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I'm fairly new to HTTPS/SSL/TLS and I'm a bit confused over what exactly the clients are supposed to present when authenticating with certificates.

I'm writing a Java client that needs to do a simple POST of data to a particular URL. That part works fine, the only problem is it's supposed to be done over HTTPS. The HTTPS part is fairly easy to handle (either with HTTPclient or using Java's built-in HTTPS support), but I'm stuck on authenticating with client certificates. I've noticed there's already a very similar question on here, which I haven't tried out with my code yet (will do so soon enough). My current issue is that - whatever I do - the Java client never sends along the certificate (I can check this with PCAP dumps).

I would like to know what exactly the client is supposed to present to the server when authenticating with certificates (specifically for Java - if that matters at all)? Is this a JKS file, or PKCS#12? What's supposed to be in them; just the client certificate, or a key? If so, which key? There's quite a bit of confusion about all the different kinds of files, certificate types and such.

As I've said before I'm new to HTTPS/SSL/TLS so I would appreciate some background information as well (doesn't have to be an essay; I'll settle for links to good articles). Thanks a lot in advance.

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2 Answers

up vote 74 down vote accepted

Finally managed to solve all the issues, so I'll answer my own question. These are the settings/files I've used to manage to get my particular problem(s) solved;

The client's keystore is a PKCS#12 format file containing

  1. The client's public certificate (in this instance signed by a self-signed CA)
  2. The client's private key

To generate it I used OpenSSL's pkcs12 command, for example;

openssl pkcs12 -export -in client.crt -inkey client.key -out client.p12 -name "Whatever"

Tip: make sure you get the latest OpenSSL, not version 0.9.8h because that seems to suffer from a bug which doesn't allow you to properly generate PKCS#12 files.

This PKCS#12 file will be used by the Java client to present the client certificate to the server when the server has explicitly requested the client to authenticate. See the Wikipedia article on TLS for an overview of how the protocol for client certificate authentication actually works (also explains why we need the client's private key here).

The client's truststore is a straight forward JKS format file containing the root or intermediate CA certificates. These CA certificates will determine which endpoints you will be allowed to communicate with, in this case it will allow your client to connect to whichever server presents a certificate which was signed by one of the truststore's CA's.

To generate it you can use the standard Java keytool, for example;

keytool -genkey -dname "cn=CLIENT" -alias truststorekey -keyalg RSA -keystore ./client-truststore.jks -keypass whatever -storepass whatever
keytool -import -keystore ./client-truststore.jks -file myca.crt -alias myca

Using this truststore, your client will try to do a complete SSL handshake with all servers who present a certificate signed by the CA identified by myca.crt.

The files above are strictly for the client only. When you want to set-up a server as well, the server needs its own key- and truststore files. A great walk-through for setting up a fully working example for both a Java client and server (using Tomcat) can be found on this website.

Issues/Remarks/Tips

  1. Client certificate authentication can only be enforced by the server.
  2. (Important!) When the server requests a client certificate (as part of the TLS handshake), it will also provide a list of trusted CA's as part of the certificate request. When the client certificate you wish to present for authentication is not signed by one of these CA's, it won't be presented at all (in my opinion, this is weird behaviour, but I'm sure there's a reason for it). This was the main cause of my issues, as the other party had not configured their server properly to accept my self-signed client certificate and we assumed that the problem was at my end for not properly providing the client certificate in the request.
  3. Get Wireshark. It has great SSL/HTTPS packet analysis and will be a tremendous help debugging and finding the problem. It's similar to -Djavax.net.debug=ssl but is more structured and (arguably) easier to interpret if you're uncomfortable with the Java SSL debug output.
  4. It's perfectly possible to use the Apache httpclient library. If you want to use httpclient, just replace the destination URL with the HTTPS equivalent and add the following JVM arguments (which are the same for any other client, regardless of the library you want to use to send/receive data over HTTP/HTTPS):

    -Djavax.net.debug=ssl
    -Djavax.net.ssl.keyStoreType=pkcs12
    -Djavax.net.ssl.keyStore=client.p12
    -Djavax.net.ssl.keyStorePassword=whatever
    -Djavax.net.ssl.trustStoreType=jks
    -Djavax.net.ssl.trustStore=client-truststore.jks
    -Djavax.net.ssl.trustStorePassword=whatever
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"When the client certificate you wish to present for authentication is not signed by one of these CA's, it won't be presented at all". The certificates aren't presented because the client knows they won't be accepted by the server. Also, your certificate can be signed by an intermediate CA "ICA", and the server can present your client with the root CA "RCA", and your web browser will still let you pick your certificate even though it's signed by ICA not RCA. –  KyleM Mar 18 at 19:43
    
As an example of the above comment, consider a situation where you have one root CA (RCA1) and two intermediate CAs (ICA1 and ICA2). On Apache Tomcat if you import RCA1 into the trust store, your web browser will present ALL certificates signed by ICA1 and ICA2, even though they aren't in your trust store. This is because it's the chain that matters not individual certs. –  KyleM Mar 18 at 19:57
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They JKS file is just a container for certificates and key pairs. In a client-side authentication scenario, the various parts of the keys will be located here:

  • The client's store will contain the client's private and public key pair. It is called a keystore.
  • The server's store will contain the client's public key. It is called a truststore.

The separation of truststore and keystore is not mandatory but recommended. They can be the same physical file.

To set the filesystem locations of the two stores, use the following system properties:

-Djavax.net.ssl.keyStore=clientsidestore.jks

and on the server:

-Djavax.net.ssl.trustStore=serversidestore.jks

To export the client's certificate (public key) to a file, so you can copy it to the server, use

keytool -export -alias MYKEY -file publicclientkey.cer -store clientsidestore.jks

To import the client's public key into the server's keystore, use (as the the poster mentioned, this has already been done by the server admins)

keytool -import -file publicclientkey.cer -store serversidestore.jks
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I should probably mention that I have no control over the server. The server has imported our public certificate. I've been told by the admins of that system that I need to explicitly provide the certificate so that it can be sent along during the handshake (their server explicitly requests this). –  tmbrggmn Nov 3 '09 at 10:26
    
You'll need public and private keys for your public certificate (that one that's known to the server) as a JKS file. –  sfussenegger Nov 3 '09 at 10:38
    
Thanks for the example code. In the code above, what is "mykey-public.cer" exactly? Is this the client public certificate (we use self-signed certificates)? –  tmbrggmn Nov 4 '09 at 8:21
    
Yes it is, i've renamed the files in the code snippets accordingly. I hope this makes it clear. –  mhaller Nov 4 '09 at 8:25
    
Righto, thanks. I keep getting confused because apparently "key" and "certificate" are used interchangeably. –  tmbrggmn Nov 4 '09 at 9:08
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