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tl;dr I am getting a few different errors depending on how I try to call a C _print function from x86-64 assembly. I would like to get it printing by calling the C function, so I know I can call C functions, but I'm not sure how to do "stack alignment" to make that happen properly. The full source code for the system is included.


I tried following these instructions but I am getting this:

Segmentation fault: 11

My assembly looks like this:

section .text

global start
extern _print

start:
  mov rdi, msg
  jmp _print

section .data

msg: db  0xa, "  Hello StackOverflow!!!", 0xa, 0xa, 0
.len: equ $ - msg

My print.c function is like this:

#import <stdio.h>

extern
void
print(char *str) {
  puts("FOO");
  puts(str);
}

I am able to use the print function in C directly, so I know that works. So I should see FOO in the output but I just see something like this followed by an error:

Hello StackOverflow!!@���

I compiled the C project like this:

print:
  @clang -I . -dynamiclib \
    -O2 \
    -undefined dynamic_lookup \
    -o print.dylib print.c
.PHONY: print

And I compiled the asm project like this:

asm:
  @nasm -f macho64 main.asm
  @ld -macosx_version_min 10.13.0 \
    -lSystem -o main \
    -install_name print.dylib \
    main.o print.dylib
  @./main
.PHONY: asm

I don't understand how to apply this stack frame / alignment concept to the 64-bit architecture.

Tinkering around and I tried changing start to this. I have no idea why (don't understand how to apply the stack alignment):

start:
  push rbx
  mov rdi, msg
  call _print
  pop rbx

It ends up outputting this:

  Hello StackOverflow!!@���make: *** [asm] Error 109

Still no FOO from the print as well.

  • int len = sizeof(str); I think you mean strlen(str)+2. – Nate Eldredge Mar 22 '19 at 21:22
  • 1
    But I really don't see the point of your macro. You're defining a "helper" function print whose only job is to call _print. It doesn't align the stack correctly and it doesn't return properly. Compared to just calling _print yourself, this just wastes cycles and complicates your program. – Nate Eldredge Mar 22 '19 at 21:45
  • 3
    Any standard library symbol names will have a leading underscore, you can't avoid that. (You could for libraries you create yourself, though). But anyway, instead of a runtime wrapper (which should be a jmp tailcall, not another call + ret which breaks stack args and stack alignment), just use %define print _print Or make your lib macro do %define %1 _%1. – Peter Cordes Mar 22 '19 at 22:56
  • 1
    If you want to call it from C, you need the _print names because that's part of the platform name-mangling convention. If you want to use it from another NASM project, you need extern declarations anyway, so you might as well have a NASM "header" file that you %include which uses extern and %define for each library function. (Really I'd suggest just getting used to it: _name functions can be a handy reminder that the're written in C and use the C calling convention, while other names might be asm with a custom calling convention.) – Peter Cordes Mar 22 '19 at 23:17
  • 1
    Anyway, your code works for me on Linux, gcc -O2 -shared lib.c -o libprint_lib.so, assemble with nasm -felf64 p.asm, link with gcc -nostartfiles p.o -L/tmp -lprint_lib to create a dynamically linked executable. (I had to change the source to call print wrt ..plt for it to link into a PIE executable.) Runs with LD_LIBRARY_PATH=/tmp ./a.out and prints both FOO\n and \nHello...\n\n, then segfaults after execution falls off the end of start. So you're probably building it wrong. – Peter Cordes Mar 23 '19 at 1:54

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