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From this question, I've seen a funny code which compile (although with warnings) and produce a segmentation fault (gcc 4.4.4; clang 2.8):

main;

If we expand it, here is the result:

int main = 0;

So what is the linker's behavior here?

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3 Answers 3

up vote 4 down vote accepted

The linker's behavior is that it defines a symbol called main in either the program's data or BSS segment. It is 4 bytes long and initialized to 0. Ordinarily, it creates a symbol in the program's code segment (typically called .text) with the executable code for the main function.

The C runtime starts up at a fixed entry point (typically called _start), initializes a bunch of stuff (e.g. sets up the program's arguments), and calls the main function. When main is executable code, this is all fine and dandy, but if it's instead 4 zero bytes, the program will transfer control to those zero bytes and try to execute them.

Typically, the data and BSS segments are marked as non-executable, so when you try to execute code there, the processor will raise an exception, which the OS will interpret and then terminate your program with a signal. If somehow the segment it's in is executable, then it will try to execute the machine instructions defined by 00 00 00 00. In x86 and x86-64, that's an illegal instruction, so you'd also get a SIGILL signal in POSIX OSes.

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So, rather than int main can I do a char main and expect the same result? –  noMAD Oct 11 '12 at 15:44
    
@noMAD: Yep, if you define main as any global object, the same result will happen, unless you just happen to be running an OS that has an executable data segment (unlikely) and you initialize it to data that becomes valid executable code on your CPU (e.g. char main = 0xC3 for a single RET instruction on x86). –  Adam Rosenfield Oct 11 '12 at 15:47
    
@noMAD I get the same result. –  trojanfoe Oct 11 '12 at 15:48

Under my system (CentOS 6.3), main is placed into the BSS and contains all 0's, hence the crash:

Program received signal SIGSEGV, Segmentation fault.
0x00000000006007f0 in main ()
(gdb) where
#0  0x00000000006007f0 in main ()
(gdb) l
"main" is not a function
(gdb) disass 0x6007f0
Dump of assembler code for function main:
=> 0x00000000006007f0 <+0>: add    %al,(%rax)
   0x00000000006007f2 <+2>: add    %al,(%rax)
End of assembler dump.
(gdb) info symbol &main
main in section .bss of /home/ajd/tmp/x
(gdb) x/16b 0x6007f0
0x6007f0 <main>:    0   0   0   0   0   0   0   0
0x6007f8:   0   0   0   0   0   0   0   0
(gdb) 
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The symbol main is expected to be a function, not an integer. However, the linker doesn't much care about the type of main; the symbol is defined. If the symbol main is not a function with one of the prescribed signatures, then you invoke undefined behaviour.

The start-up code then calls the 'function', which is actually an address in the data segment of the program. It goes wrong because the 'code' stored at that address is invalid — the first 4 bytes are likely to be zeros; what comes later is anyone's guess. The data segment may be marked non-executable, in which case trying to execute the data will trigger a crash on that account.

When you invoke undefined behaviour, anything can happen. A crash is quite sensible here.

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So, rather than int main can I do a char main and expect the same result? –  noMAD Oct 11 '12 at 15:46
    
To a first approximation, you'd get the same result regardless of the type of the variable mainchar, double, struct { a char[300]; }, ... –  Jonathan Leffler Oct 11 '12 at 15:48
    
Thanks for your answer. –  md5 Oct 11 '12 at 16:05

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