The following 32bit x86 Linux program prints a string of arbitrary length (as long as a program can be, anyway) and does exit(0) afterwards:

.global _start             ; notice on entry here, all regs but %esp are zero
    call  .L0              ; offset == strlen, provided by your assembler
.byte 'H','e','l','l','o',',',' ','W','o','r','l','d'
    pop   %ecx             ; ret addr is starting addr of string
    mov   -4(%ecx),%edx    ; argument to `call`, 4 bytes: strlen
    inc   %ebx             ; stdout == 1
    movb  $4, %al          ; SYS_write == 4
    int   $0x80
    xchg  %eax,%ebp        ; %ebp is still zero
    xchg  %eax,%ebx        ; SYS_exit == 1, return value == 0
    int   $0x80

If one's willing to sacrifice the position-independence (instead, force the linker to insert the string address), and not care about the program returning zero, one can get it down to:

.global _start
    movb  $4, %al
    inc   %ebx
    mov   $.L0, %ecx       ; this address is calculated when linking
    movb  $.Lend-.L0, %dl  ; strlen, calculated by assembler
    int   $0x80
    xchg  %eax,%ebx
    int   %0x80
.byte 'H','e','l','l','o',',',' ','W','o','r','l','d'

Both of these can be assembled/linked via as --32 -o x.o x.S; ld -s -m elf_i386 x.o, and run just fine. The second one is 26 Bytes of code. If you permit a crash after printing Hello, World then leave the last two instructions out, 23 Bytes. That's as low as I could go.

Question that's always bugged me, is it possible to squeeze a few more bytes off this ? Pure speculation of mine gives these possible leads:

  • Somehow use parts of the 'Hello, World' itself as code ?
  • Anyone knows a usable syscall easter egg ?
  • trick the linker into making the entrypoint a 16-bit address so that movw $.L0, %cx could be used (saves one byte) ?
  • Do an 8-bit offset jmp to a place that's known (or created via assembler / linker invocation magic) to contain the necessary instructions for the exit(...) syscall, saving one byte over the xchg; int sequence ?

Or else, can it be proven that this actually is the smallest well-behaved (no crash / return code zero) Linux/x86 "Hello, World" ?


To clarify, the question is not about minimizing the size of the ELF executable; techniques for that are long-known. I'm explicitly inquiring about the size of a Linux 32bit x86 assembly program that performs the equivalent of what the compiled code for:

int main(int argc, char **argv)
    puts("Hello, World");
    exit(0); /* or whatever code */

would do.
In fact, I'll be happy about anything that does not require manual editing of the ELF headers. If you find a way to e.g. stuff the "Hello, World" into some ELF object and referencing that from the assembly source, using only the assembler / linker command line and/or a mapfile input, I'd consider it valid enough, even though that increases the size of the ELF executable. I just want to know if the instruction sequence to print "Hello, World" and exit() afterwards can be shrunk still.
The question is about code size, not executable size.


It's been done back in 1999. Have a look at this page (spoiler: the end result is a 45-byte ELF file). Make sure to read the postscript too.

  • 2
    I've not been talking about the minimum size achievable for an ELF file that "does exit(42)"- this is specifically about the instruction sequence to actually print "Hello, World". – FrankH. Sep 16 '11 at 7:46
  • 1
    From the same place, Hello world in 62 bytes muppetlabs.com/~breadbox/software/tiny/hello.asm.txt – Hasturkun Sep 18 '11 at 8:11

A straightforward translation of the C code, using libc, results in 16 bytes of instructions:

    .asciz "Hello, World"
.globl main
    push $.S
    call puts
    add $4, %esp
    xor %eax, %eax

If you use x86-64 instead if x86-32, the calling convention passes arguments in registers so we can skip the stack manipulation, and

    mov $.S, %rdi
    call puts
    xor %eax, %eax

is only 15 bytes of code.

  • In your 32-bit code when you used RET did you remember to adjust the stack to account for the bytes you pushed before puts? – Michael Petch Jan 28 '17 at 17:24
  • @MichaelPetch Oh, that's right. Thanks. – ephemient Jan 28 '17 at 17:27
  • The problem with this is that you're not counting all the C runtime library code you're linking in. – Ross Ridge Jan 28 '17 at 18:48

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