My application will take a set of files and sign them. (I'm not trying to sign an assembly.) There is a .p12 file that I get the private key from.
This is the code I was trying to use, but I get a
System.Security.Cryptography.CryptographicException "Invalid algorithm specified.".
X509Certificate pXCert = new X509Certificate2(@"keyStore.p12", "password"); RSACryptoServiceProvider csp = (RSACryptoServiceProvider)pXCert.PrivateKey; string id = CryptoConfig.MapNameToOID("SHA256"); return csp.SignData(File.ReadAllBytes(filePath), id);
According to this answer it can't be done (the
RSACryptoServiceProvider does not support SHA-256), but I was hoping that it might be possible using a different library, like Bouncy Castle.
I'm new to this stuff and I'm finding Bouncy Castle to be very confusing. I'm porting a Java app to C# and I have to use the same type of encryption to sign the files, so I am stuck with RSA + SHA256.
How can I do this using Bouncy Castle, OpenSSL.NET, Security.Cryptography, or another 3rd party library I haven't heard of? I'm assuming, if it can be done in Java then it can be done in C#.
this is what I got from the link in poupou's anwser
X509Certificate2 cert = new X509Certificate2(KeyStoreFile, password"); RSACryptoServiceProvider rsacsp = (RSACryptoServiceProvider)cert.PrivateKey; CspParameters cspParam = new CspParameters(); cspParam.KeyContainerName = rsacsp.CspKeyContainerInfo.KeyContainerName; cspParam.KeyNumber = rsacsp.CspKeyContainerInfo.KeyNumber == KeyNumber.Exchange ? 1 : 2; RSACryptoServiceProvider aescsp = new RSACryptoServiceProvider(cspParam); aescsp.PersistKeyInCsp = false; byte signed = aescsp.SignData(File.ReadAllBytes(file), "SHA256"); bool isValid = aescsp.VerifyData(File.ReadAllBytes(file), "SHA256", signed);
The problem is that I'm not getting the same results as I got with the original tool. As far as I can tell from reading the code the CryptoServiceProvider that does the actual signing is not using the PrivateKey from key store file. Is that Correct?