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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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4 Answers 4

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

 call location2
 pop ax

You now have the address of location2 in ax

add 3 to ax and you have the memory address of your function

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