3

I keep editing this question as I dig further into it.

EDIT I'm able to build my OkHttp client to where it includes both the client cert in the Client.SSLContext.KeyManager, and the trusted certs in the Client.SSLContext.TrustManager

// Create keyManagerFactory with keystore.jks
KeyStore clientStore = KeyStore.getInstance(KeyStore.getDefaultType());
clientStore.load(new FileInputStream(new File("keystore.jks")), storePassword.toCharArray());

KeyManagerFactory keyManagerFactory = KeyManagerFactory.getInstance(KeyManagerFactory.getDefaultAlgorithm());
keyManagerFactory.init(clientStore, storePassword.toCharArray());
KeyManager[] keyManagers = keyManagerFactory.getKeyManagers();
        
// Create trustManagerFactory with default cacerts truststore
TrustManagerFactory trustManagerFactory = TrustManagerFactory.getInstance(
            TrustManagerFactory.getDefaultAlgorithm());
trustManagerFactory.init((KeyStore) null);
trustManagers = trustManagerFactory.getTrustManagers();
if (trustManagers.length != 1 || !(trustManagers[0] instanceof X509TrustManager)) {
            throw new IllegalStateException("Unexpected default trust managers:"
                                                + Arrays.toString(trustManagers));
        }
trustManager = trustManagers[0];

// Create sslContext from keyManagers (from custom keystore with client key) and default trustManagers
sslContext = SSLContext.getInstance("TLS");
sslContext.init(keyManagers, trustManagers, null);
sslSocketFactory = sslContext.getSocketFactory();
defaultFactory = (SSLSocketFactory) SSLSocketFactory.getDefault();

okClient = new OkHttpClient
                 .Builder()
                 .sslSocketFactory(sslSocketFactory, (X509TrustManager) trustManager)
                 .build();

However, my client still isn't sending my client certificate (server cert is validated through the trust store successfully). Getting this in the ssl debug logs

No X.509 certificate for client authentication, use empty Certificate message instead

Here's what my SSLContext looks like on the HttpClient. enter image description here Seems like that should send the client cert named "cureskeystore" in the request?

keystore.jks is built with the following commands

openssl pkcs12 -export \
        -name curesKeyStore \
        -in clientCert.crt \
        -inkey privateKey.pem \
        -certfile clientCert.crt \
        -out chain.p12 \
        -passout pass:${STORE_PASSWORD}

keytool -importkeystore \
        -srckeystore chain.p12 \
        -srcstoretype pkcs12 \
        -destkeystore keystore.jks \
        -deststoretype pkcs12 \
        -storepass ${STORE_PASSWORD} \
        -srcstorepass ${STORE_PASSWORD} > /dev/null 2>&1

I have also tried creating a store with the client cert + -CAfile with the root and intermediate certs:

# client cert with CAcerts included
openssl pkcs12 -export -chain \
        -in clientCert.crt \
        -inkey privateKey.pem \
        -out keystore.p12 \
        -name p12KeyStore \
        -CAfile caCerts.crt \
        -caname root \
        -passout pass:${STORE_PASSWORD}

keytool -importkeystore \
        -srcstoretype PKCS12 \
        -destkeystore keystore.jks \
        -srckeystore keystore.p12 \
        -alias p12KeyStore \
        -storepass ${STORE_PASSWORD} \
        -srcstorepass ${STORE_PASSWORD}

Another possible issue is the CertificateRequest not matching my client certificate.

javax.net.ssl|DEBUG|24|XNIO-1 task-1|2021-10-18 11:07:18.619 EDT|CertificateRequest.java:671|Consuming CertificateRequest handshake message (
"CertificateRequest": {
  "certificate types": [ecdsa_sign, rsa_sign, dss_sign]
  "supported signature algorithms": [ecdsa_secp256r1_sha256, ecdsa_secp384r1_sha384, ecdsa_secp521r1_sha512, rsa_pss_rsae_sha256, rsa_pss_rsae_sha384, rsa_pss_rsae_sha512, rsa_pss_pss_sha256, rsa_pss_pss_sha384, rsa_pss_pss_sha512, rsa_pkcs1_sha256, rsa_pkcs1_sha384, rsa_pkcs1_sha512, dsa_sha256, ecdsa_sha224, rsa_sha224, dsa_sha224, ecdsa_sha1, rsa_pkcs1_sha1, dsa_sha1]
  "certificate authorities": [redacted, but does not include Entrust]
}
)
javax.net.ssl|ALL|24|XNIO-1 task-1|2021-10-18 11:07:18.619 EDT|X509Authentication.java:213|No X.509 cert selected for EC
javax.net.ssl|WARNING|24|XNIO-1 task-1|2021-10-18 11:07:18.619 EDT|CertificateRequest.java:764|Unavailable authentication scheme: ecdsa_secp256r1_sha256
javax.net.ssl|ALL|24|XNIO-1 task-1|2021-10-18 11:07:18.619 EDT|X509Authentication.java:213|No X.509 cert selected for EC
javax.net.ssl|WARNING|24|XNIO-1 task-1|2021-10-18 11:07:18.619 EDT|CertificateRequest.java:764|Unavailable authentication scheme: ecdsa_secp384r1_sha384
javax.net.ssl|ALL|24|XNIO-1 task-1|2021-10-18 11:07:18.619 EDT|X509Authentication.java:213|No X.509 cert selected for EC
javax.net.ssl|WARNING|24|XNIO-1 task-1|2021-10-18 11:07:18.619 EDT|CertificateRequest.java:764|Unavailable authentication scheme: ecdsa_secp521r1_sha512
javax.net.ssl|ALL|24|XNIO-1 task-1|2021-10-18 11:07:18.619 EDT|X509Authentication.java:213|No X.509 cert selected for RSA
javax.net.ssl|WARNING|24|XNIO-1 task-1|2021-10-18 11:07:18.619 EDT|CertificateRequest.java:764|Unavailable authentication scheme: rsa_pss_rsae_sha256
javax.net.ssl|ALL|24|XNIO-1 task-1|2021-10-18 11:07:18.619 EDT|X509Authentication.java:213|No X.509 cert selected for RSA
javax.net.ssl|WARNING|24|XNIO-1 task-1|2021-10-18 11:07:18.619 EDT|CertificateRequest.java:764|Unavailable authentication scheme: rsa_pss_rsae_sha384
javax.net.ssl|ALL|24|XNIO-1 task-1|2021-10-18 11:07:18.619 EDT|X509Authentication.java:213|No X.509 cert selected for RSA
javax.net.ssl|WARNING|24|XNIO-1 task-1|2021-10-18 11:07:18.619 EDT|CertificateRequest.java:764|Unavailable authentication scheme: rsa_pss_rsae_sha512
javax.net.ssl|ALL|24|XNIO-1 task-1|2021-10-18 11:07:18.619 EDT|X509Authentication.java:213|No X.509 cert selected for RSASSA-PSS
javax.net.ssl|WARNING|24|XNIO-1 task-1|2021-10-18 11:07:18.619 EDT|CertificateRequest.java:764|Unavailable authentication scheme: rsa_pss_pss_sha256
javax.net.ssl|ALL|24|XNIO-1 task-1|2021-10-18 11:07:18.619 EDT|X509Authentication.java:213|No X.509 cert selected for RSASSA-PSS
javax.net.ssl|WARNING|24|XNIO-1 task-1|2021-10-18 11:07:18.619 EDT|CertificateRequest.java:764|Unavailable authentication scheme: rsa_pss_pss_sha384
javax.net.ssl|ALL|24|XNIO-1 task-1|2021-10-18 11:07:18.620 EDT|X509Authentication.java:213|No X.509 cert selected for RSASSA-PSS
javax.net.ssl|WARNING|24|XNIO-1 task-1|2021-10-18 11:07:18.620 EDT|CertificateRequest.java:764|Unavailable authentication scheme: rsa_pss_pss_sha512
javax.net.ssl|ALL|24|XNIO-1 task-1|2021-10-18 11:07:18.620 EDT|X509Authentication.java:213|No X.509 cert selected for RSA
javax.net.ssl|WARNING|24|XNIO-1 task-1|2021-10-18 11:07:18.620 EDT|CertificateRequest.java:764|Unavailable authentication scheme: rsa_pkcs1_sha256
javax.net.ssl|ALL|24|XNIO-1 task-1|2021-10-18 11:07:18.620 EDT|X509Authentication.java:213|No X.509 cert selected for RSA
javax.net.ssl|WARNING|24|XNIO-1 task-1|2021-10-18 11:07:18.620 EDT|CertificateRequest.java:764|Unavailable authentication scheme: rsa_pkcs1_sha384
javax.net.ssl|ALL|24|XNIO-1 task-1|2021-10-18 11:07:18.620 EDT|X509Authentication.java:213|No X.509 cert selected for RSA
javax.net.ssl|WARNING|24|XNIO-1 task-1|2021-10-18 11:07:18.620 EDT|CertificateRequest.java:764|Unavailable authentication scheme: rsa_pkcs1_sha512
javax.net.ssl|ALL|24|XNIO-1 task-1|2021-10-18 11:07:18.620 EDT|X509Authentication.java:213|No X.509 cert selected for DSA
javax.net.ssl|WARNING|24|XNIO-1 task-1|2021-10-18 11:07:18.620 EDT|CertificateRequest.java:764|Unavailable authentication scheme: dsa_sha256
javax.net.ssl|ALL|24|XNIO-1 task-1|2021-10-18 11:07:18.620 EDT|X509Authentication.java:213|No X.509 cert selected for EC
javax.net.ssl|WARNING|24|XNIO-1 task-1|2021-10-18 11:07:18.620 EDT|CertificateRequest.java:764|Unavailable authentication scheme: ecdsa_sha224
javax.net.ssl|ALL|24|XNIO-1 task-1|2021-10-18 11:07:18.620 EDT|X509Authentication.java:213|No X.509 cert selected for RSA
javax.net.ssl|WARNING|24|XNIO-1 task-1|2021-10-18 11:07:18.620 EDT|CertificateRequest.java:764|Unavailable authentication scheme: rsa_sha224
javax.net.ssl|ALL|24|XNIO-1 task-1|2021-10-18 11:07:18.620 EDT|X509Authentication.java:213|No X.509 cert selected for DSA
javax.net.ssl|WARNING|24|XNIO-1 task-1|2021-10-18 11:07:18.620 EDT|CertificateRequest.java:764|Unavailable authentication scheme: dsa_sha224
javax.net.ssl|ALL|24|XNIO-1 task-1|2021-10-18 11:07:18.620 EDT|X509Authentication.java:213|No X.509 cert selected for EC
javax.net.ssl|WARNING|24|XNIO-1 task-1|2021-10-18 11:07:18.620 EDT|CertificateRequest.java:764|Unavailable authentication scheme: ecdsa_sha1
javax.net.ssl|ALL|24|XNIO-1 task-1|2021-10-18 11:07:18.621 EDT|X509Authentication.java:213|No X.509 cert selected for RSA
javax.net.ssl|WARNING|24|XNIO-1 task-1|2021-10-18 11:07:18.621 EDT|CertificateRequest.java:764|Unavailable authentication scheme: rsa_pkcs1_sha1
javax.net.ssl|ALL|24|XNIO-1 task-1|2021-10-18 11:07:18.621 EDT|X509Authentication.java:213|No X.509 cert selected for DSA
javax.net.ssl|WARNING|24|XNIO-1 task-1|2021-10-18 11:07:18.621 EDT|CertificateRequest.java:764|Unavailable authentication scheme: dsa_sha1
javax.net.ssl|WARNING|24|XNIO-1 task-1|2021-10-18 11:07:18.621 EDT|CertificateRequest.java:774|No available authentication scheme

My certificate's signing algorithm is SHA256withRSA. Is that not the same as rsa_pkcs1_sha256? Also, my client certificate is signed by Entrust, which is not listed in the certificate authorities for the server's CertificateRequest.

EDIT: I made some requests to a different HTTPS server that does not include certificate authorities in its CertificateRequest to the client. I verified that SSL can find the expected client certificate and sends it back to the server as expected. So it seems like this is an issue with the server request not including my CA in their list of accepted certificate authorities. Reaching out to the server to request an update.

17
  • "they all seem to be regarding self-signed certs." - they are not. They are also about misconfigured servers which for example do not send all intermediate certificates. They are also about servers which send the wrong certificate since the client does not use SNI. Unfortunately it is unknown what the problem is in your case since not enough information are provided to reproduce or debug the problem. Commented Oct 14, 2021 at 20:57
  • 1
    sslContext.init takes an array of trust managers. How about passing it your custom manager first and then the default manager (that has all the standard certs)? Alternatively you can just import the root cert you need to trust into your own custom trust store.
    – ewramner
    Commented Oct 15, 2021 at 17:47
  • 2
    In the debug log BEFORE the No X.509 for client auth there should be a decode of the CertificateRequest message showing (depending on Java version) the Cert Authorities: or certificate_authorities: the server asks for. Make sure the issuer name of a cert in your client-cert's chain matches EXACTLY one of the server's desired CAs. @ewramner+ JSSE nominally takes an array of key and trust managers, but it uses only the first one of a given type; this API was designed to allow for authentication forms other than PKIX, but in practice there are no authentication forms other than PKIX. Commented Oct 15, 2021 at 21:34
  • 1
    I don't use Postman, and I don't know if it's written in Java, and if so whether it uses the standard (JSSE) TrustManager implementation. If not, it could easily send the cert even though it shouldn't, and the server might be able to verify more certs than the ones it asks for. I don't know if Postman will show or log this info, but if not you could see it externally with wireshark or similar unless you're using TLS1.3. You can also test manually with openssl s_client -cert -key which doesn't implement the name check. Commented Oct 16, 2021 at 11:51
  • 1
    Also I notice your command to create the P12 didn't specify any intermediate aka chain cert(s). Are you sure this client cert doesn't need any? All public CAs must use at least one, but you didn't say if you're using a public CA; many private CAs also do so to improve safety of the root key. If so, the server probably asks for the root CA which issued the (top) chain cert which should be in your key entry (not just in the store) and sent, but it may be able to rebuild the chain itself if your client doesn't send it (which officially is in violation of the RFCs). Commented Oct 16, 2021 at 11:56

1 Answer 1

6

Okay; it has developed your problem is that when the server requests your client-cert/auth, it specifies a CA list that doesn't include the CA(s?) used by your cert-and-chain, even though when presented with your cert-and-chain the server accepts it. After commenting about writing a wrapper KeyManager, I realized it would be easy enough to test, and the following example works for me to send a client cert different from what the server asked for. I used SSLSocket directly for simplicity, but anything (like OkHttp) using the same SSLContext or SSLSocketFactory should work. Tested in 8u301 (but I can check some others if you want) against OpenSSL commandline, which lets me request client cert for CA X but when I submit a cert from CA Y it only logs the verification error without aborting the connection.

public class SO69577136KeyManagerIgnoreCAs  {
    public static void main (String[] args) throws Exception {
        // keystore.p12 pw truststore.p12 pw host port [Y: wrap KM to ignore issuers]
        KeyStore st = KeyStore.getInstance("PKCS12");
        try( InputStream is = new FileInputStream(args[0]) ){ st.load(is,args[1].toCharArray()); }
        KeyManagerFactory kf = KeyManagerFactory.getInstance(KeyManagerFactory.getDefaultAlgorithm());
        kf.init(st,  args[1].toCharArray());
        KeyManager[] km = kf.getKeyManagers();
        try( InputStream is = new FileInputStream(args[2]) ){ st.load(is,args[3].toCharArray()); }
        TrustManagerFactory tf = TrustManagerFactory.getInstance(TrustManagerFactory.getDefaultAlgorithm());
        tf.init(st);
        TrustManager[] tm = tf.getTrustManagers();
        
        if( args.length>6 && args[6].startsWith("Y") ){
            X509ExtendedKeyManager orig = (X509ExtendedKeyManager)km[0]; // exception if wrong type
            km[0] = new X509ExtendedKeyManager(){

                @Override
                public String chooseClientAlias(String[] keyType, Principal[] issuers, Socket socket) {
                    return orig.chooseClientAlias(keyType, null, socket);
                }

                @Override
                public String chooseServerAlias(String keyType, Principal[] issuers, Socket socket) {
                    // not implemented
                    return null;
                }

                @Override
                public X509Certificate[] getCertificateChain(String alias) {
                    return orig.getCertificateChain(alias);
                }

                @Override
                public String[] getClientAliases(String keyType, Principal[] issuers) {
                    // shouldn't actually be used AFAICT but just in case
                    return orig.getClientAliases(keyType, issuers);
                }

                @Override
                public PrivateKey getPrivateKey(String alias) {
                    return orig.getPrivateKey(alias);
                }

                @Override
                public String[] getServerAliases(String keyType, Principal[] issuers) {
                    // not implemented
                    return null;
                }

                public String chooseEngineClientAlias(String[] keyType, Principal[] issuers, SSLEngine engine) {
                    return orig.chooseEngineClientAlias(keyType, null, engine);
                    // could just forward to chooseClientAlias(socket=null), that's what underlying does
                }

                public String chooseEngineServerAlias(String keyType, Principal[] issuers, SSLEngine engine) {
                    // not implemented
                    return null;
                }
            };
        }
        SSLContext ctx = SSLContext.getInstance("TLS");
        ctx.init(km, tm, null /* default */);
        SSLSocketFactory sf = ctx.getSocketFactory();
        SSLSocket ss = (SSLSocket) sf.createSocket(args[4], Integer.parseInt(args[5]));
        ss.startHandshake();
        System.out.println ("successful");
    }
}
1
  • 2
    You are a true hero. I told my team last week that I would give my next paycheck to whoever figures this out, so I guess I owe you. This worked perfectly for me, and I learned a ton about SSL in the process. Thanks for taking some time to work through this! Commented Oct 19, 2021 at 15:28

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