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Still working on an x86 NASM assembly OS.

Followup question to my last one (CLI and STI are not working):

After I realized that the CLI and STI instructions were turning all of interrupts off correctly, I also realized shortly afterward that the System Timer & RTC clock are interrupts themselves (see Wikipedia - IRQ : x86 IRQs : Master PIC). This was why the clock would not function- it would wait and wait (and wait) forever, until the System timer got around to updating. This obviously never happened, because the Interrupt for the update was off!

Unfortunately, knowing this does not solve my atomicity problem: the system clock cannot be read without interrupts on. However, having interrupts on will not ensure atomicity.

I have heard that there are ways to mask some interrupts, but not all of them. I would like to know how to mask all of the interrupts besides 0 and 8 (see wikipedia link). I want to implement this in the Wait_Clk_Ticks function.

Which brings me to this code- this code, when loaded onto the boot device (floppy disk in my case) will display a "falling raindrop" effect. A red, 2 pixel long section will move slowly down the screen, then restart at the top. Which is what it is supposed to do.

However, there are 3 problems, all of which are related to the clock (I believe):

  • When a key is pressed, the computer will beep obnoxiously, and the raindrop will go slowly. I believe that is because pressign a key is causing an interrupt, and that is delaying the timer function.

  • There is no atomicity for the timer.

  • After a little while, the raindrop will stop completely (possibly this is an interrupt that is causing an issue)

How can I fix these issues?

EDIT: I have added the Set_IRQ_Mask function. However now my os hangs on startup.

EDIT 2: Fixed, see answer.

[BITS 16]                   ; 16 bit code
[ORG 0x7C00]                    ; Start to load at 0x7c00

; OS to create 'falling raindrop' effect

jmp Code_Start

Set_IRQ_Mask:       ; see http://wiki.osdev.org/8259_PIC and http://cs.smith.edu/~thiebaut/ArtOfAssembly/CH17/CH17-3.html

    in al, 21h         ; Read existing bits.
    or al, 00010000b   ; Disable IRQ4 (serial port com1)
    out 21h, al

    mov al, 0x20    ; Send end of interrupt signal
    out 0x20, al




    push ax     ; Store current values.
    push bx

    mov ax, 0   ; Reset 'ds' (destination pointer).
    mov ds, ax
    mov bx, [46Ch]  ; Tick status is at 0:46Ch.
            ; Store into 'bx'.
    _WCT_Get_Tick:  ; Gets new tick.
    mov ax, [46Ch]  ; Update current time into 'ax'.

    cmp ax, bx  ; If 'current' == 'older' ticks,
    je _WCT_Get_Tick
            ; Then clock tick isn't over: reset.
    mov bx, ax  ; If the clock tick is over,
            ; put 'current' into 'older'.
    sub cx, 1   ; Decrement number of ticks till exit.
    jnz _WCT_Get_Tick;
            ; If 'cx' (ticks till exit) is zero,

    pop bx      ; Restore current values.
    pop ax


    ret     ; Return.

    mov ax, 13h                 ; VGA mode (320x200) 256 color
    int 10h                 ; sets vga mode SEE: http://www.wagemakers.be/english/doc/vga

    push ax                 ; push variables used here onto the stack
    push bx
    push cx
    mov cx, 320             ; puts 320 (how many rows there are) into a register
    mul cx                  ; multiplies 320 by AX (# of rows) and stores into AX

    add ax, bx              ; adds rows and cols to make the location, puts into ax
    mov si, ax              ; move ax into si
    mov bx, 0a000h              ; this puts 0a000h (starting register) as the beginning
    mov es, bx              ; move bx into es
    pop cx
    mov word [es:si], cx            ; move the color attribute (cx) into the memory location es+si
    pop bx                  ; restore variables from stack
    pop ax

    mov bx, 40              ; work on COLUMN 40 solely
    call Set_Video_Mode
    call Set_IRQ_Mask

    mov ax, 0               ; Reset row to 0
    mov cx, 40              ; Write head in in RED (40)
    call Write_Pixel

    cmp ax, 0               ; Are we at row 1?
    je Next_Zero                ; Go to special conditions

    cmp ax, 1               ; Are we at row 2?
    je Next_One             ; Go to special conditions

    jmp Next_Norm               ; Otherwise, no special conditions

Next_Zero:                  ; Make the cover spot 197 if the current dot is 0
    push ax
    mov ax, 197
    jmp Cover_Black

Next_One:                   ; Make the cover spot 198 if the current dot is 1
    push ax
    mov ax, 198
    jmp Cover_Black

Next_Norm:                  ; Otherwise, make the cover spot 'ax - 2'
    push ax
    sub ax, 2

Cover_Black:                    ; Set color to black
    mov cx, 0
    call Write_Pixel
    pop ax                  ; Restore AX to the RED location.

    mov cx, 1               ; Set to wait for a clock tick
    call Wait_Clk_Ticks

    inc ax                  ; Increment the row
    cmp ax, 199             ; If pixel has reached the bottom of the screen, reset AX
    je Reset
    jmp Loop                ; Otherwise, continue downwards.

    jmp $                   ; Run this line over and over again- stops excecution.

times 510-($-$$) db 0       ; Fill the rest of the 512 byte sector with zeros
dw 0xAA55               ; Boot magic number
share|improve this question
Where the hell did you get working floppy drive from in a first place? –  David Jashi Jun 29 '13 at 22:41
The PIC should have a register or registers used for interrupt control and masking. Each bit in the register would correspond to one of the interrupts listed in the Wiki page you gave a link for. To mask an interrupt, you or in the corresponding bit. I have not researched what register address is used on a PC for this, so I don't have those details, but maybe that will help with your investigation. –  lurker Jun 29 '13 at 22:55
@David Jashi ...Floppy drive, yes. Working? Uh, sort of. More like 'there was a spot to put in a floppy drive, so I did'. –  Blue Ice Jun 30 '13 at 1:35

2 Answers 2

Assuming you're not trying to deal with any multiprocessing stuff yet, you can program the 8259 Programmable Interrupt Controller to mask certain IRQs.

share|improve this answer
up vote 1 down vote accepted

...Well, it seems that the fix was to add ret after the Set_IRQ_Mask function...

That was 5 hours of debugging for that one line... :) Thanks for the help though!

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