I make a tool and provide an API for external world, but I am not sure whether it is thread safe. Because users may want t use it in multiple-thread environment. Is there any way or tool that I can use to verify whether my API is thread safe in Java?
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how bout you test it with jmeter and see what happens or any other automated test tool, maybe grinder– antOct 5, 2010 at 12:49
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You could just synchronize the whole thing. It wouldn't scale to multiple threads but it also wouldn't break due to bad threading. Is your goal efficiency of just lack of catastrophic failure?– Paul RubelOct 5, 2010 at 13:06
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Related question that might help stackoverflow.com/questions/424516/…– JRLOct 5, 2010 at 13:09
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4@Paul: "Synchronizing the whole thing" is no guarantee that the program will not break or deadlock. In order to write thread-safe code, you must know what you're doing and be careful; there are no magical recipes.– GrodriguezOct 5, 2010 at 14:41
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@Grodriquez, good point about the deadlock.– Paul RubelOct 5, 2010 at 16:56
6 Answers
No. There is no such tool. Proving that a complex program is thread safe is very hard.
You have to analyze your program very carefully to ensure that is thread safe. Consider buying "Java concurrency in practice" (very good explanation of concurrency in java).
Stress tests, or static analysis tools like PMD and FindBugs can uncover some concurrency bugs in your code. So these can show if your code is not thread-safe. However they can never prove if it is thread-safe.
The most effective method is a thorough code review by developer(s) experienced in concurrency.
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1Using jMeter, while not bulletproof, does help identify implementation stupidities. I ran into threading issues because some class deep down had a static SimpleDateFormat object that was being used to generate date parameters for SQL queries. The underlying driver, at one point, started complaining about invalid date parameters, which helped my identify this particular problem.– FilOct 6, 2010 at 15:03
You can always stress-test it with tools like jmeter.
But the main problem with threads is that they're mostly unpredictable, so even with stress-tests etc. you can't be 100% sure that it will be totally thread safe.
Resources :
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1JMeter (and pretty much every other tool) can help you uncover problems, but it can never verify that your code is correct (especially with multithreaded code). Oct 5, 2010 at 12:50
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@Joachim Sauer, Exactly what I'm saying. It won't show thread-safety problems but it can uncover some. Oct 5, 2010 at 12:51
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Tests like those are like unit tests... they can't tell you where your code is correct, they can only tell you where it's broken. That doesn't make them any less useful though :)– RHSeegerOct 5, 2010 at 15:07
This is a variant (or so called "reduction") of the Halting Problem. Therefore it is provably unsolvable. for all non-trivial cases. (Yes, that's an edit)
That means you can find errors by any usual means (statistics, logic) but you can never completely prove that there are none.
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This is obviously wrong: a single threaded program is always threadsafe, and a verifier that simply checks for threading api calls will detect non-single threaded program 100% of the time.– soruOct 5, 2010 at 18:20
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1@soru: you're right. It's not solvable in general, while specific cases (such as trivial programs with a single operation) can be proven correct. Unfortunately those trivial enough to be easily proven are usually not interesting enough ;-) Oct 6, 2010 at 8:28
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In my experience, it is pretty starightforward to divide programs into two classes:– soruOct 6, 2010 at 11:26
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1Those that are statically checkable, and those that need to be deleted and their authors fired– soruOct 6, 2010 at 11:26
I suppose those people saying proving an arbitrary multithreaded program is thread-safe is impossible are, in a way, correct. An arbitrary multithreaded program, coded without following strict guidelines, simply will have threading bugs, and you can't validly prove something that isn't true.
The trick is not to write an arbitrary program, but one with threading logic simple enough to possibly be correct. This then can be unambiguously validated by a tool.
The best such tool I'm aware of is CheckThread. It works on the basis of either annotations, or xml config files. If you mark a method as '@ThreadSafe' and it isn't, then you get a compile-time error. This is checked by looking at the byte code for thread-unsafe operations, e.g. reads/write sequences on unsynchronised data fields.
It also handles those APIs that require methods to be called on specific threads, e.g. Swing.
It doesn't actually handle deadlocks, but those can be statically eliminated without even requiring annotation, by using a tool such as Jlint. You just need to follow some minimal standards like ensuring locks are acquired according to a DAG, not willy-nilly.
You cannot and never will be able to automatically proof that a program is threadsafe anymore that you can prove that a program is correct (unless you think you solved the halting program, which you didn't).
So, no, you cannot verify that an API is threadsafe.
However in quite some case you can prove that it is broken, which is great!
You may also be interested in automatic deadlock detection, which in quite some case simply "just work". I'm shipping a Java program on hundreds of desktops with such a deadlock detector installed and it is a wonderful tool. For example:
http://www.javaspecialists.eu/archive/Issue130.html
You can also stress test your application in various ways.
Bogus multi-threaded programs tend to not work very well when a high load is present on the system.
Here's a question I asked about how to create easily create a high CPU load on a Un*x system, for example:
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Proving a single finite, non-arbitrary program lacks certain defects is not an example of a halting-equivalent problem. Otherwise there would be no such things as a type-checking compiler.– soruOct 5, 2010 at 18:39