use crate::color;
use crate::emu::Emu;
use iced_x86::Instruction;
pub fn execute(emu: &mut Emu, ins: &Instruction, instruction_sz: usize, _rep_step: bool) -> bool {
if emu.rep.is_some() {
if emu.rep.unwrap() == 0 || emu.cfg.verbose >= 3 {
emu.show_instruction(color!("LightCyan"), ins);
}
} else {
emu.show_instruction(color!("LightCyan"), ins);
}
if emu.cfg.is_64bits {
let val = match emu.maps.read_byte(emu.regs().rsi) {
Some(v) => v,
None => {
log::trace!("cannot read memory on rsi");
return false;
}
};
if !emu.maps.write_byte(emu.regs().rdi, val) {
log::trace!("cannot write memoryh on rdi");
return false;
}
if !emu.flags().f_df {
emu.regs_mut().rsi += 1;
emu.regs_mut().rdi += 1;
} else {
emu.regs_mut().rsi -= 1;
emu.regs_mut().rdi -= 1;
}
} else {
let val = match emu.maps.read_byte(emu.regs().get_esi()) {
Some(v) => v,
None => {
log::trace!("cannot read memory on esi");
return false;
}
};
if !emu.maps.write_byte(emu.regs().get_edi(), val) {
log::trace!("cannot write memory on edi");
return false;
}
if !emu.flags().f_df {
let esi = emu.regs().get_esi() + 1;
let edi = emu.regs().get_edi() + 1;
emu.regs_mut().set_esi(esi);
emu.regs_mut().set_edi(edi);
} else {
let esi = emu.regs().get_esi() - 1;
let edi = emu.regs().get_edi() - 1;
emu.regs_mut().set_esi(esi);
emu.regs_mut().set_edi(edi);
}
}
true
}