I would like to investigate the first
4 bytes of the memory the void-pointer
is pointing to, to see if this is the
address of the valid vtable.
You can do that, but you have no guarantees whatsoever it will work. Y don't even know if the void* will point to the vtable. Last time I looked into this (5+ years ago) I believe some compiler stored the vtable pointer before the address pointed to by the instance*.
I know this is platform, maybe even
It may also be compiler-options speciffic, depending on what optimizations you use and so on.
but it could help me in moving the
application forward, and getting rid
of all the void-pointers over a
limited time period (let's say 3
Is this the only option you can see for moving the application forward? Have you considered others?
Is there a way to get a list of all
vtables in the application,
or a way to check whether a pointer
points to a valid vtable,
No standard way. What you can do is open some class pointers in your favorite debugger (or cast the memory to bytes and log it to a file) and compare it and see if it makes sense. Even so, you have no guarantees that any of your data (or other pointers in the application) will not look similar enough (when cast as bytes) to confuse whatever code you like.
and whether that instance pointing to
the vtable inherits from a known base
Here are some questions (you may have considered them already). Answers to these may give you more options, or may give us other ideas to propose:
how large is the code base? Is it feasible to introduce global changes, or is functionality to spread-around for that?
do you treat all pointers uniformly (that is: are there common points in your source code where you could plug in and add your own metadata?)
what can you change in your sourcecode? (If you have access to your memory allocation subroutines or could plug in your own for example you may be able to plug in your own metadata).
If different data types are cast to void* in various parts of your code, how do you decide later what is in those pointers? Can you use the code that discriminates the void* to decide if they are classes or not?
Does your code-base allow for refactoring methodologies? (refactoring in small iterations, by plugging in alternate implementations for parts of your code, then removing the initial implementation and testing everything)
Edit (proposed solution):
Do the following steps:
define a metadata (base) class
replace your memory allocation routines with custom ones which just refer to the standard / old routines (and make sure your code still works with the custom routines).
on each allocation, allocate
the requested size + sizeof(Metadata*) (and make sure your code still works).
replace the first
sizeof(Metadata*) bytes of your allocation with a standard byte sequence that you can easily test for (I'm partial to 0xDEADBEEF :D). Then, return
[allocated address] + sizeof(Metadata*) to the application. On deallocation, take the recieved pointer, decrement it by `sizeof(Metadata*), then call the system / previous routine to perform the deallocation. Now, you have an extra buffer allocated in your code, specifically for metadata on each allocation.
In the cases you're interested in having metadata for, create/obtain a metadata class pointer, then set it in the 0xDEADBEEF zone. When you need to check metadata,
reinterpret_cast<Metadata*>([your void* here]), decrement it, then check if the pointer value is 0xDEADBEEF (no metadata) or something else.
Note that this code should only be there for refactoring - for production code it is slow, error prone and generally other bad things that you do not want your production code to be. I would make all this code dependent on some
REFACTORING_SUPPORT_ENABLED macro that would never allow your Metadata class to see the light of a production release (except for testing builds maybe).