I wrote a test program for learning purposes in x86 assembly using NASM as assembler and MinGW32 (ld) as linkerW. I am working on Windows 10.

section .text

global my_start


jmp my_start

I am using the following command for assembling:

nasm -f win32 -l main.lst main.asm

And the following command for linking:

ld -nostdlib -nostartfiles -s -o main.exe -e my_start main.obj

Now if I run the program I get an sgmentation fault error. To find out why I used GDB for debugging and found out that windows is executing my executable at file begin where the DOS Header is laying. So windows is trying to execute the magic number "MZ" (4d 5a) and following bytes as assembler instructions.

So, now I am very confused why this happens because I specified an entry point (-e my_start) followed by valid x86 assembler instructions.

Why exactly my executable start's execute at DOS header and not at my specified entry point in my code segment? How I can fix this?


I tried now GoLink and using this linker everything is working fine:

GoLink.exe main.obj /entry my_start

I also compared the entry point of the optional header and both are equal. But comparing both files a lot of things are different so I cannot tell what exactly is wrong so I will stick with GoLink for a while and maybe come back to this problem if I have a bit more experience.

  • I don't think this is your problem, but Windows does sometimes get confused by very small executables. Just in case, it might be worth trying padding the contents out so that the executable is at least 4096 bytes long. – Harry Johnston Nov 19 '16 at 10:35
  • need looking in some PE viewer - are IMAGE_OPTIONAL_HEADER.AddressOfEntryPoint is 0 ? – RbMm Nov 19 '16 at 11:21
  • also if you nothing import and nothing doing in code (senseless jump compiler/linker can optimize - just throw) - you really have no code at all - so linker can set IMAGE_OPTIONAL_HEADER.AddressOfEntryPoint to 0 but still create formal "valid" exe which of course begin execute from MZ as 0 entry point - so and crash – RbMm Nov 19 '16 at 12:57
  • I'd be very surprised if either NASM or ld were detecting infinite loops, but I suppose it might be a "magic sequence" so to speak, i.e., perhaps GCC generates that assembly code as a signal to the linker to do something odd. Do you get the same result if the code is anything else? – Harry Johnston Nov 19 '16 at 22:49
  • As an option, you could try Visual Studio C/C++ Express 2015 (it's free), which includes ML.EXE (32 bit MASM) and ML64.EXE (64 bit MASM). It includes an ide, assembler, compiler, linker, and source level debugger. Create an "empty" project, then add source file(s). I use a custom build step on the assembly source in a project: ml /c /Zi /Fo$(OutDir)\example.obj example.asm for the build step, $(OutDir)\example.obj for output file. That's for debug build, for release build don't use /Zi. – rcgldr Nov 21 '16 at 13:05

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