457

I see that for using objects which are not thread safe we wrap the code with a lock like this:

private static readonly Object obj = new Object();

lock (obj)
{
    // thread unsafe code
}

So what happens when multiple threads access the same code (let's assume that it is running in a ASP.NET web application). Are they queued? If so how long will they wait?

What is the performance impact because of using locks?

405

The lock statement is translated by C# 3.0 to the following:

var temp = obj;

Monitor.Enter(temp);

try
{
    // body
}
finally
{
    Monitor.Exit(temp);
}

In C# 4.0 this has changed and it is now generated as follows:

bool lockWasTaken = false;
var temp = obj;
try
{
    Monitor.Enter(temp, ref lockWasTaken);
    // body
}
finally
{
    if (lockWasTaken)
    {
        Monitor.Exit(temp); 
    }
}

You can find more info about what Monitor.Enter does here. To quote MSDN:

Use Enter to acquire the Monitor on the object passed as the parameter. If another thread has executed an Enter on the object but has not yet executed the corresponding Exit, the current thread will block until the other thread releases the object. It is legal for the same thread to invoke Enter more than once without it blocking; however, an equal number of Exit calls must be invoked before other threads waiting on the object will unblock.

The Monitor.Enter method will wait infinitely; it will not time out.

  • 9
    According to MSDN "Using the lock (C#) or SyncLock (Visual Basic) keyword is generally preferred over using the Monitor class directly, both because lock or SyncLock is more concise, and because lock or SyncLock insures that the underlying monitor is released, even if the protected code throws an exception. This is accomplished with the finally keyword, which executes its associated code block regardless of whether an exception is thrown." msdn.microsoft.com/en-us/library/ms173179.aspx – Aiden Strydom Mar 7 '14 at 21:02
  • 8
    What's the point of the var temp = obj; line. since it's just a ref to begin with, what good does making another one do? – priehl Sep 25 '14 at 17:47
  • 10
    @priehl It allows the user to change obj without the whole system to deadlock. – Steven Sep 25 '14 at 20:03
  • 5
    @Joymon eventually, every language feature is syntactic sugar. Language features are about about making developers more productive and making applications more maintainable, as is the lock feature as well. – Steven Mar 16 '16 at 2:12
  • 2
    Correct. This is the entire purpose of the lock-statement and Monitor: so that you can perform an operation in one thread without having to worry about another thread mucking it up. – Dizzy H. Muffin Jun 30 '17 at 15:56
238

Its simpler than you think.

According to Microsoft: The lock keyword ensures that one thread does not enter a critical section of code while another thread is in the critical section. If another thread tries to enter a locked code, it will wait, block, until the object is released.

The lock keyword calls Enter at the start of the block and Exit at the end of the block. lock keyword actually handles Monitor class at back end.

For example:

private static readonly Object obj = new Object();

lock (obj)
{
    // critical section
}

In the above code, first the thread enters a critical section, and then it will lock obj. When another thread tries to enter, it will also try to lock obj, which is already locked by the first thread. I will have to wait for the first thread to release obj. When the first thread leaves, then another thread will lock obj and will enter the critical section.

  • 5
    should we create a dummy object to lock or can we lock an existing variable in the context? – batmaci Aug 16 '16 at 14:53
  • 8
    @batmaci - Locking on a separate private dummy object gives you a guarantee that no one else is locking in that object. If you lock on the data and that same piece of data is visible to the outside you lose that guarantee. – Umar Abbas Aug 17 '16 at 5:23
  • 6
    What happens if more than one process is waiting for the lock to release? Are the waiting processes queued so that they will be lock the critical section in FIFO order? – jstuardo Jul 13 '17 at 14:56
43

No, they are not queued, they are sleeping

A lock statement of the form

lock (x) ... 

where x is an expression of a reference-type, is precisely equivalent to

var temp = x;
System.Threading.Monitor.Enter(temp); 
try { ... } 
finally { System.Threading.Monitor.Exit(temp); }

You just need to know that they are waiting to each other, and only one thread will enter to lock block, the others will wait...

Monitor is written fully in .net so it is enough fast, also look at class Monitor with reflector for more details

  • 6
    Note that the code emitted for the lock statement changed slightly in C#4: blogs.msdn.com/b/ericlippert/archive/2009/03/06/… – LukeH May 17 '11 at 11:09
  • @ArsenMkrt, they are not kept in "Blocked" state "Queue?. I think there are some difference between Sleep and block state, is not it? – Mohanavel Jan 13 '14 at 6:56
  • what difference you mean @Mohanavel? – Arsen Mkrtchyan Jan 13 '14 at 9:40
  • 1
    That was not the question. The question was regarding "lock" keyword. Suppose a process enter a "lock" section. That means that process blocks that piece of code and no other process may be able to enter that section until that lock is released. Well.... now, 2 more processes try to enter the same block. Since it is protected by "lock" keyword, they will wait, according to what was said in this forum. When the first process releases the lock. What process enters the block? the first one that tried to enter or the last one? – jstuardo Jul 14 '17 at 0:03
  • 1
    I guess you mean thread instead of process... if so, than the answer is No, there is no guarantee which one will enter... more here stackoverflow.com/questions/4228864/… – Arsen Mkrtchyan Jul 14 '17 at 10:03
26

Locks will block other threads from executing the code contained in the lock block. The threads will have to wait until the thread inside the lock block has completed and the lock is released. This does have a negative impact on performance in a multithreaded environment. If you do need to do this you should make sure the code within the lock block can process very quickly. You should try to avoid expensive activities like accessing a database etc.

10

The performance impact depends on the way you lock. You can find a good list of optimizations here: http://www.thinkingparallel.com/2007/07/31/10-ways-to-reduce-lock-contention-in-threaded-programs/

Basically you should try to lock as little as possible, since it puts your waiting code to sleep. If you have some heavy calculations or long lasting code (e.g. file upload) in a lock it results in a huge performance loss.

  • 1
    But trying to write low-lock code can often result in subtle, hard-to-find-and-fix bugs, even if you're an expert in the field. Using a lock is often the lesser of two evils. You should lock exactly as much as you need to, no more, no less! – LukeH May 17 '11 at 11:13
  • @LukeH: There are some usage patterns where low-lock code can be very simple and easy [do { oldValue = thing; newValue = updated(oldValue); } while (CompareExchange(ref thing, newValue, oldValue) != oldValue]. The biggest danger is that if the requirements evolve beyond what such techniques can be handle, it may be hard to adapt the code to handle that. – supercat Nov 13 '13 at 19:45
  • Link has broken. – CarenRose Jan 31 at 20:16
7

The part within the lock statement can only be executed by one thread, so all other threads will wait indefinitely for it the thread holding the lock to finish. This can result in a so-called deadlock.

7

The lock statement is translated to calls to the Enter and Exit methods of Monitor.

The lock statement will wait indefinitely for the locking object to be released.

4

lock is actually hidden Monitor class.

-1

lock prevents entering of one thread while another is already entered. Mostly it is used in multi threading. One of the best example we can say is "Singleton" design pattern.

static Singleton instance = null;
static readonly object obj = new object();
    public static Singleton GetInstance
    {
        get
        {
            if (instance == null)
            {
                lock (obj)
                {
                    if (instance == null)
                    {
                        instance = new Singleton();
                    }
                }
            }
                return instance;


        }
    }
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  • Not only you posted an answer to a question 8 years later, your answer also has nothing to do with the question. The question is about how the lock statement works internally, not why it exists. – GSerg Jul 19 at 9:29

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