private void ClearIntermediateResults()
{
// matrices
OriginalState.Clear();
OriginalStateDiffusion.Clear();
AdditionResultState.Clear();
AdditionResultStateDiffusion.Clear();
LittleEndianState.Clear();
LittleEndianStateDiffusion.Clear();
// qr
QRInput.Clear();
QRInputDiffusion.Clear();
QRStep.Clear();
QRStepDiffusion.Clear();
QROutput.Clear();
QROutputDiffusion.Clear();
InputMessage.Clear();
Keystream.Clear();
KeystreamDiffusion.Clear();
Output.Clear();
OutputDiffusion.Clear();
}
/// <summary>
/// En- or decrypt input stream with ChaCha.
/// </summary>
/// <param name="key">The secret 128-bit or 256-bit key. A 128-bit key will be expanded into a 256-bit key by concatenation with itself.</param>
/// <param name="iv">Initialization vector (DJB version: 64-bit, IETF version: 96-bit)</param>
/// <param name="initialCounter">Initial counter (DJB version: 64-bit, IETF version: 32-bit)</param>
/// <param name="settings">Chosen Settings in the Plugin workspace. Includes Rounds and Version property.</param>
/// <param name="input">Input stream</param>
/// <param name="output">Output stream</param>
/// <param name="keystreamWriter">Keystream Output stream</param>
private void Xcrypt(byte[] key, byte[] iv, ulong initialCounter, ChaChaSettings settings, ICryptoolStream input, CStreamWriter output, CStreamWriter keystreamOutput)
{
if (!(key.Length == 32 || key.Length == 16))
{
throw new ArgumentOutOfRangeException("key", key.Length, "Key must be exactly 128-bit or 256-bit.");
}
if (iv.Length != settings.Version.IVBits / 8)
{
throw new ArgumentOutOfRangeException("iv", iv.Length, $"IV must be exactly {settings.Version.IVBits}-bit.");
}
void AssertCounter(ulong counter, ulong max)
{
if (!(0 <= counter && counter <= max))
{
throw new ArgumentOutOfRangeException("initialCounter", counter, $"Initial counter must be between 0 and {max}.");
}
}
if (settings.Version == Version.DJB)
{
AssertCounter(initialCounter, ulong.MaxValue);
}
else if (settings.Version == Version.IETF)
{
AssertCounter(initialCounter, uint.MaxValue);
}
// The first 512-bit state. Reused for counter insertion.
uint[] firstState = State(key, iv, initialCounter, settings.Version);
// Buffer to read 512-bit input block
byte[] inputBytes = new byte[64];
CStreamReader inputReader = input.CreateReader();
// byte size of input
long inputSize = inputReader.Length;
// one keystream block is 64 bytes (512 bit)
TotalKeystreamBlocks = (int)Math.Ceiling((double)(inputSize) / 64);
ulong blockCounter = initialCounter;
int read = inputReader.Read(inputBytes);
while (read != 0)
{
// Will hold the state during each keystream
uint[] state = (uint[])firstState.Clone();
InsertCounter(ref state, blockCounter, settings.Version);
ChaChaHash(ref state, settings.Rounds);
byte[] keystream = ByteUtil.ToByteArray(state);
keystreamOutput.Write(keystream);
byte[] c = ByteUtil.XOR(keystream, inputBytes, read);
output.Write(c);
// Don't add to InputMessage during diffusion run because it won't
// return a different list during the diffusion run.
if (!DiffusionExecution)
{
InputMessage.AddRange(inputBytes.Take(read));
}
Keystream.AddRange(keystream.Take(read));
Output.AddRange(c);
blockCounter++;
// Read next input block
read = inputReader.Read(inputBytes);
}
inputReader.Dispose();
output.Flush();
output.Close();
output.Dispose();
keystreamOutput.Flush();
keystreamOutput.Close();
keystreamOutput.Dispose();
}
