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EtM_Transforms.cs
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EtM_Transforms.cs
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using System;
using System.Runtime.CompilerServices;
using System.Security.Cryptography;
namespace SecurityDriven.Inferno
{
using Cipher;
public static class EtM_Transform_Constants
{
const int LOH_THRESHOLD = 85000 - 1;
public const int ETM_CTR_OVERHEAD = EtM_CTR.CONTEXT_TWEAK_LENGTH /* key_tweak */ + EtM_CTR.NONCE_LENGTH /* nonce_tweak */ + EtM_CTR.MAC_LENGTH /* mac */;
public const int INPUT_BLOCK_SIZE = (LOH_THRESHOLD - ETM_CTR_OVERHEAD) / AesConstants.AES_BLOCK_SIZE * AesConstants.AES_BLOCK_SIZE; // largest pre-overhead size below LOH divisible by blocksize (to avoid wasting keystream)
public const int OUTPUT_BLOCK_SIZE = INPUT_BLOCK_SIZE + ETM_CTR_OVERHEAD;
internal const int INITIAL_CHUNK_NUMBER = 1;
}// class EtM_Transform_Constants
public class EtM_EncryptTransform : ICryptoTransform
{
public bool CanReuseTransform { get { return false; } }
public bool CanTransformMultipleBlocks { get { return true; } }
public int InputBlockSize { get { return EtM_Transform_Constants.INPUT_BLOCK_SIZE; } }
public int OutputBlockSize { get { return EtM_Transform_Constants.OUTPUT_BLOCK_SIZE; } }
byte[] key;
uint currentChunkNumber;
ArraySegment<byte>? salt;
public uint CurrentChunkNumber { get { return this.currentChunkNumber; } }
internal static void PrependSaltWith1stBlockContext(ref ArraySegment<byte>? salt, byte[] contextBuffer, int contextBufferOffset)
{
int saltLength = salt?.Count ?? 0;
var streamContextCombinedWithSalt = new byte[EtM_CTR.CONTEXT_TWEAK_LENGTH + saltLength];
for (int i = EtM_CTR.CONTEXT_TWEAK_LENGTH - 1; i >= 0; --i)
{
streamContextCombinedWithSalt[i] = contextBuffer[contextBufferOffset + i];
}
if (saltLength > 0)
{
var saltValue = salt.GetValueOrDefault();
Utils.BlockCopy(saltValue.Array, saltValue.Offset, streamContextCombinedWithSalt, EtM_CTR.CONTEXT_TWEAK_LENGTH, saltLength);
}
salt = new ArraySegment<byte>(streamContextCombinedWithSalt);
}// PrependSaltWith1stBlockContext()
/// <summary>ctor</summary>
public EtM_EncryptTransform(byte[] key, ArraySegment<byte>? salt = null)
{
this.key = key ?? throw new ArgumentNullException(nameof(key), nameof(key) + " cannot be null.");
this.salt = salt;
this.currentChunkNumber = EtM_Transform_Constants.INITIAL_CHUNK_NUMBER;
}
public int TransformBlock(byte[] inputBuffer, int inputOffset, int inputCount, byte[] outputBuffer, int outputOffset)
{
int partialBlockSize = inputCount % EtM_Transform_Constants.INPUT_BLOCK_SIZE;
int fullBlockSize = inputCount - partialBlockSize;
if (partialBlockSize != 0)
throw new Exception("inputCount must be a multiple of input block size (" + EtM_Transform_Constants.INPUT_BLOCK_SIZE.ToString() + ").");
int i = 0, j = 0;
if (fullBlockSize > 0)
{
for (; i < fullBlockSize; i += EtM_Transform_Constants.INPUT_BLOCK_SIZE, j += EtM_Transform_Constants.OUTPUT_BLOCK_SIZE)
{
EtM_CTR.Encrypt(
masterKey: this.key,
plaintext: new ArraySegment<byte>(inputBuffer, inputOffset + i, EtM_Transform_Constants.INPUT_BLOCK_SIZE),
output: outputBuffer,
outputOffset: outputOffset + j,
salt: this.salt,
counter: this.currentChunkNumber);
if (this.currentChunkNumber == EtM_Transform_Constants.INITIAL_CHUNK_NUMBER)
{
EtM_EncryptTransform.PrependSaltWith1stBlockContext(ref this.salt, outputBuffer, outputOffset);
}
checked { ++this.currentChunkNumber; }
}
}
return j;
}// TransformBlock()
public byte[] TransformFinalBlock(byte[] inputBuffer, int inputOffset, int inputCount)
{
if (this.key == null) return null; // key would be null if this instance has already been disposed
if (inputCount >= EtM_Transform_Constants.INPUT_BLOCK_SIZE)
throw new Exception("Final input block size must be smaller than " + EtM_Transform_Constants.INPUT_BLOCK_SIZE.ToString() + ".");
byte[] outputBuffer = new byte[EtM_Transform_Constants.ETM_CTR_OVERHEAD + inputCount];
EtM_CTR.Encrypt(
masterKey: this.key,
plaintext: new ArraySegment<byte>(inputBuffer, inputOffset, inputCount),
output: outputBuffer,
outputOffset: 0,
salt: this.salt,
counter: this.currentChunkNumber);
this.Dispose();
return outputBuffer;
}// TransformFinalBlock()
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public void Dispose()
{
this.key = null;
}// Dispose()
}// class EtM_EncryptTransform
public class EtM_DecryptTransform : ICryptoTransform
{
public bool CanReuseTransform { get { return false; } }
public bool CanTransformMultipleBlocks { get { return true; } }
public int InputBlockSize { get { return EtM_Transform_Constants.OUTPUT_BLOCK_SIZE; } }
public int OutputBlockSize { get { return EtM_Transform_Constants.INPUT_BLOCK_SIZE; } }
public bool IsComplete { get; private set; }
public bool IsAuthenticateOnly { get; private set; }
byte[] key;
uint currentChunkNumber;
ArraySegment<byte>? salt;
public uint CurrentChunkNumber { get { return this.currentChunkNumber; } }
/// <summary>ctor</summary>
public EtM_DecryptTransform(byte[] key, ArraySegment<byte>? salt = null, bool authenticateOnly = false)
{
if (key == null) throw new ArgumentNullException(nameof(key), nameof(key) + " cannot be null.");
this.key = key;
this.salt = salt;
this.currentChunkNumber = EtM_Transform_Constants.INITIAL_CHUNK_NUMBER;
this.IsAuthenticateOnly = authenticateOnly;
}
public int TransformBlock(byte[] inputBuffer, int inputOffset, int inputCount, byte[] outputBuffer, int outputOffset)
{
int partialBlockSize = inputCount % EtM_Transform_Constants.OUTPUT_BLOCK_SIZE;
int fullBlockSize = inputCount - partialBlockSize;
if (partialBlockSize != 0)
throw new Exception("inputCount must be a multiple of output block size (" + EtM_Transform_Constants.OUTPUT_BLOCK_SIZE.ToString() + ").");
int i = 0, j = 0;
if (fullBlockSize > 0)
{
var authenticateOnly = this.IsAuthenticateOnly;
for (; i < fullBlockSize; i += EtM_Transform_Constants.OUTPUT_BLOCK_SIZE, j += EtM_Transform_Constants.INPUT_BLOCK_SIZE)
{
var outputSegment = new ArraySegment<byte>?(new ArraySegment<byte>(outputBuffer, outputOffset + j, EtM_Transform_Constants.INPUT_BLOCK_SIZE));
var cipherText = new ArraySegment<byte>(inputBuffer, inputOffset + i, EtM_Transform_Constants.OUTPUT_BLOCK_SIZE);
if (authenticateOnly)
{
if (!EtM_CTR.Authenticate(
masterKey: this.key,
ciphertext: cipherText,
salt: this.salt,
counter: this.currentChunkNumber))
outputSegment = null;
}
else
{
EtM_CTR.Decrypt(
masterKey: this.key,
ciphertext: cipherText,
outputSegment: ref outputSegment,
salt: this.salt,
counter: this.currentChunkNumber);
}
if (outputSegment == null)
{
this.key = null;
throw new CryptographicException("Decryption failed for block " + this.currentChunkNumber.ToString() + ".");
}
if (this.currentChunkNumber == EtM_Transform_Constants.INITIAL_CHUNK_NUMBER)
{
EtM_EncryptTransform.PrependSaltWith1stBlockContext(ref this.salt, inputBuffer, inputOffset);
}
checked { ++this.currentChunkNumber; }
}
}
return j;
}// TransformBlock()
public byte[] TransformFinalBlock(byte[] inputBuffer, int inputOffset, int inputCount)
{
if (this.key == null) return null; // key would be null if this instance has already been disposed, or previously-called TransformBlock() failed
if (inputCount >= EtM_Transform_Constants.OUTPUT_BLOCK_SIZE)
throw new Exception("Final output block size must be smaller than " + EtM_Transform_Constants.OUTPUT_BLOCK_SIZE.ToString() + ".");
if (inputCount < EtM_Transform_Constants.ETM_CTR_OVERHEAD)
throw new Exception("Final output block size must must be at least " + EtM_Transform_Constants.ETM_CTR_OVERHEAD.ToString() + ".");
byte[] outputBuffer = null;
var cipherText = new ArraySegment<byte>(inputBuffer, inputOffset, inputCount);
if (this.IsAuthenticateOnly)
{
if (EtM_CTR.Authenticate(
masterKey: this.key,
ciphertext: cipherText,
salt: this.salt,
counter: this.currentChunkNumber))
outputBuffer = Array.Empty<byte>();
}
else
{
outputBuffer = EtM_CTR.Decrypt(
masterKey: this.key,
ciphertext: cipherText,
salt: this.salt,
counter: this.currentChunkNumber);
}
this.Dispose();
if (outputBuffer == null)
throw new CryptographicException("Decryption failed for block " + this.currentChunkNumber.ToString() + ".");
this.IsComplete = true;
return outputBuffer;
}// TransformFinalBlock()
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public void Dispose()
{
this.key = null;
}// Dispose()
}// class EtM_DecryptTransform
}//ns