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Is there any alternative to non-ISO gcc specific extension __attribute__ on 64-bit kernels ?

Three types that i've noticed are: function attributes, type attributes and variable attributes.

eg. i'd like to avoid using __attribute__((__packed__)) for structures passed over the network, even though some gcc based code do use it.

Any suggestions or pointers on how to entirely avoid __attribute__ usage in C systems/kernel code ?

thanks Saifi.

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Why would you want to do this? attribute((packed)) was put in the networking code for very good reasons... –  Sam Post Apr 2 '10 at 13:40
    
Hello Sam: i'd likely to entirely avoid gcc'isms in the code ! Got any suggestions ? thanks Saifi. –  user307693 Apr 2 '10 at 14:12
    
Right, I get that... what compilers, platforms, and hardware are you wanting to support? –  Sam Post Apr 2 '10 at 14:13
    
exclusively AMD64 K-10 line, clean 64-bit C code (no 32-bit backward compatibility) and modified BSD kernel. –  user307693 Apr 2 '10 at 14:25
    
There are many attribute directives supported by GCC are you really asking for a work-around for every one? It would be fairer to ask only for those you are likely to use. The one you specifically mentioned is avoided by data serialization. The overhead may be prohibitive for some kernel level code. –  Clifford Apr 2 '10 at 21:26
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2 Answers

Any suggestions or pointers on how to entirely avoid attribute usage in C systems/kernel code?

You can build your network packets piece by piece, copying each data element into the correct place in a char* buffer.

Pros: you don't have any alignment issues and it's generally portable, especially if you use the exact-width integer types from <stdint.h>

Cons: it's tedious and potentially error-prone

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Hi James: Thanks for your reply. i'd like to avoid all the gcc - Function, Variable and Type attributes. Please see gcc.gnu.org/onlinedocs/gcc-4.0.0/gcc/Function-Attributes.html gcc.gnu.org/onlinedocs/gcc-4.0.0/gcc/Variable-Attributes.html gcc.gnu.org/onlinedocs/gcc-4.0.0/gcc/Type-Attributes.html eg. attribute ((transparent_union)); i'm sure that all these gcc extensions are not portable across the various C compilers and what is thrown in an convenience later comes to haunt as 'vendor-lockin'. My focus is ISO conforming C system/kernel code. –  user307693 Apr 2 '10 at 14:22
    
@Saifi: If you don't want to use implementation-specific structure packing attributes, then you need to do what I describe in my answer or some variation thereof: copy each struct member into the correct place in a character buffer. –  James McNellis Apr 2 '10 at 14:38
    
@Safi: the "vendor lock-in" isn't a big problem if you're careful. All serious compilers will provide some means of getting the layout you want, it's just not standard. So the worst case usually is that you have to re-define all your structs for the new compiler. A big stack of asserts in your test suite based on sizeof and offsetof will ensure that you catch any problems before they bite. Call it "easily-portable" code, as opposed to true portable code. –  Steve Jessop Apr 2 '10 at 17:15
    
@Steve Jessop: Thank you for your reply. i prefer 'simplicity' to 'convenience' ! –  user307693 Apr 5 '10 at 1:33
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I'm assuming based on your comments that its your code you want to change, not the whole Linux kernel (etc).

Not sure about function attributes etc but specifically for attribute packed, I have done the following with no issues so far.

Basically instead of relying on the compiler to pack, you could use manual pad fields coupled with compile-time asserts.

struct foo {
   u32 field1;
   u16 field2;
   u16 pad; // manual padding
   // continue for other fields that the compiler would automatically pad for you with attribute packed
   u32 field3;
};

To check your structure you can use a compile time assert, something like this:

#define CASSERT(cond, name) typedef cassert__##name[cond ? 1 : -1]

CASSERT(offsetof(foo, field1) == 0, field1_wrong);
CASSERT(offsetof(foo, field2) == 4, field2_wrong);

When your assertions are wrong, the build will fail with a helpful error and line number

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