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Is there a static analysis tool which automatically checks for race conditions in Java projects? Preferably the one supporting Eclipse, Spring and Hibernate. Thanks

EDIT: I may need not necessarily a static analysis tool but maybe a tool which runs the java threads (at least JUnit) with different random speed and also can reproduce the same speed profile under debugger. So, almost any way of detecting race conditions would be helpful.

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Please give people credit for their effort to help you and accept answers on your previous questions. You haven't accepted a single answer. –  oers Jan 31 '12 at 11:28
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10 Answers 10

JLint can be used to detect race-conditions. IBM's ConTest is designed to test concurrency issues, so have a look at that as well.

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JLint website does not look serious. Therefore would you mind me asking did you try it yourself and did it work well for you? –  user1081596 Jan 31 '12 at 11:18
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JLINT is one of the best @user1081596. Dont jusge the book by the cover :) –  manocha_ak Feb 3 '12 at 7:10
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JLint is as serious as having a name "user1081596" ;) Jokes aside, the only reason it "doesn't look serious" is because the dude didn't bother with a website and is not hosting it under java.net or sourceforge... –  Gepsens Feb 6 '12 at 9:53
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jlint.sourceforge.net –  Abhi Feb 7 '12 at 10:42
    
I'm with @user1081596 on this. If you want your stuff to be taken seriously, spend more than 5 minutes on your website! –  adelphus Feb 7 '12 at 10:58
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ThreadSafe (http://www.contemplateltd.com/threadsafe, free trials available) does exactly what the question asks for, also covering Java concurrency defects other than race conditions. See this InfoQ article for examples of concurrency errors it finds in open source applications including Apache JMeter and K9Mail. See Ivan Senic's blog for a user's opinion.

(Disclosure: ThreadSafe is a commercial tool, and I'm co-founder of Contemplate, the company that produces it.)

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If you use eclipse you can use FindBugs, to check the code. If you want you can run it from the the command-line too or with a Swing interface.

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Static analysis is a good thing, no doubt. But may I suggest not so static JPF?

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It would be nice if JPF was a little easier to use, though. –  Chris Vest Feb 5 '12 at 21:30
    
Documentation says JPF checks for deadlocks but does it check for race conditions? –  user1081596 Feb 6 '12 at 14:06
    
@user1081596 Yes it does. –  user381105 Feb 6 '12 at 15:56
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Coverity Static Analysis for Java flags race conditions, as well as possible deadlock and atomicity violations.

In addition Coverity has a Dynamic Analysis product which instruments your own tests and reports potential race conditions and deadlocks. Note that running it on unit tests is usually not effective as their logic tends to be simpler than the types of interaction a complex application will have in production and it's more effective to run Dynamic analysis with your stress, load tests or even ad hoc testing.

Disclaimer: I used to work for Coverity.

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I haven't used the product personally, but I thought of Corensic Jinx when you wrote that you are looking for "a tool which runs the Java threads (at least JUnit) with different random speed". According to Corensic's product description page, Jinx observes threading operations at the native OS thread level and "dynamically builds a set of potential interleavings (i.e., alternate eventualities, or execution scenarios, that will occur under some future set of conditions) that are most likely to result in concurrency faults, and quickly tests those execution paths to surface concurrency problems including deadlocks, race conditions, and atomicity violations."

This might be too low-level for an all-Java application, but Corensic claims to support Java and Microsoft .NET applications.

See Using Jinx with Java

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AppDynamics is a tool that gets attached to your JVM and provides information about memory usage of individual threads.

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I would advocate for you a dynamic analysis tool, SUM4Java.

As I believe, the serious advantages of this tool are listed below.

[] its analysis results are done with 0 % false positive precision.

[] It analyzes byte code directly, anything presented to JVM, anything translated to byte code, no matter what higher level constructs were used as the source.

[] It works for obfuscated code as well, providing you with the red flags in case of realized race conditions.

[] It does not have the following limitation of static analysis tool (a build time analysis tool): (a) high degree of false positives; (b) intentional simplification of the set of potential effects to study in order to be able to cover what it can.

[] Coverity's Dynamic Analysis tool is still reporting under 20% of false positives.

[] A static analysis tool will not work without access to a source code, moreover it will not work unless you can reproduce successful build.

[] When we tried Corensic's Jinx to locate known races, we did not succeed. As of today the link mentioned above http://wiki.corensic.com/wiki/Jinx_--_Using_Jinx_with_Java is saying the following: "Although running Jinx against a Java program works just fine, it doesn't provide the level of insight and bug acceleration that is necessary for Corensic to recommend using Jinx to find concurrency errors in your Java applications"

The above, assuming that you would agree with the above, suggests that your best bet today is SUM4Java. When you run a java byte code with SUM4Java agent, the tool would either keep you in the "green", when no races or deadlocks were encountered by your application as of yet, or it would give you "red flags" and explain them to you, all automatically. The SUM4Java agent has a relatively low overhead so you can use it in production in most cases, which will allow you to sleep well while the application is in the "green". However you can also sleep well when not all is in the "green" because your target application's races will be all "caught in the act" and automatically analyzed.

You can find a link to a demo sample at the end of this page (please forgive the simplicity of the text that is using analogies, as it was written for a different audience)

http://thinkingsoftware.com/Parallel/Parallel.html
A more serious demo can be found on the first page of the same site.

(Disclaimer: I work for Thinking Software, Inc)

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Your statement about false positives in Coverity Java Dynamic Analysis tool indicating that it's somehow Static Analysis seems confused. Coverity has two separate tools. Static Analysis works the way the linked article discusses, by analyzing the AST statically. Coverity Dynamic Analysis works at runtime by instrumenting the JVM and observing threads which are actually running. It is not in any way shape of form static analysis. –  Asya Kamsky May 2 '12 at 9:33
    
Your statement about static analysis not being able to work without source code or a working build is also incorrect - analysis can be run strictly on bytecode. Perhaps you are suggesting that without access to source code meaningful results can't be presented to the developer? –  Asya Kamsky May 2 '12 at 9:34
    
Asya, by all means over the years Coverity had done a huge job and a very important work. The article I linked is written by Coverity and the name says it for itself "few billion LOC later" The importance of static analysis is big, but it has its limitation and new tools come up from time to time. I understand that Coverity markets both static analysis and dynamic analysis tools. What I was trying to say is when a dynamic analysis tool provides you with false positives, it would suggest that most probably what is used now dynamically are the static analysis techniques. –  Ben May 2 '12 at 21:04
    
I'm quite familiar with the article you reference (check the list of authors) and you are incorrect to infer anything about Coverity Java Dynamic Analysis tool from an article which is written exclusively about C/C++ static analysis tool. Two different products. Not a single line of code in common between the two. It hurts your credibility to make claims about techniques used in Java Dynamic Analysis based on your misreading of an article about C++ Static Analysis tool which happened to be shipped by the same company. –  Asya Kamsky May 4 '12 at 8:37
    
I will be very willing to extend my apology if you could provide the quote about the False Positive rate of Coverity's Java Dynamic Analysis. You see, your webinars on Java tool still claimed false positives, I believe it was 15%. One more point, I did not mean to pick up a fight. No tool is a silver bullet, including ours, people will most probably find something there that can be improved as well. I would not take it so personal. Regards, –  Ben May 5 '12 at 19:39
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I developed a tool called http://vmlens.com which can detect data races, especially write/write data races. It searches for memory fields which are accessed from different threads without synchronization.

So its not a static analysis tool but rather dynamic. To detect a data race a memory location must be accessed at least by two different threads.

Regards Thomas

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This question often pops up on a search results and I would like to share a very visual example along with the addition to my previous answer.

"Is there a static analysis tool which automatically checks for race conditions in Java projects?"

The answer is "No". A race condition is a dynamic property. You need a sophisticated dynamic code analyzer. A static analysis tool cannot do that automatically (or manually). The dynamic analysis that you need is mentioned below, and it is called "Race Catcher".

When a static analysis tool would attempt to do that it would give you bunch of false positives. And when the analysis is not trivial, it will simply miss races.

A good example can be found on our web site. We compare the results of the analysis by two tools, "Findbugs" and "Race Catcher". Findbugs, which is, of course, a very popular static analysis fails on the examples provided and diagnoses no race conditions. But the Race Catcher successfully diagnoses them every time.

See this comparison "Static vs. Dynamic" here: http://www.thinkingsoftware.com/#!why-sum/c1cf8 and judge for yourself.

PS. Regarding the open source projects you have mentioned in the question: Eclipse, Spring and Hibernate, please note that Race Catcher is FREE for Open Source. It therefore can diagnose (and does so) in these frameworks as well.

Additionally, please see the demo of the FREE Service that is now available for open source projects. Upon downloading "Free for Open Source" Race Catcher edition: http://www.thinkingsoftware.com/#!products/c1vw1 the service demo is available immediately from Tools menu.

You will see real cases of analysis of open source projects, org.eclipse.Jetty and org.apache diagnosed by the Race Catcher. It is educational and fun. Here it is: http://www.thinkingsoftware.com/#!demos/chuf

Regards -Ben

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