There are two parts to this question:

  1. Does raising an event block the thread, or does it start execution of EventHandlers asynchronously and the thread goes continues on at the same time?

  2. Are the individual EventHandlers (subscribed to the event) run synchronously one after another, or are they run asynchronously with no guarantee that others aren't running at the same time?


To answer your questions:

  1. Raising an event does block the thread if the event handlers are all implemented synchronously.
  2. The event handlers are executed sequentially, one after another, in the order they are subscribed to the event.

I too was curious about the internal mechanism of event and its related operations. So I wrote a simple program and used ildasm to poke around its implementation.

The short answer is

  • there's no asynchronous operation involved in subscribing or invoking the events.
  • event is implemented with a backing delegate field of the same delegate type
  • subscribing is done with Delegate.Combine()
  • unsubscribing is done with Delegate.Remove()
  • Invoking is done by simply invoking the final combined delegate

Here's what I did. The program I used:

public class Foo
    // cool, it can return a value! which value it returns if there're multiple 
    // subscribers? answer (by trying): the last subscriber.
    public event Func<int, string> OnCall;
    private int val = 1;

    public void Do()
        if (OnCall != null) 
            var res = OnCall(val++);
            Console.WriteLine($"publisher got back a {res}");

public class Program
    static void Main(string[] args)
        var foo = new Foo();

        foo.OnCall += i =>
            Console.WriteLine($"sub2: I've got a {i}");
            return "sub2";

        foo.OnCall += i =>
            Console.WriteLine($"sub1: I've got a {i}");
            return "sub1";


Here's Foo's implementation:

enter image description here

Note that there is a field OnCall and an event OnCall. The field OnCall is obviously the backing property. And it's merely a Func<int, string>, nothing fancy here.

Now the interesting parts are:

  • add_OnCall(Func<int, string>)
  • remove_OnCall(Func<int, string>)
  • and how OnCall is invoked in Do()

How is Subscribing and Unsubscribing Implemented?

Here's the abbreviated add_OnCall implementation in CIL. The interesting part is it uses Delegate.Combine to concatenate two delegates.

.method public hidebysig specialname instance void 
        add_OnCall(class [mscorlib]System.Func`2<int32,string> 'value') cil managed
  // ...
  .locals init (class [mscorlib]System.Func`2<int32,string> V_0,
           class [mscorlib]System.Func`2<int32,string> V_1,
           class [mscorlib]System.Func`2<int32,string> V_2)
  IL_0000:  ldarg.0
  IL_0001:  ldfld      class [mscorlib]System.Func`2<int32,string> ConsoleApp1.Foo::OnCall
  // ...
  IL_000b:  call       class [mscorlib]System.Delegate [mscorlib]System.Delegate::Combine(class [mscorlib]System.Delegate,
                                                                                          class [mscorlib]System.Delegate)
  // ...
} // end of method Foo::add_OnCall

Likewise, Delegate.Remove is used in remove_OnCall.

How is an event invoked?

To invoke OnCall in Do(), it simply calls the final concatenated delegate after loading the arg:

IL_0026:  callvirt   instance !1 class [mscorlib]System.Func`2<int32,string>::Invoke(!0)

How exactly does a subscriber subscribe to an event?

And finally, in Main, not suprisingly, subscribing to the OnCall event is done by calling add_OnCall method on the Foo instance.

  • 2
    Well done!! It's been so long since I asked this question. If you can put verbiage at the top which directly answers my two part question (ie, "#1 answer is no; #2 answer is no") then I'll make this the official answer. I'm betting your post as all the pieces to answer my original questions, but since I don't use C# anymore (and other googlers might be new to these concepts) that's why I'm asking for verbiage which makes the answers obvious. – Alexander Bird Dec 1 '17 at 20:36
  • Thanks @AlexanderBird, just edited it to put the answers at the top. – KFL Dec 2 '17 at 2:00

This is a general answer and reflects the default behavior:

  1. Yes, it blocks the thread, if the methods subscribing to the event are not asynchronous.
  2. They are executed one after the other. This has another twist: If one event handler throws an exception, the event handlers not yet executed will not be executed.

Having said that, every class that provides events can choose to implement its event asynchronously. IDesign provides a class called EventsHelper that simplifies this.

[Note] this link requires you to provide an e-mail address to download EventsHelper class. (I am not affiliated in any way)

  • I have read a few forum posts, from which two have contradicted the first point, while not providing a proper reason. I don't doubt your answer, (it matches with what I have experienced so far) is there any official documentation on the first point? I need to be certain about this, but I have difficulties on finding anything official on this exact matter. – Adam L. S. Jul 24 '17 at 11:19
  • @AdamL.S. It is a matter of how the event is called. So it really depends on the class providing the event. – Daniel Hilgarth Jul 24 '17 at 11:20

The delegates subscribed to the event are invoked synchronously in the order they were added. If one of the delegates throws an exception, the ones following will not be called.

Since events are defined with multicast delegates, you can write your own firing mechanism using


and invoking the delegates asynchronously;


Events are just arrays of delegates. As long as delegate call is synchronous, events are also synchronous.


In general, events are synchronous. However there are some exceptions, such as System.Timers.Timer.Elapsed event being raised on a ThreadPool thread if SyncronisingObject is null.

Docs: http://msdn.microsoft.com/en-us/library/system.timers.timer.elapsed.aspx


Events in C# run synchronously (in both cases), as long as you don't start a second thread manually.

  • What about I use an async event handler? Will it then run in another thread? I have heard about "Async all the way", but it seems like async event handlers have their own thread? I don't understand :/ Can you please enlighten me? – Winger Sendon Feb 6 '16 at 21:23

Events are synchronous. This is why the event lifecycle works the way it does. Inits happen before loads, loads happen before renders etc.

If no handler is specified for an event, the cycle just blazes through. If more than one handler is specified, they will be called in order and one can't continue until the other is completely finished.

Even asynchronous calls are synchronous to a degree. It would be impossible to call the end before the begin is completed.

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