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I'm using this code to prevent a second instance of my program from running at the same time, is it safe?

Mutex appSingleton = new System.Threading.Mutex(false, "MyAppSingleInstnceMutx");
if (appSingleton.WaitOne(0, false)) {
    Application.Run(new MainForm());
} else {
    MessageBox.Show("Sorry, only one instance of MyApp is allowed.");

I'm worried that if something throws an exception and the app crashes that the Mutex will still be held. Is that true?

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Please add a related link to stackoverflow.com/questions/229565/… –  Sam Saffron May 4 '09 at 12:55

8 Answers 8

up vote 29 down vote accepted

In general yes this will work. However the devil is in the details.

Firstly you want to Close the mutex in a finally. Otherwise your process could abruptly terminate and leave it in a signalled state (think of an exception). That would make it so that future process instances would not be able to start up.

Unfortunately though, even with a finally block you must deal with the potential that a process will be terminated without freeing up the mutex. This can happen for instance if a user kills the process through TaskManager. There is a race condition in your code that would allow for a second process to get an AbandonedMutexException in the WaitOne call. You'll need a recovery strategy for this.

I encourage you to read up on the details of the Mutex class. Using it is not always simple


EDIT Expanding upon the race condition possibility

The following sequence of events can occur which would cause a second instance of the application to throw.

  1. Normal Process Startup
  2. Second Process starts up and aquires a handle to the mutex but is switched out before the WaitOne call
  3. Process #1 is abruptly terminated. The Mutex is not destroyed because process #2 has a handle. It is instead set to an abandoned state
  4. Second process starts running again and gets an AbanonedMutexException
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If his code is the only one creating the mutex, it will be destroyed when the process terminates, hence the create + waitOne will succeed. –  Michael Mar 14 '09 at 18:59
@Michael, if the mutex is not explicitly released it will be put into an abandoned state –  JaredPar Mar 14 '09 at 19:03
@Michael: No, it will be set as abandoned. –  erikkallen Mar 14 '09 at 19:03
@Michael: Try my code in my answer and see. The process exits, the mutex is destroyed. It gets recreated when you re-run the exe. –  Michael Mar 14 '09 at 19:06
@Michael you're ignoring the race condition possibility. It's possible for a second process to start, grad the mutex, first process dies, abandonedmutex exception is thrown. –  JaredPar Mar 14 '09 at 19:07

It is more usual and convenient to use Windows events for this purpose. E.g.

static EventWaitHandle s_event ;

bool created ;
s_event = new EventWaitHandle (false, 
    EventResetMode.ManualReset, "my program#startup", out created) ;
if (created) Launch () ;
else         Exit   () ;

When your process exits or terminates, Windows will close the event for you, and destroy it if no open handles remain.

Added: to manage sessions, use Local\ and Global\ prefixes for the event (or mutex) name. If your application is per-user, just append a suitably mangled logged-on user's name to the event name.

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Right. This is much cleaner and safer than using a mutex, as it avoids the need to synchronize on the mutex, and trying to handle all kind of race conditions... Note that it isn't even necessary (or useful) to wait on the event. Essentially, you just check that it exists. –  oefe Mar 15 '09 at 11:14
You can use the mutex in the same way. That is, just use the createdNew flag to determine if yours is the first instance. No need to synchronize on the mutex. So the EventWaitHandle approach is no better or worse than the Mutex approach. You could use Semaphore, too. –  Jim Mischel Mar 16 '09 at 15:13
This so much simpler than 99% of the solutions out there and yet it's the only time I've seen it. Thank you! –  Harry Mexican Aug 29 '12 at 17:19

You can use a mutex, but first make sure that this is really what you want.

Because "avoiding multiple instances" is not clearly defined. It can mean

  1. Avoiding multiple instances started in the same user session, no matter how many desktops that user session has, but allowing multiple instances to run concurrently for different user sessions.
  2. Avoiding multiple instances started in the same desktop, but allowing multiple instances to run as long as each one is in a separate desktop.
  3. Avoiding multiple instances started for the same user account, no matter how many desktops or sessions running under this account exist, but allowing multiple instances to run concurrently for sessions running under a different user account.
  4. Avoiding multiple instances started on the same machine. This means that no matter how many desktops are used by an arbitrary number of users, there can be at most one instance of the program running.

By using a mutex, you're basically using the define number 4.

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I want number four. So all is good –  Malfist Mar 14 '09 at 19:21

On Windows, terminating a process has the following results:

  • Any remaining threads in the process are marked for termination.
  • Any resources allocated by the process are freed.
  • All kernel objects are closed.
  • The process code is removed from memory.
  • The process exit code is set.
  • The process object is signaled.

Mutex objects are kernel objects, so any held by a process are closed when the process terminates (in Windows anyway).

But, note the following bit from the CreateMutex() docs:

If you are using a named mutex to limit your application to a single instance, a malicious user can create this mutex before you do and prevent your application from starting.

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Mutex is a shared resource and will only be destroyed when all processes holding the resource are stopped. There is a race condition in his code that allows for an AbandonedMutexException to be thrown at the WaitOne call. –  JaredPar Mar 14 '09 at 19:14
My apologies - my answer was geared for native code - I should have read more closely. However, the CLR will release a Mutex held by a thread when a thread dies. An when a process is terminated, Windows will close any held mutexes (which will release them). Closing a mutex might not destroy it. –  Michael Burr Mar 14 '09 at 20:33

I use this method, I believe it to be safe because the Mutex is destroyed if no long held by any application (and applications are terminated if if they can't initially create the Mutext). This may or may not work identically in 'AppDomain-processes' (see link at bottom):

// Make sure that appMutex has the lifetime of the code to guard --
// you must keep it from being collected (and the finalizer called, which
// will release the mutex, which is not good here!).
// You can also poke the mutex later.
Mutex appMutex;

// In some startup/initialization code
bool createdNew;
appMutex = new Mutex(true, "mutexname", out createdNew);
if (!createdNew) {
  // The mutex already existed - exit application.
  // Windows will release the resources for the process and the
  // mutex will go away when no process has it open.
  // Processes are much more cleaned-up after than threads :)
} else {
  // win \o/

The above suffers from from notes in other answers/comments about malicious programs being able to sit on a mutex. Not a concern here. Also, unprefixed mutex created in "Local" space. It's probably the-right-thing here.

See: http://ayende.com/Blog/archive/2008/02/28/The-mysterious-life-of-mutexes.aspx -- comes with Jon Skeet ;-)

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Yes, it's safe, I'd suggest the following pattern, because you need to make sure that the Mutex gets always released.

		using( Mutex mutex = new Mutex( false, "mutex name" ) )
			if( !mutex.WaitOne( 0, true ) )
				MessageBox.Show( "Unable to run multiple instances of this program.", "Error",  MessageBoxButtons.OK, MessageBoxIcon.Error );
                Application.Run(new MainForm());                  
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At least on Windows (probably on Linux, too), process termination automatically releases all held synchronization objects. –  P Daddy Mar 14 '09 at 19:47

If you want to use a mutex-based approach, you should really use a local mutex to restrict the approach to just the curent user's login session. And also note the other important caveat in that link about robust resource disposal with the mutex approach.

One caveat is that a mutex-based approach doesn't allow you to activate the first instance of the app when a user tries to start a second instance.

An alternative is to PInvoke to FindWindow followed by SetForegroundWindow on the first instance. Another alternative is to check for your process by name:

Process[] processes = Process.GetProcessesByName("MyApp");
if (processes.Length != 1)

Both of these latter alternatives have a hypothetical race condition where two instances of the app could be started simultaneously and then detect each other. This is unlikely to happen in practice - in fact, during testing I couldn't make it happen.

Another issue with these two latter alternatives is that they won't work when using Terminal Services.

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Checking the process table suffers from a race condition. If two instances are started at the same time, both will report a pre-existing application. Also, all you have to do to defeat it is make a copy of the executable. FindWindow suffers from the same race condition. –  Jim Mischel Mar 14 '09 at 21:28
I changed my answer to respond to your comments. As for "defeating" the check by making a copy of the executable. the OP almost certainly wasn't asking about a deliberate attempt to foil the check. –  RoadWarrior Mar 15 '09 at 10:40
I, on the other hand, HAVE encountered the race condition when using FindWindow. I've never used the process table approach, but one thing I've discovered is that if something can happen, it eventually will. Usually at the most inopportune time. –  Jim Mischel Mar 16 '09 at 15:15
if (Process.GetProcessesByName(Process.GetCurrentProcess().ProcessName).Length > 1)
                MessageBox.Show("Application already running. Only one instance of this application is allowed");
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This doesn't answer the question: "I'm worried that if something throws an exception and the app crashes that the Mutex will still be held. Is that true?" –  the Tin Man Dec 25 '12 at 8:28

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