I study the Linux kernel and found out that for x86_64 architecture the interrupt int 0x80 doesn't work for calling system calls1.
For the i386 architecture (32-bit x86 user-space), what is more preferable: syscall or int 0x80 and why?
I use Linux kernel version 3.4.
Footnote 1: int 0x80 does work in some cases in 64-bit code, but is never recommended. What happens if you use the 32-bit int 0x80 Linux ABI in 64-bit code?
syscall is the default way of entering kernel mode on x86-64. This instruction is not available in 32 bit modes of operation on Intel processors.sysenter is an instruction most frequently used to invoke system calls in 32 bit modes of operation. It is similar to syscall, a bit more difficult to use though, but that is the kernel's concern.int 0x80 is a legacy way to invoke a system call and should be avoided.The preferred way to invoke a system call is to use vDSO, a part of memory mapped in each process address space that allows to use system calls more efficiently (for example, by not entering kernel mode in some cases at all). vDSO also takes care of more difficult, in comparison to the legacy int 0x80 way, handling of syscall or sysenter instructions.
int 0x80 which is not true. The preferable way to make a syscall is to use VDSO.
Dec 11, 2013 at 0:27
syscall ABI directly, except for system calls like clock_gettime() and getpid() where a user-space implementation is exported in the VDSO.
Oct 7, 2019 at 8:24
My answer here covers your question.
In practice, recent kernels are implementing a VDSO, notably to dynamically optimize system calls (the kernel sets the VDSO to some code best for the current processor). So you should use the VDSO, and you'll better use, for existing syscalls, the interface provided by the libc.
Notice that, AFAIK, a significant part of the cost of simple syscalls is going from user-space to kernel and back. Hence, for some syscalls (probably gettimeofday, getpid ...) the VDSO might avoid even that (and technically might avoid doing a real syscall). For most syscalls (like open, read, send, mmap ....) the kernel cost of the syscall is large enough to make any improvement of the user-space to kernel space transition (e.g. using SYSENTER or SYSCALL machine instructions instead of INT) insignificant.
Beware of this before changing : system call numbers differ when doing 0x80 or syscall, e.g sys_write is 4 with 0x80 and 1 with syscall.
http://docs.cs.up.ac.za/programming/asm/derick_tut/syscalls.html for 32 bits or 0x80 http://blog.rchapman.org/post/36801038863/linux-system-call-table-for-x86-64 for syscall
syscall in 32-bit mode where it invokes the 32-bit ABI (only possible on AMD CPUs, and behaves differently than the 64-bit-userspace version). But yes, the 64-bit syscall ABI is different in call numbers and in calling convention.
Feb 6, 2020 at 9:44
int 0x80? Can you specify some files?int 0x80works on thex86-64kernel directly for backwards compatibility. And the Intel manual says thatsyscallis invalid in 32-bit mode.