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I have a program which loads DLLs and I need to call one of the non-exported functions it contains. Is there any way I can do this, via searching in a debugger or otherwise? Before anyone asks, yes I have the prototypes and stuff for the functions.

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5 Answers 5

Yes there is, at least sort of, but it isn't a good idea.

In C/C++ all a function pointer is, is an address in memory. So if you somehow where able to find the address of this function you could call it.

Let me ask some questions though, how do you know this DLL contains this function? Do you have the source code? Otherwise I don't know how you could know for certain that this function exists or if it is safe to call. But if you have the source code, then just expose the function. If the DLL writer didn't expose this function, they never expect you to call it and can change/remove the implementation at any time.

Warnings aside, you can find the function address if you have debug symbols or a MAP file you can find the offset in the DLL. If you don't have anything but the DLL, then there is no way to know where that function exists in the DLL - it is not stored in the DLL itself.

Once you have the offset you can then insert that into the code like so:

const DWORD_PTR funcOffset = 0xDEADBEEF;
typedef void (UnExportedFunc)();

void CallUnExportedFunc() {
     // This will get the DLL base address (which can vary)
     HMODULE hMod = GetModuleHandle("My.dll"); 
     // Calcualte the acutal address 
     DWORD_PTR funcAddress = (DWORD_PTR)hMod + funcOffset;
     // Cast the address to a function poniter
     UnExportedFunc func = (UnExportedFunc)funcAddress;
     // Call the function

Also realize that the offset of this function WILL CHANGE EVERY TIME the DLL is rebuilt so this is very fragile and let me say again, not a good idea.

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Alas, the problem was finding the address in the DLL, and yeah, all I have is the DLL, but I am sure the function exists in it. What do you mean by "If you don't have anything but the DLL, then there is no way to know where that function exists in the DLL - it is not stored in the DLL itself."? –  Nilbert May 27 '10 at 3:49
What I was trying to say is that the DLL doesn't contain any mapping between the function's name the address inside the DLL where that code reside. You will not find the function's name listed anywhere inside the DLL itself. –  shf301 May 27 '10 at 4:13
You can try looking at the DLL in OllyDBG and finding where the function is but it might be very difficult –  Chris T May 30 '10 at 1:59
You can use signature scanning to find the function address at runtime, assuming its contents don't radically change between builds. –  BlueRaja - Danny Pflughoeft May 7 '12 at 18:40

I realize this question rather is old, but shf301 has the right idea here. The only thing I would add is to implement a pattern search on the target library. If you have IDA or OllyDbg, you can search for the function and view the binary/hex data which surrounds that function's starting address.

In most cases, there will be some sort of binary signature which rarely changes. The signature may hold wildcards which may change between builds, but ultimately there should be at least one successful hit while searching for this pattern, unless extremely drastic changes have occurred between builds (at which point, you could just figure out the new signature for that particular version).

The way that you would implement a binary pattern search is like so:

bool bCompare(const PBYTE pData, const PBYTE bMask, const PCHAR szMask)
            if(*szMask=='x' && *pData!=*bMask)  
                    return 0;
    return (*szMask) == NULL;

DWORD FindPattern(DWORD dwAddress, DWORD dwLen, PBYTE bMask, PCHAR szMask)
    for(DWORD i=0; i<dwLen; i++)
            if (bCompare((PBYTE)(dwAddress+i),bMask,szMask))  
                    return (DWORD)(dwAddress+i);
    return 0;

Example usage:

typedef void (*UnExportedFunc)();

void CallUnExportedFunc()
    // This will get the DLL base address (which can vary)
    HMODULE hMod = GetModuleHandleA( "My.dll" );

    // Get module info
    MODULEINFO modinfo = { NULL, };
    GetModuleInformation( GetCurrentProcess(), hMod, &modinfo, sizeof(modinfo) );

    // This will search the module for the address of a given signature
    DWORD dwAddress = FindPattern(
        hMod, modinfo.SizeOfImage,

    // Calculate the acutal address 
    DWORD_PTR funcAddress = (DWORD_PTR)hMod + dwAddress;

    // Cast the address to a function poniter
    UnExportedFunc func = (UnExportedFunc)funcAddress;

    // Call the function

The way that this works is by passing in the base address of the loaded library via GetModuleHandle, specifying the length (in bytes) to search, the binary data to search for, and a mask which specifies which bytes of the binary string are valid ('x') and which are to be overlooked ('?'). The function will then walk through the memory space of the loaded module, searching for a match. In some cases, there may be more than one match and in this case, it's wise to make your signature a little more pronounced to where there is only one match.

Again, you would need to do the initial binary search in a disassembly application in order to know what this signature is, but once you have that then this method should work a little better than manually finding the function offset every time the target is built. Hope this helps.

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I'm afraid there are no "safe" way to do so if referred library does not explicitly export its object (class/func). Because you will have no idea where is the required object mapped in code memory.

However, by using RE tools, you can find offset for interested object within the library, then add it to any known exported object address to obtain the "real" memory location. After that, prepare a function prototype etc and cast into your local structure for usage.

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What are RE tools? –  Nilbert May 27 '10 at 3:20
Disassembler, and its probably good idea to find those who offer assembly interpretation capability (PE is a good one) –  YeenFei May 27 '10 at 3:57

If the function you want isn't exported, then it won't be in the export address table. Assuming Visual Studio was used to produce this DLL and you have its associated PDB (program database) file, then you can use Microsoft's DIA (debug interface access) APIs to locate the desired function either by name or, approximately, by signature.

Once you have the function (symbol) from the PDB, you will also have its RVA (relative virtual address). You can add the RVA to the loaded module's base address to determine the absolute virtual address in memory where the function is stored. Then, you can make a function call through that address.

Alternatively, if this is just a one-off thing that you need to do (i.e. you don't need a programmatic solution), you can use windbg.exe in the Debugging Tools for Windows toolkit to attach to your process and discover the address of the function you care about. In WinDbg, you can use the x command to "examine symbols" in a module.

For example, you can do x mymodule!*foo* to see all functions whose name contains "foo". As long as you have symbols (PDB) loaded for your module, this will show you the non-export functions as well. Use .hh x to get help on the x command.

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I guess it sucks then if I only have the .DLL and not the .pdb then right? –  Nilbert May 28 '10 at 4:38
Yes, it would be very difficult to find your non-exported function without PDB information. You could try using a disassembler to guess where it's located by looking for x86 prolog/epilogs and taking a guess-and-check approach, see smidgeonsoft.prohosting.com/pebrowse-pro-file-viewer.html –  Chris Schmich May 28 '10 at 5:09

The most general way to do this (and it's still a bad idea, as everyone else pointed out already) is to scan the DLL code at runtime after it's loaded, and look for a known, unique section of code in that function, and then use code similar to that in shf301's answer to call it. If you know that the DLL won't ever change, than any solution based on determining the offset in the DLL should work.

To find that unique section of code, disassemble the DLL using a disassembler that can show you the machine code in addition to the assembly language mnemonics (I can't think of anything that won't do that) and watch out for call and jmp instructions.

I actually had to do something similar once to apply a binary patch to a DOS exe; it was a bug fix, and the code wasn't under revision control so that was the only way to fix it.

I'd be really curious to know why you need this, by the way.

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