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I am new to the Linux kernel. I am reading the file ioctl.h, there I encountered a macro _IOC_TYPECHECK(t), which looks like this:

#define _IOC_TYPECHECK(t) \
        ((sizeof(t) == sizeof(t[1]) && \
          sizeof(t) < (1 << _IOC_SIZEBITS)) ? \
          sizeof(t) : __invalid_size_argument_for_IOC)

Can you explain me this code? In this code, what does sizeof(t[1]) mean?

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2 Answers 2

up vote 6 down vote accepted

This is used to check the validity of the third parameter to the _IOR/_IOW/_IOWR macros, which is supposed to be a type. It checks that the parameter is actually a type (and not a variable or a number), and causes a compiler or linker error otherwise.

  • If t is a type, then t[1] is the type "an array of 1 t". This type has the same size as t, and therefore sizeof(t) == sizeof(t[1]) is true.

  • If t is a number, sizeof(t) will fail to compile.

  • If t is a simple (non-array) variable, then t[1] will cause a compiler error.

  • If t is an array variable, sizeof(t) == sizeof(t[1]) will be false, and a linker error will be caused (because __invalid_size_argument_for_IOC is not defined).

The expression sizeof(t) < (1 << _IOC_SIZEBITS) checks that the size of the type t does not exceed the maximum allowed for ioctl, and causes the same linker error otherwise.

There are still some invalid cases which will not be caught by this macro - for example, when t is a pointer to a pointer.

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"If t is an array variable, sizeof(t) == sizeof(t[1]) will be false" is that really always true? –  Andreas Grapentin Feb 18 '13 at 11:04
@AndreasGrapentin: Not for an array of one element, but then you might get a compiler warning for indexing the array out of bounds. –  interjay Feb 18 '13 at 11:46

It means the same as all other uses of sizeof. It computes the size of the expression.

In this particular case, I suspect that the check is intended to ensure some property of t (which should be a type name, not a variable) which I don't know from the context ... Perhaps that it's possible to treat it as a pointer (needed for the array indexing) which would rule out some types. The comment next to the macro says /* provoke compile error for invalid uses of size argument */ which seems to support this theory.

Note that sizeof is an operator, not a function. The parenthesis are not needed, except when you want to compute the size of a type directly, and then they're part of the expression (it's a cast expression). So this could be written sizeof t == sizeof t[1] && ..., or maybe (sizeof t == sizeof t[1]) for clarity.

This is a very good style to use, since it "locks" the size being computed to the proper array, instead of repeating the type of t. So, if the type were to change, the expression would automatically adapt and still compute the right thing.

Many C programmers seem to prefer having parenthesis around the argument to sizeof in all cases, for some reason.

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t here is supposed to be a type, not a variable. It's the third parameter to the _IOR/_IOW/_IOWR macros. –  interjay Feb 18 '13 at 10:41
I Did Not Know that sizeof's params were optional except for a type; or that they're technically a cast in that case. +1 just for that! –  Chowlett Feb 18 '13 at 10:44
"and then they're part of the expression". I'm not sure I understand what you mean here. A type identifier (like int) doesn't need to have parentheses and isn't an expression but the parentheses are required in sizeof(int) because that's the grammar rules... or were you getting at something different? Also, this isn't a cast either. –  Charles Bailey Feb 18 '13 at 10:46
@unwind There are two grammar rules for unary expressions in C involving sizeof: "sizeof unary-expression" and "sizeof ( type-name )". (int) isn't a cast expression (it isn't an expression at all), it's just a type-name in parentheses such as you might put after the sizeof token. –  Charles Bailey Feb 18 '13 at 11:07
Since t is a type, the second half of your answer about omitting the parentheses is incorrect (the parentheses must be used here). And the first half is basically "I don't know". –  interjay Feb 18 '13 at 11:54

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