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When attempting to run the following assembly program:

.globl start

    pushq $0x0 
    movq $0x1, %rax
    subq $0x8, %rsp
    int $0x80

I am receiving the following errors:

dyld: no writable segment
Trace/BPT trap

Any idea what could be causing this? The analogous program in 32 bit assembly runs fine.

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2 Answers 2

up vote 5 down vote accepted

OSX now requires your executable to have a writable data segment with content, so it can relocate and link your code dynamically. Dunno why, maybe security reasons, maybe due to the new RIP register. If you put a .data segment in there (with some bogus content), you'll avoid the "no writable segment" error. IMO this is an ld bug.

Regarding the 64-bit syscall, you can do it 2 ways. GCC-style, which uses the _syscall PROCEDURE from libSystem.dylib, or raw. Raw uses the syscall instruction, not the int 0x80 trap. "int 0x80" is an illegal instruction in 64-bit.

The "GCC method" will take care of categorizing the syscall for you, so you can use the same 32-bit numbers found in sys/syscall.h. But if you go raw, you'll have to classify what kind of syscall it is by ORing it with a type id. Here is an example of both. Note that the calling convention is different! (apologies for NASM syntax; gas annoys me)

; assemble with
; nasm -f macho64 -o syscall64.o syscall64.asm && ld -lc -ldylib1.o -e start -o syscall64 syscall64.o
extern _syscall
global start

[section .text align=16]
    ; do it gcc-style
    mov rdi, 0x4 ; sys_write
    mov rsi, 1 ; file descriptor
    mov rdx, hello
    mov rcx, size
    call _syscall ; we're calling a procedure, not trapping.

    ;now let's do it raw
    mov rax, 0x2000001 ; SYS_exit = 1 and is type 2 (bsd call)
    mov rdi, 0 ; Exit success = 0
    syscall ; faster than int 0x80, and legal!

[section .data align=16]
hello: db "hello 64-bit syscall!", 0x0a
size: equ $-hello

check out for more info on how a syscall is typed.

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But I was under the impression syscalls were also able to be used in 32 bit assembly; what makes them mandatory in 64 bit? Is there any comparison between interrupts and syscalls to be found? Also would syscalls be found on other architectures or x86 only? I have a gut feeling syscalls are not a standard from what I have been able to find; to be clear I would like to have some knowledge I could use on PPC or ARM systems at some far off point in the future. –  Hawken Mar 31 '12 at 0:48

The system call interface is different between 32 and 64 bits. Firstly, int $80 is replaced by syscall and the system call numbers are different. You will need to look up documentation for a 64-bit version of your system call. Here is an example of what a 64-bit program may look like.

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you can use syscalls in 32 bit as well but I'm pretty sure the syscall is just a wrapper for the kernel interrupt. Any idea what the actual interrupt is or should I just start going through one-by-one? –  Hawken Mar 27 '12 at 2:33
Here's a list of OSX syscalls:… –  Jens Björnhager Mar 27 '12 at 3:04
but the syscall is wrapper for an interrupt, that's how it can invoke the kernel; maybe its not recommended but there must be a way to directly call the kernel interrupt in 64b –  Hawken Mar 27 '12 at 3:13
syscall is not a wrapper, if anything it is a more direct way to invoke the kernel. –  Jens Björnhager Mar 27 '12 at 4:52
How can it 'ask' the kernel to do something if not through an interrupt? The name syscall suggests it is a function/subroutine not that you are calling, I thought to invoke the kernel you need to have the kernel run in its thread; how can calling something change the execution of the kernel if not through an interrupt? –  Hawken Mar 27 '12 at 10:53

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