5

I need to use an unmanaged API from C++/CLI. This API stores a void pointer to arbitrary user data and a few callbacks. It then eventually calls those callbacks, passing the user data in as void*.

So far I had a native class passing its "this" pointer as the user data, and using that pointer to have the API call back into this class, i.e.:

static void __stdcall Callback(void* userData) {
    ((MyType*)userData)->Method();
}

class MyType {
public:
    MyType() { RegisterWithApi((void*)this, Callback); }
    void Method();
};

I'm trying to translate this using a managed class. I found that the type gcroot can be used to safely store a managed reference in native code, so here's how I'm doing it now:

// This is called by the native API
static void __stdcall Callback(void* userData) {
    // Cast back to gcroot and call into managed code
    (*(gcroot<MyType^>*)userData)->Method();
}

ref class MyType {
    gcroot<MyType^>* m_self;
public:
    MyType() { 
        m_self = new gcroot<MyType^>;
        RegisterWithApi((void*)m_self, Callback);
    }
    ~MyType() { delete m_self; }
    // Method we want called by the native API
    void Method();
}

While this seems fine to the C++/CLI compiler, I am not perfectly re-assured. From what I understand, gcroot somehow keeps track of its managed reference as it is moved by the GC. Will it manage to do this while stored as a void* by unmanaged code? Is this code safe?

Thanks.

1
  • 1
    Do favor Marshal::GetFunctionPointerForDelegate(), an example is here Mar 8, 2013 at 22:52

2 Answers 2

2

This is what I ended up doing and it works perfectly. The purpose of gcroot is to store a managed reference on the native heap, which is precisely what I'm doing here.

0

No! It's exactly the other way around. gcroot is a native class template. You use it to store a handle to managed memory in a native type which is compiled with clr support. You will typically use it to divert calls to member functions of a native object to a managed object stored in a member of type gcroot.

EDIT: I was on mobile yesterday where typing code examples is a bit awkward... The intended and typical usage of gcroot<T^> is somewhere along these lines:

// ICallback.h
struct ICallback {
    virtual void Invoke() = 0;
    virtual void Release() = 0;
    protected:
        ~ICallback() {}
};

That is what your native apps or libraries see and include. Then, you have a mixed component compiled with CLR support, which implements ICallback and stores a handle to some managed object in a gcroot<ManagedType^>:

// Callback.cpp (this translation unit must be compiled with /clr)
// I did not compile and test, but you get the point...
template<class T^> class Callback : public ICallback {
    gcroot<T^> m_Managed;

    virtual void Invoke()
    {
       m_Managed->Invoke();
    }

    virtual void Release()
    {
        delete this;
    }
public:
    Callback(T^ p_Managed) : m_Managed(p_Managed) {}
};

__declspec( dllexport ) ICallback* CreateCallback()
{
    auto t_Managed = gcnew SomeManagedType();
    return new Callback<System::Action^>(
        gcnew System::Action(t_Managed, &SomeManagedType::Method)); 
}

Your native apps call CreateCallback, recieve an instance of ICallback which when Invoke-d calls a method of managed type, held in gcroot<System::Action^>...

5
  • 1
    So the issue is that the native API isn't compiled with clr support? Because otherwise what you describe is exactly what I'm doing.
    – Asik
    Mar 8, 2013 at 21:43
  • The native class that uses gcroot must be compiled with clr support. What I described is exactly the opposite of what you've shown in your question: you store a native gcroot pointer in a managed object. Mar 8, 2013 at 21:54
  • Well, the function where the gcroot is used ("Callback") is compiled with CLR support. The gcroot is stored on the unmanaged heap which is apparently allowed. What difference would it make that a managed class keep a pointer to it?
    – Asik
    Mar 8, 2013 at 22:06
  • Well that is just not the intended usage of gcroot. The whole point of having a gcroot<T^> where T is a managed type is to use a safe RAII wrapper for handles to managed memory. Using gcroot<T^> allocated on the free-store is similar to std::shared_ptr<T>* p = new std::shared_ptr<T> - pointless. I'll edit my answer to demonstrate... Mar 9, 2013 at 10:01
  • 1
    How is it pointless if it solves my problem? I want to pass an instance of a managed class as void* to an API that I have no control over. Creating a gcroot on the native heap and passing it as void* seems to do the trick, since when I get called back with this pointer I can cast back to gcroot and forward into the managed class. I'm not asking what is typical use, I'm asking if this will work correctly.
    – Asik
    Mar 9, 2013 at 13:25

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