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A while back I tried to use Visual Studio 2010 to compile an MFC program that used a library I had written in Visual Studio 2003. Not surprisingly, I got a bunch of warnings about deprecation and using the secure versions of various string functions.

I then updated the relevant functions in the library to use the secure functions and it compiled fine.

I later tried to compile it again on the other system with Visual Studio 2003 and got nagged about the secure functions not existing.


I decided to create a hybrid approach that would allow me to compile programs that use the library in either environment, making use of the secure functions if available, and if not, aliasing them to the old ones.

At first I considered checking each function to see if a secure version exists, but that won’t work and requires separate work for each and every function:

#ifndef strcpy_s
    #define strcpy_s(a,b,c) strcpy(a,c)
#endif

#ifndef strcat_s
    #define strcat_s(a,b,c) strcat(a,c)
#endif

…

So what I’m trying to figure out is a way to determine if the secure functions exist. I know that they were introduced in Visual Studio 2005, but is there a #define or something that can be used as follows?

#ifndef SECURE_FUNCTIONS  // or #ifdef VS_VER_2005, #if (VS_VER >= 0x2005) etc.
    #define strcpy_s(a,b,c) strcpy(a,c)
    #define strcat_s(a,b,c) strcat(a,c)
    …
#endif

I checked crtdefs.h but found nothing useful.

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1 Answer 1

up vote 0 down vote accepted

I found a solution; the _MSC_VER macro/define makes this simple. Since the secure string functions were added in Visual Studio 2005 (VC++ version 1400, then it is sufficient to do something like this:

#if _MSC_VER < 1400
    #define  _itoa_s(a,b,c)             _itoa(a,b,c)
    #define  wcscpy_s(a,b,c)            wcscpy(a,c)
    #define  _tprintf_s                 _tprintf
    #define  _sntprintf_s(a,b,c,d,...)  _sntprintf(a,c,d,...)
    …
#endif

Now when the code is compiled under VS2005+, it will have the added security, and when compiled on VS2003-, it will still compile without modification, albeit without the extra security.

This makes porting and updating easier because you can update the library functions and use the secure string functions in the code even if you can’t compile them with VS2005+ just yet. This way when you do upgrade the compiler, you won’t have to make any changes to the library or the code to reap the benefits. It also makes it easier to work on the same code-base on older and newer versions of Visual Studio concurrently (at least to some degree).

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