I have spent the past few days experimenting with assembly, and now understand the relationship between assembly and machine code (using x86 via NASM on OSX, reading the Intel docs).
Now I am trying to understand the details of how the linker works, and specifically want to understand the structure of Mach-O object files, starting with the Mach-O headers.
My question is, can you map out how the Mach-O headers below map to the otool
command output (which displays the headers, but they are in a different format)?
Some reasons for this question include:
- It will help me see how the documents on the "structure of Mach-O headers" look in real-world object files.
- It will simplify the path to understanding, so myself and other newcomers don't have to spend many hours or days wondering "do they mean this, or this" type thing. It's hard without previous experience to mentally translate the general Mach-O documentation into an actual object file in the real world.
Below I show the example and process I went through to try to decode the Mach-O header from a real object file. Throughout the descriptions below, I try to show hints of all the little/subtle questions that arise. Hopefully this will provide a sense of how this can be very confusing to a newcomer.
Example
Starting with a basic C file called example.c
:
#include <stdio.h>
int
main() {
printf("hello world");
return 0;
}
Compile it with gcc example.c -o example.out
, which gives:
cffa edfe 0700 0001 0300 0080 0200 0000
1000 0000 1005 0000 8500 2000 0000 0000
1900 0000 4800 0000 5f5f 5041 4745 5a45
524f 0000 0000 0000 0000 0000 0000 0000
0000 0000 0100 0000 0000 0000 0000 0000
0000 0000 0000 0000 0000 0000 0000 0000
0000 0000 0000 0000 1900 0000 2802 0000
5f5f 5445 5854 0000 0000 0000 0000 0000
0000 0000 0100 0000 0010 0000 0000 0000
0000 0000 0000 0000 0010 0000 0000 0000
0700 0000 0500 0000 0600 0000 0000 0000
5f5f 7465 7874 0000 0000 0000 0000 0000
5f5f 5445 5854 0000 0000 0000 0000 0000
400f 0000 0100 0000 2d00 0000 0000 0000
400f 0000 0400 0000 0000 0000 0000 0000
0004 0080 0000 0000 0000 0000 0000 0000
5f5f 7374 7562 7300 0000 0000 0000 0000
5f5f 5445 5854 0000 0000 0000 0000 0000
6e0f 0000 0100 0000 0600 0000 0000 0000
6e0f 0000 0100 0000 0000 0000 0000 0000
0804 0080 0000 0000 0600 0000 0000 0000
5f5f 7374 7562 5f68 656c 7065 7200 0000
... 531 total lines of this
Run otool -h example.out
, which prints:
example.out:
Mach header
magic cputype cpusubtype caps filetype ncmds sizeofcmds flags
0xfeedfacf 16777223 3 0x80 2 16 1296 0x00200085
Research
To understand the Mach-O file format, I found these resources helpful:
- https://developer.apple.com/library/mac/documentation/DeveloperTools/Conceptual/MachORuntime/index.html#//apple_ref/doc/uid/TP40000895
- https://developer.apple.com/library/mac/documentation/DeveloperTools/Conceptual/MachORuntime/index.html
- https://www.mikeash.com/pyblog/friday-qa-2012-11-30-lets-build-a-mach-o-executable.html
- http://www.opensource.apple.com/source/xnu/xnu-1456.1.26/EXTERNAL_HEADERS/mach-o/loader.h
- http://www.opensource.apple.com/source/dtrace/dtrace-78/head/arch.h
- http://www.opensource.apple.com/source/xnu/xnu-792.13.8/osfmk/mach/machine.h
Those last 3 from opensource.apple.com contain all the constants, such as these:
#define MH_MAGIC_64 0xfeedfacf /* the 64-bit mach magic number */
#define MH_CIGAM_64 0xcffaedfe /* NXSwapInt(MH_MAGIC_64) */
...
#define CPU_TYPE_MC680x0 ((cpu_type_t) 6)
#define CPU_TYPE_X86 ((cpu_type_t) 7)
#define CPU_TYPE_I386 CPU_TYPE_X86 /* compatibility */
#define CPU_TYPE_X86_64 (CPU_TYPE_X86 | CPU_ARCH_ABI64)
The structure of the Mach-O header is shown as:
struct mach_header_64 {
uint32_t magic; /* mach magic number identifier */
cpu_type_t cputype; /* cpu specifier */
cpu_subtype_t cpusubtype; /* machine specifier */
uint32_t filetype; /* type of file */
uint32_t ncmds; /* number of load commands */
uint32_t sizeofcmds; /* the size of all the load commands */
uint32_t flags; /* flags */
uint32_t reserved; /* reserved */
};
Given this information, the goal was to find each of those pieces of the Mach-O header in the example.out
object file.
First: Finding the "magic" number
Given that example and research, I was able to identify the first part of the Mach-O header, the "magic number". That was cool.
But it wasn't a straightforward process. Here are the pieces of information that had to be collected to figure that out.
- The first column of the
otool
output shows "magic" to be0xfeedfacf
. - The Apple Mach-O docs say that the header should be either
MH_MAGIC
orMH_CIGAM
("magic" in reverse). So found those through google in mach-o/loader.h. Since I am using 64-bit architecture and not 32-bit, went withMH_MAGIC_64
(0xfeedfacf
) andMH_CIGAM_64
(0xcffaedfe
). - Looked through
example.out
file and the first 8 hex codes werecffa edfe
, which matchesMH_CIGAM_64
! It's in a different format which throws you off a little bit, but they are 2 different hex formats that are close enough to see the connection. They are also reversed.
Here are the 3 numbers, which were enough to sort of figure out what the magic number is:
0xcffaedfe // value from MH_CIGAM_64
0xfeedfacf // value from otool
cffa edfe // value in example.out
So that's exciting! Still not totally sure if I am coming to the right conclusion about these numbers, but hope so.
Next: Finding the cputype
Now it starts to get confusing. Here are the pieces that needed to be put together to almost make sense of it, but this is where I'm stuck so far:
otool
shows16777223
. This apple stackexchange question gave some hints on how to understand this.- Found
CPU_TYPE_X86_64
in mach/machine.h, and had to do several calculations to figure out it's value.
Here are the relevant constants to do calculate the value of CPU_TYPE_X86_64
:
#define CPU_ARCH_ABI64 0x01000000 /* 64 bit ABI */
#define CPU_TYPE_X86 ((cpu_type_t) 7)
#define CPU_TYPE_I386 CPU_TYPE_X86 /* compatibility */
#define CPU_TYPE_X86_64 (CPU_TYPE_X86 | CPU_ARCH_ABI64)
So basically:
CPU_TYPE_X86_64 = 7 BITWISEOR 0x01000000 // 16777223
That number 16777223
matches what is shown by otool
, nice!
Next, tried to find that number in the example.out
, but it doesn't exist because that is a decimal number. I just converted this to hex in JavaScript, where
> (16777223).toString(16)
'1000007'
So not sure if this is the correct way to generate a hex number, especially one that will match the hex numbers in a Mach-O object file. 1000007
is only 7 numbers too, so don't know if you are supposed to "pad" it or something.
Anyways, you see this number example.out
, right after the magic number:
0700 0001
Hmm, they seem somewhat related:
0700 0001
1000007
It looks like there was a 0
added to the end of 1000007
, and that it was reversed.
Question
At this point I wanted to ask the question, already spent a few hours to get to this point. How does the structure of the Mach-O header map to the actual Mach-O object file? Can you show how each part of the header shows up in the example.out
file above, with a brief explanation why?