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I'm doing binary instrumentation with DynamoRIO using a C client on a C++ program although you probably don't need to know about DynamoRIO to answer my question. Currently I'm wrapping a function which has a signature:

virtual void foo(Klass& s)

And then in the wrap function I can get the argument of this function call (Klass& s) to a void pointer (void *arg1). I need to make use of this argument (i.e accessing fields, calling methods), however I can't cast it to the appropriate pointer as Klass is a C++ class and the client I'm using is in pure C.

When I try to print contents of the void* by casting it to a size_t such as:

printf("%zd\n", (size_t)arg1);

it gives me an 8 digit number such as 25102856 which I'm guessing is a memory address.

My question is how can I access this object in my program?

Pls ask all the information you need, I'm open to all ideas.

share|improve this question
I doubt this is at all possible. – user529758 Oct 16 '12 at 17:08
C and C++ are well known for their structured memory usage. If you know the layout of class Klass, you can reinterpret the void memory in the same pattern that you created it in C++ by reading the appropriate sized chunks. This is similar to simple packet-sniffing techniques – im so confused Oct 16 '12 at 17:09
But I'm going with H2CO3 on the calling methods stuff – im so confused Oct 16 '12 at 17:12
@AK4749 Exactly. And even that doesn't happen because compilers are dumb or whatever, and not the same padding scheme is used for C structs and C++ classes. – user529758 Oct 16 '12 at 17:38
@AK4749 I can't really create a similar struct in my program because that class I'm working on is quite complicated with fields of different objects. I would probably need to pull in the whole library. – gokcehan Oct 16 '12 at 17:44
up vote 3 down vote accepted

To make it work - define C style wrappers for getter and setters, like in this example:

For your class

class Klass {
  int getA() const;
  void setA(int);
  virtua int getB() const;

Define C structs which wraps this class:

typedef int (*GetInt)(void*);
typedef void (*SetInt)(void*,int);
// and similar for other types

struct KlassCInterface {
  void* object;
  GetInt getA;
  SetInt setA;
  GetInt getB;

extern "C" int getA(void* obj)
    return static_cast<Klass*>(klassObj)->getA();
KlassCInterface* getCInterface(Klass* obj)
   // malloc just in case your client want to use free()
   KlassCInterface* retVal = (KlassCInterface*)malloc(sizeof(KlassCInterface));
   retVal->object = obj;
   retVal->getA = &getA;
   return retVal;     

When you pass void* data, pass it as the C interface struct:

Klass* obj = new Klass(...);
KlassCInterface* objC = getCInterface(obj);


In your C code - use this C interface:

void doSthWihtKlass(void* data)
   KlassCInterface* objC  = (KlassCInterface*)data;
   printf("%d\n", objC->getA(objC->object));
share|improve this answer
This shadowing approach seems safer, but I don't think it achieves what the poster wants, since it works on a copy of the object (unless he only wants to call const methods). Also, malloc()ing is surely overkill. Let the client pass in the result buffer. – Alek Oct 16 '12 at 18:45
Just an idea. Allocating memory is not a must - if lifetime of this data is controlled by C++ part not C part. An idea is to hide C++ interface not behind simple void* data, but also behind some "C" function defined in C++ code - thus it can have access to C++ objects interfaces. – PiotrNycz Oct 16 '12 at 19:01
+1 for the solution, however I'm not allowed to introduce modification to the C++ application I'm tracing. hope I'm interpreting your correctly.. – gokcehan Oct 16 '12 at 20:48
To be more specific - one question. What is relation between void *arg1 and Klass& s? Is this just void* arg = &s? – PiotrNycz Oct 16 '12 at 21:00
hmmm, that's a good point actually. I don't really know as I'm just calling an API function from DynamoRIO which takes the position of the argument and returns a void*. How exactly does C++ implements pass-by-reference? – gokcehan Oct 16 '12 at 21:35

This should be difficult to do. You will have to know about the underlying C++ ABI. G++ implements this.

Usually, a C++ class is implemented much similarly to a structure in C. Roughly, base-class objects come in first, in the order of their declarations. Then, all other sub-objects of the class come in next, in the order of their declarations. This rule applies recursively to every enclosed object. Polymorphic objects will have a different layout, because more information must be stored; in particular, pointers to virtual methods, or a pointer to a structure containing these pointers, must be stored somewhere alongside the object.

Note that none of this is addressed by ISO 14882. Messing around with this is surely invoking undefined behavior.

With regards to calling virtual methods, you will have to look for the v-table. Once again, study the ABI from your compiler.

share|improve this answer
just a quick note, I'm not going to call a virtual method it's just I'm getting the object from a virtual method call. I will probably only need to call some getters. – gokcehan Oct 16 '12 at 17:47
In that case, most likely these methods are C-like functions (using some thiscall convention) with mangled names. The situation is far simpler. On the other hand, if you're calling getters, you could also access the underlying field directly. – Alek Oct 16 '12 at 17:57
That may also work for me but I can't even reach the object as it doesn't let me dereference a void* – gokcehan Oct 16 '12 at 18:00
Well, in that case, it is rather obvious you should be studying a little more of C and C++ before attempting your task. This is a very basic language issue you're supposed to know how to handle :) – Alek Oct 16 '12 at 18:02
can't you just give me a hint? I tried casting to size_t, char* or int yet it doesn't seem to work. Also tried memcpy but no luck.. – gokcehan Oct 16 '12 at 18:04

You need to learn more about the pointer semantics (and this is what I think @Alek meant).

First of all, you can use the %p printf format specifier to print pointers directly. This will usually result in some helpful value, such as the memory location the pointer is pointing to.

You can cast the pointer to a char * and use it to read bytes directly off the memory. Or you can cast it to an unsigned char * and do a "hex dump" using %x. You can cast it to an int * and read an integer as represented by your C implementation - possibly a 4-byte 2's complement little endian signed integer on 8-bit bytes with no unused bits, for example.

((unsigned long *)(((short *) ptr) + 7))[4] will, for example, skip past a number of bytes equal to the size of 7 shorts plus the size of 4 unsigned longs and read an unsigned long from the memory location. Assuming the correct representation (as the C implementation expects) of an unsigned long was written to that exact memory location, you'll get its value.

Not only will you have to be sure, exactly, what is written where in the memory pointed to by ptr (which is why the ABI was mentioned), but also the resulting program will be unportable and subject to change/break at whim.

You may also need exact-width integer types as specified in the <inttypes.h> header.

share|improve this answer
it has been some time, but I think the problem was that I had void* to a Klass* and I was able to read the content of the void* but couldn't go any further. I know the basic pointer arithmetics although I usually have problems before it starts working. anyway this was going to be 'pushing too hard' with all those portabiliy issues as you said so I had given up. I'm trying something else now, thanks.. – gokcehan Oct 19 '12 at 12:53

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