I'm trying to use System.Security.Cryptography (targeted framework .NET 4.5) to create xml digital signatures, so far I managed to create and verify signatures using the following scheme : RSA PKCS#1 v1.5 and SHA-256: http://www.w3.org/2001/04/xmldsig-more#rsa-sha256
However, I'm not able to use the following scheme: ‘RSASSA-PSS without parameters using SHA-256’ [RFC6931]: http://www.w3.org/2007/05/xmldsig-more#sha256-rsa-MGF1
The error being displayed is clear "SignatureDescription could not be created for the signature algorithm supplied."
For 'RSA PKCS#1 v1.5 and SHA-256' I added the following public class as its signature:
public class RSAPKCS1SHA256SignatureDescription : SignatureDescription
{
public RSAPKCS1SHA256SignatureDescription()
{
base.KeyAlgorithm = "System.Security.Cryptography.RSACryptoServiceProvider";
base.DigestAlgorithm = "System.Security.Cryptography.SHA256Managed";
base.FormatterAlgorithm = "System.Security.Cryptography.RSAPKCS1SignatureFormatter";
base.DeformatterAlgorithm = "System.Security.Cryptography.RSAPKCS1SignatureDeformatter";
}
public override AsymmetricSignatureDeformatter CreateDeformatter(AsymmetricAlgorithm key)
{
AsymmetricSignatureDeformatter asymmetricSignatureDeformatter = (AsymmetricSignatureDeformatter)
CryptoConfig.CreateFromName(base.DeformatterAlgorithm);
asymmetricSignatureDeformatter.SetKey(key);
asymmetricSignatureDeformatter.SetHashAlgorithm("SHA256");
return asymmetricSignatureDeformatter;
}
}
However, I have no clue whether ‘RSASSA-PSS without parameters using SHA-256’ is supported by .Net 4.5 and if so how to set its signature definition.
I would be really thankful if anyone had similar experience and can provide some help.
I have finally figured it out. The trick is to register the algorithm that the XML signature specifies, in my case "http://www.w3.org/2007/05/xmldsig-more#sha256-rsa-MGF1". Register it to a custom class, that uses a custom signature formatter and deformatter, which apply RSASignaturePadding.Pss.
Here is an implementation where all you have to do is call RsaSsaPss.RegisterSha256RsaMgf1() once, such as from a static constructor in your client. Then, SignedXml.CheckSignature() and SignedXml.ComputeSignature() automatically work for any XML signature that specifies this algorithm.
Tested on Core 2.1 and Framework 4.7.1:
/// <summary>
/// Contains classes for using RSA-SSA-PSS, as well as methods for registering them.
/// Registering such types adds support for them to SignedXml.
/// </summary>
public class RsaSsaPss
{
/// <summary>
/// Registers an implementation for "http://www.w3.org/2007/05/xmldsig-more#sha256-rsa-MGF1".
/// </summary>
public static void RegisterSha256RsaMgf1()
{
CryptoConfig.AddAlgorithm(typeof(RsaPssSha256SignatureDescription), "http://www.w3.org/2007/05/xmldsig-more#sha256-rsa-MGF1");
}
// Can add further registrations here...
public class RsaPssSha256SignatureDescription : SignatureDescription
{
public RsaPssSha256SignatureDescription()
{
using (var rsa = RSA.Create())
{
this.KeyAlgorithm = rsa.GetType().AssemblyQualifiedName; // Does not like a simple algorithm name, but wants a type name (AssembyQualifiedName in Core)
}
this.DigestAlgorithm = "SHA256"; // Somehow wants a simple algorithm name
this.FormatterAlgorithm = typeof(RsaPssSignatureFormatter).FullName;
this.DeformatterAlgorithm = typeof(RsaPssSignatureDeformatter).FullName;
}
public override AsymmetricSignatureFormatter CreateFormatter(AsymmetricAlgorithm key)
{
var signatureFormatter = new RsaPssSignatureFormatter();
signatureFormatter.SetKey(key);
signatureFormatter.SetHashAlgorithm(this.DigestAlgorithm);
return signatureFormatter;
}
public override AsymmetricSignatureDeformatter CreateDeformatter(AsymmetricAlgorithm key)
{
var signatureDeformatter = new RsaPssSignatureDeformatter();
signatureDeformatter.SetKey(key);
signatureDeformatter.SetHashAlgorithm(this.DigestAlgorithm);
return signatureDeformatter;
}
public class RsaPssSignatureFormatter : AsymmetricSignatureFormatter
{
private RSA Key { get; set; }
private string HashAlgorithmName { get; set; }
public override void SetKey(AsymmetricAlgorithm key)
{
this.Key = (RSA)key;
}
public override void SetHashAlgorithm(string strName)
{
// Verify the name
Oid.FromFriendlyName(strName, OidGroup.HashAlgorithm);
this.HashAlgorithmName = strName;
}
public override byte[] CreateSignature(byte[] rgbHash)
{
return this.Key.SignHash(rgbHash, new HashAlgorithmName(this.HashAlgorithmName), RSASignaturePadding.Pss);
}
}
public class RsaPssSignatureDeformatter : AsymmetricSignatureDeformatter
{
private RSA Key { get; set; }
private string HashAlgorithmName { get; set; }
public override void SetKey(AsymmetricAlgorithm key)
{
this.Key = (RSA)key;
}
public override void SetHashAlgorithm(string strName)
{
// Verify the name
Oid.FromFriendlyName(strName, OidGroup.HashAlgorithm);
this.HashAlgorithmName = strName;
}
public override bool VerifySignature(byte[] rgbHash, byte[] rgbSignature)
{
return this.Key.VerifyHash(rgbHash, rgbSignature, new HashAlgorithmName(this.HashAlgorithmName), RSASignaturePadding.Pss);
}
}
}
}