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I am trying to debug some work that processes large files. The code itself works, but there are sporadic errors reported from the .NET Runtime itself. For context, the processing here is a 1.5GB file (loaded into memory once only) being processed and released in a loop, deliberately to try to reproduce this otherwise unpredictable error.

My test fragment is basically:

try {
    byte[] data =File.ReadAllBytes(path);
    for(int i = 0 ; i < 500 ; i++)
        ProcessTheData(data); // deserialize and validate

        // force collection, for tidiness
        GC.Collect(GC.MaxGeneration, GCCollectionMode.Forced);
} catch(Exception ex) {
    // some more logging; StackTrace, recursive InnerException, etc

(with some timing and other stuff thrown in)

The loop will process fine for an non-deterministic number of iterations fully successfully - no problems whatsoever; then the process will terminate abruptly. The exception handler is not hit. The test does involve a lot of memory use, but it saw-tooths very nicely during each iteration (there is not an obvious memory leak, and I have plenty of headroom - 14GB unused primary memory at the worst point in the saw-tooth). The process is 64-bit.

The windows error-log contains 3 new entries, which (via exit code 80131506) suggest an Execution Engine error - a nasty little critter. A related answer, suggests a GC error, with a "fix" to disable concurrent GC; however this "fix" does not prevent the issue.

Clarification: this low-level error does not hit the CurrentDomain.UnhandledException event.

Clarification: the GC.Collect is there only to monitor the saw-toothing memory, to check for memory leaks and to keep things predictable; removing it does not make the problem go away: it just makes it keep more memory between iterations, and makes the dmp files bigger ;p

By adding more console tracing, I have observed it faulting during each of:

  • during deserialization (lots of allocations, etc)
  • during GC (between a GC "approach" and a GC "complete", using the GC notification API)
  • during validation (just foreach over some of the data) - curiously just after a GC "complete" during the validation

So lots of different scenarios.

I can obtain crash-dump (dmp) files; how can I investigate this further, to see what the system is doing when it fails so spectacularly?

share|improve this question
Curious why you explicitly call the GC, as there are very few situations where that can be considered good practice. Given your rep I'm sure you have a good reason and curious what it is. – Eric J. Jan 9 '13 at 15:31
@EricJ this is not meant as production code; that GC collect is merely intended to get things into a known state for each iteration, rather than GC randomly in the middle. Removing it doesn't fix the error: it just makes it harder to watch the saw-tooth ;p This entire block of code exists purely to stress test this, to repro a reported error. – Marc Gravell Jan 9 '13 at 15:34
@MarcGravell is it the code that made SO crash a few mins ago ? :D – mathieu Jan 9 '13 at 15:54
Not sure if relevant, but according to MSDN, the garbage collector can produce this error under heavy load: In some cases, an application that targets the .NET Framework may throw an ExecutionEngineException exception during garbage collection when an application or the system on which it is running is under a heavy load. As a workaround, you can disable concurrent garbage collection by modifying the application's configuration file. For more information, see How to: Disable Concurrent Garbage Collection. – Bridge Jan 9 '13 at 16:00
Have you managed to figure out what was causing this? – Dan Neely Apr 8 '13 at 14:45
up vote 20 down vote accepted

If you have memory dumps, I'd suggest using WinDbg to look at them, assuming that you're not doing that already.

Trying running the comment !EEStack (mixed native and managed stack trace), and see if there's anything that might jump out in the stack trace. In my test program, I found this one of the times as my stack trace where a FEEE happened (I was purposefully corrupting the heap):

0:000> !EEStack
Thread   0
Current frame: ntdll!NtWaitForSingleObject+0xa
Child-SP         RetAddr          Caller, Callee
00000089879bd3d0 000007fc586610ea KERNELBASE!WaitForSingleObjectEx+0x92, calling ntdll!NtWaitForSingleObject
00000089879bd400 000007fc5869811c KERNELBASE!RaiseException+0x68, calling ntdll!RtlRaiseException
00000089879bec80 000007fc49109cf6 clr!WKS::gc_heap::gc1+0x96, calling clr!WKS::gc_heap::mark_phase
00000089879becd0 000007fc49109c21 clr!WKS::gc_heap::garbage_collect+0x222, calling clr!WKS::gc_heap::gc1
00000089879bed10 000007fc491092f1 clr!WKS::GCHeap::RestartEE+0xa2, calling clr!Thread::ResumeRuntime
00000089879bed60 000007fc4910998d clr!WKS::GCHeap::GarbageCollectGeneration+0xdd, calling clr!WKS::gc_heap::garbage_collect
00000089879bedb0 000007fc4910df9c clr!WKS::GCHeap::Alloc+0x31b, calling clr!WKS::GCHeap::GarbageCollectGeneration
00000089879bee00 000007fc48ff82e1 clr!JIT_NewArr1+0x481

Since this could be related to heap corruption from the garbage collector, I would try the !VerifyHeap command. At least you could make sure that the heap is intact (and your problem lies elsewhere) or discover that your issue might actually be with the GC or some P/Invoke routines corrupting it.

If you find that the heap is corrupt, I might try and discover how much of the heap is corrupted, which you might be able to do via !HeapStat. That might just show the entire heap corrupt from a certain point, though.

It's difficult to suggest any other methods to analyze this via WinDbg, since I have no real clue about what your code is doing or how it's structured.

I suppose if you find it to be an issue with the heap and thus meaning it could be GC weirdness, I would look at the CLR GC events in Event Tracing for Windows.

If the minidumps you're getting aren't cutting it and you're using Windows 7/2008R2 or later, you can use Global Flags (gflags.exe) to attach a debugger when the process terminates without an exception, if you're not getting a WER notification.

In the Silent Process Exit tab, enter the name of the executable, not the full path to it (ie. TestProgram.exe). Use the following settings:

  • Check Enable Silent Process Exit Monitoring
  • Check Launch Monitor Process
  • For the Monitor Process, use {path to debugging tools}\cdb.exe -server tcp:port=5005 -g -G -p %e.

And apply the settings.

When your test program crashes, cdb will attach and wait for you to connect to it. Start WinDbg, type Ctrl+R, and use the connection string: tcp:port=5005,server=localhost.

You might be able to skip using remote debugging and instead use {path to debugging tools}\windbg.exe %e. However, the reason I suggested remote instead, was because WerFault.exe, which I believe is what reads the registry and launches the monitor process, will start the debugger in Session 0.

You can make session 0 interactive and connect to the window station, but I can't remember how that's done. It's also inconvenient, because you'd have to switch back and forth between sessions if you need to access any of your existing windows you've had open.

share|improve this answer

Try writing a generic exception handler and see if there is an unhandled exception killing your app.

    AppDomain currentDomain = AppDomain.CurrentDomain;
    currentDomain.UnhandledException += new UnhandledExceptionEventHandler(MyExceptionHandler);

static void MyExceptionHandler(object sender, UnhandledExceptionEventArgs e) {
        Console.WriteLine("Press Enter to continue");
share|improve this answer
I would expect he's already tried this. He states: "The exception handler is not hit." in the question. – ChrisF Jan 9 '13 at 15:38
Alas, this is a lower-level "exception" - 80131506 is an ExecutionEngineException; after that, no managed code will run. Good idea, but doesn't work. – Marc Gravell Jan 9 '13 at 15:39
I assumed his exception handler is the catch block he has written around the loop. – Dhawalk Jan 9 '13 at 15:39
To be explicit: yes I tried this; no that also does not get hit – Marc Gravell Jan 9 '13 at 15:40
afaik the ExecutionEngineException leads to an immediate process termination since .NET 4.0, so this unfortunately wont be helpfull. – Aschratt Jan 9 '13 at 15:41

Tools->Debugging->General->Enable .Net Framework Debugging


Tools->IntelliTace-> IntelliTaceEbents And Call Information


Tools->IntelliTace-> Set StorIntelliTace Recordings in this directory

and choose a directory

should allow you to step INTO .net code and trace every single function call. I tried it on a small sample project and it works

after each debug session it suppose to create a recording of the debug session. it the set directory even if CLR dies if im not mistaken

this should allow you to get to the extact call before CLR collapsed.

share|improve this answer
doing work that involves 10+GB of memory and takes over a minute per iteration, and might not happen for ages, that might be excessive amounts of logging. Good idea, though. – Marc Gravell Jan 9 '13 at 16:35

There are .NET exceptions which can not be caught. Check out:

share|improve this answer
Interesting article – Hoppe Jan 16 '13 at 17:57

I usually invesitgate memory related problems with Valgrind and gdb.

If you run your things on Windows, there are plenty of good alternatives such as verysleepy for callgrind as suggested here:
Is there a good Valgrind substitute for Windows?

If you really want to debug internal errors of the .NET runtime, you have the problem that there is no source for neither the class libraries nor the VM.

Since you can't debug what you don't have, I suggest that (apart from decompiling the .NET framework libraries in question with ILSpy, and adding them to your project, which still doesn't cover the vm) you could use the mono runtime.
There you have both the source of the class libraries as well as of the VM.
Maybe your program works fine with mono, then your problem would be solved, at least as long as it's only a one-time-processing task.

If not, there is an extensive FAQ on debugging, including GDB support

Miguel also has this post regarding valgrind support:

In addition to that, if you let it run on Linux, you can also use strace, to see what's going on in the syscalls. If you don't have extensive winforms usage or WinAPI calls, .NET programs usually work fine on Linux (for problems regarding file system case-sensitivity, you can loopmount a case-insensitive file system and/or use MONO_IOMAP).

If you're Windows centric person, this post says the closest thing Windows has is WinDbg's Logger.exe, but ltrace information is not as extensive.

Mono sourcecode is available here:

You are probably interested in the sources of the latest mono version

If you need framework 4.5, you'll need mono 3, you can find precompiled packages here

If you want to make changes to the sourcecode, this is how to compile it:

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For the errors of such nature, which are non-deterministic and non predictive, windbg crash dump analysis is one of the foremost mechanism to analyze, please check the following links, as they take through the details of the windbg debugging:

Check out these informative slides related to windbg debugging too:

As you would understand from details above for a correct crash dump analysis that you would get using the adplus crash switch the most important aspect is the correct symbol or pdb files, as they would help in mapping to the current function calls to the hexadecimal stack and would provide critical information about the method executed before crash / AV was generated. Symbols are picked up from _NT_SYMBOL_PATH environment variable. In Windbg you do not need the command prompt tools, visual interface is good enough to provide all the thread wise details of the stack trace during the error.

My understanding is you have already tried enabling exceptions in the VS, including the preferably enable all of them in the Exception dialog box, since that is always the first point of debugging, which can yield critical information if that break with specific exception, so the first clue. Windbg always follows it, to have a deeper insight in the issue and that's the best known windows tool.

However, my view would be different on the issue, as I see program involves the mapping to a byte stream with a huge working set at runtime, so to avoid the issue you may try the following:

- Create the smaller memory chunks and process them, this would ensure that if there's an error due to sudden memory pressure and mapping of large working set then GC would get more scope to collect the memory and reduce the overall memory pressure. if 1.5 GB could be divided into 3-5 smaller chunks (500MB - 300 MB). In this case you can either do by reading file in parts by peeking inside or after reading byte stream, you may divide into smaller byte[] to deserialize and aggregate the final result. I have seen practically seen this taking care of many similar issues.

  • As you would have already suggested, that GC calls are not in production, but you would be surely aware, even making GC calls doesn't ensure any deterministic behavior, GC still gets invoked on its own, just that it would ensure that execution waits for GC to do its work after the program iteration, however here as it seems the current data for processing is already high enough to sporadically reproduce the issue.

In case you may want to have a look at the memory usage pattern of your process, because at times a continuously increasing process working set / virtual bytes can be the root of the issue, then I have a posting out here to debug out of memory exception:

When I use Socket.IO, why I got an error An unhandled exception of type 'System.OutOfMemoryException'

In this case it might be a tipping point just before OOM, but in case you find by preliminary task manager analysis, memory increasing in an unabated manner, then you may want to further look in the issue.

Also though I am not aware of system configuration, but you may want to play around with boot configuration switches in windows like /3GB, /USERVA to tweak the user process memory to a higher value, which is enough to avoid such issue, though that would need manual analysis to understand the certain point of memory pressure when it surely results in the error

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