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of816/platforms/GoSXB/platform-lib.s

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5.9 KiB
ArmAsm
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2019-12-05 05:21:57 +00:00
; Platform support library for GoSXB
cpu_clk = 8000000
.enum ACIA
RXD
SR
CMD
CTL
TXD = RXD
.endenum
ACIA1 = $7F80
.enum PIA
PIA
CRA
PIB
CRB
DDRA = PIA
DDRB = PIB
.endenum
PIA1 = $7FA0
.enum VIA
ORB
ORA
DDRB
DDRA
T1C_L
T1C_H
T1L_L
T1L_H
T2C_L
T2C_H
SR
ACR
PCR
IFR
IER
ORA2
IRB = ORB
IRA = ORA
.endenum
VIA1 = $7FC0
VIA2 = $7FE0
dstart "gosxb"
dchain H_FORTH ; Make branch off the word FORTH
dword GOSXB_TEST,"TEST"
ENTER
SLIT "Success?"
.dword TYPE
EXIT
eword
dend
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.proc _system_interface
;wdm 3
phx
asl
tax
jmp (.loword(table),x)
table: .addr _sf_pre_init
.addr _sf_post_init
.addr _sf_emit
.addr _sf_keyq
.addr _sf_key
.addr _sf_fcode
.addr _sf_reset_all
.endproc
.export _system_interface
.proc _sf_success
lda #$0000
tay
clc
rtl
.endproc
.proc _sf_fail
ldy #.loword(-21)
lda #.hiword(-21)
sec
rtl
.endproc
.proc _sf_pre_init
.if 0
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plx
jmp _sf_success ; assume WDC monitor already did it
.else
; set up TIDE interface, the same way WDC does it
php
sep #SHORT_A|SHORT_I
.a8
.i8
lda #$00
sta f:VIA2+VIA::ACR
sta f:VIA2+VIA::PCR
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lda #%00011000 ; b3 = TUSB_RDB; b4 = ???
sta f:VIA2+VIA::ORB
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lda #%00011100 ; set PB2, PB3, PB4 as outputs
sta f:VIA2+VIA::DDRB
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lda #$00
sta VIA2+VIA::DDRA
lda VIA2+VIA::IRB
pha
and #%11101111 ; b4 = ???
sta f:VIA2+VIA::ORB
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ldx #$5d
jsr wait
pla
sta f:VIA2+VIA::ORB
: lda f:VIA2+VIA::IRB ; wait for USB configuration
bit #%00100000 ; b5 = TUSB_PWRENB
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bne :-
plp
plx
jmp _sf_success
wait: phx ; note 8-bit mode!
ldx #$00
: dex
bne :-
plx
dex
bne wait
rts
.a16
.i16
.endif
.endproc
.proc _sf_post_init
plx
; Here we make a vocabulary definition for the gosxb dictionary
; that we defined at the beginning of this file.
ENTER
ONLIT LAST_gosxb
SLIT "GOSXB"
.dword dVOCAB
.dword LAST ; now set the head of the vocabulary to the
.dword drXT ; last word defined in the neon816 dictionary
.dword rBODY
.dword STORE
CODE
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jmp _sf_success
.endproc
.proc _sf_emit
plx
jsr _popay
phx
php
sep #SHORT_A|SHORT_I
.a8
.i8
lda #$00 ; ensure VIA2 DDR A is set up for input
sta f:VIA2+VIA::DDRA
tya
sta f:VIA2+VIA::ORA ; set output byte to be sent
: lda f:VIA2+VIA::IRB ; wait for FT245RL to be ready to transmit
bit #%00000001 ; b0 = TUSB_TXEB
bne :-
lda f:VIA2+VIA::IRB
and #%11111011 ; b2 = TUSB_WR
tax
ora #%00000100
sta f:VIA2+VIA::ORB ; ensure FT245RL WR high
lda #$ff ; set up DDR A for output
sta f:VIA2+VIA::DDRA ; to present byte to send
nop ; delay a few cycles
txa
sta f:VIA2+VIA::ORB ; strobe FT245RL WR low
lda VIA2+VIA::IRA ; get output byte back (we don't really need it)
xba
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lda #$00
sta f:VIA2+VIA::DDRA ; switch DDR A back to input
xba
plp
.a16
.i16
plx
jmp _sf_success
.endproc
.proc _sf_keyq
lda #$00
tay ; anticipate false
php
sep #SHORT_A
.a8
sta f:VIA2+VIA::DDRA
lda f:VIA2+VIA::IRB
bit #%00000010
bne :+
dey ; from $0000 to $FFFF
: plp
.a16
tya
plx
jsr _pushay
jmp _sf_success
.endproc
.proc _sf_key
php
tay
sep #SHORT_A|SHORT_I
.a8
.i8
lda #$00
sta f:VIA2+VIA::DDRA ; Ensure VIA2 DDR A is set up for input
: lda f:VIA2+VIA::IRB ; wait for FT245RL to have data & be ready
bit #%00000010 ; b1 = TUSB_RXFB
bne :-
lda f:VIA2+VIA::IRB
ora #%00001000 ;b3 = TUSB_RDB
tax
and #%11110111
sta f:VIA2+VIA::ORB ; strobe FT245RL RD# low
nop ;delay some cycles
nop
nop
nop
lda f:VIA2+VIA::IRA ; receive byte
tay
txa
sta f:VIA2+VIA::ORB ; strobe FT245RL RD# high
plp
.a16
.i16
lda #$0000
plx
jsr _pushay
jmp _sf_success
.endproc
.proc _sf_fcode
.if include_fcode
ldy #.loword(list)
lda #.hiword(list)
.else
lda #$0000
tay
.endif
plx
jsr _pushay
jmp _sf_success
.if include_fcode
list:
.dword 0
.endif
.endproc
; SXB really can't do this when ROM is banked out. Maybe restart Forth instead?
.proc _sf_reset_all
plx
jmp _sf_fail
.endproc