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In my server application I'm connecting to Kerberos secured Hadoop cluster from my java application. I'm using various components like the HDFS file system, Oozie, Hive etc. On the application startup I do call

UserGroupInformation.loginUserFromKeytabAndReturnUGI( ... );

This returns me UserGroupInformation instance and I keep it for application lifetime. When doing privileged action I launch them with ugi.doAs(action).

This works fine but I wonder if and when should I renew the kerberos ticket in UserGroupInformation? I found a method UserGroupInformation.checkTGTAndReloginFromKeytab() which seems to do the ticket renewal whenever it's close to expiry. I also found that this method is being called by various Hadoop tools like WebHdfsFileSystem for example.

Now if I want my server application (possibly running for months or even years) to never experience ticket expiry what is the best approach? To provide concrete questions:

  1. Can I rely on the various Hadoop clients they call checkTGTAndReloginFromKeytab whenever it's needed?
  2. Should I call ever checkTGTAndReloginFromKeytab myself in my code?
  3. If so should I do that before every single call to ugi.doAs(...) or rather setup a timer and call it periodically (how often)?
  • Can you check under what condition is this 'UserGroupInformation.checkTGTAndReloginFromKeytab()' being called in those Hadoop tools your mentioning? Cause I have also been UserGroupInformation.loginUserFromKeytabAndReturnUGI for quite some time in long running applications and have not faced any issue yet. – Harinder Jan 5 '16 at 16:53
  • I didn't face any issues yet either and I'm not calling it ever myself. But I wonder if I'm just lucky or it's by desing ;) – Jan Zyka Jan 5 '16 at 20:02
  • No, I think we don't need to call this explicitly cause neither of us are facing issues with not calling this. But lets wait if someone else shares some knowledge on this :) – Harinder Jan 6 '16 at 11:29
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    Maybe you can find insights in Steve Loughran's GitBook explicitly named Hadoop and Kerberos: The Madness Beyond the Gate (I heard that that he's still debugging the Kerberos client in Spark these days - once an exorcist, always an exorcist...) – Samson Scharfrichter Jan 6 '16 at 14:35
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Hadoop committer here! This is an excellent question.

Unfortunately, it's difficult to give a definitive answer to this without a deep dive into the particular usage patterns of the application. Instead, I can offer general guidelines and describe when Hadoop would handle ticket renewal or re-login from a keytab automatically for you, and when it wouldn't.

The primary use case for Kerberos authentication in the Hadoop ecosystem is Hadoop's RPC framework, which uses SASL for authentication. Most of the daemon processes in the Hadoop ecosystem handle this by doing a single one-time call to UserGroupInformation#loginUserFromKeytab at process startup. Examples of this include the HDFS DataNode, which must authenticate its RPC calls to the NameNode, and the YARN NodeManager, which must authenticate its calls to the ResourceManager. How is it that daemons like the DataNode can do a one-time login at process startup and then keep on running for months, long past typical ticket expiration times?

Since this is such a common use case, Hadoop implements an automatic re-login mechanism directly inside the RPC client layer. The code for this is visible in the RPC Client#handleSaslConnectionFailure method:

          // try re-login
          if (UserGroupInformation.isLoginKeytabBased()) {
            UserGroupInformation.getLoginUser().reloginFromKeytab();
          } else if (UserGroupInformation.isLoginTicketBased()) {
            UserGroupInformation.getLoginUser().reloginFromTicketCache();
          }

You can think of this as "lazy evaluation" of re-login. It only re-executes login in response to an authentication failure on an attempted RPC connection.

Knowing this, we can give a partial answer. If your application's usage pattern is to login from a keytab and then perform typical Hadoop RPC calls, then you likely do not need to roll your own re-login code. The RPC client layer will do it for you. "Typical Hadoop RPC" means the vast majority of Java APIs for interacting with Hadoop, including the HDFS FileSystem API, the YarnClient and MapReduce Job submissions.

However, some application usage patterns do not involve Hadoop RPC at all. An example of this would be applications that interact solely with Hadoop's REST APIs, such as WebHDFS or the YARN REST APIs. In that case, the authentication model uses Kerberos via SPNEGO as described in the Hadoop HTTP Authentication documentation.

Knowing this, we can add more to our answer. If your application's usage pattern does not utilize Hadoop RPC at all, and instead sticks solely to the REST APIs, then you must roll your own re-login logic. This is exactly why WebHdfsFileSystem calls UserGroupInformation#checkTGTAndReloginFromkeytab, just like you noticed. WebHdfsFileSystem chooses to make the call right before every operation. This is a fine strategy, because UserGroupInformation#checkTGTAndReloginFromkeytab only renews the ticket if it's "close" to expiration. Otherwise, the call is a no-op.

As a final use case, let's consider an interactive process, not logging in from a keytab, but rather requiring the user to run kinit externally before launching the application. In the vast majority of cases, these are going to be short-running applications, such as Hadoop CLI commands. However, in some cases these can be longer-running processes. To support longer-running processes, Hadoop starts a background thread to renew the Kerberos ticket "close" to expiration. This logic is visible in UserGroupInformation#spawnAutoRenewalThreadForUserCreds. There is an important distinction here though compared to the automatic re-login logic provided in the RPC layer. In this case, Hadoop only has the capability to renew the ticket and extend its lifetime. Tickets have a maximum renewable lifetime, as dictated by the Kerberos infrastructure. After that, the ticket won't be usable anymore. Re-login in this case is practically impossible, because it would imply re-prompting the user for a password, and they likely walked away from the terminal. This means that if the process keeps running beyond expiration of the ticket, it won't be able to authenticate anymore.

Again, we can use this information to inform our overall answer. If you rely on a user to login interactively via kinit before launching the application, and if you're confident the application won't run longer than the Kerberos ticket's maximum renewable lifetime, then you can rely on Hadoop internals to cover periodic renewal for you.

If you're using keytab-based login, and you're just not sure if your application's usage pattern can rely on the Hadoop RPC layer's automatic re-login, then the conservative approach is to roll your own. @SamsonScharfrichter gave an excellent answer here about rolling your own.

HBase Kerberos connection renewal strategy

Finally, I should add a note about API stability. The Apache Hadoop Compatibility guidelines discuss the Hadoop development community's commitment to backwards-compatibility in full detail. The interface of UserGroupInformation is annotated LimitedPrivate and Evolving. Technically, this means the API of UserGroupInformation is not considered public, and it could evolve in backwards-incompatible ways. As a practical matter, there is a lot of code already depending on the interface of UserGroupInformation, so it's simply not feasible for us to make a breaking change. Certainly within the current 2.x release line, I would not have any fear about method signatures changing out from under you and breaking your code.

Now that we have all of this background information, let's revisit your concrete questions.

Can I rely on the various Hadoop clients they call checkTGTAndReloginFromKeytab whenever it's needed?

You can rely on this if your application's usage pattern is to call the Hadoop clients, which in turn utilize Hadoop's RPC framework. You cannot rely on this if your application's usage pattern only calls the Hadoop REST APIs.

Should I call ever checkTGTAndReloginFromKeytab myself in my code?

You'll likely need to do this if your application's usage pattern is solely to call the Hadoop REST APIs instead of Hadoop RPC calls. You would not get the benefit of the automatic re-login implemented inside Hadoop's RPC client.

If so should I do that before every single call to ugi.doAs(...) or rather setup a timer and call it periodically (how often)?

It's fine to call UserGroupInformation#checkTGTAndReloginFromKeytab right before every action that needs to be authenticated. If the ticket is not close to expiration, then the method will be a no-op. If you're suspicious that your Kerberos infrastructure is sluggish, and you don't want client operations to pay the latency cost of re-login, then that would be a reason to do it in a separate background thread. Just be sure to stay a little bit ahead of the ticket's actual expiration time. You might borrow the logic inside UserGroupInformation for determining if a ticket is "close" to expiration. In practice, I've never personally seen the latency of re-login be problematic.

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    Thanks a lot. My usage is typically the RPC calls u mentioned using the Java API calls for like FileSystem, MapReduce client, job.submit(). And I use UserGroupInformation.loginUserFromKeytabAndReturnUGI for getting the UGI. So I think I need not worry about my ticket renewal. – Harinder Jan 9 '16 at 10:29
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    @NiranjanSubramanian , yes, Hadoop can keep renewing the ticket based on the Kerberos configuration. This not based on the Hadoop code itself directly reading krb5.conf. Instead, Hadoop code accesses the information attached to the ticket itself (the JDK class javax.security.auth.kerberos.KerberosTicket). The Hadoop code inspects the ticket and always tries to keep it renewed slightly ahead of its expiration, so that from the client's perspective, the ticket always works. – Chris Nauroth Oct 18 '16 at 18:38
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    @NiranjanSubramanian , I don't believe there are specific recommendations around krb5.conf for Hadoop. Typically, this relates more to the operations team's decisions on how they want to manage Kerberos. I usually see ticket_lifetime=24h and renew_lifetime=7d, but this is really more of a guideline than a requirement. We often run system tests using much shorter lifetimes to try to stress test the renewal process, so I know that Hadoop works fine with much shorter lifetimes than this. – Chris Nauroth Oct 19 '16 at 19:49
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    @ChrisNauroth I'm quite confused on when this API UserGroupInformation#spawnAutoRenewalThreadForUserCreds kicks in? This has a limitation of ticket not being renewable after its renewable life time. In my case I'm just using FileSystem API for writing continuously to HDFS, basically my app is a HDFSWriter and I do a single one-time call to UserGroupInformation#loginUserFromKeytab at my process startup. Do I need to worry about the above and would this Client#handleSaslConnectionFailure suffice? Can you let me know difference in login mech between these 2 API in this comment? – Niranjan Subramanian Oct 26 '16 at 6:48
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    @NiranjanSubramanian, UserGroupInformation#spawnAutoRenewalThreadForUserCreds is only relevant for applications that rely solely on the Kerberos ticket cache. In general, that means an interactive login that calls kinit before launching a command. If your application instead uses a keytab and calls UserGroupInformation#loginUserFromKeytab at startup before calling the FileSystem API, then you don't need to worry about this. The logic in the RPC layer to re-login automatically from the keytab has you covered. – Chris Nauroth Oct 26 '16 at 16:37

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