I am trying to hook a function by replacing its beginning with a JMP instruction which should lead to my function. But the problem is that I don't know how to calculate the JMP offset to target the address of my function. Well, I know how to do it if you jump forward in memory (Destination addr - Current addr), but I haven't got any ideas how to determine it when you jump back in memory.

Could somebody help?

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This is basic math that you should be able to figure out. :)

If a JMP forward is `Destination - Origin`, then a `JMP` backward would be `Origin - Destination`

Think about it in plain numbers: If you want to `JMP` forward from 100 to 110, your `JMP` would be `110 - 100 = 10`. If you want to `JMP` the same amount backward, it would be `100 - 110 = -10`.

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No-no, I know how to jump forward of course. The problem is, I am not sure how to calculate and represent it in HEX then. For example, if I want to jump from address 1000 to 2000, it will be "E9 3E8", but what will it be if I want to jump from address 2000 to 1000? Something horrible like "E9 FFFFFFFFFFFFFC18"? –  user972948 Sep 30 '11 at 11:47
do the calculation in code –  David Heffernan Sep 30 '11 at 12:26
Hex is no different. Change my example from `100` to `0x100` and `110` to `0x110`, and the math is the same. –  Ken White Sep 30 '11 at 12:30
user972948: it's nothing horrible, it's just the two's complement of the negative offset you want. –  SullX Dec 6 '14 at 18:35

Just use negative offset to jump backwards.

And remember to account for the size of the `JMP` instruction. The offset is relative to the end of the `JMP` instruction and not the beginning. If the current address is where you are about to write the `JMP` then you need an offet of 5+dest-current since the size of the `JMP` instruction plus the offset if 5 bytes.

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relative jumps are signed, that is, they have positive and negative displacement using the sign bit. absolute jumps are absolute so it doesn't matter. see volumes 2A & 2B of the intel instruction guide.

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Be sneaky

Make a dummy call to a location above your function

`````` call location1

.location1
call location2
.location2
pop ax
ret
.yourfunction
``````

You now have the address of location2 in ax