56

It seems like it does as per some initial testing, but what I'd like to know is if it is guaranteed to return or if in some cases it can not return? This is critical for my application but I haven't found a use-case yet where it wouldn't return.
I'd like to get expertise on the subject.

8

4 Answers 4

96

There are a number of inaccuracies in the other answers.

Control is passed to the finally block when control leaves the try block normally -- that is, by a return, goto, break, continue, or simply falling off the end. Control is passed to the finally block when control leaves the try block via an exception that has been caught by an enclosing catch block.

In every other circumstance there is no guarantee that the code in the finally block will be called. In particular:

  • If the try block code goes into an infinite loop, or the thread is frozen and never unfrozen, then the finally block code is never called.

  • If the process is paused in the debugger and then aggressively killed then the finally block is never called. If the process does a fail-fast then the finally block is never called.

  • If the power cord is pulled out of the wall then the finally block is never called.

  • If there is an exception thrown without a corresponding catch block then whether the finally block runs or not is an implementation detail of the runtime. The runtime can choose any behaviour when there is an uncaught exception. Both "do not run the finally blocks" and "do run the finally blocks" are examples of "any behaviour", so either can be chosen. Typically what the runtime does is ask the user if they want to attach a debugger before the finally blocks run; if the user says no then the finally blocks run. But again: the runtime is not required to do that. It could just fail fast.

You cannot rely on finally blocks always being called. If you require a strong guarantee about code executing then you should not be writing a try-finally, you should be writing a constrained execution region. Writing a CER correctly is one of the most difficult tasks in C# programming, so study the documentation carefully before you try to write the code.

Incidentally, a "fun fact" about finally-blocked gotos is:

try { goto X; } finally { throw y; } 
X : Console.WriteLine("X");

X is an unreachable label targetted by a reachable goto! So next time you're at a party you can be like "hey everybody, can anyone make a C# program that has an unreachable label that is targetted by a reachable goto?" and you'll see who at the party has read the reachability specification and who has not!

22
  • 46
    So the moral of the story is: Never invite Eric Lippert to your parties ;)
    – Tergiver
    Apr 23, 2012 at 21:12
  • 36
    @Tergiver: Little known fact: compiler developers throw the best parties. Apr 23, 2012 at 22:12
  • 4
    @qqqqqqq: But here's the really nasty one. Suppose you have void X() { try { ObtainAdminPowers(); DoSomethingDangerous(); } finally { ReleaseAdminPowers(); }} and DoSomethingDangerous throws an exception. Now suppose we have try { X(); } catch (Exception) when (M()) { }}. The method M() runs before admin powers are released! The author of X believes that no code other than DoSomethingDangerous ever gets to use admin powers, but the author is wrong! Mar 12, 2020 at 23:26
  • 2
    @qqqqqqq: The correct mitigation in this case is the ridiculous void X() { try { Obtain(); DoIt(); } catch { Release(); throw; } Release(); } which no sensible person would write. It is one of the unfortunate security design flaws baked in to .NET exceptions. Mar 13, 2020 at 21:20
  • 2
    @EricLippert Arguably the root cause is that try { M } finally { N } has the meaning different from { try { M } catch (Exception e) { N; throw; } N }. I understand the motivation, but can't help to wonder if it could be achieved without introducing the entirely separate exception-related primitive.
    – Joker_vD
    Nov 21, 2020 at 12:09
59

Under normal conditions, code in a finally block will be executed regardless of what happens inside the try or catch blocks. It doesn't matter if you return from the method or not.

There are cases where this is not true. For example if the code in the finally block throws an exception, then it will stop executing like any other block of code.

Eric Lippert has written a much more comprehensive answer that outlines additional cases: https://stackoverflow.com/a/10260233/53777

In regards to goto, the answer is still yes. Consider the following code:

try
{
    Console.WriteLine("Inside the Try");
    goto MyLabel;
}
finally
{
    Console.WriteLine("Inside the Finally");
}

MyLabel:
    Console.WriteLine("After the Label");

The output produced is this:

Inside the Try

Inside the Finally

After the Label

0
7

Here are some examples:

Environment.FailFast()

        try
        {
            Console.WriteLine("Try");
            Environment.FailFast("Test Fail");

        }
        catch (Exception)
        {
            Console.WriteLine("catch");
        }
        finally
        {
            Console.WriteLine("finally");
        }

The output is only "Try"

Stackoverflow

        try
        {
            Console.WriteLine("Try");
            Rec();
        }
        catch (Exception)
        {
            Console.WriteLine("catch");
        }
        finally
        {
            Console.WriteLine("finally");
        }

Where Rec is:

    private static void Rec()
    {
        Rec();
    }

The output is only "Try" and the process terminates due to StackOverflow.

Unhanded exception

        try
        {
            Console.WriteLine("Try");
            throw new Exception();
        }
        finally
        {
            Console.WriteLine("finally");
        }
1
  • 3
    The last example (Unhanded exception) actually executes finally block.
    – N. M.
    Nov 30, 2020 at 21:08
2

In case of fatal exceptions that terminate application Finally block will not be called. Includes stack overflow, exceptions during JIT of methods to call, fatal exceptions insisde CLR runtime.

As @mintech points out if application hangs inside the block it simply will not reach finally block. This includes waiting for synchronization objects, deadlocks infinite loops or even UI that does not have a way to close it.

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