Category : C Source Code
Archive   : BCPPTECH.ZIP
Filename : TI810.ASC

 
Output of file : TI810.ASC contained in archive : BCPPTECH.ZIP







PRODUCT : Turbo C++ NUMBER : 810
VERSION : All
OS : DOS
DATE : February 25, 1992 PAGE : 1/2

TITLE : Tracking down crash bugs




Tracking down crash problems in a program can often be quite
difficult. Here are a few tips to speed up the process. First,
it depends on what memory model is being used. It is far easier
to crash the machine in a large data model (Compact, Large, and
Huge) than in a small data model (Tiny, Small, and Medium.) In
the small data models, the easiest way to crash the machine is
with a stack or heap overflow, or stack corruption. Data
corruption normally does not have this effect since in the small
data model, only the 64K data segment can be corrupted. But
since the data segment also includes the stack, and the stack and
the heap grow into each other, it possible to corrupt the stack.
Corruption of the stack eventually leads to sending the CPU into
no-mans land by corrupting return addresses of functions. In the
large data models, crashing the machine is easy, since writing to
a NULL far pointer trashes the interrupt table, and writing to a
bad pointer can write anywhere in memory, including the code
segments of the program and DOS internals. Other possibilities
include array indexes out of bounds, which can easily cause heap
corruption if the array was dynamically allocated.

So, what can be done about it? First, check the easy things:
Make sure that the program is compiled with all warning messages
turned on. Resolve all warning messages, unless they are of no
consequence and can safely be ignored (like "'parameter' is never
used in function 'func'") Messages like "Non-portable pointer
conversion" should always be resolved. Make sure that all
dynamic memory allocation requests are checked for a NULL return
value and that the file is #included ( can be
used in the small data models.) Next, try increasing the stack
size. (See the HELPME!.DOC file for instructions on how to do
this.) This can sometimes identify a possible stack overflow.
Also, place calls to the function heapcheck() at strategic points
in the code. If there is a heap corruption problem this can give
you some idea of when it happened. Judicious use of breakpoints
can also help localize the problem. Run the program in Turbo
Debugger with a breakpoint set for "Change Memory Global" at
address 0:0,4 to see if the start of the interrupt table is being
corrupted. (If you are using a small data model, this step is
meaningless. NULL pointer assignments are identified by the exit
code running a checksum on the beginning of the data segment of
the program when it ends. If the checksum fails, a "Null pointer
assignment" message is printed. You can catch the offender in
this case by changing the above address to ds:0,4)













PRODUCT : Turbo C++ NUMBER : 810
VERSION : All
OS : DOS
DATE : February 25, 1992 PAGE : 2/2

TITLE : Tracking down crash bugs




Once the problem has been localized, either with the
aforementioned techniques, or it was consistent enough to make
identification easy, start in with the heavy artillery. If the
interrupt table is being walked on, you can identify the code
responsible with the aforementioned breakpoint. Work backwards
from there. If practical, try stepping through the section that
is believed to be responsible. Familiarity with assembly
language can be quite helpful, as the absolute path of the CPU
can be traced with Turbo Debugger's CPU Window, including the
inside of library functions, and into interrupts, if necessary.
Try to identify when the program is working on bad data, or has
bad code segments indicating memory corruption. If a 386 machine
is available, TD386 can often be of help in tracing these kinds
of problems.





































  3 Responses to “Category : C Source Code
Archive   : BCPPTECH.ZIP
Filename : TI810.ASC

  1. Very nice! Thank you for this wonderful archive. I wonder why I found it only now. Long live the BBS file archives!

  2. This is so awesome! 😀 I’d be cool if you could download an entire archive of this at once, though.

  3. But one thing that puzzles me is the “mtswslnkmcjklsdlsbdmMICROSOFT” string. There is an article about it here. It is definitely worth a read: http://www.os2museum.com/wp/mtswslnk/