At school we have been using a bootstrap program to run stand-alone programs without an operating system. I have been studying this program and when protected mode is enabled there is a far jump executed by directly assembling the opcode and operands as data within the program. This was for the GNU assembler:
First of all, why would one want to do this (instead of the instruction mnemonic)? I have been looking at the Intel manuals, but am still a little confused by the code. Specifically in Volume 2A, page 3-549, there is a table of opcodes. The relevant entry:
/* this code immediately follows the setting of the PE flag in CR0 */ .byte 0x66, 0xEA .long TARGET_ADDRESS .word 0x0010 /* descriptor #2, GDT, RPL=0 */
EA *cp* JMP ptr16:32 Inv. Valid Jump far, absolute, address given in operand
The actual opcode is obvious, but the the first byte, 0x66, has me confused. Referring to the table in the Intel manual, the cp apparently means that a 6 byte operand will follow. And obviously 6 bytes follow in the next two lines. 0x66 encodes an 'Operand-size override prefix'. What does this have to do with the cp in the table? I was expecting there to be some hex value for the cp, but instead there is this override prefix. Can someone please clear this up for me?
Here is a dump from od:
c022 **ea66 0000 0001 0010** ba52 03f2 c030
TARGET_ADDRESS was defined as 0x00010000.
I am also confused a bit by the significance of the last two bytes. However, that seems to be another question altogether. It is getting quite late, and I have been staring at code and the Intel manuals for hours, so I hope I got my point across.
Thanks for looking!