; I2AP-11.ASM - Apple ][ overlay file for IMP - 06/01/87 ; ; BASIS = 6551 (built-in divisor) ; APR = 6850 (uses divide by 16 or by 64) ; CCS = 6850 (uses divide by 16 or by 64) ; CPS = 2651 (built-in divisor) ; SSC = 6551 (built-in divisor) ; VERSA = 6850 (uses divide by 16 or by 64) ; IIGS = Special firmware interface (hardware independant) ; ; This overlay file adapts Apple II computers with various serial cards ; and external 2400 bps modems to IMP.COM. It supports the following ; configurations: ; ; NOTE: If you have trouble disonnecting from the ; phone line, you may not have a normal DTR ; setup to turn off the modem. In that case, ; set the NODTR: option at 011E to YES, to ; provide ATH0 to disonnect. (This assumes ; you have a Hayes-compatible type modem with ; "AT" command set.) ; ; ; CP/M adapter cards: ; ------------------ ; ALS CP/M 3.0 adapter card ; Applied Engineering Z80+ or Z80C ; Microsoft Softcard Z80 equivalent ; PCPI Applicard ; BASIS 108 System (German Apple) ; ; Serial cards ; ------------ ; a) ALS Dispatcher card ; * b) Apricorn serial card (see note below about baudrate) - 6850 ; c) CCS 7710 serial card (see note below about baudrate) - 6850 ; d) Apple Supera Serial Comcard - 6551 ; e) Mountain Hardware CPS Multifunction card - 2651 ; f) Apple SSC communications interface - 6551 ; g) SSM serial interface - ; h) Prometheus Versacard with software baud select - 6850 ; i) Apple IIgs modem or printer port -- hardware independant ; ; * The 6850 has no baudrate generator. It relies on the user ; setting a dip switch to the maximum speed he wants to use. ; The program then uses the 6850 in the "divide by 16" mode ; to get that speed. It can then change to "divide by 64" ; to get the only other speed available. This type system ; normally limits the user to 1200 and 300 baud. If you ; set the dip switches for 2400, then you could only get ; 2400 and 600, eliminating both 1200 and 300 baud. Using ; either the Apricorn or CCS 7710 board just about precludes ; the user from wanting to obtain a new modem with 2400 bps. ; gives "divide by 16" and 10 gives "divide by 64". ; ;----------------------------------------------------------------------- ; ; You will want to look this file over carefully. There are a number of ; options that you can use to configure the program to suit your taste. ; ; Edit this file for your preferences then follow the "TO USE:" example ; shown below. ; ; Many terminals will clear the screen with a CTL-Z. If yours does, put ; a 1AH at CLEAR: (010AH). Many terminals use two characters, the first ; normally an ESC. For example, ESC *. In this case put '*' at CLEAR: ; (The ESC will automatically be typed with no CTL-character present.) ; If you don't know what your terminal uses, put a 0 at CLEAR: and IMP ; will scroll up 24 blank lines to clear the CRT for things like MENU, ; looking at the function key table, typing CTL-Z in command mode, etc. ; ; Use the "SET" command to change the baudrate when desired. The value ; at MSPEED controls the baudrate when the program is first called up. ; ; TO USE: First edit this file filling in answers for your own ; equipment. Then assemble with ASM.COM or equivalent ; assembler. Then use MLOAD to merge into the main file: ; ; MLOAD IMP.COM=IMP.COM,I2AP-x.HEX ; ; - Notes by Irv Hoff W6FFC ; ;----------------------------------------------------------------------- ; MC6850 ACIA I/O information ; ; NOTE: If using a serial card with the Motorola ; MC6850 ACIA, this chip does not have a DTR ; output. It does have a RTS (request to send) ; option which we have used to substitute for ; the missing DTR. This comes out on pin 4 ; of the RS-232 DB-25 pin connector. Hook that ; to the modem's pin 20. Be sure then to have ; the DTR toggle switch on the modem itself in ; the "remote DTR voltage" position. For Hayes ; modems this is switch 1 (should be "up".) The ; normal Hayes configuration are switches 3,5,8 ; down, 1,2,4,6,7 up. ; ; If you have any trouble disconnecting, then set ; the NODTR: option in the list below to YES and ; it will then use ATH0 to disconnect. This may ; take 3-4 seconds. ; ; The CCS 7710 serial card is set up as DCE rather than the more usual ; DTE, and requires a special cable.....the following cable configura- ; ion is necessary to work with this overlay ----- ; ; ; 2 3 ; 3 2 ; 5 4 ; 8 20 ; 7 7 ; 20 5 ; ; Hayes 1200 switch 6 must be down...(DCD true) ; - Norman Beeler ; ;---------------------------------------------------------------------- ; VERSAcard ; ; To use SET with the Prometheus VERSAcard a small hardware change must ; be made, since the VERSAcard only supports baud rate selection via DIP ; switches. This change will allow the VERSAcard to be switched between ; 300 and 1200 baud via software. A wire should be attached from Pin ; #12 on U16 (IC marked 8126) on the VERSAcard into Annunciator #3 (Pin ; #12) on the Apple game port. This will allow switch #4 on s2 of the ; VERSAcard to be toggled by setting or clearing annunciator #3. The de- ; fault baud rate is set at MSPEED Below either (300 or 1200). ; ; Note: This method could be extended to all other VERSAcard baud rates ; and by using Annunciators 0,1,2 but 300 and 1200 are really ; needed for a modem program. The DIP switches on the VERSAcard ; should be set as follows: ; ; On switch bank #2: ; S2 - ON ; S3 - OFF ; S4 - OFF ; S5 - OFF ; ; ; NOTE: If you have trouble disonnecting from the ; phone line, you may not have a normal DTR ; setup to turn off the modem. In that case, ; set the NODTR: option at 011E to YES, to ; provide ATH0 to disonnect. (This assumes ; you have a Hayes-compatible type modem with ; "AT" command set.) ; ; ; _________________ ; | | ; | 7 6 5 4 3 2 1 0 | 6850 ACIA for serial I/O ; |_________________| ; ; CR1 CR0 Function ; 0 0 1 ; * 0 1 16 (for 1200 bps) ; + 1 0 64 (changes to 300 baud) ; 1 1 Master reset ; CR4 CR3 CR2 ; 0 0 0 7 bits, even parity, 2 stop bits ; 0 0 1 7 bits, odd parity, 2 stop bits ; 0 1 0 7 bits, even parity, 1 stop bit ; 0 1 1 7 bits, odd parity, 1 stop bit ; 1 0 0 8 bits, no parity, 2 stop bits ; * 1 0 1 8 bits, no parity, 1 stop bit ; 1 1 0 8 bits, even parity, 1 stop bit ; 1 1 1 8 bits, odd parity, 1 stop bit ; ; CR6 CR5 ; 0 0 RTS low, Xmit interrupt disabled ; 0 1 RTS low, Xmit interrupt enabled ; * 1 0 RTS high, Xmit interrupt disabled ; 1 1 RTS low, Xmit interrupt disabled, break sent ; ; CR7 ; 0 Interrupts disabled ; * 1 Enables recieve buffer full, overrun, low-to-high ; transition on the data carrier detect. ; ; - Notes by Irv Hoff W6FFC ; ;---------------------------------------------------------------------- ; ; IIgs Modem port ; ; The Apple //gs modem port has a special firmware interface sort of ; based on the Pascal firmware interface. The Pascal interface supplies ; the basic read/write routines, and the extended command hook provides ; the means to toggle the DTR line, and the ability to enable/disable ; Ctrl-A commands. Ctrl-A commands provide the ability to change baud ; rates, and send break tones. Unfortunatly, this implementation forces ; the use of 6502 function calls, not just peeks and pokes to 6502 ; space. The author has implemented this only for the PCPI Applicard, ; however, it probably wouldn't be too tough to addapt. As a starting ; point for Microsoft owners, perhaps one could run the 6502 routines ; where they reside in the IMP.COM file itself, rather that moving them ; somewhere else. ; ; This implementation uses techniques that Apple has "guaranteed" to ; remain compatable. ; ; - Nick Sayer ; ; = = = = = = = = = = = = = = = = = = ; ; 11/04/88 Added IIgs serial port support routines. ONLY for PCPI... ; v11 ; ; 06/01/87 Improved the GOODBYE routine, added BREAK routine, needs ; v9 IMP245 to use it. (Set for ESC Q at present.) ; - Irv Hoff ; ; v8 - Irv Hoff ; ; 02/27/86 Fixed several sections so the BASIS 108 option would work ; v7 correctly. - Irv Hoff ; ; 01/17/85 Added the Applied Engineering Z80 card. Added the Apricorn ; v6 serial card, fixed a problem with the CCS serial card so the ; program would assemble correctly. Note added to tell about ; the CCS and Apricorn being limited to 300/1200 bps, if 2400 ; bps is needed, likely will want a different serial card. ; - Irv Hoff ; ; 09/27/85 Fixed compile errors for CCS serial option, added DTR sup- ; v5 port, modem cable description (for CCS board, only). ; - Norman Beeler ; ; 09/22/85 Corrected SSC INITMOD1 routine - changed JMP to CALL. ; v4 - Douglas Thom ; ; 09/15/85 Added SET300 in CPS INITMOD to fix cold boot problem. ; v3 - Norman Beeler ; ; 08/27/85 Added to support the BASIS 108 ; v2 - Clay Walker ; ; 07/17/85 Written to work with IMP - Irv Hoff ; v1 ; ; = = = = = = = = = = = = = = = = = = ; ; YES EQU 0FFH NO EQU 0 ; ; ;====================== CUSTOMIZATION EQUATES ========================== ; SLOT EQU 2 ; Slot of serial interface SLOTOFF EQU 16*SLOT ; Serial card slot offset IF IIGS SLOTOF2 EQU 256*SLOT ; Firmware offset ENDIF ; ; ; CP/M adapter cards for Apple ][ ; ALSCARD EQU NO ; Yes if using ALS CP/M card APPLIED EQU NO ; Yes if using Applied Engineering Z80 PCPI EQU YES ; Yes if using PCPI Applicard CP/M card BASIS EQU NO ; Yes if BASIS 108 MICROSOFT EQU NO ; Yes if Microsoft Softcard CP/M card ; ; ; Serial I/O cards for Apple ][ ; ALSDSP EQU NO ; Yes for ALS Dispatcher APR EQU NO ; Yes for Apricorn serial card COMCARD EQU NO ; Yes for Apple Comcard CPS EQU NO ; Yes for CPS card SSC EQU NO ; Yes for Super Serial Card SSM EQU NO ; Yes for SSM serial card VERSA EQU NO ; Yes for Prometheus VERSAcard IIGS EQU YES ; Yes for IIgs serial port ; CPSPRT EQU NO ; Yes if using CPS parallel printer port ; ; ;----------------------------------------------------------------------- ; IF ALSCARD OR PCPI MAPOFF EQU 0 ; No memory remapping for either ENDIF ; ALSCARD OR PCPI ; IF APPLIED OR MICROSOFT MAPOFF EQU 2000H ; Microsoft strikes again ENDIF ; APPLIED OR MICROSOFT ; ; ;----------------------------------------------------------------------- ; IF BASIS MDDATP EQU 0E098H ; Data Port MDCTL1 EQU 0E099H ; Status Port MDCTL2 EQU 0E09AH ; Command Port MDCTL3 EQU 0E09BH ; Control Port MDRCV EQU 08H ; Same as SSC (6551 ACIA) MDSND EQU 10H ; " MDTXE EQU 10H ; " ENDIF ; BASIS ; ; ;----------------------------------------------------------------------- ; IF APR MDCTL1 EQU 0C08EH+SLOTOFF+MAPOFF ; Status port of Apricorn MDDATP EQU 0C08FH+SLOTOFF+MAPOFF ; Data port of Apricorn ENDIF ; APR ; ; ;----------------------------------------------------------------------- ; IF CCS MDCTL1 EQU 0C080H+SLOTOFF+MAPOFF ; Status port of CCS 7710 MDDATP EQU 0C081H+SLOTOFF+MAPOFF ; Data port of CCS 7710 ENDIF ; CCS ; ; ;----------------------------------------------------------------------- ; IF ALSDSP OR COMCARD OR VERSA MDCTL1 EQU 0C08EH+SLOTOFF+MAPOFF ; Status port of Comcard ENDIF ; ALSDSP OR COMCARD OR VERSA ; ; ;----------------------------------------------------------------------- ; IF CPS MDCPST EQU 0C0F9H+SLOT*100H+MAPOFF ; Printer status port MDDATP EQU 0C0FAH+SLOT*100H+MAPOFF ; Data port of CPS card MDCTL1 EQU 0C0FBH+SLOT*100H+MAPOFF ; Status port of CPS card MDCTL2 EQU 0C0FCH+SLOT*100H+MAPOFF ; Second CPS status port MDCPRT EQU 0C0FDH+SLOT*100H+MAPOFF ; Printer data port MDCR EQU 0C0FEH+SLOT*100H+MAPOFF ; Control port of CPS card MDRCV EQU 2 ; Bit to test for receive MDSND EQU 1 ; Bit to test for send MDTXE EQU 5 ; Modem send buffer empty ENDIF ; CPS ; ; ;----------------------------------------------------------------------- ; IF SSC MDDATP EQU 0C088H+SLOTOFF+MAPOFF ; SSC data port MDCTL1 EQU 0C089H+SLOTOFF+MAPOFF ; SSC status port MDCTL2 EQU 0C08AH+SLOTOFF+MAPOFF ; SSC mode port MDCTL3 EQU 0C08BH+SLOTOFF+MAPOFF ; SSC control port MDRCV EQU 08H ; Bit to test for received data MDSND EQU 10H ; Bit to test for ready to send MDTXE EQU 10H ; Modem send buffer empty ENDIF ; SSC ; ; ;----------------------------------------------------------------------- ; IF SSM MDCTL1 EQU 0C084H+SLOTOFF+MAPOFF ; Status port of SSM MDDATP EQU 0C085H+SLOTOFF+MAPOFF ; Data port of SSM ENDIF ; SSM ; ; ;----------------------------------------------------------------------- ; IF NOT IIGS AND NOT SSC AND NOT CPS AND NOT BASIS MDRCV EQU 1 ; Bit to test for receive MDSND EQU 2 ; Bit to test for send MDTXE EQU 2 ; Modem send buffer empty ENDIF ; NOT SSC AND NOT CPS ; ; ;----------------------------------------------------------------------- ; IF VERSA AN3CLR EQU 0C05EH+MAPOFF ; Clear annunciator #3 AN3SET EQU 0C05FH+MAPOFF ; Set " #3 ENDIF ; VERSA ; ;----------------------------------------------------------------------- ; IF IIGS MDRCV EQU 1 ; Bit to test for receive char ready MDSND EQU 4 ; Bit to test for send ready MDTXE EQU 4 ; Bit to test for send buf empty ENDIF ; ; ;----------------------------------------------------------------------- ; ; General equates ; ESC EQU '['-40H ; ^[ = Escape BELL EQU 'G'-40H ; ^G = Bell character LF EQU 'J'-40H ; ^J = Linefeed NEXTRY EQU 'K'-40H ; ^K = Try next phone number now CR EQU 'M'-40H ; ^M = Carriage return CLEARSC EQU 'Z'-40H ; ^Z = Clear screen, command mode only EOFCHAR EQU 'Z'-40H ; ^Z = End of file ; ; ;----------------------------------------------------------------------- ; ; ORG 0100H ; DS 3 ; Skip the data area below ; ; ; These routines and equates are at the beginning of the program so ; they can be patched by a monitor or overlay file without re-assembling ; the program. ; MSPEED: DB 6 ; 0=110 1=300 2=450 3=600 4=710 5=1200 103H ; 6=2400 7=4800 8=9600 9=19200 default HS2400: DB YES ; Yes=2400 bps highest speed 104H HS1200: DB NO ; Yes=1200 bps highest speed 105H RACAL: DB NO ; Yes=Racal-Vadic 1200V or 2400V or 2400PA 106H PROMODM: DB NO ; Yes=Prometheus ProModem 1200 bps 107H RESVD1: DB NO ; Reserved for special modems 108H RESVD2: DB NO ; Reserved for special modems 109H ; CLEAR: DB '*' ; Clear screen character (ESC not needed) 10AH ; IF PCPI CLOCK: DB 6 ; Clock speed in MHz, 25.5 MHz max. 10BH ; NOTE: DO NOT MULTIPLY BY 10 FOR APPLICARD ENDIF ; PCPI ; IF NOT PCPI CLOCK: DB 20 ; Clock speed in MHz x10, 25.5 MHz max. 10BH ENDIF ; NOT PCPI ; 20=2 MHh, 37=3.68 MHz, 40=4 MHz, etc. BYTDLY: DB 9 ; 0=0 delay 1=10ms 5=50 ms - 9=90 ms 10CH ; default time to send character in ter- ; minal mode file transfer for slow BBS CRDLY: DB 9 ; 0=0 delay 1=100 ms 5=500 ms - 9=900 ms 10DH ; default time for extra wait after CRLF ; in terminal mode file transfer NOFCOL: DB 5 ; Number of directory columns shown 10EH TCHPUL: DB 'T' ; T=tone, P=Pulse (Hayes 2400 modems) 10FH ;..... ; ; ADDLFD: DB NO ; Yes=add LF after CR to send file in terminal 110H ; mode (normally added by remote echo) CONVRUB: DB YES ; Yes=convert rub to backspace 111H CRCDFLT: DB YES ; Yes=default to CRC checking 112H IGNRCTL: DB YES ; Yes=CTL-chars above ^M not displayed 113H ;..... ; ; EXTCHR: DB '['-40H ; ESC = preceeds local control character 114H EXITCHR: DB 'E' ; Exit character 115H FILESND: DB 'F' ; Send file when in terminal mode 116H NOCONCT: DB 'N' ; Disconnect from phone line 117H LOGCHR: DB 'L' ; Send logon 118H LSTCHR: DB 'P' ; Toggle printer 119H UNSAVCH: DB 'R' ; Close input text buffer 11AH SAVECHR: DB 'Y' ; Open input text buffer 11BH CLEARS: DB 'Z' ; Clears screen, terminal mode 11CH BRKCHR: DB 'Q' ; Send a break tone 11DH NODTR: DB NO ; YES if no DTR and need ATH0 to disconnect 11EH ;..... ; ; ; Handles in/out ports for data and status ; I$MDCTL1: JMP RCVCTL1 ; In modem control port 11FH DB 0,0,0,0,0,0,0 ; Spares if needed 122H ; I$MDTXE: JMP RCVCTL1 ; 129H DB 0,0,0,0,0,0,0 ; 12CH ; I$MDDATP: JMP RCVDATP ;in modem data port 133H DB 0,0,0,0,0,0,0 ; 146H ; O$MDDATP: JMP SNDDATP ; Out modem data port 13DH DB 0,0,0,0,0,0,0 ; Spares if needed 140H ;..... ; ; A$MDRCV: ANI MDRCV ; 147H RET ; 149H ; C$MDRCV: CPI MDRCV ; 14AH ; A$MDSND: ANI MDSND ; 14DH RET ; 14FH ; C$MDSND: CPI MDSND ; 150H RET ; 152H ; A$MDTXE: ANI MDTXE ; 153H RET ; 155H ; C$MDTXE: CPI MDTXE ; 156H RET ; 158H ;..... ; ; ; Special exit vector, used by some computers to reset interrupt vectors ; J$EXITVEC:RET ; 159H DB 0,0 ; 15AH ;..... ; ; ; Jump vectors needed by each overlay ; J$GOODBYE:JMP GOODBYE ; Disconnects modem by dropping DTR 15CH J2$INITMOD:JMP INITMOD ; Initializes modem, autosets baudrate 15FH J$STUPR: JMP STUPR ; SET routine to change baudrate 162H J$SYSVR: JMP SYSVR ; Signon message 165H ;..... ; ; ; "AT" command strings, can be replaced in individual overlay if needed ; J$STRNGA: DS 3 ; 1200 bps "AT" string 168H J$STRNG1: DS 3 ; 2400 bps "AT" string 16BH ; ; ; Next fourteen lines should not be changed by user overlay as these go ; to specific locations in the main program, not in the overlay. ; J$CMDSPL: DS 3 ; Allows entry of baudrate on CMD line 16EH J$CRLF: DS 3 ; Turns up one new line on display 171H J$DIAL: DS 3 ; Start of dialing routine 174H J$DSCONT: DS 3 ; Terminates modem use 177H J$GOLST: DS 3 ; Printer routine, needed by Apple //e 17AH J$ILPRT: DS 3 ; Prints an inline string, 0 to end 17DH J$INBUF: DS 3 ; Stores a keybd string for comparison 180H J$INLNCP: DS 3 ; Inline "compare strings" routine 183H J$INMDM: DS 3 ; Max .1 sec wait for modem character 186H J$RCVRSP: DS 3 ; For 3801 I/O use (TV-803) 189H J$SNDCHR: DS 3 ; Sends a character to the modem 18CH J$SNDSTR: DS 3 ; Sends a string to the modem, $ to end 18FH J$TIMER: DS 3 ; .1 second timer (amount in 'B' reg.) 192H J$BREAK: JMP SENDBRK ; Break routine 195H ;..... ; ; ; For 2400 bps auto-stepdown units ; MANUAL: DB 0 ; For manual selection flag 19BH J$300: JMP OK300 ; Sets baudrate to 300 baud 19CH J$1200: JMP OK1200 ; Sets baudrate to 1200 bps 19FH J$2400: JMP OK2400 ; Sets baudrate to 2400 bps 1A2H ;..... ; ; LOGPTR: DW LOGON ; Pointer to display LOGON message 1A5H ; SYSVR: CALL J$ILPRT ; Display the following line 1A7H IF BASIS DB 'Basis 108 with built in serial port ',CR,LF ; 1AAH DB 0 RET ENDIF ; BASIS ; IF NOT BASIS DB 'Apple ][ with ' ENDIF ; NOT BASIS ; IF ALSCARD DB 'ALS CP/M Card' ENDIF ; ALSCARD ; IF PCPI DB 'PCPI Applicard' ENDIF ; PCPI ; IF APPLIED DB 'Applied Engineering' ENDIF ; APPLIED ; IF MICROSOFT DB 'CP/M 2.2 Card' ENDIF ; MICROSOFT ; DB CR,LF,' and ' ; IF VERSA DB 'VERSAcard' ENDIF ; VERSA ; IF ALSDSP DB 'ALS Dispatcher' ENDIF ; ALSDSP ; IF APR DB 'Apricorn serial card' ENDIF ; APR IF CCS DB 'CCS 7710 Card' ENDIF ; CCS ; IF COMCARD DB 'Comcard' ENDIF ; COMCARD ; IF CPS DB 'CPS card - serial function' ENDIF ; CPS ; IF SSC DB 'Super Serial Card' ENDIF ; SSC ; IF SSM DB 'SSM Serial Interface' ENDIF ; SSM ; IF IIGS DB 'IIgs Modem Port' ENDIF ; IF NOT BASIS DB ' in slot ',SLOT+30H,CR,LF DB 0 RET ENDIF ; NOT BASIS ;..... ; ; ;----------------------------------------------------------------------- ; ; NOTE: You can change the SYSVER message to be longer or shorter. The ; end of your last routine should terminate by 0400H (601 bytes ; available after start of SYSVER). ; ;----------------------------------------------------------------------- ; ; You can put in a message at this location which can be called up with ; (special character-L). You can put in several lines. End with a 0. ; LOGON: DB 'Hello from a happy computer user',CR,0 ; ;----------------------------------------------------------------------- ; ; This routine sends a break tone for 300 ms ; SENDBRK: IF CPS MVI A,80H ; Open command CALL SNDMDCR MVI A,3FH ; Keeps DTR, sends break tone ENDIF ; CPS ; IF BASIS OR SSC MVI A,0FH JMP GOODBYE+2 ENDIF ; BASIS OR SSC ; IF APR OR CCS OR VERSA CALL RCVCTL1 ; Get the current status and speed STA SBTEMP ; Store it for now MVI A,0F5H ; Set break tone JMP GOODBYE1 ; Send the 300 ms break tone ENDIF ; APR OR CCS OR VERSA ; IF IIGS CALL CMDENA ; Enable Ctrl-A commands MVI A,01H ; Ctrl-A CALL GSSEND ; Send it out MVI A,'S' ; Ctrl-A + S is send-break command CALL GSSEND ; Send it out JMP CMDDIS ; Disable Ctrl-A commands and return ENDIF ; RET ; Any others, exit with no break tone ;..... ; ; SBTEMP: DB 0 ; Temporary storage to remember speed ;..... ; ; ; This routine sets DTR low for 300 ms to disconnect the phone ; IF APR OR CCS OR VERSA GOODBYE: CALL RCVCTL1 ; Get the current status and speed STA SBTEMP ; Store it for now MVI A,0D5H ; Turn off DTR ; GOODBYE1: CALL SNDCTL1 ; Send to the Modem MVI B,3 ; Delay 300 ms to hang up phone CALL J$TIMER LDA SBTEMP ; Get original status and speed back CALL SNDCTL1 MVI A,0B5H ; Turn everything back on CALL SNDCTL1 XTHL ; Short delay to complete command XTHL RET ENDIF ; APR OR CCS OR VERSA ; IF SSC OR BASIS GOODBYE: CALL SNDCTL2 MVI B,3 ; Delay 300 ms to hang up phone CALL J$TIMER MVI A,0BH ; Set DTR, Rx, Irq CALL SNDCTL2 XTHL ; Short delay to complete command XTHL RET ENDIF ; SSC or BASIS ; IF CPS GOODBYE: MVI A,80H ; Open command CALL SNDMDCR MVI A,1DH ; RTS, DTR off, send break ; GOODBYE1: CALL SNDCTL1 MVI B,3 ; Delay 300 ms to hang up phone CALL J$TIMER MVI A,37H ; RTS, ERR reset errors, Rx, DTR, Tx CALL SNDCTL1 MVI A,0 ; Close command CALL SNDMDCR MVI B,5 ; Short delay to complete command CALL J$TIMER RET ENDIF ; CPS ; IF IIGS GOODBYE: MVI A,0FFH ; Lower DTR CALL CMDDTR ; Set DTR status MVI B,3 CALL J$TIMER ; Delay 300 ms MVI A,00H ; Bring DTR back CALL CMDDTR ; Set DTR status RET ENDIF ; ; ; If none of the above, then set NODTR to YES to disconnect with ATH0 ; IF NOT IIGS CALL J$ILPRT DB CR,LF,'++ DOES NOT DROP DTR, USE "BYE" ++',BELL,CR,LF,0 RET ; Just in case was none of these ENDIF ;..... ; ; ;=========================== INITMOD =================================== ; ; IF ALSCARD INITMOD: LHLD 1 ; Initialize our local jumps to the BIOS DAD D SHLD APREAD+1 INX H INX H INX H SHLD APWRITE+1 RET ENDIF ; ALSCARD ;..... ; ; IF APR OR CCS INITMOD: LDA MSPEED ; Get the selected value CPI 1 ; 300 bps JZ OK300 CPI 5 ; 1200 bps JZ OK1200 CPI 6 ; 2400 bps JZ OK2400 CPI 8 ; 9600 bps JZ OK9600 JMP STUPR1 ; Else ask what is wanted ; INITMOD1: MOV A,B ; Get the baudrate back, 8 bits 1 stop CALL SNDCTL1 ; ACIA control register XTHL ; Short delay to complete command XTHL RET ENDIF ; APR OR CCS ;..... ; ; ; The following may be used to initialize the Mountain Hardware CPS ; Multifunction Card. ; IF CPS INITMOD: CALL OK300 ; Necessary for cold boot CALL CPSPRINT ; Install special CPS printer routine LDA MSPEED ; Get the selected value CPI 1 ; 300 bps JZ OK300 CPI 5 ; 1200 bps JZ OK1200 CPI 6 ; 2400 bps JZ OK2400 CPI 8 ; 9600 bps JZ OK9600 JMP STUPR1 ; Else ask what is wanted ;..... ; ; MVI A,80H ; Open command CALL SNDMDCR MVI A,4EH ; 1 stop, 8 bits, 16x CALL SNDDATP MOV A,B ; Get the baudrate back CALL SNDDATP MVI A,37H ; RTS, ERR reset errors, Rx, DTR, Tx CALL SNDCTL1 XRA A ; Close command CALL SNDMDCR MVI B,5 ; 1/2 second delay for CPS board CALL J$TIMER RET ENDIF ; CPS ;..... ; ; IF BASIS OR SSC INITMOD: MVI A,0BH ; Set DTR, Rx, Irq CALL SNDCTL2 XTHL ; Short delay to complete command XTHL ; LDA MSPEED ; Get the selected value CPI 1 ; 300 bps JZ OK300 CPI 5 ; 1200 bps JZ OK1200 CPI 6 ; 2400 bps JZ OK2400 CPI 8 ; 9600 bps JZ OK9600 JMP STUPR1 ; Else ask what is wanted ;..... ; ; INITMOD1: MOV A,B ; Get the baudrate back CALL SNDCTL3 ; Store default baudrate XTHL ; Short delay to complete command XTHL RET ENDIF ; BASIS OR SSC ;..... ; ; ; The following routine initializes the VERSAcard to the default baud ; rate which is set at MSPEED above. If MSPEED is set to something ; other than 300 or 1200 this routine does not alter the annunciator ; settings. ; IF VERSA INITMOD: ; INITMOD1: LDA MSPEED ; Set annunciators to known state CPI 1 ; Is it 300 ? JZ OK300 CPI 5 ; Is it 1200 ? JZ OK1200 RET ENDIF ; VERSA ;..... ; ; IF IIGS INITMOD: CALL GSINIT ; Init via 6502 routines ; LDA MSPEED ; Get the selected value CPI 1 ; 300 bps JZ OK300 CPI 5 ; 1200 bps JZ OK1200 CPI 6 ; 2400 bps JZ OK2400 CPI 8 ; 9600 bps JZ OK9600 JMP STUPR1 ; Else ask what is wanted INITMOD1: PUSH H PUSH D PUSH B CALL CMDENA ; Enable Ctrl-A commands MVI A,81H ; Send a Ctrl-A CALL GSSEND ; Send it POP B ; Get Char back PUSH B ; And save it again MOV A,B RAR RAR RAR RAR CALL SENDHX POP B PUSH B MOV A,B CALL SENDHX MVI A,'B' CALL GSSEND ; Ctrl-A + # + B is baud command CALL CMDDIS ; Disable Ctrl-A cmds and return POP B POP D POP H RET SENDHX: ANI 0FH ORI 0B0H ; Make it a number JMP GSSEND ; Send it and ret ENDIF ;..... ; ; If none of the above cards ; MVI A,0FFH ; These systems do not support DTR RET ; From 'CALL INITMOD' ;..... ; ; ; The routine that checks to see if the printer is ready does not work ; with the CPS card. This routine changes it. It overwrites the area ; in the main program that normally checks printer status from a BDOS ; call with our own status checks. ; CPSPRINT: IF CPS AND CPSPRT ; If printer uses CPS printer port CALL J$GOLST ; Get GOLIST+1 in 'HL' LXI B,PRCHECK ; Put routine at GOLIST+1 MOV M,C INX H MOV M,D XCHG ; Now get GOLIST+15 into 'HL' from 'DE' LXI B,PRINTCHAR ; Put routine at GOLIST+15 MOV M,C INX H MOV M,D RET ;..... ; ; ; Substitute routines for status checks and printing: ; PRCHECK:CALL RCVCPST ; Read the status port ANI 40H ; Mask off unused bits RET ;..... ; ; PRINTCHAR: MOV A,C ; Move character to 'A' register JMP SNDCPRT ; Send it to the printer ENDIF ; CPS AND CPSPRT ; RET ; In case CPSPRT was set to 'NO' ;..... ; ; ;========================== APPLE I/O ================================== ; IF APPLIED OR BASIS OR MICROSOFT SNDCTL1:STA MDCTL1 RET ; SNDDATP:STA MDDATP RET ; RCVCTL1:LDA MDCTL1 RET ; RET ENDIF ; APPLIED OR BASIS OR MICROSOFT ;..... ; ; IF CPS AND (APPLIED OR MICROSOFT) SNDCPRT: STA MDCPRT RET ; SNDMDCR: STA MDCR RET ; RCVCPST: LDA MDCPST RET ENDIF ; CPS AND (APPLIED OR MICROSOFT) ;..... ; ; IF BASIS OR SSC AND (APPLIED OR MICROSOFT) RCVCTL2: LDA MDCTL2 RET ; RCVCTL3: LDA MDCTL3 RET ; SNDCTL2: STA MDCTL2 RET ; SNDCTL3: STA MDCTL3 RET ENDIF ; BASIS OR SSC AND (APPLIED OR MICROSOFT) ;..... ; ; IF VERSA AND (APPLIED OR MICROSOFT) RCVAN3C: LDA AN3CLR RET ; RCVAN3S: LDA AN3SET RET ENDIF ; VERSA AND (APPLIED OR MICROSOFT) ;..... ; ; IF ALSCARD SNDCTL1: PUSH H LXI H,MDCTL1 JMP POKE ; SNDDATP: PUSH H LXI H,MDDATP ; POKE: PUSH D PUSH B POP B POP D POP H RET ENDIF ; ALSCARD ;..... ; ; IF ALSCARD RCVCTL1: PUSH H LXI H,MDCTL1 JMP PEEK ; RCVDATP: PUSH H LXI H,MDDATP ; PEEK: PUSH D PUSH B CALL APREAD POP B POP D POP H RET ;..... ; ; ; These are the jump locations to the ALS BIOS ; APREAD: JMP $-$ APWRITE: JMP $-$ ENDIF ; ALSCARD ;..... ; ; IF ALSCARD AND CPS SNDCPRT: PUSH H LXI H,MDCPRT JMP POKE ; SNDMDCR: PUSH H LXI H,MDCR JMP POKE ; RCVCPST: PUSH H LXI H,MDCPST JMP PEEK ENDIF ; ALSCARD AND CPS ;..... ; ; IF ALSCARD AND SSC RCVCTL3: PUSH H LXI H,MDCTL3 JMP PEEK SNDCTL2: PUSH H LXI H,MDCTL2 JMP POKE ; SNDCTL3: PUSH H LXI H,MDCTL3 JMP POKE ENDIF ; ALSCARD AND SSC ;..... ; ; IF ALSCARD AND VERSA RCVAN3C: PUSH H LXI H,AN3CLR JMP PEEK ; RCVAN3S: PUSH H LXI H,AN3SET JMP PEEK ENDIF ; ALSCARD AND VERSA ;..... ; ; IF PCPI AND NOT IIGS RDBYTE EQU 0FFE0H ; Read 1 byte from Apple (A = byte) WRBYTE EQU 0FFE3H ; Write 1 byte to Apple (C = byte) RDWORD EQU 0FFE6H ; Read 2 bytes from Apple (DE = word) WRWORD EQU 0FFE9H ; Write 2 bytes to Apple (DE = word) PEEK1 EQU 6 ; Command POKE1 EQU 7 ; Command ; POKE: PUSH B MOV B,A MVI C,POKE1 CALL WRBYTE CALL WRWORD MOV C,B CALL WRBYTE POP B POP D RET ; PEEK: PUSH B MVI C,PEEK1 CALL WRBYTE CALL WRWORD CALL RDBYTE POP B POP D RET ; ;..... SNDCTL1: PUSH D LXI D,MDCTL1 JMP POKE ; SNDDATP: PUSH D JMP POKE ; RCVCTL1: PUSH D LXI D,MDCTL1 JMP PEEK ; RCVDATP: PUSH D LXI D,MDDATP JMP PEEK ; ENDIF ; PCPI AND NOT IIGS ; ;..... ; ; IF PCPI AND CPS SNDCPRT: PUSH D LXI D,MDCPRT JMP POKE ; SNDMDCR: PUSH D LXI D,MDCR JMP POKE ; RCVCPST: PUSH D LXI D,MDCPST JMP PEEK ENDIF ; PCPI AND CPS ;..... ; ; IF PCPI AND SSC RCVCTL3: PUSH D LXI D,MDCTL3 JMP PEEK ; SNDCTL2: PUSH D LXI D,MDCTL2 JMP POKE ; SNDCTL3: PUSH D LXI D,MDCTL3 JMP POKE ENDIF ; PCPI AND SSC ;..... ; ; IF PCPI AND VERSA RCVAN3C: PUSH D LXI H,AN3CLR JMP PEEK ; RCVAN3S: PUSH D LXI H,AN3SET ENDIF ; PCPI AND VERSA ;..... ; ; IF PCPI AND IIGS RDBYTE: EQU 0FFE0H ; Read 1 byte from Apple (A = byte) WRBYTE: EQU 0FFE3H ; Write 1 byte to Apple (C = byte) RDWORD: EQU 0FFE6H ; Read 2 bytes from Apple (DE = word) WRWORD: EQU 0FFE9H ; Write 2 bytes to Apple (DE = word) WRLOTS: EQU 0FFEFH ; FROM (HL), SEND NUM BYTES IN DE TO HOST POKLOT: EQU 2 CALL1: EQU 3 PEEK1: EQU 6 ; Command POKE1: EQU 7 ; Command ; POKE: MOV B,A MVI C,POKE1 CALL WRBYTE CALL WRWORD MOV C,B CALL WRBYTE RET ; PEEK: MVI C,PEEK1 CALL WRBYTE CALL WRWORD CALL RDBYTE RET ; CALL65: MVI C,CALL1 CALL WRBYTE CALL WRWORD RET ; GSINIT: ; Initialize and move 6502 code in ; CALL LOADIT ; RESUME: EQU $ ORG 5120H ; Hope it works... ; LOADIT: LXI D,0C00DH+SLOTOF2 CALL PEEK STA INITPT ; LXI D,0C00FH+SLOTOF2 CALL PEEK STA WRITPT ; LXI D,0C00EH+SLOTOF2 CALL PEEK STA READPT ; LXI D,0C012H+SLOTOF2 CALL PEEK STA EXTPT ; MVI C,POKLOT ; Going to put the 6502 code in place CALL WRBYTE LXI D,0300H ; Put it at 300H CALL WRWORD LXI D,END65-ST65+1 ; Length CALL WRWORD LXI H,ST65 LXI D,END65-ST65+1 CALL WRLOTS ; Put it in place ; RET ; ST65: DB 04CH,013H,003H ; JMP INIT DB 04CH,01AH,003H ; JMP READ DB 04CH,024H,003H ; JMP WRITE DB 04CH,02FH,003H ; JMP SETDTR DB 04CH,03EH,003H ; JMP SETCMD DB 04CH,06AH,003H ; JMP STATUS DS 1 ; DATA DFS 1 DB 0A2H,0C0H+SLOT ; INIT LDX #Cn DB 0A0H,SLOTOFF ; LDY #n0 DB 04CH INITPT DS 1 ; DB 0C0H+SLOT ; JMP CARD_INIT DB 0ADH,012H,003H ; WRITE LDA DATA DB 0A2H,0C0H+SLOT ; LDX #Cn DB 0A0H,SLOTOFF ; LDY #n0 DB 04CH WRITPT DS 1 DB 0C0H+SLOT ; JMP CARD_WRIT DB 0A2H,0C0H+SLOT ; READ LDX #Cn DB 0A0H,SLOTOFF ; LDY #n0 DB 020H READPT DS 1 DB 0C0H+SLOT ; JSR CARD_READ DB 08DH,012H,003H ; STA DATA DB 060H ; RTS DB 0ADH,012H,003H ;SETDTR LDA DATA DB 08DH,07EH,003H ; STA DTRBYT DB 0A9H,07AH ; LDA #>DTRBUF DB 0A2H,003H ; LDX #CMDBUF DB 0A2H,003H ; LDX #CMDBUF DB 0A2H,003H ; LDX #STATBUF DB 0A2H,003H ; LDX #