Difference between revisions of "X86 64 Register and Instruction Quick Start"

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(Starter Kit)
(Starter Kit)
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Note the syntax:
 
Note the syntax:
* [[Register|register]] names are prefaced by %
+
* [[Register]] names are prefaced by %
 
* [[Immediate Value|Immediate values]] are prefaced by $
 
* [[Immediate Value|Immediate values]] are prefaced by $
 
* Indirect memory access is indicated by (parenthesis)
 
* Indirect memory access is indicated by (parenthesis)

Revision as of 18:58, 24 January 2014

Registers

General-Purpose Registers

The 64-bit versions of the 'original' x86 registers are named:

  • rax - register a extended
  • rbx - register b extended
  • rcx - register c extended
  • rdx - register d extended
  • rbp - register base pointer (start of stack)
  • rsp - register stack pointer (current location in stack, growing downwards)
  • rsi - register source index (source for data copies)
  • rdi - register destination index (destination for data copies)

The registers added for 64-bit mode are named:

  • r8 - register 8
  • r9 - register 9
  • r10 - register 10
  • r11 - register 11
  • r12 - register 12
  • r13 - register 13
  • r14 - register 14
  • r15 - register 15

These may be accessed as:

  • 64-bit registers using the 'r' prefix: rax, r15
  • 32-bit registers using the 'e' prefix (original registers: e_x) or 'd' suffix (added registers: r__d): eax, r15d
  • 16-bit registers using no prefix (original registers: _x) or a 'w' suffix (added registers: r__w): ax, r15w
  • 8-bit registers using 'h' ("high byte" of 16 bits) suffix (original registers - bits 8-15: _h): ah, bh
  • 8-bit registers using 'l' ("low byte" of 16 bits) suffix (original registers - bits 0-7: _l) or 'b' suffix (added registers: r__b): al, bl, r15b

Usage during syscall/function call:

  • First six arguments are in rdi, rsi, rdx, rcx, r8d, r9d; remaining arguments are on the stack
  • For syscalls, the syscall number is in rax
  • Return value is in rax
  • The called routine is expected to save rsp,rbp, rbx, r12, r13, r14, and r15 but may trample any other registers

Floating-Point and SIMD Registers

x86_64 also defines a set of large registers for floating-point and single-instruction/multiple-data (SIMD) operations. For details, refer to the Intel or AMD documentation.

Instructions

Starter Kit

These instructions are sufficient to complete the SPO600 Assembler Lab (GAS syntax):

add %r10,%r11                      // add r10 and r11, put result in r11
cmp %r10,%r11                      // compare register r10 with register r11
cmp $99,%r11                       // compare the number 99 with register r11
div $r10                           // divide rax by the given register (r10), places quotient into rax and remainder into rdx (rdx must be zero before this instruction)
inc %r10                           // increment r10
jmp label                          // jump to label
jeq label                          // jump to label if equal
jne label                          // jump to label if not equal
jl  label                          // jump to label if less
jg  label                          // jump to label if greater
mov %r10,%r11                      // move data from r10 to r11
mov $99,%r10                       // put the immediate value 99 into r10
mov %r10,(%r11)                    // move data from r10 to address pointed to by r11
mov (%r10),%r11                    // move data from address pointed to by r10 to r10
mul $r10                           // multiplies rax by r10, places result in rax and overflow in rdx
push %r10                          // push r10 onto the stack
pop %r10                           // pop r10 off the stack
syscall                            // invoke a syscall (in 32-bit mode, use "int $0x80" instead)

Note the syntax:

  • Register names are prefaced by %
  • Immediate values are prefaced by $
  • Indirect memory access is indicated by (parenthesis)
  • Data sources are given as the first argument (mov %r10,%r11 moves FROM r10 INTO r11).

References