* AUXMEM.MISC.S * (c) Bobbi 2021 GPLv3 * * Misc functions and API entry block * TO DO: Write GSINIT/GSREAD * OSBYTE $80 - ADVAL ************************************ * Read input device or buffer status BYTE80 LDY #$00 ; Prepare return=&00xx TXA ; X<0 - info about buffers BMI ADVALBUF ; X>=0 - read input devices CPX #$7F BNE ADVALNONE ADVALWAIT JSR KBDREAD BCS ADVALWAIT TAX RTS ADVALNONE LDX #$00 ; Input, just return 0 RTS ADVALBUF INX BEQ :ADVALKBD ; Fake keyboard buffer INX BEQ :ADVALOK ; Serial input, return 0 LDX #$01 ; For outputs, return 1 char free RTS :ADVALKBD BIT $C000 ; Test keyboard data/strobe BPL :ADVALOK ; No Strobe, return 0 INX ; Strobe, return 1 :ADVALOK RTS ****************** * Helper functions ****************** * Beep * * Sound measurement shows the tone formula is: * 1.230 MHz * ------------- = cycles * 8 * frequency * * cycles = BEEPX*5+10 * * So: * BEEPX = (cycles-10)/5 * So: * BEEPX = ( 1.230 MHz ) * (------------- - 10 ) / 5 * (8 * frequency ) * BEEPX EQU #57 ; note=C5 BEEPX EQU #116 ; note=C4 BEEP PHA PHX PHY LDY #$00 ; duration :L1 LDX #BEEPX ; 2cy pitch 2cy *------------------------------------------------------ :L2 DEX ; 2cy BEEPX * 2cy BNE :L2 ; 3cy/2cy (BEEPX-1) * 3cy + 1 * 2cy *------------------------------------------------------ * BEEPX*5-1cy LDA $C030 ; 4cy BEEPX*5+5 DEY ; 2cy BEEPX*5+7 BNE :L1 ; 3cy/2cy BEEPX*5+10 PLY ; PLX PLA RTS ** Delay approx 1/100 sec ************************* ** Enter at DELAY with CS to test keyboard ** Enter at CENTI to ignore keyboard ** *CENTI CLC ; Don't test keyboard *DELAY PHX ; 3cy * PHY ; 3cy * LDY #10 ; 2cy 10 * 1/1000s **------------------------------------------------ *:L1 LDX #$48 ; 2cy $48 gives about 1/1000s *:L2 BCC :L3 ; 2cy/3cy Don't test kbd * LDA $C000 ; 4cy * BMI :L5 ; 2cy keypress, exit early *:L3 DEX ; 2cy * BNE :L2 ; 3cy/2cy -> 72*(2+2+4+2+2+3)-1 ** ; = 1079 -> 0.00105s **------------------------------------------------ *:L4 DEY ; 2cy * BNE :L1 ; 3cy/2cy *:L5 PLY ; 4cy * PLX ; 4cy * RTS ; 6cy * Print string pointed to by X,Y to the screen OUTSTR TXA * Print string pointed to by A,Y to the screen PRSTR STA OSTEXT+0 ; String in A,Y STY OSTEXT+1 :L1 LDA (OSTEXT) ; Ptr to string in ZP3 BEQ :S1 JSR OSASCI INC OSTEXT BNE :L1 INC OSTEXT+1 BRA :L1 :S1 RTS * Print XY in hex OUT2HEX TYA JSR OUTHEX TAX ; Continue into OUTHEX * Print hex byte in A OUTHEX PHA LSR LSR LSR LSR AND #$0F JSR PRNIB PLA AND #$0F ; Continue into PRNIB * Print hex nibble in A PRNIB CMP #$0A BCC :S1 CLC ; >= $0A ADC #'A'-$0A JSR OSWRCH RTS :S1 ADC #'0' ; < $0A JMP OSWRCH ********************************************************** * Interrupt Handlers, MOS redirection vectors etc. ********************************************************** * Invoked from GSBRK in main memory. On IIgs only. GSBRKAUX >>> IENTAUX ; IENTAUX does not do CLI * Continue into IRQBRKHDLR * TO DO: Check, IENTAUX modifies X * IRQ/BRK handler IRQBRKHDLR PHA * Mustn't enable IRQs within the IRQ handler * Do not use WRTMAIN/WRTAUX macros STA $C004 ; Write to main memory STA $45 ; $45=A for ProDOS IRQ handlers STA $C005 ; Write to aux memory TXA PHA CLD TSX LDA $103,X ; Get PSW from stack AND #$10 BEQ :IRQ ; IRQ SEC LDA $0104,X SBC #$01 STA FAULT LDA $0105,X SBC #$00 STA FAULT+1 PLA TAX PLA CLI JMP (BRKV) ; Pass on to BRK handler :IRQ >>> XF2MAIN,A2IRQ ; Bounce to Apple IRQ handler IRQBRKRET >>> IENTAUX ; IENTAUX does not do CLI PLA ; TODO: Pass on to IRQ1V TAX PLA NULLRTI RTI PRERR LDY #$01 PRERRLP LDA (FAULT),Y BEQ PRERR1 JSR OSWRCH INY BNE PRERRLP NULLRTS PRERR1 RTS MOSBRKHDLR LDA #MSGBRK JSR PRSTR JSR PRERR JSR OSNEWL JSR OSNEWL STOP JMP STOP ; Cannot return from a BRK MSGBRK DB $0D ASC "ERROR: " DB $00 RDROM LDA #OSRDRMM JMP PRSTR OSRDRMM ASC 'OSRDDRM.' DB $00 EVENT LDA #OSEVENM JMP PRSTR OSEVENM ASC 'OSEVEN.' DB $00 GSINTGO LDA #OSINITM JMP PRSTR OSINITM ASC 'GSINITM.' DB $00 GSRDGO LDA #OSREADM JMP PRSTR OSREADM ASC 'GSREAD.' DB $00 * Default page 2 contents DEFVEC DW NULLRTS ; $200 USERV DW MOSBRKHDLR ; $202 BRKV DW NULLRTI ; $204 IRQ1V DW NULLRTI ; $206 IRQ2V DW CLIHND ; $208 CLIV DW BYTEHND ; $20A BYTEV DW WORDHND ; $20C WORDV DW WRCHHND ; $20E WRCHV DW RDCHHND ; $210 RDCHV DW FILEHND ; $212 FILEV DW ARGSHND ; $214 ARGSV DW BGETHND ; $216 BGETV DW BPUTHND ; $218 BPUTV DW GBPBHND ; $21A GBPBV DW FINDHND ; $21C FINDV DW FSCHND ; $21E FSCV ENDVEC * * Acorn MOS entry points at the top of RAM * Copied from loaded code to high memory * * Base of API entries here in loaded code MOSVEC * Real base of API entries in real memory MOSAPI EQU $FFB6 ORG MOSAPI * OPTIONAL ENTRIES * ---------------- *OSSERV JMP NULLRTS ; FF95 OSSERV *OSCOLD JMP NULLRTS ; FF98 OSCOLD *OSPRSTR JMP OUTSTR ; FF9B PRSTRG *OSFF9E JMP NULLRTS ; FF9E *OSSCANHEX JMP RDHEX ; FFA1 SCANHX *OSFFA4 JMP NULLRTS ; FFA4 *OSFFA7 JMP NULLRTS ; FFA7 *PRHEX JMP OUTHEX ; FFAA PRHEX *PR2HEX JMP OUT2HEX ; FFAD PR2HEX *OSFFB0 JMP NULLRTS ; FFB0 *OSWRRM JMP NULLRTS ; FFB3 OSWRRM * COMPULSARY ENTRIES * ------------------ VECSIZE DB ENDVEC-DEFVEC ; FFB6 VECSIZE Size of vectors VECBASE DW DEFVEC ; FFB7 VECBASE Base of default vectors OSRDRM JMP RDROM ; FFB9 OSRDRM Read byte from paged ROM OSCHROUT JMP OUTCHAR ; FFBC CHROUT Send char to VDU driver OSEVEN JMP EVENT ; FFBF OSEVEN Signal an event GSINIT JMP GSINTGO ; FFC2 GSINIT Init string reading GSREAD JMP GSRDGO ; FFC5 GSREAD Parse general string NVWRCH JMP WRCHHND ; FFC8 NVWRCH Nonvectored WRCH NVRDCH JMP RDCHHND ; FFCB NVRDCH Nonvectored RDCH OSFIND JMP (FINDV) ; FFCE OSFIND OSGBPB JMP (GBPBV) ; FFD1 OSGBPB OSBPUT JMP (BPUTV) ; FFD4 OSBPUT OSBGET JMP (BGETV) ; FFD7 OSBGET OSARGS JMP (ARGSV) ; FFDA OSARGS OSFILE JMP (FILEV) ; FFDD OSFILE OSRDCH JMP (RDCHV) ; FFE0 OSRDCH OSASCI CMP #$0D ; FFE3 OSASCI BNE OSWRCH OSNEWL LDA #$0A ; FFE7 OSNEWL JSR OSWRCH OSWRCR LDA #$0D ; FFEC OSWRCR OSWRCH JMP (WRCHV) ; FFEE OSWRCH OSWORD JMP (WORDV) ; FFF1 OSWORD OSBYTE JMP (BYTEV) ; FFF4 OSBYTE OSCLI JMP (CLIV) ; FFF7 OSCLI NMIVEC DW NULLRTI ; FFFA NMIVEC RSTVEC DW STOP ; FFFC RSTVEC IRQVEC * Assembler doesn't like running up to $FFFF, so we bodge a bit MOSEND ORG MOSEND-MOSAPI+MOSVEC DW IRQBRKHDLR ; FFFE IRQVEC MOSVEND * Buffer for one 512 byte disk block in aux mem AUXBLK ASC '**ENDOFCODE**' DS $200-13