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Here's the deal: I'm moving a .NET website to Python. I have a database with passwords hashed using the System.Security.Cryptography.SHA1Managed utility.

I'm creating the hash in .NET with the following code:

string hashedPassword = Cryptographer.CreateHash("MYHasher", userInfo.Password);

The MYHasher block looks like this:

<add algorithmType="System.Security.Cryptography.SHA1Managed, mscorlib, Version=2.0.0.0, Culture=neutral, PublicKeyToken=blahblahblah"
    saltEnabled="true" type="Microsoft.Practices.EnterpriseLibrary.Security.Cryptography.HashAlgorithmProvider, Microsoft.Practices.EnterpriseLibrary.Security.Cryptography, Version=3.0.0.0, Culture=neutral, PublicKeyToken=daahblahdahdah"
    name="MYHasher" />

So for a given password, I get back and store in the database a 48 byte salted sha1. I assume the last 8 bytes are the salt. I have tried to reproduce the hashing process in python by doing a sha1(salt + password) and sha1(password + salt) but I'm having no luck.

My question to you:

  1. How are the public keys being used?
  2. How is the password rehashed using the salt.
  3. How is the salt created? (e.g., When I say saltEnabled="true", what extra magic happens?)

I need specific details that don't just reference other .NET libraries, I'm looking for the actual operational logic that happens in the blackbox.

Thanks!

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3 Answers 3

Sorry for the late reply, but I've just come across a similar situation while trying to replicate the SHA1 hashing logic used in the Enterprise Library's Cryptography Block, but with using Java.

To answer each of your questions:

  1. How are the public keys being used?

    The PublicKeyToken in the configuration block above is used to identify a signed, strong-named .net assembly. This is a 64-bit hash of the public key that corresponds to the private key used to sign the assembly. NOTE: This key has absolutely no bearing on your implementation to hash data.

  2. How is the password rehashed using the salt.

    The sequence of events to create the hashed password with the salt is as follows:

    • Call Cryptographer.CreateHash("MYHasher",value); where "MYHasher" is the name of the configured System.Security.Cryptography.SHA1Managed instance provider specified in your configuration block, and value is the string to be hashed.

    • The above method makes a call to CreateHash(IHashProvider provider, string plaintext), where a resolved IHashProvider is supplied. Inside this method, the following code is run:

    
    byte[] bytes = Encoding.Unicode.GetBytes(plaintext);
    byte[] hash = provider.CreateHash(bytes);
    CryptographyUtility.GetRandomBytes(bytes);
    return Convert.ToBase64String(hash);
    
    
    • The value argument that was passed right at the beginning (which is now the plaintext argument) is converted into a byte array, using Unicode encoding.

    • Next, the SHA1 hash provider's CreateHash(bytes) method is called with the byte array created above. Inside this method, the following steps occur:

    • this.CreateHashWithSalt(plaintext, (byte[]) null); is called, where plaintext is a byte array containing the original value passed in at the top of the stack as a string. The second argument is the salt byte array (which is null). Inside this method, the following code is called:

    
    this.AddSaltToPlainText(ref salt, ref plaintext);
    byte[] hash = this.HashCryptographer.ComputeHash(plaintext);
    this.AddSaltToHash(salt, ref hash);
    return hash;
    
    
    • this.AddSaltToPlainText(ref salt, ref plaintext) is the first clue as to how the supplied text is salted. Inside this method, the following code runs:
    
    if (!this.saltEnabled)
        return;
      if (salt == null)
        salt = CryptographyUtility.GetRandomBytes(16);
      plaintext = CryptographyUtility.CombineBytes(salt, plaintext);
    
    
    • The this.saltEnabled variable is initialised by the saltEnabled="true" in your configuration block. If true, and if you haven't supplied a salt, a byte array of 16 random bytes will be generated for you (via calling an external C API).
    • The plaintext variable then has the salt prepended to it. e.g.: [salt][plaintext]

This is very important to note!

  • The combination of the salt and plaintext are then SHA1-hashed by calling this.HashCryptographer.ComputeHash(plaintext);. This will produce a 20 byte long array.

  • Then, the salt is prepended again to the 20 byte array created previously, via the call this.AddSaltToHash(salt, ref hash);, to give you a 36 byte long array.

  • Going back up the stack will eventually lead you to the call return Convert.ToBase64String(hash); inside the CreateHash() method. This will return the Base64 string representation of the SHA1 salted hashed value + salt that was supplied.

Formula: Base64(salt + SHA1(salt + value))

  1. How is the salt created? (e.g., When I say saltEnabled="true", what extra magic happens?)

    This was answered in question 2, specifically the call to CryptographyUtility.GetRandomBytes(16); which eventually calls a C library:

[DllImport("QCall", CharSet = CharSet.Unicode)] private static extern void GetBytes(SafeProvHandle hProv, byte[] randomBytes, int count);

Hope this helps in some way!

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According to this previous thread, this should be something like sha1(password+salt)+salt. SHA-1 output is twenty bytes, so for 48 bytes this should be a 28-byte salt, not an 8-byte salt, unless some sort of encoding was used.

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When you use the string CreateHash(string, string) overload, the following occurs:

  1. The string is converted to bytes using UTF16 (using Encoding.Unicode.GetBytes()).
  2. A random 16-byte salt is generated.
  3. The salt is appended to the converted string and hashed.
  4. The salt is appended to the hash.
  5. The hash+salt is converted back to a string using base64 (using Convert.ToBase64String()).
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