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I am debugging a binary file in gdb. It was C code compiled by gcc on an Intel IA-32. I retrieved this output from objdump. I am most interested in the last line here:

08048d9e <func_1>
8048d9e:    55                      push   %ebp
8048d9f:    89 e5                   mov    %esp,%ebp
8048da1:    83 ec 18                sub    $0x18,%esp
8048da4:    c7 44 24 04 88 99 04    movl   $0x8049988,0x4(%esp)
8048dab:    08 
8048dac:    8b 45 08                mov    0x8(%ebp),%eax
8048daf:    89 04 24                mov    %eax,(%esp)
8048db2:    e8 54 01 00 00          call   8048f0b <strings_not_equal>

I believe this last line will compare the value found at the indicated address: 8048f0b. I attempt:

(gdb) x 0x8048f0b

and receive:

0x8048f0b <strings_not_equal>:  0x57e58955

Am I interpreting the assembly incorrectly? Is this the correct way to read the value of an address in gdb? I was kind of expecting to find a more ascii friendly hex value. I am interested in finding the stored string value that is compared against.

Also do you have a favorite gui tool that you like to use for this type of debugging? I have been thinking about trying ddd. I want to find an easier way to debug.

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1 Answer 1

up vote 5 down vote accepted

You are correctly reading the value at memory address 0x8048f0b, but the line call 8048f0b <strings_not_equal> indicates that this address is the start of a function (called strings_not_equal()). You wouldn't expect that to be ASCII - you'd expect it to be more machine code.

If you're looking for the function arguments to strings_not_equal(), those are being pushed onto the stack. The first argument is being copied from 0x8(%ebp), which is the first argument of func1(). The second argument is $0x8049988, which is presumably the address of a string.

If you want to print the contents of the address as a string, you can do that with x/s:

x/s 0x8049988
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So in phase_1 the first argument: 0x8(%ebp) is stored on stack at %eax. This will also be an argument passed to strings_not_equal? How do you know the second argument to strings_not_equal is $0x8049988? Is it because it is written to 0x4(%esp)? –  Kyle Weller Jan 24 '13 at 4:24
so x 0x8049988 gives 0x8049988 <__dso_handle+360>: 0x75742049 and x/s 0x8049988 gives a long weird string as I would expect: 0x8049988 <__dso_handle+360>: "I turned the moon into something I like to call a Death Star." Don't we need 2 hex values to represent each ascii character? How did it translate that long string from 0x75742049? –  Kyle Weller Jan 24 '13 at 4:58
@KyleWeller: The first argument of func_1() is copied from 0x8(%esp) into %eax, and then from %eax onto the stack where it will be picked up as the first argument of strings_not_equal(). 0x8049988 is copied straight into the stack, where it will be picked up as the second argument of strings_not_equal(). x without any format is displaying the first 4 bytes at the address as a 32-bit integer; those 4 bytes are the ASCII codes for I (0x49), space (0x20), t (0x74) and u (0x75). As an integer the read in reverse order because your machine is little-endian. –  caf Jan 24 '13 at 7:22

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