The class CancellationTokenSource is disposable. A quick look in Reflector proves usage of KernelEvent, a (very likely) unmanaged resource. Since CancellationTokenSource has no finalizer, if we do not dispose it, the GC won't do it.

On the other hand, if you look at the samples listed on the MSDN article Cancellation in Managed Threads, only one code snippet disposes of the token.

What is the proper way to dispose of it in code?

  1. You cannot wrap code starting your parallel task with using if you do not wait for it. And it makes sense to have cancellation only if you do not wait.
  2. Of course you can add ContinueWith on task with a Dispose call, but is that the way to go?
  3. What about cancelable PLINQ queries, which do not synchronize back, but just do something at the end? Let's say .ForAll(x => Console.Write(x))?
  4. Is it reusable? Can the same token be used for several calls and then dispose it together with the host component, let's say UI control?

Because it does not have something like a Reset method to clean-up IsCancelRequested and Token field I would suppose it's not reusable, thus every time you start a task (or a PLINQ query) you should create a new one. Is it true? If yes, my question is what is the correct and recommended strategy to deal with Dispose on those many CancellationTokenSource instances?


Speaking about whether it's really necessary to call Dispose on CancellationTokenSource... I had a memory leak in my project and it turned out that CancellationTokenSource was the problem.

My project has a service, that is constantly reading database and fires off different tasks, and I was passing linked cancellation tokens to my workers, so even after they had finished processing data, cancellation tokens weren't disposed, which caused a memory leak.

MSDN Cancellation in Managed Threads states it clearly:

Notice that you must call Dispose on the linked token source when you are done with it. For a more complete example, see How to: Listen for Multiple Cancellation Requests.

I used ContinueWith in my implementation.

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    This is an important omission in the current accepted answer by Bryan Crosby - if you create a linked CTS, you risk memory leaks. The scenario is very similar to event handlers that are never unregistered. – Søren Boisen Jun 19 '15 at 13:25
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    I had a leak due to this same issue. Using a profiler I could see callback registrations holding references to the linked CTS instances. Examining the code for the CTS Dispose implementation here was very insightful, and underscores @SørenBoisen comparison to event handler registration leaks. – BitMask777 Mar 3 '16 at 23:37
  • Comments above reflect the discussion state were the other answer by @Bryan Crosby was accepted. – George Mamaladze Mar 7 '16 at 9:07
  • The documentation in 2020 clearly says: Important: The CancellationTokenSource class implements the IDisposable interface. You should be sure to call the CancellationTokenSource.Dispose method when you have finished using the cancellation token source to free any unmanaged resources it holds. - docs.microsoft.com/en-us/dotnet/standard/threading/… – Endrju Feb 17 '20 at 20:28

I didn't think any of the current answers were satisfactory. After researching I found this reply from Stephen Toub (reference):

It depends. In .NET 4, CTS.Dispose served two primary purposes. If the CancellationToken's WaitHandle had been accessed (thus lazily allocating it), Dispose will dispose of that handle. Additionally, if the CTS was created via the CreateLinkedTokenSource method, Dispose will unlink the CTS from the tokens it was linked to. In .NET 4.5, Dispose has an additional purpose, which is if the CTS uses a Timer under the covers (e.g. CancelAfter was called), the Timer will be Disposed.

It's very rare for CancellationToken.WaitHandle to be used, so cleaning up after it typically isn't a great reason to use Dispose. If, however, you're creating your CTS with CreateLinkedTokenSource, or if you're using the CTS' timer functionality, it can be more impactful to use Dispose.

The bold part I think is the important part. He uses "more impactful" which leaves it a bit vague. I'm interpreting it as meaning calling Dispose in those situations should be done, otherwise using Dispose is not needed.

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    More impactful means that child CTS is added to parent one. If you don't dispose child there will be a leak if parent is long-living. So it is critical to dispose linked ones. – Grigory Jul 4 '16 at 6:53

I took a look in ILSpy for the CancellationTokenSource but I can only find m_KernelEvent which is actually a ManualResetEvent, which is a wrapper class for a WaitHandle object. This should be handled properly by the GC.

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    I have the same feeling that GC will cleanup that all. I'll try to verify that. Why do Microsoft implemented dispose in this case? To get rid of event callbacks and avoid propagation to second generation GC probably. In this case calling Dispose is optional - call it if you can, if not just ignore it. Not the best manner I think. – George Mamaladze Aug 5 '11 at 19:08
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    I have investigated this issue. CancellationTokenSource gets garbage collected. You might help with dispose to do it in GEN 1 GC. Accepted. – George Mamaladze Aug 9 '11 at 9:33
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    I did this same investigation independently and came to the same conclusion: dispose if you easily can, but don't fret over trying to do so in the rare-but-not-unheard-of cases where you've sent a CancellationToken out into the boondocks and don't want to wait for them to write a postcard back telling you they're done with it. This is going to happen every now and then because of the nature of what CancellationToken is used for, and it's really OK, I promise. – Joe Amenta Jun 13 '15 at 12:05
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    My above comment doesn't apply to linked token sources; I couldn't prove that it's OK to leave these undisposed, and the wisdom in this thread and MSDN suggests that it might not be. – Joe Amenta Jul 8 '15 at 17:31

You should always dispose CancellationTokenSource.

How to dispose it depends exactly on the scenario. You propose several different scenarios.

  1. using only works when you're using CancellationTokenSource on some parallel work that you're waiting. If that's your senario, then great, it's the easiest method.

  2. When using tasks, use a ContinueWith task as you indicated to dispose of CancellationTokenSource.

  3. For plinq you can use using since you're running it in parallel but waiting on all of the parallel running workers to finish.

  4. For UI, you can create a new CancellationTokenSource for each cancellable operation that is not tied to a single cancel trigger. Maintain a List<IDisposable> and add each source to the list, disposing all of them when your component is disposed.

  5. For threads, create a new thread that joins all the worker threads and closes the single source when all of the worker threads finished. See CancellationTokenSource, When to dispose?

There's always a way. IDisposable instances should always be disposed. Samples often don't because they're either quick samples to show core usage or because adding in all aspects of the class being demonstrated would be overly complex for a sample. The sample is just that a sample, not necessarily (or even usually) production quality code. Not all samples are acceptable to be copied into production code as is.

  • for point 2, any reason you could not use await on the task and dispose the CancellationTokenSource in the code that comes after the await? – stijn Apr 14 '14 at 19:40
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    There are caveats. If the CTS gets canceled while you await an operation, you may resume due to an OperationCanceledException. You might then call Dispose(). But if there are operations still running and using the corresponding CancellationToken, that token still reports CanBeCanceled as being true even though the source is disposed. If they attempt to register a cancellation callback, BOOM!, ObjectDisposedException. It's safe enough to call Dispose() after successful completion of the operation(s). It gets really tricky when you actually need to cancel something. – Mike Strobel May 19 '14 at 17:52
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    Downvoted for the reasons given by Mike Strobel - forcing a rule to always call Dispose can get you into hairy situations when dealing with CTS and Task due to their asynchronous nature. The rule should instead be: always dispose linked token sources. – Søren Boisen Jun 19 '15 at 13:18
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    Your link goes to a deleted answer. – Trisped Apr 19 '19 at 21:40

This answer is still coming up in Google searches, and I believe the voted up answer does not give the full story. After looking over the source code for CancellationTokenSource (CTS) and CancellationToken (CT) I believe that for most use cases the following code sequence is fine:

if (cancelTokenSource != null)
    cancelTokenSource = null;

The m_kernelHandle internal field mentioned above is the synchronization object backing the WaitHandle property in both the CTS and CT classes. It is only instantiated if you access that property. So, unless you are using WaitHandle for some old-school thread synchronization in your Task calling dispose will have no effect.

Of course, if you are using it you should do what is suggested by the other answers above and delay calling Dispose until any WaitHandle operations using the handle are complete, because, as is described in the Windows API documentation for WaitHandle, the results are undefined.

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    The MSDN article Cancellation in Managed Threads states: "Listeners monitor the value of the IsCancellationRequested property of the token by polling, callback, or wait handle." In other words: It may not be you (i.e. the one making the async request) who uses the wait handle, it may be the listener (i.e. the one answering the request). Which means you, as the one responsible for disposing, effectively have no control over whether the wait handle is used or not. – herzbube Mar 5 '15 at 11:59
  • According to MSDN, registered callbacks that have exceptioned will cause .Cancel to throw. Your code will not call .Dispose() if this happens. The callbacks should be careful not to do this, but it can happen. – Joseph Lennox Dec 21 '15 at 21:16

It has been a long time since I asked this and got many helpful answers but I came across an interesting issue related to this and thought I would post it here as another answer of sorts:

You should call CancellationTokenSource.Dispose() only when you are sure that nobody is going to try to get the CTS's Token property. Otherwise you should not call Dispose(), because it creates a race condition. For instance, see here:


In the fix for this issue, code which previously did cts.Cancel(); cts.Dispose(); was edited to just do cts.Cancel(); because anyone so unlucky as to try to get the cancellation token in order to observe its cancellation state after Dispose has been called will unfortunately also need to handle ObjectDisposedException - in addition to the OperationCanceledException that they were planning for.

Another key observation related to this fix is made by Tratcher: "Disposal is only required for tokens that won't be cancelled, as cancellation does all of the same cleanup." i.e. just doing Cancel() instead of disposing is really good enough!


I made a thread-safe class that binds a CancellationTokenSource to a Task, and guarantees that the CancellationTokenSource will be disposed when its associated Task completes. It uses locks to ensure that the CancellationTokenSource will not be canceled during or after it has been disposed. This happens for compliance with the documentation, that states:

The Dispose method must only be used when all other operations on the CancellationTokenSource object have completed.

And also:

The Dispose method leaves the CancellationTokenSource in an unusable state.

Here is the class:

public class CancelableExecution
    private readonly bool _allowConcurrency;
    private Operation _activeOperation;

    // Represents a cancelable operation that signals its completion when disposed
    private class Operation : IDisposable
        private readonly CancellationTokenSource _cts;
        private readonly TaskCompletionSource<bool> _completionSource;
        private bool _disposed;

        public Task Completion => _completionSource.Task; // Never fails

        public Operation(CancellationTokenSource cts)
            _cts = cts;
            _completionSource = new TaskCompletionSource<bool>(

        public void Cancel() { lock (this) if (!_disposed) _cts.Cancel(); }

        void IDisposable.Dispose() // It is disposed once and only once
            try { lock (this) { _cts.Dispose(); _disposed = true; } }
            finally { _completionSource.SetResult(true); }

    public CancelableExecution(bool allowConcurrency)
        _allowConcurrency = allowConcurrency;
    public CancelableExecution() : this(false) { }

    public bool IsRunning => Volatile.Read(ref _activeOperation) != null;

    public async Task<TResult> RunAsync<TResult>(
        Func<CancellationToken, Task<TResult>> action,
        CancellationToken extraToken = default)
        if (action == null) throw new ArgumentNullException(nameof(action));
        var cts = CancellationTokenSource.CreateLinkedTokenSource(extraToken);
        using (var operation = new Operation(cts))
            // Set this as the active operation
            var oldOperation = Interlocked.Exchange(ref _activeOperation, operation);
                if (oldOperation != null && !_allowConcurrency)
                    await oldOperation.Completion; // Continue on captured context
                    // The Completion never fails
                var task = action(cts.Token); // Invoke on the initial context
                return await task.ConfigureAwait(false);
                // If this is still the active operation, set it back to null
                Interlocked.CompareExchange(ref _activeOperation, null, operation);
        // The cts is disposed along with the operation

    public Task RunAsync(Func<CancellationToken, Task> action,
        CancellationToken extraToken = default)
        if (action == null) throw new ArgumentNullException(nameof(action));
        return RunAsync<object>(async ct =>
            await action(ct).ConfigureAwait(false);
            return null;
        }, extraToken);

    public Task CancelAsync()
        var operation = Volatile.Read(ref _activeOperation);
        if (operation == null) return Task.CompletedTask;
        return operation.Completion;

    public bool Cancel() => CancelAsync() != Task.CompletedTask;

The primary methods of the CancelableExecution class are the RunAsync and the Cancel. By default concurrent operations are not allowed, meaning that calling RunAsync a second time will silently cancel and await the completion of the previous operation (if it's still running), before starting the new operation.

This class can be used in applications of any kind. Its primary usage though is in UI applications, inside forms with buttons for starting and canceling an asynchronous operation, or with a listbox that cancels and restarts an operation every time its selected item is changed. Here is an example of the first case:

private readonly CancelableExecution _cancelableExecution = new CancelableExecution();

private async void btnExecute_Click(object sender, EventArgs e)
    string result;
        Cursor = Cursors.WaitCursor;
        btnExecute.Enabled = false;
        btnCancel.Enabled = true;
        result = await _cancelableExecution.RunAsync(async ct =>
            await Task.Delay(3000, ct); // Simulate some cancelable I/O operation
            return "Hello!";
    catch (OperationCanceledException)
        btnExecute.Enabled = true;
        btnCancel.Enabled = false;
        Cursor = Cursors.Default;
    this.Text += result;

private void btnCancel_Click(object sender, EventArgs e)

The RunAsync method accepts an extra CancellationToken as argument, that is linked to the internally created CancellationTokenSource. Supplying this optional token may be useful in advanced scenarios.

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