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It looks like a standard question, but I couldn't find clear directions anywhere.

I have java code trying to connect to a server with probably self-signed (or expired) certificate. The code reports the following error :

[HttpMethodDirector] I/O exception (javax.net.ssl.SSLHandshakeException) caught 
when processing request: sun.security.validator.ValidatorException: PKIX path 
building failed: sun.security.provider.certpath.SunCertPathBuilderException: 
unable to find valid certification path to requested target

As I understand it, I have to use keytool and tell java that it's OK to allow this connection.

All instructions to fix this problem assume I'm fully proficient with keytool, such as

generate private key for server and import it into keystore

Is there anybody who could post detailed instructions?

I'm running unix, so bash script would be best.

Not sure if it's important, but code executed in jboss.

share|improve this question
See How do I accept a self-signed certificate with a Java HttpsURLConnection?. Obviously, it would be better if you can get the site to use a valid cert. – Matthew Flaschen May 23 '10 at 22:52
Thanks for the link, I didn't see it while searching. But both solutions there involve special code to send a request and I'm using existing code (amazon ws client for java). Respectively, it's their site I'm connecting and I can't fix its certificate problems. – Nikita Rybak May 23 '10 at 23:22
up vote 159 down vote accepted

You have basically two options here: add the self-signed certificate to your JVM truststore or configure your client to

Option 1

Export the certificate from your browser and import it in your JVM truststore (to establish a chain of trust):

<JAVA_HOME>\bin\keytool -import -v -trustcacerts
-alias server-alias -file server.cer
-keystore cacerts.jks -keypass changeit
-storepass changeit 

Option 2

Disable Certificate Validation (code from Example Depot):

// Create a trust manager that does not validate certificate chains
TrustManager[] trustAllCerts = new TrustManager[] { 
    new X509TrustManager() {     
        public java.security.cert.X509Certificate[] getAcceptedIssuers() { 
            return new X509Certificate[0];
        public void checkClientTrusted( 
            java.security.cert.X509Certificate[] certs, String authType) {
        public void checkServerTrusted( 
            java.security.cert.X509Certificate[] certs, String authType) {

// Install the all-trusting trust manager
try {
    SSLContext sc = SSLContext.getInstance("SSL"); 
    sc.init(null, trustAllCerts, new java.security.SecureRandom()); 
} catch (GeneralSecurityException e) {
// Now you can access an https URL without having the certificate in the truststore
try { 
    URL url = new URL("https://hostname/index.html"); 
} catch (MalformedURLException e) {

Note that I do not recommend the Option #2 at all. Disabling the trust manager defeats some parts of SSL and makes you vulnerable to man in the middle attacks. Prefer Option #1 or, even better, have the server use a "real" certificate signed by a well known CA.

share|improve this answer
Not just the MIM attack. It renders you vulnerable to connecting to the wrong site. It is completely insecure. See RFC 2246. I am opposed to posting this TrustManager at all times. It's not even correct w.r.t. its own specification. – EJP May 24 '10 at 8:38
@EJP I'm really not recommending the second option (I've updated my answer to make it clear). However, not posting it won't solve anything (this is public information) and doesn't IMHO deserve a downvote. – Pascal Thivent May 24 '10 at 11:17
@EJP It's by teaching people that you educate them, not by hiding things. So keeping things secret or in obscurity is not a solution at all. This code is public, the Java API is public, it's better to talk about it than to ignore it. But I can live with you not agreeing. – Pascal Thivent May 25 '10 at 0:10
The other option – the one you don't mention – is to get the server's certificate fixed either by fixing it yourself or by calling up the relevant support people. Single host certificates are really very cheap; futzing around with self-signed stuff is penny-wise pound-foolish (i.e., for those not familiar with that English idiom, a totally stupid set of priorities that costs lots to save almost nothing). – Donal Fellows Jun 21 '11 at 7:59
Would you be able to update your answer with a pointer on how to obtain a suitable "server.cer" file, given only a specific HTTPS site I need to connect to which has a self-signed certificate? Can I derive a "cer" file just by connecting to the server, or do I need to contact the site admin? – Rich Feb 3 '12 at 16:46

I chased down this problem to a certificate provider that is not part of the default JVM trusted hosts as of JDK 8u74. The provider is www.identrust.com, but that was not the domain I was trying to connect to. That domain had gotten its certificate from this provider. See Will the cross root cover trust by the default list in the JDK/JRE? -- read down a couple entries. Also see Which browsers and operating systems support Let’s Encrypt.

So, in order to connect to the domain I was interested in, which had a certificate issued from identrust.com I did the following steps. Basically, I had to get the identrust.com (DST Root CA X3) certificate to be trusted by the JVM. I was able to do that using Apache HttpComponents 4.5 like so:

1: Obtain the certificate from indettrust at Certificate Chain Download Instructions. Click on the DST Root CA X3 link.

2: Save the string to a file named "DST Root CA X3.pem". Be sure to add the lines "-----BEGIN CERTIFICATE-----" and "-----END CERTIFICATE-----" in the file at the beginning and the end.

3: Create a java keystore file, cacerts.jks with the following command:

keytool -import -v -trustcacerts -alias IdenTrust -keypass yourpassword -file dst_root_ca_x3.pem -keystore cacerts.jks -storepass yourpassword

4: Copy the resulting cacerts.jks keystore into the resources directory of your java/(maven) application.

5: Use the following code to load this file and attach it to the Apache 4.5 HttpClient. This will solve the problem for all domains that have certificates issued from indetrust.com util oracle includes the certificate into the JRE default keystore.

SSLContext sslcontext = SSLContexts.custom()
        .loadTrustMaterial(new File(CalRestClient.class.getResource("/cacerts.jks").getFile()), "yourpasword".toCharArray(),
                new TrustSelfSignedStrategy())
// Allow TLSv1 protocol only
SSLConnectionSocketFactory sslsf = new SSLConnectionSocketFactory(
        new String[] { "TLSv1" },
CloseableHttpClient httpclient = HttpClients.custom()

When the project builds then the cacerts.jks will be copied into the classpath and loaded from there. I didn't, at this point in time, test against other ssl sites, but if the above code "chains" in this certificate then they will work too, but again, I don't know.

Reference: Custom SSL context and How do I accept a self-signed certificate with a Java HttpsURLConnection?

share|improve this answer
The question is about a self-signed certificate. This answer isn't. – EJP Jun 21 at 9:50
Read the question (and answer) a little closer. – Nicholas Jun 21 at 15:06

If 'they' are using a self-signed certificate it is up to them to take the steps required to make their server usable. Specifically that means providing their certificate to you offline in a trustworthy way. So get them to do that. You then import that into your truststore using the keytool as described in the JSSE Reference Guide. Don't even think about the insecure TrustManager posted here.

share|improve this answer
Just because some server decided to use https, doesn't mean that the person with the client gives a crap about security for their own purposes. – Gus Feb 5 at 21:29
I'm surprised this answer got downvoted so much. I would love to understand a little more why. It seems like EJP is suggesting that you shouldn't be doing option 2 because it allows for a major security flaw. Could someone explain why (other than pre-deployment settings) why this answer is low quality? – Richard_D May 16 at 20:22
@Richard_D: IMHO the answer is like a mantra and like with every other mantra there are cases where it doesn't fit. Sometimes even reliable organisations will use their own CA (=not recognised by anyone else), even per system/application basis, just to make sure that 1) the communication is secure (no plain text), 2) they precisely control who has a certificate signed by them. This is extremely useful for SSL/TLS communication secured from both ends. While the advice that this TM is crappy is okay, the one that self-signed certs are always bad is IMHO simply not true. – Piohen May 24 at 15:53
Got it, thanks @Piohen! – Richard_D May 24 at 16:55
@Gus If the server decided to use HTTPS it is because they want some security, and they are entitled to expect the client not to undermine it. – EJP Jun 21 at 7:43

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