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Ok, so I need to hook a program, but to do this I am going to copy the instructions E8 <Pointer to Byte Array that contains other code>. The problem with this is, that when I assemble Call 0x100 I get E8 FD, We know the E8 is the call instruction, so FD must be the destination, so how does the assembler take the destination from 0x100 into FD? Thanks, Bradley - Imcept

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What is the target machine code? There's no way E8FD means call 0x100 – Kretab Chabawenizc Jan 1 '12 at 18:37
I opened it up in EMU8086, and yes, it means CALL 0x100. But, I may not know what I'm talking about. – iDomo Jan 1 '12 at 18:53
What assembler are you using as well? – Chris J Jan 1 '12 at 18:58
Flat Assembler, NetWide Assembler, and EMU8086 assemble it as the same thing. – iDomo Jan 1 '12 at 19:03
E8 should take a 16-bit argument, so FD is only the first 8 bits. What's the second 8 bits? – Chris J Jan 1 '12 at 19:11
up vote 0 down vote accepted

http://wwwcsif.cs.ucdavis.edu/~davis/50/8086 Opcodes.htm
E8 is a 16 bit relative call. So for instance E8 00 10 means call the address at the PC+0x1000.

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Your god, I would like to thank you :) – iDomo Jan 1 '12 at 19:43
I now see that its the offset from the current CS to the instruction pointer + 1 – iDomo Jan 1 '12 at 20:27

There is plethora of jump/call opcodes and some of them are relative. I'd say you in fact got not E8 FD but E8 FD FF. E8 seems to be "call 16-bit relative" and 0x100 is the place where instructions are placed by default.

So you put call 0x100 at address 0x100, and the generated code is "do the jump instruction, and jump -3 from the actual instruction pointer". -3 is because the shift is computed from the position after the instruction is read, which in case of E8 FD FF is 0x103. That is why the shift if FD FF, big-endian for 0xfffd, which is 16-bit -3.

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I'll wager that the actual opcodes were not E8 FD FF, because then you'd have an infinite loop. – Mr Lister Jan 1 '12 at 19:15
Yeah, it could have been E8 FD 00, in what case the instruction was put at 0x00 address. Which seems to me a bit unusual, since my memory faintly tells me 0x100 should be the beginning of code in old DOS, but it could be 0x00 in this case. Original address of call 0x100 wasn't specified, so I can only guess. – user1046334 Jan 1 '12 at 19:18

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