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I would like to know how to change the address of Test which is in the virtual table with that of HackedVTable.

void HackedVtable()
{
    cout << "Hacked V-Table" << endl;
}

class Base
{    
public:
    virtual Test()  { cout <<"base";    }
    virtual Test1() { cout << "Test 1"; }
    void *prt;
    Base(){}
};

class Derived : public Base
{
public: 
    Test()
    {
        cout <<"derived";
    }
};

int main()
{    
    Base b1;

    b1.Test(); // how to change this so that `HackedVtable` should be called instead of `Test`?

    return 0;
}

Answer will be greatly appreciated.

Thanks in advance.

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4  
I don't care why you want to do this. Its a bad idea. Don't do it. –  abelenky Oct 9 '09 at 6:36
2  
@abelenky, this is just for educating purpose only. i wanted know how things works. :) –  mahesh Oct 9 '09 at 6:38
    
@Martin's comment is the best advice you can get for educational purposes. otherwise - just give up, the compiler is better for this job. –  LiraNuna Oct 9 '09 at 6:54
11  
@Martin: Normally I'd agree with you, but come on. Build a compiler? "Yeah, either manipulate some memory, or build a compiler." The two vary hugely in difficulty! You can't possibly take yourself serious when you suggest someone build a compiler over messing around with some memory. It's a terrible idea for any production code, but messing around with these things can reveal a lot about how they work, and you can learn a lot in the process. –  GManNickG Oct 9 '09 at 7:10
    
@GMan, You understand my need :). I just want to know how things works. –  mahesh Oct 9 '09 at 7:17

6 Answers 6

up vote 12 down vote accepted

This works for 32-bit MSVC builds (it's a very simplified version of some production code that's been in use for well over a year). Note that your replacement method must explicitly specify the this parameter (pointer).

// you can get the VTable location either by dereferencing the
// first pointer in the object or by analyzing the compiled binary.
unsigned long VTableLocation = 0U;
// then you have to figure out which slot the function is in. this is easy
// since they're in the same order as they are declared in the class definition.
// just make sure to update the index if 1) the function declarations are
// re-ordered and/or 2) virtual methods are added/removed from any base type.
unsigned VTableOffset = 0U;
typedef void (__thiscall Base::*FunctionType)(const Base*);
FunctionType* vtable = reinterpret_cast<FunctionType*>(VTableLocation);

bool hooked = false;
HANDLE process = ::GetCurrentProcess();
DWORD protection = PAGE_READWRITE;
DWORD oldProtection;
if ( ::VirtualProtectEx( process, &vtable[VTableOffset], sizeof(int), protection, &oldProtection ) )
{
	vtable[VTableOffset] = static_cast<FunctionType>(&ReplacementMethod);

	if ( ::VirtualProtectEx( process, &vtable[VTableOffset], sizeof(int), oldProtection, &oldProtection ) )
		hooked = true;
}
share|improve this answer
    
Thanks very much. :) –  mahesh Oct 9 '09 at 7:04
1  
NP. I had to use it to correct a faulty parameter validation that showed up on my machine configuration in a 3rd party application that caused a crash every time I tried to use the program. –  280Z28 Oct 9 '09 at 7:08

The V-Table is an implementation detail.

The compiler is not required to use one (it just happens to be the easiest way to implement virtual functions). But saying that each compiler can (and does) implement it slightly differently as a result there is no answer to your question.

If you ask how do I hack a vtable for a program built with:

Compiler <X> Version <Y> Build <Z>

Then somebody may know the answer.

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2  
Well said. Furthermore even the compilers that use a V-Table sometimes produce code with static linking if the semantics of the program allows it. –  mjv Oct 9 '09 at 6:35

I don't think there is a portable way. Mostly because of compiler optimization and different architecture ABI between every target.

But C++ provides you with that exact same capability, why not use it?

void HackedVtable()
{
	cout << "Hacked V-Table" << endl;
}

class Base
{
public:
	   virtual Test()  { cout <<"base";    }
	   virtual Test1() { cout << "Test 1"; }
	   void *prt;
	   Base(){}
};

class Derived : public Base
{
	public: 
	       Test() 
	       {
	       		HackedVtable(); // <-- NOTE
	       }
};

int main()
{
	Derived b1; // <-- NOTE

	b1.Test();

	return 0;
}
share|improve this answer
    
I wanted to know to change the address in vtable –  mahesh Oct 9 '09 at 6:39
1  
You don't want to know. Even for educational purposes, theory is fine in this case. The compiler knows much more than you about your program than you might think, so messing with a table that may or may not exist (in this case, never, since it's not in use) is a bad idea and will only cause you to think you're a bad programmer by segfaulting too much. Don't. –  LiraNuna Oct 9 '09 at 6:52

well its quite easy to figure out. Find hte VTAble pointer (In visual studio its the first 4/8 bytes). Then step into a normal call of Test (into the assembler) and you'll see it jump to the Vtable and then to your test function. To override test just replace the pointer where you jumped from in the VTable.

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You mean MSVC doesn't optimize obvious overrides (if not used, for example)? –  LiraNuna Oct 9 '09 at 6:36
void HackedVtable()
{
    cout << "Hacked V-Table" << endl;
}

class Base
{

public:
       virtual Test()  { cout <<"base";    }
       virtual Test1() { cout << "Test 1"; }
       void *prt;
       Base(){}
};

class Derived:public Base
{
    public: 
           Test() 
           {
                   cout <<"derived";
           }
};

typedef void (*FUNPTR)();
typedef struct
{
   FUNPTR funptr;
} VTable;


int main()
{

    Base b1;
    Base *b1ptr = &b;

    VTable vtable;
    vtable.funptr = HackedVtable;

    VTable *vptr = &vtable;
    memcpy ( &b1, &vptr, sizeof(long) );

    b1ptr->Test();

    //b1.Test(); // how to change this so that HackedVtable() should be called instead of Test()

    return 0;
}
share|improve this answer
    
@Ganesh, Thanks you very much..simple and elegant. :) –  mahesh Oct 10 '09 at 7:02
    
@mahesh, this is completely different resulting functionality than mine. Here, it replaces the functions for a single instance (b1). In mine, it replaces the functions for all instances of a specific type. –  280Z28 Oct 10 '09 at 7:32

Another way to achieve the same thing is by cheking similar code:

GObject:

http://en.wikipedia.org/wiki/Gobject

GLib:

http://en.wikipedia.org/wiki/GLib

Vala:

http://en.wikipedia.org/wiki/Vala_%28programming_language%29

Those guys wanted to work with a object and class oriented programming language, but "C++", didn't fit their requisites. Then , they took "plain C", and simulate objects withn records & pointers, including Virtual Method Tables. Eventually got a similar language called "Vala", their own "C++" alike language (with their own V.M.T.).

Another related links:

http://en.wikipedia.org/wiki/Virtual_method_table

http://www.artima.com/insidejvm/ed2/jvmP.html

Cheers.

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