rom4x/rom5x/B1_FD00_accel5x.s

610 lines
15 KiB
ArmAsm

; Improved Apple IIc Plus accelerator firmware
; by M.G.
; Improvements over apple-supplied code:
; * bugs fixed
; * reset+<esc> toggles acclerator on/off rather than setting slow
; * warm reset preserves configured settings
; * additional commands to read/write accelerator speed
; * reset+<tab> configuration menu
; Config menu can be called independently from other alt
; bank firmware, such as ROM 5X
; note that in the current state, the code cannot be inserted
; into the ROM without moving the menu text and the speeds
; table.
.ifdef testaccel
TESTBLD = 1
.else
TESTBLD = 0 ; set to 1 to enable test code that runs in random Apple II hw/emulator at $2000
; this disables the bank switch and uses the main RAM at $0E00 to simulate the
; MIG RAM. Will configure a Zip Chip as if it were the IIc+ Accelerator.
.endif
XTRACMD = 0 ; set to 1 to enable extra accelerator speed commands
ACCMENU = 1 ; set to 1 to enable accelerator menu
ADEBUG = 0 ; turn on debugging (copies registers to $300 whenever they are set)
AOFFDFL = 0 ; accelerator off by default
.psc02
.if TESTBLD
; test build of accel code
spdpct = 1
.else
.include "iic+.defs"
.endif
; zero page
ZPAGE = $00
COUNTER = ZPAGE+0 ; used as a generic counter for loops
CALLSP = ZPAGE+1 ; stack pointer at call time
COMMAND = ZPAGE+2 ; command to execute
UBFPTRL = ZPAGE+3 ; user buffer pointer - low byte
UBFPTRH = ZPAGE+4 ; ditto - high byte
EXITCOD = ZPAGE+5 ; exit code from command
; stack
STACK = $0100
; I/O
IOPAGE = $C000
KBD = IOPAGE+$00
KBDSTR = IOPAGE+$10
ZIP5A = IOPAGE+$5A
ZIP5B = IOPAGE+$5B
ZIP5C = IOPAGE+$5C
ZIP5D = IOPAGE+$5D
ZIP5E = IOPAGE+$5E
ZIP5F = IOPAGE+$5F
; MIG
.if ::TESTBLD
MIGBASE = $0E00
.else
MIGBASE = $CE00
.endif
MIGRAM = MIGBASE
PWRUPB0 = MIGRAM+0 ; powerup byte
PWRUPB1 = MIGRAM+1 ; powerup byte
ACWL = MIGRAM+2 ; accelerator control word - low, also ZIP $C05C reg
ACWH = MIGRAM+3 ; accelerator control word - high
KBDSAVE = MIGRAM+4 ; saved keystroke
ZIP5CSV = MIGRAM+5 ; configured $C05C register
ZIP5DSV = MIGRAM+6 ; configured $C05D register
ZIP5ESV = MIGRAM+7 ; configured $C05E register
ZIP5FSV = MIGRAM+8 ; configured $C05F register
ZPSAVE = MIGRAM+$10 ; 8 zero page values saved here
MIGPAG0 = MIGBASE+$A0 ; MIG set page 0
MIGPAGI = MIGBASE+$20 ; MIG increment page
; fixed values
PWRUPV0 = $33
PWRUPV1 = $55
ESCKEY = $9B
TABKEY = $89
; routines we use
WAIT = $FCA8
AUXWAIT = $FCB5
NORMAL = $FC27
SWRTS2 = $C784
.if ::TESTBLD
.org $2000
lda #$00
pha
jsr ACCEL
rts
.else
.org $FD00
.endif
.proc ACCEL
bra accel1
.if ::ACCMENU
jmp AMENU ; entry point for menu
.else
rts ; otherwise return to caller if they want menu
.endif
accel1: php
sei
phy
phx
bit MIGPAG0
bit MIGPAGI
bit MIGPAGI
; save used ZP locations
ldx #$07
@loop: lda ZPAGE,x
sta ZPSAVE,x
stz ZPAGE,x
dex
bpl @loop
; get command & any parameters
tsx
txa
tay
iny
lda STACK+6,x
sta COMMAND
cmp #$05 ; read accelerator - first command with pointer parameter
stx CALLSP
bcc noparm ; no parameter command
lda STACK+7,x
sta UBFPTRL
lda STACK+8,x
sta UBFPTRH
iny
iny
inx
inx
noparm: inx
txs
ldx CALLSP
lda #$05
sta COUNTER
@loop: lda STACK+5,x
sta STACK+5,y
dex
dey
dec COUNTER
bne @loop
lda COMMAND
.if ::XTRACMD
cmp #$09 ; bad command number?
.else
cmp #$07
.endif
bcc docmd ; no, do command
lda #$01
sta EXITCOD
bra acceldn
docmd: asl a ; calculate jump table offset
tax
jsr dispcmd ; dispatch command
acceldn:
lda EXITCOD
pha
; restore zero page contnets
ldx #$07
@loop: lda ZPSAVE,x
sta ZPAGE,x
dex
bpl @loop ; fixed bug
pla
plx
ply
plp
clc
cmp #$00
beq doexit
sec
doexit:
.if ::TESTBLD
rts
.else
jmp SWRTS2
.endif
dispcmd:
jmp (cmdtable,x)
.endproc ; ACCEL
; Initialize Accelerator (undocumented)
.proc AINIT
; give time for user to hit key
ldx #$03
@loop: lda #$FF
.if ::TESTBLD
jsr WAIT
.else
jsr AUXWAIT
.endif
dex
bne @loop
; now read keyboard
lda KBD
sta KBDSAVE
; check powerup bytes
lda PWRUPB0
cmp #PWRUPV0
bne coldst
lda PWRUPB1
cmp #PWRUPV1
beq warmst
coldst: lda KBDSAVE
ora #$80
sta KBDSAVE
jsr MIGINIT
warmst: lda KBDSAVE
cmp #ESCKEY
bne doinit
; toggle accelerator speed
lda ACWH ; kept in ACWH
eor #$08 ; toggle bit 4
sta ACWH
doinit: jsr AUNLK ; unlock registers
jsr ASETR1 ; set registers
jsr ALOCK ; lock accelerator
; set powerup bytes
lda #PWRUPV0
sta PWRUPB0
lda #PWRUPV1
sta PWRUPB1
.if ::ACCMENU
; now handle keyboard for menu
lda KBDSAVE
cmp #TABKEY
bne initdn
sta KBDSTR
jsr AMENU
.endif
initdn: lda ACWH
and #$08
beq exinit ; 0 if accel enabled
.if ::TESTBLD
lda #$4e
sta $0500
sta KBDSTR
.else
jmp NORMAL
.endif
exinit: rts
.endproc ; AINIT
; initialize values in MIG RAM
.proc MIGINIT
ldx #$03
@loop: lda IREGV,x
sta ZIP5CSV,x
dex
bpl @loop
lda IACWL
sta ACWL
lda IACWH
sta ACWH
rts
.endproc ; MIGINIT
; conditionally enable accelerator according to bit 4 of Y register
.proc ACOND
tya
and #$08
bne ADISA
; otherwise fall through
.endproc ; ACOND
; enable accelerator
.proc AENAB
lda #$08
sta ZIP5B
trb ACWH
rts
.endproc ; AENAB
; disable accelerator
.proc ADISA
lda #$08
sta ZIP5A
tsb ACWH
rts
.endproc ; ADISA
; lock accelerator registers
.proc ALOCK
lda #$A5
sta ZIP5A
lda #$10
tsb ACWH
lda #$80
trb ACWH ; z flag is 0 if bit 7 was 0
bne :+ ; if DHiRes was off
bit ZIP5E ; otherwise make sure it is on
bra :++
: bit ZIP5F ; make sure it is off
: rts
.endproc ; ALOCK
; unlock accelerator registers
.proc AUNLK
lda $c07f ; RdDHiRes - bit 7 = 1 if off, 0 if on
and #$80
tsb ACWH ; put in ACWH
lda #$5A
sta ZIP5A
sta ZIP5A
sta ZIP5A
sta ZIP5A
lda #$10
trb ACWH
rts
.endproc ; AUNLK
; read accelerator
.proc AREAD
ldy #$00
lda ACWL
sta (UBFPTRL),y
iny
lda ACWH
sta (UBFPTRL),y
rts
.endproc ; AREAD
; write accelerator
.proc AWRIT
lda #$40
trb ACWH ; clear writable bits
ldy #$00
lda (UBFPTRL),y
tax
iny
lda (UBFPTRL),y
and #$40 ; all other bits reserved
ora ACWH ; merge in existing ACWH less the bits we cleared above
tay
;jsr AUNLK ; Apple code unlocks in write command, prob a bug.
;jsr ASETR
;jsr ALOCK ; bug cont'd.
;rts
; fall through
.endproc ; AWRIT
; set accelerator registers
; x = new ACWL
; y = new ACWH
.proc ASETR
; php
; pha
; phx
stx ACWL
stx ZIP5CSV
sty ACWH
lda #$40 ; reset paddle speed
trb ZIP5FSV
tya
and #$40 ; mask paddle speed
ora ZIP5FSV ; merge with existing $c05f values
sta ZIP5FSV ; and put back
; now set ZIP registers from MIG RAM
;jsr ASETR1
; plx
; pla
; plp
;rts
; fall through
.endproc ; ASETR1
; set accelerator registers from saved values in MIG
.proc ASETR1
ldx #$03 ; set all registers from MIG
stx ZIP5B ; turn on accelerator for writing
@loop: lda ZIP5CSV,x
sta ZIP5C,x
.if ::TESTBLD
sta MIGRAM+$0c,x ; copy to unused locs for inspection
.endif
.if ::ADEBUG
sta $300,x ; DEBUG
.endif
dex
bpl @loop
ldy ACWH ; ACWH
jmp ACOND ; leave accelerator in configured state
.endproc ; ASETR1
cmdtable:
.word AINIT
.word AENAB
.word ADISA
.word ALOCK
.word AUNLK
.word AREAD
.word AWRIT
.if ::XTRACMD
.word ARSPD
.word AWSPD
; get the accelerator speed register
.proc ARSPD
ldy #$00
lda ZIP5DSV
sta (UBFPTRL),y
rts
.endproc ; ARSPD
; write the accelerator speed register
.proc AWSPD
ldy #$00
lda (UBFPTRL),y
sta ZIP5DSV
tay
jsr AUNLK
sty ZIP5D
jsr ALOCK
rts
.endproc ; AWSPD
.endif
IACWL: .byte %01100111 ; initial ACWL - same as $C05C
.if ::AOFFDFL
IACWH: .byte %01011000 ; initial ACWH - accelerator OFF. See below for bits
.else
IACWH: .byte %01010000 ; initial ACWH - b6 = 1=paddle slow, b4 = reg 1=lock/0=unlock
; b3 = 1=accel disable, rest reserved by apple
; rom5x: b7 = state of DHiRes when accelerator was unlocked
.endif
IREGV: .byte %01100111 ; Initial $C05C - slots & speaker: b7-b1 = slot speed. b0 = speaker delay
.byte %00000000 ; Initial $C05D - $00 = 4MHz
.byte %01000000 ; Initial $C05E - b7=0 enable I/O sync, b6=undoc
.byte %01000000 ; Initial $C05F - b7=0 enable L/C accel, b6=1 paddle sync (slow)
.if ::ACCMENU
; accelerator config menu
; ---------|---------|---------|---------|
; Accel: On Spk Dly: On
; Speed: 4.00 Pdl Dly: On
;
.proc AMENU
; do this in case someone else calls us outside of AINIT
bit MIGPAG0
bit MIGPAGI
bit MIGPAGI
; save ZP locs we are using
lda COUNTER
pha
lda UBFPTRH
pha
lda UBFPTRL
pha
amenu1: jsr disp ; disp menu with Accel Off
lda ACWH ; get ACWH
and #$08 ; check accelerator enabled
bne aminp ; if not, go to input
ldx #(msg2-msg1) ; rest of menu
jsr disp0 ; on screen
lda ZIP5CSV ; should be same as ACWL
and #$01 ; bit 1 = speaker delay, 1 = enable
bne dpdl ; Skip if enabled
lda #$e6 ; Change on to off in menu
sta $06c6
sta $06c7
dpdl: lda ZIP5FSV ; 5F register has paddle delay
and #$40 ; bit 6 = paddle delay (1 = slow)
bne dspd ; 1 = on, skip
lda #$e6 ; change on to off in menu
sta $0746
sta $0747
dspd: lda ZIP5DSV ; Speed in 5D register
sta COUNTER ; if it is 4 MHz, this will stay 0
tay
beq aminp ; get input since menu already says 4.00
ldx #38 ; # of speeds(20) * 2 - 1
@sloop: lda spdtab,x ; get speed table speed byte
tay
and #$fc ; mask off irrelevant bits we use for MHz
cmp ZIP5DSV ; see if matching
beq dspd1 ; if so, display it
dex ; otherwise, next entry
dex
bpl @sloop
; fall through will say 0.00 MHz or 00%
dspd1: tya
stx COUNTER ; which speed option is selected
.if ::TESTBLD
stx $0e1f ; DEBUG
.endif
.if ::spdpct
lda #$a0 ; space
.else
and #$03 ; MHz value
ora #$b0 ; to digit
.endif
sta $072b ; ones (MHz) or 100s (%)
inx
lda spdtab,x
tay
lsr
lsr
lsr
lsr
ora #$b0
.if ::spdpct
sta $072c ; 10s (%)
.else
sta $072d ; 10ths (MHz)
.endif
tya
and #$0f
ora #$b0
.if ::spdpct
sta $072d ; 1s (%)
.else
sta $072e ; 100ths (MHz)
.endif
aminp: ldy #$00
lda #$60
sta (UBFPTRL),y
@kloop: lda KBD
bpl @kloop
bit KBDSTR
ckrtn: cmp #$8d ; return
beq exit
and #$df ; upper case
ckA: cmp #$c1 ; 'A'
bne ckrest
lda ACWH
eor #$08
sta ACWH
bra tomenu
ckrest: tay
lda ACWH ; get ACWH
and #$08 ; check accelerator enabled
bne tomenu ; if not, do not allow changes
tya
ckrt: cmp #$95 ; right arrow
bne cklt
ldx COUNTER
dex
dex
bmi tomenu
setspd: lda spdtab,x
and #$fc
sta ZIP5DSV
bra tomenu
cklt: cmp #$88 ; left arrow
bne ckS
ldx COUNTER
inx
inx
cpx #35 ; should stop at 0.67
bcc setspd
bra tomenu
ckS: cmp #$d3 ; 'S'
bne ckP
lda ZIP5CSV
eor #$01
sta ZIP5CSV
sta ACWL
bra tomenu
ckP: cmp #$d0 ; 'P'
bne tomenu
lda ZIP5FSV
eor #$40
sta ZIP5FSV
lda ACWH
eor #$40
sta ACWH
tomenu: jmp amenu1
; restore saved values and set accelerator
exit: pla
sta UBFPTRL
pla
sta UBFPTRH
pla
sta COUNTER
jsr AUNLK
jsr ASETR1
jsr ALOCK
jmp dclear
disp: jsr dclear
inx
ldy #$00
disp0: lda msg1,x
bne disp1
rts
disp1: inx
cmp #$20 ; ' '
bcc disp2
eor #$80
sta (UBFPTRL),y
inc UBFPTRL
bra disp0
disp2: sta UBFPTRH
lda msg1,x
sta UBFPTRL
inx
bra disp0
dclear: lda #$a0
ldx #$27
@cloop: sta $0628,x ; line 12
sta $06a8,x ; 13
sta $0728,x ; 14
sta $07a8,x ; 15
dex
bpl @cloop
rts
.if ::TESTBLD
.include "accelmenu.h"
spdtab:
.include "spdtab.h"
.else
msg1 = ::amenu1
msg2 = ::amenu2
.endif
.endproc ; AMENU
; check for run into vector and ROM checksum area
.assert * < $ffe0, error, "accel5x overran $ffe0"
.endif