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cc65/libsrc/atari/shadow_ram_handlers.s
Christian Groessler 6198e10f67 Atari: fix lookup of default device on XDOS. 
Stefan Dorndorf, author of XDOS, pointed out that retrieving the
default device by looking at an undocumented memory location won't
work in future XDOS versions.
He also showed a way to get the default device in a compatible
manner.

This change implements his method and adds a version check (XDOS
versions below 2.4 don't support this -- for them the behaviour
will be the same as, for example, AtariDOS: no notion of a default
drive).
2016-09-12 23:40:25 +02:00

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;
; Atari XL shadow RAM handlers
;
; Christian Groessler, chris@groessler.org, 2013
;
;DEBUG = 1
CHKBUF = 1 ; check if bounce buffering is needed (bounce buffering is always done if set to 0)
.ifdef __ATARIXL__
SHRAM_HANDLERS = 1
.include "atari.inc"
.include "save_area.inc"
.include "zeropage.inc"
.include "romswitch.inc"
.import __CHARGEN_START__
.export sram_init
.export KEYBDV_handler
.export CIO_handler
.export SIO_handler
.export SETVBV_handler
.export XMOVE_handler
BUFSZ = 128 ; bounce buffer size
BUFSZ_SIO = 256
.segment "ONCE"
; Turn off ROMs, install system and interrupt wrappers, set new chargen pointer
sram_init:
; disable all interrupts
ldx #0
stx NMIEN ; disable NMI
sei
; disable ROMs
disable_rom
; setup interrupt vectors
lda #<my_IRQ_han
sta $fffe
lda #>my_IRQ_han
sta $ffff
lda #<my_RESET_han
sta $fffc
lda #>my_RESET_han
sta $fffd
lda #<my_NMI_han
sta $fffa
lda #>my_NMI_han
sta $fffb
; enable interrupts
cli
lda #$40
sta NMIEN
rts
.segment "EXTZP" : zeropage
zpptr1: .res 2
.segment "LOWBSS"
; bounce buffers for CIO and SIO calls
bounce_buffer: .res BUFSZ_SIO
.segment "LOWCODE"
; Interrupt handlers
; ------------------
; The interrupt handlers don't look at the current state of PORTB and
; unconditionally disable the ROMs on exit.
; Please note that this works, since if the ROMs are enabled we anyway
; aren't being called here because the vectors are pointing to their
; original ROM locations.
.macro int_wrap orgvec
.local ret
pha
enable_rom_quick
lda #>ret
pha
lda #<ret
pha
php
jmp (orgvec)
ret: disable_rom_quick
pla
rti
.endmacro
my_IRQ_han:
.ifdef DEBUG
php
pha
tya
pha
ldy #0
lda (SAVMSC),y
clc
adc #1
sta (SAVMSC),y
pla
tay
pla
plp
.endif
int_wrap $FFFE
my_NMI_han:
.ifdef DEBUG
php
pha
tya
pha
ldy #39
lda (SAVMSC),y
clc
adc #1
sta (SAVMSC),y
pla
tay
pla
plp
.endif
; set I bit to interrupted value
pha
txa
pha
tsx
lda $103,x
pha
plp
pla
tax
pla
int_wrap $FFFA
my_RESET_han:
enable_rom
jmp ($FFFC)
; System request handlers
; -----------------------
; for filenames we assume they will fit into our bounce buffer
; one filename, terminated by "invalid character", located at ICBAL/ICBAH
CIO_filename:
.if CHKBUF
jsr chk_CIO_buf_fn
bcc CIO_call_a
.endif
jsr setup_zpptr1_y0
jsr copy_filename
CIO_fn_cont:
jsr bncbuf_to_iocb
ldy CIO_y
jsr CIO_call_a ; call CIO (maybe A isn't needed, then we could call CIO_call)
php
pha
jsr restore_icba ; restore original ICBAL/ICBAH
pla
plp
rts ; back to application
; two filenames, terminated and separated by "invalid character", located at ICBAL/ICBAH
CIO_filename2:
.if CHKBUF
jsr chk_CIO_buf_fn2
bcc CIO_call_a
.endif
jsr setup_zpptr1_y0
jsr copy_filename
iny
jsr copy_filename
jmp CIO_fn_cont
; CIO handler
; We have buffer pointer and length entries in the IOCB, but their
; usage depends on the function.
; Some functions don't care about any of them (pointer and length),
; and some only use the pointer (like e.g. OPEN), and some use both.
; So we need function specific handlers to correctly deal with
; buffers which are overlapping with the ROM area.
;
; FIXME: Currently only the requests used by the runtime lib are handled.
CIO_handler:
; @@@ TODO: check X for valid IOCB index ((X < $80) and ((X & $F) == 0))
sta CIO_a
sty CIO_y
stx CIO_x
lda ICCOM,x ; get function
cmp #OPEN
beq CIO_filename ; filename as input parameter in buffer, length not used
cmp #PUTREC
bcc CIO_read ; input (GETREC or GETCHR)
cmp #CLOSE
bcc CIO_write_jmp ; output (PUTREC or PUTCHR)
beq CIO_call_a ; pass through, buffer not used
cmp #RENAME ; 2 filenames as input parameters in buffer, length not used
beq CIO_filename2
cmp #GETCWD
bcc CIO_filename ; filename as input parameter in buffer, length not used
beq CIO_invalid ; GETCWD not supported yet
bcs CIO_call_a ; other commands: assume no buffer
; not reached
; enable ROM, call CIO, disable ROM
CIO_call_a:
lda CIO_a
CIOV_call:
pha
lda PORTB
sta cur_CIOV_PORTB
enable_rom
pla
jsr CIOV_org
php
pha
disable_rom_val cur_CIOV_PORTB
pla
plp
rts
CIO_write_jmp:
jmp CIO_write
CIO_invalid:
lda CIO_a
ldy #DINVCM
rts
; READ handler
; ------------
CIO_read:
lda ICBLL,x
ora ICBLH,x
beq CIO_call_a ; special I/O through A register in case buffer length is 0
.if CHKBUF
jsr chk_CIO_buf
bcc CIO_call_a
.endif
; If the data length is larger than our bounce buffer, we have to split the request into smaller ones.
; Otherwise we can get away with one call and a copy to the final destination afterwards.
lda ICBLH,x ; get high byte of length
bne big_read ; not zero -> data too large for our buffers
; CHANGE HERE TO SUPPORT BOUNCE BUFFERS > 255 BYTES
lda #<BUFSZ
cmp ICBLL,x
bcc big_read
; Data size fits into bounce buffer
jsr setup_zpptr1
jsr bncbuf_to_iocb
jsr CIO_call_a ; call CIO
php
bpl @no_err
cpy #EOFERR
beq @no_err
pha
jsr restore_icba
pla
plp
rts ; return with error
@no_err:
sta CIO_a
sty CIO_y
jsr copy_to_user ; copy data into user buffer
jsr restore_icba
lda CIO_a
ldy CIO_y
plp
rts ; return with success
; Data size does not fit into bounce buffer
big_read:
lda #0
sta retlen ; initialize return length
sta retlen+1
jsr iocblen_to_orig_len
jsr iocbptr_to_orig_ptr
jsr setup_zpptr1
jsr bncbuf_to_iocb ; let ICBAL/ICBAH point to bounce buffer
br_loop:
jsr cmp_orig_len_bnc_bufsz ; is transfer length > bounce buffer size?
bcs br_last ; no, last transfer, use remaining size
lda #>BUFSZ
sta ICBLH,x ; set data length
lda #<BUFSZ
sta ICBLL,x
bne br_cont
br_last:
lda orig_len+1
sta ICBLH,x ; set data length
lda orig_len
sta ICBLL,x
br_cont:
sta req_len ; remember length of this request
lda ICBLH,x
sta req_len+1
jsr CIO_call_a ; do the request
php
bpl br_no_err
cpy #EOFERR
beq br_no_err
pha
jsr restore_icba
pla
plp
rts ; return with error
br_no_err:
sta CIO_a
sty CIO_y
pla
sta CIO_p
jsr copy_to_user
; update retlen
clc
lda retlen
adc ICBLL,x
sta retlen
lda retlen+1
adc #0
sta retlen+1
; if the request read less bytes than requested, we're done
lda ICBLL,x
cmp req_len
bne br_done
lda ICBLH,x
cmp req_len+1
bne br_done
; update user buffer pointer (zpptr1)
clc
lda zpptr1
adc ICBLL,x
sta zpptr1
lda zpptr1+1
adc #0
sta zpptr1+1
; update remaining length
sec
lda orig_len
sbc ICBLL,x
sta orig_len
lda orig_len+1
sbc #0
sta orig_len+1
; still something left to do (remaining length != 0)?
lda orig_len
ora orig_len+1
beq br_done
jmp br_loop
; done, write original buffer pointer and total transfer length to IOCB and return to application
br_done:
lda retlen
sta ICBLL,x
lda retlen+1
sta ICBLH,x
jsr orig_ptr_to_iocbptr
lda CIO_p
pha
lda CIO_a
ldy CIO_y
plp
rts ; return with success
CIO_call_a_jmp:
jmp CIO_call_a
; WRITE handler
; -------------
CIO_write:
lda ICBLL,x
ora ICBLH,x
beq CIO_call_a_jmp ; special I/O through A register in case buffer length is 0
.if CHKBUF
jsr chk_CIO_buf
bcc CIO_call_a_jmp
.endif
; If the data length is larger than our bounce buffer, we have to split the request into smaller ones.
; Otherwise we can get away with a copy to the bounce buffer and the call.
lda ICBLH,x ; get high byte of length
bne big_write ; not zero -> data too large for our buffers
; CHANGE HERE TO SUPPORT BOUNCE BUFFERS > 255 BYTES
lda #<BUFSZ
cmp ICBLL,x
bcc big_write
; Data size fits into bounce buffer
jsr setup_zpptr1
jsr bncbuf_to_iocb
jsr copy_from_user
ldy CIO_y
jsr CIO_call_a
php
pha
jsr restore_icba
pla
plp
rts ; return to application
; Data size does not fit into bounce buffer
big_write:
lda #0
sta retlen ; initialize return length
sta retlen+1
jsr iocblen_to_orig_len
jsr iocbptr_to_orig_ptr
jsr setup_zpptr1
jsr bncbuf_to_iocb ; let ICBAL/ICBAH point to bounce buffer
bw_loop:
jsr cmp_orig_len_bnc_bufsz ; is transfer length > bounce buffer size?
bcs bw_last ; no, last transfer, use remaining size
lda #>BUFSZ
sta ICBLH,x ; set data length
lda #<BUFSZ
sta ICBLL,x
bne bw_cont
bw_last:
lda orig_len+1
sta ICBLH,x ; set data length
lda orig_len
sta ICBLL,x
bw_cont:
sta req_len ; remember length of this request
lda ICBLH,x
sta req_len+1
jsr copy_from_user
jsr CIO_call_a ; do the request
php
bpl bw_no_err
plp
rts ; error return
bw_no_err:
sta CIO_a
sty CIO_y
pla
sta CIO_p
; update retlen
clc
lda retlen
adc ICBLL,x
sta retlen
lda retlen+1
adc #0
sta retlen+1
; if the request wrote less bytes than requested, we're done
lda ICBLL,x
cmp req_len
bne bw_done
lda ICBLH,x
cmp req_len+1
bne bw_done
; update user buffer pointer (zpptr1)
clc
lda zpptr1
adc ICBLL,x
sta zpptr1
lda zpptr1+1
adc #0
sta zpptr1+1
; update remaining length
sec
lda orig_len
sbc ICBLL,x
sta orig_len
lda orig_len+1
sbc #0
sta orig_len+1
; still something left to do (remaining length != 0)?
lda orig_len
ora orig_len+1
beq bw_done
jmp bw_loop
bw_done:
lda retlen
sta ICBLL,x
lda retlen+1
sta ICBLH,x
jsr orig_ptr_to_iocbptr
lda CIO_p
pha
lda CIO_a
ldy CIO_y
plp
rts ; return with success
; check if length is larger than bounce buffer size
; input: orig_len - length
; output: A - destroyed
; CF - 0/1 for larger/not larger
cmp_orig_len_bnc_bufsz:
sec
lda #<BUFSZ
sbc orig_len
lda #>BUFSZ
sbc orig_len+1
rts
; copy data from bounce buffer into user buffer
; input: X - IOCB index
; zpptr1 - pointer to user buffer
; output: A - destroyed
; Y - 0
copy_to_user:
ldy ICBLL,x ; get # of bytes read (CHANGE HERE TO SUPPORT BOUNCE BUFFERS > 255 BYTES)
beq @copy_done
@copy: dey
lda bounce_buffer,y
sta (zpptr1),y
cpy #0
bne @copy
@copy_done:
rts
; copy data from user buffer into bounce buffer
; input: X - IOCB index
; zpptr1 - pointer to user buffer
; output: A - destroyed
; Y - 0
copy_from_user:
ldy ICBLL,x ; get # of bytes to write (CHANGE HERE TO SUPPORT BOUNCE BUFFERS > 255 BYTES)
beq @copy_done
@copy: dey
lda (zpptr1),y
sta bounce_buffer,y
cpy #0
bne @copy
@copy_done:
rts
; copy ICBLL/ICBLH to 'orig_len'
; input: X - IOCB index
; output: A - destroyed
iocblen_to_orig_len:
lda ICBLL,x
sta orig_len
lda ICBLH,x
sta orig_len+1
rts
; copy ICBAL/ICBAH to 'orig_ptr'
; input: X - IOCB index
; output: A - destroyed
iocbptr_to_orig_ptr:
lda ICBAL,x
sta orig_ptr
lda ICBAH,x
sta orig_ptr+1
rts
; copy 'orig_ptr' to ICBAL/ICBAH
; input: X - IOCB index
; output: A - destroyed
orig_ptr_to_iocbptr:
lda orig_ptr
sta ICBAL,x
lda orig_ptr+1
sta ICBAH,x
rts
; restore original contents of ICBAL/ICBAH from 'zpptr1'
; input: X - IOCB index
; output: A - destroyed
restore_icba:
lda zpptr1
sta ICBAL,x
lda zpptr1+1
sta ICBAH,x
rts
; put bounce buffer address into ICBAL/ICBAH
; input: X - IOCB index
; output: A - destroyed
bncbuf_to_iocb:
lda #<bounce_buffer
sta ICBAL,x
lda #>bounce_buffer
sta ICBAH,x
rts
; copy file name pointed to by 'zpptr1' to 'bounce_buffer'
; input: Y - index into file name buffer and bounce_buffer
; output: Y - points to first invalid byte after file name
; A - destroyed
copy_filename:
lda (zpptr1),y
sta bounce_buffer,y
beq copy_fn_done
iny
cmp #ATEOL
bne copy_filename
dey
copy_fn_done:
rts
; write IOCB buffer address into zpptr1
; input: X - IOCB index
; output: Y - 0 (for setup_zpptr1_y0, else unchanged)
; A - destroyed
setup_zpptr1_y0:
ldy #0
setup_zpptr1:
lda ICBAL,x ; put buffer address into zp pointer
sta zpptr1
lda ICBAH,x
sta zpptr1+1
rts
.if CHKBUF
; get length of file name pointed to by 'zpptr1'
; input: Y - index into file name
; output: Y - length
; A - destroyed
get_fn_len:
lda (zpptr1),y
beq @done
iny
cmp #ATEOL
bne get_fn_len
dey
@done:
rts
chk_CIO_buf_fn2:
tya
pha
lda ICBLL,x
pha
lda ICBLH,x
pha
jsr setup_zpptr1_y0
jsr get_fn_len
iny ; include terminating zero
bne fn_cont
chk_CIO_buf_fn:
tya
pha
lda ICBLL,x
pha
lda ICBLH,x
pha
jsr setup_zpptr1_y0
fn_cont:jsr get_fn_len
iny ; include terminating zero
tya
sta ICBLL,x
lda #0
sta ICBLH,x
jsr chk_CIO_buf
pla
sta ICBLH,x
pla
sta ICBLL,x
pla
tay
rts
; check if a CIO input/output buffer overlaps with ROM area (>= $C000)
; input: X - IOCB index
; ICBAL/ICBAH/ICBLL/ICBLH - buffer address and length
; output: CF - 1/0 for overlap/no overlap
; A - destroyed
chk_CIO_buf:
lda ICBAH,x
cmp #$c0
bcc @cont
@ret:
.ifdef DEBUG
jsr CIO_buf_noti
.endif
rts
@cont: lda ICBAL,x
clc
adc ICBLL,x
lda ICBAH,x
adc ICBLH,x
bcs @ret ; ??? wraparound
cmp #$c0
.ifdef DEBUG
jsr CIO_buf_noti
.endif
rts
.ifdef DEBUG
; write to screen memory on 2nd line:
; pos 0: # of accesses without buffering
; pos 1: # of accesses with buffering
CIO_buf_noti:
php
pha
tya
pha
bcc @nobuf
inc CIObnval_dobuf
jmp @cont
@nobuf: inc CIObnval_nobuf
@cont: ldy #40
lda CIObnval_nobuf
sta (SAVMSC),y
ldy #41
lda CIObnval_dobuf
sta (SAVMSC),y
pla
tay
pla
plp
rts
CIObnval_dobuf:
.byte 0
CIObnval_nobuf:
.byte 0
.endif
.endif ; .if CHKBUF
;---------------------------------------------------------
; SIO handler
; We only handle SIO_STAT, SIO_READ, SIO_WRITE, and SIO_WRITEV.
; These are the only functions used by the runtime library currently.
; For other function we return NVALID status code.
SIO_handler:
lda DCOMND ; get command
cmp #SIO_STAT
beq SIO_stat
cmp #SIO_READ
beq SIO_read
cmp #SIO_WRITE
beq SIO_write
cmp #SIO_WRITEV
beq SIO_write
; unhandled command
lda #NVALID
SIO_err:sta DSTATS
rts
; SIO_STAT is always called with a low buffer (by the runtime)
SIO_stat:
; fall thru
SIO_call:
lda PORTB
sta cur_SIOV_PORTB
enable_rom
jsr SIOV_org
php
pha
disable_rom_val cur_SIOV_PORTB
pla
plp
rts
; SIO read handler
; ----------------
SIO_read:
.if CHKBUF
jsr chk_SIO_buf
bcc SIO_call
.endif
; we only support transfers <= bounce buffer size
jsr cmp_sio_len_bnc_bufsz
bcs sio_read_len_ok
lda #DERROR ; don't know a better status code for this
bne SIO_err
sio_read_len_ok:
lda DBUFLO
sta zpptr1 ; remember destination buffer address
lda DBUFHI
sta zpptr1+1
jsr bncbuf_to_dbuf ; put bounce buffer address to DBUFLO/DBUFHI
jsr SIO_call ; do the operation
pha
lda DSTATS ; get status
bmi sio_read_ret ; error
; copy data to user buffer
sio_read_ok:
lda DBYTHI ; could be 1 for 256 bytes
beq srok1
ldy #0
beq srok2
srok1: ldy DBYTLO
srok2: dey
sio_read_copy:
lda bounce_buffer,y
sta (zpptr1),y
dey
cpy #$ff
bne sio_read_copy
sio_read_ret:
jsr orgbuf_to_dbuf
pla
rts ; success return
; SIO write handler
; -----------------
SIO_write:
.if CHKBUF
jsr chk_SIO_buf
bcc SIO_call
.endif
; we only support transfers <= bounce buffer size
jsr cmp_sio_len_bnc_bufsz
bcs sio_write_len_ok
lda #DERROR ; don't know a better status code for this
jmp SIO_err
sio_write_len_ok:
lda DBUFLO
sta zpptr1 ; get source buffer address
lda DBUFHI
sta zpptr1+1
; copy data from user buffer to bounce buffer
lda DBYTHI ; could be 1 for 256 bytes
beq swok1
ldy #0
beq swok2
swok1: ldy DBYTLO
swok2: dey
sio_write_copy:
lda (zpptr1),y
sta bounce_buffer,y
dey
cpy #$ff
bne sio_write_copy
jsr bncbuf_to_dbuf ; put bounce buffer address to DBUFLO/DBUFHI
jsr SIO_call ; do the operation
pha
jsr orgbuf_to_dbuf
pla
rts
; check if SIO length is larger than bounce buffer size
; input: orig_len - length
; output: A - destroyed
; CF - 0/1 for larger/not larger
cmp_sio_len_bnc_bufsz:
sec
lda #<BUFSZ_SIO
sbc DBYTLO
lda #>BUFSZ_SIO
sbc DBYTHI
rts
; put bounce buffer address into DBUFLO/DBUFHI
; input: (--)
; output: A - destroyed
bncbuf_to_dbuf:
lda #<bounce_buffer
sta DBUFLO
lda #>bounce_buffer
sta DBUFHI
rts
; put original buffer address into DBUFLO/DBUFHI
; input: zpptr1 - original pointer
; output: A - destroyed
orgbuf_to_dbuf:
lda zpptr1
sta DBUFLO
lda zpptr1+1
sta DBUFHI
rts
.if CHKBUF
; check if a SIO input/output buffer overlaps with ROM area (>= $C000)
; input: DBUFLO/DBUFHI/DBYTLO/DBYTHI - buffer address and length
; output: CF - 1/0 for overlap/no overlap
; A - destroyed
chk_SIO_buf:
lda DBUFHI
cmp #$c0
bcc @cont
@ret:
.ifdef DEBUG
jsr SIO_buf_noti
.endif
rts
@cont: lda DBUFLO
clc
adc DBYTLO
lda DBUFHI
adc DBYTHI
bcs @ret ; ??? wraparound
cmp #$c0
.ifdef DEBUG
jsr SIO_buf_noti
.endif
rts
.ifdef DEBUG
; write to screen memory on 2nd line:
; pos 38: # of accesses without buffering
; pos 39: # of accesses with buffering
SIO_buf_noti:
php
pha
tya
pha
bcc @nobuf
inc SIObnval_dobuf
jmp @cont
@nobuf: inc SIObnval_nobuf
@cont: ldy #78
lda SIObnval_nobuf
sta (SAVMSC),y
ldy #79
lda SIObnval_dobuf
sta (SAVMSC),y
pla
tay
pla
plp
rts
SIObnval_dobuf:
.byte 0
SIObnval_nobuf:
.byte 0
.endif
.endif ; .if CHKBUF
;---------------------------------------------------------
KEYBDV_handler:
lda #>(kret-1)
pha
lda #<(kret-1)
pha
lda PORTB
sta cur_KEYBDV_PORTB
enable_rom
lda KEYBDV+5
pha
lda KEYBDV+4
pha
rts ; call keyboard handler
kret: pha
disable_rom_val cur_KEYBDV_PORTB
pla
rts
;---------------------------------------------------------
SETVBV_handler:
pha
lda PORTB
sta cur_SETVBV_PORTB
enable_rom
pla
jsr SETVBV_org
php
pha
disable_rom_val cur_SETVBV_PORTB
pla
plp
rts
;---------------------------------------------------------
XMOVE_handler:
pha
lda PORTB
sta cur_XMOVE_PORTB
enable_rom
pla
jsr XMOVE_org
php
pha
disable_rom_val cur_XMOVE_PORTB
pla
plp
rts
CIO_a: .res 1
CIO_x: .res 1
CIO_y: .res 1
CIO_p: .res 1
cur_CIOV_PORTB: .res 1
cur_SIOV_PORTB: .res 1
cur_KEYBDV_PORTB: .res 1
cur_SETVBV_PORTB: .res 1
cur_XMOVE_PORTB: .res 1
orig_ptr: .res 2
orig_len: .res 2
req_len: .res 2
retlen: .res 2
.endif ; .ifdef __ATARIXL__
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