; MXH-AM11.ASM ; MEX overlay for the Ampro Little Board Computer ; Version 1.1 07 Feb 1986 ; Changed to MXH-AM11 from MXO=AM10, added DCD & DTR support and ; made LOADable from within MEX+ --Bob Connolly ; ; Version 1.0: 28 Nov 1984 REV EQU 11 ;overlay revision level ; This is a MEX overlay file for the Ampro Computer. It is designed ; to work with the modem connected to serial port 'B'. It also ; requires the CTC and SIO parameter tables at the front of the ; Ampro bios, as well as the I/O initialization routine in the ; Ampro bios. This is a non-standard bios call and if not present ; in the bios it must be duplicated in this overlay. ; Note that all overlays may freely use memory up to 0CFFH. If the ; overlay must work with the MEX Smartmodem overlay (MXO-SMxx.ASM), ; the physical modem overlay should terminate by 0AFFH. ;------------------------------------------------------------ ; Misc equates NO EQU 0 YES EQU 0FFh TPA EQU 100h CR EQU 13 LF EQU 10 TAB EQU 9 ; Ampro definitions IOINT EQU 57 ;BIOS call of initialization routine SIOB EQU 52h ;relative location in bios SIOB1 EQU 53h SIOB3 EQU 55h SIOB5 EQU 57h CT1 EQU 42h ; port definitions MODCTL EQU 8Ch ;modem control port B MODDAT EQU 88h ;modem data port B ; 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 ; MEX service processor stuff ... MEX supports an overlay service ; processor, located at 0D00H (and maintained at this address from ; version to version). If your overlay needs to call BDOS for any ; reason, it should call MEX instead; function calls below about ; 240 are simply passed on to the BDOS (console and list I/O calls ; are specially handled to allow modem port queueing, which is why ; you should call MEX instead of BDOS). MEX uses function calls ; above about 244 for special overlay services (described below). ; Some sophisticated overlays may need to do file I/O; if so, use ; the PARSFN MEX call with a pointer to the FCB in DE to parse out ; the name. This FCB should support a spare byte immediately pre- ; ceeding the actual FCB (to contain user # information). If you've ; used MEX-10 for input instead of BDOS-10 (or you're parsing part ; of a SET command line that's already been input), then MEX will ; take care of DU specs, and set up the FCB accordingly. There- ; after all file I/O calls done through the MEX service processor ; will handle drive and user with no further effort necessary on ; the part of the programmer. 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 db 0c3h DS 2 ;MEX has a JMP START here ; The following variables are located at the beginning of the program ; to facilitate modification without the need of re-assembly. They will ; be moved in MEX 2.0. PMODEM: DB NO ;yes=PMMI modem \ / These 2 locations are not SMODEM: DB YES ;yes=Smartmodem / \ referenced by MEX TPULSE: DB 'T' ;T=touch, P=pulse (not referenced by MEX) CLOCK: DB 40 ;clock speed x .1, up to 25.5 mhz. MSPEED: DB 6 ;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 10Ch ;routine at CLRSCRN DB 0 ;was once ACKNAK, now spare BAKFLG: DB NO ;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 110h 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 YES ;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 127h ds 2 ;make addresses right ; Low-level modem I/O routines: this will be replaced with ; a jump table in MEX 2.0 (you can insert jumps here to longer ; routines if you'd like ... I'd recommend NOT putting part of ; a routine in this area, then jumping to the rest of the routine ; in the non-fixed area; that will complicate the 2.0 conversion) INCTL1: IN MODCTL ;in modem control port 12Ah RET DB 0,0,0,0,0,0,0 ;spares if needed for non-PMMI OTDATA: OUT MODDAT ;out modem data port 134h RET DB 0,0,0,0,0,0,0 ;spares if needed for non=PMMI INPORT: IN MODDAT ;in modem data port 13Eh RET DB 0,0,0,0,0,0,0 ;spares if needed for non-PMMI ; Bit-test routines. These will be merged with the above ; routines in MEX 2.0 to provide a more reasonable format MASKR: ANI MDRCVB ! RET ;bit to test for receive ready 148h 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 dcdtst: jmp dcdvec ;data carrier detect 154h rngdet: jmp rngvec ;ring-detect 157h db 0,0,0,0,0 ; Special modem function jump table: if your overlay cannot handle ; some of these, change the jump to "DS 3", so the code present in ; MEX will be retained. Thus, if your modem can't dial, change the ; JMP PDIAL at DIALV to DS 3, and MEX will print a "not-implemented" ; diagnostic for any commands that require dialing. ; DIALV dials the digit in A. See the comments at PDIAL for specs. ; DISCV disconnects the modem ; GOODBV is called just before MEX exits to CP/M. If your overlay ; requires some exit cleanup, do it here. ; INMODV is called when MEX starts up; use INMODV to initialize the modem. ; NEWBDV is used for phone-number baud rates and is called with a baud-rate ; code in the A register, value as follows: ; A=0: 110 baud A=1: 300 baud A=2: 450 baud ; A=3: 600 baud A=4: 710 baud A=5: 1200 baud ; A=6: 2400 baud A=7: 4800 baud A=8: 19200 baud ; If your overlay supports the passed baud rate, it should store the ; value passed in A at MSPEED (107H), and set the requested rate. If ; the value passed is not supported, you should simply return (with- ; out modifying MSPEED) -or- optionally request a baud-rate from the ; user interactively. ; NOPARV is called at the end of each file transfer; your overlay may simply ; return here, or you may want to restore parity if you set no-parity ; in the following vector (this is the case with the PMMI overlay). ; PARITV is called at the start of each file transfer; your overlay may simply ; return here, or you may want to enable parity detection (this is the ; case with the PMMI overlay). ; SETUPV is the user-defined command ... to use this routine to build your own ; MEX command, set the variable SETFL (117H) non-zero, and add your SET ; code. You can use the routine presented in the PMMI overlay as a ; guide for parsing, table lookup, etc. ; SPMENU is provided only for MDM compatibility, and is not used by MEX 1.0 for ; any purpose (it will be gone in MEX 2). ; VERSNV is called immediately after MEX prints its sign-on message at cold ; startup -- use this to identify your overlay in the sign-on message ; (include overlay version number in the line). ; BREAKV is provided for sending a BREAK (-B in terminal mode). If your ; modem doesn't support BREAK, or you don't care to code a BREAK rou- ; tine, you may simply execute a RET instruction. ; smdisc: ds 3 ;smartmodem disc (not here} 15Fh DIALV: DS 3 ;dial digit in A (see info at PDIAL) 162h DISCV: jmp drdtr ;disconnect the modem 165h GOODBV: DS 3 ;called before exit to CP/M INMODV: JMP NITMOD ;initialization. Called at cold-start NEWBDV: JMP PBAUD ;set baud rate NOPARV: JMP NOPAR ;set modem for no-parity PARITV: JMP PARITY ;set modem parity SETUPV: JMP SETCMD ;SET cmd: jump to a RET if you don't write SET SPMENV: DS 3 ;not used with MEX VERSNV: JMP SYSVER ;Overlay's voice in the sign-on message 17Dh BREAKV: DS 3 ;send a break 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 compatibility). These should not be modified by ; the overlay. ; Note that for MEX 2.0 compatibility, you should not try to use these ; routines, since this table will go away with MEX 2.0 (use the MEX ; service call processor instead). 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 ; Clear/screen and clear/end-of-screen. Each routine must use the ; full 9 bytes alloted (may be padded with nulls). ; These routines (and other screen routines that MEX 2.0 will sup- ; port) will be accessed through a jump table in 2.0, and will be ; located in an area that won't tie the screen functions to the ; modem overlay (as the MDM format does). CLREOS: LXI D,EOSMSG ; 195h MVI C,PRINT CALL MEX RET CLS: LXI D,CLSMSG ;null unless patched 19Eh MVI C,PRINT CALL MEX RET ; org 200h ; area above is reserved ; EOSMSG: DB 27,89,0,0,0,'$' CLSMSG: DB 27,42,0,0,0,'$' NOPAR: RET PARITY: RET ; DRDTR: MVI A,5 ; Setup to write register 5 OUT MODCTL MVI A,68H ; Clear RTS causing shutdown OUT MODCTL RET ; dcdvec: mvi a,10h ;reset status out modctl ; 0=NO CARRIER 255=CARRIER in modctl ; 254=NOT SUPPORTED ani 20h ;dcd from modem must rz ; be connected to ori 0ffh ; cts (ampro) else ret ; return 0feh (unsupported) ; rngvec: mvi a,0feh ret ; NITMOD: MVI A,6 ;initialize to 2400 baud. No other ;parameters changed... fall thru ;------------------------------------------------------------------ PBAUD: PUSH H ;don't alter anybody PUSH D PUSH B MOV E,A ;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 ;return error for STBAUD caller JZ PBEXIT ;exit if so STA BSAVE1 ;save it MOV A,E ;get speed code back STA MSPEED ;make it current LXI H,BAUDTX ;offset into second table DAD D MOV A,M ;get second value STA BSAVE2 ;save it also LHLD 1 ;get location of bios MVI L,CT1 ;add 42 to reach CT1 in i/o table MVI A,47h MOV M,A INX H ;move to next location LDA BSAVE1 ;get first table value MOV M,A ;store it LDA BSAVE2 ;get second table value MOV B,A ;and save it MVI L,SIOB1 ;move ahead to siob+1 values MOV A,M ;get current value ANI 3Fh ORA B ;or it with second value MOV M,A ;store it in work table INX H INX H MOV A,M ;get last value and make ORI 80h ;sure msb is set MOV M,A ;put it back in working table CALL IOINIT ;do the initialization STC CMC ;return no error for STBAUD PBEXIT: POP B ;all done POP D POP H RET IOINIT MVI A,IOINT ;offset into bios jump table LHLD 1 ;address of bios in HL MOV L,A ;add offset JMP GOHL ;and go there with auto return ; table of baud rate divisors for supported rates BAUDTB: DB 0,208,139,208,0,104 ;110,300,450,600,710,1200 DB 52,26,13,0 ;2400,4800,9600,19200 BAUDTX: DB 0,80h,80h,40h,0,40h DB 40h,40h,40h,0 BSAVE1 DB 0 ;current setting from BSAVE2 DB 0 ;tables - uninitialized ; Sign-on message SYSVER: LXI D,SOMESG MVI C,PRINT CALL MEX RET SOMESG: DB 'Ampro Overlay Version ' DB REV/10+'0' DB '.' DB REV MOD 10+'0' DB CR,LF,'$' ; Newline on console CRLF: MVI A,CR CALL TYPE MVI A,LF ;fall into TYPE ; type char in A on console TYPE: PUSH H ;save 'em PUSH D PUSH B MOV E,A ;align output character MVI C,CONOUT ;print via MEX CALL MEX POP B POP D POP H RET ; Data area ;------------------------------------------------------------ ; The remainder of this overlay implements a very versatile ; SET command -- if you prefer not to write a SET for your ; modem, you may delete the code from here to the END statement. ; Control is passed here after MEX parses a SET command. SETCMD: MVI C,SBLANK ;any arguments? CALL MEX JC SETSHO ;if not, go print out values LXI D,CMDTBL ;parse command CALL TSRCH ;from table PUSH H ;any address on stack RNC ;if we have one, execute it POP H ;nope, fix stack SETERR: LXI D,SETEMS ;print error MVI C,PRINT CALL MEX RET SETEMS: DB CR,LF,'SET command error',CR,LF,'$' ; SET command table ... note that tables are constructed of command- ; name (terminated by high bit=1) followed by word-data-value returned ; in HL by MEX service processor LOOKUP. Table must be terminated by ; a binary zero. ; Note that LOOKUP attempts to find the next item in the input stream ; in the table passed to it in HL ... if found, the table data item is ; returned in HL; if not found, LOOKUP returns carry set. CMDTBL: DB '?'+80H ;"set ?" DW STHELP DB 'BAU','D'+80H ;"set baud" DW STBAUD DB 'BIT','S'+80H ;"set bits" DW STBITS DB 'PARIT','Y'+80H ;"set parity" DW STPAR DB 'STO','P'+80H ;"set stop" DW STSTOP DB 'SHAK','E'+80H ;"set shake" DW STSHAK DB 0 ;<<=== table terminator ; SET : print current statistics SETSHO: LXI H,SHOTBL ;get table of SHOW subroutines SETSLP: MOV E,M ;get table address INX H MOV D,M INX H MOV A,D ;end of table? ORA E RZ ;exit if so PUSH H ;save table pointer XCHG ;adrs to HL CALL GOHL ;do it CALL CRLF ;print newline MVI C,CHEKCC ;check for console abort CALL MEX POP H ;it's done JNZ SETSLP ;continue if no abort RET GOHL: PCHL ; table of SHOW subroutines SHOTBL: DW BDSHOW DW BITSH DW PARSH DW STPSH DW SHKSH DW 0 ;<<== table terminator ; SET ? processor STHELP: LXI D,HLPMSG MVI C,PRINT CALL MEX RET ; The help message HLPMSG: DB CR,LF,'SET command, Ampro version:',CR,LF DB CR,LF,' >SET BAUD 300, 450, 600, 1200, 2400, 4800, or 9600.' DB CR,LF,' >SET BITS 5, 6, 7, or 8.' DB CR,LF,' >SET PARITY ODD, EVEN, or NONE.' DB CR,LF,' >SET STOP 1, or 2.' DB CR,LF,' >SET SHAKE ON, or OFF.' DB CR,LF,CR,LF,'$' ; SET BAUD processor STBAUD: MVI C,BDPARS ;function code CALL MEX ;let MEX look up code JC SETERR ;invalid code CALL PBAUD ;no, try to set it JC SETERR ;not-supported code BDSHOW: CALL ILPRT ;display baud DB ' Baud rate: ',0 LDA MSPEED MVI C,PRBAUD ;use MEX routine CALL MEX RET ; SET BITS processor STBITS: LXI D,BITTBL ;load lookup table CALL TSRCH ;look for 7 or 8 JC SETERR ;if not found MOV C,L ;save selection value LHLD 1 ;get bios address MVI L,SIOB3 ;move to siob+3 MOV A,M ;wr5 info ANI 9Fh ;mask ORA C ;add selection MOV M,A ;store it MOV A,C ;get selection RAL MOV C,A ;shift selection left MVI L,SIOB5 ;move to siob+5 MOV A,M ;wr3 info ANI 3Fh ;mask ORA C MOV M,A ;store it CALL IOINIT ;do it. BITSH: CALL ILPRT DB ' Data bits: ',0 LHLD 1 ;get bios location MVI L,SIOB3 ;move to siob+3 MOV A,M ;get current value ANI 60h CPI 60h JZ BITSH8 CPI 20h JZ BITSH7 CPI 40h JZ BITSH6 CALL ILPRT DB '5',0 ;show a 5 RET BITSH6 CALL ILPRT DB '6',0 ;show a 6 RET BITSH7 CALL ILPRT DB '7',0 ;show a 7 RET BITSH8: CALL ILPRT DB '8',0 RET BITTBL: DB '5'+80h DW 00h DB '6'+80h DW 40h DB '7'+80h DW 20h DB '8'+80h DW 60h DB 0 ; STPAR: LXI D,PARTBL CALL TSRCH JC SETERR MOV C,L LHLD 1 ;get bios address MVI L,SIOB1 ;go to siob+1 MOV A,M ANI 0FCh ORA C MOV M,A CALL IOINIT PARSH: CALL ILPRT DB ' Parity: ',0 LHLD 1 ;get bios address MVI L,SIOB1 MOV A,M ANI 03h ;mask CPI 01h ;check for none JZ PARSHO CPI 03h JZ PARSHE CALL ILPRT DB 'none',0 RET PARSHO CALL ILPRT DB 'odd',0 RET PARSHE: CALL ILPRT DB 'even',0 RET PARTBL: DB 'OD','D'+80h DW 01h DB 'EVE','N'+80h DW 03h DB 'NON','E'+80h DW 00h DB 0 STSTOP: LXI D,STPTBL CALL TSRCH JC SETERR MOV C,L LHLD 1 ;get bios address MVI L,53h ;shift to bios+1 MOV A,M ANI 0F3h ORA C MOV M,A CALL IOINIT STPSH: CALL ILPRT DB ' Stop bits: ',0 LHLD 1 ;get bios address MVI L,53h ;shift to bios+1 MOV A,M ANI 0Ch CPI 0Ch JZ STPSH2 CALL ILPRT DB '1',0 RET STPSH2: CALL ILPRT DB '2',0 RET STPTBL: DB '1'+80h DW 04h DB '2'+80h DW 0Ch DB 0 STSHAK: LXI D,SHKTBL ;get handshake table CALL TSRCH ;search it for parameter JC SETERR ;if not found MOV C,L ;temp store value in C LHLD 1 ;get location of BIOS MVI L,6Dh ;location of HSB in bios MOV M,C ;put new value in it SHKSH: CALL ILPRT DB ' Hand Shake: ',0 LHLD 1 ;get bios location MVI L,6DH ;location of HSB in bios MOV A,M ;get current value CPI 1 JZ SHKSHY ;show a yes CALL ILPRT DB 'off',0 RET SHKSHY CALL ILPRT DB 'on',0 RET SHKTBL DB 'OF','F'+80h DW 0 DB 'O','N'+80h DW 1 DB 0 ;---------------------------------------------------------- ; Compare next input-stream item in table @DE; CY=1 ; if not found, else HL=matched data item TSRCH: MVI C,LOOKUP ;get function code JMP MEX ;pass to MEX processor ; Print in-line message ... blows away C register ILPRT: MVI C,ILP ;get function code JMP MEX ;go do it ;------------------------------------------------------------ ; End of AMPRO MEX modem overlay ;------------------------------------------------------------ END