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I was stuck at one question in an interview.

Given two threads, and each one has a lock, how to guarantee no deadlock.

My knowledge is that it is not easy to avoid deadlock, that's why I got stuck. Can anybody give a hint.


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This reminds me the funny bits of the chapter about deadlocks in Tanenbaum's Modern Operating Systems. The first approach is presented as "Just ignore the problem. Maybe if you ignore it, it will ignore you". This approach is then exposed in detail as the "Ostrich approach", i.e. "stick your head under the sand and pretend there is no problem at all*", (actually the usual approach to the problem). The footnote says: "Actually, this bit of folklore is nonsense. Ostriches can run at 60 km/hour and their kick is powerful enough to kill any lion with visions of a big chicken dinner. – Matteo Italia Feb 17 '10 at 22:28
But the gem comes at the end: the research about deadlocks prevention on distributed OSes isn't discussed because "Its main function seems to be keeping otherwise unemployed graph theorists off the streets." Love that book. :) Jocking aside, it's also one of the best CS books I've ever bought: clear, interesting and full of information, I recommend it to anyone interested in the topic. – Matteo Italia Feb 17 '10 at 22:30
up vote 11 down vote accepted

The description is a bit lacking, but if you impose a locking order (e.g, if the locks are A and B, never lock B unless you already locked A, and never release A while B is locked), then deadlock won't occur.

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Or better still, design for fewer locks. – Andrew Feb 17 '10 at 21:52
+1 this is effectively what a lot of modern systems like Linux Kernel's lockdep do. They check to make sure that the locks are always used in the same order. If they aren't, then the system can deadline. – Broam Feb 17 '10 at 21:52

There are known deadlock avoidance algorithms that can detect if a deadlock is about to occur and avoid the system getting into that state. For example, the Banker's Algorithm.

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With a single lock it's not possible to get deadlocked unless one refuses to release their lock -- in which case the waiting thread is called starved. For multiple locks, they must be released in the reverse order that they were acquired, and both threads must agree on the order.

What you are trying to avoid here is this situation:

A has lock 1 waiting on lock 2

B has lock 2 waiting on lock 1

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a thread that refuses to release a lock does not trigger a deadlock. The thread in question is still running. – Bahbar Feb 17 '10 at 21:55
Bahbar, I believe Joel is saying that with a single lock, a thread that forget to release the lock can prevent another thread from ever making progress. You're right that this is technically not called deadlock, but it's probably still part of the things that the interviewer would care to prevent. – redtuna Feb 21 '10 at 21:08

Lock ordering is preferable to timeouts/deadlock detection, but sometimes timeouts are necessary, particularly if you don't control all of the components in the system: hence deadlock timeout/detection in databases. If all of the callers were clever enough, deadlocks would never happen, but commonly not all of the callers are clever enough.

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The answer your interviewers were going for is probably WaitForMultipleObjects(). That's a Windows API that locks both (or more) resources simultaneously.

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A lot of work on concurrent/parallel programming is focused on lock-free designs. Not an exact answer to your question, but as Andrew already mentioned on this thread, the best way to avoid deadlocks is to not lock at all. A lot of very smart people working on concurrency issues are of that opinion.

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These are two standard reasons for Deadlock:

  1. Lock-Ordering deadlocks:
    It happens when two threads attempt to acquire the same locks in different order. Sequence will be something like this:
    i) Thread A acquires Lock LEFT
    ii) Thread B acquires Lock RIGHT
    iii) Thread A attempts Lock RIGHT
    iv) Thread B attempts Lock LEFT
    ---> Both will wait forever

    SOLUTION: Review code and make sure there is no cyclic locking dependency. If threads will ask locks in same order deadlock will never happened.

  2. Dynamic Lock Order deadlocks: When locks defined at run time and you have no control, scenario like above may still occur causing deadlocks. For example -

    void transferFund( Account A, Account B, Amount x)
              // do transfer update balance

    Sequence for deadlock will be: Thread 1 - transferFund ( A1, B1, 10); Thread 2 - transferFund ( B1, A1, 20);

    Solution: to fix avoid these deadlocks, induce some logic to make sure threads always use same order for acquiring locks. For example -

    if( A1.hashCode()  < B1.hashCode())
      { Lock A1 then Lock B1 }
      { Lock B1 then Lock A1 }

NOTE: You can not avoid deadlocks when you are calling alien methods and you have no control how these alien methods are calling locks :(

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