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Going through the shellcode article on wikipedia, it gives an example as follows:

B8 01000000    MOV EAX,1          // Set the register EAX to 0x000000001

To make the above instruction null free, they've re-written it as follows:

33C0           XOR EAX,EAX        // Set the register EAX to 0x000000000
40             INC EAX            // Increase EAX to 0x00000001

Where is the null byte in the first instruction? How do the converted instructions not have a null byte?

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2 Answers 2

The null bytes are right after B8 01 in the first instruction. The second instruction uses the xor operation to zero out eax (any x xor x = 0) and then increment it by one to achieve the same result without 00, the null byte.

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so here, is 0x00 is treated as 1 byte or 00000000? –  Karan May 14 '13 at 19:00
0x00 is 1 byte == 8 bit. 0x00000000 are 4 bytes / 32 bit, which is the length of a register on 32 bit (sic) machines. –  Squeezy May 14 '13 at 19:03

Where is the null byte in the first instruction?

B8 01000000    MOV EAX,1          // Set the register EAX to 0x000000001
     1 2 3

There are actualy 3 null bytes

How do the converted instructions not have a null byte? Because

  1. The opcodes for XOR and INC do not contain nullbytes (http://ref.x86asm.net/coder32-abc.html)
  2. Are here used only taking registers as arguments

For the MOV EAX, 1 instruction, the assembler has to write the opcode (B8), and 2 arguments, from which one is a 32 bit integer. Since 1 is a very small number, the remaining bits are padded with zeros, resulting in a null byte.

The XOR and INC instructions do not take integers in your code, and don't have to insert zero's.


I didn't notice the +r in the opcode for MOV r32, imm32.

Registers are encoded using 3 bits in x86, and eax is 000. B8 is in binary 0b10111000, at the end are 3 free bits.

0b10111000 + 0x000 = 0b10111000 = 0xB8

So B8 encodes to MOV EAX, imm32.

What left is 0x01000000, what 1 is in little endian.

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So, since B8 is the opcode for mov, 01000000 comprises of the two arguments? Then if 01 is 1 argument and the rest 000000 are for padding purposes, where is the first argument? Shouldn't 1 be written as 00000001 instead of 01000000? –  Karan May 14 '13 at 19:04
01000000 encodes for both arguments, but I have no idea how, x86 instruction encoding is very complicated. I think it looks reversed because of endianes. –  Lennart May 14 '13 at 19:06
@Lennart actually the 0x01000000 only encodes the second argument. 0xb8 is the opcode for move immediate 32-bit value into EAX. But you're right on the endianness - 0x01000000 is the little-endian encoding of a 32-bit value of 1. –  twalberg May 14 '13 at 19:19
@Lennart Okay. I understood the B8 part. What is +r in the opcode? Despite the fact that i did x86 programming a few years ago, i'm a bit confused on endianness right now. –  Karan May 14 '13 at 19:47
@user85030 +r means a register code, from 0 through 7, added to the value. (ref.x86asm.net/#column_po); Endiannes: (en.wikipedia.org/wiki/Endianness#Little-endian) Basicly the bytes are reversed –  Lennart May 14 '13 at 19:52

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