;////////////////////////////////////////////////////////////////////////////// ; Title 'MEX Overlay for Advanced Digital Super Six / Super Quad SBC' ; ;////////////////////////////////////////////////////////////////////////////// ; REV EQU 10 ; revision number * 10 ; ;----------------- ; ; MEX Overlay for Advanced Digital Computers using the on board RS232 EIA ; port. The SBC utilizes a Z80 DART and a dual baud rate generator with ; one oddball... the initial baudrate for the console and the serial port ; is set with 7 Berg jumpers upon reset through a read only IO port. The 8th ; bit is the side select bit for the floppy controller. The dual baud rate ; generator needs 8 bits to be set, 4 bits for each channel. This overlay ; therefore brings in the jumpers, masks the side bit, extracts the default ; console baud rate, or's in the modem baud rate and writes it out to the ; generator. Type ahaed buffer may be installed with this overlay ... the ; interrupt vector is not modified. In addition, A full-featured SET command ; processor is implemented to select the serial communications character- ; istics of serial port 02, the modem port. A SET shows the current ; default settings, a SET ? brings up help and a SET XXXXXXX where XXXXXXX ; is defined in the following table will SET a new parameter. ; ; Available SET Commands: ; ; DELAY (seconds) BAUD 110-19.2K ; ORIG (originate mode) ANSWER (mode) ; TONE (dialing) PULSE (dialing) ; MONITOR (speaker on) QUIET (speaker off) ; PARITY (Odd, Even, None) STOPBITS (1, 1.5, 2) ; LENGTH (5, 6, 7, or 8) ; ;---------------- ; ; History: ; ; 10/01/84 ... MXO-AD10.ASM ; ; Original version ... Tested with MEX112 ... Extractions ; from MXO-KP40.ASM ... Would appreciate a note of any ; problems be left on my RCPM MINIRBBS. ; ; John Sojak - SYSOP ; Smokin Silicon RCPM ; 312 / 941-0049 ; ;////////////////////////////////////////////////////////////////////////////// ; ; conditionals ; NO EQU 0000 YES EQU NOT NO ; ; msc constants ; TPA EQU 100H CR EQU 13 LF EQU 10 TAB EQU 9 ; ;------------------------------------------------------------ ; ; Advanced Digital port definitions ; CTRLPT EQU 03H ;serial status port DATAPT EQU 02H ;serial data port BAUDRP EQU 18H ;baud rate write port BDJMPS EQU 15H ;default jumper read port ; ; Advanced Digital bit definitions ; MDRCVB EQU 01H ;modem receive bit (DAV) MDRCVR EQU 01H ;modem receive ready MDSNDB EQU 04H ;modem send bit MDSNDR EQU 04H ;modem send ready bit MDMDCD EQU 08H ;modem data carrier detect ; ; MEX Service Processor ; MEX EQU 0D00H ;address of the service processor INMDM EQU 255 ;get char from port to A, CY=no more in 100 ms TIMER EQU 254 ;delay 100ms * reg B TMDINP EQU 253 ;B=# secs to wait for char, cy=no char CHEKCC EQU 252 ;check for ^C from KBD, Z=present SNDRDY EQU 251 ;test for modem-send ready RCVRDY EQU 250 ;test for modem-receive ready SNDCHR EQU 249 ;send a character to the modem (after sndrdy) RCVCHR EQU 248 ;recv a char from modem (after rcvrdy) LOOKUP EQU 247 ;table search: see CMDTBL comments for info PARSFN EQU 246 ;parse filename from input stream BDPARS EQU 245 ;parse baud-rate from input stream SBLANK EQU 244 ;scan input stream to next non-blank EVALA EQU 243 ;evaluate numeric from input stream LKAHED EQU 242 ;get nxt char w/o removing from input GNC EQU 241 ;get char from input, cy=1 if none ILP EQU 240 ;inline print DECOUT EQU 239 ;decimal output PRBAUD EQU 238 ;print baud rate ; CONOUT EQU 2 ;simulated BDOS function 2: console char out PRINT EQU 9 ;simulated BDOS function 9: print string INBUF EQU 10 ;input buffer, same structure as BDOS 10 ; ; ; ORG TPA ;we begin ; DS 3 ;MEX has a JMP START here ; DS 2 ;not used by MEX TPULSE: DB 'T' ;T=touch, P=pulse (Used by this overlay) CLOCK: DB 46 ;clock speed x .1, up to 25.5 mhz. MSPEED: DB 5 ;sets display time for sending a file ;0=110 1=300 2=450 3=600 4=710 ;5=1200 6=2400 7=4800 8=9600 9=19200 BYTDLY: DB 5 ;default time to send character in ;terminal mode file transfer (0-9) ;0=0 delay, 1=10 ms, 5=50 ms, 9=90 ms CRDLY: DB 5 ;end-of-line delay after CRLF in terminal ;mode file transfer for slow BBS systems ;0=0 delay, 1=100 ms, 5=500 ms, 9=900 ms COLUMS: DB 5 ;number of directory columns SETFL: DB YES ;yes=user-defined SET command SCRTST: DB YES ;yes=if home cursor and clear screen ;routine at CLRSCRN DB 0 ;was once ACKNAK, now spare BAKFLG: DB YES ;yes=make .BAK file CRCDFL: DB YES ;yes=default to CRC checking ;no=default to Checksum checking TOGCRC: DB YES ;yes=allow toggling of Checksum to CRC CVTBS: DB NO ;yes=convert backspace to rub TOGLBK: DB YES ;yes=allow toggling of bksp to rub ADDLF: DB NO ;no=no LF after CR to send file in ;terminal mode (added by remote echo) TOGLF: DB YES ;yes=allow toggling of LF after CR TRNLOG: DB NO ;yes=allow transmission of logon ;write logon sequence at location LOGON SAVCCP: DB YES ;yes=do not overwrite CCP LOCNXT: DB NO ;yes=local cmd if EXTCHR precedes ;no=not local cmd if EXTCHR precedes TOGLOC: DB YES ;yes=allow toggling of LOCNXTCHR LSTTST: DB YES ;yes=allow toggling of printer on/off ;in terminal mode. Set to no if using ;the printer port for the modem XOFTST: DB NO ;yes=allow testing of XOFF from remote ;while sending a file in terminal mode XONWT: DB NO ;yes=wait for XON after sending CR while ;transmitting a file in terminal mode TOGXOF: DB YES ;yes=allow toggling of XOFF testing IGNCTL: DB NO ;yes=do not send control characters ;above CTL-M to CRT in terminal mode ;no=send any incoming CTL-char to CRT EXTRA1: DB 0 ;for future expansion EXTRA2: DB 0 ;for future expansion BRKCHR: DB '@'-40H ;^@ = Send a 300 ms. break tone NOCONN: DB 'N'-40H ;^N = Disconnect from phone line LOGCHR: DB 'L'-40H ;^L = Send logon LSTCHR: DB 'P'-40H ;^P = Toggle printer UNSVCH: DB 'R'-40H ;^R = Close input text buffer TRNCHR: DB 'T'-40H ;^T = Transmit file to remote SAVCHR: DB 'Y'-40H ;^Y = Open input text buffer EXTCHR: DB '^'-40H ;^^ = Send next character ; DS 2 ;not used ; ; Low-level modem I/O routines. ; INCTL1: JMP INC ;in modem control port DB 0,0,0,0,0,0,0 ;spares if needed for non-PMMI ; OTDATA: JMP OUTD ;out modem data port DB 0,0,0,0,0,0,0 ;spares if needed for non=PMMI ; INPORT: JMP IND ;in modem data port DB 0,0,0,0,0,0,0 ;spares if needed for non-PMMI ; ; Bit-test routines. ; MASKR: ANI MDRCVB ! RET ;bit to test for receive ready TESTR: CPI MDRCVR ! RET ;value of receive bit when ready MASKS: ANI MDSNDB ! RET ;bit to test for send ready TESTS: CPI MDSNDR ! RET ;value of send bit when ready ; DS 12 ; LOGON: DS 2 ;needed for MDM compat, not ref'd by MEX DIALV: JMP DIAL DISCV: JMP DISCON GOODBV: JMP GOODBYE ;called before exit to CP/M INMODV: JMP NITMOD ;initialization. Called at cold-start NEWBDV: JMP PBAUD ;set baud rate NOPARV: RET!NOP!NOP ;set modem for no-parity PARITV: RET!NOP!NOP ;set modem parity SETUPV: JMP SETCMD ;SET cmd: jump to a RET if you don't write SET SPMENV: RET!NOP!NOP ;not used with MEX VERSNV: JMP SYSVER ;Overlay's voice in the sign-on message BREAKV: JMP SBREAK ;send a break ; ; MDM calls supported in MEX 1.0 but not recommended for use. ; ILPRTV: DS 3 ;replace with MEX function 9 INBUFV: DS 3 ;replace with MEX function 10 ILCMPV: DS 3 ;replace with table lookup funct. 247 INMDMV: DS 3 ;replace with MEX function 255 NXSCRV: DS 3 ;not supported by MEX (returns w/no action) TIMERV: DS 3 ;replace with MEX function 254 ; CLREOS: ; LXI D,EOSMSG ; MVI C,PRINT ; CALL MEX RET ; CLS: ; LXI D,CLSMSG ; MVI C,PRINT ; CALL MEX RET ;------------------------------------------------------------ ; ; end of fixed area ; ;------------------------------------------------------------ ; ; input control/status port ; INC: MVI A,10H OUT CTRLPT IN CTRLPT RET ; ; input data port ; IND IN DATAPT RET ; ; output data port ; OUTD: OUT DATAPT RET ; ; Print out the overlay version ; SYSVER: CALL MILP DB 'Advanced Digital Overlay - Version ' DB REV/10+'0' DB '.' DB REV MOD 10+'0' DB CR,LF DB 0 RET ; ; Break, disconnect and goodbye routines ; SBREAK: MVI A,5 OUT CTRLPT LDA WR5 ORI 00010000B ;ENABLE BREAK OUT CTRLPT MVI B,3 ;DELAY 300 MS. CALL MTIME MVI A,5 OUT CTRLPT LDA WR5 ANI 11101111B ;TURN OFF BREAK OUT CTRLPT RET ; ; Disconnect Routine ; DISCON: MVI A,5 OUT CTRLPT ;SEND TO THE STATUS PORT MVI A,68H ;TURN OFF DTR OUT CTRLPT ; ; GOODBYE routines are called by MEX prior to exit to CP/M ; GOODBYE: MVI B,3 ;DELAY 300 MS. CALL MTIME MVI A,5 OUT CTRLPT ;SEND TO THE STATUS PORT LDA WR5 ORI 10000000B ;RAISE DTR OUT CTRLPT RET ; ; Initialize RS-232 port, PIO port and default modes. ; NITMOD: CALL INC ;SEE IF CARRIER ie RETURNING TO MEX WITH ANI MDMDCD ; A CALL ACTIVE RNZ ;SKIP IF CONNECTED LDA DFBAUD ;GET THE DEFAULT BAUD RATE STA MSPDSV ;SEED THE MSPEED VALUE STA MSPEED ;AND KEEP IT CURRENT CALL PBAUD ;SET THE BAUD RATE LDA WR5 ;DEFAULT DTR AND CTS STA REG5 CALL NITSIO ;INITIALIZE THE DART LDA MONFLG ;GET MONITOR DEFAULT ORA A MVI A,'0' ;SPEAKER OFF JZ NITMOD4 MVI A,'1' ;SPEAKER ON NITMOD4: STA SMINIT+3 ;PUT IT IN SMINIT STRING LDA ANSFLG ;GET MODE DEFAULT ORA A MVI A,'0' ;ORIGINATE JZ NITMOD5 MVI A,'1' ;ANSWER NITMOD5: STA SMINIT+8 ;PUT IT IN SMINIT STRING LXI H,SMINIT SINIT: CALL SMSEND ;SEND THE INIT STRING SMTLP1: MVI C,INMDM ;WAIT FOR MODEM RESPONSE CALL MEX JNC SMTLP1 ;EAT EVERYTHING UNTIL SILENCE FOR RET ; 100 MSEC ; ; Initialize the Zilog DART chip ; NITSIO: NITSIO2: MVI A,00H ;Select reg. 0 CALL OUTCTL1 LDA REG0 ;Command byte CALL OUTCTL1 MVI A,04H ;Select reg. 4 CALL OUTCTL1 LDA REG4 ;Receive/transmit control byte CALL OUTCTL1 MVI A,03H ;Select reg. 3 CALL OUTCTL1 LDA REG3 ;Receiver logic byte CALL OUTCTL1 MVI A,05H ;Select reg. 5 CALL OUTCTL1 LDA REG5 ;Transmitter logic byte CALL OUTCTL1 ; ; ;Save REG5 values for modem selected NITEND: LDA REG5 STA WR5 ;Save external modem REG5 RET ; OUTCTL1: OUT CTRLPT RET ; ; ; Set command processor ; SETCMD: MVI C,SBLANK ;ANY ARGUMENTS? CALL MEX JC SETSHO ;IF NOT, DISPLAY DEFAULT(S) LXI D,CMDTBL MVI C,LOOKUP CALL MEX ;PARSE THE ARGUMENT PUSH H ;SAVE ANY PARSED ARGUMENTS ON STACK RNC ;IF WE HAVE ONE, RETURN TO IT POP H ;OOPS, INPUT NOT FOUND IN TABLE SETERR: LXI D,SETEMS MVI C,PRINT CALL MEX CALL CRLF RET SETEMS: DB CR,LF,'SET command error',CR,LF,'$' ; SETBAD: LXI D,SETBMS MVI C,PRINT CALL MEX RET SETBMS: DB CR,LF,'SET command not valid for modem',CR,LF,'$' ; ; Argument table ; CMDTBL: DB '?'+80H ; HELP DW SETHELP DB 'ORI','G'+80H ; ORIGINATE MODE DW ORIG DB 'ANSWE','R'+80H ; ANSWER MODE DW ANS DB 'TON','E'+80H ; TONE DIALING DW STTONE DB 'PULS','E'+80H ; PULSE DIALING DW STPULSE DB 'MONITO','R'+80H ; MONITOR ON DW MONIT DB 'QUIE','T'+80H ; MONITOR OFF DW QUIET DB 'BAU','D'+80H ; SET BAUD DW STBAUD DB 'DELA','Y'+80H ; SET DELAY DW DELAY DB 'PARIT','Y'+80H ; SET PARITY DW STPRTY DB 'STOPBIT','S'+80H ; SET STOPBITS DW STSTOP DB 'LENGT','H'+80H ; SET LENGTH DW STBITS DB 0 ;TABLE TERMINATOR ; ; ; "SET (no args): PRINT CURRENT STATISTICS ; SETSHO: CALL MILP DB CR,LF DB 'Current settings:',CR,LF,0 CALL CRLF CALL TPSHOW CALL CRLF CALL BDSHOW CALL CRLF CALL DLSHOW CALL CRLF CALL MONSHO CALL CRLF CALL SHPRTY CALL CRLF CALL SHSTOP CALL CRLF CALL SHBITS CALL CRLF CALL CRLF RET ; ; "SET ?" processor ; SETHELP: CALL MILP DB CR,LF,'SET ORIG' DB CR,LF,'SET ANSWER' DB CR,LF,'SET TONE' DB CR,LF,'SET PULSE' DB CR,LF,'SET DELAY - seconds' DB CR,LF,'SET PARITY - OFF, EVEN or ODD' DB CR,LF,'SET STOPBITS - 1, 1.5 or 2' DB CR,LF,'SET LENGTH - 5, 6, 7 or 8' DB CR,LF,'SET QUIET - Speaker OFF' DB CR,LF,'SET MONITOR - Speaker ON' DB CR,LF,'SET BAUD - 110, 300, 600, 1200, 2400, ' DB '4800, 9600, 19200' DB CR,LF,CR,LF,0 RET ; ; "SET BAUD" processor ; STBAUD: MVI C,BDPARS ;FUNCTION CODE: PARSE A BAUDRATE CALL MEX ;LET MEX LOOK UP CODE JC SETERR ;JUMP IF INVALID CODE CALL PBAUD ;NO, TRY TO SET IT JC SETERR ;IF NOT ONE OF OURS, BOMB OUT BDSHOW: LDA MSPEED ;GET CURRENT BAUD RATE MVI C,PRBAUD ;LET MEX PRINT IT CALL MEX RET ; ; This routine sets baud rate passed as MSPEED code in A. ; Returns CY=1 if baud rate not supported. ; PBAUD: PUSH H ;DON'T ALTER ANYBODY PUSH D PUSH B MOV E,A ;MSPEED CODE TO DE MVI D,0 LXI H,BAUDTB ;OFFSET INTO TABLE DAD D MOV A,M ;FETCH CODE ORA A ;0 MEANS UNSUPPORTED CODE STC ;PREP CARRY IN CASE UNSUPPORTED JZ PBEXIT ;EXIT IF BAD STA DFBAUD ;SAVE CURRENT RATE MOV B,A ;SAVE THE NEW BAUD FOR A SEC IN BDJMPS ;GET THE CURRENT CONSOLE BAUD ANI 00001111b ;ISOLATE IT ORA B ;AND MAKE A COMPOSITE WITH MODEM BAUD OUT BAUDRP ;SET IT MOV A,E ;GET MSPEED CODE BACK STA MSPEED ;SET IT PBEXIT: POP B POP D POP H RET ; BAUDTB: DB 020H ;110 DB 050H ;300 DB 00h ;450 (not supported) DB 060H ;600 DB 00h ;710 (not supported) DB 070H ;1200 DB 0A0H ;2400 DB 0C0H ;4800 DB 0E0H ;9600 DB 0F0H ;19200 ; ; SET MODE PROCESSOR ---- SET MODEM PARAMETERS ; ORIG: XRA A STA ANSFLG ;SET ORIG FLAG LXI H,SMO ;SEND OUT ATS0=0 CALL SINIT CALL MILP DB 'Originate mode',0 RET ; SMO: DB 'ATS0=0',CR,0 SMA: DB 'ATS0=1',CR,0 ; ANS: MVI A,0FFH STA ANSFLG ;SET ANS FLAG LXI H,SMA ;SEND OUT ATS0=1 CALL SINIT CALL MILP DB 'Answer mode',0 RET ; ; ; Monitor control processor ; QUIET: XRA A STA MONFLG LXI H,SMQT CALL SINIT JMP MONSHO MONIT: MVI A,0FFH STA MONFLG LXI H,SMMON CALL SINIT MONSHO: LDA MONFLG ORA A JZ MONOFF CALL MILP DB 'Speaker On',0 RET MONOFF: CALL MILP DB 'Speaker Off',0 RET SMQT: DB 'ATM0',CR,0 SMMON: DB 'ATM1',CR,0 ; ; Set dial processor ; STTONE: MVI B,'T' JMP SDIAL1 STPULSE: MVI B,'P' SDIAL1: LDA TPULSE CPI B JZ TPSHOW MOV A,B STA TPULSE CPI 'P' MVI A,01010000B ;PULSE DIAL JZ SDIAL2 MVI A,01000000B ;TONE DIAL SDIAL2: STA DIALWD TPSHOW: LDA DIALWD ANI 00010000B JZ TPTONE CALL MILP DB 'Pulse Dial',0 RET TPTONE: CALL MILP DB 'Tone Dial',0 RET ; ; Set delay processor ; DELAY: MVI C,EVALA CALL MEX MOV A,H ORA A JNZ SETERR MOV A,L STA NDELAY DLSHOW: CALL MILP DB 'Answer Delay is ',0 LDA NDELAY MOV L,A MVI H,0 MVI C,DECOUT CALL MEX CALL MILP DB ' seconds',0 RET ; ; SET PARITY command: reset transmit/receive parity ; ; Parity is controlled by bits 0 and 1 of ; the byte sent to the DART write-register ; 4 as follows: ; ; Parity Bit 1 Bit 0 ; Off - 0 ; Odd 0 1 ; Even 1 1 ; STPRTY: MVI C,SBLANK ;check for parity code CALL MEX ; JC SETERR ;if none, print error LXI D,PARTBL ;check for proper syntax MVI C,LOOKUP CALL MEX PUSH H ;match found, go do it! RNC ; POP H ;no match: fix stack and JMP SETERR ; print error ; PROFF: LDA REG4 ;get register 4 byte ANI 0FEH ;reset bit 0 JMP PARTB1 ; PREVEN: LDA REG4 ; ORI 003H ;set bits 0 & 1 JMP PARTB1 ; PRODD: LDA REG4 ; ORI 001H ;set bit 0 ANI 0FDH ;reset bit 1 PARTB1: STA REG4 ; CALL NITSIO ;re-initialize the USART CALL SHPRTY ;print the result RET ; SHPRTY: CALL MILP ;display parity DB 'Parity: ',TAB,' ',0 LDA REG4 ; ANI 001H ;test bit 0 CPI 0 ;if bit0=0 then parity off JNZ SHPRT1 ; CALL MILP ; DB 'Off',0 ; RET SHPRT1: LDA REG4 ; ANI 002H ;test bit 1 CPI 0 ;if bit1=0 then parity odd JNZ SHPRT2 ; CALL MILP ; DB 'Odd',0 ; RET ; SHPRT2: CALL MILP ; DB 'Even',0 ; RET ; ; SET PARITY command table ; PARTBL: DB 'OF','F'+80H ;"set parity off" DW PROFF DB 'EVE','N'+80H ;"set parity even" DW PREVEN DB 'OD','D'+80H ;"set parity odd" DW PRODD DB 0 ;<<== end of parity table ; ; SET STOPBITS command: reset number of stop bits ; ; The number of stop bits is controlled by bits ; 2 and 3 of the byte sent to the DART write- ; register 4, as follows: ; ; Stop bits Bit 3 Bit 2 ; 1 0 1 ; 1.5 1 0 ; 2 1 1 ; ; STSTOP: MVI C,SBLANK ;check for stop bits CALL MEX ; JC SETERR ;if none, print error LXI D,STPTBL ;check for proper syntax MVI C,LOOKUP CALL MEX ; PUSH H ;match found, go do it! RNC ; POP H ;no match: fix stack and JMP SETERR ; print error ; STOP01: LDA REG4 ;get register 4 byte ANI 0F7H ;reset bit 3 ORI 004H ;set bit 2 JMP STSTP1 ; STOP02: LDA REG4 ; ORI 00CH ;set bits 2 and 3 JMP STSTP1 ; STOP15: LDA REG4 ; ORI 008H ;set bit 3 ANI 0FBH ;reset bit 2 STSTP1: STA REG4 ; CALL NITSIO ; CALL SHSTOP ;print the result RET SHSTOP: CALL MILP ;display stop-bits DB 'Stop bits:',TAB,' ',0 LDA REG4 ; ANI 004H ;test bit 2 CPI 0 ;if bit2=0 then 1.5 JNZ SHSTP1 ; CALL MILP ; DB '1.5',0 ; RET SHSTP1: LDA REG4 ; ANI 008H ;test bit 3 CPI 0 ;if bit3=0 then 1 JNZ SHSTP2 ; CALL MILP ; DB '1',0 ; RET SHSTP2: CALL MILP ; DB '2',0 ; RET ; ; SET STOPBITS command table ; STPTBL: DB '1'+80H ;"set stop 1" DW STOP01 DB '2'+80H ;"set stop 2" DW STOP02 DB '1.','5'+80H ;"set stop 1.5" DW STOP15 DB 0 ;<<== End of stop-bits table ; ; SET LENGTH command: set bits per character ; ; The number of bits per character is controlled for ; the receiver circuit by bits 6 and 7 of the byte ; sent to the DART write-register 3 and for the trans- ; mitter circuit by bits 5 and 6 of the byte sent to ; the DART write-register 5. The assumption has been ; made here that both transmission and reception will ; be carried on at the same number of bits per charac- ; ter. The bit configurations are shown for register ; 3 only, but are the same for register 5: ; ; BPC Bit 7 Bit 6 ; 5 0 0 ; 6 1 0 ; 7 0 1 ; 8 1 1 ; STBITS: MVI C,SBLANK ;check for bits/char CALL MEX ; JC SETERR ;if none, print error LXI D,BITTBL ;check for proper syntax MVI C,LOOKUP CALL MEX PUSH H ;match found, go do it! RNC ; POP H ;no match: fix stack and JMP SETERR ; print error ; BIT5: LDA REG3 ; ANI 0BFH ;reset bit 6 ANI 07FH ;reset bit 7 STA REG3 ; LDA REG5 ; ANI 0DFH ;reset bit 5 ANI 0BFH ;reset bit 6 JMP STBTS1 ; BIT6: LDA REG3 ; ANI 0BFH ;reset bit 6 ORI 080H ;set bit 7 STA REG3 ; LDA REG5 ; ANI 0DFH ;reset bit 5 ORI 040H ;set bit 6 JMP STBTS1 ; BIT7: LDA REG3 ; ORI 040H ;set bit 6 ANI 07FH ;reset bit 7 STA REG3 ; LDA REG5 ; ORI 020H ;set bit 5 ANI 0BFH ;reset bit 6 JMP STBTS1 ; BIT8: LDA REG3 ; ORI 040H ;set bit 6 ORI 080H ;set bit 7 STA REG3 ; LDA REG5 ; ORI 020H ;set bit 5 ORI 040H ;set bit 6 STBTS1: STA REG5 ; CALL NITSIO ; CALL SHBITS ;print the result RET SHBITS: CALL MILP ;display bits/char DB 'Bits/char:',TAB,' ',0 LDA REG5 ; ANI 040H ;test bit 6 CPI 0 ;if bit6=0 then 6 bpc JNZ SHBTS2 ; LDA REG5 ; ANI 020H ;test bit 5 CPI 0 ;if bit5=0 then 5 bpc JNZ SHBTS1 ; CALL MILP ; DB '5',0 ; RET ; SHBTS1: CALL MILP ; DB '7',0 ; RET ; SHBTS2: LDA REG5 ; ANI 020H ;test bit 5 CPI 0 ;if bit5=0 then 6 bpc JNZ SHBTS3 ; CALL MILP ; DB '6',0 ; RET ; SHBTS3: CALL MILP ; DB '8',0 ; RET ; ; SET LENGTH command table ; BITTBL: DB '5'+80H ;"set bits 5" DW BIT5 DB '6'+80H ;"set bits 6" DW BIT6 DB '7'+80H ;"set bits 7" DW BIT7 DB '8'+80H ;"set bits 8" DW BIT8 DB 0 ;<<== end of bpc table ; ; ; Dialing routine ; DIAL: LHLD DIALPT ;FETCH POINTER CPI 254 ;START DIAL? JZ STDIAL1 ;JUMP IF SO CPI 255 ;END DIAL? JZ ENDIAL1 ;JUMP IF SO ; ; Not start or end sequence, must be a digit to be sent to the modem ; MOV M,A ;PUT CHAR IN BUFFER INX H ;ADVANCE POINTER SHLD DIALPT ;STUFF PNTR RET ;ALL DONE ; ; Here on a start-dial sequence ; STDIAL1: LXI H,DIALBF ;SET UP BUFFER POINTER SHLD DIALPT RET ; ; Here on an end-dial sequence ; ENDIAL1: MVI M,CR ;STUFF END-OF-LINE INTO BUFFER INX H ;FOLLOWED BY TERMINATOR MVI M,0 LDA TPULSE ;GET OVERLAY'S TOUCH-TONE FLAG STA SMDIAL+3 ;PUT INTO STRING LXI H,SMDIAL ;POINT TO DIALING STRING CALL SMSEND ;SEND IT WAITSM: MVI C,INMDM CALL MEX ;CATCH ANY OUTPUT FROM THE MODEM JNC WAITSM ;LOOP UNTIL NO MORE CHARACTERS ; ; THE FOLLOWING LOOP WAITS FOR A RESULT FROM THE MODEM. ; RESULT: LDA NDELAY ;GET DELAY COUNT MOV C,A SMWLP: PUSH B MVI B,1 ;CHECK FOR A CHAR, UP TO 1 SEC WAIT MVI C,TMDINP ;DO TIMED INPUT CALL MEX POP B JNC SMTEST ;JUMP IF MODEM HAD A CHAR PUSH B ;NO, TEST FOR CONTROL-C FROM CONSOLE MVI C,CHEKCC CALL MEX POP B JNZ SMNEXT ;IF NOT, JUMP CALL SMDMOFF ;YES, SHUT DOWN THE MODEM MVI A,3 ;RETURN ABORT CODE RET SMNEXT: DCR C ;NO JNZ SMWLP ;CONTINUE ; ; NO MODEM RESPONSE WITHIN THE TIME SPECIFIED IN SET DELAY COMMAND ; SMTIMO: CALL SMDMOFF MVI A,2 ;RETURN TIMEOUT CODE RET ; ; MODEM GAVE US A RESULT, CHECK IT ; SMTEST: ANI 7FH ;IGNORE ANY PARITY CALL SMANAL ;TEST THE RESULT JC RESULT ;GO TRY AGAIN IF UNKNOWN RESPONSE MOV A,B ;A=RESULT PUSH PSW ;SAVE IT SMTLP: MVI C,INMDM ;EAT ANY ADDITIONAL CHARS FROM SMARTMODEM CALL MEX JNC SMTLP ;UNTIL 100MS OF QUIET TIME POP PSW ;RETURN THE CODE RET ; ; Analyze character returned from External Modem ; SMANAL: MVI B,0 ;PREP CONNECT CODE CPI 'C' ;"CONNECT"? RZ CPI '1' ;NUMERIC VERSION OF "CONNECT" RZ CPI '5' ;NUMERIC VERSION OF "CONNECT 1200" RZ INR B ;PREP BUSY CODE B=1 CPI 'B' RZ INR B ;PREP NO CONNECT MSG B=2 CPI 'N' ;N=NO CONNECT RZ CPI '3' ;NUMERIC VERSION OF "NO CONNECT" RZ MVI B,4 ;PREP MODEM ERROR CPI 'E' ;E=ERROR RZ CPI '4' ;NUMERIC VERSION OF "ERROR" RZ ; ; UNKNOWN RESPONSE, RETURN CARRY TO CALLER. BUT FIRST, ; FLUSH THE UNKNOWN RESPONSE LINE FROM THE MODEM. ; WTLF: CPI LF ;LINEFEED? STC RZ ;END IF SO MVI C,INMDM ;NO. GET NEXT CHAR CALL MEX JNC WTLF ;UNLESS BUSY, LOOP RET ; ; Send string to the External Modem ; SMSEND: MVI C,SNDRDY ;WAIT FOR MODEM READY CALL MEX JNZ SMSEND MOV A,M ;FETCH NEXT CHARACTER INX H ORA A ;END? RZ ;DONE IF SO MOV B,A ;NO, POSITION FOR SENDING MVI C,SNDCHR ;NOPE, SEND THE CHARACTER CALL MEX JMP SMSEND ; ; Shut down (disconnect) External Modem ; SMDMOFF: MVI B,CR MVI C,SNDCHR CALL MEX MVI B,10 ;ONE SECOND WAIT FOR HAYES, ETC CALL MTIME JMP DISCON ;MAKE SURE IT IS OFF ; ; General utility routines ; MILP: MVI C,ILP ;IN-LINE PRINT JMP MEX RET ; MTIME: MVI C,TIMER ;MEX TIMER JMP MEX RET ; CRLF: CALL MILP ;PRINT CARRIAGE RETURN, LINE FEED DB CR,LF,0 RET ;========================================================================== ; Data Area ;========================================================================== ; ; Default UART parameters (Initalized for External RS-232) ; REG0: DB 00011000B ;RESET CHANNEL A REG3: DB 11000001B ;ENABLE RECEIVE AT 8 BITS/CHAR REG4: DB 01000100B ;NO PARITY, 1 STOP BIT, CLOCK X16 REG5: DB 11101010B ;ENABLE TRANSMIT AT 8 BITS/CHAR WR5: DB 11101010B ;MDM CTRL REGISTER 5 (Initial value) ; ; Miscellaneous Default Data ; SMDIAL: DB 'ATDT ' ;Smartmodem dial prefix DIALBF: DS 52 ;2* 24 CHAR MAX, + CR + NULL + SLOP DIALPT: DS 2 ;DIAL POSITION POINTER DIALWD: DB 01000000B ;PULSE/TONE DIAL WORD DIGIT DB 0 ;SAVE DIALED DIGIT MSPDSV: DB 0 ;SAVE EXTERNAL MODEM MSPEED DFBAUD: DB 05 ;0=110,1=300,3=600,5=1200,6=2400 ;7=4800,8=9600,9=19200 MONFLG: DB 0FFH ;0: MONITOR OFF - 0FFH: MONITOR ON ANSFLG: DB 0 ;0: ORIGINATE - 0FFH: ANS NDELAY: DB 30 ;NO. SECONDS FOR ANSWER ; SMATN: DB '+++',0 ;Smartmodem online 'attention' SMDISC: DB 'ATH',CR,0 ;Smartmodem disconnect SMINIT: DB 'ATM1 S0=0 S7=60 X1',CR,0 ;MODEM INIT STRING ; EOSMSG: DB 17H,'$' ;CLEAR TO END-OF-SCREEN CLSMSG: DB 1AH,'$' ;CLEAR WHOLE SCREEN END