mirror of
https://github.com/A2osX/A2osX.git
synced 2024-11-22 16:31:07 +00:00
1179 lines
26 KiB
Plaintext
1179 lines
26 KiB
Plaintext
NEW
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AUTO 3,1
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*--------------------------------------
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* If Called by ProDOS : SEI
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* If Called directly from DEVPTRS vectors : ????
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*--------------------------------------
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XRW.START cld $D8 to flag language card bank 1 (main)
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lda unitnum get unit number.
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pha
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lsr
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lsr
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lsr
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lsr
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sta XRW.UnitIndex
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tax
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lda XRW.D2SeekTime-1,x
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bne .10
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lda #IO.D2.SeekTimeP
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.10 sta XRW.SeekTime
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stz XRW.montimel
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pla
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and #$7F mask off high bit.
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sta A2L 0SSS0000 for IO indexing
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* make sure other drives in other slots are stopped
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eor XRW.LastUnitUsed same slot as last ?
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asl
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beq XRW.Blk2TS
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lda #$01
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sta XRW.montimeh
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.1 lda XRW.LastUnitUsed
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and #$70
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tax
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beq XRW.Blk2TS branch if no previous ever (boot only).
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jsr XRW.CheckMotorOnX check if previous drive running.
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beq XRW.Blk2TS branch if stopped.
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jsr XRW.Wait100usec
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lda XRW.montimeh
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bne .1
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*--------------------------------------
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XRW.Blk2TS lda bloknml
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sta XRW.ReqTrack
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and #7
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cmp #4
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php
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and #3
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asl
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plp
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rol
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sta XRW.ReqSector
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lda bloknml+1
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ldx #3
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.1 lsr
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ror XRW.ReqTrack
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dex
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bne .1
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*--------------------------------------
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ldx A2L
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jsr XRW.ReadMode
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jsr XRW.CheckMotorOn
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php SAVE IRQ STATE
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php save motor on state : NZ if on
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lda #$E8 24 up to 0
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sta XRW.montimeh
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lda unitnum determine drive 1 or 2.
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cmp XRW.LastUnitUsed same slot/drive used before ?
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sta XRW.LastUnitUsed save it for next time.
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php keep results of compare.
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asl get drive # into carry.
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bcc .3 branch if drive 1 selected.
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inx select drive 2.
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.3 lda IO.D2.DrvSel1,x
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ldx A2L
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lda IO.D2.DrvOn,x turn on the drive.
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plp was it the same drive ?
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beq .5 yes.
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plp NZ: indicate drive off by setting z-flag.
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ldy #6
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.4 jsr XRW.Wait25600usec 150 ms delay before stepping.
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dey
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bne .4
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php Z set
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.5 plp was motor on ?
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bne XRW.Cmd if so, don't wait.
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* motor was off, wait for it to speed up
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.6 jsr XRW.Wait100usec wait 100us for each count in montime
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lda XRW.montimeh
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bmi .6 count up to 0000
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* motor should be up to speed,
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* if it looks stopped then the drive is not present
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jsr XRW.CheckMotorOn is drive present ?
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beq XRW.E.ND
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*--------------------------------------
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XRW.Cmd lda A4L get command #
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bne .1
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jsr XRW.TestWP 0 = status
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bcs XRW.E.WP
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bcc XRW.E.OK
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.1 cmp #4 3 = format
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bcs XRW.E.IO
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cmp #2 2 = Write, 1 = Read
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ror XRW.bWrite b7 = 1 if Write
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bpl .2
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jsr XRW.TestWP
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bcs XRW.E.WP
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*--------------------------------------
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.2 sei DISABLE IRQ
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.DO XRWDBG=1
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jsr XRW.DEBUG
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.FIN
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lda #2
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sta XRW.RecalibrateCnt
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.3 jsr XRW.TrackSelect
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bcs XRW.E.IO
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jsr XRW.SectorIO
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bcc .4
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jsr XRW.Recalibrate
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bcc .3
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bcs XRW.E.IO
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.4 inc buf+1
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inc XRW.ReqSector
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inc XRW.ReqSector
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.DO XRWDBG=1
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jsr XRW.DEBUG
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.FIN
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jsr XRW.SectorIO get 2nd half of block
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dec buf+1
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bcc XRW.E.OK
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XRW.E.IO lda #MLI.E.IO
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.HS 2C BIT ABS
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XRW.E.WP lda #MLI.E.WRTPROT
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.HS 2C BIT ABS
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XRW.E.ND lda #MLI.E.NODEV
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plp RESTORE IRQ STATE
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sec
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bra XRW.E.EXIT
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XRW.E.OK plp RESTORE IRQ STATE
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clc
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lda #0
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XRW.E.EXIT ldx A2L
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bit IO.D2.DrvOff,x
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rts
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*--------------------------------------
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XRW.SectorIO bit XRW.bWrite
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bpl .1
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* jsr XRW.SeekPhOnXY
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* phx
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* phy
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jsr XRW.PreNibble
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* ply
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* plx
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* jsr XRW.SeekPhOff
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.1 stz XRW.RetryCnt
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.2 jsr XRW.ReadAddr
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bcs .3 (2)
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lda XRW.AddrField.S (4)
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cmp XRW.ReqSector (4)
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bne .3 (2)
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bit XRW.bWrite (4)
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bpl XRW.Read (2)
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jmp XRW.Write (3)
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.3 inc XRW.RetryCnt
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bpl .2
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sec
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.9 rts
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*--------------------------------------
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* read subroutine (16-sector format)
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*
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* reads encoded bytes into nbuf1 and nbuf2.
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* first reads nbuf2 high to low, then nbuf1 low to high.
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* on entry: x=slot# times $10, read mode
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* on exit: carry set if error, else if no error:
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* acc=$AA, x=unchanged, y=0, carry clear.
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* observe 'no page cross' on some branches !!
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*--------------------------------------
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.LIST ON
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XRW.Read txa get slot #
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.LIST OFF
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ora #$8C prepare mods to read routine.
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sta rd4+1 warning: the read routine is
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sta rd5+1 self modified !!
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sta rd6+1
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sta rd7+1
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sta rd8+1
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lda buf modify storage addresses also
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ldy buf+1
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sta ref3+1
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sty ref3+2
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sec
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sbc #$54
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bcs L571F branch if no borrow
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dey
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L571F sta ref2+1
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sty ref2+2
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sec
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sbc #$57
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bcs L572B branch if no borrow
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dey
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L572B sta ref1+1
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sty ref1+2
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ldy #$20 32 tries to find
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L5733 dey
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beq L576D branch if can't find data header marks
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L5736 lda IO.D2.RData,x
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bpl L5736
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L573B eor #$D5 1st data mark
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bne L5733
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nop delay
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L5740 lda IO.D2.RData,x
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bpl L5740
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cmp #$AA 2nd data mark.
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bne L573B if not, check for 1st again
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nop
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L574A lda IO.D2.RData,x
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bpl L574A
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cmp #$AD 3rd data mark
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bne L573B if not, check for data mark 1 again
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ldy #$AA
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lda #$00
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L5757 sta pcl use z-page for keeping checksum
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rd4 ldx IO.D2.RData+$60 warning: self modified
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bpl rd4
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lda XRW.Nib2FC-$96,x
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sta nbuf2-$AA,y save the two-bit groups in nbuf.
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eor pcl update checksum.
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iny next position in nbuf.
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bne L5757 loop for all $56 two-bit groups.
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ldy #$AA now read directly into user buffer.
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bne rd5 always taken.
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L576D sec error
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rts
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ref1 sta $1000,y warning: self modified
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rd5 ldx IO.D2.RData+$60 warning: self modified
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bpl rd5
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eor XRW.Nib2FC-$96,x get actual 6-bit data from dnib table.
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ldx nbuf2-$AA,y get associated two-bit pattern
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eor dnibl2,x and combine to form whole byte.
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iny
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bne ref1 loop for $56 bytes.
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pha save for now, no time to store...
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and #$FC strip low bits.
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ldy #$AA prepare for next $56 bytes
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rd6 ldx IO.D2.RData+$60 warning: self modified
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bpl rd6
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eor XRW.Nib2FC-$96,x
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ldx nbuf2-$AA,y
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eor dnibl3,x
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ref2 sta $1000,y warning: self modified
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iny
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bne rd6 loop unil this group of $56 read
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rd7 ldx IO.D2.RData+$60 warning: self modified
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bpl rd7
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and #$FC
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ldy #$AC last group is $54 long
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L57A5 eor XRW.Nib2FC-$96,x
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ldx nbuf2-$AC,y
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eor dnibl4,x combine to form full byte
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ref3 sta $1000,y warning: self modified
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rd8 ldx IO.D2.RData+$60 warning: self modified
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bpl rd8
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iny
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bne L57A5
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and #$FC
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eor XRW.Nib2FC-$96,x checksum ok ?
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bne L57CC error if not.
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ldx A2L test end marks.
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L57C2 lda IO.D2.RData,x
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bpl L57C2
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cmp #$DE
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clc
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beq L57CD branch if good trailer
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L57CC sec
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L57CD pla place last byte into user buffer
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ldy #$55
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sta (buf),y
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.LIST ON
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XRW.Read.RTS rts
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.LIST OFF
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*--------------------------------------
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XRW.TestWP ldx A2L
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lda IO.D2.ReadProt,x test for write protected
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lda IO.D2.ReadMode,x
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rol write protect-->carry-->bit 0=1
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lda IO.D2.RData,x keep in read mode
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rts
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*--------------------------------------
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* write subroutine (16 sector format)
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*
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* writes data from nbuf1 and buf. first nbuf2, high to low then direct
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* from (buf), low to high. assumes 1 usec cycle time. self modified code !!
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*
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* on entry: x = slotnum times 16
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*--------------------------------------
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.LIST ON
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XRW.Write bit IO.D2.ReadProt,x (4) PREWRITE MODE
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.LIST OFF
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* bit IO.D2.ReadMode,x (4)
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lda #$FF (2)
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sta IO.D2.WriteMode,x (5) goto write mode
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ora IO.D2.WShift,x (4)
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nop (2)
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ldy nbuf2 (4)
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sty pcl (3)
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ldy #6 (2)
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.1 pha (3) exact timing.
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pla (4) exact timing.
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jsr wnibl7 (13,9,6) write sync.
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dey (2)
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bne .1 (3) must not cross page !
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lda #$D5 (2) 1st data mark
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jsr wnibl9 (15,9,6)
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lda #$AA (2) 2nd data mark
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jsr wnibl9 (15,9,6)
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lda #$AD (2) 3rd data mark
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jsr wnibl9 (15,9,6)
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tya (2) zero checksum
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ldy #$56 (2) nbuf2 index
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bne L583D (3) branch always
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* total time in this write byte loop must = 32us !!!
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L583A lda nbuf2,y (4) prior 6-bit nibl
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*L583D eor nbuf2-1,y (5) xor with current (4+1 : PAGE CROSS)
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L583D eor nbuf2-1,y (4) xor with current (NO MORE PAGE CROSS)
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tax (2) index to 7-bit nibl
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lda XRW.FC2Nib,x (4) must not cross page boundary
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* ldx A2L (3) restore slot index
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ldx >A2L (4) absolute reference to zero page
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sta IO.D2.WLoad,x (5) store encoded byte
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lda IO.D2.WShift,x (4) handshake
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dey (2)
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bne L583A (3-) must not cross page boundary
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* end of write byte loop
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lda pcl (3) get prior nibl (from nbuf2)
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wrefd1 ldy #$00 (2) warning: load value modified by prenib.
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wrefa1 eor $1000,y (4) warning: address modified by prenib.
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and #$FC (2) strip low 2 bits
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tax (2) index to nibl table
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lda XRW.FC2Nib,x (4)
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wrefd2 ldx #$60 (2) warning: value modified by prenib.
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sta IO.D2.WLoad,x (5) write nibl
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lda IO.D2.WShift,x (4) handshake
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wrefa2 lda $1000,y (4) prior nibl. warning: address modified by prenib.
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iny (2) all done with this page ?
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bne wrefa1 (3-) loop until page end.
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lda pch (3) get next (precalculated & translated) nibl.
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beq L58C0 (2+) branch if code written was page aligned.
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lda A2H (3) get byte address of last byte to be written.
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beq L58B3 (2+) branch if only 1 byte left to write.
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lsr (2) test for odd or even last byte (carry set/clear)
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lda pch (3) restore nibl to acc.
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sta IO.D2.WLoad,x (5)
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lda IO.D2.WShift,x (4)
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lda A1L (3) = byte 0 of 2nd page xor'd with byte 1 if
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nop (2) above test set carry.
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iny (2) y=1
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bcs L5899 (2+) branch if last byte to be odd.
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wrefa3 eor $1100,y (4) warning: address modified by prenib.
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and #$FC (2) strip low 2 bits.
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tax (2) index to nibl table
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lda XRW.FC2Nib,x (4) get nibl
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wrefd3 ldx #$60 (2) restore slot index. warning: modified by prenib
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sta IO.D2.WLoad,x (5)
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lda IO.D2.WShift,x (4)
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wrefa4 lda $1100,y (4) warning: modified by prenib
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iny (2) got prior nibl, point to next
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wrefa5 eor $1100,y (4) warning: modified by prenib
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L5899 cpy A2H (3) set carry if this is the last nibl
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and #$FC (2) strip low 2 bits
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tax (2)
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lda XRW.FC2Nib,x (4)
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wrefd4 ldx #$60 (2) restore slot. warning: modified by prenib
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sta IO.D2.WLoad,x (5)
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lda IO.D2.WShift,x (4)
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wrefa6 lda $1100,y (4) get prior nibl. warning: modified by prenib
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iny (2)
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bcc wrefa3 (3-) branch if not the last.
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bcs L58B1 (3) waste 3 cycles, branch always.
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L58B1 bcs L58C0 (3) branch always.
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L58B3 lda >pch (4) absolute reference to zero page
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sta IO.D2.WLoad,x (5)
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lda IO.D2.WShift,x (4)
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pha (3) waste 14 micro-seconds total
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pla (4)
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pha (3)
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pla (4)
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L58C0 ldx A1H (3) use last nibl (anded with $FC) for checksum
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lda XRW.FC2Nib,x (4)
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wrefd5 ldx #$60 (2) restore slot. warning: modified by prenib
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sta IO.D2.WLoad,x (5)
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lda IO.D2.WShift,x (4)
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ldy #2 (2) set y = index end mark table.
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pha (3) waste another 11 micro-seconds
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pla (4)
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nop (2)
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.1 clc (2)
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lda XRW.EndMark,y (4) DE AA EB
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jsr wnibl (15,6) write it
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dey (2)
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bpl .1 (3) if not.
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bmi .2 (3)
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.2 nop (2)
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tya (2) Y = $FF from DEY BMI
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jsr wnibl (6+9,6) write turn off byte.
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* jsr XRW.Write.RTS (12)
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* jsr XRW.Write.RTS (12)
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* nop (2)
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XRW.ReadMode lda IO.D2.ReadMode,x (4) out of write mode
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lda IO.D2.WShift,x (4) to read mode.
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rts return from write.
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* 7-bit nibl write subroutines
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wnibl9 clc (2) 9 cycles, then write.
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wnibl7 pha (3) 7 cycles, then write.
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pla (4)
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wnibl sta IO.D2.WLoad,x (5) nibl write
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ora IO.D2.WShift,x (4) clobbers acc, not carry
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.LIST ON
|
||
XRW.Write.RTS rts (6)
|
||
.LIST OFF
|
||
*--------------------------------------
|
||
XRW.Wait25600usec
|
||
lda #0
|
||
.HS 2C BIT ABS
|
||
|
||
XRW.Wait100usec lda #1
|
||
|
||
XRW.Wait100usecA
|
||
phx
|
||
|
||
.1 ldx #18 (2)
|
||
|
||
.2 dex (2)
|
||
bne .2 (3)
|
||
|
||
inc XRW.montimel (6)
|
||
bne .3 (3)
|
||
|
||
inc XRW.montimeh (6)
|
||
|
||
.3 dec (2)
|
||
bne .1 (3)
|
||
|
||
plx
|
||
rts
|
||
*--------------------------------------
|
||
XRW.CheckMotorOn
|
||
ldx A2L
|
||
XRW.CheckMotorOnX
|
||
ldy #0 init loop counter.
|
||
|
||
.1 lda IO.D2.RData,x read the shift register.
|
||
jsr .9 delay
|
||
|
||
pha
|
||
pla more delay.
|
||
|
||
cmp IO.D2.RData,x has shift reg changed ?
|
||
bne .9 yes, motor is moving.
|
||
|
||
dey no, dec retry counter
|
||
bne .1 and try 256 times.
|
||
|
||
.9 rts Z if motor OFF
|
||
*--------------------------------------
|
||
.LIST ON
|
||
XRW.ReadAddr ldy #$FC
|
||
.LIST OFF
|
||
sty XRW.CheckSum init nibble counter to $FCFC
|
||
|
||
ldx A2L get slot #
|
||
|
||
.1 iny
|
||
bne .2 counter LO
|
||
|
||
inc XRW.CheckSum counter HI
|
||
beq .99
|
||
|
||
.2 lda IO.D2.RData,x read nibl
|
||
bpl .2
|
||
|
||
.3 cmp #$D5 address mark 1 ?
|
||
bne .1
|
||
|
||
nop
|
||
|
||
.4 lda IO.D2.RData,x
|
||
bpl .4
|
||
|
||
cmp #$AA address mark 2 ?
|
||
bne .3 if not, is it address mark 1 ?
|
||
|
||
ldy #3 index for 4 byte read
|
||
|
||
.5 lda IO.D2.RData,x
|
||
bpl .5
|
||
|
||
cmp #$96 address mark 3 ?
|
||
bne .3 if not, is it address mark 1
|
||
|
||
lda #0 init Chksum
|
||
|
||
.6 sta XRW.CheckSum
|
||
|
||
.7 lda IO.D2.RData,x read 'odd bit' nibl
|
||
bpl .7
|
||
|
||
rol align odd bits, '1' into lsb.
|
||
sta XRW.Temp4x4 save them.
|
||
|
||
.8 lda IO.D2.RData,x read 'even bit' nibl
|
||
bpl .8
|
||
|
||
and XRW.Temp4x4 merge odd and even bits.
|
||
sta XRW.AddrField.C,y store data byte.
|
||
eor XRW.CheckSum
|
||
dey
|
||
bpl .6 loop on 4 data bytes.
|
||
|
||
tay if final checksum non-zero,
|
||
bne .99 (2) then error.
|
||
|
||
clc (2)
|
||
|
||
.9 lda IO.D2.RData,x (4)
|
||
bpl .9 (2)
|
||
|
||
eor #$DE (2)
|
||
bne .99 (2)
|
||
|
||
rts (6)
|
||
|
||
.99 sec
|
||
.LIST ON
|
||
XRW.ReadAddr.RTS
|
||
rts
|
||
.LIST OFF
|
||
*--------------------------------------
|
||
XRW.TrackSelect lda #2
|
||
sta XRW.BadSeekCnt
|
||
|
||
.1 stz XRW.RetryCnt
|
||
|
||
.2 jsr XRW.ReadAddr
|
||
bcc .4
|
||
|
||
.3 inc XRW.RetryCnt
|
||
bpl .2
|
||
|
||
jsr XRW.Recalibrate
|
||
bcc .1
|
||
|
||
rts
|
||
|
||
.4 ldx XRW.UnitIndex
|
||
lda XRW.AddrField.V
|
||
cmp #194
|
||
bcc .5
|
||
|
||
lda #0
|
||
|
||
.5 sta XRW.D2VolNum-1,x
|
||
|
||
asl
|
||
asl CS if 2 heads
|
||
|
||
lda XRW.ReqTrack
|
||
bcc .50
|
||
|
||
lsr Track 160 -> 80+Carry
|
||
pha
|
||
|
||
lda #0 Carry = Head
|
||
|
||
rol
|
||
rol A = 0/2
|
||
|
||
ora A2L
|
||
tay y = n0/n2
|
||
|
||
lda IO.D2.Ph0On,y
|
||
lda IO.D2.Ph0On+4,y
|
||
|
||
jsr XRW.Wait100usec
|
||
|
||
lda IO.D2.Ph0Off,y
|
||
lda IO.D2.Ph0Off+4,y
|
||
|
||
pla
|
||
|
||
.50 sta XRW.ReqTrack2
|
||
|
||
lda XRW.AddrField.T
|
||
sta XRW.D2Trk-1,x
|
||
|
||
cmp XRW.ReqTrack2
|
||
beq .8
|
||
|
||
lda XRW.BadSeekCnt
|
||
beq .6 2 bad seeks, already
|
||
|
||
dec XRW.BadSeekCnt
|
||
bne .7
|
||
|
||
.6 lda XRW.SeekTime
|
||
clc
|
||
adc #IO.D2.SeekTimeI
|
||
bmi .7 seektime > 128
|
||
|
||
sta XRW.SeekTime
|
||
sta XRW.D2SeekTime-1,x
|
||
|
||
.7 ldy XRW.D2Trk-1,x From actual Pos...
|
||
lda XRW.ReqTrack2 ....to Req
|
||
jsr XRW.SeekYA X = XRW.UnitIndex
|
||
|
||
bra .3
|
||
|
||
.8 clc
|
||
XRW.TrackSelect.RTS
|
||
rts
|
||
*--------------------------------------
|
||
XRW.Recalibrate sec
|
||
dec XRW.RecalibrateCnt
|
||
beq XRW.TrackSelect.RTS
|
||
|
||
ldx XRW.UnitIndex
|
||
|
||
ldy #41 from 41... (4/4)
|
||
lda #0 ....to 0
|
||
sta XRW.D2VolNum-1,x reset volnum for seeking 41 4/4 tracks
|
||
*--------------------------------------
|
||
XRW.SeekYA sta XRW.D2Trk-1,x will be current track at the end
|
||
|
||
jsr XRW.Trk2Qtrk
|
||
sta XRW.TargetQTrack
|
||
|
||
tya
|
||
|
||
jsr XRW.Trk2Qtrk
|
||
sta XRW.CurrentQTrack
|
||
|
||
bit #1 A = Current QT
|
||
bne .1
|
||
|
||
jsr XRW.SeekPhOnY we are on 0/4 or 2/4 track : PhY on
|
||
lda #1
|
||
bra .9 no wait, next operation will be phy/plx/Ph0On,y
|
||
|
||
.1 cmp XRW.TargetQTrack we are on 1/4 or 3/4
|
||
|
||
bcs .2 if CS, C > T, must move out
|
||
|
||
inc CC: C < T, ON next PH
|
||
|
||
.HS B0 BCS
|
||
|
||
.2 dec CS: C > T, ON prev PH
|
||
|
||
sta XRW.CurrentQTrack
|
||
|
||
bra .6 PhY ON to go to 0/4 or 2/4, then wait
|
||
*--------------------------------------
|
||
.3 bcs .4 if CS, C > T, must move out
|
||
|
||
inc CC: C < T, ON next PH
|
||
|
||
.HS B0 BCS
|
||
|
||
.4 dec CS: C > T, ON prev PH
|
||
|
||
sta XRW.CurrentQTrack
|
||
|
||
bit #1
|
||
bne .5
|
||
|
||
lda IO.D2.Ph0Off,x we must go to 0/4 or 2/4 : PhX Off
|
||
bra .8 go wait....
|
||
|
||
.5 phy we must go on 1/4 or 3/4
|
||
plx Y already ON, -> X for Ph0Off,x
|
||
|
||
bcs .6 if CS, C > T, must move out
|
||
|
||
inc CC: C < T, ON next PH
|
||
|
||
.6 jsr XRW.SeekPhOnY now X and Y on
|
||
|
||
.8 lda XRW.SeekTime
|
||
.9 jsr XRW.Wait100usecA ...wait...
|
||
|
||
lda XRW.CurrentQTrack
|
||
cmp XRW.TargetQTrack
|
||
bne .3
|
||
|
||
jsr XRW.Wait25600usec
|
||
|
||
XRW.SeekPhOff sta IO.D2.Ph0Off,x
|
||
* nop
|
||
* nop
|
||
sta IO.D2.Ph0Off,y
|
||
clc Exit wit CC (recalibrate)
|
||
rts
|
||
*--------------------------------------
|
||
*XRW.SeekPhOnXY lda XRW.ReqTrack2
|
||
|
||
* jsr XRW.Trk2Qtrk
|
||
* pha
|
||
* and #6
|
||
* ora A2L
|
||
* tax
|
||
|
||
* lda IO.D2.Ph0On,x
|
||
|
||
* pla
|
||
* inc
|
||
|
||
XRW.SeekPhOnY and #6
|
||
ora A2L
|
||
tay
|
||
lda IO.D2.Ph0On,y
|
||
rts
|
||
*--------------------------------------
|
||
* A = 0 -> 159, X = XRW.UnitIndex
|
||
*--------------------------------------
|
||
XRW.Trk2Qtrk sta pch
|
||
|
||
bit XRW.D2VolNum-1,x
|
||
bpl .1 < $80 : x4
|
||
|
||
bvs .2
|
||
|
||
asl $80 < v < $BF : x3
|
||
adc pch
|
||
rts
|
||
|
||
.1 asl
|
||
asl
|
||
rts
|
||
|
||
* 2 sides :
|
||
|
||
.2 lda XRW.D2VolNum-1,x > $C0 : 2 heads
|
||
lsr CS : $C1 = 80, 2 heads
|
||
|
||
lda pch
|
||
and #$FE
|
||
bcs .8 x2 for 80trk (ELITE III)
|
||
|
||
asl x4 for 40trk (ELITE II)
|
||
|
||
.8 rts
|
||
*--------------------------------------
|
||
* preniblize subroutine (16 sector format)
|
||
*
|
||
* converts 256 bytes of user data in (buf) into 6 bit nibls in nbuf2.
|
||
* high 6 bits are translated directly by the write routines.
|
||
*
|
||
* on entry: buf is 2-byte pointer to 256 bytes of user data.
|
||
*
|
||
* on exit: a,x,y undefined. write routine modified to do direct conversion
|
||
* of high 6 bits of user's buffer data.
|
||
*--------------------------------------
|
||
XRW.PreNibble lda buf self-modify the addresses because of
|
||
ldy buf+1 the fast timing required.
|
||
|
||
clc all offsets are minus $AA.
|
||
adc #$02 the highest set is buf+$AC.
|
||
bcc L58FA branch if no carry,
|
||
|
||
iny otherwise add carry to high address.
|
||
|
||
L58FA sta prn3+1 self mod 3
|
||
sty prn3+2
|
||
|
||
sec
|
||
sbc #$56 middle set is buf+$56.
|
||
bcs L5906 branch if no borrow,
|
||
|
||
dey otherwise deduct from high.
|
||
|
||
L5906 sta prn2+1 self mod 2
|
||
sty prn2+2
|
||
|
||
sec
|
||
sbc #$56 low set is exactly buf
|
||
bcs L5912
|
||
|
||
dey
|
||
|
||
L5912 sta prn1+1 self mod 1
|
||
sty prn1+2
|
||
|
||
ldy #$AA count up to 0.
|
||
|
||
prn1 lda $1000,y warning: self modified. get byte from lowest group.
|
||
and #$03 strip high 6 bits.
|
||
tax index to 2 bit equivalent.
|
||
lda XRW.0000XX00,x
|
||
pha save pattern
|
||
|
||
prn2 lda $1056,y warning: self modified. get byte from middle group.
|
||
and #$03
|
||
tax
|
||
pla restore pattern.
|
||
ora XRW.00XX0000,x combine 2nd group with 1st.
|
||
pha save new pattern.
|
||
|
||
prn3 lda $10AC,y warning: self modified. get byte from highest group.
|
||
and #$03
|
||
tax
|
||
pla restore new pattern
|
||
ora XRW.XX000000,x and form final nibl.
|
||
pha
|
||
|
||
tya
|
||
eor #$FF
|
||
tax
|
||
|
||
pla
|
||
sta nbuf2,x save in nibl buffer.
|
||
iny inc to next set.
|
||
bne prn1 loop until all $56 nibls formed.
|
||
|
||
ldy buf now prepare data bytes for write16 subr.
|
||
dey prepare end address.
|
||
sty A2H
|
||
lda buf
|
||
sta wrefd1+1 warning: the following storage addresses
|
||
beq L595F starting with 'wref' are refs into code
|
||
|
||
eor #$FF space, changed by this routine.
|
||
tay index to last byte of page in (buf).
|
||
lda (buf),y pre-niblize the last byte of the page
|
||
iny with the first byte of the next page.
|
||
eor (buf),y
|
||
and #$FC
|
||
tax
|
||
lda XRW.FC2Nib,x get disk 7-bit nible equivalent.
|
||
|
||
L595F sta pch
|
||
beq L596F branch if data to be written is page aligned.
|
||
|
||
lda A2H check if last byte is even
|
||
lsr or odd address. shift even/odd -> carry.
|
||
lda (buf),y if even, then leave intact.
|
||
bcc L596D branch if odd.
|
||
|
||
iny if even, then pre-xor with byte 1.
|
||
eor (buf),y
|
||
L596D sta A1L save result for write routine.
|
||
|
||
L596F ldy #$FF index to last byte of data to write.
|
||
lda (buf),y to be used as a checksum.
|
||
and #$FC strip extra bits
|
||
sta A1H and save it.
|
||
|
||
ldy buf+1 now modify address references to
|
||
sty wrefa1+2 user data.
|
||
sty wrefa2+2
|
||
|
||
iny
|
||
sty wrefa3+2
|
||
sty wrefa4+2
|
||
sty wrefa5+2
|
||
sty wrefa6+2
|
||
|
||
ldx A2L and lastly, index references to
|
||
stx wrefd2+1 controller.
|
||
stx wrefd3+1
|
||
stx wrefd4+1
|
||
stx wrefd5+1
|
||
rts
|
||
*--------------------------------------
|
||
.LIST ON
|
||
XRW.FREE .EQ $D540-*
|
||
.LIST OFF
|
||
.BS $D540-*
|
||
*--------------------------------------
|
||
* nibl buffer 'nbuf2' must fit in a page
|
||
*--------------------------------------
|
||
nbuf2 .BS $56 nibl buffer for read/write of low 2-bits of each byte.
|
||
*--------------------------------------
|
||
* 7-bit to 6-bit 'deniblize' table (16-sector format)
|
||
*
|
||
* valid codes are $96 to $FF only. codes with more than one pair of
|
||
* adjacent zeroes or with no adjacent ones (except bit 7) are excluded.
|
||
*
|
||
* nibbles in the ranges of $A0-$A3, $C0-$C7, $E0-$E3 are used for
|
||
* other tables since no valid nibbles are in these ranges.
|
||
* aligned to page boundary + $96
|
||
*--------------------------------------
|
||
XRW.Nib2FC .HS 0004
|
||
* .HS FFFF
|
||
XRW.UnitIndex .HS 00
|
||
XRW.LastUnitUsed .HS 00
|
||
.HS 080C
|
||
* .HS FF
|
||
XRW.RecalibrateCnt .HS 00
|
||
.HS 101418
|
||
XRW.XX000000 .HS 008040C0 used in fast prenib as lookup for 2-bit quantities.
|
||
* .HS FFFF
|
||
XRW.montimel .HS 00
|
||
XRW.montimeh .HS 00
|
||
.HS 1C20
|
||
.HS FFFFFF
|
||
.HS 24282C3034
|
||
* .HS FFFF
|
||
XRW.ReqTrack .HS 00
|
||
XRW.ReqSector .HS 00
|
||
.HS 383C4044484C
|
||
* .HS FF
|
||
XRW.BadSeekCnt .HS 00
|
||
.HS 5054585C606468
|
||
XRW.00XX0000 .HS 00201030 used in fast prenib.
|
||
XRW.EndMark .HS EBAADE table using 'unused' nibbles ($C4,$C5,$C6,$C7)
|
||
* .HS FFFFFFFF
|
||
XRW.AddrField.C .HS 00 AddrField Checksum
|
||
XRW.AddrField.S .HS 00 AddrField Sector
|
||
XRW.AddrField.T .HS 00 AddrField Track
|
||
XRW.AddrField.V .HS 00 AddrField Volume
|
||
.HS 6C
|
||
XRW.SeekTime .HS 00
|
||
*ibstat .HS 00
|
||
.HS 707478
|
||
.HS FFFFFF
|
||
.HS 7C
|
||
* .HS FFFF
|
||
XRW.Temp4x4 .HS 00
|
||
XRW.CheckSum .HS 00 used for address header cksum
|
||
.HS 8084
|
||
.HS FF
|
||
.HS 888C9094989CA0
|
||
XRW.0000XX00 .HS 0008040C used in fast prenib.
|
||
* .HS FF
|
||
XRW.CurrentQTrack .HS 00
|
||
.HS A4A8AC
|
||
* .HS FF
|
||
XRW.TargetQTrack .HS 00
|
||
.HS B0B4B8BCC0C4C8
|
||
* .HS FFFF
|
||
XRW.RetryCnt .HS 00
|
||
XRW.ReqTrack2 .HS 00
|
||
.HS CCD0D4D8DCE0
|
||
XRW.bWrite .HS 00
|
||
.HS E4E8ECF0F4F8FC
|
||
*--------------------------------------
|
||
* 6-bit to 2-bit conversion tables:
|
||
*
|
||
* origin = $D600 (page boundary)
|
||
*
|
||
* dnibl2 abcdef-->0000FE
|
||
* dnibl3 abcdef-->0000DC
|
||
* dnibl4 abcdef-->0000BA
|
||
* page align the following tables:
|
||
*--------------------------------------
|
||
* FC-bits to nibble conversion table (256 bytes)
|
||
*
|
||
* codes with more than one pair of adjacent zeroes
|
||
* or with no adjacent ones (except B7) are excluded.
|
||
*--------------------------------------
|
||
dnibl2 .HS 00
|
||
dnibl3 .HS 00
|
||
dnibl4 .HS 00
|
||
XRW.FC2Nib .HS 96
|
||
.HS 02000097
|
||
.HS 0100009A
|
||
.HS 0300009B
|
||
.HS 0002009D
|
||
.HS 0202009E
|
||
.HS 0102009F
|
||
.HS 030200A6
|
||
.HS 000100A7
|
||
.HS 020100AB
|
||
.HS 010100AC
|
||
.HS 030100AD
|
||
.HS 000300AE
|
||
.HS 020300AF
|
||
.HS 010300B2
|
||
.HS 030300B3
|
||
.HS 000002B4
|
||
.HS 020002B5
|
||
.HS 010002B6
|
||
.HS 030002B7
|
||
.HS 000202B9
|
||
.HS 020202BA
|
||
.HS 010202BB
|
||
.HS 030202BC
|
||
.HS 000102BD
|
||
.HS 020102BE
|
||
.HS 010102BF
|
||
.HS 030102CB
|
||
.HS 000302CD
|
||
.HS 020302CE
|
||
.HS 010302CF
|
||
.HS 030302D3
|
||
.HS 000001D6
|
||
.HS 020001D7
|
||
.HS 010001D9
|
||
.HS 030001DA
|
||
.HS 000201DB
|
||
.HS 020201DC
|
||
.HS 010201DD
|
||
.HS 030201DE
|
||
.HS 000101DF
|
||
.HS 020101E5
|
||
.HS 010101E6
|
||
.HS 030101E7
|
||
.HS 000301E9
|
||
.HS 020301EA
|
||
.HS 010301EB
|
||
.HS 030301EC
|
||
.HS 000003ED
|
||
.HS 020003EE
|
||
.HS 010003EF
|
||
.HS 030003F2
|
||
.HS 000203F3
|
||
.HS 020203F4
|
||
.HS 010203F5
|
||
.HS 030203F6
|
||
.HS 000103F7
|
||
.HS 020103F9
|
||
.HS 010103FA
|
||
.HS 030103FB
|
||
.HS 000303FC
|
||
.HS 020303FD
|
||
.HS 010303FE
|
||
.HS 030303FF
|
||
*--------------------------------------
|
||
XRW.LEN .EQ *-XRW.START
|
||
MAN
|
||
SAVE usr/src/prodos.fx/prodos.s.xrw
|
||
LOAD usr/src/prodos.fx/prodos.s
|
||
ASM
|