I suspect that your code is running just fine, and getting into trouble at the end: what do you expect to happen after the
mymain() is just an ordinary C function, which will try to return to its caller.
But you've set it as the ELF entry point, which tells the ELF loader to jump to it once it has loaded the program segments in the right place - and it doesn't expect you to return.
Those "other object files like
crtn.o" normally handle this stuff for C programs. The ELF entry point for a C program isn't
main() - instead, it's a wrapper which sets up an appropriate environment for
main() (e.g. setting up the
argv arguments on the stack or in registers, depending on platform), calls
main() (with the expectation that it may return), and then invokes the
exit system call (with the return code from
[Update following comments:]
When I try your example with
gdb, I see that it does indeed fail on returning from
mymain(): after setting a breakpoint on
mymain, and then stepping through instructions, I see that it performs the increment, then gets into trouble in the function epilogue:
$ gcc -g -c main.c
$ ld -o prog -T my_script.lds main.o
$ gdb ./prog
(gdb) b mymain
Breakpoint 1 at 0x10006: file main.c, line 4.
Starting program: /tmp/prog
Breakpoint 1, mymain () at main.c:4
(gdb) display/i $pc
1: x/i $pc
0x10006 <mymain+6>: addl $0x1,-0x4(%ebp)
1: x/i $pc
0x1000a <mymain+10>: leave
Cannot access memory at address 0x4
0x00000001 in ?? ()
1: x/i $pc
Disabling display 1 to avoid infinite recursion.
0x1: Cannot access memory at address 0x1
For i386 at least, the ELF loader sets up a sensible stack before entering the loaded code, so you can set the ELF entry point to a C function and get reasonable behaviour; however, as I mentioned above, you have to handle a clean process exit yourself. And if you're not using the C runtime, you'd better not be using any libraries that depend on the C runtime either.
So here is an example of that, using your original linker script - but with the C code modified to initialise
a to a known value, and invoke an
exit system call (using inline assembly) with the final value of
a as the exit code. (Note: I've just realised that you haven't said exactly what platform you're using; I'm assuming Linux here.)
$ cat main2.c
int a = 42;
asm volatile("mov $1,%%eax; mov %0,%%ebx; int $0x80" : : "r"(a) : "%eax" );
$ gcc -c main2.c
$ ld -o prog2 -T my_script.lds main2.o
$ ./prog2 ; echo $?