I found this page which has a Hello World example for x86-64 on Linux:
; 64-bit "Hello World!" in Linux NASM global _start ; global entry point export for ld section .text _start: ; sys_write(stdout, message, length) mov rax, 1 ; sys_write mov rdi, 1 ; stdout mov rsi, message ; message address mov rdx, length ; message string length syscall ; sys_exit(return_code) mov rax, 60 ; sys_exit mov rdi, 0 ; return 0 (success) syscall section .data message: db 'Hello, world!',0x0A ; message and newline length: equ $-message ; NASM definition pseudo-instruction
The Author says:
An integer value representing the system_write call is placed in the first register, followed by its arguments. When the system call and its arguments are all in their proper registers, the system is called and the message is displayed.
- What does he mean by "proper" registers/What would be an im"proper" register?
- What happens if I have a function with more arguments than I have registers?
raxalways point to the function call (this would always be a system call?)? Is that its only purpose?