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I have detected strange behavior of System.Timers.Timer:

  1. Timer is created with interval of 1 second and AutoReset set to false.
  2. Timer is started and Elapsed event is fired in 1 second. Inside event handler timer.Enabled is false which is expected because AutoReset was set to false.
  3. Then no Elapsed events are fired which is expected since timer is stopped.
  4. If now we set timer.AutoReset to true, Elapsed event starts firing every 1 second. timer.Enabled is still false.

Is it a bug in Timer code or may be there is a reason for such odd behavior?

In my understanding, stopped timer should not start firing events, even if we change AutoReset property. I know that Elapsed event could be fired after timer was stopped, because execution was already queued in thread pool (problem is described in this question). However it does not explain why stopped timer starts firing events.

Here is a minimal sample that reproduces the problem:

class Program
{
    private static System.Timers.Timer timer;

    static void Main(string[] args)
    {
        timer = new System.Timers.Timer
        {
            AutoReset = false,
            Interval = 1000
        };
        timer.Elapsed += TimerTick;

        LogMessage("Starting timer...");
        timer.Start();
        Thread.Sleep(3000);

        LogMessage($"Timer is {(timer.Enabled ? "enabled" : "stopped")}");
        LogMessage("Setting AutoReset to true");
        timer.AutoReset = true;

        Thread.Sleep(Int32.MaxValue);
    }

    private static void TimerTick(object sender, ElapsedEventArgs e)
    {
        LogMessage($"Timer Tick: timer.Enabled is {timer.Enabled}");
    }

    private static void LogMessage(string message)
    {
        Console.WriteLine($"{DateTime.Now:HH:mm:ss.fff} {message}");
    }
}

Program output:

19:46:23.043 Starting timer...
19:46:24.068 Timer Tick: timer.Enabled is False
19:46:26.053 Timer is stopped
19:46:26.057 Setting AutoReset to true
19:46:27.100 Timer Tick: timer.Enabled is False
19:46:28.103 Timer Tick: timer.Enabled is False
19:46:29.117 Timer Tick: timer.Enabled is False
19:46:30.130 Timer Tick: timer.Enabled is False
19:46:31.144 Timer Tick: timer.Enabled is False
19:46:32.158 Timer Tick: timer.Enabled is False
...
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    It is a deeply flawed class in many respects. There has to be a good war story about how this class happened, I'd guess at a usability study that showed that nobody could figure out how to use System.Threading.Timer. But yes, this is consistent with the way its code was written. You'd normally always, always set the Enabled property back to true and flipping AutoReset to true in Elapsed never makes sense. Mar 5, 2018 at 17:01

1 Answer 1

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According to MS

The event-handling method might run on one thread at the same time that another thread calls the Stop method or sets the Enabled property to false. This might result in the Elapsed event being raised after the timer is stopped. The example code for the Stop method shows one way to avoid this race condition.

Even if SynchronizingObject is not null, Elapsed events can occur after the Dispose or Stop method has been called or after the Enabled property has been set to false, because the signal to raise the Elapsed event is always queued for execution on a thread pool thread. One way to resolve this race condition is to set a flag that tells the event handler for the Elapsed event to ignore subsequent events.

Source: https://msdn.microsoft.com/en-us/library/system.timers.timer.elapsed(v=vs.110).aspx Following the trail, the recommended sample for using System.Timers.Timer and preventing unwanted events is the second sample at: https://msdn.microsoft.com/en-us/library/system.timers.timer.stop(v=vs.110).aspx

It appears my previous investigation was not entirely correct. I would not say entirely wrong either. I think most of my assumptions were correct, and await feedback to improve the answer!

My original answer

a.k.a. descent to the darkness of System.Timers.Timer

I have not proven any of this, I have only studied the structure of the class. It's bad...

The timer is not stopped! Enabled != Stopped

Well, you never really called timer.Stop() now, did you? Like Uncle Bob says, many things in programming come in pairs, such as calls to Start and Stop. You should Stop the timer if you do not want it to react to your changes!

The behaviour is correct

I have rarely if ever used this class, but the behaviour appears to be by design. I know this sounds oxymoronic, but read below :)

Looking at the reference source, as soon as you call myTimer.Start(), every time you change the properties (AutoReset,Interval,Enabled), the timer reacts through a method called UpdateTimer, generating subsequent event fires as the new parameter ensemble dictates.

  • Not a bug, but still a bit unsettling: A System.Timers.Timer with AutoReset set to false, after Start() and firing once, will still have a System.Threading.Timer roaming around. See below for explanation.

But there is a state/display bug! At least in my opinion

  • If we changed step 4 to update Interval instead, which would generate a tick, I would expect the timer to haveEnabled==false when the LogMessagefunction is called, which is already the case.
  • When setting AutoReset to true, (Step 4) I would expect Enabled to become true, which as you pointed out is not the case. Let's dig deeper!

Possible reason the state is not consistent with the behaviour

  • In the Timer.cs class, the Enabled setter is responsible for creating and disposing System.Threading.Timer instances for the backing field timer.
    • State change from false to true creates timer
    • State change from true to false disposestimer + some other magic.
  • The only methods that use the Enabled property are Start and Stop
  • The internal callback used to fire the events, MyTimerCallback, sets the enabled backing field to false when autoreset is false. In a sense it is lying, since it circumvented the Enabled property on purpose to keep timer alive and kicking. If it were not, the behaviour of the class would not be as described above.
  • My naive mind thinks that the "display bug" fix would be in MyTimerCallback, with a similar check to that one setting enabled to false when autoreset is false. Possibly even enabled = autoreset. I need to take a long bath after this, and go to sleep =))

Source: https://referencesource.microsoft.com/#System/services/timers/system/timers/Timer.cs,050a7911a328d317

I think the question should be updated to better describe the behaviour, this was all news to me :)

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  • The problem reproduces also if I stop timer explicitly. You could check it by adding timer.Stop() after Thread.Sleep(3000).
    – CodeFuller
    Mar 5, 2018 at 20:27
  • @CodeFuller And I wanted to sleeep :(((( Mar 5, 2018 at 20:30
  • @CodeFuller I will go sleep now, tough day tomorrow. I don't know why this class ever saw the light of day, it seems heavily flawed. I will have to re-assess my assumptions in a better state of mind than now, but I question if the time is worth it :) I understand the curiosity, and I might dig into this from pure "why"-itis... But still, nightmares are ensured! One last interesting thing: only the first Interval change fires after the timer is stopped with .Stop(). Mar 5, 2018 at 20:58
  • @CodeFuller is this a dupe? stackoverflow.com/a/18280560/8695782 I will really go sleep now Mar 5, 2018 at 21:22
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    Seems like the problem is not in race condition or events queued before time stop. There is a time span of 2 seconds after first timer tick and before setting AutoReset, and no events are fired during this interval.
    – CodeFuller
    Mar 7, 2018 at 4:21

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