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I saw this in one of Heinz Kabutz's Java Specialist newsletter editions and, although the rest (and indeed, all) of Dr. Kabutz's articles are well-explained and detailed, he seemed to gloss over what this code is doing, or more importantly, what it's significance is:

public class SomeObject {
    private Object lock1;
    private Object lock2;

    public void doSomething() {
        synchronized(lock1) {
            synchronized(lock2) {
                // ...
            }
        }
    }
}

What are the implications of nesting syncrhonized blocks? How does this affect different threads attempting to doSomething()?

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In this scenario all threads would be blocked at the outer lock, until it was released by the thread in the inner lock. –  Hunter McMillen Apr 28 '12 at 15:56
1  
The snippit you've posted doesn't do anything; the only thread that can have lock2 is the one that has lock1. Without knowing what the rest of the code is and what those locks are being used for, it's impossible to answer. –  Brian Roach Apr 28 '12 at 15:56
    
Which article were you reading? –  Jeffrey Apr 28 '12 at 16:00

1 Answer 1

up vote 11 down vote accepted

There are 2 possible issues that one would have to watch out for

  1. Nested locks can result in deadlocks quite easily if one is using wait/notify. Here is an explanation of why. http://tutorials.jenkov.com/java-concurrency/nested-monitor-lockout.html

  2. One should be wary that if another method wishes to lock the same two objects, they must always do it in the same order, otherwise there is the possibility of another deadlock situation as explained in this post: How to avoid Nested synchronization and the resulting deadlock

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1  
Could I ask if there is any solution to the nested monitor lockout? Is it possible to call wait on both the inner lock and outer lock or there is no way to do this? –  kevinze Mar 22 '14 at 10:19
    
Deadlock requires 4 preconditions. Mutual exclusion (so sync(nodes) { sync(edges) { } } while another function has sync(edges) { sync (nodes) { } } ), non-pre-emptibility, circular waiting and resource holding. Only having mutual exclusion is not enough for there to be deadlock. These are called the Coffman conditions if you are curious. en.wikipedia.org/wiki/Deadlock_prevention_algorithms –  Arthur Collé Sep 25 '14 at 21:14

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