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I've been digging into the .NET System.Security.Cryptography namespace, specifically the RSACryptoServiceProvider class. It has two methods using in signing data, SignHash() and VerifyHash() and I have a few questions regarding the usage of this class and methods.

1) When instantiated, RSACryptoServiceProvider creates a keypair, like so:

// 1 = RSA compatible. http://msdn.microsoft.com/en-us/library/1dh4wac4.aspx
CspParameters cspParams = new CspParameters( 1 );
cspParams.Flags = CspProviderFlags.NoFlags;
rsa = new RSACryptoServiceProvider( 2048, cspParams ); // rsa is a class member
rsa.PersistKeyInCsp = false;

Then the private and public keys can be saved to disk using the following code:

public void WriteKeys( FileInfo file, bool includePrivateKey )
    using( FileStream fs = new FileStream( file.FullName, FileMode.Create, FileAccess.Write, FileShare.None ) ) {
        string xml = rsa.ToXmlString( includePrivateKey );
        byte[] b = Encoding.UTF8.GetBytes( xml );
        string base64 = Convert.ToBase64String( b );
        b = Encoding.UTF8.GetBytes( base64 );
        fs.Write( b, 0, b.Length );

Q: Is there anything that can prevent the subsequent loading of the public key on a client computer at a later time (exempting file access rights etc.), using code such as this:

private void ReadKeyFromFile( FileInfo keyFile )
    byte[] b = File.ReadAllBytes( keyFile.FullName );
    string base64 = Encoding.UTF8.GetString( b );
    byte[] b = Convert.FromBase64String( base64 );
    string xml = Encoding.UTF8.GetString( b );
    rsa.FromXmlString( xml );

Q: If specifying Csp flag CspProviderFlags.UseArchivableKey instead of CspProviderFlags.None, the loading of the file fails (at rsa.FromXmlString()) with a CryptographicException "Invalid flags specified.", why is that? The 'Achivable' sound just like what is I want, no?

Q: Is there anyway of creating a RSACryptoServiceProvider without also creating a new keypair (as I will load an existing key shortly after) ?

2) According to MSDN, the two methods SignHash and VerifyHash can be used to sign a hash of some arbitrary data, using the private key, then be verified using the public key to ensure the validity of the data.

Q: What if I distribute the public key with my application (embedded resource or base64 encoded string etc.) to validate a license key that has been hashed and signed using my private key - can I be certain that no one else can generate license keys that are considered valid by the application (assuming I keep the private key private)? After all, that is what the public/private keys are for, are they not?

Example signing code:

using( SHA1 sha = SHA1.Create() ) {
    byte[] hash = sha.ComputeHash( data );
    byte[] signature = rsa.SignHash( hash, CryptoConfig.MapNameToOID( "SHA1" ) );

Thanks in advance.

share|improve this question
An attacker can simply decompile your code and insert his own public key. –  SLaks Oct 17 '11 at 20:02
An awful lot of questions in 1. Don't fret about the (extra) keys generated, you have all the tools to load/save/create keys. And you are correct about the signing process, but like @slaks commented as a license it's a heavy lock on a cardboard door. –  Henk Holterman Oct 17 '11 at 20:13
Well, yes of course. Such is the problem with any software, no matter the language. Even obfuscating the code and encrypting the public key will not be 100% secure against a determined attacker; they can even disable the entire validation, which probably would be easier. Now, my question is not about what a hacker can or cannot do, it is about the cryptography mechanism. –  Per Oct 17 '11 at 20:14
Because you aren't understanding the purpose of a Public key. It is to give to someone who wants to use it to verify the source of a message. A license hacker would not want it, making it useless for precisely the people you think you want to use it for. –  Andrew Barber Oct 17 '11 at 20:38
No thank you. Not interested. –  Andrew Barber Oct 17 '11 at 21:12

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