codekingpro's picture
Add files using upload-large-folder tool
378910a verified
Raw
History Blame Contribute Delete
15.8 kB
/***
*marshal.h
*
* Copyright (c) Microsoft Corporation. All rights reserved.
*
*Purpose: Marshalling classes
*
* [Public]
*
****/
#pragma once
#ifndef _INC_MSCLR_MARSHAL
#define _INC_MSCLR_MARSHAL
// #using is not used in the Windows build.
#if !defined _CRT_WINDOWS && !defined UNDOCKED_WINDOWS_UCRT
#using <system.dll>
#endif
#include <Windows.h>
#include <errno.h>
#include <memory>
#include <sal.h>
#include <stdlib.h>
#include <string.h>
#include <type_traits>
#include <vcclr.h>
#pragma comment(lib, "comsupp.lib")
#pragma comment(lib, "oleaut32.lib")
#pragma warning(push)
#pragma warning(error : 4996)
namespace msclr{
namespace interop{
namespace details
{
#define _EXCEPTION_GREATER_THAN_INT_MAX "Size of string exceeds INT_MAX."
#define _EXCEPTION_NULLPTR "NULLPTR is not supported for this conversion."
#define _EXCEPTION_MB2WC "Conversion from MultiByte to WideChar failed. Please check the content of the string and/or locale settings."
#define _EXCEPTION_WC2MB "Conversion from WideChar to MultiByte failed. Please check the content of the string and/or locale settings."
// helper class to allocate/deallocate a buffer with new[]/delete[]
template <class T>
class char_buffer
{
public:
explicit char_buffer(size_t _size)
{
_ptr = new T[_size];
}
~char_buffer()
{
delete [] _ptr;
}
T *get() const
{
return _ptr;
}
T* release()
{
T *_ret_value = _ptr;
_ptr = NULL;
return _ret_value;
}
private:
// no copy constructor nor operator=
char_buffer(const char_buffer&);
char_buffer& operator=(const char_buffer&);
T *_ptr;
};
inline _Check_return_ size_t GetAnsiStringSize(System::String^ _str)
{
cli::pin_ptr<const wchar_t> _pinned_ptr = PtrToStringChars(_str);
auto _size = static_cast<size_t>(
::WideCharToMultiByte(CP_THREAD_ACP, WC_NO_BEST_FIT_CHARS, _pinned_ptr,
_str->Length, NULL, 0, NULL,NULL));
if (_size == 0 && _str->Length != 0)
{
throw gcnew System::ArgumentException(_EXCEPTION_WC2MB);
}
// adding 1 for terminating nul
_size+=1;
return _size;
}
inline void WriteAnsiString(_Out_writes_all_(_size) _Post_z_ char* _buf, size_t _size, System::String^ _str)
{
cli::pin_ptr<const wchar_t> _pinned_ptr = PtrToStringChars(_str);
//checking for overflow
if (_size > INT_MAX)
{
// this should never happen if _size was returned by GetAnsiStringSize()
throw gcnew System::ArgumentOutOfRangeException(_EXCEPTION_GREATER_THAN_INT_MAX);
}
const auto _written = static_cast<size_t>(::WideCharToMultiByte(CP_THREAD_ACP, WC_NO_BEST_FIT_CHARS,
_pinned_ptr, _str->Length, _buf, static_cast<int>(_size), NULL, NULL));
if( _written >= _size || (_written == 0 && _size != 1)) // allowing empty string
{
throw gcnew System::ArgumentException(_EXCEPTION_WC2MB);
}
_buf[_written] = '\0';
}
inline _Check_return_ size_t GetUnicodeStringSize(_In_reads_z_(_count+1) const char* _str, size_t _count)
{
if (_count > INT_MAX)
{
throw gcnew System::ArgumentOutOfRangeException(_EXCEPTION_GREATER_THAN_INT_MAX);
}
auto _size = static_cast<size_t>(::MultiByteToWideChar(CP_THREAD_ACP, 0, _str, static_cast<int>(_count), NULL, 0));
if (_size == 0 && _count != 0)
{
throw gcnew System::ArgumentException(_EXCEPTION_MB2WC);
}
//adding 1 for terminating nul
_size+=1;
return _size;
}
inline void WriteUnicodeString(_Out_writes_all_(_size) _Post_z_ wchar_t* _dest, size_t _size, _In_reads_bytes_(_count)const char* _src, size_t _count)
{
//checking for overflow
if (_size > INT_MAX || _count > INT_MAX)
{
throw gcnew System::ArgumentOutOfRangeException(_EXCEPTION_GREATER_THAN_INT_MAX);
}
size_t _written = static_cast<size_t>(::MultiByteToWideChar(CP_THREAD_ACP, 0, _src,
static_cast<int>(_count), _dest, static_cast<int>(_size)));
if( _written >= _size || (_written == 0 && _size != 1)) // allowing empty string
{
throw gcnew System::ArgumentException(_EXCEPTION_MB2WC);
}
_dest[_written] = L'\0';
}
inline System::String^ InternalAnsiToStringHelper(_In_reads_z_(_count+1)const char* _src, size_t _count)
{
const size_t _size = details::GetUnicodeStringSize(_src, _count);
if (_size > INT_MAX || _size <=0 )
{
throw gcnew System::ArgumentOutOfRangeException(_EXCEPTION_GREATER_THAN_INT_MAX);
}
details::char_buffer<wchar_t> _wchar_buf(_size);
if (_wchar_buf.get() == NULL)
{
throw gcnew System::InsufficientMemoryException();
}
details::WriteUnicodeString(_wchar_buf.get(), _size, _src, _count);
return gcnew System::String(_wchar_buf.get(), 0, static_cast<int>(_size)-1);
}
inline System::String^ InternalUnicodeToStringHelper(_In_reads_z_(_count+1)const wchar_t* _src, size_t _count)
{
if (_count > INT_MAX)
{
throw gcnew System::ArgumentOutOfRangeException(_EXCEPTION_GREATER_THAN_INT_MAX);
}
return gcnew System::String(_src, 0 ,static_cast<int>(_count));
}
} // namespace details
template<class _To_Type, class _From_Type>
ref class context_node;
template <class _To_Type, class _From_Type,
bool _Needs_Context = context_node<_To_Type,_From_Type>::_Needs_Context>
class error_reporting_helper;
template <class _To_Type, class _From_Type>
class error_reporting_helper<_To_Type, _From_Type, /* _Needs_Context */ false>
{
public:
__declspec(deprecated("This conversion is not supported by the library or the header file needed for this conversion is not included. Please refer to the documentation on 'How to: Extend the Marshaling Library' for adding your own marshaling method."))
static _To_Type marshal_as(const _From_Type&) = delete;
};
template <class _To_Type, class _From_Type>
class error_reporting_helper<_To_Type, _From_Type, /* _Needs_Context */ true>
{
public:
__declspec(deprecated("This conversion requires a marshal_context. Please use a marshal_context for this conversion."))
static _To_Type marshal_as(const _From_Type&) = delete;
};
template <class _To_Type, class _From_Type>
inline _To_Type _Marshal_as_impl(::std::false_type, const _From_Type& _from_object)
{
return error_reporting_helper<_To_Type, _From_Type>::marshal_as(_from_object);
}
template <class _From_Type>
inline System::String^ _Marshal_as_impl(::std::true_type, const char* _from_object)
{
if (!_from_object)
{
return nullptr;
}
return details::InternalAnsiToStringHelper(_from_object, strlen(_from_object));
}
template <class _From_Type>
inline System::String^ _Marshal_as_impl(::std::true_type, const wchar_t* _from_object)
{
if (!_from_object)
{
return nullptr;
}
return gcnew System::String(_from_object);
}
template <class _To_Type, class _From_Type>
inline _To_Type marshal_as(const _From_Type& _from_object)
{
using _Decayed = ::std::decay_t<_From_Type>;
return _Marshal_as_impl<_To_Type>(typename ::std::conjunction<
::std::is_same<System::String^, _To_Type>,
::std::disjunction<
::std::is_same<char*, _Decayed>,
::std::is_same<const char*, _Decayed>,
// Note: BSTR is actually a typedef for wchar_t*. As a result, BSTR will
// get accepted as a null terminated character type sequence here.
::std::is_same<wchar_t*, _Decayed>,
::std::is_same<const wchar_t*, _Decayed>
>
>::type{}, _from_object);
}
ref class context_node_base
{
public:
static const bool _Needs_Context= true;
};
template<class _To_Type, class _From_Type>
ref class context_node : public context_node_base
{
public:
static const bool _Needs_Context= false;
};
template<>
ref class context_node<const char*, System::String^> :
public context_node_base
{
private:
char* _ptr;
public:
context_node(_Outref_result_maybenull_ _Post_z_ const char*& _to_object, System::String^ _from_object)
{
_ptr = NULL;
if (_from_object == nullptr)
{
_to_object =nullptr;
return;
}
size_t _size = details::GetAnsiStringSize(_from_object);
details::char_buffer<char> _char_buf(_size);
if (_char_buf.get() == NULL)
{
throw gcnew System::InsufficientMemoryException();
}
details::WriteAnsiString(_char_buf.get(), _size, _from_object);
_ptr = _char_buf.release();
_to_object = _ptr;
}
~context_node()
{
this->!context_node();
}
protected:
!context_node()
{
delete [] _ptr;
}
};
template<>
ref class context_node<const wchar_t*, System::String^> :
public context_node_base
{
private:
System::IntPtr _ip;
public:
context_node(_Outref_ _Post_z_ const wchar_t*& _to_object, System::String^ _from_object)
{
_ip = System::Runtime::InteropServices::Marshal::StringToHGlobalUni (_from_object);
_to_object = static_cast<wchar_t*>(_ip.ToPointer());
}
~context_node()
{
this->!context_node();
}
protected:
!context_node()
{
if(_ip != System::IntPtr::Zero)
System::Runtime::InteropServices::Marshal::FreeHGlobal(_ip);
}
};
ref class marshal_context
{
internal:
//The list of objects that need to be cleaned up. Basically all those that have a destructor
System::Collections::Generic::LinkedList <Object^> _clean_up_list;
template<class _To_Type, class _From_Type, bool _Needs_Context>
ref class internal_marshaler;
template<class _To_Type, class _From_Type>
ref class internal_marshaler<_To_Type, _From_Type, true>
{
public:
// This is a supported context conversion.
// Convert and add it to the list of cleanup
static inline _To_Type marshal_as(const _From_Type& _from, System::Collections::Generic::LinkedList<Object^>% _clean_up_list)
{
typedef context_node<_To_Type, _From_Type> _cn;
_To_Type _to_object;
//Create a context node and assign marshalling result to the 'to' variable
_cn^ _obj = gcnew _cn(_to_object, _from);
_clean_up_list.AddLast(_obj);
return _to_object;
}
};
template<class _To_Type, class _From_Type>
ref class internal_marshaler<_To_Type, _From_Type, false>
{
public:
// This is not a supported context conversion.
// This may be a context-free conversion or an unsupported conversion.
// Both cases will be handled by the marshal_as object.
static inline _To_Type marshal_as(const _From_Type& _from, System::Collections::Generic::LinkedList<Object^>% _clean_up_list)
{
(void)_clean_up_list;
return ::msclr::interop::marshal_as<_To_Type, _From_Type>(_from);
}
};
public:
template<class _To_Type, class _From_Type>
inline _To_Type marshal_as(const _From_Type& _from)
{
using _Decayed = ::std::decay_t<_From_Type>;
using _From_adjusted =
::std::conditional_t<::std::is_same_v<_Decayed, const char*>
|| ::std::is_same_v<_Decayed, const wchar_t*>,
_Decayed, _From_Type>;
typedef context_node<_To_Type, _From_adjusted> _cn;
return internal_marshaler<_To_Type, _From_adjusted, _cn::_Needs_Context>::marshal_as(_from, _clean_up_list);
}
template<class _To_Type, class _From_Type>
inline _To_Type marshal_as(_From_Type^ _from)
{
typedef context_node<_To_Type, _From_Type^> _cn;
return internal_marshaler<_To_Type, _From_Type^, _cn::_Needs_Context>::marshal_as(_from, _clean_up_list);
}
template<class _To_Type>
inline _To_Type marshal_as(System::IntPtr _from)
{
return ::msclr::interop::marshal_as<_To_Type>(_from);
}
marshal_context() {}
~marshal_context()
{
for each(Object^ _obj in _clean_up_list)
delete _obj;
}
};
} //namespace interop
} //namespace msclr
#pragma warning(pop) // error:4996
#endif /* _INC_MSCLR_MARSHAL */