mirror of
https://github.com/A2osX/A2osX.git
synced 2024-11-28 10:52:33 +00:00
9a7d20a7e1
FORMAT: new switches & checks SH:BREAK in FOR and WHILE ASM / S-C MASM: new directives, CString support and .HX LC / UC:bugfix DHGR.DRV:bugfix LIBGUI:wip CC:wip
950 lines
24 KiB
Plaintext
950 lines
24 KiB
Plaintext
NEW
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AUTO 3,1
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* prodos greeting splash screen
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LDR.Splash lda SPEAKER click speaker
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sta CLR80DISP disable 80 col hardware
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sta CLR80STORE disable 80 col store
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jsr setnorm set normal text mode
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jsr init init text screen
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jsr setvid reset output to screen
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jsr setkbd reset input to keyboard
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cld
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jsr home
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ldx #$07
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.1 lda LDR.MSG.AppleII,x
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sta vline10+16,x
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dex
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bpl .1
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ldx #$1D
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.2 lda LDR.MSG.ProDOS,x
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sta vline12+5,x
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dex
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bpl .2
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ldx #$0B
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.3 lda H202F,x
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sta vline14+14,x
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dex
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bpl .3
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ldx #$26
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.4 lda LDR.MSG.Copyright,x
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sta vline23,x
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dex
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bpl .4
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ldx #$13
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.5 lda LDR.MSG.Reserved,x
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sta vline24+10,x
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dex
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bpl .5
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sec
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jsr idroutine returns system info
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bcs .8 taken if not a //gs
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lda #$80
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trb newvideo video mode select
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.8 lda SPEAKER click speaker
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rts
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* find all disk devices in system slots and set up address
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* and device table in prodos global page. if there is a disk
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* card in slot 2 then limit the # of devices in slot 5
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* smartport to only 2
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numdev2 .HS 0000000000000000 8 bytes for smartport call
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driveradr .DA 0
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d2idx .DA #0
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diskins2 .DA #0 msb clear if drive in slot 2
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devsrch stz dst
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stz dst+1
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stz idxl
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ldx #$FF init to no active devices.
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stx numdevs count (-1) active devices.
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lda #$0E start disk // area at end of devlist.
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sta d2idx
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* check slot 2. if there is a disk card then clear the msb of diskins2. this
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* will limit the # of devices in any slot 5 spartport card to 2.
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lda #$C2
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sta idxl+1 check slot 2
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jsr cmpid is there a disk in slot 2 ?
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ror diskins2 if so, clear msb else set it.
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lda #$C7 search slots from high to low
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sta idxl+1
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H26AB jsr cmpid
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bcs H270C if no ProDOS device in this slot.
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lda (idxl),y check last byte of $Cn rom (y = $ff)
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beq diskii branch if 16 sector disk II.
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cmp #$FF if = $FF then 13 sector disk II.
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bcs H270C ignore if 13 sector boot ROM
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sta driveradr else assume it's an intelligent disk.
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ldy #$07 check for a smartport device.
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lda (idxl),y
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bne H26C4 no smartport
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jmp smartprt
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H26C4 ldy #$FE
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lda (idxl),y get attributes.
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and #$03 verify it provides read and status calls.
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cmp #$03
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sec assume it's an off-brand disk
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bne H270C
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jsr setdevid set up the devid byte from attributes
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clc
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php remember that it's not a disk //.
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lsr move # of units (0=1, 1=2) to carry.
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lda idxl+1 store hi entry addr (low already done)
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bne H26E6 branch always.
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diskii sta devid =0 since disk ii's have null attributes
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sec
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php remember it's a disk //
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lda H2802
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sta driveradr
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lda H2802+1
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H26E6 sta driveradr+1
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jsr installdev install 1 or 2 devices from this slot.
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plp get back if it's a disk // (carry).
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bcc nxtdsk2 if not disk //.
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dex move the list pointer back by 2 devices
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dex
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stx numdevs count (-1) active devices
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dec d2idx increase the disk two index
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dec d2idx
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ldy d2idx
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inx adj since device count starts with $FF.
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lda devlist+1,x get entries for disk //
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sta devlist,y move then toward the end of the list
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lda devlist,x
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sta devlist+1,y
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dex back to numdevs again
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nxtdsk2 clc
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H270C jsr sltrom test for ROM in given slot and set flags
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dec idxl+1 next lower slot.
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lda idxl+1
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and #$07 have all slots been checked ?
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bne H26AB no.
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* perform the new device search, mapping unmounted smartport devices
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* to empty slots in the device table.
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jsr newmount
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* now copy the disk // list to the end of the regular list.
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* start by making the device count include disk //'s
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ldx numdevs current device count - 1
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lda #$0E
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sec
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sbc d2idx
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beq H2747 if there were no disk //'s then done.
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clc
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adc numdevs sum of disk //'s and others.
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sta numdevs
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inx move to open space in regular list.
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ldy #$0D first disk // entry.
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H272F lda devlist,y
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pha
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lda devlist,x
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sta devlist,y
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pla
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sta devlist,x
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inx
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dey
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sty d2idx use as a temp
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cpx d2idx
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bcc H272F continue until indexes cross
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H2747 ldy #$00
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ldx numdevs now change the device order so that
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H274C lda devlist,x the boot device will have highest
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pha priority.
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and #$7F strip off high bit
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eor devnum for comparison.
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asl
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bne H275A
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pla
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iny
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H275A dex
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bpl H274C
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ldx numdevs now reverse order of search, hi to lo.
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tya was boot device found ?
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beq H2777
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lda devnum make boot device 1st in search order.
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sta devlist,x
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dex
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bmi H277E branch if only one device.
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dey is this a 2 drive device ?
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beq H2777 branch if not.
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eor #$80 make boot device, drive 2 next.
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sta devlist,x
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dex
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bmi H277E branch if only 1 device, 2 drives.
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H2777 pla
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sta devlist,x
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dex
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bpl H2777
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H277E jsr fndtrd save accumulated machine id.
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beq H2787
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sta machid machine ID byte
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rts
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H2787 jmp H25B6
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stadrv ora devid combine with attributes.
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ldx numdevs
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inx put device # into device list.
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sta devlist,x
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asl now form drive 2 device number, if any.
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rts
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sltrom bcc H27F3 branch if disk drive
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* test for clock card
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ldy #$06
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H2799 lda (idxl),y
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cmp dskid,y
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bne H27BA no clock
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dey
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dey
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bpl H2799
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lda idxl+1 transfer hi slot address
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sbc #$C1 minus $C1 (default) to relocate
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sta clock64 references to clock rom.
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lda #$4C enable jump vector in globals.
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sta clockv P8 clock vector.
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lda idapple mark clock as present.
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beq H277E
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ora #$01
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sta idapple xxxxxxx1 = clock present.
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bne H27F3 always taken.
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* test for 80 col card
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H27BA ldy #$05
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lda (idxl),y
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cmp #$38
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bne H27E4
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ldy #$07
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lda (idxl),y
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cmp #$18
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bne H27E4
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ldy #$0B
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lda (idxl),y
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dec must = 1
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bne H27E4
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iny
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lda (idxl),y
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and #$F0 mask off low nibble.
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cmp #$80 generic for 80-col card.
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bne H27E4
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lda idapple
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beq H277E
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ora #$02
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sta idapple xxxxxx1x = 80 col card.
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bne H27F3 always taken.
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* test for any other rom
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H27E4 ldx #$00
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lda (idxl)
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cmp #$FF apple /// non-slot?
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beq H2801 invalid rom
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H27EC cmp (idxl) look for floating bus
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bne H2801 no rom
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inx
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bne H27EC
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H27F3 lda idxl+1 mark a bit in slot byte
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and #$07 to indicate rom present.
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tax
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lda sltbit,x
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ora rommap mark bit to flag rom present
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sta rommap slot ROM bit map
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H2801 rts
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H2802 .DA rwts disk ii driver
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* id bytes: evens for clock, odds for disk
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dskid .HS 082028005803703C
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* slot bits
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sltbit .HS 0002040810204080
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fndtrd clc
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ldy sltbit
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H2818 lda (lookptr),y
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and #$DF
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adc sltbit
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sta sltbit
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rol sltbit
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iny
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cpy sltbit+3
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bne H2818
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tya
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asl
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asl
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asl
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asl
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tay
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eor sltbit
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adc #$0B
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bne H283B
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lda idapple
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rts
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H283B lda #$00
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rts
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installdev php how many drives (carry).
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lda idxl+1 get index to global device table
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and #$07 for this slot...
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asl
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tay into y reg.
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asl
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asl now form device # = slot #
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asl in high nibble.
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jsr stadrv OR in low nibble, store in dev list.
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plp restore # of devices in carry.
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ror if 2 drives, then bit 7=1.
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bpl H2853 branch if a 1 drive device (e.g. hard drive)
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inx else presume that 2nd drive is present.
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sta devlist,x active device list.
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H2853 stx numdevs save updated device count.
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asl shift # of drives back into carry.
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lda driveradr get high address of device driver.
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sta drivertbl1,y device driver table 1.
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bcc H2862 branch if single drive.
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sta drivertbl2,y device driver table 2.
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H2862 lda driveradr+1
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sta drivertbl1+1,y
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bcc H286D
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sta drivertbl2+1,y
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H286D rts
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* query smartport status to determine # of devices
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* and install up to 4 units in table if card is in slot 5
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* otherwise only 2 units. this includes a patch #74
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smartprt jsr setdevid setup the devid byte from attributes
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lda idxl+1
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sta driveradr+1
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lda driveradr
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sta pscall+1 modify operand
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clc
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adc #$03
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sta spvect+1
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lda driveradr+1
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sta spvect+2
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sta pscall+2 modify operand
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asl convert $Cn to $n0
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asl
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asl
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asl
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sta unitnum unit number
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stz A4L force a prodos status call
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stz buf dummy pointer
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stz bloknml # of bytes to transfer
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stz bloknml+1
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lda #$10
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sta buf+1 dummy pointer should be <> 0
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* do a prodos status call patched in from above
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pscall jsr $0000 self modifying code
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ldy #$FB
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lda (idxl),y check device id
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and #$02 SCSI?
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beq H28B1 no, no need to init Cocoon
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sta statunit device = 2 for SCSI
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* initialize SCSI Cocoon to build internal device tables
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* and report true # of devices attached
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jsr spvect status of Cocoon
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.HS 00
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.DA spcparms ignore any errors.
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H28B1 stz statunit set unit# = 0
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jsr spvect call to get the device count.
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.HS 00 this is a status call
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.DA spcparms
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lda numdev2
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beq donesp no devices, so done.
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cmp #$02 carry set if 2,3,4
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jsr installdev do the 1st and 2nd device if exists.
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lda idxl+1
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cmp #$C5
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bne donesp if not slot 5
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* for slot 5, if there is a disk card in slot 2
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* then only install 2 devices otherwise map
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* extra devices as slot 2
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bit diskins2 disk in slot 2 ?
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bpl donesp yes - so done
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lda numdev2
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cmp #$03 carry set if 3,4,...
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bcc donesp
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cmp #$04 carry set if 4,5,6,...
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lda #$C2 map extra devices as slot 2
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sta idxl+1
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jsr installdev
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lda #$C5
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sta idxl+1
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donesp jmp nxtdsk2 it's a disk device.
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setdevid ldy #$FE check attributes byte.
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H28E8 lda (idxl),y
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lsr move hi nibble to lo nibble for
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lsr device table entries.
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lsr
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lsr
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sta devid
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rts
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* check unknown card to see if disk id = $Cn00:nn 20 nn 00 nn 03
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cmpid lda CLRC8ROM switch out $C8 ROMs
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ldy #$05
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H28F6 lda (idxl),y compare id bytes
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cmp dskid,y
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sec set if no disk card
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bne H2903
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dey
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dey
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bpl H28F6 loop until all 4 id bytes match.
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clc clear if disk card
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H2903 rts
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* smartport call parameters
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spcparms .DA #$03 # of parms
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statunit .DA #$00 unit number (code for smartport stat)
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.DA numdev2
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.DA #00 status code (0 = general status)
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* indexes into driver table
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driveridx .DA #$06 s3, d1
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.DA #$1E s7, d2
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.DA #$0E s7, d1
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.DA #$1C s6, d2
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.DA #$0C s6, d1
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.DA #$1A s5, d2
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.DA #$0A s5, d1
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.DA #$14 s2, d2
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.DA #$04 s2, d1
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.DA #$12 s1, d2
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.DA #$02 s1, d1
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.DA #$18 s4, d2
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.DA #$08 s4, d1
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* self modifying jmp = smartport entry address
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spvect jmp $0000 self modifying
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newmount stz idxl
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lda #$C7 start with slot 7 ($C700)
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sta idxl+1
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H291F jsr H29EB is there a smartport device here?
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bcs H2974 no, next device.
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ldy #$FF get smartport address.
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lda (idxl),y
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clc
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adc #$03 add 3 for smartport call
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sta spvect+1
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lda idxl+1
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sta spvect+2
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dey
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jsr H28E8 set up device attributes
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stz statunit
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jsr spvect do a status call on smartport itself
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.HS 00
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.DA spcparms
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lda numdev2 # of devices on smartport
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cmp #$03
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bcc H2974 only 2 devices,skip to next one.
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inc add 1 for comparisons.
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sta driveradr # of devices + 1.
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lda #$03 start at unit #3 (non-slot 5)
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ldx spvect+2
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cpx #$C5 is this slot 5?
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bne H295B no, start at 3.
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bit diskins2 disk controller in slot 2?
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bpl H295B yes, so allow remapping of s5 devices
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lda #$05 else start looking at unit #5
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* find block devices on this smartport
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H295B cmp driveradr have we done all units in this slot?
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bcs H2974 yes, skip to next slot.
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sta statunit store the unit#.
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jsr spvect do status call
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.HS 00
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.DA spcparms
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lda numdev2 is this a block device?
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bmi mount yes, so mount it.
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H296E lda statunit go check the next unit#
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inc
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bra H295B
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H2974 dec idxl+1
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lda idxl+1
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cmp #$C0 searched down to slot 0?
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bne H291F if not.
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rts
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mount ldx #$0C
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H297F ldy driveridx,x
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lda drivertbl1,y device driver table 1
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cmp #nodevice
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bne H2990
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lda drivertbl1+1,y
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cmp /nodevice
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beq H2994
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H2990 dex
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bpl H297F
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rts ran out of space for devices, exit.
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* empty slot found
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H2994 lda idxl+1
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pha
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phx
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phy
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tya which slot is empty?
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lsr shift into slot#
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and #$07 now 1-7
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ora #$C0 now $C1-$C7
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sta idxl+1
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jsr H29EB smartport interface in this slot?
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ply
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plx
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pla
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sta idxl+1
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bcc H2990 yes, can't use to mirror the device.
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jsr lc1in write enable LC ram bank 1.
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tya divide index by 2
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lsr
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tax
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lda statunit
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sta spunit-1,x store the smartport unit #
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lda spvect+1 and entry address.
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sta spvectlo-1,x
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lda spvect+2
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sta spvecthi-1,x
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lda RROMBNK2 write protect lc ram.
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inc numdevs
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ldx numdevs
|
||
tya
|
||
lsr
|
||
cmp #$08
|
||
bcc nodev2 drive 2 mount
|
||
sbc #$08
|
||
ora #$08
|
||
nodev2 asl
|
||
asl
|
||
asl
|
||
asl
|
||
ora devid include device attributes
|
||
sta devlist,x in the active device list.
|
||
lda #remap_sp
|
||
sta drivertbl1,y device driver table 1
|
||
lda /remap_sp
|
||
sta drivertbl1+1,y
|
||
bra H296E
|
||
H29EB jsr cmpid is it a disk controller?
|
||
bcs H29F8 no, so return.
|
||
sec assume no smartport
|
||
ldy #$07
|
||
lda (idxl),y is it a smartport?
|
||
bne H29F8 if not.
|
||
clc smartport found
|
||
H29F8 rts
|
||
|
||
* relocation subroutine. on entry, regs yx = address of parameter table
|
||
* with the following parameters:
|
||
*
|
||
* (1) command: 0 = zero destination range
|
||
* 1 = move data from src to dst
|
||
* 2 = hi addr ref tbl, relocate and move
|
||
* 3 = lo/hi addr ref tbl, relocate and move
|
||
* 4 = program, relocate and move
|
||
* >4 = end of sequence of commands
|
||
* (2) destination
|
||
* (2) length
|
||
* (2) source
|
||
* (1) # of address ranges (n) to be relocated
|
||
* (n+1) list of low page addresses to be relocated
|
||
* (n+1) list of high page addresses to be relocated
|
||
* (n+1) list of offset amounts to be added to be added
|
||
* if low and high limits have not been met
|
||
*
|
||
* on exit, carry set if error and yx = addr of error
|
||
* with acc = $00 for table error or $FF if illegal opcode
|
||
|
||
reloc stx idxl save address of control table
|
||
sty idxl+1
|
||
rloop lda (idxl) get relocation command.
|
||
cmp #$05
|
||
bcs rlend taken if >= 5 then done.
|
||
tax move destination to page 0
|
||
ldy #$01 for indirect access.
|
||
lda (idxl),y
|
||
sta dst
|
||
iny
|
||
lda (idxl),y
|
||
sta dst+1
|
||
iny
|
||
lda (idxl),y also the length (byte count)
|
||
sta cnt of the destination area.
|
||
iny
|
||
lda (idxl),y
|
||
sta cnt+1
|
||
bmi rlerr branch if >= 32k.
|
||
txa is it a request to zero destination?
|
||
beq zero if yes.
|
||
iny
|
||
lda (idxl),y get source address.
|
||
sta src used for move.
|
||
sta cde used for relocation
|
||
iny
|
||
clc
|
||
adc cnt add length to get final address
|
||
sta ecde
|
||
lda (idxl),y
|
||
sta src+1
|
||
sta cde+1
|
||
adc cnt+1
|
||
sta ecde+1
|
||
dex test for 'move' command
|
||
beq H2AA3 branch if move only (no relocation)
|
||
stx wsize save element size (1,2,3)
|
||
iny
|
||
lda (idxl),y get # of ranges that are valid
|
||
sta sgcnt relocation target addresses.
|
||
tax separate serial range groups into tbls
|
||
H2A42 iny
|
||
lda (idxl),y transfer low limits to 'limlo' table
|
||
sta limlo,x
|
||
dex
|
||
bpl H2A42
|
||
ldx sgcnt # of ranges
|
||
H2A4E iny
|
||
lda (idxl),y transfer high limits to 'limhi' table
|
||
sta limhi,x
|
||
dex
|
||
bpl H2A4E
|
||
ldx sgcnt # of ranges
|
||
H2A5A iny
|
||
lda (idxl),y transfer offsets to 'ofset' table
|
||
sta ofset,x
|
||
dex
|
||
bpl H2A5A
|
||
jsr adjtbl adj index pointer to next entry.
|
||
ldx wsize test for machine code relocation
|
||
cpx #$03
|
||
beq rlcode branch if program relocation
|
||
jsr reladr otherwise, relocate addresses in
|
||
H2A70 jsr moveSrcDst tables then move to destination.
|
||
bra rloop do next table
|
||
rlend clc
|
||
rts
|
||
rlerr jmp tblerr
|
||
rlcode jsr rlprog relocate machine code refs
|
||
bra H2A70
|
||
|
||
* fill destination range with 0's
|
||
|
||
zero jsr adjtbl adj table pointer to next entry.
|
||
lda #$00
|
||
ldy cnt+1 is it at least 1 page?
|
||
beq H2A94 branch if not.
|
||
tay
|
||
H2A89 sta (dst),y
|
||
iny
|
||
bne H2A89
|
||
inc dst+1 next page
|
||
dec cnt+1
|
||
bne H2A89 if more pages to clear.
|
||
H2A94 ldy cnt any bytes left to 0?
|
||
beq H2AA0 if not.
|
||
tay
|
||
H2A99 sta (dst),y zero out remainder
|
||
iny
|
||
cpy cnt
|
||
bcc H2A99
|
||
H2AA0 jmp rloop
|
||
H2AA3 jsr adjtbl
|
||
bra H2A70
|
||
adjtbl tya add previous table length to
|
||
sec get next entry position in table
|
||
adc idxl
|
||
sta idxl
|
||
bcc H2AB2
|
||
inc idxl+1
|
||
H2AB2 rts
|
||
moveSrcDst lda src+1 is move up, down or not at all?
|
||
cmp dst+1
|
||
bcc movup
|
||
bne movdn
|
||
lda src
|
||
cmp dst
|
||
bcc movup
|
||
bne movdn
|
||
rts no move.
|
||
movup ldy cnt+1 calc highest page to move up
|
||
tya and adj src and dst.
|
||
clc
|
||
adc src+1
|
||
sta src+1
|
||
tya
|
||
clc
|
||
adc dst+1
|
||
sta dst+1
|
||
ldy cnt move partial page 1st.
|
||
beq H2ADE taken if no partial pages
|
||
H2AD6 dey
|
||
lda (src),y
|
||
sta (dst),y
|
||
tya end of page transfer?
|
||
bne H2AD6 no
|
||
H2ADE dec dst+1
|
||
dec src+1
|
||
dec cnt+1 done with all pages?
|
||
bpl H2AD6 no
|
||
rts
|
||
movdn ldy #$00
|
||
lda cnt+1 partial page move only?
|
||
beq H2AFC taken if < 1 page to move
|
||
H2AED lda (src),y
|
||
sta (dst),y
|
||
iny
|
||
bne H2AED
|
||
inc dst+1 next page
|
||
inc src+1
|
||
dec cnt+1 more pages?
|
||
bne H2AED if more.
|
||
H2AFC lda cnt move partial page.
|
||
beq H2B09 if no more to move
|
||
H2B00 lda (src),y
|
||
sta (dst),y
|
||
iny
|
||
cpy cnt
|
||
bne H2B00
|
||
H2B09 rts
|
||
|
||
* relocate addresses
|
||
|
||
reladr ldy wsize 1 or 2 byte reference
|
||
dey
|
||
lda (cde),y
|
||
jsr adjadr relocate reference.
|
||
lda wsize update and test code pointer.
|
||
jsr adjcde
|
||
bcc reladr if more to do
|
||
rts
|
||
rlprog ldy #$00 get next opcode
|
||
lda (cde),y
|
||
jsr oplen determine if a 3 byte instruction.
|
||
beq rperr branch if not an opcode
|
||
cmp #$03
|
||
bne H2B30
|
||
ldy #$02
|
||
jsr adjadr relocate address
|
||
lda #$03
|
||
H2B30 jsr adjcde update and test if done.
|
||
bcc rlprog if more to do
|
||
rts
|
||
rperr pla
|
||
pla
|
||
ldx cde bad code address in y,x
|
||
ldy cde+1
|
||
lda #$FF indicates bad opcode
|
||
sec
|
||
rts
|
||
tblerr ldx idxl bad table address in y,x
|
||
ldy idxl+1
|
||
lda #$00 indicates input table error
|
||
sec
|
||
rts
|
||
adjadr lda (cde),y get page address and
|
||
ldx sgcnt test against limits.
|
||
H2B4D cmp limlo,x is it >= low?
|
||
bcc H2B59 if not.
|
||
cmp limhi,x is it <= high?
|
||
bcc H2B5D branch if it is
|
||
beq H2B5D
|
||
H2B59 dex try next limit set
|
||
bpl H2B4D
|
||
rts return w/o adjustment.
|
||
H2B5D clc add offset to form relocated
|
||
adc ofset,x page address and replace
|
||
sta (cde),y old address with result.
|
||
rts
|
||
adjcde clc update code pointer
|
||
adc cde
|
||
ldy cde+1
|
||
bcc H2B6C branch if not page cross
|
||
iny otherwise, update page#.
|
||
H2B6C cpy ecde+1 has all code/data been processed?
|
||
bcc H2B72 if not.
|
||
cmp ecde
|
||
H2B72 sta cde save updated values.
|
||
sty cde+1
|
||
rts return result (carry set = done).
|
||
oplen pha form index to tbl & which 2-bit group.
|
||
and #$03 low 2 bits specify group
|
||
tay
|
||
pla
|
||
lsr upper 6 bits specify byte in table
|
||
lsr
|
||
tax
|
||
lda opcodln,x
|
||
nxgroup dey is opcode len in lowest 2 bits of acc?
|
||
bmi H2B89 branch if it is
|
||
lsr shift to next group.
|
||
lsr (if length = 0 then error)
|
||
bne nxgroup
|
||
|
||
.BS $2B89-*
|
||
|
||
H2B89 and #$03
|
||
rts if z-set then error
|
||
|
||
* relocation table contains length of each opcode in 2-bit groups
|
||
|
||
opcodln .HS 0928193C0A280D3C
|
||
.HS 0B2A193F0A280D3C
|
||
.HS 0928193F0A280D3C
|
||
.HS 0928193F0A280D3C
|
||
.HS 082A113F0A2A1D0C
|
||
.HS 2A2A193F0A2A1D3F
|
||
.HS 0A2A193F0A280D3C
|
||
.HS 0A2A193F0A280D3C
|
||
|
||
wsize .HS 00
|
||
sgcnt .HS 00
|
||
limlo .HS 0000000000000000
|
||
limhi .HS 0000000000000000
|
||
ofset .HS 0000000000000000
|
||
|
||
* patch to gsos vectors so error is returned for os calls - rev note #101
|
||
|
||
patch101 php
|
||
sei disable interrupts
|
||
clc
|
||
xce full native mode
|
||
>LONGMX
|
||
phb save DBR
|
||
pha
|
||
pha
|
||
pea $0000 length of patch
|
||
pea $0010 0000/0010 = 16 bytes
|
||
pea $3101 user id for prodos 8
|
||
pea $8018 attributes (locked/nospec/nocross)
|
||
pha
|
||
pha
|
||
>IIGS NewHandle
|
||
lda $01,s retrieve handle
|
||
tax
|
||
lda $03,s
|
||
tay
|
||
pea $0000 copy the code into the handle
|
||
pea L2C4D
|
||
phy
|
||
phx
|
||
pea $0000 length of patch = 0000/0010
|
||
pea $0010
|
||
>IIGS PtrToHand
|
||
plx low word of handle
|
||
plb set DBR to handle's bank
|
||
lda >1,x get upper 16 bits of 24 bit address
|
||
tay save in y
|
||
lda >0,x get low 8 bits of address
|
||
and ##$00FF clear high byte
|
||
xba put address in high byte
|
||
ora ##$005C include JML opcode
|
||
sta GSOS2 store in gsos vectors
|
||
clc
|
||
adc ##$000B
|
||
sta GSOS
|
||
tya store upper 16 bits too
|
||
sta GSOS2+2
|
||
adc ##$0000 adj for possible page crossing
|
||
sta GSOS+2
|
||
plb remove garbage byte from stack
|
||
plb restore DBR.
|
||
sec
|
||
xce back to emulation mode
|
||
plp
|
||
rts
|
||
|
||
* copy of the code that goes in the handle
|
||
|
||
L2C4D lda 1,s
|
||
sta 7,s
|
||
lda 2,s
|
||
sta 8,s
|
||
pla
|
||
pla
|
||
pla
|
||
lda ##$00FF #NoOS
|
||
sec
|
||
rtl
|
||
|
||
.BS $2C80-*
|
||
|
||
RAMDRV.Install ldy #$99 move $9A bytesfrom lcsrc to lcdest.
|
||
|
||
.1 lda RAM,y transfer main bank portion of driver
|
||
sta RAMDRV,y
|
||
dey
|
||
cpy #$FF
|
||
bne .1
|
||
|
||
ldx #RAMX set up to move aux portion of driver
|
||
stx A1L
|
||
dex
|
||
stx A2L
|
||
ldx /RAMX
|
||
stx A1L+1
|
||
inx
|
||
stx A2L+1
|
||
lda #RAMXDRV
|
||
sta A4L
|
||
lda /RAMXDRV RAMX to RAMXDRV
|
||
sta A4L+1
|
||
sec irection = to aux bank.
|
||
jsr auxmove move aux bank portion of driver.
|
||
|
||
lda #RAMDRV put driver address into
|
||
sta drivertbl2+6 slot 3, drive 2.
|
||
lda /RAMDRV
|
||
sta drivertbl2+7
|
||
|
||
inc numdevs count (-1) active devices
|
||
ldx numdevs
|
||
lda #$BF unit num of /RAM
|
||
sta devlist,x
|
||
rts end of obj ram_1
|
||
|
||
RAM_1_END .EQ * end of /RAM installer
|
||
.BS $2D00-* pad 0's to page boundary
|
||
|
||
|
||
MAN
|
||
SAVE usr/src/prodos.203/prodos.s.ldr.b
|
||
LOAD usr/src/prodos.203/prodos.s
|
||
ASM
|