½MXO-ST ASMt¡îMXO-ST HEXu˜#ÿ ; MXO-ST.ASM -- Atari ST overlay for MEX -- Version 3.0 -- 11/02/86 ; ; Edit this file for your preferences then follow the "TO USE:" example ; shown below. ; ; TO USE: First edit this file filling in answers for your own ; equipment. Then assemble with ASM.COM or equivalent ; assembler. Then use MLOAD21.COM (or later) to combine ; this overlay with the original MEX10.COM file. You may ; optionally combine files for Hayes Smartmodem (MXO-SM13. ; HEX), Version 1.0C MEX update (MEXFIX.HEX), and buffer size ; customization (MEXPAT10.HEX) on the same MLOAD command line ; if you desire. See MEX10.DOC or MEX-EASY.DOC for details. ; For example, to prepare a working COM file for use with a ; Hayes Smartmodem and to incorporate the version 1.0C from ; MEXNEWS.003, enter the following: ; ; A>MLOAD21 MEX.COM=MEX112.COM,MXO-ST,MXO-SM13,MEXFIX ; ; = = = = = = = = = = = = = = = = = = ; ; YES EQU 0FFH NO EQU 0 ; CR equ 13 LF equ 10 ESC equ 27 ; BDOS EQU 005H ; InStat equ 04H ;Virtual input status register InData equ 06H ;Virtual input data register ; OtStat equ 05H ;Virtual output status register OtData equ 04H ;Virtual output data register ; PAGE ; ; MEX service processor stuff ; MEX EQU 0D00H ; CALL MEX 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 PRINT EQU 9 ; ; EXX MACRO DB 0D9H ENDM EXAF MACRO DB 008H ENDM LDIR MACRO DB 0EDH,0B0H ENDM OUTIR MACRO DB 0EDH,0B3H ENDM PAGE ; $-MACRO ORG 100H ; ; ; Change the clock speed to suit your system ; DS 3 ;(for "JMP START" instruction) ; DS 2 TCHPLS: DB 'T' ;T=touch, P=pulse (Smartmodem-only) 105H CLOCK: DB 07 ;clock speed in MHz x10, 25.5 MHz max. 106H ;20=2 MHh, 37=3.68 MHz, 40=4 MHz, etc. MSPEED: DB 5 ;0=110 1=300 2=450 3=600 4=710 5=1200 107H ;6=2400 7=4800 8=9600 9=19200 default BYTDLY: DB 5 ;0=0 delay 1=10ms 5=50 ms - 9=90 ms 108H ;default time to send character in ter- ;minal mode file transfer for slow BBS. CRDLY: DB 5 ;0=0 delay 1=100 ms 5=500 ms - 9=900 ms 109H ;default time for extra wait after CRLF ;in terminal mode file transfer COLUMS: DB 5 ;number of DIR columns shown 10AH SETFL: DB NO ;yes=user-defined SET command 10BH SCRTST: DB YES ;Cursor control routine 10CH ACKNAK: DB YES ;yes=resend a record after any non-ACK 10DH ;no=resend a record after a valid NAK BAKFLG: DB YES ;yes=change any file same name to .BAK 10EH CRCDFL: DB YES ;yes=default to CRC checking 10FH TOGCRC: DB YES ;yes=allow toggling of CRC to Checksum 110H CVTBS: DB NO ;yes=convert backspace to rub 111H TOGLBK: DB YES ;yes=allow toggling of bksp to rub 112H ADDLF: DB NO ;no=no LF after CR to send file in 113H ;terminal mode (added by remote echo) TOGLF: DB YES ;yes=allow toggling of LF after CR 114H TRNLOG: DB YES ;yes=allow transmission of LOGON 115H ;write logon sequence at location LOGON SAVCCP: DB NO ;yes=do not overwrite CCP 116H LOCNXT: DB NO ;yes=local command if EXTCHR precedes 117H ;no=external command if EXTCHR precedes TOGLOC: DB YES ;yes=allow toggling of LOCONEXTCHR 118H LSTTST: DB YES ;yes=allow toggling of printer on/off 119H XOFTST: DB NO ;yes=check for XOFF from remote while 11AH ;sending a file in terminal mode XONWT: DB NO ;yes=wait for XON after CR while 11BH ;sending a file in terminal mode TOGXOF: DB YES ;yes=allow toggling of XOFF checking 11CH IGNCTL: DB NO ;yes=CTL-chars above ^M not displayed 11DH EXTRA1: DB 0 ;for future expansion 11EH EXTRA2: DB 0 ;for future expansion 11FH BRKCHR: DB '@'-40H ;^@ = Send a 300 ms. break tone 120H NOCONN: DB 'N'-40H ;^N = Disconnect from the phone line 121H LOGCHR: DB 'L'-40H ;^L = Send logon (LF) 122H LSTCHR: DB 'P'-40H ;^P = Toggle printer 123H UNSVCH: DB 'R'-40H ;^R = Close input text buffer (DC4) 124H TRNCHR: DB 'T'-40H ;^T = Transmit file to remote 125H SAVCHR: DB 'Y'-40H ;^Y = Open input text buffer (DC2) 126H EXTCHR: DB '^'-40H ;^^ = Send next character 127H ; ; DS 2 ; 128H ; INCTL1: ; Get modem status byte 12AH in InStat ; well get the thing RET ; 133H ; org 134H OutData:out OtData ;out modem data port 134H ret ; NotIn: xra a ;fetch a null ret ;then exit ; org 13EH INPORT: in InStat ;get the status ora a jz NotIn ; data is not ready in InData ; Get data from modem data port 13EH ret ; org 148H jmp SetRDA ;bit to test for receive ready 148H ; org 14BH jmp TstRDA ;value of receive bit when rdy 14BH ; org 14EH jmp SetTBE ;bit to test for send ready 14EH ; org 151H jmp TstTBE ;value of send bit when ready 151H ; ; Unused area: was once used for special PMMI functions, ; Now used only to retain compatibility with MDM overlays. ; You may use this area for any miscellaneous storage you'd ; like but the length of the area *MUST* be 12 bytes (decimal) ; DS 12 ; 154H ; LOGON: DS 2 ;not used 160H DIALV: DS 3 ; (I'm using the mxo-sm13) 162H DISCV: DS 3 ; 165H GOODBV: JMP GOODBYE ; 168H INMODV: JMP INITMOD ;go to user written routine 16BH NEWBDV: JMP PBAUD ;set baud rate 16EH NOPARV: RET ! NOP ! NOP ;by-passes PMMI routine 171H PARITV: RET ! NOP ! NOP ;by-passes PMMI routine 174H SETUPV: JMP SETCMD ;process SET comand 177H SPMENV: DS 3 ;not used 17AH VERSNV: JMP SYSVER ; 17DH BREAKV: JMP SENDBRK ; 180H ; ; ; The following jump vector provides the overlay with access to special ; routines in the main program (retained and supported in the main pro- ; gram for MDM overlay compatability). These should not be modified by ; the overlay. ; ; Note that for MEX 2.0 compatability, you should try to not use these ; routines, since this table will go away with MEX 2.0 (use the MEX ; service call processor instead). ; suggest replace with: ILPRTV: DS 3 ; MEX function 9 183H INBUFV: DS 3 ; MEX function 10 186H ILCMPV: DS 3 ; MEX function 247 189H INMDMV: DS 3 ; MEX function 255 18CH NXSCRV: DS 3 ; not supported 18FH TIMERV: DS 3 ; MEX function 254 192H ; ; ; Clear sequences -- CLREOS is clear to end of screen, CLS is clear ; entire screen. ; CLREOS: LXI D,EOSMSG ; N.B. MY clear clreos fit 195H JMP MEXPRT ; in 3 bytes, YOURS may not 198H ; so watch the addresses. EOSMSG: DB ESC,'J$' ; 19BH ; CLS: LXI D,CLSMSG ; 19EH MEXPRT: MVI C,PRINT ; this entry saves a few bytes 1A1H CALL MEX ; 1A3H RET ; ;----------------------------------------------------------------------- ; ; ******* End of fixed format area ******** ; ;..... ; ;----------------------------------------------------------------------- ; ; NOTE: The end of your last routine should terminate by 0B00H if ; using the Hayes Smartmodem or by address 0D00H otherwise. ; ;----------------------------------------------------------------------- ; ; CLSMSG: DB ESC,'E$' ; SYSVER: LXI D,SYSVERMSG ; at sign-on, print the whole thing SHOW0: CALL MEXPRT LXI D,COMMAMSG CALL MEXPRT ; for "SET ?", just the configuration LDA MSPEED ; let MEX print the current Baud Rate MVI C,PRBAUD CALL MEX LXI D,CRLF CALL MEXPRT LXI D,CRLF CALL MEXPRT RET ; SYSVERMSG: DB LF,'For Atari ST CPMZ80 emulater by SoftDesign' DB CR,LF SHOWMSG:DB '(' SYSVR1: DB '8 data bits, 1 stop bit, ' SYSVR2: DB 'no',0,0,' parity)$' COMMAMSG: DB ', $' ; nonmsg: db 'no',0,0 evnmsg: db 'even' oddmsg: db 'odd',0 ; SetRDA: ora a ;do something rz ;exit if zero mvi a,-1 ;else set 0ffh ret ;and exit ; TstRDA: in InStat cpi -1 ;test the thing for ready ret ;and exit ; SetTBE: ora a ;do something ret ;and exit ; TstTBE: in OtStat ;get the output status register cpi -1 ;test the thing for ready ret ;and exit ; ;----------------------------------------------------------------------- ;..... ; ; ; This routine interprets the SET command parameters. Everything ; set here should be valid through CLONING. ; SETCMD: MVI C,SBLANK ; check for any arguments CALL MEX JC HELPER ; if none, tell how to use SET LXI D,CMDTBL ; look for an argument LOOK: MVI C,LOOKUP ; (common lookup entry and go code) CALL MEX PUSH H ; push-down address to jmp to RNC ; 'RET' there if valid POP H ; oops, pop to keep stack valid HELPER: LXI D,HLPMSG ; and tell how to use CALL MEXPRT RET BAUDCMD: MVI C,BDPARS ; let MEX decode which rate he wants CALL MEX JC SHOWBD ; if couldn't find it, show current Baud CALL PBAUD ; if not oops, try to set JC HELPER ; if wouldn't set, show how to use LXI D,HEREBD ; say "Modem speed set to: " CALL MEXPRT LDA MSPEED MVI C,PRBAUD ; and show how we set it CALL MEX RET SHOWBD: LXI D,CURRBD ; For no args on SET BAUD line, CALL MEXPRT ; show current Baud Setting LDA MSPEED MVI C,PRBAUD CALL MEX RET PARITCMD: MVI C,SBLANK ; Look for any args CALL MEX JC SHOWPR ; if none, show current settings LXI D,PARITBL ; look for parity arguments JMP LOOK SHOWPR: LXI D,CURRPR ; For no args on SET PARITY line, CALL MEXPRT ; show current parity setting LXI D,SHOWMSG CALL MEXPRT RET NONE: LXI H,NONMSG ; set up to put "no",NUL,NUL in sign-on LXI D,CONTROLN ; set up to tell SIO: 8 bits, no parity MVI A,'8' ; set up to put "8" bits in sign-on JMP PARITGO ODD: LXI H,ODDMSG ; set up to put "odd",NUL in sign-on LXI D,CONTROLO ; set up to tell SIO: 7 bits, odd JMP EORO EVEN: LXI H,EVNMSG ; set up to put "even" in sign-on LXI D,CONTROLE ; set up to tell SIO: 7 bits, even EORO: MVI A,'7' ; set up to put "7" bits in sign-on ; PARITGO: STA SYSVR1 ; stash data bits message in sign-on message PUSH D ; save SIO control stuff ; LXI D,SYSVR2 ; stash parity configuration in sign-on ; LXI B,4 ; LDIR POP H ; get back SIO stuff ; LXI D,SETMODCTL ; stash it where INITMOD can get to it ; LXI B,8 ; (i.e. after cloning) ; LDIR ; LXI D,HEREPR ; say "Parity set to:" ; CALL MEXPRT ; LXI D,SHOWMSG ; and show them ; CALL MEXPRT ; INITALSO: ; INITMOD comes here, too ; LXI H,SETMODCTL ; really tell the SIO how to do it ; LXI B,0800H+MODCT1 ; DI ; OUTIR ; EI RET PBAUD: PUSH H PUSH D PUSH B ; MOV E,A ; get MEX value ; MVI D,0 ; index into Turbo values ; LXI H,TBAUDTBL ; DAD D ; MOV A,M ; take a peek ; ORA A ; was it valid? ; STC ; set up to say "not valid" ; JZ PBEXIT ; and return if it was not valid ; MOV A,E ; get back MEX value ; STA MSPEED ; record for MEX what we are doing ; MOV E,M ; get back Turbo value ; MVI D,CCN ; and set the Baud Rate ; MVI C,CCBR ; (use "Set Comm Channel Baud Rate") ; CALL TDOS XRA A ; tell, "no errors" PBEXIT: POP B POP D POP H RET INITMOD: LDA MSPEED ; get value from last clone CALL PBAUD ; set the rate JMP INITALSO ; and initialize SIO from last clone SHOW: LXI D,CURRST ; say "Current settings:" CALL MEXPRT LXI D,SHOWMSG ; display current parameters JMP SHOW0 CMDTBL: DB '?'+80H DW SHOW DB 'BAU','D'+80H DW BAUDCMD DB 'PARIT','Y'+80H DW PARITCMD DB 0 PARITBL:DB 'EVE','N'+80H DW EVEN DB 'E'+80H DW EVEN DB 'OD','D'+80H DW ODD DB 'O'+80H DW ODD DB 'NON','E'+80H DW NONE DB 'N'+80H DW NONE DB 0 TBAUDTBL: ; Turbo code MSPEED code Baud rate db 0 ; 0 (not supported) 110 db 5 ; 1 300 db 0 ; 2 (not supported) 450 db 6 ; 3 600 db 0 ; 4 (not supported) 710 db 7 ; 5 1200 db 10 ; 6 2400 db 12 ; 7 4800 db 14 ; 8 9600 db 15 ; 9 19200 ; ;setmodctl: ; this is how I/O is set as default: ; db 0,0,4 ;sioWR4: db 046h ; x16 Clock Rate, 1 stop bit, even parity, disabled ; db 3 ;sioWR3: db 0c1h ; Rxd 8 data bits, Rx enabled ; db 5 ;sioWR5: db 0eah ; DTR, Txd 8 data bits, Tx enabled, RTS CONTROLN: ; This is to init the SIO for 8 data bits, no parity DB 0,0,4,046H,3,0C1H,5,0EAH CONTROLE: ; This is to init the SIO for 7 data bits, even parity DB 0,0,4,047H,3,041H,5,0AAH CONTROLO: ; This is to init the SIO for 7 data bits, odd parity DB 0,0,4,045H,3,041H,5,0AAH ; ;----------------------------------------------------------------------- ;..... ; ; This routine allows a 300 ms. break tone to be sent to reset some ; time-share computers. ; SENDBRK: ; DI ; MVI A,5 ; select Write Register 5 ; OUT MODCT1 ; lda sioWR5 ; get Current value for WR5 ; ori 010h ; 'or'-in the Break bit ; JMP GOODBYE1 ;..... ; ; This routine sends a 300 ms. break tone and sets DTR low for the same ; length of time to disconnect some modems such as the Bell 212A, etc. ; GOODBYE: ; DI ; MVI A,5 ; OUT MODCT1 ;SEND TO THE STATUS PORT ; MVI A,78H ;TURN OFF DTR, SEND BREAK ; GOODBYE1: ; OUT MODCT1 ; EI MVI B,3 ;WAIT FOR 300 MS. MVI C,TIMER CALL MEX ; DI ; MVI A,5 ; OUT MODCT1 ; lda sioWR5 ;RESTORE TO NORMAL, current value of WR5 ; OUT MODCT1 EI RET ;..... HLPMSG: DB LF DB ' SET (show this message)',CR,LF DB ' SET ? (show current parameters)',CR,LF DB ' SET PARITY < E(ven) | O(dd) | N(one) >',CR,LF DB ' SET BAUD ',CR,LF DB ' rate choices: 300 600 1200 2400 4800 9600 19200' DB CR,LF CRLF: DB CR,LF,'$' HEREBD: DB 'Modem Speed set to: $' HEREPR: DB 'Parity set to: $' CURRBD: DB 'Current BAUD Rate: $' CURRPR: DB 'Current PARITY setting: $' CURRST: DB 'Current settings:',CR,LF,'$' ; ;----------------------------------------------------------------------- ; ; (Version 3.0) ; ; NOTE: This patch tries to get a little more speed out of timed loops. ORG 0D52H timbas: dw 16 ;timing constant (originally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