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I am studying java threads and deadlocks, I understand deadlock's examples but I wonder if there are general rules to follow to prevent it.

My question is if are there rules or tips that can be applied to the source code in java to prevent deadlocks?

EDIT: are there design patterns to avoid deadlocks? If yes, could you explain how to implement it?

Thanks in advance

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Voting to close as not constructive, but it's a good question which might illustrate our standards need work still / yet again. –  djechlin May 27 '13 at 22:48
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8 Answers 8

up vote 6 down vote accepted

Some quick tips out of my head

  • don't use multiple threads (like Swing does, for example, by mandating that everything is done in the EDT)
  • don't hold several locks at once. If you do, always acquire the locks in the same order
  • don't execute foreign code while holding a lock
  • use interruptible locks
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#3 can be a life saver. –  assylias May 27 '13 at 22:07
    
point (1):ok, like EDT. (2): How can I adquire the threads in the same order? (3):OK, I understand this point 4:What is interruptible locks? Thanks –  iberck May 27 '13 at 22:10
    
    
Also checkout Sun's SafeLock trail: docs.oracle.com/javase/tutorial/essential/concurrency/… –  BrianDHall May 28 '13 at 3:49
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Can you clarify what you mean by "foreign" code? Code that makes network calls? Calls that block? Calls to other classes not written by you? Calls to code written in other countries :) ... –  Nate May 28 '13 at 8:06
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  1. Avoid locks by using lock-free data structures (e.g. use a ConcurrentLinkedQueue instead of a synchronized ArrayList)
  2. Always acquire the locks in the same order, e.g. assign a unique numerical value to each lock and acquire the locks with lower numerical value before acquiring the locks with higher numerical value
  3. Release your locks after a timeout period (technically this doesn't prevent deadlocks, it just helps to resolve them after they've occurred)
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I dont understand the point 1, may you explain me? –  iberck May 28 '13 at 17:04
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A lock-free data structure cannot cause deadlock. The ConcurrentLinkedQueue is an example of a lock-free data structure - you can offer and poll the queue from multiple threads without needing to synchronize access to it –  Zim-Zam O'Pootertoot May 28 '13 at 17:08
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  1. Don't use locks.
  2. If you must, keep your locks local. Global locks can be really tricky.
  3. Do as little as possible when you hold the lock.
  4. Use stripes to only lock segments of your data
  5. Prefer Immutable types. Many times this means copying data instead of sharing data.
  6. Use compare and set (CAS) mechanics instead, See AtomicReference for example.
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Read and understand Java: Concurrency and Practice. This isn't about "tips" to avoid deadlock. I would never hire a developer who knew a few tips to avoid deadlock and often avoided deadlock. It's about understanding concurrency. Fortunately there is a comprehensive intermediate-level book on the topic, so go read it.

(Yes, I'm now voting to close this question as not constructive. But I decided it was better to post this, I.M.H.O. correct opinion, than leave it unexpressed.)

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There is pretty much just one big rule when it comes to preventing deadlocks:

If you need to have multiple locks in your code, make sure everyone always acquire them in the same order.

Keeping your code free from locks should pretty much always be your goal though. You can try to get rid of them by using immutable or thread-local objects and lock-free data structures.

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What does "in the same order" means? do you have an example? Thanks –  iberck May 27 '13 at 22:05
    
@iberck See this typical example: stackoverflow.com/a/1385876/829571 (it's in pseudo code but you should get the idea). –  assylias May 27 '13 at 22:12
    
Sure but the "if you need" part is where the work happens 75% of the time. You should be well versed in lock free patterns. –  djechlin May 27 '13 at 22:49
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Given a design choice, use message-passing where there only locks are in the queue push/pop. This is not always possible but, if it is, you will have very few deadlocks. You can still get them, but you have to try really hard :)

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seconded. I can recommend JCSP, which formalises it nicely. See the page on Wikipedia, en.wikipedia.org/wiki/JCSP. CSP means that in general you can worry a lot less about deadlock, live lock, etc. As the Wiki article points out, not using CSP inevitably leaves you with a program that cannot be shown to be correct by mere testing. However, with CSP there's some simple guidelines to follow and you're inevitably OK. If you're brave you can do CSP math and prove that your program is correct with no testing. See en.wikipedia.org/wiki/Communicating_sequential_processes. –  bazza May 28 '13 at 5:32
    
Oh, and a useful side effect of JCSP is that you've got scalability built right into your program from the outset. A thread can become a separate process on a separate computer, but the overall architecture of your program remains unchanged. So scaling from a single machine to a whole data centre's worth becomes doable with no re-design. –  bazza May 28 '13 at 5:34
    
@bazza - yeah, I have used message-passing designs, communicating objects around on P-C queues, for decades on Java, Delphi and C++. On the two occasions that I have managed to get a deadlock, one was just gross stupidity on my part, the other was my bad design that overloaded a GUI input queue. –  Martin James May 28 '13 at 6:20
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Encapsulate, encapsulate, encapsulate! Probably the most dangerous mistake you can make with locks is exposing your lock to the world (making it public). There is no telling what can happen if you do this as anyone would be able to acquire the lock without the object knowing (this is also why you shouldn't lock this). If you keep your lock private then you have complete control and this makes it more manageable.

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Great comment ! –  iberck May 28 '13 at 4:09
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This is a classic example of deadlock:

public void methodA(){

  synchronized(lockA){
  //...

   synchronized(lockB){
   //...
  }
 }
}

public void methodB(){

  synchronized(lockB){
  //...

   synchronized(lockA){
   //...
   }
  }
}

This methods would probably create a great deadlock if called by many threads. This is because the objects are locked in different order. This is one of the most common reasons of deadlocks, so if you want to avoid them, be sure that the locks are aquired in order.

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if thread "A" calls methodA and thread "B" calls methodB, then: lockA will be aquired from threadA and lockB from threadB. Then threadA will have to wait for lockB while threadB waits for lockA from the recently blocked threadA. Consider your downvote, since it has no reason at all. –  Asier Aranbarri May 27 '13 at 22:19
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OKAY. totally my fault. I did write it wrong.I was 100% sure having it written correctly. –  Asier Aranbarri May 27 '13 at 22:30
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The best example of this problem is two bank accounts trying to transfer money to each other at the same time. If the locks are static it's very easy to see when they happen out of order; if they're dynamic and the data can happen to be interchanged, not so much. –  djechlin May 27 '13 at 22:50
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