; return new software.amazon.cryptography.materialproviders.internaldafny.types.PutCacheEntryInput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_PutCacheEntryInput__M10_identifier(value.Identifier) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_PutCacheEntryInput__M9_materials(value.Materials) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_PutCacheEntryInput__M12_creationTime(value.CreationTime) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_PutCacheEntryInput__M10_expiryTime(value.ExpiryTime) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_PutCacheEntryInput__M12_messagesUsed(var_messagesUsed) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_PutCacheEntryInput__M9_bytesUsed(var_bytesUsed) ) ; } internal static AWS.Cryptography.MaterialProviders.SignatureAlgorithm FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_SignatureAlgorithm (software.amazon.cryptography.materialproviders.internaldafny.types._ISignatureAlgorithm value) { software.amazon.cryptography.materialproviders.internaldafny.types.SignatureAlgorithm concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.SignatureAlgorithm)value; var converted = new AWS.Cryptography.MaterialProviders.SignatureAlgorithm(); if (value.is_ECDSA) { converted.ECDSA = FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_SignatureAlgorithm__M5_ECDSA(concrete.dtor_ECDSA); return converted; } if (value.is_None) { converted.None = FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_SignatureAlgorithm__M4_None(concrete.dtor_None); return converted; } throw new System.ArgumentException("Invalid AWS.Cryptography.MaterialProviders.SignatureAlgorithm state"); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._ISignatureAlgorithm ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_SignatureAlgorithm (AWS.Cryptography.MaterialProviders.SignatureAlgorithm value) { if (value.IsSetECDSA()) { return software.amazon.cryptography.materialproviders.internaldafny.types.SignatureAlgorithm.create_ECDSA(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_SignatureAlgorithm__M5_ECDSA(value.ECDSA)); } if (value.IsSetNone()) { return software.amazon.cryptography.materialproviders.internaldafny.types.SignatureAlgorithm.create_None(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_SignatureAlgorithm__M4_None(value.None)); } throw new System.ArgumentException("Invalid AWS.Cryptography.MaterialProviders.SignatureAlgorithm state"); } internal static AWS.Cryptography.MaterialProviders.SymmetricSignatureAlgorithm FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_SymmetricSignatureAlgorithm (software.amazon.cryptography.materialproviders.internaldafny.types._ISymmetricSignatureAlgorithm value) { software.amazon.cryptography.materialproviders.internaldafny.types.SymmetricSignatureAlgorithm concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.SymmetricSignatureAlgorithm)value; var converted = new AWS.Cryptography.MaterialProviders.SymmetricSignatureAlgorithm(); if (value.is_HMAC) { converted.HMAC = FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_SymmetricSignatureAlgorithm__M4_HMAC(concrete.dtor_HMAC); return converted; } if (value.is_None) { converted.None = FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_SymmetricSignatureAlgorithm__M4_None(concrete.dtor_None); return converted; } throw new System.ArgumentException("Invalid AWS.Cryptography.MaterialProviders.SymmetricSignatureAlgorithm state"); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._ISymmetricSignatureAlgorithm ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_SymmetricSignatureAlgorithm (AWS.Cryptography.MaterialProviders.SymmetricSignatureAlgorithm value) { if (value.IsSetHMAC()) { return software.amazon.cryptography.materialproviders.internaldafny.types.SymmetricSignatureAlgorithm.create_HMAC(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_SymmetricSignatureAlgorithm__M4_HMAC(value.HMAC)); } if (value.IsSetNone()) { return software.amazon.cryptography.materialproviders.internaldafny.types.SymmetricSignatureAlgorithm.create_None(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_SymmetricSignatureAlgorithm__M4_None(value.None)); } throw new System.ArgumentException("Invalid AWS.Cryptography.MaterialProviders.SymmetricSignatureAlgorithm state"); } internal static AWS.Cryptography.MaterialProviders.UpdateUsageMetadataInput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S25_UpdateUsageMetadataInput (software.amazon.cryptography.materialproviders.internaldafny.types._IUpdateUsageMetadataInput value) { software.amazon.cryptography.materialproviders.internaldafny.types.UpdateUsageMetadataInput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.UpdateUsageMetadataInput)value; AWS.Cryptography.MaterialProviders.UpdateUsageMetadataInput converted = new AWS.Cryptography.MaterialProviders.UpdateUsageMetadataInput(); converted.Identifier = (System.IO.MemoryStream) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S25_UpdateUsageMetadataInput__M10_identifier(concrete._identifier); converted.BytesUsed = (int) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S25_UpdateUsageMetadataInput__M9_bytesUsed(concrete._bytesUsed); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IUpdateUsageMetadataInput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S25_UpdateUsageMetadataInput (AWS.Cryptography.MaterialProviders.UpdateUsageMetadataInput value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.UpdateUsageMetadataInput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S25_UpdateUsageMetadataInput__M10_identifier(value.Identifier) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S25_UpdateUsageMetadataInput__M9_bytesUsed(value.BytesUsed) ) ; } internal static AWS.Cryptography.MaterialProviders.ValidateCommitmentPolicyOnDecryptInput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_ValidateCommitmentPolicyOnDecryptInput (software.amazon.cryptography.materialproviders.internaldafny.types._IValidateCommitmentPolicyOnDecryptInput value) { software.amazon.cryptography.materialproviders.internaldafny.types.ValidateCommitmentPolicyOnDecryptInput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.ValidateCommitmentPolicyOnDecryptInput)value; AWS.Cryptography.MaterialProviders.ValidateCommitmentPolicyOnDecryptInput converted = new AWS.Cryptography.MaterialProviders.ValidateCommitmentPolicyOnDecryptInput(); converted.Algorithm = (AWS.Cryptography.MaterialProviders.AlgorithmSuiteId) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_ValidateCommitmentPolicyOnDecryptInput__M9_algorithm(concrete._algorithm); converted.CommitmentPolicy = (AWS.Cryptography.MaterialProviders.CommitmentPolicy) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_ValidateCommitmentPolicyOnDecryptInput__M16_commitmentPolicy(concrete._commitmentPolicy); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IValidateCommitmentPolicyOnDecryptInput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_ValidateCommitmentPolicyOnDecryptInput (AWS.Cryptography.MaterialProviders.ValidateCommitmentPolicyOnDecryptInput value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.ValidateCommitmentPolicyOnDecryptInput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_ValidateCommitmentPolicyOnDecryptInput__M9_algorithm(value.Algorithm) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_ValidateCommitmentPolicyOnDecryptInput__M16_commitmentPolicy(value.CommitmentPolicy) ) ; } internal static AWS.Cryptography.MaterialProviders.ValidateCommitmentPolicyOnEncryptInput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_ValidateCommitmentPolicyOnEncryptInput (software.amazon.cryptography.materialproviders.internaldafny.types._IValidateCommitmentPolicyOnEncryptInput value) { software.amazon.cryptography.materialproviders.internaldafny.types.ValidateCommitmentPolicyOnEncryptInput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.ValidateCommitmentPolicyOnEncryptInput)value; AWS.Cryptography.MaterialProviders.ValidateCommitmentPolicyOnEncryptInput converted = new AWS.Cryptography.MaterialProviders.ValidateCommitmentPolicyOnEncryptInput(); converted.Algorithm = (AWS.Cryptography.MaterialProviders.AlgorithmSuiteId) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_ValidateCommitmentPolicyOnEncryptInput__M9_algorithm(concrete._algorithm); converted.CommitmentPolicy = (AWS.Cryptography.MaterialProviders.CommitmentPolicy) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_ValidateCommitmentPolicyOnEncryptInput__M16_commitmentPolicy(concrete._commitmentPolicy); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IValidateCommitmentPolicyOnEncryptInput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_ValidateCommitmentPolicyOnEncryptInput (AWS.Cryptography.MaterialProviders.ValidateCommitmentPolicyOnEncryptInput value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.ValidateCommitmentPolicyOnEncryptInput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_ValidateCommitmentPolicyOnEncryptInput__M9_algorithm(value.Algorithm) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_ValidateCommitmentPolicyOnEncryptInput__M16_commitmentPolicy(value.CommitmentPolicy) ) ; } internal static AWS.Cryptography.MaterialProviders.ValidDecryptionMaterialsTransitionInput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_ValidDecryptionMaterialsTransitionInput (software.amazon.cryptography.materialproviders.internaldafny.types._IValidDecryptionMaterialsTransitionInput value) { software.amazon.cryptography.materialproviders.internaldafny.types.ValidDecryptionMaterialsTransitionInput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.ValidDecryptionMaterialsTransitionInput)value; AWS.Cryptography.MaterialProviders.ValidDecryptionMaterialsTransitionInput converted = new AWS.Cryptography.MaterialProviders.ValidDecryptionMaterialsTransitionInput(); converted.Start = (AWS.Cryptography.MaterialProviders.DecryptionMaterials) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_ValidDecryptionMaterialsTransitionInput__M5_start(concrete._start); converted.Stop = (AWS.Cryptography.MaterialProviders.DecryptionMaterials) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_ValidDecryptionMaterialsTransitionInput__M4_stop(concrete._stop); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IValidDecryptionMaterialsTransitionInput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_ValidDecryptionMaterialsTransitionInput (AWS.Cryptography.MaterialProviders.ValidDecryptionMaterialsTransitionInput value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.ValidDecryptionMaterialsTransitionInput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_ValidDecryptionMaterialsTransitionInput__M5_start(value.Start) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_ValidDecryptionMaterialsTransitionInput__M4_stop(value.Stop) ) ; } internal static AWS.Cryptography.MaterialProviders.ValidEncryptionMaterialsTransitionInput FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_ValidEncryptionMaterialsTransitionInput (software.amazon.cryptography.materialproviders.internaldafny.types._IValidEncryptionMaterialsTransitionInput value) { software.amazon.cryptography.materialproviders.internaldafny.types.ValidEncryptionMaterialsTransitionInput concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.ValidEncryptionMaterialsTransitionInput)value; AWS.Cryptography.MaterialProviders.ValidEncryptionMaterialsTransitionInput converted = new AWS.Cryptography.MaterialProviders.ValidEncryptionMaterialsTransitionInput(); converted.Start = (AWS.Cryptography.MaterialProviders.EncryptionMaterials) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_ValidEncryptionMaterialsTransitionInput__M5_start(concrete._start); converted.Stop = (AWS.Cryptography.MaterialProviders.EncryptionMaterials) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_ValidEncryptionMaterialsTransitionInput__M4_stop(concrete._stop); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IValidEncryptionMaterialsTransitionInput ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_ValidEncryptionMaterialsTransitionInput (AWS.Cryptography.MaterialProviders.ValidEncryptionMaterialsTransitionInput value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.ValidEncryptionMaterialsTransitionInput ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_ValidEncryptionMaterialsTransitionInput__M5_start(value.Start) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_ValidEncryptionMaterialsTransitionInput__M4_stop(value.Stop) ) ; } internal static AWS.Cryptography.MaterialProviders.ESDKAlgorithmSuiteId FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_AlgorithmSuiteId__M4_ESDK (software.amazon.cryptography.materialproviders.internaldafny.types._IESDKAlgorithmSuiteId value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_ESDKAlgorithmSuiteId(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IESDKAlgorithmSuiteId ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_AlgorithmSuiteId__M4_ESDK (AWS.Cryptography.MaterialProviders.ESDKAlgorithmSuiteId value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_ESDKAlgorithmSuiteId(value); } internal static AWS.Cryptography.MaterialProviders.DBEAlgorithmSuiteId FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_AlgorithmSuiteId__M3_DBE (software.amazon.cryptography.materialproviders.internaldafny.types._IDBEAlgorithmSuiteId value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DBEAlgorithmSuiteId(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IDBEAlgorithmSuiteId ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_AlgorithmSuiteId__M3_DBE (AWS.Cryptography.MaterialProviders.DBEAlgorithmSuiteId value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DBEAlgorithmSuiteId(value); } internal static AWS.Cryptography.MaterialProviders.AlgorithmSuiteId FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo__M2_id (software.amazon.cryptography.materialproviders.internaldafny.types._IAlgorithmSuiteId value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_AlgorithmSuiteId(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IAlgorithmSuiteId ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo__M2_id (AWS.Cryptography.MaterialProviders.AlgorithmSuiteId value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_AlgorithmSuiteId(value); } internal static System.IO.MemoryStream FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo__M8_binaryId (Dafny.ISequence<byte> value) { return FromDafny_N6_smithy__N3_api__S4_Blob(value); } internal static Dafny.ISequence<byte> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo__M8_binaryId (System.IO.MemoryStream value) { return ToDafny_N6_smithy__N3_api__S4_Blob(value); } internal static int FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo__M14_messageVersion (int value) { return FromDafny_N6_smithy__N3_api__S7_Integer(value); } internal static int ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo__M14_messageVersion (int value) { return ToDafny_N6_smithy__N3_api__S7_Integer(value); } internal static AWS.Cryptography.MaterialProviders.Encrypt FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo__M7_encrypt (software.amazon.cryptography.materialproviders.internaldafny.types._IEncrypt value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S7_Encrypt(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IEncrypt ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo__M7_encrypt (AWS.Cryptography.MaterialProviders.Encrypt value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S7_Encrypt(value); } internal static AWS.Cryptography.MaterialProviders.DerivationAlgorithm FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo__M3_kdf (software.amazon.cryptography.materialproviders.internaldafny.types._IDerivationAlgorithm value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DerivationAlgorithm(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IDerivationAlgorithm ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo__M3_kdf (AWS.Cryptography.MaterialProviders.DerivationAlgorithm value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DerivationAlgorithm(value); } internal static AWS.Cryptography.MaterialProviders.DerivationAlgorithm FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo__M10_commitment (software.amazon.cryptography.materialproviders.internaldafny.types._IDerivationAlgorithm value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DerivationAlgorithm(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IDerivationAlgorithm ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo__M10_commitment (AWS.Cryptography.MaterialProviders.DerivationAlgorithm value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DerivationAlgorithm(value); } internal static AWS.Cryptography.MaterialProviders.SignatureAlgorithm FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo__M9_signature (software.amazon.cryptography.materialproviders.internaldafny.types._ISignatureAlgorithm value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_SignatureAlgorithm(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._ISignatureAlgorithm ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo__M9_signature (AWS.Cryptography.MaterialProviders.SignatureAlgorithm value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_SignatureAlgorithm(value); } internal static AWS.Cryptography.MaterialProviders.SymmetricSignatureAlgorithm FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo__M18_symmetricSignature (software.amazon.cryptography.materialproviders.internaldafny.types._ISymmetricSignatureAlgorithm value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_SymmetricSignatureAlgorithm(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._ISymmetricSignatureAlgorithm ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo__M18_symmetricSignature (AWS.Cryptography.MaterialProviders.SymmetricSignatureAlgorithm value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_SymmetricSignatureAlgorithm(value); } internal static AWS.Cryptography.MaterialProviders.EdkWrappingAlgorithm FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo__M11_edkWrapping (software.amazon.cryptography.materialproviders.internaldafny.types._IEdkWrappingAlgorithm value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_EdkWrappingAlgorithm(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IEdkWrappingAlgorithm ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo__M11_edkWrapping (AWS.Cryptography.MaterialProviders.EdkWrappingAlgorithm value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_EdkWrappingAlgorithm(value); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S42_AwsCryptographicMaterialProvidersException__M7_message (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S42_AwsCryptographicMaterialProvidersException__M7_message (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static AWS.Cryptography.MaterialProviders.ESDKCommitmentPolicy FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_CommitmentPolicy__M4_ESDK (software.amazon.cryptography.materialproviders.internaldafny.types._IESDKCommitmentPolicy value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_ESDKCommitmentPolicy(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IESDKCommitmentPolicy ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_CommitmentPolicy__M4_ESDK (AWS.Cryptography.MaterialProviders.ESDKCommitmentPolicy value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_ESDKCommitmentPolicy(value); } internal static AWS.Cryptography.MaterialProviders.DBECommitmentPolicy FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_CommitmentPolicy__M3_DBE (software.amazon.cryptography.materialproviders.internaldafny.types._IDBECommitmentPolicy value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DBECommitmentPolicy(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IDBECommitmentPolicy ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_CommitmentPolicy__M3_DBE (AWS.Cryptography.MaterialProviders.DBECommitmentPolicy value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DBECommitmentPolicy(value); } internal static Amazon.KeyManagementService.IAmazonKeyManagementService FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S33_CreateAwsKmsDiscoveryKeyringInput__M9_kmsClient (software.amazon.cryptography.services.kms.internaldafny.types.IKMSClient value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_KmsClientReference(value); } internal static software.amazon.cryptography.services.kms.internaldafny.types.IKMSClient ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S33_CreateAwsKmsDiscoveryKeyringInput__M9_kmsClient (Amazon.KeyManagementService.IAmazonKeyManagementService value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_KmsClientReference(value); } internal static AWS.Cryptography.MaterialProviders.DiscoveryFilter FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S33_CreateAwsKmsDiscoveryKeyringInput__M15_discoveryFilter (Wrappers_Compile._IOption<software.amazon.cryptography.materialproviders.internaldafny.types._IDiscoveryFilter> value) { return value.is_None ? (AWS.Cryptography.MaterialProviders.DiscoveryFilter) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_DiscoveryFilter(value.Extract()); } internal static Wrappers_Compile._IOption<software.amazon.cryptography.materialproviders.internaldafny.types._IDiscoveryFilter> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S33_CreateAwsKmsDiscoveryKeyringInput__M15_discoveryFilter (AWS.Cryptography.MaterialProviders.DiscoveryFilter value) { return value == null ? Wrappers_Compile.Option<software.amazon.cryptography.materialproviders.internaldafny.types._IDiscoveryFilter>.create_None() : Wrappers_Compile.Option<software.amazon.cryptography.materialproviders.internaldafny.types._IDiscoveryFilter>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_DiscoveryFilter((AWS.Cryptography.MaterialProviders.DiscoveryFilter) value)); } internal static System.Collections.Generic.List<string> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S33_CreateAwsKmsDiscoveryKeyringInput__M11_grantTokens (Wrappers_Compile._IOption<Dafny.ISequence<Dafny.ISequence<char>>> value) { return value.is_None ? (System.Collections.Generic.List<string>) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_GrantTokenList(value.Extract()); } internal static Wrappers_Compile._IOption<Dafny.ISequence<Dafny.ISequence<char>>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S33_CreateAwsKmsDiscoveryKeyringInput__M11_grantTokens (System.Collections.Generic.List<string> value) { return value == null ? Wrappers_Compile.Option<Dafny.ISequence<Dafny.ISequence<char>>>.create_None() : Wrappers_Compile.Option<Dafny.ISequence<Dafny.ISequence<char>>>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_GrantTokenList((System.Collections.Generic.List<string>) value)); } internal static System.Collections.Generic.List<string> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CreateAwsKmsDiscoveryMultiKeyringInput__M7_regions (Dafny.ISequence<Dafny.ISequence<char>> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S10_RegionList(value); } internal static Dafny.ISequence<Dafny.ISequence<char>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CreateAwsKmsDiscoveryMultiKeyringInput__M7_regions (System.Collections.Generic.List<string> value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S10_RegionList(value); } internal static AWS.Cryptography.MaterialProviders.DiscoveryFilter FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CreateAwsKmsDiscoveryMultiKeyringInput__M15_discoveryFilter (Wrappers_Compile._IOption<software.amazon.cryptography.materialproviders.internaldafny.types._IDiscoveryFilter> value) { return value.is_None ? (AWS.Cryptography.MaterialProviders.DiscoveryFilter) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_DiscoveryFilter(value.Extract()); } internal static Wrappers_Compile._IOption<software.amazon.cryptography.materialproviders.internaldafny.types._IDiscoveryFilter> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CreateAwsKmsDiscoveryMultiKeyringInput__M15_discoveryFilter (AWS.Cryptography.MaterialProviders.DiscoveryFilter value) { return value == null ? Wrappers_Compile.Option<software.amazon.cryptography.materialproviders.internaldafny.types._IDiscoveryFilter>.create_None() : Wrappers_Compile.Option<software.amazon.cryptography.materialproviders.internaldafny.types._IDiscoveryFilter>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_DiscoveryFilter((AWS.Cryptography.MaterialProviders.DiscoveryFilter) value)); } internal static AWS.Cryptography.MaterialProviders.IClientSupplier FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CreateAwsKmsDiscoveryMultiKeyringInput__M14_clientSupplier (Wrappers_Compile._IOption<software.amazon.cryptography.materialproviders.internaldafny.types.IClientSupplier> value) { return value.is_None ? (AWS.Cryptography.MaterialProviders.IClientSupplier) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_ClientSupplierReference(value.Extract()); } internal static Wrappers_Compile._IOption<software.amazon.cryptography.materialproviders.internaldafny.types.IClientSupplier> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CreateAwsKmsDiscoveryMultiKeyringInput__M14_clientSupplier (AWS.Cryptography.MaterialProviders.IClientSupplier value) { return value == null ? Wrappers_Compile.Option<software.amazon.cryptography.materialproviders.internaldafny.types.IClientSupplier>.create_None() : Wrappers_Compile.Option<software.amazon.cryptography.materialproviders.internaldafny.types.IClientSupplier>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_ClientSupplierReference((AWS.Cryptography.MaterialProviders.IClientSupplier) value)); } internal static System.Collections.Generic.List<string> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CreateAwsKmsDiscoveryMultiKeyringInput__M11_grantTokens (Wrappers_Compile._IOption<Dafny.ISequence<Dafny.ISequence<char>>> value) { return value.is_None ? (System.Collections.Generic.List<string>) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_GrantTokenList(value.Extract()); } internal static Wrappers_Compile._IOption<Dafny.ISequence<Dafny.ISequence<char>>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CreateAwsKmsDiscoveryMultiKeyringInput__M11_grantTokens (System.Collections.Generic.List<string> value) { return value == null ? Wrappers_Compile.Option<Dafny.ISequence<Dafny.ISequence<char>>>.create_None() : Wrappers_Compile.Option<Dafny.ISequence<Dafny.ISequence<char>>>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_GrantTokenList((System.Collections.Generic.List<string>) value)); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsHierarchicalKeyringInput__M11_branchKeyId (Wrappers_Compile._IOption<Dafny.ISequence<char>> value) { return value.is_None ? (string) null : FromDafny_N6_smithy__N3_api__S6_String(value.Extract()); } internal static Wrappers_Compile._IOption<Dafny.ISequence<char>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsHierarchicalKeyringInput__M11_branchKeyId (string value) { return value == null ? Wrappers_Compile.Option<Dafny.ISequence<char>>.create_None() : Wrappers_Compile.Option<Dafny.ISequence<char>>.create_Some(ToDafny_N6_smithy__N3_api__S6_String((string) value)); } internal static AWS.Cryptography.MaterialProviders.IBranchKeyIdSupplier FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsHierarchicalKeyringInput__M19_branchKeyIdSupplier (Wrappers_Compile._IOption<software.amazon.cryptography.materialproviders.internaldafny.types.IBranchKeyIdSupplier> value) { return value.is_None ? (AWS.Cryptography.MaterialProviders.IBranchKeyIdSupplier) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S28_BranchKeyIdSupplierReference(value.Extract()); } internal static Wrappers_Compile._IOption<software.amazon.cryptography.materialproviders.internaldafny.types.IBranchKeyIdSupplier> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsHierarchicalKeyringInput__M19_branchKeyIdSupplier (AWS.Cryptography.MaterialProviders.IBranchKeyIdSupplier value) { return value == null ? Wrappers_Compile.Option<software.amazon.cryptography.materialproviders.internaldafny.types.IBranchKeyIdSupplier>.create_None() : Wrappers_Compile.Option<software.amazon.cryptography.materialproviders.internaldafny.types.IBranchKeyIdSupplier>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S28_BranchKeyIdSupplierReference((AWS.Cryptography.MaterialProviders.IBranchKeyIdSupplier) value)); } internal static AWS.Cryptography.KeyStore.KeyStore FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsHierarchicalKeyringInput__M8_keyStore (software.amazon.cryptography.keystore.internaldafny.types.IKeyStoreClient value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_KeyStoreReference(value); } internal static software.amazon.cryptography.keystore.internaldafny.types.IKeyStoreClient ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsHierarchicalKeyringInput__M8_keyStore (AWS.Cryptography.KeyStore.KeyStore value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_KeyStoreReference(value); } internal static long FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsHierarchicalKeyringInput__M10_ttlSeconds (long value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S12_PositiveLong(value); } internal static long ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsHierarchicalKeyringInput__M10_ttlSeconds (long value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S12_PositiveLong(value); } internal static int? FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsHierarchicalKeyringInput__M12_maxCacheSize (Wrappers_Compile._IOption<int> value) { return value.is_None ? (int?) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_PositiveInteger(value.Extract()); } internal static Wrappers_Compile._IOption<int> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsHierarchicalKeyringInput__M12_maxCacheSize (int? value) { return value == null ? Wrappers_Compile.Option<int>.create_None() : Wrappers_Compile.Option<int>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_PositiveInteger((int) value)); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateAwsKmsKeyringInput__M8_kmsKeyId (Dafny.ISequence<char> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S8_KmsKeyId(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateAwsKmsKeyringInput__M8_kmsKeyId (string value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S8_KmsKeyId(value); } internal static Amazon.KeyManagementService.IAmazonKeyManagementService FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateAwsKmsKeyringInput__M9_kmsClient (software.amazon.cryptography.services.kms.internaldafny.types.IKMSClient value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_KmsClientReference(value); } internal static software.amazon.cryptography.services.kms.internaldafny.types.IKMSClient ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateAwsKmsKeyringInput__M9_kmsClient (Amazon.KeyManagementService.IAmazonKeyManagementService value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_KmsClientReference(value); } internal static System.Collections.Generic.List<string> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateAwsKmsKeyringInput__M11_grantTokens (Wrappers_Compile._IOption<Dafny.ISequence<Dafny.ISequence<char>>> value) { return value.is_None ? (System.Collections.Generic.List<string>) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_GrantTokenList(value.Extract()); } internal static Wrappers_Compile._IOption<Dafny.ISequence<Dafny.ISequence<char>>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateAwsKmsKeyringInput__M11_grantTokens (System.Collections.Generic.List<string> value) { return value == null ? Wrappers_Compile.Option<Dafny.ISequence<Dafny.ISequence<char>>>.create_None() : Wrappers_Compile.Option<Dafny.ISequence<Dafny.ISequence<char>>>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_GrantTokenList((System.Collections.Generic.List<string>) value)); } internal static Amazon.KeyManagementService.IAmazonKeyManagementService FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsMrkDiscoveryKeyringInput__M9_kmsClient (software.amazon.cryptography.services.kms.internaldafny.types.IKMSClient value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_KmsClientReference(value); } internal static software.amazon.cryptography.services.kms.internaldafny.types.IKMSClient ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsMrkDiscoveryKeyringInput__M9_kmsClient (Amazon.KeyManagementService.IAmazonKeyManagementService value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_KmsClientReference(value); } internal static AWS.Cryptography.MaterialProviders.DiscoveryFilter FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsMrkDiscoveryKeyringInput__M15_discoveryFilter (Wrappers_Compile._IOption<software.amazon.cryptography.materialproviders.internaldafny.types._IDiscoveryFilter> value) { return value.is_None ? (AWS.Cryptography.MaterialProviders.DiscoveryFilter) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_DiscoveryFilter(value.Extract()); } internal static Wrappers_Compile._IOption<software.amazon.cryptography.materialproviders.internaldafny.types._IDiscoveryFilter> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsMrkDiscoveryKeyringInput__M15_discoveryFilter (AWS.Cryptography.MaterialProviders.DiscoveryFilter value) { return value == null ? Wrappers_Compile.Option<software.amazon.cryptography.materialproviders.internaldafny.types._IDiscoveryFilter>.create_None() : Wrappers_Compile.Option<software.amazon.cryptography.materialproviders.internaldafny.types._IDiscoveryFilter>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_DiscoveryFilter((AWS.Cryptography.MaterialProviders.DiscoveryFilter) value)); } internal static System.Collections.Generic.List<string> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsMrkDiscoveryKeyringInput__M11_grantTokens (Wrappers_Compile._IOption<Dafny.ISequence<Dafny.ISequence<char>>> value) { return value.is_None ? (System.Collections.Generic.List<string>) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_GrantTokenList(value.Extract()); } internal static Wrappers_Compile._IOption<Dafny.ISequence<Dafny.ISequence<char>>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsMrkDiscoveryKeyringInput__M11_grantTokens (System.Collections.Generic.List<string> value) { return value == null ? Wrappers_Compile.Option<Dafny.ISequence<Dafny.ISequence<char>>>.create_None() : Wrappers_Compile.Option<Dafny.ISequence<Dafny.ISequence<char>>>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_GrantTokenList((System.Collections.Generic.List<string>) value)); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsMrkDiscoveryKeyringInput__M6_region (Dafny.ISequence<char> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S6_Region(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CreateAwsKmsMrkDiscoveryKeyringInput__M6_region (string value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S6_Region(value); } internal static System.Collections.Generic.List<string> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S41_CreateAwsKmsMrkDiscoveryMultiKeyringInput__M7_regions (Dafny.ISequence<Dafny.ISequence<char>> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S10_RegionList(value); } internal static Dafny.ISequence<Dafny.ISequence<char>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S41_CreateAwsKmsMrkDiscoveryMultiKeyringInput__M7_regions (System.Collections.Generic.List<string> value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S10_RegionList(value); } internal static AWS.Cryptography.MaterialProviders.DiscoveryFilter FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S41_CreateAwsKmsMrkDiscoveryMultiKeyringInput__M15_discoveryFilter (Wrappers_Compile._IOption<software.amazon.cryptography.materialproviders.internaldafny.types._IDiscoveryFilter> value) { return value.is_None ? (AWS.Cryptography.MaterialProviders.DiscoveryFilter) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_DiscoveryFilter(value.Extract()); } internal static Wrappers_Compile._IOption<software.amazon.cryptography.materialproviders.internaldafny.types._IDiscoveryFilter> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S41_CreateAwsKmsMrkDiscoveryMultiKeyringInput__M15_discoveryFilter (AWS.Cryptography.MaterialProviders.DiscoveryFilter value) { return value == null ? Wrappers_Compile.Option<software.amazon.cryptography.materialproviders.internaldafny.types._IDiscoveryFilter>.create_None() : Wrappers_Compile.Option<software.amazon.cryptography.materialproviders.internaldafny.types._IDiscoveryFilter>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_DiscoveryFilter((AWS.Cryptography.MaterialProviders.DiscoveryFilter) value)); } internal static AWS.Cryptography.MaterialProviders.IClientSupplier FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S41_CreateAwsKmsMrkDiscoveryMultiKeyringInput__M14_clientSupplier (Wrappers_Compile._IOption<software.amazon.cryptography.materialproviders.internaldafny.types.IClientSupplier> value) { return value.is_None ? (AWS.Cryptography.MaterialProviders.IClientSupplier) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_ClientSupplierReference(value.Extract()); } internal static Wrappers_Compile._IOption<software.amazon.cryptography.materialproviders.internaldafny.types.IClientSupplier> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S41_CreateAwsKmsMrkDiscoveryMultiKeyringInput__M14_clientSupplier (AWS.Cryptography.MaterialProviders.IClientSupplier value) { return value == null ? Wrappers_Compile.Option<software.amazon.cryptography.materialproviders.internaldafny.types.IClientSupplier>.create_None() : Wrappers_Compile.Option<software.amazon.cryptography.materialproviders.internaldafny.types.IClientSupplier>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_ClientSupplierReference((AWS.Cryptography.MaterialProviders.IClientSupplier) value)); } internal static System.Collections.Generic.List<string> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S41_CreateAwsKmsMrkDiscoveryMultiKeyringInput__M11_grantTokens (Wrappers_Compile._IOption<Dafny.ISequence<Dafny.ISequence<char>>> value) { return value.is_None ? (System.Collections.Generic.List<string>) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_GrantTokenList(value.Extract()); } internal static Wrappers_Compile._IOption<Dafny.ISequence<Dafny.ISequence<char>>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S41_CreateAwsKmsMrkDiscoveryMultiKeyringInput__M11_grantTokens (System.Collections.Generic.List<string> value) { return value == null ? Wrappers_Compile.Option<Dafny.ISequence<Dafny.ISequence<char>>>.create_None() : Wrappers_Compile.Option<Dafny.ISequence<Dafny.ISequence<char>>>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_GrantTokenList((System.Collections.Generic.List<string>) value)); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsMrkKeyringInput__M8_kmsKeyId (Dafny.ISequence<char> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S8_KmsKeyId(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsMrkKeyringInput__M8_kmsKeyId (string value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S8_KmsKeyId(value); } internal static Amazon.KeyManagementService.IAmazonKeyManagementService FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsMrkKeyringInput__M9_kmsClient (software.amazon.cryptography.services.kms.internaldafny.types.IKMSClient value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_KmsClientReference(value); } internal static software.amazon.cryptography.services.kms.internaldafny.types.IKMSClient ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsMrkKeyringInput__M9_kmsClient (Amazon.KeyManagementService.IAmazonKeyManagementService value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_KmsClientReference(value); } internal static System.Collections.Generic.List<string> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsMrkKeyringInput__M11_grantTokens (Wrappers_Compile._IOption<Dafny.ISequence<Dafny.ISequence<char>>> value) { return value.is_None ? (System.Collections.Generic.List<string>) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_GrantTokenList(value.Extract()); } internal static Wrappers_Compile._IOption<Dafny.ISequence<Dafny.ISequence<char>>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsMrkKeyringInput__M11_grantTokens (System.Collections.Generic.List<string> value) { return value == null ? Wrappers_Compile.Option<Dafny.ISequence<Dafny.ISequence<char>>>.create_None() : Wrappers_Compile.Option<Dafny.ISequence<Dafny.ISequence<char>>>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_GrantTokenList((System.Collections.Generic.List<string>) value)); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S32_CreateAwsKmsMrkMultiKeyringInput__M9_generator (Wrappers_Compile._IOption<Dafny.ISequence<char>> value) { return value.is_None ? (string) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S8_KmsKeyId(value.Extract()); } internal static Wrappers_Compile._IOption<Dafny.ISequence<char>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S32_CreateAwsKmsMrkMultiKeyringInput__M9_generator (string value) { return value == null ? Wrappers_Compile.Option<Dafny.ISequence<char>>.create_None() : Wrappers_Compile.Option<Dafny.ISequence<char>>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S8_KmsKeyId((string) value)); } internal static System.Collections.Generic.List<string> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S32_CreateAwsKmsMrkMultiKeyringInput__M9_kmsKeyIds (Wrappers_Compile._IOption<Dafny.ISequence<Dafny.ISequence<char>>> value) { return value.is_None ? (System.Collections.Generic.List<string>) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S12_KmsKeyIdList(value.Extract()); } internal static Wrappers_Compile._IOption<Dafny.ISequence<Dafny.ISequence<char>>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S32_CreateAwsKmsMrkMultiKeyringInput__M9_kmsKeyIds (System.Collections.Generic.List<string> value) { return value == null ? Wrappers_Compile.Option<Dafny.ISequence<Dafny.ISequence<char>>>.create_None() : Wrappers_Compile.Option<Dafny.ISequence<Dafny.ISequence<char>>>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S12_KmsKeyIdList((System.Collections.Generic.List<string>) value)); } internal static AWS.Cryptography.MaterialProviders.IClientSupplier FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S32_CreateAwsKmsMrkMultiKeyringInput__M14_clientSupplier (Wrappers_Compile._IOption<software.amazon.cryptography.materialproviders.internaldafny.types.IClientSupplier> value) { return value.is_None ? (AWS.Cryptography.MaterialProviders.IClientSupplier) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_ClientSupplierReference(value.Extract()); } internal static Wrappers_Compile._IOption<software.amazon.cryptography.materialproviders.internaldafny.types.IClientSupplier> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S32_CreateAwsKmsMrkMultiKeyringInput__M14_clientSupplier (AWS.Cryptography.MaterialProviders.IClientSupplier value) { return value == null ? Wrappers_Compile.Option<software.amazon.cryptography.materialproviders.internaldafny.types.IClientSupplier>.create_None() : Wrappers_Compile.Option<software.amazon.cryptography.materialproviders.internaldafny.types.IClientSupplier>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_ClientSupplierReference((AWS.Cryptography.MaterialProviders.IClientSupplier) value)); } internal static System.Collections.Generic.List<string> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S32_CreateAwsKmsMrkMultiKeyringInput__M11_grantTokens (Wrappers_Compile._IOption<Dafny.ISequence<Dafny.ISequence<char>>> value) { return value.is_None ? (System.Collections.Generic.List<string>) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_GrantTokenList(value.Extract()); } internal static Wrappers_Compile._IOption<Dafny.ISequence<Dafny.ISequence<char>>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S32_CreateAwsKmsMrkMultiKeyringInput__M11_grantTokens (System.Collections.Generic.List<string> value) { return value == null ? Wrappers_Compile.Option<Dafny.ISequence<Dafny.ISequence<char>>>.create_None() : Wrappers_Compile.Option<Dafny.ISequence<Dafny.ISequence<char>>>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_GrantTokenList((System.Collections.Generic.List<string>) value)); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S29_CreateAwsKmsMultiKeyringInput__M9_generator (Wrappers_Compile._IOption<Dafny.ISequence<char>> value) { return value.is_None ? (string) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S8_KmsKeyId(value.Extract()); } internal static Wrappers_Compile._IOption<Dafny.ISequence<char>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S29_CreateAwsKmsMultiKeyringInput__M9_generator (string value) { return value == null ? Wrappers_Compile.Option<Dafny.ISequence<char>>.create_None() : Wrappers_Compile.Option<Dafny.ISequence<char>>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S8_KmsKeyId((string) value)); } internal static System.Collections.Generic.List<string> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S29_CreateAwsKmsMultiKeyringInput__M9_kmsKeyIds (Wrappers_Compile._IOption<Dafny.ISequence<Dafny.ISequence<char>>> value) { return value.is_None ? (System.Collections.Generic.List<string>) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S12_KmsKeyIdList(value.Extract()); } internal static Wrappers_Compile._IOption<Dafny.ISequence<Dafny.ISequence<char>>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S29_CreateAwsKmsMultiKeyringInput__M9_kmsKeyIds (System.Collections.Generic.List<string> value) { return value == null ? Wrappers_Compile.Option<Dafny.ISequence<Dafny.ISequence<char>>>.create_None() : Wrappers_Compile.Option<Dafny.ISequence<Dafny.ISequence<char>>>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S12_KmsKeyIdList((System.Collections.Generic.List<string>) value)); } internal static AWS.Cryptography.MaterialProviders.IClientSupplier FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S29_CreateAwsKmsMultiKeyringInput__M14_clientSupplier (Wrappers_Compile._IOption<software.amazon.cryptography.materialproviders.internaldafny.types.IClientSupplier> value) { return value.is_None ? (AWS.Cryptography.MaterialProviders.IClientSupplier) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_ClientSupplierReference(value.Extract()); } internal static Wrappers_Compile._IOption<software.amazon.cryptography.materialproviders.internaldafny.types.IClientSupplier> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S29_CreateAwsKmsMultiKeyringInput__M14_clientSupplier (AWS.Cryptography.MaterialProviders.IClientSupplier value) { return value == null ? Wrappers_Compile.Option<software.amazon.cryptography.materialproviders.internaldafny.types.IClientSupplier>.create_None() : Wrappers_Compile.Option<software.amazon.cryptography.materialproviders.internaldafny.types.IClientSupplier>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_ClientSupplierReference((AWS.Cryptography.MaterialProviders.IClientSupplier) value)); } internal static System.Collections.Generic.List<string> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S29_CreateAwsKmsMultiKeyringInput__M11_grantTokens (Wrappers_Compile._IOption<Dafny.ISequence<Dafny.ISequence<char>>> value) { return value.is_None ? (System.Collections.Generic.List<string>) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_GrantTokenList(value.Extract()); } internal static Wrappers_Compile._IOption<Dafny.ISequence<Dafny.ISequence<char>>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S29_CreateAwsKmsMultiKeyringInput__M11_grantTokens (System.Collections.Generic.List<string> value) { return value == null ? Wrappers_Compile.Option<Dafny.ISequence<Dafny.ISequence<char>>>.create_None() : Wrappers_Compile.Option<Dafny.ISequence<Dafny.ISequence<char>>>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_GrantTokenList((System.Collections.Generic.List<string>) value)); } internal static System.IO.MemoryStream FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsRsaKeyringInput__M9_publicKey (Wrappers_Compile._IOption<Dafny.ISequence<byte>> value) { return value.is_None ? (System.IO.MemoryStream) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S6_Secret(value.Extract()); } internal static Wrappers_Compile._IOption<Dafny.ISequence<byte>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsRsaKeyringInput__M9_publicKey (System.IO.MemoryStream value) { return value == null ? Wrappers_Compile.Option<Dafny.ISequence<byte>>.create_None() : Wrappers_Compile.Option<Dafny.ISequence<byte>>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S6_Secret((System.IO.MemoryStream) value)); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsRsaKeyringInput__M8_kmsKeyId (Dafny.ISequence<char> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S8_KmsKeyId(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsRsaKeyringInput__M8_kmsKeyId (string value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S8_KmsKeyId(value); } internal static Amazon.KeyManagementService.EncryptionAlgorithmSpec FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsRsaKeyringInput__M19_encryptionAlgorithm (software.amazon.cryptography.services.kms.internaldafny.types._IEncryptionAlgorithmSpec value) { return FromDafny_N3_com__N9_amazonaws__N3_kms__S23_EncryptionAlgorithmSpec(value); } internal static software.amazon.cryptography.services.kms.internaldafny.types._IEncryptionAlgorithmSpec ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsRsaKeyringInput__M19_encryptionAlgorithm (Amazon.KeyManagementService.EncryptionAlgorithmSpec value) { return ToDafny_N3_com__N9_amazonaws__N3_kms__S23_EncryptionAlgorithmSpec(value); } internal static Amazon.KeyManagementService.IAmazonKeyManagementService FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsRsaKeyringInput__M9_kmsClient (Wrappers_Compile._IOption<software.amazon.cryptography.services.kms.internaldafny.types.IKMSClient> value) { return value.is_None ? (Amazon.KeyManagementService.IAmazonKeyManagementService) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_KmsClientReference(value.Extract()); } internal static Wrappers_Compile._IOption<software.amazon.cryptography.services.kms.internaldafny.types.IKMSClient> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsRsaKeyringInput__M9_kmsClient (Amazon.KeyManagementService.IAmazonKeyManagementService value) { return value == null ? Wrappers_Compile.Option<software.amazon.cryptography.services.kms.internaldafny.types.IKMSClient>.create_None() : Wrappers_Compile.Option<software.amazon.cryptography.services.kms.internaldafny.types.IKMSClient>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_KmsClientReference((Amazon.KeyManagementService.IAmazonKeyManagementService) value)); } internal static System.Collections.Generic.List<string> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsRsaKeyringInput__M11_grantTokens (Wrappers_Compile._IOption<Dafny.ISequence<Dafny.ISequence<char>>> value) { return value.is_None ? (System.Collections.Generic.List<string>) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_GrantTokenList(value.Extract()); } internal static Wrappers_Compile._IOption<Dafny.ISequence<Dafny.ISequence<char>>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_CreateAwsKmsRsaKeyringInput__M11_grantTokens (System.Collections.Generic.List<string> value) { return value == null ? Wrappers_Compile.Option<Dafny.ISequence<Dafny.ISequence<char>>>.create_None() : Wrappers_Compile.Option<Dafny.ISequence<Dafny.ISequence<char>>>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_GrantTokenList((System.Collections.Generic.List<string>) value)); } internal static int FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CreateCryptographicMaterialsCacheInput__M13_entryCapacity (int value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_PositiveInteger(value); } internal static int ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CreateCryptographicMaterialsCacheInput__M13_entryCapacity (int value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_PositiveInteger(value); } internal static int? FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CreateCryptographicMaterialsCacheInput__M20_entryPruningTailSize (Wrappers_Compile._IOption<int> value) { return value.is_None ? (int?) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_PositiveInteger(value.Extract()); } internal static Wrappers_Compile._IOption<int> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CreateCryptographicMaterialsCacheInput__M20_entryPruningTailSize (int? value) { return value == null ? Wrappers_Compile.Option<int>.create_None() : Wrappers_Compile.Option<int>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_PositiveInteger((int) value)); } internal static AWS.Cryptography.MaterialProviders.ICryptographicMaterialsCache FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_CreateCryptographicMaterialsCacheOutput__M14_materialsCache (software.amazon.cryptography.materialproviders.internaldafny.types.ICryptographicMaterialsCache value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CryptographicMaterialsCacheReference(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types.ICryptographicMaterialsCache ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_CreateCryptographicMaterialsCacheOutput__M14_materialsCache (AWS.Cryptography.MaterialProviders.ICryptographicMaterialsCache value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CryptographicMaterialsCacheReference(value); } internal static AWS.Cryptography.MaterialProviders.ICryptographicMaterialsManager FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S41_CreateCryptographicMaterialsManagerOutput__M16_materialsManager (software.amazon.cryptography.materialproviders.internaldafny.types.ICryptographicMaterialsManager value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CryptographicMaterialsManagerReference(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types.ICryptographicMaterialsManager ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S41_CreateCryptographicMaterialsManagerOutput__M16_materialsManager (AWS.Cryptography.MaterialProviders.ICryptographicMaterialsManager value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CryptographicMaterialsManagerReference(value); } internal static AWS.Cryptography.MaterialProviders.IClientSupplier FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S33_CreateDefaultClientSupplierOutput__M6_client (software.amazon.cryptography.materialproviders.internaldafny.types.IClientSupplier value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_ClientSupplierReference(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types.IClientSupplier ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S33_CreateDefaultClientSupplierOutput__M6_client (AWS.Cryptography.MaterialProviders.IClientSupplier value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_ClientSupplierReference(value); } internal static AWS.Cryptography.MaterialProviders.IKeyring FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S47_CreateDefaultCryptographicMaterialsManagerInput__M7_keyring (software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_KeyringReference(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S47_CreateDefaultCryptographicMaterialsManagerInput__M7_keyring (AWS.Cryptography.MaterialProviders.IKeyring value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_KeyringReference(value); } internal static AWS.Cryptography.MaterialProviders.ICryptographicMaterialsManager FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_CreateRequiredEncryptionContextCMMInput__M13_underlyingCMM (Wrappers_Compile._IOption<software.amazon.cryptography.materialproviders.internaldafny.types.ICryptographicMaterialsManager> value) { return value.is_None ? (AWS.Cryptography.MaterialProviders.ICryptographicMaterialsManager) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CryptographicMaterialsManagerReference(value.Extract()); } internal static Wrappers_Compile._IOption<software.amazon.cryptography.materialproviders.internaldafny.types.ICryptographicMaterialsManager> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_CreateRequiredEncryptionContextCMMInput__M13_underlyingCMM (AWS.Cryptography.MaterialProviders.ICryptographicMaterialsManager value) { return value == null ? Wrappers_Compile.Option<software.amazon.cryptography.materialproviders.internaldafny.types.ICryptographicMaterialsManager>.create_None() : Wrappers_Compile.Option<software.amazon.cryptography.materialproviders.internaldafny.types.ICryptographicMaterialsManager>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CryptographicMaterialsManagerReference((AWS.Cryptography.MaterialProviders.ICryptographicMaterialsManager) value)); } internal static AWS.Cryptography.MaterialProviders.IKeyring FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_CreateRequiredEncryptionContextCMMInput__M7_keyring (Wrappers_Compile._IOption<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring> value) { return value.is_None ? (AWS.Cryptography.MaterialProviders.IKeyring) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_KeyringReference(value.Extract()); } internal static Wrappers_Compile._IOption<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_CreateRequiredEncryptionContextCMMInput__M7_keyring (AWS.Cryptography.MaterialProviders.IKeyring value) { return value == null ? Wrappers_Compile.Option<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring>.create_None() : Wrappers_Compile.Option<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_KeyringReference((AWS.Cryptography.MaterialProviders.IKeyring) value)); } internal static System.Collections.Generic.List<string> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_CreateRequiredEncryptionContextCMMInput__M29_requiredEncryptionContextKeys (Dafny.ISequence<Dafny.ISequence<byte>> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_EncryptionContextKeys(value); } internal static Dafny.ISequence<Dafny.ISequence<byte>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_CreateRequiredEncryptionContextCMMInput__M29_requiredEncryptionContextKeys (System.Collections.Generic.List<string> value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_EncryptionContextKeys(value); } internal static AWS.Cryptography.MaterialProviders.ICryptographicMaterialsManager FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S40_CreateRequiredEncryptionContextCMMOutput__M16_materialsManager (software.amazon.cryptography.materialproviders.internaldafny.types.ICryptographicMaterialsManager value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CryptographicMaterialsManagerReference(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types.ICryptographicMaterialsManager ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S40_CreateRequiredEncryptionContextCMMOutput__M16_materialsManager (AWS.Cryptography.MaterialProviders.ICryptographicMaterialsManager value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CryptographicMaterialsManagerReference(value); } internal static AWS.Cryptography.MaterialProviders.IKeyring FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_CreateKeyringOutput__M7_keyring (software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_KeyringReference(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_CreateKeyringOutput__M7_keyring (AWS.Cryptography.MaterialProviders.IKeyring value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_KeyringReference(value); } internal static AWS.Cryptography.MaterialProviders.IKeyring FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_CreateMultiKeyringInput__M9_generator (Wrappers_Compile._IOption<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring> value) { return value.is_None ? (AWS.Cryptography.MaterialProviders.IKeyring) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_KeyringReference(value.Extract()); } internal static Wrappers_Compile._IOption<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_CreateMultiKeyringInput__M9_generator (AWS.Cryptography.MaterialProviders.IKeyring value) { return value == null ? Wrappers_Compile.Option<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring>.create_None() : Wrappers_Compile.Option<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_KeyringReference((AWS.Cryptography.MaterialProviders.IKeyring) value)); } internal static System.Collections.Generic.List<AWS.Cryptography.MaterialProviders.IKeyring> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_CreateMultiKeyringInput__M13_childKeyrings (Dafny.ISequence<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S11_KeyringList(value); } internal static Dafny.ISequence<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_CreateMultiKeyringInput__M13_childKeyrings (System.Collections.Generic.List<AWS.Cryptography.MaterialProviders.IKeyring> value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S11_KeyringList(value); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawAesKeyringInput__M12_keyNamespace (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawAesKeyringInput__M12_keyNamespace (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawAesKeyringInput__M7_keyName (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawAesKeyringInput__M7_keyName (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static System.IO.MemoryStream FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawAesKeyringInput__M11_wrappingKey (Dafny.ISequence<byte> value) { return FromDafny_N6_smithy__N3_api__S4_Blob(value); } internal static Dafny.ISequence<byte> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawAesKeyringInput__M11_wrappingKey (System.IO.MemoryStream value) { return ToDafny_N6_smithy__N3_api__S4_Blob(value); } internal static AWS.Cryptography.MaterialProviders.AesWrappingAlg FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawAesKeyringInput__M11_wrappingAlg (software.amazon.cryptography.materialproviders.internaldafny.types._IAesWrappingAlg value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_AesWrappingAlg(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IAesWrappingAlg ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawAesKeyringInput__M11_wrappingAlg (AWS.Cryptography.MaterialProviders.AesWrappingAlg value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_AesWrappingAlg(value); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawRsaKeyringInput__M12_keyNamespace (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawRsaKeyringInput__M12_keyNamespace (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawRsaKeyringInput__M7_keyName (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawRsaKeyringInput__M7_keyName (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static AWS.Cryptography.MaterialProviders.PaddingScheme FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawRsaKeyringInput__M13_paddingScheme (software.amazon.cryptography.materialproviders.internaldafny.types._IPaddingScheme value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S13_PaddingScheme(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IPaddingScheme ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawRsaKeyringInput__M13_paddingScheme (AWS.Cryptography.MaterialProviders.PaddingScheme value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S13_PaddingScheme(value); } internal static System.IO.MemoryStream FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawRsaKeyringInput__M9_publicKey (Wrappers_Compile._IOption<Dafny.ISequence<byte>> value) { return value.is_None ? (System.IO.MemoryStream) null : FromDafny_N6_smithy__N3_api__S4_Blob(value.Extract()); } internal static Wrappers_Compile._IOption<Dafny.ISequence<byte>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawRsaKeyringInput__M9_publicKey (System.IO.MemoryStream value) { return value == null ? Wrappers_Compile.Option<Dafny.ISequence<byte>>.create_None() : Wrappers_Compile.Option<Dafny.ISequence<byte>>.create_Some(ToDafny_N6_smithy__N3_api__S4_Blob((System.IO.MemoryStream) value)); } internal static System.IO.MemoryStream FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawRsaKeyringInput__M10_privateKey (Wrappers_Compile._IOption<Dafny.ISequence<byte>> value) { return value.is_None ? (System.IO.MemoryStream) null : FromDafny_N6_smithy__N3_api__S4_Blob(value.Extract()); } internal static Wrappers_Compile._IOption<Dafny.ISequence<byte>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S24_CreateRawRsaKeyringInput__M10_privateKey (System.IO.MemoryStream value) { return value == null ? Wrappers_Compile.Option<Dafny.ISequence<byte>>.create_None() : Wrappers_Compile.Option<Dafny.ISequence<byte>>.create_Some(ToDafny_N6_smithy__N3_api__S4_Blob((System.IO.MemoryStream) value)); } internal static AWS.Cryptography.MaterialProviders.AlgorithmSuiteInfo FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials__M14_algorithmSuite (software.amazon.cryptography.materialproviders.internaldafny.types._IAlgorithmSuiteInfo value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IAlgorithmSuiteInfo ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials__M14_algorithmSuite (AWS.Cryptography.MaterialProviders.AlgorithmSuiteInfo value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo(value); } internal static System.Collections.Generic.Dictionary<string, string> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials__M17_encryptionContext (Dafny.IMap<Dafny.ISequence<byte>, Dafny.ISequence<byte>> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_EncryptionContext(value); } internal static Dafny.IMap<Dafny.ISequence<byte>, Dafny.ISequence<byte>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials__M17_encryptionContext (System.Collections.Generic.Dictionary<string, string> value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_EncryptionContext(value); } internal static System.Collections.Generic.List<string> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials__M29_requiredEncryptionContextKeys (Dafny.ISequence<Dafny.ISequence<byte>> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_EncryptionContextKeys(value); } internal static Dafny.ISequence<Dafny.ISequence<byte>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials__M29_requiredEncryptionContextKeys (System.Collections.Generic.List<string> value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_EncryptionContextKeys(value); } internal static System.IO.MemoryStream FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials__M16_plaintextDataKey (Wrappers_Compile._IOption<Dafny.ISequence<byte>> value) { return value.is_None ? (System.IO.MemoryStream) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S6_Secret(value.Extract()); } internal static Wrappers_Compile._IOption<Dafny.ISequence<byte>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials__M16_plaintextDataKey (System.IO.MemoryStream value) { return value == null ? Wrappers_Compile.Option<Dafny.ISequence<byte>>.create_None() : Wrappers_Compile.Option<Dafny.ISequence<byte>>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S6_Secret((System.IO.MemoryStream) value)); } internal static System.IO.MemoryStream FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials__M15_verificationKey (Wrappers_Compile._IOption<Dafny.ISequence<byte>> value) { return value.is_None ? (System.IO.MemoryStream) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S6_Secret(value.Extract()); } internal static Wrappers_Compile._IOption<Dafny.ISequence<byte>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials__M15_verificationKey (System.IO.MemoryStream value) { return value == null ? Wrappers_Compile.Option<Dafny.ISequence<byte>>.create_None() : Wrappers_Compile.Option<Dafny.ISequence<byte>>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S6_Secret((System.IO.MemoryStream) value)); } internal static System.IO.MemoryStream FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials__M19_symmetricSigningKey (Wrappers_Compile._IOption<Dafny.ISequence<byte>> value) { return value.is_None ? (System.IO.MemoryStream) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S6_Secret(value.Extract()); } internal static Wrappers_Compile._IOption<Dafny.ISequence<byte>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials__M19_symmetricSigningKey (System.IO.MemoryStream value) { return value == null ? Wrappers_Compile.Option<Dafny.ISequence<byte>>.create_None() : Wrappers_Compile.Option<Dafny.ISequence<byte>>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S6_Secret((System.IO.MemoryStream) value)); } internal static AWS.Cryptography.MaterialProviders.AlgorithmSuiteId FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_DecryptMaterialsInput__M16_algorithmSuiteId (software.amazon.cryptography.materialproviders.internaldafny.types._IAlgorithmSuiteId value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_AlgorithmSuiteId(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IAlgorithmSuiteId ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_DecryptMaterialsInput__M16_algorithmSuiteId (AWS.Cryptography.MaterialProviders.AlgorithmSuiteId value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_AlgorithmSuiteId(value); } internal static AWS.Cryptography.MaterialProviders.CommitmentPolicy FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_DecryptMaterialsInput__M16_commitmentPolicy (software.amazon.cryptography.materialproviders.internaldafny.types._ICommitmentPolicy value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_CommitmentPolicy(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._ICommitmentPolicy ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_DecryptMaterialsInput__M16_commitmentPolicy (AWS.Cryptography.MaterialProviders.CommitmentPolicy value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_CommitmentPolicy(value); } internal static System.Collections.Generic.List<AWS.Cryptography.MaterialProviders.EncryptedDataKey> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_DecryptMaterialsInput__M17_encryptedDataKeys (Dafny.ISequence<software.amazon.cryptography.materialproviders.internaldafny.types._IEncryptedDataKey> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_EncryptedDataKeyList(value); } internal static Dafny.ISequence<software.amazon.cryptography.materialproviders.internaldafny.types._IEncryptedDataKey> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_DecryptMaterialsInput__M17_encryptedDataKeys (System.Collections.Generic.List<AWS.Cryptography.MaterialProviders.EncryptedDataKey> value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_EncryptedDataKeyList(value); } internal static System.Collections.Generic.Dictionary<string, string> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_DecryptMaterialsInput__M17_encryptionContext (Dafny.IMap<Dafny.ISequence<byte>, Dafny.ISequence<byte>> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_EncryptionContext(value); } internal static Dafny.IMap<Dafny.ISequence<byte>, Dafny.ISequence<byte>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_DecryptMaterialsInput__M17_encryptionContext (System.Collections.Generic.Dictionary<string, string> value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_EncryptionContext(value); } internal static System.Collections.Generic.Dictionary<string, string> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_DecryptMaterialsInput__M27_reproducedEncryptionContext (Wrappers_Compile._IOption<Dafny.IMap<Dafny.ISequence<byte>, Dafny.ISequence<byte>>> value) { return value.is_None ? (System.Collections.Generic.Dictionary<string, string>) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_EncryptionContext(value.Extract()); } internal static Wrappers_Compile._IOption<Dafny.IMap<Dafny.ISequence<byte>, Dafny.ISequence<byte>>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_DecryptMaterialsInput__M27_reproducedEncryptionContext (System.Collections.Generic.Dictionary<string, string> value) { return value == null ? Wrappers_Compile.Option<Dafny.IMap<Dafny.ISequence<byte>, Dafny.ISequence<byte>>>.create_None() : Wrappers_Compile.Option<Dafny.IMap<Dafny.ISequence<byte>, Dafny.ISequence<byte>>>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_EncryptionContext((System.Collections.Generic.Dictionary<string, string>) value)); } internal static AWS.Cryptography.MaterialProviders.DecryptionMaterials FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S22_DecryptMaterialsOutput__M19_decryptionMaterials (software.amazon.cryptography.materialproviders.internaldafny.types._IDecryptionMaterials value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IDecryptionMaterials ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S22_DecryptMaterialsOutput__M19_decryptionMaterials (AWS.Cryptography.MaterialProviders.DecryptionMaterials value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials(value); } internal static System.IO.MemoryStream FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_DeleteCacheEntryInput__M10_identifier (Dafny.ISequence<byte> value) { return FromDafny_N6_smithy__N3_api__S4_Blob(value); } internal static Dafny.ISequence<byte> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_DeleteCacheEntryInput__M10_identifier (System.IO.MemoryStream value) { return ToDafny_N6_smithy__N3_api__S4_Blob(value); } internal static AWS.Cryptography.MaterialProviders.HKDF FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DerivationAlgorithm__M4_HKDF (software.amazon.cryptography.materialproviders.internaldafny.types._IHKDF value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S4_HKDF(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IHKDF ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DerivationAlgorithm__M4_HKDF (AWS.Cryptography.MaterialProviders.HKDF value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S4_HKDF(value); } internal static AWS.Cryptography.MaterialProviders.IDENTITY FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DerivationAlgorithm__M8_IDENTITY (software.amazon.cryptography.materialproviders.internaldafny.types._IIDENTITY value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S8_IDENTITY(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IIDENTITY ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DerivationAlgorithm__M8_IDENTITY (AWS.Cryptography.MaterialProviders.IDENTITY value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S8_IDENTITY(value); } internal static AWS.Cryptography.MaterialProviders.None FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DerivationAlgorithm__M4_None (software.amazon.cryptography.materialproviders.internaldafny.types._INone value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S4_None(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._INone ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DerivationAlgorithm__M4_None (AWS.Cryptography.MaterialProviders.None value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S4_None(value); } internal static AWS.Cryptography.MaterialProviders.DIRECT_KEY_WRAPPING FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_EdkWrappingAlgorithm__M19_DIRECT_KEY_WRAPPING (software.amazon.cryptography.materialproviders.internaldafny.types._IDIRECT__KEY__WRAPPING value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DIRECT_KEY_WRAPPING(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IDIRECT__KEY__WRAPPING ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_EdkWrappingAlgorithm__M19_DIRECT_KEY_WRAPPING (AWS.Cryptography.MaterialProviders.DIRECT_KEY_WRAPPING value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DIRECT_KEY_WRAPPING(value); } internal static AWS.Cryptography.MaterialProviders.IntermediateKeyWrapping FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_EdkWrappingAlgorithm__M23_IntermediateKeyWrapping (software.amazon.cryptography.materialproviders.internaldafny.types._IIntermediateKeyWrapping value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_IntermediateKeyWrapping(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IIntermediateKeyWrapping ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_EdkWrappingAlgorithm__M23_IntermediateKeyWrapping (AWS.Cryptography.MaterialProviders.IntermediateKeyWrapping value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_IntermediateKeyWrapping(value); } internal static AWS.Cryptography.Primitives.AES_GCM FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S7_Encrypt__M7_AES_GCM (software.amazon.cryptography.primitives.internaldafny.types._IAES__GCM value) { return FromDafny_N3_aws__N12_cryptography__N10_primitives__S7_AES_GCM(value); } internal static software.amazon.cryptography.primitives.internaldafny.types._IAES__GCM ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S7_Encrypt__M7_AES_GCM (AWS.Cryptography.Primitives.AES_GCM value) { return ToDafny_N3_aws__N12_cryptography__N10_primitives__S7_AES_GCM(value); } internal static AWS.Cryptography.MaterialProviders.AlgorithmSuiteInfo FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials__M14_algorithmSuite (software.amazon.cryptography.materialproviders.internaldafny.types._IAlgorithmSuiteInfo value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IAlgorithmSuiteInfo ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials__M14_algorithmSuite (AWS.Cryptography.MaterialProviders.AlgorithmSuiteInfo value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_AlgorithmSuiteInfo(value); } internal static System.Collections.Generic.Dictionary<string, string> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials__M17_encryptionContext (Dafny.IMap<Dafny.ISequence<byte>, Dafny.ISequence<byte>> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_EncryptionContext(value); } internal static Dafny.IMap<Dafny.ISequence<byte>, Dafny.ISequence<byte>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials__M17_encryptionContext (System.Collections.Generic.Dictionary<string, string> value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_EncryptionContext(value); } internal static System.Collections.Generic.List<AWS.Cryptography.MaterialProviders.EncryptedDataKey> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials__M17_encryptedDataKeys (Dafny.ISequence<software.amazon.cryptography.materialproviders.internaldafny.types._IEncryptedDataKey> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_EncryptedDataKeyList(value); } internal static Dafny.ISequence<software.amazon.cryptography.materialproviders.internaldafny.types._IEncryptedDataKey> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials__M17_encryptedDataKeys (System.Collections.Generic.List<AWS.Cryptography.MaterialProviders.EncryptedDataKey> value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_EncryptedDataKeyList(value); } internal static System.Collections.Generic.List<string> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials__M29_requiredEncryptionContextKeys (Dafny.ISequence<Dafny.ISequence<byte>> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_EncryptionContextKeys(value); } internal static Dafny.ISequence<Dafny.ISequence<byte>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials__M29_requiredEncryptionContextKeys (System.Collections.Generic.List<string> value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_EncryptionContextKeys(value); } internal static System.IO.MemoryStream FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials__M16_plaintextDataKey (Wrappers_Compile._IOption<Dafny.ISequence<byte>> value) { return value.is_None ? (System.IO.MemoryStream) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S6_Secret(value.Extract()); } internal static Wrappers_Compile._IOption<Dafny.ISequence<byte>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials__M16_plaintextDataKey (System.IO.MemoryStream value) { return value == null ? Wrappers_Compile.Option<Dafny.ISequence<byte>>.create_None() : Wrappers_Compile.Option<Dafny.ISequence<byte>>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S6_Secret((System.IO.MemoryStream) value)); } internal static System.IO.MemoryStream FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials__M10_signingKey (Wrappers_Compile._IOption<Dafny.ISequence<byte>> value) { return value.is_None ? (System.IO.MemoryStream) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S6_Secret(value.Extract()); } internal static Wrappers_Compile._IOption<Dafny.ISequence<byte>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials__M10_signingKey (System.IO.MemoryStream value) { return value == null ? Wrappers_Compile.Option<Dafny.ISequence<byte>>.create_None() : Wrappers_Compile.Option<Dafny.ISequence<byte>>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S6_Secret((System.IO.MemoryStream) value)); } internal static System.Collections.Generic.List<System.IO.MemoryStream> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials__M20_symmetricSigningKeys (Wrappers_Compile._IOption<Dafny.ISequence<Dafny.ISequence<byte>>> value) { return value.is_None ? (System.Collections.Generic.List<System.IO.MemoryStream>) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_SymmetricSigningKeyList(value.Extract()); } internal static Wrappers_Compile._IOption<Dafny.ISequence<Dafny.ISequence<byte>>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials__M20_symmetricSigningKeys (System.Collections.Generic.List<System.IO.MemoryStream> value) { return value == null ? Wrappers_Compile.Option<Dafny.ISequence<Dafny.ISequence<byte>>>.create_None() : Wrappers_Compile.Option<Dafny.ISequence<Dafny.ISequence<byte>>>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_SymmetricSigningKeyList((System.Collections.Generic.List<System.IO.MemoryStream>) value)); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_EntryAlreadyExists__M7_message (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_EntryAlreadyExists__M7_message (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_EntryDoesNotExist__M7_message (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_EntryDoesNotExist__M7_message (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static System.IO.MemoryStream FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S26_GetAlgorithmSuiteInfoInput__M8_binaryId (Dafny.ISequence<byte> value) { return FromDafny_N6_smithy__N3_api__S4_Blob(value); } internal static Dafny.ISequence<byte> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S26_GetAlgorithmSuiteInfoInput__M8_binaryId (System.IO.MemoryStream value) { return ToDafny_N6_smithy__N3_api__S4_Blob(value); } internal static System.Collections.Generic.Dictionary<string, string> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_GetBranchKeyIdInput__M17_encryptionContext (Dafny.IMap<Dafny.ISequence<byte>, Dafny.ISequence<byte>> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_EncryptionContext(value); } internal static Dafny.IMap<Dafny.ISequence<byte>, Dafny.ISequence<byte>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_GetBranchKeyIdInput__M17_encryptionContext (System.Collections.Generic.Dictionary<string, string> value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_EncryptionContext(value); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_GetBranchKeyIdOutput__M11_branchKeyId (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_GetBranchKeyIdOutput__M11_branchKeyId (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static System.IO.MemoryStream FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_GetCacheEntryInput__M10_identifier (Dafny.ISequence<byte> value) { return FromDafny_N6_smithy__N3_api__S4_Blob(value); } internal static Dafny.ISequence<byte> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_GetCacheEntryInput__M10_identifier (System.IO.MemoryStream value) { return ToDafny_N6_smithy__N3_api__S4_Blob(value); } internal static long? FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_GetCacheEntryInput__M9_bytesUsed (Wrappers_Compile._IOption<long> value) { return value.is_None ? (long?) null : FromDafny_N6_smithy__N3_api__S4_Long(value.Extract()); } internal static Wrappers_Compile._IOption<long> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_GetCacheEntryInput__M9_bytesUsed (long? value) { return value == null ? Wrappers_Compile.Option<long>.create_None() : Wrappers_Compile.Option<long>.create_Some(ToDafny_N6_smithy__N3_api__S4_Long((long) value)); } internal static AWS.Cryptography.MaterialProviders.Materials FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_GetCacheEntryOutput__M9_materials (software.amazon.cryptography.materialproviders.internaldafny.types._IMaterials value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_Materials(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IMaterials ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_GetCacheEntryOutput__M9_materials (AWS.Cryptography.MaterialProviders.Materials value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_Materials(value); } internal static long FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_GetCacheEntryOutput__M12_creationTime (long value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S12_PositiveLong(value); } internal static long ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_GetCacheEntryOutput__M12_creationTime (long value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S12_PositiveLong(value); } internal static long FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_GetCacheEntryOutput__M10_expiryTime (long value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S12_PositiveLong(value); } internal static long ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_GetCacheEntryOutput__M10_expiryTime (long value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S12_PositiveLong(value); } internal static int FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_GetCacheEntryOutput__M12_messagesUsed (int value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_PositiveInteger(value); } internal static int ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_GetCacheEntryOutput__M12_messagesUsed (int value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_PositiveInteger(value); } internal static int FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_GetCacheEntryOutput__M9_bytesUsed (int value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_PositiveInteger(value); } internal static int ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_GetCacheEntryOutput__M9_bytesUsed (int value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_PositiveInteger(value); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_GetClientInput__M6_region (Dafny.ISequence<char> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S6_Region(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_GetClientInput__M6_region (string value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S6_Region(value); } internal static Amazon.KeyManagementService.IAmazonKeyManagementService FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_GetClientOutput__M6_client (software.amazon.cryptography.services.kms.internaldafny.types.IKMSClient value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_KmsClientReference(value); } internal static software.amazon.cryptography.services.kms.internaldafny.types.IKMSClient ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_GetClientOutput__M6_client (Amazon.KeyManagementService.IAmazonKeyManagementService value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_KmsClientReference(value); } internal static System.Collections.Generic.Dictionary<string, string> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_GetEncryptionMaterialsInput__M17_encryptionContext (Dafny.IMap<Dafny.ISequence<byte>, Dafny.ISequence<byte>> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_EncryptionContext(value); } internal static Dafny.IMap<Dafny.ISequence<byte>, Dafny.ISequence<byte>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_GetEncryptionMaterialsInput__M17_encryptionContext (System.Collections.Generic.Dictionary<string, string> value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_EncryptionContext(value); } internal static AWS.Cryptography.MaterialProviders.CommitmentPolicy FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_GetEncryptionMaterialsInput__M16_commitmentPolicy (software.amazon.cryptography.materialproviders.internaldafny.types._ICommitmentPolicy value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_CommitmentPolicy(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._ICommitmentPolicy ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_GetEncryptionMaterialsInput__M16_commitmentPolicy (AWS.Cryptography.MaterialProviders.CommitmentPolicy value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_CommitmentPolicy(value); } internal static AWS.Cryptography.MaterialProviders.AlgorithmSuiteId FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_GetEncryptionMaterialsInput__M16_algorithmSuiteId (Wrappers_Compile._IOption<software.amazon.cryptography.materialproviders.internaldafny.types._IAlgorithmSuiteId> value) { return value.is_None ? (AWS.Cryptography.MaterialProviders.AlgorithmSuiteId) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_AlgorithmSuiteId(value.Extract()); } internal static Wrappers_Compile._IOption<software.amazon.cryptography.materialproviders.internaldafny.types._IAlgorithmSuiteId> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_GetEncryptionMaterialsInput__M16_algorithmSuiteId (AWS.Cryptography.MaterialProviders.AlgorithmSuiteId value) { return value == null ? Wrappers_Compile.Option<software.amazon.cryptography.materialproviders.internaldafny.types._IAlgorithmSuiteId>.create_None() : Wrappers_Compile.Option<software.amazon.cryptography.materialproviders.internaldafny.types._IAlgorithmSuiteId>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_AlgorithmSuiteId((AWS.Cryptography.MaterialProviders.AlgorithmSuiteId) value)); } internal static long? FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_GetEncryptionMaterialsInput__M18_maxPlaintextLength (Wrappers_Compile._IOption<long> value) { return value.is_None ? (long?) null : FromDafny_N6_smithy__N3_api__S4_Long(value.Extract()); } internal static Wrappers_Compile._IOption<long> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_GetEncryptionMaterialsInput__M18_maxPlaintextLength (long? value) { return value == null ? Wrappers_Compile.Option<long>.create_None() : Wrappers_Compile.Option<long>.create_Some(ToDafny_N6_smithy__N3_api__S4_Long((long) value)); } internal static System.Collections.Generic.List<string> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_GetEncryptionMaterialsInput__M29_requiredEncryptionContextKeys (Wrappers_Compile._IOption<Dafny.ISequence<Dafny.ISequence<byte>>> value) { return value.is_None ? (System.Collections.Generic.List<string>) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_EncryptionContextKeys(value.Extract()); } internal static Wrappers_Compile._IOption<Dafny.ISequence<Dafny.ISequence<byte>>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_GetEncryptionMaterialsInput__M29_requiredEncryptionContextKeys (System.Collections.Generic.List<string> value) { return value == null ? Wrappers_Compile.Option<Dafny.ISequence<Dafny.ISequence<byte>>>.create_None() : Wrappers_Compile.Option<Dafny.ISequence<Dafny.ISequence<byte>>>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_EncryptionContextKeys((System.Collections.Generic.List<string>) value)); } internal static AWS.Cryptography.MaterialProviders.EncryptionMaterials FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S28_GetEncryptionMaterialsOutput__M19_encryptionMaterials (software.amazon.cryptography.materialproviders.internaldafny.types._IEncryptionMaterials value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IEncryptionMaterials ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S28_GetEncryptionMaterialsOutput__M19_encryptionMaterials (AWS.Cryptography.MaterialProviders.EncryptionMaterials value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials(value); } internal static AWS.Cryptography.MaterialProviders.AlgorithmSuiteId FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeDecryptionMaterialsInput__M16_algorithmSuiteId (software.amazon.cryptography.materialproviders.internaldafny.types._IAlgorithmSuiteId value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_AlgorithmSuiteId(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IAlgorithmSuiteId ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeDecryptionMaterialsInput__M16_algorithmSuiteId (AWS.Cryptography.MaterialProviders.AlgorithmSuiteId value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_AlgorithmSuiteId(value); } internal static System.Collections.Generic.Dictionary<string, string> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeDecryptionMaterialsInput__M17_encryptionContext (Dafny.IMap<Dafny.ISequence<byte>, Dafny.ISequence<byte>> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_EncryptionContext(value); } internal static Dafny.IMap<Dafny.ISequence<byte>, Dafny.ISequence<byte>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeDecryptionMaterialsInput__M17_encryptionContext (System.Collections.Generic.Dictionary<string, string> value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_EncryptionContext(value); } internal static System.Collections.Generic.List<string> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeDecryptionMaterialsInput__M29_requiredEncryptionContextKeys (Dafny.ISequence<Dafny.ISequence<byte>> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_EncryptionContextKeys(value); } internal static Dafny.ISequence<Dafny.ISequence<byte>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeDecryptionMaterialsInput__M29_requiredEncryptionContextKeys (System.Collections.Generic.List<string> value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_EncryptionContextKeys(value); } internal static AWS.Cryptography.MaterialProviders.AlgorithmSuiteId FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeEncryptionMaterialsInput__M16_algorithmSuiteId (software.amazon.cryptography.materialproviders.internaldafny.types._IAlgorithmSuiteId value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_AlgorithmSuiteId(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IAlgorithmSuiteId ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeEncryptionMaterialsInput__M16_algorithmSuiteId (AWS.Cryptography.MaterialProviders.AlgorithmSuiteId value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_AlgorithmSuiteId(value); } internal static System.Collections.Generic.Dictionary<string, string> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeEncryptionMaterialsInput__M17_encryptionContext (Dafny.IMap<Dafny.ISequence<byte>, Dafny.ISequence<byte>> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_EncryptionContext(value); } internal static Dafny.IMap<Dafny.ISequence<byte>, Dafny.ISequence<byte>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeEncryptionMaterialsInput__M17_encryptionContext (System.Collections.Generic.Dictionary<string, string> value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_EncryptionContext(value); } internal static System.Collections.Generic.List<string> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeEncryptionMaterialsInput__M29_requiredEncryptionContextKeys (Dafny.ISequence<Dafny.ISequence<byte>> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_EncryptionContextKeys(value); } internal static Dafny.ISequence<Dafny.ISequence<byte>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeEncryptionMaterialsInput__M29_requiredEncryptionContextKeys (System.Collections.Generic.List<string> value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_EncryptionContextKeys(value); } internal static System.IO.MemoryStream FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeEncryptionMaterialsInput__M10_signingKey (Wrappers_Compile._IOption<Dafny.ISequence<byte>> value) { return value.is_None ? (System.IO.MemoryStream) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S6_Secret(value.Extract()); } internal static Wrappers_Compile._IOption<Dafny.ISequence<byte>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeEncryptionMaterialsInput__M10_signingKey (System.IO.MemoryStream value) { return value == null ? Wrappers_Compile.Option<Dafny.ISequence<byte>>.create_None() : Wrappers_Compile.Option<Dafny.ISequence<byte>>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S6_Secret((System.IO.MemoryStream) value)); } internal static System.IO.MemoryStream FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeEncryptionMaterialsInput__M15_verificationKey (Wrappers_Compile._IOption<Dafny.ISequence<byte>> value) { return value.is_None ? (System.IO.MemoryStream) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S6_Secret(value.Extract()); } internal static Wrappers_Compile._IOption<Dafny.ISequence<byte>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InitializeEncryptionMaterialsInput__M15_verificationKey (System.IO.MemoryStream value) { return value == null ? Wrappers_Compile.Option<Dafny.ISequence<byte>>.create_None() : Wrappers_Compile.Option<Dafny.ISequence<byte>>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S6_Secret((System.IO.MemoryStream) value)); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S25_InvalidAlgorithmSuiteInfo__M7_message (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S25_InvalidAlgorithmSuiteInfo__M7_message (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InvalidAlgorithmSuiteInfoOnDecrypt__M7_message (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InvalidAlgorithmSuiteInfoOnDecrypt__M7_message (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InvalidAlgorithmSuiteInfoOnEncrypt__M7_message (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InvalidAlgorithmSuiteInfoOnEncrypt__M7_message (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S26_InvalidDecryptionMaterials__M7_message (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S26_InvalidDecryptionMaterials__M7_message (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_InvalidDecryptionMaterialsTransition__M7_message (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_InvalidDecryptionMaterialsTransition__M7_message (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S26_InvalidEncryptionMaterials__M7_message (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S26_InvalidEncryptionMaterials__M7_message (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_InvalidEncryptionMaterialsTransition__M7_message (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_InvalidEncryptionMaterialsTransition__M7_message (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static AWS.Cryptography.MaterialProviders.EncryptionMaterials FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_Materials__M10_Encryption (software.amazon.cryptography.materialproviders.internaldafny.types._IEncryptionMaterials value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IEncryptionMaterials ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_Materials__M10_Encryption (AWS.Cryptography.MaterialProviders.EncryptionMaterials value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials(value); } internal static AWS.Cryptography.MaterialProviders.DecryptionMaterials FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_Materials__M10_Decryption (software.amazon.cryptography.materialproviders.internaldafny.types._IDecryptionMaterials value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IDecryptionMaterials ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_Materials__M10_Decryption (AWS.Cryptography.MaterialProviders.DecryptionMaterials value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials(value); } internal static AWS.Cryptography.MaterialProviders.BranchKeyMaterials FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_Materials__M9_BranchKey (software.amazon.cryptography.materialproviders.internaldafny.types._IBranchKeyMaterials value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_BranchKeyMaterials(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IBranchKeyMaterials ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_Materials__M9_BranchKey (AWS.Cryptography.MaterialProviders.BranchKeyMaterials value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_BranchKeyMaterials(value); } internal static AWS.Cryptography.MaterialProviders.BeaconKeyMaterials FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_Materials__M9_BeaconKey (software.amazon.cryptography.materialproviders.internaldafny.types._IBeaconKeyMaterials value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_BeaconKeyMaterials(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IBeaconKeyMaterials ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_Materials__M9_BeaconKey (AWS.Cryptography.MaterialProviders.BeaconKeyMaterials value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_BeaconKeyMaterials(value); } internal static AWS.Cryptography.MaterialProviders.DecryptionMaterials FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_OnDecryptInput__M9_materials (software.amazon.cryptography.materialproviders.internaldafny.types._IDecryptionMaterials value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IDecryptionMaterials ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_OnDecryptInput__M9_materials (AWS.Cryptography.MaterialProviders.DecryptionMaterials value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials(value); } internal static System.Collections.Generic.List<AWS.Cryptography.MaterialProviders.EncryptedDataKey> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_OnDecryptInput__M17_encryptedDataKeys (Dafny.ISequence<software.amazon.cryptography.materialproviders.internaldafny.types._IEncryptedDataKey> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_EncryptedDataKeyList(value); } internal static Dafny.ISequence<software.amazon.cryptography.materialproviders.internaldafny.types._IEncryptedDataKey> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_OnDecryptInput__M17_encryptedDataKeys (System.Collections.Generic.List<AWS.Cryptography.MaterialProviders.EncryptedDataKey> value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_EncryptedDataKeyList(value); } internal static AWS.Cryptography.MaterialProviders.DecryptionMaterials FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_OnDecryptOutput__M9_materials (software.amazon.cryptography.materialproviders.internaldafny.types._IDecryptionMaterials value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IDecryptionMaterials ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_OnDecryptOutput__M9_materials (AWS.Cryptography.MaterialProviders.DecryptionMaterials value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials(value); } internal static AWS.Cryptography.MaterialProviders.EncryptionMaterials FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_OnEncryptInput__M9_materials (software.amazon.cryptography.materialproviders.internaldafny.types._IEncryptionMaterials value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IEncryptionMaterials ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_OnEncryptInput__M9_materials (AWS.Cryptography.MaterialProviders.EncryptionMaterials value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials(value); } internal static AWS.Cryptography.MaterialProviders.EncryptionMaterials FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_OnEncryptOutput__M9_materials (software.amazon.cryptography.materialproviders.internaldafny.types._IEncryptionMaterials value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IEncryptionMaterials ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_OnEncryptOutput__M9_materials (AWS.Cryptography.MaterialProviders.EncryptionMaterials value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials(value); } internal static System.IO.MemoryStream FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_PutCacheEntryInput__M10_identifier (Dafny.ISequence<byte> value) { return FromDafny_N6_smithy__N3_api__S4_Blob(value); } internal static Dafny.ISequence<byte> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_PutCacheEntryInput__M10_identifier (System.IO.MemoryStream value) { return ToDafny_N6_smithy__N3_api__S4_Blob(value); } internal static AWS.Cryptography.MaterialProviders.Materials FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_PutCacheEntryInput__M9_materials (software.amazon.cryptography.materialproviders.internaldafny.types._IMaterials value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_Materials(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IMaterials ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_PutCacheEntryInput__M9_materials (AWS.Cryptography.MaterialProviders.Materials value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_Materials(value); } internal static long FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_PutCacheEntryInput__M12_creationTime (long value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S12_PositiveLong(value); } internal static long ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_PutCacheEntryInput__M12_creationTime (long value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S12_PositiveLong(value); } internal static long FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_PutCacheEntryInput__M10_expiryTime (long value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S12_PositiveLong(value); } internal static long ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_PutCacheEntryInput__M10_expiryTime (long value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S12_PositiveLong(value); } internal static int? FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_PutCacheEntryInput__M12_messagesUsed (Wrappers_Compile._IOption<int> value) { return value.is_None ? (int?) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_PositiveInteger(value.Extract()); } internal static Wrappers_Compile._IOption<int> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_PutCacheEntryInput__M12_messagesUsed (int? value) { return value == null ? Wrappers_Compile.Option<int>.create_None() : Wrappers_Compile.Option<int>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_PositiveInteger((int) value)); } internal static int? FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_PutCacheEntryInput__M9_bytesUsed (Wrappers_Compile._IOption<int> value) { return value.is_None ? (int?) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_PositiveInteger(value.Extract()); } internal static Wrappers_Compile._IOption<int> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_PutCacheEntryInput__M9_bytesUsed (int? value) { return value == null ? Wrappers_Compile.Option<int>.create_None() : Wrappers_Compile.Option<int>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_PositiveInteger((int) value)); } internal static AWS.Cryptography.MaterialProviders.ECDSA FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_SignatureAlgorithm__M5_ECDSA (software.amazon.cryptography.materialproviders.internaldafny.types._IECDSA value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S5_ECDSA(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IECDSA ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_SignatureAlgorithm__M5_ECDSA (AWS.Cryptography.MaterialProviders.ECDSA value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S5_ECDSA(value); } internal static AWS.Cryptography.MaterialProviders.None FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_SignatureAlgorithm__M4_None (software.amazon.cryptography.materialproviders.internaldafny.types._INone value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S4_None(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._INone ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_SignatureAlgorithm__M4_None (AWS.Cryptography.MaterialProviders.None value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S4_None(value); } internal static AWS.Cryptography.Primitives.DigestAlgorithm FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_SymmetricSignatureAlgorithm__M4_HMAC (software.amazon.cryptography.primitives.internaldafny.types._IDigestAlgorithm value) { return FromDafny_N3_aws__N12_cryptography__N10_primitives__S15_DigestAlgorithm(value); } internal static software.amazon.cryptography.primitives.internaldafny.types._IDigestAlgorithm ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_SymmetricSignatureAlgorithm__M4_HMAC (AWS.Cryptography.Primitives.DigestAlgorithm value) { return ToDafny_N3_aws__N12_cryptography__N10_primitives__S15_DigestAlgorithm(value); } internal static AWS.Cryptography.MaterialProviders.None FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_SymmetricSignatureAlgorithm__M4_None (software.amazon.cryptography.materialproviders.internaldafny.types._INone value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S4_None(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._INone ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_SymmetricSignatureAlgorithm__M4_None (AWS.Cryptography.MaterialProviders.None value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S4_None(value); } internal static System.IO.MemoryStream FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S25_UpdateUsageMetadataInput__M10_identifier (Dafny.ISequence<byte> value) { return FromDafny_N6_smithy__N3_api__S4_Blob(value); } internal static Dafny.ISequence<byte> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S25_UpdateUsageMetadataInput__M10_identifier (System.IO.MemoryStream value) { return ToDafny_N6_smithy__N3_api__S4_Blob(value); } internal static int FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S25_UpdateUsageMetadataInput__M9_bytesUsed (int value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_PositiveInteger(value); } internal static int ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S25_UpdateUsageMetadataInput__M9_bytesUsed (int value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_PositiveInteger(value); } internal static AWS.Cryptography.MaterialProviders.AlgorithmSuiteId FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_ValidateCommitmentPolicyOnDecryptInput__M9_algorithm (software.amazon.cryptography.materialproviders.internaldafny.types._IAlgorithmSuiteId value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_AlgorithmSuiteId(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IAlgorithmSuiteId ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_ValidateCommitmentPolicyOnDecryptInput__M9_algorithm (AWS.Cryptography.MaterialProviders.AlgorithmSuiteId value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_AlgorithmSuiteId(value); } internal static AWS.Cryptography.MaterialProviders.CommitmentPolicy FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_ValidateCommitmentPolicyOnDecryptInput__M16_commitmentPolicy (software.amazon.cryptography.materialproviders.internaldafny.types._ICommitmentPolicy value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_CommitmentPolicy(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._ICommitmentPolicy ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_ValidateCommitmentPolicyOnDecryptInput__M16_commitmentPolicy (AWS.Cryptography.MaterialProviders.CommitmentPolicy value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_CommitmentPolicy(value); } internal static AWS.Cryptography.MaterialProviders.AlgorithmSuiteId FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_ValidateCommitmentPolicyOnEncryptInput__M9_algorithm (software.amazon.cryptography.materialproviders.internaldafny.types._IAlgorithmSuiteId value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_AlgorithmSuiteId(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IAlgorithmSuiteId ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_ValidateCommitmentPolicyOnEncryptInput__M9_algorithm (AWS.Cryptography.MaterialProviders.AlgorithmSuiteId value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_AlgorithmSuiteId(value); } internal static AWS.Cryptography.MaterialProviders.CommitmentPolicy FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_ValidateCommitmentPolicyOnEncryptInput__M16_commitmentPolicy (software.amazon.cryptography.materialproviders.internaldafny.types._ICommitmentPolicy value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_CommitmentPolicy(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._ICommitmentPolicy ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_ValidateCommitmentPolicyOnEncryptInput__M16_commitmentPolicy (AWS.Cryptography.MaterialProviders.CommitmentPolicy value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_CommitmentPolicy(value); } internal static AWS.Cryptography.MaterialProviders.DecryptionMaterials FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_ValidDecryptionMaterialsTransitionInput__M5_start (software.amazon.cryptography.materialproviders.internaldafny.types._IDecryptionMaterials value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IDecryptionMaterials ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_ValidDecryptionMaterialsTransitionInput__M5_start (AWS.Cryptography.MaterialProviders.DecryptionMaterials value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials(value); } internal static AWS.Cryptography.MaterialProviders.DecryptionMaterials FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_ValidDecryptionMaterialsTransitionInput__M4_stop (software.amazon.cryptography.materialproviders.internaldafny.types._IDecryptionMaterials value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IDecryptionMaterials ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_ValidDecryptionMaterialsTransitionInput__M4_stop (AWS.Cryptography.MaterialProviders.DecryptionMaterials value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DecryptionMaterials(value); } internal static AWS.Cryptography.MaterialProviders.EncryptionMaterials FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_ValidEncryptionMaterialsTransitionInput__M5_start (software.amazon.cryptography.materialproviders.internaldafny.types._IEncryptionMaterials value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IEncryptionMaterials ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_ValidEncryptionMaterialsTransitionInput__M5_start (AWS.Cryptography.MaterialProviders.EncryptionMaterials value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials(value); } internal static AWS.Cryptography.MaterialProviders.EncryptionMaterials FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_ValidEncryptionMaterialsTransitionInput__M4_stop (software.amazon.cryptography.materialproviders.internaldafny.types._IEncryptionMaterials value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IEncryptionMaterials ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S39_ValidEncryptionMaterialsTransitionInput__M4_stop (AWS.Cryptography.MaterialProviders.EncryptionMaterials value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_EncryptionMaterials(value); } internal static System.IO.MemoryStream FromDafny_N6_smithy__N3_api__S4_Blob (Dafny.ISequence<byte> value) { return new System.IO.MemoryStream(value.Elements); } internal static Dafny.ISequence<byte> ToDafny_N6_smithy__N3_api__S4_Blob (System.IO.MemoryStream value) { return Dafny.Sequence<byte>.FromArray(value.ToArray()); } internal static int FromDafny_N6_smithy__N3_api__S7_Integer (int value) { return value; } internal static int ToDafny_N6_smithy__N3_api__S7_Integer (int value) { return value; } internal static string FromDafny_N6_smithy__N3_api__S6_String (Dafny.ISequence<char> value) { return new string(value.Elements); } internal static Dafny.ISequence<char> ToDafny_N6_smithy__N3_api__S6_String (string value) { return Dafny.Sequence<char>.FromString(value); } internal static Amazon.KeyManagementService.IAmazonKeyManagementService FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_KmsClientReference (software.amazon.cryptography.services.kms.internaldafny.types.IKMSClient value) { // This is converting a reference type in a dependant module. // Therefore it defers to the dependant module for conversion return AWS.Cryptography.MaterialProviders.TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_KmsClientReference(value); } internal static software.amazon.cryptography.services.kms.internaldafny.types.IKMSClient ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_KmsClientReference (Amazon.KeyManagementService.IAmazonKeyManagementService value) { // This is converting a reference type in a dependant module. // Therefore it defers to the dependant module for conversion return AWS.Cryptography.MaterialProviders.TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_KmsClientReference(value); } internal static AWS.Cryptography.MaterialProviders.DiscoveryFilter FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_DiscoveryFilter (software.amazon.cryptography.materialproviders.internaldafny.types._IDiscoveryFilter value) { software.amazon.cryptography.materialproviders.internaldafny.types.DiscoveryFilter concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.DiscoveryFilter)value; AWS.Cryptography.MaterialProviders.DiscoveryFilter converted = new AWS.Cryptography.MaterialProviders.DiscoveryFilter(); converted.AccountIds = (System.Collections.Generic.List<string>) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_DiscoveryFilter__M10_accountIds(concrete._accountIds); converted.Partition = (string) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_DiscoveryFilter__M9_partition(concrete._partition); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IDiscoveryFilter ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_DiscoveryFilter (AWS.Cryptography.MaterialProviders.DiscoveryFilter value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.DiscoveryFilter ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_DiscoveryFilter__M10_accountIds(value.AccountIds) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_DiscoveryFilter__M9_partition(value.Partition) ) ; } internal static System.Collections.Generic.List<string> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_GrantTokenList (Dafny.ISequence<Dafny.ISequence<char>> value) { return new System.Collections.Generic.List<string>(value.Elements.Select(FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_GrantTokenList__M6_member)); } internal static Dafny.ISequence<Dafny.ISequence<char>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_GrantTokenList (System.Collections.Generic.List<string> value) { return Dafny.Sequence<Dafny.ISequence<char>>.FromArray(value.Select(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_GrantTokenList__M6_member).ToArray()); } internal static System.Collections.Generic.List<string> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S10_RegionList (Dafny.ISequence<Dafny.ISequence<char>> value) { return new System.Collections.Generic.List<string>(value.Elements.Select(FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S10_RegionList__M6_member)); } internal static Dafny.ISequence<Dafny.ISequence<char>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S10_RegionList (System.Collections.Generic.List<string> value) { return Dafny.Sequence<Dafny.ISequence<char>>.FromArray(value.Select(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S10_RegionList__M6_member).ToArray()); } internal static AWS.Cryptography.MaterialProviders.IClientSupplier FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_ClientSupplierReference (software.amazon.cryptography.materialproviders.internaldafny.types.IClientSupplier value) { // This is converting a reference type in a dependant module. // Therefore it defers to the dependant module for conversion return AWS.Cryptography.MaterialProviders.TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_ClientSupplierReference(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types.IClientSupplier ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_ClientSupplierReference (AWS.Cryptography.MaterialProviders.IClientSupplier value) { // This is converting a reference type in a dependant module. // Therefore it defers to the dependant module for conversion return new WrappedNativeWrapper_ClientSupplier((ClientSupplierBase)value); } internal static AWS.Cryptography.MaterialProviders.IBranchKeyIdSupplier FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S28_BranchKeyIdSupplierReference (software.amazon.cryptography.materialproviders.internaldafny.types.IBranchKeyIdSupplier value) { // This is converting a reference type in a dependant module. // Therefore it defers to the dependant module for conversion return AWS.Cryptography.MaterialProviders.TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S28_BranchKeyIdSupplierReference(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types.IBranchKeyIdSupplier ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S28_BranchKeyIdSupplierReference (AWS.Cryptography.MaterialProviders.IBranchKeyIdSupplier value) { // This is converting a reference type in a dependant module. // Therefore it defers to the dependant module for conversion return new WrappedNativeWrapper_BranchKeyIdSupplier((BranchKeyIdSupplierBase)value); } internal static AWS.Cryptography.KeyStore.KeyStore FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_KeyStoreReference (software.amazon.cryptography.keystore.internaldafny.types.IKeyStoreClient value) { // This is converting a reference type in a dependant module. // Therefore it defers to the dependant module for conversion return AWS.Cryptography.MaterialProviders.TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_KeyStoreReference(value); } internal static software.amazon.cryptography.keystore.internaldafny.types.IKeyStoreClient ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_KeyStoreReference (AWS.Cryptography.KeyStore.KeyStore value) { // This is converting a reference type in a dependant module. // Therefore it defers to the dependant module for conversion return AWS.Cryptography.MaterialProviders.TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_KeyStoreReference(value); } internal static long FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S12_PositiveLong (long value) { return value; } internal static long ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S12_PositiveLong (long value) { return value; } internal static int FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_PositiveInteger (int value) { return value; } internal static int ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_PositiveInteger (int value) { return value; } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S8_KmsKeyId (Dafny.ISequence<char> value) { return new string(value.Elements); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S8_KmsKeyId (string value) { return Dafny.Sequence<char>.FromString(value); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S6_Region (Dafny.ISequence<char> value) { return new string(value.Elements); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S6_Region (string value) { return Dafny.Sequence<char>.FromString(value); } internal static System.Collections.Generic.List<string> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S12_KmsKeyIdList (Dafny.ISequence<Dafny.ISequence<char>> value) { return new System.Collections.Generic.List<string>(value.Elements.Select(FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S12_KmsKeyIdList__M6_member)); } internal static Dafny.ISequence<Dafny.ISequence<char>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S12_KmsKeyIdList (System.Collections.Generic.List<string> value) { return Dafny.Sequence<Dafny.ISequence<char>>.FromArray(value.Select(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S12_KmsKeyIdList__M6_member).ToArray()); } internal static System.IO.MemoryStream FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S6_Secret (Dafny.ISequence<byte> value) { return new System.IO.MemoryStream(value.Elements); } internal static Dafny.ISequence<byte> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S6_Secret (System.IO.MemoryStream value) { return Dafny.Sequence<byte>.FromArray(value.ToArray()); } internal static Amazon.KeyManagementService.EncryptionAlgorithmSpec FromDafny_N3_com__N9_amazonaws__N3_kms__S23_EncryptionAlgorithmSpec (software.amazon.cryptography.services.kms.internaldafny.types._IEncryptionAlgorithmSpec value) { if (value.is_SYMMETRIC__DEFAULT) return Amazon.KeyManagementService.EncryptionAlgorithmSpec.SYMMETRIC_DEFAULT; if (value.is_RSAES__OAEP__SHA__1) return Amazon.KeyManagementService.EncryptionAlgorithmSpec.RSAES_OAEP_SHA_1; if (value.is_RSAES__OAEP__SHA__256) return Amazon.KeyManagementService.EncryptionAlgorithmSpec.RSAES_OAEP_SHA_256; throw new System.ArgumentException("Invalid Amazon.KeyManagementService.EncryptionAlgorithmSpec value"); } internal static software.amazon.cryptography.services.kms.internaldafny.types._IEncryptionAlgorithmSpec ToDafny_N3_com__N9_amazonaws__N3_kms__S23_EncryptionAlgorithmSpec (Amazon.KeyManagementService.EncryptionAlgorithmSpec value) { if (Amazon.KeyManagementService.EncryptionAlgorithmSpec.SYMMETRIC_DEFAULT.Equals(value)) return software.amazon.cryptography.services.kms.internaldafny.types.EncryptionAlgorithmSpec.create_SYMMETRIC__DEFAULT(); if (Amazon.KeyManagementService.EncryptionAlgorithmSpec.RSAES_OAEP_SHA_1.Equals(value)) return software.amazon.cryptography.services.kms.internaldafny.types.EncryptionAlgorithmSpec.create_RSAES__OAEP__SHA__1(); if (Amazon.KeyManagementService.EncryptionAlgorithmSpec.RSAES_OAEP_SHA_256.Equals(value)) return software.amazon.cryptography.services.kms.internaldafny.types.EncryptionAlgorithmSpec.create_RSAES__OAEP__SHA__256(); throw new System.ArgumentException("Invalid Amazon.KeyManagementService.EncryptionAlgorithmSpec value"); } internal static AWS.Cryptography.MaterialProviders.ICryptographicMaterialsCache FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CryptographicMaterialsCacheReference (software.amazon.cryptography.materialproviders.internaldafny.types.ICryptographicMaterialsCache value) { // This is converting a reference type in a dependant module. // Therefore it defers to the dependant module for conversion return AWS.Cryptography.MaterialProviders.TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CryptographicMaterialsCacheReference(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types.ICryptographicMaterialsCache ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_CryptographicMaterialsCacheReference (AWS.Cryptography.MaterialProviders.ICryptographicMaterialsCache value) { // This is converting a reference type in a dependant module. // Therefore it defers to the dependant module for conversion return new WrappedNativeWrapper_CryptographicMaterialsCache((CryptographicMaterialsCacheBase)value); } internal static AWS.Cryptography.MaterialProviders.ICryptographicMaterialsManager FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CryptographicMaterialsManagerReference (software.amazon.cryptography.materialproviders.internaldafny.types.ICryptographicMaterialsManager value) { // This is converting a reference type in a dependant module. // Therefore it defers to the dependant module for conversion return AWS.Cryptography.MaterialProviders.TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CryptographicMaterialsManagerReference(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types.ICryptographicMaterialsManager ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S38_CryptographicMaterialsManagerReference (AWS.Cryptography.MaterialProviders.ICryptographicMaterialsManager value) { // This is converting a reference type in a dependant module. // Therefore it defers to the dependant module for conversion return new WrappedNativeWrapper_CryptographicMaterialsManager((CryptographicMaterialsManagerBase)value); } internal static AWS.Cryptography.MaterialProviders.IKeyring FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_KeyringReference (software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring value) { // This is converting a reference type in a dependant module. // Therefore it defers to the dependant module for conversion return AWS.Cryptography.MaterialProviders.TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_KeyringReference(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_KeyringReference (AWS.Cryptography.MaterialProviders.IKeyring value) { // This is converting a reference type in a dependant module. // Therefore it defers to the dependant module for conversion return new WrappedNativeWrapper_Keyring((KeyringBase)value); } internal static System.Collections.Generic.List<string> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_EncryptionContextKeys (Dafny.ISequence<Dafny.ISequence<byte>> value) { return new System.Collections.Generic.List<string>(value.Elements.Select(FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_EncryptionContextKeys__M6_member)); } internal static Dafny.ISequence<Dafny.ISequence<byte>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_EncryptionContextKeys (System.Collections.Generic.List<string> value) { return Dafny.Sequence<Dafny.ISequence<byte>>.FromArray(value.Select(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_EncryptionContextKeys__M6_member).ToArray()); } internal static System.Collections.Generic.List<AWS.Cryptography.MaterialProviders.IKeyring> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S11_KeyringList (Dafny.ISequence<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring> value) { return new System.Collections.Generic.List<AWS.Cryptography.MaterialProviders.IKeyring>(value.Elements.Select(FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S11_KeyringList__M6_member)); } internal static Dafny.ISequence<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S11_KeyringList (System.Collections.Generic.List<AWS.Cryptography.MaterialProviders.IKeyring> value) { return Dafny.Sequence<software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring>.FromArray(value.Select(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S11_KeyringList__M6_member).ToArray()); } internal static System.Collections.Generic.Dictionary<string, string> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_EncryptionContext (Dafny.IMap<Dafny.ISequence<byte>, Dafny.ISequence<byte>> value) { return value.ItemEnumerable.ToDictionary(pair => FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_EncryptionContext__M3_key(pair.Car), pair => FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_EncryptionContext__M5_value(pair.Cdr)); } internal static Dafny.IMap<Dafny.ISequence<byte>, Dafny.ISequence<byte>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_EncryptionContext (System.Collections.Generic.Dictionary<string, string> value) { return Dafny.Map<Dafny.ISequence<byte>, Dafny.ISequence<byte>>.FromCollection(value.Select(pair => new Dafny.Pair<Dafny.ISequence<byte>, Dafny.ISequence<byte>>(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_EncryptionContext__M3_key(pair.Key), ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_EncryptionContext__M5_value(pair.Value)) )); } internal static System.Collections.Generic.List<AWS.Cryptography.MaterialProviders.EncryptedDataKey> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_EncryptedDataKeyList (Dafny.ISequence<software.amazon.cryptography.materialproviders.internaldafny.types._IEncryptedDataKey> value) { return new System.Collections.Generic.List<AWS.Cryptography.MaterialProviders.EncryptedDataKey>(value.Elements.Select(FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_EncryptedDataKeyList__M6_member)); } internal static Dafny.ISequence<software.amazon.cryptography.materialproviders.internaldafny.types._IEncryptedDataKey> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_EncryptedDataKeyList (System.Collections.Generic.List<AWS.Cryptography.MaterialProviders.EncryptedDataKey> value) { return Dafny.Sequence<software.amazon.cryptography.materialproviders.internaldafny.types._IEncryptedDataKey>.FromArray(value.Select(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_EncryptedDataKeyList__M6_member).ToArray()); } internal static AWS.Cryptography.MaterialProviders.HKDF FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S4_HKDF (software.amazon.cryptography.materialproviders.internaldafny.types._IHKDF value) { software.amazon.cryptography.materialproviders.internaldafny.types.HKDF concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.HKDF)value; AWS.Cryptography.MaterialProviders.HKDF converted = new AWS.Cryptography.MaterialProviders.HKDF(); converted.Hmac = (AWS.Cryptography.Primitives.DigestAlgorithm) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S4_HKDF__M4_hmac(concrete._hmac); converted.SaltLength = (int) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S4_HKDF__M10_saltLength(concrete._saltLength); converted.InputKeyLength = (int) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S4_HKDF__M14_inputKeyLength(concrete._inputKeyLength); converted.OutputKeyLength = (int) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S4_HKDF__M15_outputKeyLength(concrete._outputKeyLength); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IHKDF ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S4_HKDF (AWS.Cryptography.MaterialProviders.HKDF value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.HKDF ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S4_HKDF__M4_hmac(value.Hmac) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S4_HKDF__M10_saltLength(value.SaltLength) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S4_HKDF__M14_inputKeyLength(value.InputKeyLength) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S4_HKDF__M15_outputKeyLength(value.OutputKeyLength) ) ; } internal static AWS.Cryptography.MaterialProviders.IDENTITY FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S8_IDENTITY (software.amazon.cryptography.materialproviders.internaldafny.types._IIDENTITY value) { software.amazon.cryptography.materialproviders.internaldafny.types.IDENTITY concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.IDENTITY)value; AWS.Cryptography.MaterialProviders.IDENTITY converted = new AWS.Cryptography.MaterialProviders.IDENTITY(); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IIDENTITY ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S8_IDENTITY (AWS.Cryptography.MaterialProviders.IDENTITY value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.IDENTITY ( ) ; } internal static AWS.Cryptography.MaterialProviders.None FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S4_None (software.amazon.cryptography.materialproviders.internaldafny.types._INone value) { software.amazon.cryptography.materialproviders.internaldafny.types.None concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.None)value; AWS.Cryptography.MaterialProviders.None converted = new AWS.Cryptography.MaterialProviders.None(); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._INone ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S4_None (AWS.Cryptography.MaterialProviders.None value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.None ( ) ; } internal static AWS.Cryptography.MaterialProviders.DIRECT_KEY_WRAPPING FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DIRECT_KEY_WRAPPING (software.amazon.cryptography.materialproviders.internaldafny.types._IDIRECT__KEY__WRAPPING value) { software.amazon.cryptography.materialproviders.internaldafny.types.DIRECT__KEY__WRAPPING concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.DIRECT__KEY__WRAPPING)value; AWS.Cryptography.MaterialProviders.DIRECT_KEY_WRAPPING converted = new AWS.Cryptography.MaterialProviders.DIRECT_KEY_WRAPPING(); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IDIRECT__KEY__WRAPPING ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DIRECT_KEY_WRAPPING (AWS.Cryptography.MaterialProviders.DIRECT_KEY_WRAPPING value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.DIRECT__KEY__WRAPPING ( ) ; } internal static AWS.Cryptography.MaterialProviders.IntermediateKeyWrapping FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_IntermediateKeyWrapping (software.amazon.cryptography.materialproviders.internaldafny.types._IIntermediateKeyWrapping value) { software.amazon.cryptography.materialproviders.internaldafny.types.IntermediateKeyWrapping concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.IntermediateKeyWrapping)value; AWS.Cryptography.MaterialProviders.IntermediateKeyWrapping converted = new AWS.Cryptography.MaterialProviders.IntermediateKeyWrapping(); converted.KeyEncryptionKeyKdf = (AWS.Cryptography.MaterialProviders.DerivationAlgorithm) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_IntermediateKeyWrapping__M19_keyEncryptionKeyKdf(concrete._keyEncryptionKeyKdf); converted.MacKeyKdf = (AWS.Cryptography.MaterialProviders.DerivationAlgorithm) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_IntermediateKeyWrapping__M9_macKeyKdf(concrete._macKeyKdf); converted.PdkEncryptAlgorithm = (AWS.Cryptography.MaterialProviders.Encrypt) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_IntermediateKeyWrapping__M19_pdkEncryptAlgorithm(concrete._pdkEncryptAlgorithm); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IIntermediateKeyWrapping ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_IntermediateKeyWrapping (AWS.Cryptography.MaterialProviders.IntermediateKeyWrapping value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.IntermediateKeyWrapping ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_IntermediateKeyWrapping__M19_keyEncryptionKeyKdf(value.KeyEncryptionKeyKdf) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_IntermediateKeyWrapping__M9_macKeyKdf(value.MacKeyKdf) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_IntermediateKeyWrapping__M19_pdkEncryptAlgorithm(value.PdkEncryptAlgorithm) ) ; } internal static AWS.Cryptography.Primitives.AES_GCM FromDafny_N3_aws__N12_cryptography__N10_primitives__S7_AES_GCM (software.amazon.cryptography.primitives.internaldafny.types._IAES__GCM value) { software.amazon.cryptography.primitives.internaldafny.types.AES__GCM concrete = (software.amazon.cryptography.primitives.internaldafny.types.AES__GCM)value; AWS.Cryptography.Primitives.AES_GCM converted = new AWS.Cryptography.Primitives.AES_GCM(); converted.KeyLength = (int) FromDafny_N3_aws__N12_cryptography__N10_primitives__S7_AES_GCM__M9_keyLength(concrete._keyLength); converted.TagLength = (int) FromDafny_N3_aws__N12_cryptography__N10_primitives__S7_AES_GCM__M9_tagLength(concrete._tagLength); converted.IvLength = (int) FromDafny_N3_aws__N12_cryptography__N10_primitives__S7_AES_GCM__M8_ivLength(concrete._ivLength); return converted; } internal static software.amazon.cryptography.primitives.internaldafny.types._IAES__GCM ToDafny_N3_aws__N12_cryptography__N10_primitives__S7_AES_GCM (AWS.Cryptography.Primitives.AES_GCM value) { return new software.amazon.cryptography.primitives.internaldafny.types.AES__GCM ( ToDafny_N3_aws__N12_cryptography__N10_primitives__S7_AES_GCM__M9_keyLength(value.KeyLength) , ToDafny_N3_aws__N12_cryptography__N10_primitives__S7_AES_GCM__M9_tagLength(value.TagLength) , ToDafny_N3_aws__N12_cryptography__N10_primitives__S7_AES_GCM__M8_ivLength(value.IvLength) ) ; } internal static System.Collections.Generic.List<System.IO.MemoryStream> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_SymmetricSigningKeyList (Dafny.ISequence<Dafny.ISequence<byte>> value) { return new System.Collections.Generic.List<System.IO.MemoryStream>(value.Elements.Select(FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_SymmetricSigningKeyList__M6_member)); } internal static Dafny.ISequence<Dafny.ISequence<byte>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_SymmetricSigningKeyList (System.Collections.Generic.List<System.IO.MemoryStream> value) { return Dafny.Sequence<Dafny.ISequence<byte>>.FromArray(value.Select(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_SymmetricSigningKeyList__M6_member).ToArray()); } internal static long FromDafny_N6_smithy__N3_api__S4_Long (long value) { return value; } internal static long ToDafny_N6_smithy__N3_api__S4_Long (long value) { return value; } internal static AWS.Cryptography.MaterialProviders.BranchKeyMaterials FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_BranchKeyMaterials (software.amazon.cryptography.materialproviders.internaldafny.types._IBranchKeyMaterials value) { software.amazon.cryptography.materialproviders.internaldafny.types.BranchKeyMaterials concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.BranchKeyMaterials)value; AWS.Cryptography.MaterialProviders.BranchKeyMaterials converted = new AWS.Cryptography.MaterialProviders.BranchKeyMaterials(); converted.BranchKeyVersion = (string) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_BranchKeyMaterials__M16_branchKeyVersion(concrete._branchKeyVersion); converted.BranchKey = (System.IO.MemoryStream) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_BranchKeyMaterials__M9_branchKey(concrete._branchKey); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IBranchKeyMaterials ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_BranchKeyMaterials (AWS.Cryptography.MaterialProviders.BranchKeyMaterials value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.BranchKeyMaterials ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_BranchKeyMaterials__M16_branchKeyVersion(value.BranchKeyVersion) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_BranchKeyMaterials__M9_branchKey(value.BranchKey) ) ; } internal static AWS.Cryptography.MaterialProviders.BeaconKeyMaterials FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_BeaconKeyMaterials (software.amazon.cryptography.materialproviders.internaldafny.types._IBeaconKeyMaterials value) { software.amazon.cryptography.materialproviders.internaldafny.types.BeaconKeyMaterials concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.BeaconKeyMaterials)value; AWS.Cryptography.MaterialProviders.BeaconKeyMaterials converted = new AWS.Cryptography.MaterialProviders.BeaconKeyMaterials(); converted.BeaconKeyIdentifier = (string) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_BeaconKeyMaterials__M19_beaconKeyIdentifier(concrete._beaconKeyIdentifier); if (concrete._beaconKey.is_Some) converted.BeaconKey = (System.IO.MemoryStream) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_BeaconKeyMaterials__M9_beaconKey(concrete._beaconKey); if (concrete._hmacKeys.is_Some) converted.HmacKeys = (System.Collections.Generic.Dictionary<string, System.IO.MemoryStream>) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_BeaconKeyMaterials__M8_hmacKeys(concrete._hmacKeys); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IBeaconKeyMaterials ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_BeaconKeyMaterials (AWS.Cryptography.MaterialProviders.BeaconKeyMaterials value) { System.IO.MemoryStream var_beaconKey = value.IsSetBeaconKey() ? value.BeaconKey : (System.IO.MemoryStream) null; System.Collections.Generic.Dictionary<string, System.IO.MemoryStream> var_hmacKeys = value.IsSetHmacKeys() ? value.HmacKeys : (System.Collections.Generic.Dictionary<string, System.IO.MemoryStream>) null; return new software.amazon.cryptography.materialproviders.internaldafny.types.BeaconKeyMaterials ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_BeaconKeyMaterials__M19_beaconKeyIdentifier(value.BeaconKeyIdentifier) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_BeaconKeyMaterials__M9_beaconKey(var_beaconKey) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_BeaconKeyMaterials__M8_hmacKeys(var_hmacKeys) ) ; } internal static AWS.Cryptography.MaterialProviders.ECDSA FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S5_ECDSA (software.amazon.cryptography.materialproviders.internaldafny.types._IECDSA value) { software.amazon.cryptography.materialproviders.internaldafny.types.ECDSA concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.ECDSA)value; AWS.Cryptography.MaterialProviders.ECDSA converted = new AWS.Cryptography.MaterialProviders.ECDSA(); converted.Curve = (AWS.Cryptography.Primitives.ECDSASignatureAlgorithm) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S5_ECDSA__M5_curve(concrete._curve); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IECDSA ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S5_ECDSA (AWS.Cryptography.MaterialProviders.ECDSA value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.ECDSA ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S5_ECDSA__M5_curve(value.Curve) ) ; } internal static AWS.Cryptography.Primitives.DigestAlgorithm FromDafny_N3_aws__N12_cryptography__N10_primitives__S15_DigestAlgorithm (software.amazon.cryptography.primitives.internaldafny.types._IDigestAlgorithm value) { if (value.is_SHA__512) return AWS.Cryptography.Primitives.DigestAlgorithm.SHA_512; if (value.is_SHA__384) return AWS.Cryptography.Primitives.DigestAlgorithm.SHA_384; if (value.is_SHA__256) return AWS.Cryptography.Primitives.DigestAlgorithm.SHA_256; throw new System.ArgumentException("Invalid AWS.Cryptography.Primitives.DigestAlgorithm value"); } internal static software.amazon.cryptography.primitives.internaldafny.types._IDigestAlgorithm ToDafny_N3_aws__N12_cryptography__N10_primitives__S15_DigestAlgorithm (AWS.Cryptography.Primitives.DigestAlgorithm value) { if (AWS.Cryptography.Primitives.DigestAlgorithm.SHA_512.Equals(value)) return software.amazon.cryptography.primitives.internaldafny.types.DigestAlgorithm.create_SHA__512(); if (AWS.Cryptography.Primitives.DigestAlgorithm.SHA_384.Equals(value)) return software.amazon.cryptography.primitives.internaldafny.types.DigestAlgorithm.create_SHA__384(); if (AWS.Cryptography.Primitives.DigestAlgorithm.SHA_256.Equals(value)) return software.amazon.cryptography.primitives.internaldafny.types.DigestAlgorithm.create_SHA__256(); throw new System.ArgumentException("Invalid AWS.Cryptography.Primitives.DigestAlgorithm value"); } internal static System.Collections.Generic.List<string> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_DiscoveryFilter__M10_accountIds (Dafny.ISequence<Dafny.ISequence<char>> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S13_AccountIdList(value); } internal static Dafny.ISequence<Dafny.ISequence<char>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_DiscoveryFilter__M10_accountIds (System.Collections.Generic.List<string> value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S13_AccountIdList(value); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_DiscoveryFilter__M9_partition (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_DiscoveryFilter__M9_partition (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_GrantTokenList__M6_member (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_GrantTokenList__M6_member (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S10_RegionList__M6_member (Dafny.ISequence<char> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S6_Region(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S10_RegionList__M6_member (string value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S6_Region(value); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S12_KmsKeyIdList__M6_member (Dafny.ISequence<char> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S8_KmsKeyId(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S12_KmsKeyIdList__M6_member (string value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S8_KmsKeyId(value); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_EncryptionContextKeys__M6_member (Dafny.ISequence<byte> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_Utf8Bytes(value); } internal static Dafny.ISequence<byte> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_EncryptionContextKeys__M6_member (string value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_Utf8Bytes(value); } internal static AWS.Cryptography.MaterialProviders.IKeyring FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S11_KeyringList__M6_member (software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_KeyringReference(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S11_KeyringList__M6_member (AWS.Cryptography.MaterialProviders.IKeyring value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_KeyringReference(value); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_EncryptionContext__M3_key (Dafny.ISequence<byte> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_Utf8Bytes(value); } internal static Dafny.ISequence<byte> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_EncryptionContext__M3_key (string value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_Utf8Bytes(value); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_EncryptionContext__M5_value (Dafny.ISequence<byte> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_Utf8Bytes(value); } internal static Dafny.ISequence<byte> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_EncryptionContext__M5_value (string value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_Utf8Bytes(value); } internal static AWS.Cryptography.MaterialProviders.EncryptedDataKey FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_EncryptedDataKeyList__M6_member (software.amazon.cryptography.materialproviders.internaldafny.types._IEncryptedDataKey value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_EncryptedDataKey(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IEncryptedDataKey ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_EncryptedDataKeyList__M6_member (AWS.Cryptography.MaterialProviders.EncryptedDataKey value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_EncryptedDataKey(value); } internal static AWS.Cryptography.Primitives.DigestAlgorithm FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S4_HKDF__M4_hmac (software.amazon.cryptography.primitives.internaldafny.types._IDigestAlgorithm value) { return FromDafny_N3_aws__N12_cryptography__N10_primitives__S15_DigestAlgorithm(value); } internal static software.amazon.cryptography.primitives.internaldafny.types._IDigestAlgorithm ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S4_HKDF__M4_hmac (AWS.Cryptography.Primitives.DigestAlgorithm value) { return ToDafny_N3_aws__N12_cryptography__N10_primitives__S15_DigestAlgorithm(value); } internal static int FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S4_HKDF__M10_saltLength (int value) { return FromDafny_N3_aws__N12_cryptography__N10_primitives__S15_PositiveInteger(value); } internal static int ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S4_HKDF__M10_saltLength (int value) { return ToDafny_N3_aws__N12_cryptography__N10_primitives__S15_PositiveInteger(value); } internal static int FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S4_HKDF__M14_inputKeyLength (int value) { return FromDafny_N3_aws__N12_cryptography__N10_primitives__S18_SymmetricKeyLength(value); } internal static int ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S4_HKDF__M14_inputKeyLength (int value) { return ToDafny_N3_aws__N12_cryptography__N10_primitives__S18_SymmetricKeyLength(value); } internal static int FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S4_HKDF__M15_outputKeyLength (int value) { return FromDafny_N3_aws__N12_cryptography__N10_primitives__S18_SymmetricKeyLength(value); } internal static int ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S4_HKDF__M15_outputKeyLength (int value) { return ToDafny_N3_aws__N12_cryptography__N10_primitives__S18_SymmetricKeyLength(value); } internal static AWS.Cryptography.MaterialProviders.DerivationAlgorithm FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_IntermediateKeyWrapping__M19_keyEncryptionKeyKdf (software.amazon.cryptography.materialproviders.internaldafny.types._IDerivationAlgorithm value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DerivationAlgorithm(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IDerivationAlgorithm ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_IntermediateKeyWrapping__M19_keyEncryptionKeyKdf (AWS.Cryptography.MaterialProviders.DerivationAlgorithm value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DerivationAlgorithm(value); } internal static AWS.Cryptography.MaterialProviders.DerivationAlgorithm FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_IntermediateKeyWrapping__M9_macKeyKdf (software.amazon.cryptography.materialproviders.internaldafny.types._IDerivationAlgorithm value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DerivationAlgorithm(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IDerivationAlgorithm ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_IntermediateKeyWrapping__M9_macKeyKdf (AWS.Cryptography.MaterialProviders.DerivationAlgorithm value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_DerivationAlgorithm(value); } internal static AWS.Cryptography.MaterialProviders.Encrypt FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_IntermediateKeyWrapping__M19_pdkEncryptAlgorithm (software.amazon.cryptography.materialproviders.internaldafny.types._IEncrypt value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S7_Encrypt(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IEncrypt ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_IntermediateKeyWrapping__M19_pdkEncryptAlgorithm (AWS.Cryptography.MaterialProviders.Encrypt value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S7_Encrypt(value); } internal static int FromDafny_N3_aws__N12_cryptography__N10_primitives__S7_AES_GCM__M9_keyLength (int value) { return FromDafny_N3_aws__N12_cryptography__N10_primitives__S18_SymmetricKeyLength(value); } internal static int ToDafny_N3_aws__N12_cryptography__N10_primitives__S7_AES_GCM__M9_keyLength (int value) { return ToDafny_N3_aws__N12_cryptography__N10_primitives__S18_SymmetricKeyLength(value); } internal static int FromDafny_N3_aws__N12_cryptography__N10_primitives__S7_AES_GCM__M9_tagLength (int value) { return FromDafny_N3_aws__N12_cryptography__N10_primitives__S10_Uint8Bytes(value); } internal static int ToDafny_N3_aws__N12_cryptography__N10_primitives__S7_AES_GCM__M9_tagLength (int value) { return ToDafny_N3_aws__N12_cryptography__N10_primitives__S10_Uint8Bytes(value); } internal static int FromDafny_N3_aws__N12_cryptography__N10_primitives__S7_AES_GCM__M8_ivLength (int value) { return FromDafny_N3_aws__N12_cryptography__N10_primitives__S9_Uint8Bits(value); } internal static int ToDafny_N3_aws__N12_cryptography__N10_primitives__S7_AES_GCM__M8_ivLength (int value) { return ToDafny_N3_aws__N12_cryptography__N10_primitives__S9_Uint8Bits(value); } internal static System.IO.MemoryStream FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_SymmetricSigningKeyList__M6_member (Dafny.ISequence<byte> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S6_Secret(value); } internal static Dafny.ISequence<byte> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S23_SymmetricSigningKeyList__M6_member (System.IO.MemoryStream value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S6_Secret(value); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_BranchKeyMaterials__M16_branchKeyVersion (Dafny.ISequence<byte> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_Utf8Bytes(value); } internal static Dafny.ISequence<byte> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_BranchKeyMaterials__M16_branchKeyVersion (string value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_Utf8Bytes(value); } internal static System.IO.MemoryStream FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_BranchKeyMaterials__M9_branchKey (Dafny.ISequence<byte> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S6_Secret(value); } internal static Dafny.ISequence<byte> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_BranchKeyMaterials__M9_branchKey (System.IO.MemoryStream value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S6_Secret(value); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_BeaconKeyMaterials__M19_beaconKeyIdentifier (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_BeaconKeyMaterials__M19_beaconKeyIdentifier (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static System.IO.MemoryStream FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_BeaconKeyMaterials__M9_beaconKey (Wrappers_Compile._IOption<Dafny.ISequence<byte>> value) { return value.is_None ? (System.IO.MemoryStream) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S6_Secret(value.Extract()); } internal static Wrappers_Compile._IOption<Dafny.ISequence<byte>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_BeaconKeyMaterials__M9_beaconKey (System.IO.MemoryStream value) { return value == null ? Wrappers_Compile.Option<Dafny.ISequence<byte>>.create_None() : Wrappers_Compile.Option<Dafny.ISequence<byte>>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S6_Secret((System.IO.MemoryStream) value)); } internal static System.Collections.Generic.Dictionary<string, System.IO.MemoryStream> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_BeaconKeyMaterials__M8_hmacKeys (Wrappers_Compile._IOption<Dafny.IMap<Dafny.ISequence<char>, Dafny.ISequence<byte>>> value) { return value.is_None ? (System.Collections.Generic.Dictionary<string, System.IO.MemoryStream>) null : FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S10_HmacKeyMap(value.Extract()); } internal static Wrappers_Compile._IOption<Dafny.IMap<Dafny.ISequence<char>, Dafny.ISequence<byte>>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_BeaconKeyMaterials__M8_hmacKeys (System.Collections.Generic.Dictionary<string, System.IO.MemoryStream> value) { return value == null ? Wrappers_Compile.Option<Dafny.IMap<Dafny.ISequence<char>, Dafny.ISequence<byte>>>.create_None() : Wrappers_Compile.Option<Dafny.IMap<Dafny.ISequence<char>, Dafny.ISequence<byte>>>.create_Some(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S10_HmacKeyMap((System.Collections.Generic.Dictionary<string, System.IO.MemoryStream>) value)); } internal static AWS.Cryptography.Primitives.ECDSASignatureAlgorithm FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S5_ECDSA__M5_curve (software.amazon.cryptography.primitives.internaldafny.types._IECDSASignatureAlgorithm value) { return FromDafny_N3_aws__N12_cryptography__N10_primitives__S23_ECDSASignatureAlgorithm(value); } internal static software.amazon.cryptography.primitives.internaldafny.types._IECDSASignatureAlgorithm ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S5_ECDSA__M5_curve (AWS.Cryptography.Primitives.ECDSASignatureAlgorithm value) { return ToDafny_N3_aws__N12_cryptography__N10_primitives__S23_ECDSASignatureAlgorithm(value); } internal static System.Collections.Generic.List<string> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S13_AccountIdList (Dafny.ISequence<Dafny.ISequence<char>> value) { return new System.Collections.Generic.List<string>(value.Elements.Select(FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S13_AccountIdList__M6_member)); } internal static Dafny.ISequence<Dafny.ISequence<char>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S13_AccountIdList (System.Collections.Generic.List<string> value) { return Dafny.Sequence<Dafny.ISequence<char>>.FromArray(value.Select(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S13_AccountIdList__M6_member).ToArray()); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_Utf8Bytes (Dafny.ISequence<byte> value) { System.Text.UTF8Encoding utf8 = new System.Text.UTF8Encoding(false, true); return utf8.GetString(value.Elements); } internal static Dafny.ISequence<byte> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_Utf8Bytes (string value) { System.Text.UTF8Encoding utf8 = new System.Text.UTF8Encoding(false, true); return Dafny.Sequence<byte>.FromArray(utf8.GetBytes(value)); } internal static AWS.Cryptography.MaterialProviders.EncryptedDataKey FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_EncryptedDataKey (software.amazon.cryptography.materialproviders.internaldafny.types._IEncryptedDataKey value) { software.amazon.cryptography.materialproviders.internaldafny.types.EncryptedDataKey concrete = (software.amazon.cryptography.materialproviders.internaldafny.types.EncryptedDataKey)value; AWS.Cryptography.MaterialProviders.EncryptedDataKey converted = new AWS.Cryptography.MaterialProviders.EncryptedDataKey(); converted.KeyProviderId = (string) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_EncryptedDataKey__M13_keyProviderId(concrete._keyProviderId); converted.KeyProviderInfo = (System.IO.MemoryStream) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_EncryptedDataKey__M15_keyProviderInfo(concrete._keyProviderInfo); converted.Ciphertext = (System.IO.MemoryStream) FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_EncryptedDataKey__M10_ciphertext(concrete._ciphertext); return converted; } internal static software.amazon.cryptography.materialproviders.internaldafny.types._IEncryptedDataKey ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_EncryptedDataKey (AWS.Cryptography.MaterialProviders.EncryptedDataKey value) { return new software.amazon.cryptography.materialproviders.internaldafny.types.EncryptedDataKey ( ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_EncryptedDataKey__M13_keyProviderId(value.KeyProviderId) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_EncryptedDataKey__M15_keyProviderInfo(value.KeyProviderInfo) , ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_EncryptedDataKey__M10_ciphertext(value.Ciphertext) ) ; } internal static int FromDafny_N3_aws__N12_cryptography__N10_primitives__S15_PositiveInteger (int value) { return value; } internal static int ToDafny_N3_aws__N12_cryptography__N10_primitives__S15_PositiveInteger (int value) { return value; } internal static int FromDafny_N3_aws__N12_cryptography__N10_primitives__S18_SymmetricKeyLength (int value) { return value; } internal static int ToDafny_N3_aws__N12_cryptography__N10_primitives__S18_SymmetricKeyLength (int value) { return value; } internal static int FromDafny_N3_aws__N12_cryptography__N10_primitives__S10_Uint8Bytes (int value) { return value; } internal static int ToDafny_N3_aws__N12_cryptography__N10_primitives__S10_Uint8Bytes (int value) { return value; } internal static int FromDafny_N3_aws__N12_cryptography__N10_primitives__S9_Uint8Bits (int value) { return value; } internal static int ToDafny_N3_aws__N12_cryptography__N10_primitives__S9_Uint8Bits (int value) { return value; } internal static System.Collections.Generic.Dictionary<string, System.IO.MemoryStream> FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S10_HmacKeyMap (Dafny.IMap<Dafny.ISequence<char>, Dafny.ISequence<byte>> value) { return value.ItemEnumerable.ToDictionary(pair => FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S10_HmacKeyMap__M3_key(pair.Car), pair => FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S10_HmacKeyMap__M5_value(pair.Cdr)); } internal static Dafny.IMap<Dafny.ISequence<char>, Dafny.ISequence<byte>> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S10_HmacKeyMap (System.Collections.Generic.Dictionary<string, System.IO.MemoryStream> value) { return Dafny.Map<Dafny.ISequence<char>, Dafny.ISequence<byte>>.FromCollection(value.Select(pair => new Dafny.Pair<Dafny.ISequence<char>, Dafny.ISequence<byte>>(ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S10_HmacKeyMap__M3_key(pair.Key), ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S10_HmacKeyMap__M5_value(pair.Value)) )); } internal static AWS.Cryptography.Primitives.ECDSASignatureAlgorithm FromDafny_N3_aws__N12_cryptography__N10_primitives__S23_ECDSASignatureAlgorithm (software.amazon.cryptography.primitives.internaldafny.types._IECDSASignatureAlgorithm value) { if (value.is_ECDSA__P384) return AWS.Cryptography.Primitives.ECDSASignatureAlgorithm.ECDSA_P384; if (value.is_ECDSA__P256) return AWS.Cryptography.Primitives.ECDSASignatureAlgorithm.ECDSA_P256; throw new System.ArgumentException("Invalid AWS.Cryptography.Primitives.ECDSASignatureAlgorithm value"); } internal static software.amazon.cryptography.primitives.internaldafny.types._IECDSASignatureAlgorithm ToDafny_N3_aws__N12_cryptography__N10_primitives__S23_ECDSASignatureAlgorithm (AWS.Cryptography.Primitives.ECDSASignatureAlgorithm value) { if (AWS.Cryptography.Primitives.ECDSASignatureAlgorithm.ECDSA_P384.Equals(value)) return software.amazon.cryptography.primitives.internaldafny.types.ECDSASignatureAlgorithm.create_ECDSA__P384(); if (AWS.Cryptography.Primitives.ECDSASignatureAlgorithm.ECDSA_P256.Equals(value)) return software.amazon.cryptography.primitives.internaldafny.types.ECDSASignatureAlgorithm.create_ECDSA__P256(); throw new System.ArgumentException("Invalid AWS.Cryptography.Primitives.ECDSASignatureAlgorithm value"); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S13_AccountIdList__M6_member (Dafny.ISequence<char> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_AccountId(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S13_AccountIdList__M6_member (string value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_AccountId(value); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_EncryptedDataKey__M13_keyProviderId (Dafny.ISequence<byte> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_Utf8Bytes(value); } internal static Dafny.ISequence<byte> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_EncryptedDataKey__M13_keyProviderId (string value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_Utf8Bytes(value); } internal static System.IO.MemoryStream FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_EncryptedDataKey__M15_keyProviderInfo (Dafny.ISequence<byte> value) { return FromDafny_N6_smithy__N3_api__S4_Blob(value); } internal static Dafny.ISequence<byte> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_EncryptedDataKey__M15_keyProviderInfo (System.IO.MemoryStream value) { return ToDafny_N6_smithy__N3_api__S4_Blob(value); } internal static System.IO.MemoryStream FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_EncryptedDataKey__M10_ciphertext (Dafny.ISequence<byte> value) { return FromDafny_N6_smithy__N3_api__S4_Blob(value); } internal static Dafny.ISequence<byte> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S16_EncryptedDataKey__M10_ciphertext (System.IO.MemoryStream value) { return ToDafny_N6_smithy__N3_api__S4_Blob(value); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S10_HmacKeyMap__M3_key (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S10_HmacKeyMap__M3_key (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static System.IO.MemoryStream FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S10_HmacKeyMap__M5_value (Dafny.ISequence<byte> value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S6_Secret(value); } internal static Dafny.ISequence<byte> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S10_HmacKeyMap__M5_value (System.IO.MemoryStream value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S6_Secret(value); } internal static string FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_AccountId (Dafny.ISequence<char> value) { return new string(value.Elements); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S9_AccountId (string value) { return Dafny.Sequence<char>.FromString(value); } public static System.Exception FromDafny_CommonError(software.amazon.cryptography.materialproviders.internaldafny.types._IError value) { switch(value) { case software.amazon.cryptography.materialproviders.internaldafny.types.Error_AwsCryptographicMaterialProvidersException dafnyVal: return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S42_AwsCryptographicMaterialProvidersException(dafnyVal); case software.amazon.cryptography.materialproviders.internaldafny.types.Error_EntryAlreadyExists dafnyVal: return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_EntryAlreadyExists(dafnyVal); case software.amazon.cryptography.materialproviders.internaldafny.types.Error_EntryDoesNotExist dafnyVal: return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_EntryDoesNotExist(dafnyVal); case software.amazon.cryptography.materialproviders.internaldafny.types.Error_InvalidAlgorithmSuiteInfo dafnyVal: return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S25_InvalidAlgorithmSuiteInfo(dafnyVal); case software.amazon.cryptography.materialproviders.internaldafny.types.Error_InvalidAlgorithmSuiteInfoOnDecrypt dafnyVal: return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InvalidAlgorithmSuiteInfoOnDecrypt(dafnyVal); case software.amazon.cryptography.materialproviders.internaldafny.types.Error_InvalidAlgorithmSuiteInfoOnEncrypt dafnyVal: return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InvalidAlgorithmSuiteInfoOnEncrypt(dafnyVal); case software.amazon.cryptography.materialproviders.internaldafny.types.Error_InvalidDecryptionMaterials dafnyVal: return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S26_InvalidDecryptionMaterials(dafnyVal); case software.amazon.cryptography.materialproviders.internaldafny.types.Error_InvalidDecryptionMaterialsTransition dafnyVal: return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_InvalidDecryptionMaterialsTransition(dafnyVal); case software.amazon.cryptography.materialproviders.internaldafny.types.Error_InvalidEncryptionMaterials dafnyVal: return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S26_InvalidEncryptionMaterials(dafnyVal); case software.amazon.cryptography.materialproviders.internaldafny.types.Error_InvalidEncryptionMaterialsTransition dafnyVal: return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_InvalidEncryptionMaterialsTransition(dafnyVal); case software.amazon.cryptography.materialproviders.internaldafny.types.Error_CollectionOfErrors dafnyVal: return new CollectionOfErrors( new System.Collections.Generic.List<Exception>(dafnyVal.dtor_list.CloneAsArray() .Select(x => TypeConversion.FromDafny_CommonError(x))), new string(dafnyVal.dtor_message.Elements)); case software.amazon.cryptography.materialproviders.internaldafny.types.Error_Opaque dafnyVal: return new OpaqueError(dafnyVal._obj); default: // The switch MUST be complete for _IError, so `value` MUST NOT be an _IError. (How did you get here?) return new OpaqueError(); } } public static software.amazon.cryptography.materialproviders.internaldafny.types._IError ToDafny_CommonError(System.Exception value) { switch (value) { case AWS.Cryptography.MaterialProviders.AwsCryptographicMaterialProvidersException exception: return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S42_AwsCryptographicMaterialProvidersException(exception); case AWS.Cryptography.MaterialProviders.EntryAlreadyExists exception: return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_EntryAlreadyExists(exception); case AWS.Cryptography.MaterialProviders.EntryDoesNotExist exception: return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S17_EntryDoesNotExist(exception); case AWS.Cryptography.MaterialProviders.InvalidAlgorithmSuiteInfo exception: return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S25_InvalidAlgorithmSuiteInfo(exception); case AWS.Cryptography.MaterialProviders.InvalidAlgorithmSuiteInfoOnDecrypt exception: return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InvalidAlgorithmSuiteInfoOnDecrypt(exception); case AWS.Cryptography.MaterialProviders.InvalidAlgorithmSuiteInfoOnEncrypt exception: return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S34_InvalidAlgorithmSuiteInfoOnEncrypt(exception); case AWS.Cryptography.MaterialProviders.InvalidDecryptionMaterials exception: return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S26_InvalidDecryptionMaterials(exception); case AWS.Cryptography.MaterialProviders.InvalidDecryptionMaterialsTransition exception: return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_InvalidDecryptionMaterialsTransition(exception); case AWS.Cryptography.MaterialProviders.InvalidEncryptionMaterials exception: return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S26_InvalidEncryptionMaterials(exception); case AWS.Cryptography.MaterialProviders.InvalidEncryptionMaterialsTransition exception: return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S36_InvalidEncryptionMaterialsTransition(exception); case CollectionOfErrors collectionOfErrors: return new software.amazon.cryptography.materialproviders.internaldafny.types.Error_CollectionOfErrors( Dafny.Sequence<software.amazon.cryptography.materialproviders.internaldafny.types._IError> .FromArray( collectionOfErrors.list.Select (x => TypeConversion.ToDafny_CommonError(x)) .ToArray()), Dafny.Sequence<char>.FromString(collectionOfErrors.Message) ); // OpaqueError is redundant, but listed for completeness. case OpaqueError exception: return new software.amazon.cryptography.materialproviders.internaldafny.types.Error_Opaque(exception); case System.Exception exception: return new software.amazon.cryptography.materialproviders.internaldafny.types.Error_Opaque(exception); default: // The switch MUST be complete for System.Exception, so `value` MUST NOT be an System.Exception. (How did you get here?) return new software.amazon.cryptography.materialproviders.internaldafny.types.Error_Opaque(value); } } } }	2,442
aws-cryptographic-material-providers-library-java	aws	C#	// Copyright Amazon.com Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 // Do not modify this file. This file is machine generated, and any changes to it will be overwritten. // ReSharper disable RedundantUsingDirective // ReSharper disable RedundantNameQualifier // ReSharper disable SuggestVarOrType_SimpleTypes using System; using _System; using Wrappers_Compile; namespace AWS.Cryptography.MaterialProviders.Wrapped { internal class WrappedNativeWrapper_BranchKeyIdSupplier : software.amazon.cryptography.materialproviders.internaldafny.types.IBranchKeyIdSupplier { internal readonly BranchKeyIdSupplierBase _impl; public WrappedNativeWrapper_BranchKeyIdSupplier(BranchKeyIdSupplierBase nativeImpl) { _impl = nativeImpl; } public Wrappers_Compile._IResult<software.amazon.cryptography.materialproviders.internaldafny.types._IGetBranchKeyIdOutput, software.amazon.cryptography.materialproviders.internaldafny.types._IError> GetBranchKeyId(software.amazon.cryptography.materialproviders.internaldafny.types._IGetBranchKeyIdInput input) { void validateOutput(AWS.Cryptography.MaterialProviders.GetBranchKeyIdOutput nativeOutput) { try { nativeOutput.Validate(); } catch (ArgumentException e) { var message = $"Output of {_impl}._GetBranchKeyId is invalid. {e.Message}"; throw new AwsCryptographicMaterialProvidersException(message); } } AWS.Cryptography.MaterialProviders.GetBranchKeyIdInput nativeInput = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_GetBranchKeyIdInput(input); try { AWS.Cryptography.MaterialProviders.GetBranchKeyIdOutput nativeOutput = _impl.GetBranchKeyId(nativeInput); _ = nativeOutput ?? throw new AwsCryptographicMaterialProvidersException($"{_impl}._GetBranchKeyId returned null, should be {typeof(AWS.Cryptography.MaterialProviders.GetBranchKeyIdOutput)}"); validateOutput(nativeOutput); return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types._IGetBranchKeyIdOutput, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S20_GetBranchKeyIdOutput(nativeOutput)); } catch(Exception e) { return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types._IGetBranchKeyIdOutput, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(TypeConversion.ToDafny_CommonError(e)); } } public Wrappers_Compile._IResult<software.amazon.cryptography.materialproviders.internaldafny.types._IGetBranchKeyIdOutput, software.amazon.cryptography.materialproviders.internaldafny.types._IError> GetBranchKeyId_k(software.amazon.cryptography.materialproviders.internaldafny.types._IGetBranchKeyIdInput input) { throw new AwsCryptographicMaterialProvidersException("Not supported at this time."); } } }	46
aws-cryptographic-material-providers-library-java	aws	C#	// Copyright Amazon.com Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 // Do not modify this file. This file is machine generated, and any changes to it will be overwritten. // ReSharper disable RedundantUsingDirective // ReSharper disable RedundantNameQualifier // ReSharper disable SuggestVarOrType_SimpleTypes using System; using _System; using Wrappers_Compile; namespace AWS.Cryptography.MaterialProviders.Wrapped { internal class WrappedNativeWrapper_ClientSupplier : software.amazon.cryptography.materialproviders.internaldafny.types.IClientSupplier { internal readonly ClientSupplierBase _impl; public WrappedNativeWrapper_ClientSupplier(ClientSupplierBase nativeImpl) { _impl = nativeImpl; } public Wrappers_Compile._IResult<software.amazon.cryptography.services.kms.internaldafny.types.IKMSClient, software.amazon.cryptography.materialproviders.internaldafny.types._IError> GetClient(software.amazon.cryptography.materialproviders.internaldafny.types._IGetClientInput input) { AWS.Cryptography.MaterialProviders.GetClientInput nativeInput = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_GetClientInput(input); try { Amazon.KeyManagementService.IAmazonKeyManagementService nativeOutput = _impl.GetClient(nativeInput); _ = nativeOutput ?? throw new AwsCryptographicMaterialProvidersException($"{_impl}._GetClient returned null, should be {typeof(Amazon.KeyManagementService.IAmazonKeyManagementService)}"); return Wrappers_Compile.Result<software.amazon.cryptography.services.kms.internaldafny.types.IKMSClient, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_GetClientOutput(nativeOutput)); } catch(Exception e) { return Wrappers_Compile.Result<software.amazon.cryptography.services.kms.internaldafny.types.IKMSClient, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(TypeConversion.ToDafny_CommonError(e)); } } public Wrappers_Compile._IResult<software.amazon.cryptography.services.kms.internaldafny.types.IKMSClient, software.amazon.cryptography.materialproviders.internaldafny.types._IError> GetClient_k(software.amazon.cryptography.materialproviders.internaldafny.types._IGetClientInput input) { throw new AwsCryptographicMaterialProvidersException("Not supported at this time."); } } }	40
aws-cryptographic-material-providers-library-java	aws	C#	// Copyright Amazon.com Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 // Do not modify this file. This file is machine generated, and any changes to it will be overwritten. // ReSharper disable RedundantUsingDirective // ReSharper disable RedundantNameQualifier // ReSharper disable SuggestVarOrType_SimpleTypes using System; using _System; using Wrappers_Compile; namespace AWS.Cryptography.MaterialProviders.Wrapped { internal class WrappedNativeWrapper_CryptographicMaterialsCache : software.amazon.cryptography.materialproviders.internaldafny.types.ICryptographicMaterialsCache { internal readonly CryptographicMaterialsCacheBase _impl; public WrappedNativeWrapper_CryptographicMaterialsCache(CryptographicMaterialsCacheBase nativeImpl) { _impl = nativeImpl; } public Wrappers_Compile._IResult<_System._ITuple0, software.amazon.cryptography.materialproviders.internaldafny.types._IError> PutCacheEntry(software.amazon.cryptography.materialproviders.internaldafny.types._IPutCacheEntryInput input) { AWS.Cryptography.MaterialProviders.PutCacheEntryInput nativeInput = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_PutCacheEntryInput(input); try { _impl.PutCacheEntry(nativeInput); return Wrappers_Compile.Result<_System._ITuple0, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(Tuple0.create()); } catch(Exception e) { return Wrappers_Compile.Result<_System._ITuple0, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(TypeConversion.ToDafny_CommonError(e)); } } public Wrappers_Compile._IResult<_System._ITuple0, software.amazon.cryptography.materialproviders.internaldafny.types._IError> PutCacheEntry_k(software.amazon.cryptography.materialproviders.internaldafny.types._IPutCacheEntryInput input) { throw new AwsCryptographicMaterialProvidersException("Not supported at this time."); } public Wrappers_Compile._IResult<_System._ITuple0, software.amazon.cryptography.materialproviders.internaldafny.types._IError> UpdateUsageMetadata(software.amazon.cryptography.materialproviders.internaldafny.types._IUpdateUsageMetadataInput input) { AWS.Cryptography.MaterialProviders.UpdateUsageMetadataInput nativeInput = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S25_UpdateUsageMetadataInput(input); try { _impl.UpdateUsageMetadata(nativeInput); return Wrappers_Compile.Result<_System._ITuple0, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(Tuple0.create()); } catch(Exception e) { return Wrappers_Compile.Result<_System._ITuple0, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(TypeConversion.ToDafny_CommonError(e)); } } public Wrappers_Compile._IResult<_System._ITuple0, software.amazon.cryptography.materialproviders.internaldafny.types._IError> UpdateUsageMetadata_k(software.amazon.cryptography.materialproviders.internaldafny.types._IUpdateUsageMetadataInput input) { throw new AwsCryptographicMaterialProvidersException("Not supported at this time."); } public Wrappers_Compile._IResult<software.amazon.cryptography.materialproviders.internaldafny.types._IGetCacheEntryOutput, software.amazon.cryptography.materialproviders.internaldafny.types._IError> GetCacheEntry(software.amazon.cryptography.materialproviders.internaldafny.types._IGetCacheEntryInput input) { void validateOutput(AWS.Cryptography.MaterialProviders.GetCacheEntryOutput nativeOutput) { try { nativeOutput.Validate(); } catch (ArgumentException e) { var message = $"Output of {_impl}._GetCacheEntry is invalid. {e.Message}"; throw new AwsCryptographicMaterialProvidersException(message); } } AWS.Cryptography.MaterialProviders.GetCacheEntryInput nativeInput = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S18_GetCacheEntryInput(input); try { AWS.Cryptography.MaterialProviders.GetCacheEntryOutput nativeOutput = _impl.GetCacheEntry(nativeInput); _ = nativeOutput ?? throw new AwsCryptographicMaterialProvidersException($"{_impl}._GetCacheEntry returned null, should be {typeof(AWS.Cryptography.MaterialProviders.GetCacheEntryOutput)}"); validateOutput(nativeOutput); return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types._IGetCacheEntryOutput, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S19_GetCacheEntryOutput(nativeOutput)); } catch(Exception e) { return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types._IGetCacheEntryOutput, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(TypeConversion.ToDafny_CommonError(e)); } } public Wrappers_Compile._IResult<software.amazon.cryptography.materialproviders.internaldafny.types._IGetCacheEntryOutput, software.amazon.cryptography.materialproviders.internaldafny.types._IError> GetCacheEntry_k(software.amazon.cryptography.materialproviders.internaldafny.types._IGetCacheEntryInput input) { throw new AwsCryptographicMaterialProvidersException("Not supported at this time."); } public Wrappers_Compile._IResult<_System._ITuple0, software.amazon.cryptography.materialproviders.internaldafny.types._IError> DeleteCacheEntry(software.amazon.cryptography.materialproviders.internaldafny.types._IDeleteCacheEntryInput input) { AWS.Cryptography.MaterialProviders.DeleteCacheEntryInput nativeInput = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_DeleteCacheEntryInput(input); try { _impl.DeleteCacheEntry(nativeInput); return Wrappers_Compile.Result<_System._ITuple0, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(Tuple0.create()); } catch(Exception e) { return Wrappers_Compile.Result<_System._ITuple0, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(TypeConversion.ToDafny_CommonError(e)); } } public Wrappers_Compile._IResult<_System._ITuple0, software.amazon.cryptography.materialproviders.internaldafny.types._IError> DeleteCacheEntry_k(software.amazon.cryptography.materialproviders.internaldafny.types._IDeleteCacheEntryInput input) { throw new AwsCryptographicMaterialProvidersException("Not supported at this time."); } } }	103
aws-cryptographic-material-providers-library-java	aws	C#	// Copyright Amazon.com Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 // Do not modify this file. This file is machine generated, and any changes to it will be overwritten. // ReSharper disable RedundantUsingDirective // ReSharper disable RedundantNameQualifier // ReSharper disable SuggestVarOrType_SimpleTypes using System; using _System; using Wrappers_Compile; namespace AWS.Cryptography.MaterialProviders.Wrapped { internal class WrappedNativeWrapper_CryptographicMaterialsManager : software.amazon.cryptography.materialproviders.internaldafny.types.ICryptographicMaterialsManager { internal readonly CryptographicMaterialsManagerBase _impl; public WrappedNativeWrapper_CryptographicMaterialsManager(CryptographicMaterialsManagerBase nativeImpl) { _impl = nativeImpl; } public Wrappers_Compile._IResult<software.amazon.cryptography.materialproviders.internaldafny.types._IGetEncryptionMaterialsOutput, software.amazon.cryptography.materialproviders.internaldafny.types._IError> GetEncryptionMaterials(software.amazon.cryptography.materialproviders.internaldafny.types._IGetEncryptionMaterialsInput input) { void validateOutput(AWS.Cryptography.MaterialProviders.GetEncryptionMaterialsOutput nativeOutput) { try { nativeOutput.Validate(); } catch (ArgumentException e) { var message = $"Output of {_impl}._GetEncryptionMaterials is invalid. {e.Message}"; throw new AwsCryptographicMaterialProvidersException(message); } } AWS.Cryptography.MaterialProviders.GetEncryptionMaterialsInput nativeInput = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S27_GetEncryptionMaterialsInput(input); try { AWS.Cryptography.MaterialProviders.GetEncryptionMaterialsOutput nativeOutput = _impl.GetEncryptionMaterials(nativeInput); _ = nativeOutput ?? throw new AwsCryptographicMaterialProvidersException($"{_impl}._GetEncryptionMaterials returned null, should be {typeof(AWS.Cryptography.MaterialProviders.GetEncryptionMaterialsOutput)}"); validateOutput(nativeOutput); return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types._IGetEncryptionMaterialsOutput, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S28_GetEncryptionMaterialsOutput(nativeOutput)); } catch(Exception e) { return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types._IGetEncryptionMaterialsOutput, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(TypeConversion.ToDafny_CommonError(e)); } } public Wrappers_Compile._IResult<software.amazon.cryptography.materialproviders.internaldafny.types._IGetEncryptionMaterialsOutput, software.amazon.cryptography.materialproviders.internaldafny.types._IError> GetEncryptionMaterials_k(software.amazon.cryptography.materialproviders.internaldafny.types._IGetEncryptionMaterialsInput input) { throw new AwsCryptographicMaterialProvidersException("Not supported at this time."); } public Wrappers_Compile._IResult<software.amazon.cryptography.materialproviders.internaldafny.types._IDecryptMaterialsOutput, software.amazon.cryptography.materialproviders.internaldafny.types._IError> DecryptMaterials(software.amazon.cryptography.materialproviders.internaldafny.types._IDecryptMaterialsInput input) { void validateOutput(AWS.Cryptography.MaterialProviders.DecryptMaterialsOutput nativeOutput) { try { nativeOutput.Validate(); } catch (ArgumentException e) { var message = $"Output of {_impl}._DecryptMaterials is invalid. {e.Message}"; throw new AwsCryptographicMaterialProvidersException(message); } } AWS.Cryptography.MaterialProviders.DecryptMaterialsInput nativeInput = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S21_DecryptMaterialsInput(input); try { AWS.Cryptography.MaterialProviders.DecryptMaterialsOutput nativeOutput = _impl.DecryptMaterials(nativeInput); _ = nativeOutput ?? throw new AwsCryptographicMaterialProvidersException($"{_impl}._DecryptMaterials returned null, should be {typeof(AWS.Cryptography.MaterialProviders.DecryptMaterialsOutput)}"); validateOutput(nativeOutput); return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types._IDecryptMaterialsOutput, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S22_DecryptMaterialsOutput(nativeOutput)); } catch(Exception e) { return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types._IDecryptMaterialsOutput, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(TypeConversion.ToDafny_CommonError(e)); } } public Wrappers_Compile._IResult<software.amazon.cryptography.materialproviders.internaldafny.types._IDecryptMaterialsOutput, software.amazon.cryptography.materialproviders.internaldafny.types._IError> DecryptMaterials_k(software.amazon.cryptography.materialproviders.internaldafny.types._IDecryptMaterialsInput input) { throw new AwsCryptographicMaterialProvidersException("Not supported at this time."); } } }	71
aws-cryptographic-material-providers-library-java	aws	C#	// Copyright Amazon.com Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 // Do not modify this file. This file is machine generated, and any changes to it will be overwritten. // ReSharper disable RedundantUsingDirective // ReSharper disable RedundantNameQualifier // ReSharper disable SuggestVarOrType_SimpleTypes using System; using _System; using Wrappers_Compile; namespace AWS.Cryptography.MaterialProviders.Wrapped { internal class WrappedNativeWrapper_Keyring : software.amazon.cryptography.materialproviders.internaldafny.types.IKeyring { internal readonly KeyringBase _impl; public WrappedNativeWrapper_Keyring(KeyringBase nativeImpl) { _impl = nativeImpl; } public Wrappers_Compile._IResult<software.amazon.cryptography.materialproviders.internaldafny.types._IOnEncryptOutput, software.amazon.cryptography.materialproviders.internaldafny.types._IError> OnEncrypt(software.amazon.cryptography.materialproviders.internaldafny.types._IOnEncryptInput input) { void validateOutput(AWS.Cryptography.MaterialProviders.OnEncryptOutput nativeOutput) { try { nativeOutput.Validate(); } catch (ArgumentException e) { var message = $"Output of {_impl}._OnEncrypt is invalid. {e.Message}"; throw new AwsCryptographicMaterialProvidersException(message); } } AWS.Cryptography.MaterialProviders.OnEncryptInput nativeInput = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_OnEncryptInput(input); try { AWS.Cryptography.MaterialProviders.OnEncryptOutput nativeOutput = _impl.OnEncrypt(nativeInput); _ = nativeOutput ?? throw new AwsCryptographicMaterialProvidersException($"{_impl}._OnEncrypt returned null, should be {typeof(AWS.Cryptography.MaterialProviders.OnEncryptOutput)}"); validateOutput(nativeOutput); return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types._IOnEncryptOutput, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_OnEncryptOutput(nativeOutput)); } catch(Exception e) { return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types._IOnEncryptOutput, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(TypeConversion.ToDafny_CommonError(e)); } } public Wrappers_Compile._IResult<software.amazon.cryptography.materialproviders.internaldafny.types._IOnEncryptOutput, software.amazon.cryptography.materialproviders.internaldafny.types._IError> OnEncrypt_k(software.amazon.cryptography.materialproviders.internaldafny.types._IOnEncryptInput input) { throw new AwsCryptographicMaterialProvidersException("Not supported at this time."); } public Wrappers_Compile._IResult<software.amazon.cryptography.materialproviders.internaldafny.types._IOnDecryptOutput, software.amazon.cryptography.materialproviders.internaldafny.types._IError> OnDecrypt(software.amazon.cryptography.materialproviders.internaldafny.types._IOnDecryptInput input) { void validateOutput(AWS.Cryptography.MaterialProviders.OnDecryptOutput nativeOutput) { try { nativeOutput.Validate(); } catch (ArgumentException e) { var message = $"Output of {_impl}._OnDecrypt is invalid. {e.Message}"; throw new AwsCryptographicMaterialProvidersException(message); } } AWS.Cryptography.MaterialProviders.OnDecryptInput nativeInput = TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S14_OnDecryptInput(input); try { AWS.Cryptography.MaterialProviders.OnDecryptOutput nativeOutput = _impl.OnDecrypt(nativeInput); _ = nativeOutput ?? throw new AwsCryptographicMaterialProvidersException($"{_impl}._OnDecrypt returned null, should be {typeof(AWS.Cryptography.MaterialProviders.OnDecryptOutput)}"); validateOutput(nativeOutput); return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types._IOnDecryptOutput, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Success(TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S15_OnDecryptOutput(nativeOutput)); } catch(Exception e) { return Wrappers_Compile.Result<software.amazon.cryptography.materialproviders.internaldafny.types._IOnDecryptOutput, software.amazon.cryptography.materialproviders.internaldafny.types._IError>.create_Failure(TypeConversion.ToDafny_CommonError(e)); } } public Wrappers_Compile._IResult<software.amazon.cryptography.materialproviders.internaldafny.types._IOnDecryptOutput, software.amazon.cryptography.materialproviders.internaldafny.types._IError> OnDecrypt_k(software.amazon.cryptography.materialproviders.internaldafny.types._IOnDecryptInput input) { throw new AwsCryptographicMaterialProvidersException("Not supported at this time."); } } }	71
aws-database-encryption-sdk-dynamodb-java	aws	C#	// Copyright Amazon.com Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using software.amazon.cryptography.dbencryptionsdk.dynamodb.itemencryptor.internaldafny.types; namespace software.amazon.cryptography.dbencryptionsdk.dynamodb.itemencryptor.internaldafny.internal { public partial class InternalLegacyOverride { public static Wrappers_Compile._IResult< Wrappers_Compile._IOption<InternalLegacyOverride>, _IError > Build(_IDynamoDbItemEncryptorConfig config) { if (config.dtor_legacyOverride.is_None) { return Wrappers_Compile .Result<Wrappers_Compile._IOption<InternalLegacyOverride>, _IError> .create_Success(Wrappers_Compile.Option<InternalLegacyOverride>.create_None()); } // .Net does not support the Legacy DDB-EC var ex = new Error_DynamoDbItemEncryptorException( Dafny.Sequence<char>.FromString("Legacy configuration unsupported.")); return Wrappers_Compile .Result<Wrappers_Compile._IOption<InternalLegacyOverride>, _IError> .create_Failure(ex); } public Wrappers_Compile._IResult< _IEncryptItemOutput, _IError > EncryptItem(_IEncryptItemInput input) { // .Net does not support the Legacy DDB-EC var ex = new Error_DynamoDbItemEncryptorException( Dafny.Sequence<char>.FromString("Legacy configuration unsupported.")); return Wrappers_Compile.Result<_IEncryptItemOutput, _IError> .create_Failure(ex); } public Wrappers_Compile._IResult< _IDecryptItemOutput, _IError > DecryptItem(_IDecryptItemInput input) { // .Net does not support the Legacy DDB-EC var ex = new Error_DynamoDbItemEncryptorException( Dafny.Sequence<char>.FromString("Legacy configuration unsupported.")); return Wrappers_Compile.Result<_IDecryptItemOutput, _IError> .create_Failure(ex); } public bool IsLegacyInput(_IDecryptItemInput input) { // .Net does not support the Legacy DDB-EC return false; } } }	63
aws-database-encryption-sdk-dynamodb-java	aws	C#	// Copyright Amazon.com Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 // Do not modify this file. This file is machine generated, and any changes to it will be overwritten. using System; using System.Collections.Generic; using System.IO; using System.Linq; namespace AWS.Cryptography.DbEncryptionSDK.DynamoDb.Wrapped { public class DynamoDbEncryptionShim : software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.IDynamoDbEncryptionClient { public AWS.Cryptography.DbEncryptionSDK.DynamoDb.DynamoDbEncryption _impl; public DynamoDbEncryptionShim(AWS.Cryptography.DbEncryptionSDK.DynamoDb.DynamoDbEncryption impl) { this._impl = impl; } public Wrappers_Compile._IResult<software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._ICreateDynamoDbEncryptionBranchKeyIdSupplierOutput, software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IError> CreateDynamoDbEncryptionBranchKeyIdSupplier(software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._ICreateDynamoDbEncryptionBranchKeyIdSupplierInput request) { AWS.Cryptography.DbEncryptionSDK.DynamoDb.CreateDynamoDbEncryptionBranchKeyIdSupplierInput unWrappedRequest = TypeConversion.FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S48_CreateDynamoDbEncryptionBranchKeyIdSupplierInput(request); try { AWS.Cryptography.DbEncryptionSDK.DynamoDb.CreateDynamoDbEncryptionBranchKeyIdSupplierOutput wrappedResponse = this._impl.CreateDynamoDbEncryptionBranchKeyIdSupplier(unWrappedRequest); return Wrappers_Compile.Result<software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._ICreateDynamoDbEncryptionBranchKeyIdSupplierOutput, software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IError>.create_Success(TypeConversion.ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S49_CreateDynamoDbEncryptionBranchKeyIdSupplierOutput(wrappedResponse)); } catch (System.Exception ex) { return Wrappers_Compile.Result<software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._ICreateDynamoDbEncryptionBranchKeyIdSupplierOutput, software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IError>.create_Failure(this.ConvertError(ex)); } } private software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IError ConvertError(System.Exception error) { switch (error) { case AWS.Cryptography.DbEncryptionSDK.DynamoDb.DynamoDbEncryptionException e: return TypeConversion.ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S27_DynamoDbEncryptionException(e); case CollectionOfErrors collectionOfErrors: return new software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.Error_CollectionOfErrors( Dafny.Sequence<software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IError> .FromArray( collectionOfErrors.list.Select (x => TypeConversion.ToDafny_CommonError(x)) .ToArray() ) ); default: return new software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.Error_Opaque(error); } } } }	46
aws-database-encryption-sdk-dynamodb-java	aws	C#	// Copyright Amazon.com Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 // Do not modify this file. This file is machine generated, and any changes to it will be overwritten. using System.Linq; using System; namespace AWS.Cryptography.DbEncryptionSDK.DynamoDb.Wrapped { public static class TypeConversion { internal static AWS.Cryptography.DbEncryptionSDK.DynamoDb.BeaconKeySource FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S15_BeaconKeySource (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IBeaconKeySource value) { software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.BeaconKeySource concrete = (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.BeaconKeySource)value; var converted = new AWS.Cryptography.DbEncryptionSDK.DynamoDb.BeaconKeySource(); if (value.is_Single) { converted.Single = FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S15_BeaconKeySource__M6_single(concrete.dtor_single); return converted; } if (value.is_Multi) { converted.Multi = FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S15_BeaconKeySource__M5_multi(concrete.dtor_multi); return converted; } throw new System.ArgumentException("Invalid AWS.Cryptography.DbEncryptionSDK.DynamoDb.BeaconKeySource state"); } internal static software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IBeaconKeySource ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S15_BeaconKeySource (AWS.Cryptography.DbEncryptionSDK.DynamoDb.BeaconKeySource value) { if (value.IsSetSingle()) { return software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.BeaconKeySource.create_single(ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S15_BeaconKeySource__M6_single(value.Single)); } if (value.IsSetMulti()) { return software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.BeaconKeySource.create_multi(ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S15_BeaconKeySource__M5_multi(value.Multi)); } throw new System.ArgumentException("Invalid AWS.Cryptography.DbEncryptionSDK.DynamoDb.BeaconKeySource state"); } internal static AWS.Cryptography.DbEncryptionSDK.DynamoDb.CreateDynamoDbEncryptionBranchKeyIdSupplierInput FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S48_CreateDynamoDbEncryptionBranchKeyIdSupplierInput (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._ICreateDynamoDbEncryptionBranchKeyIdSupplierInput value) { software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.CreateDynamoDbEncryptionBranchKeyIdSupplierInput concrete = (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.CreateDynamoDbEncryptionBranchKeyIdSupplierInput)value; AWS.Cryptography.DbEncryptionSDK.DynamoDb.CreateDynamoDbEncryptionBranchKeyIdSupplierInput converted = new AWS.Cryptography.DbEncryptionSDK.DynamoDb.CreateDynamoDbEncryptionBranchKeyIdSupplierInput(); converted.DdbKeyBranchKeyIdSupplier = (AWS.Cryptography.DbEncryptionSDK.DynamoDb.IDynamoDbKeyBranchKeyIdSupplier) FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S48_CreateDynamoDbEncryptionBranchKeyIdSupplierInput__M25_ddbKeyBranchKeyIdSupplier(concrete._ddbKeyBranchKeyIdSupplier); return converted; } internal static software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._ICreateDynamoDbEncryptionBranchKeyIdSupplierInput ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S48_CreateDynamoDbEncryptionBranchKeyIdSupplierInput (AWS.Cryptography.DbEncryptionSDK.DynamoDb.CreateDynamoDbEncryptionBranchKeyIdSupplierInput value) { return new software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.CreateDynamoDbEncryptionBranchKeyIdSupplierInput ( ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S48_CreateDynamoDbEncryptionBranchKeyIdSupplierInput__M25_ddbKeyBranchKeyIdSupplier(value.DdbKeyBranchKeyIdSupplier) ) ; } internal static AWS.Cryptography.DbEncryptionSDK.DynamoDb.CreateDynamoDbEncryptionBranchKeyIdSupplierOutput FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S49_CreateDynamoDbEncryptionBranchKeyIdSupplierOutput (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._ICreateDynamoDbEncryptionBranchKeyIdSupplierOutput value) { software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.CreateDynamoDbEncryptionBranchKeyIdSupplierOutput concrete = (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.CreateDynamoDbEncryptionBranchKeyIdSupplierOutput)value; AWS.Cryptography.DbEncryptionSDK.DynamoDb.CreateDynamoDbEncryptionBranchKeyIdSupplierOutput converted = new AWS.Cryptography.DbEncryptionSDK.DynamoDb.CreateDynamoDbEncryptionBranchKeyIdSupplierOutput(); converted.BranchKeyIdSupplier = (AWS.Cryptography.MaterialProviders.IBranchKeyIdSupplier) FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S49_CreateDynamoDbEncryptionBranchKeyIdSupplierOutput__M19_branchKeyIdSupplier(concrete._branchKeyIdSupplier); return converted; } internal static software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._ICreateDynamoDbEncryptionBranchKeyIdSupplierOutput ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S49_CreateDynamoDbEncryptionBranchKeyIdSupplierOutput (AWS.Cryptography.DbEncryptionSDK.DynamoDb.CreateDynamoDbEncryptionBranchKeyIdSupplierOutput value) { return new software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.CreateDynamoDbEncryptionBranchKeyIdSupplierOutput ( ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S49_CreateDynamoDbEncryptionBranchKeyIdSupplierOutput__M19_branchKeyIdSupplier(value.BranchKeyIdSupplier) ) ; } internal static AWS.Cryptography.DbEncryptionSDK.DynamoDb.DynamoDbEncryptionConfig FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S24_DynamoDbEncryptionConfig (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IDynamoDbEncryptionConfig value) { software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.DynamoDbEncryptionConfig concrete = (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.DynamoDbEncryptionConfig)value; AWS.Cryptography.DbEncryptionSDK.DynamoDb.DynamoDbEncryptionConfig converted = new AWS.Cryptography.DbEncryptionSDK.DynamoDb.DynamoDbEncryptionConfig(); return converted; } internal static software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IDynamoDbEncryptionConfig ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S24_DynamoDbEncryptionConfig (AWS.Cryptography.DbEncryptionSDK.DynamoDb.DynamoDbEncryptionConfig value) { return new software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.DynamoDbEncryptionConfig ( ) ; } internal static AWS.Cryptography.DbEncryptionSDK.DynamoDb.DynamoDbEncryptionException FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S27_DynamoDbEncryptionException (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.Error_DynamoDbEncryptionException value) { return new AWS.Cryptography.DbEncryptionSDK.DynamoDb.DynamoDbEncryptionException ( FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S27_DynamoDbEncryptionException__M7_message(value._message) ) ; } internal static software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.Error_DynamoDbEncryptionException ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S27_DynamoDbEncryptionException (AWS.Cryptography.DbEncryptionSDK.DynamoDb.DynamoDbEncryptionException value) { return new software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.Error_DynamoDbEncryptionException ( ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S27_DynamoDbEncryptionException__M7_message(value.Message) ) ; } internal static AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetBranchKeyIdFromDdbKeyInput FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S29_GetBranchKeyIdFromDdbKeyInput (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IGetBranchKeyIdFromDdbKeyInput value) { software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.GetBranchKeyIdFromDdbKeyInput concrete = (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.GetBranchKeyIdFromDdbKeyInput)value; AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetBranchKeyIdFromDdbKeyInput converted = new AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetBranchKeyIdFromDdbKeyInput(); converted.DdbKey = (System.Collections.Generic.Dictionary<string, Amazon.DynamoDBv2.Model.AttributeValue>) FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S29_GetBranchKeyIdFromDdbKeyInput__M6_ddbKey(concrete._ddbKey); return converted; } internal static software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IGetBranchKeyIdFromDdbKeyInput ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S29_GetBranchKeyIdFromDdbKeyInput (AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetBranchKeyIdFromDdbKeyInput value) { return new software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.GetBranchKeyIdFromDdbKeyInput ( ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S29_GetBranchKeyIdFromDdbKeyInput__M6_ddbKey(value.DdbKey) ) ; } internal static AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetBranchKeyIdFromDdbKeyOutput FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S30_GetBranchKeyIdFromDdbKeyOutput (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IGetBranchKeyIdFromDdbKeyOutput value) { software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.GetBranchKeyIdFromDdbKeyOutput concrete = (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.GetBranchKeyIdFromDdbKeyOutput)value; AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetBranchKeyIdFromDdbKeyOutput converted = new AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetBranchKeyIdFromDdbKeyOutput(); converted.BranchKeyId = (string) FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S30_GetBranchKeyIdFromDdbKeyOutput__M11_branchKeyId(concrete._branchKeyId); return converted; } internal static software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IGetBranchKeyIdFromDdbKeyOutput ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S30_GetBranchKeyIdFromDdbKeyOutput (AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetBranchKeyIdFromDdbKeyOutput value) { return new software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.GetBranchKeyIdFromDdbKeyOutput ( ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S30_GetBranchKeyIdFromDdbKeyOutput__M11_branchKeyId(value.BranchKeyId) ) ; } internal static AWS.Cryptography.DbEncryptionSDK.DynamoDb.LegacyPolicy FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S12_LegacyPolicy (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._ILegacyPolicy value) { if (value.is_REQUIRE__ENCRYPT__ALLOW__DECRYPT) return AWS.Cryptography.DbEncryptionSDK.DynamoDb.LegacyPolicy.FORCE_LEGACY_ENCRYPT_ALLOW_LEGACY_DECRYPT; if (value.is_FORBID__ENCRYPT__ALLOW__DECRYPT) return AWS.Cryptography.DbEncryptionSDK.DynamoDb.LegacyPolicy.FORBID_LEGACY_ENCRYPT_ALLOW_LEGACY_DECRYPT; if (value.is_FORBID__ENCRYPT__FORBID__DECRYPT) return AWS.Cryptography.DbEncryptionSDK.DynamoDb.LegacyPolicy.FORBID_LEGACY_ENCRYPT_FORBID_LEGACY_DECRYPT; throw new System.ArgumentException("Invalid AWS.Cryptography.DbEncryptionSDK.DynamoDb.LegacyPolicy value"); } internal static software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._ILegacyPolicy ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S12_LegacyPolicy (AWS.Cryptography.DbEncryptionSDK.DynamoDb.LegacyPolicy value) { if (AWS.Cryptography.DbEncryptionSDK.DynamoDb.LegacyPolicy.FORCE_LEGACY_ENCRYPT_ALLOW_LEGACY_DECRYPT.Equals(value)) return software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.LegacyPolicy.create_REQUIRE__ENCRYPT__ALLOW__DECRYPT(); if (AWS.Cryptography.DbEncryptionSDK.DynamoDb.LegacyPolicy.FORBID_LEGACY_ENCRYPT_ALLOW_LEGACY_DECRYPT.Equals(value)) return software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.LegacyPolicy.create_FORBID__ENCRYPT__ALLOW__DECRYPT(); if (AWS.Cryptography.DbEncryptionSDK.DynamoDb.LegacyPolicy.FORBID_LEGACY_ENCRYPT_FORBID_LEGACY_DECRYPT.Equals(value)) return software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.LegacyPolicy.create_FORBID__ENCRYPT__FORBID__DECRYPT(); throw new System.ArgumentException("Invalid AWS.Cryptography.DbEncryptionSDK.DynamoDb.LegacyPolicy value"); } internal static AWS.Cryptography.DbEncryptionSDK.DynamoDb.PlaintextOverride FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S15_PlaintextOverride (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IPlaintextOverride value) { if (value.is_REQUIRE__WRITE__ALLOW__READ) return AWS.Cryptography.DbEncryptionSDK.DynamoDb.PlaintextOverride.FORCE_PLAINTEXT_WRITE_ALLOW_PLAINTEXT_READ; if (value.is_FORBID__WRITE__ALLOW__READ) return AWS.Cryptography.DbEncryptionSDK.DynamoDb.PlaintextOverride.FORBID_PLAINTEXT_WRITE_ALLOW_PLAINTEXT_READ; if (value.is_FORBID__WRITE__FORBID__READ) return AWS.Cryptography.DbEncryptionSDK.DynamoDb.PlaintextOverride.FORBID_PLAINTEXT_WRITE_FORBID_PLAINTEXT_READ; throw new System.ArgumentException("Invalid AWS.Cryptography.DbEncryptionSDK.DynamoDb.PlaintextOverride value"); } internal static software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IPlaintextOverride ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S15_PlaintextOverride (AWS.Cryptography.DbEncryptionSDK.DynamoDb.PlaintextOverride value) { if (AWS.Cryptography.DbEncryptionSDK.DynamoDb.PlaintextOverride.FORCE_PLAINTEXT_WRITE_ALLOW_PLAINTEXT_READ.Equals(value)) return software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.PlaintextOverride.create_REQUIRE__WRITE__ALLOW__READ(); if (AWS.Cryptography.DbEncryptionSDK.DynamoDb.PlaintextOverride.FORBID_PLAINTEXT_WRITE_ALLOW_PLAINTEXT_READ.Equals(value)) return software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.PlaintextOverride.create_FORBID__WRITE__ALLOW__READ(); if (AWS.Cryptography.DbEncryptionSDK.DynamoDb.PlaintextOverride.FORBID_PLAINTEXT_WRITE_FORBID_PLAINTEXT_READ.Equals(value)) return software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.PlaintextOverride.create_FORBID__WRITE__FORBID__READ(); throw new System.ArgumentException("Invalid AWS.Cryptography.DbEncryptionSDK.DynamoDb.PlaintextOverride value"); } internal static AWS.Cryptography.DbEncryptionSDK.DynamoDb.VirtualTransform FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S16_VirtualTransform (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IVirtualTransform value) { software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.VirtualTransform concrete = (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.VirtualTransform)value; var converted = new AWS.Cryptography.DbEncryptionSDK.DynamoDb.VirtualTransform(); if (value.is_Upper) { converted.Upper = FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S16_VirtualTransform__M5_upper(concrete.dtor_upper); return converted; } if (value.is_Lower) { converted.Lower = FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S16_VirtualTransform__M5_lower(concrete.dtor_lower); return converted; } if (value.is_Insert) { converted.Insert = FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S16_VirtualTransform__M6_insert(concrete.dtor_insert); return converted; } if (value.is_Prefix) { converted.Prefix = FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S16_VirtualTransform__M6_prefix(concrete.dtor_prefix); return converted; } if (value.is_Suffix) { converted.Suffix = FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S16_VirtualTransform__M6_suffix(concrete.dtor_suffix); return converted; } if (value.is_Substring) { converted.Substring = FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S16_VirtualTransform__M9_substring(concrete.dtor_substring); return converted; } if (value.is_Segment) { converted.Segment = FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S16_VirtualTransform__M7_segment(concrete.dtor_segment); return converted; } if (value.is_Segments) { converted.Segments = FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S16_VirtualTransform__M8_segments(concrete.dtor_segments); return converted; } throw new System.ArgumentException("Invalid AWS.Cryptography.DbEncryptionSDK.DynamoDb.VirtualTransform state"); } internal static software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IVirtualTransform ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S16_VirtualTransform (AWS.Cryptography.DbEncryptionSDK.DynamoDb.VirtualTransform value) { if (value.IsSetUpper()) { return software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.VirtualTransform.create_upper(ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S16_VirtualTransform__M5_upper(value.Upper)); } if (value.IsSetLower()) { return software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.VirtualTransform.create_lower(ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S16_VirtualTransform__M5_lower(value.Lower)); } if (value.IsSetInsert()) { return software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.VirtualTransform.create_insert(ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S16_VirtualTransform__M6_insert(value.Insert)); } if (value.IsSetPrefix()) { return software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.VirtualTransform.create_prefix(ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S16_VirtualTransform__M6_prefix(value.Prefix)); } if (value.IsSetSuffix()) { return software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.VirtualTransform.create_suffix(ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S16_VirtualTransform__M6_suffix(value.Suffix)); } if (value.IsSetSubstring()) { return software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.VirtualTransform.create_substring(ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S16_VirtualTransform__M9_substring(value.Substring)); } if (value.IsSetSegment()) { return software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.VirtualTransform.create_segment(ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S16_VirtualTransform__M7_segment(value.Segment)); } if (value.IsSetSegments()) { return software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.VirtualTransform.create_segments(ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S16_VirtualTransform__M8_segments(value.Segments)); } throw new System.ArgumentException("Invalid AWS.Cryptography.DbEncryptionSDK.DynamoDb.VirtualTransform state"); } internal static AWS.Cryptography.DbEncryptionSDK.DynamoDb.SingleKeyStore FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S15_BeaconKeySource__M6_single (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._ISingleKeyStore value) { return FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S14_SingleKeyStore(value); } internal static software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._ISingleKeyStore ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S15_BeaconKeySource__M6_single (AWS.Cryptography.DbEncryptionSDK.DynamoDb.SingleKeyStore value) { return ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S14_SingleKeyStore(value); } internal static AWS.Cryptography.DbEncryptionSDK.DynamoDb.MultiKeyStore FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S15_BeaconKeySource__M5_multi (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IMultiKeyStore value) { return FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S13_MultiKeyStore(value); } internal static software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IMultiKeyStore ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S15_BeaconKeySource__M5_multi (AWS.Cryptography.DbEncryptionSDK.DynamoDb.MultiKeyStore value) { return ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S13_MultiKeyStore(value); } internal static AWS.Cryptography.DbEncryptionSDK.DynamoDb.IDynamoDbKeyBranchKeyIdSupplier FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S48_CreateDynamoDbEncryptionBranchKeyIdSupplierInput__M25_ddbKeyBranchKeyIdSupplier (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.IDynamoDbKeyBranchKeyIdSupplier value) { return FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S39_DynamoDbKeyBranchKeyIdSupplierReference(value); } internal static software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.IDynamoDbKeyBranchKeyIdSupplier ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S48_CreateDynamoDbEncryptionBranchKeyIdSupplierInput__M25_ddbKeyBranchKeyIdSupplier (AWS.Cryptography.DbEncryptionSDK.DynamoDb.IDynamoDbKeyBranchKeyIdSupplier value) { return ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S39_DynamoDbKeyBranchKeyIdSupplierReference(value); } internal static AWS.Cryptography.MaterialProviders.IBranchKeyIdSupplier FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S49_CreateDynamoDbEncryptionBranchKeyIdSupplierOutput__M19_branchKeyIdSupplier (software.amazon.cryptography.materialproviders.internaldafny.types.IBranchKeyIdSupplier value) { return FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S28_BranchKeyIdSupplierReference(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types.IBranchKeyIdSupplier ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S49_CreateDynamoDbEncryptionBranchKeyIdSupplierOutput__M19_branchKeyIdSupplier (AWS.Cryptography.MaterialProviders.IBranchKeyIdSupplier value) { return ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S28_BranchKeyIdSupplierReference(value); } internal static string FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S27_DynamoDbEncryptionException__M7_message (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S27_DynamoDbEncryptionException__M7_message (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static System.Collections.Generic.Dictionary<string, Amazon.DynamoDBv2.Model.AttributeValue> FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S29_GetBranchKeyIdFromDdbKeyInput__M6_ddbKey (Dafny.IMap<Dafny.ISequence<char>, software.amazon.cryptography.services.dynamodb.internaldafny.types._IAttributeValue> value) { return FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S3_Key(value); } internal static Dafny.IMap<Dafny.ISequence<char>, software.amazon.cryptography.services.dynamodb.internaldafny.types._IAttributeValue> ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S29_GetBranchKeyIdFromDdbKeyInput__M6_ddbKey (System.Collections.Generic.Dictionary<string, Amazon.DynamoDBv2.Model.AttributeValue> value) { return ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S3_Key(value); } internal static string FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S30_GetBranchKeyIdFromDdbKeyOutput__M11_branchKeyId (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S30_GetBranchKeyIdFromDdbKeyOutput__M11_branchKeyId (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static AWS.Cryptography.DbEncryptionSDK.DynamoDb.Upper FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S16_VirtualTransform__M5_upper (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IUpper value) { return FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S5_Upper(value); } internal static software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IUpper ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S16_VirtualTransform__M5_upper (AWS.Cryptography.DbEncryptionSDK.DynamoDb.Upper value) { return ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S5_Upper(value); } internal static AWS.Cryptography.DbEncryptionSDK.DynamoDb.Lower FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S16_VirtualTransform__M5_lower (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._ILower value) { return FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S5_Lower(value); } internal static software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._ILower ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S16_VirtualTransform__M5_lower (AWS.Cryptography.DbEncryptionSDK.DynamoDb.Lower value) { return ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S5_Lower(value); } internal static AWS.Cryptography.DbEncryptionSDK.DynamoDb.Insert FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S16_VirtualTransform__M6_insert (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IInsert value) { return FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S6_Insert(value); } internal static software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IInsert ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S16_VirtualTransform__M6_insert (AWS.Cryptography.DbEncryptionSDK.DynamoDb.Insert value) { return ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S6_Insert(value); } internal static AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetPrefix FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S16_VirtualTransform__M6_prefix (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IGetPrefix value) { return FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S9_GetPrefix(value); } internal static software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IGetPrefix ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S16_VirtualTransform__M6_prefix (AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetPrefix value) { return ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S9_GetPrefix(value); } internal static AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetSuffix FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S16_VirtualTransform__M6_suffix (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IGetSuffix value) { return FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S9_GetSuffix(value); } internal static software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IGetSuffix ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S16_VirtualTransform__M6_suffix (AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetSuffix value) { return ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S9_GetSuffix(value); } internal static AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetSubstring FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S16_VirtualTransform__M9_substring (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IGetSubstring value) { return FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S12_GetSubstring(value); } internal static software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IGetSubstring ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S16_VirtualTransform__M9_substring (AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetSubstring value) { return ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S12_GetSubstring(value); } internal static AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetSegment FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S16_VirtualTransform__M7_segment (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IGetSegment value) { return FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S10_GetSegment(value); } internal static software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IGetSegment ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S16_VirtualTransform__M7_segment (AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetSegment value) { return ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S10_GetSegment(value); } internal static AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetSegments FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S16_VirtualTransform__M8_segments (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IGetSegments value) { return FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S11_GetSegments(value); } internal static software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IGetSegments ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S16_VirtualTransform__M8_segments (AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetSegments value) { return ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S11_GetSegments(value); } internal static AWS.Cryptography.DbEncryptionSDK.DynamoDb.SingleKeyStore FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S14_SingleKeyStore (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._ISingleKeyStore value) { software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.SingleKeyStore concrete = (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.SingleKeyStore)value; AWS.Cryptography.DbEncryptionSDK.DynamoDb.SingleKeyStore converted = new AWS.Cryptography.DbEncryptionSDK.DynamoDb.SingleKeyStore(); converted.KeyId = (string) FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S14_SingleKeyStore__M5_keyId(concrete._keyId); converted.CacheTTL = (int) FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S14_SingleKeyStore__M8_cacheTTL(concrete._cacheTTL); return converted; } internal static software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._ISingleKeyStore ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S14_SingleKeyStore (AWS.Cryptography.DbEncryptionSDK.DynamoDb.SingleKeyStore value) { return new software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.SingleKeyStore ( ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S14_SingleKeyStore__M5_keyId(value.KeyId) , ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S14_SingleKeyStore__M8_cacheTTL(value.CacheTTL) ) ; } internal static AWS.Cryptography.DbEncryptionSDK.DynamoDb.MultiKeyStore FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S13_MultiKeyStore (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IMultiKeyStore value) { software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.MultiKeyStore concrete = (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.MultiKeyStore)value; AWS.Cryptography.DbEncryptionSDK.DynamoDb.MultiKeyStore converted = new AWS.Cryptography.DbEncryptionSDK.DynamoDb.MultiKeyStore(); converted.KeyFieldName = (string) FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S13_MultiKeyStore__M12_keyFieldName(concrete._keyFieldName); converted.CacheTTL = (int) FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S13_MultiKeyStore__M8_cacheTTL(concrete._cacheTTL); converted.MaxCacheSize = (int) FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S13_MultiKeyStore__M12_maxCacheSize(concrete._maxCacheSize); return converted; } internal static software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IMultiKeyStore ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S13_MultiKeyStore (AWS.Cryptography.DbEncryptionSDK.DynamoDb.MultiKeyStore value) { return new software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.MultiKeyStore ( ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S13_MultiKeyStore__M12_keyFieldName(value.KeyFieldName) , ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S13_MultiKeyStore__M8_cacheTTL(value.CacheTTL) , ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S13_MultiKeyStore__M12_maxCacheSize(value.MaxCacheSize) ) ; } internal static AWS.Cryptography.DbEncryptionSDK.DynamoDb.IDynamoDbKeyBranchKeyIdSupplier FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S39_DynamoDbKeyBranchKeyIdSupplierReference (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.IDynamoDbKeyBranchKeyIdSupplier value) { // This is converting a reference type in a dependant module. // Therefore it defers to the dependant module for conversion return AWS.Cryptography.DbEncryptionSDK.DynamoDb.TypeConversion.FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S39_DynamoDbKeyBranchKeyIdSupplierReference(value); } internal static software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.IDynamoDbKeyBranchKeyIdSupplier ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S39_DynamoDbKeyBranchKeyIdSupplierReference (AWS.Cryptography.DbEncryptionSDK.DynamoDb.IDynamoDbKeyBranchKeyIdSupplier value) { // This is converting a reference type in a dependant module. // Therefore it defers to the dependant module for conversion return new WrappedNativeWrapper_DynamoDbKeyBranchKeyIdSupplier((DynamoDbKeyBranchKeyIdSupplierBase)value); } internal static AWS.Cryptography.MaterialProviders.IBranchKeyIdSupplier FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S28_BranchKeyIdSupplierReference (software.amazon.cryptography.materialproviders.internaldafny.types.IBranchKeyIdSupplier value) { // This is converting a reference type in a dependant module. // Therefore it defers to the dependant module for conversion return AWS.Cryptography.MaterialProviders.TypeConversion.FromDafny_N3_aws__N12_cryptography__N17_materialProviders__S28_BranchKeyIdSupplierReference(value); } internal static software.amazon.cryptography.materialproviders.internaldafny.types.IBranchKeyIdSupplier ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S28_BranchKeyIdSupplierReference (AWS.Cryptography.MaterialProviders.IBranchKeyIdSupplier value) { // This is converting a reference type in a dependant module. // Therefore it defers to the dependant module for conversion return AWS.Cryptography.MaterialProviders.TypeConversion.ToDafny_N3_aws__N12_cryptography__N17_materialProviders__S28_BranchKeyIdSupplierReference(value); } internal static string FromDafny_N6_smithy__N3_api__S6_String (Dafny.ISequence<char> value) { return new string(value.Elements); } internal static Dafny.ISequence<char> ToDafny_N6_smithy__N3_api__S6_String (string value) { return Dafny.Sequence<char>.FromString(value); } internal static System.Collections.Generic.Dictionary<string, Amazon.DynamoDBv2.Model.AttributeValue> FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S3_Key (Dafny.IMap<Dafny.ISequence<char>, software.amazon.cryptography.services.dynamodb.internaldafny.types._IAttributeValue> value) { return value.ItemEnumerable.ToDictionary(pair => FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S3_Key__M3_key(pair.Car), pair => FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S3_Key__M5_value(pair.Cdr)); } internal static Dafny.IMap<Dafny.ISequence<char>, software.amazon.cryptography.services.dynamodb.internaldafny.types._IAttributeValue> ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S3_Key (System.Collections.Generic.Dictionary<string, Amazon.DynamoDBv2.Model.AttributeValue> value) { return Dafny.Map<Dafny.ISequence<char>, software.amazon.cryptography.services.dynamodb.internaldafny.types._IAttributeValue>.FromCollection(value.Select(pair => new Dafny.Pair<Dafny.ISequence<char>, software.amazon.cryptography.services.dynamodb.internaldafny.types._IAttributeValue>(ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S3_Key__M3_key(pair.Key), ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S3_Key__M5_value(pair.Value)) )); } internal static AWS.Cryptography.DbEncryptionSDK.DynamoDb.Upper FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S5_Upper (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IUpper value) { software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.Upper concrete = (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.Upper)value; AWS.Cryptography.DbEncryptionSDK.DynamoDb.Upper converted = new AWS.Cryptography.DbEncryptionSDK.DynamoDb.Upper(); return converted; } internal static software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IUpper ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S5_Upper (AWS.Cryptography.DbEncryptionSDK.DynamoDb.Upper value) { return new software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.Upper ( ) ; } internal static AWS.Cryptography.DbEncryptionSDK.DynamoDb.Lower FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S5_Lower (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._ILower value) { software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.Lower concrete = (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.Lower)value; AWS.Cryptography.DbEncryptionSDK.DynamoDb.Lower converted = new AWS.Cryptography.DbEncryptionSDK.DynamoDb.Lower(); return converted; } internal static software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._ILower ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S5_Lower (AWS.Cryptography.DbEncryptionSDK.DynamoDb.Lower value) { return new software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.Lower ( ) ; } internal static AWS.Cryptography.DbEncryptionSDK.DynamoDb.Insert FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S6_Insert (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IInsert value) { software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.Insert concrete = (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.Insert)value; AWS.Cryptography.DbEncryptionSDK.DynamoDb.Insert converted = new AWS.Cryptography.DbEncryptionSDK.DynamoDb.Insert(); converted.Literal = (string) FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S6_Insert__M7_literal(concrete._literal); return converted; } internal static software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IInsert ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S6_Insert (AWS.Cryptography.DbEncryptionSDK.DynamoDb.Insert value) { return new software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.Insert ( ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S6_Insert__M7_literal(value.Literal) ) ; } internal static AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetPrefix FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S9_GetPrefix (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IGetPrefix value) { software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.GetPrefix concrete = (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.GetPrefix)value; AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetPrefix converted = new AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetPrefix(); converted.Length = (int) FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S9_GetPrefix__M6_length(concrete._length); return converted; } internal static software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IGetPrefix ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S9_GetPrefix (AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetPrefix value) { return new software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.GetPrefix ( ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S9_GetPrefix__M6_length(value.Length) ) ; } internal static AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetSuffix FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S9_GetSuffix (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IGetSuffix value) { software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.GetSuffix concrete = (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.GetSuffix)value; AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetSuffix converted = new AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetSuffix(); converted.Length = (int) FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S9_GetSuffix__M6_length(concrete._length); return converted; } internal static software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IGetSuffix ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S9_GetSuffix (AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetSuffix value) { return new software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.GetSuffix ( ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S9_GetSuffix__M6_length(value.Length) ) ; } internal static AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetSubstring FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S12_GetSubstring (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IGetSubstring value) { software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.GetSubstring concrete = (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.GetSubstring)value; AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetSubstring converted = new AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetSubstring(); converted.Low = (int) FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S12_GetSubstring__M3_low(concrete._low); converted.High = (int) FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S12_GetSubstring__M4_high(concrete._high); return converted; } internal static software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IGetSubstring ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S12_GetSubstring (AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetSubstring value) { return new software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.GetSubstring ( ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S12_GetSubstring__M3_low(value.Low) , ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S12_GetSubstring__M4_high(value.High) ) ; } internal static AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetSegment FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S10_GetSegment (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IGetSegment value) { software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.GetSegment concrete = (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.GetSegment)value; AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetSegment converted = new AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetSegment(); converted.Split = (string) FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S10_GetSegment__M5_split(concrete._split); converted.Index = (int) FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S10_GetSegment__M5_index(concrete._index); return converted; } internal static software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IGetSegment ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S10_GetSegment (AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetSegment value) { return new software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.GetSegment ( ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S10_GetSegment__M5_split(value.Split) , ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S10_GetSegment__M5_index(value.Index) ) ; } internal static AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetSegments FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S11_GetSegments (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IGetSegments value) { software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.GetSegments concrete = (software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.GetSegments)value; AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetSegments converted = new AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetSegments(); converted.Split = (string) FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S11_GetSegments__M5_split(concrete._split); converted.Low = (int) FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S11_GetSegments__M3_low(concrete._low); converted.High = (int) FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S11_GetSegments__M4_high(concrete._high); return converted; } internal static software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IGetSegments ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S11_GetSegments (AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetSegments value) { return new software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.GetSegments ( ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S11_GetSegments__M5_split(value.Split) , ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S11_GetSegments__M3_low(value.Low) , ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S11_GetSegments__M4_high(value.High) ) ; } internal static string FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S14_SingleKeyStore__M5_keyId (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S14_SingleKeyStore__M5_keyId (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static int FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S14_SingleKeyStore__M8_cacheTTL (int value) { return FromDafny_N6_smithy__N3_api__S7_Integer(value); } internal static int ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S14_SingleKeyStore__M8_cacheTTL (int value) { return ToDafny_N6_smithy__N3_api__S7_Integer(value); } internal static string FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S13_MultiKeyStore__M12_keyFieldName (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S13_MultiKeyStore__M12_keyFieldName (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static int FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S13_MultiKeyStore__M8_cacheTTL (int value) { return FromDafny_N6_smithy__N3_api__S7_Integer(value); } internal static int ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S13_MultiKeyStore__M8_cacheTTL (int value) { return ToDafny_N6_smithy__N3_api__S7_Integer(value); } internal static int FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S13_MultiKeyStore__M12_maxCacheSize (int value) { return FromDafny_N6_smithy__N3_api__S7_Integer(value); } internal static int ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S13_MultiKeyStore__M12_maxCacheSize (int value) { return ToDafny_N6_smithy__N3_api__S7_Integer(value); } internal static string FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S3_Key__M3_key (Dafny.ISequence<char> value) { return FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S13_AttributeName(value); } internal static Dafny.ISequence<char> ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S3_Key__M3_key (string value) { return ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S13_AttributeName(value); } internal static Amazon.DynamoDBv2.Model.AttributeValue FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S3_Key__M5_value (software.amazon.cryptography.services.dynamodb.internaldafny.types._IAttributeValue value) { return FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue(value); } internal static software.amazon.cryptography.services.dynamodb.internaldafny.types._IAttributeValue ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S3_Key__M5_value (Amazon.DynamoDBv2.Model.AttributeValue value) { return ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue(value); } internal static string FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S6_Insert__M7_literal (Dafny.ISequence<char> value) { return FromDafny_N6_smithy__N3_api__S6_String(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S6_Insert__M7_literal (string value) { return ToDafny_N6_smithy__N3_api__S6_String(value); } internal static int FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S9_GetPrefix__M6_length (int value) { return FromDafny_N6_smithy__N3_api__S7_Integer(value); } internal static int ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S9_GetPrefix__M6_length (int value) { return ToDafny_N6_smithy__N3_api__S7_Integer(value); } internal static int FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S9_GetSuffix__M6_length (int value) { return FromDafny_N6_smithy__N3_api__S7_Integer(value); } internal static int ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S9_GetSuffix__M6_length (int value) { return ToDafny_N6_smithy__N3_api__S7_Integer(value); } internal static int FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S12_GetSubstring__M3_low (int value) { return FromDafny_N6_smithy__N3_api__S7_Integer(value); } internal static int ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S12_GetSubstring__M3_low (int value) { return ToDafny_N6_smithy__N3_api__S7_Integer(value); } internal static int FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S12_GetSubstring__M4_high (int value) { return FromDafny_N6_smithy__N3_api__S7_Integer(value); } internal static int ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S12_GetSubstring__M4_high (int value) { return ToDafny_N6_smithy__N3_api__S7_Integer(value); } internal static string FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S10_GetSegment__M5_split (Dafny.ISequence<char> value) { return FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S4_Char(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S10_GetSegment__M5_split (string value) { return ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S4_Char(value); } internal static int FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S10_GetSegment__M5_index (int value) { return FromDafny_N6_smithy__N3_api__S7_Integer(value); } internal static int ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S10_GetSegment__M5_index (int value) { return ToDafny_N6_smithy__N3_api__S7_Integer(value); } internal static string FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S11_GetSegments__M5_split (Dafny.ISequence<char> value) { return FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S4_Char(value); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S11_GetSegments__M5_split (string value) { return ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S4_Char(value); } internal static int FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S11_GetSegments__M3_low (int value) { return FromDafny_N6_smithy__N3_api__S7_Integer(value); } internal static int ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S11_GetSegments__M3_low (int value) { return ToDafny_N6_smithy__N3_api__S7_Integer(value); } internal static int FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S11_GetSegments__M4_high (int value) { return FromDafny_N6_smithy__N3_api__S7_Integer(value); } internal static int ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S11_GetSegments__M4_high (int value) { return ToDafny_N6_smithy__N3_api__S7_Integer(value); } internal static int FromDafny_N6_smithy__N3_api__S7_Integer (int value) { return value; } internal static int ToDafny_N6_smithy__N3_api__S7_Integer (int value) { return value; } internal static string FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S13_AttributeName (Dafny.ISequence<char> value) { return new string(value.Elements); } internal static Dafny.ISequence<char> ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S13_AttributeName (string value) { return Dafny.Sequence<char>.FromString(value); } internal static Amazon.DynamoDBv2.Model.AttributeValue FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue (software.amazon.cryptography.services.dynamodb.internaldafny.types._IAttributeValue value) { software.amazon.cryptography.services.dynamodb.internaldafny.types.AttributeValue concrete = (software.amazon.cryptography.services.dynamodb.internaldafny.types.AttributeValue)value; var converted = new Amazon.DynamoDBv2.Model.AttributeValue(); if (value.is_S) { converted.S = FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M1_S(concrete.dtor_S); return converted; } if (value.is_N) { converted.N = FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M1_N(concrete.dtor_N); return converted; } if (value.is_B) { converted.B = FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M1_B(concrete.dtor_B); return converted; } if (value.is_SS) { converted.SS = FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M2_SS(concrete.dtor_SS); return converted; } if (value.is_NS) { converted.NS = FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M2_NS(concrete.dtor_NS); return converted; } if (value.is_BS) { converted.BS = FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M2_BS(concrete.dtor_BS); return converted; } if (value.is_M) { converted.M = FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M1_M(concrete.dtor_M); return converted; } if (value.is_L) { converted.L = FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M1_L(concrete.dtor_L); return converted; } if (value.is_NULL) { converted.NULL = FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M4_NULL(concrete.dtor_NULL); return converted; } if (value.is_BOOL) { converted.BOOL = FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M4_BOOL(concrete.dtor_BOOL); return converted; } throw new System.ArgumentException("Invalid Amazon.DynamoDBv2.Model.AttributeValue state"); } internal static software.amazon.cryptography.services.dynamodb.internaldafny.types._IAttributeValue ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue (Amazon.DynamoDBv2.Model.AttributeValue value) { if (value.S != null) { return software.amazon.cryptography.services.dynamodb.internaldafny.types.AttributeValue.create_S(ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M1_S(value.S)); } if (value.N != null) { return software.amazon.cryptography.services.dynamodb.internaldafny.types.AttributeValue.create_N(ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M1_N(value.N)); } if (value.B != null) { return software.amazon.cryptography.services.dynamodb.internaldafny.types.AttributeValue.create_B(ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M1_B(value.B)); } if (!value.SS.Any()) { return software.amazon.cryptography.services.dynamodb.internaldafny.types.AttributeValue.create_SS(ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M2_SS(value.SS)); } if (!value.NS.Any()) { return software.amazon.cryptography.services.dynamodb.internaldafny.types.AttributeValue.create_NS(ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M2_NS(value.NS)); } if (!value.BS.Any()) { return software.amazon.cryptography.services.dynamodb.internaldafny.types.AttributeValue.create_BS(ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M2_BS(value.BS)); } if (value.IsMSet) { return software.amazon.cryptography.services.dynamodb.internaldafny.types.AttributeValue.create_M(ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M1_M(value.M)); } if (value.IsLSet) { return software.amazon.cryptography.services.dynamodb.internaldafny.types.AttributeValue.create_L(ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M1_L(value.L)); } if (value.NULL == true) { return software.amazon.cryptography.services.dynamodb.internaldafny.types.AttributeValue.create_NULL(ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M4_NULL(value.NULL)); } if (value.IsBOOLSet) { return software.amazon.cryptography.services.dynamodb.internaldafny.types.AttributeValue.create_BOOL(ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M4_BOOL(value.BOOL)); } throw new System.ArgumentException("Invalid Amazon.DynamoDBv2.Model.AttributeValue state"); } internal static string FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S4_Char (Dafny.ISequence<char> value) { return new string(value.Elements); } internal static Dafny.ISequence<char> ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S4_Char (string value) { return Dafny.Sequence<char>.FromString(value); } internal static string FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M1_S (Dafny.ISequence<char> value) { return FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S20_StringAttributeValue(value); } internal static Dafny.ISequence<char> ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M1_S (string value) { return ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S20_StringAttributeValue(value); } internal static string FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M1_N (Dafny.ISequence<char> value) { return FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S20_NumberAttributeValue(value); } internal static Dafny.ISequence<char> ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M1_N (string value) { return ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S20_NumberAttributeValue(value); } internal static System.IO.MemoryStream FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M1_B (Dafny.ISequence<byte> value) { return FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S20_BinaryAttributeValue(value); } internal static Dafny.ISequence<byte> ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M1_B (System.IO.MemoryStream value) { return ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S20_BinaryAttributeValue(value); } internal static System.Collections.Generic.List<string> FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M2_SS (Dafny.ISequence<Dafny.ISequence<char>> value) { return FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S23_StringSetAttributeValue(value); } internal static Dafny.ISequence<Dafny.ISequence<char>> ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M2_SS (System.Collections.Generic.List<string> value) { return ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S23_StringSetAttributeValue(value); } internal static System.Collections.Generic.List<string> FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M2_NS (Dafny.ISequence<Dafny.ISequence<char>> value) { return FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S23_NumberSetAttributeValue(value); } internal static Dafny.ISequence<Dafny.ISequence<char>> ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M2_NS (System.Collections.Generic.List<string> value) { return ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S23_NumberSetAttributeValue(value); } internal static System.Collections.Generic.List<System.IO.MemoryStream> FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M2_BS (Dafny.ISequence<Dafny.ISequence<byte>> value) { return FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S23_BinarySetAttributeValue(value); } internal static Dafny.ISequence<Dafny.ISequence<byte>> ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M2_BS (System.Collections.Generic.List<System.IO.MemoryStream> value) { return ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S23_BinarySetAttributeValue(value); } internal static System.Collections.Generic.Dictionary<string, Amazon.DynamoDBv2.Model.AttributeValue> FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M1_M (Dafny.IMap<Dafny.ISequence<char>, software.amazon.cryptography.services.dynamodb.internaldafny.types._IAttributeValue> value) { return FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S17_MapAttributeValue(value); } internal static Dafny.IMap<Dafny.ISequence<char>, software.amazon.cryptography.services.dynamodb.internaldafny.types._IAttributeValue> ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M1_M (System.Collections.Generic.Dictionary<string, Amazon.DynamoDBv2.Model.AttributeValue> value) { return ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S17_MapAttributeValue(value); } internal static System.Collections.Generic.List<Amazon.DynamoDBv2.Model.AttributeValue> FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M1_L (Dafny.ISequence<software.amazon.cryptography.services.dynamodb.internaldafny.types._IAttributeValue> value) { return FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S18_ListAttributeValue(value); } internal static Dafny.ISequence<software.amazon.cryptography.services.dynamodb.internaldafny.types._IAttributeValue> ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M1_L (System.Collections.Generic.List<Amazon.DynamoDBv2.Model.AttributeValue> value) { return ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S18_ListAttributeValue(value); } internal static bool FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M4_NULL (bool value) { return FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S18_NullAttributeValue(value); } internal static bool ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M4_NULL (bool value) { return ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S18_NullAttributeValue(value); } internal static bool FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M4_BOOL (bool value) { return FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S21_BooleanAttributeValue(value); } internal static bool ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue__M4_BOOL (bool value) { return ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S21_BooleanAttributeValue(value); } internal static string FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S20_StringAttributeValue (Dafny.ISequence<char> value) { return new string(value.Elements); } internal static Dafny.ISequence<char> ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S20_StringAttributeValue (string value) { return Dafny.Sequence<char>.FromString(value); } internal static string FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S20_NumberAttributeValue (Dafny.ISequence<char> value) { return new string(value.Elements); } internal static Dafny.ISequence<char> ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S20_NumberAttributeValue (string value) { return Dafny.Sequence<char>.FromString(value); } internal static System.IO.MemoryStream FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S20_BinaryAttributeValue (Dafny.ISequence<byte> value) { return new System.IO.MemoryStream(value.Elements); } internal static Dafny.ISequence<byte> ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S20_BinaryAttributeValue (System.IO.MemoryStream value) { return Dafny.Sequence<byte>.FromArray(value.ToArray()); } internal static System.Collections.Generic.List<string> FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S23_StringSetAttributeValue (Dafny.ISequence<Dafny.ISequence<char>> value) { return new System.Collections.Generic.List<string>(value.Elements.Select(FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S23_StringSetAttributeValue__M6_member)); } internal static Dafny.ISequence<Dafny.ISequence<char>> ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S23_StringSetAttributeValue (System.Collections.Generic.List<string> value) { return Dafny.Sequence<Dafny.ISequence<char>>.FromArray(value.Select(ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S23_StringSetAttributeValue__M6_member).ToArray()); } internal static System.Collections.Generic.List<string> FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S23_NumberSetAttributeValue (Dafny.ISequence<Dafny.ISequence<char>> value) { return new System.Collections.Generic.List<string>(value.Elements.Select(FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S23_NumberSetAttributeValue__M6_member)); } internal static Dafny.ISequence<Dafny.ISequence<char>> ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S23_NumberSetAttributeValue (System.Collections.Generic.List<string> value) { return Dafny.Sequence<Dafny.ISequence<char>>.FromArray(value.Select(ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S23_NumberSetAttributeValue__M6_member).ToArray()); } internal static System.Collections.Generic.List<System.IO.MemoryStream> FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S23_BinarySetAttributeValue (Dafny.ISequence<Dafny.ISequence<byte>> value) { return new System.Collections.Generic.List<System.IO.MemoryStream>(value.Elements.Select(FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S23_BinarySetAttributeValue__M6_member)); } internal static Dafny.ISequence<Dafny.ISequence<byte>> ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S23_BinarySetAttributeValue (System.Collections.Generic.List<System.IO.MemoryStream> value) { return Dafny.Sequence<Dafny.ISequence<byte>>.FromArray(value.Select(ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S23_BinarySetAttributeValue__M6_member).ToArray()); } internal static System.Collections.Generic.Dictionary<string, Amazon.DynamoDBv2.Model.AttributeValue> FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S17_MapAttributeValue (Dafny.IMap<Dafny.ISequence<char>, software.amazon.cryptography.services.dynamodb.internaldafny.types._IAttributeValue> value) { return value.ItemEnumerable.ToDictionary(pair => FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S17_MapAttributeValue__M3_key(pair.Car), pair => FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S17_MapAttributeValue__M5_value(pair.Cdr)); } internal static Dafny.IMap<Dafny.ISequence<char>, software.amazon.cryptography.services.dynamodb.internaldafny.types._IAttributeValue> ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S17_MapAttributeValue (System.Collections.Generic.Dictionary<string, Amazon.DynamoDBv2.Model.AttributeValue> value) { return Dafny.Map<Dafny.ISequence<char>, software.amazon.cryptography.services.dynamodb.internaldafny.types._IAttributeValue>.FromCollection(value.Select(pair => new Dafny.Pair<Dafny.ISequence<char>, software.amazon.cryptography.services.dynamodb.internaldafny.types._IAttributeValue>(ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S17_MapAttributeValue__M3_key(pair.Key), ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S17_MapAttributeValue__M5_value(pair.Value)) )); } internal static System.Collections.Generic.List<Amazon.DynamoDBv2.Model.AttributeValue> FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S18_ListAttributeValue (Dafny.ISequence<software.amazon.cryptography.services.dynamodb.internaldafny.types._IAttributeValue> value) { return new System.Collections.Generic.List<Amazon.DynamoDBv2.Model.AttributeValue>(value.Elements.Select(FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S18_ListAttributeValue__M6_member)); } internal static Dafny.ISequence<software.amazon.cryptography.services.dynamodb.internaldafny.types._IAttributeValue> ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S18_ListAttributeValue (System.Collections.Generic.List<Amazon.DynamoDBv2.Model.AttributeValue> value) { return Dafny.Sequence<software.amazon.cryptography.services.dynamodb.internaldafny.types._IAttributeValue>.FromArray(value.Select(ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S18_ListAttributeValue__M6_member).ToArray()); } internal static bool FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S18_NullAttributeValue (bool value) { return value; } internal static bool ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S18_NullAttributeValue (bool value) { return value; } internal static bool FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S21_BooleanAttributeValue (bool value) { return value; } internal static bool ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S21_BooleanAttributeValue (bool value) { return value; } internal static string FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S23_StringSetAttributeValue__M6_member (Dafny.ISequence<char> value) { return FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S20_StringAttributeValue(value); } internal static Dafny.ISequence<char> ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S23_StringSetAttributeValue__M6_member (string value) { return ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S20_StringAttributeValue(value); } internal static string FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S23_NumberSetAttributeValue__M6_member (Dafny.ISequence<char> value) { return FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S20_NumberAttributeValue(value); } internal static Dafny.ISequence<char> ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S23_NumberSetAttributeValue__M6_member (string value) { return ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S20_NumberAttributeValue(value); } internal static System.IO.MemoryStream FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S23_BinarySetAttributeValue__M6_member (Dafny.ISequence<byte> value) { return FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S20_BinaryAttributeValue(value); } internal static Dafny.ISequence<byte> ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S23_BinarySetAttributeValue__M6_member (System.IO.MemoryStream value) { return ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S20_BinaryAttributeValue(value); } internal static string FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S17_MapAttributeValue__M3_key (Dafny.ISequence<char> value) { return FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S13_AttributeName(value); } internal static Dafny.ISequence<char> ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S17_MapAttributeValue__M3_key (string value) { return ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S13_AttributeName(value); } internal static Amazon.DynamoDBv2.Model.AttributeValue FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S17_MapAttributeValue__M5_value (software.amazon.cryptography.services.dynamodb.internaldafny.types._IAttributeValue value) { return FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue(value); } internal static software.amazon.cryptography.services.dynamodb.internaldafny.types._IAttributeValue ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S17_MapAttributeValue__M5_value (Amazon.DynamoDBv2.Model.AttributeValue value) { return ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue(value); } internal static Amazon.DynamoDBv2.Model.AttributeValue FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S18_ListAttributeValue__M6_member (software.amazon.cryptography.services.dynamodb.internaldafny.types._IAttributeValue value) { return FromDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue(value); } internal static software.amazon.cryptography.services.dynamodb.internaldafny.types._IAttributeValue ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S18_ListAttributeValue__M6_member (Amazon.DynamoDBv2.Model.AttributeValue value) { return ToDafny_N3_com__N9_amazonaws__N8_dynamodb__S14_AttributeValue(value); } public static System.Exception FromDafny_CommonError(software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IError value) { switch(value) { case software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.Error_DynamoDbEncryptionException dafnyVal: return FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S27_DynamoDbEncryptionException(dafnyVal); case software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.Error_CollectionOfErrors dafnyVal: return new CollectionOfErrors(new System.Collections.Generic.List<Exception>(dafnyVal._list.Elements.Select(x => TypeConversion.FromDafny_CommonError(x)))); case software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.Error_Opaque dafnyVal: return new OpaqueError(dafnyVal._obj); default: // The switch MUST be complete for _IError, so `value` MUST NOT be an _IError. (How did you get here?) return new OpaqueError(); } } public static software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IError ToDafny_CommonError(System.Exception value) { switch (value) { case AWS.Cryptography.DbEncryptionSDK.DynamoDb.DynamoDbEncryptionException exception: return ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S27_DynamoDbEncryptionException(exception); case CollectionOfErrors collectionOfErrors: return new software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.Error_CollectionOfErrors( Dafny.Sequence<software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IError> .FromArray( collectionOfErrors.list.Select (x => TypeConversion.ToDafny_CommonError(x)) .ToArray() ) ); // OpaqueError is redundant, but listed for completeness. case OpaqueError exception: return new software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.Error_Opaque(exception); case System.Exception exception: return new software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.Error_Opaque(exception); default: // The switch MUST be complete for System.Exception, so `value` MUST NOT be an System.Exception. (How did you get here?) return new software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.Error_Opaque(value); } } } }	725
aws-database-encryption-sdk-dynamodb-java	aws	C#	// Copyright Amazon.com Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 // Do not modify this file. This file is machine generated, and any changes to it will be overwritten. // ReSharper disable RedundantUsingDirective // ReSharper disable RedundantNameQualifier // ReSharper disable SuggestVarOrType_SimpleTypes using System; using _System; using Wrappers_Compile; namespace AWS.Cryptography.DbEncryptionSDK.DynamoDb.Wrapped { internal class WrappedNativeWrapper_DynamoDbKeyBranchKeyIdSupplier : software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.IDynamoDbKeyBranchKeyIdSupplier { internal readonly DynamoDbKeyBranchKeyIdSupplierBase _impl; public WrappedNativeWrapper_DynamoDbKeyBranchKeyIdSupplier(DynamoDbKeyBranchKeyIdSupplierBase nativeImpl) { _impl = nativeImpl; } public Wrappers_Compile._IResult<software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IGetBranchKeyIdFromDdbKeyOutput, software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IError> GetBranchKeyIdFromDdbKey(software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IGetBranchKeyIdFromDdbKeyInput input) { void validateOutput(AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetBranchKeyIdFromDdbKeyOutput nativeOutput) { try { nativeOutput.Validate(); } catch (ArgumentException e) { var message = $"Output of {_impl}._GetBranchKeyIdFromDdbKey is invalid. {e.Message}"; throw new DynamoDbEncryptionException(message); } } AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetBranchKeyIdFromDdbKeyInput nativeInput = TypeConversion.FromDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S29_GetBranchKeyIdFromDdbKeyInput(input); try { AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetBranchKeyIdFromDdbKeyOutput nativeOutput = _impl.GetBranchKeyIdFromDdbKey(nativeInput); _ = nativeOutput ?? throw new DynamoDbEncryptionException($"{_impl}._GetBranchKeyIdFromDdbKey returned null, should be {typeof(AWS.Cryptography.DbEncryptionSDK.DynamoDb.GetBranchKeyIdFromDdbKeyOutput)}"); validateOutput(nativeOutput); return Wrappers_Compile.Result<software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IGetBranchKeyIdFromDdbKeyOutput, software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IError>.create_Success(TypeConversion.ToDafny_N3_aws__N12_cryptography__N15_dbEncryptionSdk__N8_dynamoDb__S30_GetBranchKeyIdFromDdbKeyOutput(nativeOutput)); } catch(Exception e) { return Wrappers_Compile.Result<software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IGetBranchKeyIdFromDdbKeyOutput, software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IError>.create_Failure(TypeConversion.ToDafny_CommonError(e)); } } public Wrappers_Compile._IResult<software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IGetBranchKeyIdFromDdbKeyOutput, software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IError> GetBranchKeyIdFromDdbKey_k(software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types._IGetBranchKeyIdFromDdbKeyInput input) { throw new DynamoDbEncryptionException("Not supported at this time."); } } }	46
aws-database-encryption-sdk-dynamodb-java	aws	C#	// Copyright Amazon.com Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 // Do not modify this file. This file is machine generated, and any changes to it will be overwritten. // ReSharper disable RedundantUsingDirective // ReSharper disable RedundantNameQualifier // ReSharper disable SuggestVarOrType_SimpleTypes using System; using _System; using Wrappers_Compile; namespace AWS.Cryptography.DbEncryptionSDK.DynamoDb.Wrapped { internal class WrappedNativeWrapper_LegacyDynamoDbEncryptor : software.amazon.cryptography.dbencryptionsdk.dynamodb.internaldafny.types.ILegacyDynamoDbEncryptor { internal readonly LegacyDynamoDbEncryptorBase _impl; public WrappedNativeWrapper_LegacyDynamoDbEncryptor(LegacyDynamoDbEncryptorBase nativeImpl) { _impl = nativeImpl; } } }	22
aws-dotnet-deploy	aws	C#	using Amazon.SecurityToken; using Amazon.SecurityToken.Model; using Amazon.CodeBuild; using Amazon.CodeBuild.Model; using Amazon.Lambda.Core; using Amazon.Lambda.Annotations; using Amazon.Lambda.Annotations.APIGateway; using AWS.Deploy.Tools.CI.Models; [assembly: LambdaSerializer(typeof(Amazon.Lambda.Serialization.SystemTextJson.DefaultLambdaJsonSerializer))] namespace AWS.Deploy.Tools.CI; /// <summary> /// Lambda functions that will interact with CodeBuild as part of the AWS.Deploy.Tools CI/CD pipeline. /// </summary> public class CodeBuildFunctions { private readonly IAmazonSecurityTokenService _githubSTSClient; public CodeBuildFunctions(IAmazonSecurityTokenService githubSTSClient) { _githubSTSClient = githubSTSClient; } /// <summary> /// The <see cref="GetAvailableTestRunner"/> function is responsible for checking available test runner accounts to run the AWS.Deploy.Tools CodeBuild PR check. /// A list of IAM roles, representing the test runner accounts, is passed to the function. /// These roles are assumed and used to check if the CodeBuild CI project in the test runner account is currently running any jobs. /// </summary> /// <returns>The function will return the IAM role of the account that is not running any CodeBuild CI jobs.</returns> /// <exception cref="ArgumentNullException">If the input passed to the function is invalid.</exception> /// <exception cref="Exception">If no test runner account is available.</exception> /// <exception cref="Exception">If a CodeBuild CI project is not found in the test runner account.</exception> [LambdaFunction(Name = "GetAvailableTestRunner", Policies = "@AWSDeployToolsCIGetAvailableTestRunnerLambdaAssumeRolePolicy")] public async Task<string> GetAvailableTestRunner(GetAvailableTestRunnerInput input) { if (string.IsNullOrEmpty(input.Roles)) { throw new ArgumentNullException(nameof(input.Roles)); } if (string.IsNullOrEmpty(input.ProjectName)) { throw new ArgumentNullException(nameof(input.ProjectName)); } if (string.IsNullOrEmpty(input.Branch)) { throw new ArgumentNullException(nameof(input.Branch)); } var roles = input.Roles.Split(",").Select(x => x.Trim()).ToList(); if (!roles.Any()) { throw new ArgumentNullException(nameof(input.Roles)); } foreach (var role in roles) { var assumeRoleResponse = await _githubSTSClient.AssumeRoleAsync( new AssumeRoleRequest { RoleArn = role, RoleSessionName = "DeployToolTestRunner" } ); using var testRunnerSTSClient = new AmazonSecurityTokenServiceClient(assumeRoleResponse.Credentials); var callerIdentity = await testRunnerSTSClient.GetCallerIdentityAsync(new GetCallerIdentityRequest()); using var codeBuildClient = new AmazonCodeBuildClient(assumeRoleResponse.Credentials); var batchGetProjectsResponse = await codeBuildClient.BatchGetProjectsAsync( new BatchGetProjectsRequest { Names = new List<string> { input.ProjectName } } ); if (!batchGetProjectsResponse.Projects.Any()) { throw new Exception($"Could not find any project with the name '{input.ProjectName}' in account '{callerIdentity.Account}'."); } var project = batchGetProjectsResponse.Projects.First(); var listBuildsForProjectResponse = await codeBuildClient.ListBuildsForProjectAsync( new ListBuildsForProjectRequest { ProjectName = project.Name } ); var runningBuilds = 0; if (listBuildsForProjectResponse.Ids.Any()) { var latestBuilds = listBuildsForProjectResponse.Ids.Take(20).ToList(); var detailedBuilds = await codeBuildClient.BatchGetBuildsAsync( new BatchGetBuildsRequest { Ids = latestBuilds } ); foreach (var detailedBuild in detailedBuilds.Builds) { if (detailedBuild.BuildComplete == false) { runningBuilds++; } } } if (runningBuilds < project.ConcurrentBuildLimit) { return role; } else { continue; } } throw new Exception("There are no available Test Runner accounts."); } }	131
aws-dotnet-deploy	aws	C#	using Amazon.Lambda.Annotations; using Amazon.SecurityToken; using Microsoft.Extensions.DependencyInjection; namespace AWS.Deploy.Tools.CI { [LambdaStartup] public class Startup { /// <summary> /// Services for Lambda functions can be registered in the services dependency injection container in this method. /// /// The services can be injected into the Lambda function through the containing type's constructor or as a /// parameter in the Lambda function using the FromService attribute. Services injected for the constructor have /// the lifetime of the Lambda compute container. Services injected as parameters are created within the scope /// of the function invocation. /// </summary> public void ConfigureServices(IServiceCollection services) { services.AddAWSService<IAmazonSecurityTokenService>(); } } }	24
aws-dotnet-deploy	aws	C#	ï»¿namespace AWS.Deploy.Tools.CI.Models; /// <summary> /// Input to the Lambda function <see cref="CodeBuildFunctions.GetAvailableTestRunner"/> /// </summary> public class GetAvailableTestRunnerInput { /// <summary> /// Comma-separated list of IAM roles in the test runner accounts that have a trust relationship /// with the AWS account that will be hosting the Lambda function <see cref="CodeBuildFunctions.GetAvailableTestRunner"/> /// These roles will be used to invoke a CodeBuild job hosted in the test runner accounts. /// </summary> public string Roles { get; set; } /// <summary> /// The CodeBuild project name that will be invoked in the test runner account. /// </summary> public string ProjectName { get; set; } /// <summary> /// The GitHub branch/commit-id that will be passed to the CodeBuild project. /// </summary> public string Branch { get; set; } public GetAvailableTestRunnerInput(string roles, string projectName, string branch) { Roles = roles; ProjectName = projectName; Branch = branch; } }	32
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System; using System.CommandLine; using System.Linq; using System.Reflection; using System.Text; using System.Threading.Tasks; using AWS.Deploy.CLI.Commands; namespace AWS.Deploy.CLI { public class App { private readonly ICommandFactory _commandFactory; private readonly IToolInteractiveService _toolInteractiveService; public App(ICommandFactory commandFactory, IToolInteractiveService toolInteractiveService) { _commandFactory = commandFactory; _toolInteractiveService = toolInteractiveService; } public async Task<int> Run(string[] args) { Console.OutputEncoding = Encoding.UTF8; SetExecutionEnvironment(args); _toolInteractiveService.WriteLine("AWS .NET deployment tool for deploying .NET Core applications to AWS."); _toolInteractiveService.WriteLine("Project Home: https://github.com/aws/aws-dotnet-deploy"); _toolInteractiveService.WriteLine(string.Empty); // if user didn't specify a command, default to help if (args.Length == 0) { args = new[] { "-h" }; } return await _commandFactory.BuildRootCommand().InvokeAsync(args); } /// <summary> /// Set up the execution environment variable picked up by the AWS .NET SDK. This can be useful for identify calls /// made by this tool in AWS CloudTrail. /// </summary> private static void SetExecutionEnvironment(string[] args) { const string envName = "AWS_EXECUTION_ENV"; const string awsDotnetDeployCLI = "aws-dotnet-deploy-cli"; var assemblyVersion = typeof(Program).Assembly .GetCustomAttributes(typeof(AssemblyInformationalVersionAttribute), false) .FirstOrDefault() as AssemblyInformationalVersionAttribute; var envValue = new StringBuilder(); // If there is an existing execution environment variable add this tool as a suffix. if(!string.IsNullOrEmpty(Environment.GetEnvironmentVariable(envName))) { envValue.Append($"{Environment.GetEnvironmentVariable(envName)}_"); } envValue.Append($"{awsDotnetDeployCLI}_{assemblyVersion?.InformationalVersion}"); if (args?.Length > 0) { envValue.Append($"_{args[0]}"); } Environment.SetEnvironmentVariable(envName, envValue.ToString()); } } }	77
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System; using System.Collections.Generic; using System.Linq; using System.Threading.Tasks; using Amazon.Runtime; using Amazon.Runtime.CredentialManagement; using AWS.Deploy.CLI.Utilities; using AWS.Deploy.Common; using AWS.Deploy.Common.IO; using AWS.Deploy.Common.Recipes; using Microsoft.Extensions.DependencyInjection; namespace AWS.Deploy.CLI { public interface IAWSUtilities { Task<AWSCredentials> ResolveAWSCredentials(string? profileName); string ResolveAWSRegion(string? region, string? lastRegionUsed = null); } public class AWSUtilities : IAWSUtilities { private readonly IToolInteractiveService _toolInteractiveService; private readonly IConsoleUtilities _consoleUtilities; private readonly IDirectoryManager _directoryManager; private readonly IOptionSettingHandler _optionSettingHandler; private readonly IServiceProvider _serviceProvider; public AWSUtilities( IServiceProvider serviceProvider, IToolInteractiveService toolInteractiveService, IConsoleUtilities consoleUtilities, IDirectoryManager directoryManager, IOptionSettingHandler optionSettingHandler) { _serviceProvider = serviceProvider; _toolInteractiveService = toolInteractiveService; _consoleUtilities = consoleUtilities; _directoryManager = directoryManager; _optionSettingHandler = optionSettingHandler; } public async Task<AWSCredentials> ResolveAWSCredentials(string? profileName) { async Task<AWSCredentials> Resolve() { var chain = new CredentialProfileStoreChain(); if (!string.IsNullOrEmpty(profileName)) { if (chain.TryGetAWSCredentials(profileName, out var profileCredentials) && // Skip checking CanLoadCredentials for AssumeRoleAWSCredentials because it might require an MFA token and the callback hasn't been setup yet. (profileCredentials is AssumeRoleAWSCredentials \|\| await CanLoadCredentials(profileCredentials))) { _toolInteractiveService.WriteLine($"Configuring AWS Credentials from Profile {profileName}."); return profileCredentials; } else { var message = $"Failed to get credentials for profile \"{profileName}\". Please provide a valid profile name and try again."; throw new FailedToGetCredentialsForProfile(DeployToolErrorCode.FailedToGetCredentialsForProfile, message); } } try { var fallbackCredentials = FallbackCredentialsFactory.GetCredentials(); if (await CanLoadCredentials(fallbackCredentials)) { _toolInteractiveService.WriteLine("Configuring AWS Credentials using AWS SDK credential search."); return fallbackCredentials; } } catch (AmazonServiceException ex) { // FallbackCredentialsFactory throws an exception if no credentials are found. Burying exception because if no credentials are found // we want to continue and ask the user to select a profile. _toolInteractiveService.WriteDebugLine(ex.PrettyPrint()); } var sharedCredentials = new SharedCredentialsFile(); if (sharedCredentials.ListProfileNames().Count == 0) { throw new NoAWSCredentialsFoundException(DeployToolErrorCode.UnableToResolveAWSCredentials, "Unable to resolve AWS credentials to access AWS."); } var selectedProfileName = _consoleUtilities.AskUserToChoose(sharedCredentials.ListProfileNames(), "Select AWS Credentials Profile", null); if (chain.TryGetAWSCredentials(selectedProfileName, out var selectedProfileCredentials) && (await CanLoadCredentials(selectedProfileCredentials))) { return selectedProfileCredentials; } throw new NoAWSCredentialsFoundException(DeployToolErrorCode.UnableToCreateAWSCredentials, $"Unable to create AWS credentials for profile {selectedProfileName}."); } var credentials = await Resolve(); if (credentials is AssumeRoleAWSCredentials assumeRoleAWSCredentials) { var assumeOptions = assumeRoleAWSCredentials.Options; assumeOptions.MfaTokenCodeCallback = ActivatorUtilities.CreateInstance<AssumeRoleMfaTokenCodeCallback>(_serviceProvider, assumeOptions).Execute; } return credentials; } private async Task<bool> CanLoadCredentials(AWSCredentials credentials) { try { await credentials.GetCredentialsAsync(); return true; } catch (Exception ex) { _toolInteractiveService.WriteDebugLine(ex.PrettyPrint()); return false; } } public string ResolveAWSRegion(string? region, string? lastRegionUsed = null) { if (!string.IsNullOrEmpty(region)) { _toolInteractiveService.WriteLine($"Configuring AWS region with specified value {region}."); return region; } if (!string.IsNullOrEmpty(lastRegionUsed)) { _toolInteractiveService.WriteLine($"Configuring AWS region with previous configured value {lastRegionUsed}."); return lastRegionUsed; } var fallbackRegion = FallbackRegionFactory.GetRegionEndpoint()?.SystemName; if (!string.IsNullOrEmpty(fallbackRegion)) { _toolInteractiveService.WriteLine($"Configuring AWS region using AWS SDK region search to {fallbackRegion}."); return fallbackRegion; } var availableRegions = new List<string>(); foreach (var value in Amazon.RegionEndpoint.EnumerableAllRegions.OrderBy(x => x.SystemName)) { availableRegions.Add($"{value.SystemName} ({value.DisplayName})"); } var selectedRegion = _consoleUtilities.AskUserToChoose(availableRegions, "Select AWS Region", null); // Strip display name selectedRegion = selectedRegion.Substring(0, selectedRegion.IndexOf('(') - 1).Trim(); return selectedRegion; } } }	163
aws-dotnet-deploy	aws	C#	using AWS.Deploy.Common; namespace AWS.Deploy.CLI { /// <summary> /// Standardized cli return codes for Commands. /// </summary> public class CommandReturnCodes { /// <summary> /// Command completed and honored user's intention. /// </summary> public const int SUCCESS = 0; /// <summary> /// A command could not finish its work because an unexpected /// exception was thrown. This usually means there is an intermittent io problem /// or bug in the code base. /// <para /> /// Unexpected exceptions are any exception that do not inherit from /// <see cref="DeployToolException"/> /// </summary> public const int UNHANDLED_EXCEPTION = -1; /// <summary> /// A command could not finish of an expected problem like a user /// configuration or system configuration problem. For example, a required /// dependency like Docker is not installed. /// <para /> /// Expected problems are usually indicated by throwing an exception that /// inherits from <see cref="DeployToolException"/> /// </summary> public const int USER_ERROR = 1; /// <summary> /// A command could not finish because of a problem /// using a TCP port that is already in use. /// </summary> public const int TCP_PORT_ERROR = -100; } }	39
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System; namespace AWS.Deploy.CLI { public class ConsoleInteractiveServiceImpl : IToolInteractiveService { public ConsoleInteractiveServiceImpl() { Console.Title = Constants.CLI.CLI_APP_NAME; } public string ReadLine() { return Console.ReadLine() ?? string.Empty; } public bool Diagnostics { get; set; } public bool DisableInteractive { get; set; } public void WriteDebugLine(string? message) { if (Diagnostics) Console.WriteLine($"DEBUG: {message}"); } public void WriteErrorLine(string? message) { var color = Console.ForegroundColor; try { Console.ForegroundColor = ConsoleColor.Red; Console.Error.WriteLine(message); } finally { Console.ForegroundColor = color; } } public void WriteLine(string? message) { Console.WriteLine(message); } public void Write(string? message) { Console.Write(message); } public ConsoleKeyInfo ReadKey(bool intercept) { return Console.ReadKey(intercept); } } }	60
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using AWS.Deploy.Orchestration; namespace AWS.Deploy.CLI { public class ConsoleOrchestratorLogger : IOrchestratorInteractiveService { private readonly IToolInteractiveService _interactiveService; public ConsoleOrchestratorLogger(IToolInteractiveService interactiveService) { _interactiveService = interactiveService; } public void LogSectionStart(string message, string? description) { var sectionBreak = new string('*', message.Length); _interactiveService.WriteLine(string.Empty); _interactiveService.WriteLine(sectionBreak); _interactiveService.WriteLine(message); if(description != null) { _interactiveService.WriteLine(new string('-', message.Length)); _interactiveService.WriteLine(description); } _interactiveService.WriteLine(sectionBreak); _interactiveService.WriteLine(string.Empty); } public void LogErrorMessage(string? message) { _interactiveService.WriteErrorLine(message); } public void LogInfoMessage(string? message) { _interactiveService.WriteLine(message); } public void LogDebugMessage(string? message) { _interactiveService.WriteDebugLine(message); } } }	48
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System; using System.Collections.Generic; using System.IO; using System.Linq; using System.Text; using System.Threading.Tasks; using AWS.Deploy.Common; using AWS.Deploy.Common.IO; using AWS.Deploy.Common.Recipes; namespace AWS.Deploy.CLI { public enum YesNo { Yes = 1, No = 0 } public interface IConsoleUtilities { SortedSet<string> AskUserForList<T>(UserInputConfiguration<T> userInputConfiguration, List<T> availableData, OptionSettingItem optionSetting, Recommendation recommendation); Recommendation AskToChooseRecommendation(IList<Recommendation> recommendations); string AskUserToChoose(IList<string> values, string title, string? defaultValue, string? defaultChoosePrompt = null); T AskUserToChoose<T>(IList<T> options, string title, T defaultValue, string? defaultChoosePrompt = null) where T : IUserInputOption; void DisplayRow((string, int)[] row); UserResponse<string> AskUserToChooseOrCreateNew(IEnumerable<string> options, string title, bool askNewName = true, string defaultNewName = "", bool canBeEmpty = false, string? defaultChoosePrompt = null, string? defaultCreateNewPrompt = null, string? defaultCreateNewLabel = null); UserResponse<T> AskUserToChooseOrCreateNew<T>(IEnumerable<T> options, string title, UserInputConfiguration<T> userInputConfiguration, string? defaultChoosePrompt = null, string? defaultCreateNewPrompt = null, string? defaultCreateNewLabel = null); string AskUserForValue(string message, string defaultValue, bool allowEmpty, string resetValue = "", string? defaultAskValuePrompt = null, params Func<string, Task<string>>[] validators); string AskForEC2KeyPairSaveDirectory(string projectPath); YesNo AskYesNoQuestion(string question, string? defaultValue); YesNo AskYesNoQuestion(string question, YesNo? defaultValue = default); void DisplayValues(Dictionary<string, object> objectValues, string indent); Dictionary<string, string> AskUserForKeyValue(Dictionary<string, string> keyValue); SortedSet<string> AskUserForList(SortedSet<string> listValue); } public class ConsoleUtilities : IConsoleUtilities { private readonly IToolInteractiveService _interactiveService; private readonly IDirectoryManager _directoryManager; private readonly IOptionSettingHandler _optionSettingHandler; public ConsoleUtilities(IToolInteractiveService interactiveService, IDirectoryManager directoryManager, IOptionSettingHandler optionSettingHandler) { _interactiveService = interactiveService; _directoryManager = directoryManager; _optionSettingHandler = optionSettingHandler; } /// <summary> /// This method is used to display a list of values and allow the user to select multiple values. /// The user will have the ability to add and delete values from the list. /// </summary> public SortedSet<string> AskUserForList<T>( UserInputConfiguration<T> userInputConfiguration, List<T> availableData, OptionSettingItem optionSetting, Recommendation recommendation) { const string ADD = "Add new"; const string DELETE = "Delete existing"; const string NOOP = "No action"; var operations = new List<string> { ADD, DELETE, NOOP }; var currentOptionSettingValue = _optionSettingHandler.GetOptionSettingValue<SortedSet<string>>(recommendation, optionSetting) ?? new SortedSet<string>(); while (true) { _interactiveService.WriteLine(); if (currentOptionSettingValue.Any()) { _interactiveService.WriteLine("Selected values:"); var currentOptionSettingValueList = currentOptionSettingValue.ToList(); for (int i = 1; i <= currentOptionSettingValueList.Count; i++) { var padLength = i.ToString().Length; _interactiveService.WriteLine($"{i.ToString().PadRight(padLength)}: {currentOptionSettingValueList[i-1]}"); } _interactiveService.WriteLine(); } var selectedOperation = AskUserToChoose(operations, "Select which operation you want to perform:", NOOP); _interactiveService.WriteLine(); if (selectedOperation.Equals(ADD)) { var userResponse = AskUserToChooseOrCreateNew(availableData, "Select value:", userInputConfiguration); if (userResponse.SelectedOption != null) currentOptionSettingValue.Add(userInputConfiguration.IDSelector(userResponse.SelectedOption)); } else if (selectedOperation.Equals(DELETE) && currentOptionSettingValue.Any()) { var selectedItem = AskUserToChoose(currentOptionSettingValue.ToList(), "Select the value you wish to delete:", null); currentOptionSettingValue.Remove(selectedItem); } else if (selectedOperation.Equals(NOOP)) { if (userInputConfiguration.CanBeEmpty \|\| currentOptionSettingValue.Any()) break; else { _interactiveService.WriteErrorLine("The list cannot be empty. You must specify at least 1 value."); } } } _interactiveService.WriteLine(); return currentOptionSettingValue; } public Recommendation AskToChooseRecommendation(IList<Recommendation> recommendations) { if (recommendations.Count == 0) { // This should never happen as application should have aborted sooner if there was no valid recommendations. throw new Exception("No recommendations available for user to select"); } _interactiveService.WriteLine("Recommended Deployment Option"); _interactiveService.WriteLine("-----------------------------"); _interactiveService.WriteLine($"1: {recommendations[0].Name}"); _interactiveService.WriteLine(recommendations[0].Description); _interactiveService.WriteLine(string.Empty); if (recommendations.Count > 1) { _interactiveService.WriteLine("Additional Deployment Options"); _interactiveService.WriteLine("------------------------------"); for (var index = 1; index < recommendations.Count; index++) { _interactiveService.WriteLine($"{index + 1}: {recommendations[index].Name}"); _interactiveService.WriteLine(recommendations[index].Description); _interactiveService.WriteLine(string.Empty); } } _interactiveService.WriteLine($"Choose deployment option (recommended default: 1)"); return ReadOptionFromUser(recommendations, 1); } public string AskUserToChoose(IList<string> values, string title, string? defaultValue, string? defaultChoosePrompt = null) { var options = new List<UserInputOption>(); foreach (var value in values) { options.Add(new UserInputOption(value)); } UserInputOption? defaultOption = defaultValue != null ? new UserInputOption(defaultValue) : null; return AskUserToChoose(options, title, defaultOption, defaultChoosePrompt).Name; } public T AskUserToChoose<T>(IList<T> options, string title, T? defaultValue, string? defaultChoosePrompt = null) where T : IUserInputOption { var choosePrompt = !(string.IsNullOrEmpty(defaultChoosePrompt)) ? defaultChoosePrompt : "Choose option"; if (!string.IsNullOrEmpty(title)) { var dashLength = -1; foreach(var line in title.Split('\n')) { var length = line.Trim().Length; if(dashLength < length) { dashLength = length; } } _interactiveService.WriteLine(title); _interactiveService.WriteLine(new string('-', dashLength)); } var defaultValueIndex = -1; for (var i = 0; i < options.Count; i++) { if (string.Equals(options[i].Name, defaultValue?.Name)) { defaultValueIndex = i + 1; break; } } var optionNumber = 1; var padLength = options.Count.ToString().Length; foreach (var option in options) { var optionText = $"{optionNumber.ToString().PadRight(padLength)}: {option.Name}"; if(optionNumber == defaultValueIndex) { optionText += " (default)"; } _interactiveService.WriteLine(optionText); if (!string.IsNullOrEmpty(option.Description)) { _interactiveService.WriteLine($"{option.Description}"); _interactiveService.WriteLine(Environment.NewLine); } optionNumber++; } if (defaultValueIndex != -1) { _interactiveService.WriteLine(choosePrompt + $" (default {defaultValueIndex}):"); } else { if(options.Count == 1) { _interactiveService.WriteLine(choosePrompt + " (default 1):"); defaultValueIndex = 1; defaultValue = options[0]; } else { _interactiveService.WriteLine(choosePrompt + ":"); } } return ReadOptionFromUser(options, defaultValueIndex); } public void DisplayRow((string, int)[] row) { var blocks = new List<string>(); for (var col = 0; col < row.Length; col++) { var (_, width) = row[col]; blocks.Add($"{{{col},{-width}}}"); } var values = row.Select(col => col.Item1).ToArray(); var format = string.Join(" \| ", blocks); _interactiveService.WriteLine(string.Format(format, values)); } public UserResponse<string> AskUserToChooseOrCreateNew(IEnumerable<string> options, string title, bool askNewName = true, string defaultNewName = "", bool canBeEmpty = false, string? defaultChoosePrompt = null, string? defaultCreateNewPrompt = null, string? defaultCreateNewLabel = null) { var configuration = new UserInputConfiguration<string>( idSelector: option => option, displaySelector: option => option, defaultSelector: option => option.Contains(option), defaultNewName: defaultNewName) { AskNewName = askNewName, CanBeEmpty = canBeEmpty }; return AskUserToChooseOrCreateNew(options, title, configuration, defaultChoosePrompt, defaultCreateNewPrompt, defaultCreateNewLabel); } public UserResponse<T> AskUserToChooseOrCreateNew<T>(IEnumerable<T> options, string title, UserInputConfiguration<T> userInputConfiguration, string? defaultChoosePrompt = null, string? defaultCreateNewPrompt = null, string? defaultCreateNewLabel = null) { var optionStrings = options.Select(userInputConfiguration.DisplaySelector); var defaultOption = options.FirstOrDefault(userInputConfiguration.DefaultSelector); var defaultValue = ""; var createNewLabel = !string.IsNullOrEmpty(defaultCreateNewLabel) ? defaultCreateNewLabel : Constants.CLI.CREATE_NEW_LABEL; if (defaultOption != null) { defaultValue = userInputConfiguration.DisplaySelector(defaultOption); } else { if (userInputConfiguration.CurrentValue != null && string.IsNullOrEmpty(userInputConfiguration.CurrentValue.ToString())) defaultValue = Constants.CLI.EMPTY_LABEL; else defaultValue = userInputConfiguration.CreateNew \|\| !options.Any() ? createNewLabel : userInputConfiguration.DisplaySelector(options.First()); } var displayOptionStrings = new List<string>(); // add empty option at the top if configured if (userInputConfiguration.EmptyOption) { displayOptionStrings.Add(Constants.CLI.EMPTY_LABEL); } // add all the options, this can be empty list if there are no options // e.g. selecting a role for a service when there are no roles with a service principal displayOptionStrings.AddRange(optionStrings); // add create new option at the bottom if configured if (userInputConfiguration.CreateNew) { displayOptionStrings.Add(createNewLabel); } // if list contains any options, ask user to choose one if (displayOptionStrings.Any()) { var selectedString = AskUserToChoose(displayOptionStrings, title, defaultValue, defaultChoosePrompt); if (selectedString == Constants.CLI.EMPTY_LABEL) { return new UserResponse<T> { IsEmpty = true }; } if (selectedString != createNewLabel) { var selectedOption = options.FirstOrDefault(option => userInputConfiguration.DisplaySelector(option) == selectedString); return new UserResponse<T> { SelectedOption = selectedOption, CreateNew = false }; } } if (userInputConfiguration.AskNewName) { var newName = AskUserForValue(string.Empty, userInputConfiguration.DefaultNewName, false, defaultAskValuePrompt: defaultCreateNewPrompt); return new UserResponse<T> { CreateNew = true, NewName = newName }; } return new UserResponse<T> { CreateNew = true, }; } public string AskUserForValue(string message, string defaultValue, bool allowEmpty, string resetValue = "", string? defaultAskValuePrompt = null, params Func<string, Task<string>>[] validators) { const string RESET = "<reset>"; var prompt = !string.IsNullOrEmpty(defaultAskValuePrompt) ? defaultAskValuePrompt : "Enter value"; if (!string.IsNullOrEmpty(defaultValue)) prompt += $" (default {defaultValue}"; if (!string.IsNullOrEmpty(message)) _interactiveService.WriteLine(message); if (allowEmpty) prompt += $". Type {RESET} to reset."; prompt += "): "; _interactiveService.WriteLine(prompt); string? userValue = null; while (true) { var line = _interactiveService.ReadLine()?.Trim() ?? ""; if (allowEmpty && (string.Equals(RESET, line.Trim(), StringComparison.OrdinalIgnoreCase) \|\| string.Equals($"'{RESET}'", line.Trim(), StringComparison.OrdinalIgnoreCase))) { return resetValue; } if (string.IsNullOrEmpty(line) && !string.IsNullOrEmpty(defaultValue)) { return defaultValue; } userValue = line; if (!string.IsNullOrEmpty(defaultValue) && string.IsNullOrEmpty(userValue)) continue; var errorMessages = validators .Select(async v => await v(userValue)) .Select(v => v.Result) .Where(e => !string.IsNullOrEmpty(e)) .ToList(); if (errorMessages.Any()) { _interactiveService.WriteErrorLine(errorMessages.First()); continue; } break; } return userValue; } public SortedSet<string> AskUserForList(SortedSet<string> listValues) { listValues ??= new SortedSet<string>(); if (listValues.Count == 0) { AskToAddListItem(listValues); return listValues; } const string ADD = "Add new"; const string UPDATE = "Update existing"; const string DELETE = "Delete existing"; const string NOOP = "No action"; var operations = new List<string> { ADD, UPDATE, DELETE, NOOP }; var selectedOperation = AskUserToChoose(operations, "Select which operation you want to perform:", NOOP); if (selectedOperation.Equals(ADD)) AskToAddListItem(listValues); else if (selectedOperation.Equals(UPDATE)) AskToUpdateListItem(listValues); else if (selectedOperation.Equals(DELETE)) AskToDeleteListItem(listValues); return listValues; } private void AskToAddListItem(SortedSet<string> listValues) { _interactiveService.WriteLine("Enter a value:"); var listValue = _interactiveService.ReadLine()?.Trim() ?? ""; if (!string.IsNullOrEmpty(listValue)) listValues.Add(listValue); } private void AskToUpdateListItem(SortedSet<string> listValues) { var selectedItem = AskUserToChoose(listValues.ToList(), "Select the value you wish to update:", null); var selectedValue = AskUserForValue("Enter the updated value:", selectedItem, true); if (!string.IsNullOrEmpty(selectedValue)) { listValues.Remove(selectedItem); listValues.Add(selectedValue); } } private void AskToDeleteListItem(SortedSet<string> listValues) { var selectedItem = AskUserToChoose(listValues.ToList(), "Select the value you wish to delete:", null); listValues.Remove(selectedItem); } public Dictionary<string, string> AskUserForKeyValue(Dictionary<string, string> keyValue) { keyValue ??= new Dictionary<string, string>(); if (keyValue.Keys.Count == 0) { AskToAddKeyValuePair(keyValue); return keyValue; } const string ADD = "Add new"; const string UPDATE = "Update existing"; const string DELETE = "Delete existing"; var operations = new List<string> { ADD, UPDATE, DELETE }; var selectedOperation = AskUserToChoose(operations, "Select which operation you want to perform:", ADD); if(selectedOperation.Equals(ADD)) AskToAddKeyValuePair(keyValue); if(selectedOperation.Equals(UPDATE)) AskToUpdateKeyValuePair(keyValue); if(selectedOperation.Equals(DELETE)) AskToDeleteKeyValuePair(keyValue); return keyValue; } private void AskToAddKeyValuePair(Dictionary<string, string> keyValue) { const string RESET = "<reset>"; var variableName = string.Empty; while (string.IsNullOrEmpty(variableName)) { _interactiveService.WriteLine("Enter the name:"); variableName = _interactiveService.ReadLine()?.Trim() ?? ""; } _interactiveService.WriteLine($"Enter the value (type {RESET} to reset):"); var variableValue = _interactiveService.ReadLine()?.Trim() ?? ""; if (string.Equals(RESET, variableValue.Trim(), StringComparison.OrdinalIgnoreCase) \|\| string.Equals($"'{RESET}'", variableValue.Trim(), StringComparison.OrdinalIgnoreCase)) variableValue = keyValue.ContainsKey(variableName) ? keyValue[variableName] : ""; keyValue[variableName] = variableValue; } private void AskToUpdateKeyValuePair(Dictionary<string, string> keyValue) { var selectedKey = AskUserToChoose(keyValue.Keys.ToList(), "Select the one you wish to update:", null); var selectedValue = AskUserForValue("Enter the value:", keyValue[selectedKey], true); keyValue[selectedKey] = selectedValue; } private void AskToDeleteKeyValuePair(Dictionary<string, string> keyValue) { var selectedKey = AskUserToChoose(keyValue.Keys.ToList(), "Select the one you wish to delete:", null); keyValue.Remove(selectedKey); } public string AskForEC2KeyPairSaveDirectory(string projectPath) { _interactiveService.WriteLine("Enter a directory to save the newly created Key Pair: (avoid from using your project directory)"); while (true) { var keyPairDirectory = _interactiveService.ReadLine(); if (keyPairDirectory != null && _directoryManager.Exists(keyPairDirectory)) { var projectFolder = new FileInfo(projectPath).Directory; var keyPairDirectoryInfo = new DirectoryInfo(keyPairDirectory); if (projectFolder != null && projectFolder.FullName.Equals(keyPairDirectoryInfo.FullName)) { _interactiveService.WriteLine(string.Empty); _interactiveService.WriteLine("EC2 Key Pair is a private secret key and it is recommended to not save the key in the project directory where it could be checked into source control."); var verification = AskYesNoQuestion("Are you sure you want to use your project directory?", "false"); if (verification == YesNo.No) { _interactiveService.WriteLine(string.Empty); _interactiveService.WriteLine("Please enter a valid directory:"); continue; } } return keyPairDirectory; } else { _interactiveService.WriteLine(string.Empty); _interactiveService.WriteLine("The directory you entered does not exist or is invalid."); _interactiveService.WriteLine("Please enter a valid directory:"); continue; } } } public YesNo AskYesNoQuestion(string question, string? defaultValue) { if (bool.TryParse(defaultValue, out var result)) return AskYesNoQuestion(question, result ? YesNo.Yes : YesNo.No); if (Enum.TryParse<YesNo>(defaultValue, out var result2)) return AskYesNoQuestion(question, result2); return AskYesNoQuestion(question); } public YesNo AskYesNoQuestion(string question, YesNo? defaultValue = default) { string message = string.Empty; if(!string.IsNullOrEmpty(question)) { message += question + ": "; } message += "y/n"; if (defaultValue.HasValue) { var defaultChar = defaultValue == YesNo.Yes ? 'y' : 'n'; message += $" (default {defaultChar})"; } _interactiveService.WriteLine(message); YesNo? selectedValue = null; while (selectedValue == null) { var line = _interactiveService.ReadLine()?.Trim(); if (string.IsNullOrEmpty(line) && defaultValue.HasValue) { selectedValue = defaultValue.Value; } else if (string.Equals(line, "y", StringComparison.OrdinalIgnoreCase)) { selectedValue = YesNo.Yes; } else if (String.Equals(line, "n", StringComparison.OrdinalIgnoreCase)) { selectedValue = YesNo.No; } else { _interactiveService.WriteLine($"Invalid option. The value should be either y or n."); } } return selectedValue.Value; } public void DisplayValues(Dictionary<string, object> objectValues, string indent) { foreach (var (key, value) in objectValues) { if (value is Dictionary<string, object> childObjectValue) { _interactiveService.WriteLine($"{indent}{key}"); DisplayValues(childObjectValue, $"{indent}\t"); } else if (value is SortedSet<string> listValues) { _interactiveService.WriteLine($"{indent}{key}:"); foreach (var listValue in listValues) { _interactiveService.WriteLine($"{indent}\t{listValue}"); } } else if (value is string stringValue) { if (!string.IsNullOrEmpty(stringValue)) { _interactiveService.WriteLine($"{indent}{key}: {stringValue}"); } } else if(value != null) { _interactiveService.WriteLine($"{indent}{key}: {value}"); } } } private T ReadOptionFromUser<T>(IList<T> options, int defaultValueIndex) { if(options.Count == 0) { throw new Exception("No options available for user to select"); } // If defaultValueIndex is used it starts as 1 just like the user sees the list of options. if (defaultValueIndex != -1 && (defaultValueIndex < 1 \|\| defaultValueIndex > options.Count)) { throw new Exception($"Invalid default index {defaultValueIndex}"); } while (true) { var selectedOption = _interactiveService.ReadLine(); if (string.IsNullOrEmpty(selectedOption) && defaultValueIndex != -1) { return options[defaultValueIndex - 1]; } if (int.TryParse(selectedOption, out var intOption) && intOption >= 1 && intOption <= options.Count) { return options[intOption - 1]; } _interactiveService.WriteLine($"Invalid option. The selected option should be between 1 and {options.Count}."); } } public string ReadSecretFromConsole() { var code = new StringBuilder(); while (true) { ConsoleKeyInfo i = _interactiveService.ReadKey(true); if (i.Key == ConsoleKey.Enter) { break; } else if (i.Key == ConsoleKey.Backspace) { if (code.Length > 0) { code.Remove(code.Length - 1, 1); _interactiveService.Write("\b \b"); } } // i.Key > 31: Skip the initial ascii control characters like ESC and tab. The space character is 32. // KeyChar == '\u0000' if the key pressed does not correspond to a printable character, e.g. F1, Pause-Break, etc else if ((int)i.Key > 31 && i.KeyChar != '\u0000') { code.Append(i.KeyChar); _interactiveService.Write("*"); } } return code.ToString().Trim(); } } }	690
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System; using AWS.Deploy.Common; namespace AWS.Deploy.CLI { /// <summary> /// Throw if no AWS credentials were found. /// </summary> public class NoAWSCredentialsFoundException : DeployToolException { public NoAWSCredentialsFoundException(DeployToolErrorCode errorCode, string message, Exception? innerException = null) : base(errorCode, message, innerException) { } } /// <summary> /// Throw if Delete Command is unable to delete /// the specified stack /// </summary> public class FailedToDeleteException : DeployToolException { public FailedToDeleteException(DeployToolErrorCode errorCode, string message, Exception? innerException = null) : base(errorCode, message, innerException) { } } /// <summary> /// Throw if Deploy Command is unable to find a target to deploy. /// Currently, this is limited to .csproj or .fsproj files. /// </summary> public class FailedToFindDeployableTargetException : DeployToolException { public FailedToFindDeployableTargetException(DeployToolErrorCode errorCode, string message, Exception? innerException = null) : base(errorCode, message, innerException) { } } /// <summary> /// Throw if prompting the user for a name returns a null value. /// </summary> public class UserPromptForNameReturnedNullException : DeployToolException { public UserPromptForNameReturnedNullException(DeployToolErrorCode errorCode, string message, Exception? innerException = null) : base(errorCode, message, innerException) { } } /// <summary> /// Throw if the system capabilities were not provided. /// </summary> public class SystemCapabilitiesNotProvidedException : DeployToolException { public SystemCapabilitiesNotProvidedException(DeployToolErrorCode errorCode, string message, Exception? innerException = null) : base(errorCode, message, innerException) { } } /// <summary> /// Throw if TCP port is in use by another process. /// </summary> public class TcpPortInUseException : DeployToolException { public TcpPortInUseException(DeployToolErrorCode errorCode, string message, Exception? innerException = null) : base(errorCode, message, innerException) { } } /// <summary> /// Throw if unable to find a compatible recipe. /// </summary> public class FailedToFindCompatibleRecipeException : DeployToolException { public FailedToFindCompatibleRecipeException(DeployToolErrorCode errorCode, string message, Exception? innerException = null) : base(errorCode, message, innerException) { } } /// <summary> /// Throw if the directory specified to save the CDK deployment project is invalid. /// </summary> public class InvalidSaveDirectoryForCdkProject : DeployToolException { public InvalidSaveDirectoryForCdkProject(DeployToolErrorCode errorCode, string message, Exception? innerException = null) : base(errorCode, message, innerException) { } } public class FailedToFindDeploymentProjectRecipeIdException : DeployToolException { public FailedToFindDeploymentProjectRecipeIdException(DeployToolErrorCode errorCode, string message, Exception? innerException = null) : base(errorCode, message, innerException) { } } /// <summary> /// Throw if failed to retrieve credentials from the specified profile name. /// </summary> public class FailedToGetCredentialsForProfile : DeployToolException { public FailedToGetCredentialsForProfile(DeployToolErrorCode errorCode, string message, Exception? innerException = null) : base(errorCode, message, innerException) { } } /// <summary> /// Throw if cloud application name is invalid. /// </summary> public class InvalidCloudApplicationNameException : DeployToolException { public InvalidCloudApplicationNameException(DeployToolErrorCode errorCode, string message, Exception? innerException = null) : base(errorCode, message, innerException) { } } }	96
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.\r // SPDX-License-Identifier: Apache-2.0 using AWS.Deploy.CLI.TypeHintResponses; namespace AWS.Deploy.CLI { /// <summary> /// <see cref="IDisplayable"/> allows to decorate Object types to a string /// Object type hint responses such as <see cref="IAMRoleTypeHintResponse"/> implements <see cref="IDisplayable"/> /// which allows custom CLI display logic. /// </summary> /// <remarks> /// If the method <see cref="ToDisplayString"/> returns null, the default display method is used. /// If a type hint response doesn't implement <see cref="IDisplayable"/>, it is displayed similar to a JSON dictionary indented by level. /// </remarks> public interface IDisplayable { string? ToDisplayString(); } }	22
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System; namespace AWS.Deploy.CLI { public interface IToolInteractiveService { void Write(string? message); void WriteLine(string? message); void WriteDebugLine(string? message); void WriteErrorLine(string? message); string ReadLine(); bool Diagnostics { get; set; } bool DisableInteractive { get; set; } ConsoleKeyInfo ReadKey(bool intercept); } public static class ToolInteractiveServiceExtensions { public static void WriteLine(this IToolInteractiveService service) { service.WriteLine(string.Empty); } } }	29
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System; using System.Linq; using System.Reflection; using System.Text; using System.Threading.Tasks; using AWS.Deploy.CLI.Extensions; using AWS.Deploy.Common; using Microsoft.Extensions.DependencyInjection; namespace AWS.Deploy.CLI { internal class Program { private static async Task<int> Main(string[] args) { var serviceCollection = new ServiceCollection(); serviceCollection.AddCustomServices(); var serviceProvider = serviceCollection.BuildServiceProvider(); // calls the Run method in App, which is replacing Main var app = serviceProvider.GetService<App>(); if (app == null) { throw new Exception("App dependencies aren't injected correctly." + " Verify CustomServiceCollectionExtension has all the required dependencies to instantiate App."); } return await app.Run(args); } } }	37
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.\r // SPDX-License-Identifier: Apache-2.0 using System; namespace AWS.Deploy.CLI { /// <summary> /// <see cref="UserInputConfiguration{T}"/> encapsulates the input configuration /// when the user is asked to select an existing option or create new /// </summary> /// <typeparam name="T"></typeparam> public class UserInputConfiguration<T> { /// <summary> /// Func to select string property from the option type /// which is returned as the ID of the selected option. /// </summary> public Func<T, string> IDSelector; /// <summary> /// Func to select string property from the option type /// which is displayed to the user. /// </summary> public Func<T, string> DisplaySelector; /// <summary> /// Func to select default option from the options /// which is displayed as default option to the user. /// </summary> public Func<T, bool> DefaultSelector; /// <summary> /// The current value for the option setting. /// </summary> public object? CurrentValue; /// <summary> /// If true, ask for the new name /// <para /> /// Default is <c>false</c> /// </summary> public bool AskNewName { get; set; } /// <summary> /// If <see cref="AskNewName"/> is set to true, /// then <see cref="DefaultNewName"/> is displayed as the default new name to the user. /// </summary> public string DefaultNewName { get; set; } /// <summary> /// If <see cref="CanBeEmpty" /> is set to true, /// then an empty user input is considered as a valid value. /// <para /> /// Default is <c>false</c> /// </summary> public bool CanBeEmpty { get; set; } /// <summary> /// If <see cref="CreateNew" /> is set to true, /// then a "Create New" option will be added to the list of valid options. /// </summary> public bool CreateNew { get; set; } = true; /// <summary> /// If <see cref="EmptyOption" /> is set to true, /// then an "Empty" option will be added to the list of valid options. /// </summary> public bool EmptyOption { get; set; } public UserInputConfiguration( Func<T, string> idSelector, Func<T, string> displaySelector, Func<T, bool> defaultSelector, string defaultNewName = "") { IDSelector = idSelector; DisplaySelector = displaySelector; DefaultSelector = defaultSelector; DefaultNewName = defaultNewName; } } }	84
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.\r // SPDX-License-Identifier: Apache-2.0 namespace AWS.Deploy.CLI { /// <summary> /// The <see cref="UserResponse{T}"/> class encapsulates the user response in a structured response /// from a list of options shown. /// </summary> /// <typeparam name="T">Type of the option shown in the list of options</typeparam> public class UserResponse<T> { /// <summary> /// If true, the user has chosen to create a new resource. /// </summary> public bool CreateNew { get; set; } /// <summary> /// If set, the user has chosen to create a new resource with a custom name. /// <see cref="CreateNew"/> must be true. /// </summary> public string? NewName { get; set; } /// <summary> /// If set, customer has chosen an existing option from the list of options shown. /// </summary> public T? SelectedOption { get; set; } /// <summary> /// If set, customer has chosen empty option. /// </summary> public bool IsEmpty { get; set; } } }	35
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System; using System.Collections.Generic; using System.Globalization; using System.Linq; using System.Threading.Tasks; using Amazon.CloudFormation; using Amazon.CloudFormation.Model; using AWS.Deploy.CLI.Extensions; using AWS.Deploy.Common; namespace AWS.Deploy.CLI.CloudFormation { /// <summary> /// Monitors a CloudFormation Stack event activities independently /// It uses stdout and displays the current status of the CloudFormation stack by polling periodically /// </summary> internal class StackEventMonitor { private const int TIMESTAMP_WIDTH = 18; private const int RESOURCE_STATUS_WIDTH = 20; private const int RESOURCE_TYPE_WIDTH = 40; private const int LOGICAL_RESOURCE_WIDTH = 40; private static readonly TimeSpan s_pollingPeriod = TimeSpan.FromSeconds(5); private readonly string _stackName; private bool _isActive; private DateTime _startTime; private readonly IAmazonCloudFormation _cloudFormationClient; private readonly HashSet<string> _processedEventIds = new HashSet<string>(); private readonly IConsoleUtilities _consoleUtilities; private readonly IToolInteractiveService _interactiveService; public StackEventMonitor(string stackName, IAWSClientFactory awsClientFactory, IConsoleUtilities consoleUtilities, IToolInteractiveService interactiveService) { _stackName = stackName; _consoleUtilities = consoleUtilities; _interactiveService = interactiveService; _cloudFormationClient = awsClientFactory.GetAWSClient<IAmazonCloudFormation>(); } /// <summary> /// Starts monitoring the CloudFormation Stack events since now /// </summary> public async Task StartAsync() { // CloudFormation API returns timestamps for events based on the system time _startTime = DateTime.Now; _isActive = true; await PollEventsAsync(); } /// <summary> /// Stops monitoring the CloudFormation Stack events /// </summary> public void Stop() { _isActive = false; } private async Task PollEventsAsync() { while (_isActive) { await ReadNewEventsAsync(); await Task.Delay(s_pollingPeriod); } } private async Task ReadNewEventsAsync() { var stackEvents = new List<StackEvent>(); var describeStackEventsRequest = new DescribeStackEventsRequest { StackName = _stackName }; var listStacksPaginator = _cloudFormationClient.Paginators.DescribeStackEvents(describeStackEventsRequest); try { var breakPaginator = false; await foreach (var response in listStacksPaginator.Responses) { foreach (var stackEvent in response?.StackEvents ?? new List<StackEvent>()) { // Event from before we are interested in if (stackEvent.Timestamp < _startTime) { breakPaginator = true; break; } // Already processed event if (_processedEventIds.Contains(stackEvent.EventId)) { breakPaginator = true; break; } // New event, save it _processedEventIds.Add(stackEvent.EventId); stackEvents.Add(stackEvent); } if (breakPaginator) { break; } } } catch (AmazonCloudFormationException exception) when (exception.ErrorCode.Equals("ValidationError") && exception.Message.Equals($"Stack [{_stackName}] does not exist")) { // Stack is deleted, there could be some missed events between the last poll timestamp and DELETE_COMPLETE _interactiveService.WriteDebugLine(exception.PrettyPrint()); } catch (AmazonCloudFormationException exception) { // Other AmazonCloudFormationException _interactiveService.WriteDebugLine(exception.PrettyPrint()); } foreach (var stackEvent in stackEvents.OrderBy(e => e.Timestamp)) { var row = new[] { (stackEvent.Timestamp.ToString(CultureInfo.InvariantCulture), TIMESTAMP_WIDTH), (stackEvent.ResourceStatus.ToString(), RESOURCE_STATUS_WIDTH), (stackEvent.ResourceType.Truncate(RESOURCE_TYPE_WIDTH, true), RESOURCE_TYPE_WIDTH), (stackEvent.LogicalResourceId, LOGICAL_RESOURCE_WIDTH), }; _consoleUtilities.DisplayRow(row); } } } }	139
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using Amazon.CloudFormation; namespace AWS.Deploy.CLI.CloudFormation { internal static class StackStatusExtension { public static bool IsDeleted(this StackStatus stackStatus) { return stackStatus.Value.Equals("DELETE_COMPLETE"); } public static bool IsFailed(this StackStatus stackStatus) { return stackStatus.Value.EndsWith("FAILED"); } public static bool IsInProgress(this StackStatus stackStatus) { return stackStatus.Value.EndsWith("_IN_PROGRESS"); } } }	26
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System; using System.Collections; using System.CommandLine; using System.CommandLine.Invocation; using System.IO; using System.Collections.Generic; using System.Diagnostics; using System.Runtime.InteropServices; using Amazon; using AWS.Deploy.CLI.Commands.TypeHints; using AWS.Deploy.CLI.Utilities; using AWS.Deploy.Common; using AWS.Deploy.Common.Extensions; using AWS.Deploy.Orchestration; using AWS.Deploy.Orchestration.CDK; using AWS.Deploy.Orchestration.Data; using AWS.Deploy.Orchestration.Utilities; using AWS.Deploy.CLI.Commands.CommandHandlerInput; using AWS.Deploy.Common.IO; using AWS.Deploy.Common.DeploymentManifest; using AWS.Deploy.Orchestration.DisplayedResources; using AWS.Deploy.Orchestration.LocalUserSettings; using AWS.Deploy.Orchestration.ServiceHandlers; using AWS.Deploy.Common.Recipes; using AWS.Deploy.Common.Recipes.Validation; using AWS.Deploy.Common.Data; namespace AWS.Deploy.CLI.Commands { public interface ICommandFactory { Command BuildRootCommand(); } public class CommandFactory : ICommandFactory { private static readonly Option<string> _optionProfile = new("--profile", "AWS credential profile used to make calls to AWS."); private static readonly Option<string> _optionRegion = new("--region", "AWS region to deploy the application to. For example, us-west-2."); private static readonly Option<string> _optionProjectPath = new("--project-path", () => Directory.GetCurrentDirectory(), "Path to the project to deploy."); private static readonly Option<string> _optionApplicationName = new("--application-name", "Name of the cloud application. If you choose to deploy via CloudFormation, this name will be used to identify the CloudFormation stack."); private static readonly Option<bool> _optionDiagnosticLogging = new(new[] { "-d", "--diagnostics" }, "Enable diagnostic output."); private static readonly Option<string> _optionApply = new("--apply", "Path to the deployment settings file to be applied."); private static readonly Option<bool> _optionDisableInteractive = new(new[] { "-s", "--silent" }, "Disable interactivity to execute commands without any prompts for user input."); private static readonly Option<string> _optionOutputDirectory = new(new[] { "-o", "--output" }, "Directory path in which the CDK deployment project will be saved."); private static readonly Option<string> _optionProjectDisplayName = new(new[] { "--project-display-name" }, "The name of the deployment project that will be displayed in the list of available deployment options."); private static readonly Option<string> _optionDeploymentProject = new(new[] { "--deployment-project" }, "The absolute or relative path of the CDK project that will be used for deployment"); private static readonly Option<string> _optionSaveSettings = new(new[] { "--save-settings" }, "The absolute or the relative JSON file path where the deployment settings will be saved. Only the settings modified by the user will be persisted"); private static readonly Option<string> _optionSaveAllSettings = new(new[] { "--save-all-settings" }, "The absolute or the relative JSON file path where the deployment settings will be saved. All deployment settings will be persisted"); private static readonly object s_root_command_lock = new(); private static readonly object s_child_command_lock = new(); private readonly IServiceProvider _serviceProvider; private readonly IToolInteractiveService _toolInteractiveService; private readonly IOrchestratorInteractiveService _orchestratorInteractiveService; private readonly ICDKManager _cdkManager; private readonly ISystemCapabilityEvaluator _systemCapabilityEvaluator; private readonly ICloudApplicationNameGenerator _cloudApplicationNameGenerator; private readonly IAWSUtilities _awsUtilities; private readonly IAWSClientFactory _awsClientFactory; private readonly IAWSResourceQueryer _awsResourceQueryer; private readonly IProjectParserUtility _projectParserUtility; private readonly ICommandLineWrapper _commandLineWrapper; private readonly ICdkProjectHandler _cdkProjectHandler; private readonly IDeploymentBundleHandler _deploymentBundleHandler; private readonly ICloudFormationTemplateReader _cloudFormationTemplateReader; private readonly IDeployedApplicationQueryer _deployedApplicationQueryer; private readonly ITypeHintCommandFactory _typeHintCommandFactory; private readonly IDisplayedResourcesHandler _displayedResourceHandler; private readonly IConsoleUtilities _consoleUtilities; private readonly IDirectoryManager _directoryManager; private readonly IFileManager _fileManager; private readonly IDeploymentManifestEngine _deploymentManifestEngine; private readonly ILocalUserSettingsEngine _localUserSettingsEngine; private readonly ICDKVersionDetector _cdkVersionDetector; private readonly IAWSServiceHandler _awsServiceHandler; private readonly IOptionSettingHandler _optionSettingHandler; private readonly IValidatorFactory _validatorFactory; private readonly IRecipeHandler _recipeHandler; private readonly IDeployToolWorkspaceMetadata _deployToolWorkspaceMetadata; private readonly IDeploymentSettingsHandler _deploymentSettingsHandler; public CommandFactory( IServiceProvider serviceProvider, IToolInteractiveService toolInteractiveService, IOrchestratorInteractiveService orchestratorInteractiveService, ICDKManager cdkManager, ISystemCapabilityEvaluator systemCapabilityEvaluator, ICloudApplicationNameGenerator cloudApplicationNameGenerator, IAWSUtilities awsUtilities, IAWSClientFactory awsClientFactory, IAWSResourceQueryer awsResourceQueryer, IProjectParserUtility projectParserUtility, ICommandLineWrapper commandLineWrapper, ICdkProjectHandler cdkProjectHandler, IDeploymentBundleHandler deploymentBundleHandler, ICloudFormationTemplateReader cloudFormationTemplateReader, IDeployedApplicationQueryer deployedApplicationQueryer, ITypeHintCommandFactory typeHintCommandFactory, IDisplayedResourcesHandler displayedResourceHandler, IConsoleUtilities consoleUtilities, IDirectoryManager directoryManager, IFileManager fileManager, IDeploymentManifestEngine deploymentManifestEngine, ILocalUserSettingsEngine localUserSettingsEngine, ICDKVersionDetector cdkVersionDetector, IAWSServiceHandler awsServiceHandler, IOptionSettingHandler optionSettingHandler, IValidatorFactory validatorFactory, IRecipeHandler recipeHandler, IDeployToolWorkspaceMetadata deployToolWorkspaceMetadata, IDeploymentSettingsHandler deploymentSettingsHandler) { _serviceProvider = serviceProvider; _toolInteractiveService = toolInteractiveService; _orchestratorInteractiveService = orchestratorInteractiveService; _cdkManager = cdkManager; _systemCapabilityEvaluator = systemCapabilityEvaluator; _cloudApplicationNameGenerator = cloudApplicationNameGenerator; _awsUtilities = awsUtilities; _awsClientFactory = awsClientFactory; _awsResourceQueryer = awsResourceQueryer; _projectParserUtility = projectParserUtility; _commandLineWrapper = commandLineWrapper; _cdkProjectHandler = cdkProjectHandler; _deploymentBundleHandler = deploymentBundleHandler; _cloudFormationTemplateReader = cloudFormationTemplateReader; _deployedApplicationQueryer = deployedApplicationQueryer; _typeHintCommandFactory = typeHintCommandFactory; _displayedResourceHandler = displayedResourceHandler; _consoleUtilities = consoleUtilities; _directoryManager = directoryManager; _fileManager = fileManager; _deploymentManifestEngine = deploymentManifestEngine; _localUserSettingsEngine = localUserSettingsEngine; _cdkVersionDetector = cdkVersionDetector; _awsServiceHandler = awsServiceHandler; _optionSettingHandler = optionSettingHandler; _validatorFactory = validatorFactory; _recipeHandler = recipeHandler; _deployToolWorkspaceMetadata = deployToolWorkspaceMetadata; _deploymentSettingsHandler = deploymentSettingsHandler; } public Command BuildRootCommand() { // Name is important to set here to show correctly in the CLI usage help. // Either dotnet-aws or dotnet aws works from the CLI. System.Commandline's help system does not like having a space with dotnet aws. var rootCommand = new RootCommand { Name = "dotnet-aws", Description = "The AWS .NET deployment tool for deploying .NET applications on AWS." }; lock(s_root_command_lock) { rootCommand.Add(BuildDeployCommand()); rootCommand.Add(BuildListCommand()); rootCommand.Add(BuildDeleteCommand()); rootCommand.Add(BuildDeploymentProjectCommand()); rootCommand.Add(BuildServerModeCommand()); } return rootCommand; } private Command BuildDeployCommand() { var deployCommand = new Command( "deploy", "Inspect, build, and deploy the .NET project to AWS using the recommended AWS service."); lock (s_child_command_lock) { deployCommand.Add(_optionProfile); deployCommand.Add(_optionRegion); deployCommand.Add(_optionProjectPath); deployCommand.Add(_optionApplicationName); deployCommand.Add(_optionApply); deployCommand.Add(_optionDiagnosticLogging); deployCommand.Add(_optionDisableInteractive); deployCommand.Add(_optionDeploymentProject); deployCommand.Add(_optionSaveSettings); deployCommand.Add(_optionSaveAllSettings); } deployCommand.Handler = CommandHandler.Create(async (DeployCommandHandlerInput input) => { try { _toolInteractiveService.Diagnostics = input.Diagnostics; _toolInteractiveService.DisableInteractive = input.Silent; var projectDefinition = await _projectParserUtility.Parse(input.ProjectPath ?? ""); var targetApplicationDirectoryPath = new DirectoryInfo(projectDefinition.ProjectPath).Parent!.FullName; DeploymentSettings? deploymentSettings = null; if (!string.IsNullOrEmpty(input.Apply)) { var applyPath = Path.GetFullPath(input.Apply, targetApplicationDirectoryPath); deploymentSettings = await _deploymentSettingsHandler.ReadSettings(applyPath); } var awsCredentials = await _awsUtilities.ResolveAWSCredentials(input.Profile ?? deploymentSettings?.AWSProfile); var awsRegion = _awsUtilities.ResolveAWSRegion(input.Region ?? deploymentSettings?.AWSRegion); _commandLineWrapper.RegisterAWSContext(awsCredentials, awsRegion); _awsClientFactory.RegisterAWSContext(awsCredentials, awsRegion); var callerIdentity = await _awsResourceQueryer.GetCallerIdentity(awsRegion); var session = new OrchestratorSession( projectDefinition, awsCredentials, awsRegion, callerIdentity.Account) { AWSProfileName = input.Profile ?? deploymentSettings?.AWSProfile ?? null }; var dockerEngine = new DockerEngine.DockerEngine(projectDefinition, _fileManager, _directoryManager); var deploy = new DeployCommand( _serviceProvider, _toolInteractiveService, _orchestratorInteractiveService, _cdkProjectHandler, _cdkManager, _cdkVersionDetector, _deploymentBundleHandler, dockerEngine, _awsResourceQueryer, _cloudFormationTemplateReader, _deployedApplicationQueryer, _typeHintCommandFactory, _displayedResourceHandler, _cloudApplicationNameGenerator, _localUserSettingsEngine, _consoleUtilities, _systemCapabilityEvaluator, session, _directoryManager, _fileManager, _awsServiceHandler, _optionSettingHandler, _validatorFactory, _recipeHandler, _deployToolWorkspaceMetadata, _deploymentSettingsHandler); var deploymentProjectPath = input.DeploymentProject ?? string.Empty; if (!string.IsNullOrEmpty(deploymentProjectPath)) { deploymentProjectPath = Path.GetFullPath(deploymentProjectPath, targetApplicationDirectoryPath); } var saveSettingsConfig = Helpers.GetSaveSettingsConfiguration(input.SaveSettings, input.SaveAllSettings, targetApplicationDirectoryPath, _fileManager); await deploy.ExecuteAsync(input.ApplicationName ?? string.Empty, deploymentProjectPath, saveSettingsConfig, deploymentSettings); return CommandReturnCodes.SUCCESS; } catch (Exception e) when (e.IsAWSDeploymentExpectedException()) { if (input.Diagnostics) _toolInteractiveService.WriteErrorLine(e.PrettyPrint()); else { _toolInteractiveService.WriteErrorLine(string.Empty); _toolInteractiveService.WriteErrorLine(e.Message); } _toolInteractiveService.WriteErrorLine(string.Empty); _toolInteractiveService.WriteErrorLine("For more information, please visit our troubleshooting guide https://aws.github.io/aws-dotnet-deploy/troubleshooting-guide/."); _toolInteractiveService.WriteErrorLine("If you are still unable to solve this issue and believe this is an issue with the tooling, please cut a ticket https://github.com/aws/aws-dotnet-deploy/issues/new/choose."); // bail out with an non-zero return code. return CommandReturnCodes.USER_ERROR; } catch (Exception e) { // This is a bug _toolInteractiveService.WriteErrorLine( "Unhandled exception. This is a bug. Please copy the stack trace below and file a bug at https://github.com/aws/aws-dotnet-deploy. " + e.PrettyPrint()); return CommandReturnCodes.UNHANDLED_EXCEPTION; } }); return deployCommand; } private Command BuildDeleteCommand() { var deleteCommand = new Command("delete-deployment", "Delete an existing deployment."); lock (s_child_command_lock) { deleteCommand.Add(_optionProfile); deleteCommand.Add(_optionRegion); deleteCommand.Add(_optionProjectPath); deleteCommand.Add(_optionDiagnosticLogging); deleteCommand.Add(_optionDisableInteractive); deleteCommand.AddArgument(new Argument("deployment-name")); } deleteCommand.Handler = CommandHandler.Create(async (DeleteCommandHandlerInput input) => { try { _toolInteractiveService.Diagnostics = input.Diagnostics; _toolInteractiveService.DisableInteractive = input.Silent; var awsCredentials = await _awsUtilities.ResolveAWSCredentials(input.Profile); var awsRegion = _awsUtilities.ResolveAWSRegion(input.Region); _awsClientFactory.ConfigureAWSOptions(awsOption => { awsOption.Credentials = awsCredentials; awsOption.Region = RegionEndpoint.GetBySystemName(awsRegion); }); if (string.IsNullOrEmpty(input.DeploymentName)) { _toolInteractiveService.WriteErrorLine(string.Empty); _toolInteractiveService.WriteErrorLine("Deployment name cannot be empty. Please provide a valid deployment name and try again."); return CommandReturnCodes.USER_ERROR; } OrchestratorSession? session = null; try { var projectDefinition = await _projectParserUtility.Parse(input.ProjectPath ?? string.Empty); var callerIdentity = await _awsResourceQueryer.GetCallerIdentity(awsRegion); session = new OrchestratorSession( projectDefinition, awsCredentials, awsRegion, callerIdentity.Account); } catch (FailedToFindDeployableTargetException) { } await new DeleteDeploymentCommand( _awsClientFactory, _toolInteractiveService, _consoleUtilities, _localUserSettingsEngine, session).ExecuteAsync(input.DeploymentName); return CommandReturnCodes.SUCCESS; } catch (Exception e) when (e.IsAWSDeploymentExpectedException()) { if (input.Diagnostics) _toolInteractiveService.WriteErrorLine(e.PrettyPrint()); else { _toolInteractiveService.WriteErrorLine(string.Empty); _toolInteractiveService.WriteErrorLine(e.Message); } // bail out with an non-zero return code. return CommandReturnCodes.USER_ERROR; } catch (Exception e) { // This is a bug _toolInteractiveService.WriteErrorLine( "Unhandled exception. This is a bug. Please copy the stack trace below and file a bug at https://github.com/aws/aws-dotnet-deploy. " + e.PrettyPrint()); return CommandReturnCodes.UNHANDLED_EXCEPTION; } }); return deleteCommand; } private Command BuildListCommand() { var listCommand = new Command("list-deployments", "List existing deployments."); lock (s_child_command_lock) { listCommand.Add(_optionProfile); listCommand.Add(_optionRegion); listCommand.Add(_optionDiagnosticLogging); } listCommand.Handler = CommandHandler.Create(async (ListCommandHandlerInput input) => { try { _toolInteractiveService.Diagnostics = input.Diagnostics; var awsCredentials = await _awsUtilities.ResolveAWSCredentials(input.Profile); var awsRegion = _awsUtilities.ResolveAWSRegion(input.Region); _awsClientFactory.ConfigureAWSOptions(awsOptions => { awsOptions.Credentials = awsCredentials; awsOptions.Region = RegionEndpoint.GetBySystemName(awsRegion); }); await _awsResourceQueryer.GetCallerIdentity(awsRegion); var listDeploymentsCommand = new ListDeploymentsCommand(_toolInteractiveService, _deployedApplicationQueryer); await listDeploymentsCommand.ExecuteAsync(); } catch (Exception e) when (e.IsAWSDeploymentExpectedException()) { if (input.Diagnostics) _toolInteractiveService.WriteErrorLine(e.PrettyPrint()); else { _toolInteractiveService.WriteErrorLine(string.Empty); _toolInteractiveService.WriteErrorLine(e.Message); } } catch (Exception e) { // This is a bug _toolInteractiveService.WriteErrorLine( "Unhandled exception. This is a bug. Please copy the stack trace below and file a bug at https://github.com/aws/aws-dotnet-deploy. " + e.PrettyPrint()); } }); return listCommand; } /// <summary> /// Builds the top level command called "deployment-project" which supports the creation and saving of the /// CDK deployment project. /// </summary> /// <returns>An instance of the <see cref="Command"/> class</returns> private Command BuildDeploymentProjectCommand() { var deploymentProjectCommand = new Command("deployment-project", "Save the deployment project inside a user provided directory path."); var generateDeploymentProjectCommand = new Command("generate", "Save the deployment project inside a user provided directory path without proceeding with a deployment"); lock (s_child_command_lock) { generateDeploymentProjectCommand.Add(_optionOutputDirectory); generateDeploymentProjectCommand.Add(_optionDiagnosticLogging); generateDeploymentProjectCommand.Add(_optionProjectPath); generateDeploymentProjectCommand.Add(_optionProjectDisplayName); } generateDeploymentProjectCommand.Handler = CommandHandler.Create(async (GenerateDeploymentProjectCommandHandlerInput input) => { try { _toolInteractiveService.Diagnostics = input.Diagnostics; var projectDefinition = await _projectParserUtility.Parse(input.ProjectPath ?? ""); var saveDirectory = input.Output; var projectDisplayName = input.ProjectDisplayName; OrchestratorSession session = new OrchestratorSession(projectDefinition); var targetApplicationFullPath = new DirectoryInfo(projectDefinition.ProjectPath).FullName; if (!string.IsNullOrEmpty(saveDirectory)) { var targetApplicationDirectoryFullPath = new DirectoryInfo(targetApplicationFullPath).Parent!.FullName; saveDirectory = Path.GetFullPath(saveDirectory, targetApplicationDirectoryFullPath); } var generateDeploymentProject = new GenerateDeploymentProjectCommand( _toolInteractiveService, _consoleUtilities, _cdkProjectHandler, _commandLineWrapper, _directoryManager, _fileManager, session, _deploymentManifestEngine, _recipeHandler, targetApplicationFullPath); await generateDeploymentProject.ExecuteAsync(saveDirectory, projectDisplayName); return CommandReturnCodes.SUCCESS; } catch (Exception e) when (e.IsAWSDeploymentExpectedException()) { if (input.Diagnostics) _toolInteractiveService.WriteErrorLine(e.PrettyPrint()); else { _toolInteractiveService.WriteErrorLine(string.Empty); _toolInteractiveService.WriteErrorLine(e.Message); } // bail out with an non-zero return code. return CommandReturnCodes.USER_ERROR; } catch (Exception e) { // This is a bug _toolInteractiveService.WriteErrorLine( "Unhandled exception. This is a bug. Please copy the stack trace below and file a bug at https://github.com/aws/aws-dotnet-deploy. " + e.PrettyPrint()); return CommandReturnCodes.UNHANDLED_EXCEPTION; } }); lock (s_child_command_lock) { deploymentProjectCommand.Add(generateDeploymentProjectCommand); } return deploymentProjectCommand; } private Command BuildServerModeCommand() { var serverModeCommand = new Command( "server-mode", "Launches the tool in a server mode for IDEs like Visual Studio to integrate with."); lock (s_child_command_lock) { serverModeCommand.Add(new Option<int>(new[] { "--port" }, description: "Port the server mode will listen to.")); serverModeCommand.Add(new Option<int>(new[] { "--parent-pid" }, description: "The ID of the process that is launching server mode. Server mode will exit when the parent pid terminates.")); serverModeCommand.Add(new Option<bool>(new[] { "--unsecure-mode" }, description: "If set the cli uses an unsecure mode without encryption.")); serverModeCommand.Add(_optionDiagnosticLogging); } serverModeCommand.Handler = CommandHandler.Create(async (ServerModeCommandHandlerInput input) => { try { _toolInteractiveService.Diagnostics = input.Diagnostics; var serverMode = new ServerModeCommand(_toolInteractiveService, input.Port, input.ParentPid, input.UnsecureMode); await serverMode.ExecuteAsync(); return CommandReturnCodes.SUCCESS; } catch (Exception e) when (e.IsAWSDeploymentExpectedException()) { if (input.Diagnostics) _toolInteractiveService.WriteErrorLine(e.PrettyPrint()); else { _toolInteractiveService.WriteErrorLine(string.Empty); _toolInteractiveService.WriteErrorLine(e.Message); } if (e is TcpPortInUseException) { return CommandReturnCodes.TCP_PORT_ERROR; } // bail out with an non-zero return code. return CommandReturnCodes.USER_ERROR; } catch (Exception e) { // This is a bug _toolInteractiveService.WriteErrorLine( "Unhandled exception. This is a bug. Please copy the stack trace below and file a bug at https://github.com/aws/aws-dotnet-deploy. " + e.PrettyPrint()); return CommandReturnCodes.UNHANDLED_EXCEPTION; } }); return serverModeCommand; } } }	581
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System; using System.Linq; using System.Threading.Tasks; using Amazon.CloudFormation; using Amazon.CloudFormation.Model; using AWS.Deploy.CLI.CloudFormation; using AWS.Deploy.Common; using AWS.Deploy.Common.IO; using AWS.Deploy.Orchestration; using AWS.Deploy.Orchestration.LocalUserSettings; namespace AWS.Deploy.CLI.Commands { /// <summary> /// Represents a Delete command allows to delete a CloudFormation stack /// </summary> public class DeleteDeploymentCommand { private static readonly TimeSpan s_pollingPeriod = TimeSpan.FromSeconds(5); private readonly IAWSClientFactory _awsClientFactory; private readonly IToolInteractiveService _interactiveService; private readonly IAmazonCloudFormation _cloudFormationClient; private readonly IConsoleUtilities _consoleUtilities; private readonly ILocalUserSettingsEngine _localUserSettingsEngine; private readonly OrchestratorSession? _session; private const int MAX_RETRIES = 4; public DeleteDeploymentCommand( IAWSClientFactory awsClientFactory, IToolInteractiveService interactiveService, IConsoleUtilities consoleUtilities, ILocalUserSettingsEngine localUserSettingsEngine, OrchestratorSession? session) { _awsClientFactory = awsClientFactory; _interactiveService = interactiveService; _consoleUtilities = consoleUtilities; _cloudFormationClient = _awsClientFactory.GetAWSClient<IAmazonCloudFormation>(); _localUserSettingsEngine = localUserSettingsEngine; _session = session; } /// <summary> /// Deletes given CloudFormation stack /// </summary> /// <param name="stackName">The stack name to be deleted</param> /// <exception cref="FailedToDeleteException">Thrown when deletion fails</exception> public async Task ExecuteAsync(string stackName) { var canDelete = await CanDeleteAsync(stackName); if (!canDelete) { return; } var confirmDelete = _interactiveService.DisableInteractive ? YesNo.Yes : _consoleUtilities.AskYesNoQuestion($"Are you sure you want to delete {stackName}?", YesNo.No); if (confirmDelete == YesNo.No) { return; } _interactiveService.WriteLine($"{stackName}: deleting..."); var monitor = new StackEventMonitor(stackName, _awsClientFactory, _consoleUtilities, _interactiveService); try { await _cloudFormationClient.DeleteStackAsync(new DeleteStackRequest { StackName = stackName }); // Fire and forget the monitor // Monitor updates the stdout with current status of the CloudFormation stack var _ = monitor.StartAsync(); await WaitForStackDelete(stackName); if (_session != null) { await _localUserSettingsEngine.DeleteLastDeployedStack(stackName, _session.ProjectDefinition.ProjectName, _session.AWSAccountId, _session.AWSRegion); } _interactiveService.WriteLine($"{stackName}: deleted"); } finally { // Stop monitoring CloudFormation stack status once the deletion operation finishes monitor.Stop(); } } private async Task<bool> CanDeleteAsync(string stackName) { var stack = await GetStackAsync(stackName); if (stack == null) { _interactiveService.WriteErrorLine($"Stack with name {stackName} does not exist."); return false; } var canDelete = stack.Tags.Any(tag => tag.Key.Equals(Constants.CloudFormationIdentifier.STACK_TAG)); if (!canDelete) { _interactiveService.WriteErrorLine("Only stacks that were deployed with this tool can be deleted."); } return canDelete; } private async Task WaitForStackDelete(string stackName) { var stack = await StabilizeStack(stackName); if (stack == null) { return; } if (stack.StackStatus.IsDeleted()) { return; } if (stack.StackStatus.IsFailed()) { throw new FailedToDeleteException(DeployToolErrorCode.FailedToDeleteStack, $"The stack {stackName} is in a failed state. You may need to delete it from the AWS Console."); } throw new FailedToDeleteException(DeployToolErrorCode.FailedToDeleteStack, $"Failed to delete {stackName} stack: {stack.StackStatus}"); } private async Task<Stack?> StabilizeStack(string stackName) { Stack? stack; do { stack = await GetStackAsync(stackName); if (stack == null) { return null; } await Task.Delay(s_pollingPeriod); } while (stack.StackStatus.IsInProgress()); return stack; } private async Task<Stack?> GetStackAsync(string stackName) { var retryCount = 0; var shouldRetry = false; Stack? stack = null; do { var waitTime = GetWaitTime(retryCount); try { await Task.Delay(waitTime); var response = await _cloudFormationClient.DescribeStacksAsync(new DescribeStacksRequest { StackName = stackName }); stack = response.Stacks.Count == 0 ? null : response.Stacks[0]; shouldRetry = false; } catch (AmazonCloudFormationException exception) when (exception.ErrorCode.Equals("ValidationError") && exception.Message.Equals($"Stack with id {stackName} does not exist")) { _interactiveService.WriteDebugLine(exception.PrettyPrint()); shouldRetry = false; } catch (AmazonCloudFormationException exception) when (exception.ErrorCode.Equals("Throttling")) { _interactiveService.WriteDebugLine(exception.PrettyPrint()); shouldRetry = true; } } while (shouldRetry && retryCount++ < MAX_RETRIES); return stack; } /// <summary> /// Returns the next wait interval, in milliseconds, using an exponential backoff algorithm /// Read more here https://docs.aws.amazon.com/general/latest/gr/api-retries.html /// </summary> /// <param name="retryCount"></param> /// <returns></returns> private static TimeSpan GetWaitTime(int retryCount) { if (retryCount == 0) { return TimeSpan.Zero; } var waitTime = Math.Pow(2, retryCount) * 5; return TimeSpan.FromSeconds(waitTime); } } }	206
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System; using System.Collections.Generic; using System.IO; using System.Linq; using System.Reflection; using System.Threading.Tasks; using AWS.Deploy.CLI.Commands.TypeHints; using AWS.Deploy.Common; using AWS.Deploy.Common.Extensions; using AWS.Deploy.Common.Recipes; using AWS.Deploy.Common.Recipes.Validation; using AWS.Deploy.DockerEngine; using AWS.Deploy.Orchestration; using AWS.Deploy.Orchestration.CDK; using AWS.Deploy.Recipes; using AWS.Deploy.Orchestration.Data; using AWS.Deploy.Orchestration.Utilities; using AWS.Deploy.Orchestration.DisplayedResources; using AWS.Deploy.Common.IO; using AWS.Deploy.Orchestration.LocalUserSettings; using Newtonsoft.Json; using AWS.Deploy.Orchestration.ServiceHandlers; using Microsoft.Extensions.DependencyInjection; using AWS.Deploy.Common.Data; namespace AWS.Deploy.CLI.Commands { public class DeployCommand { private readonly IServiceProvider _serviceProvider; private readonly IToolInteractiveService _toolInteractiveService; private readonly IOrchestratorInteractiveService _orchestratorInteractiveService; private readonly ICdkProjectHandler _cdkProjectHandler; private readonly ICDKManager _cdkManager; private readonly IDeploymentBundleHandler _deploymentBundleHandler; private readonly IDockerEngine _dockerEngine; private readonly IAWSResourceQueryer _awsResourceQueryer; private readonly ICloudFormationTemplateReader _cloudFormationTemplateReader; private readonly IDeployedApplicationQueryer _deployedApplicationQueryer; private readonly ITypeHintCommandFactory _typeHintCommandFactory; private readonly IDisplayedResourcesHandler _displayedResourcesHandler; private readonly ICloudApplicationNameGenerator _cloudApplicationNameGenerator; private readonly ILocalUserSettingsEngine _localUserSettingsEngine; private readonly IConsoleUtilities _consoleUtilities; private readonly ISystemCapabilityEvaluator _systemCapabilityEvaluator; private readonly OrchestratorSession _session; private readonly IDirectoryManager _directoryManager; private readonly IFileManager _fileManager; private readonly ICDKVersionDetector _cdkVersionDetector; private readonly IAWSServiceHandler _awsServiceHandler; private readonly IOptionSettingHandler _optionSettingHandler; private readonly IValidatorFactory _validatorFactory; private readonly IRecipeHandler _recipeHandler; private readonly IDeployToolWorkspaceMetadata _deployToolWorkspaceMetadata; private readonly IDeploymentSettingsHandler _deploymentSettingsHandler; public DeployCommand( IServiceProvider serviceProvider, IToolInteractiveService toolInteractiveService, IOrchestratorInteractiveService orchestratorInteractiveService, ICdkProjectHandler cdkProjectHandler, ICDKManager cdkManager, ICDKVersionDetector cdkVersionDetector, IDeploymentBundleHandler deploymentBundleHandler, IDockerEngine dockerEngine, IAWSResourceQueryer awsResourceQueryer, ICloudFormationTemplateReader cloudFormationTemplateReader, IDeployedApplicationQueryer deployedApplicationQueryer, ITypeHintCommandFactory typeHintCommandFactory, IDisplayedResourcesHandler displayedResourcesHandler, ICloudApplicationNameGenerator cloudApplicationNameGenerator, ILocalUserSettingsEngine localUserSettingsEngine, IConsoleUtilities consoleUtilities, ISystemCapabilityEvaluator systemCapabilityEvaluator, OrchestratorSession session, IDirectoryManager directoryManager, IFileManager fileManager, IAWSServiceHandler awsServiceHandler, IOptionSettingHandler optionSettingHandler, IValidatorFactory validatorFactory, IRecipeHandler recipeHandler, IDeployToolWorkspaceMetadata deployToolWorkspaceMetadata, IDeploymentSettingsHandler deploymentSettingsHandler) { _serviceProvider = serviceProvider; _toolInteractiveService = toolInteractiveService; _orchestratorInteractiveService = orchestratorInteractiveService; _cdkProjectHandler = cdkProjectHandler; _deploymentBundleHandler = deploymentBundleHandler; _dockerEngine = dockerEngine; _awsResourceQueryer = awsResourceQueryer; _cloudFormationTemplateReader = cloudFormationTemplateReader; _deployedApplicationQueryer = deployedApplicationQueryer; _typeHintCommandFactory = typeHintCommandFactory; _displayedResourcesHandler = displayedResourcesHandler; _cloudApplicationNameGenerator = cloudApplicationNameGenerator; _localUserSettingsEngine = localUserSettingsEngine; _consoleUtilities = consoleUtilities; _session = session; _directoryManager = directoryManager; _fileManager = fileManager; _cdkVersionDetector = cdkVersionDetector; _cdkManager = cdkManager; _systemCapabilityEvaluator = systemCapabilityEvaluator; _awsServiceHandler = awsServiceHandler; _optionSettingHandler = optionSettingHandler; _validatorFactory = validatorFactory; _recipeHandler = recipeHandler; _deployToolWorkspaceMetadata = deployToolWorkspaceMetadata; _deploymentSettingsHandler = deploymentSettingsHandler; } public async Task ExecuteAsync(string applicationName, string deploymentProjectPath, SaveSettingsConfiguration saveSettingsConfig, DeploymentSettings? deploymentSettings = null) { var (orchestrator, selectedRecommendation, cloudApplication) = await InitializeDeployment(applicationName, deploymentSettings, deploymentProjectPath); // Verify Docker installation and minimum NodeJS version. await EvaluateSystemCapabilities(selectedRecommendation); // Configure option settings. await ConfigureDeployment(cloudApplication, orchestrator, selectedRecommendation, deploymentSettings); if (!ConfirmDeployment(selectedRecommendation)) { return; } await CreateDeploymentBundle(orchestrator, selectedRecommendation, cloudApplication); if (saveSettingsConfig.SettingsType != SaveSettingsType.None) { await _deploymentSettingsHandler.SaveSettings(saveSettingsConfig, selectedRecommendation, cloudApplication, _session); _toolInteractiveService.WriteLine($"{Environment.NewLine}Successfully saved the deployment settings at {saveSettingsConfig.FilePath}"); } await orchestrator.DeployRecommendation(cloudApplication, selectedRecommendation); var displayedResources = await _displayedResourcesHandler.GetDeploymentOutputs(cloudApplication, selectedRecommendation); DisplayOutputResources(displayedResources); } private void DisplayOutputResources(List<DisplayedResourceItem> displayedResourceItems) { _orchestratorInteractiveService.LogSectionStart("AWS Resource Details", null); foreach (var resource in displayedResourceItems) { _toolInteractiveService.WriteLine($"{resource.Description}:"); _toolInteractiveService.WriteLine($"\t{nameof(resource.Id)}: {resource.Id}"); _toolInteractiveService.WriteLine($"\t{nameof(resource.Type)}: {resource.Type}"); foreach (var resourceKey in resource.Data.Keys) { _toolInteractiveService.WriteLine($"\t{resourceKey}: {resource.Data[resourceKey]}"); } } } /// <summary> /// Initiates a deployment or a re-deployment. /// If a new Cloudformation stack name is selected, then a fresh deployment is initiated with the user-selected deployment recipe. /// If an existing deployment target is selected, then a re-deployment is initiated with the same deployment recipe. /// </summary> /// <param name="cloudApplicationName">The cloud application name provided via the --application-name CLI argument</param> /// <param name="deploymentSettings">The deserialized object from the user provided config file.<see cref="DeploymentSettings"/></param> /// <param name="deploymentProjectPath">The absolute or relative path of the CDK project that will be used for deployment</param> /// <returns>A tuple consisting of the Orchestrator object, Selected Recommendation, Cloud Application metadata.</returns> public async Task<(Orchestrator, Recommendation, CloudApplication)> InitializeDeployment(string cloudApplicationName, DeploymentSettings? deploymentSettings, string deploymentProjectPath) { var orchestrator = new Orchestrator( _session, _orchestratorInteractiveService, _cdkProjectHandler, _cdkManager, _cdkVersionDetector, _awsResourceQueryer, _deploymentBundleHandler, _localUserSettingsEngine, _dockerEngine, _recipeHandler, _fileManager, _directoryManager, _awsServiceHandler, _optionSettingHandler, _deployToolWorkspaceMetadata); // Determine what recommendations are possible for the project. var recommendations = await GenerateDeploymentRecommendations(orchestrator, deploymentProjectPath); // Get all existing applications that were previously deployed using our deploy tool. var allDeployedApplications = await _deployedApplicationQueryer.GetExistingDeployedApplications(recommendations.Select(x => x.Recipe.DeploymentType).ToList()); // Filter compatible applications that can be re-deployed using the current set of recommendations. var compatibleApplications = await _deployedApplicationQueryer.GetCompatibleApplications(recommendations, allDeployedApplications, _session); if (string.IsNullOrEmpty(cloudApplicationName)) // Try finding the CloudApplication name via the user provided config settings. cloudApplicationName = deploymentSettings?.ApplicationName ?? string.Empty; // Prompt the user with a choice to re-deploy to existing targets or deploy to a new cloud application. // This prompt is NOT needed if the user is just pushing the docker image to ECR. if (string.IsNullOrEmpty(cloudApplicationName) && !string.Equals(deploymentSettings?.RecipeId, Constants.RecipeIdentifier.PUSH_TO_ECR_RECIPE_ID)) cloudApplicationName = AskForCloudApplicationNameFromDeployedApplications(compatibleApplications); // Find existing application with the same CloudApplication name. CloudApplication? deployedApplication = null; if (!string.IsNullOrEmpty(deploymentSettings?.RecipeId)) { // if the recommendation is specified via a config file then find the deployed application by matching the deployment type along with the cloudApplicationName var recommendation = recommendations.FirstOrDefault(x => string.Equals(x.Recipe.Id, deploymentSettings.RecipeId)); if (recommendation == null) { var errorMsg = "The recipe ID specified in the deployment settings file does not match any compatible deployment recipes."; throw new InvalidDeploymentSettingsException(DeployToolErrorCode.DeploymentConfigurationNeedsAdjusting, errorMsg); } deployedApplication = allDeployedApplications.FirstOrDefault(x => string.Equals(x.Name, cloudApplicationName) && x.DeploymentType == recommendation.Recipe.DeploymentType); } else { deployedApplication = allDeployedApplications.FirstOrDefault(x => string.Equals(x.Name, cloudApplicationName)); } Recommendation? selectedRecommendation = null; if (deployedApplication != null) { // Verify that the target application can be deployed using the current set of recommendations if (!compatibleApplications.Any(app => app.Name.Equals(deployedApplication.Name, StringComparison.Ordinal))) { var errorMessage = $"{deployedApplication.Name} already exists as a {deployedApplication.ResourceType} but a compatible recommendation to perform a redeployment was not found"; throw new FailedToFindCompatibleRecipeException(DeployToolErrorCode.CompatibleRecommendationForRedeploymentNotFound, errorMessage); } // preset settings for deployment based on last deployment. selectedRecommendation = await GetSelectedRecommendationFromPreviousDeployment(orchestrator, recommendations, deployedApplication, deploymentSettings, deploymentProjectPath); } else { if (!string.IsNullOrEmpty(deploymentProjectPath)) { selectedRecommendation = recommendations.First(); } else { // Filter the recommendation list for a NEW deployment with recipes which have the DisableNewDeployments property set to false. selectedRecommendation = GetSelectedRecommendation(deploymentSettings, recommendations.Where(x => !x.Recipe.DisableNewDeployments).ToList()); } // Ask the user for a new Cloud Application name based on the deployment type of the recipe. if (string.IsNullOrEmpty(cloudApplicationName)) { // Don't prompt for a new name if a user just wants to push images to ECR // The ECR repository name is already configurable as part of the recipe option settings. if (selectedRecommendation.Recipe.DeploymentType == DeploymentTypes.ElasticContainerRegistryImage) { cloudApplicationName = _cloudApplicationNameGenerator.GenerateValidName(_session.ProjectDefinition, compatibleApplications, selectedRecommendation.Recipe.DeploymentType); } else { cloudApplicationName = AskForNewCloudApplicationName(selectedRecommendation.Recipe.DeploymentType, compatibleApplications); } } // cloudApplication name was already provided via CLI args or the deployment config file else { var validationResult = _cloudApplicationNameGenerator.IsValidName(cloudApplicationName, allDeployedApplications, selectedRecommendation.Recipe.DeploymentType); if (!validationResult.IsValid) throw new InvalidCloudApplicationNameException(DeployToolErrorCode.InvalidCloudApplicationName, validationResult.ErrorMessage); } } await orchestrator.ApplyAllReplacementTokens(selectedRecommendation, cloudApplicationName); var cloudApplication = new CloudApplication(cloudApplicationName, deployedApplication?.UniqueIdentifier ?? string.Empty, orchestrator.GetCloudApplicationResourceType(selectedRecommendation.Recipe.DeploymentType), selectedRecommendation.Recipe.Id); return (orchestrator, selectedRecommendation, cloudApplication); } /// <summary> /// Checks if the system meets all the necessary requirements for deployment. /// </summary> /// <param name="selectedRecommendation">The selected recommendation settings used for deployment.<see cref="Recommendation"/></param> public async Task EvaluateSystemCapabilities(Recommendation selectedRecommendation) { var systemCapabilities = await _systemCapabilityEvaluator.EvaluateSystemCapabilities(selectedRecommendation); var missingCapabilitiesMessage = ""; foreach (var capability in systemCapabilities) { missingCapabilitiesMessage = $"{missingCapabilitiesMessage}{Environment.NewLine}{capability.GetMessage()}{Environment.NewLine}"; } if (systemCapabilities.Any()) throw new MissingSystemCapabilityException(DeployToolErrorCode.MissingSystemCapabilities, missingCapabilitiesMessage); } /// <summary> /// Configure option setings using the CLI or a user provided configuration file. /// </summary> /// <param name="cloudApplication"><see cref="CloudApplication"/></param> /// <param name="orchestrator"><see cref="Orchestrator"/></param> /// <param name="selectedRecommendation"><see cref="Recommendation"/></param> /// <param name="deploymentSettings"><see cref="DeploymentSettings"/></param> public async Task ConfigureDeployment(CloudApplication cloudApplication, Orchestrator orchestrator, Recommendation selectedRecommendation, DeploymentSettings? deploymentSettings) { var configurableOptionSettings = selectedRecommendation.GetConfigurableOptionSettingItems(); if (deploymentSettings != null) { await _deploymentSettingsHandler.ApplySettings(deploymentSettings, selectedRecommendation, _session); } if (!_toolInteractiveService.DisableInteractive) { await ConfigureDeploymentFromCli(selectedRecommendation, configurableOptionSettings, false); } } private async Task<List<Recommendation>> GenerateDeploymentRecommendations(Orchestrator orchestrator, string deploymentProjectPath) { List<Recommendation> recommendations; if (!string.IsNullOrEmpty(deploymentProjectPath)) { recommendations = await orchestrator.GenerateRecommendationsFromSavedDeploymentProject(deploymentProjectPath); if (!recommendations.Any()) { var errorMessage = $"Could not find any deployment recipe located inside '{deploymentProjectPath}' that can be used for deployment of the target application"; throw new FailedToGenerateAnyRecommendations(DeployToolErrorCode.NoDeploymentRecipesFound, errorMessage); } } else { recommendations = await orchestrator.GenerateDeploymentRecommendations(); if (!recommendations.Any()) { var errorMessage = "There are no compatible deployment recommendations for this application."; throw new FailedToGenerateAnyRecommendations(DeployToolErrorCode.NoCompatibleDeploymentRecipesFound, errorMessage); } } return recommendations; } private async Task<Recommendation> GetSelectedRecommendationFromPreviousDeployment(Orchestrator orchestrator, List<Recommendation> recommendations, CloudApplication deployedApplication, DeploymentSettings? deploymentSettings, string deploymentProjectPath) { var deploymentSettingRecipeId = deploymentSettings?.RecipeId; var selectedRecommendation = await GetRecommendationForRedeployment(recommendations, deployedApplication, deploymentProjectPath); if (selectedRecommendation == null) { var errorMessage = $"{deployedApplication.Name} already exists as a {deployedApplication.ResourceType} but a compatible recommendation used to perform a re-deployment was not found."; throw new FailedToFindCompatibleRecipeException(DeployToolErrorCode.CompatibleRecommendationForRedeploymentNotFound, errorMessage); } if (!string.IsNullOrEmpty(deploymentSettingRecipeId) && !string.Equals(deploymentSettingRecipeId, selectedRecommendation.Recipe.Id, StringComparison.InvariantCultureIgnoreCase)) { var errorMessage = $"The existing {deployedApplication.ResourceType} {deployedApplication.Name} was created from a different deployment recommendation. " + "Deploying to an existing target must be performed with the original deployment recommendation to avoid unintended destructive changes to the resources."; if (_toolInteractiveService.Diagnostics) { errorMessage += Environment.NewLine + $"The original deployment recipe ID was {deployedApplication.RecipeId} and the current deployment recipe ID is {deploymentSettingRecipeId}"; } throw new InvalidDeploymentSettingsException(DeployToolErrorCode.StackCreatedFromDifferentDeploymentRecommendation, errorMessage.Trim()); } IDictionary<string, object> previousSettings; if (deployedApplication.ResourceType == CloudApplicationResourceType.CloudFormationStack) { var metadata = await _cloudFormationTemplateReader.LoadCloudApplicationMetadata(deployedApplication.Name); previousSettings = metadata.Settings.Union(metadata.DeploymentBundleSettings).ToDictionary(x => x.Key, x => x.Value); } else { previousSettings = await _deployedApplicationQueryer.GetPreviousSettings(deployedApplication, selectedRecommendation); } await orchestrator.ApplyAllReplacementTokens(selectedRecommendation, deployedApplication.Name); selectedRecommendation = await orchestrator.ApplyRecommendationPreviousSettings(selectedRecommendation, previousSettings); var header = $"Loading {deployedApplication.DisplayName} settings:"; _toolInteractiveService.WriteLine(header); _toolInteractiveService.WriteLine(new string('-', header.Length)); var optionSettings = selectedRecommendation .Recipe .OptionSettings .Where(x => _optionSettingHandler.IsSummaryDisplayable(selectedRecommendation, x)) .ToArray(); foreach (var setting in optionSettings) { DisplayOptionSetting(selectedRecommendation, setting, -1, optionSettings.Length, DisplayOptionSettingsMode.Readonly); } return selectedRecommendation; } private async Task<Recommendation?> GetRecommendationForRedeployment(List<Recommendation> recommendations, CloudApplication deployedApplication, string deploymentProjectPath) { var targetRecipeId = !string.IsNullOrEmpty(deploymentProjectPath) ? await GetDeploymentProjectRecipeId(deploymentProjectPath) : deployedApplication.RecipeId; foreach (var recommendation in recommendations) { if (string.Equals(recommendation.Recipe.Id, targetRecipeId) && _deployedApplicationQueryer.IsCompatible(deployedApplication, recommendation)) { return recommendation; } } return null; } private async Task<string> GetDeploymentProjectRecipeId(string deploymentProjectPath) { if (!_directoryManager.Exists(deploymentProjectPath)) { throw new InvalidOperationException($"Invalid deployment project path. {deploymentProjectPath} does not exist on the file system."); } try { var recipeFiles = _directoryManager.GetFiles(deploymentProjectPath, "*.recipe"); if (recipeFiles.Length == 0) { throw new InvalidOperationException($"Failed to find a recipe file at {deploymentProjectPath}"); } if (recipeFiles.Length > 1) { throw new InvalidOperationException($"Found more than one recipe files at {deploymentProjectPath}. Only one recipe file per deployment project is supported."); } var recipeFilePath = recipeFiles.First(); var recipeBody = await _fileManager.ReadAllTextAsync(recipeFilePath); var recipe = JsonConvert.DeserializeObject<RecipeDefinition>(recipeBody); if (recipe == null) throw new FailedToDeserializeException(DeployToolErrorCode.FailedToDeserializeDeploymentProjectRecipe, $"Failed to deserialize Deployment Project Recipe '{recipeFilePath}'"); return recipe.Id; } catch (Exception ex) { throw new FailedToFindDeploymentProjectRecipeIdException(DeployToolErrorCode.FailedToFindDeploymentProjectRecipeId, $"Failed to find a recipe ID for the deployment project located at {deploymentProjectPath}", ex); } } // This method prompts the user to select a CloudApplication name for existing deployments or create a new one. // If a user chooses to create a new CloudApplication, then this method returns string.Empty private string AskForCloudApplicationNameFromDeployedApplications(List<CloudApplication> deployedApplications) { if (!deployedApplications.Any()) return string.Empty; var title = "Select an existing AWS deployment target to deploy your application to."; var userInputConfiguration = new UserInputConfiguration<CloudApplication>( idSelector: app => app.DisplayName, displaySelector: app => app.DisplayName, defaultSelector: app => app.DisplayName.Equals(deployedApplications.First().DisplayName)) { AskNewName = false, CanBeEmpty = false }; var userResponse = _consoleUtilities.AskUserToChooseOrCreateNew( options: deployedApplications, title: title, userInputConfiguration: userInputConfiguration, defaultChoosePrompt: Constants.CLI.PROMPT_CHOOSE_DEPLOYMENT_TARGET, defaultCreateNewLabel: Constants.CLI.CREATE_NEW_APPLICATION_LABEL); var cloudApplicationName = userResponse.SelectedOption != null ? userResponse.SelectedOption.Name : string.Empty; return cloudApplicationName; } // This method prompts the user for a new CloudApplication name and also generate a valid default name by respecting existing applications. private string AskForNewCloudApplicationName(DeploymentTypes deploymentType, List<CloudApplication> deployedApplications) { if (_toolInteractiveService.DisableInteractive) { var message = "The \"--silent\" CLI argument can only be used if a cloud application name is provided either via the CLI argument \"--application-name\" or through a deployment-settings file. " + "Please provide an application name and try again"; throw new InvalidCliArgumentException(DeployToolErrorCode.SilentArgumentNeedsApplicationNameArgument, message); } var defaultName = ""; try { defaultName = _cloudApplicationNameGenerator.GenerateValidName(_session.ProjectDefinition, deployedApplications, deploymentType); } catch (Exception exception) { _toolInteractiveService.WriteDebugLine(exception.PrettyPrint()); } var cloudApplicationName = string.Empty; while (true) { _toolInteractiveService.WriteLine(); var title = "Name the Cloud Application to deploy your project to" + Environment.NewLine + "--------------------------------------------------------------------------------"; string inputPrompt; switch (deploymentType) { case DeploymentTypes.CdkProject: inputPrompt = Constants.CLI.PROMPT_NEW_STACK_NAME; break; case DeploymentTypes.ElasticContainerRegistryImage: inputPrompt = Constants.CLI.PROMPT_ECR_REPOSITORY_NAME; break; default: throw new InvalidOperationException($"The {nameof(DeploymentTypes)} {deploymentType} does not have an input prompt"); } cloudApplicationName = _consoleUtilities.AskUserForValue( title, defaultName, allowEmpty: false, defaultAskValuePrompt: inputPrompt); var validationResult = _cloudApplicationNameGenerator.IsValidName(cloudApplicationName, deployedApplications, deploymentType); if (validationResult.IsValid) { return cloudApplicationName; } _toolInteractiveService.WriteLine(); _toolInteractiveService.WriteErrorLine(validationResult.ErrorMessage); } } /// <summary> /// This method is responsible for selecting a deployment recommendation. /// </summary> /// <param name="deploymentSettings">The deserialized object from the user provided config file.<see cref="DeploymentSettings"/></param> /// <param name="recommendations">A List of available recommendations to choose from.</param> /// <returns><see cref="Recommendation"/></returns> private Recommendation GetSelectedRecommendation(DeploymentSettings? deploymentSettings, List<Recommendation> recommendations) { var deploymentSettingsRecipeId = deploymentSettings?.RecipeId; if (string.IsNullOrEmpty(deploymentSettingsRecipeId)) { if (_toolInteractiveService.DisableInteractive) { var message = "The \"--silent\" CLI argument can only be used if a deployment recipe is specified as part of the " + "deployement-settings file or if a path to a custom CDK deployment project is provided via the '--deployment-project' CLI argument." + $"{Environment.NewLine}Please provide a deployment recipe and try again"; throw new InvalidCliArgumentException(DeployToolErrorCode.SilentArgumentNeedsDeploymentRecipe, message); } return _consoleUtilities.AskToChooseRecommendation(recommendations); } var selectedRecommendation = recommendations.FirstOrDefault(x => x.Recipe.Id.Equals(deploymentSettingsRecipeId, StringComparison.Ordinal)); if (selectedRecommendation == null) { throw new InvalidDeploymentSettingsException(DeployToolErrorCode.InvalidPropertyValueForUserDeployment, $"The user deployment settings provided contains an invalid value for the property '{nameof(deploymentSettings.RecipeId)}'."); } _toolInteractiveService.WriteLine(); _toolInteractiveService.WriteLine($"Configuring Recommendation with: '{selectedRecommendation.Name}'."); return selectedRecommendation; } private bool ConfirmDeployment(Recommendation recommendation) { var message = recommendation.Recipe.DeploymentConfirmation?.DefaultMessage; if (string.IsNullOrEmpty(message)) return true; var result = _consoleUtilities.AskYesNoQuestion(message); return result == YesNo.Yes; } private async Task CreateDeploymentBundle(Orchestrator orchestrator, Recommendation selectedRecommendation, CloudApplication cloudApplication) { try { await orchestrator.CreateDeploymentBundle(cloudApplication, selectedRecommendation); } catch(FailedToCreateDeploymentBundleException ex) when (ex.ErrorCode == DeployToolErrorCode.DockerBuildFailed) { if (_toolInteractiveService.DisableInteractive) { throw ex; } _toolInteractiveService.WriteLine("Docker builds usually fail due to executing them from a working directory that is incompatible with the Dockerfile." + " You can try setting the 'Docker Execution Directory' in the option settings."); _toolInteractiveService.WriteLine(string.Empty); var answer = _consoleUtilities.AskYesNoQuestion("Do you want to go back and modify the current configuration?", "false"); if (answer == YesNo.Yes) { string dockerExecutionDirectory; do { dockerExecutionDirectory = _consoleUtilities.AskUserForValue( "Enter the docker execution directory where the docker build command will be executed from:", selectedRecommendation.DeploymentBundle.DockerExecutionDirectory, allowEmpty: true); if (!_directoryManager.Exists(dockerExecutionDirectory)) { _toolInteractiveService.WriteErrorLine($"Error, directory does not exist \"{dockerExecutionDirectory}\""); } } while (!_directoryManager.Exists(dockerExecutionDirectory)); selectedRecommendation.DeploymentBundle.DockerExecutionDirectory = dockerExecutionDirectory; await CreateDeploymentBundle(orchestrator, selectedRecommendation, cloudApplication); } else { throw ex; } } } private async Task ConfigureDeploymentFromCli(Recommendation recommendation, IEnumerable<OptionSettingItem> configurableOptionSettings, bool showAdvancedSettings) { _toolInteractiveService.WriteLine(string.Empty); while (true) { var message = "Current settings (select number to change its value)"; var title = message + Environment.NewLine + new string('-', message.Length); _toolInteractiveService.WriteLine(title); var optionSettings = configurableOptionSettings .Where(x => (!recommendation.IsExistingCloudApplication \|\| x.Updatable) && (!x.AdvancedSetting \|\| showAdvancedSettings) && _optionSettingHandler.IsOptionSettingDisplayable(recommendation, x)) .ToArray(); for (var i = 1; i <= optionSettings.Length; i++) { DisplayOptionSetting(recommendation, optionSettings[i - 1], i, optionSettings.Length, DisplayOptionSettingsMode.Editable); } _toolInteractiveService.WriteLine(); if (!showAdvancedSettings) { // Don't bother showing 'more' for advanced options if there aren't any advanced options. if (configurableOptionSettings.Any(x => x.AdvancedSetting)) { _toolInteractiveService.WriteLine("Enter 'more' to display Advanced settings. "); } } _toolInteractiveService.WriteLine("Or press 'Enter' to deploy:"); var input = _toolInteractiveService.ReadLine(); // advanced - break to main loop to reprint menu if (input.Trim().ToLower().Equals("more")) { showAdvancedSettings = true; _toolInteractiveService.WriteLine(); continue; } // deploy case, nothing more to configure if (string.IsNullOrEmpty(input)) { var settingValidatorFailedResults = _optionSettingHandler.RunOptionSettingValidators(recommendation); var recipeValidatorFailedResults = _recipeHandler.RunRecipeValidators(recommendation, _session); if (!settingValidatorFailedResults.Any() && !recipeValidatorFailedResults.Any()) { // validation successful // deployment configured return; } _toolInteractiveService.WriteLine(); _toolInteractiveService.WriteErrorLine("The deployment configuration needs to be adjusted before it can be deployed:"); foreach (var result in settingValidatorFailedResults) _toolInteractiveService.WriteErrorLine($" - {result.ValidationFailedMessage}"); foreach (var result in recipeValidatorFailedResults) _toolInteractiveService.WriteErrorLine($" - {result.ValidationFailedMessage}"); _toolInteractiveService.WriteLine(); _toolInteractiveService.WriteErrorLine("Please adjust your settings"); } // configure option setting if (int.TryParse(input, out var selectedNumber) && selectedNumber >= 1 && selectedNumber <= optionSettings.Length) { await ConfigureDeploymentFromCli(recommendation, optionSettings[selectedNumber - 1]); } _toolInteractiveService.WriteLine(); } } enum DisplayOptionSettingsMode { Editable, Readonly } private void DisplayOptionSetting(Recommendation recommendation, OptionSettingItem optionSetting, int optionSettingNumber, int optionSettingsCount, DisplayOptionSettingsMode mode) { var value = _optionSettingHandler.GetOptionSettingValue(recommendation, optionSetting); Type? typeHintResponseType = null; if (optionSetting.Type == OptionSettingValueType.Object) { var typeHintResponseTypeFullName = $"AWS.Deploy.CLI.TypeHintResponses.{optionSetting.TypeHint}TypeHintResponse"; typeHintResponseType = Assembly.GetExecutingAssembly().GetType(typeHintResponseTypeFullName); } DisplayValue(recommendation, optionSetting, optionSettingNumber, optionSettingsCount, typeHintResponseType, mode); } private async Task ConfigureDeploymentFromCli(Recommendation recommendation, OptionSettingItem setting) { _toolInteractiveService.WriteLine(string.Empty); _toolInteractiveService.WriteLine($"{setting.Name}:"); _toolInteractiveService.WriteLine($"{setting.Description}"); object currentValue = _optionSettingHandler.GetOptionSettingValue(recommendation, setting); object? settingValue = null; if (setting.AllowedValues?.Count > 0) { var userInputConfig = new UserInputConfiguration<string>( idSelector: x => x, displaySelector: x => setting.ValueMapping.ContainsKey(x) ? setting.ValueMapping[x] : x, defaultSelector: x => x.Equals(currentValue)) { CreateNew = false }; var userResponse = _consoleUtilities.AskUserToChooseOrCreateNew(setting.AllowedValues, string.Empty, userInputConfig); settingValue = userResponse.SelectedOption; // If they didn't change the value then don't store so we can rely on using the default in the recipe. if (Equals(settingValue, currentValue)) return; } else { if (setting.TypeHint.HasValue && _typeHintCommandFactory.GetCommand(setting.TypeHint.Value) is var typeHintCommand && typeHintCommand != null) { settingValue = await typeHintCommand.Execute(recommendation, setting); } else { switch (setting.Type) { case OptionSettingValueType.String: case OptionSettingValueType.Int: case OptionSettingValueType.Double: settingValue = _consoleUtilities.AskUserForValue(string.Empty, currentValue.ToString() ?? "", allowEmpty: true, resetValue: _optionSettingHandler.GetOptionSettingDefaultValue<string>(recommendation, setting) ?? ""); break; case OptionSettingValueType.Bool: var answer = _consoleUtilities.AskYesNoQuestion(string.Empty, _optionSettingHandler.GetOptionSettingValue(recommendation, setting).ToString()); settingValue = answer == YesNo.Yes ? "true" : "false"; break; case OptionSettingValueType.KeyValue: settingValue = _consoleUtilities.AskUserForKeyValue(!string.IsNullOrEmpty(currentValue.ToString()) ? (Dictionary<string, string>) currentValue : new Dictionary<string, string>()); break; case OptionSettingValueType.List: var valueList = new SortedSet<string>(); if (!string.IsNullOrEmpty(currentValue.ToString())) valueList = ((SortedSet<string>) currentValue).DeepCopy(); settingValue = _consoleUtilities.AskUserForList(valueList); break; case OptionSettingValueType.Object: foreach (var childSetting in setting.ChildOptionSettings) { if (_optionSettingHandler.IsOptionSettingDisplayable(recommendation, childSetting) && (!recommendation.IsExistingCloudApplication \|\| childSetting.Updatable)) await ConfigureDeploymentFromCli(recommendation, childSetting); } break; default: throw new ArgumentOutOfRangeException(); } } } if (settingValue != null) { try { await _optionSettingHandler.SetOptionSettingValue(recommendation, setting, settingValue); } catch (ValidationFailedException ex) { _toolInteractiveService.WriteErrorLine(ex.Message); await ConfigureDeploymentFromCli(recommendation, setting); } } } /// <summary> /// Uses reflection to call <see cref="IOptionSettingHandler.GetOptionSettingValue{T}" /> with the Object type option setting value /// This allows to use a generic implementation to display Object type option setting values without casting the response to /// the specific TypeHintResponse type. /// </summary> private void DisplayValue(Recommendation recommendation, OptionSettingItem optionSetting, int optionSettingNumber, int optionSettingsCount, Type? typeHintResponseType, DisplayOptionSettingsMode mode) { object? displayValue = null; Dictionary<string, string>? keyValuePair = null; Dictionary<string, object>? objectValues = null; SortedSet<string>? listValues = null; if (typeHintResponseType != null) { var methodInfo = typeof(IOptionSettingHandler) .GetMethod(nameof(IOptionSettingHandler.GetOptionSettingValue), 1, new[] { typeof(Recommendation), typeof(OptionSettingItem) }); var genericMethodInfo = methodInfo?.MakeGenericMethod(typeHintResponseType); var response = genericMethodInfo?.Invoke(_optionSettingHandler, new object[] { recommendation, optionSetting }); displayValue = ((IDisplayable?)response)?.ToDisplayString(); } if (displayValue == null) { var value = _optionSettingHandler.GetOptionSettingValue(recommendation, optionSetting); objectValues = value as Dictionary<string, object>; keyValuePair = value as Dictionary<string, string>; listValues = value as SortedSet<string>; displayValue = objectValues == null && keyValuePair == null && listValues == null ? value : string.Empty; } if (mode == DisplayOptionSettingsMode.Editable) { _toolInteractiveService.WriteLine($"{optionSettingNumber.ToString().PadRight(optionSettingsCount.ToString().Length)}. {optionSetting.Name}: {displayValue}"); } else if (mode == DisplayOptionSettingsMode.Readonly) { _toolInteractiveService.WriteLine($"{optionSetting.Name}: {displayValue}"); } if (keyValuePair != null) { foreach (var (key, value) in keyValuePair) { _toolInteractiveService.WriteLine($"\t{key}: {value}"); } } if (listValues != null) { foreach (var value in listValues) { _toolInteractiveService.WriteLine($"\t{value}"); } } if (objectValues != null) { var displayableValues = new Dictionary<string, object>(); foreach (var child in optionSetting.ChildOptionSettings) { if (!objectValues.ContainsKey(child.Id)) continue; displayableValues.Add(child.Name, objectValues[child.Id]); } _consoleUtilities.DisplayValues(displayableValues, "\t"); } } } }	867
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System; using System.Collections.Generic; using System.IO; using System.Threading.Tasks; using AWS.Deploy.Common; using AWS.Deploy.Common.DeploymentManifest; using AWS.Deploy.Common.IO; using AWS.Deploy.Common.Recipes; using AWS.Deploy.Orchestration; using AWS.Deploy.Orchestration.Utilities; using AWS.Deploy.Recipes; using Newtonsoft.Json; namespace AWS.Deploy.CLI.Commands { /// <summary> /// The class supports the functionality to create a new CDK project and save it at a customer /// specified directory location. /// </summary> public class GenerateDeploymentProjectCommand { private const int DEFAULT_PERSISTED_RECIPE_PRIORITY = 1000; private readonly IToolInteractiveService _toolInteractiveService; private readonly IConsoleUtilities _consoleUtilities; private readonly ICdkProjectHandler _cdkProjectHandler; private readonly ICommandLineWrapper _commandLineWrapper; private readonly IDirectoryManager _directoryManager; private readonly IFileManager _fileManager; private readonly OrchestratorSession _session; private readonly IDeploymentManifestEngine _deploymentManifestEngine; private readonly IRecipeHandler _recipeHandler; private readonly string _targetApplicationFullPath; public GenerateDeploymentProjectCommand( IToolInteractiveService toolInteractiveService, IConsoleUtilities consoleUtilities, ICdkProjectHandler cdkProjectHandler, ICommandLineWrapper commandLineWrapper, IDirectoryManager directoryManager, IFileManager fileManager, OrchestratorSession session, IDeploymentManifestEngine deploymentManifestEngine, IRecipeHandler recipeHandler, string targetApplicationFullPath) { _toolInteractiveService = toolInteractiveService; _consoleUtilities = consoleUtilities; _cdkProjectHandler = cdkProjectHandler; _commandLineWrapper = commandLineWrapper; _directoryManager = directoryManager; _fileManager = fileManager; _session = session; _deploymentManifestEngine = deploymentManifestEngine; _recipeHandler = recipeHandler; _targetApplicationFullPath = targetApplicationFullPath; } /// <summary> /// This method takes a user specified directory path and generates the CDK deployment project at this location. /// If the provided directory path is an empty string, then a default directory is created to save the CDK deployment project. /// </summary> /// <param name="saveCdkDirectoryPath">An absolute or a relative path provided by the user.</param> /// <param name="projectDisplayName">The name of the deployment project that will be displayed in the list of available deployment options.</param> /// <returns></returns> public async Task ExecuteAsync(string saveCdkDirectoryPath, string projectDisplayName) { var orchestrator = new Orchestrator(_session, _recipeHandler); var recommendations = await GenerateRecommendationsToSaveDeploymentProject(orchestrator); var selectedRecommendation = _consoleUtilities.AskToChooseRecommendation(recommendations); if (string.IsNullOrEmpty(saveCdkDirectoryPath)) saveCdkDirectoryPath = GenerateDefaultSaveDirectoryPath(); var newDirectoryCreated = CreateSaveCdkDirectory(saveCdkDirectoryPath); var (isValid, errorMessage) = ValidateSaveCdkDirectory(saveCdkDirectoryPath); if (!isValid) { if (newDirectoryCreated) _directoryManager.Delete(saveCdkDirectoryPath); errorMessage = $"Failed to generate deployment project.{Environment.NewLine}{errorMessage}"; throw new InvalidSaveDirectoryForCdkProject(DeployToolErrorCode.InvalidSaveDirectoryForCdkProject, errorMessage.Trim()); } var directoryUnderSourceControl = await IsDirectoryUnderSourceControl(saveCdkDirectoryPath); if (!directoryUnderSourceControl) { var userPrompt = "Warning: The target directory is not being tracked by source control. If the saved deployment " + "project is used for deployment it is important that the deployment project is retained to allow " + "future redeployments to previously deployed applications. " + Environment.NewLine + Environment.NewLine + "Do you still want to continue?"; _toolInteractiveService.WriteLine(); var yesNoResult = _consoleUtilities.AskYesNoQuestion(userPrompt, YesNo.Yes); if (yesNoResult == YesNo.No) { if (newDirectoryCreated) _directoryManager.Delete(saveCdkDirectoryPath); return; } } _cdkProjectHandler.CreateCdkProject(selectedRecommendation, _session, saveCdkDirectoryPath); await GenerateDeploymentRecipeSnapShot(selectedRecommendation, saveCdkDirectoryPath, projectDisplayName); var saveCdkDirectoryFullPath = _directoryManager.GetDirectoryInfo(saveCdkDirectoryPath).FullName; _toolInteractiveService.WriteLine(); _toolInteractiveService.WriteLine($"Saving AWS CDK deployment project to: {saveCdkDirectoryFullPath}"); await _deploymentManifestEngine.UpdateDeploymentManifestFile(saveCdkDirectoryFullPath, _targetApplicationFullPath); } /// <summary> /// This method generates the appropriate recommendations for the target deployment project. /// </summary> /// <param name="orchestrator"><see cref="Orchestrator"/></param> /// <returns>A list of <see cref="Recommendation"/></returns> private async Task<List<Recommendation>> GenerateRecommendationsToSaveDeploymentProject(Orchestrator orchestrator) { var recommendations = await orchestrator.GenerateRecommendationsToSaveDeploymentProject(); if (recommendations.Count == 0) { throw new FailedToGenerateAnyRecommendations(DeployToolErrorCode.DeploymentProjectNotSupported, "The project you are trying to deploy is currently not supported."); } return recommendations; } /// <summary> /// This method takes the path to the target deployment project and creates /// a default save directory inside the parent folder of the current directory. /// For example: /// Target project directory - C:\Codebase\MyWebApp /// Generated default save directory - C:\Codebase\MyWebApp.Deployment If the save directory already exists, then a suffix number is attached. /// </summary> /// <returns>The default save directory path.</returns> private string GenerateDefaultSaveDirectoryPath() { var targetApplicationDi = _directoryManager.GetDirectoryInfo(_targetApplicationFullPath); if(targetApplicationDi.Parent == null) { throw new FailedToGenerateAnyRecommendations(DeployToolErrorCode.InvalidFilePath, $"Failed to find parent directory for directory {_targetApplicationFullPath}."); } var applicatonDirectoryFullPath = targetApplicationDi.Parent.FullName; var saveCdkDirectoryFullPath = applicatonDirectoryFullPath + ".Deployment"; var suffixNumber = 0; while (_directoryManager.Exists(saveCdkDirectoryFullPath)) saveCdkDirectoryFullPath = applicatonDirectoryFullPath + $".Deployment{++suffixNumber}"; return saveCdkDirectoryFullPath; } /// <summary> /// This method takes a path and creates a new directory at this path if one does not already exist. /// </summary> /// <param name="saveCdkDirectoryPath">Relative or absolute path of the directory at which the CDK deployment project will be saved.</param> /// <returns>A boolean to indicate if a new directory was created.</returns> private bool CreateSaveCdkDirectory(string saveCdkDirectoryPath) { var newDirectoryCreated = false; if (!_directoryManager.Exists(saveCdkDirectoryPath)) { _directoryManager.CreateDirectory(saveCdkDirectoryPath); newDirectoryCreated = true; } return newDirectoryCreated; } /// <summary> /// This method takes the path to the intended location of the CDK deployment project and performs validations on it. /// </summary> /// <param name="saveCdkDirectoryPath">Relative or absolute path of the directory at which the CDK deployment project will be saved.</param> /// <returns>A tuple containing a boolean that indicates if the directory is valid and a corresponding string error message.</returns> private Tuple<bool, string> ValidateSaveCdkDirectory(string saveCdkDirectoryPath) { var targetApplicationDi = _directoryManager.GetDirectoryInfo(_targetApplicationFullPath); if (targetApplicationDi.Parent == null) { throw new FailedToGenerateAnyRecommendations(DeployToolErrorCode.InvalidFilePath, $"Failed to find parent directory for directory {_targetApplicationFullPath}."); } var errorMessage = string.Empty; var isValid = true; var targetApplicationDirectoryFullPath = targetApplicationDi.Parent.FullName; if (!_directoryManager.IsEmpty(saveCdkDirectoryPath)) { errorMessage += "The directory specified for saving the CDK project is non-empty. " + "Please provide an empty directory path and try again." + Environment.NewLine; isValid = false; } if (_directoryManager.ExistsInsideDirectory(targetApplicationDirectoryFullPath, saveCdkDirectoryPath)) { errorMessage += "The directory used to save the CDK deployment project is contained inside of " + "the target application project directory. Please specify a different directory and try again."; isValid = false; } return new Tuple<bool, string>(isValid, errorMessage.Trim()); } /// <summary> /// Checks if the location of the saved CDK deployment project is monitored by a source control system. /// </summary> /// <param name="saveCdkDirectoryPath">Relative or absolute path of the directory at which the CDK deployment project will be saved.</param> /// <returns></returns> private async Task<bool> IsDirectoryUnderSourceControl(string saveCdkDirectoryPath) { var gitStatusResult = await _commandLineWrapper.TryRunWithResult("git status", saveCdkDirectoryPath); var svnStatusResult = await _commandLineWrapper.TryRunWithResult("svn status", saveCdkDirectoryPath); return gitStatusResult.Success \|\| svnStatusResult.Success; } /// <summary> /// Generates a snapshot of the deployment recipe inside the location at which the CDK deployment project is saved. /// </summary> /// <param name="recommendation"><see cref="Recommendation"/></param> /// <param name="saveCdkDirectoryPath">Relative or absolute path of the directory at which the CDK deployment project will be saved.</param> /// <param name="projectDisplayName">The name of the deployment project that will be displayed in the list of available deployment options.</param> private async Task GenerateDeploymentRecipeSnapShot(Recommendation recommendation, string saveCdkDirectoryPath, string projectDisplayName) { var targetApplicationDi = _directoryManager.GetDirectoryInfo(_targetApplicationFullPath); if (targetApplicationDi.Parent == null) { throw new FailedToGenerateAnyRecommendations(DeployToolErrorCode.InvalidFilePath, $"Failed to find parent directory for directory {_targetApplicationFullPath}."); } var targetApplicationDirectoryName = targetApplicationDi.Name; var recipeSnapshotFileName = _directoryManager.GetDirectoryInfo(saveCdkDirectoryPath).Name + ".recipe"; var recipeSnapshotFilePath = Path.Combine(saveCdkDirectoryPath, recipeSnapshotFileName); var recipePath = recommendation.Recipe.RecipePath; if (string.IsNullOrEmpty(recipePath)) throw new InvalidOperationException("The recipe path cannot be null or empty as part " + $"of the {nameof(recommendation.Recipe)} object"); var recipeBody = await _fileManager.ReadAllTextAsync(recipePath); var recipe = JsonConvert.DeserializeObject<RecipeDefinition>(recipeBody); if (recipe == null) throw new FailedToDeserializeException(DeployToolErrorCode.FailedToDeserializeDeploymentProjectRecipe, "Failed to deserialize deployment project recipe"); var recipeName = string.IsNullOrEmpty(projectDisplayName) ? $"Deployment project for {targetApplicationDirectoryName} to {recommendation.Recipe.TargetService}" : projectDisplayName; recipe.Id = Guid.NewGuid().ToString(); recipe.Name = recipeName; recipe.CdkProjectTemplateId = null; recipe.CdkProjectTemplate = null; recipe.PersistedDeploymentProject = true; recipe.RecipePriority = DEFAULT_PERSISTED_RECIPE_PRIORITY; recipe.BaseRecipeId = recommendation.Recipe.Id; var recipeSnapshotBody = JsonConvert.SerializeObject(recipe, new JsonSerializerSettings { Formatting = Formatting.Indented, NullValueHandling = NullValueHandling.Ignore, ContractResolver = new SerializeModelContractResolver() }); await _fileManager.WriteAllTextAsync(recipeSnapshotFilePath, recipeSnapshotBody); } } }	271
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System.Collections.Generic; using System.Threading.Tasks; using AWS.Deploy.Common.Recipes; using AWS.Deploy.Orchestration.Utilities; namespace AWS.Deploy.CLI.Commands { public class ListDeploymentsCommand { private readonly IToolInteractiveService _interactiveService; private readonly IDeployedApplicationQueryer _deployedApplicationQueryer; public ListDeploymentsCommand( IToolInteractiveService interactiveService, IDeployedApplicationQueryer deployedApplicationQueryer) { _interactiveService = interactiveService; _deployedApplicationQueryer = deployedApplicationQueryer; } public async Task ExecuteAsync() { // Add Header _interactiveService.WriteLine(); _interactiveService.WriteLine("Cloud Applications:"); _interactiveService.WriteLine("-------------------"); var deploymentTypes = new List<DeploymentTypes>(){ DeploymentTypes.CdkProject, DeploymentTypes.BeanstalkEnvironment }; var existingApplications = await _deployedApplicationQueryer.GetExistingDeployedApplications(deploymentTypes); foreach (var app in existingApplications) { _interactiveService.WriteLine(app.DisplayName); } } } }	40
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System; using System.Collections.Generic; using System.Linq; using System.Net.NetworkInformation; using System.Security.Cryptography; using System.Diagnostics; using System.Threading; using System.Threading.Tasks; using AWS.Deploy.CLI.ServerMode; using AWS.Deploy.CLI.ServerMode.Services; using AWS.Deploy.Common; using Microsoft.AspNetCore.Hosting; using Microsoft.Extensions.DependencyInjection; namespace AWS.Deploy.CLI.Commands { public class ServerModeCommand { private readonly IToolInteractiveService _interactiveService; private readonly int _port; private readonly int? _parentPid; private readonly bool _noEncryptionKeyInfo; public ServerModeCommand(IToolInteractiveService interactiveService, int port, int? parentPid, bool noEncryptionKeyInfo) { _interactiveService = interactiveService; _port = port; _parentPid = parentPid; _noEncryptionKeyInfo = noEncryptionKeyInfo; } public async Task ExecuteAsync(CancellationToken cancellationToken = default(CancellationToken)) { _interactiveService.WriteLine("Server mode allows communication between this CLI and the AWS Toolkit for Visual Studio."); IEncryptionProvider encryptionProvider = CreateEncryptionProvider(); if (IsPortInUse(_port)) throw new TcpPortInUseException(DeployToolErrorCode.TcpPortInUse, "The port you have selected is currently in use by another process."); var url = $"http://localhost:{_port}"; var builder = new WebHostBuilder() .UseKestrel() .UseUrls(url) .ConfigureServices(services => { services.AddSingleton<IEncryptionProvider>(encryptionProvider); }) .UseStartup<Startup>(); var host = builder.Build(); if (_parentPid.GetValueOrDefault() == 0) { await host.RunAsync(cancellationToken); } else { try { var process = Process.GetProcessById(_parentPid.GetValueOrDefault()); process.EnableRaisingEvents = true; process.Exited += async (sender, args) => { await ShutDownHost(host, cancellationToken); }; } catch (Exception exception) { _interactiveService.WriteDebugLine(exception.PrettyPrint()); return; } await host.RunAsync(cancellationToken); } } private async Task ShutDownHost(IWebHost host, CancellationToken cancellationToken) { _interactiveService.WriteLine(string.Empty); _interactiveService.WriteLine("The parent process is no longer running."); _interactiveService.WriteLine("Server mode is shutting down..."); await host.StopAsync(cancellationToken); } private IEncryptionProvider CreateEncryptionProvider() { IEncryptionProvider encryptionProvider; if (_noEncryptionKeyInfo) { encryptionProvider = new NoEncryptionProvider(); } else { _interactiveService.WriteLine("Waiting on symmetric key from stdin"); var input = _interactiveService.ReadLine(); var keyInfo = EncryptionKeyInfo.ParseStdInKeyInfo(input); switch(keyInfo.Version) { case EncryptionKeyInfo.VERSION_1_0: var aes = Aes.Create(); if (keyInfo.Key != null) { aes.Key = Convert.FromBase64String(keyInfo.Key); } encryptionProvider = new AesEncryptionProvider(aes); break; case null: throw new InvalidEncryptionKeyInfoException("Missing required \"Version\" property in the symmetric key"); default: throw new InvalidEncryptionKeyInfoException($"Unsupported symmetric key {keyInfo.Version}"); } _interactiveService.WriteLine("Encryption provider enabled"); } return encryptionProvider; } private bool IsPortInUse(int port) { var ipGlobalProperties = IPGlobalProperties.GetIPGlobalProperties(); var listeners = ipGlobalProperties.GetActiveTcpListeners(); return listeners.Any(x => x.Port == port); } } }	133
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System; using System.Collections.Generic; using System.Linq; using System.Threading.Tasks; namespace AWS.Deploy.CLI.Commands.CommandHandlerInput { public class DeleteCommandHandlerInput { public string? Profile { get; set; } public string? Region { get; set; } public string? ProjectPath { get; set; } public string? DeploymentName { get; set; } public bool Diagnostics { get; set; } public bool Silent { get; set; } } }	21
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System; using System.Collections.Generic; using System.Linq; using System.Threading.Tasks; namespace AWS.Deploy.CLI.Commands.CommandHandlerInput { public class DeployCommandHandlerInput { /// <summary> /// AWS credential profile used to make calls to AWS. /// </summary> public string? Profile { get; set; } /// <summary> /// AWS region to deploy the application to. For example, us-west-2. /// </summary> public string? Region { get; set; } /// <summary> /// Path to the project to deploy. /// </summary> public string? ProjectPath { get; set; } /// <summary> /// Name of the cloud application. /// </summary> public string? ApplicationName { get; set; } /// <summary> /// Path to the deployment settings file to be applied. /// </summary> public string? Apply { get; set; } /// <summary> /// Flag to enable diagnostic output. /// </summary> public bool Diagnostics { get; set; } /// <summary> /// Flag to disable interactivity to execute commands without any prompts. /// </summary> public bool Silent { get; set; } /// <summary> /// The absolute or relative path of the CDK project that will be used for deployment. /// </summary> public string? DeploymentProject { get; set; } /// <summary> /// The absolute or the relative JSON file path where the deployment settings will be saved. Only the settings modified by the user are persisted. /// </summary> public string? SaveSettings { get; set; } /// <summary> /// The absolute or the relative JSON file path where the deployment settings will be saved. All deployment settings are persisted. /// </summary> public string? SaveAllSettings { get; set; } } }	64
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 namespace AWS.Deploy.CLI.Commands.CommandHandlerInput { /// <summary> /// This class maps the command line options for the "deployment-project generate" command to the appropriate C# properties. /// </summary> public class GenerateDeploymentProjectCommandHandlerInput { public string? ProjectPath { get; set; } public bool Diagnostics { get; set; } public string Output { get; set; } = string.Empty; public string ProjectDisplayName { get; set; } = string.Empty; } }	17
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System; using System.Collections.Generic; using System.Linq; using System.Threading.Tasks; namespace AWS.Deploy.CLI.Commands.CommandHandlerInput { public class ListCommandHandlerInput { public string? Profile { get; set; } public string? Region { get; set; } public bool Diagnostics { get; set; } } }	18
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System; using System.Collections.Generic; using System.Linq; using System.Threading.Tasks; namespace AWS.Deploy.CLI.Commands.CommandHandlerInput { public class ServerModeCommandHandlerInput { public int Port { get; set; } public int ParentPid { get; set; } public bool UnsecureMode { get; set; } public bool Diagnostics { get; set; } } }	19
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System; using System.Collections.Generic; using System.Linq; using System.Threading.Tasks; using Amazon.ElasticBeanstalk.Model; using AWS.Deploy.CLI.TypeHintResponses; using AWS.Deploy.Common; using AWS.Deploy.Common.Data; using AWS.Deploy.Common.Recipes; using AWS.Deploy.Common.TypeHintData; namespace AWS.Deploy.CLI.Commands.TypeHints { public class BeanstalkApplicationCommand : ITypeHintCommand { private readonly IAWSResourceQueryer _awsResourceQueryer; private readonly IConsoleUtilities _consoleUtilities; private readonly IOptionSettingHandler _optionSettingHandler; public BeanstalkApplicationCommand(IAWSResourceQueryer awsResourceQueryer, IConsoleUtilities consoleUtilities, IOptionSettingHandler optionSettingHandler) { _awsResourceQueryer = awsResourceQueryer; _consoleUtilities = consoleUtilities; _optionSettingHandler = optionSettingHandler; } private async Task<List<ApplicationDescription>> GetData() { return await _awsResourceQueryer.ListOfElasticBeanstalkApplications(); } public async Task<TypeHintResourceTable> GetResources(Recommendation recommendation, OptionSettingItem optionSetting) { var applications = await GetData(); var resourceTable = new TypeHintResourceTable { Rows = applications.Select(x => new TypeHintResource(x.ApplicationName, x.ApplicationName)).ToList() }; return resourceTable; } public async Task<object> Execute(Recommendation recommendation, OptionSettingItem optionSetting) { var applications = await GetData(); var currentTypeHintResponse = _optionSettingHandler.GetOptionSettingValue<BeanstalkApplicationTypeHintResponse>(recommendation, optionSetting); var userInputConfiguration = new UserInputConfiguration<ApplicationDescription>( idSelector: app => app.ApplicationName, displaySelector: app => app.ApplicationName, defaultSelector: app => app.ApplicationName.Equals(currentTypeHintResponse?.ApplicationName), defaultNewName: currentTypeHintResponse?.ApplicationName ?? string.Empty) { AskNewName = true, }; var userResponse = _consoleUtilities.AskUserToChooseOrCreateNew(applications, "Select Elastic Beanstalk application to deploy to:", userInputConfiguration); var response = new BeanstalkApplicationTypeHintResponse(userResponse.CreateNew); if(userResponse.CreateNew) { response.ApplicationName = userResponse.NewName ?? throw new UserPromptForNameReturnedNullException(DeployToolErrorCode.BeanstalkAppPromptForNameReturnedNull, "The user response for a new application name was null."); } else { response.ExistingApplicationName = userResponse.SelectedOption?.ApplicationName ?? throw new UserPromptForNameReturnedNullException(DeployToolErrorCode.BeanstalkAppPromptForNameReturnedNull, "The user response existing application name was null."); } return response; } } }	79
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System.Collections.Generic; using System.Linq; using System.Threading.Tasks; using Amazon.ElasticBeanstalk.Model; using AWS.Deploy.CLI.TypeHintResponses; using AWS.Deploy.Common; using AWS.Deploy.Common.Data; using AWS.Deploy.Common.Recipes; using AWS.Deploy.Common.TypeHintData; using AWS.Deploy.Orchestration.Data; using Newtonsoft.Json; namespace AWS.Deploy.CLI.Commands.TypeHints { public class BeanstalkEnvironmentCommand : ITypeHintCommand { private readonly IAWSResourceQueryer _awsResourceQueryer; private readonly IConsoleUtilities _consoleUtilities; private readonly IOptionSettingHandler _optionSettingHandler; public BeanstalkEnvironmentCommand(IAWSResourceQueryer awsResourceQueryer, IConsoleUtilities consoleUtilities, IOptionSettingHandler optionSettingHandler) { _awsResourceQueryer = awsResourceQueryer; _consoleUtilities = consoleUtilities; _optionSettingHandler = optionSettingHandler; } private async Task<List<EnvironmentDescription>> GetData(Recommendation recommendation, OptionSettingItem optionSetting) { var applicationOptionSetting = _optionSettingHandler.GetOptionSetting(recommendation, optionSetting.ParentSettingId); var applicationName = _optionSettingHandler.GetOptionSettingValue(recommendation, applicationOptionSetting) as string; return await _awsResourceQueryer.ListOfElasticBeanstalkEnvironments(applicationName); } public async Task<TypeHintResourceTable> GetResources(Recommendation recommendation, OptionSettingItem optionSetting) { var environments = await GetData(recommendation, optionSetting); var resourceTable = new TypeHintResourceTable { Rows = environments.Select(x => new TypeHintResource(x.EnvironmentName, x.EnvironmentName)).ToList() }; return resourceTable; } public async Task<object> Execute(Recommendation recommendation, OptionSettingItem optionSetting) { var environments = await GetData(recommendation, optionSetting); var currentTypeHintResponse = _optionSettingHandler.GetOptionSettingValue<BeanstalkEnvironmentTypeHintResponse>(recommendation, optionSetting); var userInputConfiguration = new UserInputConfiguration<EnvironmentDescription>( idSelector: env => env.EnvironmentName, displaySelector: env => env.EnvironmentName, defaultSelector: app => app.EnvironmentName.Equals(currentTypeHintResponse?.EnvironmentName), defaultNewName: currentTypeHintResponse?.EnvironmentName ?? string.Empty) { AskNewName = true, }; var userResponse = _consoleUtilities.AskUserToChooseOrCreateNew(environments, "Select Elastic Beanstalk environment to deploy to:", userInputConfiguration); return new BeanstalkEnvironmentTypeHintResponse( userResponse.CreateNew, userResponse.SelectedOption?.EnvironmentName ?? userResponse.NewName ?? throw new UserPromptForNameReturnedNullException(DeployToolErrorCode.BeanstalkAppPromptForNameReturnedNull, "The user response for a new environment name was null.") ); } } }	74
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System.Collections.Generic; using System.Threading.Tasks; using AWS.Deploy.Common; using AWS.Deploy.Common.Recipes; using AWS.Deploy.Common.Recipes.Validation; using AWS.Deploy.Common.TypeHintData; namespace AWS.Deploy.CLI.Commands.TypeHints { public class DockerBuildArgsCommand : ITypeHintCommand { private readonly IConsoleUtilities _consoleUtilities; private readonly IOptionSettingHandler _optionSettingHandler; public DockerBuildArgsCommand(IConsoleUtilities consoleUtilities, IOptionSettingHandler optionSettingHandler) { _consoleUtilities = consoleUtilities; _optionSettingHandler = optionSettingHandler; } public Task<TypeHintResourceTable> GetResources(Recommendation recommendation, OptionSettingItem optionSetting) => Task.FromResult(new TypeHintResourceTable()); public Task<object> Execute(Recommendation recommendation, OptionSettingItem optionSetting) { var settingValue = _consoleUtilities .AskUserForValue( string.Empty, _optionSettingHandler.GetOptionSettingValue<string>(recommendation, optionSetting) ?? string.Empty, allowEmpty: true, resetValue: _optionSettingHandler.GetOptionSettingDefaultValue<string>(recommendation, optionSetting) ?? "", validators: async buildArgs => await ValidateBuildArgs(buildArgs, recommendation, optionSetting)) .ToString() .Replace("\"", "\"\""); recommendation.DeploymentBundle.DockerBuildArgs = settingValue; return Task.FromResult<object>(settingValue); } private async Task<string> ValidateBuildArgs(string buildArgs, Recommendation recommendation, OptionSettingItem optionSettingItem) { var validationResult = await new DockerBuildArgsValidator().Validate(buildArgs, recommendation, optionSettingItem); if (validationResult.IsValid) { return string.Empty; } else { return validationResult.ValidationFailedMessage ?? "Invalid value for additional Docker build options."; } } } }	57
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System.Collections.Generic; using System.IO; using System.Threading.Tasks; using AWS.Deploy.Common; using AWS.Deploy.Common.IO; using AWS.Deploy.Common.Recipes; using AWS.Deploy.Common.Recipes.Validation; using AWS.Deploy.Common.TypeHintData; namespace AWS.Deploy.CLI.Commands.TypeHints { public class DockerExecutionDirectoryCommand : ITypeHintCommand { private readonly IConsoleUtilities _consoleUtilities; private readonly IDirectoryManager _directoryManager; private readonly IOptionSettingHandler _optionSettingHandler; public DockerExecutionDirectoryCommand(IConsoleUtilities consoleUtilities, IDirectoryManager directoryManager, IOptionSettingHandler optionSettingHandler) { _consoleUtilities = consoleUtilities; _directoryManager = directoryManager; _optionSettingHandler = optionSettingHandler; } public Task<TypeHintResourceTable> GetResources(Recommendation recommendation, OptionSettingItem optionSetting) => Task.FromResult(new TypeHintResourceTable()); public Task<object> Execute(Recommendation recommendation, OptionSettingItem optionSetting) { var settingValue = _consoleUtilities .AskUserForValue( string.Empty, _optionSettingHandler.GetOptionSettingValue<string>(recommendation, optionSetting) ?? string.Empty, allowEmpty: true, resetValue: _optionSettingHandler.GetOptionSettingDefaultValue<string>(recommendation, optionSetting) ?? "", validators: async executionDirectory => await ValidateExecutionDirectory(executionDirectory, recommendation, optionSetting)); recommendation.DeploymentBundle.DockerExecutionDirectory = settingValue; return Task.FromResult<object>(settingValue); } /// <summary> /// Validates that the Docker execution directory exists as either an /// absolute path or a path relative to the project directory. /// </summary> /// <param name="executionDirectory">Proposed Docker execution directory</param> /// <param name="recommendation">The selected recommendation settings used for deployment</param> /// <param name="optionSettingItem">The selected option setting item</param> /// <returns>Empty string if the directory is valid, an error message if not</returns> private async Task<string> ValidateExecutionDirectory(string executionDirectory, Recommendation recommendation, OptionSettingItem optionSettingItem) { var validationResult = await new DirectoryExistsValidator(_directoryManager).Validate(executionDirectory, recommendation, optionSettingItem); if (validationResult.IsValid) { return string.Empty; } else { // Override the generic ValidationResultMessage with one about the the Docker execution directory return "The directory specified for Docker execution does not exist."; } } } }	67
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System.Collections.Generic; using System.Linq; using System.Threading.Tasks; using Amazon.ElasticBeanstalk.Model; using AWS.Deploy.Common; using AWS.Deploy.Common.Data; using AWS.Deploy.Common.Recipes; using AWS.Deploy.Common.TypeHintData; using AWS.Deploy.Orchestration; using AWS.Deploy.Orchestration.Data; using Newtonsoft.Json; namespace AWS.Deploy.CLI.Commands.TypeHints { public class DotnetBeanstalkPlatformArnCommand : ITypeHintCommand { private readonly IAWSResourceQueryer _awsResourceQueryer; private readonly IConsoleUtilities _consoleUtilities; private readonly IOptionSettingHandler _optionSettingHandler; public DotnetBeanstalkPlatformArnCommand(IAWSResourceQueryer awsResourceQueryer, IConsoleUtilities consoleUtilities, IOptionSettingHandler optionSettingHandler) { _awsResourceQueryer = awsResourceQueryer; _consoleUtilities = consoleUtilities; _optionSettingHandler = optionSettingHandler; } private async Task<List<PlatformSummary>> GetData() { return await _awsResourceQueryer.GetElasticBeanstalkPlatformArns(BeanstalkPlatformType.Linux); } public async Task<TypeHintResourceTable> GetResources(Recommendation recommendation, OptionSettingItem optionSetting) { var platformArns = await GetData(); var resourceTable = new TypeHintResourceTable { Columns = new List<TypeHintResourceColumn>() { new TypeHintResourceColumn("Platform Branch"), new TypeHintResourceColumn("Platform Version") } }; foreach (var platformArn in platformArns) { var row = new TypeHintResource(platformArn.PlatformArn, $"{platformArn.PlatformBranchName} v{platformArn.PlatformVersion}"); row.ColumnValues.Add(platformArn.PlatformBranchName); row.ColumnValues.Add(platformArn.PlatformVersion); resourceTable.Rows.Add(row); } return resourceTable; } public async Task<object> Execute(Recommendation recommendation, OptionSettingItem optionSetting) { var currentValue = _optionSettingHandler.GetOptionSettingValue(recommendation, optionSetting); var resourceTable = await GetResources(recommendation, optionSetting); var userInputConfiguration = new UserInputConfiguration<TypeHintResource>( idSelector: platform => platform.SystemName, displaySelector: platform => platform.DisplayName, defaultSelector: platform => platform.SystemName.Equals(currentValue)) { CreateNew = false }; var userResponse = _consoleUtilities.AskUserToChooseOrCreateNew(resourceTable.Rows, "Select the Platform to use:", userInputConfiguration); return userResponse.SelectedOption?.SystemName!; } } }	80
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System.Collections.Generic; using System.Threading.Tasks; using AWS.Deploy.Common; using AWS.Deploy.Common.Recipes; using AWS.Deploy.Common.Recipes.Validation; using AWS.Deploy.Common.TypeHintData; namespace AWS.Deploy.CLI.Commands.TypeHints { public class DotnetPublishArgsCommand : ITypeHintCommand { private readonly IConsoleUtilities _consoleUtilities; private readonly IOptionSettingHandler _optionSettingHandler; public DotnetPublishArgsCommand(IConsoleUtilities consoleUtilities, IOptionSettingHandler optionSettingHandler) { _consoleUtilities = consoleUtilities; _optionSettingHandler = optionSettingHandler; } public Task<TypeHintResourceTable> GetResources(Recommendation recommendation, OptionSettingItem optionSetting) => Task.FromResult(new TypeHintResourceTable()); public Task<object> Execute(Recommendation recommendation, OptionSettingItem optionSetting) { var settingValue = _consoleUtilities .AskUserForValue( string.Empty, _optionSettingHandler.GetOptionSettingValue<string>(recommendation, optionSetting) ?? string.Empty, allowEmpty: true, resetValue: _optionSettingHandler.GetOptionSettingDefaultValue<string>(recommendation, optionSetting) ?? "", validators: async publishArgs => await ValidateDotnetPublishArgs(publishArgs, recommendation, optionSetting)) .ToString() .Replace("\"", "\"\""); recommendation.DeploymentBundle.DotnetPublishAdditionalBuildArguments = settingValue; return Task.FromResult<object>(settingValue); } private async Task<string> ValidateDotnetPublishArgs(string publishArgs, Recommendation recommendation, OptionSettingItem optionSettingItem) { var validationResult = await new DotnetPublishArgsValidator().Validate(publishArgs, recommendation, optionSettingItem); if (validationResult.IsValid) { return string.Empty; } else { return validationResult.ValidationFailedMessage ?? "Invalid value for Dotnet Publish Arguments."; } } } }	58
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System.Collections.Generic; using System.Threading.Tasks; using AWS.Deploy.Common; using AWS.Deploy.Common.Recipes; using AWS.Deploy.Common.TypeHintData; namespace AWS.Deploy.CLI.Commands.TypeHints { public class DotnetPublishBuildConfigurationCommand : ITypeHintCommand { private readonly IConsoleUtilities _consoleUtilities; private readonly IOptionSettingHandler _optionSettingHandler; public DotnetPublishBuildConfigurationCommand(IConsoleUtilities consoleUtilities, IOptionSettingHandler optionSettingHandler) { _consoleUtilities = consoleUtilities; _optionSettingHandler = optionSettingHandler; } public Task<TypeHintResourceTable> GetResources(Recommendation recommendation, OptionSettingItem optionSetting) => Task.FromResult(new TypeHintResourceTable()); public Task<object> Execute(Recommendation recommendation, OptionSettingItem optionSetting) { var settingValue = _consoleUtilities.AskUserForValue( string.Empty, _optionSettingHandler.GetOptionSettingValue<string>(recommendation, optionSetting) ?? string.Empty, allowEmpty: false, resetValue: _optionSettingHandler.GetOptionSettingDefaultValue<string>(recommendation, optionSetting) ?? ""); recommendation.DeploymentBundle.DotnetPublishBuildConfiguration = settingValue; return Task.FromResult<object>(settingValue); } } }	37
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System.Collections.Generic; using System.Threading.Tasks; using AWS.Deploy.Common; using AWS.Deploy.Common.Recipes; using AWS.Deploy.Common.TypeHintData; namespace AWS.Deploy.CLI.Commands.TypeHints { public class DotnetPublishSelfContainedBuildCommand : ITypeHintCommand { private readonly IConsoleUtilities _consoleUtilities; private readonly IOptionSettingHandler _optionSettingHandler; public DotnetPublishSelfContainedBuildCommand(IConsoleUtilities consoleUtilities, IOptionSettingHandler optionSettingHandler) { _consoleUtilities = consoleUtilities; _optionSettingHandler = optionSettingHandler; } public Task<TypeHintResourceTable> GetResources(Recommendation recommendation, OptionSettingItem optionSetting) => Task.FromResult(new TypeHintResourceTable()); public Task<object> Execute(Recommendation recommendation, OptionSettingItem optionSetting) { var answer = _consoleUtilities.AskYesNoQuestion(string.Empty, _optionSettingHandler.GetOptionSettingValue<string>(recommendation, optionSetting)); recommendation.DeploymentBundle.DotnetPublishSelfContainedBuild = answer == YesNo.Yes; var result = answer == YesNo.Yes ? "true" : "false"; return Task.FromResult<object>(result); } } }	34
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System.Collections.Generic; using System.Linq; using System.Threading.Tasks; using Amazon.ElasticBeanstalk.Model; using AWS.Deploy.Common; using AWS.Deploy.Common.Data; using AWS.Deploy.Common.Recipes; using AWS.Deploy.Common.TypeHintData; using AWS.Deploy.Orchestration; using AWS.Deploy.Orchestration.Data; using Newtonsoft.Json; namespace AWS.Deploy.CLI.Commands.TypeHints { public class DotnetWindowsBeanstalkPlatformArnCommand : ITypeHintCommand { private readonly IAWSResourceQueryer _awsResourceQueryer; private readonly IConsoleUtilities _consoleUtilities; private readonly IOptionSettingHandler _optionSettingHandler; public DotnetWindowsBeanstalkPlatformArnCommand(IAWSResourceQueryer awsResourceQueryer, IConsoleUtilities consoleUtilities, IOptionSettingHandler optionSettingHandler) { _awsResourceQueryer = awsResourceQueryer; _consoleUtilities = consoleUtilities; _optionSettingHandler = optionSettingHandler; } private async Task<List<PlatformSummary>> GetData() { return await _awsResourceQueryer.GetElasticBeanstalkPlatformArns(BeanstalkPlatformType.Windows); } public async Task<TypeHintResourceTable> GetResources(Recommendation recommendation, OptionSettingItem optionSetting) { var platformArns = await GetData(); var resourceTable = new TypeHintResourceTable { Columns = new List<TypeHintResourceColumn>() { new TypeHintResourceColumn("Platform Branch"), new TypeHintResourceColumn("Platform Version") } }; foreach (var platformArn in platformArns) { var row = new TypeHintResource(platformArn.PlatformArn, $"{platformArn.PlatformBranchName} v{platformArn.PlatformVersion}"); row.ColumnValues.Add(platformArn.PlatformBranchName); row.ColumnValues.Add(platformArn.PlatformVersion); resourceTable.Rows.Add(row); } return resourceTable; } public async Task<object> Execute(Recommendation recommendation, OptionSettingItem optionSetting) { var currentValue = _optionSettingHandler.GetOptionSettingValue(recommendation, optionSetting); var resourceTable = await GetResources(recommendation, optionSetting); var userInputConfiguration = new UserInputConfiguration<TypeHintResource>( idSelector: platform => platform.SystemName, displaySelector: platform => platform.DisplayName, defaultSelector: platform => platform.SystemName.Equals(currentValue)) { CreateNew = false }; var userResponse = _consoleUtilities.AskUserToChooseOrCreateNew(resourceTable.Rows, "Select the Platform to use:", userInputConfiguration); return userResponse.SelectedOption?.SystemName!; } } }	80
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System; using System.Collections.Generic; using System.Linq; using System.Threading.Tasks; using AWS.Deploy.Common; using AWS.Deploy.Common.Data; using AWS.Deploy.Common.Recipes; using AWS.Deploy.Common.TypeHintData; using AWS.Deploy.Orchestration.Data; namespace AWS.Deploy.CLI.Commands.TypeHints { public class DynamoDBTableCommand : ITypeHintCommand { private readonly IAWSResourceQueryer _awsResourceQueryer; private readonly IConsoleUtilities _consoleUtilities; private readonly IOptionSettingHandler _optionSettingHandler; public DynamoDBTableCommand(IAWSResourceQueryer awsResourceQueryer, IConsoleUtilities consoleUtilities, IOptionSettingHandler optionSettingHandler) { _awsResourceQueryer = awsResourceQueryer; _consoleUtilities = consoleUtilities; _optionSettingHandler = optionSettingHandler; } private async Task<List<string>> GetData() { return await _awsResourceQueryer.ListOfDyanmoDBTables(); } public async Task<TypeHintResourceTable> GetResources(Recommendation recommendation, OptionSettingItem optionSetting) { var tables = await GetData(); var resourceTable = new TypeHintResourceTable { Rows = tables.Select(tableName => new TypeHintResource(tableName, tableName)).ToList() }; return resourceTable; } public async Task<object> Execute(Recommendation recommendation, OptionSettingItem optionSetting) { const string NO_VALUE = "* Do not select table *"; var currentValue = _optionSettingHandler.GetOptionSettingValue(recommendation, optionSetting); var typeHintData = optionSetting.GetTypeHintData<DynamoDBTableTypeHintData>(); var tables = await GetData(); if (typeHintData?.AllowNoValue ?? false) tables.Add(NO_VALUE); var userResponse = _consoleUtilities.AskUserToChoose( values: tables, title: "Select a DynamoDB table:", defaultValue: currentValue.ToString() ?? ""); return userResponse == null \|\| string.Equals(NO_VALUE, userResponse, StringComparison.InvariantCultureIgnoreCase) ? string.Empty : userResponse; } } }	65
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System.Collections.Generic; using System.Linq; using System.Threading.Tasks; using Amazon.EC2.Model; using Amazon.ElasticBeanstalk.Model; using AWS.Deploy.Common; using AWS.Deploy.Common.Data; using AWS.Deploy.Common.Recipes; using AWS.Deploy.Common.TypeHintData; using AWS.Deploy.Orchestration.Data; using Newtonsoft.Json; using YamlDotNet.Core.Tokens; namespace AWS.Deploy.CLI.Commands.TypeHints { public class EC2KeyPairCommand : ITypeHintCommand { private readonly IToolInteractiveService _toolInteractiveService; private readonly IAWSResourceQueryer _awsResourceQueryer; private readonly IConsoleUtilities _consoleUtilities; private readonly IOptionSettingHandler _optionSettingHandler; public EC2KeyPairCommand(IToolInteractiveService toolInteractiveService, IAWSResourceQueryer awsResourceQueryer, IConsoleUtilities consoleUtilities, IOptionSettingHandler optionSettingHandler) { _toolInteractiveService = toolInteractiveService; _awsResourceQueryer = awsResourceQueryer; _consoleUtilities = consoleUtilities; _optionSettingHandler = optionSettingHandler; } private async Task<List<KeyPairInfo>> GetData() { return await _awsResourceQueryer.ListOfEC2KeyPairs(); } public async Task<TypeHintResourceTable> GetResources(Recommendation recommendation, OptionSettingItem optionSetting) { var keyPairs = await GetData(); var resourceTable = new TypeHintResourceTable { Rows = keyPairs.Select(x => new TypeHintResource(x.KeyName, x.KeyName)).ToList() }; return resourceTable; } public async Task<object> Execute(Recommendation recommendation, OptionSettingItem optionSetting) { var currentValue = _optionSettingHandler.GetOptionSettingValue(recommendation, optionSetting); var keyPairs = await GetData(); var userInputConfiguration = new UserInputConfiguration<KeyPairInfo>( idSelector: kp => kp.KeyName, displaySelector: kp => kp.KeyName, defaultSelector: kp => kp.KeyName.Equals(currentValue) ) { AskNewName = true, EmptyOption = true, CurrentValue = currentValue }; var settingValue = ""; while (true) { var userResponse = _consoleUtilities.AskUserToChooseOrCreateNew(keyPairs, "Select key pair to use:", userInputConfiguration); if (userResponse.IsEmpty) { settingValue = ""; break; } else { settingValue = userResponse.SelectedOption?.KeyName ?? userResponse.NewName ?? throw new UserPromptForNameReturnedNullException(DeployToolErrorCode.EC2KeyPairPromptForNameReturnedNull, "The user prompt for a new EC2 Key Pair name was null or empty."); } if (userResponse.CreateNew && !string.IsNullOrEmpty(userResponse.NewName)) { _toolInteractiveService.WriteLine(string.Empty); _toolInteractiveService.WriteLine("You have chosen to create a new key pair."); _toolInteractiveService.WriteLine("You are required to specify a directory to save the key pair private key."); var answer = _consoleUtilities.AskYesNoQuestion("Do you want to continue?", "false"); if (answer == YesNo.No) continue; _toolInteractiveService.WriteLine(string.Empty); _toolInteractiveService.WriteLine($"A new key pair will be created with the name {settingValue}."); var keyPairDirectory = _consoleUtilities.AskForEC2KeyPairSaveDirectory(recommendation.ProjectPath); await _awsResourceQueryer.CreateEC2KeyPair(settingValue, keyPairDirectory); } break; } return settingValue ?? ""; } } }	109
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System.Collections.Generic; using System.Linq; using System.Threading.Tasks; using Amazon.ECR.Model; using AWS.Deploy.Common; using AWS.Deploy.Common.Data; using AWS.Deploy.Common.Recipes; using AWS.Deploy.Common.TypeHintData; using AWS.Deploy.Orchestration.Data; using Recommendation = AWS.Deploy.Common.Recommendation; namespace AWS.Deploy.CLI.Commands.TypeHints { public class ECRRepositoryCommand : ITypeHintCommand { private readonly IAWSResourceQueryer _awsResourceQueryer; private readonly IConsoleUtilities _consoleUtilities; private readonly IToolInteractiveService _toolInteractiveService; private readonly IOptionSettingHandler _optionSettingHandler; public ECRRepositoryCommand(IAWSResourceQueryer awsResourceQueryer, IConsoleUtilities consoleUtilities, IToolInteractiveService toolInteractiveService, IOptionSettingHandler optionSettingHandler) { _awsResourceQueryer = awsResourceQueryer; _consoleUtilities = consoleUtilities; _toolInteractiveService = toolInteractiveService; _optionSettingHandler = optionSettingHandler; } public async Task<object> Execute(Recommendation recommendation, OptionSettingItem optionSetting) { var repositories = await GetData(); var currentRepositoryName = _optionSettingHandler.GetOptionSettingValue<string>(recommendation, optionSetting); var userInputConfiguration = new UserInputConfiguration<Repository>( idSelector: rep => rep.RepositoryName, displaySelector: rep => rep.RepositoryName, defaultSelector: rep => rep.RepositoryName.Equals(currentRepositoryName), defaultNewName: currentRepositoryName ?? string.Empty) { AskNewName = true, }; var userResponse = _consoleUtilities.AskUserToChooseOrCreateNew(repositories, "Select ECR Repository:", userInputConfiguration); if (!string.IsNullOrEmpty(userResponse.NewName) && repositories.Any(x => x.RepositoryName.Equals(userResponse.NewName))) { _toolInteractiveService.WriteErrorLine($"The ECR repository {userResponse.NewName} already exists."); return await Execute(recommendation, optionSetting); } return userResponse.SelectedOption?.RepositoryName ?? userResponse.NewName ?? throw new UserPromptForNameReturnedNullException(DeployToolErrorCode.ECRRepositoryPromptForNameReturnedNull, "The user response for an ECR Repository was null"); } public async Task<TypeHintResourceTable> GetResources(Recommendation recommendation, OptionSettingItem optionSetting) { var repositories = await GetData(); var resourceTable = new TypeHintResourceTable { Rows = repositories.Select(x => new TypeHintResource(x.RepositoryName, x.RepositoryName)).ToList() }; return resourceTable; } private async Task<List<Repository>> GetData() { return await _awsResourceQueryer.GetECRRepositories(); } } }	75
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System.Collections.Generic; using System.Linq; using System.Threading.Tasks; using Amazon.ECS.Model; using Amazon.ElasticBeanstalk.Model; using AWS.Deploy.CLI.TypeHintResponses; using AWS.Deploy.Common; using AWS.Deploy.Common.Data; using AWS.Deploy.Common.Recipes; using AWS.Deploy.Common.TypeHintData; using AWS.Deploy.Orchestration.Data; using Newtonsoft.Json; namespace AWS.Deploy.CLI.Commands.TypeHints { public class ECSClusterCommand : ITypeHintCommand { private readonly IAWSResourceQueryer _awsResourceQueryer; private readonly IConsoleUtilities _consoleUtilities; private readonly IOptionSettingHandler _optionSettingHandler; public ECSClusterCommand(IAWSResourceQueryer awsResourceQueryer, IConsoleUtilities consoleUtilities, IOptionSettingHandler optionSettingHandler) { _awsResourceQueryer = awsResourceQueryer; _consoleUtilities = consoleUtilities; _optionSettingHandler = optionSettingHandler; } private async Task<List<Cluster>> GetData() { return await _awsResourceQueryer.ListOfECSClusters(); } public async Task<TypeHintResourceTable> GetResources(Recommendation recommendation, OptionSettingItem optionSetting) { var clusters = await GetData(); var resourceTable = new TypeHintResourceTable { Rows = clusters.Select(x => new TypeHintResource(x.ClusterArn, x.ClusterName)).ToList() }; return resourceTable; } public async Task<object> Execute(Recommendation recommendation, OptionSettingItem optionSetting) { var clusters = await GetData(); var currentTypeHintResponse = _optionSettingHandler.GetOptionSettingValue<ECSClusterTypeHintResponse>(recommendation, optionSetting); var userInputConfiguration = new UserInputConfiguration<Cluster>( idSelector: cluster => cluster.ClusterArn, displaySelector: cluster => cluster.ClusterName, defaultSelector: cluster => cluster.ClusterArn.Equals(currentTypeHintResponse?.ClusterArn), defaultNewName: currentTypeHintResponse?.NewClusterName ?? string.Empty) { AskNewName = true }; var userResponse = _consoleUtilities.AskUserToChooseOrCreateNew(clusters, "Select ECS cluster to deploy to:", userInputConfiguration); return new ECSClusterTypeHintResponse( userResponse.CreateNew, userResponse.SelectedOption?.ClusterArn ?? string.Empty, userResponse.NewName ?? string.Empty); } } }	72
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System.Collections.Generic; using System.Linq; using System.Threading.Tasks; using Amazon.EC2.Model; using Amazon.ECS.Model; using AWS.Deploy.CLI.Extensions; using AWS.Deploy.CLI.TypeHintResponses; using AWS.Deploy.Common; using AWS.Deploy.Common.Data; using AWS.Deploy.Common.Recipes; using AWS.Deploy.Common.TypeHintData; using AWS.Deploy.Orchestration; using AWS.Deploy.Orchestration.Data; using Newtonsoft.Json; namespace AWS.Deploy.CLI.Commands.TypeHints { /// <summary> /// The <see cref="ElasticBeanstalkVpcCommand"/> type hint orchestrates the VPC object in Elastic Beanstalk environments. /// </summary> public class ElasticBeanstalkVpcCommand : ITypeHintCommand { private readonly IAWSResourceQueryer _awsResourceQueryer; private readonly IConsoleUtilities _consoleUtilities; private readonly IToolInteractiveService _toolInteractiveService; private readonly IOptionSettingHandler _optionSettingHandler; public ElasticBeanstalkVpcCommand(IAWSResourceQueryer awsResourceQueryer, IConsoleUtilities consoleUtilities, IToolInteractiveService toolInteractiveService, IOptionSettingHandler optionSettingHandler) { _awsResourceQueryer = awsResourceQueryer; _consoleUtilities = consoleUtilities; _toolInteractiveService = toolInteractiveService; _optionSettingHandler = optionSettingHandler; } private async Task<List<Vpc>> GetData() { return await _awsResourceQueryer.GetListOfVpcs(); } public async Task<TypeHintResourceTable> GetResources(Recommendation recommendation, OptionSettingItem optionSetting) { var vpcs = await GetData(); var resourceTable = new TypeHintResourceTable(); resourceTable.Rows = vpcs.ToDictionary(x => x.VpcId, x => x.GetDisplayableVpc()).Select(x => new TypeHintResource(x.Key, x.Value)).ToList(); return resourceTable; } public async Task<object> Execute(Recommendation recommendation, OptionSettingItem optionSetting) { _toolInteractiveService.WriteLine(); // Ask user if they want to Use a VPC var useVpcOptionSetting = optionSetting.ChildOptionSettings.First(x => x.Id.Equals("UseVPC")); var useVpcValue = _optionSettingHandler.GetOptionSettingValue<string>(recommendation, useVpcOptionSetting) ?? "false"; var useVpcAnswer = _consoleUtilities.AskYesNoQuestion(useVpcOptionSetting.Description, useVpcValue); var useVpc = useVpcAnswer == YesNo.Yes; // If user doesn't want to Use VPC, no need to continue if (!useVpc) return new ElasticBeanstalkVpcTypeHintResponse() { UseVPC = false }; // Retrieve all the available VPCs var vpcs = await GetData(); // If there are no VPCs, create a new one if (!vpcs.Any()) { _toolInteractiveService.WriteLine(); _toolInteractiveService.WriteLine("There are no VPCs in the selected account. The only option is to create a new one."); return new ElasticBeanstalkVpcTypeHintResponse { UseVPC = true, CreateNew = true }; } // Ask user to select a VPC from the available ones _toolInteractiveService.WriteLine(); var currentVpcTypeHintResponse = optionSetting.GetTypeHintData<ElasticBeanstalkVpcTypeHintResponse>(); var vpcOptionSetting = optionSetting.ChildOptionSettings.First(x => x.Id.Equals("VpcId")); var currentVpcValue = _optionSettingHandler.GetOptionSettingValue(recommendation, vpcOptionSetting).ToString(); var userInputConfigurationVPCs = new UserInputConfiguration<Vpc>( idSelector: vpc => vpc.VpcId, displaySelector: vpc => vpc.GetDisplayableVpc(), defaultSelector: vpc => !string.IsNullOrEmpty(currentVpcTypeHintResponse?.VpcId) ? vpc.VpcId == currentVpcTypeHintResponse.VpcId : vpc.IsDefault) { CanBeEmpty = false, CreateNew = true }; var vpc = _consoleUtilities.AskUserToChooseOrCreateNew<Vpc>(vpcs, "Select a VPC:", userInputConfigurationVPCs); // Create a new VPC if the user wants to do that if (vpc.CreateNew) return new ElasticBeanstalkVpcTypeHintResponse { UseVPC = true, CreateNew = true }; // If for some reason an option was not selected, don't use a VPC if (vpc.SelectedOption == null) return new ElasticBeanstalkVpcTypeHintResponse { UseVPC = false }; // Retrieve available Subnets based on the selected VPC var availableSubnets = (await _awsResourceQueryer.DescribeSubnets(vpc.SelectedOption.VpcId)).OrderBy(x => x.SubnetId).ToList(); // If there are no subnets, don't use a VPC if (!availableSubnets.Any()) { _toolInteractiveService.WriteLine(); _toolInteractiveService.WriteLine("The selected VPC does not have any Subnets. Please select a VPC with Subnets."); return new ElasticBeanstalkVpcTypeHintResponse { UseVPC = false }; } // Ask user to select subnets based on the selected VPC var userInputConfigurationSubnets = new UserInputConfiguration<Subnet>( idSelector: subnet => subnet.SubnetId, displaySelector: subnet => $"{subnet.SubnetId.PadRight(24)} \| {subnet.VpcId.PadRight(21)} \| {subnet.AvailabilityZone}", defaultSelector: subnet => false) { CanBeEmpty = false, CreateNew = false }; var subnetsOptionSetting = optionSetting.ChildOptionSettings.First(x => x.Id.Equals("Subnets")); _toolInteractiveService.WriteLine($"{subnetsOptionSetting.Id}:"); _toolInteractiveService.WriteLine(subnetsOptionSetting.Description); var subnets = _consoleUtilities.AskUserForList<Subnet>(userInputConfigurationSubnets, availableSubnets, subnetsOptionSetting, recommendation); // Retrieve available security groups based on the selected VPC var availableSecurityGroups = (await _awsResourceQueryer.DescribeSecurityGroups(vpc.SelectedOption.VpcId)).OrderBy(x => x.VpcId).ToList(); if (!availableSecurityGroups.Any()) return new ElasticBeanstalkVpcTypeHintResponse { UseVPC = true, CreateNew = false, VpcId = vpc.SelectedOption.VpcId, Subnets = subnets }; // Get the length of the longest group name to do padding when displaying the security groups var groupNamePadding = 0; availableSecurityGroups.ForEach(x => { if (x.GroupName.Length > groupNamePadding) groupNamePadding = x.GroupName.Length; }); // Ask user to select security groups var userInputConfigurationSecurityGroups = new UserInputConfiguration<SecurityGroup>( idSelector: securityGroup => securityGroup.GroupId, displaySelector: securityGroup => $"{securityGroup.GroupName.PadRight(groupNamePadding)} \| {securityGroup.GroupId.PadRight(20)} \| {securityGroup.VpcId}", defaultSelector: securityGroup => false) { CanBeEmpty = false, CreateNew = false }; var securityGroupsOptionSetting = optionSetting.ChildOptionSettings.First(x => x.Id.Equals("SecurityGroups")); _toolInteractiveService.WriteLine($"{securityGroupsOptionSetting.Id}:"); _toolInteractiveService.WriteLine(securityGroupsOptionSetting.Description); var securityGroups = _consoleUtilities.AskUserForList<SecurityGroup>(userInputConfigurationSecurityGroups, availableSecurityGroups, securityGroupsOptionSetting, recommendation); return new ElasticBeanstalkVpcTypeHintResponse { UseVPC = true, CreateNew = false, VpcId = vpc.SelectedOption.VpcId, Subnets = subnets, SecurityGroups = securityGroups }; } } }	191
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System.Collections.Generic; using System.Linq; using System.Threading.Tasks; using Amazon.ECS.Model; using Amazon.ElasticLoadBalancingV2; using AWS.Deploy.CLI.TypeHintResponses; using AWS.Deploy.Common; using AWS.Deploy.Common.Data; using AWS.Deploy.Common.Recipes; using AWS.Deploy.Common.TypeHintData; using AWS.Deploy.Orchestration.Data; using Newtonsoft.Json; using LoadBalancer = Amazon.ElasticLoadBalancingV2.Model.LoadBalancer; namespace AWS.Deploy.CLI.Commands.TypeHints { public class ExistingApplicationLoadBalancerCommand : ITypeHintCommand { private readonly IAWSResourceQueryer _awsResourceQueryer; private readonly IConsoleUtilities _consoleUtilities; private readonly IOptionSettingHandler _optionSettingHandler; public ExistingApplicationLoadBalancerCommand(IAWSResourceQueryer awsResourceQueryer, IConsoleUtilities consoleUtilities, IOptionSettingHandler optionSettingHandler) { _awsResourceQueryer = awsResourceQueryer; _consoleUtilities = consoleUtilities; _optionSettingHandler = optionSettingHandler; } private async Task<List<LoadBalancer>> GetData() { return await _awsResourceQueryer.ListOfLoadBalancers(LoadBalancerTypeEnum.Application); } public async Task<TypeHintResourceTable> GetResources(Recommendation recommendation, OptionSettingItem optionSetting) { var loadBalancers = await GetData(); var resourceTable = new TypeHintResourceTable() { Rows = loadBalancers.Select(x => new TypeHintResource(x.LoadBalancerArn, x.LoadBalancerName)).ToList() }; return resourceTable; } public async Task<object> Execute(Recommendation recommendation, OptionSettingItem optionSetting) { var loadBalancers = await GetData(); var currentValue = _optionSettingHandler.GetOptionSettingValue<string>(recommendation, optionSetting); var userInputConfiguration = new UserInputConfiguration<LoadBalancer>( idSelector: loadBalancer => loadBalancer.LoadBalancerArn, displaySelector: loadBalancer => loadBalancer.LoadBalancerName, defaultSelector: loadBalancer => loadBalancer.LoadBalancerArn.Equals(currentValue)) { AskNewName = false }; var userResponse = _consoleUtilities.AskUserToChooseOrCreateNew(loadBalancers, "Select Load Balancer to deploy to:", userInputConfiguration); return userResponse.SelectedOption?.LoadBalancerArn ?? string.Empty; } } }	69
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System.Collections.Generic; using System.Linq; using System.Threading.Tasks; using Amazon.EC2.Model; using AWS.Deploy.Common; using AWS.Deploy.Common.Data; using AWS.Deploy.Common.Recipes; using AWS.Deploy.Common.TypeHintData; namespace AWS.Deploy.CLI.Commands.TypeHints { public class ExistingSecurityGroupsCommand : ITypeHintCommand { private readonly IAWSResourceQueryer _awsResourceQueryer; private readonly IConsoleUtilities _consoleUtilities; private readonly IOptionSettingHandler _optionSettingHandler; public ExistingSecurityGroupsCommand(IAWSResourceQueryer awsResourceQueryer, IConsoleUtilities consoleUtilities, IOptionSettingHandler optionSettingHandler) { _awsResourceQueryer = awsResourceQueryer; _consoleUtilities = consoleUtilities; _optionSettingHandler = optionSettingHandler; } private async Task<List<SecurityGroup>> GetData(Recommendation recommendation, OptionSettingItem optionSetting) { string? vpcId = null; if (!string.IsNullOrEmpty(optionSetting.ParentSettingId)) { var vpcIdOptionSetting = _optionSettingHandler.GetOptionSetting(recommendation, optionSetting.ParentSettingId); vpcId = _optionSettingHandler.GetOptionSettingValue<string>(recommendation, vpcIdOptionSetting); } return await _awsResourceQueryer.DescribeSecurityGroups(vpcId); } public async Task<TypeHintResourceTable> GetResources(Recommendation recommendation, OptionSettingItem optionSetting) { var securityGroups = await GetData(recommendation, optionSetting); var resourceTable = new TypeHintResourceTable { Columns = new List<TypeHintResourceColumn>() { new TypeHintResourceColumn("Group Name"), new TypeHintResourceColumn("Group Id"), new TypeHintResourceColumn("VPC Id") } }; foreach (var securityGroup in securityGroups.OrderBy(securityGroup => securityGroup.VpcId)) { var row = new TypeHintResource(securityGroup.GroupId, securityGroup.GroupId); row.ColumnValues.Add(securityGroup.GroupName); row.ColumnValues.Add(securityGroup.GroupId); row.ColumnValues.Add(securityGroup.VpcId); resourceTable.Rows.Add(row); } return resourceTable; } public async Task<object> Execute(Recommendation recommendation, OptionSettingItem optionSetting) { var resourceTable = await GetResources(recommendation, optionSetting); var groupNamePadding = 0; resourceTable.Rows.ForEach(row => { if (row.ColumnValues[0].Length > groupNamePadding) groupNamePadding = row.ColumnValues[0].Length; }); var userInputConfigurationSecurityGroups = new UserInputConfiguration<TypeHintResource>( idSelector: securityGroup => securityGroup.SystemName, displaySelector: securityGroup => $"{securityGroup.ColumnValues[0].PadRight(groupNamePadding)} \| {securityGroup.ColumnValues[1].PadRight(20)} \| {securityGroup.ColumnValues[2]}", defaultSelector: securityGroup => false) { CanBeEmpty = true, CreateNew = false }; return _consoleUtilities.AskUserForList(userInputConfigurationSecurityGroups, resourceTable.Rows, optionSetting, recommendation); } } }	90
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System.Collections.Generic; using System.Linq; using System.Threading.Tasks; using Amazon.EC2.Model; using AWS.Deploy.Common; using AWS.Deploy.Common.Data; using AWS.Deploy.Common.Recipes; using AWS.Deploy.Common.TypeHintData; namespace AWS.Deploy.CLI.Commands.TypeHints { public class ExistingSubnetsCommand : ITypeHintCommand { private readonly IAWSResourceQueryer _awsResourceQueryer; private readonly IConsoleUtilities _consoleUtilities; private readonly IOptionSettingHandler _optionSettingHandler; public ExistingSubnetsCommand(IAWSResourceQueryer awsResourceQueryer, IConsoleUtilities consoleUtilities, IOptionSettingHandler optionSettingHandler) { _awsResourceQueryer = awsResourceQueryer; _consoleUtilities = consoleUtilities; _optionSettingHandler = optionSettingHandler; } private async Task<List<Subnet>> GetData(Recommendation recommendation, OptionSettingItem optionSetting) { string? vpcId = null; if (!string.IsNullOrEmpty(optionSetting.ParentSettingId)) { var vpcIdOptionSetting = _optionSettingHandler.GetOptionSetting(recommendation, optionSetting.ParentSettingId); vpcId = _optionSettingHandler.GetOptionSettingValue<string>(recommendation, vpcIdOptionSetting); } return await _awsResourceQueryer.DescribeSubnets(vpcId); } public async Task<TypeHintResourceTable> GetResources(Recommendation recommendation, OptionSettingItem optionSetting) { var subnets = await GetData(recommendation, optionSetting); var resourceTable = new TypeHintResourceTable { Columns = new List<TypeHintResourceColumn>() { new TypeHintResourceColumn("Subnet Id"), new TypeHintResourceColumn("VPC Id"), new TypeHintResourceColumn("Availability Zone") } }; foreach (var subnet in subnets.OrderBy(subnet => subnet.VpcId)) { var row = new TypeHintResource(subnet.SubnetId, subnet.SubnetId); row.ColumnValues.Add(subnet.SubnetId); row.ColumnValues.Add(subnet.VpcId); row.ColumnValues.Add(subnet.AvailabilityZone); resourceTable.Rows.Add(row); } return resourceTable; } public async Task<object> Execute(Recommendation recommendation, OptionSettingItem optionSetting) { var availableSubnets = (await GetData(recommendation, optionSetting)).OrderBy(x => x.VpcId).ToList(); var resourceTable = await GetResources(recommendation, optionSetting); var userInputConfigurationSubnets = new UserInputConfiguration<TypeHintResource>( idSelector: subnet => subnet.SystemName, displaySelector: subnet => $"{subnet.ColumnValues[0].PadRight(24)} \| {subnet.ColumnValues[1].PadRight(21)} \| {subnet.ColumnValues[2]}", defaultSelector: subnet => false) { CanBeEmpty = true, CreateNew = false }; return _consoleUtilities.AskUserForList(userInputConfigurationSubnets, resourceTable.Rows, optionSetting, recommendation); } } }	84
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System.Collections.Generic; using System.Linq; using System.Threading.Tasks; using Amazon.EC2.Model; using AWS.Deploy.CLI.Extensions; using AWS.Deploy.Common; using AWS.Deploy.Common.Data; using AWS.Deploy.Common.Recipes; using AWS.Deploy.Common.TypeHintData; using AWS.Deploy.Orchestration.Data; namespace AWS.Deploy.CLI.Commands.TypeHints { /// <summary> /// The <see cref="ExistingVpcCommand"/> type hint lists existing VPC in an account for an option setting of type <see cref="OptionSettingValueType.String"/>. /// </summary> public class ExistingVpcCommand : ITypeHintCommand { private readonly IAWSResourceQueryer _awsResourceQueryer; private readonly IConsoleUtilities _consoleUtilities; private readonly IOptionSettingHandler _optionSettingHandler; public ExistingVpcCommand(IAWSResourceQueryer awsResourceQueryer, IConsoleUtilities consoleUtilities, IOptionSettingHandler optionSettingHandler) { _awsResourceQueryer = awsResourceQueryer; _consoleUtilities = consoleUtilities; _optionSettingHandler = optionSettingHandler; } private async Task<List<Vpc>> GetData() { return await _awsResourceQueryer.GetListOfVpcs(); } public async Task<TypeHintResourceTable> GetResources(Recommendation recommendation, OptionSettingItem optionSetting) { var vpcs = await GetData(); var resourceTable = new TypeHintResourceTable(); resourceTable.Rows = vpcs.ToDictionary(x => x.VpcId, x => x.GetDisplayableVpc()).Select(x => new TypeHintResource(x.Key, x.Value)).ToList(); return resourceTable; } public async Task<object> Execute(Recommendation recommendation, OptionSettingItem optionSetting) { var currentVpcValue = _optionSettingHandler.GetOptionSettingValue<string>(recommendation, optionSetting); var vpcs = await GetData(); var userInputConfig = new UserInputConfiguration<Vpc>( idSelector: vpc => vpc.VpcId, displaySelector: vpc => vpc.GetDisplayableVpc(), defaultSelector: vpc => !string.IsNullOrEmpty(currentVpcValue) ? vpc.VpcId == currentVpcValue : vpc.IsDefault) { CanBeEmpty = true, EmptyOption = true, CreateNew = false }; var userResponse = _consoleUtilities.AskUserToChooseOrCreateNew( vpcs, "Select a VPC", userInputConfig); return userResponse.SelectedOption?.VpcId ?? string.Empty; } } }	76
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System.Collections.Generic; using System.Linq; using System.Threading.Tasks; using Amazon.AppRunner.Model; using AWS.Deploy.Common; using AWS.Deploy.Common.Data; using AWS.Deploy.Common.Recipes; using AWS.Deploy.Common.TypeHintData; using AWS.Deploy.Orchestration.Data; namespace AWS.Deploy.CLI.Commands.TypeHints { public class ExistingVpcConnectorCommand : ITypeHintCommand { private readonly IAWSResourceQueryer _awsResourceQueryer; private readonly IConsoleUtilities _consoleUtilities; private readonly IOptionSettingHandler _optionSettingHandler; public ExistingVpcConnectorCommand(IAWSResourceQueryer awsResourceQueryer, IConsoleUtilities consoleUtilities, IOptionSettingHandler optionSettingHandler) { _awsResourceQueryer = awsResourceQueryer; _consoleUtilities = consoleUtilities; _optionSettingHandler = optionSettingHandler; } private async Task<List<VpcConnector>> GetData() { return await _awsResourceQueryer.DescribeAppRunnerVpcConnectors(); } public async Task<TypeHintResourceTable> GetResources(Recommendation recommendation, OptionSettingItem optionSetting) { var vpcConnectors = await GetData(); var resourceTable = new TypeHintResourceTable { Rows = vpcConnectors.Select(vpcConnector => new TypeHintResource(vpcConnector.VpcConnectorArn, vpcConnector.VpcConnectorName)).ToList() }; return resourceTable; } public async Task<object> Execute(Recommendation recommendation, OptionSettingItem optionSetting) { var vpcConnectors = await GetData(); var currentVpcConnector = _optionSettingHandler.GetOptionSettingValue<string>(recommendation, optionSetting); var userInputConfiguration = new UserInputConfiguration<VpcConnector>( idSelector: vpcConnector => vpcConnector.VpcConnectorArn, displaySelector: vpcConnector => vpcConnector.VpcConnectorName, defaultSelector: vpcConnector => vpcConnector.VpcConnectorArn.Equals(currentVpcConnector), defaultNewName: currentVpcConnector ?? string.Empty) { CanBeEmpty = true, CreateNew = false }; var userResponse = _consoleUtilities.AskUserToChooseOrCreateNew(vpcConnectors, "Select VPC Connector:", userInputConfiguration); return userResponse.SelectedOption?.VpcConnectorArn ?? string.Empty; } } }	67
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System.Collections.Generic; using System.Threading.Tasks; using AWS.Deploy.Common; using AWS.Deploy.Common.IO; using AWS.Deploy.Common.Recipes; using AWS.Deploy.Common.Recipes.Validation; using AWS.Deploy.Common.TypeHintData; namespace AWS.Deploy.CLI.Commands.TypeHints { /// <summary> /// Typehint that lets the user specify a path to a file. /// This can either be an absolute path to the file or relative to the project path. /// </summary> public class FilePathCommand : ITypeHintCommand { private readonly IConsoleUtilities _consoleUtilities; private readonly IOptionSettingHandler _optionSettingHandler; private readonly IFileManager _fileManager; public FilePathCommand(IConsoleUtilities consoleUtilities , IOptionSettingHandler optionSettingHandler, IFileManager fileManager) { _consoleUtilities = consoleUtilities; _optionSettingHandler = optionSettingHandler; _fileManager = fileManager; } /// <summary> /// Not implemented, specific files are not suggested to the user /// </summary> /// <returns>Empty list</returns> public Task<TypeHintResourceTable> GetResources(Recommendation recommendation, OptionSettingItem optionSetting) => Task.FromResult(new TypeHintResourceTable()); /// <summary> /// Prompts the user to enter a path to a file /// </summary> public Task<object> Execute(Recommendation recommendation, OptionSettingItem optionSetting) { var typeHintData = optionSetting.GetTypeHintData<FilePathTypeHintData>(); var userFilePath = _consoleUtilities .AskUserForValue( string.Empty, _optionSettingHandler.GetOptionSettingValue<string>(recommendation, optionSetting) ?? string.Empty, allowEmpty: typeHintData?.AllowEmpty ?? true, resetValue: _optionSettingHandler.GetOptionSettingDefaultValue<string>(recommendation, optionSetting) ?? "") ; return Task.FromResult<object>(userFilePath); } } }	55
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System.Collections.Generic; using System.Linq; using System.Threading.Tasks; using Amazon.ECS.Model; using Amazon.IdentityManagement.Model; using AWS.Deploy.CLI.TypeHintResponses; using AWS.Deploy.Common; using AWS.Deploy.Common.Data; using AWS.Deploy.Common.Recipes; using AWS.Deploy.Common.TypeHintData; using AWS.Deploy.Orchestration; using AWS.Deploy.Orchestration.Data; using Newtonsoft.Json; namespace AWS.Deploy.CLI.Commands.TypeHints { public class IAMRoleCommand : ITypeHintCommand { private readonly IAWSResourceQueryer _awsResourceQueryer; private readonly IConsoleUtilities _consoleUtilities; private readonly IOptionSettingHandler _optionSettingHandler; public IAMRoleCommand(IAWSResourceQueryer awsResourceQueryer, IConsoleUtilities consoleUtilities, IOptionSettingHandler optionSettingHandler) { _awsResourceQueryer = awsResourceQueryer; _consoleUtilities = consoleUtilities; _optionSettingHandler = optionSettingHandler; } private async Task<List<Role>> GetData(OptionSettingItem optionSetting) { var typeHintData = optionSetting.GetTypeHintData<IAMRoleTypeHintData>(); return await _awsResourceQueryer.ListOfIAMRoles(typeHintData?.ServicePrincipal); } public async Task<TypeHintResourceTable> GetResources(Recommendation recommendation, OptionSettingItem optionSetting) { var existingRoles = await GetData(optionSetting); var resourceTable = new TypeHintResourceTable { Rows = existingRoles.Select(x => new TypeHintResource(x.Arn, x.RoleName)).ToList() }; return resourceTable; } public async Task<object> Execute(Recommendation recommendation, OptionSettingItem optionSetting) { var existingRoles = await GetData(optionSetting); var currentTypeHintResponse = _optionSettingHandler.GetOptionSettingValue<IAMRoleTypeHintResponse>(recommendation, optionSetting); var userInputConfiguration = new UserInputConfiguration<Role>( idSelector: role => role.Arn, displaySelector: role => role.RoleName, defaultSelector: role => currentTypeHintResponse?.RoleArn?.Equals(role.Arn) ?? false); var userResponse = _consoleUtilities.AskUserToChooseOrCreateNew(existingRoles ,"Select an IAM role", userInputConfiguration); return new IAMRoleTypeHintResponse { CreateNew = userResponse.CreateNew, RoleArn = userResponse.SelectedOption?.Arn }; } } }	71
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System.Collections.Generic; using System.Linq; using System.Threading.Tasks; using Amazon.EC2.Model; using AWS.Deploy.Common; using AWS.Deploy.Common.Data; using AWS.Deploy.Common.Recipes; using AWS.Deploy.Common.TypeHintData; using AWS.Deploy.Constants; using AWS.Deploy.Orchestration.Data; namespace AWS.Deploy.CLI.Commands.TypeHints { public class WindowsInstanceTypeCommand : InstanceTypeCommand { public WindowsInstanceTypeCommand(IAWSResourceQueryer awsResourceQueryer, IConsoleUtilities consoleUtilities, IOptionSettingHandler optionSettingHandler) : base(awsResourceQueryer, consoleUtilities, optionSettingHandler, EC2.FILTER_PLATFORM_WINDOWS) { } } public class LinuxInstanceTypeCommand : InstanceTypeCommand { public LinuxInstanceTypeCommand(IAWSResourceQueryer awsResourceQueryer, IConsoleUtilities consoleUtilities, IOptionSettingHandler optionSettingHandler) : base(awsResourceQueryer, consoleUtilities, optionSettingHandler, EC2.FILTER_PLATFORM_LINUX) { } } public abstract class InstanceTypeCommand : ITypeHintCommand { private readonly IAWSResourceQueryer _awsResourceQueryer; private readonly IConsoleUtilities _consoleUtilities; private readonly IOptionSettingHandler _optionSettingHandler; private readonly string _platform; public InstanceTypeCommand(IAWSResourceQueryer awsResourceQueryer, IConsoleUtilities consoleUtilities, IOptionSettingHandler optionSettingHandler, string platform) { _awsResourceQueryer = awsResourceQueryer; _consoleUtilities = consoleUtilities; _optionSettingHandler = optionSettingHandler; _platform = platform; } private async Task<List<InstanceTypeInfo>?> GetData() { var instanceTypes = await _awsResourceQueryer.ListOfAvailableInstanceTypes(); if (string.Equals(_platform, EC2.FILTER_PLATFORM_WINDOWS, System.StringComparison.OrdinalIgnoreCase)) { return instanceTypes.Where(x => x.ProcessorInfo.SupportedArchitectures.Contains(EC2.FILTER_ARCHITECTURE_X86_64)).ToList(); } return instanceTypes; } public async Task<TypeHintResourceTable> GetResources(Recommendation recommendation, OptionSettingItem optionSetting) { var instanceTypes = await GetData(); var resourceTable = new TypeHintResourceTable(); if (instanceTypes != null) { resourceTable.Rows = instanceTypes.OrderBy(x => x.InstanceType.Value) .Select(x => new TypeHintResource(x.InstanceType.Value, x.InstanceType.Value)) .ToList(); } return resourceTable; } public async Task<object> Execute(Recommendation recommendation, OptionSettingItem optionSetting) { var instanceTypes = await GetData(); var instanceTypeDefaultValue = _optionSettingHandler.GetOptionSettingDefaultValue<string>(recommendation, optionSetting); if (instanceTypes == null) { return _consoleUtilities.AskUserForValue("Select EC2 Instance Type:", instanceTypeDefaultValue ?? string.Empty, true); } var freeTierEligibleAnswer = _consoleUtilities.AskYesNoQuestion("Do you want the EC2 instance to be free tier eligible?", "true"); var freeTierEligible = freeTierEligibleAnswer == YesNo.Yes; string architecture; if (string.Equals(_platform, EC2.FILTER_PLATFORM_WINDOWS, System.StringComparison.OrdinalIgnoreCase)) { architecture = EC2.FILTER_ARCHITECTURE_X86_64; } else { var architectureAllowedValues = new List<string> { EC2.FILTER_ARCHITECTURE_X86_64, EC2.FILTER_ARCHITECTURE_ARM64 }; architecture = _consoleUtilities.AskUserToChoose(architectureAllowedValues, "The architecture of the EC2 instances created for the environment.", EC2.FILTER_ARCHITECTURE_X86_64); } var cpuCores = instanceTypes .Where(x => x.FreeTierEligible.Equals(freeTierEligible)) .Where(x => x.ProcessorInfo.SupportedArchitectures.Contains(architecture)) .Select(x => x.VCpuInfo.DefaultCores).Distinct().OrderBy(x => x).ToList(); if (cpuCores.Count == 0) return _consoleUtilities.AskUserForValue("Select EC2 Instance Type:", instanceTypeDefaultValue ?? string.Empty, true); var cpuCoreCount = int.Parse(_consoleUtilities.AskUserToChoose(cpuCores.Select(x => x.ToString()).ToList(), "Select EC2 Instance CPU Cores:", "1")); var memory = instanceTypes .Where(x => x.FreeTierEligible.Equals(freeTierEligible)) .Where(x => x.ProcessorInfo.SupportedArchitectures.Contains(architecture)) .Where(x => x.VCpuInfo.DefaultCores.Equals(cpuCoreCount)) .Select(x => x.MemoryInfo.SizeInMiB).Distinct().OrderBy(x => x).ToList(); if (memory.Count == 0) return _consoleUtilities.AskUserForValue("Select EC2 Instance Type:", instanceTypeDefaultValue ?? string.Empty, true); var memoryCount = _consoleUtilities.AskUserToChoose(memory.Select(x => x.ToString()).ToList(), "Select EC2 Instance Memory:", "1024"); var availableInstanceTypes = instanceTypes .Where(x => x.FreeTierEligible.Equals(freeTierEligible)) .Where(x => x.ProcessorInfo.SupportedArchitectures.Contains(architecture)) .Where(x => x.VCpuInfo.DefaultCores.Equals(cpuCoreCount)) .Where(x => x.MemoryInfo.SizeInMiB.Equals(long.Parse(memoryCount))) .Select(x => x.InstanceType.Value).Distinct().OrderBy(x => x).ToList(); if (availableInstanceTypes.Count == 0) return _consoleUtilities.AskUserForValue("Select EC2 Instance Type:", instanceTypeDefaultValue ?? string.Empty, true); var userResponse = _consoleUtilities.AskUserToChoose(availableInstanceTypes, "Select EC2 Instance Type:", availableInstanceTypes.First()); return userResponse; } } }	135
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System; using System.Collections.Generic; using System.Linq; using System.Threading.Tasks; using AWS.Deploy.Common; using AWS.Deploy.Common.Recipes; using AWS.Deploy.Common.TypeHintData; using AWS.Deploy.Orchestration.Data; using Amazon.S3.Model; using AWS.Deploy.Common.Data; namespace AWS.Deploy.CLI.Commands.TypeHints { public class S3BucketNameCommand : ITypeHintCommand { private readonly IAWSResourceQueryer _awsResourceQueryer; private readonly IConsoleUtilities _consoleUtilities; private readonly IOptionSettingHandler _optionSettingHandler; public S3BucketNameCommand(IAWSResourceQueryer awsResourceQueryer, IConsoleUtilities consoleUtilities, IOptionSettingHandler optionSettingHandler) { _awsResourceQueryer = awsResourceQueryer; _consoleUtilities = consoleUtilities; _optionSettingHandler = optionSettingHandler; } private async Task<List<S3Bucket>> GetData() { return await _awsResourceQueryer.ListOfS3Buckets(); } public async Task<TypeHintResourceTable> GetResources(Recommendation recommendation, OptionSettingItem optionSetting) { var buckets = await GetData(); var resourceTable = new TypeHintResourceTable { Rows = buckets.Select(bucket => new TypeHintResource(bucket.BucketName, bucket.BucketName)).ToList() }; return resourceTable; } public async Task<object> Execute(Recommendation recommendation, OptionSettingItem optionSetting) { const string NO_VALUE = "* Do not select bucket *"; var currentValue = _optionSettingHandler.GetOptionSettingValue(recommendation, optionSetting); var typeHintData = optionSetting.GetTypeHintData<S3BucketNameTypeHintData>(); var buckets = (await GetData()).Select(bucket => bucket.BucketName).ToList(); if (typeHintData?.AllowNoValue ?? false) buckets.Add(NO_VALUE); var userResponse = _consoleUtilities.AskUserToChoose( values: buckets, title: "Select a S3 bucket:", defaultValue: currentValue.ToString() ?? ""); return userResponse == null \|\| string.Equals(NO_VALUE, userResponse, StringComparison.InvariantCultureIgnoreCase) ? string.Empty : userResponse; } } }	66
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System; using System.Collections.Generic; using System.Linq; using System.Threading.Tasks; using AWS.Deploy.Common; using AWS.Deploy.Orchestration.Data; using AWS.Deploy.Common.Recipes; using AWS.Deploy.Common.TypeHintData; using AWS.Deploy.Common.Data; namespace AWS.Deploy.CLI.Commands.TypeHints { public class SNSTopicArnsCommand : ITypeHintCommand { private readonly IAWSResourceQueryer _awsResourceQueryer; private readonly IConsoleUtilities _consoleUtilities; private readonly IOptionSettingHandler _optionSettingHandler; public SNSTopicArnsCommand(IAWSResourceQueryer awsResourceQueryer, IConsoleUtilities consoleUtilities, IOptionSettingHandler optionSettingHandler) { _awsResourceQueryer = awsResourceQueryer; _consoleUtilities = consoleUtilities; _optionSettingHandler = optionSettingHandler; } public async Task<TypeHintResourceTable> GetResources(Recommendation recommendation, OptionSettingItem optionSetting) { var topicArns = await _awsResourceQueryer.ListOfSNSTopicArns(); var resourceTable = new TypeHintResourceTable { Rows = topicArns.Select(topicArn => new TypeHintResource(topicArn, topicArn.Substring(topicArn.LastIndexOf(':') + 1))).ToList() }; return resourceTable; } public async Task<object> Execute(Recommendation recommendation, OptionSettingItem optionSetting) { const string NO_VALUE = "* Do not select topic *"; var currentValue = _optionSettingHandler.GetOptionSettingValue(recommendation, optionSetting); var typeHintData = optionSetting.GetTypeHintData<SNSTopicArnsTypeHintData>(); var currentValueStr = currentValue.ToString() ?? string.Empty; var topicArns = (await GetResources(recommendation, optionSetting)).Rows; var topicNames = topicArns?.Select(topic => topic.DisplayName).ToList() ?? new List<string>(); var currentName = string.Empty; if (currentValue.ToString()?.LastIndexOf(':') != -1) { currentName = currentValueStr.Substring(currentValueStr.LastIndexOf(':') + 1); } if (typeHintData?.AllowNoValue ?? false) topicNames.Add(NO_VALUE); var userResponse = _consoleUtilities.AskUserToChoose( values: topicNames, title: "Select a SNS topic:", defaultValue: currentName); var selectedTopicArn = topicArns?.FirstOrDefault(x => string.Equals(x.DisplayName, userResponse, StringComparison.OrdinalIgnoreCase)); return selectedTopicArn?.SystemName ?? string.Empty; } } }	68
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System; using System.Collections.Generic; using System.Linq; using System.Threading.Tasks; using AWS.Deploy.Common; using AWS.Deploy.Common.Data; using AWS.Deploy.Common.Recipes; using AWS.Deploy.Common.TypeHintData; using AWS.Deploy.Orchestration.Data; namespace AWS.Deploy.CLI.Commands.TypeHints { public class SQSQueueUrlCommand : ITypeHintCommand { private readonly IAWSResourceQueryer _awsResourceQueryer; private readonly IConsoleUtilities _consoleUtilities; private readonly IOptionSettingHandler _optionSettingHandler; public SQSQueueUrlCommand(IAWSResourceQueryer awsResourceQueryer, IConsoleUtilities consoleUtilities, IOptionSettingHandler optionSettingHandler) { _awsResourceQueryer = awsResourceQueryer; _consoleUtilities = consoleUtilities; _optionSettingHandler = optionSettingHandler; } public async Task<TypeHintResourceTable> GetResources(Recommendation recommendation, OptionSettingItem optionSetting) { var queueUrls = await _awsResourceQueryer.ListOfSQSQueuesUrls(); var resourceTable = new TypeHintResourceTable { Rows = queueUrls.Select(queueUrl => new TypeHintResource(queueUrl, queueUrl.Substring(queueUrl.LastIndexOf('/') + 1))).ToList() }; return resourceTable; } public async Task<object> Execute(Recommendation recommendation, OptionSettingItem optionSetting) { const string NO_VALUE = "* Do not select queue *"; var currentValue = _optionSettingHandler.GetOptionSettingValue(recommendation, optionSetting); var typeHintData = optionSetting.GetTypeHintData<SQSQueueUrlTypeHintData>(); var currentValueStr = currentValue.ToString() ?? string.Empty; var queueUrls = (await GetResources(recommendation, optionSetting)).Rows; var queueNames = queueUrls?.Select(queue => queue.DisplayName).ToList() ?? new List<string>(); var currentName = string.Empty; if (currentValue.ToString()?.LastIndexOf('/') != -1) { currentName = currentValueStr.Substring(currentValueStr.LastIndexOf('/') + 1); } if (typeHintData?.AllowNoValue ?? false) queueNames.Add(NO_VALUE); var userResponse = _consoleUtilities.AskUserToChoose( values: queueNames, title: "Select a SQS queue:", defaultValue: currentName); var selectedQueueUrl = queueUrls?.FirstOrDefault(x => string.Equals(x.DisplayName, userResponse, StringComparison.OrdinalIgnoreCase)); return selectedQueueUrl?.SystemName ?? string.Empty; } } }	68
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System; using System.Collections.Generic; using System.Threading.Tasks; using AWS.Deploy.Common; using AWS.Deploy.Common.Data; using AWS.Deploy.Common.IO; using AWS.Deploy.Common.Recipes; using AWS.Deploy.Common.TypeHintData; using Microsoft.Extensions.DependencyInjection; namespace AWS.Deploy.CLI.Commands.TypeHints { /// <summary> /// Interface for type hint commands such as <see cref="IAMRoleCommand"/> /// </summary> public interface ITypeHintCommand { Task<TypeHintResourceTable> GetResources(Recommendation recommendation, OptionSettingItem optionSetting); Task<object> Execute(Recommendation recommendation, OptionSettingItem optionSetting); } public interface ITypeHintCommandFactory { ITypeHintCommand? GetCommand(OptionSettingTypeHint typeHint); } /// <summary> /// Factory class responsible to build and get type hint command /// </summary> public class TypeHintCommandFactory : ITypeHintCommandFactory { private readonly IServiceProvider _serviceProvider; private readonly Dictionary<OptionSettingTypeHint, ITypeHintCommand> _commands; public TypeHintCommandFactory(IServiceProvider serviceProvider, IToolInteractiveService toolInteractiveService, IAWSResourceQueryer awsResourceQueryer, IConsoleUtilities consoleUtilities, IDirectoryManager directoryManager, IOptionSettingHandler optionSettingHandler) { _serviceProvider = serviceProvider; _commands = new Dictionary<OptionSettingTypeHint, ITypeHintCommand> { { OptionSettingTypeHint.BeanstalkApplication, ActivatorUtilities.CreateInstance<BeanstalkApplicationCommand>(serviceProvider) }, { OptionSettingTypeHint.ExistingBeanstalkApplication, ActivatorUtilities.CreateInstance<BeanstalkApplicationCommand>(serviceProvider) }, { OptionSettingTypeHint.BeanstalkEnvironment, ActivatorUtilities.CreateInstance<BeanstalkEnvironmentCommand>(serviceProvider) }, { OptionSettingTypeHint.DotnetBeanstalkPlatformArn, ActivatorUtilities.CreateInstance<DotnetBeanstalkPlatformArnCommand>(serviceProvider) }, { OptionSettingTypeHint.DotnetWindowsBeanstalkPlatformArn, ActivatorUtilities.CreateInstance<DotnetWindowsBeanstalkPlatformArnCommand>(serviceProvider) }, { OptionSettingTypeHint.EC2KeyPair, ActivatorUtilities.CreateInstance<EC2KeyPairCommand>(serviceProvider) }, { OptionSettingTypeHint.IAMRole, ActivatorUtilities.CreateInstance<IAMRoleCommand>(serviceProvider) }, { OptionSettingTypeHint.ExistingIAMRole, ActivatorUtilities.CreateInstance<IAMRoleCommand>(serviceProvider) }, { OptionSettingTypeHint.Vpc, ActivatorUtilities.CreateInstance<VpcCommand>(serviceProvider) }, { OptionSettingTypeHint.ExistingVpc, ActivatorUtilities.CreateInstance<ExistingVpcCommand>(serviceProvider) }, { OptionSettingTypeHint.DotnetPublishAdditionalBuildArguments, ActivatorUtilities.CreateInstance<DotnetPublishArgsCommand>(serviceProvider) }, { OptionSettingTypeHint.DotnetPublishSelfContainedBuild, ActivatorUtilities.CreateInstance<DotnetPublishSelfContainedBuildCommand>(serviceProvider) }, { OptionSettingTypeHint.DotnetPublishBuildConfiguration, ActivatorUtilities.CreateInstance<DotnetPublishBuildConfigurationCommand>(serviceProvider) }, { OptionSettingTypeHint.DockerExecutionDirectory, ActivatorUtilities.CreateInstance<DockerExecutionDirectoryCommand>(serviceProvider) }, { OptionSettingTypeHint.DockerBuildArgs, ActivatorUtilities.CreateInstance<DockerBuildArgsCommand>(serviceProvider) }, { OptionSettingTypeHint.ECSCluster, ActivatorUtilities.CreateInstance<ECSClusterCommand>(serviceProvider) }, { OptionSettingTypeHint.ExistingECSCluster, ActivatorUtilities.CreateInstance<ECSClusterCommand>(serviceProvider) }, { OptionSettingTypeHint.ExistingApplicationLoadBalancer, ActivatorUtilities.CreateInstance<ExistingApplicationLoadBalancerCommand>(serviceProvider) }, { OptionSettingTypeHint.DynamoDBTableName, ActivatorUtilities.CreateInstance<DynamoDBTableCommand>(serviceProvider) }, { OptionSettingTypeHint.SQSQueueUrl, ActivatorUtilities.CreateInstance<SQSQueueUrlCommand>(serviceProvider) }, { OptionSettingTypeHint.SNSTopicArn, ActivatorUtilities.CreateInstance<SNSTopicArnsCommand>(serviceProvider) }, { OptionSettingTypeHint.S3BucketName, ActivatorUtilities.CreateInstance<S3BucketNameCommand>(serviceProvider) }, { OptionSettingTypeHint.InstanceType, ActivatorUtilities.CreateInstance<LinuxInstanceTypeCommand>(serviceProvider) }, { OptionSettingTypeHint.WindowsInstanceType, ActivatorUtilities.CreateInstance<WindowsInstanceTypeCommand>(serviceProvider) }, { OptionSettingTypeHint.ECRRepository, ActivatorUtilities.CreateInstance<ECRRepositoryCommand>(serviceProvider) }, { OptionSettingTypeHint.ExistingVpcConnector, ActivatorUtilities.CreateInstance<ExistingVpcConnectorCommand>(serviceProvider) }, { OptionSettingTypeHint.ExistingSubnets, ActivatorUtilities.CreateInstance<ExistingSubnetsCommand>(serviceProvider) }, { OptionSettingTypeHint.ExistingSecurityGroups, ActivatorUtilities.CreateInstance<ExistingSecurityGroupsCommand>(serviceProvider) }, { OptionSettingTypeHint.VPCConnector, ActivatorUtilities.CreateInstance<VPCConnectorCommand>(serviceProvider) }, { OptionSettingTypeHint.FilePath, ActivatorUtilities.CreateInstance<FilePathCommand>(serviceProvider) }, { OptionSettingTypeHint.ElasticBeanstalkVpc, ActivatorUtilities.CreateInstance<ElasticBeanstalkVpcCommand>(serviceProvider) }, }; } public ITypeHintCommand? GetCommand(OptionSettingTypeHint typeHint) { if (!_commands.ContainsKey(typeHint)) { return null; } return _commands[typeHint]; } } }	89
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System.Collections.Generic; using System.Linq; using System.Threading.Tasks; using Amazon.EC2.Model; using Amazon.ECS.Model; using AWS.Deploy.CLI.Extensions; using AWS.Deploy.CLI.TypeHintResponses; using AWS.Deploy.Common; using AWS.Deploy.Common.Data; using AWS.Deploy.Common.Recipes; using AWS.Deploy.Common.TypeHintData; using AWS.Deploy.Orchestration; using AWS.Deploy.Orchestration.Data; using Newtonsoft.Json; namespace AWS.Deploy.CLI.Commands.TypeHints { /// <summary> /// The <see cref="VpcCommand"/> type hint orchestrates the VPC object in ECS Fargate environments. /// </summary> public class VpcCommand : ITypeHintCommand { private readonly IAWSResourceQueryer _awsResourceQueryer; private readonly IConsoleUtilities _consoleUtilities; private readonly IToolInteractiveService _toolInteractiveService; public VpcCommand(IAWSResourceQueryer awsResourceQueryer, IConsoleUtilities consoleUtilities, IToolInteractiveService toolInteractiveService) { _awsResourceQueryer = awsResourceQueryer; _consoleUtilities = consoleUtilities; _toolInteractiveService = toolInteractiveService; } private async Task<List<Vpc>> GetData() { return await _awsResourceQueryer.GetListOfVpcs(); } public async Task<TypeHintResourceTable> GetResources(Recommendation recommendation, OptionSettingItem optionSetting) { var vpcs = await GetData(); var resourceTable = new TypeHintResourceTable(); resourceTable.Rows = vpcs.ToDictionary(x => x.VpcId, x => x.GetDisplayableVpc()).Select(x => new TypeHintResource(x.Key, x.Value)).ToList(); return resourceTable; } public async Task<object> Execute(Recommendation recommendation, OptionSettingItem optionSetting) { var currentVpcTypeHintResponse = optionSetting.GetTypeHintData<VpcTypeHintResponse>(); var vpcs = await GetData(); if (!vpcs.Any()) { _toolInteractiveService.WriteLine(); _toolInteractiveService.WriteLine("There are no VPCs in the selected account. The only option is to create a new one."); return new VpcTypeHintResponse(false, true, string.Empty); } var userInputConfig = new UserInputConfiguration<Vpc>( idSelector: vpc => vpc.VpcId, displaySelector: vpc => vpc.GetDisplayableVpc(), defaultSelector: vpc => !string.IsNullOrEmpty(currentVpcTypeHintResponse?.VpcId) ? vpc.VpcId == currentVpcTypeHintResponse.VpcId : vpc.IsDefault); var userResponse = _consoleUtilities.AskUserToChooseOrCreateNew( vpcs, "Select a VPC", userInputConfig); return new VpcTypeHintResponse( userResponse.SelectedOption?.IsDefault == true, userResponse.CreateNew, userResponse.SelectedOption?.VpcId ?? "" ); } } }	86
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System.Collections.Generic; using System.Linq; using System.Threading.Tasks; using Amazon.AppRunner.Model; using Amazon.EC2.Model; using AWS.Deploy.CLI.TypeHintResponses; using AWS.Deploy.Common; using AWS.Deploy.Common.Data; using AWS.Deploy.Common.Recipes; using AWS.Deploy.Common.TypeHintData; using AWS.Deploy.Orchestration.Data; namespace AWS.Deploy.CLI.Commands.TypeHints { public class VPCConnectorCommand : ITypeHintCommand { private readonly IAWSResourceQueryer _awsResourceQueryer; private readonly IConsoleUtilities _consoleUtilities; private readonly IToolInteractiveService _toolInteractiveService; private readonly IOptionSettingHandler _optionSettingHandler; public VPCConnectorCommand(IAWSResourceQueryer awsResourceQueryer, IConsoleUtilities consoleUtilities, IToolInteractiveService toolInteractiveService, IOptionSettingHandler optionSettingHandler) { _awsResourceQueryer = awsResourceQueryer; _consoleUtilities = consoleUtilities; _toolInteractiveService = toolInteractiveService; _optionSettingHandler = optionSettingHandler; } private async Task<List<VpcConnector>> GetData() { return await _awsResourceQueryer.DescribeAppRunnerVpcConnectors(); } public async Task<TypeHintResourceTable> GetResources(Recommendation recommendation, OptionSettingItem optionSetting) { var vpcConnectors = await GetData(); var resourceTable = new TypeHintResourceTable() { Rows = vpcConnectors.Select(vpcConnector => new TypeHintResource(vpcConnector.VpcConnectorArn, vpcConnector.VpcConnectorName)).ToList() }; return resourceTable; } public async Task<object> Execute(Recommendation recommendation, OptionSettingItem optionSetting) { _toolInteractiveService.WriteLine(); var useVpcConnectorOptionSetting = optionSetting.ChildOptionSettings.First(x => x.Id.Equals("UseVPCConnector")); var useVpcConnectorValue = _optionSettingHandler.GetOptionSettingValue<string>(recommendation, useVpcConnectorOptionSetting) ?? "false"; var useVpcConnectorAnswer = _consoleUtilities.AskYesNoQuestion(useVpcConnectorOptionSetting.Description, useVpcConnectorValue); var useVpcConnector = useVpcConnectorAnswer == YesNo.Yes; if (!useVpcConnector) return new VPCConnectorTypeHintResponse() { UseVPCConnector = false }; var vpcConnectors = await GetData(); var createNewVPCConnector = true; if (vpcConnectors.Any()) { _toolInteractiveService.WriteLine(); var createNewOptionSetting = optionSetting.ChildOptionSettings.First(x => x.Id.Equals("CreateNew")); var createNew = _optionSettingHandler.GetOptionSettingValue<string>(recommendation, createNewOptionSetting) ?? "false"; var createNewVPCConnectorAnswer = _consoleUtilities.AskYesNoQuestion(createNewOptionSetting.Description, createNew); createNewVPCConnector = createNewVPCConnectorAnswer == YesNo.Yes; } _toolInteractiveService.WriteLine(); if (createNewVPCConnector) { var availableVpcs = await _awsResourceQueryer.GetListOfVpcs(); if (!availableVpcs.Any()) { _toolInteractiveService.WriteLine("Your account does not contain a VPC, so we will create one for you and assign its Subnets and Security Groups to the VPC Connector."); return new VPCConnectorTypeHintResponse { UseVPCConnector = true, CreateNew = true, CreateNewVpc = true }; } var createNewVpcOptionSetting = optionSetting.ChildOptionSettings.First(x => x.Id.Equals("CreateNewVpc")); var createNewVpcOptionSettingValue = _optionSettingHandler.GetOptionSettingValue<string>(recommendation, createNewVpcOptionSetting) ?? "false"; var createNewVpcAnswer = _consoleUtilities.AskYesNoQuestion(createNewVpcOptionSetting.Description, createNewVpcOptionSettingValue); var createNewVpc = createNewVpcAnswer == YesNo.Yes; if (createNewVpc) return new VPCConnectorTypeHintResponse { UseVPCConnector = true, CreateNew = true, CreateNewVpc = true }; _toolInteractiveService.WriteLine("In order to create a new VPC Connector, you need to select 1 or more Subnets as well as 1 or more Security groups."); _toolInteractiveService.WriteLine(); var vpcOptionSetting = optionSetting.ChildOptionSettings.First(x => x.Id.Equals("VpcId")); var currentVpcValue = _optionSettingHandler.GetOptionSettingValue(recommendation, vpcOptionSetting).ToString(); var userInputConfigurationVPCs = new UserInputConfiguration<Vpc>( idSelector: vpc => vpc.VpcId, displaySelector: vpc => vpc.VpcId, defaultSelector: vpc => !string.IsNullOrEmpty(currentVpcValue) ? vpc.VpcId.Equals(currentVpcValue) : vpc.IsDefault) { CanBeEmpty = false, CreateNew = false }; var vpc = _consoleUtilities.AskUserToChooseOrCreateNew<Vpc>(availableVpcs, "Select a VPC:", userInputConfigurationVPCs); if (vpc.SelectedOption == null) return new VPCConnectorTypeHintResponse() { UseVPCConnector = false }; var availableSubnets = (await _awsResourceQueryer.DescribeSubnets(vpc.SelectedOption.VpcId)).OrderBy(x => x.SubnetId).ToList(); var userInputConfigurationSubnets = new UserInputConfiguration<Subnet>( idSelector: subnet => subnet.SubnetId, displaySelector: subnet => $"{subnet.SubnetId.PadRight(24)} \| {subnet.VpcId.PadRight(21)} \| {subnet.AvailabilityZone}", defaultSelector: subnet => false) { CanBeEmpty = false, CreateNew = false }; var subnetsOptionSetting = optionSetting.ChildOptionSettings.First(x => x.Id.Equals("Subnets")); _toolInteractiveService.WriteLine($"{subnetsOptionSetting.Id}:"); _toolInteractiveService.WriteLine(subnetsOptionSetting.Description); var subnets = _consoleUtilities.AskUserForList<Subnet>(userInputConfigurationSubnets, availableSubnets, subnetsOptionSetting, recommendation); var availableSecurityGroups = (await _awsResourceQueryer.DescribeSecurityGroups(vpc.SelectedOption.VpcId)).OrderBy(x => x.VpcId).ToList(); var groupNamePadding = 0; availableSecurityGroups.ForEach(x => { if (x.GroupName.Length > groupNamePadding) groupNamePadding = x.GroupName.Length; }); var userInputConfigurationSecurityGroups = new UserInputConfiguration<SecurityGroup>( idSelector: securityGroup => securityGroup.GroupId, displaySelector: securityGroup => $"{securityGroup.GroupName.PadRight(groupNamePadding)} \| {securityGroup.GroupId.PadRight(20)} \| {securityGroup.VpcId}", defaultSelector: securityGroup => false) { CanBeEmpty = false, CreateNew = false }; var securityGroupsOptionSetting = optionSetting.ChildOptionSettings.First(x => x.Id.Equals("SecurityGroups")); _toolInteractiveService.WriteLine($"{securityGroupsOptionSetting.Id}:"); _toolInteractiveService.WriteLine(securityGroupsOptionSetting.Description); var securityGroups = _consoleUtilities.AskUserForList<SecurityGroup>(userInputConfigurationSecurityGroups, availableSecurityGroups, securityGroupsOptionSetting, recommendation); return new VPCConnectorTypeHintResponse() { UseVPCConnector = true, CreateNew = true, CreateNewVpc = false, VpcId = vpc.SelectedOption.VpcId, Subnets = subnets, SecurityGroups = securityGroups }; } else { var userInputConfiguration = new UserInputConfiguration<VpcConnector>( idSelector: vpcConnector => vpcConnector.VpcConnectorArn, displaySelector: vpcConnector => vpcConnector.VpcConnectorName, defaultSelector: vpcConnector => false ) { CanBeEmpty = false, CreateNew = false }; var userResponse = _consoleUtilities.AskUserToChooseOrCreateNew(vpcConnectors, "Select VPC Connector:", userInputConfiguration); var selectedVpcConnector = userResponse.SelectedOption?.VpcConnectorArn ?? string.Empty; return new VPCConnectorTypeHintResponse() { UseVPCConnector = true, CreateNew = false, VpcConnectorId = selectedVpcConnector }; } } } }	194
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using AWS.Deploy.CLI.Commands; using AWS.Deploy.CLI.Commands.TypeHints; using AWS.Deploy.CLI.Utilities; using AWS.Deploy.Common; using AWS.Deploy.Common.Data; using AWS.Deploy.Common.DeploymentManifest; using AWS.Deploy.Common.Extensions; using AWS.Deploy.Common.IO; using AWS.Deploy.Common.Recipes; using AWS.Deploy.Common.Recipes.Validation; using AWS.Deploy.Orchestration; using AWS.Deploy.Orchestration.CDK; using AWS.Deploy.Orchestration.Data; using AWS.Deploy.Orchestration.DisplayedResources; using AWS.Deploy.Orchestration.LocalUserSettings; using AWS.Deploy.Orchestration.ServiceHandlers; using AWS.Deploy.Orchestration.Utilities; using Microsoft.Extensions.DependencyInjection; using Microsoft.Extensions.DependencyInjection.Extensions; namespace AWS.Deploy.CLI.Extensions { public static class CustomServiceCollectionExtension { /// <summary> /// Extension method for <see cref="IServiceCollection"/> that injects essential app dependencies. /// It is safer to use singleton instances for dependencies because every command (ex. deploy, list-deployments) run as a separate instance. /// </summary> /// <param name="serviceCollection"><see cref="IServiceCollection"/> instance that holds the app dependencies.</param> /// <param name="lifetime"></param> public static void AddCustomServices(this IServiceCollection serviceCollection, ServiceLifetime lifetime = ServiceLifetime.Singleton) { serviceCollection.TryAdd(new ServiceDescriptor(typeof(IAWSClientFactory), typeof(DefaultAWSClientFactory), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(IAWSResourceQueryer), typeof(AWSResourceQueryer), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(IAWSUtilities), typeof(AWSUtilities), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(ICDKInstaller), typeof(CDKInstaller), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(ICDKManager), typeof(CDKManager), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(ICdkAppSettingsSerializer), typeof(CdkAppSettingsSerializer), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(ICdkProjectHandler), typeof(CdkProjectHandler), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(ICloudApplicationNameGenerator), typeof(CloudApplicationNameGenerator), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(ICommandLineWrapper), typeof(CommandLineWrapper), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(IConsoleUtilities), typeof(ConsoleUtilities), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(IDeployedApplicationQueryer), typeof(DeployedApplicationQueryer), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(IDeploymentBundleHandler), typeof(DeploymentBundleHandler), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(IDirectoryManager), typeof(DirectoryManager), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(IFileManager), typeof(FileManager), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(INPMPackageInitializer), typeof(NPMPackageInitializer), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(IOrchestratorInteractiveService), typeof(ConsoleOrchestratorLogger), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(IProjectDefinitionParser), typeof(ProjectDefinitionParser), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(IProjectParserUtility), typeof(ProjectParserUtility), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(ISystemCapabilityEvaluator), typeof(SystemCapabilityEvaluator), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(ICloudFormationTemplateReader), typeof(CloudFormationTemplateReader), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(IToolInteractiveService), typeof(ConsoleInteractiveServiceImpl), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(ITypeHintCommandFactory), typeof(TypeHintCommandFactory), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(IDisplayedResourceCommandFactory), typeof(DisplayedResourceCommandFactory), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(IDisplayedResourcesHandler), typeof(DisplayedResourcesHandler), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(IZipFileManager), typeof(ZipFileManager), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(IDeploymentManifestEngine), typeof(DeploymentManifestEngine), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(ILocalUserSettingsEngine), typeof(LocalUserSettingsEngine), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(ICommandFactory), typeof(CommandFactory), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(ICDKVersionDetector), typeof(CDKVersionDetector), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(IAWSServiceHandler), typeof(AWSServiceHandler), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(IS3Handler), typeof(AWSS3Handler), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(IElasticBeanstalkHandler), typeof(AWSElasticBeanstalkHandler), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(IOptionSettingHandler), typeof(OptionSettingHandler), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(IValidatorFactory), typeof(ValidatorFactory), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(IRecipeHandler), typeof(RecipeHandler), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(IEnvironmentVariableManager), typeof(EnvironmentVariableManager), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(IDeployToolWorkspaceMetadata), typeof(DeployToolWorkspaceMetadata), lifetime)); serviceCollection.TryAdd(new ServiceDescriptor(typeof(IDeploymentSettingsHandler), typeof(DeploymentSettingsHandler), lifetime)); var packageJsonTemplate = typeof(PackageJsonGenerator).Assembly.ReadEmbeddedFile(PackageJsonGenerator.TemplateIdentifier); serviceCollection.TryAdd(new ServiceDescriptor(typeof(IPackageJsonGenerator), (serviceProvider) => new PackageJsonGenerator(packageJsonTemplate), lifetime)); // required to run the application serviceCollection.AddSingleton<App>(); } } }	83
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System; namespace AWS.Deploy.CLI.Extensions { public static class StringTruncate { /// <summary> /// Truncates a string to the specified length. /// </summary> /// <param name="value">The string to be truncated.</param> /// <param name="maxLength">The maximum length.</param> /// <param name="ellipsis">true to add ellipsis to the truncated text; otherwise, false.</param> /// <returns>Truncated string.</returns> /// <exception cref="ArgumentOutOfRangeException">Thrown when maxLength less than truncated string length with ellipsis</exception> public static string Truncate(this string value, int maxLength, bool ellipsis = false) { if (ellipsis && maxLength <= 3) { throw new ArgumentOutOfRangeException(nameof(maxLength),$"{nameof(maxLength)} must be greater than three when replacing with an ellipsis."); } if (string.IsNullOrWhiteSpace(value)) { return string.Empty; } if (ellipsis && value.Length > maxLength) { return value.Substring(0, maxLength - 3) + "..."; } return value.Substring(0, Math.Min(value.Length, maxLength)); } } }	39
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System.Linq; using Amazon.EC2.Model; namespace AWS.Deploy.CLI.Extensions { public static class TypeHintUtilities { public static string GetDisplayableVpc(this Vpc vpc) { var name = vpc.Tags?.FirstOrDefault(x => x.Key == "Name")?.Value ?? string.Empty; var namePart = string.IsNullOrEmpty(name) ? "" : $" ({name}) "; var isDefaultPart = vpc.IsDefault ? " * Account Default VPC *" : ""; return $"{vpc.VpcId}{namePart}{isDefaultPart}"; } } }	28
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System.Runtime.CompilerServices; [assembly: InternalsVisibleTo("AWS.Deploy.CLI.UnitTests")]	7
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System; using System.Collections.Generic; using System.Collections.ObjectModel; using System.Linq; using System.Security.Claims; using System.Text; using System.Text.Encodings.Web; using System.Threading.Tasks; using Microsoft.AspNetCore.Authentication; using Microsoft.Extensions.Logging; using Microsoft.Extensions.Options; using Newtonsoft.Json; using AWS.Deploy.CLI.ServerMode.Services; namespace AWS.Deploy.CLI.ServerMode { public class AwsCredentialsAuthenticationSchemeOptions : AuthenticationSchemeOptions { } /// <summary> /// The ASP.NET Core Authentication handler. Verify the Authorization header has been correctly set with AWS Credentials. /// </summary> public class AwsCredentialsAuthenticationHandler : AuthenticationHandler<AwsCredentialsAuthenticationSchemeOptions> { public const string SchemaName = "aws-deploy-tool-server-mode"; public const string ClaimAwsAccessKeyId = "awsAccessKeyId"; public const string ClaimAwsSecretKey = "awsSecretKey"; public const string ClaimAwsSessionToken = "awsSessionToken"; public const string ClaimAwsIssueDate = "issueDate"; public const string ClaimAwsRequestId = "requestId"; /// <summary> /// The max duration auth request values are valid based on the issue date. /// </summary> public static readonly TimeSpan MaxIssueDateDuration = TimeSpan.FromSeconds(10); // Cache of auth request ids that have already been used. Request ids are not allowed to be reused. // The timestamp of when they were added is stored. Values can be cleared out cache after the MaxIssueDateDuration. private static readonly IDictionary<string, DateTime> _processedRequestIds = new Dictionary<string, DateTime>(); /// <summary> /// Readonly view of the already processed auth request ids. The main use case of this property is for testing. /// </summary> public static IReadOnlyDictionary<string, DateTime> ProcessRequestIds { get { return new ReadOnlyDictionary<string, DateTime>(_processedRequestIds); } } private readonly IEncryptionProvider _encryptionProvider; public AwsCredentialsAuthenticationHandler( IOptionsMonitor<AwsCredentialsAuthenticationSchemeOptions> options, ILoggerFactory logger, UrlEncoder encoder, ISystemClock clock, IEncryptionProvider encryptionProvider) : base(options, logger, encoder, clock) { _encryptionProvider = encryptionProvider; } protected override Task<AuthenticateResult> HandleAuthenticateAsync() { if (!Request.Headers.TryGetValue("Authorization", out var value)) { return Task.FromResult(AuthenticateResult.Fail("Missing Authorization header")); } return Task.FromResult(ProcessAuthorizationHeader(value, _encryptionProvider)); } public static AuthenticateResult ProcessAuthorizationHeader(string authorizationHeaderValue, IEncryptionProvider encryptionProvider) { var tokens = authorizationHeaderValue.Split(' '); if (tokens.Length != 2 && tokens.Length != 3) { var ivPlaceholder = ""; if (encryptionProvider is AesEncryptionProvider) { ivPlaceholder = "<iv> "; } return AuthenticateResult.Fail($"Incorrect format Authorization header. Format should be \"{SchemaName} {ivPlaceholder}<base-64-auth-parameters>\""); } if (tokens.Length == 2 && encryptionProvider is AesEncryptionProvider) { return AuthenticateResult.Fail($"Incorrect format Authorization header. Format should be \"{SchemaName} <iv> <base-64-auth-parameters>\""); } if (!string.Equals(SchemaName, tokens[0])) { return AuthenticateResult.Fail($"Unsupported authorization schema. Supported schema: {SchemaName}"); } try { byte[]? base64IV; byte[] base64Bytes; if (tokens.Length == 2) { base64IV = null; base64Bytes = Convert.FromBase64String(tokens[1]); } else { base64IV = Convert.FromBase64String(tokens[1]); base64Bytes = Convert.FromBase64String(tokens[2]); } var decryptedBytes = encryptionProvider.Decrypt(base64Bytes, base64IV); var json = Encoding.UTF8.GetString(decryptedBytes); var authParameters = JsonConvert.DeserializeObject<Dictionary<string, string>>(json) ?? new Dictionary<string, string>(); // Validate the issue date and request id are valid. var validateResult = ValidateAuthParameters(authParameters); if(validateResult != null) { return validateResult; } var claimIdentity = new ClaimsIdentity(nameof(AwsCredentialsAuthenticationHandler)); foreach (var kvp in authParameters) { claimIdentity.AddClaim(new Claim(kvp.Key, kvp.Value)); } var ticket = new AuthenticationTicket( new ClaimsPrincipal(claimIdentity), SchemaName); return AuthenticateResult.Success(ticket); } catch (Exception) { return AuthenticateResult.Fail("Error decoding authorization value"); } } public static AuthenticateResult? ValidateAuthParameters(IDictionary<string, string> authParameters) { lock (_processedRequestIds) { if (!authParameters.TryGetValue(ClaimAwsIssueDate, out var issueDateStr)) { return AuthenticateResult.Fail($"Authorization header missing {ClaimAwsIssueDate} property"); } if (!DateTime.TryParse(issueDateStr, out var issueDate)) { return AuthenticateResult.Fail("Failed to parse issue date"); } issueDate = issueDate.ToUniversalTime(); // The encrypted authorization header, which includes a date stamp, is only valid for a small amount of time. // The request can potentially go longer then a minute but the issue date check // is verified at the start of the request. This is to reduce the window the authorization // header could be replayed. if (issueDate < DateTime.UtcNow.Subtract(MaxIssueDateDuration)) { return AuthenticateResult.Fail("Issue date has expired"); } // Check to see if the issue date was incorrectly set in the future. A one second buffer is used in // case the caller was using a less precise clock. if(DateTime.UtcNow.AddSeconds(1) < issueDate) { return AuthenticateResult.Fail("Issue date invalid set in the future"); } if (!authParameters.TryGetValue(ClaimAwsRequestId, out var requestId)) { return AuthenticateResult.Fail($"Authorization header missing {ClaimAwsRequestId} property"); } // If the authorization header value is attempted to be reused then fail auth check. if (_processedRequestIds.ContainsKey(requestId)) { return AuthenticateResult.Fail($"Value for authorization header has already been used"); } // Store the request id so it can not be reused. _processedRequestIds.Add(requestId, DateTime.UtcNow); // Remove request ids that are older then MaxIssueDateDuration var expirationDate = DateTime.UtcNow.Subtract(MaxIssueDateDuration.Add(TimeSpan.FromSeconds(2))); var expiredRequests = _processedRequestIds.Where(x => x.Value < expirationDate); foreach (var expiredRequest in expiredRequests) { _processedRequestIds.Remove(expiredRequest.Key); } } return null; } } }	206
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 using System; using System.Collections.Generic; using System.Linq; using System.Text; using System.Threading.Tasks; using Newtonsoft.Json; namespace AWS.Deploy.CLI.ServerMode { public class EncryptionKeyInfo { public const string VERSION_1_0 = "1.0"; /// <summary> /// The version of the key info. If the property is set to a value that server mode has not implemented to support then /// a fatal exception is thrown. /// </summary> public string? Version { get; set; } /// <summary> /// Encryption key base 64 encoded /// </summary> public string? Key { get; set; } /// <summary> /// Encryption IV base 64 encoded /// </summary> public string? IV { get; set; } public static EncryptionKeyInfo ParseStdInKeyInfo(string input) { try { var json = Encoding.UTF8.GetString(Convert.FromBase64String(input)); var keyInfo = JsonConvert.DeserializeObject<EncryptionKeyInfo>(json); if(string.IsNullOrEmpty(keyInfo?.Key)) { throw new InvalidEncryptionKeyInfoException("The symmetric key is missing a \"Key\" attribute."); } return keyInfo; } catch (Exception) { throw new InvalidEncryptionKeyInfoException($"The symmetric key has not been passed to Stdin or is invalid."); } } } }	55
aws-dotnet-deploy	aws	C#	// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.\r // SPDX-License-Identifier: Apache-2.0 using System; using AWS.Deploy.Common; namespace AWS.Deploy.CLI.ServerMode { /// <summary> /// Throw if the selected recommendation is null. /// </summary> public class SelectedRecommendationIsNullException : Exception { public SelectedRecommendationIsNullException(string message, Exception? innerException = null) : base(message, innerException) { } } /// <summary> /// Throw if the selected recommendation is incompatible with the operation performed. /// </summary> public class SelectedRecommendationIsIncompatibleException : Exception { public SelectedRecommendationIsIncompatibleException(string message, Exception? innerException = null) : base(message, innerException) { } } /// <summary> /// Throw if the tool was not able to retrieve the AWS Credentials. /// </summary> public class FailedToRetrieveAWSCredentialsException : Exception { public FailedToRetrieveAWSCredentialsException(string message, Exception? innerException = null) : base(message, innerException) { } } /// <summary> /// Throw if encryption key info passed in through stdin is invalid. /// </summary> public class InvalidEncryptionKeyInfoException : Exception { public InvalidEncryptionKeyInfoException(string message, Exception? innerException = null) : base(message, innerException) { } } /// <summary> /// Throw if could not find deployment targets mapping. /// </summary> public class FailedToFindDeploymentTargetsMappingException : Exception { public FailedToFindDeploymentTargetsMappingException(string message, Exception? innerException = null) : base(message, innerException) { } } }	49

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