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PDP-10 Archives
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BB-F493Z-DD_1986
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10,7/dcnspy.mac
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TITLE DCNSPY - Spy on DECnet-36
SEARCH D36PAR,SCNMAC,S,UUOSYM,DPYDEF,NETPRM,MACSYM
DEFINE RETSKP,<JRST CPOPJ1> ;OVERRIDE UNIVERSAL'S DEFN
.REQUEST REL:SCAN
.REQUEST REL:HELPER
.REQUEST DSK:DPY ;GET THE DPY PACKAGE
.TEXT "/LOCALS/SYMSEG:HIGH"
SALL
PRGID='DCNSPY' ;NAME OF THIS PROGRAM
PRGABR='SPY' ;3 CHR ABBREVIATION USED FOR PROG.
SPYWHO==0
SPYVER==4 ;MAJOR VERSION
SPYMIN==0 ;MINOR VERSION
SPYEDT==11 ;EDIT NUMBER
%%SPY==BYTE (3)SPYWHO(9)SPYVER(6)SPYMIN(18)SPYEDT
LOC 137
.JBVER::!EXP %%SPY
RELOC
;This program uses SPY pages.
TWOSEG 400000
SUBTTL External Definitions
EXTERN .ISCAN ;INITIALIZE THE WHOLE SCAN ROUTINE
EXTERN .OSCAN ;READ SWITCH.INI
EXTERN .PSCAN ;PARTIAL SCAN INITIALIZER
EXTERN .TSPAC ;TYPE A SPACE
EXTERN .TTABC ;TYPE A TAB CHARACTER
EXTERN .TCOMA ;TYPE OUT A COMMA
EXTERN .TCRLF ;TYPE A CRLF
EXTERN .TSTRG ;TYPE A STRING FROM T1
EXTERN .TOCTW ;TYPE NUMBER IN T1 IN OCTAL
EXTERN .TDECW ;TYPE NUMBER IN T1 IN DECIMAL
EXTERN .TSIXN ;TYPE VALUE IN T1 IN SIXBIT
EXTERN .TCOLN ;TYPE A COLON
EXTERN .TRBRK ;TYPE A RIGHT BRACKET
EXTERN .TPPNW ;TYPE T1 AS A PPN
EXTERN .TXWDW ;TYPE T1 AS HALF-WORDS
EXTERN .TCHAR ;TYPE CHARACTER IN T1
EXTERN .TTIME ;TYPE T1 AS A MILLISECOND TIME
EXTERN .DECNW ;READ IN A DECIMAL NUMBER
EXTERN .SWDEC ;READ IN A DECIMAL SWITCH ARG
SUBTTL Build the SCAN switch tables
; See SCNMAC.MAC for definition of macros used here.
;Define the defaults for switches:
; First arg is 3-chr abbrieviation used for this switch.
; Second arg is maximum allowed value.
; Third arg is absent default (AD.xxx)
; (not used by SCAN, for application use only).
; Fourth arg is present default (PD.xxx)
; (used by SCAN unless FS.VRQ specified)
RADIX 10
; Name Max Absent Present
; xxx MX.xxx AD.xxx PD.xxx
; ---- ------ ------ -------
DM DPY, 1, 1, 1 ;/DPY
DM COM, 1, 0, 1 ;/COM
DM JOB, 1024, 0, 0 ;/JOB
DM CHN, 1024, 1, 1 ;/CHANNEL
DM DLY, 1024, 5, 5 ;/DELAY (SECONDS)
DM PAG, 512, 10, 15 ;/PAGE
DM SJP, 0, 0, 0 ;/SJBPTR:addr (FS.LRG)
RADIX 8
;Remember to update HELP string at HLPSTR
DEFINE SWTCHS,<
XLIST
SN DPY,SCNDPY,FS.NCM!FS.NFS
SP PAGE,SCNPAG,.SWDEC,PAG,FS.NFS!FS.NCM!FS.VRQ
SP *JOB,SCNJOB,.SWDEC,JOB,FS.NFS!FS.NCM!FS.VRQ
SP *CHANNEL,SCNCHN,.SWDEC,CHN,FS.NFS!FS.NCM!FS.VRQ
SN COMMENT,SCNCOM,FS.NCM!FS.NFS
SP DELAY,SCNDLY,.SWDEC,DLY,FS.NFS!FS.NCM!FS.VRQ
SP *NRTSJB,0,SPYNRT
SP *SJB,0,SPYSJB
SP *SLB,0,SPYSLB
SP *ELB,0,SPYELB
SP *RCB,0,SPYRCB
SP *AJB,0,SPYAJB
SP *DLB,0,SPYDLB
SP *LNB,0,SPYLNB
SP *MEM,0,SPYMEM
SP SJBPTR,SCNSJP,.SWOCT##,SJP,FS.NFS!FS.NCM!FS.VRQ!FS.LRG
SP KDP,0,SPYKDP
SP CIRCUIT,,.SWCKT,,FS.NFS!FS.NCM!FS.VRQ
SP NODE,NODID,.SWNOD,,FS.NFS!FS.NCM!FS.VRQ
SP DAYTIME,0,SPYTIM
LIST
>;END OF SWTCHS
;Now build the tables.
DOSCAN (SWT)
SUBTTL HLPSTR -- The HELP string
HLPSTR: ASCIZ ~
DCNSPY uses verb-mode SCAN. The commands are:
JOB n Job number to spy on, no default
Ignored if SJBPTR is non-zero, see below.
CHANNEL n DECnet channel number for that job, default 1
CIRCUIT ckt-id Set ckt-id for examining circuit blocks.
(Circuit-ids are of the form DEV-CNT-UNT, ex. DTE-0-1)
NODE n Node number for adjacency block, default first AJB
[NO]COMMENT Type out comments for each field displayed
[NO]DPY Use DPY mode
PAGE Length by which DPY mode + and - commands shift page
DELAY Seconds to sleep in DPY mode
SJBPTR n Address of SJB to use.
While SJBPTR is non-zero, Job is ignored.
SJB Action command, type out SCTL's SJB
NRTSJB Action command, type out NRTSER's SJB
SLB Action command, type out SCTL's SLB
ELB Action command, type out NSP's ELB
RCB Action command, type out RTR's RCB for given circuit-id
AJB Action command, type out RTR's AJB for given adjacency
DLB Action command, type out DLL's DLB for given circuit-id
LNB Action command, type out DLL's LNB for given circuit-id
MEM Action command, type out memory utilization
KDP Action command, type out KMC/DUP data base
DAYTIME Action command, type out current time
In DPY mode, the immediate commands are:
escape Escape to command mode
^Z Escape to monitor mode, CONTINUE to return
^C Escape to monitor mode, CONTINUE to return
R Refresh the screen
space Recalculate the screen now
+ Move window forward by PAGE lines
- Move window backward by PAGE lines
~
SUBTTL Accumulator Assignments
;Must be after DOSCAN call, for SL is redefined herein
T1=1
T2=2
T3=3
T4=4
P1=5
P2=6
NUM=7 ;NUMBER TO PRINT FOR "OUTNUM"
N=7 ;SCAN CALLS IT THIS
BAS=10 ;BASE FOR "OUTNUM" TO PRINT NUMBER IN
C=10 ;AGAIN FOR SCAN
WDT=11 ;WIDTH OF FIELD FOR OUTNUM. ZERO = ANY,
; MINUS MEANS LEFT JUSTIFY.
FIL=12 ;CHAR TO USE FOR FILLER.
;The following ACs are redefined for each display processor's use
KDL=13 ;POINTER TO THE "KDL PAGE" (ALA NETPRM)
SJ=13 ;POINTER TO SCTL JOB BLOCK IN SPY PAGE
EL=14 ;POINTER TO NSP PORT BLOCK IN SPY PAGE
SL=15 ;POINTER TO SCTL LINK BLOCK IN SPY PAGE
RC=13 ;POINTER TO ROUTER'S CIRCUIT BLOCK
AJ=14 ;POINTER TO ROUTER'S ADJACENCY BLOCK
DL=14 ;POINTER TO DNADLL'S DATA LINK BLOCK
LN=15 ;POINTER TO DNADLL'S LINE BLOCK
MC=13 ;SIZE OF DECNET BIT MAP (IN BITS)
MP=14 ;POINTER TO DECNET BIT MAP
;End of redefined ACs
CX=16 ;SUPER-TEMP FOR MACROS
.SAC==CX ;SOME MACROS USE THIS NAME
P=17
OPDEF CALL [PUSHJ P,]
OPDEF RET [POPJ P,]
DEFINE USRSAV,<> ;DON'T LET SAVEAC GET CARRIED AWAY
$TTY==2 ;TTY'S I/O CHANNEL
TYOBSZ==400 ;TTY'S OUTPUT BUFFER SIZE
subttl macros
$sp==40 ;a space
$zr==60 ;a zero
define text(string)< str$ [asciz |string|] >
define crlf<
chi$ ^o15 ;;cr
chi$ ^o12 ;;lf
>
define number(qnum,qbas,qwid,qfil)<
ifnb <qnum>,<move num,qnum> ;;use number only if specified
ifb <qbas>,<movei bas,10> ;;default base to 10 (decimal)
ifnb <qbas>,<movei bas,qbas>
ifb <qwid>,<movei wdt,0> ;;default width to "any"
ifnb <qwid>,<movei wdt,qwid>
ifb <qfil>,<movei fil,$sp> ;;default filler to "spaces"
ifnb <qfil>,<movei fil,qfil>
pushj p,outnum ;;call outnum with args set up
>
define goto(pos)< ;;go to line position "pos"
movei t1,pos-1 ;;get position to "go to" (1 origined)
pushj p,pgoto ;;call "goto" routine to get there
>
define err(text),<
jrst [movei t1,[asciz |text
|]
jrst errstr]
>
SUBTTL Storage Definitions
;Compile in the storage locations each DECnet-36 will be mapped
;through.
DEFINE ALCPAG(nam),<
nam'PAG==...PAG ;;ALLOCATE NEXT PAGE AS FIRST OF TWO
nam'ADR==...PAG * 1000 ;;MAKE A SYMBOL FOR ADDRESS TOO
nam'PG1==...PAG+1
...PAG==...PAG+2
>;END OF ALCPAG
...PAG==340 ;START ALLOCATING SPY PAGES HERE
ALCPAG PDB ;TOPS-10 PDB
ALCPAG SJB ;SCTL JOB BLOCK
ALCPAG SLB ;SCTL LINK BLOCK
ALCPAG ELB ;NSP LINK BLOCK
ALCPAG RCB ;ROUTER CIRCUIT BLOCK
ALCPAG AJB ;ROUTER ADJACENCY BLOCK
ALCPAG DLB ;DNADLL DATA LINK BLOCK
ALCPAG LNB ;DNADLL LINE BLOCK
ALCPAG MEM ;DECNET MEMORY BIT MAP
ALCPAG TMP ;USE THIS PAIR FOR TEMP MAPPING
IFG <...PAG-400>,<PRINTX ?PAGE NUMBER OVERFLOW
PASS2>
SUBTTL General Storage
RELOC 0
LN$PDL==100
PDL: BLOCK LN$PDL+1
TTYOBF: BLOCK 3 ;TTY OUTPUT BUFFER CONTROL BLOCK
OBF1: BLOCK TYOBSZ+3 ;TTY OUTPUT BUFFER
CCLF1: BLOCK 1 ;NON-ZERO IF CCL STARTED
KDLPAG: BLOCK KDLEST+1 ;LONG ENOUGH TO HOLD KDP STATUS
SPYFCN: EXP 0 ;PUT FUNCTION ADDRESS HERE FOR SPYGO
TYPDPY: EXP 0 ;NON-ZERO TO TYPE IN DPY MODE
BIGOUT: BLOCK 1 ;NON-ZERO TO USE TTY OUTPUT BUFFERS
LINGOL: EXP 0 ;USED BY SPYINT'S + AND - COMMANDS
LINCNT: EXP 0 ; DITTO
CKTID: EXP 0 ;PLACE TO STORE CIRCUIT ID
NODID: EXP 0 ;PLACE TO STORE NODE ADDRESS
NRTSJB: EXP 0 ;POINTER TO NRTSER'S SJB
TOTFRE: EXP 0 ;TOTAL FREE CORE
BIGHOL: EXP 0 ;LARGEST HOLE
FREBLK: BLOCK ^D36 ;UTILIZATION TABLE
;SCAN storage
BEGSCN:! ;START OF REGION TO BE SET TO -1
SCNCHN: BLOCK 1 ;ZERO-RELATIVE CHANNEL NUMBER WE'RE TO SPY ON
SCNJOB: BLOCK 1 ;JOB NUMBER WE'RE TO SPY ON
SCNDPY: BLOCK 1 ;NON-ZERO TO GO INTO DPY MODE
SCNPAG: BLOCK 1 ;SIZE OF A PAGE, FOR "+" SCROLLING
SCNDLY: BLOCK 1 ;DEFAULT DPY TIMER
SCNCOM: BLOCK 1 ;TYPE OUT COMMENTS IF NON-ZERO
SCNSJP: BLOCK 1 ;POINTER TO SJP WE'RE TO EXAMINE
ENDSCN==.-1 ;END OF REGION TO BE SET TO -1
RELOC
SUBTTL Block Description Tables -- SJB
;Session Control Job Block
DEFINE SJBMAC,<
ENTRY. SJ,NXT,(SJ),.TADDR,TAB,0, <Next job block in system>
ENTRY. SJ,CHT,(SJ),.TADDR,TAB,0, <PTR to SLB table (indexed by channel)>
ENTRY. SJ,CHC,(SJ),.TDECD,CRLF,1,<Count of spaces allocated in SLB table>
ENTRY. SJ,PSJ,(SJ),.TADDR,TAB,0, <Pointer to system's pointer to the SJB>
ENTRY. SJ,PRV,(SJ),.TBOOL,TAB,1, <User is PRVJ privileged>
ENTRY. SJ,RST,(SJ),.TBOOL,CRLF,1,<Reset in progress>
ENTRY. SJ,JOB,(SJ),.TDECD,TAB,1, <Job number>
ENTRY. SJ,CTA,(SJ),.TDECD,TAB,1, <Number of CI timers active for job>
ENTRY. SJ,TXQ,(SJ),.TQUE ,CRLF,1,<Transaction queue of NSPSER calls>
ENTRY. SJ,PSQ,(SJ),.TQUE ,TAB,0, <Queue of SLBs with PSIs outstanding>
ENTRY. SJ,GOL,(SJ),.TDECD,TAB,1, <Input data request goal>
ENTRY. SJ,INQ,(SJ),.TDECD,CRLF,1,<Job input quota>
ENTRY. SJ,OTQ,(SJ),.TDECD,TAB,1, <Job output quota>
ENTRY. SJ,INU,(SJ),.TDECD,TAB,1, <Buffers used toward input job quota>
ENTRY. SJ,OTU,(SJ),.TDECD,CRLF,1,<Buffers used toward output job quota>
ENTRY. SJ,SAB,(SJ),.TADDR,TAB,0, <SA block pointer>
ENTRY. SJ,MUU,(SJ),.TMUUO,CRLF,2,<Save MUUO word here for STOTAC, etc>
>;END OF SJBMAC
DEFINE SLBMAC,<
ENTRY. SL,ASQ,(SL),.TADDR,TAB,0, <Pointer to next SL in system>
ENTRY. SL,NXP,(SL),.TADDR,TAB,0, <Pointer to next SL with active PSI>
ENTRY. SL,JFQ,(SL),.TADDR,CRLF,1,<Pointer to next SL requesting jiffy service>
ENTRY. SL,SLB,(SL),.TADDR,TAB,0, <Pointer to ourselves>
ENTRY. SL,SJB,(SL),.TADDR,TAB,0, <Pointer to job block>
ENTRY. SL,CHN,(SL),.TDECD,CRLF,1,<Channel number>
ENTRY. SL,DOB,(SL),.TDECD,TAB,1, <Destination object type>
ENTRY. SL,SOB,(SL),.TDECD,TAB,1, <Source object type>
ENTRY. SL,CCB,(SL),.TBOOL,CRLF,1,<Check connect block>
ENTRY. SL,KCB,(SL),.TBOOL,TAB,1, <Keep connect block for life of link>
ENTRY. SL,PSI,(SL),.TBOOL,TAB,1, <PSI pending flag>
ENTRY. SL,PH2,(SL),.TBOOL,CRLF,1,<Phase II has no resend capability>
ENTRY. SL,ABO,(SL),.TBOOL,TAB,1, <Close port after abort & release>
ENTRY. SL,FSL,(SL),.TBOOL,TAB,1, <Free SLB when done with all processing>
ENTRY. SL,BSY,(SL),.TBOOL,CRLF,1,<SLB is busy (cannot be freed)>
ENTRY. SL,LBC,(SL),.TBOOL,TAB,1, <Link is being closed by NSP>
ENTRY. SL,JFR,(SL),.TBOOL,TAB,1, <Jiffy service requested flag>
ENTRY. SL,EOM,(SL),.TBOOL,CRLF,1,<Last segment output was end of message>
ENTRY. SL,STA,(SL),.TSTAS,TAB,1, <Session control state>
ENTRY. SL,XFL,(SL),.TOCTW,TAB,1, <Transmit flow control option>
ENTRY. SL,RFL,(SL),.TOCTW,CRLF,1,<Receive flow control option>
ENTRY. SL,GOL,(SL),.TDECD,TAB,1, <Receive data request goal>
ENTRY. SL,INQ,(SL),.TDECD,TAB,1, <Input quota for link>
ENTRY. SL,OTQ,(SL),.TDECD,CRLF,1,<Output quota for link>
ENTRY. SL,INU,(SL),.TDECD,TAB,1, <Input buffers in use>
ENTRY. SL,OTU,(SL),.TDECD,TAB,1, <Output buffers in use>
ENTRY. SL,SST,(SL),.TOCTW,CRLF,1,<Link status word>
ENTRY. SL,PSM,(SL),.TOCTW,TAB,1, <The PSI mask>
ENTRY. SL,DRR,(SL),.TDECD,TAB,1, <Normal data requests to resend>
ENTRY. SL,RSN,(SL),.TDECD,CRLF,1,<Reason code of disconnect or reject>
ENTRY. SL,PID,(SL),.TADDR,TAB,0, <NSPpid of port>
ENTRY. SL,DNA,(SL),.TNODE,TAB,1, <Destination node address>
ENTRY. SL,SIZ,(SL),.TDECD,CRLF,1,<Segment size in bytes>
ENTRY. SL,CTM,(SL),.TTIME,TAB,0, <Connect initiate timer>
ENTRY. SL,WKA,(SL),.TADDR,TAB,0, <Address of wakeup routine>
ENTRY. SL,CDM,(SL),.TADDR,CRLF,1,<Pointer to dis/connect message block>
ENTRY. SL,CBP,(SL),.TADDR,TAB,0, <Pointer to passive connect block>
ENTRY. SL,OTM,(SL),.TADDR,TAB,0, <Pointer to partial output message>
ENTRY. SL,UID,(SL),.TDECD,CRLF,1,<Serial number>
ENTRY. SL,BYS,(SL),.TDECD,TAB,1, <Bytes sent>
ENTRY. SL,BYR,(SL),.TDECD,TAB,1, <Bytes received>
ENTRY. SL,PKS,(SL),.TDECD,CRLF,1,<Packets sent>
ENTRY. SL,PKR,(SL),.TDECD,CRLF,2,<Packets received
>
ENTRY. SS,OTH,+SL.NSL(SL),.TBOOL,TAB,1, <Indicates this is "normal" sub-link>
ENTRY. SS,XDO,+SL.NSL(SL),.TDECD,TAB,1, <Sublink transmit DRQs outstanding>
ENTRY. SS,RDO,+SL.NSL(SL),.TDECD,CRLF,1,<Sublink receive DRQs outstanding>
ENTRY. SS,INQ,+SL.NSL(SL),.TQUE ,CRLF,2,<Sublink input queue
>
ENTRY. SS,OTH,+SL.OSL(SL),.TBOOL,TAB,1, <Indicates this is "other" sub-link>
ENTRY. SS,XDO,+SL.OSL(SL),.TDECD,TAB,1, <Sublink transmit DRQs outstanding>
ENTRY. SS,RDO,+SL.OSL(SL),.TDECD,CRLF,1,<Sublink receive DRQs outstanding>
ENTRY. SS,INQ,+SL.OSL(SL),.TQUE ,CRLF,2,<Sublink input queue>
>;END OF SLBMAC
DEFINE ELBMAC,<
ENTRY. EL,APQ,(EL),.TADDR,TAB,0, <Next in queue of all link blocks>
ENTRY. EL,HBQ,(EL),.TADDR,TAB,0, <Next in queue of links in a hash bucket>
ENTRY. EL,JFQ,(EL),.TADDR,CRLF,1,<Next in queue of links needing jiffy service>
ENTRY. EL,OJQ,(EL),.TBOOL,TAB,1, <Link is on the jiffy-request queue>
ENTRY. EL,SNC,(EL),.TBOOL,TAB,1, <Set if not yet told SC about no conf>
ENTRY. EL,CNF,(EL),.TBOOL,CRLF,1,<Set if we have confidence in link>
ENTRY. EL,SCM,(EL),.TBOOL,TAB,1, <Send connect message next jiffy>
ENTRY. EL,SDM,(EL),.TBOOL,TAB,1, <Send connect ACK message next jiffy>
ENTRY. EL,ABO,(EL),.TBOOL,CRLF,1,<Aborting this logical link>
ENTRY. EL,DTO,(EL),.TBOOL,TAB,1, <Delay timer is for other sublink>
ENTRY. EL,STA,(EL),.TSTAN,TAB,1, <NSP state of this link>
ENTRY. EL,SIZ,(EL),.TDECD,CRLF,1,<Max size of a segment on this link>
ENTRY. EL,LLA,(EL),.TOCTW,TAB,1, <Local link address>
ENTRY. EL,RLA,(EL),.TOCTW,TAB,1, <Remote link address>
ENTRY. EL,CLC,(EL),.TDECD,CRLF,1,<Count of retries left with ORQ messages>
ENTRY. EL,ORC,(EL),.TDECD,TAB,1, <Count of msgs out in router>
ENTRY. EL,VER,(EL),.TDECD,TAB,1, <Version of remote NSP, see ver3.1,ver3.2>
ENTRY. EL,DSG,(EL),.TOCTW,CRLF,1,<Msg segment being timed for delay calc>
ENTRY. EL,DTM,(EL),.TTIME,TAB,0, <And time it was first sent>
ENTRY. EL,NNM,(EL),.TNODE,TAB,1, <The remote's node number>
ENTRY. EL,NDB,(EL),.TADDR,CRLF,1,<PTR to NSP node block>
ENTRY. EL,TMA,(EL),.TTIME,TAB,0, <Inactivity timer>
ENTRY. EL,SCV,(EL),.TADDR,TAB,0, <Session control call vector base address>
ENTRY. EL,SCB,(EL),.TADDR,CRLF,1,<Session control block id>
ENTRY. EL,DIM,(EL),.TADDR,TAB,0, <PTR to DI message>
ENTRY. EL,CIR,(EL),.TCKT,TAB,1, <Output circuit id>
ENTRY. EL,CHK,(EL),.TADDR,CRLF,2,<Address of this EL, for addr check
>
ENTRY. ES,OTH,+EL.NSL(EL),.TBOOL,TAB,1, <False since this is the "normal" sublink>
ENTRY. ES,ACK,+EL.NSL(EL),.TBOOL,TAB,1, <Send ACK for this sublink next jiffy>
ENTRY. ES,NAK,+EL.NSL(EL),.TBOOL,CRLF,1,<Send NAK to phase 2 NSP>
ENTRY. ES,ROF,+EL.NSL(EL),.TBOOL,TAB,1, <Receive is off>
ENTRY. ES,ROC,+EL.NSL(EL),.TBOOL,TAB,1, <Receive off has changed>
ENTRY. ES,XOF,+EL.NSL(EL),.TBOOL,CRLF,1,<Transmit is off>
ENTRY. ES,BFR,+EL.NSL(EL),.TBOOL,TAB,1, <Remote is "buffer-rich" on this link>
ENTRY. ES,DLY,+EL.NSL(EL),.TBOOL,TAB,1, <ACK delaying allowed>
ENTRY. ES,RFL,+EL.NSL(EL),.TOCTW,CRLF,1,<Receive flow control type>
ENTRY. ES,XFL,+EL.NSL(EL),.TOCTW,TAB,1, <Transmit flow control type>
ENTRY. ES,GOL,+EL.NSL(EL),.TDECD,TAB,1, <Data request goal>
ENTRY. ES,CGL,+EL.NSL(EL),.TDECD,CRLF,1,<After-congestion recovery goal>
ENTRY. ES,XLD,+EL.NSL(EL),.TDECD,TAB,1, <Transmit DRQs outstanding to local SC>
ENTRY. ES,XRD,+EL.NSL(EL),.TDECD,TAB,1, <Transmit DRQs outstanding to remote NSP>
ENTRY. ES,XSD,+EL.NSL(EL),.TDECD,CRLF,1,<Transmit DRQs need to send to SC>
ENTRY. ES,RLD,+EL.NSL(EL),.TDECD,TAB,1, <Receive DRQs outstanding to local SC>
ENTRY. ES,RRD,+EL.NSL(EL),.TDECD,TAB,1, <Receive DRQs outstanding to remote NSP>
ENTRY. ES,RSD,+EL.NSL(EL),.TDECD,CRLF,1,<Receive DRQs need to send to SC>
ENTRY. ES,LMA,+EL.NSL(EL),.TOCTW,TAB,1, <Last message number assigned>
ENTRY. ES,LAR,+EL.NSL(EL),.TOCTW,TAB,1, <Last ACK received (and processed)>
ENTRY. ES,LMR,+EL.NSL(EL),.TOCTW,CRLF,1,<Last message received>
ENTRY. ES,AKQ,+EL.NSL(EL),.TQUE ,TAB,0, <Queue header for the to-be-acked queue>
ENTRY. ES,RCQ,+EL.NSL(EL),.TQUE ,TAB,0, <Queue header for the receive queue>
ENTRY. ES,XMQ,+EL.NSL(EL),.TQUE ,CRLF,1,<Queue header for the xmit queue>
ENTRY. ES,CWS,+EL.NSL(EL),.TDECD,TAB,1, <Current window size>
ENTRY. ES,CDA,+EL.NSL(EL),.TDECD,TAB,1, <Number of ACKs since last window change>
ENTRY. ES,DLT,+EL.NSL(EL),.TDECD,CRLF,2,<ACK delay timer
>
ENTRY. ES,OTH,+EL.OSL(EL),.TBOOL,TAB,1, <True since this is the "other" sublink>
ENTRY. ES,ACK,+EL.OSL(EL),.TBOOL,TAB,1, <Send ACK for this sublink next jiffy>
ENTRY. ES,NAK,+EL.OSL(EL),.TBOOL,CRLF,1,<Send NAK to phase 2 NSP>
ENTRY. ES,ROF,+EL.OSL(EL),.TBOOL,TAB,1, <Receive is off>
ENTRY. ES,ROC,+EL.OSL(EL),.TBOOL,TAB,1, <Receive off has changed>
ENTRY. ES,XOF,+EL.OSL(EL),.TBOOL,CRLF,1,<Transmit is off>
ENTRY. ES,BFR,+EL.OSL(EL),.TBOOL,TAB,1, <Remote is "buffer-rich" on this link>
ENTRY. ES,DLY,+EL.OSL(EL),.TBOOL,TAB,1, <ACK delaying allowed>
ENTRY. ES,RFL,+EL.OSL(EL),.TOCTW,CRLF,1,<Receive flow control type>
ENTRY. ES,XFL,+EL.OSL(EL),.TOCTW,TAB,1, <Transmit flow control type>
ENTRY. ES,GOL,+EL.OSL(EL),.TDECD,TAB,1, <Data request goal>
ENTRY. ES,CGL,+EL.OSL(EL),.TDECD,CRLF,1,<After-congestion recovery goal>
ENTRY. ES,XLD,+EL.OSL(EL),.TDECD,TAB,1, <Transmit DRQs outstanding to local SC>
ENTRY. ES,XRD,+EL.OSL(EL),.TDECD,TAB,1, <Transmit DRQs outstanding to remote NSP>
ENTRY. ES,XSD,+EL.OSL(EL),.TDECD,CRLF,1,<Transmit DRQs need to send to SC>
ENTRY. ES,RLD,+EL.OSL(EL),.TDECD,TAB,1, <Receive DRQs outstanding to local SC>
ENTRY. ES,RRD,+EL.OSL(EL),.TDECD,TAB,1, <Receive DRQs outstanding to remote NSP>
ENTRY. ES,RSD,+EL.OSL(EL),.TDECD,CRLF,1,<Receive DRQs need to send to SC>
ENTRY. ES,LMA,+EL.OSL(EL),.TOCTW,TAB,1, <Last message number assigned>
ENTRY. ES,LAR,+EL.OSL(EL),.TOCTW,TAB,1, <Last ACK received (and processed)>
ENTRY. ES,LMR,+EL.OSL(EL),.TOCTW,CRLF,1,<Last message received>
ENTRY. ES,AKQ,+EL.OSL(EL),.TQUE ,TAB,0, <Queue header for the to-be-acked queue>
ENTRY. ES,RCQ,+EL.OSL(EL),.TQUE ,TAB,0, <Queue header for the receive queue>
ENTRY. ES,XMQ,+EL.OSL(EL),.TQUE ,CRLF,1,<Queue header for the xmit queue>
ENTRY. ES,CWS,+EL.OSL(EL),.TDECD,TAB,1, <Current window size>
ENTRY. ES,CDA,+EL.OSL(EL),.TDECD,TAB,1, <Number of ACKs since last window change>
ENTRY. ES,DLT,+EL.OSL(EL),.TDECD,CRLF,2,<ACK delay timer
>
>;END OF ELBMAC
SUBTTL Block Description Tables -- RCB (Router Circuit Block)
DEFINE RCBMAC,<
ENTRY. RC,NXT,(RC),.TADDR,TAB,0, <Pointer to next circuit block>
ENTRY. RC,LID,(RC),.TCKT,TAB,1, <Circuit id>
ENTRY. RC,DLB,(RC),.TADDR,CRLF,1,<Data link block address>
ENTRY. RC,AJQ,(RC),.TQUE,TAB,0, <Queue header for adjacency queue>
ENTRY. RC,BCT,(RC),.TBOOL,TAB,1, <Broadcast circuit>
ENTRY. RC,SRM,(RC),.TBOOL,CRLF,1,<Send routing message flag>
ENTRY. RC,EBU,(RC),.TBOOL,TAB,1, <Emergency buffer in use>
ENTRY. RC,SHM,(RC),.TBOOL,TAB,1, <Send hello message>
ENTRY. RC,DSR,(RC),.TBOOL,CRLF,1,<We are he designated router>
ENTRY. RC,OPN,(RC),.TBOOL,TAB,1, <Call data link function DF.OPN>
ENTRY. RC,CLS,(RC),.TBOOL,TAB,1, <Call data link function DF.CLS>
ENTRY. RC,STA,(RC),.TSTAR,CRLF,1,<Circuit state>
ENTRY. RC,CST,(RC),.TDECD,TAB,1, <Circuit cost>
ENTRY. RC,DRT,(RC),.TDECD,TAB,1, <Time before we assume DSR role>
ENTRY. RC,TLS,(RC),.TTIME,CRLF,1,<Time last message of any type was sent>
ENTRY. RC,TLR,(RC),.TTIME,TAB,0, <Time last routing message was sent>
ENTRY. RC,TLH,(RC),.TTIME,TAB,0, <Time of last hello message (ethernet)>
ENTRY. RC,TIN,(RC),.TTIME,CRLF,1,<Time we got protocol up from controller>
ENTRY. RC,TM3,(RC),.TDECD,TAB,1, <Hello message timer>
ENTRY. RC,BSZ,(RC),.TDECD,TAB,1, <Maximum block size>
ENTRY. RC,RBS,(RC),.TDECD,CRLF,1,<Receive block size>
ENTRY. RC,MXR,(RC),.TDECD,TAB,1, <Maximum routers allowed on this circuit>
ENTRY. RC,NRO,(RC),.TDECD,CRLF,1,<Number of routers online>
ENTRY. RC,PRI,(RC),.TDECD,TAB,1, <Priority to be designated router (ethernet)>
ENTRY. RC,DSH,(RC),.TEADD,CRLF,1, <Ethernet address of DSR>
ENTRY. RC,JSQ,(RC),.TQUE,TAB,0, <Queue header for jiffy resend queue>
ENTRY. RC,CMQ,(RC),.TDECD,TAB,1, <Messages queued>
ENTRY. RC,CLC,(RC),.TDECD,CRLF,1,<Local messages>
ENTRY. RC,SLZ,(RC),.TTIME,TAB,0, <(000) Seconds since last zeroed>
ENTRY. RC,CAP,(RC),.TDECD,TAB,1, <(800) Arriving packets recieved (to NSP)>
ENTRY. RC,CDP,(RC),.TDECD,CRLF,1,<(801) Departing packets sent (from NSP)>
ENTRY. RC,CAL,(RC),.TDECD,TAB,1, <(802) Arriving congestion loss (to NSP)>
ENTRY. RC,CTR,(RC),.TDECD,TAB,1, <(810) Transit packets recieved>
ENTRY. RC,CTS,(RC),.TDECD,CRLF,1,<(811) Transit packets sent>
ENTRY. RC,CTL,(RC),.TDECD,TAB,1, <(812) Transit congestion loss>
ENTRY. RC,CCD,(RC),.TDECD,TAB,1, <(820) Circuit down events>
ENTRY. RC,AJD,(RC),.TDECD,CRLF,1,< Adjacency down events>
ENTRY. RC,CIF,(RC),.TDECD,TAB,1, <(821) Initialization failures>
ENTRY. RC,BSX,(RC),.TDECD,CRLF,2,<(xxx) Adjacency block size exceeded
>
>
SUBTTL Block Description Tables -- AJB (Router Adjacency Block)
DEFINE AJBMAC,<
ENTRY. AJ,NXT,(AJ),.TADDR,TAB,0, <Pointer to next adjacency block>
ENTRY. AJ,STA,(AJ),.TSTAA,TAB,1, <Adjacency state>
ENTRY. AJ,NTY,(AJ),.TANTY,CRLF,1,<Neighbor node type>
ENTRY. AJ,PH4,(AJ),.TBOOL,TAB,1, <Phase 4 adjacency>
ENTRY. AJ,VRQ,(AJ),.TBOOL,TAB,1, <Verification requested>
ENTRY. AJ,BLO,(AJ),.TBOOL,CRLF,1,<Blocking is requested>
ENTRY. AJ,RJF,(AJ),.TBOOL,TAB,1, <Reject flag>
ENTRY. AJ,MTA,(AJ),.TBOOL,TAB,1, <No multi-cast traffic>
ENTRY. AJ,VER,(AJ),.TDECD,CRLF,1,<Neighbor's router version>
ENTRY. AJ,ECO,(AJ),.TDECD,TAB,1, <Neighbor's router ECO level>
ENTRY. AJ,CUS,(AJ),.TDECD,TAB,1, <Neighbor's router customer version>
ENTRY. AJ,NAH,(AJ),.TEADD,CRLF,1,<Neighbor's ethernet address>
ENTRY. AJ,NAA,(AJ),.TDECD,TAB,1, <Neighbor's area number>
ENTRY. AJ,NAN,(AJ),.TDECD,TAB,1, <Neighbor's node number>
ENTRY. AJ,RTV,(AJ),.TADDR,CRLF,1,<Pointer to routing vector>
ENTRY. AJ,CBP,(AJ),.TADDR,TAB,0, <Pointer to router's circuit block>
ENTRY. AJ,BSZ,(AJ),.TDECD,TAB,1, <Block size>
ENTRY. AJ,NHT,(AJ),.TDECD,CRLF,1,<Hello timer>
ENTRY. AJ,TLR,(AJ),.TTIME,TAB,0, <Time of last received message>
ENTRY. AJ,PRI,(AJ),.TDECD,TAB,1, <Priority to be designated router>
ENTRY. AJ,ARE,(AJ),.TDECD,CRLF,1,<Router's area number>
ENTRY. AJ,MPD,(AJ),.TDECD,CRLF,2,<MPD (Reserved)>
>
SUBTTL Block Description Tables -- DLB (Data link layer circuit block)
DEFINE DLBMAC,<
ENTRY. DL,NXT,(DL),.TADDR,TAB,0, <Pointer to next DLB block>
ENTRY. DL,UID,(DL),.TADDR,TAB,0, <Pointer to router circuit block>
ENTRY. DL,DID,(DL),.TCKT,CRLF,1, <Circuit id>
ENTRY. DL,RUN,(DL),.TBOOL,TAB,1, <Data link is running>
ENTRY. DL,EBU,(DL),.TBOOL,TAB,1, <Emergency buffer is in use>
ENTRY. DL,LIU,(DL),.TBOOL,CRLF,1,<Line is in use by circuit>
ENTRY. DL,LNB,(DL),.TADDR,CRLF,1,<Pointer to LNB block>
ENTRY. DL,SLZ,(DL),.TDECD,TAB,1, <(0000) Seconds since counters last zeroed>
ENTRY. DL,BYR,(DL),.TDECD,TAB,1, <(1000) Total bytes received>
ENTRY. DL,BYS,(DL),.TDECD,CRLF,1,<(1001) Total bytes sent>
ENTRY. DL,DBR,(DL),.TDECD,TAB,1, <(1010) Total data blocks received>
ENTRY. DL,DBS,(DL),.TDECD,TAB,1, <(1011) Total data blocks sent>
ENTRY. DL,UBU,(DL),.TDECD,CRLF,2,<(1065) Count of user buffer unavailable errors>
>
SUBTTL Block Description Tables -- LNB (Data link layer line block)
;Line data block structure
BEGSTR LN
WORD NXT ; Address of next LN block
WORD LID ; Line ID
WORD PID ; Line's portal id
WORD FLG,0 ; Flags
FIELD CAD,1 ; Channel address is DECnet (Ethernet only)
FIELD STA,1 ; State of line
FIELD CON,2 ; Controller (normal/loopback)
FIELD PRO,6 ; Protocol type
FIELD CTY,6 ; Circuit type
FIELD DBF,6 ; Default number of buffers
FIELD BSZ,12 ; Maximum receive buffer size on this line
HWORD BNO ; Number of buffers to post
HWORD NBP ; Number of buffers posted
ENDSTR
DEFINE LNBMAC,<
ENTRY. LN,NXT,(LN),.TADDR,TAB,0, <Pointer to next line block>
ENTRY. LN,LID,(LN),.TCKT,TAB,1, <Line id>
ENTRY. LN,PID,(LN),.TADDR,CRLF,1,<Portal id>
ENTRY. LN,CAD,(LN),.TBOOL,TAB,1, <Channel address is DECnet>
ENTRY. LN,STA,(LN),.TDECD,TAB,1, <Line state>
ENTRY. LN,CON,(LN),.TDECD,CRLF,1,<Controller type>
ENTRY. LN,PRO,(LN),.TDECD,TAB,1, <Protocol type>
ENTRY. LN,CTY,(LN),.TDECD,TAB,1, <Circuit type>
ENTRY. LN,DBF,(LN),.TDECD,CRLF,1,<Default number of buffers>
ENTRY. LN,BSZ,(LN),.TDECD,TAB,1, <Maximum receive buffer size>
ENTRY. LN,BNO,(LN),.TDECD,TAB,1, <Number of buffers to post>
ENTRY. LN,NBP,(LN),.TDECD,CRLF,2,<Number of buffers posted>
>
SUBTTL Expand the Block Description Macros
;The tables set on this page are used by the TYPBLK routine
;Define the offsets into the first-level tables, these offsets
;correspond to the ordering of the ENTRY. calls in the DOBLK macro.
DO.NAM==0
DO.PTR==1
DO.RTN==2
DO.TXT==3
DO.STX==4
DEFINE DOBLK1(aa),<
DEFINE ENTRY.(pfx,name,offset,routine,stxt,count,ltxt),<EXP <SIXBIT /pfx'name/>>
Z [aa'MAC](P2)
DEFINE ENTRY.(pfx,name,offset,routine,stxt,count,ltxt),<POINTR(pfx'.'name'offset,pfx'name)>
Z [aa'MAC](P2)
DEFINE ENTRY.(pfx,name,offset,routine,stxt,count,ltxt),<EXP routine>
Z @[aa'MAC](P2)
DEFINE ENTRY.(pfx,name,offset,routine,stxt,count,ltxt),<LTXMAC(<ltxt>,count)>
Z [aa'MAC](P2)
DEFINE ENTRY.(pfx,name,offset,routine,stxt,count,ltxt),<STXMAC(<stxt>,count)>
Z [aa'MAC](P2)
DEFINE ENTRY.(pfx,name,offset,routine,stxt,count,ltxt),<aa'LEN==aa'LEN+1>
aa'LEN==0
aa'MAC
>;END OF DEFINE DOBLK1
DEFINE STXMAC(stxt,count),<
IFE count,<[EXP 0]>
IFG count,<EXP stxt'count>
>
DEFINE LTXMAC(ltxt,count),<
IFE count,<[ASCIZ ~ltxt
~]>
IFG count,<[ASCIZ ~ ltxt
~]>
>
SPC1: BYTE (7) 40,0
SPC2: BYTE (7) 40,40,0
SPC3: BYTE (7) 40,40,40,0
TAB1: BYTE (7) 11,0
TAB2: BYTE (7) 11,11,0
TAB3: BYTE (7) 11,11,11,0
CRLF1: BYTE (7) 15,12,0
CRLF2: BYTE (7) 15,12,12,0
CRLF3: BYTE (7) 15,12,12,12,0
DEFINE DOBLK(aa),<
aa'TBL: DOBLK1(aa)
aa'PTR: XWD -aa'LEN,aa'TBL
>
DOBLK SJB
DOBLK SLB
DOBLK ELB
DOBLK RCB
DOBLK AJB
DOBLK DLB
DOBLK LNB
SUBTTL Start Here
DCNSPY::TDZA T1,T1
MOVEI T1,1
MOVEM T1,CCLF1 ;SET CCL FLAG FOR SCAN
OUTSTR [ASCIZ /Type HELP for HELP
/]
MOVE T1,[PUSHJ P,DPYUUO##] ;GET CALLING INSTRUCTION
MOVEM T1,.JB41 ;AND SET UP LUUO DISATCH
MOVE P,[IOWD LN$PDL,PDL] ;STACK
RESTART:RESET
MOVE P,[IOWD LN$PDL,PDL] ;STACK
SETOM BEGSCN ;SET SCAN SWITCHES TO -1
MOVE T1,[BEGSCN,,BEGSCN+1] ;SMEAR THE -1
BLT T1,ENDSCN
CALL TTYINI ;GET READY FOR TTY OUTPUT
;Fall through to next page
SUBTTL Call .ISCAN
;From previous page
;The comment from SCN7B.MAC about call to .ISCAN
;.ISCAN--SUBROUTINE TO INITIALIZE COMMAND SCANNER
;CALL AC1=XWD LENGTH,BLOCK
; BLOCK+0=0 OR IOWD PTR TO A LIST OF LEGAL MONITOR COMMANDS
; IF 0, NO RESCAN IS DONE
; BLOCK+1=RH 0 OR SIXBIT CCL NAME
; IF 0, NO CCL MODE
; LH 0 OR ADDRESS OF STARTING OFFSET
; BLOCK+2=RH 0 OR ADDRESS OF CHARACTER TYPEOUT ROUTINE
; IF 0, OUTCHR WILL BE DONE FROM T1
; LH 0 OR ADDRESS OF CHARACTER INPUT ROUTINE
; MUST SAVE ALL ACS, CHAR IN P4
; BLOCK+3=0 OR POINTER (XWD LEN,BLOCK) TO INDIRECT FILE BLOCK
; A.DEV NE 0 TO USE BLOCK
; BLOCK+4=RH 0 OR ADDRESS OF MONRET ROUTINE
; LH 0 OR ADDRESS OF PROMPT ROUTINE
; CALLED WITH CHAR IN RH(T1), LH(T1) HAS
; 0 FOR FIRST LINE, -1 FOR CONTINUATION LINES
; BLOCK+5=LH FLAGS
; RH (FUTURE)
;VALUE AC1=INDEX IN TABLE OF COMMANDS IF FOUND(0,1,...), ELSE -1
MOVE T1,[3,,[ IOWD 2,[EXP PRGID, SIXBIT "SPY"]
CCLF1,,PRGABR
0,,SCNOUC]]
CALL .ISCAN##
;Fall through to next page
SUBTTL Call .OSCAN
;.OSCAN -- SUBROUTINE TO SCAN OPTIONS FILE (DSK:SWITCH.INI[,])
; RETURNS CPOPJ AFTER UPDATING GLOBAL SWITCHES FROM FILE
; THIS ROUTINE SHOULD BE CALLED AFTER TSCAN OR PSCAN
; BUT BEFORE DEFAULTING.
; CALL THIS ONLY AT END OF LINE.
; IT SHOULD BE CALLED BETWEEN ISCAN AND VSCAN FOR VERBS.
;ARGS: AC1=XWD LENGTH,BLOCK
; BLOCK+0=IOWD POINTER TO LIST OF SWITCH NAMES (IOWD XXXXXL,XXXXXN)
; BLOCK+1=LH ADDRESS OF DEFAULT SWITCH TABLE (XXXXXD)
; RH ADDRESS OF PROCESSOR SWITCH TABLE (XXXXXM)
; BLOCK+2=LH ADDRESS OF (FUTURE)
; RH ADDRESS OF SWITCH POINTERS FOR STORING (XXXXXP)
; BLOCK+3=LH TYPE OF HELP (0=NONE, 1=STRING, 2=SUBROUTINE)
; IF GT 77, NAME OF PROGRAM IN WHOLE WORD
; IF -1 IN WORD, USE JOB TABLE
; RH LOCATION OF HELP
; BLOCK+4=NAME OF OPTIONS TO SELECT IN FILE (0 IF NAME OF PROGRAM)
; OR LENGTH,,LIST OF OPTION NAMES
;IF CALL FROM VSCAN, C(T3)= SAME AS BLOCK+4 ABOVE
MOVE T1, [4,,[ IOWD SWTL,SWTN ;SHORT LIST OF SWITCHES
SWTD,,SWTM
0,,SWTP
1,,HLPSTR]] ;HELP STRING
CALL .OSCAN## ;OPTION (SWITCH.INI) SCANNER
;Now fill in from internal defaults set up with DM macro
DEFINE DFT,(name),<
MOVX T1,AD.'name
SKIPGE SCN'name
MOVEM T1,SCN'name
>
DFT DPY ;/DPY mode
DFT PAG ;/PAGE length
DFT DLY ;/DELAY seconds
DFT COM ;/COMMENTS
DFT CHN ;/CHANNEL number
DFT SJP ;/SJBPTR pointer
;Fall through to next page
SUBTTL Find out what user wants to see
;.VSCAN --SUBROUTINE FOR VERB ARGS FORM OF COMMAND SCANNER
; RETURNS CPOPJ IF EOF DURING COMMAND OR CCL AT TOP LEVEL
;ARGS AC1=XWD LENGTH,BLOCK
; BLOCK+0=IOWD POINTER TO LIST OF SWITCH NAMES
; (IOWD XXXXXL,XXXXXN)
; BLOCK+1=LH ADDRESS OF DEFAULT SWITCH TABLE (XXXXXD)
; RH ADDRESS OF PROCESSOR SWITCH TABLE (XXXXXM)
; BLOCK+2=LH ADDRESS OF (FUTURE)
; RH ADDRESS OF SWITCH POINTERS FOR STORING (XXXXXP)
; BLOCK+3=LH TYPE OF HELP (0=NONE, 1=STRING, 2=SUBROUTINE)
; IF GT 77, NAME OF PROGRAM IN WHOLE WORD
; IF -1 IN WORD, USE JOB TABLE
; RH LOCATION OF HELP
; BLOCK+4=LH LENGTH OF FXXX AND PXXX AREAS
; RH START OF FXXX (PER FILE SWITCHES)
; BLOCK+5=LH (FUTURE)
; RH START OF PXXX (STICKY FORM OF FXXX)
; BLOCK+6=NAME OF OPTION LINES (0 IF THIS PROGRAM'S NAME)
;From previous page
MOVE T1, [4,,[ IOWD SWTL,SWTN ;SHORT LIST OF SWITCHES
SWTD,,SWTM
0,,SWTP
1,,HLPSTR]] ;HELP STRING
CALL .VSCAN## ;VERB SCANNER
JRST RESTART
SUBTTL Action Commands
SPYSJB: MOVEI T1,TYPSJB ;TYPE OUT THE SJB
CALLRET SPYGO
SPYSLB: MOVEI T1,TYPSLB ;TYPE OUT THE SLB
CALLRET SPYGO
SPYELB: MOVEI T1,TYPELB ;TYPE OUT THE ELB
CALLRET SPYGO
SPYRCB: MOVEI T1,TYPRCB ;TYPE OUT ROUTER CIRCUIT BLOCK
CALLRET SPYGO
SPYAJB: MOVEI T1,TYPAJB ;TYPE OUT ROUTER ADJACENCY BLOCK
CALLRET SPYGO
SPYDLB: MOVEI T1,TYPDLB ;TYPE OUT DNADLL DATA LINK BLOCK
CALLRET SPYGO
SPYLNB: MOVEI T1,TYPLNB ;TYPE OUT DNADLL LINE BLOCK
CALLRET SPYGO
SPYMEM: MOVEI T1,TYPMEM ;TYPE OUT MEMORY UTILIZATION
CALLRET SPYGO
SPYKDP: MOVEI T1,TYPKDP ;TYPE OUT KDPE (FOR DPY DEBUG)
CALLRET SPYGO
SPYTIM: MOVEI T1,TYPTIM ;TYPE OUT TIME (FOR DPY DEBUG)
CALLRET SPYGO
SPYNRT: MOVX T1,%DNNSJ ;GETTAB TO GET NRT SJP POINTER
GETTAB T1, ;DO IT
ERR ?GETTAB for NRT SJB failed
HRRZS T1
PEEK T1, ;GET THE VALUE
SKIPN T1 ;DID WE GET SOMETHING?
ERR ?PEEK UUO failed
MOVEM T1,NRTSJB ;SAVE THE POINTER TO THE NRTSJB
SETOM SCNJOB ;NRT INVALIDATED JOB NUMBER
SETOM SCNSJP ; AND SPB POINTER
CALLRET SPYSJB ;HANDLE LIKE SJB THING
SUBTTL SPYGO - Called by Action Commands
;Call:
; CALL SPYGO
; Only Return
SPYGO: MOVEM T1,SPYFCN ;ADDRESS OF OUTPUT ROUTINE
SKIPLE SCNDPY ;IN DPY MODE?
CALLRET SPYDPY ;YES, GO LOOP FOR A WHILE
;Here for non-DPY mode
SETZM TYPDPY ;TELL SCNOUC NOT TO USE DPY MODE
CALL @SPYFCN ;TYPE OUT THE DATA ONCE
JFCL ;IGNORE ERROR RETURN
RET ;RETURN TO VSCAN
;Here to loop for DPY mode
SPYDPY: RELEASE $TTY, ;CLOSE ASCII MODE TTY
SETZM LINGOL ;START AT TOP OF LOGICAL SCREEN
SETOM TYPDPY ;TELL SCNOUC TO USE DPY MODE
SETOM BIGOUT ;USE BUFFERS INSTEAD OF OUTCHRS
SETZM TTYOBF+.BFPTR ;PREPARE FOR 8-BIT BYTES AFTER OPEN
OPEN $TTY,[.IOPIM ;PACKED IMAGE MODE FOR DPYPAK
SIXBIT /TTY/
XWD TTYOBF,0]
ERR ? OPEN OF TTY FAILED.
CALL SPYRFH ;DO THE DPY DISPLAY LOOP
SKIPE TYPDPY ;STILL IN DPY MODE?
TTY$ $TTCLR ;YES, HOME UP AND CLEAR SCREEN
CALL TTYFRC ;FORCE OUT LAST OF PIM MODE DATA
RELEASE $TTY, ;CLOSE OFF PACKED IMAGE MODE
SETZM TYPDPY ;REFRAIN FROM DPY DISPLAYS NOW
SETZM BIGOUT ;NOW USE OUTCHRS INSTEAD OF BUFFERS
SETZM TTYOBF+.BFPTR ;PREPARE FOR 7-BIT BYTES AFTER OPEN
OPEN $TTY,[.IOASC ;ASCII MODE FOR SCAN
SIXBIT /TTY/
XWD TTYOBF,0]
ERR ? OPEN OF TTY FAILED.
RET ;RETURN TO VSCAN
SUBTTL DPY Driver
SPYRFH: INI$ ;INITIALIZE AND BLANK THE SCREEN
SET$ [XWD $SECHR,TTYOUC] ;USE OUR CHARACTER OUTPUT ROUTINE
SPYDPL: SETZM LINCNT ;TELL SCNOUC WE'RE STARTING ANEW
CALL @SPYFCN ;CAUSE SOME TTY OUTPUT
RET ;RETURN NOW IF ERROR ENCOUNTERED
DPY$ ;SUCCESS, UPDATE THE SCREEN
CALL TTYFRC ;FORCE OUT REMAINDER OF BUFFER
INCHRS T1 ;USER TRYING TO TELL ME SOMETHING?
TRNA ;NO, HIBER FOR A WHILE
JRST SPYINT ;YES, INTERPRET THE COMMAND
MOVE T1,SCNDLY ;PICK UP USER'S IDEA OF A GOOD WAIT TIME
IMULI T1,^D1000 ;MAKE SECONDS INTO MILLISECONDS
TXO T1,HB.RTC ;WAKE UP ON CHARACTER TYPED TOO
HIBER T1, ;SLEEP FOR SCNDLY MILLISECONDS
JFCL ;HIBERS NEVER FAIL, HAHA
JRST SPYDPL ;TIME TO GO CHECK THINGS AGAIN
SPYINT: CAIL T1,"A"+40 ;LOWER CASE?
CAILE T1,"Z"+40 ;...
CAIA ;NO
SUBI T1,40 ;YES, MAKE UPPER CASE
CAIN T1,33 ;ESCAPE?
RET ;BACK TO VSCAN
CAIN T1,"R" ;REFRESH?
JRST SPYRFH ;YES
CAIN T1," " ;RECALC SCREEN?
JRST SPYDPL ;YES
CAIE T1,"C"-100 ;CONTROL-C
CAIN T1,"Z"-100 ; OR CONTROL Z
JRST [TTY$ 1 ;HOME UP & CLEAR SCREEN
CALL TTYFRC ;FORCE OUT REST OF TTY BUFFER
EXIT 1, ;MONRT
GETSTS $TTY,T1 ;REPLACE PIM MODE ON TTY
TXO T1,.IOPIM
SETSTS $TTY,(T1)
JRST SPYRFH] ;REFRESH SCREEN ON CONTINUE
CAIE T1,"=" ;LOWER CASE VERSION OF "+"
CAIN T1,"+" ;GO TO NEXT PART OF SCREEN
JRST [MOVE T2,SCNPAG
ADDM T2,LINGOL
JRST SPYRFH]
CAIN T1,"-" ;GO TO PREVIOUS PAGE
JRST [MOVN T2,SCNPAG
ADDB T2,LINGOL
SKIPGE T2
SETZM LINGOL ;DON'T LET GOAL GO NEGATIVE
JRST SPYRFH]
ERR ?Unknown DPY command
SUBTTL TYPTIM - Type out current time
;For debugging the DPY driver
;
;Call:
; CALL TYPTIM ;NO ARGS IN ACS
; Error Return to stop DPY loop
; Normal Return
TYPTIM: CALL .TTIMN## ;TYPE OUT CURRENT TIME
CALL .TCRLF## ;CARRIAGE RETURN
RETSKP ;SUCCESS RETURN
SUBTTL TYPSJB - Type out contents of an SJB
;Call:
; CALL TYPSJB ;NO ARGS IN ACS
; Error Return to stop DPY loop
; Normal Return
TYPSJB: CALL SETSJB ;SET UP POINTERS TO DECNET BLOCKS
JUMPE SJ,CPOPJ ;LEAVE IF NO SJB (ERROR ALREADY GIVEN)
CALL .TCRLF ;CRLF
SKIPE NRTSJB ;DID WE GET A NRT SJB POINTER?
JRST [MOVEI T1,[ASCIZ/SJB for NRTSER/]
CALL .TSTRG ;YES, OUTPUT A DIFFERENT HEADER
JRST TYPSJ1] ; AND MREGE WITH OTHER CODE
MOVEI T1,[ASCIZ /SJB for job /]
CALL .TSTRG
MOVE T1,SCNJOB
CALL .TDECD ;TYPE IN DECIMAL, WITH DECIMAL POINT
TYPSJ1: CALL .TCRLF ;CRLF
CALL .TCRLF ;AND YET ANOTHER
MOVE T1,SJBPTR ;GET AOBJN POINTER TO SJBTBL
CALL TYPBLK ;YES, TYPE OUT THE SJB
JFCL ;IGNORE ERROR FOR NOW
RETSKP ;SUCCESS RETURN
SUBTTL TYPSLB - Type out an SLB
;Call:
; CALL TYPSLB ;NO ARGS IN ACS
; Error Return to stop DPY loop
; Normal Return
TYPSLB: CALL SETSJB ;SET UP POINTERS TO DECNET BLOCKS
JUMPE SJ,CPOPJ ;NO CHANNEL, NO TYPEOUT
CALL SETSLB ;SETUP POINTER TO SLB
JUMPE SL,CPOPJ ;NO CHANNEL, NO TYPEOUT
CALL .TCRLF ;CRLF
MOVEI T1,[ASCIZ /SLB for channel /]
CALL .TSTRG
MOVE T1,SCNCHN
CALL .TDECD ;TYPE IN DECIMAL, WITH DECIMAL POINT
CALL .TCRLF ;CRLF
CALL .TCRLF ;AND YET ANOTHER
MOVE T1,SLBPTR ;GET AOBJN POINTER TO SLBTBL
CALL TYPBLK ;TYPE OUT THE SLB
JFCL ;IGNORE ERROR FOR NOW
RETSKP ;SUCCESS RETURN
SUBTTL TYPELB - Type out the ELB
;Call:
; CALL TYPELB ;NO ARGS IN ACS
; Error Return to stop DPY loop
; Normal Return
TYPELB: CALL SETSJB ;SET UP POINTERS TO DECNET BLOCKS
JUMPE SJ,CPOPJ ;NO SJB, NO ELB FOR TYPEOUT
CALL SETSLB ;SETUP POINTER TO SLB
JUMPE SL,CPOPJ ;NO CHANNEL, NO TYPEOUT
CALL SETELB ;GET PTR TO ELB
JUMPE EL,CPOPJ ;NO USE IF NO BLOCK
CALL .TCRLF ;CRLF
MOVEI T1,[ASCIZ /NSP's ELB for channel /]
CALL .TSTRG
MOVE T1,SCNCHN
CALL .TDECD ;TYPE IN DECIMAL, WITH DECIMAL POINT
CALL .TCRLF ;CRLF
CALL .TCRLF ;AND YET ANOTHER
MOVE T1,ELBPTR ;GET AOBJN POINTER TO ELBTBL
CALL TYPBLK ;TYPE OUT THE ELB
JFCL ;IGNORE ERROR FOR NOW
RETSKP ;SUCCESS RETURN
SUBTTL TYPRCB - Type out the Router Circuit Block
;Call:
; CALL TYPRCB ;NO ARGS IN ACS
; Error Return to stop DPY loop
; Normal Return
TYPRCB: CALL SETRCB ;GET PTR TO RCB
JUMPE RC,NORCB ;NO USE IF NO BLOCK
MOVEI T1,[ASCIZ /Router's circuit block for circuit /]
CALL .TSTRG
MOVE T1,CKTID
CALL .TCKT ;TYPE IN OCTAL
CALL .TCOLN ;TYPE THE ":"
CALL .TCRLF ;CRLF
CALL .TCRLF ;CRLF
CALL ENMADJ ;ENUMERATE ADJACENCIES
CALL .TCRLF ;END WITH CRLF
CALL .TCRLF ;CRLF
MOVE T1,RCBPTR ;GET AOBJN POINTER TO RCBTBL
CALL TYPBLK ;TYPE OUT THE RCB
JFCL ;IGNORE ERROR FOR NOW
CALL SETDLB ;GET PTR TO DL BLOCK (IF ANY)
JUMPE DL,RSKP ;RETURN NOW IF NONE
CALL .TCRLF ;SPACE OUT
CALL TYPDLX ;AND TYPE OUT DL BLOCK
JFCL ;IGNORE ERROR FOR NOW
CALL SETLNB ;GET PTR TO LN BLOCK (IF ANY)
JUMPE LN,RSKP ;RETURN NOW IF NONE
CALL .TCRLF ;SPACE OUT
CALL TYPLNX ;AND TYPE OUT LN BLOCK
JFCL ;IGNORE ERROR FOR NOW
RETSKP ;SUCCESS RETURN
SUBTTL TYPAJB - Type out the Router Adjacency Block
;Call:
; CALL TYPAJB ;NO ARGS IN ACS
; Error Return to stop DPY loop
; Normal Return
TYPAJB: CALL SETAJB ;GET PTR TO AJB
JUMPE AJ,NOAJB ;NO USE IF NO BLOCK
MOVEI T1,[ASCIZ /Router's adjacency block for node /]
CALL .TSTRG
MOVE T1,NODID
CALL .TNODE ;TYPE NODE ADDRESS
MOVEI T1,[ASCIZ / on circuit /]
CALL .TSTRG
MOVE T1,CKTID
CALL .TCKT ;TYPE CIRCUIT NAME
CALL .TCOLN ;TYPE THE ":"
CALL .TCRLF ;CRLF
CALL .TCRLF ;CRLF
CALL ENMADJ ;ENUMERATE ADJACENCIES
CALL .TCRLF ;END WITH CRLF
CALL .TCRLF ;CRLF
MOVE T1,AJBPTR ;GET AOBJN POINTER TO AJBTBL
CALL TYPBLK ;TYPE OUT THE AJB
JFCL ;IGNORE ERROR FOR NOW
RETSKP ;SUCCESS RETURN
SUBTTL TYPDLB - Type out DNADLL's data link circuit block
;Call:
; CALL TYPDLB ;NO ARGS IN ACS
; Error Return to stop DPY loop
; Normal Return
TYPDLB: CALL SETDLB ;GET PTR TO DLB
JUMPE DL,NODLB ;NO USE IF NO BLOCK
TYPDLX: MOVEI T1,[ASCIZ /DNADLL's circuit block for circuit /]
CALL .TSTRG
MOVE T1,CKTID
CALL .TCKT ;TYPE IN OCTAL
CALL .TCOLN ;TYPE THE ":"
CALL .TCRLF ;CRLF
CALL .TCRLF ;CRLF
MOVE T1,DLBPTR ;GET AOBJN POINTER TO DLBTBL
CALL TYPBLK ;TYPE OUT THE DLB
JFCL ;IGNORE ERROR FOR NOW
RETSKP ;SUCCESS RETURN
SUBTTL TYPLNB - Type out DNADLL's Line Block
;Call:
; CALL TYPLNB ;NO ARGS IN ACS
; Error Return to stop DPY loop
; Normal Return
TYPLNB: CALL SETLNB ;GET PTR TO LNB
JUMPE LN,NOLNB ;NO USE IF NO BLOCK
TYPLNX: MOVEI T1,[ASCIZ /DNADLL's line block for circuit /]
CALL .TSTRG
MOVE T1,CKTID
CALL .TCKT ;TYPE IN OCTAL
CALL .TCOLN ;TYPE THE ":"
CALL .TCRLF ;CRLF
CALL .TCRLF ;CRLF
MOVE T1,LNBPTR ;GET AOBJN POINTER TO LNBTBL
CALL TYPBLK ;TYPE OUT THE LNB
JFCL ;IGNORE ERROR FOR NOW
RETSKP ;SUCCESS RETURN
SUBTTL TYPMEM - Type out memory utilization
;Call:
; CALL TYPMEM ;NO ARGS IN ACS
; Error Return to stop DPY loop
; Normal Return
TYPMEM: CALL SETMEM ;MAP MEMORY BIT MAP
JUMPE MC,NOMEM ;CAN'T DO ANYTHING IF CAN'T MAP IT
SETZM TOTFRE ;CLEAR COUNTERS
SETZM BIGHOL ;...
SETZM FREBLK ;...
MOVE T1,[FREBLK,,FREBLK+1] ;...
BLT T1,FREBLK+^D36-1 ;...
TYPME1: SETZ T3, ;INITIALIZE HOLE SIZE
TYPME2: ILDB T1,MP ;GET NEXT BIT FROM BIT MAP
JUMPE T1,TYPME4 ;JUMP IF FOUND NEXT HOLE
SOJG MC,TYPME2 ;LOOP BACK UNTIL END OF MAP
JRST TYPMEX ;GO PRINT OUT MAP INFOR
TYPME3: ILDB T1,MP ;GET NEXT BIT FROM BIT MAP
JUMPN T1,TYPME5 ;JUMP AT START OF ALLOCATED BLOCK
TYPME4: ADDI T3,4 ;UPDATE HOLE SIZE
SOJG MC,TYPME3 ;LOOP BACK UNTIL END OF MAP
TYPME5: ADDM T3,TOTFRE ;UPDATE TOTAL FREE COUNT
CAMLE T3,BIGHOL ;BIGGEST HOLE?
MOVEM T3,BIGHOL ;YES, UPDATE
JFFO T3,TYPME6 ;JUMP AND FIND BLOCK SIZE SLOT
JRST TYPME1 ;IF ZERO, CONTINUE
TYPME6: MOVNS T4 ;COMPUTE TABLE INDEX
ADDI T4,^D35 ;...
AOS FREBLK(T4) ;UPDATE COUNT
JRST TYPME1 ;AND START OVER
TYPMEX: MOVEI T1,[ASCIZ /DECnet memory utilization/]
PUSHJ P,.TSTRG## ;...
PUSHJ P,.TCRLF## ;SKIP A FEW LINES
PUSHJ P,.TCRLF## ;...
MOVEI T1,[ASCIZ /Total words free: /]
PUSHJ P,.TSTRG## ;...
MOVE T1,TOTFRE ;GET FREE WORD COUNT
PUSHJ P,.TDECW## ;TYPE IT OUT
PUSHJ P,.TCRLF## ;...
MOVEI T1,[ASCIZ /Largest hole size: /]
PUSHJ P,.TSTRG## ;...
MOVE T1,BIGHOL ;GET SIZE
PUSHJ P,.TDECW## ;TYPE IT OUT
PUSHJ P,.TCRLF## ;...
MOVEI T1,[ASCIZ /Block size distribution table/]
PUSHJ P,.TSTRG## ;...
PUSHJ P,.TCRLF## ;...
PUSHJ P,.TCRLF## ;...
MOVSI MC,-^D7 ;INDEX INTO TABLE
TYPMX1: MOVEI T1,1 ;CALCULATE LOWER BOUND
LSH T1,(MC) ;...
PUSHJ P,.TDECW## ;...
MOVEI T1,"-" ;SEPERATOR
PUSHJ P,.TCHAR## ;...
MOVEI T1,2 ;CALCULATE UPPER BOUND
LSH T1,(MC) ;...
SUBI T1,1 ;...
PUSHJ P,.TDECW## ;...
PUSHJ P,.TCOLN## ;SEPERATOR
PUSHJ P,.TTABC## ;TAB OVER
PUSHJ P,.TTABC## ;...
MOVE T1,FREBLK(MC) ;GET COUNT
PUSHJ P,.TDECW## ;PRINT OUT
PUSHJ P,.TTABC## ;TAB OVER
PUSHJ P,.TTABC## ;...
MOVEI T1,1 ;CALCULATE LOWER BOUND
LSH T1,^D7(MC) ;...
PUSHJ P,.TDECW## ;...
MOVEI T1,"-" ;SEPERATOR
PUSHJ P,.TCHAR## ;...
MOVEI T1,2 ;CALCULATE UPPER BOUND
LSH T1,^D7(MC) ;...
SUBI T1,1 ;...
PUSHJ P,.TDECW## ;...
PUSHJ P,.TCOLN## ;SEPERATOR
PUSHJ P,.TTABC## ;TAB OVER
MOVE T1,FREBLK+^D7(MC) ;GET COUNT
PUSHJ P,.TDECW## ;PRINT OUT
PUSHJ P,.TCRLF## ;NEW LINE
AOBJN MC,TYPMX1 ;LOOP BACK FOR ENTIRE TABLE
RETSKP
SUBTTL SETSJB - Set up SJB pointers
;Call:
; CALL SETSJB
; Normal Return with SJ setup as appropriate
; AC is zero if no block to point to
SETSJB: SETZM SJ ;ASSUME ALL BLOCKS HAVE ERRORS
SETZB SL,EL ;JUST FOR GOOD MEASURE
SKIPG SCNSJP ;DID USER SPEC A SJB?
SKIPLE SCNJOB ;OR DID HE SPEC A JOB?
SETZM NRTSJB ;YES, DON'T USE THE NRT SJB ANY MORE
SKIPN T1,NRTSJB ;DID WE GET THE NRT COMMAND?
SKIPLE T1,SCNSJP ;OR DID USER SPECIFY AN SJB POINTER?
JRST SETSJ1 ;YES, USE IT DIRECTLY
SKIPG SCNJOB ;ANY JOB SPEC'D?
ERR ?Job number must be specified
HRL T1,SCNJOB ;GET TARGET JOB NUMBER
HRRI T1,.GTPDB ;GET PTR TO PDB
GETTAB T1,
CALLRET NOPDB
;T1 now holds XWD <number of funny pages>,<PDB address>
HRRZS T1 ;ISOLATE THE PDB ADDRESS
MOVEI T2,PDBADR ;LOAD UP TARGET PDB ADDRESS
CALL SPYPAG ;MAP SPY PAGES
CALLRET NOSPY ;OOPS
;T1 NOW HOLDS UVA OF PDB
HRL T1,SCNJOB ;GET TARGET JOB NUMBER
HRRI T1,.GTSJB ;GET PTR TO SJB
GETTAB T1,
CALLRET NOPDB
SETSJ1: JUMPE T1,NOSJB ;ERROR IF SJB PTR IS ZERO
MOVEI T2,SJBADR ;LOAD UP TARGET SJB ADDRESS
CALL SPYPAG ;MAP SPY PAGES
CALLRET NOSPY ;OOPS
MOVE SJ,T1 ;SJ NOW POINTS TO SJB
;Now tell the user which channels this job has open
LOAD T1,SJCHT,(SJ) ;GET POINTER TO CHANNEL TABLE
JUMPE T1,NOCHT
MOVEI T2,TMPADR ;MAP THE CHANNEL TABLE INTO THE TEMP PAGES
CALL SPYPAG ;...
CALLRET NOSPY ;OOPS
PUSH P,T1 ;T1 NOW HOLDS THE UVA OF OUR CHT ENTRY
LOAD T2,SJCHC,(SJ) ;GET NUMBER OF CHANNEL SLOTS IN USE AGAIN
CALL ENMCHN ;ENUMERATE OPEN CHANNELS FOR USER
POP P,T1
RET ;DONE
SUBTTL SETSLB - Set up Pointer to SLB
;Called after SETSJB
;Call:
; CALL SETSJB
; Normal Return with SJ,SL and EL setup as appropriate
; AC is zero if no block to point to
;Also types out list of open channels while it has that info
SETSLB: SETZM SL ;ASSUME NO SLB
JUMPE SJ,CPOPJ ;NO SLB IF NO SJB
SKIPG SCNCHN ;USER SPECIFY LEGAL CHN NUMBER?
CALLRET ILLCHN ;NO, BOO
LOAD T2,SJCHC,(SJ) ;GET NUMBER OF OPEN CHANNELS
JUMPLE T2,NOCHN
CAMGE T2,SCNCHN ;LEGAL CHANNEL NUMBER?
CALLRET NOCHN ;NO, SAY ITS CLOSED
;YES, LETS LOOK AT IT
ADD T1,SCNCHN ;POINT AT OUR SLB POINTER
SKIPN T1,-1(T1) ;GET POINTER TO SLB FOR THIS CHANNEL
CALLRET NOCHN ;OOPS, ITS CLOSED
MOVEI T2,SLBADR ;POINT AT THE UVA I'D LIKE TO MAP IT AT
CALL SPYPAG ;MAP SLB INTO MY UVA
CALLRET NOSPY ;CAN'T
MOVE SL,T1 ;SL NOW POINTS AT INDICATED SLB
RET ;END
SUBTTL SETELB - Set up Pointer to ELB
;Called after SETSLB
;Call:
; CALL SETSJB
; Normal Return with SJ,SL and EL setup as appropriate
; AC is zero if no block to point to
;Also types out list of open channels while it has that info
SETELB: SETZM EL ;ASSUME NO ELB
JUMPE SL,CPOPJ ;NO ELB IF NO SLB
SKIPN T1,SL.PID(SL) ;GET POINTER TO NSP LINK BLOCK
CALLRET NOELB ;OOPS, ITS CLOSED
MOVEI T2,ELBADR ;POINT AT THE UVA I'D LIKE TO MAP IT AT
CALL SPYPAG ;MAP ELB INTO MY UVA
CALLRET NOSPY ;CAN'T
MOVE EL,T1 ;EL NOW POINTS AT INDICATED ELB
RET ;END
SUBTTL SETRCB - Set up Pointer to RCB
;Call:
; CALL SETRCB
; Normal Return with RC setup
; AC is zero if no block to point to
SETRCB: SAVEAC P1 ;SAVE AC P1
SETZM RC ;ASSUME NO RCB
SKIPG T1,CKTID
ERR ?Bad Circuit ID
MOVE P1,T1 ;SAVE THE CIRCUIT ID
MOVX T1,%DNRCH ;GETTAB TO GET RTR QUEUE HEADER
GETTAB T1, ;GET THE PTR TO HEAD OF CIRCUIT LIST
ERR ?GETTAB UUO failed
HRRZS T1
PEEK T1, ;POINT TO FIRST RCB
SKIPN T1 ;DID UUO FAIL?
ERR ?PEEK UUO failed
SETRC1: MOVEI T2,RCBADR
CALL SPYPAG ;MAP RCB INTO TEMP UVA
CALLRET NOSPY ;CAN'T
CAMN P1,RC.LID(T1) ;DOES IT MATCH THE CIRCUIT-ID GIVEN?
JRST SETRC2 ;YES, CONTINUE
SKIPN T1,RC.NXT(T1) ;LOOK AT THE NEXT CIRCUIT-ID
RET ;NOT THERE, PUNT WITH RC ZERO
JRST SETRC1 ;CHECK OUT THE NEXT CIRCUIT BLOCK
SETRC2: MOVE RC,T1 ;SET UP RC
SKIPE NODID ;SELECTED AN ADJACENCY?
RET ;YES, SKIP THIS
MOVE AJ,RC.AJQ(RC) ;GET FIRST ENTRY IN ADJACENCY QUEUE
JUMPE AJ,CPOPJ ;RETURN IF NO ADJACENCIES
MOVE T1,AJ ;GET ADJACENCY BLOCK ADDRESS
MOVEI T2,AJBADR ;ADDRESS TO MAP INTO
CALL SPYPAG ;MAP AJB
CALLRET NOSPY ;CAN'T
MOVE AJ,T1 ;SAVE VIRTUAL ADDRESS OF AJB
LDB T1,[POINTR (AJ.NAN(AJ),AJNAN)] ;GET ADJACENCY'S NODE ADDRESS
LDB T2,[POINTR (AJ.NAA(AJ),AJNAA)] ;AND NODE AREA
DPB T2,[POINTR (T1,RN%ARE)] ;BUILD COMPLETE NODE ADDRESS
MOVEM T1,NODID ;AND SAVE
RET ;RETURN
SUBTTL SETAJB - Set up Pointer to AJB
;Call:
; CALL SETAJB
; Normal Return with AJ setup
; AC is zero if no block to point to
SETAJB: SAVEAC P1 ;SAVE AC P1
CALL SETRCB ;FIRST SET UP CIRCUIT BLOCK
JUMPE RC,NORCB ;NONE?
SETZM AJ ;ASSUME NO AJB
SKIPA T1,RC.AJQ(RC) ;GET FIRST ENTRY IN ADJACENCY QUEUE
SETAJ1: MOVE T1,AJ.NXT(T1) ;GET NEXT ENTRY IN ADJACENCY QUEUE
JUMPE T1,CPOPJ ;RETURN IF NO ADJACENCY TO MATCH NODE ADDRESS
MOVEI T2,AJBADR ;ADDRESS TO MAP INTO
CALL SPYPAG ;MAP AJB
CALLRET NOSPY ;CAN'T
LDB T2,[POINTR (AJ.NAN(T1),AJNAN)] ;GET ADJACENCY'S NODE ADDRESS
LDB T3,[POINTR (AJ.NAA(T1),AJNAA)] ;AND NODE AREA
DPB T3,[POINTR (T2,RN%ARE)] ;BUILD COMPLETE NODE ADDRESS
CAME T2,NODID ;MATCH THE REQUESTED NODE?
JRST SETAJ1 ;NO, LOOP BACK FOR NEXT AJB
MOVE AJ,T1 ;SET UP AJ TO POINT AT AJB
RET ;AND RETURN
SUBTTL SETDLB - Set up Pointer to DLB
;Call:
; CALL SETDLB
; Normal Return with DL setup
; AC is zero if no block to point to
SETDLB: SAVEAC P1 ;SAVE AC P1
CALL SETRCB ;FIRST SET UP CIRCUIT BLOCK
JUMPE RC,NORCB ;NONE?
SETZM DL ;ASSUME NO DLB
MOVE T1,RC.DLB(RC) ;GET ADDRESS OF DLB
JUMPE T1,NODLB ;NONE?
MOVEI T2,DLBADR ;ADDRESS TO MAP INTO
CALL SPYPAG ;MAP DLB
CALLRET NOSPY ;CAN'T
MOVE DL,T1 ;SET UP DL TO POINT AT DLB
RET ;AND RETURN
SUBTTL SETLNB - Set up Pointer to LNB
;Call:
; CALL SETLNB
; Normal Return with LN setup
; AC is zero if no block to point to
SETLNB: SAVEAC P1 ;SAVE AC P1
CALL SETRCB ;FIRST SET UP CIRCUIT BLOCK
JUMPE RC,NORCB ;NONE?
CALL SETDLB ;NEXT SET UP DATA LINK CIRCUIT BLOCK
JUMPE DL,NODLB ;NONE?
SETZM LN ;ASSUME NO LNB
MOVE T1,DL.LNB(DL) ;GET ADDRESS OF LNB
JUMPE T1,NOLNB ;NONE?
MOVEI T2,LNBADR ;ADDRESS TO MAP INTO
CALL SPYPAG ;MAP LNB
CALLRET NOSPY ;CAN'T
MOVE LN,T1 ;SET UP LN TO POINT AT LNB
RET ;AND RETURN
SUBTTL SETMEM - Set up Pointer to Memory Bit map
;Call:
; CALL SETMEM
; Normal Return with MC and MP setup
; AC is zero if no block to point to
SETMEM: SETZB MC,MP ;CLEAR ACS
MOVX T1,%DNPTR ;GET ADDRESS OF AOBJN POINTER
GETTAB T1, ;...
RET
PEEK T1, ;GET AOBJN POINTER
JUMPE T1,.POPJ## ;...
HLRO MC,T1 ;GET COUNT
MOVNS MC ;...
IMULI MC,^D36 ;COMPUTE BIT COUNT
HRRZS T1 ;GET MONITOR ADDRESS OF BIT MAP
MOVEI T2,MEMADR ;AND OUR ADDRESS FOR SPY
PUSHJ P,SPYPAG ;SPY
JRST NOSPY ;CAN'T?
MOVE MP,T1 ;GET MAPPED ADDRESS
HRLI MP,(POINT 1) ;CREATE BYTE POINTER
RETSKP ;AND RETURN
SUBTTL Error Message Routines
NOSPY: ERR ?Spy pages UUO failed
NOSJB: ERR ?Job has no SJB
NOPDB: ERR ?Job has no PDB
NOMEM: ERR ?No DECnet memory pointer
ILLCHN: MOVEI T1,[ASCIZ /?Channel /]
CALL ERRSTR
MOVE T1,SCNCHN ;GET CHANNEL USER REQUESTED
CALL .TDECD ;TYPE IN DECIMAL
MOVEI T1,[ASCIZ / is illegal
/]
CALLRET .TSTRG##
NOCHT: MOVEI T1,[ASCIZ /?Channel /]
CALL ERRSTR
MOVE T1,SCNCHN ;GET CHANNEL USER REQUESTED
CALL .TDECD ;TYPE IN DECIMAL
MOVEI T1,[ASCIZ /'s SJB has no channel table
/]
CALLRET .TSTRG##
NOELB: MOVEI T1,[ASCIZ /?Channel /]
CALL ERRSTR
MOVE T1,SCNCHN ;GET CHANNEL USER REQUESTED
CALL .TDECD ;TYPE IN DECIMAL
MOVEI T1,[ASCIZ / has no NSP Link Block (ELB)
/]
CALLRET .TSTRG##
NOCHN: MOVEI T1,[ASCIZ /?Channel /]
CALL ERRSTR
MOVE T1,SCNCHN ;GET CHANNEL USER REQUESTED
CALL .TDECD ;TYPE IN DECIMAL
MOVEI T1,[ASCIZ / is not open
/]
CALLRET .TSTRG##
NORCB: ERR ?No circuit-id found to match /CIRCUIT switch
NODLB: ERR ?No data link circuit block found to match /CIRCUIT switch
NOLNB: ERR ?No data link line block found to match /CIRCUIT switch
NOAJB: ERR ?No adjacency found to match /NODE switch
SUBTTL ERRSTR - Type out an error string
; T1/ pointer to error string (asciz)
ERRSTR: CLRBFI ;IGNORE REST OF ERRONEOUS TYPIN
SKIPE TYPDPY ;IN DPY MODE?
TTY$ $TTCLR ;HOME UP AND CLEAR SCREEN
SETZM TYPDPY ;LEAVE DPY MODE
CALLRET .TSTRG## ;TELL SCAN TO TYPE IT OUT NOW
SUBTTL SPYPAG - Subroutine to Set up a SPY Page
;Call: T1/ Monitor address of Block to be mapped
; T2/ User address of page on which to map it
; CALL SPYPAG
; Error Return
; Normal Return with UVA of block in T1
;
SPYPAG: SAVEAC <P1>
LDB P1,[POINT 9,T1,35] ;SAVE OFFSET INTO PAGE
IOR P1,T2 ;POINT TO OUR SPY PAGE
LSH T2,-^D9 ;MAKE UVA INTO A PAGE NUMBER
TXO T2,1B0 ;DESTROY THE PAGE FIRST
PUSH P,T1 ;SAVE VIRTUAL ADDRESS
MOVNI T1,2 ;NUMBER OF PAGES TO DO
MOVE T4,[.PAGCD,,T1] ;CREATE/DESTROY PAGES FUNCTION
PAGE. T4, ;FIRST, CLEAN OUT PREVIOUS ATTEMPTS
JFCL ;DON'T CARE IF DESTROY FAILED
POP P,T1 ;RESTORE EXEC ADDRESS
LDB T3,[POINT 13,T1,26] ;GET EVA PAGE NUMBER PDB STARTS IN
HRL T2,T3 ;MONITOR'S PAGE NUMBER FOR PDB
TXZ T2,1B0 ;NOW CREATE THE PAGE
MOVNI T1,2 ;NUMBER OF PAGES TO DO
MOVE T4,[.PAGSP,,T1] ;SPY PAGES FUNCTION
PAGE. T4, ;MAP MONITOR'S PAGE INTO MY UVA
RET ;ERROR RETURN
MOVE T1,P1 ;RETURN UVA IN T1
RSKP:
CPOPJ1: AOS (P) ;SUCCESS RETURN
CPOPJ: RET
SUBTTL ENMCHN - Type out list of job's channels
;Call: T1/ Pointer to the job block's channel table
; T2/ Number of channel slots in use
; CALL ENMCHN
; Error Return
; Normal Return, no value
ENMCHN: SAVEAC <P1,P2>
MOVE P1,T1 ;POINTER TO CHANNEL TABLE
MOVNS T2 ;NEGATE THE SLOT COUNT
HRL P1,T2 ;MAKE AN AOBJN POINTER
SKIPLE NRTSJB ;IS NRTSJB OVERRIDING JOB?
JRST [ MOVEI T1,[ASCIZ /NRTSER/]
CALL .TSTRG
JRST ENMBL1] ;MERGE WITH THE REST
SKIPLE SCNSJP ;IS SJBPTR OVERRIDING JOB?
JRST [ MOVEI T1,[ASCIZ /SJB at /]
CALL .TSTRG
MOVE T1,SCNSJP ;TYPE OUT SJB ADDRESS
CALL .TADDR ; IN OCTAL
JRST ENMBL1] ;BACK TO MAINSTREAM
MOVEI T1,[ASCIZ /Job /]
CALL .TSTRG
MOVE T1,SCNJOB ;NO, USE JOB #
CALL .TDECD
ENMBL1:
MOVEI T1,[ASCIZ / has the following channels open: /]
CALL .TSTRG
MOVEI P2,0 ;FIRST CHANNEL NUMBER IS 1
ENMBL2: AOS T1,P2 ;INCREMENT USER'S CHANNEL NUMBER
SKIPN (P1) ;IS THIS SLOT IN USE?
JRST ENMBL3 ;NO
CALL .TDECW ;YES, TYPE OUT ITS NUMBER FROM T1
CALL .TSPAC ;SEPARATE WITH SPACES
ENMBL3: AOBJN P1,ENMBL2 ;TRY THE NEXT
CALLRET .TCRLF ;THAT'S ALL
SUBTTL ENMADJ - Type out circuit's adjacencies
;Call: RC/ Address of circuit block
; CALL ENMADJ
; Normal return
ENMADJ: SAVEAC AJ
MOVEI T1,[ASCIZ /Circuit's adjacencies: /]
CALL .TSTRG
SKIPA AJ,RC.AJQ(RC) ;GET FIRST ENTRY IN ADJACENCY QUEUE
ENMAJ1: MOVE AJ,AJ.NXT(AJ) ;GET NEXT ENTRY IN ADJACENCY QUEUE
JUMPE AJ,.TCRLF ;RETURN AT END OF QUEUE
MOVE T1,AJ ;GET ADJACENCY BLOCK ADDRESS
MOVEI T2,AJBADR ;ADDRESS TO MAP INTO
CALL SPYPAG ;MAP AJB
CALLRET NOSPY ;CAN'T
MOVE AJ,T1 ;SAVE VIRTUAL ADDRESS OF AJB
LDB T1,[POINTR (AJ.NAN(AJ),AJNAN)] ;GET ADJACENCY'S NODE ADDRESS
LDB T2,[POINTR (AJ.NAA(AJ),AJNAA)] ;AND NODE AREA
DPB T2,[POINTR (T1,RN%ARE)] ;BUILD COMPLETE NODE ADDRESS
CALL .TNODE ;TYPE OUT NODE ADDRESS
CALL .TSPAC ;SEPERATE WITH A SPACE
JRST ENMAJ1 ;LOOP BACK FOR ALL ADJACENCIES
SUBTTL TYPBLK - Type out a data block
;Call: T1/ AOBJN Pointer to the DOBLK table for this block type
; SJ,SL,EL/ Points to the block to be typed
; CALL TYPBLK
; Error Return
; Normal Return, no value
TYPBLK: SAVEAC <P1,P2>
HRRZ P1,T1 ;POINTER TO DESCRIPTOR TABLES TABLE
HLLZ P2,T1 ;AOBJN POINTER TO INDEX THRU TABLES
;Note that the DOBLK macro (above) depends on P2 being set up here
TYPBL1: MOVE T1,@DO.NAM(P1) ;GET THE SIXBIT NAME OF ENTRY
CALL .TSIXN ;TYPE IT OUT
CALL .TCOLN ;TYPE A COLON
CALL .TTABC ;TYPE OUT A TAB
MOVE T2,@DO.PTR(P1) ;PASS THE BYTE POINTER IN T2
HRRI T2,@T2 ;RESOLVE INDIRECTION AND EXTRA INDEXING
TLZ T2,37 ;WE RESOLVED IT, LEAVE BYTE PTRS P & S FIELDS
LDB T1,T2 ;THE VALUE IN T1
;Call the typeout routine with
; T1/ Value in Location, most typeout routines will type this
; T2/ UVA Byte Ptr to Location, indexing and indirection resolved
CALL @DO.RTN(P1) ;CALL TYPEOUT ROUTINE
CALL .TTABC ;TYPE OUT A TAB
MOVE T1,@DO.TXT(P1) ;GET PTR TO THE TEXT STRING (COMMENT)
SKIPG SCNCOM ;USER WANT THE COMMENTS?
MOVE T1,@DO.STX(P1) ;NO, GET THE SHORT TEXT
CALL .TSTRG ;TYPE IT OUT, CRLF INCLUDED IN TEXT
AOBJN P2,TYPBL1 ;DO THE REST
RETSKP ;ALL DONE
SUBTTL .Txxx - Local Typeout Routines
;Call: T2/ UVA of queue header
; CALL .TQUE
; Normal return
.TQUE: PUSH P,T2
HRRZ T1,2(T2)
PUSHJ P,.TDECW
MOVEI T1,[ASCIZ /:[/]
CALL .TSTRG
POP P,T2
MOVE T1,1(T2)
CALL .TADDR
CALLRET .TRBRK
;Call: T1/ value
; CALL .TDECD
; Normal Return
.TDECD: CALL .TDECW ;TYPE T1 IN DECIMAL
MOVEI T1,"." ;LOAD UP A DECIMAL POINT
CALLRET .TCHAR ;FOLLOWED BY A DECIMAL POINT
;Call: T1/ value
; CALL .TBOOL
; Normal Return
.TBOOL: TRNN T1,1 ;TRUE?
SKIPA T1,[[ASCIZ /false/]] ;NO
MOVEI T1,[ASCIZ /true/] ;YES
CALLRET .TSTRG
;Call: T1/ Session Control State code
; CALL .TSTAS
; Normal Return
.TSTAS: PUSH P,T1 ;SAVE STATE CODE
CALL .TDECW ;TYPE STATE IN DECIMAL
MOVEI T1,"("
CALL .TCHAR
POP P,T1
CAILE T1,STASLN ;WE UNDERSTAND THE STATE?
MOVEI T1,0 ;NO, USE ILLEGAL STATE
MOVEI T1,STASBL(T1) ;GET POINTER TO ASCIZ STRING
CALL .TSTRG ;TYPE IT OUT
MOVEI T1,")"
CALLRET .TCHAR
DEFINE STACOD(code),<
IFN .NSS'code-.+STASBL,<PRINTX ?STASBL table defined wrong>
EXP ASCIZ /code/
>
STASBL: ASCIZ /??/
STACOD CW ;CONNECT WAIT
STACOD CR ;CONNECT RECEIVED
STACOD CS ;CONNECT SENT
STACOD RJ ;REMOTE REJECTED CONNECT INIT
STACOD RN ;LINK IS UP AND RUNNING
STACOD DR ;DISCONNECT RECEIVED
STACOD DS ;DISCONNECT SENT
STACOD DC ;DISCONNECT CONFIRMED
STACOD CF ;NO CONFIDENCE
STACOD LK ;NO LINK
STACOD CM ;NO COMMUNICATION
STACOD NR ;NO RESOURCES
STASLN==.-STASBL-1
;Call: T1/ NSP State code
; CALL .TSTAN
; Normal Return
.TSTAN: PUSH P,T1 ;SAVE STATE CODE
CALL .TDECD ;TYPE STATE IN DECIMAL
MOVEI T1,"("
CALL .TCHAR
POP P,T1
CAILE T1,STANLN ;WE UNDERSTAND THE STATE?
MOVEI T1,0 ;NO, USE ILLEGAL STATE
MOVEI T1,STANBL(T1) ;GET POINTER TO ASCIZ STRING
CALL .TSTRG ;TYPE IT OUT
MOVEI T1,")"
CALLRET .TCHAR
DEFINE STACOD(code),<
IFN NPS.'code-.+STANBL,<PRINTX ?STANBL table defined wrong>
EXP ASCIZ /code/
>
STANBL: ASCIZ /??/
STACOD OP ;OPEN, WAITING FOR ENTER ACTIVE FROM SC
STACOD CI ;CONNECT INITIATE SENT
STACOD CD ;CONNECT DELIVERED
STACOD CR ;CONNECT RECEIVED
STACOD CC ;CONNECT CONFIRM
STACOD DR ;DISCONNECT REJECT
STACOD RC ;DISCONNECT REJECT COMPLETE (DRC)
STACOD RN ;RUN
STACOD RJ ;REJECT
STACOD DI ;DISCONNECT INITIATE
STACOD IC ;DISCONNECT INITIATE COMPLETE (DIC)
STACOD DN ;DISCONNECT NOTIFICATION
STACOD CN ;CLOSE NOTIFICATION
STACOD NR ;NO RESOURCES
STACOD NC ;NO COMMUNICATION
STACOD CL ;CLOSED
STACOD DP ;DESTROY PORT
STANLN==.-STANBL-1
;Call: T1/ Circuit state code
; CALL .TSTAR
; Normal Return
.TSTAR: PUSH P,T1 ;SAVE STATE CODE
CALL .TDECW ;TYPE STATE IN DECIMAL
MOVEI T1,"("
CALL .TCHAR
POP P,T1
CAILE T1,STARLN ;WE UNDERSTAND THE STATE?
MOVEI T1,0 ;NO, USE ILLEGAL STATE
MOVEI T1,STARBL(T1) ;GET POINTER TO ASCIZ STRING
CALL .TSTRG ;TYPE IT OUT
MOVEI T1,")"
CALLRET .TCHAR
DEFINE STACOD(code),<
IFN RCS.'code-.+STARBL,<PRINTX ?STARBL table defined wrong>
EXP ASCIZ /code/
>
STARBL: STACOD OF ;OFF
STACOD RJ ;REJECTED
STACOD FA ;FAILED
STACOD WT ;WAITING FOR PROTOCOL UP
STACOD TI ;WAITING FOR TI
STACOD TV ;WAITING FOR TV
STACOD TT ;TESTING
STACOD RN ;RUNNING
STARLN==.-STARBL-1
;Call: T1/ Adjacency state code
; CALL .TSTAA
; Normal Return
.TSTAA: PUSH P,T1 ;SAVE STATE CODE
CALL .TDECW ;TYPE STATE IN DECIMAL
MOVEI T1,"("
CALL .TCHAR
POP P,T1
CAILE T1,STAALN ;WE UNDERSTAND THE STATE?
MOVEI T1,0 ;NO, USE ILLEGAL STATE
MOVEI T1,STAABL(T1) ;GET POINTER TO ASCIZ STRING
CALL .TSTRG ;TYPE IT OUT
MOVEI T1,")"
CALLRET .TCHAR
DEFINE STACOD(code),<
IFN ADJ.'code-.+STAABL,<PRINTX ?STAABL table defined wrong>
EXP ASCIZ /code/
>
STAABL: STACOD UN ;UNUSED
STACOD IN ;CURRENTLY INITIALIZING
STACOD UP ;UP
STAALN==.-STAABL-1
;Call: T1/ Node address
; CALL .TNODE
; Normal Return
.TNODE: SAVEAC P1
MOVE P1,T1 ;SAVE NODE ADDRESS
LDB T1,[POINTR (P1,RN%ARE)] ;GET AREA NUMBER
SKIPE T1 ;SKIP IF NO AREA NUMBER
CALL .TDECD ;TYPE IN DECIMAL
LDB T1,[POINTR (P1,RN%NOD)] ;GET NODE ADDRESS
CALLRET .TDECW## ;TYPE IN DECIMAL AND RETURN
;Call: T1/ Circuit ID
; CALL .TCKT
; Normal Return
.TCKT: JUMPE T1,[MOVEI T1,[ASCIZ/(none)/]
PJRST .TSTRG##]
SAVEAC P1
MOVE P1,T1 ;PRESERVE CIRCUIT-ID
LDB T1,[POINTR (P1,LIDEV)] ;GET THE DEVICE TYPE
CAIL T1,0 ;RANGE CHECK
CAILE T1,DEVTLN ; THE DEVICE TYPE
RET ;OOPS, DON'T PRINT ANYTHING
MOVE T1,DEVTAB(T1) ;GET THE NAME OF THE DEVICE
TRZ T1,DF.XXX ;CLEAR FLAG BITS
CALL .TSIXN## ;TYPE IT OUT
MOVEI T1,"-" ;TYPE THE "-"
CALL .TCHAR##
LDB T1,[POINTR (P1,LIKON)] ;NOW GET THE CONTROLLER (CPU) NUMBER
CALL .TOCTW## ;TYPE IT OUT
LDB T1,[POINTR (P1,LIDEV)] ;GET THE DEVICE TYPE
MOVE T1,DEVTAB(T1) ;GET THE FLAGS
TRNN T1,DF.UNI ;TYPE UNIT NUMBER?
RET ;NO, RETURN
MOVEI T1,"-" ;TYPE THE "-"
CALL .TCHAR##
LDB T1,[POINTR (P1,LIUNI)] ;NOW GET THE UNIT NUMBER
CALL .TOCTW## ;TYPE IT
LDB T1,[POINTR (P1,LIDEV)] ;GET THE DEVICE TYPE
MOVE T1,DEVTAB(T1) ;GET THE FLAGS
TRNN T1,DF.DRP ;TYPE DROP NUMBER?
RET ;NO, RETURN
LDB T1,[POINTR (P1,LIDRP)] ;GET DROP NUMBER
CALL .TDECW## ;TYPE IT
RET ; AND RETURN
;Call: T1/ Node type
; CALL .TANTY
; Normal Return
.TANTY: PUSH P,T1 ;SAVE NODE TYPE
CALL .TDECW ;TYPE NOTE TYPE IN DECIMAL
MOVEI T1,"("
CALL .TCHAR
POP P,T1
CAILE T1,ANTYLN ;WE UNDERSTAND THE TYPE?
SKIPA T1,[[ASCIZ /??/]] ;NO, USE ILLEGAL NODE TYPE
MOVEI T1,ANTYBL(T1) ;GET POINTER TO ASCIZ STRING
CALL .TSTRG ;TYPE IT OUT
MOVEI T1,")"
CALLRET .TCHAR
DEFINE NTYCOD(code),<
IFN ADJ.'code-.+ANTYBL,<PRINTX ?ANTYBL table defined wrong>
EXP ASCIZ /code/
>
ANTYBL: NTYCOD 3F ;PHASE III ROUTING NODE
NTYCOD 3S ;PHASE III NON-ROUTING NODE
ASCIZ /??/ ;UNUSED
NTYCOD L2 ;PHASE IV LEVEL II ROUTING NODE
NTYCOD L1 ;PHASE IV LEVEL I ROUTING NODE
NTYCOD LN ;PHASE IV NON-ROUTING NODE
ANTYLN==.-ANTYBL-1
;Call: T1/ Physical address
; CALL .TADDR
; Normal Return
.TADDR: SAVEAC <P1,P2,P3> ;SAVE P1-P3
MOVE P2,T1 ;SAVE ADDRESS
HLRZS T1 ;GET SECTION NUMBER
CALL .TOCTW ;TYPE OUT
CALL .TCOMA ;COMMA
CALL .TCOMA ;COMMA
HRLZS P2 ;GET ADDRESS WITHIN SECTION
MOVEI P3,6 ;AND COUNT
TADDR1: SETZ P1, ;GET NEXT OUTPUT BYTE
LSHC P1,3 ;...
MOVEI T1,"0"(P1) ;CONVERT TO ASCII
CALL .TCHAR ;OUTPUT
SOJG P3,TADDR1 ;LOOP TO OUTPUT ALL BYTES
POPJ P, ;AND RETURN
;Call: T1/ MUUO
; CALL .TMUUO
; Normal Return
.TMUUO: SAVEAC P1 ;SAVE P1
MOVE P1,T1 ;SAVE MUUO
LDB T1,[POINT 9,P1,8] ;GET OPCODE
CALL .TOCTW ;TYPE
CALL .TSPAC ;SPACE
LDB T1,[POINT 4,P1,12] ;GET AC
CALL .TOCTW ;TYPE
CALL .TCOMA ;COMMA
LDB T1,[POINT 22,P1,35] ;GET ADDRESS
CALLRET .TOCTW ;TYPE AND RETURN
;.TEADD - Type ethernet address
.TEADD: PUSH P,[5]
HRLI T2,(POINT 8,)
PUSH P,T2
THWA1: ILDB T1,(P)
PUSHJ P,.THEXB
MOVEI T1,"-"
PUSHJ P,.TCHAR
SOSLE -1(P)
JRST THWA1
ILDB T1,(P)
ADJSP P,-2
; JRST .THEXB
.THEXB: IDIVI T1,^D16
PUSH P,T2
PUSHJ P,TH1DIG
POP P,T1
TH1DIG: ADDI T1,"0"
CAILE T1,"9"
ADDI T1,"A"-"9"-1
CALLRET .TCHAR
SUBTTL .SWxxx - Local Switch Value Processors
;Call: CALL .SWLIN
; Normal return
;Returns with Circuit block pointer in T1.
.SWCKT: SAVEAC <P1,N>
CALL .SIXSW## ;GET THE DEVICE NAME
MOVE T3,[XWD -DEVTLN,DEVTAB] ;SET UP FOR DEVICE NAME SEARCH
SWCKT1: MOVE T2,(T3) ;GET A DEVICE NAME
TRZ T2,DF.XXX ;MASK OFF FLAGS
CAMN N,T2 ;HAVE WE GOT IT?
JRST SWCKT2 ;YES, GO DO THE REST
AOBJN T3,SWCKT1 ;NO, CHECK THE NEXT ONE
SWCKTE: SETZ T1, ;RETURN SILLY NUMBER
OUTSTR [ASCIZ /? Invalid circuit name/]
POPJ P, ; TO CALLER
SWCKT2: SETZ P1, ;START WITH ZERO LINE ID
HRRZ T1,T3 ;GET THE POINTER TO DEV NAME
SUBI T1,DEVTAB ;CALCULATE THE NUMBER VALUE
DPB T1,[POINTR (P1,LIDEV)] ;PUT THE DEVICE TYPE IN THE RIGHT FIELD
CAIE C,"-" ;WAS IT A LEGAL SEPERATOR?
JRST SWCKTE ;NO, GIVE THE ERROR RETURN
CALL .OCTNW## ;GET THE CONTROLLER (CPU) NUMBER
DPB N,[POINTR (P1,LIKON)] ;PUT IT IN THE CORRECT FIELD
LDB T1,[POINTR (P1,LIDEV)] ;GET DEVICE TYPE
MOVE T1,DEVTAB(T1) ;GET FLAGS
TRNN T1,DF.UNI ;DEVICE INCLUDES UNIT NUMBER?
JRST SWCKT3 ;NO, RETURN
CAIE C,"-" ;WAS IT THE SEPERATOR?
JRST SWCKTE ;GIVE THE ERROR RETURN
CALL .OCTNW ;GET THE UNIT NUMBER
DPB N,[POINTR (P1,LIUNI)] ;STORE THE UNIT NUMBER
LDB T1,[POINTR (P1,LIDEV)] ;GET DEVICE TYPE
MOVE T1,DEVTAB(T1) ;GET FLAGS
TRNN T1,DF.DRP ;DEVICE INCLUDES DROP NUMBER?
JRST SWCKT3 ;NO, RETURN
;$ CAIE C,"." ;SPECIFYING DROP NUMBER
JUMPLE C,SWCKTE ;NO, GIVE ERROR RETURN
CALL .OCTNW ;GET THE DROP NUMBER
DPB N,[POINTR (P1,LIDRP)] ;STORE THE DROP NUMBER
SWCKT3: MOVE T1,P1 ;ALSO RETURN IN T1
MOVEM T1,CKTID ;SAVE THE CIRCUIT-ID
SETZM NODID ;CLEAR ADJACENCT NODE ADDRESS
POPJ P, ; AND RETURN
DEFINE DEVTYP(TYPE,FLAGS<0>),<
<SIXBIT/TYPE/> ! FLAGS
>
DF.UNI==1 ;DEVICE INCLUDES UNIT NUMBER
DF.DRP==2 ;DEVICE INCLUDES DROP NUMBER
DF.XXX==DF.UNI!DF.DRP ;MASK OF ALL FLAGS
DEVTAB: DEVTYP TST
DEVTYP DTE,DF.UNI
DEVTYP KDP,DF.UNI
DEVTYP DDP,DF.UNI
DEVTYP CI,DF.UNI!DF.DRP
DEVTYP ETH
DEVTYP DMR,DF.UNI
DEVTLN==.-DEVTAB
;Call: CALL .SWNOD
; Normal Return
;Returns with node address in N.
.SWNOD: CALL .DECNW## ;READ DECIMAL NODE NUMBER
JUMPLE C,CPOPJ ;DONE IF JUST NODE NUMBER
PUSH P,N ;SAVE AREA NUMBER
CALL .DECNC## ;GET NODE NUMBER
POP P,T1 ;GET BACK NODE AREA
DPB T1,[POINTR (N,RN%ARE)] ;BUILD COMPLETE ADDRESS
RET ;AND RETURN
;Routine to allocate output spec area
SCNAOT: OUTSTR [ASCIZ /?SCAN called for output space???
/]
RET ;RETURN
;Routine to allocate input spec area
SCNAIN: OUTSTR [ASCIZ /?SCAN called for input spec space???
/]
RET ;RETURN
SUBTTL KDP Display
radix 10 ;the kdp display is in radix 10
;byte pointers into the kdl block
;xbyte takes the macro for a field from NETPRM and changes the
;index field from F to KDL
define xbyte(bp)< ;;routine to translate the index field
kdl'bp: exp <<^-<15_18>>&kd%'bp>+<kdl_18>
>
xbyte sta ;line state
xbyte tim ;line timer (rep & start/stack)
xbyte xnk ;last nak sent
xbyte rpc ;rep counter
xbyte rmn ;receive message number
xbyte lmx ;last message xmitted (assigned)
xbyte lma ;last message ack'ed
subttl KDP Display - screen layout
Comment @
1111111111222222222233333333334444444444555555555566666666667777777777
1234567890123456789012345678901234567890123456789012345678901234567890123456789
===============================================================================
1Line #9, State = INITED, Last Zeroed - HH:MM:SS
2 KMC CONTROL OUTS
3 MESSAGES RCVD SENT NAKS RCVD SENT ABORT (06) 99999
4LMX 777 START 9999999 9999999 HDR BCC 99999 99999 BAD HDR (10) 99999
5LMA 777 STACK 9999999 9999999 DATA BCC 99999 99999 BAD CRC (12) 99999
6RMN 777 ACK 9999999 9999999 REP RESP 99999 99999 NO RBUF (14) 99999
7 NAK 9999999 9999999 NO RCVBF 99999 99999 DSR CHNG (16) 99999
8RPC 999 REP 9999999 9999999 RCV OVER 99999 99999 KMC NXM (20) 99999
9TIM 999 DATA 9999999 9999999 MSG2LONG 99999 99999 XMT UNDR (22) 99999
0 MAINT 9999999 9999999 BAD HDR 99999 99999 RCV OVER (24) 99999
1 RANDOM 99999 99999 BFR KILL (26) 99999
2------------------------------------------------------------------------------
3Line #9, State = INITED, Last Zeroed - HH:MM:SS
4 KMC CONTROL OUTS
5 MESSAGES RCVD SENT NAKS RCVD SENT ABORT (06) 99999
6LMX 777 START 9999999 9999999 HDR BCC 99999 99999 BAD HDR (10) 99999
7LMA 777 STACK 9999999 9999999 DATA BCC 99999 99999 BAD CRC (12) 99999
8RMN 777 ACK 9999999 9999999 REP RESP 99999 99999 NO RBUF (14) 99999
9 NAK 9999999 9999999 NO RCVBF 99999 99999 DSR CHNG (16) 99999
0RPC 999 REP 9999999 9999999 RCV OVER 99999 99999 KMC NXM (20) 99999
1TIM 999 DATA 9999999 9999999 MSG2LONG 99999 99999 XMT UNDR (22) 99999
2 MAINT 9999999 9999999 BAD HDR 99999 99999 RCV OVER (24) 99999
3 RANDOM 99999 99999 BFR KILL (26) 99999
4
End Comment @
msgcol==12 ;column to start message counts in
nakcol==36 ;column to start nak counts in
ctocol==60 ;column to start control out info in
subttl KDP Display - initialization
typkdp: skipn typdpy ;in DPY mode?
err ?KDP display only supported in DPY mode for now
movei kdl,kdlpag ;get address of the kdl page
movei t1,0 ;get line #0
movem t1,kdline(kdl) ;set the line for kdldpy
pushj p,kdldpy ;go output the first line
err ? KDL. Read status failed for line #0.
movei t1,79 ;output a dividing line of 79 dashes
sojge t1,[chi$ "-" ;output a dash
jrst .] ;do all 79 of them
crlf ;go to next line
aos kdline(kdl) ;increment the line number
pushj p,kdldpy ;output the next dup's data
text No line #1.
retskp ;success return to DPY loop
subttl KDP Display - kdldpy -- output 11 lines of kdl info
;kdldpy
;call kdl := pointer to block with line number filled in
; screen at upper left hand corner of region to fill
;return cpopj if no such line.
; cpopj1 with 11 lines of kdl data output
kdldpy: movei t1,1(p) ;address of uuo arguments
hrli t1,4 ;there are 4 args to status function
push p,[exp .kdlrs] ;fcn: get dup-11's status
push p,[exp 0] ;arg1: kdp #0 (others aren't supported)
push p,kdline(kdl) ;arg2: kdl line number
push p,[xwd <kdlest-kdlsts>+1,kdlpag+kdlsts] ;leng,addr of rtn area
kdp. t1, ;get the status
jrst [adjsp p,-4 ;if no DMC-11, fixup the stack
popj p,] ; and give an error return
adjsp p,-4 ;pop off the 4 arguments
movei t1,1(p) ;address of uuo arguments
hrli t1,4 ;there are 4 args to status function
push p,[exp .kdlru] ;fcn: read dup-11's sixbit user name
push p,[exp 0] ;arg1: kdp #0 (others aren't supported)
push p,kdline(kdl) ;arg2: kdl line number
push p,[exp 0] ;uuo returns user name here
kdp. t1, ;get the status
setzm (p) ;error, we don't know user name
pop p,kdlpag+kdlusr ;store name for display later
adjsp p,-3 ;pop off the 4 arguments
subttl KDP Display - line 1.
;line
line1: text <Line #>
number kdline(kdl) ;output the line number
;state
text <, State = >
ldb t1,kdlsta ;get the state
setz t2, ;get a "zero"
cain t1,kd%dwn ;if it's down
movei t2,[asciz |Down|] ; then get that "state"
cain t1,kd%ini
movei t2,[asciz |Initial|]
cain t1,kd%fls
movei t2,[asciz |Flushing|]
cain t1,kd%mai
movei t2,[asciz |Maint|]
cain t1,kd%str
movei t2,[asciz |Starts|]
cain t1,kd%stk
movei t2,[asciz |Stacks|]
cain t1,kd%run
movei t2,[asciz |Running|]
skipn t2 ;make sure we got a valid state
movei t2,[asciz |?????|]
hrli t2,(str$) ;make it a "str$ uuo)
xct t2 ;output the string
;up-time
text <, Last zeroed - >
move t1,kdlztm(kdl) ;get uptime
idivi t1,3600 ;get "hours"
number t1,10,2,$zr ;2 digits long, fill with zero's
chi$ ":" ;output the colon
move t1,t2 ;get the remainder
idivi t1,60 ;get "minutes"
number t1,10,2,$zr ;output the minutes
chi$ ":" ;output the colon
number t2,10,2,$zr ;output the seconds
text <, User - >
skipn t1,kdlusr(kdl) ;get sixbit user name
movsi t1,'? ' ;don't know it yet
call outsix ;tell DPY about sixbit word
crlf ;end of the first line.
subttl KDP Display - Line 2.
line2: goto ctocol+2 ;go to the 62nd column
text <KMC Control Outs> ;write header
crlf ;end of line 2
subttl KDP Display - Line 3.
line3: goto msgcol-2 ;message column
text <Messages Rcvd Sent>
goto nakcol+2
text <Naks Rcvd Sent>
goto ctocol ;go to control out column
text <Abort (06) > ;abort message counts
number kdlcto+0(kdl),10,5 ;5 char number right justify
crlf ;end of line 3
subttl KDP Display - Line 4.
line4: text <LMX > ;last message assigned
ldb t1,kdllmx ;get the byte
number t1,8,3,$zr ;output in octal for debugging
goto msgcol ;messages counts next
text <Start > ;first is "start count"
number kdlctr+5(kdl),10,7 ;seven digit field. left justified
chi$ $sp ;one space
number kdlctx+5(kdl),10,7 ;get the xmit field too.
goto nakcol ;nak counts now
text <Random > ;first type is "random"
number kdlnkr+0(kdl),10,5 ;5 digit field left justified
chi$ $sp ;output the space
number kdlnkx+0(kdl),10,5 ;output the xmit field too
goto ctocol ;control out's now.
text <Bad Hdr (10) > ;illegal header is next
number kdlcto+1(kdl),10,5 ;5 digits
crlf
subttl KDP Display - line 5.
line5: text <LMA > ;last message assigned
ldb t1,kdllma ;get the value
number t1,8,3,$zr ;three digit octal
goto msgcol ;message counts next
text <Stack > ;stack counts
number kdlctr+6(kdl),10,7 ;7 digit number (received)
chi$ $sp ;space
number kdlctx+6(kdl),10,7 ;xmitted
goto nakcol ;nak counts
text <Hdr BCC >
number kdlnkr+1(kdl),10,5 ;received header bcc naks
chi$ $sp ;space
number kdlnkx+1(kdl),10,5 ;xmitted header bcc naks
goto ctocol ;control out column
text <Bad CRC (12) > ;data or header crc error
number kdlcto+2(kdl),10,5 ;count of crc control outs
crlf ;end of line 5
subttl KDP Display - line 6.
line6: text <RMN > ;last message received
ldb t1,kdlrmn ;get the byte
number t1,8,3,$zr ;octal 3 chars zero filled
goto msgcol ;messages next
text <Ack > ;ack message count
number kdlctr+0(kdl),10,7 ;output received ack count
chi$ $sp ;space
number kdlctx+0(kdl),10,7 ;output xmitted ack count
goto nakcol ;nak counts next
text <Data BCC > ;data crc error
number kdlnkr+2(kdl),10,5 ;output receive counts
chi$ $sp ;space
number kdlnkx+2(kdl),10,5 ;output xmit count
goto ctocol ;control outs next
text <No Rbuf (14) > ;no receive buffer
number kdlcto+3(kdl),10,5 ;output control out count
crlf ;end of line 6
subttl KDP Display - Line 7.
line7: goto msgcol ;start with message column this time
text <Nak >
number kdlctr+1(kdl),10,7 ;received naks
chi$ $sp ;space
number kdlctx+1(kdl),10,7 ;sent naks
goto nakcol ;specific nak counts
text <Rep resp > ;rep response nak
number kdlnkr+3(kdl),10,5 ;received rep naks
chi$ $sp ;space
number kdlnkx+3(kdl),10,5 ;sent naks
goto ctocol ;control outs
text <DSR chng (16) > ;dataset ready changed
number kdlcto+4(kdl),10,5 ;output transition count
crlf ;end of line 7
subttl KDP Display - line 8.
line8: text <RPC > ;rep counter
ldb t1,kdlrpc ;get the count
number t1 ;output it
goto msgcol ;messages next
text <Rep > ;rep counts
number kdlctr+2(kdl),10,7 ;received reps
chi$ $sp ;space
number kdlctx+2(kdl),10,7 ;xmitted reps
goto nakcol ;nak's next
text <No Rcvbf > ;no receive buffer nak
number kdlnkr+4(kdl),10,5 ;received
chi$ $sp ;space
number kdlnkx+4(kdl),10,5 ;sent
goto ctocol ;control out's last
text <Kmc NXM (20) > ;we screwed the kmc?
number kdlcto+5(kdl),10,5 ;output nxm count
crlf ;end of line 8
subttl KDP Display - Line 9.
line9: text <TIM > ;the line's timer
ldb t1,kdltim ;get the time
number t1 ;decimal
goto msgcol ;message counts
text <Data > ;data messages
number kdldtr(kdl),10,7 ;received
chi$ $sp ;space
number kdldtx(kdl),10,7 ;sent
goto nakcol ;nak count
text <Rcv over > ;receiver over run
number kdlnkr+5(kdl),10,5 ;received
chi$ $sp ;space
number kdlnkx+5(kdl),10,5 ;and sent
goto ctocol ;control outs last
text <Xmt undr (22) > ;transmitter under-run
number kdlcto+6(kdl),10,5 ;output that
crlf ;end of line 9
subttl KDP Display - Line 10.
line10: goto msgcol ;start with messages
text <Maint > ;maintenance messages
number kdlmar(kdl),10,7 ;received
chi$ $sp ;space
number kdlmax(kdl),10,7 ;and sent
goto nakcol ;nak counts next
text <Msg2long > ;message too long naks
number kdlnkr+6(kdl),10,5 ;received
chi$ $sp ;space
number kdlnkx+6(kdl),10,5 ;and sent
goto ctocol ;control out
text <Rcv over (24) > ;receiver over runs
number kdlcto+7(kdl),10,5 ;output that
crlf ;end of line 10
subttl KDP Display - Line 11.
line11: goto nakcol ;no messages. start with nak's
text <Bad hdr > ;header naks
number kdlnkr+7(kdl),10,5 ;received
chi$ $sp ;space
number kdlnkx+7(kdl),10,5 ;and sent
goto ctocol ;control out column
text <Bfr kill (26) > ;buffer kill
number kdlcto+8(kdl),10,5 ;output that
crlf ;end of line 11
retskp ;success return to typkdp
radix 8 ;end of KDP display processor
SUBTTL UTILITY ROUTINES
;PGOTO MOVES FORWARD TO APPROIATE HORIZONTAL POSITION.
;CALL T1 := POSITION TO GO TO
;RETURN CPOPJ
PGOTO: LOC$ T2 ;GET OUR CURRENT "XWD LINE,POS"
SUBI T1,(T2) ;GET NUMBER OF CHARACTERS TO GO
SKIPLE T1 ;ALWAYS PRINT AT LEAST ONE SPACE
PGOTO1: SOJL T1,CPOPJ ;EXIT IF WE'VE GOT THERE
CHI$ $SP ;PRINT A SPACE
JRST PGOTO1 ;LOOP TILL ALL CHARACTERS ARE OUT
;OUTSIX OUTPUT THE WORD IN T1 AS SIXBIT
;RETURN CPOPJ
OUTSIX: PUSH P,T2
PUSH P,T3
MOVEI T3,6
MOVE T2,T1 ;PREPARE FOR LSHC
OUTSI1: SETZ T1,
LSHC T1,6 ;GET NEXT CHR FROM T2
ADDI T1,$SP ;MAKE SIXBIT INTO ASCII
CHR$ T1 ;OUTPUT CHR TO DPY PACKAGE
SOJG T3,OUTSI1 ;OUTPUT ALL SIX CHRS (EVEN IF BLANK)
POP P,T3
POP P,T2
POPJ P,
;OUTNUM PRINTS A NUMBER. CALLED BY THE "NUMBER" MACRO
;CALL NUM := NUMBER TO PRINT
; BAS := BASE TO PRINT NUMBER IN
; WDT := WIDTH OF FIELD. (- MEANS LEFT JUSTIFY, 0 MEANS ANY WIDTH)
; FIL := CHAR TO USE TO FILL OUT THE FIELD
OUTNUM: PUSH P,T1 ;SAVE THE T'S
PUSH P,T2
PUSH P,T3
MOVE T1,NUM ;COPY THE NUMBER
MOVEI T3,1 ;INITIALIZE THE COUNT OF DIGITS IN NUMBER
OUTNU1: IDIVI T1,(BAS) ;GET THE NEXT DIGIT IN T1+1
ADDI T1+1,$ZR ;MAKE REMAINDER A DIGIT
PUSH P,T1+1 ;SAVE THE NEXT DIGIT
SKIPE T1 ;SKIP IF ALL DIGITS PRINTED
AOJA T3,OUTNU1 ;LOOP TAKING NUMBER APART. EXIT WITH T3 = COUNT
JUMPLE WDT,OUTNU2 ;IF NOT RIGHT JUSTIFIED, DON'T PAD BEGINNING
MOVEI T2,(WDT) ;GET THE "WIDTH"
SUBI T2,(T3) ;SUBTRACT THE "SIZE"
SOJGE T2,[CHR$ FIL ;LOOP OUTPUTTING "FILL"
JRST .] ; UNTIL T2 COUNTED DOWN
OUTNU2: MOVEI T2,(T3) ;GET THE "LENGTH" OF THE NUMBER
SOJGE T2,[POP P,T1 ;GET THE NEXT DIGIT TO OUTPUT
CHR$ T1 ;OUTPUT IT
JRST .] ;LOOP OVER ALL DIGITS
JUMPGE WDT,CPOPJ3 ;EXIT IF NOT LEFT JUSTIFIED
ADD T3,WDT ;GET MINUS THE NUMBER OF FILL CHARS
AOJGE T3,[CHR$ FIL ;OUTPUT THE FILL
JRST .] ;OUTPUT ALL THE FILL
CPOPJ3: POP P,T3 ;RESTORE CALLERS T'S
POP P,T2
POP P,T1
POPJ P, ;ALL DONE.
SUBTTL Terminal Handling Routines
;TTYINI - Init our TTY
TTYINI: OPEN $TTY,[EXP .IOASC
SIXBIT /TTY/
XWD TTYOBF,0]
ERR ? OPEN OF TTY FAILED.
MOVE T1,[XWD ^O400000,OBF1+1] ;GET THE "MAGIC" TO SET
MOVEM T1,TTYOBF+0 ; AND SET UP THE FIRST WORD OF THE HEADER
MOVE T1,[POINT 7,0,35] ;GET THE PATTERN BYTE POINTER
MOVEM T1,TTYOBF+.BFPTR ; AND SET UP THE POINTER
SETZM TTYOBF+.BFCNT ;CLEAR THE COUNT
SETZM OBF1 ;CLEAR FIRST WORD OF THE OUTPUT BUFFER
MOVE T1,[XWD OBF1,OBF1+1] ;GET BLT POINTER TO THE REST
BLT T1,OBF1+TYOBSZ+2;CLEAR THE BUFFER
MOVE T1,[XWD TYOBSZ+1,OBF1+1]
MOVEM T1,OBF1+1 ;SET UP THE RING BUFFER POINTER
POPJ P, ;ALL DONE
;TTYOUC - Output a character to TTY
TTYOUC: EXCH T1,(P) ;GET THE CHAR, SAVE T1
;JUMP IF SIGNAL FOR LAST
JUMPL T1,TTYOU2 ;IGNORE SIGNAL & RETURN
TTYOU1: SOSGE TTYOBF+.BFCTR ;COUNT OUT THE NEXT CHARACTER
JRST [PUSHJ P,TTYFRC ;IF NO ROOM, FORCE OUT CURRENT BUFFER
JRST TTYOU1] ; AND TRY AGAIN
IDPB T1,TTYOBF+.BFPTR;STORE THE CHARACTER
TTYOU2: POP P,T1 ;RESTORE DPY'S AC
POPJ P, ; AND RETURN
;TTYFRC - Force out the current TTY buffer
TTYFRC: OUT $TTY, ;DO THE OUTPUT
POPJ P, ;RETURN IF SUCCESSFUL
ERR ? TTY output I/O error.
;TTY output routine called from SCAN's .TCHAR
SCNOUC: SKIPN BIGOUT ;USE BIG BUFFER OUTPUT?
JRST [OUTCHR T1 ;NO, PUSH SCAN'S MSGS OUT NOW
RET]
SKIPN TYPDPY ;USER WANT DPY MODE?
JRST SCNOU1 ;NO, OUTPUT STRAIGHT TO TTY
;Here to output a character to DPY package
PUSH P,T2 ;CALLERS EXPECT ALL ACS TO BE SAVED
MOVE T2,LINCNT ;GET CURRENT LINE COUNT
CAML T2,LINGOL ;UP TO BEGINNING OF LOGICAL SCREEN YET?
CHR$ T1 ;YES, TELL DPY
POP P,T2 ;RESTORE CALLER'S T2
CAIN T1,12 ;A LINE FEED?
AOS LINCNT ;YES, ONE MORE LINE FEED OVER DAM
RET ;RETURN TO SCAN
SCNOU1: SOSGE TTYOBF+.BFCTR ;COUNT OUT NEXT CHARACTER
JRST [PUSHJ P,TTYFRC ;IF NO ROOM, FORCE OUT CURRENT BUFFER
JRST SCNOU1] ; AND TRY AGAIN
IDPB T1,TTYOBF+.BFPTR;STORE CHARACTER
POPJ P, ; AND RETURN
SUBTTL End of Program
END DCNSPY