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I'm bascially looking for someplace to start learning how to interface with a government CAC card using java.

Ultimately, my goal is to find out how to use CAC card authentication (by PIN number) to authorize access to a website hosted using a Tomcat/J2EE server.

But I'll need somewhere to start. So I figure I'd start by writing a small java program to simply read the CAC card information from the CAC card which is inserted into a card reader on my keyboard (DELL keyboard with CAC reader above the numeric keypad).

By searching google, I found the cacard java project (https://cacard.dev.java.net/) which was replaced by the OpenSSO project. But I can't seem to find sample code of how to use it to connect to a card, read from a card, etc.

Does anyone know where I can find some sample code so that I can start learning how to interact with a CAC card using java?

Thanks

EDIT:

After researching more, I was thinking, would I be able to just set clientAuth="true" in the connector element in the server.xml file?

http://tomcat.apache.org/tomcat-6.0-doc/ssl-howto.html

clientAuth: Set this value to true if you want Tomcat to require all SSL clients to present a client Certificate in order to use this socket.

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"We would like to ensure that the user has to renter their PIN to access the one of our browser-based applications. Is there a way to "deauthenticate" the user so that they have to authenticate again?" Maybe close the socket on the server side so that the connection has to be re-established? –  user240233 Dec 29 '09 at 14:25
    
Paul, I want to do almost the exactly what you did. I know nothing about these devices and I am starting from square one. Would you care to post the code you used for a solution -- with the sensitive information redacted out/obscured? Thanks either way. Happy Friday. Steve –  Steve Dec 7 '12 at 15:03

4 Answers 4

Are you creating the web application, or trying to write software that runs at the client (sort of like your own web browser)?

If you are creating a web application, it's pretty much just standard client certification authentication. From the server side, you don't care that the certificate came from a hardware token; it looks like any X.509 client certificate. If this application is for a government customer, you'll need to work closely with their security team to ensure that your solution meets their requirements, which can be stringent. If this is your scenario, let me know and I'll update my answer with some of the issues that we encountered.

If you are writing a client, and need to access the physical reader, you may be able to use the Sun PKCS #11 provider, since Java 1.5. I've experimented with this provider, and you can read more about it in another answer.


On the server, you ought to check that the certificate is not revoked. However, some of these CRLs are enormous—we had over 100 Mb worth of CRL files, and the built-in Sun revocation checker does not scale well to this size.

You will also need to make sure that you have the right root CA certificates in Tomcat's "trust" key store (the government root CA certs are little harder to find because they want to make sure users are verifying them properly). We also found that Firefox does not send the entire certificate chain unless users import the intermediate certificates into their browser manually.

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We're creating the web application. So I shouldn't have to worry about reading the card at all correct? The browser should pass the certificate to my web app and as long as the user enters the correct PIN, Tomcat would allow them access. Wrong PIN, Tomcat would deny access right? –  Paul Feb 13 '09 at 0:52
    
That's right. The PIN tells the card to enable the signature operation that supports authentication. See my edits above for more tips. Are you using CACs issued by the US DOD? Is this application for a government agency? There are a lot of extra rules you'll need to follow if so. –  erickson Feb 13 '09 at 2:07
    
+1. Your web server will just receive an X.509 cert in the request –  Kevin Feb 13 '09 at 2:26

You need to create a file called card.config and include the following lines in it:

name = myConfig
library = /path/to/library/that/implements/cac/card/reader

And then try this:

import java.io.*;
import java.util.*;

import java.security.cert.CertificateException;
import java.security.KeyStoreException;
import java.security.cert.X509Certificate;

import java.security.KeyStore;
import java.security.Provider;
import java.security.SecureRandom;
import java.security.Security;

import javax.net.ssl.KeyManagerFactory;
import javax.net.ssl.SSLContext;
import javax.net.ssl.SSLSocketFactory;
import javax.net.ssl.TrustManagerFactory;

public class Test  
{
   public static void  main(String arg[]) throws Exception
   {
       try
       {   
         //Create our certificates from our CAC Card
         String configName = "card.config";
         Provider p = new sun.security.pkcs11.SunPKCS11(configName);
         Security.addProvider(p);

         //Get the pin from user entered data
         Console c = System.console();
         char[] pin = c.readPassword("Enter your PIN: ");
         KeyStore cac = null;

         cac = KeyStore.getInstance("PKCS11");
         cac.load(null, pin);

         showInfoAboutCAC(cac);

      }
      catch(Exception ex)
      {
         //System.out.println("*" + ex.getMessage());
         ex.printStackTrace();
         System.exit(0);
      }
   }

   public static void showInfoAboutCAC(KeyStore ks) throws KeyStoreException, CertificateException
   {
      Enumeration<String> aliases = ks.aliases();

      while (aliases.hasMoreElements()) 
      {
         String alias = aliases.nextElement();
         X509Certificate[] cchain = (X509Certificate[]) ks.getCertificateChain(alias);

         System.out.println("Certificate Chain for : " + alias);
         for (int i = 0; i < cchain.length; i ++)
         {
            System.out.println(i + " SubjectDN: " + cchain[i].getSubjectDN());
            System.out.println(i + " IssuerDN:  " + cchain[i].getIssuerDN());
         }
      }
   }
}

At this point you have a keystore that you can use to create the ssl socket to talk to the https web server.

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We run Tomcat behind apache httpd server and load the entire crl into that. We found it much easier to update that way. The SSL headers are accessible to tomcat down stream.

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Look into using cert authentication using an SSO type application such as OpenSSO or JOSSO. The agent should be simpler to embed, and they have already implemented most of the details. If you need to do it yourself, they also have a lot of documentation related to the steps needed such as: digital certificates setup

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