I have a private static field which I use for synchronization (lock). Now I have two functions which I don't want to execute concurrently. So I did this:

public class Synchronization
{
private static object _lock = new object();

public void MethodA()
{
lock (_lock)
{
Console.WriteLine("I shouldn't execute with MethodB");
}
}

public void MethodB()
{
lock (_lock)
{
Console.WriteLine("I shouldn't execute with MethodA");
}
}
}


I know that locking on an object will prevent parallel execution of a single function, but will the same work if I use the same lock object in different methods which run concurrently? Simply, put can any other thread acquire lock on an already locked object in another function?

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why not simply give it a try by yourself? –  Andreas Niedermair Jan 26 '11 at 9:27
Also note that this way, you've synchronized EVERY instance of the class. If you don't want that, remove the "static" part of the lock object. –  Willem van Rumpt Jan 26 '11 at 9:30
@Andreas I said theory and practice. Verifying MT code is also notoriously difficult. So your suggestion is naive. –  Tim Lloyd Jan 26 '11 at 9:36
@Andreas "Simply give it a try yourself" does not give the OP details of how to verify his assertions. If the OP is having difficulty working out the semantics of what he is doing, then you should be able to see the obvious problem with your suggestion. It's a throw away comment. –  Tim Lloyd Jan 26 '11 at 9:39
@Andreas Perhaps you could consider opening a new question "How do I verify multi-threaded code via unit testing?" and answering it yourself. That's allowed and would be useful. Verifying MT code is difficult. –  Tim Lloyd Jan 26 '11 at 9:51

Only a single thread at a time may acquire the lock, so this state is exclusive for all threads on a single lock instance. So in your example, only one method body may be executing at any given time for all instances of class Synchronization as your lock is static. If you want locking per instance of your class, then do not mark the lock object as static.

Your assumptions regarding synchronization are correct.

Please note that you should mark the lock object readonly for a completely water-tight solution. As the code stands, it would be possible for the lock object to be re-assigned and so break the locking semantics, e.g.:

public class Synchronization
{
private static object _lock = new object();

public void MethodA()
{
lock (_lock)
{
Console.WriteLine("I shouldn't execute with MethodB");
}
}

public void MethodB()
{
//This shouldn't be allowed!
_lock = new object();

lock (_lock)
{
Console.WriteLine("I shouldn't execute with MethodA");
}
}
}


Lock object should be marked as readonly, i.e.:

private static readonly object _lock = new object();

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you should enhance only one method body with of any given instance, as you are dealing with a static lock :) –  Andreas Niedermair Jan 26 '11 at 9:35
readonly... !!! godlike! –  Andreas Niedermair Jan 26 '11 at 9:37
@Andreas I have detailed the implication of the static lock. –  Tim Lloyd Jan 26 '11 at 9:43

First, the _lock should not be static. Or do you want multiple instances of the object to lock themselves each other? Second, you should have only one synchronized method in a class. Even more, you should avoid dependencies between synchronized methods in your class. Otherwise, you are in a risk that the caller of your methods will do it wrong and get unexpected behavior.

Consider, for example, this code:

class Synchronized
{
object lockObj = new object();
int counter = 100;

public void Decrement()
{
lock (this.lockObj)
{
this.counter--;
}
}

public int IsZero()
{
lock (this.lockObj)
{
return this.counter == 0;
}
}
}


Now what will one do with shared Synchronized instance?

Use it like this

while (!synchronized.IsZero())
{
synchronized.Decrement();
}


Now thread 1 calls Decrement, counter gets to 0 and immediately thread 2 calls Decrement, because it was waiting on lock in Decrement method, not IsZero method. Counter is now -1 and the loop is infinite.

It's not that the locking mechanism was incorrectly programmed, but that the caller didn't use it well. If you only exposed one synchronized method on your Synchronized class, you wouldn't fool the programmer to blindly believe it's safe.

It should be something like this:

class Synchronized
{
object lockObj = new object();
int counter = 100;

public bool IfNotZeroDecrement()
{
lock (this.lockObj)
{
if (this.counter > 0)
this.counter--;

return this.counter > 0;
}
}
}

/// Usage:
while (synchronized.IfZeroDecrement())
{
}

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I don't agree with the one syncronised method in a class. Your example is just poor implementation. If it is important that you can't decrement less than 0 your decrement should deal with that. –  btlog Jan 26 '11 at 10:06
@btlog Well it's obvious in this easy example, but in more complicated scenarios it couldn't be that obvious. You shouldn't put all responsibility on the users of your code, otherwise you can get into serious troubles later which are hard to debug. Do it safe and clean and everyone will benefit from that in future. –  František Žiačik Jan 26 '11 at 10:13

Locks are granted based on the object that is the target of the lock, not the method in which the lock statement occurs. So in your case you multiple thread might enter the various methods but only one thread at a time will be able to execute any code that's within the lock statement.

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You are doing it correctly. You have created two critical sections that will not be entered on the same time.

So MethodA and MethodB will not be "active" at the same time. And also there will be only one MethodA (and MethodB) active at the same time.

This is valid for across all objects that you create. What I mean is: only one thread will be in any MethodA or MethodB from any object. If you want the lock to occur only within one object, you can make the _lock object not static.

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I believe you're correct reading the Lock Statement on MSDN.

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