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Correct me if I am wrong.

This is my understanding of JNZ and CMP.

JNZ - The jump WILL take place if the Z Flag is NOT zero (1)

CMP - If the two values are equal, the Z Flag is set (1) otherwise it is not set (0)

Olly DBG

This is a flash tutorial I am watching. It is teaching the solution to a simple CrackMe.

As you can see, the previous instruction compared AL with 47h. They were equal which set the Z flag. (You can see it in the Registers windows on the right side)

The next instruction is a JNZ. My understanding was that the jump will take place if the Z flag is set. The Z flag IS set, but the jump doesn't take place!


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@nrz Your comment is not very clear - is the OP expected to realise the mistake by looking at the statement really, really hard? – Michael Foukarakis Feb 12 '13 at 20:47
@nrz Jeez man are you trying to confuse me even more?!?! From the other answers, now I know that with JNZ, the jump only takes place if the zero flag is NOT set (0) – 43.52.4D. Feb 12 '13 at 23:04
@43.52.4D. Sorry, I misread the sentence "JNZ - The jump WILL take place if the Z Flag is NOT zero (1)" in your question, and as a result my comment was possibly confusing, so I deleted it now. Intel x86 JUMP quick reference has a useful table for checking the conditions of branching of different x86 conditional jumps. – nrz Feb 13 '13 at 0:09

3 Answers 3

up vote 15 down vote accepted

JNZ is short for "Jump if not zero (ZF = 0)", and NOT "Jump if the ZF is set".

If it's any easier to remember, consider that JNZ and JNE (jump if not equal) are equivalent. Therefore, when you're doing cmp al, 47 and the content of AL is equal to 47, the ZF is set, ergo the jump (if Not Equal - JNE) should not be taken.

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I will make a little bit wider answer here.

There are generally speaking two types of conditional jumps in x86:

  1. Arithmetic jumps - like JZ (jump if zero), JC (jump if carry), JNC (jump if not carry), etc.

  2. Comparison jumps - JE (jump if equal), JB (jump if below), JAE (jump if above or equal), etc.

So, use the first type only after arithmetic or logical instructions:

sub  eax, ebx
jnz  .result_is_not_zero 

and  ecx, edx
jz   .the_bit_is_not_set

Use the second group only after CMP instructions:

cmp  eax, ebx
jne  .eax_is_not_equal_to_ebx

cmp  ecx, edx
ja   .ecx_is_above_than_edx

This way, the program becomes more readable and you will never be confused.

Note, that sometimes these instructions are actually synonyms. JZ == JE; JC == JB; JNC == JAE and so on. The full table is following. As you can see, there are only 16 conditional jump instructions, but 30 mnemonics - they are provided to allow creation of more readable source code:

Mnemonic        Condition tested  Description  

jo              OF = 1            overflow 
jno             OF = 0            not overflow 
jc, jb, jnae    CF = 1            carry / below / not above nor equal
jnc, jae, jnb   CF = 0            not carry / above or equal / not below
je, jz          ZF = 1            equal / zero
jne, jnz        ZF = 0            not equal / not zero
jbe, jna        CF or ZF = 1      below or equal / not above
ja, jnbe        CF or ZF = 0      above / not below or equal
js              SF = 1            sign 
jns             SF = 0            not sign 
jp, jpe         PF = 1            parity / parity even 
jnp, jpo        PF = 0            not parity / parity odd 
jl, jnge        SF xor OF = 1     less / not greater nor equal
jge, jnl        SF xor OF = 0     greater or equal / not less
jle, jng    (SF xor OF) or ZF = 1 less or equal / not greater
jg, jnle    (SF xor OF) or ZF = 0 greater / not less nor equal 
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At first it seems as if JNZ means jump if not Zero (0), as in jump if zero flag is 1/set.

But in reality it means Jump (if) not Zero (is set).

If 0 = not set and 1 = set then just remember:
JNZ Jumps if the zero flag is not set (0)

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