Dismiss
Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

This is an unusual question to ask but here goes:

In my code, I accidentally dereference NULL somewhere. But instead of the application crashing with a segfault, it seems to stop execution of the current function and just return control back to the UI. This makes debugging difficult because I would normally like to be alerted to the crash so I can attach a debugger.

What could be causing this?

Specifically, my code is an ODBC Driver (ie. a DLL). My test application is ODBC Test (odbct32w.exe) which allows me to explicitly call the ODBC API functions in my DLL. When I call one of the functions which has a known segfault, instead of crashing the application, ODBC Test simply returns control to the UI without printing the result of the function call. I can then call any function in my driver again.

I do know that technically the application calls the ODBC driver manager which loads and calls the functions in my driver. But that is beside the point as my segfault (or whatever is happening) causes the driver manager function to not return either (as evidenced by the application not printing a result).

One of my co-workers with a similar machine experiences this same problem while another does not but we have not been able to determine any specific differences.

share|improve this question
17  
I love the title of this question... but I can't possibly ship it without bugs!! – user257111 Jan 7 '11 at 19:43
2  
You seem to have provided everything, except the code. Perhaps the compiler is optimizing away the code that does nothing. – Ian Boyd Jan 7 '11 at 19:44
3  
I suppose the exception is being handled somewhere? – EboMike Jan 7 '11 at 19:44
    
I'm with EboMike, something will be catching the AV – David Heffernan Jan 7 '11 at 19:45
    
Depending on the context - normally any such action would result in a page-fault error, since you cannot read 0x00000000 (or nearby). This throw would propagate up the stack to whatever handler takes it. No handler -> back to the OS/runtime system which generally speaking would unload the offending .exe and terminate the process. There are tons of opportunities in that chain to intercept that behavior, not knowing your context, can't say what exactly may be interceding on your behalf. – Mordachai Jan 7 '11 at 19:47
up vote 39 down vote accepted

Windows has non-portable language extensions (known as "SEH") which allow you to catch page faults and segmentation violations as exceptions.

There are parts of the OS libraries (particularly inside the OS code that processes some window messages, if I remember correctly) which have a __try block and will make your code continue to run even in the face of such catastrophic errors. Likely you are being called inside one of these __try blocks. Sad but true.

Check out this blog post, for example: The case of the disappearing OnLoad exception – user-mode callback exceptions in x64

Update:

I find it kind of weird the kind of ideas that are being attributed to me in the comments. For the record:

  • I did not claim that SEH itself is bad.

    I said that it is "non-portable", which is true. I also claimed that using SEH to ignore STATUS_ACCESS_VIOLATION in user mode code is "sad". I stand by this. I should hope that I had the nerve to do this in new code and you were reviewing my code that you would yell at me, just as if I wrote catch (...) { /* Ignore this! */ }. It's a bad idea. It's especially bad for access violation because getting an AV typically means your process is in a bad state, and you shouldn't continue execution.

  • I did not argue that the existence of SEH means that you must swallow all errors.

    Of course SEH is a general mechanism and not to blame for every idiotic use of it. What I said was that some Windows binaries swallow STATUS_ACCESS_VIOLATION when calling into a function pointer, a true and observable fact, and that this is less than pretty. Note that they may have historical reasons or extenuating circumstances to justify this. Hence "sad but true."

  • I did not inject any "Windows vs. Unix" rhetoric here. A bad idea is a bad idea on any platform. Trying to recover from SIGSEGV on a Unix-type OS would be equally sketchy.

share|improve this answer
2  
I wouldn't call SEH as language extension, I think of it more as a service provided by the OS. I'm not really sure about window message callbacks - what are they? Do you mean WNDPROCs? Although Windows is not the same as UNIX, that fact alone does not make it inferior. – David Heffernan Jan 7 '11 at 19:50
1  
@Trevor - I might suggest looking at the program in the debugger on each machine and inspecting the stack to see if it is really the same thing going on. In Windbg ("Debugging tools for Windows", a free download from MSFT) you might have to use the command "sxe" which breaks on exceptions even if they are caught. – asveikau Jan 7 '11 at 20:02
1  
@asveikau SEH is usually used by tool vendors to implement C++ exceptions, or indeed other languages with exceptions. SEH doesn't swallow exceptions, it raises and transports them. If you call certain Win32 API functions, and SEH is active, and you pass in NULL pointers, then you can raise AVs in the Windows DLLs, I sometimes see this happen in kernel32 (which is not actually the kernel just to confuse matters!) If these exceptions return to my app and remain unhandled, then, yes, my app will terminate. – David Heffernan Jan 7 '11 at 20:24
1  
@asveikau My point essentially is that on Windows, with SEH, it is perfectly normal for an access violation to result in an exception which if, unhandled, will terminate the app. If you choose, in your apps to swallow the SEH exceptions silently, then that is your mistake and not a design flaw in Windows. – David Heffernan Jan 7 '11 at 20:25
1  
@David Heffernan - I would call __try an extension in C. C does not have exceptions, AFAIK __try is implemented in the compiler rather than via macro magic, and last I knew GCC does not support __try. – asveikau Jan 7 '11 at 23:48

Dereferencing NULL pointer is an undefined behavior, which can produce almost anything -- a seg.fault, a letter to IRS, or a post to stackoverflow :)

share|improve this answer
9  
+1 post to stackoverlow :) – David Rodríguez - dribeas Jan 7 '11 at 19:54
10  
Is that in ascending order of badness? :) – EboMike Jan 7 '11 at 19:55
3  
This is 100% correct - but not really an answer to this specific question. – Mordachai Jan 7 '11 at 20:57
    
It actually is. "Undefined behavior" means it can crash on a machine with operating system X but doesn't crash on another machine with operating system Y. In fact, ANY change (different compiler, different platform, different configuration, different time of day) could yield different results. – EboMike Jan 7 '11 at 22:30
1  
@EboMike or Descending order of Madness – Newtopian Mar 25 '15 at 19:29

Read about the different kinds of exception handlers here -- they don't catch the same kind of exceptions.

share|improve this answer

Windows 7 also have its Fault Tollerant Heap (FTH) which sometimes does such things. In my case it was also a NULL-dereference. If you develop on Windows 7 you really want to turn it off!

What is Windows 7's Fault Tolerant Heap?

http://msdn.microsoft.com/en-us/library/dd744764%28v=vs.85%29.aspx

share|improve this answer

Attach your debugger to all the apps that might call your dll, turn on the feature to break when an excption is thrown not just unhandled in the [debug]|[exceptions] menu.

ODBC is most (if not all) COM as such unhandled exceptions will cause issues, which could appear as exiting the ODBC function strangely or as bad as it hang and never return.

share|improve this answer
    
100% agreed - what's probably happening is that some code higher in the stack is catching the exception. The way to find this is to start your app under a debugger (or attach a debugger to your app) and enable catching first chance exceptions. It should hit fairly easily. – Larry Osterman Jan 8 '11 at 6:19

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.