22

Is using an uninitialized variable as the src for memcpy undefined behaviour in C?

void foo(int *to)
{
  int from;
  memcpy(to, &from, sizeof(from));
}
5
  • 1
    The behaviour is not undefined. Note, however, that the compiler may remove the memcpy altogether, since the value of *to at the end of the function is undefined anyway.
    – Quentin
    Oct 28 '15 at 14:36
  • I assume that using *to later is undefined behaviour, just like using from directly, but this question is about the memcpy itself. I think *to = from would be undefined behaviour, even though the value is not "really" used. Oct 28 '15 at 14:48
  • Related question, for C++: stackoverflow.com/q/32997185/103167
    – Ben Voigt
    Oct 28 '15 at 20:03
  • 2
    @Quentin that doesn't make any sense. There is no such thing as "undefined values".
    – M.M
    Oct 28 '15 at 21:32
  • @Quentin So you are saying that the post condition of copying bytes is NOT that the copy is equal to the original, right?
    – curiousguy
    Jul 16 '18 at 14:12
15

The C committee proposed response to defect report 451: instability of uninitialized automatic variables is:

The answer to question 3 is that library functions will exhibit undefined behavior when used on indeterminate values.

The question in the defect had sought an exemption for memcpy and fwrite if this was indeed the case saying:

[...] The fact that one wants to be able to copy uninitialized padding bytes in structs using memcpy without undefined behavior is the reason that using the value of an uninitialized object is not undefined behavior. This seems to suggest that an fwrite of a struct with uninitialized padding bytes should not exhibit undefined behavior.

This part of the propose response seems to be aimed at that concern over uninitialized padding:

The committee also notes that padding bytes within structures are possibly a distinct form of "wobbly" representation.

We can see form defect report 338: C99 seems to exclude indeterminate value from being an uninitialized register this is somewhat of a change from past expectations. It says amongst other things:

[...] I believe the intent of excluding type unsigned char from having trap representations was to allow it to be used to copy (via memcpy) arbitrary memory, in the case that memory might contain trap representations for some types.[...]

The blog post Reading indeterminate contents might as well be undefined covers the evolution of reading indeterminate values in C well and make some more sense of the changes I mention above.

It is worth noting this differs from C++ where reading an indeterminate value from a narrow unsigned char is not undefined behavior and defect report 240 notes this difference:

The C committee is dealing with a similar issue in their DR338. According to this analysis, they plan to take almost the opposite approach to the one described above by augmenting the description of their version of the lvalue-to-rvalue conversion. The CWG did not consider that access to an unsigned char might still trap if it is allocated in a register and needs to reevaluate the proposed resolution in that light. See also issue 129.

20
  • 2
    I think this is the best answer so far, but ultimately the committee never really answers whether having memcpy read from an uninitialized variable is undefined behaviour by itself. Oct 28 '15 at 16:01
  • 1
    @TorKlingberg no it does not directly address that, although since the main concern with memcpy is padding and there is a bullet that covers that concern it does address it indirectly. Oct 28 '15 at 16:52
  • 1
    IMHO the C11 description of indeterminate values should be viewed as a bugfix for what was poorly or badly specified in earlier revisions (although the Itanium exception is a new addition).
    – M.M
    Oct 30 '15 at 3:24
  • @M.M it is kind of funny since you are quoting the same article in your answer. Oct 30 '15 at 3:29
  • 1
    @M.M multiplying an unspecified value by 2 and taking the result modulo 2^32 produces an even result. Only undefined behavior explains an odd value appearing as result of that computation. What you describe as “j *= 2 leaves the indeterminate value indeterminate” is not how “indeterminate” is described to work in the published standards, although it is how a proposed separate notion of “wobbly values” would work. Oct 30 '15 at 15:28
5

This is defined behaviour with respect to the action of copying, except if int has a trap representation in your system. Memory was allocated on the stack when int from was defined. The contents of this int is whatever happened to be on that location in the stack at that moment. Therefore the end result, the value of the int that is being copied to to is not defined (indeterminate).

Other answers have quotes from the C standard that undefined behaviour occurs when the value of an uninitialised variable is "used". Which obviously doesn't apply if you don't use the value. There is another mention in the C11 standard undefined behaviour while copying/assigning uninitialised variables :

6.3.2.1p2

If the lvalue designates an object of automatic storage duration that could have been declared with the register storage class (never had its address taken), and that object is uninitialized (not declared with an initializer and no assignment to it has been performed prior to use), the behavior is undefined.

This also doesn't affect your code because the address of from is taken when you call memcpy

Another relevant part of the C11 standard is 6.2.6.1

Certain object representations need not represent a value of the object type. If the stored value of an object has such a representation and is read by an lvalue expression that does not have character type, the behavior is undefined. If such a representation is produced by a side effect that modifies all or any part of the object by an lvalue expression that does not have character type, the behavior is undefined) Such a representation is called a trap representation.

Some very old processors could have a trap representation for an int either software-visible parity bits or "negative zero" in non-twos-complement architectures. x86 processors for example don't have trap representations for int.

9
  • I understand that the value in *to will be unspecified or uninitialised, but assuming *to is never actually used, is this code valid? Oct 28 '15 at 14:49
  • Yes the code is valid. Once you declare int from you can legally copy the (random) value in contains. Oct 28 '15 at 14:54
  • 2
    Please provide a source for that statement. An ideal how C should behave isn't sufficient. In particular, does copying the same uninitialized variable twice result in the same value twice? After all, if it's truly "random data" being copied, it might copy a random bit of the stack, the same stack which memcpy probably uses.
    – MSalters
    Oct 28 '15 at 18:33
  • @MSalters Copying the same initialized variable twice is not guaranteed to copy the same value twice. While this variable is being copied another thread may be writing to it. I am perfectly clear in my answer that there are no guarantees regarding the value of the variable being copied. I don't understand your objection is to that. I will add a quote from the standard that wasn't mentioned in the other answers. Oct 28 '15 at 20:43
  • "The contents of this int is whatever happened to be on that location in the stack at that moment. " - this is an implementation detail. In general there might not be a stack (I have used one implementation that did not have a stack). In Standard C the int has indeterminate value; not some particular value that happened to be somewhere.
    – M.M
    Oct 28 '15 at 21:35
3

( Earlier -Didn't notice address of from is passed) . No , that won't cause undefined behaviour , just that from has indeterminate value. As far as you don't intend to use the value of uninitialized variable , program will have a well defined behaviour.

(As allocating space and not initializing variables is not UB .)

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