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I've lately been involved with a VC++ application running on production (Win Server 2003 SE, SP2) daily for the past few years. Every once in a while (every few months or so) the application crashes due to an unhandled exception. Obviously, we have a release executable running on prod and that is not about to change.

Examining the latest crash:

Two events (event viewer):

APPLICATION Event (error): "Faulting application XXX , faulting module mfc42.dll, version 6.6.8032.0, fault address 0x00026e12"

SYSTEM Event: Information (Application Popup) "Socket Notification Sink: XXX application error: The instruction at 0x73ed6e12 referenced memory at 0xd4273c00. The memory could not be read"

OK, I'm rather inexperienced with remote debugging but I'm trying to make use of this information along with the MAP files available. Any input towards the right direction would help..

Obviously the exception is fired from within the mf42.dll. I can also verify this by using a utility called dependency walker; running this on our application i can see the fault address indeed lies withing the range for mfc42.dll (preferred base is 0x73dd0000 and followed by 0x74320000).

(Auxilliary question regarding the MAP file for mfc42.dll at my disposal: its date is much earlier the dll's (map is 1998 - dll is 2007..). I would think these dates should be similar if not identical for the MAP file to be meaningful? I'm going to give it a try anyway:)

The mfc42.map states a preferred load address of 5f400000. I presume this is different from the address i got for mfc42.dll from dependency walker due to conflict and relocation, correct? In any case I guess this is still usable if i can work out the offset of the fault address from the relocated preferred load address. It appears to me that this offset may be already given from the application event (0x00026e12); note it's remarkable lower part similarity to the system event's 0x73ed6e12 (which i assume is an absolute address reference). It would be quite nice if subtracting the first from the latter would give the prefered load address for mfc42.dll.. but it does not. Subtraction gives 0x73eb0000 and not 0x73dd0000.

And vice versa, i would think that subtracting the preferred load address of mfc42.dll (0x73dd0000) from the absolute faulting address given in the system event (0x73ed6e12) should give me the offset of the fault address. Ok, this gives 0x106e12 which not only is different to that given in the application event but more importantly, adding it to the preferred load address stated in mfc42.map yields an address out of range of the public symbols..

It seems the only path leading to an actual public symbol in mfc42.dll is adding 0x00026e12 (applicatoin event) and 5f400000 (preferred load address from mfc42.map) which gives a function that however is never used from our application (maybe used via another dll??)

Your comments would be most valued.. I'm utilizing this case to familiarise myself with postmortem debugging but comments as to the specific bug are also welcome (for instance, regarding Socket Notification Sink). Lastly and most importantly, any general suggestions on remote/postmortem debugging? I've come across a few and currently reviewing this from dr dobbs!, although the source link seems broken it seems VERY neat...

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SHORT VERSION::: From the widnows events noted above, would it be correct to say system fault address - application fault address = preferred load address (of the .dll) –  nantonop Feb 22 '12 at 12:44
    
MFC42 was most likely not loaded at its preferred address. ASLR probably moved. The preferred address is therefore not useful. Use the specified offset. If you can capture the crash dump files, you can load them into a debugger. (Also, please choose a more meaningful title.) –  Raymond Chen Feb 22 '12 at 13:49
    
@RaymondChen Yes, i figured mfc42 has been moved. There are no crash dump files in the prod env.. I think my biggest problem is not being certain the mfc42.MAP file corresponds to the DLL file.. Plus, it'll be most probable that the function i'm looking for will have been called elsewhere from within the dll itself.. without the callstack i can't see this taking me anywhere.. thanks for yout input..! –  nantonop Feb 22 '12 at 14:00
    
You can load the MFC42.dll from the production machine into a debugger to see what function is loaded there, but as you noted, without a call stack you're unlikely to get far. –  Raymond Chen Feb 22 '12 at 17:42

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