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I need to provide secure communication between various processes that are using TCP/IP sockets for communication. I want both authentication and encryption. Rather than re-invent the wheel I would really like to use SSL and the SslStream class and self-signed certificates. What I want to do is validate the remote process's certificate against a known copy in my local application. (There doesn't need to be a certificate authority because I intend for the certificates to be copied around manually).

To do this, I want the application to be able to automatically generate a new certifiate the first time it is run. In addition to makecert.exe, it looks like this link shows a way to automatically generate self-signed certificates, so that's a start.

I've looked at the AuthenticateAsServer and AuthenticateAsClient methods of SslStream. You can provide call-backs for verification, so it looks like it's possible. But now that I'm into the details of it, I really don't think it's possible to do this.

Am I going in the right direction? Is there a better alternative? Has anyone done anything like this before (basically peer-to-peer SSL rather than client-server)?

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up vote 26 down vote accepted

Step 1: Generating a self-signed certificate:

  • I downloaded the Certificate.cs class posted by Doug Cook
  • I used this code to generate a .pfx certificate file:

    byte[] c = Certificate.CreateSelfSignCertificatePfx(
            "CN=yourhostname.com", //host name
            DateTime.Parse("2000-01-01"), //not valid before
            DateTime.Parse("2010-01-01"), //not valid after
            "mypassword"); //password to encrypt key file
        using (BinaryWriter binWriter = new BinaryWriter(
            File.Open(@"testcert.pfx", FileMode.Create)))

Step 2: Loading the certificate

    X509Certificate cert = new X509Certificate2(

Step 3: Putting it together

  • I based it on this very simple SslStream example
  • You will get a compile time error about the SslProtocolType enumeration. Just change that from SslProtocolType.Default to SslProtocols.Default
  • There were 3 warnings about deprecated functions. I replaced them all with the suggested replacements.
  • I replaced this line in the Server Program.cs file with the line from Step 2:

    X509Certificate cert = getServerCert();

  • In the Client Program.cs file, make sure you set serverName = yourhostname.com (and that it matches the name in the certificate)

  • In the Client Program.cs, the CertificateValidationCallback function fails because sslPolicyErrors contains a RemoteCertificateChainErrors. If you dig a little deeper, this is because the issuing authority that signed the certificate is not a trusted root.
  • I don`t want to get into having the user import certificates into the root store, etc., so I made a special case for this, and I check that certificate.GetPublicKeyString() is equal to the public key that I have on file for that server. If it matches, I return True from that function. That seems to work.

Step 4: Client Authentication

Here's how my client authenticates (it's a little different than the server):

TcpClient client = new TcpClient();
client.Connect(hostName, port);

SslStream sslStream = new SslStream(client.GetStream(), false,
    new RemoteCertificateValidationCallback(CertificateValidationCallback),
    new LocalCertificateSelectionCallback(CertificateSelectionCallback));

bool authenticationPassed = true;
    string serverName = System.Environment.MachineName;

    X509Certificate cert = GetServerCert(SERVER_CERT_FILENAME, SERVER_CERT_PASSWORD);
    X509CertificateCollection certs = new X509CertificateCollection();

        false); // check cert revokation
catch (AuthenticationException)
    authenticationPassed = false;
if (authenticationPassed)
    //do stuff

The CertificateValidationCallback is the same as in the server case, but note how AuthenticateAsClient takes a collection of certificates, not just one certificate. So, you have to add a LocalCertificateSelectionCallback, like this (in this case, I only have one client cert so I just return the first one in the collection):

static X509Certificate CertificateSelectionCallback(object sender,
    string targetHost,
    X509CertificateCollection localCertificates,
    X509Certificate remoteCertificate,
    string[] acceptableIssuers)
    return localCertificates[0];
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Downvoting because you managed to link to a site that is now gone. Don’t rely on links to other sites. Just post the code here next time. :( – Timwi Apr 17 '13 at 20:10
Maybe this is it: leastprivilege.com/2005/02/28/sslstream-sample – kol Apr 18 '13 at 23:51
What I don't get...Where do you get the server Certificate from. X509Certificate cert = GetServerCert(SERVER_CERT_FILENAME, SERVER_CERT_PASSWORD); – CodeHacker Mar 3 '14 at 17:36
@kol - thanks, fixed the link – Scott Whitlock Mar 3 '14 at 18:09
@pimboden - it's from the code linked in step 2 (maybe) – Scott Whitlock Mar 3 '14 at 18:10

you can look too this example Sample Asynchronous SslStream Client/Server Implementation http://blogs.msdn.com/joncole/archive/2007/06/13/sample-asynchronous-sslstream-client-server-implementation.aspx

if certificate is not produced correctly you can get exception The server mode SSL must use a certificate with the associated private key.

basic certificate example

makecert -sr LocalMachine -ss My -n CN=Test -sky exchange -sk 123456


as external file

makecert -sr LocalMachine -ss My -n CN=Test -sky exchange -sk 123456 c:\Test.cer

Certificate Creation Tool (Makecert.exe)

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What you're proposing sounds fine to me, except that it sounds like you're looking to wait until the callback is invoked in order to generate the certificate. I don't think that that will fly; AFAIK, you've got to provide a valid certificate when you invoke AuthenticateAsX.

However, these classes are overridable; so in theory, you could create a derived class which first checks to see if a certificate needs to be generated, generates it if need be, then invokes the parent AuthenticateAsX method.

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Sorry, let me clarify. When I install the program, the first time it runs it would generate a new certificate. The server would call AuthenticateAsServer and pass this certificate, the client would call AuthenticateAsClient and pass it's certificate. But SslStream will probably throw an exception – Scott Whitlock Mar 30 '09 at 2:19
What exception would you expect, and why? Self-signed certificates should be acceptable to the SSL stack (try saying that five times fast :-) – Dan Breslau Mar 30 '09 at 3:09
Well, I'll give it a try and post the results. – Scott Whitlock Mar 30 '09 at 9:27

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