I've been trying to understand some assembly code that was for a lab that I had to do in class and wanted to run my explanation by people that could point me in the right direction. The code is as follows:
0x080488bb <+0>: push %esi 0x080488bc <+1>: push %ebx 0x080488bd <+2>: sub $0x34,%esp 0x080488c0 <+5>: mov $0x0,%esi 0x080488c5 <+10>: mov $0x0,%ebx 0x080488ca <+15>: lea 0x1c(%esp,%ebx,4),%eax 0x080488ce <+19>: mov %eax,0x4(%esp) 0x080488d2 <+23>: movl $0x8048c8d,(%esp) 0x080488d9 <+30>: call 0x80484e0 <__isoc99_scanf@plt> 0x080488de <+35>: test %eax,%eax 0x080488e0 <+37>: jns 0x80488ee <phase_3_of_5+51> 0x080488e2 <+39>: movl $0x3,(%esp) 0x080488e9 <+46>: call 0x80487c2 <explode> 0x080488ee <+51>: mov 0x1c(%esp,%ebx,4),%eax 0x080488f2 <+55>: add %eax,%esi 0x080488f4 <+57>: add $0x1,%ebx 0x080488f7 <+60>: cmp $0x5,%ebx 0x080488fa <+63>: jne 0x80488ca <phase_3_of_5+15> 0x080488fc <+65>: cmp $0x64,%esi 0x080488ff <+68>: je 0x804890d <phase_3_of_5+82> 0x08048901 <+70>: movl $0x3,(%esp) 0x08048908 <+77>: call 0x80487c2 <explode> 0x0804890d <+82>: add $0x34,%esp 0x08048910 <+85>: pop %ebx 0x08048911 <+86>: pop %esi 0x08048912 <+87>: ret
From what I gathered this function will take two inputs(from both the pushes). the __isoc99_scanf@plt will take a series of inputs saved as a string.
First part I'm confused about is the "test %eax,%eax" is this essentially comparing the value of eax with itself? I looked at a different thread in stack overflow with someone that had a similar question and one of the solutions said that %eax must be zero for the statement to be true.
If the above statement is true we move on to +51. +51 is saying that eax = esp+ebx*4 stored in 0x1c. Then we add eax+esi and store it in esi. Then we add 1 to ebx. We then compare 5 to ebx. If it's not equal it goes back to +15. If it is equal it moves onto +65 which compares 64 to esi. If they are equal the function ends.
Please let me know if my explanation is wrong, or if there is a part you feel you could clarify.
Edit: My primary goal is to figure out what I should input so that the program completes without calling the explode function.
I've narrowed it down to two inputs, ebx must be 5 to continue through one part. esi must be 64 to continue through the next part. The only issue I have is that esi relies on the value of eax, which I don't know.
4 and 48 are not the correct answers, any suggestions?