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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?

share|improve this question
What means "it doesnt work"? Do you get some error message (which one)? Does it do nothing? Does it do something else (what)? – Paŭlo Ebermann Sep 16 '11 at 14:59
I get this exception: System.Security.Cryptography.CryptographicException "Invalid algorithm specified." – scott Sep 16 '11 at 15:02
In which line? (And add this information to the question.) – Paŭlo Ebermann Sep 16 '11 at 15:04
@Ebermann - did you look at the link in the question all of this information is there. The RSACryptoServiceProvider doesn't support SHA256. if it did the code above would work. So I need a different way to do that. – scott Sep 16 '11 at 16:14
Sorry, I didn't read it before. I edited your question a bit, hopefully making the problem more clear. (I don't know a solution myself, as I don't use .NET, and also didn't use BouncyCastle.) – Paŭlo Ebermann Sep 16 '11 at 16:25
up vote 29 down vote accepted

RSA + SHA256 can and will work...

Your later example may not work all the time, it should use the hash algorithm's OID, rather than it's name. As per your first example, this is obtained from a call to [CryptoConfig.MapNameToOID](AlgorithmName)1 where AlgorithmName is what you are providing (i.e. "SHA256").

First you are going to need is the certificate with the private key. I normally read mine from the LocalMachine or CurrentUser store by using a public key file (.cer) to identify the private key, and then enumerate the certificates and match on the hash...

X509Certificate2 publicCert = new X509Certificate2(@"C:\mycertificate.cer");

//Fetch private key from the local machine store
X509Certificate2 privateCert = null;
X509Store store = new X509Store(StoreLocation.LocalMachine);
foreach( X509Certificate2 cert in store.Certificates)
    if (cert.GetCertHashString() == publicCert.GetCertHashString())
        privateCert = cert;

However you get there, once you've obtained a certificate with a private key we need to reconstruct it. This may be required due to the way the certificate creates it's private key, but I'm not really sure why. Anyway, we do this by first exporting the key and then re-importing it using whatever intermediate format you like, the easiest is xml:

//Round-trip the key to XML and back, there might be a better way but this works
RSACryptoServiceProvider key = new RSACryptoServiceProvider();

Once that is done we can now sign a piece of data as follows:

//Create some data to sign
byte[] data = new byte[1024];

//Sign the data
byte[] sig = key.SignData(data, CryptoConfig.MapNameToOID("SHA256"));

Lastly, the verification can be done directly with the certificate's public key without need for the reconstruction as we did with the private key:

key = (RSACryptoServiceProvider)publicCert.PublicKey.Key;
if (!key.VerifyData(data, CryptoConfig.MapNameToOID("SHA256"), sig))
    throw new CryptographicException();
share|improve this answer
That export / import of the private key is likely switching from a CSP that does not support SHA256 (the one associated with the certificate) to another CSP that supports it (e.g. the "AES" CSP) – poupou Sep 19 '11 at 23:41
This worked. Thank you. – scott Sep 20 '11 at 13:16
I serialized the key.CspKeyContainerInfo before and after the export/import to compare them and it does indeed have a different provider type, from Microsoft Base Cryptographic Provider v1.0 to Microsoft Enhanced RSA and AES Cryptographic Provider – Despertar Jun 5 '14 at 2:29
I am yet to see a production environment with exportable private keys. This is not a good answer. – Visar Feb 23 '15 at 16:00
This does not work for me, i get the following exception, "An unhandled exception of type 'System.Security.Cryptography.CryptographicException' occurred in mscorlib.dll Additional information: Key not valid for use in specified state" from the line : key.FromXmlString(privateCert.PrivateKey.ToXmlString(true)); – Joseph Nov 16 '15 at 10:32

According to this blog it should work with FX 3.5 (see note below). However it's important to recall that most of .NET cryptography is based on CryptoAPI (even if CNG is being more and more exposed in recent FX releases).

The key point is that CryptoAPI algorithm support depends on the Crypto Service Provider (CSP) being used and that varies a bit between Windows versions (i.e. what's working on Windows 7 might not work on Windows 2000).

Read the comments (from the blog entry) to see a possible workaround where you specify the AES CSP (instead of the default one) when creating your RSACCryptoServiceProvider instance. That seems to work for some people, YMMV.

Note: this is confusing to many people because all the released .NET frameworks includes a managed implementation of SHA256 which cannot be used by CryptoAPI. FWIW Mono does not suffer from such issues ;-)

share|improve this answer
that work around looks like it might work. I have to do more testing before I can know for sure. – scott Sep 16 '11 at 19:33
So I tried the work around in the comments, but it doesn't look like its using the private key. Is that correct? – scott Sep 16 '11 at 20:53
That blog post was the clarification I need to explain what our existing code is doing. – Matthew Jun 11 '15 at 19:26

I have noticed similar issues in .NET with the wrong private key being used (or was it flat-out errors? I do not recall) when the certificate I am working with is not in the user/computer certificate store. Installing it into the stored fixed the problem for my scenario and things started working as expected - perhaps you can try that.

share|improve this answer
how would I do that? – scott Sep 19 '11 at 15:01
I'm loading the certificate from a file, I'm not using any of the windows installed certificates. – scott Sep 19 '11 at 15:58

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 work without the key juggling stuff.

share|improve this answer

This is how I dealt with that problem:

 X509Certificate2 privateCert = new X509Certificate2("certificate.pfx", password, X509KeyStorageFlags.Exportable);

 // This instance can not sign and verify with SHA256:
 RSACryptoServiceProvider privateKey = (RSACryptoServiceProvider)privateCert.PrivateKey;

 // This one can:
 RSACryptoServiceProvider privateKey1 = new RSACryptoServiceProvider();

 byte[] data = Encoding.UTF8.GetBytes("Data to be signed"); 

 byte[] signature = privateKey1.SignData(data, "SHA256");

 bool isValid = privateKey1.VerifyData(data, "SHA256", signature);
share|improve this answer

The use of privateKey.toXMLString(true) or privateKey.exportParameters(true) aren't usable in a secure environment, since they require your private key to be exportable, which is NOT a good practice.

A better solution is to explicitly load the "Enhanced" crypto provider as such:

// Find my openssl-generated cert from the registry
var store = new X509Store(StoreLocation.LocalMachine);
var certificates = store.Certificates.Find(X509FindType.FindBySubjectName, "", true);
var certificate = certificates[0];
// Note that this will return a Basic crypto provider, with only SHA-1 support
var privKey = (RSACryptoServiceProvider)certificate.PrivateKey;
// Force use of the Enhanced RSA and AES Cryptographic Provider with openssl-generated SHA256 keys
var enhCsp = new RSACryptoServiceProvider().CspKeyContainerInfo;
var cspparams = new CspParameters(enhCsp.ProviderType, enhCsp.ProviderName, privKey.CspKeyContainerInfo.KeyContainerName);
privKey = new RSACryptoServiceProvider(cspparams);
share|improve this answer
Thank you. Very clean. So you simply create an empty (correct) RSACryptoServiceProvider, take its ProviderType and ProviderName, and combine them with the private key's KeyContainerName to form a working private key. – Timo Feb 20 '15 at 10:18
I see that it works. I was expecting to need more data from the original private key. All that you transfer from it to the new RSACryptoServiceProvider is its KeyContainerName. Does that contain all of the private key's necessary data? – Timo Feb 20 '15 at 10:19
unfortunately after doing this you are not able to use the public key with verifydata that was signed with this key – Cyan Mar 10 at 20:23
After using this solution, the public key can no longer verify a signature made with that key. Neither encrypted data with the public key cannot be decrypted with the private key. Anything special that needs to be done to the public key? – Mihai Caracostea Apr 7 at 11:48
I agree with the concern of a secure environment, but, when using this approach, the produced result cannot be validated with the public key inside the certificate. – Marcos Junior Apr 16 at 1:13

I settled on changing the key file to specify the appropriate Crypto Service Provider, avoiding the issue in .NET altogether.

So when I create a PFX file out of a PEM private key and a CRT public certificate, I do it as follows:

openssl pkcs12 -export -aes256 -CSP "Microsoft Enhanced RSA and AES Cryptographic Provider" -inkey priv.pem -in pub.crt -out priv.pfx

The key part being -CSP "Microsoft Enhanced RSA and AES Cryptographic Provider".

(-inkey specifies the private key file and -in specifies the public certificate to incorporate.)

You may need to tweak this for the file formats you have on hand. This page can help with that:

I found this solution here:

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