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Reentrancy means that locks are acquired on a per-thread rather than per-invocation basis. Since a intrinsic lock is held by a thread,isn't if mean a thread run once equals a invecation basis?

Thank you, it seems mean that: in a thread,if I get a lock 'lockA' when process function doA which call function doB, and doB also need a lock 'lockA',then there wil be a Reentrancy.In java, this phenomenon is acquired on per-thread, so I needn't consider dead lock?

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Imagine if entering a method locks object X, and while in that method you call the very same method (either directly or further on in the call stack) and lock object X again. What happens? Do you wait on the lock you already hold, or is it aware that the thread holding it is also the thread calling it again, and allows it to pass? This is called re-entrancy - you enter the same method you were already in earlier. –  Patashu May 12 '13 at 4:43
    
Yes, synchronized blocks and locks in Java are re-entrant, so once thread foo has lock bar, it can safely call methods that also lock bar without having to unlock it first. –  Patashu May 12 '13 at 4:52
    
You still must consider deadlock, deadlock can occur when two threads wait on each other. –  rubixibuc May 12 '13 at 4:55
    
yeal, I mean my situation above. –  znlyj May 12 '13 at 5:24
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3 Answers 3

up vote 13 down vote accepted

Reentrancy means that locks are acquired on a per-thread rather than per-invocation basis.

That is a misleading definition. It is true (sort of), but it misses the real point.

Reentrancy means (in general) that do something, and then while you are still doing it, you do it again. In the case of locks it means you do something like this on a single thread:

  1. Acquire a lock on "foo".
  2. Do something
  3. Acquire a lock on "foo". Note that we haven't released the lock that we previously acquired.
  4. ...
  5. Release lock on "foo"
  6. ...
  7. Release lock on "foo"

With a reentrant lock / locking mechanism, the attempt to acquire the same lock will succeed, and will increment an internal counter belonging to the lock. The lock will only be released when the current holder of the lock has released it twice.

Here's a example in Java using primitive object locks / monitors ... which are reentrant:

Object lock = new Object();
...
synchronized (lock) {
    ...
    doSomething(lock, ...)
    ...
}

public void doSomething(Object lock, ...) {
    synchronized (lock) {
        ...
    }
}

The alternative to reentrant is non-reentrant locking, where it would be an error for a thread to attempt to acquire a lock that it already holds.

The advantage of using reentrant locks is that you don't have to worry about the possibility of failing due to accidentally acquiring a lock that you already hold. The downside is that you can't assume that nothing you call will change the state of the variables that the lock is designed to protect. However, that's not usually a problem. Locks are generally used to protect against concurrent state changes made by other threads.

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Since a thread is once running process, how could I while still doing it, then do it again? –  znlyj May 12 '13 at 4:42
    
See the example Java code I just added. –  Stephen C May 12 '13 at 4:46
    
Yes, Thank you. –  znlyj May 12 '13 at 4:51
    
what do you mean by saying 'you can't assume that nothing you call will change the state of the variables that the lock is designed to protect'? –  znlyj May 12 '13 at 5:29
    
Basically, it means that the code in the first synchronized block has to consider that the code in the doSomething method might change the state variables of this class ... even if the call path by which doSomething is called is convoluted and involves other classes. –  Stephen C May 12 '13 at 5:46
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Imagine something like this:

function A():
   lock (X)
       B()
   unlock (X)

function B():
    A()

Now we call A. The following happens:

  • We enter A, locking X
  • We enter B
  • We enter A again, locking X again

Since we never exited the first invocation of A, X is still locked. This is called re-entrance - while function A has not yet returned, function A is called again. If A relies on some global, static state, this can cause a 're-entrance bug', where before the static state is cleaned up from the function's exit, the function is run again, and the half computed values collide with the start of the second call.

In this case, we run into a lock we are already holding. If the lock is re-entrance aware, it will realize we are the same thread holding the lock already and let us through. Otherwise, it will deadlock forever - it will be waiting for a lock it already holds.

In java, lock and synchronized are re-entrance aware - if a lock is held by a thread, and the thread tries to re-acquire the same lock, it is allowed. So if we wrote the above pseudocode in Java, it would not deadlock.

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This just means once a thread has a lock it may enter the locked section of code as many times as it needs to. So if you have a synchronized section of code such as a method, only the thread which attained the lock can call that method, but can call that method as many times as it wants, including any other code held by the same lock. This is important if you have one method that calls another method, and both are synchronized by the same lock. If this wasn't the case the. The second method call would block. It would also apply to recursive method calls.

public void methodA()
{
     // other code
     synchronized(this)
     {
          methodB();
     } 
}

public void methodB()
{
     // other code
     syncrhonized(this)
     {
          // it can still enter this code    
     }

}
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