Assuming your program is loaded by the ROM-BIOS (not EFI), and you're running in (Real/Virtual) 86 Mode, and you have interrupts enabled (
sti), and you didn't reconfigure the PIC and the PIT, and also didn't change the interrupt 8 (default IRQ 0) handler, then you can use the dword at 0_046Ch (equivalently, 40h:6Ch) which holds the timer ticks since midnight, and is incremented circa 18.2 times per second (at circa 18.2 Hz) by the ROM-BIOS's interrupt 8 handler.
In my programs I generally just check for how often the lower word of the counter changes, which will usually be accurate enough, and doesn't need any special midnight rollover handling.
(The naive approach is to take the current tick count and add however many ticks you want to wait, then when looping check whether the tick dword is above-or-equal the calculated value. However, this requires midnight rollover handling to correctly work in all circumstances.)
Here's the source part for some timer handling in a project of mine: https://hg.ulukai.org/ecm/ldebug/file/82570f7094b8/source/debug.asm#l1367
mov dx, 40h
mov es, dx
mov cx, word [getline_timer_count]
mov dx, word [getline_timer_last]
cmp dx, word [es:6Ch]
mov dx, word [es:6Ch]
mov al, 18
mul byte [serial_keep_timeout]
test ax, ax
cmp cx, ax
mov dx, msg.serial_no_keep_timer
mov word [getline_timer_count], cx
mov word [getline_timer_last], dx
Here's the setup of that timer:
xor ax, ax
mov word [getline_timer_count], ax
mov word [getline_timer_last], ax
mov word [getline_timer_func], .timer
getline00 repeatedly calls the function pointer in
word [getline_timer_func] while waiting for input, if input is done from the serial port (which is the case whenever we use this timer). That's at https://hg.ulukai.org/ecm/ldebug/file/82570f7094b8/source/lineio.asm#l814 :
call near word [getline_timer_func]
And the following line disables the timer by pointing at an empty function (that's just a single
mov word [getline_timer_func], dmycmd
Putting it all together, here's your sleep handler:
%assign SLEEP_SECONDS 1
xor cx, cx ; initialise counter to zero
xor dx, dx ; initialise "prior value" to zero
; (any value will do, at worst it is a match to the
; tick low word and we will wait one tick longer)
mov ax, 40h
mov es, ax ; => ROM-BIOS data area
cmp word [es:6Ch], dx
; still same ?
je .next ; yes, just wait for next -->
mov dx, word [es:6Ch]
; update our last-seen low tick word value
inc cx ; increment our counter
cmp cx, SLEEP_SECONDS * 18
; as many ticks elapsed as we want ?
jae .end ; yes, end the loop -->
; (fall through to .next)
sti ; insure interrupts are enabled for the hlt
hlt ; idle the machine while waiting for IRQs
jmp .loop ; continue the loop -->
Changes from my program's source:
- The sleep tick timeout is calculated at assembling time from a preprocessor define for the seconds, instead of using a variable at run time.
- The counter and last seen value are not stored in variables between the iterations, rather they are always kept in
- The function pointer framing is not used, as the pointer would be a constant during the sleep handling.
- Instead of returning from the timer function until it is called again, we just jump back to the
.loop local label. This also means we do not have to preserve the register contents with
- Instead of checking for a keypress (which in my program eventually idles the machine too), we just sit in a tight loop here. The
hlt makes it so that the machine can idle.