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comnet.mac
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TITLE COMNET - COMMON COMMUNICATION AREA FOR NETWORKS - V4050
SUBTTL D. TODD/EJW 01 AUG 78
SEARCH F,S,NETPRM
$RELOC
$HIGH
;THIS SOFTWARE IS FURNISHED UNDER A LICENSE AND MAY ONLY BE USED
; OR COPIED IN ACCORDANCE WITH THE TERMS OF SUCH LICENSE.
;
;COPYRIGHT (C) 1974,1975,1976,1977,1978 BY DIGITAL EQUIPMENT CORP., MAYNARD, MASS.
XP VCOMNET,4050 ;PUT VERSION NUMBER IN GLOB AND LOADER MAP
COMNET::ENTRY COMNET ;LOAD IF IN LIBRARY SEARCH MODE
;SYMBOLS RELEVENT TO NETWORKS THAT MAY BE CHANGED BY MONGEN DIALOG
IFNDEF M.XTL,<XP M.XTL,0>
XP M.TLTL,M.TLTL+M.XTL ;COUNT THE DA28 LINES
IFN M.NET,<IFE FTNET,<
PRINX FTNET MUST ME ASSEMBLED AS FTNET==-1 FOR NETWORKS
M.NET==0 ;FORCE NETWORKS OFF
>>;END IFE FTNET IFN FTNET
IFE FTNET,<END> ;IF FTNET==0 THEN NO NETWORK SOFTWARE
IFE M.NET,<
END ;DO NOT LOAD NETSER
>;END IFE M.NET
IFNDEF M.DTA, <M.DTA==0>
IFNDEF DTAN, <DTAN==0>
IFNDEF M.DTB, <M.DTB==0>
IFNDEF DTBN, <DTBN==0>
XP DTCN,MD.DTC
IFNDEF M.TM10,<XP M.TM10,0>
IFNDEF M.TC10,<XP M.TC10,0>
IFNDEF M.TX01,<XP M.TX01,0>
IFNDEF M.TM02,<XP M.TM02,0>
XP TAPN,M.TM10+M.TC10+M.TX01+M.TM02
DEFINE MTXADD(CHN)<
IFDEF M.MT'CHN,<MTXN==MTXN+M.MT'CHN>>
MTXN==0
ZZ==-1
REPEAT TAPN,<MTXADD(\<ZZ==ZZ+1>)>
IFNDEF NTTYPL,<NTTYPL==^D16> ;NUMBER OF TTYS/BUFFER
IFNDEF NBPBFL,<XP NBPBFL,^D8*4>
IFN M.RJOB,<IFE FTTSK,<
IF1,< PRINTX TASK TO TASK REQUIRES FTTSK==-1>
IF1,< PRINTX TASKS WILL NOT BE ALLOWED>
XP M.RJOB,0 ;REMOVE REMOTE PROCESSES
>>
IFE M.RJOB,<
NDEVTS==:0 ;NO TSKSER LOADED
TSKCNM==:CPOPJ##
TSKDSC==:CPOPJ##
CHKTSK==:CPOPJ##
RMVTSK==:CPOPJ##
TSKCNT==:CPOPJ##
>
IFN M.RJOB,<EXTERNAL TSKSER> ;LOAD TSKSER
IFNDEF M.RPTP,<M.RPTP==0>
IFNDEF M.RPTR,<M.RPTR==0>
IFNDEF M.RMTA,<M.RMTA==0>
IFNDEF M.RPLT,<M.RPLT==0>
IFNDEF M.RDX,<M.RDX==0>
; REMOTE DATA ENTRY SERVICE SYMBOLS
IFN M.RDX,<IFE FTRDX,<
IF1,< PRINTX REMOTE DATA ENTRY SERVICE REQUIRES FTRDX==-1>
IF1,< PRINTX REMOTE DATA ENTRY WILL NOT BE LOADED>
XP M.RDX,0 ;NO REMOTE DATA ENTRY SERVICE
>>
IFE M.RDX,< ;DEFINE DUMMY ENTRY WHEN RDXSER NOT LOADED
>
IFN M.RDX,<EXTERNAL RDXSER> ;LOAD RDXSER
SUBTTL NETDDB PROTOTYPE DEVICE DATA BLOCK FOR NETWORKS
$LOW
NETDDB::
PHASE 0
SIXBIT // ;(0) DEVNAM
XWD 6*HUNGST,0 ;(1) DEVCHR
Z ;(2) DEVIOS
XWD 0,NETDSP ;(3) DEVSER
Z ;(4) DEVMOD
Z ;(5) DEVLOG
0 ;(6) DEVBUF
XWD R,0 ;(7) DEVIAD
XWD R,0 ;(10) DEVOAD
0 ;(11) DEVSTS
XWD DEPLEN,0 ;(12) DEVSTA
0 ;(13) DEVXTR
0 ;(14) DEVEVM
0 ;(15) DEVPSI
0 ;(16) DEVESE
0 ;(17) DEVHCW
0 ;(20) DEVJOB
0 ;DEVFIL
0 ;DEVEXT
0 ;DEVPPN
PHASE DEVLLD+1 ;END OF LONG DDB
;DEFINE IN S. AND ALWAYS BE CURRENT
DEVNET::!Z;XWD 0,0 ;DEVNET NDT,NDB
NETXLA::!Z;BYTE (8)0(14)0(14)0 ;RSN,SLA,DLA
NETDRQ::!Z;XWD 0,0 ;LAST MSG#SENT,DATA REQUEST COUNT
NETSTS::!Z;BYTE (8)0(12)0(16)0 ;FLAGS,RLN,DVT
XP NT.DSC,(1B0) ;RECEIVED A DISCONNECT FOR THIS DDB
NETDEV::XWD 0,0 ;DEVICE DEPENDENT DATA POINTER
NETLEN==:. ; LENGTH
DEPHASE
$HIGH
;BYTE POINTER TO THE NETDDB
NETRSN::POINT 8,NETXLA(F),7 ; REASON BYTE
NETSLA::POINT 14,NETXLA(F),21 ; SOURCE LINK ADDRESS
NETDLA::POINT 14,NETXLA(F),35 ; DESTINATION LINK ADDRESS
NETRLN::POINT 12,NETSTS(F),19 ; LOGICAL RECORD LENGTH
NETDVT::POINT 16,NETSTS(F),35 ; DEVICE ATTRIBUTE BITS (SEE NETPRM)
$HIGH
SUBTTL NETDDB DISPATCH TABLE
JSP T4,DSPOBJ ;(-5) ON LINE CHECK
POPJ P,0 ;DEVOP.UUO
JSP T4,DSPOBJ ;(-3) RETURN BUFFER SIZE
JRST NETINI## ;(-2) DEVICE INITIALIZATION
JSP T4,DSPOBJ ;(-1) HUNG DEVICE
NETDSP::JSP T4,DSPOBJ ;(0) RELEASE DEVICE
JSP T4,DSPOBJ ;(1) CLOSE
JSP T4,DSPOBJ ;(2) OUTPUT
JSP T4,DSPOBJ ;(3) INPUT
JSP T4,DSPOBJ ;(4) ENTER
JSP T4,DSPOBJ ;(5) LOOKUP
JSP T4,DSPOBJ ;(6) DUMP MODE OUTPUT
JSP T4,DSPOBJ ;(7) DUMP MODE INPUT
JSP T4,DSPOBJ ;(10) USETO
JSP T4,DSPOBJ ;(11) USETI
JSP T4,DSPOBJ ;(12) UGETF UUO
JSP T4,DSPOBJ ;(13) RENAME UUO
JSP T4,DSPOBJ ;(14) CLOSE INPUT
JSP T4,DSPOBJ ;(15) UTPCLR UUO
JSP T4,DSPOBJ ;(16) MTAPE UUO
;DISPATCH ON THE OBJECT TYPE
DSPOBJ: SUBI T4,NETDSP+1 ;RELOCATE THE ENTRY
MOVSI T1,DVCNET ;GET THE NETWORK DEVICE BIT
TDNN T1,DEVCHR(F) ;IS THIS A NETWORK DEVICE?
STOPCD CPOPJ##,DEBUG,DFU,;++DEVICE UNRECONIZED
HLRZ W,DEVNET(F) ;GET THE NDT POINTER
LDB T1,NDTOBJ ;GET THE -11 DEVICE TYPE
ROT T1,-1 ;DIVIDE BY 2
HLRZ T2,OBJDSP(T1) ;GET THE EVEN ENTRY
SKIPGE T1 ;WAS IT EVEN?
HRRZ T2,OBJDSP(T1) ;NO, GET THE ODD ENTRY
JUMPE T2,CPOPJ## ;NOT IMPLEMENTED
ADDI T4,(T2) ;POINT TO THE DISPATCH ENTRY
PJRST (T4) ;GO TO DEVICE DEPENDENT ROUTINE
IF2,<IFNDEF NDEVTT,<NDEVTT==0>> ;IF ROUTINE NOT LOADED
IF2,<IFNDEF NDEVTY,<NDEVTY==0>> ;IF ROUTINE NOT LOADED
IF2,<IFNDEF NDEVCD,<NDEVCD==0>> ;IF ROUTINE NOT LOADED
IF2,<IFNDEF NDEVLP,<NDEVLP==0>> ;IF ROUTINE NOT LOADED
IF2,<IFNDEF NDEVPR,<NDEVPR==0>> ;IF ROUTINE NOT LOADED
IF2,<IFNDEF NDEVPP,<NDEVPP==0>> ;IF ROUTINE NOT LOADED
IF2,<IFNDEF NDEVPL,<NDEVPL==0>> ;IF ROUTINE NOT LOADED
IF2,<IFNDEF NDEVMT,<NDEVMT==0>> ;IF ROUTINE NOT LOADED
IF2,<IFNDEF NDEVDT,<NDEVDT==0>> ;IF ROUTINE NOT LOADED
IF2,<IFNDEF NDEVTS,<NDEVTS==0>> ;IF ROUTINE NOT LOADED
IF2,<IFNDEF NDEVRX,<NDEVRX==0>> ;IF ROUTINE NOT LOADED
OBJDSP: ;NETWORK SUPPORTED DEVICE TABLE
XWD NDEVTT,NDEVTY ;(0)TTY CTL (1)TTY USER
XWD NDEVCD,NDEVLP ;(2)CARD READER (3)LINE PRINTER
XWD NDEVPR,NDEVPP ;(4)PAPER READ (5)PAPER TAPE PUNCH
XWD NDEVPL,NDEVMT ;(6)PLOTTER (7)MAG TAPE
XWD NDEVDT,NDEVTS ;(10)DECTAPE (11)TASK(JOB)
XWD NDEVRX,0 ;(12)RMT DATA (13)0
SUBTTL NETWORK DISPATCH CONTROL BLOCK (NDP)
;AN NDP IS ASSOCIATED WITH EACH NETWORK DEVICE TO ALLOW THE
;NCL ROUTINES TO COMMUNICATE TO THE DEVICE SERVICE CODE.
;IT LOOKS MUCH LIKE THE STANDARD DEVICE SERVICE DISPATCH TABLES.
NETNDP: PHASE 0
NDPIDT::!0 ;CALL WHEN DATA RECEIVED FROM DN87
NDPIST::!0 ;CALL WHEN STATUS MESSAGE RECEIVED FROM DN87
NDPODN::!0 ;CALL WHEN MESSAGE HAS BEEN SENT TO DN87
DEPHASE
SUBTTL PCB PROTOCOL CONTOL BLOCK
$LOW
NETPCB::
PHASE 0
PCBBLK::!Z; BYTE (1)0(5)0(4)0(8)0(18)0 ;#MSG,FLAG,CONV,MSG#,QUEUE LINK
XP PCB.NM,(1B0) ;NUMBERED MESSGE
XP PCB.UR,(1B1) ;USER DATA MESSAGE
XP PCB.TY,(1B2) ;TTY PCB-DO NOT DELETE
XP PCB.OF,(1B3) ;DESTINATION OFF LINE
XP PCB.UN,PCB.NM!PCB.UR ;SPECIAL PROCESSING NEEDED AFTER -11 GETS MESSAGE
XP PCV.NC,0 ;NO CONVERSION BYTE SIZE CONVERTED
XP PCV.LC,1 ;LINE COMPRESSION (LPT ONLY)
XP PCV.BN,2 ;BINARY CONVERSION 12 BIT BYTES
PCBDDB::! ;(1) DDB,0
PCBNDB::!Z; XWD 0,0 ;(1) 0,NDB POINTER
PCBIAD::!; POINT 8 ;(2) INPUT PROTOCOL ADDRESS
PCBOAD::!Z; POINT 8,0 ;(2) OUTPUT PROTOCOL ADDRESS
PCBICT::!; XWD 0,0 ;(3) BYTE COUNT
PCBOCT::!Z; XWD 0,0 ;(3) BYTE COUNT
PCBOA2::!Z; POINT 8,0 ;(4) DATA ADDRESS OR 0
PCBOC2::!Z; XWD 0,0 ;(5) BYTE COUNT
PCBLEN==:. ;LENGTH
DEPHASE
RELOC NETPCB ;RECLAIM SPACE
$HIGH
;BYTE POINTERS
PCBPCV::POINT 4,PCBBLK(U),9 ;CONVERSION TYPE
PCBMSN::POINT 8,PCBBLK(U),17 ;MESSAGE NUMBER
$LOW
;LAT LINK ADDRESS TABLE
LATLEN==:M.CONN+1 ;LENGTH OF TABLE(MAX CONNECTS
; PLUS1 FOR NETDDB)
; (LT) ;FLAGS
XP LAT.TY,400000 ;THIS IS A LDB POINTER
XP LAT.SH,200000 ;SET HOST DISCONNECT PENDING BIT
; (RT) ;POINTER TO A DDB FOR DEVICES OR A LDB POINTER
NETLAT::XWD 0,NETDDB ;POINT TO THE DDB (EXEC PROCESS)
BLOCK LATLEN-1 ;REST OF THE TABLE
$LOW
STANAM::SYSNDE
;THIS DATA BLOCK MUST BE REFERENCED BY AC "W"
$LOW
NETNDB::
PHASE 0 ;PROTOTYPE NDB FOR LOCAL SYSTEM
NDBNNM::!XWD OURNNM,0 ;(0) NNM,NEXT NDB
NDBSID::!XWD SYSDAT##,CONFIG## ;(1) SYSTEM CREATION DATE,NAME
NDBSNM::!BYTE (18)STANAM(2)0(8)0(8)0 ;(2) STATION NAME,LAST PROC, LAST REC
NDBMNM::!BYTE (4)0(8)0(8)0(8)0(8)0 ;(3) LAST ACKED,LAST SENT,LAST ASSGN
NDBFEK::!EXP <(NDB.ST!NDB.SK!NDB.CF!NDB.NB!NDB.TP)> ;(4) FLAGS,FEK
XP NDB.ST,(1B0) ;START SEQUENCE SENT
XP NDB.SK,(1B1) ;STACK RECEIVED
XP NDB.CF,(1B2) ;CONFIGURATION
XP NDB.NB,(1B3) ;MY NEIGHBORS HAVE CHANGED
XP NDB.TP,(1B4) ;TOPOLOGY SEARCH FLAG FOR NEIGHBORS MSG.
NDBCLR::! ;FIRST WORD TO CLEAR
NDBQUE::!XWD 0,0 ;(5) INPUT QUEUE,,OUTPUT QUEUE
NDBCTL::!BYTE (10)0(8)0(9)0(9)0 ;(6) MML,FLAGS,BACKWARD,FORWARD ACTIVE TTY LINKAGE
NDBATQ==:NDBCTL ; SPECIAL NAME FOR TTY LINKAGE
NDBTOP::!BLOCK ^D8 ;(7) TOPOLOGY TABLE
SCBSTS::! ;(10)STATUS IN LEFT HALF
;BITS IN SCBSTS:
XP .RMSUI,100 ;IDLE
SCBOPR::!BLOCK 1 ;(11)LDB OF OPR, OR 0 IF NONE
SCBCTL::!BLOCK 1 ;(12)HWD JOB,,ADR OF STATION CONTROL DEVICE
SCBRQB::!BLOCK 1 ;(13) TIMER,MESSAGE ADDRESS FOR REQUEST BOOT
SCBTTY::!BLOCK 1 ;(14) COUNT OF TTYS TO CONNECT
SCBNBP::!BLOCK 1 ;(15) POINTER TO THE CURRENT NBP
SCBDEV::!BYTE (9)1,0,M.CDR,M.LPT,M.PTR,M.PTP,M.PLT,MTXN,M.DTA+M.DTB,M.RJOB,0
NDBLEN==:. ;LENGTH
DEPHASE
$HIGH
;BYTE POINTERS
NDBMML::POINT 10,NDBCTL(W),9 ;DDCMP MAX MESSAGE LENGTH
NDBRFL::POINT 8,NDBCTL(W),17 ;STATUS FLAGS
; MESSAGE NUMBER RELEVANT TO OUTPUT MESSAGES
NDBLAR::POINT 8,NDBMNM(W),11 ;LAST ACK RECEIVED
NDBLAP::POINT 8,NDBMNM(W),19 ;LAST OUTPUT MESSAGE# ACK'ED
NDBLMS::POINT 8,NDBMNM(W),27 ;LAST MESSAGE SENT
NDBLMA::POINT 8,NDBMNM(W),35 ;LAST MESSAGE NUMBER ASSIGNED
NDBLAS::POINT 8,NDBFEK(W),17 ;LAST ACK SENT
; MESSAGE NUMBERS RELEVANT IN INPUT MESSAGES
NDBLMR::POINT 8,NDBSNM(W),35 ;LAST INPUT MESSAGE RECEIVED
NDBNCA::
NDBLMP::POINT 8,NDBSNM(W),27 ;LAST MESSAGE PROCESSED
;THIS IS THE NCA ON OUTPUT
; POINTERS TO THE SCBDEV TABLE
ZZ==0
NETDVN::SIXBIT /MCRTTYCDRLPTPTRPTPPLTMTADTATSKRDACDP/
NETTRN::BYTE (6).TYMCR/.TYEST,.TYTTY/.TYEST,.TYCDR/.TYEST,.TYLPT/.TYEST,.TYPTR/.TYEST,.TYPTP/.TYEST
BYTE (6).TYPLT/.TYEST,.TYMTA/.TYEST,.TYDTA/.TYEST,.TYTSK/.TYEST,.TYRDA/.TYEST,.TYCDP/.TYEST
NETCNF::
REPEAT OBJ.MX+1,<
ZZZ==ZZ/4 ;WORD OFFSET
ZZZZ==<<<ZZ-<ZZZ*4>>*9>+8>
POINT 9,SCBDEV+ZZZ(W),ZZZZ
ZZ==ZZ+1
>;END OF REPEAT OBJ.MX
SUBTTL NETWORK IDLE/BUSY ROUTINES
$HIGH
NETRTY::XWD -M.RTTY,NETOFS## ;POINTER TO THE REMOTE TTY'S
;IS USED FOR RING HEADER FOR OUTPUT ACTIVE TTYS
;SUBROUTINES NTYSET/NTYCLR - SET AND CLEAR A BIT IN THE TTY SERVICE TABLE
;CALL MOVE U,LDB
; PUSHJ P,NTYSET/NTYCLR
;RETURN CPOPJ
;HERE TO SET A TTY OUTPUT ACTIVE
NTYSET::PUSHJ P,NTYCOM ;SET UP REGISTERS
JUMPN T3,NTYRET ;ALREADY DONE SO EXIT
HRRZ T1,NDBATQ(W) ;FETCH RING HEADER
JUMPE T1,NTYST1 ;NIL POINTER REQUIRES SPECIAL PROCESSING
LDB T2,LDPBLB## ;FETCH THE LINK TO THE
;PRECEEDING TTY IN THE RING
DPB T4,LDPBLB## ;AND INSERT THE NEW TTY IN THIS LINKAGE
DPB T2,LDPALB##
HRRZ T1,LINTAB##-1(T2) ;CONVERT LINK TO POINTER
LDB T2,LDPBLF## ;AND THEN INSERT NEW TTY IN THE FOWARD LINKAGE
DPB T4,LDPBLF##
DPB T2,LDPALF##
JRST NTYRET ;RETURN
NTYST1: HRRM U,NDBATQ(W) ;INITIALIZE THE HEADER FOR THE RING
DPB T4,LDPALF## ;AND LINK THE TTY TO ITSELF
DPB T4,LDPALB##
JRST NTYRET ;DONE
;HERE TO SET A TTY OUTPUT INACTIVE
NTYCLR::PUSHJ P,NTYCOM ;SET UP REGISTERS
JUMPE T3,NTYRET ;ALL DONE IF NOT ACTIVE
LDB T3,LDPALF## ;GET THE FORWARD POINTER
LDB T4,LDPALB## ;AND THE BACKWARD LINKAGE
HRRZ T1,LINTAB##-1(T4) ;LOCATE THE PRECEEDING TTY
DPB T3,LDPBLF## ;AND LINK AROUND THE INACTIVE ONE
HRRZ T1,LINTAB##-1(T3) ;LOCATE THE NEXT TTY
DPB T4,LDPBLB## ;AND LINK ARROUND THE INACTIVE ONE
HRRZ T2,U ;MAKE A COPY OF THE POINTER, LH=0
HLRM T2,LDBREM##+2(U) ;AND SET THE NIL LINKAGE
CAIN T2,(T1) ;IF THE RING IS EMPTY NOW,
HLRM T2,NDBATQ(W) ;ELSE ZERO THE RING HEADER
HRRZ T2,NDBATQ(W) ;HAVE WE JUST DELINKED THE NEXT TTY
CAIN T2,(U) ; NTYBSY WILL CHECK?
HRRM T1,NDBATQ(W) ;YES, ADVANCE THE RING
NTYRET: CONO PI,PION## ;REENABLE INTERRUPTS,
PJRST WPOPJ## ; RESTORE W, AND RETURN
;HERE TO SET UP REGISTERS FOR NTYSET/NTYCLR
NTYCOM: EXCH W,(P) ;WE WANT TO PRESERVE W AFTER RETURN FROM CALLER
PUSH P,W ;REPLACE RETURN ADDRESS
HLRZ W,LDBREM##(U) ;LOCATE NDB FOR TTY
JUMPN W,NTYCO1 ;CONTINUE BELOW IF IT'S CONNECTED
POP P,W ;POP RETURN ADDRESS FROM STACK
;SO WE RETURN TO CALLER'S CALLER
PJRST WPOPJ## ;RESTORE W AND RETURN TO CALLER'S CALLER
NTYCO1: LDB T4,LDPLNO## ;FETCH UNIT NUMBER FOR THIS TTY
AOS T4 ;MAKE IT INTO A LINK VALUE
CONO PI,PIOFF## ;TURN INTERRUPTS OFF FOR THE DURATION
HRRZ T3,LDBREM##+2(U) ;FETCH ACTIVE RING LINKAGES FOR THIS TTY
POPJ P, ;AND CONTINUE
;SUBROUTINE NTYBSY - RETURN NEXT NETWORK TTY NEEDING SERVICE
;CALL:
; MOVEI W,<NDB NEEDING SERVICE>
; PUSHJ P,NTYBSY
;RETURN CPOPJ ;NO TTY NEEDS SERVICE
; CPOPJ1 ;W=NDB, U=LDB OF TTY NEEDING SERVICE
NTYBSY::CONO PI,PIOFF## ;TURN INTERRUPTS OFF FOR THE DURATION
HRRZ T4,NDBATQ(W) ;FETCH POINTER TO NEXT TTY IN RING FOR THIS NODE
HRRZI U,(T4) ;AND MAKE A SECOND COPY
PJUMPE U,ONPOPJ## ;EXIT IF NO NEXT TTY
;SEARCH LOOP
NTYBS0: LDB T1,LDPALF## ;FETCH TO LINK TO TTY AFTER NEXT ONE
HRRZ T1,LINTAB##-1(T1) ;CONVERT LINK TO POINTER
HRRZ T2,LDBREM##(U) ;IF NEXT TTY IS IDLE, SKIP OVER IT
TRNN T2,LRRIDL##
JRST NTYBS2
TRNE T2,LRRNOT## ;IF TTY IS NOT ACTIVE FOR DATA OUTPUT ONLY
JRST NTYBS1 ;SUCCESS
LDB T2,LDPDRQ## ;IF OUTSTANDING DATA REQUESTS,
JUMPN T2,NTYBS1 ;SUCCESS
MOVEI T2,LRRTTW## ;SET WAITING FOR DATA REQUEST BIT
IORM T2,LDBREM##(U)
MOVEI T2,LRRTTO## ;AND CLEAR ACTIVE OUTPUT BIT
ANDCAM T2,LDBREM##(U)
NTYBS2: ;THIS TTY LOST SO TRY NEXT ONE
HRRZ U,T1 ;COPY POINTER TO NEXT ONE
CAIE T1,(T4) ;IF ANOTHER TTY TO TRY, LOOP
JRST NTYBS0
;FAILURE EXIT
SETZ U, ;RETURN NIL LDB POINTER
PJRST ONPOPJ## ;ENABLE INTERRUPTS AND RETURN
NTYBS1: ;SUCCESS EXIT
HRRM T1,NDBATQ(W) ;ADVANCE THE RING HEADER POINTER
CONO PI,PION## ;RESTORE INTERRUPTS
LDB T1,LDPLNO## ;FETCH THE UNIT NUMBER OF THE WINNING TTY
MOVE U,LINTAB##(T1) ;AND FETCH THE LINE TABLE ENTRY
JRST CPOPJ1 ;SKIP RETURN FOR EXIT
SUBTTL COMMON BUFFER POOL FOR NETWORK TTY'S
$LOW
XP NBPLEN,PCBLEN+<NBPBFL/4>+^D10
DEFINE TTYBUF<
X0.==. ;;ORIGIN OF THE BUFFER POOL
BLOCK PCBLEN ;;ALLOCATE SPACE FOR THE PDC
X1.==. ;;ORIGIN FOR THE DATA BUFFER
BLOCK NBPBFL/4+14 ;;SIZE OF THE DATA BUFFER
RELOC X0.+PCBBLK
EXP <(PCB.NM!PCB.TY)>
RELOC X0.+PCBOAD
POINT 8,X1.
RELOC X0.+NBPLEN
>
NBPTTY:
NBPSIZ==<<M.RTTY/NTTYPL>+1>
REPEAT NBPSIZ,<
TTYBUF
>;END OF REPEAT
$HIGH
;SUBROUTINE GETNBP - GET A TTY BUFFER FROM THE POOL
;CALL MOVEI W,NDB
; PUSHJ P,GETNBP
;RETURN CPOPJ ;NO BUFFER AVAILABLE
; CPOPJ1 ;U=PCB OF THE BUFFER
NBPPTR::XWD -NBPSIZ,NBPTTY ;POINTER TO THE FREE POOL
GETNBP::SKIPN U,NBPLST ;GET THE LAST REFERENCE
MOVE U,NBPPTR ;GET THE START OF THE POOL
GETNB1: SKIPN PCBNDB(U) ;IS THIS BUFFER AVAILABLE?
JRST [HRRZM W,PCBNDB(U) ;YES, SET IT BUSY
MOVE T1,[PCB.OF,,-1] ;CLEAR LINK AND OFFLINE FLAG
ANDCAM T1,PCBBLK(U)
MOVEM U,NBPLST ;SAVE THE LAST POINTER
ANDI U,-1 ;CLEAR THE JUNK
JRST CPOPJ1##] ;GOOD RETURN
ADD U,[XWD 1,NBPLEN] ;POINT TO THE NEXT ENTRY
SKIPL U ;AT THE END OF THE POOL?
MOVE U,NBPPTR ;RELOAD THE POINTER
CAMN U,NBPLST ;ALL THE WAY AROUND?
POPJ P, ;YES, EXIT
JRST GETNB1 ;CONTINUE SCAN
$LOW
NBPLST: Z ;LAST REFERENCE TO THE TTY POOL
SUBTTL NDT NETWORK DEVICE TABLE
;PROTOTYPE NDT TO DEFINE REMOTE DEVICE CHARACTERISTICS WITHIN THE NETWORK
;THIS DTA BLOCK MUST BE REFERENCED BY AC"W"
$HIGH
NETNDT::
PHASE 0
NDTNAM::!Z; XWD 0,0 ;(0) GENERIC DEVICE NAMES
NDTMOD::!Z; 0 ;(1) SEE DEVMOD IN THE DDB
NDTATR::!Z; XWD 0,0 ;(2) OBJECT TYPE,DEVICE ATTRIBUTES
NDTCHR::!Z; BYTE (6)0(12)0(18)0 ;(3) TYPE BUFFER SIZE
NDTNDP::!Z; DEVNDP(T1) ;(4) INDIRECT POINTER TO NDP
NDTLEN==:. ;LENGTH OF THE NDT
DEPHASE
RELOC NETNDT ;REMOVE THE SPACE
;BYTE POINTER TO THE NDT BLOCK
NDTTYP::POINT 6,NDTCHR(W),5 ;-10 DEVTYP BYTE
NDTBFZ::POINT 12,NDTCHR(W),17 ;-10 BUFFER SIZE
NDTDVT::POINT 16,NDTATR(W),35 ;-11 DEVICE ATTRIBUTES
NDTOBJ::POINT 8,NDTATR(W),17 ;-11 DEVICE TYPE CODE
NDTDCM::POINT 10,NDTATR(W),9 ;NETWORK DEVICE MODES
DEFINE NDT(XDEV,XIDEV,BUFSZ,CHR,DCM,DVT)<
ZZ.==ZZ.+1
BYTE (18)<(SIXBIT /XDEV/)>,<(SIXBIT /XIDEV/)>
XWD CHR,XDEV'MOD
BYTE (10)DCM(8)OBJ.'XIDEV(2)0(16)DVT
BYTE (6)<.TY'XDEV/.TYEST>(12)BUFSZ(18)0
XDEV'NDP##(T1)
>
ZZ.==0 ;COUNT THE NDT'S
NDTTBL=:. ;START OF NDT TABLE
;DEFINE THE REMOTE LINE PRINTERS
IFG M.RLPT,<
EXTERNAL NDEVLP,NETLPT
LPTMOD==1_A+1_AL+1_I ;LEGAL -10 MODES
NDT (LPT,LP,33,<DVOUT!DVLPT>,<DCM.CP!DCM.AS>,0)
>
;DEFINE THE REMOTE CARD READERS
IFG M.RCDR,<
EXTERNAL NDEVCD,NETCDR
CDRMOD==1_A+1_AL+1_I+1_IB+1_B
NDT (CDR,CD,34,<DVIN!DVCDR>,<DCM.DI>,0)
>
;DEFINE THE REMOTE PAPER TAPE READERS
IFG M.RPTR,<
EXTERNAL NDEVPR,NETPTR
PTRMOD==1_B+1_AL+1_I+1_IB+1_A
NDT (PTR,PR,41,<DVIN!DVPTR>,<DCM.AS!DCM.IM>,0)
>
;DEFINE THE REMOTE PAPER TAPE PUNCHES
IFG M.RPTP,<
EXTERNAL NDEVPP,NETPTP
PTPMOD==1_B+1_AL+1_I+1_IB+1_A
NDT (PTP,PP,41,<DVOUT!DVPTP>,<DCM.AS!DCM.IM>,0)
>
;DEFINE THE REMOTE MAG TAPES
IFG M.RPLT,<
EXTERNAL NDEVPL,NETPLT
PLTMOD==1_A+1_AL+1_I+1_IB+1_B ;PLOTTER LEGAL MODES
NDT (PLT,PL,44,<DVOUT>,<DCM.AS!DCM.IM>,0)
>
IFG M.RMTA,<
EXTERNAL NDEVMT,NETMTA
MTAMOD==1_A
NDT (MTA,MT,103,<DVIN!DVOUT!DVMTA!DVLNG>,<DCM.AS!DCM.IM>,0)
>
;DEFINE REMOTE TASKS
IFG M.RJOB,<
EXTERNAL NDEVTS,NETTSK
TSKMOD==1_B+1_I+1_IB+1_A+1_AL
NDT (TSK,TK,101,<DVIN!DVOUT!DVLNG!DVDIR>,<DCM.AS!DCM.IM>,0)
>
;DEFINE REMOTE DATA ENTRY DEVICES
IFN M.RDX,<
EXTERNAL NDEVRX,NETRDX
RDAMOD==1_A+1_AL
NDT (RDA,RD,101,<DVIN!DVOUT>,<DCM.AS>,0)
>
NDTPTR::XWD -ZZ.,NDTTBL ;POINTER TO SEARCH THE NDT TABLE
$LOW
IFN M.RJOB,<
SUBTTL TASK TABLES
TSKTBL:: ;ORIGIN OF THE TASK TABLE
PHASE 0
TSKNAM::!Z ;(0) TASK NAME
TSKEXT::!Z ;(1) EXTENSION,0
TSKPPN::!Z ;(2) PPN
TSKDDB::!Z ;(3) XWD DDB,LAT
TSKLEN==:. ;LENGTH OF THE TASK ENTRY
DEPHASE
RELOC TSKTBL ;SAVE SPACE
BLOCK TSKLEN*M.RJOB ;FOR THE ENTRIES
$HIGH
TSKPTR::XWD -M.RJOB,TSKTBL ;POINTER TO THE TASK TABLE
> ;END IFN M.RJOB
SUBTTL FEK FRONT END KONTROLLER DATA BLOCKS
$LOW
;DEFINE THE OFFSETS
IFNDEF DAETBL,<DAETBL==^D10> ;SIZE OF DAEMON ERROR TABLE
PHASE 0
FEKBLK::!Z; XWD 0,0 ;(0) FLAGS, LINK TO NEXT FEK
XP FK.ONL,(1B0) ;ONLINE SAME AS NOT DOWN
;MUST BE THE SIGN BIT
XP FK.NID,(1B1) ;NODE ID HAS BEEN SENT
FEKONC::!Z; PUSHJ P,0 ;(1) CALLED AT ONCE ONLY
FEKRDD::!Z; PUSHJ P, ;(2) INPUT ROUTINE
FEKIAD::!Z; XWD 0,0 ;(3) POINTER TO THE PCB
FEKBSI::!Z; -1 ;(4) INPUT BUSY FLAG
FEKWRT::!Z; PUSHJ P,0 ;(5) OUTPUT ROUTINE
FEKOAD::!Z; XWD 0,0 ;(6) POINTER TO THE PDB
FEKBSO::!Z; -1 ;(7) OUTPUT BUSY
FEKSEC::!Z; PUSHJ P, ;(10) CALLED ONCE A SECOND
FEKMXL::!Z; Z ;(11) MAX RECORD LENGTH
FEKUNI::!Z; Z ;(12) RESERVED FOR D??INT OWN USE
FEKERR::!Z; XWD -DAETBL,.+1 ;(13) ERROR REPORT TABLE
BLOCK DAETBL
FEKLEN==:. ;LENGTH OF FEK
DEPHASE
RELOC .-FEKLEN
;FLAGS DEFINE IN THE LEFT HALF OF "J" ON CALL TO FEKINT
;TO PROCESS THE INTERRUPT
XP FI.IN,(1B1) ;=1 IF INTERRUPT ON INPUT
XP FI.OUT,(1B2) ;=1 IF INTERRUPT ON OUTPUT
XP FI.IOD,(1B3) ;=1 IF IO DONE SET (SEE 1B1,1B2 FOR DIRECTION)
XP FI.IND,FI.IN!FI.IOD
XP FI.OUD,FI.OUT!FI.IOD
XP FI.IMP,(1B4) ;=1 IMPROPER MODE
XP FI.DVR,(1B5) ;=1 DEVICE ERROR
XP FI.BTL,(1B6) ;=1 BLOCK TO LARGE
XP FI.DAT,(1B7) ;=1 DATA ERROR
XP FI.DWN,(1B10) ;=KONTROLLER WENT DOWN (REMOVE ALL QUEUES)
XP FI.DAE,(1B11) ;=1 DAEMON ERROR REPORT CALL
SUBTTL MACRO TO GENERATE FEK'S
DEFINE FEKGEN(NAM,NM)<
IF2, <
IFNDEF NAM'ONC,<EXTERNAL NAM'ONC>
IFNDEF NAM'RDD,<EXTERNAL NAM'RDD>
IFNDEF NAM'WRT,<EXTERNAL NAM'WRT>
IFNDEF NAM'SEC,<EXTERNAL NAM'SEC>
>;END OF IF2
IFB <NM>,<
NAM'FEK::
>;IFB NM
IFNB <NM>,<
NM'FEK::
>;IFNB NM
XWD 0,0 ;;(0) FEKBLK
.LINK FEKLNK,.-1 ;; LINK PSEUDO OP
PUSHJ P,NAM'ONC ;;(1) FEKONC
PUSHJ P,NAM'RDD ;;(2) FEKRDD
XWD 0,0 ;;(3) FEKIAD
-1 ;;(4) FEKBSI
PUSHJ P,NAM'WRT ;;(5) FEKWRT
XWD 0,0 ;;(6) FEKOAD
-1 ;;(7) FEKBSO
PUSHJ P,NAM'SEC ;;(10) FEKSEC
Z ;;(11) FEKMXL
Z ;;(12) FEKUNI
XWD -DAETBL,.+1 ;;(13) FEKERR
BLOCK DAETBL
>;END OF FEKGEN
SUBTTL DAS85 FEK
IFNDEF M.DC75,<M.DC75=0>
IFN M.DC75,<EXTERN D85INT>
DEFINE FEK85(P),<
IFN M.'P'D85,<
FEKGEN (D85,D8'P)
>;IFN M.'P'D85
> ;DEFINE FEK85
Z==-1
REPEAT 8,< FEK85 \<Z==Z+1>>
IFNDEF M.D87S,<M.D87S=0>
IFN M.D87S,<EXTERN D8SINT>
DEFINE FEK8S(P),<
IFN M.'P'D8S,<
FEKGEN (D8S,DS'P)
>;IFN M.'P'D8S
> ;DEFINE FEK8S
Z==-1
REPEAT 4,< FEK8S \<Z==Z+1>>
SUBTTL DTE20 INTERFACE
;DEFINE OFFSETS INTO THE DTK (DTE20 KONTROL BLOCK)
DTKARC==:0 ;SEMAPHORE FOR ACK RACE CONDITION. NORMALLY -1,
; THIS IS USED BY UUO LEVEL CODE TO LOCK INTERRUPT
; CODE FROM SENDING AN ACK WHILE IT'S SENDING SEVERAL
; FRAGMENTS OF AN NCL MESSAGE
DTKUNI==:1 ;RH: DTE20 UNIT NUMBER ASSOCIATED WITH THIS
; DTK AND FEK
DTKIBP==:2 ;BYTE POINTER USED BY INPUT CODE TO IMPLEMENT
; A GATHER READ OPERATION WHERE THE -11 SENDS
; SEVERAL MESSAGES DESTINED TO BECOME A SINGLE
; NCL MESSAGE
DEFINE DTKGEN(DTE)<
DS'DTE'DTK: EXP -1 ;;(0) DTKARC
EXP DTE ;;(1) DTKUNI
EXP 0 ;;(2) DTKIBP
>
DEFINE DTKDEF(DTE)<
IFN M.'DTE'D8S,<DTKGEN(DTE)>>
ZZ==-1 ;NOW TO GENERATE ALL DTK'S
REPEAT 4,< DTKDEF \<ZZ==ZZ+1>>
;GENERATE TABLE TO MAP FROM DTE # TO FEK ADDRESS
$HIGH
DEFINE DTEDEF(DTE),<
IFN M.'DTE'D8S,<
DS'DTE'DTK,,DS'DTE'FEK ;;THEN WE HAVE A REAL FEK
;> EXP 0 ;;ELSE NOT A NETWORK FE, NO FEK
>
Z==-1
DTEFEK::REPEAT 4,< DTEDEF \<Z==Z+1>>
$LIT
CNTEND::END