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I recently stumbled across an article that claims Microsoft is banning the memcpy() function in its secure programming shops. I understand the vulnerabilities inherent in the function, but is it necessary to ban its use entirely?

Should programs I write be avoiding memcpy() entirely, or just ensuring that it's used safely? What alternatives exist that provide similar but safer functionalilty?

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9 Answers 9

up vote 21 down vote accepted

Microsoft provides alternatives to memcpy and wmemcpy that validate their parameters.

memcpy_s says, "Hmm, before I read from this address, let me verify for myself that it is not a null pointer; and before I write to this address, I shall perform that test again. I shall also compare the number of bytes I have been requested to copy to the claimed size of the destination; if and only if the call passes all these tests shall I perform the copy."

memcpy says "Stuff the destination into a register, stuff the source into a register, stuff the count into a register, perform MOVSB or MOVSW." (Example on geocities, not long for this world: http://www.geocities.com/siliconvalley/park/3230/x86asm/asml1013.html)

Edit: For an example in the wild of the Your Wish Is My Command approach to memcpy, consider OpenSolaris, where memcpy is (for some configurations) defined in terms of bcopy, and bcopy (for some configurations) is ...

     33 bcopy(from, to, count)
     34 #ifdef vax
     35     unsigned char *from, *to;
     36     int count;
     37 {
     39     asm("	movc3	12(ap),*4(ap),*8(ap)");
     40 }
     41 #else
     42 #ifdef u3b  	/* movblkb only works with register args */
     43     unsigned char *from, *to;
     44     int count;
     45 {
     46     asm("	movblkb	%r6, %r8, %r7");
     47 }
     48 #else
     49     unsigned char *from, *to;
     50     int count;
     51 {
     52     while ((count--) > 0)
     53     	*to++ = *from++;
     54 }
     55 #endif
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+1 for bringing old fashioned x86 assembly into this –  Alex Gartrell May 15 '09 at 18:12
Let's not forget that any good memcpy implementation takes memory alignment into count. –  TrayMan May 15 '09 at 18:45
I guess movsb, movsw is not the fastest way to do memcpy anymore. I think (not tested) the fastest way will be to take memory alignment in consideration (as pointed out) and use SSE instructions to copy data around. I believe this is the way OS X gcc does it. –  Mehrdad Afshari May 15 '09 at 19:46
Liked your explanation in term of x86 asm :). –  mahesh May 16 '09 at 15:12
@Mehrdad, my research on memcpy in glibc dead-ends with the source calling __vm_copy. vm_copy is not part of glibc, and I cannot find the source for vm_copy. Do you have a link, by any chance? –  Thomas L Holaday May 16 '09 at 16:38

A chainsaw, if used properly, is safe. Same thing with memcpy(). But in both cases, if you hit a nail, it can fly and hurt you.

In short, memcpy() is required for low-level computing and won't go away, but for high-level programming you don't need it. There is no memcpy() in Python.

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Keeping in mind that this doesn't necessarily make Python better. I love Python but sometimes I just want a struct, or to cast a pointer. The same applies the other direction. –  Matt Joiner Aug 26 '10 at 7:32
If I have the choice, I rather do, in C, *struct1 = struct2; instead of memcpy(struct1,&struct2, sizeof(struct1)); –  0x6adb015 Aug 16 '12 at 13:31
Python is completely off topic in a comparison between memcpy() and memcpy_s() –  MarcH Dec 17 '13 at 23:33
@0x6adb015 Yes, obviously, this is a no-brainer. memcpy is very useful when dealing with data that need not be aligned (for instance, generic buffer input to a library function) and which cannot reasonably be expected to be aligned (various alignment requirements depending on backend implementation, etc...). Then the only safe, compliant, and portable way to work on such data is to memcpy it to a known-aligned variable (e.g. stack-allocated) + endianness handling. x86 hides the issue by fixing unaligned memory accesses in hardware, but there is a lot of UB potential there. –  Thomas Jul 17 '14 at 4:35

The article itself describes a safer alternative: memcpy_s, which requires you to specify the maximum length of the target. When that number is provided independent of the amount of bytes to copy, it acts as a barrier to prevent buffer overflow. Of course, you can abuse that by giving the same number to both.

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It's important to know using MS provided secure functions will harm cross-platform compatibility. –  Mehrdad Afshari May 15 '09 at 18:00
Are there equivalents to memcpy_s and wmemcpy_s that are cross-platform compatible? –  Tim May 15 '09 at 18:17
It's trivial to roll your own. There's even a link in the article. What I wonder, is why don't they ban memcpy entirely in favour of memmove_s? –  TrayMan May 15 '09 at 18:51
The portable alternative is called memcpy(dest, src, MIN(destsize,count)). However I don't see how this is at all useful. MS is just on crack. –  R.. Aug 1 '10 at 12:41
@R..: Agreed. It's just another parameter to get right. If it's wrong you're back where you started. –  Matt Joiner Aug 26 '10 at 7:33

Don't bother. Microsofts alternatives are not that much better. The main value is that these cause your code to become unportable to Linux. Microsoft is making much more money on the OS they sell to your customers than they're making on the copy of Visual C++ you bought.

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you can still choose to use memcpy –  Dustin Getz Oct 15 '09 at 12:22
Indeed. The question was "should I avoid memcpy" and my answer is "No, don't bother" –  MSalters Oct 15 '09 at 12:25

I think that C should leave an option to the programmer to shoot his own foot. manual memory management is safe if done properly.

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using memcopy_s instead of memcopy IS doing it properly. skipping sanity tests in memcpy is a premature optimization. –  Dustin Getz Oct 15 '09 at 12:19
If you're using C++, just be sure not to blow your whole leg off with this one. ;) –  Mateen Ulhaq Apr 9 '11 at 1:48

Is banning memcpy() in my code making me a better programmer and my application safer or just more incompatible? I'm uncertain, if MS really wants to change anything or just make any new C code incompatible with other compilers. Btw. MS does this trick on many functions and it's quite annoying. strcpy -> strcpy_s -> StringCchCopy.

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They haven't banned it; they have introduced a warning that its potentially insecure. If they have in turn heeded there warning and banned it internally then perhaps thats a good thing for the platform? This isn't a compiler portability issue, its a library portability issue. If you choose to use a non-standard library function then you choose to break portability. –  hplbsh Oct 15 '09 at 11:54

You said it yourself: "Microsoft is banning the memcpy() function in its secure programming shops, I understand the vulnerabilities inherent in the function,"

memcpy() and a plethora of other standard functions are known to cause vulnerabilities, so why would a secure programming shop allow their use when an (albeit incremental) improvement is trivial?

No doubt in their efforts to improve the security of their own products, the code reviews clearly indicated that these functions were responsible for a significant proportion of vulnerabilities, buffer overflows etc. Rather than make wrappers for internal use only they introduced them into the standard library and added a compiler warning (not a ban) for the benefit of all.

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Because it doesn't really solve the problem, the parameter is poor. A function using some compiler builtin which auto looked up the destination size, would be far less error prone eg) negative number becomes a huge sized unsigned size_t. Rushing a half baked so called solution, which introduces other opportunities for programming errors and claiming security isn't a real solution. There's other attempts at this eg) OpenBSD strlcpy and strlcat, which are rejected for similar reasons. –  Rob11311 Jun 28 '14 at 13:21

The alternative is to call memcpy_s

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You are supposed to use memcpy_s() instead. The same kind of _s versions exist for a variety of other functions considered as unsecure.

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