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When encrypting, can RSACryptoServiceProvider (or any other RSA encryptor available from .NET) use SHA256 instead of SHA1?

SHA1 appears to be hard coded with no way to change it. For example, RSACryptoServiceProvider.SignatureAlgorithm is hard coded to return "http://www.w3.org/2000/09/xmldsig#rsa-sha1".

If there is no way to make RSACryptoServiceProvider use SHA256, what are the alternatives?


Update

The following code works perfectly, but I'd like to change the OAEPWithSHA1AndMGF1Padding to OAEPWithSHA256AndMGF1Padding. What is required on the C# side to be able to encrypt using SHA256 rather than SHA1?

The encryption is done in C# using:

var parameters = new RSAParameters();
parameters.Exponent = new byte[] {0x01, 0x00, 0x01};
parameters.Modulus = new byte[] {0x9d, 0xc1, 0xcc, ...};
rsa.ImportParameters(parameters);

var cipherText = rsa.Encrypt(new byte[] { 0, 1, 2, 3 }, true);

The decryption is done in Java using:

Cipher cipher = Cipher.getInstance("RSA/NONE/OAEPWithSHA1AndMGF1Padding", "BC");
cipher.init(Cipher.DECRYPT_MODE, keyPair.getPrivate());
byte[] cipherText = ...;
byte[] plainText = cipher.doFinal(cipherText);
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What is wrong with using SHA1 in the OAEP padding scheme? –  GregS Feb 26 '11 at 1:37
    
I'd rather use SHA256 from the start than be forced to urgently upgrade to it in a year or two when some customer is required to comply with tighter rules. SHA1 is looking weaker and weaker, with the recommendation being to use SHA256. –  Jonathan Wright Feb 26 '11 at 23:12
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5 Answers

If there is no way to have RSACryptoServiceProvider handle OAEP-with-SHA-256 (answers from other seem to tell so), then you can still implement the operation yourself. We are talking about the encryption part, which uses the public key only. The public key is, well, public, which means that you can export it (actually, in your code, you already have the modulus and exponent as array of bytes), and there are no gotchas about secret data leakage through a careless implementation, since there is no secret key here.

Implementing OAEP entails the following:

  • Follow PKCS#1, section 7.1. This transforms the data to encrypt into a sequence of bytes of the same length than the RSA modulus. You will need a SHA-256 implementation (System.Security.Cryptography.SHA256Managed will be fine) and a source of cryptographic-quality alea (System.Security.Cryptography.RandomNumberGenerator).
  • Decode the resulting sequence into a big integer, perform a modular exponentiation (modulo n, the RSA modulus), and encode the result into another sequence of bytes of the same length than the modulus. Encoding rules are big-endian, no sign bit, and a fixed size (if this is a 1024-bit RSA key, meaning that 21023 <= n < 21024, then the encrypted message will always have length exactly 128 bytes, even if the numerical value would have fitted in less, e.g. 127 or 126 bytes).

.NET 4.0 and onwards provides System.Numerics.BigInteger which has the code you need (method ModPow()). For previous versions, you would have to use a custom implementation; there are several lying around, Google being, as always, your friend. You do not need absolute performance here: RSA encryption is fast, because the public exponent is short (17 bits in your sample code).

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RSACryptoServiceProvider does work with SHA2-based signatures, but you have to invest some effort into it.

When you use a certificate to get your RSACryptoServiceProvider it really matters what's the underlying CryptoAPI provider. By default, when you create a certificate with 'makecert', it's "RSA-FULL" which only supports SHA1 hashes for signature. You need the new "RSA-AES" one that supports SHA2.

So, you can create your certificate with an additional option: -sp "Microsoft Enhanced RSA and AES Cryptographic Provider" (or an equivalent -sy 24) and then your code would look like (in .NET 4.0):

var rsa = signerCertificate.PrivateKey as RSACryptoServiceProvider;
//
byte[] signature = rsa.SignData(data, CryptoConfig.CreateFromName("SHA256"));

If you are unable to change the way your certificate is issued, there is a semi-ligitimate workaround that is based on the fact that by default RSACryptoServiceProvider is created with support for SHA2. So, the following code would also work, but it is a bit uglier: (what this code does is it creates a new RSACryptoServiceProvider and imports the keys from the one we got from the certificate)

var rsa = signerCertificate.PrivateKey as RSACryptoServiceProvider;
// Create a new RSACryptoServiceProvider
RSACryptoServiceProvider rsaClear = new RSACryptoServiceProvider();
// Export RSA parameters from 'rsa' and import them into 'rsaClear'
rsaClear.ImportParameters(rsa.ExportParameters(true));
byte[] signature = rsaClear.SignData(data, CryptoConfig.CreateFromName("SHA256"));
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As of .NET 3.5 SP1 on any Windows Server 2003 and higher OS, yes, the RSACryptoServiceProvider does support RSA-SHA256 for signing, but not encrypting.

From the blog post Using RSACryptoServiceProvider for RSA-SHA256 signatures:

byte[] data = new byte[] { 0, 1, 2, 3, 4, 5 };
using (RSACryptoServiceProvider rsa = new RSACryptoServiceProvider())
{
    byte[] signature = rsa.SignData(data, "SHA256");

    if (rsa.VerifyData(data, "SHA256", signature))
    {
        Console.WriteLine("RSA-SHA256 signature verified");
    }
    else
    {
        Console.WriteLine("RSA-SHA256 signature failed to verify");
    }
}

You should read the original post though, as there are some gotcha's to be aware of.

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1  
That is using the RSA.SignData() and RSA.VerifyData() data methods, rather than using the RSA.Encrypt() and RSA.Decrypt() methods. The encrypt and decrypt use sha-1 internally. Encrypting and signing are two separate uses for RSA, but both use a secure hash. –  Jonathan Wright Feb 25 '11 at 5:01
2  
Last I checked the "H" in SHA = Hash as in Secure Hash Algorithm. By definition, that means it does not support encryption. –  Thomas Feb 25 '11 at 7:11
    
@Thomas: the hash is used in the encryption process to produce the padding. –  GregS Feb 26 '11 at 13:27
    
RSA encryption requires padding, typically OAEP. OAEP uses a hash function to generate the padding. –  CodesInChaos Jan 18 '13 at 9:39
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According to a Microsoft MVP (Rob Teixeira), no. You could use a third-part library such as Security.Cryptography.dll

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Again, this is talking about using RSA to sign, rather than to encrypt. Both use hash functions, but in different ways. Getting one to work, doesn't get the other to work. –  Jonathan Wright Feb 26 '11 at 23:14
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Bounty Castle C# was updated to 1.7 after this question was asked and answered. For future reference you might consider it, it adds supports a lot of crypto algorithms, hashes, signatures that Bouncy Castle makes available for Java. Hit the link, look for 'Release Notes for 1.7' and 'Current feature list:'.

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