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//------------------------------------------------------------------------------
// <copyright file="SqlAeadAes256CbcHmac256Factory.cs" company="Microsoft">
// Copyright (c) Microsoft Corporation. All rights reserved.
// </copyright>
// <owner current="true" primary="true">balnee</owner>
// <owner current="true" primary="false">krishnib</owner>
//------------------------------------------------------------------------------
namespace System.Data.SqlClient
{
using System;
using System.Collections.Concurrent;
using System.Data.SqlClient;
using System.Diagnostics;
using System.Text;
/// <summary>
/// This is a factory class for AES_256_CBC.
/// </summary>
internal class SqlAes256CbcFactory : SqlAeadAes256CbcHmac256Factory
{
/// <summary>
/// Factory classes caches the SqlAeadAes256CbcHmac256EncryptionKey objects to avoid computation of the derived keys
/// </summary>
private readonly ConcurrentDictionary<string, SqlAes256CbcAlgorithm> _encryptionAlgorithms =
new ConcurrentDictionary<string, SqlAes256CbcAlgorithm>(concurrencyLevel: 4 * Environment.ProcessorCount /* default value in ConcurrentDictionary*/, capacity: 2);
/// <summary>
/// Creates an instance of SqlAes256CbcAlgorithm class with a given key
/// </summary>
/// <param name="encryptionKey">Root key</param>
/// <param name="encryptionType">Encryption Type. Expected values are either Determinitic or Randomized.</param>
/// <param name="encryptionAlgorithm">Encryption Algorithm.</param>
/// <returns></returns>
internal override SqlClientEncryptionAlgorithm Create(SqlClientSymmetricKey encryptionKey, SqlClientEncryptionType encryptionType, string encryptionAlgorithm)
{
// Callers should have validated the encryption algorithm and the encryption key
Debug.Assert(encryptionKey != null);
Debug.Assert(string.Equals(encryptionAlgorithm, SqlAes256CbcAlgorithm.AlgorithmName, StringComparison.OrdinalIgnoreCase) == true);
// Validate encryption type
if (!((encryptionType == SqlClientEncryptionType.Deterministic) || (encryptionType == SqlClientEncryptionType.Randomized)))
{
throw SQL.InvalidEncryptionType(SqlAes256CbcAlgorithm.AlgorithmName,
encryptionType,
SqlClientEncryptionType.Deterministic,
SqlClientEncryptionType.Randomized);
}
// Get the cached encryption algorithm if one exists or create a new one, add it to cache and use it
//
// For now, we only have one version. In future, we may need to parse the algorithm names to derive the version byte.
const byte algorithmVersion = 0x1;
StringBuilder algorithmKeyBuilder = new StringBuilder(Convert.ToBase64String(encryptionKey.RootKey), SqlSecurityUtility.GetBase64LengthFromByteLength(encryptionKey.RootKey.Length) + 4/*separators, type and version*/);
#if DEBUG
int capacity = algorithmKeyBuilder.Capacity;
#endif //DEBUG
algorithmKeyBuilder.Append(":");
algorithmKeyBuilder.Append((int)encryptionType);
algorithmKeyBuilder.Append(":");
algorithmKeyBuilder.Append(algorithmVersion);
string algorithmKey = algorithmKeyBuilder.ToString();
#if DEBUG
Debug.Assert(algorithmKey.Length <= capacity, "We needed to allocate a larger array");
#endif //DEBUG
SqlAes256CbcAlgorithm aesAlgorithm;
if (!_encryptionAlgorithms.TryGetValue(algorithmKey, out aesAlgorithm))
{
SqlAeadAes256CbcHmac256EncryptionKey encryptedKey = new SqlAeadAes256CbcHmac256EncryptionKey(encryptionKey.RootKey, SqlAes256CbcAlgorithm.AlgorithmName);
aesAlgorithm = new SqlAes256CbcAlgorithm(encryptedKey, encryptionType, algorithmVersion);
// In case multiple threads reach here at the same time, the first one adds the value
// the second one will be a no-op, the allocated memory will be claimed by Garbage Collector.
_encryptionAlgorithms.TryAdd(algorithmKey, aesAlgorithm);
}
return aesAlgorithm;
}
}
}
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