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This is going to seem like a pretty horrible question but I have searched around the internet and cannot find an answer to my problem.

I'm having a little look at .dll files, I understand their usage and I'm trying to understand how to use them.

I have created a .dll file that contains a function that returns an integer named funci()

using this code, I (think) I've imported the .dll file into the project(there's no complaints):

#include <windows.h>
#include <iostream>

int main() {
  HINSTANCE hGetProcIDDLL = LoadLibrary("C:\\Documents and Settings\\User\\Desktop  \\fgfdg\\dgdg\\test.dll");

  if (hGetProcIDDLL == NULL) {
    std::cout << "cannot locate the .dll file" << std::endl;
  } else {
    std::cout << "it has been called" << std::endl;
    return -1;
  }

  int a = funci();

  return a;
}

# funci function 

int funci() {
  return 40;
}

However when I try to compile this .cpp file that I think has imported the .dll I have the following error:

C:\Documents and Settings\User\Desktop\fgfdg\onemore.cpp||In function 'int main()':|
C:\Documents and Settings\User\Desktop\fgfdg\onemore.cpp|16|error: 'funci' was not     declared in this scope|
||=== Build finished: 1 errors, 0 warnings ===|

I know a .dll is different from a header file so I know I can;t import a function like this but it's the best I could come up with to show that I've tried.

My question is, how can I use the "hGetProcIDDLL" pointer to access the function within the .dll.

I hope this question makes sense and I'm not barking up some wrong tree yet again.

share|improve this question
    
lookup static/dynamic linking. –  Mitch Wheat Jan 2 '12 at 1:03
    
Thank you, I shall look into this –  user969416 Jan 2 '12 at 1:12
1  
Allergic to indentation? –  Lightness Races in Orbit Jan 2 '12 at 1:26
    
I indent my code but when I shove it into here the format messes up so I end up indenting it all by 4 lines –  user969416 Jan 2 '12 at 1:30

2 Answers 2

up vote 34 down vote accepted

LoadLibrary does not do what you think it does. It loads the DLL into the memory of the current process, but it does not magically import functions defined in it! This wouldn't be possible, as function calls are resolved by the linker at compile time while LoadLibrary is called at runtime (remember that C++ is a statically typed language).

You need a separate WinAPI function to get the address of dynamically loaded functions: GetProcAddress.

Example

#include <windows.h>
#include <iostream>

/* Define a function pointer for our imported
 * function.
 * This reads as "introduce the new type f_funci as the type: 
 *                pointer to a function returning an int and 
 *                taking no arguments.
 *
 * Make sure to use matching calling convention (__cdecl, __stdcall, ...)
 * with the exported function. __stdcall is the convention used by the WinAPI
 */
typedef int (__stdcall *f_funci)();

int main()
{
  HINSTANCE hGetProcIDDLL = LoadLibrary("C:\\Documents and Settings\\User\\Desktop  \\fgfdg\\dgdg\\test.dll");

  if (!hGetProcIDDLL) {
    std::cout << "could not load the dynamic library" << std::endl;
    return EXIT_FAILURE;
  }

  # resolve function address here
  f_funci funci = (f_funci)GetProcAddress(hGetProcIDDLL, "funci");
  if (!funci) {
    std::cout << "could not locate the function" << std::endl;
    return EXIT_FAILURE;
  }

  std::cout << "funci() returned " << funci() << std::endl;

  return EXIT_SUCCESS;
}

Also, you should export your function from the DLL correctly. This can be done like this:

int __declspec(dllexport) __stdcall funci() {
   // ...
}

As Lundin notes, it's good practice to free the handle to the library if you don't need them it longer. This will cause it to get unloaded if no other process still holds a handle to the same DLL.

share|improve this answer
    
Might sound like a stupid question but what is/should be the type of f_funci? –  user969416 Jan 2 '12 at 1:17
4  
Other than that, the answer is excellent and easily understandable –  user969416 Jan 2 '12 at 1:18
    
Note that f_funci in fact is a type (rather than has a type). The type f_funci reads as "pointer to a function returning an int and taking no arguments". More information about function pointers in C can be found at newty.de/fpt/index.html. –  Niklas B. Jan 2 '12 at 1:21
    
Thank you again for the reply, funci takes no arguments and returns an integer; I edited the question to show the function that was compiled? into the .dll. When I tried to run after including "typedef int (f_funci)();" I got this error: C:\Documents and Settings\User\Desktop\fgfdg\onemore.cpp||In function 'int main()':| C:\Documents and Settings\User\Desktop\fgfdg\onemore.cpp|18|error: cannot convert 'int ()()' to 'const CHAR*' for argument '2' to 'int (* GetProcAddress(HINSTANCE__*, const CHAR*))()'| ||=== Build finished: 1 errors, 0 warnings ===| –  user969416 Jan 2 '12 at 1:28
    
Well I forgot a cast there (edited it in). The error however seems to be another one, are you sure you use the correct code? If yes, can you please paste your failing code and the complete compiler output on pastie.org? Also, the typedef you wrote in your comment is wrong (an * is missing, which could have caused the error) –  Niklas B. Jan 2 '12 at 1:31

In addition to the already posted answer, I thought I should share a handy trick I use to load all the DLL functions into the program through function pointers, without writing a separate GetProcAddress call for each and every function. I also like to call the functions directly as attempted in the OP.

Start by defining a generic function pointer type:

typedef int (__stdcall* func_ptr_t)();

What types that are used aren't really important. Now create an array of that type, which corresponds to the amount of functions you have in the DLL:

func_ptr_t func_ptr [DLL_FUNCTIONS_N];

In this array we can store the actual function pointers that point into the DLL memory space.

Next problem is that GetProcAddress expects the function names as strings. So create a similar array consisting of the function names in the DLL:

const char* DLL_FUNCTION_NAMES [DLL_FUNCTIONS_N] = 
{
  "dll_add",
  "dll_subtract",
  "dll_do_stuff",
  ...
};

Now we can easily call GetProcAddress() in a loop and store each function inside that array:

for(int i=0; i<DLL_FUNCTIONS_N; i++)
{
  func_ptr[i] = GetProcAddress(hinst_mydll, DLL_FUNCTION_NAMES[i]);

  if(func_ptr[i] == NULL)
  {
    // error handling, most likely you have to terminate the program here
  }
}

If the loop was successful, the only problem we have now is calling the functions. The function pointer typedef from earlier isn't helpful, because each function will have its own signature. This can be solved by creating a struct with all the function types:

typedef struct
{
  int  (__stdcall* dll_add_ptr)(int, int);
  int  (__stdcall* dll_subtract_ptr)(int, int);
  void (__stdcall* dll_do_stuff_ptr)(something);
  ...
} functions_struct;

And finally, to connect these to the array from before, create a union:

typedef union
{
  functions_struct  by_type;
  func_ptr_t        func_ptr [DLL_FUNCTIONS_N];
} functions_union;

Now you can load all the functions from the DLL with the convenient loop, but call them through the by_type union member.

But of course, it is a bit burdensome to type out something like

functions.by_type.dll_add_ptr(1, 1); whenever you want to call a function.

As it turns out, this is the reason why I added the "ptr" postfix to the names: I wanted to keep them different from the actual function names. We can now smooth out the icky struct syntax and get the desired names, by using some macros:

#define dll_add (functions.by_type.dll_add_ptr)
#define dll_subtract (functions.by_type.dll_subtract_ptr)
#define dll_do_stuff (functions.by_type.dll_do_stuff_ptr)

And voilà, you can now use the function names, with the correct type and parameters, as if they were statically linked to your project:

int result = dll_add(1, 1);

Disclaimer: Strictly speaking, conversions between different function pointers are not defined by the C standard and not safe. So formally, what I'm doing here is undefined behavior. However, in the Windows world, function pointers are always of the same size no matter their type and the conversions between them are predictable on any version of Windows I've used.

Also, there might in theory be padding inserted in the union/struct, which would cause everything to fail. However, pointers happen to be of the same size as the alignment requirement in Windows. A static_assert to ensure that the struct/union has no padding might be in order still.

share|improve this answer
    
This C style approach would work. But wouldn't it be appropriate to use a C++ construct to avoid the #defines? –  harper May 20 '14 at 15:01
    
@harper Well in C++11 you could use auto dll_add = ..., but in C++03 there is no construct I could think of that would simplify the task (I also don't see any particular problem with the #defines here) –  Niklas B. May 20 '14 at 17:24

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