malloc() implementation should prevent you from trying to write past what you allocated. It is assumed that if you allocate 123 bytes, you will use all or less than what you allocated.
malloc(), for efficiency sake, has to assume that a programmer is going to keep track of their pointers.
That being said ...
malloc() implementations that give you built in statistics and debugging, however these need to be used in lieu of the standard
malloc() facility just like you would if you were using a garbage collected variety.
I've also seen variants designed strictly for LD_PRELOAD that expose a function to allow you to define a callback with at least one void pointer as an argument. That argument expects a structure that contains the statistical data. Other tools like electric fence will simply halt your program on the exact instruction that resulted in an overrun or access to invalid blocks. As @R.. points out in comments, that is great for debugging but horribly inefficient.
In all honesty or (as they say) 'at the end of the day' - it's much easier to use a heap profiler such as Valgrind and its associated tools (massif) in this case which will give you quite a bit of information. In this particular case, Valgrind would have pointed out the obvious - you wrote past the allocated boundary. In most cases, however when this is not intentional, a good profiler / error detector is priceless.
Using a profiler isn't always possible due to:
- Timing issues while running under a profiler (but those are common any time calls to
malloc() are intercepted).
- Profiler is not available for your platform / arch
- The debug data (from a logging
malloc()) must be an integral part of the program
We used a variant of the library that I linked in HelenOS (I'm not sure if they're still using it) for quite a while, as debugging at the VMM was known to cause insanity.
Still, think hard about future ramifications when considering a drop in replacement, when it comes to the
malloc() facility you almost always want to use what the system ships.