My program is in 32bit mode running on x86_64 CPU (64bit OS, ubuntu 8.04). Is it possible to switch to 64bit mode (long mode) in user mode temporarily? If so, how?

Background story: I'm writing a library linked with 32bit mode program, so it must be 32bit mode at start. However, I'd like to use faster x86_64 intructions for better performance. So I want to switch to 64bit mode do some pure computation (no OS interaction; no need 64bit addressing) and come back to 32bit before returning to caller.

I found there are some related but different questions. For example,

My question is "run 64 bit code in 32 bit program, 64 bit OS"

  • 1
    Ffmpeg does similar stuff based on cpu info. You could build separate modules with the same functions but different internals and conditionally load the best one according to cpu support. Jun 9 '14 at 6:36

Contrary to the other answers, I assert that in principle the short answer is YES. This is likely not supported officially in any way, but it appears to work. At the end of this answer I present a demo.

On Linux-x86_64, a 32 bit (and X32 too, according to GDB sources) process gets CS register equal to 0x23 — a selector of 32-bit ring 3 code segment defined in GDT (its base is 0). And 64 bit processes get another selector: 0x33 — a selector of long mode (i.e. 64 bit) ring 3 code segment (bases for ES, CS, SS, DS are treated unconditionally as zeros in 64 bit mode). Thus if we do far jump, far call or something similar with target segment selector of 0x33, we'll load the corresponding descriptor to the shadow part of CS and will end up in a 64 bit segment.

The demo at the bottom of this answer uses jmp far instruction to jump to 64 bit code. Note that I've chosen a special constant to load into rax, so that for 32 bit code that instruction looks like

dec eax
mov eax, 0xfafafafa
cli ; these two are unnecessary, but leaving them here for fun :)

This must fail if we execute it having 32 bit descriptor in CS shadow part (will raise SIGILL on ud2 instruction).

Now here's the demo (compile it with fasm).

format ELF executable
segment readable executable


entry $
    mov ax,cs
    cmp ax,0x23 ; 32 bit process on 64 bit kernel has this selector in CS
    jne kernelIs32Bit
    jmp 0x33:start64 ; switch to 64-bit segment
    mov rax, qword 0xf4fa0b0ffafafafa ; would crash inside this if executed as 32 bit code
    xor rdi,rdi
    mov eax, SYS_EXIT_64BIT

    mov edx, msgLen
    mov ecx, msg
    mov ebx, STDERR
    mov eax, SYS_WRITE
    int 0x80
    dec ebx
    mov eax, SYS_EXIT_32BIT
    int 0x80
    db "Kernel appears to be 32 bit, can't jump to long mode segment",10
msgLen = $-msg
  • 1
    @LưuVĩnhPhúc yeah, unlike 32-bit kernel, 64-bit Windows uses the same layout of GDT as Linux (for the main system descriptors). It seems to be dictated by the requirements of syscall instruction.
    – Ruslan
    Feb 28 '17 at 15:38
  • To return to 32bit mode, use retf, and replace jmp 0x33: with call 0x33:.
    – Alcaro
    Apr 17 '17 at 1:02
  • HI, is there a windows version ? Jul 18 at 18:25
  • @blackshadow on Windows the jump is pretty much the same (even the selector is the same). But I haven't seen anyone develop a full demo, and I myself didn't either. But be aware that if you want to do syscalls from the 64-bit segment, you'll depend on syscall numbers that differ between Windows versions.
    – Ruslan
    Jul 18 at 20:13

The answer is NO. Just because you are running 64bit code (presumably 64bit length datatypes, eg. variables, etc.) you are not running in 64bit mode on a 32 bit box. Compilers have workarounds to provide 64bit data types on 32 bit machines. For example gcc has unsigned long long and uin64_t that are 8 bit datatypes on both x86 and x86_64 machines. Datatypes are portable between x86 & x86_64 for that reason. That does not mean you get 64bit address space on a 32bit box. It means the compiler can handle 64bit datatypes. You will run into instances where you cannot run some 64bit code on 32 bit boxes. In that case, you will need preprocessor instructions to compile the correct 64bit code on x86_64 and the correct 32bit code on x86. A simple example is where different datatypes are explicitly required. In that case you can provide a preprocessor check to determine if the host computer is 64bit or 32bit with:

#if defined(__LP64__) || defined(_LP64)
# define BUILD_64   1

You can then provide conditionals to compile the correct code with the following:

#ifdef BUILD_64
    printf (" x : %ld,  hex: %lx,\nfmtbinstr_64 (d, 4, \"-\"): %s\n",
            d, d, fmtbinstr_64 (d, 4, "-"));
    printf (" x : %lld,  hex: %llx,\nfmtbinstr_64 (d, 4, \"-\"): %s\n",
            d, d, fmtbinstr_64 (d, 4, "-"));

Hopefully this provides a starting point for you to work with. If you have more specific questions, please post more details.

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