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10,7/anf10/dndz11.p11
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.SBTTL DNDZ11 -- DZ11 DRIVER 23-OCT-87
;THIS SOFTWARE IS FURNISHED UNDER A LICENSE AND MAY BE USED
; OR COPIED ONLY IN ACCORDANCE WITH THE TERMS OF SUCH LICENSE.
;
;COPYRIGHT (c) DIGITAL EQUIPMENT CORPORATION
; 1976,1977,1978,1979,1980,1981,1982,1983,1984,1987,1988.
;ALL RIGHTS RESERVED.
VRDZ11=050 ;FILE EDIT NUMBER
.IF NE FTDZ11 ;ONLY IF WE HAVE A DZ11 (COVERS ALL OF DNDZ11)
;NOTE: THE DZ11 MODEM-CONTROL AND DDCMP ROUTINES HAVE BEEN MOVED TO THE
; END OF THE DNDZ11 MODULE.
.SBTTL SET DZ LINE SPEED
;CALL JSR PC,DZSPD
; R0/ POINTER TO DZ11
; R1/ SPEED (UNIVERSAL VERSION)
; R2/ LINE NUMBER
DZSPD: PIOFF ;DONT BOTHER ME
MOV R1,-(P) ;SAVE SPEED
SWAB R1 ;BELIEVE ONLY TERMINAL TRANSMIT SPEED
MOVB R1,(P) ;POSITION FOR RETURN SPEED
BIC #^C377,R1 ;CLEAR EXTRA BITS
BEQ 95$ ;ZERO BAUD == SPECIAL CODE
MOVB DZSPDT(R1),R1 ;GET DZ VERSION
BMI 99$ ;BAD SPEED, PACK IT IN
BIS #DZ.CL8!DZ.2SB!DZ.RON,R2; 2 STOP BITS, 8 DATA BITS
.IF EQ FT2BIT
CMP R1,#2 ;FASTER THAN 110?
BLOS 10$
BIC #DZ.2SB,R2 ;CLEAR STOP BIT
10$:
.ENDC
97$: BIC #^C17,R1 ;CLEAR EXTRA BITS
SWAB R1 ;POSITION BITS
ADD R2,R1
MOV R1,DZ.RBF(R0) ;SET LINE SPEED
98$: MOV (P)+,R1 ;RETURN ACTUAL SPEED VALUE
PION ;RESTORE PI LEVEL
CLC ;CLEAR ERROR FLAG
RTS PC
99$: TST (P)+ ;PITCH BOGUS SPEED VALUE
PION ;RESTORE PI LEVEL
SEC ;SET ERROR FLAG
RTS PC ;RETURN CARRY SET. I.E. ERROR
95$: MOV R2,DZ.RBF(R0) ;SELECT LINE, BUT NO RECIEVE ACTIVE
BR 98$ ;RETURN
DZSPDT: .BYTE -1 ; 0 BAUD
.BYTE 0 ; 50 BAUD
.BYTE 1 ; 75 BAUD
.BYTE 2 ; 110 BAUD
.BYTE 3 ; 134.5 BAUD
.BYTE 4 ; 150 BAUD
.BYTE -1 ; 200 BAUD
.BYTE 5 ; 300 BAUD
.BYTE 6 ; 600 BAUD
.BYTE 7 ; 1200 BAUD
.BYTE 10 ; 1800 BAUD
.BYTE 11 ; 2000 BAUD
.BYTE 12 ; 2400 BAUD
.BYTE 13 ; 3600 BAUD
.BYTE 14 ; 4800 BAUD
.BYTE 15 ; 7200 BAUD
.BYTE 16 ; 9600 BAUD
.BYTE 17 ; 19200 BAUD
.BYTE -1 ;EXT 1.
.BYTE -1 ;EXT 2.
.SBTTL DZ-11 BREAK CONTROL CODE
DZBKON: SAVE <R0,R3> ;HERE DO SET XMIT-BREAK
MOV DB.DHB(J),R3 ;GET THE DZ?BLK ADDRESS
MOVB DB..LN(J),R0 ;GET THE LINE NUMBER.
ASL R0 ; TURN IT INTO A WORD INDEX
BISB BITS(R0),DZB.BR(R3) ;SET BREAK FOR THE LINE
BR DZBKXX ;NOW LET COMMON CODE FINISH THE WORK
DZBKOF: SAVE <R0,R3> ;HERE TO CLEAR SMIT-BREAK
MOV DB.DHB(J),R3 ;GET THE DZ?BLK ADDRESS
MOVB DB..LN(J),R0 ;GET THE LINE NUMBER,
ASL R0 ; AND TURN IT INTO A WORK INDEX
BICB BITS(R0),DZB.BR(R3) ;CLEAR THE SOFTWARE BREAK BIT.
DZBKXX: MOV @R3,R0 ;GET THE REAL DZ HARDWARE ADDRESS
MOVB DZB.BR(R3),DZ.TDR+1(R0) ; AND SET THE BREAK BITS
RESTORE <R3,R0> ;RESTORE THE REGS,
RTS PC ;AND WE'RE DONE
.SBTTL DZ INITILAZTION
DZ.INI: ;R3= DZnBLK
SAVE <R4>
MOV (R3),R4 ;GET ADDR OF DEVICE
BIT #DZ.TIE!DZ.RIE,(R4) ;INTERUPTS ON ?
BNE 10$
CLRB DZ.TCR(R4) ;DISABLE ALL THE LINES
BIS #DZ.MSE!DZ.TIE!DZ.RIE,(R4); ARM DZ11
10$: MOV 4(P),R4 ;GET LCB ADDR
MOV LC.SPD(R4),R1 ;GET THE SPEED
BIT #LCB.AB,(R4) ;IS IT AUTOBAUD ?
BEQ 20$ ;NO
BIC #LCB.LS,LC.CAR(R4) ;CLEAR LOW SPEED BIT
MOV #B.HSPD,R1 ;YES, ASSUME AUTO BAUD
20$:
.IF NE TTYDZN
CMP 6(P),#TTDZIN ;TTY LINE ?
BNE 25$
MOV R1,-(P) ;SAVE SPEED
JSR PC,SETSPD
MOV (P)+,R1
BR 30$
25$:
.ENDC
MOV (R3),R0 ;GET DZ ADDR
JSR PC,DZSPD ;SET THE SPEED
30$: MOV J,LC.BLK(R4) ;SET DDB ADDR
MOV 6(P),LC.INS(R4) ;SET INPUT HANDLE
MOV 10(P),LC.OUS(R4) ;SET OUTPUT HANDLE
CLR LC.CNT(R4) ;CLEAR COUNT
CLR LC.BUF(R4) ;CLEAR BUFFER
RESTORE <R4>
RTS PC ;ALL DONE
.SBTTL DZ11 DATABASE
DZADDR=0 ;ADDRESS OF DZ HARDWARE
DZB.BN=2 ;FIRST LINE # IN GROUP
DZB.VC=4 ;VECTOR ADDR OF DZ
DZB.BR=6 ;BREAK BITS
DZB.LC=10 ;START OF LCB'S
DZB.SZ=DZB.LC+<LC..SZ*10>; LENGTH OF DZ BLOCK
.MACRO XX
.MACRO XXX NNN
.IF NDF DZS'NNN
.IIF EQ DZL'NNN, DZS'NNN=0
.IIF EQ DZL'NNN-1, DZS'NNN=B.HSPD ;HIGH AUTO BAUD
.IIF EQ DZL'NNN-2, DZS'NNN=AL.SPD ; 300 BAUD
.IIF EQ DZL'NNN-3, DZS'NNN=MP.SPD ; 300 BAUD
.IIF EQ DZL'NNN-4, DZS'NNN=MP.SPD ; 300 BAUD
.IIF EQ DZL'NNN-5, DZS'NNN=RP.SPD ; 300 BAUD
.IIF EQ DZL'NNN-6, DZS'NNN=RA.SPD ; 300 BAUD
.IIF EQ DZL'NNN-7, DZS'NNN=B.LSPD ;LOW AUTO BAUD
.ENDC
.IF NDF DZC'NNN
.IF EQ DZL'NNN-1
DZC'NNN=LCB.AB
.IFF
DZC'NNN=0
.ENDC
.ENDC
.IF NE <DZS'NNN&377>-<DZS'NNN/400>
.ERROR 201 ;ILLEGAL SPLIT SPEED FOR DZ11
.ENDC
.MACRO LCBLAB XXX
LCB'XXX:
.ENDM
LCBLAB \NNN+<NDH11*20>
.WORD DZC'NNN ;LC.CAR
.IIF NDF DZZ'NNN,DZZ'NNN=0
.BYTE DZZ'NNN ;LC.STA
.BYTE 0 ;LC.MOD
.WORD DZS'NNN ;LC.SPD
.WORD DZS'NNN ;LC.PSP
.WORD 0 ;LC.BLK
.WORD 0 ;LC.INS
.WORD 0 ;LC.OUS
.WORD 0 ;LC.CNT
.WORD 0 ;LC.BUF
.ENDM
.MACRO X A
.IIF LT DZ.MAX-NDZ11,.ERROR 200; TOO MANY DZ11'S
DZ'A'BLK:
0
<A*10>+<NDH11*20>
0
0
Q=<A*10>
.REPT 10
XXX \Q
Q=Q+1
.ENDR
.ENDM X
Z=0
.REPT NDZ11
X \Z
Z=Z+1
.ENDR
.ENDM XX
XX
DZBLIM:
.SBTTL DZ11 RECEIVE INTERUPT TTY SERVICE
.MACRO X A
DZI'A'IN:
MOV R0,-(P)
MOV #DZ'A'BLK,R0
.ENDM
Z=DZ.MAX-1
.REPT DZ.MAX
X \Z
.IIF NE Z,BR DZIINT
Z=Z-1
.ENDR
DZIINT: SAVE <R1,R2,R3,R4,J>
MOV (R0),-(P) ;SET DZ11 HARDWARE ADDRESS FOR LOOP
ADD #DZB.LC,R0 ;BASE ADDRESS OF LCB'S
MOV R0,-(P) ;SET FOR PER-CHAR LOOP
;LOOP FOR EACH CHARACTER STORED IN THE SILO
10$: MOV 2(P),R3 ;GET HARDWARE ADDR BACK
MOV DZ.RBF(R3),R1 ;GET BOTTOM OF SILO
BPL 90$ ;QUIT WHEN NO MORE CHARACTERS
MOV R1,J ;COPY OF BYTE
SWAB J ;SWAP HALVES
BIC #^C7,J ;LINE NUMBER NOW IN J
ASL J ;WORD INDEX
MOV LCBIDX(J),J ;GET INDEX
ADD (P),J ;RELOCATE TO LCB ADDRESS
MOV LC.INS(J),R2 ;SERVICE ROUTINE
BEQ 10$ ;NONE = DONE
MOV LC.BLK(J),J ;GET DDB
BEQ 10$ ;STILL, NONE= DONE
JSR PC,(R2) ;PROCESS CHAR.
BR 10$ ;GET NEXT ONE
90$: ADD #4,P ;POP JUNK OFF STACK
RESTORE <J,R4,R3,R2,R1,R0>
RTI ;BACK TO WHERE WE WERE
.SBTTL DZ11 TTY OUTPUT INTERUPT SERVICE
.MACRO X A
DZO'A'IN: MOV R0,-(P)
MOV #DZ'A'BLK,R0
.ENDM
Z=DZ.MAX-1
.REPT DZ.MAX
X \Z
.IIF NE Z,BR DZOINT
Z=Z-1
.ENDR
DZOINT: SAVE <R0,R1,R2,R3,R4,J>
3$: MOV @R0,R1 ;GET DZ HARDWARE ADDR
MOV @R1,J ;GET STATUS WORD
BMI 10$ ;LOOKS OK TO ME
.IF EQ DGUTS
TRAP
.IFF
TWIDDLE
.ENDC
10$: SWAB J
BIC #^C7,J ;GET LINE NUMBER
ASL J
MOV J,-(P) ;SAVE LINE NUMBER*2 FOR LATER (MAYBE)
MOV LCBIDX(J),J ;GET INDEX
ADD R0,J ;ADD IN BASE POINTER
ADD #DZB.LC,J ;AND LENGTH OF HEADER
MOV LC.OUS(J),R3 ;SERVICE ROUTINE ?
BEQ 97$ ;NO, STUFF BYTE, DROP ENABLE
TST LC.BLK(J) ;DDB?
BEQ 97$ ;NO, ANOTHER LOSER
TST LC.CNT(J) ;SEE IF WE HAVE STUFF TO TYPE
BNE 98$ ;YES, OUTPUT IT
MOV (P)+,R0 ;GET LINE NUMBER * 2
.IF NE NDZMPT!NADZLN!NDZTRB!RDPDZN
CMP #DDDZOU,R3
BEQ 20$
.ENDC
BICB BITS(R0),DZ.TCR(R1) ;SAY WE ARE DONE ON LINE
20$: MOV LC.BLK(J),J ;SET UP DDB POINTER FOR ROUTINE
JSR PC,(R3) ;SERVICE IT
MOV 12(P),R0 ;RESTORE POINTER TO DZ'N'BLK
MOV @R0,R1 ;AND POINT TO DEVICE AGAIN
96$: TST (R1) ;MORE TO DO ?
BMI 5$ ;YES, LOOP FOR MORE
99$: RESTORE <J,R4,R3,R2,R1,R0,R0>
RTI
5$: MOV 12(P),R0 ;GET OLD R0 BACK AGAIN
BR 3$ ;REENTER LOOP
98$: INC LC.CNT(J)
MOVB @LC.BUF(J),R2 ;GET BYTE
INC LC.BUF(J) ;BUMP POINTER
MOV LC.BLK(J),J ;POINT TO DDB
MOVB #-2,DB.TIM(J) ;IRMA FOR A SECOND OR TWO
JSR PC,DZBKOF ;MAKE SURE WE AREN'T SENDING BREAKS
MOVB R2,DZ.TDR(R1) ;OUT YOU GO TROUBLESOME CHARACTER.
TST (P)+ ;POP OFF THE LINE NUMBER*2
BR 96$ ;SEE IF MORE IS THERE
97$: MOV (P)+,J ;GET LINE *2
BIC BITS(J),DZ.TCR(R1) ;CLEAR ENABLE TO SHUT HIM UP
BR 96$ ;RETURN FOR NEXT CHR
.SBTTL DZTYPE TYPE ON THE DZ 11
DZTYPE: ;CALL R0=CHAR
; JSR PC,DZTYPE
MOVB R0,DB.BUF(J)
MOV #-1,R0
MOV J,R1
ADD #DB.BUF,R1 ;POINT TO CHR
DZIMTY: ;HERE TO TYPE STRING WITH
; R1=ADDR OF STRING
; R0=-COUNT
MOV DB.DHB(J),R2 ;POINT TO HARDWARE BLOCK
MOV @R2,R3 ;POINT TO HARDWARE ITSELF
MOV DB.LCB(J),R2
MOV R0,LC.CNT(R2) ;SAVE COUNT
ASR R0
ASR R0
DEC R0
MOVB R0,DB.TIM(J) ;SAVE IT AWAY
MOV R1,LC.BUF(R2) ;SAVE BUFFER
JSR PC,DZBKOF ;MAKE SURE WE AREN'T SENDING BREAKS
MOVB DB..LN(J),R0 ;LINE NUMBER
ASL R0 ;MAKE IT AN INDEX
BIS BITS(R0),DZ.TCR(R3) ;ENABLE LINE FOR LATER
RTS PC
.SBTTL DZ11 MODEM CONTROL ROUTINES
;DZ11 MODEM CONTROL CODE
DZSCN: ;HERE EVERY 12 TICKS OF THE CLOCK TO CHECK HOW EACH LINE IS DOING
MOV #DZ0BLK,-(P) ;SAVE ADDR OF FIRST BLOCK
DZS.00: CMP #DZBLIM,(P) ;ARE WE ALL DONE?
BHI 10$ ;NO DO NEXT DZ
MOV (P)+,R0 ;CLEAR STACK
RTS PC
10$: MOV (P),J ;COPY OF DH BLOCK
ADD #DZB.SZ,(P) ;UPDATE TO NEXT BLOCK
MOV DZADDR(J),R3 ;GET ADDRESS OF THE DZ
BEQ DZS.00 ;IF NO HARDWARE, GO TRY THE NEXT ONE
ADD #DZB.LC,J ;POINT J TO FIRST LCB
CLR R1
BR DZS.11 ;JUMP INTO MODEM CODE
DZS.10: ADD #LC..SZ,J ;NEXT LCB
ADD #2,R1
CMP J,(P) ;DONE ALL?
BHIS DZS.00 ;YES, NEXT DZ
DZS.11: BIT #LCB.DS,LC.CAR(J) ;DATA SET LINE?
BEQ DZS.13 ;IF NOT, THEN SET DTR. (THIS IS
;NECESSARY TO MAKE 2741'S &CO. HAPPY)
MOV DZ.MSR(R3),R0 ;GET MODEM BITS
MOV LC.BLK(J),R4 ;GET DDB ADDR.
BEQ DZS.12 ;IF NO DDB, RESET LCB
.IF EQ TTYDZN
BR DZS.13 ;SET DTR
.IFF
BIT #DS.TTY,@R4 ;IS IT A TTY?
BEQ DZS.13 ;NO, SET DTR
.ENDC
;AT THE TIME OF DISPATCH THE REGISTERS CONTAIN:
; R0=MODEM STATUS BITS
; R1=LINE NUMBER (MUST SAVE)
; R2=STATE BITS
; R3=DZ ADDR
; R4=DDB ADDR
; J= LCB ADDR
MOVB LC.STA(J),R2 ;GET STATE
JMP @10$(R2)
;DATASET STATE DISPATCH TABLE
10$: DZSVIR ; (00) VIRGIN
DZSRNG ; (02) RING
DZSCDT ; (04) CARRIER
DZSCDS ; (06) CARRIER DETECT SATISFIED
DZSABD ; (08) AUTOBAUD
DZSOKU ; (10) RUNNING BUT NOT CONNECTED TO -10
DZSOKW ; (12) RUNNING, WAITING ON -10 CONNECT
DZSOKC ; (14) RUNNING AND CONNECTED TO -10
DZSLOC ; (16) LOST CARRIER
DZS.15 ; (18) SOMEONE WANTS US TO HANG UP
DZSHNG ; (20) HANG UP
.IF NE FTDN11
DZSDIA ; (22) DIALING
DZSDSU ; (24) DIALOUT SUCCEEDED
DZSDFA ; (26) DIALOUT FAILED
.ENDC ;FTDN11
.IIF NE .-10$-2-LCS.MX,.ERROR <.-10$-2> ;DISPATCH STATE PHASE ERROR IN DNDZ11
.SBTTL DZ11 MODEM ROUTINES OF SOME USE
DZS.12: MOVB #LCS.VG,LC.STA(J) ;RESET LCB
BIC #LCB.TM,LC.CAR(J) ;CLEAR TIMER
BICB BITS(R1),DZ.TCR+1(R3) ;DROP DTR
TST R4 ;IS THERE A DDB?
BEQ DZS.10 ;NO, TO THE NEXT LINE
BR DZS.16 ;CLEAR DDB BITS
DZS.13: BISB BITS(R1),DZ.TCR+1(R3) ;SET DTR
BR DZS.10 ;NEXT LINE
DZS.15:
.IF NE FTDN11
BITB #DNDIAL,DB.DNS(R4) ;CONTROLLED BY DN11/801?
BEQ 30$ ;NO
;SINCE THE DATASET LINE IS BEING CONTROLLED BY A DN11/801 (I.E.,
;SOMEONE DIALED OUT ON THE LINE RATHER THAN CALLING IN ON IT) WE
;MUST CLEAR THE DN11/801 TO RELEASE CONTROL OF THE PHONE LINE.
SAVE <J,R1> ;YES, SAVE SOME ACS
MOV R4,J ;SETUP J WITH DDB ADDRESS
JSR PC,DNCLR ;ZAP THE DN11/801
RESTOR <R1,J> ;GET BACK OUR ACS
.ENDC ;FTDN11
30$: BICB BITS(R1),DZ.TCR+1(R3) ;CLEAR DTR FOR LINE
MOVB #LCS.HG,LC.STA(J) ;SET STATE TO HANG UP
BIC #LCB.TM,LC.CAR(J) ;FIRST CLEAR OUT THE TIMER,
BIS #MDMHDT*6,LC.CAR(J) ;NOW SET THE MODEM HOLD DOWN TIME.
;BR DZS.16
DZS.16: MOV DB.DCS(R4),R2 ;GET DDB CHARACTERISTICS
BIC #TS.DTR!TS.CAR,R2 ;CLEAR DDB
;BR DZS.14
DZS.14: ;CHECK IF STATUS IS SAME AS LAST TIME
CMP R2,DB.DCS(R4) ;CHANGED??
BEQ DZS.10 ;NO, NEXT LINE
MOV R2,DB.DCS(R4) ;SET NEW STATE
SAVE <J,R1>
MOV R4,J
JSR PC,QUEXDS ;QUE THE DDB
RESTORE <R1,J>
BR DZS.10 ;NEXT LINE, PLEASE
DZS.17: BISB BITS(R1),DZ.TCR+1(R3) ;SET DTR
MOVB #LCS.RU,LC.STA(J) ;ASSUME THAT WE ARE UNCONNECTED
BIC #LCB.TM,LC.CAR(J) ;CLEAR TIMER
DZS.18: MOV DB.DCS(R4),R2 ;GET DDB STATUS
BIS #TS.DTR!TS.CAR,R2
BR DZS.14
.SBTTL DZ11 MODEM STATE CONTROL
;(00) VIRGIN STATE, WAIT FOR RING
DZSVIR: MOV DB.DCS(R4),R2 ;COPY OF DDB STATUS
CLR R0
BIT DZ.MSR(R3),BITS2(R1) ;CARRIER OR RING ?
BEQ DZS.16 ;NO, CLEAR BITS IN DDB
BIS #TS.RNG,R2
BIC #TS.DTR,R2 ;RING BUT NO DTR
MOVB #LCS.RG,LC.STA(J) ;SET TO RINGING
BR DZS.14 ;TELL -10, DO NEXT LINE
;(02) DATASET PHONE IS RINGING
DZSRNG: BISB BITS(R1),DZ.TCR+1(R3) ;SET DTR
MOVB #LCS.CD,LC.STA(J) ;SET CARRIER DETECT STATE
BIS #30.*6,LC.CAR(J) ;SET TIMER TO RUN FOR 30 SEC
BR DZSJ11 ;AND CHECK THE LINE AGAIN.
;(04) WE HAVE ANSWERED THE PHONE, NOW WAIT FOR CARRIER TO APPEAR
DZSCDT: BITB DZ.MSR+1(R3),BITS(R1) ;DID WE GET CARRIER
BEQ 10$ ;BRANCH IF NOT.
CLR DB.STR(R4) ;CLEAR THE STRING POINTER
CLRB DB.HLD(R4) ;SO THAT WHEN A PERSON
CLRB DB.ASP(R4) ;DIALS IN AGAIN WE DON'T
;OUTPUT A BOGUS DISCONNECT MESSAGE
CLR DB.DFT(R4) ;TTY TYPE UNKNOWN
CLR DB.TTS(R4) ;AS ARE ITS RANDOM BITS
BIT #LCB.AB,LC.CAR(J) ;IS THIS AN AUTO-BAUD LINE?
BEQ 30$ ;IF NOT THEN LEAVE SPEED ALONE
.IF NE FTDN11
BITB #DNDIAL,DB.DNS(R4) ;AUTOBAUD DATASET - BUT IF DIALING OUT
BNE 20$ ;THEN ASSUME USER SPEED'S CORRECT
.ENDC ;FTDN11
BIC #LCB.LS,LC.CAR(J) ;CLEAR LOW SPEED BIT
SAVE <R1,R3,J,#B.HSPD> ;SAVE LCB POINTER, PUSH SPEED.
15$: MOV LC.BLK(J),J ;GET POINTER TO DDB FOR SETSPD.
JSR PC,SETSPD ;SET SPEED TO 2400 FOR AUTO-BAUD
RESTORE <J,J,R3,R1> ;GET POINTER TO LCB BACK.
20$: MOVB #LCS.CS,LC.STA(J) ;NOW GO TO WAIT STATE
BIC #LCB.TM,LC.CAR(J) ;AND SET THE TIMER TO RUN FOR
BIS #1.*6,LC.CAR(J) ;ANOTHER SECOND
BR DZSJ11 ;LOOK AT THE LINE AGAIN!
;HERE TO SET SPEED IF DATA SET BUT NOT AUTOBAUD
30$: SAVE <R1,R3,J,LC.PSP(J)> ;SAVE POINTERS, PUSH SPEED
BR 15$ ;SET THE SPEED IN COMMON CODE
;HERE TO CHECK FOR TIME OUT DURING CARRIER DETECT
10$: BIT #LCB.TM,LC.CAR(J) ;HAS THE TIMER RUN OUT?
BEQ DZSJ15 ;YES, HANG UP THE PHONE
DEC LC.CAR(J) ;OTHER WISE COUNT DOWN TIMER
BR DZSJ10 ;AND DO THE NEXT LINE
;(06) CARRIER DETECTED, WAIT A MOMENT FOR THINGS TO SETTLE DOWN. THIS IS
; SO WE IGNORE THE RANDOM GARBAGE ON THE LINE CAUSED BY INSERTING THE
; PHONE IN THE ACOUSTIC COUPLER.
DZSCDS: BIT #LCB.TM,LC.CAR(J) ;HAS THE TIMER RUN OUT.
BEQ 10$ ;IF SO, CHECK FOR CARRIER STILL UP.
DEC LC.CAR(J) ;OTHERWISE COUNT OFF THIS TICK
BR DZSJ10 ;AND GO DO THE NEXT LINE
10$: BITB DZ.MSR+1(R3),BITS(R1) ;IS CARRIER STILL UP?
BEQ 20$ ;IF NOT, TAKE REMEDIAL ACTION
BIT #LCB.AB,LC.CAR(J) ;IF THIS IS NOT AN AUTO-BAUD LINE -
BEQ DZS.17 ;THEN BRING IT ON LINE NOW.
MOVB #LCS.AB,LC.STA(J) ;IF IT IS, GO TO AUTO-BAUD STATE,
BIS #30.*6,LC.CAR(J) ;AND SET A 30 SEC TIMER.
BR DZS.18 ;GO MARK TERMINAL UP (SET DTR)
20$: MOVB #LCS.CD,LC.STA(J) ;GO BACK TO THE CARRIER DETECT STATE,
BIS #28.*6,LC.CAR(J) ;AND RE-SET THE TIMER.
BR DZSJ10 ;NOW DO NEXT LINE
;(08) WAITING FOR USER TO AUTOBAUD (TYPE <CR>)
DZSABD:
.IF NE FTDN11
BITB #DNDIAL,DB.DNS(R4) ;DIALING OUT?
BNE DZSJ17 ;YES, ALL SET
.ENDC ;FTDN11
BITB DZ.MSR+1(R3),BITS(R1) ;IS CARRIER STILL UP?
BEQ DZSJ15 ;NO, HANG UP ON THIS LINE
BIT #LCB.TM,LC.CAR(J) ;OTHERWISE SEE IF HE HAS TIMED OUT.
BEQ DZSJ15 ;IF HE HAS THEN HANG HIM UP,
DEC LC.CAR(J) ;OTHERWISE DECREMENT TIMER, AND
BR DZSJ10 ;GO DO THE NEXT LINE
;CONVENIENT JUMPS
DZSJ10: JMP DZS.10 ;CHECK NEXT DATASET LINE
DZSJ11: JMP DZS.11 ;RECHECK CURRENT DATASET LINE
DZSJ12: JMP DZS.12 ;RESET THE LINE
DZSJ14: JMP DZS.14 ;SEND STATUS TO -10 IF CHANGED
DZSJ15: JMP DZS.15 ;HANG UP THE PHONE
DZSJ17: JMP DZS.17 ;SET TERMINAL TO RUNNING STATE
;(10) WE ARE RUNNING BUT NOT CONNECTED
DZSOKU: TST @R4 ;ARE WE STILL UNCONNECTED
BGE DZSAOK ;IF SO, JUST CHECK CARRIER
BIC #LCB.TM,LC.CAR(J) ;OTHERWISE CLEAR/SET THE
BIS #3*6.,LC.CAR(J) ;TIMER TO RUN FOR 3 SEC AND
MOVB #LCS.RW,LC.STA(J) ;ENTER CONNECT WAIT STATE
BR DZSAOK ; (ALSO MAKE SURE CARRIER IS THERE)
;(12) IN THIS STATE WE ARE WAITING FOR A CONNECT TO THE -10 TO SETTLE
; DOWN. THE REASON THIS STATE IS NECESSARY IS THAT THE -10 SENDS A LOT
; OF STATUS MESSAGES THAT IT DOESN'T REALLY MEAN DURING THE INITIAL STARTUP.
; IF ONE OF THESE STATUS MESSAGES HAPPENS TO CLEAR DTR THE PHONE WILL
; HANG UP... (SIGH)
DZSOKW: BIT #LCB.TM,LC.CAR(J) ;HAS THE TIMER RUN OUT
BEQ 10$ ;IF SO, GO INTO THE 'BELIEVE -10' STATE
DEC LC.CAR(J) ;OTHERWISE COUNT OFF ONE MORE JIFFY
BR DZSAOK ;AND CHECK CARRIER
10$: MOVB #LCS.RC,LC.STA(J) ;GO IN TO RUNNING CONNECTED STATE
BR DZSAOK ;AND CHECK CARRIER
;(14) WE ARE UP AND RUNNING, CONNECTED TO A -10
DZSOKC: TST @R4 ;ARE WE STILL CONNECTED?
BLT DZSAOK ;YES, CHECK CARRIER
MOVB #LCS.RU,LC.STA(J) ;NO, CHANGE STATE
; BR DZSAOK ;AND CHECK CARRIER
;MAKE SURE CARRIER IS STILL PRESENT
DZSAOK: BITB DZ.MSR+1(R3),BITS(R1) ;IS CARRIER THERE ?
BNE DZSJ10 ;YES, LINE IS OK, CHECK NEXT ONE
MOVB #LCS.LC,LC.STA(J) ;CARRIER LOST STATE
BIC #LCB.TM,LC.CAR(J) ;CLEAR AND
BIS #5*6,LC.CAR(J) ;SET THE 5 SEC TIMER
BR DZSJ10 ;AND GO DO THE NEXT LINE
;(16) WE HAVE LOST CARRIER, GIVE IT A FEW SECONDS TO REAPPEAR BEFORE
; HANGING UP IN CASE IT IS JUST A MOMENTARY LINE OUTAGE.
DZSLOC: BISB BITS(R1),DZ.TCR+1(R3) ;SET DTR AGAIN
BITB BITS(R1),DZ.MSR+0(R3) ;GOT A NEW CALL TRYING TO GET IN?
BNE DZSJ15 ;YES, THEN HANG UP THE OLD ONE FIRST
; (SO THE -10 DETACHES OLD JOB, ETC.)
BITB BITS(R1),DZ.MSR+1(R3) ;AND CHECK FOR CARRIER
BNE DZSJ17 ;IF SO, TELL THE -10
BIT #LCB.TM,LC.CAR(J) ;HAVE WE TIMED OUT YET?
BEQ DZSJ15 ;IF SO, THEN HANG IT UP
DEC LC.CAR(J) ;OTHERWISE COUNT OFF THE TIME
BR DZSJ10 ;AND GO DO THE NEXT LINE
;(20) THE LINE IS HUNG UP. WAIT FOR PHONE TO SETTLE DOWN BEFORE RE-ENABLING
; IT FOR ANOTHER INCOMING CALL.
DZSHNG: BIT #LCB.TM,LC.CAR(J) ;TIMED OUT?
BEQ DZSJ12 ;IF SO, THEN RESET LINE
DEC LC.CAR(J) ;OTHERWISE COUNT TIME
BR DZSJ10 ;AND DO THE NEXT LINE
.IF NE FTDN11
;(22) THIS LINE HAS INITIATED A DIALOUT REQUEST. WAIT FOR SUCCESS/FAILURE
DZSDIA: BISB BITS(R1),DZ.TCR+1(R3) ;SET DTR
BR DZSJ10 ;AND CHECK THE NEXT LINE
;(24) THE DIALOUT SUCCEEDED, TELL THE -10
DZSDSU: BIT #DS.XDS,@R4 ;ROOM FOR NEW DEVICE CONTROL STATUS?
BNE DZSDIA ;NO, WAIT LONGER THEN
JMP DZSRNG ;YES, WAIT FOR CARRIER CONFIRM
;(26) THE DIALOUT FAILED, TELL THE -10
DZSDFA: BIT #DS.XDS,@R4 ;ROOM FOR NEW STATUS YET?
BNE DZSDIA ;NO, WAIT LONGER THEN
BR DZSJ15 ;YES, GO HANG UP THE PHONE
.ENDC ;FTDN11
.SBTTL DZ11 DDCMP ROUTINES
Z=NDZMPT!NADZLN!NDZTRB!RDPDZN ;DDCMP DZ LINES
.IF NE Z
DZDINI: ;INITIALIZE THE DZ LINE
MOVB LB..LN(J),R2 ;GET LINE NUMBER
.IIF NE FT.RDM!FT.RDP,MOV J,-(P) ;SAVE LINE BLK ADDR
MOV #DDDZOU,-(P) ;OUTPUT INTERUPT ADDR
MOV #DDDZIN,-(P) ;INPUT ADDR
MOV LB.LCB(J),-(P) ;LCB ADDR
.IF NE FT.RDM
BIT #LS.MPT,(J) ;IF MULTIDROP
BEQ 11$
TST LB.MPL(J) ;AND NOT A TRIB
BEQ 11$
CLR J ;FORGET J 'CAUSE ITS OFFLINE
11$:
.ENDC ;.IF NE FT.RDM
JSR PC,DZ.INI ;SET UP LINE CONTROL BLOCK
ADD #6,P ;POP ARGS TO DZ.INI
.IIF NE FT.RDM!FT.RDP,MOV (P)+,J ;RESTORE J
RTS PC ;AND RETURN
DZRBEG: ;ENABLE RECIEVER
BIS #LS..RG,(J) ;RECIEVER RUNNING
MOV LB.IPT(J),-(P) ;STASH BUFFER ADDR
ADD J,(P)
MOV (P),LB.SRR(J) ;SET RECIEVER BUFFER
MOV #-1,LB.SRR+2(J) ;AND LENGTH
INC (P) ;ALSO FOR NEXT BUFFER
MOV (P)+,LB.SRR+4(J)
MOV #-1,LB.SRR+6(J)
MOV #DZRSYN,LB.RDN(J) ;WHERE TO GO WHEN SEGMENT IS DONE
RTS PC ;EXIT
DZRSYN: ;EAT ALL TILL DDCMP HEADER
MOV LB.SRR(J),R0 ;GET ADDR OF NEXT CHAR
CMPB #ENQ,R1
BEQ 9$
CMPB #SOH,R1
BEQ 9$
CMP #DLE,R1
BNE 11$
9$:
.IF NE FT.MPT
BITB #MP.OFF,LB.MPS(J) ;MULTIPOINT OFFLINE ?
BEQ 10$ ;HEADACHE
TST LB.MPL(J) ;IF NOT A TRIBUTARY
BNE 11$
BIS #LS..RG,(J) ;RECIEVE GOING
JSR PC,SELNXT ;STATION ON LINE
CLRB LB.MPT(J) ;CLEAR TIMER TO ONLY PRETEND ONLINE
BICB #MP.SEL,LB.MPS(J) ;NOT SELECTED
.ENDC
10$: ADD #3,R0
SUB #2,LB.SRR+2(J) ;FIX COUNT FOR HEADER
MOV #-4,R1 ;SET COUNT FOR SECOND HALF
MOV #DDRJNK,LB.RDN(J) ;EAT UP THE JUNK
RTS PC
11$: DEC LB.SRR(J) ;COUNT BYTE IN
MOV #-1,R1 ;NEW COUNT
RTS PC ;OK, READ IT IN
.SBTTL DZ11 START TRANSMITTER FOR DZ11 DDCMP
;STILL .IF NE Z=NADZLN!NDZTRB!NDZMPT!RDPDZN
DZXBEG: ;START TRANSMITTER
.IF NE FTTRIB
BIT #LS.MPT,(J) ;MULTIPOINT ?
BNE DZXBG2 ;YES, BAH HUMBUG
.ENDC
DZXBG0: JSR PC,@LB.XDN(J) ;GET BUFFER OF DATA
MOV R0,LB.SXR(J)
MOV R1,LB.SXR+2(J)
BNE DZXBG3
BIC #LS..XG!LS.XDT!LS.XCT,(J); STOP THE LINE, ALL DONE
RTS PC
DZXBG1: MOV LB.SXR+4(J),LB.SXR(J) ;SWAP BUFFERS
MOV LB.SXR+6(J),LB.SXR+2(J)
BNE DZXBG3 ;MORE DATA ??
BR DZXBG0 ;NO
.IF NE FTTRIB
DZXBG2: BITB #MP.CMS,LB.MPS+1(J) ;MODEM ALTER ENABLED ?
BEQ DZXBG0 ;NO
BITB #MP.RTS,LB.MPS+1(J)
BEQ DZXBG0
JSR R0,DZSTAT ;SET NEW STATUS
.BYTE 0,MP.RTS
BICB #MP.RTS,LB.MPS+1(J) ;ITS NOW THERE
MOV #DZFILL,LB.SXR(J) ;SEND SYNCS
MOV #-FTASYN,LB.SXR+2(J)
.ENDC
DZXBG3: JSR PC,@LB.XDN(J) ;FILL SECOND BUFFER
MOV R0,LB.SXR+4(J)
MOV R1,LB.SXR+6(J)
BIS #LS..XG,(J) ;START XMITTING ON LINE
DZSXMT: PIOFF
MOV LB.DHB(J),R3 ;ADDR OF DZ11 BLOCK
MOV (R3),R3 ;ADDR OF DZ11
MOV LB..LN(J),R1 ;GET LINE NUMBER
ASL R1 ;MAKE IT AN INDEX
BIS BITS(R1),DZ.TCR(R3) ;ENABLE LINE, GET INTERUPT LATER
PION
RTS PC
.SBTTL DZ11 DDCMP INTERUPT SERVICE
DDDZIN:
DDZINS: ;INPUT INTERUPT SERVICE
BIT #LS..RG,(J) ;BITS COMMING IN ?
BEQ 80$ ;I DONT THINK SO...
MOVB R1,@LB.SRR(J) ;STASH CHAR IN BUFFER
INC LB.SRR(J) ;BUMP BUFFER POINTER
INC LB.SRR+2(J) ;AND COUNT
BNE 80$ ;BRANCH IF NOT DONE WITH STRING.
MOV LB.SRR+4(J),LB.SRR(J) ;SWAP BUFFERS AGAIN
MOV LB.SRR+6(J),LB.SRR+2(J) ;AND SWAP COUNT
BIC #LS.SSY,(J) ;NO SYNC STRIP FOR DZ
JSR PC,@LB.RDN(J) ;DONE, TELL DDCMP
MOV R0,LB.SRR+4(J) ;NEW SECOND BUFFER
MOV R1,LB.SRR+6(J) ;AND COUNT
TST LB.SRR+2(J) ;STUFF HERE TO GET ?
BNE 80$ ;YES, KEEP GOING
BIC #LS..RG,(J) ;STOP GETTING STUFF
QUEPUT QI,79$ ;QUEUE FOR SERVICE
80$: RTS PC ;BACK TO INTERUPT ROUTINE
DDDZOU:
DDZOUS: ;OUTPUT INTERUPT SERVICE
TST LB.SXR+2(J) ;MORE TO THIS BUFFER ?
BNE 88$ ;YES, TYPE IT
JSR PC,DZXBG1 ;NO, SWAP BUFFERS AND START IO
TST LB.SXR+2(J) ;THAT DONE , TOO
BNE 99$ ;NO, ITS RUNNING
.IF NE FT.MPT
BIT #LS.MPT,(J) ;MULTIPOINT ?
BEQ 95$ ;NO
BITB #MP.SEL,LB.MPS(J) ;SELECTED ??
BNE 95$ ;NO, NOT THAT EITHER
.IF NE FTTRIB
TST LB.MPL(J) ;TRIBUTARY
BNE 90$ ;YES, PUNT
BIS #LS..XG,(J) ;SAY WE ARE TRANSMITTING
MOV #DZFILL,LB.SXR(J)
MOV #-FTASYN,LB.SXR+2(J) ;STOP IT NICE, NOW
MOV LB.LCB(J),R3 ;POINT TO LCB
MOV #DDZSTP,LC.OUS(R3) ;SO WE CAN STOP OUTPUT
MOV #DZSXMT,-(P) ;
.ENDC
90$: JSR PC,DESLCT ;DESELECT THE LINE
.ENDC
95$: MOV LB.DHB(J),R3 ;ADDR OF DZBLK
MOV (R3),R3 ;ADDR OF DZ
MOV LB..LN(J),R1 ;MASK BIT
ASL R1 ;MAKE INTO INDEX
BIC BITS(R1),DZ.TCR(R3) ;TURN OFF LINE ENABLE
QUEPUT QO,89$
99$: RTS PC
88$: ;HERE TO TYPE NEXT CHR FOR DZ LINE
MOV LB.DHB(J),R3 ;POINT TO BLOCK
MOV (R3),R3 ;POINT TO DZ11
MOVB @LB.SXR(J),DZ.TDR(R3) ;OUT YOU GO
INC LB.SXR(J)
INC LB.SXR+2(J) ;BUMP COUNT
RTS PC ;RETURN, TO DO MORE LATER
.SBTTL DZ11 DDCMP STOP TRANSMITTER
;STILL .IF NE Z=NADZLN!NDZTRB!NDZMPT!RDPDZN
.IF NE FTTRIB
DDZSTP: JSR R0,DZSTAT ;SET LINE MODEM STATUS
.BYTE MP.STS,0
BISB #MP.RTS,LB.MPS+1(J) ;RTS IS DISABLED
MOV LB.LCB(J),R3
MOV #DDZOUS,LC.OUS(R3) ;VECTOR TO OUTPUT SERVICE
BIC #LS..XG,(J) ;SAY WE STOPED
CLR LB.SXR+2(J) ;CLEAR COUNT
RTS
DZFILL: .REPT FTASYN
.BYTE -1
.ENDR
.EVEN
DZSTAT: ;SET MODEM STATUS
MOV LB.DHB(J),R3
MOV (R3),R3 ;POINT TO DZ11
BIT #LS.MPT,(J) ;MULTIPOINT
BEQ 30$ ;NO, LEAVE IT ALONE
BITB #MP.CMS,LB.MPS+1(J) ;CHANGE OK TO DO?
BEQ 30$ ;NO, QUICK EXIT
MOV LB..LN(J),R1 ;GET LINE NUMBER
ASL R1
TSTB (R0)+ ;SEE IF WE ARE TO SET DTR
BEQ 10$ ;NO, OK
BIC BITS2(R1),DZ.TCR(R3) ;CLEAR DTR AND ENABLE
10$: TSTB (R0)+
BEQ 12$ ;NO BITS TO SET HERE
BISB BITS(R1),DZ.TCR+1(R3)
12$: RTS R0
30$: TST (R0)+
RTS R0
.ENDC ; .IF NE FTTRIB
.ENDC ; .IF NE Z=NADZLN!NDZTRB!NDZMPT!RDPDZN
.ENDC ; .IF NE FTDZ11 (FROM BEGINNING OF DNDZ11)