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Appendix A Opcode Map of
Vol 2B of
Intel® 64 and IA-32 Architectures Software Developer’s Manual Combined Volumes: 1, 2A, 2B, 3A and 3B says that
Table A-6 Opcode Extensions for One- and Two-byte Opcodes by Group Number of
Vol 2B says
Group 5 either of
PUSH, depending on bits 5 through 3 of the
ModR/M byte, the byte that follows. (0x35>>3)&7=6 or 110 in binary. So, this is
Chapter 2 Instruction Format of
Vol 2A explains what parts an instruction consists of, including those
ModR/M bytes and what not.
Appendix A Using Opcode Tables of
Vol 2B tells you for
A ModR/M byte follows the opcode and specifies the operand. The operand is either a general-purpose register or a memory address. If it is a memory address, the address is computed from a segment register and any of the following values: a base register, an index register, a scaling factor, a displacement.
It also tells you for
Word, doubleword or quadword (in 64-bit mode), depending on operand-size attribute.
So, you know that
Ev means a register or a memory operand and since this is for 32-bit code and there are no instruction prefixes, the operand size is 32 bits. So,
Ev a 32-bit register or a 32-bit variable in memory.
Now you need to figure out the rest of the bytes from ModR/M until the end.
Figure 2-1. Intel 64 and IA-32 Architectures Instruction Format of
Vol 2A. It tells you that in
Mod = 00 (binary)
Reg = 110 (binary; we've extracted these 3 bits before)
R/M = 101 (binary)
Table 2-2. 32-Bit Addressing Forms with the ModR/M Byte of
Vol 2A tells you that
Mod = 00 and
R/M = 101 means
disp32, IOW, there's a memory operand consisting of a 32-bit displacement in the instruction.
Reg field of the
ModR/M byte has already been used to choose one of the seven instructions and therefore this field does not encode a register operand.
So, your instruction is
PUSH DWORD [0x0040200E].
And that agrees with my disassembler output.