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In the Linux kernel code I found the following thing which I can not understand.

 struct bts_action {
         u16 type;
         u16 size;
         u8 data[0];
 } __attribute__ ((packed));

The code is here: http://lxr.free-electrons.com/source/include/linux/ti_wilink_st.h

What's the need and purpose of an array of data with zero elements?

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That's more quite relevant and covers this too. If you are looking for exact duplicate then this, this. If you seatch "Flexible array member, you can find many more. –  Blue Moon Feb 1 '13 at 10:15
@KingsIndian, indeed, it's quite important to notice the difference between the question you mentioned (having s[1] in the end) and the standard way (s[] in the end). The previous is indeed a "struct hack", because it declares to the compiler that s has size 1, while in reality has a different size. The standard way however explicitly tells the compiler that this will be a flexible array. –  Shahbaz Feb 1 '13 at 10:45
I'm not sure if there should be either a zero-length-arrays or struct-hack tag ... –  hippietrail Feb 1 '13 at 11:42
Vote to reopen. I agree that this was not a duplicate, because none of the other posts addresses the combination of a non-standard "struct hack" with zero length and the well-defined C99 feature flexible array member. I also think it is always of benefit for the C programming community to shed some light on any obscure code from the Linux kernel. Mainly since many people have the impression that the Linux kernel is some sort of state of the art C code, for reasons unknown. While in reality it is a terrible mess flooded with non-standard exploits that never should be regarded as some C canon. –  Lundin Feb 1 '13 at 13:01
Not a duplicate - isn't the first time I've seen someone close a question unnecessarily. Also I think this question adds to the SO Knowledge base. –  Aniket Feb 1 '13 at 13:15

4 Answers 4

up vote 102 down vote accepted

This is a way to have variable sizes of data, without having to call malloc (kmalloc in this case) twice. You would use it like this:

struct bts_action *var = kmalloc(sizeof(*var) + extra, GFP_KERNEL);

This used to be not standard and was considered a hack (as Aniket said), but it was standardized in C99. The standard format for it now is:

struct bts_action {
     u16 type;
     u16 size;
     u8 data[];
} __attribute__ ((packed)); /* Note: the __attribute__ is irrelevant here */

Note that you don't mention any size for the data field. Note also that this special variable can only come at the end of the struct.

In C99, this matter is explained in (emphasis mine):

As a special case, the last element of a structure with more than one named member may have an incomplete array type; this is called a flexible array member. In most situations, the flexible array member is ignored. In particular, the size of the structure is as if the flexible array member were omitted except that it may have more trailing padding than the omission would imply. However, when a . (or ->) operator has a left operand that is (a pointer to) a structure with a flexible array member and the right operand names that member, it behaves as if that member were replaced with the longest array (with the same element type) that would not make the structure larger than the object being accessed; the offset of the array shall remain that of the flexible array member, even if this would differ from that of the replacement array. If this array would have no elements, it behaves as if it had one element but the behavior is undefined if any attempt is made to access that element or to generate a pointer one past it.

Or in other words, if you have:

struct something
    /* other variables */
    char data[];

struct something *var = malloc(sizeof(*var) + extra);

You can access var->data with indices in [0, extra). Note that sizeof(struct something) will only give the size accounting for the other variables, i.e. gives data a size of 0.

It may be interesting also to note how the standard actually gives examples of mallocing such a construct (

struct s { int n; double d[]; };

int m = /* some value */;
struct s *p = malloc(sizeof (struct s) + sizeof (double [m]));

Another interesting note by the standard in the same location is (emphasis mine):

assuming that the call to malloc succeeds, the object pointed to by p behaves, for most purposes, as if p had been declared as:

struct { int n; double d[m]; } *p;

(there are circumstances in which this equivalence is broken; in particular, the offsets of member d might not be the same).

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+1 for the note on C99. –  Florian Brucker Feb 1 '13 at 9:58
Great answer! +1 for text from C99! –  Tomislav Dyulgerov Feb 1 '13 at 9:59

This is a hack actually, for GCC (C90) in fact.

It's also called a struct hack.

So the next time, I would say:

struct bts_action *bts = malloc(sizeof(struct bts_action) + sizeof(char)*100);

It will be equivalent to saying:

struct bts_action{
    u16 type;
    u16 size;
    u8 data[100];

And I can create any number of such struct objects.

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The idea is to allow for a variable-sized array at the end of the struct. Presumably, bts_action is some data packet with a fixed-size header (the type and size fields), and variable-size data member. By declaring it as a 0-length array, it can be indexed just as any other array. You'd then allocate a bts_action struct, of say 1024-byte data size, like so:

size_t size = 1024;
struct bts_action* action = (struct bts_action*)malloc(sizeof(struct bts_action) + size);

See also: http://c2.com/cgi/wiki?StructHack

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never cast malloc return.. –  Aniket Feb 1 '13 at 14:35
@Aniket: I'm not entirely sure from whence comes that idea. –  sheu Feb 1 '13 at 17:57
in C++ yes, in C, not needed. –  amc Feb 8 '13 at 2:15
@sheu, it comes from the fact that your style of writing malloc makes you repeat yourself multiple times and if ever the type of action changes, you have to fix it multiple times. Compare the following two for yourself and you will know: struct some_thing *variable = (struct some_thing *)malloc(10 * sizeof(struct some_thing)); vs. struct some_thing *variable = malloc(10 * sizeof(*variable)); The second one is shorter, cleaner and clearly easier to change. –  Shahbaz Feb 12 '13 at 13:05

The code is not valid C (see this). The Linux kernel is, for obvious reasons, not in the slightest concerned with portability, so it uses plenty of non-standard code.

What they are doing is a GCC non-standard extention with array size 0. A standard compliant program would have written u8 data[]; and it would have meant the very same thing. The authors of the Linux kernel apparently love to make things needlessly complicated and non-standard, if an option to do so reveals itself.

In older C standards, ending a struct with an empty array was known as "the struct hack". Others have already explained its purpose in other answers. The struct hack, in the C90 standard, was undefined behavior and could cause crashes, mainly since a C compiler is free to add any number of padding bytes at the end of the struct. Such padding bytes may collide with the data you tried to "hack" in at the end of the struct.

GCC early on made a non-standard extension to change this from undefined to well-defined behavior. The C99 standard then adapted this concept and any modern C program can therefore use this feature without risk. It is known as flexible array member in C99/C11.

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I doubt that "the linux kernel is not concerned with portability". Perhaps you meant portability to other compilers? It's true that it is quite entwined with features of gcc. –  Shahbaz Feb 1 '13 at 14:50
Nevertheless, I think this particular piece of code is not a mainstream code and is probably left out because its author didn't pay much attention to it. The license says its about some texas instruments drivers, so it's unlikely the core programmers of the kernel paid any attention to it. I'm pretty sure the kernel developers are constantly updating old code according to new standards or new optimizations. It's just too big to make sure everything is updated! –  Shahbaz Feb 1 '13 at 14:51
@Shahbaz With the "obvious" part, I meant portability to other operative systems, which naturally wouldn't make any sense. But they don't seem to give a damn about portability to other compilers either, they have used so many GCC extensions that Linux will not likely ever get ported to another compiler. –  Lundin Feb 1 '13 at 14:58
@Shahbaz As for the case of anything labelled Texas Instruments, TI themselves are notorious for producing the most useless, crappy, naive C code ever seen, in their app notes for various TI chips. If the code originates from TI, then all bets regarding the chance of interpreting something useful from it are off. –  Lundin Feb 1 '13 at 15:02
It's true that linux and gcc are inseparable. The Linux kernel is also quite hard to understand (mostly because an OS is complicated anyway). My point though, was that it's not nice to say "The authors of the Linux kernel apparently love to make things needlessly complicated and non-standard, if an option to do so reveals itself" due to a third-party-ish bad coding practice. –  Shahbaz Feb 1 '13 at 15:31

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