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19:42
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A: syscall from within GCC inline assembly

DatoYou can use architecture-specific constraints to directly place the arguments in specific registers, without needing the movl instructions in your inline assembly. Furthermore, then you can then use the & operator to get the address of the character: #include <sys/syscall.h> void sys_putc(char ...

Michael Petch
Michael Petch
In the first example I consider it a bug. One issue is that int $0x80 alters EAX since it contains a return value. You'll need to make sure you have some kind of output constraint otherwise the optimizer may just assume that EAX contains the value of SYS_write across the extended assembly template. Your second code example does it properly.
Dato
Dato
Excellent point, thank you! I assume it would be enough to add "%eax" in the clobber list of the first version? (I did want to include a version with no outputs as well.)
Michael Petch
Michael Petch
Don't think am EAX clobber will work there because the compiler may assume that it is in conflict with the input only constraint using "a". I suspect some kind of error would be raised.
Dato
Dato
You’re right. There was a bug opened against gcc about this a while ago, their recommendation was to use a dummy output variable. (Somebody suggested allowing & in input operands, but wasn’t met with enthusiasm.) gcc.gnu.org/bugzilla/show_bug.cgi?id=43998
Michael Petch
Michael Petch
The best way to deal with the EAX clobber issue in the first version version is to create a dummy output variable. If you compile with optimizations the optimizer will be able to remove it if its value is never used. Just remember to mark the revised version volatile since the optimizer will think that there are no known side effects it knows about and may optimize the output away entirely). This would work: int retval; asm volatile("int $0x80" : "=a"(retval): "0"(SYS_write), "b"(1), "c"(&c), "d"(1)); . retval's output will remain unused.
Dato
Dato
19:42
Yes, I just did that, thank you. Nevertheless, I’m now seeing that something goes wrong with -O2 and char as parameter. It works with clang, but with gcc -O2 (with or without -fno-inline) the address of c never makes it to ECX. I guess it has to do something with the alignment of the stack, but I’m really out of my depth.
Michael Petch
Michael Petch
19:52
Howdy
Dato
Dato
20:05
hey
Michael Petch
Michael Petch
Looking at the generated code I see what you mean by problems with the address in ECX. I'm a bit confused by the the offset in ESP that was used.
Dato
Dato
Right (thanks for looking into it)
Michael Petch
Michael Petch
20:20
I know why lol
I need more caffeine I guess
well I know how to fix it but I'm still trying to figure out if this is a bug or feature lol
to get around the problem temproarily you can add the "memory" clobber. Since the address is not being passed as a memory operand (ie via "m" the compiler has assumed that you are passing an address but you aren't accessing any data at that address. It ended up optimizing away the characters to print lol
Using "memory" clobber is not a good solution, but does identify why things go wrong
Dato
Dato
Another option I found was:
asm volatile("lea %3, %%ecx; int $0x80" : "=a"(ret) : "a"(SYS_write), "b"(2), "m"(c), "d"(1) : "ecx");
Michael Petch
Michael Petch
yes that works as well.
it is odd that passing the address of a single character doesn't make the optimizer realize that there is likely one byte at that address that is expected to exist.
CLANG gets it right
Michael Petch
Michael Petch
21:10
Another alternative is to put c into a temporary variable marked volatile. This would force the compiler to dump the value into memory before the inline assembly is called:

void sys_putc(char c) {
int retval;
volatile char tempch = c;
__asm__ __volatile__ ("int $0x80" : "=a"(retval): "a"(SYS_write), "b"(1), "c"(&tempch), "d"(1));
}
The end result is optimized code that looks like:

80482d0: 56 push %esi
80482d1: 53 push %ebx
80482d2: be 04 00 00 00 mov $0x4,%esi
80482d7: ba 01 00 00 00 mov $0x1,%edx
80482dc: 89 f0 mov %esi,%eax
80482de: 83 ec 10 sub $0x10,%esp
80482e1: 89 d3 mov %edx,%ebx
80482e3: c6 44 24 0e 50 movb $0x50,0xe(%esp)
80482e8: 8d 4c 24 0e lea 0xe(%esp),%ecx
Michael Petch
Michael Petch
21:49
Unfortunately volatile doesn't produce the best code in a non-inline function. I'd stick with using the m memory constraint as you have above. As to whether this is expected behavior one would probably have to ask on the GCC mailing list.

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