There are a few problems with this code, but you're on the right track.
1. Loop condition
You are using this to quit the loop when
ebx >= ecx:
The syntax is rather confusing, but this actually means "exit if ecx is greater than ebx". Changing it to
jng exit fixes this problem.
2. Arguments on stack
You are referring to arguments with
8(%ebp,%ebx,4), but the arguments actually start at
12(%ebp). You are right in that you should start with index 1, because the argument with index 0 is merely the name of the program.
3. Arguments are always strings
The arguments on the stack are only pointers to strings.
movl 12(%ebp),%eax will not put a number from the command line in
eax. It will only put a memory address in eax, which points to a series of characters that make up the first argument.
To get the number represented by the string "123" you need to parse it with a function such as atoi. atoi will then return 123 in
Here's what the code looks like once these things are fixed. I put a comment next to each changed line.
movl $0,%eax #eax = return
movl $1,%ebx #ebx = index
movl 8(%ebp),%ecx #number of args
jng exit # quit if ecx is not greater than ebx
pushl %eax # save registers on stack
pushl %ecx # because they will be destroyed soon
pushl 12(%ebp,%ebx,4) # push next argument pointer on stack
call atoi # invoke atoi, this destroys registers eax,ecx,edx
add $4,%esp # restore stack pointer
mov %eax,%edx # atoi returns the value in eax, save that to edx
popl %ecx # restore ecx from stack
popl %eax # restore eax from stack
addl %edx,%eax # add parsed number to accumulator
And the program seems to work now:
$ gcc -nostartfiles test.S -m32 && ./a.out 1 2 3 4 5 ; echo $?
The program returns the result in its exit value, which means it can not count higher than 255 :)
It would probably be better to let the program print the result to stdout, using