/// <summary>
/// Reset the seed <see cref="VTDev.Libraries.CEXEngine.Crypto.Enumeration.SeedGenerators">Seed Generator</see> and the <see cref="VTDev.Libraries.CEXEngine.Crypto.Enumeration.Digests">Digest</see> engines
/// </summary>
public void Reset()
{
if (m_seedEngine != null)
{
m_seedEngine.Dispose();
m_seedEngine = null;
}
m_seedEngine = SeedGeneratorFromName.GetInstance(SeedEngine);
// reset hash engine
if (m_hashEngine != null)
{
m_hashEngine.Dispose();
m_hashEngine = null;
}
m_hashEngine = DigestFromName.GetInstance(HashEngine);
// if absent, generate the initial counter
if (m_ctrLength == 0)
{
if (m_hashEngine.BlockSize < 72)
{
m_ctrLength = CTRDEF_SIZE;
}
else
{
m_ctrLength = CTRMAX_SIZE;
}
m_ctrVector = new byte[m_ctrLength];
using (CSPRsg pool = new CSPRsg())
m_ctrVector = pool.GetBytes(m_ctrLength);
}
}
private void DigestTest(Digests DigestType, string Path, bool Parallel = false)
{
int hashSize = DigestFromName.GetDigestSize(DigestType);
using (StreamReader r = new StreamReader(Path))
{
string line;
while ((line = r.ReadLine()) != null)
{
if (line.Contains(DMK_INP))
{
byte[] input = new byte[0];
byte[] expect = new byte[hashSize];
byte[] key = new byte[0];
byte[] hash = new byte[hashSize];
int sze = DMK_INP.Length;
if (line.Length - sze > 0)
{
input = HexConverter.Decode(line.Substring(sze, line.Length - sze));
}
line = r.ReadLine();
sze = DMK_KEY.Length;
if (line.Length - sze > 0)
{
key = HexConverter.Decode(line.Substring(sze, line.Length - sze));
}
line = r.ReadLine();
sze = DMK_HSH.Length;
if (line.Length - sze > 0)
{
expect = HexConverter.Decode(line.Substring(sze, line.Length - sze));
}
IDigest dgt = DigestFromName.GetInstance(DigestType, Parallel);
if (dgt.Enumeral == Digests.Blake2B512)
{
((Blake2B512)dgt).LoadMacKey(new MacParams(key));
}
else
{
((Blake2S256)dgt).LoadMacKey(new MacParams(key));
}
hash = dgt.ComputeHash(input);
//16,235
if (Evaluate.AreEqual(hash, expect) == false)
{
throw new Exception("Blake2: Expected hash is not equal!");
}
}
}
}
}
/// <summary>
/// Get the digest engine
/// </summary>
///
/// <param name="DigestType">Engine type</param>
///
/// <returns>Instance of digest</returns>
private IDigest GetDigest(Digests DigestType)
{
try
{
return(DigestFromName.GetInstance(DigestType));
}
catch
{
throw new CryptoAsymmetricException("RLWESign:GetDigest", "The digest type is not unsupported!", new ArgumentException());
}
}
/// <summary>
/// Get the digest engine
/// </summary>
///
/// <param name="DigestType">Engine type</param>
///
/// <returns>Instance of digest</returns>
private IDigest GetDigest(Digests DigestType)
{
try
{
return(DigestFromName.GetInstance(DigestType));
}
catch
{
throw new CryptoRandomException("GMSSKeyGenerator:GetDigest", "The digest type is not recognized!", new ArgumentException());
}
}
private IDigest LoadDigest(Digests KeyEngine)
{
try
{
return(DigestFromName.GetInstance(KeyEngine));
}
catch
{
throw new CryptoSymmetricException("RHX:GetKeyEngine", "The digest type is not supported!", new ArgumentException());
}
}
private IDigest GetDigest(Digests DigestType)
{
try
{
return(DigestFromName.GetInstance(DigestType));
}
catch
{
throw new CryptoProcessingException("DigestStream:GetDigest", "The digest type is not unsupported!", new ArgumentException());
}
}
/// <summary>
/// Get the digest engine
/// </summary>
///
/// <param name="DigestType">Engine type</param>
///
/// <returns>Instance of digest</returns>
///
/// <exception cref="CryptoAsymmetricException">Thrown if the digest is unrecognized or unsupported</exception>
private IDigest GetDigest(Digests DigestType)
{
try
{
return(DigestFromName.GetInstance(DigestType));
}
catch
{
throw new CryptoAsymmetricException("MPKCSign:GetDigest", "The digest is unrecognized or unsupported!", new ArgumentException());
}
}