I am doing some x86 exercises; my assignment has me stepping through the assembly code for the
write() library call in a debugger until we reach a
SYSENTER instruction, but I get different results from that of some of my classmates. What I saw leading up to
│0xf7fdf421 <__kernel_vsyscall+1> push %edx │0xf7fdf422 <__kernel_vsyscall+2> push %ebp │0xf7fdf423 <__kernel_vsyscall+3> mov %esp,%ebp │0xf7fdf425 <__kernel_vsyscall+5> sysenter
Is this what I should see? If so, why is it different from what some of my classmates saw?
Also are %edx and %ebp registers saved on the stack before executing the
sysenter instruction? (Would it not seem so according to the answer I got or am I wrong?)
Here's my original instructions from my assignment:
The assembly code:
.file "A3Program2.c" .section .rodata .LC0: .string "hello\n" .LC1: .string "xxxx\n" .text .globl secondCall .type secondCall, @function secondCall: pushl %ebp movl %esp, %ebp subl $40, %esp movl $6, 8(%esp) movl $.LC0, 4(%esp) movl $1, (%esp) call write movl %eax, -12(%ebp) movl $8, 8(%esp) movl $.LC1, 4(%esp) movl $1, (%esp) call write addl %eax, -12(%ebp) movl 12(%ebp), %eax movl 8(%ebp), %edx leal (%edx,%eax), %eax addl %eax, -12(%ebp) movl -12(%ebp), %eax leave ret .size secondCall, .-secondCall .globl firstCall .type firstCall, @function firstCall: pushl %ebp movl %esp, %ebp subl $40, %esp movl $2, 4(%esp) movl $4, (%esp) call secondCall movl %eax, -12(%ebp) movl -12(%ebp), %eax leave ret .size firstCall, .-firstCall .globl main .type main, @function main: pushl %ebp movl %esp, %ebp andl $-16, %esp subl $16, %esp call firstCall movl %eax, 12(%esp) movl $0, %eax leave ret .size main, .-main .ident "GCC: (Ubuntu/Linaro 4.4.4-14ubuntu5) 4.4.5" .section .note.GNU-stack,"",@progbits
The following instructions are for Linux:
Find the line number of the second call to write, “call write”, in the secondCall function. Set a break point at this line. Which is 22 according to me.
Set a break point at this line.
Run the program inside the debugger.
The program will stop at the break point you set. Step into the code which does not have the debugging information.
You will see “[ No Source Available ]” in the source layout. So you need to view the disassembled instructions.
Repeatedly step into (si and then return/enter will execute the si command repeatedly) until you see “sysenter” appear in the asm layout section of the screen. I am trying to copy the instructions (including their addresses) from the top of the asm layout section, down to and including the sysenter instruction.
Hint: You can change the focus of the keyboard to the command area by typing Ctrl-x o. This way the arrow keys can be used to bring back earlier commands (it just saves some typing).