Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm trying to write plugin dll which has to implement the following function:

int GetFunctionTable(FuncDescStruct **ppFunctionTable);

So my plugin code in C# declares this:

 public static unsafe int GetFunctionTable(IntPtr functionTablePtr);

This function will be called and expected to fill functionTablePtr with pointer to array of structs describing set of callback functions.

In plain C/C++ it looks something like:

// declare func table  
// VExampleF1, VExampleF2 - are function pointers
FuncDescStruct funcTable[] = { 
    "ExampleF1",    { VExampleF1, 0, 0, 0, 0, NULL }, //filling descriptions.
    "ExampleF2",    { VExampleF2, 1, 0, 1, 0, NULL }

int GetFunctionTable(FuncDescStruct **ppFunctionTable)
*ppFunctionTable = funcTable; // how to do this correctly in C#?

// must return the number of functions in the table
return funcTableSize;

I'm trying to do the following:

    static unsafe FunctionTag[] funcTable;
    static List<IntPtr> allocatedMemory;
    public static unsafe int GetFunctionTable(IntPtr functionTablePtr)

        //create just one test callback description
        funcTable = new FunctionTag[1];

        funcTable[0].Name = "VExampleF1";
        funcTable[0].Description.Function = VExampleF1;
        funcTable[0].Description.ArrayQty = 0;
        funcTable[0].Description.FloatQty = 0;
        funcTable[0].Description.StringQty = 0;
        funcTable[0].Description.DefaultQty = 0;
        funcTable[0].Description.DefaultValues = null;

        // saving allocated memory for further cleanup
        allocatedMemory = new List<IntPtr>(); 

        int intPtrSize = Marshal.SizeOf(typeof(IntPtr));
        IntPtr nativeArray = Marshal.AllocHGlobal(intPtrSize * funcTable.Length);
        for (int i = 0; i < funcTable.Length; i++)
            IntPtr nativeFD = Marshal.AllocHGlobal(Marshal.SizeOf(typeof(FunctionTag)));
            Marshal.StructureToPtr(funcTable[i], nativeFD, false);

            Marshal.WriteIntPtr(nativeArray, i * intPtrSize, nativeFD);

        Marshal.WriteIntPtr(functionTablePtr, nativeArray);

        return funcTable.Length;

Such code doesn't work, and the question is how to send a pointer to array of managed structs for use by unmanaged code? In which direction should I go?

share|improve this question

3 Answers 3

We've been doing quite a lot of this sort of thing over the last couple of years. We use a mixed-mode 'bridge' assembly to manage mapping function calls and marshalling data between managed and unmanaged environments. We often use a 'mixed-mode' class to wrap a managed class, providing a native interface for calling it's functionality.

Let's consider your problem. You could write GetFunctionTable in managed c++. It can call some managed c# code to get the function information in a managed struct, and then 'marshall' it into the native struct.

In (c#) a managed version of GetFunctionTable function:

delegate void FunctionDelegate();

public struct FuncDescStructManager
    public string Name;
    public FunctionDelegate Function;

public static List<FuncDescStructManager> GetFunctionTableManaged()
    List<FuncDescStructManager> list = new List<FuncDescStructManager>();
    list.Add(new FuncDescStructManaged () {"ExampleF1", VExampleF1});
    return list;

In the mixed-mode bridge assembly you can implement the native function GetFunctionTable, calling the managed function and marshalling the data:

int GetFunctionTable(FuncDescStruct **ppFunctionTable)
    // Call the managed function
    List<FuncDescStructManaged>^ managedList = GetFunctionTableManaged();

    nativeArray = malloc(managedList.Length * sizeof(FuncDescStruct));
    int i=0;
    foreach (FuncDescStructManaged managedFunc in managedList)
        // Marshall the managed string to native string could look like this:
        stringPtr = Marshal::StringToHGlobalUni(managedFunc.Name);
        nativeArray[i].Name = ((wchar_t*)stringPtr.ToPointer());

        // Marshall a delegate into a native function pointer using a 
        // wrapper class:
        WrapDelegateAsPtr funcPtr = new WrapDelegateAsPtr(managedFunc.Function);
        // funcPtr will need to be deleted by caller
        nativeArray[i].Function = funcPtr.NativeFunction;
    return i;

// Mixed mode wrapper class
// Member is a reference to a managed delegate.
// Because we need to reference this from native code, the wrapped 
// delegate will be stored as a void*.
class WrapDelegateAsFPtr
    WrapDelegateAsNativeFunctionPointer(FunctionDelegate _delegate)
        delegate = _delegate;
        // Tell the garbage handler not to remove the delegate object yet
        GCHandle gch = GCHandle::Alloc(svgContents);
        managedDelegatePtr = GCHandle::ToIntPtr(gch).ToPointer();       

        // Tell the garbage collector we are finished with the managed object
        IntPtr temp(managedDelegatePtr;);
        GCHandle gch = static_cast<GCHandle>(temp);

    void NativeFunction()

        void* managedDelegatePtr;

Hope this helps - Any questions just ask!

share|improve this answer

THis is a rather belatedd answer, but I have come up against exactly the same problem. I have implmented a DATA PLUGIN using Kostya's framework, and got it to work perfectly, then trying to implmement an AFL plugin, I ran into the problem as per above. I have managed to get itworking without using a C++ rapper class. The problem is with the function pointer/reference/address that is passed from withing the FUnctionTable. AS these functions have been dclared as STATIC for EXPORT purposes, they are incompatible with the C++ delegate implmentation in the GETFUNCTIONTABLE method. IF you ddo the following , it should work:-

Add the 2 signatures:-

[DllImport("kernel32", CharSet = CharSet.Ansi, ExactSpelling = true, SetLastError = true)]
static extern IntPtr GetProcAddress(IntPtr hModule, string procName);
[DllImport("kernel32.dll", CharSet = CharSet.Auto, SetLastError = true)]
internal static extern IntPtr LoadLibrary(string lpFileName);

[DllImport("kernel32.dll", CharSet = CharSet.Auto, SetLastError = true)]
internal static extern bool SetDllDirectory(string lpPathName); 
  • the function reference definition in the GetFunctionTable structure must be changed to: IntPtr Function;

  • Add the following statements to get the exported function address:-

    IntPtr dllHandle = LoadLibrary(fullPath);
    IntPtr fptr = GetProcAddress(dllHandle, "VfmExample1");

and lastly initialize the function variable in the GetFunctionTable structure , e.g.

functable[0].Description.function = fptr;

and that should do it

share|improve this answer

You have to use the fixing construct to fix the buffer in place, because the C# GC reserves the right to move it around if you don't, invalidating the pointer. I don't know how to fix a buffer indefinitely. You're going to have to worry about how that memory is managed, too.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.