Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have an Android application that calls web services over SSL. In production we will have normal SSL certificates that are signed by a trusted CA. However, we need to be able to support self-signed certificates (signed by our own CA).

I have successfully implemented the suggested solution of accepting self-signed certificates but this will not work due to the risk of man in the middle attacks. I then created a trustmanager that validates that the certificate chain was in fact signed by our CA.

The problem is I have to bypass the normal SSL validation - the application will now only speak to a server that has one of our self-signed certificates installed.

I am a bit lost, I've googled extensively but can't find anything. I was hoping to find a way of programmatically adding our CA to the trust store on the device as this would be the least intrusive way of dealing with the issue.

What I want to achieve: 1. Full standard support for normal SSL certificates. 2. Additional support for self-signed certificates signed by our own CA.

Any advice?

share|improve this question
add comment

1 Answer 1

up vote 2 down vote accepted

You haven't posted any code, so I can't be sure what you actually did. However, I'll assume that you're setting up a SSLContext using only your custom X509TrustManager subclass. That's fine, but what you can do is have your custom trust manager implementation also chain to the built-in trust managers. You can do this while setting up your trust manager; something like this should work:

private List<X509TrustManager> trustManagers = new ArrayList<X509TrustManager>();

public MyCustomTrustManager() {
    TrustManagerFactory tmFactory = TrustManagerFactory.getInstance(TrustManagerFactory.getDefaultAlgorithm());
    tmFactory.init((KeyStore)null);

    for (TrustManager tm : tmFactory.getTrustManagers()) {
        if (tm instanceof X509TrustManager)
            trustManagers.add((X509TrustManager)tm);
    }
}

So now your custom trust manager has a list of all the built-in trust managers. In your override of checkServerTrusted(), you'll want to loop through the built-in trust managers and check each one by calling checkServerTrusted() on each one in turn. If none of them trust the certificate, you can apply your own cert checking. If that passes, you can return normally. If not, just throw a CertificateException as you'd otherwise do.

EDIT: Adding the below about doing things like host name verification.

You can also verify that the hostname in the certificate matches what you expect it to be. You'll want to pass in the valid hostname in your constructor for your custom trust manager and stash it in the class. Your checkServerTrusted() method will get passed an array of X509Certificate. Many "chains" will consist of just a single cert, but others will have several, depending on how the cA signed your cert. Either way, the first cert in the array should be "your" cert that you want to compare against.

After you check for basic cert validity using the trust managers, you'll then want to do something like this:

Principal subjectDN = chain[0].getSubjectDN();
String subjectCN = parseDN(subjectDN.getName(), "CN");
if (this.allowedCN.equals(subjectCN)) {
    // certificate is good
}

The implementation of parseDN() is left up to you. subjectDN.getName() will return a comma-separated list of key-value pairs (separated by =), something like C=US,ST=California,L=Mountain View,O=Google Inc,CN=www.google.com. You want the CN ("Common Name") value for your hostname comparison. Note that if you have a wildcard cert, it'll be listed as something like *.example.com, so you'll need to do more than a simple equals match in that case.

share|improve this answer
    
You can take a look to the myandroidsolutions.blogspot.ro/2012/05/…, maybe will help you. –  Laura Oct 31 '12 at 6:45
    
@ziziana that's not useful. the example on that page allows any certificate, whether valid, invalid, revoked, expired, self-signed, whatever. –  kelnos Oct 31 '12 at 6:50
    
kelnos, thanks. I didn't post code because the question is not related to accepting self-signed certs, etc. Your suggestion is good, however it does not address the other things that get checked (like host name verification, etc). –  Will777 Oct 31 '12 at 8:50
    
@Will777 you haven't actually asked anything else in your question about host name verification, but I'll update my answer to reflect that as well. –  kelnos Nov 8 '12 at 0:07
    
@kelnos - noted. However, this is what I meant with "Full standard support for normal SSL certificates" - standard validation includes host name verification. Thank you for all your assistance –  Will777 Nov 8 '12 at 4:15
show 17 more comments

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.