public static byte[] ComputeDerivedKey(KeyedHashAlgorithm hmacAlgorithm, byte[] salt, int iterations,
int derivedKeyLength)
{
NBitcoin.Crypto.Internal.Check.Range("derivedKeyLength", derivedKeyLength, 0, int.MaxValue);
using (Pbkdf2 kdf = new Pbkdf2(hmacAlgorithm, salt, iterations))
{
return(kdf.Read(derivedKeyLength));
}
}
/// <summary>
/// Computes a derived key.
/// </summary>
/// <param name="hmacAlgorithm">
/// </param>
/// <param name="salt">
/// The salt.
/// A unique salt means a unique derived key, even if the original key is identical.
/// </param>
/// <param name="iterations">The number of iterations to apply.</param>
/// <param name="derivedKeyLength">The desired length of the derived key.</param>
/// <returns>The derived key.</returns>
#if NETCORE
public static byte[] ComputeDerivedKey(IMac hmacAlgorithm, byte[] salt, int iterations,
int derivedKeyLength)
{
Internal.Check.Range("derivedKeyLength", derivedKeyLength, 0, int.MaxValue);
using (var kdf = new Pbkdf2(hmacAlgorithm, salt, iterations))
{
return(kdf.Read(derivedKeyLength));
}
}
public static byte[] ComputeDerivedKey(byte[] key, byte[] salt,
int cost, int blockSize, int parallel, int?maxThreads,
int derivedKeyLength)
{
Check.Range("derivedKeyLength", derivedKeyLength, 0, int.MaxValue);
using (Pbkdf2 kdf = GetStream(key, salt, cost, blockSize, parallel, maxThreads))
{
return(kdf.Read(derivedKeyLength));
}
}
/// <summary>
/// Computes a derived key.
/// </summary>
/// <param name="key">The key to derive from.</param>
/// <param name="salt">
/// The salt.
/// A unique salt means a unique SCrypt stream, even if the original key is identical.
/// </param>
/// <param name="cost">
/// The cost parameter, typically a fairly large number such as 262144.
/// Memory usage and CPU time scale approximately linearly with this parameter.
/// </param>
/// <param name="blockSize">
/// The mixing block size, typically 8.
/// Memory usage and CPU time scale approximately linearly with this parameter.
/// </param>
/// <param name="parallel">
/// The level of parallelism, typically 1.
/// CPU time scales approximately linearly with this parameter.
/// </param>
/// <param name="maxThreads">
/// The maximum number of threads to spawn to derive the key.
/// This is limited by the <paramref name="parallel"/> value.
/// <c>null</c> will use as many threads as possible.
/// </param>
/// <param name="derivedKeyLength">The desired length of the derived key.</param>
/// <returns>The derived key.</returns>
public static byte[] ComputeDerivedKey(byte[] key, byte[] salt,
int cost, int blockSize, int parallel, int?maxThreads,
int derivedKeyLength)
{
Check.Range("derivedKeyLength", derivedKeyLength, 0, int.MaxValue);
#if NO_NATIVE_RFC2898_HMACSHA512 || NO_NATIVE_HMACSHA512
using (Pbkdf2 kdf = GetStream(key, salt, cost, blockSize, parallel, maxThreads))
{
return(kdf.Read(derivedKeyLength));
}
#else
byte[] B = GetEffectivePbkdf2Salt(key, salt, cost, blockSize, parallel, maxThreads);
using System.Security.Cryptography.Rfc2898DeriveBytes derive = new System.Security.Cryptography.Rfc2898DeriveBytes(key, B, 1, System.Security.Cryptography.HashAlgorithmName.SHA256);
Security.Clear(B);
return(derive.GetBytes(derivedKeyLength));
#endif
}
/// <summary>
/// Computes a derived key.
/// </summary>
/// <param name="hmacAlgorithm">
/// The HMAC algorithm to use, for example <see cref="HMACSHA256"/>.
/// Make sure to set <see cref="KeyedHashAlgorithm.Key"/>.
/// </param>
/// <param name="salt">
/// The salt.
/// A unique salt means a unique derived key, even if the original key is identical.
/// </param>
/// <param name="iterations">The number of iterations to apply.</param>
/// <param name="derivedKeyLength">The desired length of the derived key.</param>
/// <returns>The derived key.</returns>
public static byte[] ComputeDerivedKey(KeyedHashAlgorithm hmacAlgorithm, byte[] salt, int iterations,
int derivedKeyLength)
{
Check.Range("derivedKeyLength", derivedKeyLength, 0, int.MaxValue);
using (Pbkdf2 kdf = new Pbkdf2(hmacAlgorithm, salt, iterations))
{
return kdf.Read(derivedKeyLength);
}
}
