# jnz after xor?

After using IDA Pro to disassemble a x86 dll, I found this code (Comments added by me in pusedo-c code. I hope they're correct):

``````test    ebx, ebx        ; if (ebx == false)
mov     eax, [ebx+84h]  ; eax = *(ebx+0x84)
mov     ecx, [esi+84h]  ; ecx = *(esi+0x84)
mov     al, [eax+30h]   ; al = *(*(ebx+0x84)+0x30)
xor     al, [ecx+30h]   ; al = al XOR *(*(esi+0x84)+0x30)
jnz     loc_6385A453
``````

Lets make it simpler for me to understand:

``````mov     eax, b3h
xor     eax, d6h
jnz     ...
``````

How does the conditional jump instruction work after a xor instruction?

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Like most instructions, `xor` sets the processor condition flags depending on the result of the previous operation. In this case, the Z flag will be set if the result of the `xor` is zero. The `jnz` instruction tests the Z flag and branches if it is not set.

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So it applies to other logical instructions too? –  小太郎 Jun 7 '10 at 7:53
@kotarou3: Yes, the flags are set as a result of pretty much all arithmetic and logical operations. –  Greg Hewgill Jun 7 '10 at 8:26

I barely know assembly at all but `xor` in this context does pretty much the same as `cmp` I’d say, in addition to setting `eax` to the result of the xor operation.

In other words, after the `xor`, `eax` will be 0 exactly if its previous value was `d6h` (otherwise, it will be some value != 0). And additionally, the zero flag will be set (as with `cmp`) so you can `jnz` to test that flag.

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It will jump if the value in `eax` doesn't end up as zero.

Your second example doesn't do the code justice since the code you have is using constant values, not values loaded from memory.

In the first example, it loads all those values from memory and performs the `xor` on that. The memory contents may, unlike your second example, change on each execution depending on what's in `[ebx+84h]` and `[esi+84h]`.

See xor and jnz for details.

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Thanks for the links, I found that website somewhere but lost it again –  小太郎 Jun 6 '10 at 12:43

Arithmetic operations like xor set comparison flags (just like a compare instruction).

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Well, JNZ is a conditional jump, specifically, jump if not zero.

the XOR (and many other arithmetic/logic operations) will set the zero flag of the status register if the result of the operation is zero. So in your case, it's saying "do XOR, and if the result is not zero (i.e. if the two numbers are different) jump to this location.

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It behaves like `cmp` instruction, but al has the value of xor result. So the jump will be taken if [eax+30h] <> [ecx+30h], and al will always contain result of xor operation.
Actually a `cmp` (compare) instruction is simply a subtract operation without affecting any register contents. If substraction result is 0 then operands are assumed equal. That's why `jz` (jump if zero) and `je` (jump if equal) are synonymous.