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I am writing a function to verify if the hostname/CN in a certificate matches the hostname in the url.

My setup: I am Using default SSLSockets provided by Java. I have added a HandshakeCompletedListener to the SSLSocket. (This is just me protoyping a solution. I don't think that its the best way to verify certificates after the handshake is completed)

My Conundrum: when I connect to i.e. Host: Port: 443 over ssl, I get a certificate for My hostname verification function rejects this certificate and closes the connection.

Strangely, widely used browsers don't do the same. They don't display the usual message "certificate is not trusted. do you want to proceed?" Somehow, they all trust the certificate presented to them even though it doesn't match the hostname in the url.

So what is the browser doing, such that it doesn't reject the certificate outright? What extra steps is it taking to make sure that the certificate becomes valid along the way? By which I mean, after a series of redirects gets replaced by and the certificate validates without any issue since it now matches Are there any specific rules behind this mechanism?

I would like to hear any ideas that you may have. :)

EDIT: I have included a test program that prints out the certificates sent by the host/peer. And also prints out the http message. The program sends a get request to I still see the CN in the certificate as Anyone care to test this out? I find this behaviour strange because curl -v -k, as suggested by ian in his comment, returns an entirely different result.


public class SSLCheck {

public static String[] supportedCiphers = {"SSL_RSA_WITH_RC4_128_MD5",

public static void main(String[] args) {
    int port = 443;
    String host = "";

    try {
        Socket sock = SSLSocketFactory.getDefault().createSocket(host, port);

        PrintWriter out = new PrintWriter(new OutputStreamWriter(sock.getOutputStream()));

        out.println("GET " + "/mail" + " HTTP/1.1");
        out.println("Host: "+host);
        out.println("Accept: */*");

        BufferedReader in = new BufferedReader(new InputStreamReader(sock.getInputStream()));

        SSLSocket ssls = (SSLSocket)sock;
        Certificate[] peercerts = ssls.getSession().getPeerCertificates();

        System.out.println("***********************PEER CERTS**********************");
        for(int i=0;i<peercerts.length;i++){

        String line;
        while ((line = in.readLine())!=null) {


    } catch (UnknownHostException e) {
    } catch (IOException e) {
    } finally { 

share|improve this question
up vote 3 down vote accepted

The certificate you get without using the Server Name Indication extension is indeed for, without any Subject Alternative Name for

If you try with SNI, you'll get a different cert, for

openssl s_client -connect -servername | openssl x509 -text -noout

Most modern version of browsers on desktop support SNI. On the desktop, the main remaining one not supporting SNI is IE on any version of XP. Since it's a TLS extension that hasn't been backported to SSLv3, this also explains why it doesn't work with curl -3.

Support for SNI in Java is only available since Java 7 (and only on the client side).

(By the way, unless you know what you're doing, leave the default enabled cipher suites, in particular, don't enable weak ones like the EXPORT or pseudo-suites like TLS_EMPTY_RENEGOTIATION_INFO_SCSV.)

share|improve this answer
Picking this as the right answer as it nails the source of the issue. I recommend reading Ian's comment too. – psykeron Sep 13 '12 at 19:56

A quick test with curl -v tells me that the initial connection to presents a certificate with The HTTP response inside the SSL envelope is a 301 redirect to, which in turn presents a certificate. So in this case the CNs do in fact match at every stage.

But in general, you need to learn about the "subject alternative name" extension, which is a way for a certificate to specify a number of different host names that it is valid for in addition to the main CN.

share|improve this answer
I did check for subject alternative names but couldn't find any in the certificate that I had received. I printed out the credentials that I had received in my HandshakeCompletedListeners and was what I found. Unless, Java's SSLSockets are doing strange things that it shouldn't be doing. – psykeron Sep 12 '12 at 23:58
I just downloaded Curl and did curl -v -k I did get a certificate with Now I am completely lost as to what the cause of my original problem is. – psykeron Sep 13 '12 at 0:00
I updated my initial question. This strange behaviour is consistent with java ssl sockets. – psykeron Sep 13 '12 at 15:17
Curiouser and curiouser. It appears to be to do with the protocol setting - curl -v -1 (TLSv1) gets a certificate but curl -v -3 (SSLv3) gets a one. – Ian Roberts Sep 13 '12 at 17:17
@IanRoberts, it's because SNI isn't supported in SSLv3. – Bruno Sep 13 '12 at 17:41

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