Howto implement callback interface from unmanaged DLL to .net app?

You don't need to use Marshal.GetFunctionPointerForDelegate(), the P/Invoke marshaller does it automatically. You'll need to declare a delegate on the C# side whose signature is compatible with the function pointer declaration on the C++ side. For example:

using System;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;

class UnManagedInterop {
  private delegate int Callback(string text);
  private Callback mInstance;   // Ensure it doesn't get garbage collected

  public UnManagedInterop() {
    mInstance = new Callback(Handler);
    SetCallback(mInstance);
  }
  public void Test() {
    TestCallback();
  }

  private int Handler(string text) {
    // Do something...
    Console.WriteLine(text);
    return 42;
  }
  [DllImport("cpptemp1.dll")]
  private static extern void SetCallback(Callback fn);
  [DllImport("cpptemp1.dll")]
  private static extern void TestCallback();
}

And the corresponding C++ code used to create the unmanaged DLL:

#include "stdafx.h"

typedef int (__stdcall * Callback)(const char* text);

Callback Handler = 0;

extern "C" __declspec(dllexport)
void __stdcall SetCallback(Callback handler) {
  Handler = handler;
}

extern "C" __declspec(dllexport)
void __stdcall TestCallback() {
  int retval = Handler("hello world");
}

That's enough to get you started with it. There are a million details that can get you into trouble, you are bound to run into some of them. The much more productive way to get this kind of code going is writing a wrapper in the C++/CLI language. That also lets you wrap a C++ class, something you can't do with P/Invoke. A decent tutorial is available here.

P/Invoke can handle marshaling a managed delegate to a function pointer. So if you expose API's that register a call back function from your DLL and in C# pass a delegate to that function.

There is an example on MSDN of doing this with the EnumWindows function. In that article be careful to pay attention to the line in point 4 that states:

If, however, the callback function can be invoked after the call returns, the managed caller must take steps to ensure that the delegate remains uncollected until the callback function finishes. For detailed information about preventing garbage collection, see Interop Marshaling with Platform Invoke.

What that is saying is that you need to make sure that your delegate isn't garbage collected until after the managed code is done calling it by either keeping a reference to it in your code, or pinning it.

See Marshal.GetFunctionPointerForDelegate, which will give you a function pointer for calling managed (i.e. C# code) from unmanaged code.