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I am learning how a C file is compiled to machine code. I know I can generate assembly from gcc with the -S flag, however it also produces a lot of code to do with main() and printf() that I am not interested in at the moment.

Is there a way to get gcc or clang to "compile" a function in isolation and output the assembly?

I.e. get the assembly for the following c in isolation:

int add( int a, int b ) {
    return a + b;
}
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Some IDEs will let you set a breakpoint and view the assembly code generated by that function. It's called the disassembly window. That should do what you're looking for - are you using an IDE? – Aaron Apr 30 '13 at 14:09
    
I prefer to compile (with optimizations) then disassemble, you have to understand that the compiler will leave a few instructions incomplete for external addresses and such, but it is easier to read IMO than using -S. gcc -O2 -c hello.c -o hello.o, objdump -D hello.o – dwelch Apr 30 '13 at 17:12
2  
Go here: gcc.godbolt.org paste the function, select the compiler, very useful. – harold Apr 30 '13 at 17:41
up vote 3 down vote accepted

There are two ways to do this for a specific object file:

  1. The -ffunction-sections option to gcc instructs it to create a separate ELF section for each function in the sourcefile being compiled.
  2. The symbol table contains section name, start address and size of a given function; that can be fed into objdump via the --start-address/--stop-address arguments.

The first example:

$ readelf -S t.o | grep ' .text.'
  [ 1] .text             PROGBITS         0000000000000000  00000040
  [ 4] .text.foo         PROGBITS         0000000000000000  00000040
  [ 6] .text.bar         PROGBITS         0000000000000000  00000060
  [ 9] .text.foo2        PROGBITS         0000000000000000  000000c0
  [11] .text.munch       PROGBITS         0000000000000000  00000110
  [14] .text.startup.mai PROGBITS         0000000000000000  00000180

This has been compiled with -ffunction-sections and there are four functions, foo(), bar(), foo2() and munch() in my object file. I can disassemble them separately like so:

$ objdump -w -d --section=.text.foo t.o

t.o:     file format elf64-x86-64

Disassembly of section .text.foo:

0000000000000000 <foo>:
   0:   48 83 ec 08             sub    $0x8,%rsp
   4:   8b 3d 00 00 00 00       mov    0(%rip),%edi        # a <foo+0xa>
   a:   31 f6                   xor    %esi,%esi
   c:   31 c0                   xor    %eax,%eax
   e:   e8 00 00 00 00          callq  13 <foo+0x13>
  13:   85 c0                   test   %eax,%eax
  15:   75 01                   jne    18 <foo+0x18>
  17:   90                      nop
  18:   48 83 c4 08             add    $0x8,%rsp
  1c:   c3                      retq

The other option can be used like this (nm dumps symbol table entries):

$ nm -f sysv t.o | grep bar
bar       |0000000000000020|   T  |    FUNC|0000000000000026|     |.text
$ objdump -w -d --start-address=0x20 --stop-address=0x46 t.o --section=.text

t.o:     file format elf64-x86-64

Disassembly of section .text:

0000000000000020 <bar>:
  20:   48 83 ec 08             sub    $0x8,%rsp
  24:   8b 3d 00 00 00 00       mov    0(%rip),%edi        # 2a <bar+0xa>
  2a:   31 f6                   xor    %esi,%esi
  2c:   31 c0                   xor    %eax,%eax
  2e:   e8 00 00 00 00          callq  33 <bar+0x13>
  33:   85 c0                   test   %eax,%eax
  35:   75 01                   jne    38 <bar+0x18>
  37:   90                      nop
  38:   bf 3f 00 00 00          mov    $0x3f,%edi
  3d:   48 83 c4 08             add    $0x8,%rsp
  41:   e9 00 00 00 00          jmpq   46 <bar+0x26>

In this case, the -ffunction-sections option hasn't been used, hence the start offset of the function isn't zero and it's not in its separate section (but in .text).

Beware though when disassembling object files ...

This isn't exactly what you want, because, for object files, the call targets (as well as addresses of global variables) aren't resolved - you can't see here that foo calls printf, because the resolution of that on binary level happens only at link time. The assembly source would have the call printf in there though. The information that this callq is actually to printf is in the object file, but separate from the code (it's in the so-called relocation section that lists locations in the object file to be 'patched' by the linker); the disassembler can't resolve this.

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I see, just fyi for anyone else, you can use "gcc -ffunction-sections -c test.c" to compile a source file to an object file. Thanks~ – yuumei May 1 '13 at 9:08

The best way to go would be to copy your function in a single temp.c C file and to compile it with the -c flag like this: gcc -c -S temp.c -o temp.s

It should produce a more tighten assembly code with no other distraction (except for the header and footer).

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