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Given the following C library with a callback event that ask to set a buffer, how to write a proper C++/CLI wrapper in a type safe manner?

// The callback signature
typedef void (__cdecl *BUFFERALLOCATOR)(void *opaque, void **buffer);

// A struct that contains the context of the library
struct lib_context_base_s
{
    // The stored callback function pointer 
    BUFFERALLOCATOR buffer_allocator;
    // Opaque pointer that contain the local context. Needed in C because
    // C doesn't have closures (functions that knows the context where
    // they are defined)
    void* opaque;
};

typedef struct lib_context_base_s lib_context_base;

// Init the base context
lib_context_base* new_lib_context_base()
{
    return malloc(sizeof(lib_context_base));
}

// Free the base context
void free_lib_context_base(lib_context_base *lib_context_base)
{
    free(lib_context_base);
}

// Set the buffer allocation callback
void set_allocate_buffer_callback(lib_context_base *lib_context_base,
                                  BUFFERALLOCATOR allocate_buffer, void* opaque)
{
    lib_context_base->buffer_allocator = allocate_buffer;
    lib_context_base->opaque = opaque;
}

The library should be usable by managed code using the delegate void BufferAllocator(ref IntPtr buffer) .

share|improve this question
    
Who would want to use CLI, let alone C++?! –  Matt Joiner Mar 15 '11 at 23:04
1  
Alternative is P/Invoke with DLLImport in C#? I wouldn't use it for big library wrappers because is not type safe and prone to errors. I don't code my application in C++/CLI: that's good for wrappers, nothing else. –  ceztko Mar 16 '11 at 9:16
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1 Answer

up vote 3 down vote accepted

I will insist on type-safe principles: I know there's already Marshal.GetFunctionPointerForDelegate but that requires function pointer type cast in C++/CLI and hides how marshalling unmanaged->managed works (debugging is much harder and I don't like not understanding what's happening behing the scene). Just noticed the approach is similar to this but doesn't need a managed native class (less overhead). Please, tell me if you know how to further simplify it (mantaining type safety and marshaling control) and reduce overhead.

The following is the C++/CLI Wrapper.h header:

#include <gcroot.h>

using namespace System;
using namespace System::Runtime::InteropServices;

namespace LibraryWrapper
{
    // Declare the cdecl function that will be used 
    void cdecl_allocate_buffer(void *opaque, void **buffer);

    public ref class Library
    {
    public:
        // The BufferAllocator delegate declaration, available to any clr language
    // [In, Out] attributes needed (?) to pass the pointer as reference
        delegate void BufferAllocator([In, Out] IntPtr% buffer);

    internal:
        // The stored delegate ref to be used later
        BufferAllocator ^_allocate_buffer;

    private:
        // Native handle of the ref Library class, castable to void *
        gcroot<Library^> *_native_handle;
        // C library context
        lib_context_base *_lib_context_base;

    public:
        Library();
        ~Library();
        // The clr callback setter equivalent to the C counterpart, don't need
        // the context because in CLR we have closures
        void SetBufferAllocateCallback(BufferAllocator ^allocateBuffer);
    };
}

Follows C++/CLi Wrapper.cpp defines:

#include "wrapper.h"

namespace LibraryWrapper
{
    Library::Library()
    {
        // Construct the native handle
        _native_handle = new gcroot<Library^>();
        // Initialize the library base context
        _lib_context_base = new_lib_context_base();
        // Null the _allocate_buffer delegate instance
        _allocate_buffer = nullptr;
    }

    Library::~Library()
    {
        free_lib_context_base(_lib_context_base);
        delete _native_handle;
    }

    void Library::SetBufferAllocateCallback(BufferAllocator ^allocateBuffer)
    {
        _allocate_buffer = allocateBuffer;
        // Call the C lib callback setter. Use _native_handle pointer as the opaque data 
        set_allocate_buffer_callback(_lib_context_base, cdecl_allocate_buffer,
            _native_handle);
    }

    void cdecl_allocate_buffer(void *opaque, void **buffer)
    {
        // Cast the opaque pointer to the hnative_handle ref (for readability)
        gcroot<Library^> & native_handle = *((gcroot<Library^>*)opaque);
        // Prepare a IntPtr wrapper to the buffer pointer
        IntPtr buffer_cli(*buffer);
        // Call the _allocate_buffer delegate in the library wrapper ref
        native_handle->_allocate_buffer(buffer_cli);
        // Set the buffer pointer to the value obtained calling the delegate
        *buffer = buffer_cli.ToPointer();
    }
}

Can be used in this way (C#):

// Allocate a ~10mb buffer in unmanaged memory. Will be deallocated
// automatically when buffer go out of scope
IntPtr _buffer = Marshal.AllocHGlobal(10000000);

// Init the library wrapper
Library library = new Library();

// Set the callback wrapper with an anonymous method
library.SetBufferAllocateCallback(delegate(ref IntPtr buffer)
{
    // Because we have closure, I can use the _buffer variable in the outer scope
    buffer = _buffer;
});
share|improve this answer
    
Storing a gcroot<T>* in the opaque argument is the right approach. Very similar to the method used for wrapping C library callbacks in ISO C++. –  Ben Voigt Mar 15 '11 at 22:39
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