Trailing-Edge
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PDP-10 Archives
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BB-BT99T-BB_1990
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10,7/mon/s.mac
There are 24 other files named s.mac in the archive. Click here to see a list.
UNIVERSAL S - SYSTEM PARAMETER FILE FOR 7.04 MONITOR - V1452
SUBTTL /TH/AF/CHW/RCC/DAL/I/BGE/RLD/JBS 17-APRIL-90
SEARCH F
;THIS SOFTWARE IS FURNISHED UNDER A LICENSE AND MAY BE USED
; OR COPIED ONLY IN ACCORDANCE WITH THE TERMS OF SUCH LICENSE.
;
;COPYRIGHT (c) DIGITAL EQUIPMENT CORPORATION 1969,1970,1971,1972,1973,
; 1974,1975,1976,1977,1978,1979,1980,1982,1984,1986,1988,1990.
;ALL RIGHTS RESERVED.
;DEFINE A MACRO FOR INSERTING COPYRIGHT NOTICES INTO BINARY FILES
DEFINE .CPYRT(YEARS,SHOW),<
XLIST
IFB<SHOW>,.ORG 0 ;;PUT IT IN THE AC'S OF .REL FILES TO SAVE .EXE SPACE
;;LOAD THE ACTUAL COPYRIGHT TEXT
ASCIZ &
COPYRIGHT (c) DIGITAL EQUIPMENT CORPORATION 'YEARS'.
ALL RIGHTS RESERVED.
&
IFB<SHOW>,<
CPYRT.:!;IFGE .-20,<PRINTX % COPYRIGHT TEXT TOO LONG FOR ACS>
IFG .-22,<PRINTX % COPYRIGHT TEXT TOO LONG FOR A REL BLOCK>
.ORG ;;GET BACK TO CODE SPACE
.ORG 0 ;;TO AC SPACE AGAIN
REPEAT CPYRT.,<EXP 0>;;ONLY ONE COPY IN THE .EXE FILE PLEASE
.ORG> ;;AND FINALLY BACK TO CODE SPACE FOR REAL
LIST
>
;FOR SAMPLE USAGE, SEE BELOW (AT OUR COPYRIGHT STATEMENT)
;THIS UNIVERSAL FILE IS ASSEMBLED BEFORE EACH MONITOR MODULE. THIS FILE
; MUST BE ASSEMBLED BEFORE ANY MONITOR MODULES ARE ASSEMBLED, HOWEVER,
; IT NEED BE ASSEMBLED ONLY ONCE REGARDLESS OF THE NUMBER OF MONITOR
; MODULES WHICH FOLLOW. EXAMPLE:
;
; .COMPILE F.MAC/COMPILE,S.MAC/COMPILE,FILIO,FILFND,FILUUO,SCNSER
;
;THE FILES F.REL AND S.REL ARE NOT NEEDED AND MAY BE DISCARDED.
;THE UNIVERSAL FILE F.MAC MUST BE ASSEMBLED BEFORE S.MAC
.CPYRT<1969,1990>,.
DEFINE XPP(A,B) ;SYSTEM PARAMETER WHICH WILL PRINT-OUT FROM DDT
<A=:B>
DEFINE XPL(A,B) ;LOCAL PARAMETER WHICH WILL PRINT-OUT FROM DDT
<A=B>
DEFINE XP(A,B) ;SYSTEM PARAMETER WHICH WILL NOT PRINT FROM DDT
<A==:B>
DEFINE ND(A,B) ;DEFINE A IF NOT DEFINED
<IF2,<IFDEF A,<A=A>> IFNDEF A,<A==:<B>>>
DEFINE NDL(A,B) ;DEFINE A AS LOCAL IF NOT DEFINED
<IF2,<IFDEF A,<A=A>> IFNDEF A,<A==<B>>>
SALL ;SUPPRESS MACRO EXPANSIONS
; TABLE OF CONTENTS FOR S
;
;
; SECTION PAGE
; 1. ACCUMULATOR ASSIGNMENTS............................... 4
; 2. CHANNEL DATA BLOCK.................................... 7
; 3. DEVICE DATA BLOCK (DDB)............................... 9
; 4. FLAG BITS
; 4.1 S AND DEVIOS(F)............................... 16
; 4.2 UUOS.......................................... 18
; 4.3 JOBPEK........................................ 19
; 4.4 PAGE ACCESSIBILITY UUO........................ 20
; 4.5 PAGE. UUO..................................... 20
; 5. PAGE. UUO
; 5.1 FUNCTION CODES................................ 20
; 5.2 ERROR CODES................................... 20
; 6. BITS FOR TESTING UUOS................................. 21
; 7. SCHED. UUO ERROR CODES................................ 22
; 8. TRMOP. UUO ERROR CODES................................ 22
; 9. DTE. UUO ERROR CODES.................................. 22
; 10. SEARCH LIST PARAMETERS AND LIMITS..................... 23
; 11. BITS IN JOB TABLES
; 11.1 JOB STATUS WORD (JBTSTS)...................... 27
; 11.2 JBTSCD........................................ 31
; 11.3 JBTST2........................................ 32
; 11.4 JBTSWP, JBTPPB AND PAGTAB..................... 33
; 11.5 MEMTAB AND SWPLST............................. 34
; 11.6 JBTSGN........................................ 35
; 11.7 JBTPRV........................................ 36
; 11.8 WORDS OF PROCESS DATA BLOCKS.................. 36
; 11.9 JBTWCH AND JBTRSP............................. 37
; 11.10 JBTLIM, JBTSPL, .PDOBI........................ 38
; 11.11 JBTSPS........................................ 39
; 11.12 JBTPIA AND PSISER DEFINITIONS................. 40
; 12. ERROR CODES........................................... 42
; 13. EXTENDED I/O ERRORS................................... 43
; 14. JOB BUFFER HEADER..................................... 44
; 15. ARGUMENTS FOR EXTENDED LOOKUP/ENTER/RENAME............ 45
; 16. MEM PARITY ERROR RECOVERY............................. 46
; 17. CODES FOR DAEMON ERROR REPORTING...................... 48
; 18. BITS IN STATES AND DEBUGF............................. 49
; 19. TAPSER AND IORB BIT DEFINITIONS....................... 50
; 20. MTAPE AND TAPOP. DEFINITIONS.......................... 53
; 21. TAPE LABEL DEFINITIONS................................ 54
; 22. EVENT WAIT CODE DEFINITIONS........................... 55
; 23. CODES SENT TO THE FILE DAEMON......................... 55
; 24. BITS RETURNED TO THE MONITOR BY THE FILE DAEMON....... 55
; 25. BITS IN THE RH OF .CPSBR.............................. 55
; 26. SAVE-FILE FORMAT DEFINITIONS.......................... 56
; 27. BITS IN GETTAB TABLE (NUMTAB)......................... 57
; 28. TELETYPE PARAMETERS................................... 58
; 29. DEFINITIONS FOR DC44, DC75, DC76, DN60 AND DAS85...... 59
; 30. HARDWARE BITS
; 30.1 FOR BOTH KA10 AND KI10 PROCESSORS............. 67
; 30.2 FOR KA10 PROCESSOR (APR, PI, PC).............. 68
; 30.3 FOR KI10 PROCESSOR............................ 71
; 30.4 FOR KL10 PROCESSOR............................ 76
; 30.5 FOR KS10 PROCESSOR............................ 81
; 30.6 FOR KS10 UBA AND DEVICES...................... 84
; 31. KI10/KL10/KS10 PAGE MAP LAYOUT........................ 86
; 32. FEATURE TEST SWITCHES WHICH MUST BE ON................ 91
; 33. SYSTEM MACROS
; 33.1 GENERAL....................................... 92
; 33.2 NETSER INTERLOCK MANAGEMENT................... 94
; 33.3 STOPCD........................................ 97
; 33.4 FRAME......................................... 99
; 33.5 TEXT CONCATENATION............................ 100
; 33.6 SOPDEF, GOPDEF, GSOPDEF....................... 102
; 33.7 METER POINT................................... 103
; 33.8 EXECUTIVE EXECUTE............................. 104
; 33.9 KL10 SPECIFIC................................. 105
; 33.10 SOFTWARE INTERRUPTS........................... 110
; 33.11 TWO SEGMENT MONITOR........................... 111
; 33.12 UUO ERROR CODE GENERATOR...................... 112
; 33.13 MULTI PROCESSING.............................. 113
; 33.14 DISK AND TAPE PI CONTROL...................... 114
; 33.15 QUEUE DEFINITIONS............................. 116
; 34. OPDEFS................................................ 117
; 35. MONITOR/USER SYMBOL PREFIXES.......................... 118
; 36. DEFINE THE SYMBOLS FOR THE LINK PSEUDO OPERATIONS..... 120
; 37. KLINIK DEFINITIONS.................................... 120
SUBTTL ACCUMULATOR ASSIGNMENTS -- COMMENT.
COMMENT |
On October 13, 1983 (a thursday), all the accumulator names were
shuffled to provide an order which could be somewhat consistent with
TOPS20 usage. The TOPS10 AC names remain unchanged, only their order
has been shifted. There are now an additional two sets of AC names,
invoked by the D36SYM and T20SYM macros. The relationship of the name
sets is described below:
NUMBER TOPS10 TOPS20 DECNET
(0) S F FREE0
(1) P P P
(2) T1 T1 T1
(3) T2 T2 T2
(4) T3 T3 T3
(5) T4 T4 T4
(6) W Q1 T5
(7) M Q2 T6
(10) U Q3 FREE1
(11) P1 P1 P1
(12) P2 P2 P2
(13) P3 P3 FREE2
(14) P4 P4 MS
(15) J P5 MB
(16) F P6(.FP) (.FP)
(17) R CX CX
The column listed "TOPS20" is not the real TOPS20 order, merely an
order which approximates the TOPS20 order. On a true TOPS20 system,
the AC "P" is 17, and all the other ACs shift down by one. Regrettably,
TOPS10 code knows too much about where P lives to be able to shift
its stack pointer to comply with TOPS20.
|
SUBTTL ACCUMULATOR ASSIGMENTS - TOPS10
DEFINE T10SYM,<
XPP S,0 ;*I/O DEVICE STATUS WORD (SEE BELOW FOR BITS)
XPP P,1 ;*PUSH DOWN POINTER (SEPERATE LIST FOR EACH PI CHANNEL
; AND EACH USER JOB)
XPP T1,2 ;TEMPORARY (OCCASIONALLY PRESERVED ACROSS SUBROUTINES)
XPP T2,T1+1 ;TEMPORARY (ALSO OCCASIONALLY PRESERVED)
XPP T3,T2+1 ;TEMPORARY (IN SCNSER, CURRENT CHARACTER)
XPP T4,T3+1 ;TEMPORARY
;*ADDRESS OF DEVICE SERVICE ROUTINE'S DISPATCH TABLE
XPP W,6 ;*ADDRESS OF PDB
XPP M,7 ;*CURRENT UUO IN PROGRESS
XPP U,10 ;LDB POINTER
;UNIT DATA BLOCK POINTER
XPP P1,11 ;PERMANENT AC'S
;*USER I/O CHANNEL NUMBER
XPP P2,P1+1
XPP P3,P2+1
XPP P4,P3+1 ;CONTENTS OF 2ND WORD OF USER BUFFER ON UUOS
XPP J,15 ;JOB NUMBER
;KONTROLLER DATA BLOCK (FILSER)
;STATION DATA BLOCK (NETSER)
XPP F,16 ;ADDRESS OF DDB
XPP R,17 ;RELOCATION REGISTER, LARGELY OBSOLETE.
; HIGHEST ADDRESS IN USER JOB (VMSER)
; OFTEN USED AS POINTER TO NON-0 SECTIONS
DEFINE PURGEACS,<PURGE S,T1,T2,T3,T4,W,M,U,P1,P2,P3,P4,J,F,R>
> ;END DEFINE T10SYM
T10SYM ;SINCE THIS IS THE DEFAULT SET, INVOKE MACRO NOW.
SUBTTL ACCUMULATOR ASSIGNMENTS - TOPS20 COMPATIBLE
DEFINE T20SYM,<
F=0 ;GENERAL FLAG REGISTER - PRESERVED
P=:1 ;UNIVERSAL STACK
T1=:2 ;GENERAL TEMPORARY
T2=:3
T3=:4
T4=:5
Q1=6 ;SECOND SET OF PRESERVED
Q2=7
Q3=10
P1=:11 ;PRESERVED ACS
P2=:12
P3=:13
P4=:14
P5=15
P6=16
.FP=P6 ;FRAME POINTER FOR TRVAR
CX=17
.SAC=CX
.A16=CX ;MACSYM WANTS .A16 FOR TRVAR'S CX.
OPDEF CALL [PUSHJ P,0] ;HAS TO BE REDEFINED 'CAUSE P CHANGES
OPDEF RET [POPJ P,0] ;;ALSO HAS TO BE REDEFINED
.NODDT CALL,RET
DEFINE JSERR(B,C,D),<PRINTX ?JSERR MACRO NOT SUPPORTED UNDER TOPS10>
DEFINE PURGEACS,<PURGE F,T1,T2,T3,T4,Q1,Q2,Q3,P1,P2,P3,P4,P5,P6,CX>
> ;END DEFINE T20SYM
SUBTTL ACCUMULATOR ASSIGNMENTS - DECNET-36
DEFINE D36SYM,<
T20SYM ;SET UP TOPS20 AC SET
PURGE F,Q1,Q2,Q3,P3,P4,P5,P6 ;BLOW AWAY ACS THAT DECNET REDEFINES
FREE0=0 ;AVAILABLE FOR USE. CAN'T BE USED AS INDEX
P=:1 ;STACK
T1=:2 ;TEMPORARY
T2=:T1+1
T3=:T2+1
T4=:T3+1
T5=T4+1 ;EXTRA TEMP FOR EXTEND INSTRUCTIONS.
T6=T5+1 ;ANOTHER EXTRA TEMP
FREE1==10 ;AVAILABLE AC
P1=:11 ;FIRST PRESERVED AC
P2=:P1+1
FREE2==13 ;ANOTHER AVAILABLE AC
MS=14 ;MESSAGE SEGMENT POINTER
MB=15 ;MESSAGE BLOCK POINTER
;16 ;FRAME POINTER. USED IN DECNET,DEFINED IN T20SYM
;17 ;CX. TRASH AC.
DEFINE PURGEACS,<
PURGE FREE0,P,T1,T2,T3,T4,T5,T6,MB,P1,P2,MS,FREE1,FREE2,.FP,CX
> ;END DEFINE PURGEACS
> ;END DEFINE D36SYM
SUBTTL ACCUMULATOR ASSIGMENTS -- HISTORICAL NOTES, 1983
;THE BELOW PAGES ARE INCLUDED FOR HISTORICAL REASONS. THE AC SETS DEFINED
;BELOW ARE NO LONGER OPERATIVE, BUT REFERENCES TO THESE SEQUENCES WILL BE
;FOUND IN MANY SNOOP AND RTTRP. PROGRAMS.
REPEAT 0,<
;*** ON JUNE 1,1971 ALL ACCUMULATOR NAMES WERE CHANGED TO REDUCE TO
;*** SIXTEEN NAMES. THE OLD ASSIGNMENTS WILL BE FOUND AFTER THE
;*** CURRENT ASSIGNMENTS, UNDER REPEAT 0.
;SEE FILSER.FLO FOR SUBROUTINE CALLING CONVENTIONS
;* MEANS LOADED BY UUO HANDLER ON ALL UUOS
;XPP S,0 ;*I/O DEVICE STATUS WORD (SEE BELOW FOR BITS)
;XPP P,1 ;*PUSH DOWN POINTER (SEPARATE LIST FOR EACH PI
; ; CHANNEL AND EACH USER JOB)
;XPP J,2 ;BUFFER ITEM COUNT, OR JOB NUMBER
; ;IN LEVEL D FILSER ADR OF CONTROLLER DATA BLOCK - ONE PER CONTROLLER
; ;IN REMOTE COMMUNICATIONS HANDLER ADR OF STATION DATA BLOCK
;XPP R,3 ;*LH=HIGHEST RELATIVE LOCATION IN USER AREA
;XPP F,4 ;*LH=UUOS DONE SO FAR FOR THIS DEVICE (SEE BELOW)
; ; RH=ADDRESS OF DEVICE DATA BLOCK - ONE PER FILE
;XPP U,5 ;TTY OUTPUT BUFFER POINTER FOR COMMANDS, ERROR
; ; MESSAGES, ETC. ;OR TEMPORARY
; ;ADDRESS OF 3 WORD BUFFER HEADER IN USER AREA
; ;IN LEVEL D FILSER ADR OF UNIT DATA BLOCK - ONE FOR EACH DISK UNIT
; ; (POSITIONER) EVEN IF SAME TYPE
; ;IN TERMINAL HANDLER ADR OF LINE DATA BLOCK OF THIS TTY
;XPP T1,6 ;TEMPORARY (SOMETIMES PRESERVED ACROSS SUBRTNS)
;XPP T2,T1+1 ;TEMPORARY (SOMETIMES PRESERVED ACROSS SUBRTNS)
; ;IN TERMINAL HANDLER CHARACTER ADDRESS IN CHARACTER POOL
;XPP T3,T2+1 ;TEMPORARY
; ;IN TERMINAL HANDLER CHARACTER (SEVEN BIT ASCII)
;
;XPP T4,T3+1 ;*ADDRESS OF DEVICE SERVICE ROUTINE'S DISPATCH TABLE
;
;0 THRU 11 SAVED FOR LEVEL D
;
;XPP W,12 ;*ADDRESS OF PDB
;XPP M,13 ;*CURRENT UUO IN PROGRESS
; ; R IN INDEX FIELD FOR RELOCATION
;XPP P1,14 ;PERMANENT AC'S
; ;*USER I/O CHANNEL NUMBER
;XPP P2,P1+1 ;
;XPP P3,P2+1 ;
;XPP P4,P3+1 ;CONTENTS OF 2ND WORD OF USER BUFFER ON UUOS
; ;CONTAINS ADR. OF CDB ON APR AND CLK INTERRUPTS
;
;XPP .FP,17 ;FRAME POINTER AC FOR TRVAR - SEE .TRSET.
; ;DEFINED HERE SO WE CAN MOVE IT AROUND.
SUBTTL ACCUMULATOR ASSIGMENTS -- HISTORICAL NOTES, 1971
;*** THESE TWO PAGES ARE INCLUDED FOR HISTORICAL REASONS AS
;*** A REFERENCE. NOTE THAT THEY ARE NOT ASSEMBLED.
;ACCUMULATOR ASSIGNMENTS
;
;* MEANS LOADED BY UUO HANDLER ON ALL UUOS
;
;XP IOS,0 ;*I/O DEVICE STATUS WORD (SEE BELOW FOR BITS)
;XP TAC,6 ;TEMPORARY (SOMETIMES PRESERVED ACROSS SUBRTNS)
;XP TAC1,7 ;TEMPORARY (SOMETIMES PRESERVED ACROSS SUBRTNS)
;XP PDP,1 ;*PUSH DOWN POINTER (SEPARATE LIST FOR EACH PI
; ; CHANNEL AND EACH USER JOB)
;XPP ITEM,2 ;BUFFER ITEM COUNT, OR JOB NUMBER
;XPP DAT,5 ;TTY OUTPUT BUFFER POINTER FOR COMMANDS, ERROR
; ; MESSAGES, ETC. ;OR TEMPORARY
;XP JBUF,DAT ;ADDRESS OF 3 WORD BUFFER HEADER IN USER AREA
;XP DEVDAT,4 ;*LH=UUOS DONE SO FAR FOR THIS DEVICE (SEE BELOW)
; ; RH=ADDRESS OF DEVICE DATA BLOCK
;XP PROG,3 ;*LH=HIGHEST RELATIVE LOCATION IN USER AREA
; ; RH=ABSOLUTE ADDRESS OF USER AREA
;XP JDAT,PROG ;*RH=ADDRESS OF JOB DATA AREA
; ; LH=HIGHEST RELATIVE LOCATION IN USER AREA
;XP TEM,10 ;TEMPORARY USED ONLY IN SCNSER I/O ROUTINE
;
;ONLY 0 THRU 10 SAVED FOR INTERRUPT SERVICE - LEVEL C AND BEFORE
;
;XP DSER,11 ;*ADDRESS OF DEVICE SERVICE ROUTINE'S DISPATCH TABLE
;
;0 THRU 11 SAVED FOR LEVEL D
;
;XP BUFPNT,12 ;CONTENTS OF FIRST WORD OF 3 WORD USER BUFFER HEADER
;XPP UCHN,BUFPNT ;*USER I/O CHANNEL NUMBER
;XP BUFWRD,17 ;CONTENTS OF 2ND WORD OF USER BUFFER
;XPP UUO,13 ;*CURRENT UUO IN PROGRESS
; ; PROG IN INDEX FIELD FOR RELOCATION
;XP AC1,14 ;TEMPORARY AC'S (MORE TEMPORARY THAN TAC,TAC1)
;XP AC2,15 ;
;XP AC3,16 ;
;ACCUMULATOR ASSIGNMENTS (LEVEL D)
;SEE FILSER.FLO FOR SUBROUTINE CALLING CONVENTIONS
;
;GLOBAL - INTERRUPT AND UUO LEVELS
;
;XPP S,IOS ;DEVICE IO STATUS
;XPP P,PDP ;PUSH DOWN POINTER
;XP K,ITEM ;ADR. OF CONTROLLER DATA BLOCK - ONE FOR EACH CONTROLLER
;XPP R,PROG ;JOB RELOCATION (RH) PROTECTION(LH)
;XPP F,DEVDAT ;ADR. OF DEVICE DATA BLOCK - ONE FOR EACH FILE - USER PAIR
;XP U,DAT ;ADR. OF UNIT DAT BLOCK - ONE FOR EACH DISK UNIT (POSITIONER)
; ;EVEN IF SAME TYPE
;
;TEMPORARY - INTERRUPT AND UUO LEVELS - NEED NEVER BE PUSHED BEFORE USE
;
;XPP T,TAC ;FIRST OF 4 CONSECUTIVE TEMP ACS
;XPP T1,TAC1 ;SECOND OF 4 CONSECUTIVE TEMP ACS
;XPP T2,TEM ;THIRD OF 4 CONSECUTIVE TEMP ACS
;XPP T3,DSER ;FOURTH OF 4 CONSECUTIVE TEMP ACS
;
;GLOBAL - UUO LEVEL ONLY
;
;XPP UCHN,UCHN ;
;XPP UUO,UUO ;
;
;PRESERVED - INTERRUPT AND UUO LEVELS - MUST BE PUSHED BEFORE BEING USED
;
;XPP P1,AC1 ;4 CONSECUTIVE ACS
;XPP P2,AC2 ;
;XPP P3,AC3 ;
;XPP P4,BUFWRD ;
;
;
;DEFINITIONS FOR TERMINAL HANDLERS - SCNSER,BTHINT(ETC),COMCON,ERRCON,ONCE
;
;XP LINE,U ;ADDRESS OF LINE DATA BLOCK OF THIS TTY
;XP CH,TEM ;CHARACTER (SEVEN BIT ASCII)
;XP CA,T1 ;CHARACTER ADDRESS IN CHARACTER POOL
;
> ;*** END REPEAT 0
SUBTTL ABSOLUTE LOCATIONS IN LOWER MEMORY
XPP BOOTPA,20 ;PHYSICAL LOCATION OF BOOTSTRAP
XPP CLKDDT,21 ;JUMP TO EDDT IF DEBUG SET AND THIS NON-ZERO
XPP BOOTWD,22 ;APR SERIAL NUMBER STORED BY BOOT
;LOCATIONS 22 & 23 USED BY BOOT FOR RH10 CCW
XPP CRSDTM,24 ;CRASH DATE,,TIME(SECS)
XPP CRSWHY,25 ;CRASH NAME (REASON)
XPP CRSCHK,26 ;CRASH CHECKSUM (24+25)
XPP CPNDDT,27 ;SET NON-ZERO IF WE HIT A DDT BREAKPOINT.
; CAUSES ALL OTHER CPU'S TO LOOP IN THE AC'S
; UNTIL THIS WORD IS CLEARED AGAIN.
XPP CRSHWD,30 ;NORMALLY THIS WORD WILL BE 0. IF IT IS ACCIDENTALLY
; OR PURPOSEFULLY OVERWRITTEN THE MONITOR WILL
; ATTEMPT TO SAVE THE AC'S AND THE STATE OF
; ALL DEVICES, THEN HALT. [A LA 407 RESTART]
;LOCATIONS 31-35 ARE RESERVED FOR KS10 SYSTEMS. DEFINITIONS FOR THESE
;LOCATIONS APPEAR LATER IN THIS FILE.
XPP CRSSTS,36 ;RH = CONTENTS OF THE STATES WORD AS
; SET BY THE OPR. RESTORED UPON AUTO-RELOAD
; AFTER A CRASH.
XPP SYSSNP,37 ;WHEN DEPOSITED NON-ZERO, PRINTS SNAP SHOT OF SYSTEM
; ON LPT (SEE MOVIE SUBPROGRAM)
XPP FORTY,40 ;PLACE WHERE UUOS ARE STORED ON TRAP
XPP FLTINL,50 ;50-57 RESERVED FOR FAULT INSERTION
XPP SIXTY,60 ;PLACE WHERE UNIMPLEMENTED INSTRUCTIONS ARE
; STORED ON TRAP (PDP10 ONLY)
XPP ARSLOC,70 ;POWER FAIL RESTART LOCATION
XPP KAFLOC,71 ;KEEP ALIVE FAILURE RESTART LOCATION
XPP WRSINS,72 ;WARM RESTART LOCATION
XPP LITES,77 ;DUMP PERFORMANCE DATA HERE (METER UUO)
; FOR SAMPLING WITH PROBES
XPP WRSLOC,100 ;PC AND CODE STORED HERE ON WARM RESTART BY RSX-20F
SUBTTL DEVICE DATA BLOCK (DDB)
;;!=========================================================================!
;;! DEVICE NAME IN SIXBIT !
;;!-------------------------------------------------------------------------!
;;!LC!MD! !N!FREE !HTIME! HUNG TIMER !F! BUFFER SIZE !
;;!-------------------------------------------------------------------------!
;;! IO STATUS WORD !
;;!-------------------------------------------------------------------------!
;;! NEXT DDB ! DEVICE SERVICE POINTER !
;;!-------------------------------------------------------------------------!
;;! DEVICE CHARACTERISTICS (DEVCHR UUO) !
;;!-------------------------------------------------------------------------!
;;! LOGICAL NAME IN SIXBIT !
;;!-------------------------------------------------------------------------!
;;! OUTPUT BUFFER HEADER ! INPUT BUFFER HEADER !
;;!-------------------------------------------------------------------------!
;;! FLAGS ! "R" ! INPUT BUFFER TO FILL !
;;!-------------------------------------------------------------------------!
;;! FLAGS ! "R" ! OUTPUT BUFFER TO EMPTY !
;;!-------------------------------------------------------------------------!
;;! DEVICE STATUS (LAST CONI) !
;;!-------------------------------------------------------------------------!
;;!SP!AV!L!R! DEVTYP !I! SPOOL BITS !A!I!O!N!M!E!T!F!DSK PRI!U!-! STA # !
;;!-------------------------------------------------------------------------!
;;! EVM IN USE FOR I/O !
;;!-------------------------------------------------------------------------!
;;!IP! IRF MASK ! SPARE? ! DEFER BITS ! VECT. OFF. !
;;!-------------------------------------------------------------------------!
;;!FO!FF!S! **FREE** ! FOR FILSER ! UNIT # ! JOB # !
;;!-------------------------------------------------------------------------!
;;! FILE NAME IN SIXBIT !
;;!-------------------------------------------------------------------------!
;;! EXTENSION ! !
;;!-------------------------------------------------------------------------!
;;! PROJ # ! PROG # !
;;!=========================================================================!
XP DEVNAM,0 ;NAME IN SIXBIT ASCII
; C(LH)=DEVICE MNEMONIC
; C(RH)=DEVICE NUMBER, LEFT JUSTIFIED
XP DEVCHR,1 ;CHARACTERISTIC
; XP DEVSWP,DEVCHR ;WORD WHICH CONTAINS SWAPPER DDB FLAG BIT
; XP DEPSWP,400000 ;BIT 0=SWAPPER DDB
;BIT 0-***FREE FOR NOW***
XP DVCMDA,200000 ;BIT 1-DEVICE IS CONTROLLED BY THE
; MOUNTABLE DEVICE ALLOCATOR
XP DVLPTL,100000 ;BIT 2=LOWER CASE LPT
XP DVDIBP,40000 ;DEVICE IS A BATCH PTY
XP DVCNET,20000 ;DEVICE CONTROLLED BY NETSER
XP DVOFLN,10000 ;DEVICE WAS OFF-LINE THE LAST TIME THE
; SERVICE ROUTINE WAS POLLED
XP DVC2IO,4000 ;DEVICE CAN DO SIMULTANEOUS INPUT AND OUTPUT
XP HUNGST,400 ;BITS 7-9 ARE A CODE FOR HUNG DEVICE
; TIMEOUT. 0 MEANS DEVICE CANNOT BE HUNG
; 1-7 MEANS HUNG TIME IS 2**N-1 SECONDS
; POINTER = PDVTIM
;BITS 10-16 ARE THE COUNTDOWN TIMER
; FOR HUNG DEVICE. POINTER = PDVCNT
; TRANSITION TO ZERO MEANS DEVICE HUNG
; BITS 17-18 FREE
; BITS 19-35=BUFFER SIZE
XP DEVIOS,2 ;STATUS WORD. SEE BELOW
XP DEVSER,3 ;C(LH)=NEXT DEVICE DATA BLOCK
; C(RH)=DEVICE SERVICE DISPATCH TABLE
; DEVICE SERVICE DISPATCH TABLE ASSIGNMENTS
XP DOFL,-5 ;DEVICE OFF-LINE?
XP DDVO,-4 ;DEVOP UUO
XP DSZ,-3 ;RETURN BUFFER SIZE
XP DINI,-2 ;DEVICE INITILIZATION
XP DHNG,-1 ;DEVICE IS HUNG
XP DRL,0 ;RELEASE
XP DCL,1 ;CLOSE
XP DCLO,DCL ;CLOSE OUTPUT
;IMMEDIATE ADDRESS PART OF CLOSE UUO
XP CLSOUT,1 ;INHIBIT CLOSING OUTPUT
XP CLSIN,2 ;INHIBIT CLOSING INPUT
XP CLSDLL,4 ;INHIBIT DEALLOCATION ON CLOSE OUTPUT
XP CLSACC,10 ;INHIBIT UPDATE OF ACCESS DATE ON READS (AND BAT BLOCK ON ERR)
XP CLSNMB,20 ;INHIBIT DELETING NMB ON CLOSE WITH ONLY LOOKUP
XP CLSRST,40 ;RESET (INHIBIT SUPERSEDE/CREATE)
XP CLSDAT,100 ;DELETE ACCESS TABLE ON CLOSE
XP DOU,2 ;OUTPUT
XP DIN,3 ;INPUT. SHORT DISPATCH TABLE
XP DEN,4 ;ENTER
XP DLK,5 ;LOOKUP
XP DDO,6 ;DUMP MODE OUTPUT
XP DDI,7 ;DUMP MODE INPUT
XP DSO,10 ;SETO
XP DSI,11 ;SETI
XP DGF,12 ;GETF UUO
XP DRN,13 ;RENAME
XP DCLI,14 ;CLOSE INPUT
XP DCLR,15 ;CALL D,[SIXBIT /UTPCLR/]
XP DMT,16 ;MTAPE
; END OF LONG DISPATCH TABLE
XP DEVMOD,4 ;BIT 35-J=1 IF MODE J IS LEGAL FOR THIS DEVICE
; BIT 18 DEVICE ASSIGNED BY CONSOLE COMMAND
; BIT 19 DEVICE ASSIGNED BY PROGRAM (INIT)
; SEE I/O STATUS WORD ASSIGNMENTS
;RIGHT HALF OF DEVICE CHARACTERISTICS WORD (DEVCHR UUO)
XP ASSCON,400000 ;ASSIGNED BY CONSOLE COMMAND ASSIGN
XP ASSPRG,200000 ;ASSIGNED BY PROGRAM (INIT UUO)
;LEFT HALF DEVICE CHARACTERISTICS (DEVCHR UUO)
XP DVOUT,1 ;OUTPUT DEVICE
XP DVIN,2 ;INPUT DEVICE
XP DVDIR,4 ;HAS A DIRECTORY
XP DVTTY,10 ;IS A TTY
XP DVMTA,20 ;IS A MAG TAPE (REWIND)
XP DVAVAL,40 ;1 IF DEVICE IS AVAILABLE TO THIS JOB
; SET BY DEVCHR UUO
XP DVDTA,100 ;IT IS A DECTAPE
XP DVPTR,200 ;IS A PAPER TAPE READER
XP DVPTP,400 ;IS A PAPER TAPE PUNCH
XP DVLNG,1000 ;DEVICE HAS LONG DISPATCH TABLE
; (OTHER UUOS BESIDES INPUT,OUTPUT,CLOSE,RELEASE)
XP DVDIS,2000 ;IS A DISPLAY
XP TTYBIU,4000 ;TTY DDB IN USE (AS I/O DEVICE EVEN IF
; NOT AS USER CONSOLE)
XP TTYUSE,10000 ;TTY DDB IN USE FLAG
XP TTYATC,20000 ;TTY ATTACHED TO JOB IF 1
XP DVLPT,40000 ;IS A LPT (CARRIAGE CONTROL IN FORTRAN)
XP DVCDR,100000 ;IS A CARD READER (TRAILING SPACES FOR MACRO)
XP DVDSK,200000 ;IS A DISK
XP DVDIRIN,400000 ;DECTAPE DIRECTORY IN CORE IF 1 (MUST BE SIGN BIT)
XP DVCHN,DVMTA!DVDSK ;I/O IS DONE DIRECTLY TO MEMORY (KI10)
XP DEVLOG,5 ;LOGICAL NAME FOR JOB DEVICE
XP DEVBUF,6 ;C(LH)=REL. ADDRESS OF 3 WORD OUTPUT BUFFER HEADER
; C(RH)=REL. ADDRESS OF 3 WORD INPUT BUFFER HEADER
XP DEVIAD,7 ;C(LH)=R IN INDEX FIELD
;BITS 1 AND 2 CONTAIN THE COUNT OF NUMBER OF USER
; CHANNELS INIT'ED ON THIS DEVICE (DECTAPE ONLY)
; IADPTR-COMMON BYTE POINTER TO 2 BIT COUNT
;C(RH)=RELATIVE ADDRESS OF INPUT BUFFER THE
; SERVICE ROUTINE IS FILLING.
XP DEVADR,DEVIAD
XP DEVOAD,10 ;C(LH)=R IN INDEX FIELD
;C(RH)=RELATIVE ADDRESS OF OUTPUT BUFFER THE
; SERVICE ROUTINE IS EMPTYING.
XP DEVPTR,DEVOAD
XP DEVSTS,11 ;WORD FOR DEVICE CONI
XP DEVSTA,12 ;STATION NUMBER IN RIGHT 6 BITS
XP DEVDPR,DEVSTA ;BITS 26-29 = DISK PRIORITY
XP DEPUUO,10 ;PRIORITY SET BY A UUO
XP MINDPR,4 ;BITS 28-29 ARE NEGATIVE
;BITS 28-29 ARE ACTUAL PRIORITY
XP DEPDEL,2000 ;DISABLE ERROR LOGGING ON THIS DEVICE BIT 25
XP DEPDER,4000 ;DISABLE ERROR RECOVERY ON THIS DEVICE BIT 24
XP DEPEVM,10000 ;IF 1, DEVICE DOESN'T NEED EVM ON KI10 TO DO I/O
XP DEVAIO,DEVSTA ;ASYNCHRONOUS IO
XP DEPAIO,400000 ;DOING ASYNC. IO
XP DEPIND,200000 ;INPUT NOT YET DONE
XP DEPOND,100000 ;OUTPUT NOT YET DONE
XP DEVMSG,DEVSTA ;MSGSER FLAGS
XP DEPECS,40000 ;BIT 21 ON IF A NON-SUPERSEDE ENTER
XP DEPMSG,20000 ;THIS DEVICE IS CONTROLLED BY MSGSER
XP DEVSPL,DEVSTA ;BITS 11-17=SPOOL BITS
XP .SPLPT,1 ;LINE PRINTER SPOOL BIT
XP .SPPLT,2 ;PLOTTER SPOOL BIT
XP .SPPTP,4 ;PTP SPOOL BIT
XP .SPCDP,10 ;CDP SPOOL BIT
XP .SPCDR,20 ;CDR SPOOL BIT
XP .SPALL,37 ;CHANGE SPALL IF ADD NEW SPOOLING DEVS
XP DEPIBC,200 ;INHIBIT CLEARING OUTPUT BUFFERS
XP DERRAS,100 ;RIGHT ADJUSTED.
XP DERLEN,200 ;RIGHT-ADJUSTED
XP DEVTYP,DEVSTA ;BITS 4-9=CLASS (DEVTYP UUO)
XP .TYEST,400 ;RIGHTMOST BIT OF CLASS-BYTE
XP .TYDSK,0 ;DISK
XP .TYDTA,1 ;DTA
XP .TYMTA,2 ;MTA
XP .TYTTY,3 ;TTY
XP .TYPTR,4 ;PTR
XP .TYPTP,5 ;PTP
XP .TYDIS,6 ;DISPLAY
XP .TYLPT,7 ;LPT
XP .TYCDR,10 ;CDR
XP .TYCDP,11 ;CDP
XP .TYPTY,12 ;PTY
XP .TYPLT,13 ;PLT
XP .TYXTC,14 ;EXTERNAL TASK
XP .TYMPX,15 ;MPX
XP .TYPAR,16 ;PA611R READER
XP .TYPCR,17 ;PC-11 READER ON DC44
XP .TYPAP,20 ;PA611P PUNCH ON DC44
XP .TYLPC,21 ;LPC-11 TYPESET INTERFACE ON DC44
XP .TYPCP,22 ;PC-11 PUNCH ON DC44
XP .TYWTY,23 ;WTY DEVICE ON DC44
XP .TYTSK,24 ;REMOTE NETWORK TASK
XP .TYD78,25 ;DAS78 DEVICE (NOW OBSOLETE)
XP .TYRDA,26 ;REMOTE DATA ENTRY DEVICE
XP .TYMCR,27 ;HOST COMMAND INTERPRETER
XP .TYDRA,30 ;DRA
XP .TYKDP,31 ;KMC/DUP COMM GEAR
XP .TYDTE,32 ;DTE-20 COMM DEVICE
XP .TYDDP,33 ;ANF-NETWORK DDCMP DEVICE
XP .TYDMR,34 ;DMR11 AS A NETWORK DEVICE
XP .TYRX2,35 ;RX20 FLOPPY DISK CONTROLLER
XP .TYKLP,36 ;CI20 (KLIPA)
XP .TYKNI,37 ;NIA20 (KLNI)
XP .TYSAX,40 ;SA10
XP TYPMAX,40 ;HIGHEST DEVICE TYPE
XP DEPRAS,40000 ;BIT 3=1 IF DEVICE HAS RESTRICTED ASSIGNMENT
XP DEPLEN,100000 ;BIT 2=1 IF VARIABLE LENGTH BUFFERS
;BIT 1=1 IF A DSK IN 10/11 COMPATABILITY MODE
XP DEVADV,DEVSTA ;DON'T ADVANCE BUFFERS ON INTERCEPT
XP DEPADV,200000 ; IF DEPADV IS ON
XP DEPSPL,400000 ;THIS DDB IS FOR A SPOOLED DEVICE
XP DEVXTR,13 ;EXTRA WORD
;DEVXTR USEAGE BY MSGSER:
; IF THIS IS AN MPX DDB:
; LH = ADDRESS OF CONNECTED DEVICE TABLE
; RH = NUMBER OF CONNECTED DEVICES
; IF THIS IS A DDB CONTROLED BY MSGSER:
; LH = FLAGS (SAME DEFS AS LH OF USRJDA)
; RH = ADDRESS OF MPX DDB
;DEVXTR BITS USED BY FILSER (DEFINED IN COMMOD):
;DEVUVA=LH
;DEVPRI=BITS 18-20
;DEPWRT=BIT 21
;DEVBFN=BITS 22-30
;DEPPAL=BIT 31
;DEPALC=BIT 32
XP DEVEVM,14 ;WORD TO KEEP TRACK OF EXEC VIRTUAL MEMORY
; THIS DEVICE HAS
XP DEVPSI,15 ;WORD TO KEEP TRACK OF SOFTWARE INTERRUPTS
; FOR THIS DEVICE. LH-ENABLE COND. RH-PENDING INTS.
XP DEVESE,16 ; 0-17 PSISER DEVICE LINK
;18-26 PSISER VECTOR INTERRUPT
;27-35 EXTENDED SOFTWARE ERROR STATUS
XP DEVHCW,17 ;HARDWARE CHARACTERISTICS WORD
;LINEPRINTER HARDWARE CHARACTERISTICS
XP HC.LCP,1B0 ;LOWER CASE PRINTER
XP HC.PGC,1B1 ;LPT HAS A PAGE COUNTER
XP HC.VFT,7B5 ;VFU TYPE
XP .HCVTO,0 ; OPTICAL (PAPER TAPE) VFU
XP .HCVTD,1 ; DIRECT ACCESS VFU (DAVFU)
XP .HCVTN,2 ; NO VFU (HDW HANDLES LF,FF,CR)
XP HC.CST,7B8 ;CHARACTER SET TYPE
XP .HCC64,0 ; 64 CHARACTER SET
XP .HCC95,1 ; 95 CHARACTER SET
XP .HCC28,2 ; 128 CHARACTER SET
XP .HCCVR,3 ; VARIABLE CHARACTER SET
XP HC.TYP,7B11 ;LPT TYPE
XP .HCTUK,0 ;UNKNOWN
XP .HCTBX,1 ;BA10
XP .HCTLC,2 ;LP100
XP .HCT20,3 ;LP20
XP HC.TYU,7B14 ;LPT CLASS (UNIT TYPE)
XP .HCUUK,0 ;UNKNOWN/UNSPECIFIED
XP .HCULP,1 ;LP05/ETC.
XP .HCULN,2 ;LN01/ETC.
XP HC.CSN,<0,,-1> ;CHARACTER SET NAME (3 SIXBIT CHRS)
XP DEVCPU,20
;BITS 0-2 CPU NUMBER FOR 1ST CPU OWNING DEVICE
;BITS 3-5 CPU NUMBER FOR 2ND CPU OWNING DEVICE
;BITS 6-8 QUEUE-PROTOCOL NO FOR DEVICE (=0 IF RESCHEDULE)
;BITS 9-11 CPU ON WHICH IN OR OUT LAST DONE
XP DEPCPS,40 ;BIT 12=1 IF BITS 30-32 ARE VALID (DEV ON 2 CPUS)
;BITS 13-17=0
;RH=ADR OF INTERLOCK WORD (SET AT INTLOP)
XP DEVISN,21 ;SECTION NUMBER FOR I/O
XP DEPSOO,(1B0) ;AN IOWD IS ALLOWED TO CROSS A SECTION BOUNDARY
; MUST BE THE SIGN BIT
IFE FTXMON,<
;NOTE THAT DEVISN IS ALLOCATED BUT NOT USED IF FTXMON IS OFF!
>
XP DEVDRV,22 ;DRIVER DISPATCH
XP DEVJOB,23 ;JOB AND UNIT NUMBERS
;DEVLSD SHOULD ALWAYS BE EQUAL TO DEVJOB+1 USED BY SYSTAT
;ALSO, MANY PROGRAMS BELIEVE DEVJOB+1=DEVFIL SO NEW ENTRIES
; IN THE SHORT DDB SHOULD BE BEFORE DEVJOB
XP DEVLSD,DEVJOB+1 ;LENGTH OF SHORT DDB
XP DEPFOP,(1B0) ;BIT 0 = 1 IF FILOP. UUO IS IN PROGRESS
XP DEPFFA,(1B1) ;INHIBIT FULL-FILE ACCESS
XP DEPSIM,(1B2) ;DDB IS ENABLED FOR SIMULTANEOUS UPDATE
XP DEPSIE,(1B3) ;SYNCHRONIZE I/O ERROR (SET ON OPEN)
XP DEPALW,(1B4) ;ALLOCATION IS IN WORDS
;***BITS 5 AND 6 ARE FREE***
;BITS 7-17 ARE USED BY FILSER
;BITS 18-26 ARE UNIT NUMBER (PUNIT)
;BITS 27-35 ARE THE JOB NUMBER (PJOBN)
XP DEVCTR,24
XP DEVCID,DEVCTR ;CURRENT INPUT DEVICE (USED BY MSGSER
; TO ROUND ROBIN INPUT DEVICES)
;FOR LONG DISPATCH TABLE DEVICES ONLY:
XP DEVFIL,24 ;FILE NAME IN SIXBIT
XP DEVEXT,25 ;LH=EXTENSION, RH=UNUSED
XP DEVPPN,26 ;PROJECT,PROGRAMMER NUMBER (DISK ONLY)
; OTHER DEVICES NEED NOT HAVE THIS LOCATION IN THEM.
XP DEVLLD,DEVPPN+1 ;LENGTH OF LONG DDB
IFN FTKL10&FTMP,<
XP DEVNBF,27 ;NO. OF BUFFERS SWEPT FOR (QUEUED PROTOCOL ONLY)
XP DEVSBF,30 ;COPY OF DEVNBF WHEN SWITCHING INPUT/OUTPUT
XP DEVCSN,31 ;CACHE SWEEP NO. (QUEUED PROTOCOL)
>
XP DEVLEN,32 ;LENGTH OF COMMON DDB
SUBTTL FLAG BITS -- S AND DEVIOS(F)
; I/O STATUS WORD ASSIGNMENTS - THESE ARE THE "MODE" OF DEVMOD
;DATA MODES: BITS 32-35 (BYTE POINTER=PIOMOD)
XP A,0 ;ASCII
XP AL,1 ;ASCII LINE
XP PIMMOD,2 ;PACKED IMAGE MODE
XP BYTMOD,3 ;BYTE-MODE
XP A8,4 ;8-BIT ASCII MODE
XP I,10 ;IMAGE
XP IB,13 ;IMAGE BINARY
XP B,14 ;BINARY
XP SD,15 ;SCOPE DUMP MODE
XP DR,16 ;DUMP BY RECORDS
XP D,17 ;DUMP ACROSS RECORDS
; STATUS BITS
;RIGHT HALF (USER)
XP IOWC,20 ;DON'T COMPUTE WORD COUNT
XP IOCON,40 ;CONTINUOUS (CONT=0)
XP IONRCK,100 ;READ WITH NO REREAD CHECK
;BITS 27,28 DENSITY OF MAG TAPE
; 00=INSTALLATION STANDARD
; 01=200 BPI
; 10=556 BPI
; 11=800 BPI
XP IOPAR,1000 ;WRITE EVEN PARITY (BCD) IF 1 ON MAG TAPE
XP IOHDER,1000 ;ON IF SEARCH ERROR
; NEVER STORED IN DDB, ONLY USED
; IN CALLS BETWEEN CONTROLLER ROUTINES
XP IOTEND,2000 ;END OF MAG TAPE
XP IOVRUN,2000 ;ON IF AN OVERRUN
; NEVER STORED IN DDB, ONLY USED IN
; CALLS BETWEEN CONTROLLER ROUTINES
XP IOBOT,4000 ;BEGINNING OF MAG TAPE
XP IOECCX,4000 ;ECC RECOVERABLE ERROR
; NOTE:NEVER STORED IN MEMORY IN DDB.
; ONLY USED IN CALLS BETWEEN CONTROLLER
XP IOACT,10000 ;DEVICE ACTIVE
XP IOCHNX,10000 ;CHANNEL DETECTED NON-EX MEM OR DATA LATE (OVER-RUN)
; NOTE: NEVER STORED IN MEMORY IN DDB.
; ONLY USED IN CALLS BETWEEN CONTROLLER ROUTINES
XP IODEND,20000 ;DATA END ENCOUNTERED
XP IOCHMP,20000 ;CHANNEL DETECTED MEMORY PARITY ERROR
; NOTE: NEVER STORED IN MEMORY IN DDB.
; ONLY USED IN CALLS BETWEEN CONTROLLER ROUTINES.
XP IOBKTL,40000 ;BLOCK TOO LARGE
XP IODTER,100000 ;DATA ERROR-IE HARDWARE OR SOFTWARE PARITY AND/OR
; CHECKSUM INDICATES DATA MAY BE BAD
XP IODERR,200000 ;DEVICE ERROR-IE THE DEVICE IS BAD
; THE DATA IS PROBABLY INTACT ON THE MEDIUM
; IF READING (USUAL)
; THE DATA IS PROBABLY INCORRECTLY WRITTEN
; ON THE MEDIUM
; IF WRITING (UNUSUAL)
XP IOIMPM,400000 ;IMPROPER MODE DETECTED BY UUOCON OR DEVICE
; SERVICE ROUTINE
IOERR=IOBKTL!IODTER!IODERR!IOIMPM ;ALL ERROR BITS
; LEFT HALF (SYSTEM)
XP IOW,1 ;I/O WAIT
XP IOBEG,2 ;VIRGIN DEVICE
XP IOFST,4 ;NEXT ITEM WILL BE THE FIRST ITEM OF A BUFFER
XP IOSTBL,10 ;DEVICE ERROR FLAG
XP IO,20 ;OUT=1, IN=0
XP IOEND,40 ;SERVICE ROUTINE HAS TRANSMITTED LAST DATA
XP IOSDMR,100 ;TSKSER ONLY. DISABLE MESSAGE RE-ASSEMBLY
;REST OF BITS IN LH ARE DEVICE DEPENDENT
;COMMAND DECODER USE OF AC S:
;RH=DISPATCH ADDRESS - SAVJOB,GETJOB,RUNJOB
;LH:
XP NSRBIT,400000 ;HIGH SEG TO BE FLAGGED NON-SHARABLE (SAVE VS SSAVE
; COMMAND) DO NOT CONFUSE WITH SIGN BIT OF JBTSTS
; WHICH SAYS SEG IS SHARABLE
SUBTTL FLAG BITS -- UUOS
;BITS FOR DETERMINING IF UUO REFERS TO PHYSICAL DEVICES ONLY
XP UPHNLY,200000 ;UPHNLY NOT= BIT 18 IF PHYS ONLY
XP PHONLY,400000 ;BIT ON IN LH(W) IF PHYS ONLY
;BITS IN LH OF FIRST (0) ARG OF OPEN UUO
XP .OPPDO,400000 ;PHYSICAL DEVICE ONLY (NO LOGICAL)
XP .OPDEL,200000 ;DISABLE ERROR LOGGING (DAEMON
; COUNTS NOT UPDATED - SYSERR NOT UPDATED)
; USED BY USER MODE
XP .OPFSP,.OPDEL ;FULL SCNSER PTY
XP .OPDER,100000 ;DISABLE ERROR RETRY
; USED BY MODE DIAGNOSTIC
XP .OPBJP,.OPDER ;BATCH JOB PTY
XP .OPDMR,.OPBJP ;TSKSER ONLY. DISABLE MESSAGE RE-ASSEMBLY
XP .OPAIO,40000 ;ASYNCHRONOUS (NON-BLOCKING) I/O
XP .OPIBC,20000 ;INHIBIT OUTPUT BUFFER CLEARING
XP .OPSIE,10000 ;SYNCHRONIZE I/O ERRORS
XP .OPRRC,4000 ;REWRITE RIB ON CHANGE
XP .OPLBF,2000 ;USE LARGE DISK BUFFERS
XP .OPALL,776000 ;ALL THE ABOVE OPEN BITS. USED TO TEST
; FOR UNDEFINED BITS BEING SET.
;BITS RETURNED BY DEVTYP UUO(LH)
XP .TYMAN,400000 ;LOOKUP/ENTER MANDATORY
XP .TYAVL,DVAVAL
XP .TYSPL,20 ;DEVICE BEING SPOOLED ONTO DISK
XP .TYINT,DVTTY
XP .TYVAR,4 ;USER CAN SET VARIABLE-LENGTH BUFFERS
XP .TYIN,DVIN
XP .TYOU,DVOUT
XP TY.MPX,(1B11) ;RETURNED IF CNECT. WILL WORK
XP TY.LL,(1B10) ;IF LPT THEN LOWER CASE
XP TY.MDA,(1B9) ;DEVICE IS CONTROLLED BY MDA
XP TY.GEN,(1B8) ;DEVICE IS GENERIC
;BITS IN RH OF EXTENDED LOOKUP WORD 0
XP RB.NSE,1B18 ;NON-SUPERSEDING ENTER
XP RB.DSL,1B19 ;DON'T SEARCH LIB
XP RB.AUL,1B20 ;ALLOW UPDATE/RENAME IN LIB
XP RB.NLB,1B21 ;NO LOAD BALANCING
XP RB.BIT,RB.NSE!RB.DSL!RB.AUL!RB.NLB
;BIT IN LH (UUO) - FOR LOCAL (TEMPORARY USE) ONLY
XP GENSRC,400000 ;BIT SET IF DVASRC SUCCESS
;FROM UUOCON INIT CALL
;UNIVERSAL I/O INDEX VALUES, FOR STANDARDIZED I/O UUO'S
;PREFIX .UX
XP .UXCHN,0 ;I/O CALLED BY CHANNEL NUMBER (AC OF UUO'S)
XP .UXTRM,200000 ;I/O CALLED BY TERMINAL INDEX
;LEFT HALF USRJDA (JOB DEVICE ASSIGNMENTS) UUO'S FOR THIS CHANNEL SINCE LAST INIT
;SET IN LH OF F NOT= BIT 18 IF PHYS ONLY
XP PHONLY,400000 ;BIT ON IN LH(W) IF PHYS ONLY
;BITS IN LH OF FIRST (0) ARG OF OPEN UUO
XP .OPPDO,400000 ;PHYSICAL DEVICE ONLY (NO LOGICAL)
XP .OPDEL,200000 ;DISABLE ERROR LOGGING (DAEMON
; COUNTS NOT UPDATED - SYSERR NOT UPDATED)
; USED BY USER MODE
XP .OPFSP,.OPDEL ;FULL SCNSER PTY
XP .OPDER,100000 ;DISABLE ERROR RETRY
; USED BY MODE DIAGNOSTIC
XP .OPBJP,.OPDER ;BATCH JOB PTY
XP .OPDMR,.OPBJP ;TSKSER ONLY. DISABLE MESSAGE RE-ASSEMBLY
XP .OPAIO,40000 ;ASYNCHRONOUS (NON-BLOCKING) I/O
XP .OPIBC,20000 ;INHIBIT OUTPUT BUFFER CLEARING
XP .OPSIE,10000 ;SYNCHRONIZE I/O ERRORS
XP .OPRRC,4000 ;REWRITE RIB ON CHANGE
XP .OPLBF,2000 ;USE LARGE DISK BUFFERS
XP .OPCFS,1000 ;CFP SUPPLIED ON LOOKUP
XP .OPALL,777000 ;ALL THE ABOVE OPEN BITS. USED TO TEST
; FOR UNDEFINED BITS BEING SET.
;BITS RETURNED BY DEVTYP UUO(LH)
XP .TYMAN,400000 ;LOOKUP/ENTER MANDATORY
XP .TYAVL,DVAVAL
XP .TYSPL,20 ;DEVICE BEING SPOOLED ONTO DISK
XP .TYINT,DVTTY
XP .TYVAR,4 ;USER CAN SET VARIABLE-LENGTH BUFFERS
XP .TYIN,DVIN
XP .TYOU,DVOUT
XP TY.MPX,(1B11) ;RETURNED IF CNECT. WILL WORK
XP TY.LL,(1B10) ;IF LPT THEN LOWER CASE
XP TY.MDA,(1B9) ;DEVICE IS CONTROLLED BY MDA
XP TY.GEN,(1B8) ;DEVICE IS GENERIC
;BITS IN RH OF EXTENDED LOOKUP WORD 0
XP RB.NSE,1B18 ;NON-SUPERSEDING ENTER
XP RB.DSL,1B19 ;DON'T SEARCH LIB
XP RB.AUL,1B20 ;ALLOW UPDATE/RENAME IN LIB
XP RB.NLB,1B21 ;NO LOAD BALANCING
XP RB.BIT,RB.NSE!RB.DSL!RB.AUL!RB.NLB
;BIT IN LH (UUO) - FOR LOCAL (TEMPORARY USE) ONLY
XP GENSRC,400000 ;BIT SET IF DVASRC SUCCESS
;FROM UUOCON INIT CALL
;UNIVERSAL I/O INDEX VALUES, FOR STANDARDIZED I/O UUO'S
;PREFIX .UX
XP .UXCHN,0 ;I/O CALLED BY CHANNEL NUMBER (AC OF UUO'S)
XP .UXTRM,200000 ;I/O CALLED BY TERMINAL INDEX
;LEFT HALF USRJDA (JOB DEVICE ASSIGNMENTS) UUO'S FOR THIS CHANNEL SINCE LAST INIT
;SET IN LH OF F AT BEGINNING OF UUO,STORED IN MEMORY(USRJDA) IF UUO IS SUCCESSFUL
XP INITB,400000 ;INIT-SAVEGET DEPENDS ON THIS BEING SIGN BIT
XP IBUFB,200000 ;INIT WITH INPUT BUFFER SPECIFIED
XP OBUFB,100000 ;INIT WITH OUTPUT BUFFER SPECIFIED
XP LOOKB,40000 ;LOOKUP
XP ENTRB,20000 ;ENTER
XP INPB,10000 ;INPUT
XP OUTPB,4000 ;OUTPUT
XP ICLOSB,2000 ;INPUT CLOSE
XP OCLOSB,1000 ;OUTPUT CLOSE
XP INBFB,400 ;INBUF
XP OUTBFB,200 ;OUTBUF
XP SYSDEV,100 ;THIS DEVICE IS SYSTEM TAPE OR SYSPPN ON DISK
XP RENMB,40 ;RENAME UUO IN PROGRESS (NEVER STORED IN MEMORY)
XP DSKRLB,20 ;TO DISTINGUISH RELEASE FROM RESET UUO IN DSKSER.
; RELEASE CLEARS THEM ALL - LEVEL C
XP RESETB,20 ;RESET UUO IN PROGRESS - LEVEL D (NEVER STORED IN MEMORY)
;MTAPE UUO BITS
XP SLICE,40 ;SET SLICE LEVEL IF A 1 ACCORDING TO SLEVEL
XP SLEVEL,20 ;VALUE OF SLICE LEVEL IF SLICE A 1
SUBTTL FLAG BITS -- ACCLG. UUO
AC.MAX==1B0 ;CHECK LOGMAX
AC.BMX==1B1 ;CHECK BATMAX
AC.DCR==1B2 ;DECREMENT LOGNUM COUNT
;ERROR CODES
ACLMX%==1 ;LOGMAX CHECK FAILED
ACLBM%==2 ;BATMAX CHECK FAILED
ACLIL%==3 ;ACCLG. ARGUMENT ERROR
ACLJL%==4 ;ACCLG. GOT BAD DECREMENT WITH JLOG SET
ACLDC%==5 ;ACCLG. ERROR, DECR TRIED WITHOUT INCR DONE
SUBTTL FLAG BITS -- JOBPEK UUO
XP JK.WRT,1B0 ;1=WRITE, 0=READ
XP JK.UPM,1B1 ;READ UPMP OF SPECIFIED JOB
XP JK.EVA,1B2 ;SOURCE ADDRESS IS BETWEEN 340000 AND
;377777. TREAT IT AS IF IT WERE AN
;EXEC VIRTUAL ADDRESS MAPPED THROUGH THE
;SPECIFIED JOB'S UPMP
XP JK.AIO,1B3 ;DO NOT BLOCK IF DATA INACCESSIBLE
; (ONLY IF JK.UPM OR JK.EVA)
XP JK.ALL,777B8 ;ALL POSSIBLE FLAGS
;ERROR CODES
JKNPV%==1 ;JOB NOT PRIVILEGED
JKIJN%==2 ;ILLEGAL JOB NUMBER
JKSWP%==3 ;JOB SWAPPED OR IN TRANSIT
JKIAD%==4 ;ILLEGAL ADDRESS
JKDNA%==5 ;DATA NOT ADDRESSABLE
JKPNC%==6 ;PAGE NOT IN CORE
JKIOE%==7 ;I/O ERROR READING SWAPPING SPACE
JKABZ%==10 ;ALLOCATED BUT ZERO PAGE
SUBTTL FLAG BITS -- JOBSTS UUO
JB.UJA==1B0 ;JOB NUMBER ASSIGNED
JB.ULI==1B1 ;JOB IS LOGGED IN
JB.UML==1B2 ;TTY IS AT MONITOR LEVEL
JB.UOA==1B3 ;OUTPUT IS AVAILABLE
JB.UDI==1B4 ;TTY IS DEMANDING INPUT
JB.UJC==1B5 ;JACCT IS SET
JB.URN==1B6 ;JOB IS RUNNING
JB.UFC==1B7 ;TTY IN FULL CHARACTER SET
JB.UBK==1B8 ;TTY IN BREAK ON ALL CHARACTERS MODE
;JB.UII==1B9 ;TTY IS IN IMAGE INPUT MODE
;JB.UIO==1B10 ;TTY IS IN IMAGE OUTPUT MODE
JB.UNE==1B11 ;TTY IS NO ECHO (A LA LOGIN, INDEPENDENT OF LOCAL COPY)
JB.UTO==1B12 ;TTY IS BLOCKED IN 'TO' STATE
JB.UCC==1B13 ;TTY CHARACTERISTICS (WIDTH, LC, TABS, ETC.) CHANGED
JB.UNT==1B14 ;TTY IS NETWORKED (.SET HOST) TO A REMOTE HOST
JB.UHI==1B15 ;TTY IS HIBERING FOR INPUT
SUBTTL FLAG BITS -- PAGE ACCESSIBILITY UUO
PA.NXP==1B0 ;NON-EXISTENT PAGE
PA.WRT==1B1 ;WRITE ACCESS
PA.RED==1B2 ;READ ACCESS (OFF IFF LIP=1 & JS.XO=0)
PA.AA==1B3 ;ACCESS ALLOWED
PA.ZER==1B4 ;ZERO PAGE (ALLOCATED ON DSK)
PA.CPO==1B5 ;CAN'T BE PAGED OUT
PA.OUT==1B6 ;PAGE IS PAGED OUT
PA.GHI==1B7 ;PAGE IS PART OF HIGH SEG
PA.GSH==1B8 ;PAGE IS SHARABLE
PA.GSP==1B9 ;PAGE IS SPYING ON RUNNING MONITOR
PA.LCK==1B10 ;PAGE IS LOCKED
PA.NCS==1B11 ;PAGE IS NOT CACHED
PA.NXS==1B12 ;PAGE IS IN A NON-EXISTENT SECTION
PA.VSP==1B13 ;PAGE IS VIRTUAL SPY PAGE
PA.IND==1B14 ;PAGE IS IN INDIRECT SECTION
;BIT 15 RESERVED
PA.ISN==37B20 ;IDEPENDENT SECTION # IF PA.IND LIT
;BIT 21 RESERVED
PA.IID==1B30
PA.SPN==37777 ;SPY PAGE # IF PA.GSP LIT
PA.SGN==1777 ;SEGMENT # PAGE IS IN IF PA.GHI LIT
PA.BTS==PA.NXP!PA.WRT!PA.RED!PA.AA!PA.ZER!PA.CPO!PA.OUT!PA.GHI!PA.GSH!PA.GSP!PA.LCK!PA.NCS!PA.NXS!PA.VSP
SUBTTL FLAG BITS -- PAGE. UUO
PG.GAF==1B0 ;GENERALIZE ARGUMENT FLAG
PG.SLO==1B1 ;ON IF PAGE ONTO SLOW SWAPPING SPACE
PG.DSK==1B1 ;ON IF CREATE A PAGE ON DSK
PG.IDC==1B2 ;I DON'T CARE
SUBTTL PAGE. UUO -- FUNCTION CODES
.PAGIO==0 ;SWAP A PAGE IN/OUT
.PAGCD==1 ;CREATE/DESTROY A PAGE
.PAGEM==2 ;MOVE/EXCHANGE A PAGE
.PAGAA==3 ;CLEAR/SET ACCESS ALLOWED
.PAGWS==4 ;GET THE WORKING SET
.PAGGA==5 ;GET ACCESS ALLOWED
.PAGCA==6 ;GET PAGE ACCESSIBILITY
.PAGRM==7 ;GENERALIZED REMAP
.PAGCS==12 ;CREATE A SECTION
.PAGWL==16 ;WRITE LOCK/ENABLE SPECIFIED PAGES
SUBTTL PAGE. UUO -- ERROR CODES
PAGUF%==0 ;UNIMPLEMENTED FUNCTION
PAGIA%==1 ;ILLEGAL ARGUMENT
PAGIP%==2 ;ILLEGAL PAGE NUMBER
PAGCE%==3 ;PAGE CAN'T EXIST, BUT DOES
PAGME%==4 ;PAGE MUST EXIST, BUT DOESN'T
PAGMI%==5 ;PAGE MUST BE IN CORE, BUT ISN'T
PAGCI%==6 ;PAGE CAN'T BE IN CORE, BUT IS
PAGSH%==7 ;PAGE IS IN A SHARABLE HIGH SEGMENT
PAGIO%==10 ;PAGING I/O ERROR
PAGNS%==11 ;NO SWAPPING SPACE AVAILABLE
PAGLE%==12 ;CORE LIMIT EXCEEDED
PAGIL%==13 ;NOT ALLOWED IF LOCKED
PAGNV%==14 ;ATTEMPT TO CREATE A VIRTUAL PAGE WITH CVPL=0
PAGNP%==15 ;NOT PRIVILEGED
PAGSC%==16 ;SECTION CAN'T EXIST
PAGSM%==17 ;SECTION MUST EXIST
PAGIS%==20 ;ILLEGAL SECTION
PAGAL%==21 ;PAGE ALREADY LOCKED
PAGAU%==22 ;PAGE ALREADY UNLOCKED (MUST BE CONTIGUOUS
;WITH PALERR)
PAGNA%==23 ;PAGE NOT AVAILABLE (E.G. PHYS PAGE REQ'D
;TO BE LOCKED IS IN A LOCKED JOB, ETC.)
PAGNR%==24 ;NO ROOM TO LOCK
PAGNE%==25 ;INSUFFICIENT EVM AVAILABLE FOR LOCKING
PAGNN%==26 ;NO FREE SEGMENT #S
PAGNC%==27 ;NO FREE CORE
PAGWL%==30 ;ALREAD WRITE-LOCKED
PAGWE%==31 ;ALREADY WRITE-ENABLED
SUBTTL LOKCON VALUES
;ERROR CODES FOR LOKCON
LKERR1==1
LKERR2==2
LKERR3==3
LKERR4==4
LKERR5==5
LKERR6==6
;FORMAT 1 BITS (HIGH-SEG,,LOWSEG)
LKB==1
LKEB==2
LKPB==4
LKCB==10
LKAB==20
;FORMAT 2 FUNCTION CODES:
.LKPPN==0 ;SPECIFIC PHYSICAL PAGE LOCK
.LKSGL==1 ;SEGMENT LIST FORMAT
;FORMAT 2 FOR LOCK AND UNLOCK
;FUNCTION CODES:
;BITS:
L2PPN==3777B17 ;PHYSICAL PAGE (OR EVM) VALUE
L2SGN==777B35 ;SEGMENT NUMBER FIELD (0=LOW SEG)
SUBTTL BITS FOR TESTING UUOS
XP UU.CP1,400000 ;UUO CAN BE EXECUTED ON CPU1
XP UU.SE1,200000 ;UUO CAN BE EXECUTED IN SECTION 1
XP UU.PCS,100000 ;UUO USES SECTION-LOCAL ADDRESSES (LEAVE PCS ALONE)
;BITS 30-35 = N, CHECK FROM START (PC+1 OR EA) TO START+N-1
XP UU.EA,100 ;CHECK EFFECTIVE ADDRESS
XP UU.CAC,200 ;USE C(AC)
XP UU.CEA,400 ;USE C(EFECT.ADR)
XP UU.MNS,1000 ;MINUS
XP UU.LER,2000 ;LOOKUP/ENTER/RENAME
XP UU.LFT,4000 ;USE LEFT HALF
XP UU.NAL,10000 ;NOT ALLOWED IF LOCKED
XP UU.WCC,20000 ;WORKING SET CAN CHANGE
XP UU.NCL,40000 ;NEGATIVE ARGUMENT (REPEAT) COUNT IS LEGAL
XP UU.MSK,7777 ;ANY CHECK AT ALL
;COMPOSITE MASKS
XP UU.LEA,UU.EA+UU.CAC+UU.LFT ;CHECK EA TO EA+C(LH(AC))
XP UU.MEA,UU.LEA+UU.MNS ;CHECK EA TO EA-C(LH(AC))
SUBTTL SCHED. UUO ERROR CODES
SCHAC%==1 ;ADDRESS CHECK
SCHUF%==2 ;UNKNOWN FUNCTION
SCHUJ%==3 ;UNKNOWN JOB
SCHNP%==4 ;NOT PRIVILEGED
SCHUC%==5 ;UNKNOWN CLASS
SCHUQ%==6 ;UNKNOWN QUEUE
SCHNC%==7 ;NON-EXISTANT CHANNEL
SCHEB%==10 ;EXPONENTIAL FACTOR BAD
SCHMI%==11 ;ATTEMPT TO SET PROT WHEN MCUINT NON-ZERO
;SCHNS%==12 ;ATTEMPT TO USE SCHED. UUO WHEN
; NON-CLASS SCHEDULER WAS RUNNING (OBSOLETE)
SCHNH%==13 ;NOT 100%
SCHFN%==14 ;FAIRNESS NOT POSITIVE
SCHIC%==15 ;ILLEGAL CPU
SCHIS%==16 ;ILLEGAL SCAN ORDER
SUBTTL TRMOP. UUO ERROR CODES
TRMNP%==1 ;NOT PRIVILEGED
TRMBR%==2 ;BAD RANGE
TRMIA%==3 ;ILLEGAL ADDRESS
TRMCD%==4 ;CANNOT DO SPECIFIED FUNCTION
TRMDO%==5 ;DIALLER OPERATION ERROR
TRMND%==6 ;CANNOT GET DDB
TRMNB%==7 ;NOT IN BREAK SET MODE
TRMIB%==10 ;ILLEGAL BYTE SIZE
TRMNT%==11 ;NOT A NETWORK TERMINAL
SUBTTL DTE. UUO ERROR CODES
DTENP%==1 ;NOT PRIVILEGED
DTEUF%==2 ;UNKNOWN FUNCTION CODE
DTEDC%==3 ;UNKNOWN CPU NUMBER OR DTE NUMBER
DTEAP%==4 ;ALREADY RUNNING PRIMARY PROTOCOL
DTEPT%==5 ;POWER FAIL TIMEOUT ERROR
DTEDE%==6 ;DEAD 11 - NO DOORBELL FROM 11 DURING BOOTSTRAP SEQUENCE
DTTTE%==7 ;TO-10 ERROR AFTER BOOT SEQUENCE
DTEDD%==10 ;NO RESPONSE FROM 11 AFTER BOOT SEQUENCE
DTEIJ%==11 ;ILLEGAL JOB NUMBER SPECIFIED.
DTEIB%==12 ;ILLEGAL BYTE COUNT TO FRONT END DEVICE
DTENI%==13 ;FAILURE TO DO INITIALIZE FUNCTION ON FRONT END
; DEVICE BEFORE USING IT
DTEFB%==14 ;FRONT END DEVICE BUSY FOR ANOTHER JOB
DTENF%==15 ;NON-EXISTANT FRONT END DEVICE
DTEFE%==16 ;FATAL ERROR ON FRONT END DEVICE
DTESE%==17 ;ERROR STARTING PRIMARY PROTOCOL
DTENC%==20 ;NO FREE CORE FOR FRONT END DEVICE BUFFERS
DTETE%==21 ;TIMER EXPIRED FOR KL ERROR DATA CORE
DTECM%==22 ;DTE TO-11 QUEUE ROUTINE COULD NOT SEND
; A MESSAGE FOR FRONT END DEVICE
DTEIU%==23 ;TRIED TO SET LINE TO ILLEGAL USER VALUE
DTEWU%==24 ;WRONG LINE USER FOR FUNCTION
DTEEV%==25 ;NO EVM LEFT TO PERFORM FUNCTION
DTEIP%==26 ;ILLEGAL BYTE POINTER
SUBTTL COMMAND TABLE BIT DEFINITIONS
;BITS CHECKED BEFORE DISPATCHING TO COMMAND SETUP ROUTINE
NOCORE==:1B18 ;NO CORE NEEDED FOR COMMAND
NOJOBN==:1B19 ;NO JOB NUMBER NEEDED FOR COMMAND
NOLOGIN==:1B20 ;JOB DOES NOT NEED TO BE ALREADY LOGGED IN.
NOACT==:1B21 ;COMMAND MUST BE DELAYED IF JOB HAS ACTIVE DEVICES.
NORUN==:1B22 ;AN EXPLICIT ^C MUST BE TYPED BY USER BEFORE COMMAND
; IS EXECUTED IF JOB IS RUNNING
; JOB MUST BE SWAPPED IN IF IT HAS LOGICAL CORE
INCORE==:1B23 ;COMMAND MUST BE DELAYED IF JOB HAS LOGICAL CORE
; WHICH IS ON DISK OR ON ITS WAY IN OR OUT.
; JOB WILL BE SWAPPED IN (SEE DLYCOM)
; AND IS NOT SITTING QUIETLY IN CORE(IE NO SWAPPING TRANSFER)
NXONLY==:1B24 ;NOT LEGAL IF EXECUTE ONLY PROGRAM
NBATCH==:1B25 ;NOT LEGAL FROM BATCH JOB
CMDERR==:1B26 ;ERROR ENCOUNTERED IN COMMAND PARSING (FOR COMCON, NOT TABLES)
NORCMP==:1B27 ;ALLOWED LOGGED OUT ON REMOTE TERMINAL DESPITE M.RCMP
;BIT 28 FREE
CUSTMR==:1B29 ;RESERVED TO CUSTOMERS
;BITS 30 - 31 FREE
;UNIQUENESS BITS IN RH OF SIXBIT NAME
;NOTE: THESE BITS MUST BE DEFINED AS THE LEAST MOST SIGNIFICANT
; BITS TO INSURE COMPATIBILITY WITH THE USER DEFINED LOGICAL
; NAME BITS.
UNIQ.1==:1B32 ;UNIQUE TO 1 CHAR.
UNIQ.2==:1B33 ;UNIQUE TO 2 CHARS.
UNIQ.3==:1B34 ;UNIQUE TO 3 CHARS.
UNIQ.4==:1B35 ;UNIQUE TO 4 CHARS.
;FLAG BITS IN LH(M) SET BEFORE DISPATCHING TO COMMAND ROUTINE.
;*** NOTE WELL! *** FLMCOM *MUST* BE THE SIGN BIT OF M FOR
;CHECKS IN UUOCON AND PREVENTING ECOD FROM CALLING STOTAC.
FLMCOM==:(1B0) ;1=COMMAND, 0=UUO
FLMCLV==:(1B1) ;COMMAND RUNNING AT COMMAND LEVEL
;BITS PLACED IN LH(M) AFTER SETTING UP FOR COMMAND BUT BEFORE THE
;COMMAND-SPECIFIC DISPATCH ROUTINE IS CALLED.
;NOTE: THESE BITS MUST BE SHIFTED BY 18 BITS WHEN GENERATING
; TABLES OR VALUES. THEY ARE DEFINED TO BE RIGHT HALF
; QUANTITIES ONLY TO ALLOW FOR EASIER TESTING.
;*** BITS 18 AND 19 RESERVED FOR FLMCOM AND FLMCLV ***
NOINCK==:1B20 ;NO CHECK FOR JOB INITIALIZATION (JNA=0)
NOCRLF==:1B21 ;NO PRINTING OF CRLF
NOPER==:1B22 ;NO PRINTING OF PERIOD
TTYRNU==:1B23 ;SET TTY TO USER MODE AND START JOB
; WHEN COMMAND RESPONSE STOPS TYPING
TTYRNC==:1B24 ;KEEP TTY IN COMMAND MODE AND START JOB
; WHEN COMMAND RESPONSE STOPS TYPING
TTYRNW==:1B25 ;SET TTY TO USER LEVEL AND IO WAIT IF IT WAS IN IOW BEFORE
CMWRQ==:1B26 ;REQUEUE JOB AFTER COMMAND WAIT
NOMESS==:1B27 ;NO COMMAND RESPONSE EVER, DO NOT CALL TTYSTR OR TYPE WATCH BEGIN.
NOCRLP==:<NOCRLF!NOPER> ;NEEDED FOR INTERNAL
TTYRNM==:<TTYRNW!NOMESS> ;TTY TO USER MODE AND NO MESSAGE
ERRFLG==:1B28 ;COMMAND ERROR
SACFLG==:1B29 ;COMMAND EXECUTED IN AN ALTERNATE CONTEXT
NOFLM==:1B30 ;SUPER-NOCRLF: CALL PRPER NOT PRDOTC
PSTCST==:1B31 ;POST DISPATCH RESERVED FOR CUSTOMER
;BITS 32 - 35 FREE
;ALTERNATE NAMES FOR LAZY PEOPLE TO AVOID LOTS OF GLOBALS
LHRUNF==:NOPER!TTYRNU!NOCRLF ;HANDY LEFT HALF OF RUNFLG QUANTITY
RUNFLG==:NOCORE!NOACT!NORUN!INCORE!<LHRUNF_^D18>
ECMFLG==:<NOCRLF!NOPER!NOMESS!TTYRNC>_^D18
APPFLG==:SACFLG,,0 ;FULLWORD BIT VALUE FOR MONGEN COMMANDS
SUBTTL SEARCH LIST PARAMETERS AND LIMITS
;PRIMARY CONSTANTS
XP .SLMAX,^D36 ;MAX.NUM.FS'S SIMULTANEOUSLY MOUNTED
XP .SLMXJ,^D10; ;MAX.NUM.FS'S IN JOB SL.
XP .SLMXS,.SLMAX; ;MAX.NUM.FS'S IN SYS.SL.
XP .FSSIZ,^D9; ;SIZE OF BYTE CONTAINING FSN. & STATUS BITS
XP .FSFSN,^D6; ;SIZE OF BYTE CONTAINING FSN. ONLY
XP FS.MSK,777; ;MASK FOR .FSSIZ
XP FS.NMK,077; ;MASK FOR FSN. ONLY
XP FS.BMK,700; ;MASK FOR BITS ONLY
XP FS.WLK,100; ;SOFTWARE WRITELOCK BIT
XP FS.NCR,200; ;NO-CREATE BIT
; FS.???,400; ;SPARE BIT
;SECONDARY PARAMETERS AND CONSTANTS
XP .SLIPW,<^D36/.FSSIZ>; ;ITEMS (FSN'S, MARKERS) PER WORD
XP .SLWDJ,<<.SLMXJ+2+.SLIPW-1>/.SLIPW>; ;WORDS PER JOB SL. (+2 FOR FNC AND STP)
XP .SLWDS,<<.SLMXS+2+.SLIPW-1>/.SLIPW>; ;WORDS PER SYS SL.
XP .SLPSB,<.FSSIZ-1>; ;POSITION OF FIRST BYTE IN A WORD
XP .SLPSE,<.FSSIZ*.SLIPW-1>; ;POSITION OF LAST BYTE IN A WORD
;XP SL.PT0,<POINT .FSSIZ,0>; ;POINTER (SANS ADDRESS) WHICH MUST IBP'D TO GET 1ST BYTE
;XP SL.PTB,<POINT .FSSIZ,.SLPSB>; ;POINTER (SANS ADDRESS) TO 1ST BYTE IN WORD
;XP SL.PTE,<POINT .FSSIZ,.SLPSE>; ;POINTER (SANS ADDRESS) TO LAST BYTE IN A WORD
;FILE STRUCTURE NUMBERS AND SEARCH LIST MARKERS
;0 IS NOT USED AS A FSN. SO THERE WILL BE NO
; CONFUSION WITH ZEROED DATA BLOCKS
XP .FSMIN,1 ;.FSMIN TO .FSMAX ARE THE LEGAL FSN.S
XP .FSMAX,<.FSMIN+.SLMAX-1>
XP .FSFNC,.FSMAX+1 ;FENCE MARKER (SEPERATE ACTIVE AND PASIVE LISTS)
XP .FSEND,.FSFNC+1 ;LOGICAL END MARKER
; ONLY FNC & FSN'S MUST BE .LT. END SO
; CAIL .FSEND CAN BE USED FOR END-TEST
XP .FSTMP,.FSEND+1 ;TEMPORARY SL. MARKER (PREFACED TO SL'S WHICH
; MUST BE RETURNED TO FREE SORAGE)
XP .FSXX1,.FSTMP+1 ;GENERAL PURPOSE MARKER (E.G. FSNINC IN FNDFIL)
XP .FSSTP,FS.NMK ;PHYSICAL END MARKER
E$$STS: IFGE .FSXX1-.FSSTP,<PRINTX % S:E$$STS: .FSSIZ TOO SMALL>
;WELL FORMED SEARCH LISTS HAVE ONE OF THE FOLLOWING TWO FORMS:
;
; (TMP) FNC ( END (?) ) STP THE EMPTY SEARCH LIST
; (TMP) (FSN) FNC (FSN) ( END (?) ) STP NON-EMPTY SEARCH LIST
;
; (X) MEANS 0 OR MORE OCCURANCES OF X
; ? MEANS ANYTHING EXCEPT STP
; FSN MEANS ANY F.S. NUMBER
;
; 0 IS NOT A LEGAL SEARCH LIST -- AND MEANS A SEARCH LIST
; HAS NOT BEEN CREATED. IT WILL INVOKE DIFFERENT ACTIONS DEPENDING
; ON CONTEXT (E.G. SUBSTITUTE SYS.SEARCH LIST, CREATE EMPTY
; SEARCH LIST, ETC.)
;MACROS FOR DEFINING SEARCH LISTS
;AN EMPTY SEARCH LIST
;NUM= MAX.NUM.FS'S TO ACCOMADATE (MUST BE .GE. 1)
;
DEFINE SLEMPT (NUM)
<XLIST
BEGBYT(.FSSIZ)
XBYT(.FSFNC)
XBYT(.FSEND)
REPEAT NUM-1,<XBYT(0)>
XBYT(.FSSTP)
ENDBYT;
LIST>
;THE ALL: SEARCH LIST
;
DEFINE SLALL
<XLIST
BEGBYT(.FSSIZ)
$SLALL==.FSMIN
REPEAT .SLMAX,<
XBYT($SLALL)
$SLALL==$SLALL+1
>
XBYT(.FSFNC)
XBYT(.FSSTP)
ENDBYT;
LIST>
DEFINE BEGBYT (SIZ,POS)
<XLIST
IFB <POS>,<$XBYP==<SIZ>-1>
IFNB <POS>,<$XBYP==<POS>>
$XBYS==<SIZ>
$XBYT==0
LIST>
DEFINE XBYT (VAL)
<XLIST
$XBYT==$XBYT+<VAL>B<$XBYP>
$XBYP==$XBYP+$XBYS
IFG $XBYP-^D35,<
EXP <$XBYT>
$XBYP==$XBYS-1
$XBYT==0
>
LIST>
DEFINE ENDBYT
<XLIST
IFN $XBYP-$XBYS+1,<EXP <$XBYT>>
PURGE $XBYT,$XBYP,$XBYS
LIST>
SUBTTL BITS IN JOB TABLES -- JOB STATUS WORD (JBTSTS)
;JOB STATUS WORD (JBTSTS TABLE), ONE WORD FOR EACH JOB (SOME BITS ALSO
; APPEAR IN HIGH SEG STATUS WORD)
XP RUN,400000 ;USER WANTS JOB TO RUN (MUST BE SIGN BIT)
XP SNA,400000 ;HIGH SEG NUMBER ASSIGNED (ANALOGOUS TO JNA EXCEPT
; MUST BE SIGN BIT)
XP CMWB,200000 ;JOB TYPED A COMMAND WHICH NEEDS CORE
; WHICH IS ON DISK. SET BY COMMAND DECODER
; CLEARED WHEN JOB IN CORE AGAIN.
XP SHRSEG,200000 ;HIGH SEG IS SHARABLE (ALTHOUGH NAME MAY BE 0
; IF IT HAS BEEN SUPERSEDED). THIS BIT ALSO
; APPEARS IN SAME PLACE IN LH OF JBTSGN FOR
; EACH USER TO INDICATE USER IS USING A SHARABLE
; HIGH SEG (ALSO APPEARS IN LH OF AC J WHEN
; RH IS SEG NUMBER FOR A PARTICULAR JOB)
XP JXPN,100000 ; LOW OR HI SEG MUST BE SWAPPED OUT BECAUSE
; IT IS EXPANDING SIZE
; OF CORE AND THERE WASN'T ROOM IN CORE
XP JNA,40000 ;THIS JOB NUMBER IS ASSIGNED (JOB INITIALIZED)
XP SS.SYS,40000 ;SEGMENT CAME FROM SYS
XP JERR,20000 ;A MONITOR DETECTED ERROR HAS OCCURRED
; JOB CAN NOT CONTINUE
XP SERR,20000 ;A SWAP READ ERROR HAS OCCURRED FOR THIS HIGH SEG
XP NSWP,10000 ;JOB OR HIGH SEG IS NOT TO BE SWAPPED
; (REALTIME OR DISPLAY)
; (CAN BE SHUFFLED OR NOT ACCORDING TO NSHF)
XP SHF,4000 ;MONITOR IS WAITING FOR DEVICES FOR THIS
; JOB TO STOP AFTER CURRENT BUFFERFULL
; SO JOB CAN BE SHUFFLED IN CORE OR SWAPPED OUT
; IF JOB ONLY HAS LOW SEG
XP SWP,2000 ;0 IF JOB IN CORE, 1 IF SWAPPED OUT OR ON WAY
; IN OR OUT. SAME FOR LOW AND HIGH SEGMENTS
XP NSHF,1000 ;JOB IS NOT SHUFFLABLE
XP CNTRLC,400 ;^C WAS TYPED WHILE JOB WAS IN MONITOR MODE
; AND NOT IN TTY WAIT - DELAY STOPPING JOB
XP STOPIO,SWP+CMWB+SHF ;FORCE JOB TO STOP TO EXECUTE
; SWAP, COMMAND OR SHUFFLE
;BITS 10-14 USED TO INDICATE JOB IN WAIT FOR A SHARABLE DEVICE
;0 MEANS JOB NOT WAITING FOR SHARABLE DEVICE
XP JWSIZ,5 ;SIZE OF WAIT CODE
XP JWPOS,^D14 ;RIGHT MOST BIT POS. OF WAIT CODE
XP WTMASK,370 ;MASK FOR CLEARING WAIT CODES
XP JLOG,4 ;JOB SUCCESSFULLY LOGGED IN
XP JRQ,2 ;JOB HAS CHANGED STATE AND MUST BE REQUEUED AT CLOCK
; LEVEL BEFORE RESCHEDULING CAN TAKE PLACE
XP JACCT,1 ;PRIVILEGED SYSTEM CUSP IS BEING RUN WHICH CANNOT
; BE STOPPED (E.G., LOGIN
; OR LOGOUT). PROTECT IT FROM CURIOUS EYES.
; DISABLE CONTROL C, MADE IT ACT LIKE ALT-MODE
;BITS IN RIGHT HALF OF JBTSTS
XP CLKR,400000 ;JOB HAS A CLOCK REQUEST IN.
; NEEDED SO ONLY ONE REQUEST PER JOB
XP LOK,200000 ;JOB IS BEING LOCKED IN CORE
XP JS.YYY,100000 ;***AVAILABLE
XP UTRP,40000 ;TRAP TO USER ON UUO EXIT (REENTER DDT)
; TRAP ADR. STORED IN JOBFDV BY COMMAND
XP JDCON,20000 ;JOB IN ^C STATE WAITING FOR DEVICE
;TO CONTINUE FROM ERROR
XP JS.DEP,10000 ;DAEMON ERROR PAUSE. SET WHEN JOB
; GETS AN ERROR. JOB PAUSES UNTIL
; DAEMON CAN ENTER ERROR INFO INTO LOG FILE
; DAEMON CLEARS BIT
XP JS.XXX,4000 ;***AVAILABLE
XP JS.XO,2000 ;EXECUTE ONLY CORE IMAGE
XP JS.SFE,400000 ;ON IF HIGH SEGMENT CAME FROM AN EXE FILE
XP JS.RUU,1000 ;RUN UUO OR COMMAND IN PROGRESS
XP JS.MPE,400 ;MEM PAR ERROR FOR JOB (LOW OR HIGH SEG)
; BEHAVES LIKE CNTRLC. JOB RUNS TO UUO EXIT
; IF PARITY IN UUO LEVEL CODE IN USER AREA
; DOES NOT STOP A JOB FROM BEING RUN
XP JS.BPT,200 ;SET DDT BREAKPOINT BIT
XP JS.DPM,100 ;DAEMON PROBLEM MESSAGE NEEDED FOR JOB
; PRINT ONCE A MINUTE PRINT %PROBLEM WITH DAEMON ON JOB
; THEN SET EVERY MIN JOB IS WAITING FOR DAEMON
XP JS.DEM,JS.DEP ;JOB BITS TO CHECK FOR EVERY MINUTE.
; SET JS.DPM IF ON
XP JS.ASA,40 ;FETCH AND STORE UUO ARGUMENTS INTO/FROM USER ADDRESSES
; WHICH ARE LESS THAN 20 IN SHADOW AC AREA RATHER
; THAN USERS ACS. CSET ON SAVE, GET, RUN, AND GETSEG
XP JS.XOR,20 ; LIT IF RUN UUO OR COMMANDS IN PROGRESS A FILE IS XO.
XP JS.RQR,10 ; RESET QUANTUM RUN-TIME. THIS BIT IS SET
; IF WE WANT TO ALTER QUANTUM RUNTIME.
; WHILE THE PDB IS ON THE DISK.
XP JS.SFL,4 ;STOP JOB IF DISK FULL. SET (CLEARED)
; BY SET FULL STOP (NOSTOP) COMMAND, UUO. IF OFF
; AN ERROR BIT IS SET ON DISK FULL OR QUOTA
; EXCEEDED. IF ON JOB IS STOPPED, ".CONT" RETRIES
XP JS.NXM,2 ;SOME PAGE IN THIS JOB'S ADDRESS SPACE
; IS CONTAINED IN NON-EXISTENT MEMORY
XP JS.NTO,1 ;THIS JOB HAS DONE SOME NON-BLOCKING
; TTY OUTPUT.
;***********************************************************************
;ADD NEW BITS IN JOB STATUS WORD ABOVE HERE
;***********************************************************************
;BITS 9-17 ARE USED FOR ACCESS PRIVILEGE BITS FOR SHARABLE HIGH SEGMENTS
; SAME FORMAT AS ACCESS BITS FOR DISK
XP HSASIZ,^D9 ;SIZE OF HIGH SEG ACCESS BITS
XP HSAPOS,^D17 ;RIGHT MOST POSITION OF HIGH SEG ACCESS BITS
XP HSAMSK,777 ;MASK TO CLEAR ACCESS PRIVILEGES
XP ICCSIZ,^D12 ;SIZE OF HIGH SEG IN CORE COUNT FIELD
XP ICCPOS,^D35 ;RIGHT MOST POSITION OF HIGH SEG IN
; CORE COUNT FIELD MUST BE RIGHT MOST
; BITS OF WORD SINCE COUNT IS AOSED
; AND SOSED
XP ICCMSK,7777 ;MASK FOR TESTING IN CORE COUNT
;MASKS USED TO TEST STATUS CONDITIONS:
XP RUNABLE,RUN+JNA ;STATUS BIT PATTERN FOR JOB TO BE RUNABLE
XP RUNMSK,JLOG+NSHF+JACCT+NSWP+CNTRLC
; BITS WHICH DO NOT MATTER FOR RUNABILITY
SUBTTL BITS IN JOB TABLES -- JBTSCD
;BITS IN RIGHT HALF OF JBTSCD
XP JS.TYP,777B35 ;JOB'S SCHEDULER TYPE
;BITS IN LEFT HALF OF JBTSCD
XP JS.PQ2,1B0 ;JOB IS IN PQ2, THEREFORE SUBCLASS
; (MUST BE SIGN BIT)
XP JS.CLS,37B17 ;JOB'S SCHEDULER CLASS
SUBTTL BITS IN JOB TABLES -- JBTST2
;;!=========================================================================!
;;!IP! ! ! ! ! !X!NN!BB!C!H!BP!FX!CF!SL!N!EX!M!A!EW.CODE!W!R!QUEUE #!O!Q!S!
;;!=========================================================================!
;BITS IN RH OF JBTST2
XP JS.MIG,1B18 ;JOB HAS MIGRATED TO ANOTHER SWAPPING U NIT
; WHEN A DISK CONTROLLER IS BEING TAKEN
; OFF-LINE (FTDHIA)
XP JS.ABP,1B19 ;AN ADDRESS BREAK PAGE FAULT OCCURRED
; BECAUSE OF A REFERENCE TO THIS USER'S
; VIRTUAL ADDRESS SPACE DURING UUO
; PROCESSING
XP ESLPSZ,5 ;ESLEEP REASON BYTE SIZE
XP ESLPBP,^D24 ;ESLEEP REASON BYTE POSITION
XP EWAKEB,1B25 ;EWAKE CALLED (WAKEUP WAITING)
XP JS.RPC,1B26 ;IF=1 RUN PROGRAM IN .PDPGM ON CONTROL-C
XP JS.SIZ,6 ;NUMBER OF BITS FOR QUEUE NUMBER
XP JS.POS,^D32 ; RIGHTMOST BIT IN QUEUE NUMBER
XP JS.MSK,770 ;MASK FOR STATE CODE. USED AT CLRJBT
XP JS.OOO,4 ;USER RAN OUT OF ORDER. STOP WHEN GIVES UP
; LAST RESOURCE.
XP JS.TFO,2 ;JOB FORCED OUT BY TIMER
XP JS.SCN,1 ;JOB WAS SCANNED TO RUN BY AT LEAST ONE
; CPU DURING LAST TICK
;BITS IN THE LEFT HALF OF JBTST2
XP JS.EXE,1B17 ;A NEW SAVE (EXE FILE) IS UNDERWAY
; OR, ON A "GET", THIS BIT MEANS THAT A LOOKUP
; ON THE EXE FILE FAILED. IF SO, THE
; EXE FILE WILL NOT BE LOOKUP'ED AGAIN
; FOR THE LOW SEGMENT
XP JS.NCS,1B16 ;ON IF CACHE BITS ARE NOT TO BE TURNED
; ON IN THIS JOBS MAP
XP JS.HIB,1B15 ;THIS JOB IS HIBERNATING
XP JS.CFX,1B14 ;CALL FILE DAEMON ON "PROGRAM EXIT"
XP JS.FXO,1B13 ;FILE DAEMON MADE THIS CORE IMAGE EXECUTE ONLY
XP JS.BPR,1B12 ;BYPASS PROGRAM TO RUN CHECKING IF THIS
; FLAG IS SET THE CURRENT RUN COMMAND IS
; ALLOWED DESPITE .PDPGM (USED FOR KJOB)
XP JS.HNG,1B11 ;JOB STAYED IN FORCE TOO LONG, CAUSING TEMPORARY
; OR PERMANENT SYSTEM HANG, CLEARED WHEN SWAPPED IN
XP JS.IGS,1B10 ;IN GETSEG (DOING A GETSEG UUO)
XP JS.CSQ,1B9 ;IF JOB CHANGING SUBQUEUE DO TO SCHED UUO
XP JS.BBJ,1B8 ;IF JOB IS BACKGROUND BATCH
XP JS.NNQ,1B7 ;IF NOT TO ASSIGN NEW QUANTA ON SWAP IN.
; SET WHEN DOING A GETSEG TO A SWAPPED HIGH SEGMENT
XP JS.FPS,1B6 ;ON IF LONG KA10 FLOATING POINT INSTRUCTIONS SHOULD BE
; SIMULATED
XP JS.SIP,1B5 ;ON IF SWAPPING I/O IS IN PROGRESS FOR THIS JOB
XP JS.OLS,1B4 ;JOB OWNS LOCKED STRUCTURE(S)
XP JS.SAC,1B3 ;THE JOB'S CURRENT CORE IMAGE IS AN ALTERNATE
; CONTEXT. RESTORE PREVIOUS CONTEXT WHEN THE
; TERMINAL IS RETURNED TO MONITOR LEVEL
XP JS.DEB,3B2 ;DEFERRED ECHO BITS
XP JS.IPQ,1B0 ;ON IF JOB IS IN A PROCESSOR QUEUE (MUST BE SIGN BIT)
SUBTTL BITS IN JOB TABLES -- JBTSWP, JBTPPB AND PAGTAB
;BITS IN JBTSWP TABLE
XP FRGSEG,400000 ;LH - 1 IF LOW OR HIGH SEG IS FRAGMENTED ON SWP
;BITS IN LH JBTPPN TABLE
XP JBPWLK,400000 ;LEFTMOST BIT OF WRITELOCK FIELD (STR # 0)
XP JBPNCR,400 ;LEFTMOST BIT OF NO-CREATE FIELD (STR # 0)
XP JBLWLK,1000 ;RIGHTMOST BIT OF WRITELOCK FIELD (STR # 8)
XP JBLNCR,1 ;RIGHTMOST BIT OF NO-CREATE FILED (STR # 8)
XP NCRMSK,777 ;ALL NO-CREATE BITS
;BITS IN LEFT HALF OF JBTPDB
XP MCPSIZ,6 ;SIZE OF BYTE POINTER FIELD FOR THE NUMBER
; OF PAGES OF MONITOR FREE CORE ALLOCATED
; TO THIS USER
XP MCPBPP,^D17 ;POSITION
XP IMCPBP,^D11 ;POSITION FOR NUMBER OF PAGES TO SWAP IN
XP MCPCNT,1B17 ; FOR INCREMENTING/DECREMENTING COUNT
;BITS IN PAGTAB
XP FREPAG,400000 ;ON IF PAGE IS NOT IN SOME JOBS ADDRESSING SPACE
XP LOKPHB,200000 ;ON IF THIS PAGE IS CONTAINED IN A SEGMENT
; WHICH IS LOCKED IN PHYSICALLY CONTIGUOUS MEMORY
XP LOKEVB,100000 ;ON IF THIS PAGE IS CONTAINED IN A SEGMENT WHICH
; IS LOCKED VIRTUALLY CONTIGUOUS IN THE
; EXEC ADDRESSING SPACE
XP LOKIPB,40000 ;ON IF THIS PAGE IS CONTAINED IN A SEGMENT
; WHICH IS LOCKED IN PLACE
XP NXMBIT,20000 ;ON IF THIS PAGE IS BELOW MEMSIZ BUT IS
; NON-EXISTANT
XP MONTRB,10000 ;ON IF THIS PAGE IS CONTAINED IN THE MONITOR
XP IPCBIT,4000 ;ON IF THIS PAGE IS OWNED BY IPCF
XP TNCSHB,2000 ;ON IF THIS PAGE IS TEMPORARILY UNCACHED
; (MONITOR LOW PAGES ONLY ON 1099)
XP CONTGB,1000 ;ON IF THIS RANGE OF PAGES MUST BE KEPT PHYSICALLY
; CONTIGUOUS (DX20 MICROCODE, CI20 BSDS, ETC.)
XP LKBITS,LOKPHB!LOKEVB!LOKIPB!NXMBIT!MONTRB
XP PT.JOB,777B17 ;JOB # OF PIOW JOB
XP PT.SJB,^D9 ;SIZE OF PIOW JOB FIELD
;BITS IN PT2TAB
XP P2.LIP,1B1 ;LOCK IN PROGRESS (PAGE TO BE RETURNED
;TO/IS IN LOKPTR, NOT FREPTR)
XP P2.TRN,1B2 ;PAGE IN TRANSIT (JOB IN MT.JOB)
XP P2.BLK,777777 ;BACKWARD LINK (18 BITS FOR CONVENIENCE)
;IN SWAP REQUEST, THE BELOW ARE USED FOR THE NEXT VIRTUAL PAGE #.
;IN A PAGING QUEUE REQUEST, THE BELOW ARE USED TO REMEMBER THE VIRTUAL
;PAGE NUMBER THIS PAGE IS FOR (IN CONJUNCTION WITH MT.JOB) FOR JOB PAGES.
;FOR IPCF PAGES, THIS FIELD PROVIDES THE LOW ORDER 15 BITS OF THE ADDRESS
;OF THE IPCF QUEUE HEADER USED
;NOTE THAT FOR THE PAGING QUEUES (JOB ENTRIES), THE HIGH ORDER BIT IS
;NOT USED IN THIS FIELD AND ***MUST BE ZERO***
XP P2.VPN,77777B17 ;NEXT VIRTUAL PAGE NUMBER
XP P2.SPN,^D15 ;SIZE OF NEXT PAGE NUMBER FIELD
XP P2.RPN,777B17 ;SECTION RELATIVE PAGE #
XP P2.SRN,^D9 ;SIZE OF ABOVE
XP P2.VSN,37B8 ;SECTION FIELD
XP P2.SSN,5
XP P2.MBZ,1B3 ;MUST BE ZERO (FOR JOB ENTRIES ONLY)
XP P2.SBZ,1 ;SIZE OF FIELD
;THE FOLLOWING ARE USED WHEN A PAGE IS ON THE IP QUEUE
SUBTTL BITS IN JOB TABLES -- MEMTAB AND SWPLST
;BITS IN MEMTAB
MT.LEF==1B0 ;LAST ENTRY IN FRAGMENT-CHAIN
MT.GPB==1B1 ;RETURN SWAPPING SPACE WHEN I/O COMPLETES ON "IP" QUEUE
MT.IPC==1B2 ;IPCF PAGE, ADDRESS OF PACKET+.ICPFI IN MEMTAB
MT.JOB==777B14 ;JOB # IF PAGE IN PAGING QUEUE
;HIGH ORDER 9 (REALLY 3) BITS OF IPCF HEADER ADDRESS FOR
;IPCF PAGE WHEN PAGES GOES TO THE "IP" QUEUE
MT.SJB==^D9 ;SIZE OF JOB FIELD
;THE FOLLOWING ARE USED WHEN THE PAGE IS IN TRANSIT TO/FROM THE DISK
MT.DAD==7,,777777 ;DISK ADDRESS FIELD IN MEMTAB
MT.SAD==^D21 ;SIZE
MT.UNT==7,,0 ;UNIT SUBFIELD OF DISK ADDRESS
MT.SUN==^D3
;THE FOLLOWING USED FOR PAGES LOCKED IN CORE (SPECIFIC PAGES)
MT.EVM==7,,777777 ;PAGE NUMBER OF EVM THIS PHYSICAL PAGE IS IN
;THE FOLLOWING ARE USED WHEN THE PAGE IS ON ONE OF THE "IN" QUEUES
HLGPNO==777
HLGSNO==37
HLGPGS==<<HLGSNO+1>*<HLGPNO+1>>-1
IFE FTXMON,<
HLGPGS==HLGPNO ;NO EXTENDED ADDRESSING
>
PA.PME==1B35
PA.PMI==1B34
PA.PCE==1B33
PA.PCI==1B32
PA.IHB==1B31
PA.PWE==1B30 ;MUST BE WRITE ENABLE FOR SIGN BIT OFF
PA.PWL==1B29 ;MUST BE WRITE-LOCKED FOR SIGN BIT ON
;BITS IN SWPLST
SL.FRG==1B0 ;FRAGMENTED ENTRY
SL.DIO==1B1 ;DIRECTION OF IO (1=OUT)
SL.SIO==1B2 ;SWAPPING/PAGING (1=SWAPPING)
SL.IOP==1B3 ;IO IN PROGRESS
SL.IOD==1B4 ;IO DONE (THIS SWPLST ENTRY IS DONE)
SL.IPC==1B5 ;ON IF AN IPCF PAGE
SL.DFM==1B6 ;KEEPS FNDSLE FROM FINDING THE SWPLST ENTRY.
SL.CHK==1B7 ;SWAPPING CHECKSUM ERROR
SL.ERR==1B8 ;IO ERROR (IODTER,IODERR, OR IOIMPM)
SL.CHN==1B9 ;CHANNEL ERROR (IOCHMP OR IOCHNX)
SL.MAP==1B10 ;MAP INFO THIS ENTRY (FRAGMENT)
SL.PIW==1B11 ;JOB WAITING FOR PAGING QUEUE
SL.FRE==3B12 ;**FREE**
SL.PPN==17777B26 ;PHYSICAL PAGE #
SL.SPN==^D13 ;SIZE OF PHYS PAGE # FIELD
SL.CNT=777B35 ;PAGE COUNT
SL.SCT==^D9 ;SIZE OF COUNT FIELD
;BITS IN THE PDB
PD.IPV==1B1 ;JOB IS IN PQV
PD.PLS==1B18 ;JOB HAS A PHYSICAL LIMIT (AS OPPOSED TO GUIDELINE) SET
PD.DPS==1B9 ;JOB HAS A DEFAULT PROTECTION SET
PD.FSP==1B10 ;FILE DAEMON SPECIFIED THE PROTECTION FOR THIS CREATE
PD.UDS==1B11 ;USE DEFAULT FILE SPEC ON RUN, GET
PD.DAD==1B12 ;DON'T ASK ABOUT DETACHED JOBS AT LOGIN TIME
PD.LGN==1B13 ;LOGIN BIT, IF SET DO INCR AND CLEAR,
;IF CLEAR DO DECR AND SET, THIS IS FOR ACCLG. UUO
PD.PGR==1B14 ;.STPGM RUN IN PROGRESS. IF RUN FAILS, RUN LOGOUT
PD.LGO==1B15 ;A LOGOUT UUO IS IN PROGRESS
SUBTTL BITS IN JOB TABLES -- JBTSGN
;VIRTUAL ADDRESSING SPACE DESCRIPTOR WORD (JBTSGN) ONE WORD FOR EACH JOB
;THIS WORD APPEARS IN AC J
;LH BITS
;BITS 13-17=0 SO CAN DO CAI @JBTSGN TO COMPARE RH.
;RH IS HIGH SEG NUMBER (NUMBER GREATER THAN JOB MAX AND LESS THAN OR EQUAL TO JBTMAX)
; OR IF SPYSEG IS SET, RH IS HIGHEST PHYSICAL ADR USER MAY SPY INTO
; BITS 26-35 ALWAYS=1777 SO CANNOT WORK LIKE A SEGMENT NUMBER
;THESE BITS ALSO APPEAR IN THE HIGH SEG DATA BLOCK FOR A JOB/SEGMENT PAIR
;(SEE .HBSGN)
;THE BITS WHICH ALSO APPEAR ARE THE IOR ACROSS ALL OF THE JOB'S HIGH SEGMENTS
; XP REDOMP,100000 ;ON IF THE HIGH SEGMENT PART OF THIS
; JOB'S MAP MUST BE REDONE
; XP LOKSEG,10000 ;SOME HIGH SEGMENT THIS JOB IS SHARING IS LOCKED
; IN CORE.
;THESE BITS DO NOT APPEAR IN THE HIGH SEG DATA BLOCK:
XP CONSEG,200000 ;THIS JOB HAS A CONCEALED HIGH SEGMENT
XP SCHKM,1777 ;COUNT OF HIGH SEGS IN TRANSITION WHICH
;THIS JOB OWNS. SCHEDULAR WON'T RUN
;JOB WHEN THIS FIELD IS NON-ZERO
SUBTTL BITS IN JOB TABLES -- JBTPRV
;JOB PRIVILEGE BITS - JBTPRV TABLE
;SET BY LOGIN FROM ACCT.SYS FILE AS MODIFIED BY CUSTOMER FOR
; HIS PARTICULAR INSTALLATION
;RH RESERVED FOR SPECIAL CUSTOMER DEFINED PRIVILEGES (PLEASE START
; AT BIT 35 AND WORK TO THE LEFT)
;LH RESERVED FOR DIGITAL STANDARD PRIVILEGES
;BITS IN LEFT HALF
XP PVSPYM,1 ;JOB ALLOWED TO SPY AT MONITOR USING PEEK/SPY UUOS
XP PVSPYA,2 ;JOB ALLOWED TO SPY AT ALL OF CORE USING PEEK/SPY UUOS
XP PVTRPS,4 ;JOB ALLOWED TO USE TRPSET UUO
XP PVLOCK,10 ;JOB ALLOWED TO USE LOCK UUO
XP PVRTT,20 ;JOB IS ALLOWED TO USE RTTRP (REAL-TIME TRAPPING) UUO
XP JP.ADM,40 ;JOB HAS SYSTEM ADMINISTRATOR PRIVILEGES
XP JP.ENQ,100 ;JOB HAS ENQ PRIVILEGES
XP PVNSPL,200 ;JOB IS ALLOWED TO UNSPOOL DEVICES
XP PVHPQ,7400 ;LARGEST HPQ RUN QUEUE
XP JP.CCC,10000 ;JOB IS ALLOWED TO CHANGE CPU SPECIFICATION
; VIA COMMAND AND UUO
XP JP.POK,20000 ;POKE AT MONITOR
XP JP.MET,40000 ;JOB IS ALLOWED TO USE METER. UUO
XP JP.DPR,300000 ;LARGEST DISK PRIORITY ALLOWED
XP JP.IPC,400000 ;IPCF PRIV. FUNCTIONS
SUBTTL BITS IN JOB TABLES -- WORDS OF PROCESS DATA BLOCKS
XP PDMQNT,7777 ;MASK FOR QUANTUM RUN TIME
;MUST BE LOW ORDER BITS FOR SOS
XP PDSQNT,^D12 ;SIZE OF QNT BYTE
XP PDNQNT,^D35 ;BYTE PTR POSITION
XP PDSIPT,^D17 ;BYTE SIZE OF INCORE PROTECT TIME
XP PDNIPT,^D17 ;BYTE POSITION.
XP PDMSWP,400000 ;BIT ZERO FOR SKIPS ON .PDIPT
;IF ON, INCORE-PROTECT TIME HAS EXPIRED
XP NWSCTX,^D24 ;NUMBER OF WORDS OF MONITOR FREE CORE
; REQUIRED TO SAVE A JOBS CONTEXT
;LAYOUT OF SAVED CONTEXT BLOCK
XP .SCCIT,0 ;ITEM TO BE RETURNED TO THE CALLER
XP .SCCPC,1 ;PC OF CALLER TO SAVCTX
XP .SCJST,2 ;JBTSTS OF PREVIOUS CONTEXT
XP .SCPPC,3 ;DOUBLE WORD PC OF PREVIOUS CONTEXT
XP .SCDAC,5 ;DUMP ACS OF PREVIOUS CONTEXT
XP .SCCCF,25 ;FLAGS IN M AT CALL TO SAVCTX
SUBTTL BITS IN JOB TABLES -- JBTWCH AND JBTRSP
;BITS IN JBTWCH - WATCH SYSTEM RESPONSE COMMAND
;LH BITS: (BITS 13-35 = TIME OF DAY IN JIFFIES USER STARTS TO WAIT)
;MUST BE IN FOLLOWING ORDER WITH JW.WDJ AS LEFT MOST BIT OF ALL OF THEM
XP JW.WCX,400000 ;WATCH CONTEXT CHANGES
XP JW.WDY,200000 ;WATCH TIME OF DAY STARTED TO WAIT
XP JW.WRN,100000 ;WATCH RUN TIME WHEN RETURN TO COMMAND LEVEL
XP JW.WWT,40000 ;WATCH WAITING TIME RETURN TO COMMAND LEVEL
XP JW.WDR,20000 ;WATCH NO. 128 WORD DISK BLOCKS READ
XP JW.WDW,10000 ;WATCH NO. 128 WORD DISK BLOCKS WRITTEN
XP JW.WVR,4000 ;WATCH VERSIONS
XP JW.WMT,2000 ;WATCH MTA PERFORMANCE STATISTICS
XP JW.WFL,1000 ;WATCH FILE ACTIVITY
XP JW.WLM,400 ;LONG ERROR MESSAGES
XP JW.WNM,200 ;NORMAL ERROR MESSAGES
XP JW.WPM,100 ;PREFIX ERROR MESSAGES
; IF ABOVE 3-BITS=0, ASSUME =3.
;ADD NEW DATA HERE (ALSO INCLUDE IN WCHALL)
XP WCHALL,JW.WCX!JW.WDY!JW.WRN!JW.WWT!JW.WDR!JW.WDW!JW.WVR!JW.WMT!JW.WFL
;BITS IN JBTRSP - RESPONSE TIME MEASURE
;LH BITS - REST OF WORD IS UPTIME IN JIFFIES WHEN USER
; TYPED IN COMMAND WHICH STARTED JOB OR BREAK CHAR
; WHICH TOOK JOB OUT OF IO WAIT
;BITS SET TO 1 WHEN TYPE OF RESPONSE IS RECORDED. SET TO 0 WHEN USER TYPES IN
XP JR.RCR,1B0 ;RECORDED FIRST CPU USE
XP JR.ROR,1B1 ;RECORDED TTY OUTPUT UUO
XP JR.RIR,1B2 ;RECORDED TTY INPUT UUO
XP JR.RRR,1B3 ;RECORDED CPU QUANTUM EXCEEDED REQUEUE
XP JR.RXR,1B4 ;RECORDED FIRST OF ABOVE THREE RESPONSES
; (NOT JR.RCR)
XP JR.RXX,JR.RCR!JR.ROR!JR.RIR!JR.RRR!JR.RXR
;BITS IN C(JOBERR+2) (ERROR INTERCEPTING)
;LEFT HAND BITS:
XP .ERMSG,400000 ;DONT TYPE ERROR MESSAGE IF BIT=1
;RIGHT HAND BITS:
XP .ERIDV,1 ;INTERCEPT "DEV OK?" ERRORS (HNGSTP)
XP .ERICC,2 ;CONTROL-C INTERCEPT
XP .EROFL,4 ;UNIT DROPPED OFF-LINE
XP .ERFUL,10 ;FILE STRUCTURE IS FULL
XP .ERQEX,20 ;QUOTA EXHAUSTED
XP .ERTLX,40 ;TIME LIMIT EXCEEDED
XP .EREIJ,100 ;ERROR IN JOB
SUBTTL BITS IN JOB TABLES -- JBTLIM, JBTSPL, .PDOBI
;BITS, FIELDS IN JBTLIM
XP JB.LTL,1B0 ;0--TIME LIMIT SET FROM FORCED DETACH
XP JB.LCR,777B9 ;1-9--CORE LIMIT
XP JB.LBT,1B10 ;10-BATCH JOB
XP JB.LSY,1B11 ;11--GOTTEN FROM SYS:
XP JB.LTM,77777777 ;12-35--TIME LIM TO GO IN JIF. (0=INF.)
;BITS, FIELDS IN JBTSPL
XP JB.SIN,777777B17 ;0-17 SPOOLED INPUT NAME
XP JB.DPR,7B26 ;24-26 DISK PRIORITY
; DEFINED IN COMMOD,JBXPRI
XP JB.SPL,777 ;SPOOLING BITS
XP JBSSIZ,^D9 ;SIZE OF BYTE
XP JB.DFR,1B27 ;27 DEFFERRED SPOOLING
;28-30 RESERVED FOR MORE SPOOLING DEVICES
XP JB.CDR,.SPCDR ;31 SPOOLED CDR
XP JB.CDP,.SPCDP ;32 SPOOLED CDP
XP JB.PTP,.SPPTP ;33 SPOOLED PTP
XP JB.PLT,.SPPLT ;34 SPOOLED PLT
XP JB.LPT,.SPLPT ;35 SPOOLED LPT
;BITS, FIELDS IN .PDOBI
XP JB.WTO,3B1 ;WRITE TO OPERATOR VALUES
XP JB.WRA,0 ;WTO/WTOR ALLOWED
XP JB.WRO,1 ;WTO ALLOWED
XP JB.WNA,2 ;NEITHER WTO OR WTOR ALLOWED
XP JBPWTO,<<POINT 2,0,1>>
SUBTTL QUEUE. UUO
;DEFINITIONS FOR QUEUE. UUO
QU.FLG==:7777B11 ;QUEUE UUO FLAGS
QU.RSR==:1B0 ;USER IS REQUESTING A RESPONSE
QU.PRP==:1B1 ;USER IS PRIVILIGED AND IS REQUESTING PRIVS
QU.NBR==:1B2 ;USER IS REQUESTING NON-BLOCKING
;ADD NEW LEGAL QUEUE UUO FLAG BITS TO THE DEFINITION BELOW (QU.LFB)
QU.LFB==:QU.RSR+QU.PRP+QU.NBR
;HEADER BLOCK LENGTH
QU.HLN==:77B17 ;TOTAL LENGTH OF HEADER (BEFORE ARGS)
;FIELD IN .QUTIM (4):
QU.TIM==:7777B35 ;FIELD FOR TIMEOUT REQUEST
;DEFINITIONS FOR WTO/WTOR UUO
.WTORR==:200012 ;WTOR RESPONSE
.OMACK==:700000 ;OPERATOR MESSAGE ACK
WT.WTR==:1B0 ;WTOR AS OPPOSED TO WTO
WT.SJI==:1B6 ;SUPPRESS JOB INFORMATION ON OPR DISPLAY
WT.SND==:1B10 ;WTO AS A RESULT OF A SEND COMMAND
WT.RWT==:1B18 ;WTOR TEXT WAS TRUNCATED
WT.RBR==:1B19 ;RESPONSE BLOCK RETURNED
WT.NRW==:777B35 ;LENGTH OF WTOR RESPONSE MESSAGE
.WTTXT==:40 ;WTO TEXT
.WTTYP==:41 ;TYPEOUT INTRODUCTION FIELD
.WTDES==:25 ;NODE NAME OF WTO OPERATOR
.WTACT==:23 ;ACCOUNT STRING
.WTUFC==:24 ;QUEUE UUO FUNCTION
.WTNAM==:26 ;USER'S NAME
.WTTTY==:53 ;USER'S TTY (FOR 'SEND OPR')
.CMTXT==:17 ;OPERATOR RESPONSE TO WTOR
WT.NOR==:1B2 ;NORMAL RESPONSE FROM ORION
JP.OPP==:7B4 ;OPER PRIVS
JBPOPP==:<<POINT 3,0,4>>
JB.BSS==:1B10 ;BATCH STREAM NUMBER SET
JB.BSN==:177B17 ;BATCH STREAM NUMBER
JBPBSN==:<<POINT 7,0,17>> ;POINTER TO BSN
;DEFINITIONS FOR OPRMSG ROUTINE
OPM.SO==:1B35 ;SEND TO ORION (IF RUNNING)
OPM.OT==:1B34 ;OPR: TERMINAL
OPM.CT==:1B33 ;CTY TYPEOUT
;IF OPM.SO IS SET AND ORION IS RUNNING,
; NO TERMINAL TYPEOUT WILL OCCUR.
;QUEUE. UUO OFFSETS (FIXED)
;GALAXY HEADER
QUELNH==:0 ;LENGTH,,FUNCTION
QUEFLG==:1 ;FLAGS
QUEJOB==:2 ;ACK CODE,,JOB NUMBER
QUEMBZ==:3 ;0
QUEARC==:4 ;ARGUMENT COUNT
;QUEUE. UUO OFFSETS (MAY CHANGE)
;MONITOR SUPPLIED DATA
QUEONH==5 ;OPR NODE NAME HEADER
QUEONN==QUEONH+1 ;OPR NODE NAME
QUEONL==2 ;LENGTH OF OPR NODE NAME
QUEUNH==QUEONH+QUEONL ;USER NAME HEADER
QUEUSN==QUEUNH+1 ;USERS NAME
QUEUNL==3 ;LENGTH OF USERS NAME
QUEACH==QUEUNH+QUEUNL ;ACCOUNT STRING HEADER
QUEACS==QUEACH+1 ;ACCOUNT STRING
IFNDEF ACTSTL,<EXTERN ACTSTL>
QUEACL==ACTSTL+1 ;LENGTH OF ACCOUNT STRING
;***QUEFCH MUST BE LAST, ADD MONITOR GENERATED ARGUMENTS ABOVE HERE
QUEFCH==QUEACH+QUEACL ;FUNCTION BLOCK HEADER
QUEFCN==QUEFCH+1 ;FUNCTION
QUEFCL==2 ;LENGTH OF FUNCTION BLOCK
;***NUMBER OF MONITOR GENERATED ARGUMENTS, MUST BE UPDATED IF ANOTHER
; BLOCK IS ADDED TO THE OUTPUT OF THE QUEUE. UUO
QUEIGL==4
;LENGTH OF STATIC DATA
QUESDL==5+QUEONL+QUEUNL+QUEACL+QUEFCL
SUBTTL BITS IN JOB TABLES -- JBTSPS
;BITS IN JBTSPS - SECOND PROCESSOR STATUS TABLE. INDEXED BY JOB NO.
;BITS DEFINED AS 36 BIT MASKS USING NEW SP.XXX CONVENTION
;NOT DEFINED FOR USERS (YET):
XP SP.NR0,1B5 ;NOT RUNABLE ON CPU0
XP SP.NR1,1B4 ;NOT RUNABLE ON CPU1
XP SP.NRA,77B5 ;NOT RUNABLE ANYWHERE
;BITS 3-0 RESERVED FOR FUTURE CPUS
XP SP.CJ0,1B11 ;CURRENT JOB ON CPU 0
XP SP.CJ1,1B10 ;CURRENT JOB ON CPU 1
XP SP.CJA,77B11 ;CURRENT JOB SOMEWHERE
;BITS 6-9 RESERVED FOR FUTURE CPUS
XP SP.ROP,1B12 ;JOB FORCED TO POLICY CPU
; FIX SP.NR? BITS WHEN POLICY CPU DIES
XP SP.CC1,1B14 ;CONTROL C ON CPU 1, STOP RUNNING JOB
;ON SLAVE
;DEFINED FOR USERS:
XP SP.CR0,1B35 ;CAN RUN ON CPU 0. SET BY SETUUO, RESET, EXIT
; IE CURRENT JOB CPU SPECIFICATION BIT.
XP SP.CR1,1B34 ;CAN RUN ON CPU 1. SET BY SETUUO, RESET, EXIT
; IE CURRENT JOB CPU SPECIFICATION BIT.
XP SP.CRA,77B35 ;CAN RUN ANYWHERE
;BITS 33-30 RESERVED FOR FUTURE CPUS
XP SP.SC0,1B29 ;"SET CPU COMMAND" BIT FOR CPU 0
; 1 MEANS OK AS FAR AS USER IS CONCERNED
; TO RUN JOB ON THIS CPU (EVEN IF CPU HAS
; BEEN STOPPED OR IS NOT SCHEDULING).
XP SP.SC1,1B28 ;"SET CPU COMMAND" BIT FOR CPU 1
; 1 MEANS OK AS FAR AS USER IS CONCERNED
; TO RUN JOB ON THIS CPU (EVEN IF CPU HAS
; BEEN STOPPED OR IS NOT SCHEDULING).
XP SP.SCA,77B29 ;"SET CPU ALL"
;BITS 27-24 RESERVED FOR FUTURE CPUS
SP.CP0==1B35 ;CPU0'S BIT IS RIGHTMOST IN ALL FIELDS
SP.CPA==77B35 ;BITS FOR ALL CPUS
SUBTTL BITS IN JOB TABLES -- JBTPIA AND PSISER DEFINITIONS
;BITS IN JBTPIA -- PROGRAMMED SOFTWARE INTERRUPT POINTER TABLE
XP SI.ON,1B0 ;PI SYSTEM IS TURNED ON
XP SI.DBK,1B1 ;PI SYSTEM IS OFF UNTIL DEBRK OF CURRENT
XP SI.UEA,1B2 ;PI SYSTEM WILL USE EXTENDED ADDRESSING
;BITS IN LH OF PIINI. UUO
XP PS.IEA,1B1 ;USER WANTS PI SYSTEM TO USE EXTENDED ADDRESSING
;BITS IN AC OF PISYS. UUO
XP PS.OFF,1B1 ;TURN SYSTEM OFF
XP PS.ON,1B2 ;TURN SYSTEM ON
XP PS.CPI,1B3 ;CLEAR ALL PENDING INTERRUPTS
XP PS.CSI,1B4 ;CLEAR SELECTED INTERRUPT
XP PS.RDV,1B5 ;REMOVE DEVICE OR CONDITION
XP PS.ADV,1B6 ;ADD DEVICE OR CONDITION
XP PS.ALL,77B6 ;ALL VALID BITS
;BITS IN THE INTERRUPT REASON WORD
;*** 1B18 IS RESERVED TO PSISER AND NOT AVAILABLE ***
XP IR.IND,1B19 ;INPUT DONE
XP IR.OUD,1B20 ;OUTPUT DONE
XP IR.EOF,1B21 ;END OF FILE
XP IR.IER,1B22 ;INPUT ERROR
XP IR.OER,1B23 ;OUTPUT ERROR
XP IR.DOL,1B24 ;DEVICE OFF LINE
XP IR.DFL,1B25 ;DEVICE IS FULL
XP IR.QTE,1B26 ;QUOTA EXCEEDED
XP IR.IOW,1B27 ;I/O WAIT
XP IR.ONL,1B28 ;DEVICE ON LINE
XP IR.RHC,1B29 ;RIB HAS CHANGED
XP IR.HNG,1B30 ;HUNG DEVICE
XP IR.RSW,1B31 ;REEL SWITCH
XP IR.IAL,1B32 ;INPUT AVAILABLE
XP IR.ALL,37777B32
;BITS IN THE DECNET EVENT INTERRUPT REASON WORD
XP DR.EVT,1B35 ;A DECNET EVENT IS WAITING FOR NETWORK MGMT
;TABLE OF CONDITION CODES THAT CAN CAUSE INTERRUPTS
DEFINE COND(COD),<
XP C$MIN,C$MIN-1 ;DECREMENT MINIMUM CODE
IFNB <COD>,<XP COD,C$MIN> ;SET NEW CODE = NEW MIN
>
XP C$MIN,0 ;INITIAL VALUE OF MOST NEGATIVE CONDITION.
COND C$TLE, ;(-1) TIME LIMIT EXCEEDED
COND C$TMR, ;(-2) TIMER REQUEST
COND C$CTLC, ;(-3) CONTROL-C INTERCEPT
COND C$AUUO, ;(-4) ANY MUUO
COND C$IUUO, ;(-5) ILLEGAL UUO
COND C$IMR, ;(-6) ILL MEM REF
COND C$ADCK, ;(-7) ADDRESS CHECK
COND C$ARIT, ;(-10) ARITHMETIC EXCEPTION
COND C$PLOV, ;(-11) PDL OV
COND C$NSP, ;(-12) DECNET NSP. INTERRUPTS
COND C$NXM, ;(-13) NON-EX MEM
COND C$APRC, ;(-14) APR CLOCK
COND C$UEIJ, ;(-15) USER INDUCED ERROR IN JOB
COND C$XEIJ, ;(-16) EXTERNAL ERROR IN JOB
COND C$KSYS, ;(-17) KSYS WARNING
COND C$DSET, ;(-20) DATASET STATUS CHANGE
COND C$DATT, ;(-21) DETACH/ATTACH
COND C$WAKE, ;(-22) WAKE UUO
COND C$ADRB, ;(-23) ADDRESS BREAK
COND C$IPC, ;(-24) IPCF (MESSAGE AVAILABLE)
COND C$DEVT ;(-25) DECNET EVENT
COND C$QUE, ;(-26) ENQ/DEQ (RESOURCE AVAILABLE)
COND C$NTC, ;(-27) NETWORK TOPOLOGY CHANGE
COND C$JBI, ;(-30) CROSS JOB INTERRUPTS
COND C$DTC, ;(-31) DATE/TIME CHANGE
COND C$OOB, ;(-32) OUT-OF-BAND INTERRUPT CHARACTER
COND C$R2C1, ;(-33) RESERVED TO CUSTOMER
COND C$R2C2, ;(-34) RESERVED TO CUSTOMER
COND C$SCS, ;(-35) SCS EVENT
COND C$ETH, ;(-36) ETHERNET EVENT
COND C$LLM, ;(-37) LLMOP EVENT
COND C$LAT, ;(-40) LAT EVENT
SUBTTL FILE (FILOP./OPEN/LOOKUP/ENTER/RENAME) ERROR CODES
;ERROR CODES RETURNED TO USERS ON FILOP./LOOKUP/ENTER/RENAME FAILURES
;ERROR CODE RETURNED IN AC FOR FILOP.; IN RH OF EXTENSION WORD FOR OTHERS.
XP FNFERR,0 ;FILE OR SEGMENT NOT FOUND OR 0 FILE NAME
XP IPPERR,1 ;INCORRECT PROJECT,PROGRAMMER NUMBERS
XP PRTERR,2 ;PROTECTION FAILURE (OR DIRECTORY FULL ON DTA)
XP FBMERR,3 ;FILE BEING MODIFIED
XP AEFERR,4 ;ALREADY EXISTING FILE ON ENTER/RENAME
; OR DIFFERENT FILE NAME ON UPDATE ENTER
XP ISUERR,5 ;ILLEGAL SEQUENCING OF UUOS
; (RENAME WITHOUT LOOKUP OR ENTER; LOOKUP AFTER ENTER)
XP TRNERR,6 ;TRANSMISSION ERROR OR BAD UFD
XP NSFERR,7 ;NOT A SAVE FILE (RUN,GETSEG UUO ONLY)
XP NECERR,10 ;NOT ENOUGH CORE (RUN,GETSEG,SEGOP. UUO ONLY)
XP DNAERR,11 ;DEVICE NOT AVAILABLE
XP NSDERR,12 ;NO SUCH DEVICE
XP ILUERR,13 ;ILLEGAL UUO (GETSEG,SEGOP. ONLY)
XP NRMERR,14 ;NO ROOM ON THIS FILE STRUCTURE ON ENTER
; OR ALLOCATION OR USER QUOTA EXCEEDED
; (OVERDRAW DOESN'T COUNT ON ENTER)
XP WLKERR,15 ;WRITE LOCK ERROR - CAN'T WRITE HIGH SEGMENT OR
; ON FILE STRUCTURE. EITHER HARDWARE
; OR SOFTWARE WRITE PROTECTED.
XP NETERR,16 ;NOT ENOUGH MONITOR TABLE SPACE
XP PAOERR,17 ;PARTIAL ALLOCATION ONLY
XP BNFERR,20 ;BLOCK NOT FREE ON ALLOCATION WHERE STARTING
; LOGICAL BLOCK NUMBER OF FILE STRUCTURE SPECIFIED.
XP CSDERR,21 ;CAN'T SUPERCEDE A DIRECTORY
XP DNEERR,22 ;CAN'T DELETE A NON-EMPTY DIRECTORY
XP SNFERR,23 ;SFD NOT FOUND
XP SLEERR,24 ;SEARCH LIST EMPTY
XP LVLERR,25 ;NESTING TO TOO DEEP A LEVEL
XP NCEERR,26 ;NO-CREATE OR READ-ONLY ON FOR ALL STR'S IN LIST
XP SNSERR,27 ;SEGMENT NOT ON SWAPPING SPACE (GETSEG ONLY)
XP FCUERR,30 ;FILE CAN'T BE UPDATED
XP LOHERR,31 ;LOW SEGMENT OVERLAPS HIGH SEGMENT (GETSEG ONLY)
XP NLIERR,32 ;NOT LOGGED IN (RUN UUO ONLY)
XP ENQERR,33 ;FILE STILL HAS OUTSTANDING LOCKS ON IT
XP BEDERR,34 ;BAD EXE FILE DIRECTORY (GETSEG, RUN UUO)
XP BEEERR,35 ;BAD EXTENSION FOR EXE FILE
; ".EXE" ISN'T AN EXE FILE,
; OR ".ANYTHING ELSE"
; IS (GETSEG, RUN UUO)
XP DTBERR,36 ;EXE DIRECTORY IS TOO BIG (GETSEG, RUN UUO)
XP ENCERR,37 ;TSK - EXCEEDED NETWORK CAPACITY
XP TNAERR,40 ;TSK - TASK NOT AVAILABLE
XP UNNERR,41 ;TSK - UNKNOWN NETWORK NODE (WENT DOWN DURING LOOKUP/ENTER)
XP SIUERR,42 ;RENAME - SFD IS IN USE BY ANOTHER JOB
XP NDRERR,43 ;DELETE - FILE HAS AN NDR LOCK
XP TMYERR,44 ;TOO MANY READERS
XP SLLERR,45 ;RENAME - SFD TO LOWER LEVEL
XP CNOERR,46 ;CHANNEL NOT OPEN (FILOP.)
XP DDUERR,47 ;DEVICE DOWN AND UNUSEABLE (DETACHED)
XP DRSERR,50 ;DEVICE IS RESTRICTED
XP DCMERR,51 ;DEVICE IS CONTROLLED BY THE MDA
XP DAJERR,52 ;DEVICE BELONGS TO ANOTHER JOB
XP IDMERR,53 ;ILLEGAL DATA MODE
XP UOBERR,54 ;UNDEFINED/UNKNOWN OPEN BITS SET
XP DUMERR,55 ;DEVICE IN USE ON MPX CHANNEL
XP NPCERR,56 ;NO (NOT ENOUGH) PER PROCESS SPACE FOR
; THE EXTENDED I/O CHANNEL TABLE
XP NFCERR,57 ;NO FREE CHANNELS AVAILABLE
XP UFFERR,60 ;UNKNOWN FILOP. FUNCTION
XP CTBERR,61 ;CHANNEL NUMBER TOO BIG
XP CIFERR,62 ;CHANNEL ILLEGAL FOR OPERATION
XP ACRERR,63 ;ADDRESS CHECK READING ARGUMENTS
XP ACSERR,64 ;ADDRESS CHECK STORING ANSWER
XP NZAERR,65 ;NEGATIVE OR ZERO OR ILLEGAL ARGUMENT COUNT
XP ATSERR,66 ;ARGUMENT BLOCK TOO SHORT
XP LBLERR,67 ;MAGTAPE LABELING ERROR
XP DPSERR,70 ;DUPLICATE SEGMENT ERROR
XP NFSERR,71 ;NO FREE SECTION AVAILABLE ERROR (SEGOP.)
XP SIIERR,72 ;SEGMENT INFO INCONSISTANT (NAME AND NUMBER DON'T AGREE)
SUBTTL EXTENDED I/O ERRORS
;CODES RETURNED BY DEVOP. FUNCTION 3
IOPLE%==1 ;PAGE LIMIT EXCEEDED (LPT)
IOVFE%==2 ;VFU FORMAT ERROR (LPT)
IOLTE%==3 ;LABEL TYPE ERROR (MTA)
IOHLE%==4 ;HEADER LABEL ERROR (MTA)
IOTLE%==5 ;TRAILER LABEL ERROR (MTA)
IOVLE%==6 ;VOLUME LABEL ERROR (MTA)
IODER%==7 ;HARD DEVICE ERROR
IOPAR%==10 ;PARITY ERROR
IOWLE%==11 ;WRITE LOCK ERROR
IOIPO%==12 ;ILLEGAL POSITIONING OPERATION (MTA)
IOBOT%==13 ;BEGINING OF TAPE (MTA)
IOIOP%==14 ;ILLEGAL OPERATION (MTA
IOFNF%==15 ;FILE NOT FOUND (MTA)
IOCAN%==16 ;OPR CANCELLED REEL SWITCH (MTA)
IOTMV%==17 ;TOO MANY VOLUMES IN VOLUME-SET (MTA)
IONND%==20 ;NETWORK NODE DOWN
IOUNC%==21 ;UNDEFINED CHARACTER INTERRUPT (LP20)
IORPE%==22 ;RAM PARITY ERROR (LP20)
IOLRA%==23 ;LABELER REQUEST ABORTED BY RESET UUO (MTA)
IOVPF%==24 ;VOLUME PROTECTION FAILURE (MTA)
IOFPF%==25 ;FILE PROTECTION FAILURE (MTA)
IOUEF%==26 ;UNEXPECTED FILE (MTA)
IONDD%==27 ;NETWORK DEVICE DISCONNECTED
IOMAX%==27 ;HIGHEST LEGAL EXTENDED ERROR CODE
;BITS RETURNED BY DEVOP. FUNCTION 5
XP DV.OFL,1B0 ;DEVICE IS OFF-LINE
XP DV.VLE,1B34 ;VFU LOAD ENABLED
XP DV.VFE,1B35 ;VFU ERROR
SUBTTL JOB BUFFER HEADER
; JOB BUFFER AREA HEADER
XP JBFADR,0 ;BIT 0=1 IF THIS BUFFER RING HAS NEVER BEEN
; REFERENCED FROM THE USER'S PROGRAM BY
; AN INPUT OR OUTPUT COMMAND.
; BITS 1-17=UNUSED
; BITS 18-35=CURRENT BUFFER ADDRESS
XP JBFPTR,1 ;BYTE POINTER TO NEXT BYTE -1
XP JBFCTR,2 ;POSITIVE ITEM COUNT
XP JBFUDX,3 ;UDX FOR MSGSER
; JOB BUFFER HEADER
XP IOUSE,400000 ;1 IF BUFFER IS FULL (OR BEING EMPTIED)
; 0 IF BUFFER IS EMPTY (OR BEING FILLED)
; BITS 1-17=BUFFER SIZE
; BITS 18-35=NEXT BUFFER ADDRESS
XP IOIBC,200000 ;INHIBIT CLEARING OUTPUT BUFFERS BEFORE
; GIVING THEM TO THE USER IF .OPIBC WAS
; SPECIFIED IN THE OPEN STATEMENT FOR THIS CHANNEL
XP IONER,700000 ;PRESENTLY ONLY USED BY TSK DEVICE. SET MEANS
XP IOSIZ,177777 ; MASK OF BUFFER SIZE OF THIS BUFFER
; THE DATA IN THE BUFFER DOES NOT INCLUDE END OF RECORD.
; DEFINITIONS FOR TRANSPOSING EXTRA DATA BIT IN CLOCK QUEUE DATA ITEMS
XP CLKEXB,400000 ;EXTRA DATA BIT IN LH OF REQUEST WORD
XP CLKDB7,100 ;DATA BIT 7 OF DATA ITEM RH
SUBTTL ARGUMENTS FOR EXTENDED LOOKUP/ENTER/RENAME
;SYMBOLS FOR MAKING PARTS OF WORDS BE A CONSTANT OF ZERO
; SO THAT FUTURE PROGRAMMERS WILL KNOW THAT THAT BYTE MUST BE ZERO.
XP ZERO36,0 ;36 BITS OF ALWAYS ZERO
XP ZERO18,0 ;18 BITS (LH OR RH DEPENDING ON WHICH FIELD OF XWD.
XP ZERO13,0 ;INDIRECT BIT
XP ZERO5,0 ;5 BITS (USUALLY LH BITS 13 THRU 17, I.E., @ AND INDEX FIELD
; OF POINTERS WHICH WANT TO BE REFERENCED USING INDIRECTION
XP UUNNAM,0
XP UUNEXT,1
XP UUNATT,2
XP UUNPPN,3
XP UUXNUM,0
XP UUXPPN,1
XP UUXNAM,2
XP UUXEXT,3
XP UUXPRV,4
XP UUXSIZ,5
XP UUXVER,6
XP UUXFUT,7
XP UUXEST,10
XP UUXALC,11
XP UUXPOS,12
XP UUXFT1,13
XP UUXNCA,14
XP UUXLNA,UUXNCA
XP UUXMTA,15
XP UUXDEV,16
XP UUXSTS,17
XP UUXELB,20
XP UUXEUN,21
XP UUXQTF,22
XP UUXTYP,UUXQTF
XP UUXQTO,23
XP UUXBSZ,UUXQTO
XP UUXQTR,24
XP UUXRSZ,UUXQTR
XP UUXUSD,25
XP UUXFFB,UUXUSD
XP UUXAUT,26
XP UUXNXT,27
XP UUXPRD,30
XP UUXPCA,31
XP UUXUFD,32
XP UUXFLR,33
XP UUXXRA,34
XP UUXTIM,35
XP UUXLAD,36
XP UUXDED,37
XP UUXENX,UUXDED ;LAST "REGULAR VALUE"
XP UUXACT,40
XP UUXENT,UUXACT ;LAST ARG OR VALUE FOR EXTENDED UUOS
SUBTTL MEM PARITY ERROR RECOVERY
;MEM PARITY COMMUNICATION BITS BETWEEN CPUS AND INTERRUPT LEVELS
;THE FOLLOWING BITS ARE DEFINED HERE AND ARE STORED IN LH OF VARIABLE .CPAEF
; AND CONSTANT .CPMPS
XP CP.PXX,1B0 ;SOME CPU OR CHANNEL REQUESTED A MEMORY SCAN FOR
; PARITY OR NXM TO BE DONE ON THIS CPU
XP CP.PS0,1B1 ;CPU0 REQUESTED THIS CPU TO SCAN
XP CP.PS1,1B2 ;CPU1
XP CP.PS2,1B3 ;CPU2
XP CP.PS3,1B4 ;CPU3
XP CP.PS4,1B5 ;CPU4
XP CP.PS5,1B6 ;CPU5
XP CP.PSX,CP.PS0!CP.PS1!CP.PS2!CP.PS3!CP.PS4!CP.PS5 ;ANY CPU REQ SCAN
XP CP.CS0,1B7 ;CHANNEL 0 REQUESTED THIS CPU TO SCAN
XP CP.CS1,1B8 ;CHN 1
XP CP.CS2,1B9 ;CHN 2
XP CP.CS3,1B10 ;CHN 3
XP CP.CS4,1B11 ;CHN 4
XP CP.CS5,1B12 ;CHN 5
XP CP.CS6,1B13 ;CHN 6
XP CP.CS7,1B14 ;CHN 7
XP CP.CSX,CP.CS0!CP.CS1!CP.CS2!CP.CS3!CP.CS4!CP.CS5!CP.CS6!CP.CS7 ;ANY CHAN REQ SCAN
SUBTTL CPU UP/DOWN BITS
;BITS IN .CPRUN DETERMINING RUNNABILITY STATE OF A CPU
XP CR.NRN,1B0 ;NO RUN (NOT RUNNING), MUST BE THE SIGN BIT
XP CR.RMV,1B1 ;REMOVE(D)
XP CR.DET,1B2 ;DETACH(ED)
XP CR.SPD,1B3 ;SUSPEND(ED)
XP CR.TSS,1B4 ;TAKE A SNAP SHOT/SNAP SHOT FAILED
XP CR.ATO,1B5 ;WAITING FOR AUTCON TO RUN
;THE FOLLOWING DEFINITIONS ARE USED AS LOCAL SYMBOLS
; IN KLSER FOR AR-ARX PARITY ERROR RECOVERY
TRPTRY==4 ;# OF RETRIES BEFORE FAILURES ARE NON-RECOVERABLE
CCHEMX==3 ;# OF HARD CACHE ORIENTED FAILURES TO ALLOW
; DURING A MONITOR LOAD PERIOD BEFORE TURNING
; THE CACHE OFF AND TELLING OPERATOR
;LOCAL FLAG WORD DEFINITIONS
PFCPF0==1B18 ;A LOCAL RETRY TEST REFERENCE IS IN PROGRESS
PFCPF1==1B19 ;ERROR IS NON-RECOVERABLE
PFCPF2==1B20 ;ERROR DURING RETRY TEST REFERENCE
PFCPF3==1B21 ;CACHE WAS ENABLED WHEN TRAP OCCURRED
PFCPF4==1B22 ;ERROR OCCURRED DURING CACHE SWEEP TO CORE
PFCPF5==1B23 ;CACHE WAS TURNED OFF (DISABLED) BECAUSE
; .GT. CCHEMX FAILURES HAVE OCCURED
DMACLR==110000 ;LEFT HALF VALUE TO CLEAR ERROR BITS IN
; DMA20 WITH SBDIAG.
.SBNMC==21 ;NUMBER OF MEMORY CONTROLLERS FOR SBDIAG
; (0-3 ARE MA20 OR MB20, 4 IS DMA20, 5-7 UNUSED, 10-20 ARE MF20)
.SBFNC==2 ;NUMBER OF SBDIAG FUNCTIONS (0 AND 1)
SB.CLR==(1B5) ;LEFT-HALF BIT TO CLEAR ERROR FLAGS IN SBDIAG
; FUNCTION 0
.PMMER==1 ;CODE SENT TO TGHA INDICATING SINGLE BIT MOS ERROR
SUBTTL CODES FOR DAEMON ERROR REPORTING
;ERROR CODES FOR DAEMON ERROR REPORTING
;PASSED IN LH OF AC RETURNED ON ERRPT. UUO
.ERWHY==:1 ;RELOAD MONITOR ERROR
.ERMSE==:2 ;NON-RELOAD MONITOR ERROR
.ERMPE==:3 ;CPU MEMORY PARITY ERROR
.ERNXM==:4 ;NON-EXISTENT MEMORY ERROR
.ERCIN==:5 ;INFORMATION EXTRACTED FROM A CRASH DUMP
.ERCPE==:6 ;CHANNEL ERROR
.ERDRE==:7 ;DAEMON RESTARTED
.ERDPE==:10 ;DISK ERROR
.FIRBE==1 ;FILIO-DETECTED RIB ERROR
.FIBOS==2 ;FILIO-DETECTED "BUSY ON WHEN WE STARTED"
.FIER3==3 ;FILIO-DETECTED DISK ERROR
.FIER4==4 ;FILIO-DETECTED DISK ERROR
.FICKE==5 ;FILIO-DETECTED CHECKSUM ERROR
.FIUOF==6 ;FILIO-DETECTED UNIT OFFLINE
.ERMDE==:11 ;MASSBUS DEVICE ERROR
.ERDXE==:12 ;DX20 DEVICE ERROR
;.ERSEB==:13 ;SYSTEM ERROR BLOCK AVAILABLE (OBSOLETE)
.ERSWE==:14 ;SOFTWARE EVENT OF INTEREST
.SWEPK==1 ;EVENT WAS A POKE
.SWESN==2 ;EVENT WAS A SNOOP.
.SWETP==3 ;EVENT WAS A TRPSET
.SWERT==4 ;EVENT WAS A RTTRAP
.SWMS1==5 ;MISC EVENT 1 (FOR DEBUGGING)
.SWMS2==6 ;MISC EVENT 2 (FOR DEBUGGING)
.ERCSC==:15 ;CONFIGURATION STATUS CHANGE
.CSCAT==0 ;ATTACH
.CSCDT==1 ;DETATCH
.CSCXC==2 ;EXCHANGE
.CSCTC==3 ;DATE/TIME CHANGE
.CSCCF==4 ;SET CPU OFF-LINE
.CSCCO==5 ;SET CPU ON-LINE
.CSCNF==6 ;NODE OFF-LINE
.CSCNO==7 ;NODE ON-LINE
.CSCMO==10 ;SET MEMORY ON-LINE
.CSCMF==11 ;SET MEMORY OFF-LINE
.CSCPO==12 ;MONITOR (PARITY RECOVERY) SET MEM OFF-LINE
.ERMAG==:20 ;MAGTAPE ERROR
.ERTAP==:21 ;TAPSER MAGTAPE ERROR
.ERDTA==:25 ;DECTAPE ERROR
.ERKLE==:30 ;KL CPU ERROR INFO FROM FRONT END
.ERHSB==:33 ;KS10 HALT STATUS BLOCK
.ERMSC==:41 ;MAGTAPE STATISTICS
.ERTPS==:42 ;TAPSER MAGTAPE STATISTICS
.ERMRV==:44 ;MONITOR RUN VALUES IN AVAIL.SYS
.ERDSC==:45 ;DISK STATISTICS (USUALLY FROM A CRASH)
.ERDLE==:50 ;DL10 HARDWARE ERROR
.ERKIP==:51 ;KI PARITY/NXM INTERRUPT (7.01)
.ERKLP==:52 ;KL PARITY/NXM INTERRUPT (7.01)
.ERKSM==:53 ;KS MEMORY ERROR
.ERKSN==:54 ;KS NXM TRAP (7.01)
.ERKPT==:55 ;KL/KS PARITY TRAP (7.01)
.ERSNX==:56 ;NXM MEMORY SCAN (7.01)
.ERSPR==:57 ;PARITY MEMORY SCAN (7.01)
.ERKDT==:61 ;KL10 DATA PARITY TRAP
.ERCSB==:63 ;CPU STATUS BLOCK
.ERDSB==:64 ;DEVICE STATUS BLOCK
.ERLPT==:71 ;LPT ERROR
.ERHCC==:72 ;HARD COPY CONTROLLER ERROR
.ERULD==:73 ;MICROCODE LOAD
.ERCIE==:74 ;CI DISK ERROR
.ERDVD==:75 ;DEVICE DUMP
.ERDTC==:100 ;DATE/TIME CHANGE
SUBTTL SYSTEM ERROR BLOCK DEFINITIONS
.ORG 0 ;DEFINE AS OFFSETS
.EBLNK::!BLOCK 1 ;LINK TO NEXT BLOCK (MUST BE FIRST WORD)
.EBTYP::!BLOCK 1 ;BYTE (9) TYPE CODE,0,0,LENGTH OF BLOCK
; EXCLUDING HEADER
EH.T20==:(1B17) ;TOPS-20 ENTRY (USED ONLY BY SPEAR)
EH.CRS==:(1B16) ;ENTRY CAME FROM A CRASH FILE
; BITS 9-15 ;FREE BITS
.EBDTM::!BLOCK 1 ;UNIVERSAL DATE/TIME OF ERROR
.EBUPT::!BLOCK 1 ;SYSTEM UPTIME WHEN ERROR OCCURRED
.EBASN::!BLOCK 1 ;APR SERIAL NUMBER OF CPU ON WHICH
; ERROR OCCURRED
.EBSEQ::!BLOCK 1 ;DAEMON FILLS IN THE SEQUENCE NUMBER. THIS
; WORD ONLY APPEARS HERE FOR DAEMON'S EASE
; IN COPYING THE ERROR BLOCK INTO THE ERROR
; FILE BUFFER.
.EBHDR::! ;LENGTH OF HEADER
.ORG
SUBTTL SYSTEM ERROR BLOCK TRANSFER TABLE DEFINITIONS
;FOR EASE OF GENERATING SYSTEM ERROR BLOCKS, THE MONITOR PROVIDES
;A FACILITY WHICH MIMICS DAEMON'S CODE TO COPY DATA FROM SELECTED
;DATA STRUCTURES INTO A SYSTEM ERROR BLOCK. A TRANSFER TABLE IS
;USED FOR THIS PURPOSE. THE FIRST FEW WORDS CONTAIN INFORMATION
;FOR THE DATA TRANSFER ROUTINE (XFRSEB).
;
;THE FORMAT OF THE TABLE IS SIMPLE. DATA IN THE FORM OF PARTIAL
;INSTRUCTIONS IMMEDIATELY FOLLOWS THE TABLE HEADER WORDS. FOR
;EXAMPLE:
;
;BEGT: SEBTBL (.ERFOO,ENDT,EX.QUE)
; MOVE UDBNAM(U)
; MOVE TUBTID(U)
;ENDT:!
;
;"BEGT" AND "ENDT" SPECIFY THE START AND END OF THE TABLE. THE
;SETTBL MACRO BUILD THE TABLE HEADER. EACH INSTRUCTION IS PICKED
;UP BY XFRSEB AND IS COMPLETED BY LOADING BITS 9-12 WITH AN AC OF
;ITS CHOICE. THEN THE INSTRUCTION IS EXECUTED AND THE RESULT
;STORED INTO THE CURRENT WORD OF THE RECORD USING A MOVEM. THIS
;MAKES IT SIMPLE TO FETCH HALF-WORD AND BYTE QUANTITIES. THE USE
;OF T1-T2 SHOULD BE AVOIDED IN THE TABLE.
.ORG 0
.EXREC::! BLOCK 1 ;RECORD TYPE CODE
.EXFLG::! BLOCK 1 ;-LENGTH,,FLAGS
EX.QUE==:1B18 ;QUEUE BLOCK AT END OF XFER
EX.SYE==:1B19 ;INCREMENT SYSTEM ERROR COUNT
EX.DEL==:1B20 ;TEST FOR DISABLED ERROR LOGGING
EX.CRS==:1B21 ;ENTRY COMES FROM READING A CRASH FILE
.EXHDR::! ;LENGTH OF BLOCK
.ORG
;MACRO TO DEFINE THE TRANSFER TABLE HEADER
;ARGUMENTS:
; REC RECORD CODE (.ER???)
; EAD END ADDRESS OF XFER TABLE
; FLG FLAGS (EX.???)
DEFINE SEBTBL (REC,EAD,FLG),<
EXP REC ;;RECORD TYPE CODE
XWD -<EAD-.+1>+.EXHDR,FLG ;;-LENGTH,,FLAGS
> ;END DEFINE SEBTBL
SUBTTL SYSTEM ERROR BLOCK ENTRY FORMATS
;***********************************
;CI DISK/TAPE ENDPACKET CODE
;***********************************
SEC%CI==242 ;CI EVENT
CI%NOD==0 ;PORT NUMBER,,NODE NUMBER
CI%VID==1 ;VOLUME ID
CI%RED==2 ;BLOCKS/FRAMES READ
CI%WRT==3 ;BLOCKS/FRAMES WRITTEN
CI%PS1==4 ;POSITION 1
CI%PS2==5 ;POSITION 2
CI%UDB==6 ;REQUIRED FOR BAT BLOCK LOGIC
CI%LOC==7 ;LINEAR ADDRESS FROM ERROR BLOCK
CI%PAK==10 ;START OF PACKET WITH ERROR BIT ON
CI%SIZ==CI%PAK+^D9 ;SIZE OF DATA BLOCK
CI%LEN==CI%SIZ ;TOTAL LENGTH, CURRENTLY NO STRINGS REPORTED
;***********************************
;CI DISK/TAPE ERROR LOG CODE
;***********************************
SEC%EL==243 ;MSCP ERROR LOG EVENT
EL%NOD==0 ;PORT,,NODE
EL%PAK==1 ;START OF THE PACKET
EL%SIZ==^D97 ;SIZE OF DATA BLOCK
EL%LEN==EL%SIZ ;TOTAL LENGTH, CURRENTLY NO STRINGS REPORTED
;***********************************
;KLIPA ERROR CODE
;***********************************
SEC%KP==244 ;KLIPA ERROR EVENT
KP%CSR==0 ;CONI STATUS
KP%VER==1 ;MICROCODE VERSION
KP%NI==1B0 ;SET IF THIS IS A KLNI
KP%CHN==7B17 ;PORT'S RH20 CHANNEL
KP%DSP==2 ;ERROR DISPOSITION
KP%CRA==3 ;CRAM ADDRESS
KP%CRD==4 ;CRAM DATA (2 WORDS)
KP%LG0==6 ;LOGOUT WORD 0
KP%LG1==7 ;LOGOUT WORD 1
KP%LG2==10 ;LOGOUT WORD 2
KP%ECW==11 ;PORT'S ERROR WORD
KP%PE0==12 ;PORT'S ERROR LOGOUT WORD 0
KP%PE1==13 ;PORT'S ERROR LOGOUT WORD 1
KP%SIZ==14 ;SIZE OF DATA BLOCK
KP%LEN==KP%SIZ ;TOTAL LENGTH, CURRENTLY NO STRINGS REPORTED
;***********************************
;KLIPA STATISTICS PACKET
;***********************************
SEC%KS==241 ;KLIPA STATISTICS EVENT
KS%OFF==0 ;OFFSET TO COUNTERS
KS%VER==1 ;U-CODE VERSION WORD
KS%NI==1B0 ;0=CI, 1=NI
KS%RSN==17B14 ;REASON FOR DOING READ-COUNTERS
; 0=ILLEGAL
KS%PCP==1 ; PORT CRAM PARITY ERROR
KS%AGB==2 ; WIRE A WENT FROM GOOD TO BAD
KS%ABG==3 ; WIRE A WENT FROM BAD TO GOOD
KS%BGB==4 ; WIRE B WENT FROM GOOD TO BAD
KS%BBG==5 ; WIRE B WENT FROM BAD TO GOOD
KS%PER==6 ; PERIODIC READING OF COUNTERS
KS%GUC==7 ; GET U-CODE VERSION
KS%DIA==10 ; DIAG% DID IT
KS%CHN==7B17 ;KLIPA CHANNEL #
KS%VSN==777777B35 ;U-CODE VERSION
KS%AAK==2 ;PATH A ACKS
KS%ANK==3 ;PATH A NACKS
KS%ANR==4 ;PATH A NO-RESPONSES
KS%BAK==5 ;PATH B ACKS
KS%BNK==6 ;PATH B NACKS
KS%BNR==7 ;PATH B NO-RESPONSES
KS%DGD==10 ;DATAGRAMS DISCARDED
KS%PXM==11 ;PACKETS TRANSMITTED
KS%PRC==12 ;PACKETS RECEIVED
KS%DPT==13 ;DESIGNATED PORT WORD
KS%PRT==377B31 ;DESIGNATED PORT
KS%CRC==14 ;PACKETS RECEIVED WITH CRC ERRORS
KS%EW1==15 ;ERROR WORD 1
KS%MPE==777777B17 ;MOVER PAR PRE ERRORS
KS%CPE==777777B35 ;CBUS PARITY ERRORS
KS%EW2==16 ;ERROR WORD 2
KS%RPE==777777B17 ;REGISTER PLIPE ERRORS
KS%DPE==777777B35 ;DATA PLIPE ERROS
KS%EW3==17 ;ERROR WORD 3
KS%CHE==777777B17 ;CHANNELS ERRORS
KS%EPE==777777B35 ;EBUS PARITY ERRORS
KS%EW4==20 ;ERROR WORD 4
KS%SCE==777777B17 ;SPURIOUS CHANNEL ERRORS
KS%CAT==777777B35 ;CBUS AVAILABLE TIMEOUTS
KS%EW5==21 ;ERROR WORD 5
KS%SRA==777777B17 ;SPURIOUS RECEIVE ATTENTIONS
KS%STA==777777B35 ;SPURIOUS TRANSMIT ATTENTIONS
KS%EW6==22 ;ERROR WORD 6
KS%TBP==777777B17 ;TRANSMIT BUFFER PARITY ERRORS
KS%TTM==777777B35 ;TRANSMITTER TIMEOUTS
KS%SIZ==23 ;SIZE OF EVENT BLOCK
KS%LEN==KS%SIZ ;NO ADDITIONAL STRINGS
;***********************************
;KLIPA ERROR-LOG PACKET (PPD BYTE 5 FROM HSC50)
;***********************************
SEC%KE==246 ;KLIPA ERROR-LOG PACKET CODE
KE%SRC==0 ;SOURCE WORD
KE%CHN==7B17 ;KLIPA CHANNEL #
KE%NOD==17B35 ;HSC50 NODE #
KE%LEN==1 ;LENGTH OF DATA AREA
KE%ELG==1 ;BEGINNING OF ERROR LOG INFO
SUBTTL WARM RESTART
;WARM RESTART REASON CODES
.WRCES==1 ;CLOCK ERROR STOP
.WREPE==2 ;EBUS PARITY ERROR
.WRDEX==3 ;DEX FAILURE
.WRKAC==4 ;KEEP ALIVE CEASED
.WRPTO==5 ;PROTOCOL TIMEOUT
.WRFMP==6 ;FAST MEMORY PARITY ERROR
.WRCRP==7 ;CRAM PARITY ERROR
.WRDRP==10 ;DRAM PARITY ERROR
;WRSINS==72 ;LOCATION OF INSTRUCTION EXECUTED BY RSX20F ON A WARM RESTART
;WRSLOC==100 ;LOCATION WHERE RSX20F STORES PC AND CODE ON A WARM RESTART
SUBTTL BITS IN STATES AND DEBUGF
;SYSTEM STATE WORD (STATE)
; LH CHANGED ONLY BY ONCE
; RH CHANGED BY SCHED COMMAND
ST.DSK==1B0 ;DISK SYSTEM
ST.SWP==1B1 ;SWAPPING SYSTEM
ST.LOG==1B2 ;LOGIN
ST.FTT==1B3 ;FULL DUPLEX TTY SOFTWARE
ST.PRV==1B4 ;PRIVILEGES
ST.TWR==1B5 ;DUAL SEGMENT SOFTWARE
ST.CYC==1B6 ;50 HERTZ CLOCK
ST.TDS==7B9 ;TYPE OF DISK SYSTEM
ST.IND==1B10 ;IND. PPNS ON DISK
ST.IMG==1B11 ;IMAGE MODE TTYS
ST.DUL==1B12 ;DUAL PROCESSOR SYSTEM
ST.MRB==1B13 ;MULTIPLE RIBS SUPPORTED
ST.HPT==1B14 ;HIGH PRECISION TIME ACCOUNTING (DK10)
ST.EMO==1B15 ;EXCLUDE MONITOR OVERHEAD FROM RUN TIMES
ST.RTC==1B16 ;REAL TIME CLOCK (DK10)
ST.MBF==1B17 ;MONITOR BUILT FOR FOROTS
; (5.06 AND AFTER, 504B, 505A)
ST.DDL==1B26 ;NO AUTO DOWN LINE DC72,DC71,DAS 80 SERIES
ST.NOP==1B27 ;NO OPERATOR IN ATTENDANCE
ST.NSP==1B28 ;UNSPOOL DEVICES
ST.ASS==1B29 ;ASSIGN/INIT DEVICES
ST.NRT==1B32 ;NO REMOTE TTY'S
ST.BON==1B33 ;BATCH ONLY
ST.NRL==1B34 ;NO REMOTE LOGINS
ST.NLG==1B35 ;NO LOGINS EXCEPT CTY/OPR
;BITS IN CNFST2
ST%EXE==1B21 ;SAVE AND SSAVE CREATE .EXE FORMAT FILES
ST%EMR==1B20 ;EBOX/MBOX RUNTIME IN EFFECT
ST%XPI==1B19 ;EXCLUDE PI TIME IN USER RUNTIME
ST%ITA==1B17 ;INTERVAL TIMER AVAILABLE (ON KL10 ONLY)
ST%NCS==1B16 ;IF SET, SCHEDULER IS NOT CLASS SYSTEM
; SCHEDULER.
ST%NER==1B15 ;MONITOR SUPPORTS 6.03 ERROR REPORTING
ST%ACV==1B14 ;SYSTEM DOES ACCOUNT-STRING VERIFICATION
ST%LSC==1B13 ;MONITOR LOW SEGMANT IS CACHED
ST%MDA==1B12 ;MOUNTABLE DEVICE ALLOCATOR WILL RUN
ST%KLP==1B11 ;MONITOR USES KL STYLE PAGING
ST%D36==1B10 ;MONITOR HAS DECNET LOADED
ST%EXA==1B9 ;MONITOR SUPPORTS USER MODE EXTENDED ADDRESSING
ST%RCM==1B8 ;RESTRICTED COMMANDS MONITOR
ST%NPP==1B7 ;PREVENT STARTING PRIMARY PROTOCOL ON DTE'S
ST%END==1B6 ;RUNNING AS DECNET ENDNODE
ST%NSE==1B5 ;NO OPERATOR NOTIFICATION OF SOFT MEMORY ERRORS
;BITS IN DEBUGGING WORD
DF.SBD==1B0 ;SYSTEM BEING DEBUGGED
DF.RDC==1B1 ;RELOAD ON DEBUG STOPCD'S
DF.RJE==1B2 ;RELOAD ON JOB ERRORS
DF.NAR==1B3 ;NO AUTO RELOADS
DF.CP1==1B4 ;STOP SYSTEM ON CPU STOPCD ON ANY CPU
DF.DDC==1B5 ;DON'T DO CONTINUABLE STOPCD DUMP ON DEBUG STOPCDS
DF.DJE==1B6 ;DON'T DO CONTINUABLE STOPCD DUMP ON JOB STOPCDS
DF.DCP==1B7 ;DON'T DO CONTINUABLE STOPCD DUMP ON CPU STOPCDS
DF.RQC==1B8 ;CALL CRSCPY ON NEXT CLOCK TICK ON BOOT CPU
DF.RQK==1B9 ;CALL KDPLDR ON NEXT CLOCK TICK
DF.RQN==1B10 ;CALL KNILDR ON NEXT CLOCK TICK (OBSOLETE)
DF.WFL==1B11 ;COPY OUTPUT TO FRCLIN TO SYSTEM CTY
DF.DCC==1B12 ;DISABLE NEXT CRSCPY REQUEST
DF.RIP==1B13 ;RELOAD IN PROGRESS (RECON. FUNCTION .RCRLD)
DF.RAD==1B14 ;RELOAD AFTER DUMP (DON'T DUMP TWICE IN MONBTS)
DF.RLD==1B15 ;STOPCD CAUSED A RELOAD (FOR CRSCPY)
DF.BP0==1B18 ;CAN ENTER EDDT ON CPU0 USING XCT .C0DDT
DF.BP1==1B19 ;CAN ENTER EDDT ON CPU1 USING XCT .C1DDT
DF.BP2==1B20 ;CAN ENTER EDDT ON CPU2 USING XCT .C2DDT
DF.BP3==1B21 ;CAN ENTER EDDT ON CPU3 USING XCT .C3DDT
DF.BP4==1B22 ;CAN ENTER EDDT ON CPU4 USING XCT .C4DDT
DF.BP5==1B23 ;CAN ENTER EDDT ON CPU5 USING XCT .C5DDT
DF.BPT==DF.BP0!DF.BP1!DF.BP2!DF.BP3!DF.BP4!DF.BP5 ;MASK OF CPU BPT BITS
SUBTTL MTAPE AND TAPOP. DEFINITIONS
XP MT.DEC,100 ;DEC COMPATIBLE
XP MT.IND,101 ;WORLD COMPATIBLE
XP MT.STL,200 ;SET TO LOW THRESHOLD (TM10 ONLY)
XP MT.MAX,17 ;MAXIMUM MTAPE OPERATION CODE
XP MT.WAT,0 ;WAIT
XP MT.REW,1 ;REWIND
XP MT.WTM,3 ;WRITE TAPE MARK
XP MT.FSR,6 ;FORWARD SKIP RECORD
XP MT.BSR,7 ;BACK SKIP RECORD
XP MT.SET,10 ;SKIP TO LEOT
XP MT.UNL,11 ;REWIND & UNLOAD
XP MT.WLG,13 ;WRITE LONG GAP (3" BLANK TAPE)
XP MT.FSF,16 ;FORWARD SKIP FILE
XP MT.BSF,17 ;BACK SPACE FILE
;TD2KON TUBIEP/TUBFEP BLOCK SIZES
XP .TD2MC,25 ;# WORDS CONTAINING MISC VALUES
XP .TD2ES,24 ;# WORDS CONTAINING DX20 EXTENDED STATUS REGISTERS
XP .TD2MR,27 ;# WORDS CONTAINING MASSBUS REGISTERS
SUBTTL TAPE LABEL DEFINITIONS
IFN FTTLAB,<
;LABEL TYPE CODES
XP LT.BLP,0 ;BYPASS LABEL PROCESSING
XP LT.SL,1 ;STANDARD DEC (ANSI) LABELS
XP LT.SUL,2 ;STANDARD WITH USER LABELS
XP LT.IL,3 ;IBM STANDARD LABELS
XP LT.IUL,4 ;IBM STANDARD WITH USER LABELS
XP LT.LTM,5 ;LEADING TAPE MARK
XP LT.NSL,6 ;NON-STANDARD LABELS
XP LT.NL,7 ;NO LABELS
XP LT.CBA,10 ;DEC COBOL ASCII LABELS
XP LT.CBS,11 ;DEC COBOL SIXBIT LABELS
XP LT.NLV,12 ;NO-LABELS, USER SEES EOT
XP LT.MAX,12 ;MAXIMUM LABEL TYPE DEFINED
;REASON CODES FOR LABEL PROCESSING
XP LR.FIN,1 ;FIRST INPUT
XP LR.FOU,2 ;FIRST OUTPUT
XP LR.POS,3 ;POSITIONING REQUEST
XP LR.TM,4 ;TAPE MARK SEEN
XP LR.EOT,5 ;EOT SEEN
XP LR.CLI,6 ;CLOSE INPUT
XP LR.CLO,7 ;CLOSE OUTPUT
XP LR.EOV,10 ;FORCE END OF VOLUME
XP LR.URQ,11 ;USER REQUEST SERVICE
XP LR.ABO,12 ;ABORT OPERATION (RELEASE DONE)
;ERROR CODES RETURNED BY LABEL PROCESS
XP LE.CON,1 ;DIDN'T DO POSITIONING REQUEST
XP LE.EOF,2 ;RETURN END OF FILE
XP LE.LTE,3 ;LABEL TYPE ERROR
XP LE.HDE,4 ;HEADER LABEL ERROR
XP LE.TRE,5 ;TRAILER LABEL ERROR
XP LE.VLE,6 ;VOLUME LABEL ERROR
XP LE.DER,7 ;DEVICE ERROR
XP LE.DTE,10 ;DATA ERROR
XP LE.WLK,11 ;WRITE LOCKED
XP LE.PSE,12 ;POSITIONING ERROR
XP LE.BOT,13 ;BEGINNING OF TAPE
XP LE.IOP,14 ;ILLEGAL I/O OPERATION
XP LE.FNF,15 ;FILE NOT FOUND
XP LE.CAN,16 ;OPR CANCELLED VOLUME SWITCH
XP LE.TMV,17 ;TOO MANY VOLUMES IN VOLUME SET
XP LE.LRA,23 ;LABELER REQUEST ABORTED BY RESET UUO
>
SUBTTL EVENT WAIT CODE DEFINITIONS
;TYPES OF EVENTS
DEFINE EWCODE,<
X EV.TKW,SJ ;TAPE KONTROLLER WAIT
X EV.REW,SJ ;REWIND WAIT
X EV.LBL,SJ ;LABEL PROCESSING WAIT
X EV.NET,SJ ;NETWORK DEVICE WAIT
X EV.NTC,DJ ;NETWORK TERMINAL CONNECT WAIT
X EV.STC,DJ ;NETWORK STATION CONTROL WAIT
X EV.DTE,SJ ;DTE IO WAIT
X EV.KDP,SJ ;KDP IO WAIT
X EV.IPC,SJ ;IPCF SYSTEM PROCESS RECEIVE WAIT
X EV.FEI,SJ ;FRONT END DEVICE INPUT WAIT
X EV.FEO,SJ ;FRONT END DEVICE OUTPUT WAIT
X EV.D60,DJ ;DN60 DEVICE WAIT (WAITING FOR THE PDP11)
X EV.DCN,SJ ;DECNET CONNECT/IO WAIT.
X EV.DMR,SJ ;DMR IO WAIT
X EV.DTI,SJ ;DISTRIBUTED TERMINAL INPUT
X EV.DTO,SJ ;DISTRIBUTED TERMINAL OUTPUT
X EV.ETH,SJ ;ETHERNET FUNCTION WAIT
X EV.LLM,SJ ;LLMOP FUNCTION WAIT
X EV.LAT,SJ ;LATOP FUNCTION WAIT
> ;END DEFINE EWCODE
DEFINE X(SYM,CNTLC),<
XP SYM,XX
XX==XX+1
IFG <XX>-<-1_<-<^D36-ESLPSZ>>>,<PRINTX ?TOO MANY EVENT WAIT STATE CODES.>
> ;END DEFINE X
;NOW GENERATE THE EVENT WAIT CODES
;
XX==1 ;START EVENT WAIT CODES AT 1
EWCODE
SUBTTL CODES SENT TO THE FILE DAEMON
IFN FTFDAE,<
XP .FDCAC,1 ;CHECK IF ACCESS IS ALLOWED
XP .FDCLI,2 ;CLOSE INPUT
XP .FDCLO,3 ;CLOSE OUTPUT
XP .FDXIT,4 ;PROGRAM EXECUTION TERMINATED
XP .FDCPA,5 ;CHECK IF PROGRAM ACCESS IS ALLOWED
XP .FDCAD,6 ;CHECK DIRECTORY ACCESS ALLOWED
XP .FDPSH,7 ;PUSHING FROM PROGRAM
XP .FDPOP,10 ;POPPING BACK INTO PROGRAM
>
SUBTTL BITS RETURNED TO THE MONITOR BY THE FILE DAEMON
IFN FTFDAE,<
XP FD.CAA,1B0 ;CALL THE FILE DAEMON ON EVERY ACCESS TO THE FILE
XP FD.COC,1B1 ;CALL THE FILE DAEMON WHEN THE FILE IS CLOSED
XP FD.COX,1B2 ;CALL THE FILE DAEMON WHEN PROGRAM EXECUTION TERMINATES
XP FD.SCP,1B3 ;FILE DAEMON SPECIFIED CREATE PROTECTION
>
SUBTTL BITS IN THE RH OF .CPSBR
XP SR.CSB,1B35 ;CPU STATUS BLOCK READ AT SOME POINT ON THIS CPU
XP SR.DSB,1B34 ;DEVICE STATUS BLOCK READ AT SOME POINT ON THIS CPU
XP SR.STS,1B33 ;MACHINE STATUS SAVED ON THIS CPU. USED TO AVOID SAVING
; STATUS ON SECOND AND SUBSEQUENT 407 STARTS
XP SR.DIE,1B32 ;LAST STOPCD WAS CPU. OPERATOR MUST RESTART PROCESSOR
;MANUALY
XP SR.ACL,1B31 ;THIS CPU IS LOOPING IN THE AC'S. DON'T
;SAVE THIS AC BLOCK IN SYSTOP
XP SR.LBH,1B30 ;LOAD BOOT (OR GO TO MONBTS) ON THIS CPU
;REGARDLESS OF WHO IS THE BOOT CPU
SUBTTL SAVE-FILE FORMAT DEFINITIONS
;DEFINITIONS OF BLOCK TYPES IN SAVE-FILE DIRECTORY
SV.END==1777 ;END BLOCK CODE
SV.DIR==1776 ;DIRECTORY BLOCK CODE
SV.STA==1775 ;ENTRY VECTOR BLOCK
;LENGTHS OF VARIOUS END BLOCKS
LN.END==1 ;END BLOCK IS ONLY 1 WORD LONG
LN.STA==3 ;ENTRY VECTOR IS 3 WORDS LONG
;BITS IN THE LEFT HALF OF 1ST WORD OF EACH DIRECTORY ENTRY
SV%HIS==(1B0) ;THIS PAGE IS PART OF THE HIGH SEGMENT
SV%SHR==(1B1) ;THIS PAGE IS SHARABLE
SV%WRT==(1B2) ;THIS PAGE IS WRITABLE
SV%CON==(1B3) ;THIS PAGE IS CONCEALED
SV%SYM==(1B4) ;THIS PAGE IS PART OF SYMBOL TABLE (NOT IMPLEMENTED)
SV%ABZ==(1B5) ;THIS PAGE IS ALLOCATED BUT ZERO (INTERNAL FLAG)
;MISCELLANEOUS DEFINITIONS
NTRYSZ==2 ;SIZE OF EACH DIRECTORY ENTRY
EXESIZ==^D512 ;SIZE OF EXE FILE PAGES
SUBTTL EXEC DATA VECTOR DEFINITIONS
; THESE QUANTITIES ARE POINTED TO BY .JBEDV IN JOBDAT
.EDCNT==0 ;'EDV',,COUNT (INCLUDES THIS WORD)
.EDHSB==1 ;POINTER TO HIDDEN SYMBOL MAP SWITCHING BLOCK
.EDSYM==2 ;.JBSYM IN SYMBOL SPACE
.EDUSY==3 ;.JBUSY IN SYMBOL SPACE
.EDHSF==4 ;POINTER TO SYMBOLS HIDDEN FLAG WORD
.EDDAT==5 ;CPU/PAGING/HARDWARE DATA
ED.KLP==1B0 ;KL PAGING
ED.XKL==1B1 ;EXTENDED KL10
ED.CPU==0,,-1 ;CPU TYPE CODE (KI10=3, KL10=4, KS10=5, ETC.)
.EDEPT==6 ;PHYSICAL ADDRESS OF THE BOOT CPU'S EPT
.EDSPT==7 ;PHYSICAL ADDRESS OF THE BOOT CPU'S SPT
.EDCST==10 ;PHYSICAL ADDRESS OF THE BOOT CPU'S CST
.EDCPN==11 ;PHYSICAL ADDRESS OF CPNDDT
.EDCPU==12 ;AOBJN POINTER TO CPU SERIAL NUMBERS
.EDCAC==13 ;PHYSICAL ADDRESS OF VIRTUAL ADDRESS OF CRASH ACS
.EDLNK==14 ;VIRTUAL RING POINTER TO EDV OF NEXT CPU
.EDLEN==15 ;LENGTH OF THE EXEC DATA VECTOR
SUBTTL EXTENDED SYMBOL TABLE FORMAT
;BLOCK POINTED TO BY POSITIVE CONTENTS OF .JBSYM
.SYCNT==0 ;COUNT (INCLUDES THIS WORD)
.SYSTB==1 ;OFFSET TO FIRST SUB-TABLE
;THE COUNT WORD IS FOLLOWED BY A NUMBER OF SUB-TABLES, EACH
;OF LENGTH .SYSTL. EACH SUB-TABLE IN THE SYMBOL VECTOR HAS
;THE FOLLOWING FORM:
.SYTYP==0 ;TYPE AND LENGTH
SY.TYP==77B5 ;TYPE
.SYR5D==1 ;RADIX-50 DEFINED
.SYR5U==2 ;RADIX-50 UNDEFINED
SY.LEN==^-SY.TYP ;LENGTH OF TABLE
.SYADR==1 ;ADDRESS OF TABLE
.SYSTL==3 ;SUB-TABLE LENGTH
;CURRENTLY THERE ARE 2 BLOCKS (DEFINED AND UNDEFINED SYMBOLS)
;IN THE EXTENDED SYMBOL VECTOR.
SUBTTL BITS IN GETTAB TABLE (NUMTAB)
;BITS 0-8 = MAXIMUM SIZE OF TABLE IF REGULAR TABLE
XP GT.COD,7B11 ;TYPE OF GETTAB TABLE
XP GT.UND,0 ;UNDEFINED IN THIS MONITOR
XP GT.ITM,1 ;INDEX BY ITEM TYPE
XP GT.JOB,2 ;INDEX BY JOB NUMBER
XP GT.SEG,3 ;INDEX BY JOB OR SEGMENT
XP GT.PDB,4 ;INDEX BY JOB DATA IS IN PDB
XP GT.RNG,5 ;INDEX BY NEGATIVE AND POSITIVE OFFSETS
SUBTTL TELETYPE PARAMETERS
XP STTYBF,20 ;SIZE OF TTY BUFFER
XP STTYB1,STTYBF+1 ;LENGTH+1
SUBTTL DATA STRUCTURES -- EXTENSIBLE BITMAP MEMORY
;AN ALLOCATION CONTROL BLOCK IS USED BY CORE ALLOCATION ROUTINES
;IN CORE1 TO MANAGE THE NEEDS OF SPECIFIC CORE ALLOCATION USERS.
;THESE BLOCKS ARE BUILT AT ASSEMBLY TIME AND LINKED TOGETHER BY
;THE .LKACB LINK CHAIN.
PHASE 0
ACBNXT:! BLOCK 1 ;ADDRESS OF NEXT ALLOCATION CONTROL BLOCK
ACBNAM:! BLOCK 1 ;SIXBIT NAME OF ALLOCATION USER
ACBCSZ:! BLOCK 1 ;ALLOCATION CHUNK SIZE IN WORDS
ACBSEC:! BLOCK 1 ;SECTION NUMBER OF ALLOCATION
ACBUSD:! BLOCK 1 ;CURRENT USED AMOUNT IN WORDS
ACBHWM:! BLOCK 1 ;HIGH WATER MARK USED AMOUNT IN WORDS
ACBINI:! BLOCK 1 ;INITIAL ALLOCATION AMOUNT IN WORDS
ACBTHR:! BLOCK 1 ;THRESHOLD ALLOCATION AMOUNT IN WORDS
ACBINC:! BLOCK 1 ;INCREMENTAL ALLOCATION AMOUNT IN WORDS
ACBMIN:! BLOCK 1 ;MINIMUM ALLOCATION AMOUNT IN WORDS
ACBMAX:! BLOCK 1 ;MAXIMUM ALLOCATION AMOUNT IN WORDS
ACBAHB:! BLOCK 1 ;ADDRESS OF ALLOCATION HEADER BLOCK
ACBLEN:! ;LENGTH OF ALLOCATION CONTROL BLOCK
DEPHASE
;AN ALLOCATION HEADER BLOCK IS USED BY THE CORE ALLOCATION ROUTINES
;TO MANAGE INDIVIDUAL POOLS OF BITMAP MEMORY WITH A SPECIFIC CHUNK
;SIZE.
PHASE 0
AHBNXT:! BLOCK 1 ;ADDRESS OF NEXT ALLOCATION HEADER BLOCK
AHBCSZ:! BLOCK 1 ;ALLOCATION CHUNK SIZE IN WORDS
AHBSEC:! BLOCK 1 ;SECTION NUMBER OF ALLOCATION
AHBFRE:! BLOCK 1 ;CURRENT FREE AMOUNT IN WORDS
AHBLWM:! BLOCK 1 ;LOW WATER MARK AMOUNT IN WORDS
AHBINI:! BLOCK 1 ;INITIAL ALLOCATION AMOUNT IN WORDS
AHBTHR:! BLOCK 1 ;THRESHOLD ALLOCATION AMOUNT IN WORDS
AHBINC:! BLOCK 1 ;INCREMENTAL ALLOCATION AMOUNT IN WORDS
AHBMIN:! BLOCK 1 ;MINIMUM ALLOCATION AMOUNT IN WORDS
AHBMAX:! BLOCK 1 ;MAXIMUM ALLOCATION AMOUNT IN WORDS
AHBCUR:! BLOCK 1 ;CURRENT ALLOCATION AMOUNT IN WORDS
AHBPND:! BLOCK 1 ;PENDING ALLOCATION AMOUNT IN WORDS
AHBAEB:! BLOCK 1 ;ADDRESS OF FIRST ALLOCATION EXTENT BLOCK
AHBLEN:! ;LENGTH OF ALLOCATION HEADER BLOCK
DEPHASE
;AN ALLOCATION EXTENT BLOCK IS USED BY CORE ALLOCATION ROUTINES
;TO KEEP TRACK OF INDIVIDUAL ALLOCATION EXTENTS. THESE BLOCKS
;MAY BE DYNAMICALLY CREATED/DESTROYED AS ALLOCATION NEEDS CHANGE.
PHASE 0
AEBNXT:! BLOCK 1 ;ADDRESS OF NEXT ALLOCATION EXTENT BLOCK
AEBFRE:! BLOCK 1 ;CURRENT FREE AMOUNT IN WORDS
AEBLWM:! BLOCK 1 ;LOW WATER MARK AMOUNT IN WORDS
AEBSIZ:! BLOCK 1 ;EXTENT SIZE IN WORDS
AEBADR:! BLOCK 1 ;EXTENT ADDRESS
AEBBMP:! BLOCK 1 ;AOBJN POINTER TO EXTENT BIT MAP
AEBLEN:! ;LENGTH OF ALLOCATION SERVICE BLOCK
DEPHASE
SUBTTL FEK FRONT END KONTROLLER DATA BLOCKS
;MACRO FOR DEFINING THE FIELDS OF THE VARIOUS NETWORK DATA BLOCKS
DEFINE X(NAME,SIZE)< ;;DEFINE A MACRO TO MAKE THINGS EASY
IFNB <NAME>,<NAME==:%%%OFF> ;;DEFINE THE SYMBOL
IFNB <SIZE>,<%%%OFF==%%%OFF+SIZE> ;;INCREMENT THE SIZE
IFB <SIZE>,<%%%OFF==%%%OFF+1> ;; BY ONE IF "SIZE" NOT SPECIFIED
>
;FEK BLOCK OFFSETS
%%%OFF==0 ;INITIALIZE FOR X MACRO
X FEKBLK ;XWD FLAGS,LINK TO NEXT FEK
X FEKDSP ;"JRST DSP(T1)" DSP == FEK'S DISPATCH VECTOR.
X FEKNNM,0 ;(RH) NODE NUMBER ON OTHER SIDE OF FEK (IF UP)
X FEKCST ;(LH) COST FROM -10 TO PORT
X FEKHTM ;HUNG TIMER
X FEKUNI ;XWD CPU,"FEK SPECIFIC UNIT ID"
X FEKIAD ;HEAD OF LIST OF PCBS FOR FEK TO FILL
X FEKIDN ;INPUT-DONE FEK ADDRESS (FI.IDN ONLY)
X FEKBSI ;FLAG FOR THE FEK TO INTERLOCK ITSELF
X FEKOAD ;HEAD OF LIST OF OUTPUT PCBS
X FEKOCT ;LENGTH OF "FEKOAD"
X FEKODN ;"SENT" PCBS GO HERE FOR NETSER
X FEKBSO ;INTERLOCK FOR FEK TO USE
X FEKBJN ;XWD TIMER,BOOT-JOB-NUMBER (FOR STC)
X FEKICT ;XWD TIMER,STC-MSG (FOR INCOMING STC)
IFN FTKL10,< ;TWO DTE-20 SPECIFIC LOCATIONS
X FEKAKC ;COUNT OF QPR-ACK'S TO SEND
X FEKIBP ;"INPUT" BYTE POINTER FOR DTE-20 FEK'S
X FEKDLX ;BACK-POINTER TO BASE TABLE
X FEKETD ;BACK-POINTER TO ETD (DTE-20 FEK'S)
>
IFN FTENET,< ;SOME ETHERNET-SPECIFIC STUFF
X FEKNIA,2 ;REMOTE ETHERNET ADDRESS
X FEKNIC ;ETHERNET "CHANNEL" ID
X FEKNID ;ETHERNET "PORTAL" ID
X FEKNIF ;ETHERNET MASTER FEK ADDRESS
X FEKNIQ ;ETHERNET INPUT PCBS QUEUED
X FEKNIS ;ETHERNET BROADCAST NODEID SERIAL NUMBER
X FEKNIT ;ETHERNET TIMER VALUES
>
X FEKLEN,0 ;LENGTH OF A FEK
;BITS IN LEFT HALF OF FEKBLK
XP FK.ONL,(1B0) ;ONLINE SAME AS NOT DOWN
;MUST BE THE SIGN BIT
XP FK.NID,(1B1) ;NODE ID HAS BEEN SENT
XP FK.STI,(1B2) ;THIS FEK WANTS INPUT STARTED NEXT TICK
XP FK.STO,(1B3) ;THIS FEK WANTS OUTPUT STARTED NEXT TICK
XP FK.NUL,(1B4) ;THIS IS A NULL (LOCAL LOOP BACK) FEK
XP FK.IAC,(1B5) ;INPUT ACTIVE (USED BY D85INT)
XP FK.OAC,(1B6) ;OUTPUT ACTIVE (")
XP FK.CPD,(1B7) ;CPU WENT DOWN. (CLEAN UP IN 1/SEC CODE)
XP FK.MAI,(1B8) ;THIS FEK IS IN DDCMP MAINT MODE
XP FK.ETH,(1B9) ;THIS FEK IS AN ETHERNET FEK
XP FK.ETM,(1B10) ;THIS FEK IS A MASTER ETHERNET FEK
XP FK.LUB,FK.ETM ;LOWEST USED BIT.
;OFFSETS INTO EACH FEK'S DISPATCH VECTOR. (NETSER CALLING THE FEK)
XP FF.ONC,0 ;ONCE-ONLY CODE
XP FF.SEC,1 ;ONCE/SECOND CODE
XP FF.RDD,2 ;ENTRY TO POST A READ REQUEST
XP FF.WRT,3 ;ENTRY TO POST A WRITE REQUEST
XP FF.CRS,4 ;ENTRY TO REQUEST A FEK TO CRASH
XP FF.DWN,5 ;ENTRY CALLED WHEN FE DIES
XP FF.UP,6 ;ENTRY CALLED WHEN FE COMES UP
XP FF.STC,7 ;ENTRY CALLED WITH "U" := STC TO SEND
XP FF.CPS,10 ;ENTRY CALLED WHEN CPU IS GOING TO SLEEP
XP FF.CPW,11 ;ENTRY CALLED WHEN CUP WAKES UP
XP FF.CFK,12 ;ENTRY TO CREATE A NEW (SLAVE) FEK
XP FF.DFK,13 ;ENTRY TO DESTROY AN OLD (SLAVE) FEK
;OFFSETS INTO FEKINT (FEKS CALLING NETSER)
XP FI.RDD,0 ;READ DONE. PCB AT FEKIAD HAS BEEN FILLED
XP FI.ODN,1 ;OUTPUT DONE, PCB AT FEKODN HAS BEEN SENT
XP FI.STC,2 ;INCOMING STATION CONTROL MSG (STC IN "U")
XP FI.DWN,3 ;THIS FEK JUST CRASHED
XP FI.IDN,4 ;INPUT DONE (PCB ADDRESS IN FEKIDN)
SUBTTL DEFINITIONS FOR SYNC LINE TYPES (INCLUDING DTE)
;THESE SYMBOLS ARE USED IN COMNET.MAC TO SET UP THE LINE'S "USER"
;TABLES FOR ANY NETWORK LINE.
XP DD.NOB,0 ;NOBODY (DEFAULT)
XP DD.ANF,1 ;ANF-10
XP DD.DEC,2 ;DECNET-10
XP DD.PRO,3 ;PROGRAM MODE (FOR KDP: OR DTE:)
XP DD.IBM,4 ;IBM COMM
DD.MAX==DD.IBM ;MAX USER TYPE
SUBTTL DEFINITIONS FOR DC44, DC75, DC76, DAS78, DN60 AND DAS85
;MACRO .DLTYP GENERATES SYMBOL TP.DL'PORT FOR PORT PORT
;WHERE TP.DL'PORT REPRESENTS THE SYSTEM FOR WHICH THE PORT
;WAS MONGENED. IN ADDITION IT GENERATES WARNINGS TO NOTIFY
;FOR INADVERTENTLY CREATED CONFLICTS. MOREOVER XXICHN IS REDEFINED
;IF NON DAS78/DN60 PORTS ARE PRESENT TO EQUAL SCNCHN
DEFINE .DLTYP(PORT,ZZZ,CH),<
IFNDEF M0'PORT'D85,<M0'PORT'D85==0> ;;DC75 FOR THIS PORT
IFNDEF M0'PORT'D78,<M0'PORT'D60==0> ;;DAS78 FOR THIS PORT
IFNDEF M0'PORT'D60,<M0'PORT'D60==0> ;;DN60 FOR THIS PORT
IFNDEF TYPNU'PORT,<TYPNU'PORT==0> ;;DC44 FOR THIS PORT
IFNDEF M.D7'PORT'N,<M.D7'PORT'N==0> ;;DC76 FOR THIS PORT
ZZZ=TYPNU'PORT+M.D7'PORT'N+M0'PORT'D85+M0'PORT'D78 ;;DC44 DC76 DC75 & DAS78
IFN CH,< IFN ZZZ,<XXICHN==SCNCHN>> ;;GET OPTIONS ON THE SAME CHANNEL
TP.DL'PORT==0 ;;ASSUME NO USE FOR THIS PORT
ZZZ==0
IFN TYPNU'PORT,<ZZZ==ZZZ+1>
IFE TYPNU'PORT,<IFN M.D7'PORT'N,<ZZZ==ZZZ+1>>
IFN M0'PORT'D85,<ZZZ==ZZZ+1>
IFN M0'PORT'D78,<ZZZ==ZZZ+1>
IFN M0'PORT'D60,<ZZZ==ZZZ+1>
IFG ZZZ,<
ZZZ=ZZZ-1
IFG ZZZ,<
IF1, <
PRINTX WARNING: DL10 PDP-11 NUMBER PORT HAS MORE THAN ONE OPTION
PRINTX FROM THE SET: DC44, DC76, DAS85 (OR DC75), DAS78, AND DN60.
> ;;END OF IF1
> ;END OF IFG ZZZ
IFN M0'PORT'D85,<
TP.DL'PORT==TP.D85
DLX.75==DLX.75+1
> ;;END IFN M0'PORT'D85
IFE TP.DL'PORT,<
IFN TYPNU'PORT,<TP.DL'PORT==TP.DL'PORT+TP.D44
DLX.44=DLX.44+1>
IFN M.D7'PORT'N,<TP.DL'PORT==TP.DL'PORT+TP.D76
DLX.76=DLX.76+1>
> ;END OF IFE TP.DL'PORT
IFE TP.DL'PORT,<
IFN M.KL10,<
IFN M0'PORT'D78,<
TP.DL'PORT=TP.D78
DLX.78==DLX.78+1
> ;;END IFN M0'PORT'D78
> ;; END IFN M.KL10
> ;;END IFE TP.DL'PORT
IFE TP.DL'PORT,<
IFN M.DN60,<
IFN M0'PORT'D60,<
TP.DL'PORT==TP.D60
DLX.60==DLX.60+1
> ;;END OF IFN M.'PORT'D60
> ;;END IFN M.DN60
> ;END OF IFE TP.DL'PORT
IFN TP.DL'PORT,<PDP11N==PDP11N+1>
> ;END OF IFG ZZZ
> ;END OF .DLTYP
;MACRO DLX.CK WHEN CALLED WILL GENERATE THE FOLLOWING SET OF SYMBOLS
;DLX.44 = NUMBER OF 44 OPTIONS ON DL10
;DLX.60 = NUMBER OF DN60 OPTIONS ON DL10
;DLX.75 = NUMBER OF 75 OPTIONS ON DL10
;DLX.76 = NUMBER OF 76 OPTIONS ON DL10
;DLX.78 = NUMBER OF 78 OPTIONS ON DL10
;MOREOVER A CONSISTENCY CHECK OF THE PORT USAGE WILL BE DONE
;FOR EACH PORT A SYMBOL "P.DL'PORT WILL BE GENERATED ITS
;VALUE DEFINES THE OPTION ON THIS PORT.
DEFINE DLX.CK(CH),<
XLIST
DLX.44=0 ;;ASSUME NOTHING THERE
DLX.60=0
DLX.75=0
DLX.76=0
DLX.78=0
PDP11N=0
ZZ=0
REPEAT 10,<
.DLTYP(\ZZ,ZZZ,CH)
ZZ=ZZ+1
>
DL10XI==PDP11N ;;DL10XI IS NUMBER OF PDP11'S ON DL10'S
LIST
XP DLX.44,DLX.44 ;;SO VALUE IS LISTED
XP DLX.60,DLX.60 ;;VALUES DEFINED BY .DLTYP
XP DLX.75,DLX.75 ;;AND SHOWS UP IN GLOBS
XP DLX.76,DLX.76
XP DLX.78,DLX.78
> ;END OF DLX.CK
DEFINE MAP76(CPU,PORT),<
;;THIS MACRO IS USED IS SEVERAL PLACES. THEY ARE:
;;
;; 1. COMMON.MAC CALLS IT TO BUILD THE REAL DL10 MEMORY
;; MAP.
;;
;; 2. TEST76 CALLS IT TO BUILD A DL10 MAP TO RUN THE DC76
;; WITHOUT THE HELP OF THE MONITOR.
;;
;; 3. IT IS CALLED BY THE PDP-11 CODE TO BUILD THE MATCHING
;; SYMBOL DEFINITIONS.
;;
;; 4. IT IS CALLED BY D76INT TO BUILD SYMBOL DEFS.
;;
;;MAP76 HAS 1 ARGUMENT WHICH IS THE DL10 PORT NUMBER IT WILL BE
;; USED WITH. THIS IS USED IS BUILDING SOME OF THE SYMBOLS
;;
;;
;;THIS MACRO CONTAINS ONLY MACRO CALLS. THE MACROS IT
;; CALLS ARE:
;;
;; WORD SYM, ;;DEFINE SYM AS A 1 WORD QUANTITY. SYM
;; ;; SHOULD BE NO MORE THAN 3 LETTERS. THE
;; ;; WORD IS SET TO ZERO IN THE MAP.
;;
;; DATA SYM,THING
;; ;;SAME AS WORD EXECPT THING IS PLACED IN
;; ;; THE WORD.
;;
;; PNTR SYM,PLACE
;; ;;SAME AS WORD EXCEPT A 16 BIT READ ONLY
;; ;; INDIRECT POINTER IS PLACED IN THE MAP. THE
;; ;; POINTER POINTS TO PLACE.
;;
;; BLK SYM,SIZE
;; ;;SAME AS WORD EXCEPT IT LEAVES SIZE WORD
;;
..P==PORT ;;USED SO MACRO DOES NOT PRODUCE AN 'A' ERROR
;; ON IFNDEF THING
DATA KII,<XPCW D70'PORT'KI>;;EXETNDED KL10 VECTORS HERE
;; INTERUPT SYSTEM EXECUTES
;; THIS INSTRUCTION.
WORD ESA, ;;ELEVEN STARTING ADDRESS. USED TO FORCE
;; THE ELEVEN TO START AT A GIVEN PLACE.
WORD WNU, ;;WORD NOT USED
WORD NAM, ;;6-BIT DL10 BYTE POINTER TO NAME OF PROGRAM
;; IN THE ELEVEN. TELL DC75 FROM DC76.
DATA EPN,<..P>;;ELEVEN PORT NUMBER. THIS IS USED BY THE
;; 10 TO MAKE CONI/CONO INSTRUCTIONS FOR
;; THE DL10. IT IS USED TO HELP DEBUG THE -11
WORD OK, ;;FLAG SET TO ZERO BY THE DC76 AND COUNTED
;; UP ONCE A SECOND BY THE -10. IF THE FLAG
;; IS .GE. 2 THE DC76 IS DEAD.
WORD HLT, ;;WHEN THE DC76 HALTS IT PLACES THE HALT
;; ADDRESS HERE.
WORD DWN, ;;A FLAG WHICH INDICATES THE UPNESS OF THE -11
;; -1 DOWN , NO MESSAGES
;; 0 DOWN , COMPLAIN ONCE A MIN
;; +1 UP
PNTR UPT,.C0UPT, ;;NUMBER IN THE TEN WHICH COUNTS UP
;; ONCE A JIFFY.
IFDEF M'CPU'PORT'D85,<
IFE M'CPU'PORT'D85+M'CPU'PORT'D60,< ;;NOT AN 85 OR DN60
WORD TTP, ;;POINTER TO LAST ITEM PLACED IN THE TO -10
;; QUEUE.
WORD TTG, ;;POINTER TO LAST ITEM TAKEN FROM THE TO -10
;; QUEUE
WORD TEP, ;;POINTER TO LAST ITEM PLACED IN THE TO -11
;; QUEUE
WORD TEG, ;;POINTER TO LAST ITEM TAKEN FROM THE TO -11
;; QUEUE
DATA EBS,<TEBS'PORT'> ;;SIZE OF TO ELEVEN QUEUE
DATA TBS,<TTBS'PORT'> ;;SIZE OF TO TEN QUEUE
DATA LTO,<D7'PORT'OFS> ;;THE NUMBER ONE ADDS TO DC76 LINE
;; ZERO TO GET A LINTAB INDEX
DATA DTO,<D7'PORT'DSO> ;;OFFSET TO DSCTAB
PNTR STS,STATES, ;;WORD WHICH HAS THE BIT WHICH SAYS
;; IF WE SHOULD ANSWER DATASETS
PNTR FRN,TTFREN, ;;NUMBER OF FREE TTY CHUNKS. USED
;; TO ALLOW THE DC76 TO COOL IT
;; INSTEAD OF GETTING A DING.
DATA AOM,<M7'PORT'KII>;;ADDRESS OF THE FIRST WORD OF THE
;; MAP. USED SO THAT THE -11 CAN UNDERSTAND
;; TTA AND TEA.
DATA TEA,<M7'PORT'TEQ>;;ADDRESS OF THE TO -11 QUEUE
;; USED ONLY BY D76INT
DATA TTA,<M7'PORT'TTQ>;;ADDRESS OF THE TO -10 QUEUE
DATA MAX,<M.D7'PORT'N+TYPNU'PORT> ;;TOTAL NUMBEER OF FRONT END LINES
DATA NTT,<M.D7'PORT'N> ;;NUMBER OF LINES ON THIS DC76
DATA PIO,<M7'PORT'NIP> ;;AREA OF NON IMMEDIATE BYTE POINTERS
;;ALL BLK MACROS SHOULD COME AT THE END OF THE MAP SO THAT OFFSETS
;; CAN BE COMPUTED WITHOUT KNOWING ANY MONGEN SYMBOLS.
BLK TTQ,<TTBS'PORT>,;;THE TO TEN QUEUE
BLK TEQ,<TEBS'PORT>,;;THE TO ELEVEN QUEUE
BLK NIP,<TYPNU'PORT> ;;POOL OF NONIMMEDIATE BYTE POINTERS
> ;;END OF IFE M'CPU'PORT'D85+M'CPU'PORT'D60
IFN M'CPU'PORT'D85+M'CPU'PORT'D60,< ;;I.E., 85 OR DN60 MAP
WORD SWD, ;GLOBAL STATUS WORD
;1=DEPOSIT
;2=EXAMINE
;4=ADDRESS IS GARBAGE
;10=HOLD EVERYTHING
WORD ADR, ;EXAMINE/DEPOSIT ADDRESS
WORD DAT, ;EXAMINE/DEPOSIT DATA
WORD REC, ;MAXIMUM RECORD LENGTH
WORD MOD, ;VERSION OF SOFTWARE
WORD TA, ;10 ALIVE IF .LE. 1 (11 INCREMENTS, 10 SETS TO -1)
WORD TS, ;10 STATUS (0=INITIAL,1=STARTED INIT,-1=RUNNING)
WORD ES, ;11 STATUS (0=INITIAL,1=STARTED INIT,-1=RUNNING)
IFN M'CPU'PORT'D60,< ;;THIS IS A DN60 PORT
XP D60WVR,3 ;DN60 WINDOW VERSON
WORD MXL, ;MAX LINES ON THIS CPU
WORD LT1, ;FIRST LIGHTS WORD
WORD LT2, ;SECOND LIGHTS WORD
WORD OPE, ;11-OPERATION:
; 0 = IDLE
; 1 = REQUEST TO READ DATA
; 2 = REQUEST TO WRITE DATA
; 3 = REQUEST TO READ DEVICE STATUS
; 4 = REQUEST TO WRITE DEVICE STATUS
; 5 = REQUEST TO READ LINE STATUS
; 6 = REQUEST TO WRITE LINE STATUS
WORD LNE, ;LINE NUMBER OF ABOVE OPERATION
WORD DVE, ;DEVICE NUMBER OF ABOVE OPERATION
WORD OPX, ;10-OPERATION CODE
; 0 = IDLE
; 1 = READ DATA INTO 10
; 2 = WRITE DATA FROM 10
; 3 = READ DEVICE STATUS
; 4 = WRITE DEVICE STATUS
; 5 = READ LINE STATUS
; 6 = WRITE LINE STATUS
WORD LNX, ;LINE NUMBER OF ABOVE OPERATION
WORD DVX, ;DEVICE NUMBER OF ABOVE OPERATION (1-4)
WORD RST, ;RESULT CODE
WORD XFR, ;NUMBER OF BYTES TRANSFERRED
BLK CBP,40, ;COUNTS AND BYTE POINTERS (16 OF EACH)
> ;IFN M'CPU'PORT'D60
IFE M'CPU'PORT'D60,< ;;THIS IS A DN85 PORT
WORD IFL, ;INPUT FLAGS
WORD IC1, ;INPUT COUNT (PART 1)
WORD ID1, ;INPTA POINTER (PART 1)
WORD IC2, ;INPUT COUNT
WORD ID2, ;INPUT DATA BYTE POINTER
WORD OFL, ;OUTPUT FLAGS
;1=HEADER THERE
;2=FIRST HALF THERE
;4=SECOND HALF THERE
WORD OC1, ;OUTPUT HEADER COUNT
WORD OD1, ;OUTPUT HEADER POINTER
WORD OC2, ;OUTPUT DATA COUNT
WORD OD2, ;OUTPUT DATA POINTER
WORD OC3, ;OUTPUT DATA COUNT (PART 2)
WORD OD3, ;OUTPUT DATA POINTER (PART 2)
> ;IFE M'CPU'PORT'D60
> ;IFN M'CPU'PORT'D85+M'CPU'PORT'D60
> ;;END OF IFDEF M'CPU'PORT'D85
IFNDEF M'CPU'PORT'D85,<
WORD TTP, ;;POINTER TO LAST ITEM PLACED IN THE TO -10
;; QUEUE.
WORD TTG, ;;POINTER TO LAST ITEM TAKEN FROM THE TO -10
;; QUEUE
WORD TEP, ;;POINTER TO LAST ITEM PLACED IN THE TO -11
;; QUEUE
WORD TEG, ;;POINTER TO LAST ITEM TAKEN FROM THE TO -11
;; QUEUE
DATA EBS,<TEBS'PORT'> ;;SIZE OF TO ELEVEN QUEUE
DATA TBS,<TTBS'PORT'> ;;SIZE OF TO TEN QUEUE
DATA LTO,<D7'PORT'OFS> ;;THE NUMBER ONE ADDS TO DC76 LINE
;; ZERO TO GET A LINTAB INDEX
DATA DTO,<D7'PORT'DSO> ;;OFFSET TO DSCTAB
PNTR STS,STATES, ;;WORD WHICH HAS THE BIT WHICH SAYS
;; IF WE SHOULD ANSWER DATASETS
PNTR FRN,TTFREN, ;;NUMBER OF FREE TTY CHUNKS. USED
;; TO ALLOW THE DC76 TO COOL IT
;; INSTEAD OF GETTING A DING.
DATA AOM,<M7'PORT'KII>;;ADDRESS OF THE FIRST WORD OF THE
;; MAP. USED SO THAT THE -11 CAN UNDERSTAND
;; TTA AND TEA.
DATA TEA,<M7'PORT'TEQ>;;ADDRESS OF THE TO -11 QUEUE
;; USED ONLY BY D76INT
DATA TTA,<M7'PORT'TTQ>;;ADDRESS OF THE TO -10 QUEUE
DATA MAX,<M.D7'PORT'N+TYPNU'PORT> ;;TOTAL NUMBEER OF FRONT END LINES
DATA NTT,<M.D7'PORT'N> ;;NUMBER OF LINES ON THIS DC76
IFNB <PORT>,<ZZZZ==PAR'PORT'N>
IFB <PORT>,<ZZZZ==0>
DATA PAR,<ZZZZ> ;;LAST COMTEX LINE NUMBER+1 OF PA611R READERS
IFNB <PORT>,<ZZZZ==ZZZZ+PCR'PORT'N>
DATA PCR,<ZZZZ> ;;LAST COMTEX LINE NUMBER+1 OF PC-11 READERS
IFNB <PORT>,<ZZZZ==ZZZZ+PAP'PORT'N>
DATA PAP,<ZZZZ> ;;LAST COMTEX LINE NUMBER+1 OF PA611P PUNCHES
IFNB <PORT>,<ZZZZ==ZZZZ+LPC'PORT'N>
DATA LPC,<ZZZZ> ;;LAST COMTEX LINE NUMBER+1 OF LPC 11 DEVICES
IFNB <PORT>,<ZZZZ==ZZZZ+PCP'PORT'N>
DATA PCP,<ZZZZ> ;;LAST COMTEX LINE NUMBER+1 OF PC-11 PUNCHES
DATA PIO,<M7'PORT'NIP> ;;AREA OF NON IMMEDIATE BYTE POINTERS
;;ALL BLK MACROS SHOULD COME AT THE END OF THE MAP SO THAT OFFSETS
;; CAN BE COMPUTED WITHOUT KNOWING ANY MONGEN SYMBOLS.
BLK TTQ,<TTBS'PORT>,;;THE TO TEN QUEUE
BLK TEQ,<TEBS'PORT>,;;THE TO ELEVEN QUEUE
BLK NIP,<TYPNU'PORT> ;;POOL OF NONIMMEDIATE BYTE POINTERS
> ;;END OF IFNDEF M'CPU'PORT'D85
>;;END OF THE MAP76 MACRO
;MACRO DLMAP WILL GENERATE VALUES FOR THE MNEMONICS USED
; TO ADDRESS THE DL10 MAP
;WE NOW WANT TO EXPAND MAP76 TO DEFINE OFFSETS IN THE MAPPED AREA.
;OFFSETS ARE DEFINED ONLY FOR "DATA" OR "WORD" SYMBOLS. THIS IS DONE
; SO THAT ONE CAN NOT REFERENCE A DL10 INDIRECT POINTER OR A MONGEN
; DEPENDANT VARIABLE IN THIS MODULE.
DEFINE DLMAP
< XLIST
DEFINE WORD(SYMBOL)<SYMBOL==.I ;;DEFINE OFFSET
.I==.I+1>
DEFINE DATA(SYMBOL,DATUM)<SYMBOL==.I
.I==.I+1>
DEFINE PNTR(SYMBOL,WORD),<.I==.I+1>
DEFINE BLK(SYMBOL,SIZE),<IFDEF SIZE,<.I==.I+SIZE>
IFNDEF SIZE,<PURGE .I>>
.I==0
MAP76 ;DEFINE PARAMETERS
LIST
>
;LINE PARAMETER CONTROL MESSAGES FOR THE DC76
XP LPCSPD,2 ;SET LINE SPEED (RECEIVE*10+TRANSMIT)
XP LPCABR,4 ;ENABLE AUTO BAUD RATE DETECT
XP LPCELE,6 ;SET TYPE ELEMENT
XP LPCAPL,10 ;SET/CLEAR APL MODE
XP LPCRVB,12 ;SET/CLEAR REVERSE BREAK
XP LPCUKB,14 ;UNLOCK KEYBOARD
XP LPCTDY,16 ;SET/CLEAR TIDY BIT
;TYPES OF DL-10 FRONT ENDS
XP TP.D76,1 ;FRONT END IS A DC76
XP TP.D44,2 ;FRONT END IS A DC44
XP TP.D47,3 ;FRONT END COMBINES DC44 AND DC76
XP TP.D75,4 ;OLD DECSYNC PROTOCOL
XP TP.D60,5 ;DN60 FRONT END
XP TP.D85,6 ;NEW DDCMP FRONT END
XP TP.D78,7 ;FRONT END IS A DAS78
;TYPES OF DTE-20 FRONT ENDS
XP DT.RSX,1 ;RSX20F
XP DT.ANF,2 ;ANF10
XP DT.IBM,3 ;IBM (DN60)
XP DT.DNT,4 ;DECNET
;TYPES OF KMC/DUP FRONT ENDS
XP KD.ANF,1 ;ANF10
XP KD.DNT,2 ;DECNET
XP KD.USR,3 ;USER
XP KD.IBM,4 ;IBM (DN60)
;TYPES OF DMR FRONT ENDS
XP RD.ANF,1 ;ANF10
XP RD.DNT,2 ;DECNET
XP RD.USR,3 ;USER
XP RD.IBM,4 ;IBM (DN60)
;DN60 CALL11 ENTRY VECTOR OFFSETS (FOR COMMUNICATION BETWEEN D60SER AND
;D6?INT MODULES
XP D6F.UD,0 ;SEE IF PDP11 IS UP OR DOWN
XP D6F.QU,1 ;THE CALL11 QUEUE DATA FUNCTION
XP D6F.ED,2 ;THE CALL11 EXAMINE/DEPOSIT FUNCTION
;THIS MACRO DEFINES THE INTERPROCESSER
;WINDOW USED BETWEEN THE PDP10 AND THE PDP11.
;
DEFINE MAP78 (CPU,PORT),<
Q78SYM <.DL'PORT'BS>; ;;FOR WINDOW MAP TABLE
Q78SYM <M8'PORT'KII>; ;BEGINNING WINDOW ADDRESS
PHASE 0
IFN FTKL10,<
Q78DAT M78KII,<XPCW D80'PORT'KI> ;KL PAGING STYLE INTERUUPT
>;END IFN FTKL10
Q78WRD <M78ESA>, ;
Q78WRD <M78WNU>, ;
Q78WRD <M78NAM>, ;PROGRAM NAME (DAS78 IN SIXBIT)
Q78WRD <M78EPN>, ;
Q78WRD <M78OK>, ;PDP11 ALIVE INDICATOR. INCREMENTED
; BY 10 ONCE A SECOND. SET 0 BY 11.
; IF .LT. 2, 11 IS ALIVE
Q78WRD <M78HLT>, ;11 TO 10 STOP CODE
Q78WRD <M78DWN>, ;1=UP, 0=DOWN & TELL OPR, -1=DOWN
; AND QUITE
Q78WRD <M78UPT>, ;
Q78WRD <M78GLB>, ;GLOBAL STATUS WORD
Q78WRD <M78MOD>, ;MODIFICATION NUMBER
Q78WRD <M78XXI>, ;10 TO 11 ACTIVTY INDICATOR
Q78WRD <M78XIX>, ;11 TO 10 ACTIVITY INDICATOR
Q78WRD <M78ALI>, ;PDP10 ALIVE INDICATOR. INCREMENTED
; BY 11 ONCE A SECOND. SET -1 BY 10.
; IF .LE.1, 10 IS ALIVE.
Q78WRD <M7810S>, ;STATUS OF 10. 0 INITIALLY
;1 STARTED INITIALIZATION
;-1 RUNNING
Q78WRD <M7811S>, ;STATUS OF 11. 0 INITIALLY
;1 STARTED INITIALIZATION
;-1 RUNNING
Q78WRD <M78ADR>, ;ADDRESS FOR LOAD/STORE IN 11 CORE
Q78WRD <M78DTA>, ;CONTENTS OF CONTENTS OF M78ADR.
Q78DAT M78NLI,<M'CPU'PORT'D78> ;NUMBER OF LINES ON THIS PORT
Q78SYM <M78WIN>; ;BEGINNING OF WINDOW FOR EACH LINE
DEPHASE
;THIS IS THE BEGINNING OF THE WINDOW SLOTS AND
;THERE IS ONE FOR EACH LINE
;
REPEAT <M'CPU'PORT'D78>,<
Q78SYM <WS8L>,\<ZZD78L>; ;BEGINNING OF WINDOW SLOT
PHASE 0
Q78SYM <SUBW78>; ;FIRST ADDR IN SUB WINDOW
Q78WRD <WS8LS0>, ;GENERAL LINE STATUS (OWNED BY 10 FOR CALL78 UUO)
Q78WRD <WS8LS1>, ;2ND LINE STATUS WORD
Q78WRD <WS8MSZ>, ;MESSAGE SIZE
Q78WRD <WS8RSZ>, ;RECORD SIZE
WS8SET==:<.-SUBW78> ;NUMBER OF WORDS WE ALLOW
; THE CALL78 TO SET
Q78WRD <WS810S>, ;STATUS OWNED BY THE PDP10
Q78WRD <WS811S>, ;STATUS OWNED BY THE PDP11
Q78WRD <WS8ICC>, ;INPUT TO 10 CHARACTER COUNT
Q78WRD <WS8IBP>, ;INPUT TO 10 BYTE POINTER
Q78WRD <WS8OCC>, ;OUTPUT FROM 10 CHARACTER COUNT
Q78WRD <WS8OBP>, ;OUTPUT FROM 10 BYTE POINTER
M78SIZ==:<.-SUBW78> ;WINDOW SLOT SIZE
Q78INC <ZZD78L>,<1>; ;NEXT LINE NUMBER
DEPHASE
> ;END REPEAT
>;END MAP78
SUBTTL CAL11. UUO DEFINITIONS
.C11FC==0 ;FUNCTION WORD
; C1.1NO==777B17 ;(OLD FORMAT) WHICH -11
; C1.1NT==77B14 ;(OLD FORMAT) TYPE
; C1.1NN==7B17 ;(OLD FORMAT) NUMBER
C1.1NF==1B0 ;NEW FORMAT ARGUMENTS
C1.1XX==377B8 ;RESERVED FOR DEC
C1.1TY==7B11 ;TYPE
.C11DL==0 ;DL-10
.C11DT==1 ;DTE-20
.C11KD==2 ;KMC/DUP
.C11DR==3 ;DMR
C1.1CN==7B14 ;CPU NUMBER
C1.1PN==7B17 ;PORT NUMBER
C1.1FC==777777 ;WHICH FUNCTION
.C11DP==0 ;DEPOSIT FUNCTION
.C11EX==1 ;EXAMINE FUNCTION
.C11QU==2 ;QUEUE A REQUEST
.C11NM==3 ;RETURN NAME OF FRONT END PROG
.C11UP==4 ;RETURN 0 IF DOWN, 1 IF UP
.C11SM==5 ;SEND MESSAGE
.C11RM==6 ;RECEIVE MESSAGE
.C11TY==7 ;RETURN TYPE/NODE NUMBER
.C1D76==1 ;DC76
.C1D75==2 ;DC75/DN87
.C1D60==3 ;DN60
.C1D8S==4 ;DN87S
.C1CFE==5 ;CONSOLE FRONT END
.C1MCB==6 ;DECNET MCB
.C1D22==7 ;DN22 ON A KMC/DUP
.C11AD==1 ;ADDRESS OF EXAMINE/DEPOSIT
.C11CN==2 ;CONTENTS TO DEPOSIT
.C11EN==1 ;START OF QUEUE ENTRY
;CAL11. ERROR CODES
C11NP%==1 ;NOT PRIVILEGED
C11UF%==2 ;UNKNOWN FUNCTION
C11ND%==3 ;NOT DC76
C11IU%==4 ;EXAM/DEP IN USE
C11NA%==5 ;NO ANSWER TO EXAM/DEP
C11TS%==6 ;QUEUE ENTRY TOO SHORT
C11NE%==7 ;NOT ENOUGH ARGS
C11IA%==10 ;INVALID EXAMINE/DEPOSIT ADDRESS
C11IQ%==11 ;INVALID QUEUE FUNCTION ARGUMENT
C11IC%==12 ;INSUFFICIENT CORE
C11RP%==13 ;DTE RELOAD BIT SET OR PRIMARY PROTOCOL NOT RUNNING
C11IE%==14 ;INSUFFICIENT EVM
C11NC%==16 ;CPU NOT RUNNING
C11IT%==17 ;ILLEGAL TYPE CODE
C11IP%==20 ;ILLEGAL PORT NUMBER
C11DL%==21 ;NO DL10 SUPPORT IN THIS MONITOR
C11DT%==22 ;NO DTE SUPPORT IN THIS MONITOR
C11KD%==23 ;NO KDP SUPPORT IN THIS MONITOR
C11DM%==24 ;NO DMR SUPPORT IN THIS MONITOR
SUBTTL ADDRESSING DEFINITIONS
;DEFINITIONS WHICH LIVED IN COMMON PRIOR TO 7.04:
XP PAGSIZ,1000 ;SIZE OF A PAGE
XP PG.BDY,<PAGSIZ-1> ;BODY OF A PAGE
XP P2WLSH,11 ;SHIFT TO CONVERT PAGES TO WORDS
XP W2PLSH,-11 ;SHIFT TO CONVERT WORDS TO PAGES
XP K2WLSH,12 ;SHIFT TO CONVERT K TO WORDS
XP W2KLSH,-12 ;SHIFT TO CONVERT WORDS TO K
XP P2KLSH,-1 ;SHIFT TO CONVERT PAGES TO K
XP K2PLSH,1 ;SHIFT TO CONVERT K TO PAGES
XP S2PLSH,11 ;SHIFT TO CONVERT SECTION NUMBER TO PAGE NUMBER
XP P2SLSH,-11 ;SHIFT TO CONVERT PAGE NUMBER TO SECTION NUMBER
XP BLKSPK,^D3 ;SHIFT LEFT TO CONVERT BLOCKS TO K
XP MBKSPK,-BLKSPK ;SHIFT RIGHT TO CONVERT K TO BLOCKS
XP BLKSPP,BLKSPK-K2PLSH ;SHIFT TO CALCULATE # OF BLOCKS/PAGE
SUBTTL HARDWARE BITS -- FOR BOTH KA10 AND KI10 PROCESSORS
;OLD NAMES FOR SEVERAL RANDOM BITS:
XP UWP,1 ;IN LH OF DATAO APR TO TURN ON
; USER-MODE WRITE-PROTECT OF HIGH SEG
XP USRMOD,10000 ;LH PC WORD, MACHINE WAS IN USER MODE WHEN
; PC WAS STORED
XP UIOMOD,4000 ;LH PC WORD, MACHINE WAS IN USER I/O MODE WHEN
; PC WAS STORED, I.E., ALL INSTRUCTIONS WERE LEGAL.
XP POV,200000 ;PUSH DOWN OVERFLOW
XP ILM,20000 ;ILLEGAL MEMORY
;RIGHT HALF APR CONI BITS
XP.LTH==1B18 ;LOOP DETECTED IN TRAP HANDLER
; USED TO PREVENT SAC STOPCDS IN APRLIM
; THIS IS A SOFTWARE BIT NOT A HARDWARE ONE
XP.CLK==1B26 ;CLOCK (HAS INTERRUPTED)
;RIGHT HALF APR CONO BITS
XP.DDU==1B18 ;DON'T DISABLE USER ENABLED INTERRUPTS WHEN
; THEY OCCUR. THIS IS A SOFTWARE BIT, NOT A HARDWARE
; ONE.
XP.CCF==1B26 ;CLEAR CLOCK FLAG
;PI CONO BITS
XI.CPE==1B19 ;CLEAR PARITY ERROR
;LEFT HALF PC FLAG BITS
XC.OVF==1B0 ;OVERFLOW
XC.FOV==1B3 ;FLOATING OVER FLOW
XC.USR==1B5 ;USER MODE
XC.UIO==1B6 ;USER IOT MODE
IFN FTKL10,<
XC.PUB==1B7 ;LAST INSTRUCTION PUBLIC
>
XC.AFI==1B8 ;ADDRESS FAILURE INHIBIT
XC.TRP==3B10 ;TRAPS 1 AND 2
XC.ARI==1 ;ARITHMETIC TRAP
XC.PDL==2 ;PUSHDOWN LIST OVERFLOW
XC.TT3==3 ;RESERVED FOR DEC
XC.FUF==1B11 ;FLOATING UNDER FLOW
XC.NDV==1B12 ;NO DIVIDE
;OTHER RANDOM PC DEFINITIONS
SECMSK==37,,0 ;PC SECTION NUMBER
SECWID==5 ;WIDTH OF SECTION NUMBER IN BYTE POINTER
SECPOS==^D17 ;POSITION OF RIGHTMOST BIT IN SECTION NUMBER
MCSEC0==0,,0 ;MONITOR CODE SECTION
MDSEC0==0,,0 ;MONITOR DATA SECTION
IFN FTXMON,<
MCSEC1==1,,0 ;1ST NON-ZERO MONITOR CODE SECTION
MS.FMD==:2,,0 ;FIRST NON-ZERO/NON-ONE MONITOR DATA/CODE SECTION
; (SYMBOL USED TO REFERENCE FIRST NON-ZERO/NON-ONE
; SECTION, ALA "MOVEI AC,(MS.FMD)" VS "MOVEI AC,2")
MS.HGH==:2,,0 ;NON-ZERO MONITOR CODE SECTION FOR MAPPING
; PORTIONS OF THE HIGH SEGMENT AT FIXED ADDRESSES
; (CODE FROM MONTOP THROUGH MONEND IS ADDRESSED
; THROUGH THIS SECTION)
MS.MEM==:3,,0 ;NON-ZERO MONITOR DATA SECTION (PAGTAB, PT2TAB, MEMTAB)
MS.DCN==:MS.MEM ;NON-ZERO MONITOR DATA SECTION (DECNET DATA BASE)
MS.SCN==:4,,0 ;NON-ZERO MONITOR DATA SECTION (SCNSER DATA BASE)
MS.SCA==:5,,0 ;NON-ZERO MONITOR DATA SECTION (SCA DATA BASE)
MS.RLC==:6,,0 ;NON-ZERO MONITOR CODE/DATA SECTION FOR MAPPING
; RELOCATABLE CODE (BOOT, ETC.)
MS.SAT==:7,,0 ;NON-ZERO MONITOR DATA SECTION (SATS)
MS.SYM==:35,,0 ;SECTION 35 STORES SYMBOLS WHEN EXEC DDT IS LOADED
MS.SNP==:36,,0 ;SECTION 36 IS USED BY SNOOPY FOR MONITOR PC HISTOGRAM
MS.MAP==:37,,0 ;SECTION 37 MAPS SECTION MAPS
>
IFE FTXMON,<
MCSEC1==0,,0
MS.FMD==0,,0
MS.SAT==0,,0
MS.MEM==0,,0
MS.SCN==0,,0
MS.SCA==0,,0
MS.RLC==0,,0
MS.HGH==0,,0
MS.DCN==0,,0
MS.MAP==0,,0
>
;RIGHT HALF BITS FOR USER ENABLING AND TESTING VIA APRENB UUO
UE.NXM==1B23 ;NXM ERROR ENABLE AND INTERRUPT (SAME AS KA10 NXM FLAG)
UE.PEF==1B24 ;PARITY ERROR ENABLE AND INTERRUPT
;(SAME AS DISABLE CLOCK WHICH MONITOR NEVER USES
SUBTTL HARDWARE BITS -- FOR KA10 PROCESSOR (APR, PI, PC)
;APR CONI BITS:
AP.POV==1B19 ;PUSH DOWN OVERFLOW
AP.UIO==1B20 ;USER IN-OUT
AP.ABK==1B21 ;ADDRESS BREAK
AP.ILM==1B22 ;ILLEGAL MEMORY
AP.NXM==1B23 ;NON-EXIST. MEMORY
;UE.PEF==1B24 ;PARITY ENABLE (AND INTERRUPT) FOR APRENB UUO
; MONITOR MAKES PARITY BIT APPEAR HERE FOR USER
AP.CIE==1B25 ;CLOCK INTERRUPT ENABLED
;AP.CLK==1B26 ;CLOCK (HAS INTERRUPTED)
AP.PPV==1B27 ;FLAG FOR PROPRITARY PAGE VIOLATION NOT REALLY
; A CONI BIT. USED FOR IMPROVED ERROR MESSAGE
AP.FOE==1B28 ;FLOATING OVERFLOW ENABLED
AP.FOV==1B29 ;FLOATING OVERFLOW (HAS INTERRUPTED)
AP.TOS==1B30 ;TRAP OFF SET - MASTER VS. SLAVE
AP.AOE==1B31 ;ARITHMETIC OVERFLOW ENABLED
AP.AOV==1B32 ;ARITHMETIC OVERFLOW
;APR CONO BITS:
;(DIFFERENT NAMES FROM CONI ONLY BECAUSE SOME HAVE DIFFERENT FUNCTIONS)
AP.CPO==1B18 ;CLEAR PDL OVF
;AP.DDU==1B18 ;DON'T DISABLE USER ENABLED INTERRUPTS WHEN
; THEY OCCUR. THIS IS A SOFTWARE BIT, NOT A HARDWARE
; ONE.
AP.IOR==1B19 ;IO RESET (CLEAR ALL DEVICES)
AP.CAB==1B21 ;CLEAR ADDRESS BREAK
AP.CMP==1B22 ;CLEAR MEMORY PROTECTION
AP.CNM==1B23 ;CLEAR NON-EXISTENT MEMORY
AP.DCI==1B24 ;DISABLE CLOCK INTERRUPT
AP.ECI==1B25 ;ENABLE CLOCK INTERRUPT
;AP.CCF==1B26 ;CLEAR CLOCK FLAG
AP.DFO==1B27 ;DISABLE FLOAT. OVERFLOW
AP.EFO==1B28 ;ENABLE FLOAT. OVERFLOW
AP.CFO==1B29 ;CLEAR FLOATING OVERFLOW
AP.DAO==1B30 ;DISABLE ARITH. OVERFLOW
AP.EAO==1B31 ;ENABLE ARITH. OVERFLOW
AP.CAO==1B32 ;CLEAR ARITH. OVERFLOW
;AP.PI0==7B35 ;PI CHANNEL FOR CPU 0 (REDEFINED IN COMMON)
;AP.PI1==7B35 ;PI CHANNEL FOR CPU 1 (REDEFINED IN COMMON)
;APR DATAO BITS:
AP.UWP==1B17 ;USER MODE WRITE PROTECT FOR HIGH SEGMENT
;PC FLAGS
;PC.OVF==1B0 ;OVERFLOW
PC.CY0==1B1 ;CARRY 0
PC.CY1==1B2 ;CARRY 1
;PC.FOV==1B3 ;FLOATING OVER FLOW
PC.BIS==1B4 ;BYTE INCREMENT SUPPRESSION
;PC.USR==1B5 ;USER MODE
;PC.UIO==1B6 ;USER IO MODE
;PC.FUF==1B11 ;FLOATING UNDER FLOW
;PC.NDV==1B12 ;NO DIVIDE
;PI CONI BITS:
PI.PWF==1B18 ;POWER FAILURE
PI.PAR==1B19 ;PARITY ERROR IN MEMORY
PI.PEE==1B20 ;PARITY ERROR ENABLED
PI.IP1==1B21 ;INTERRUPT IN PROGRESS ON CHANNEL 1
PI.IP2==1B22 ; " " 2
PI.IP3==1B23 ; " " 3
PI.IP4==1B24 ; " " 4
PI.IP5==1B25 ; " " 5
PI.IP6==1B26 ; " " 6
PI.IP7==1B27 ; " " 7
PI.IPA==PI.IP1+PI.IP2+PI.IP3+PI.IP4+PI.IP5+PI.IP6+PI.IP7 ;INTERRUPTING PROG ON ALL
PI.PIA==1B28 ;PI ACTIVE
PI.CO1==1B29 ;CHANNEL ON 1
PI.CO2==1B30 ; " " 2
PI.CO3==1B31 ; " " 3
PI.CO4==1B32 ; " " 4
PI.CO5==1B33 ; " " 5
PI.CO6==1B34 ; " " 6
PI.CO7==1B35 ; " " 7
;PI CONO BITS:
;(DIFFERENT NAMES FROM CONI ONLY BECAUSE SOME HAVE DIFF FUNCTIONS)
PI.CPF==1B18 ;CLEAR POWER FAILURE
PI.CPE==1B19 ;CLEAR PARITY ERROR
PI.DPE==1B20 ;DISABLE PARITY ERROR
PI.EPE==1B21 ;ENABLE PARITY ERROR
PI.CPI==1B23 ;CLEAR PI SYSTEM
PI.IIO==1B24 ;INITIATE INTERRUPT ON (SELECTED PIS)
PI.TNP==1B25 ;TURN ON SELECTED PIS
PI.TFP==1B26 ;TURN OFF SELECTED PIS
PI.OFF==1B27 ;TURN PI SYSTEM OFF
PI.ON==1B28 ;TURN PI SYSTEM ON
PI.SC1==1B29 ;SELECT CHANNELS 1
PI.SC2==1B30 ; " " 2
PI.SC3==1B31 ; " " 3
PI.SC4==1B32 ; " " 4
PI.SC5==1B33 ; " " 5
PI.SC6==1B34 ; " " 6
PI.SC7==1B35 ; " " 7
;CPU TYPE CODES (RH OF .CPTYP)(LH FOR CUSTOMERS)
CT.P6==1 ;PDP-6 TYPE PROCESSOR
CT.KA==2 ;KA-10 TYPE PROCESSOR
CT.KI==3 ;KI-10 TYPE PROCESSOR
CT.KL==4 ;KL-10 TYPE PROCESSOR
CT.KS==5 ;KS-10 TYPE PROCESSOR
SUBTTL HARDWARE BITS -- FOR KI10 PROCESSOR
;LEFT HALF APR CONI BITS.
IP.MOD==1B1 ;MEMORY OVERLAP DISABLE
IP.FMS==1B2 ;FAST MEMORY SELECT
IP.MID==1B3 ;MI PROGRAM DISABLE
IP.CRO==1B4 ;CONSOLE READ ONLY
IP.CLC==1B5 ;CONSOLE LOCKED
IP.50H==1B6 ;50 HERTZ POWER LINE FREQUENCY
IP.MNM==1B7 ;MANUAL MARGINS
IP.MNT==1B8 ;MAINTAINANCE MODE
IP.PWL==1B9 ;POWER LOW
IP.MCL==1B10 ;MARGIN COMPARE LOW
IP.SS1==1B12 ;SENSE SWITCH 1
IP.SS2==1B13 ;SENSE SWITCH 2
IP.SS3==1B14 ;SENSE SWITCH 3
IP.SS4==1B15 ;SENSE SWITCH 4
IP.SS5==1B16 ;SENSE SWITCH 5
IP.SS6==1B17 ;SENSE SWITCH 6
;RIGHT HALF APR CONI BITS. THOSE MARKED WITH "*" CAUSE INTERRUPTS.
IP.TTO==1B18 ;*TIMER TIMED OUT
IP.PAR==1B19 ;*PARITY ERROR IN MEMORY
IP.PEE==1B20 ;PARITY ERROR ENABLED
IP.TOE==1B21 ;TIME-OUT ENABLED
IP.PWF==1B22 ;*POWER FAILURE
IP.ARE==1B23 ;AUTO-RESTART ENABLED
;UE.PEF==1B24 ;PARITY ERROR ENABLE (AND INTERRUPT) FOR APRENB UUO
; MONITOR MAKES IT APPEAR AS IF PARITY IS HERE FOR USER
IP.CIE==1B25 ;CLOCK INTERRUPT ENABLED
;IP.CLK==1B26 ;*CLOCK (HAS INTERRUPTED)
IP.ABK==1B27 ;*ADDRESS BREAK
IP.IOF==1B28 ;*I/O PAGE FAIL FLAG
IP.NXM==1B29 ;*NON-EXISTANT MEMORY
;BITS 30-35 ARE APR ERROR AND CLOCK PI ASSIGNMENTS
;RIGHT HALF APR CONO BITS.
IP.SWT==1B18 ;SET WATCH-DOG TIMER
IP.IOR==1B19 ;I/O RESET (CLEAR ALL DEVICES)
IP.CTE==1B20 ;CLEAR TIME-OUT ENABLE
IP.STE==1B21 ;SET TIME-OUT ENABLE
IP.CAE==1B22 ;CLEAR AUTO-RESTART ENABLE
IP.SAE==1B23 ;SET AUTO-RESTART ENABLE
IP.DCI==1B24 ;DISABLE CLOCK INTERRUPTS
IP.ECI==1B25 ;ENABLE CLOCK INTERRUPTS
;IP.CCF==1B26 ;CLEAR CLOCK FLAG
IP.CAB==1B27 ;CLEAR ADDRESS BREAK
IP.CIO==1B28 ;CLEAR I/O PAGE FAIL
IP.CNM==1B29 ;CLEAR NON-EXISTANT MEMORY
;BITS 30-35 ARE APR ERROR AND CLOCK PI ASSIGNMENTS
;LEFT HALF PI CONI BITS. NONE CAUSE INTERUPTS.
II.AIF==1B0 ;ADDRESS BREAK ON INSTRUCTION FETCH SWITCH IS ON
II.ADF==1B1 ; " " " DATA " " " "
II.ABW==1B2 ; " " " WRITE SWITCH
II.ASS==1B3 ;ADDRESS STOP SWITCH
II.ABS==1B4 ;ADDRESS BREAK SWITCH
II.EPS==1B5 ;EXEC PAGING SWITCH
II.UPS==1B6 ;USER PAGING SWITCH
II.PSS==1B7 ;PARITY STOP SWITCH
II.NSS==1B8 ;NXM STOP SWITCH
II.PR1==1B11 ;PROGRAM PI REQUESTED FOR CHANNEL 1
II.PR2==1B12 ; " " " " " 2
II.PR3==1B13 ; " " " " " 3
II.PR4==1B14 ; " " " " " 4
II.PR5==1B15 ; " " " " " 5
II.PR6==1B16 ; " " " " " 6
II.PR7==1B17 ; " " " " " 7
;RIGHT HALF PI CONO BITS.
II.CPF==1B18 ;CLEAR POWER FAIL FLAG
;II.CPE==1B19 ;CLEAR PARITY ERROR FLAG
II.EPE==1B21 ;ENABLE PARITY ERROR
II.CPP==1B22 ;CLEAR PROGRAM PI N
II.IP1==1B21 ;INTERRUPT IN PROGRESS ON PI CHANNEL 1
II.IP2==1B22 ;INTERRUPT IN PROGRESS ON PI CHANNEL 2
II.IP3==1B23 ;INTERRUPT IN PROGRESS ON PI CHANNEL 3
II.IP4==1B24 ;INTERRUPT IN PROGRESS ON PI CHANNEL 4
II.IP5==1B25 ;INTERRUPT IN PROGRESS ON PI CHANNEL 5
II.IP6==1B26 ;INTERRUPT IN PROGRESS ON PI CHANNEL 6
II.IP7==1B27 ;INTERRUPT IN PROGRESS ON PI CHANNEL 7
II.IPA==II.IP1+II.IP2+II.IP3+II.IP4+II.IP5+II.IP6+II.IP7
;INTERRUPT IN PROGRESS ON ANY OR ALL PI CHANNELS
II.PIA==1B28 ;PI ACTIVE
II.CO1==1B29 ;PI CHANNEL 1 ON
II.CO2==1B30 ;PI CHANNEL 2 ON
II.CO3==1B31 ;PI CHANNEL 3 ON
II.CO4==1B32 ;PI CHANNEL 4 ON
II.CO5==1B33 ;PI CHANNEL 5 ON
II.CO6==1B34 ;PI CHANNEL 6 ON
II.CO7==1B35 ;PI CHANNEL 7 ON
II.ACO==II.CO1+II.CO2+II.CO3+II.CO4+II.CO5+II.CO6+II.CO7
;ANY OR ALL PI CHANNELS ON
;LEFT HALF PC FLAG BITS.
IC.000==1B0 ;(EXEC)
;IC.OVF==1B0 ;(USER) ARITHMETIC OVERFLOW
IC.CY0==1B1 ;CARRY 0
IC.CY1==1B2 ;CARRY 1
;IC.FOV==1B3 ;FLOATING OVERFLOW
IC.BIS==1B4 ;BYTE INCREMENT SUPPRESSION
;IC.USR==1B5 ;USER MODE
IC.UOU==1B6 ;(EXEC) UUO OLD USER
;IC.UIO==1B6 ;(USER) USER IOT MODE
IC.LIP==1B7 ;LAST INSTRUCTION PUBLIC
IC.AFI==1B8 ;ADDRESS FAILURE INHIBIT
IC.ATN==3B10 ;APR TRAP NUMBER
IC.TN0==1B9 ;TRAP BIT 0
IC.TN1==1B10 ;TRAP BIT 1
;IC.FUF==1B11 ;FLOATING POINT UNDERFLOW
;IC.NDV==1B12 ;NO DIVIDE
SUBTTL PAGE/SECTION MAP ENTRIES
;PAGE MAP WORD FORMAT.
;POINTER TYPE FIELD (BITS 0-2)
PM.NCD==:0 ;NO ACCESS
PM.DCD==:1 ;DIRECT
PM.SCD==:2 ;SHARED
PM.ICD==:3 ;INDIRECT
PM.ACD==:7 ;ALL BITS IN FIELD
;DESCRIPTOR BITS
PM.PUB==:1B3 ;PUBLIC
PM.WRT==:1B4 ;WRITABLE
PM.KPM==:1B5 ;KEEP ME
PM.CSH==:1B6 ;CACHEABLE
PM.SWB==:1B7 ;SOFTWARE BIT - USED TO MARK PAGES WHICH SHOULD
; BE WRITABLE AFTER INITIALIZATION COMPLETES
PM.NIA==:1B7 ;NO I/O ALLOWED INTO PAGE (HIGH SEG, BASICALLY)
PM.SPY==:1B8 ;SPY PAGE
PM.COR==:1B9 ;ADDRESS FIELD CONTAINS CORE ADDRESS IF SET
PM.AAB==:1B10 ;ACCESS ALLOWED
PM.LOK==:1B11 ;PAGE IS LOCKED IN CORE
PM.OIQ==:1B12 ;ON PAGING I/O QUEUE
PM.SSP==:1B13 ;SLOW SWAPPING
;COMPOSITE MASKS, ETC.
PM.ADR==:7,,777777 ;ADDRESS PORTION OF PAGE MAP ENTRY
PM.PAG==:17777 ;PHYSICAL PAGE MAXIMUM FOR KL (4 MEG)
PM.UNT==:7,,0 ;UNIT PORTION OF DISK ADDRESS
PM.NAD==:-1^!PM.ADR ;EVERYTHING BUT ADDRESS
PM.SAD==:^D21 ;SIZE
PM.FLG==:PM.AAB!PM.SPY!PM.NIA!PM.COR ;SOFTWARE FLAGS
PM.BTS==:PM.PUB!PM.WRT!PM.SWB!PM.CSH!PM.AAB!PM.SPY!PM.NIA!PM.COR
PM.ZER==:1,,0 ;CORE ALLOCATED BUT 0 IF ONLY
; THIS BIT IS ON IN THE MAP SLOT
;BITS IN SECTION MAP
SM.WSB==:PM.AAB ;SECTION HAS A WORKING SET PAGE IN IT
;FORMAT OF SECONDARY PAGE MAP BLOCK (FOR HIGH SEG)
PHASE 0
.M2SIZ::!BLOCK 1 ;MAX SIZE OF HIGH SEG (# OF SLOTS) (RH)
.M2VPN::!BLOCK 1 ;POINTER TO VPN TABLE OR NEXT VPN
.M2LCN::!BLOCK 1 ;LOCKED COUNT
.M2MAX::! ;LAST OVERHEAD WORD
.M2MAP::! ;START OF MAPPING POINTERS (JBYOFF POINTS HERE)
DEPHASE
;FORMAT FOR SEGMENT DATA BLOCK
PHASE 0
.HBLNK::!BLOCK 1 ;LINK WORD
.HBSGN::!BLOCK 1 ;SEGMENT #+BITS
;BITS:
;SEE ALSO JBTSGN - SOME BITS APPEAR BOTH HERE AND IN JBTSGN FOR THE JOB
XP SPYSEG,400000 ;THE HIGH SEG IS PHYSICAL CORE (SEE SPYUUO)
; MUST BE SIGN BIT SO TEST FOR JOB HAVING A
; REAL HIGH SEG IS SKIPG JBTSGN(J)
;THIS BIT CAN ALSO BE SET IN AN AC (AS IN J),
;SO THAT MODULES LIKE LOKCON CAN USE A COPY
;OF JBTSGN AS AN INDEX. THIS WILL NEVER BE
;STORED BACK IN JBTSGN, IT WILL JUST BE USED
;IN THE AC.
XP SHRSEG,SHRSEG ;THE HIGH SEG THIS JOB IS USING IS SHARABLE
; THIS BIT ALSO APPEARS IN JBTSTS FOR HIGH SEGS
XP REDOMP,100000 ;ON IF THE HIGH SEGMENT PART OF THIS
; JOB'S MAP MUST BE REDONE
XP MEDDLE,40000 ;IF 1, USER HAS MEDDLED WITH SHARABLE PROGRAM SUCH
; THAT PROGRAM CANNOT TRUST ITSELF
; TO TURN UWP OFF OR CHANGE HIGH SEG CORE ASSIGNMENT
; MEDDLING MEANS:
; 1. START N, OR D COMMAND
; 2. RUN UUO WITH GREATER THAN 1 STARTING INCREMENT
; 3. GETSEG UUO
; 4. HIGH SEG IS PHYSICAL CORE (SPY UUO)
XP CORCNT,20000 ;IF 1, THE HIGH SEG IN CORE COUNT FOR THIS
; JOB HAS BEEN INCREMENTED. IF 0, IT HAS NOT.
; SET AND CLEARED BY INCCNT AND DECCNT ROUTINES.
XP LOKSEG,10000 ;THE HIGH SEGMENT THIS JOB IS SHARING IS LOCKED
; IN CORE. THE HIGH SEGMENT WILL ONLY BE UNLOCKED
; WHEN THIS BIT IS OFF EVERY JOB SHARING
; THE HIGH SEGMENT.
XP NCSH,4000 ;THE HIGH SEGMENT THIS JOB IS USING
; IS TO HAVE THE CACHE BITS OFF IN
; THIS JOB'S MAP
XP SWCUP,2000 ;SEGMENT WAIT COUNT (IN JBTSGN) UP FOR THIS SEG
XP NOCSH,1000 ;ON IF THIS JOB'S HIGH SEGMENT IS NOT TO
; BE CACHED SINCE IT IS SHARABLE, WRITABLE
; BY SOME JOB IN A MULTIPROCESSING MONITOR
XP UWPOFF,400 ;IF 1, USER-MODE WRITE PROTECT IS OFF FOR THIS JOB
XP GTSSEG,200 ;ON IF THIS JOB'S HIGH SEGMENT WAS
; OBTAINED VIA A GETSEG UUO
XP SHRCNT,100 ;ON IF THIS JOB HAS INCREMENTED THE TOTAL SHARE
; COUNT FOR THIS SEGMENT. SET AND CLEARED BY
; INCSHR AND DECSHR
.HBSPO::! ;SPY SEGMENT ORIGIN PAGE (SPY SEGS ONLY)
PSPOLH==<POINT 9,,26> ;(BITS 18-26; SECTION RELATIVE)
.HBSG2::! ;SECTION # (FORMERLY JBYSG2)
PSG2LH==<POINT 5,,17> ;SKELETON BP (BITS 13-17)
.HBHSZ::! ;SIZE OF SEGMENT (BITS 0-8)
PHSSLH==<POINT 9,,8> ;SKELETON BYTE POINTER
BLOCK 1
.HBHNM::!BLOCK 1 ;HIGH SEGMENT NAME, C(.JBHRL), USED BY SEGOP.
.HBLEN::! ;SIZE OF THE HIGH SEG DATA BLOCK
DEPHASE
;BITS IN CONO PAGE WORD.
PG.LUB==1B0 ;LOAD USER BASE REGISTER
PG.ACE==1B4 ;USER ADDRESS COMPARE ENABLE
PG.LEB==1B18 ;LOAD EXEC BASE REGISTER
PG.EAT==1B22 ;ENABLE TRAPS
PG.AC0==0B2 ;USE AC SET 0 IN USER MODE
PG.AC1==1B2 ;USE AC SET 1 IN USER MODE
PG.AC2==2B2 ;USE AC SET 2 IN USER MODE
PG.AC3==3B2 ;USE AC SET 3 IN USER MODE
PG.EPT==17777 ;ADDRESS OF EPT
PG.UPT==17777B17 ;ADDRESS OF UPT
;MAP INSTRUCTION
MP.USR==1B0 ;USER ADDRESS REFERENCE IF SET
MP.BAD==1B1 ;BAD MAPPING (FAILURE)
MP.MOD==1B3 ;MODIFIED
MP.WRT==1B4 ;WRITTEN
MP.BTS==17B5 ;(KS) BITS GUARANTEED NON-ZERO IF VALID MAPPING
MP.PUB==1B6 ;PUBLIC
MP.CSH==1B7 ;CACHED
MP.ADR==17,,777777 ;PHYSICAL ADDRESS
MP.NAD==-1^!MP.ADR ;NON-ADDRESS BITS
;INSPECT FLTCHK AT VMSER FOR PROPER TESTING OF MP.BAD/MP.BTS
;BITS RETURNED AS PAGE-FAIL CODE ON PAGE FAULTS
PC.PNA==1 ;PAGE NOT ACCESSABLE
PC.PNC==2 ;PAGE NOT IN CORE
PC.UUO==3 ;PAGE FAULT WHILE IN UUO PROCESSING
PC.TIM==4 ;TIME-CAUSE FAULT DISPATCH
PC.AZU==5 ;FAULT ON AN ALLOCATED-BUT-ZERO PAGE
; (NON MONITOR-CALL)
PC.AZM==6 ;FAULT ON A MONITOR CALL PAGE ALLOCATED BUT 0
;BITS RETURNED IN PAGE-FAIL WORD
PC.WHC==1B0 ;WORKING SET HAS CHANGED
PC.WSS==1B1 ;WORKING SET IS SCRAMBLED
;BITS IN THE DATAO PTR (OPERATING CONSOLE) WORD
OC.BCI==1B0 ;BREAK CONDITION INSTRUCTION FETCH
OC.BCD==1B1 ;BREAK CONDITION DATA FETCH
OC.BCW==1B2 ;BREAK CONDITION WRITE
OC.BCM==1B3 ;BREAK CONDITION MUUO (SOFTWARE BIT)
OC.ABE==1B4 ;ADDRESS BREAK ENABLED
OC.FEP==1B5 ;FOLLOW EXEC PAGING
OC.FUP==1B6 ;FOLLOW USER PAGING
OC.BSU==1B7 ;BREAK ADDRESS AND CONDITIONS SET BY UUO
;BITS 14-35 SET ADDRESS SWITCHES
;PAGE FAILURE NUMBERS (STORED IN THE PF WORD ON A PAGE FAILURE)
IFN FTKL10,<
PF.SUV==20 ;SMALL USER VIOLATION
PF.PRV==21 ;PROPRIETARY VIOLATION
PF.PRF==22 ;PAGE REFILL FAILURE
PF.ABF==23 ;ADDRESS BREAK FAILURE
PF.IID==24 ;ILLEGAL INDIRECT (BITS 0 & 1 =1)
PF.PTP==25 ;PAGE TABLE PARITY ERROR
PF.ISN==27 ;ILLEGAL SECTION NUMBER
PF.ARP==36 ;AR PARITY ERROR
PF.AXP==37 ;ARX PARITY ERROR
>;IFN FTKI10!FTKL10
IFN FTKS10,<
PF.IOP==20 ;UBA ADDRESS FAILURE (I/O PAGE FAILURE)
PF.PTP==25 ;PAGE TABLE PARITY ERROR
PF.PAR==36 ;UNCORRECTABLE (HARD) MEMORY PARITY ERROR
PF.NXM==37 ;NXM
>;IFN FTKS10
;BITS IN THE PAGE FAIL WORD
PF.USR==1B0 ;PAGE FAILURE CAUSED BY A REFERENCE TO A PAGE
; IN THE USER'S VIRTUAL ADDRESS SPACE
PF.BAD==1B1 ;BAD PAGE FAIL (CODES IN THE 20'S)
PF.ACC==1B2 ;PAGE IS ACCESSIBLE
PF.WRT==1B5 ;PAGE FAILURE WAS CAUSED BY A WRITE VIOLATION
PF.PHY==1B8 ;PAGE FAILURE WAS CAUSED BY A PHYSICAL REFERENCE
PF.KPM==1B8 ;KEEP ME, SUPERCEDES PF.PHY
SUBTTL HARDWARE BITS -- FOR KL10 PROCESSOR
IFN FTKL10,<
;LEFT HALF APR CONI BITS.
LP.SEE==1B6 ;SBUS ERROR ENABLED
LP.NEE==1B7 ;NXM ERROR ENABLED
LP.IFE==1B8 ;I/O PAGE FAIL ERROR ENABLED
LP.PEE==1B9 ;PARITY ERROR ENABLED
LP.CDE==1B10 ;CACHE DIRECTORY PARITY ERROR ENABLED
LP.PDE==1B11 ;PAGE TABLE DIRECTORY PARITY ERROR ENABLED
LP.PFE==1B12 ;POWER FAIL ENABLED
LP.SDE==1B13 ;SWEEP DONE ENABLED
;RIGHT HALF APR CONI BITS
LP.CSB==1B19 ;CACHE SWEEP BUSY
LP.SBE==1B24 ;S-BUSS ERROR
LP.NXM==1B25 ;NXM
LP.IOF==1B26 ;I/O PAGE FAIL
LP.PAR==1B27 ;PARITY ERROR
LP.CDP==1B28 ;CACHE DIRECTORY PARITY ERROR
LP.ADP==1B29 ;ADDRESS PARITY ERROR
LP.PWF==1B30 ;POWER FAIL
LP.CSD==1B31 ;CACHE SWEEP DONE
LP.INT==1B32 ;INTERRUPT REQUEST
LP.PIA==7B35 ;PIA
;CONO APR BITS
LP.IOR==1B19 ;IO RESET
LP.ESF==1B20 ;ENABLE SELECTED FLAGS (BITS 24-31)
LP.DSF==1B21 ;DISABLE SELECTED FLAGS (BITS 24-31)
LP.CSF==1B22 ;CLEAR SELECTED FLAGS (BITS 24-31)
LP.SSF==1B23 ;SET SELECTED FLAGS (BITS 24-31)
LP.SBE==1B24 ;S-BUSS ERROR
LP.NXM==1B25 ;NXM
LP.IOF==1B26 ;I/O PAGE FAIL
LP.PAR==1B27 ;PARITY ERROR
LP.CDP==1B28 ;CACHE DIRECTORY PARITY
LP.ADP==1B29 ;ADDRESS PARITY
LP.PWF==1B30 ;POWER FAIL
LP.CSD==1B31 ;CACHE SWEEP DONE
LP.PIA==7B35 ;PIA
;LEFT HALF CONI PI BITS
LI.PR1==1B11 ;PROGRAM P1 REQUEST FOR CHANNEL 1
LI.PR2==1B12 ;PROGRAM PI REQUEST FOR CHANNEL 2
LI.PR3==1B13 ;PROGRAM PI REQUEST FOR CHANNEL 3
LI.PR4==1B14 ;PROGRAM PI REQUEST FOR CHANNEL 4
LI.PR56=1B15 ;PROGRAM PI REQUEST FOR CHANNEL 5
LI.PR6==1B16 ;PROGRAM PI REQUEST FOR CHANNEL 6
LI.PR7==1B17 ;PROGRAM PI REQUEST FOR CHANNEL 7
;RIGHT HALF PI CONO BITS.
LI.EPA==1B18 ;EVEN PARITY ADDRESSES
LI.EPD==1B19 ;EVEN PARITY DATA
LI.CPP==1B22 ;CLEAR PROGRAM PI N
LI.IP1==1B21 ;INTERRUPT IN PROGRESS ON PI CHANNEL 1
LI.IP2==1B22 ;INTERRUPT IN PROGRESS ON PI CHANNEL 2
LI.IP3==1B23 ;INTERRUPT IN PROGRESS ON PI CHANNEL 3
LI.IP4==1B24 ;INTERRUPT IN PROGRESS ON PI CHANNEL 4
LI.IP5==1B25 ;INTERRUPT IN PROGRESS ON PI CHANNEL 5
LI.IP6==1B26 ;INTERRUPT IN PROGRESS ON PI CHANNEL 6
LI.IP7==1B27 ;INTERRUPT IN PROGRESS ON PI CHANNEL 7
LI.IPA==LI.IP1+LI.IP2+LI.IP3+LI.IP4+LI.IP5+LI.IP6+LI.IP7
;INTERRUPT IN PROGRESS ON ANY OR ALL PI CHANNELS
LI.PIA==1B28 ;PI ACTIVE
LI.CO1==1B29 ;PI CHANNEL 1 ON
LI.CO2==1B30 ;PI CHANNEL 2 ON
LI.CO3==1B31 ;PI CHANNEL 3 ON
LI.CO4==1B32 ;PI CHANNEL 4 ON
LI.CO5==1B33 ;PI CHANNEL 5 ON
LI.CO6==1B34 ;PI CHANNEL 6 ON
LI.CO7==1B35 ;PI CH7NNEL 7 ON
LI.ACO==LI.CO1+LI.CO2+LI.CO3+LI.CO4+LI.CO5+LI.CO6+LI.CO7
;BITS FOR KL10 PROGRAM CLOCKS
;BITS IN CONO TIM,
TO.CIT==1B18 ;CLEAR INTERVAL TIMER
TO.SIT==1B21 ;START INTERVAL TIMER
TO.CTD==1B22 ;CLEAR TIMER DONE
TO.PRP==1B35 ;POSITION OF PERIOD FIELD
TO.PRS==^D12 ;SIZE OF PERIOD FIELD
TO.PRF==7777B35 ;THE FIELD ITSELF
;BITS IN CONI TIM,
TI.INP==1B17 ;POSITION OF INTERVAL TIMER FIELD
TI.INS==^D12 ;SIZE OF IT
TI.INF==7777B17 ;THE FIELD ITSELF
TI.TIO==1B21 ;INTERVAL TIMER ON
TI.ITD==1B22 ;INTERVAL TIMER DONE
TI.TOV==1B23 ;TIMER OVERFLOW
TI.PRP==1B35 ;PERIOD REGISTER POSITION
TI.PRS==^D12 ;SIZE
TI.PRF==7777B35 ;FIELD
;BITS IN CONO MTR,
MO.LAC==1B18 ;LOAD ACCOUNTING CONTROL
MO.AIP==1B21 ;ACCT INCLUDE PI
MO.AEN==1B22 ;ACCT INCLUDE EXEC NO PI
MO.AO==1B23 ;ACCT ON
MO.TOF==1B24 ;TIME BASE OFF
MO.TON==1B25 ;TIME BASE ON
MO.CTB==1B26 ;CLEAR TIME BASE
MO.IPI==7B35 ;INTERVAL TIMER PI
;BITS IN CONI MTR,
MI.AIP==1B21 ;ACCT INCLUDE PI
MI.AEN=1B22 ;ACCT INCLUDE EXEC NO PI
MI.AO==1B23 ;ACCT ON
MI.TON==1B25 ;TIME BASE ON
MI.IPI==7B35 ;INTERVAL TIMER PI
;LEFT HALF WRPAE BITS
PE.CP0==1B0 ;CHANNEL 0 PERFORMANCE ENABLE
PE.CP1==1B1 ; CHANNEL 1
PE.CP2==1B2
PE.CP3==1B3
PE.CP4==1B4
PE.CP5==1B5
PE.CP6==1B6
PE.CP7==1B7
PE.CPI==1B8 ;CHANNEL PERFORMANCE IGNORE
PE.UCI==1B9 ;MICROCODE STATE IGNORE
PE.PRL==1B10 ;PROBE LOW ENABLE
PE.PRI==1B11 ;PROBE STATE IGNORE
PE.CCR==1B12 ;CACHE REFILL ENABLE
PE.CCF==1B13 ;CACHE FILL ENABLE
PE.EWB==1B14 ;EBOX WRITE BACK
PE.SWB==1B15 ;SWEEP WRITE BACK ENABLE
PE.CCI==1B16 ;CACHE CONDITION IGNORE
;RIGHT HALF WRPAE BITS
PE.PP0==1B18 ;PI 0 PERFORMANCE ENABLE
PE.PP1==1B19
PE.PP2==1B20
PE.PP3==1B21
PE.PP4==1B22
PE.PP5==1B23
PE.PP6==1B24
PE.PP7==1B25
PE.NPI==1B26 ;NO PI
PE.PPI==777B26 ;PI CONDITION IGNORE
PE.PCU==1B27 ;PC USER ENABLE
PE.PCI==1B28 ;PC IGNORE
PE.EVM==1B29 ;EVENT MODE (RATHER THAN DURATION MODE)
PE.CLR==1B30 ;CLEAR PERFORMANCE METER
;VALUES FOR THE CLOCKS
.EBCPT==10000 ;EBOX COUNTS/EBOX TICK
.MBCPT==10000 ;MBOX COUNTS/MBOX TICK
.TBCPT==10000 ;TIME BASE COUNTS/TIME BASE TICK
TB.LTP==^L<.TBCPT> ;POSITION THAT TIME BASE STARTS COUNTING IN
;BITS IN CONO PAG
LG.CSL==1B18 ;CACHE STRATEGY LOOK
LG.CSW==1B19 ;CACHE STRATEGY WRITE
LG.KIP==0B21 ;KI PAGING (INVERTED IN BREADBOARD)
LG.KLP==1B21 ;KL PAGING
LG.TEN==1B22 ;TRAP ENABLE
LG.EPT==17777 ;ADDRESS OF EPT
;BITS IN DATAO PAG
LG.LAB==1B0 ;LOAD AC BLOCKS
LG.LPC==1B1 ;LOAD PREV CONTEXT
LG.LUB==1B2 ;LOAD USER BASE REGISTER
LG.KPM==1B3 ;KEEP MAP ENTRIES WITH "KEEP ME" LIT IN PAGING MEMORY
LG.CAC==7B8 ;CURRENT AC BLOCK #
LG.PAC==7B11 ;PREV. AC BLOCK #
LG.CSX==1B12 ;CSWX
LG.PCS==37B17 ;PREVIOUS CONTEXT SECTION
LG.IAM==1B18 ;INHIBIT STORING ACCOUNTING METER
LG.UPT==17777 ;ADDRESS OF UBR
;BITS IN RDERA
EA.SWP==1B2 ;CACHE SWEEP REFERENCE
EA.CHN==1B3 ;CHANNEL REFERENCE
EA.DAT==1B4 ;DATA SOURCE FIELD (2 BIT ENCODING)
EA.SRC==1B5 ;...
EA.WRT==1B6 ;MEMORY WRITE
;BITS IN APRID
ID.KLP==1B0 ;KL PAGING
ID.XAD==1B1 ;EXTENDED ADDRESSING
ID.XUC==1B2 ;EXOTIC MICROCODE
ID.PMV==1B4 ;MICROCODE SUPPORTS PHYSICAL MOVE/MOVEM
ID.UVN==777B17 ;MICROCODE VERSION NUMBER
ID.50H==1B18 ;50 HZ EXTENAL POWER
ID.CSH==1B19 ;PROCESSOR HAS CACHE
ID.CHL==1B20 ;CHANNEL
ID.XKL==1B21 ;EXTENDED KL
ID.MCA==1B23 ;REAL MCA25 BIT
ID.PSN==7777B35 ;PROCESSOR SERIAL NUMBER
>; END IFN FTKL10
SUBTTL HARDWARE BITS -- FOR KS10 PROCESSOR
IFN FTKS10,<
;WRAPR BITS
SP.IOR==1B19 ;IO RESET
SP.ESF==1B20 ;ENABLE SELECTED FLAGS (BITS 24-31)
SP.DSF==1B21 ;DISABLE SELECTED FLAGS (BITS 24-31)
SP.CSF==1B22 ;CLEAR SELECTED FLAGS (BITS 24-31)
SP.SSF==1B23 ;SET SELECTED FLAGS (BITS 24-31)
SP.IFE==1B25 ;INTERRUPT FRONT END
SP.PWF==1B26 ;POWER FAIL
SP.NXM==1B27 ;NXM
SP.HMP==1B28 ;HARD MEMORY PARITY ERROR
SP.SMP==1B29 ;SOFT MEMORY PARITY ERROR
SP.ITI==1B30 ;INTERVAL TIMER
SP.PIA==7B35 ;PIA
;RDAPR BITS, LEFT HALF
SP.PFE==1B8 ;POWER FAIL ENABLED
SP.NEE==1B9 ;NXM ERROR ENABLED
SP.HPE==1B10 ;HARD MEM PAR ERROR ENABLED
SP.SPE==1B11 ;SOFT MEM PAR ERROR ENABLED
SP.ITE==1B12 ;INTERVAL TIMER ENABLED
;RDAPR BITS, RIGHT HALF
SP.PWF==1B26 ;POWER FAIL
SP.NXM==1B27 ;NXM
SP.HMP==1B28 ;HARD MEMORY PARITY ERROR
SP.SMP==1B29 ;SOFT MEMORY PARITY ERROR
SP.ITI==1B30 ;INTERVAL TIMER INTERRUPT
SP.FEI==1B31 ;INTERRUPT FROM 8080 FRONT END
SP.INT==1B32 ;INTERRUPT REQUESTED
SP.PIA==7B35 ;PIA
;BITS IN APRID
ID.KLP==1B5 ;KL PAGING
ID.NCU==3B1 ;MICROCODE SUPPORTS NO CST UPDATE
ID.UVN==777B17 ;MICROCODE VERSION NUMBER
ID.PSN==77777B35 ;PROCESSOR SERIAL NUMBER
;WRUBR BITS
SG.LAB==1B0 ;LOAD AC BLOCKS
SG.LUB==1B2 ;LOAD USER BASE REGISTER
SG.CAC==7B8 ;CURRENT AC BLOCK NUMBER
SG.PAC==7B11 ;PREVIOUS AC BLOCK NUMBER
SG.UPT==3777B35 ;ADDRESS OF UBR
;WREBR BITS
SG.KIP==0B21 ;KI PAGING (INVERTED IN BREADBOARD)
SG.KLP==1B21 ;KL PAGING
SG.TEN==1B22 ;TRAP AND PAGING ENABLED
SG.EPT==3777B35 ;ADDRESS OF EPT
;LEFT HALF RDPI BITS
SI.PR1==1B11 ;PROGRAM P1 REQUEST FOR CHANNEL 1
SI.PR2==1B12 ;PROGRAM PI REQUEST FOR CHANNEL 2
SI.PR3==1B13 ;PROGRAM PI REQUEST FOR CHANNEL 3
SI.PR4==1B14 ;PROGRAM PI REQUEST FOR CHANNEL 4
SI.PR56=1B15 ;PROGRAM PI REQUEST FOR CHANNEL 5
SI.PR6==1B16 ;PROGRAM PI REQUEST FOR CHANNEL 6
SI.PR7==1B17 ;PROGRAM PI REQUEST FOR CHANNEL 7
;RIGHT HALF WRPI BITS.
SI.CPP==1B22 ;CLEAR PROGRAM PI N
SI.IP1==1B21 ;INTERRUPT IN PROGRESS ON PI CHANNEL 1
SI.IP2==1B22 ;INTERRUPT IN PROGRESS ON PI CHANNEL 2
SI.IP3==1B23 ;INTERRUPT IN PROGRESS ON PI CHANNEL 3
SI.IP4==1B24 ;INTERRUPT IN PROGRESS ON PI CHANNEL 4
SI.IP5==1B25 ;INTERRUPT IN PROGRESS ON PI CHANNEL 5
SI.IP6==1B26 ;INTERRUPT IN PROGRESS ON PI CHANNEL 6
SI.IP7==1B27 ;INTERRUPT IN PROGRESS ON PI CHANNEL 7
SI.IPA==SI.IP1+SI.IP2+SI.IP3+SI.IP4+SI.IP5+SI.IP6+SI.IP7
;INTERRUPT IN PROGRESS ON ANY OR ALL PI CHANNELS
SI.PIA==1B28 ;PI ACTIVE
SI.CO1==1B29 ;PI CHANNEL 1 ON
SI.CO2==1B30 ;PI CHANNEL 2 ON
SI.CO3==1B31 ;PI CHANNEL 3 ON
SI.CO4==1B32 ;PI CHANNEL 4 ON
SI.CO5==1B33 ;PI CHANNEL 5 ON
SI.CO6==1B34 ;PI CHANNEL 6 ON
SI.CO7==1B35 ;PI CH7NNEL 7 ON
SI.ACO==SI.CO1+SI.CO2+SI.CO3+SI.CO4+SI.CO5+SI.CO6+SI.CO7
;PHYSICAL CORE DEFINITIONS FOR KS10 CTY, KLINIK SERVICE
; AND OTHER FRONT-END FUNCTIONS
XPP RLWORD,31 ;RELOAD WORD
KSRLD==1B4 ;RELOAD REQUEST
KPACT==1B5 ;KEEP ALIVE ACTIVE
KLACT==1B6 ;KLINIK ACTIVE
PAREN==1B7 ;PARITY ERROR DETECT ENABLED
CRMPAR==1B8 ;CRAM PAR ERR DETECT ENABLED
DRMPAR==1B9 ;DRAM PAR ERR DETECT ENABLED
CASHEN==1B10 ;CACHE ENABLED
MILSEN==1B11 ;1MSEC ENABLED
KPALIV==377B28 ;KEEP ALIVE WORD
AUTOBT==1B32 ;BOOT SWITCH OR POWER UP CONDITION
PWRFAL==1B33 ;POWER FAIL
FORREL==1B34 ;FORCED RELOAD
KEPFAL==1B35 ;KEEP ALIVE FAILURE
XPP CTYIWD,32 ;CTY INPUT WORD
CTYICH==377B35 ;CTY INPUT CHARACTER
CTYIVL==1B27 ;INPUT VALID BIT
XPP CTYOWD,33 ;CTY OUTPUT WORD
CTYOCH==377B35 ;CTY OUTPUT CHARACTER
CTYOVL==1B27 ;OUTPUT VALID FLAG
XPP KLIIWD,34 ;KLINIK INPUT WORD
KLIICH==377B35 ;KLINIK INPUT CHARACTER
KLIIVL==1B27 ;KLINIK INPUT VALID
KLICHR==1B27 ;KLINIK CHARACTER
KLIINI==2B27 ;KLINIK INITED
KLICAR==3B27 ;CARRIER LOST
XPP KLIOWD,35 ;KLINIK OUTPUT WORD
KLIOCH==377B35 ;KLINIK OUTPUT CHARACTER
KLIOVL==1B27 ;KLINIK OUTPUT VALID
KLOCHR==1B27 ;KLINIK CHARACTER AVAILABLE
KLIHUP==2B27 ;KLINIK HANGUP REQUEST
SUBTTL HARDWARE BITS -- FOR KS10 UBA AND DEVICES
; MAXIMUM UNIBUS ADAPTER NUMBER
MAXUBA==4 ;WE ONLY SUPPORT ADAPTERS 1 & 3
; EXTERNAL PAGE DEFINITIONS FOR UNIBUS ADAPTER
UBAEXP==763000 ;ADDRESS OF UNIBUS ADAPTER (FIRST ADDRESS)
UNBSTW==763100 ;BASIC UNIBUS STATUS REGISTER ADDRESS (MINUS UNIT NUMBER)
UNBSTS==100 ;ADDRESS OF STATUS WORD (FIRST UNIBUS ADAPTER)
; BIT DEFINITIONS FOR STATUS WORD
UNBTMO==1B18 ;NON EX DEVICE (TIMEOUT)
UNBBME==1B19 ;BAD MEMORY
UNBBPE==1B20 ;SM10 BUS PARITY
UNBNED==1B21 ;NON EX CPU DEVICE
UNBACL==1B26 ;AC OR DC LOW (POWER FAIL ON UNIBUS)
UNBENI==1B27 ;ENABLE INTERNAL INTERRUPT
UNBDTR==1B28 ;DISABLE TRANSFER ON UNCORRECTABLE DATA
UBINIT==1B29 ;UNIBUS INIT
UBAMUL==4000 ;MULTIPLIER FOR UNIBUS ADDRESSES / PAGE RAM
UBAPGS==100 ;NUMBER OF MAPPING REGISTERS
MXUBWN==100 ;MAX MAPPING REGISTER
UNBPAR==1B4 ;UNIBUS ADAPT PARITY BIT
UNBRRV==1B18 ;READ REVERSE BIT
UNBD18==1B19 ;DISABLE 18 BIT MODE TRANSFER (16 BIT TRANSFERS)
UNB36B==1B20 ;36 BIT MODE TRANSFERS
UNBVBT==1B21 ;VALID TRANSFER BIT
;DEFINITIONS FOR MEMORY STATUS REGISTER
MEMSTS==100000 ;UNIBUS ADDRESS OF MEMORY STATUS REGISTER
MR.HLD==1B0 ;HOLD BIT
MR.BAD==1B1 ;BAD DATA
MR.REF==1B2 ;REFRESH ERROR (%MRE)
MR.PAR==1B3 ;PARITY ERROR (?PAR ERR)
MR.ECC==1B4 ;ECC CORRECTION ENABLED
MR.ECD==177B11 ;ECC CORRECTION CODE
MR.PWF==1B12 ;POWER/BATTERY BACKUP FAILURE
MR.ERA==17777777B35 ;ERROR ADDRESS
;NOTE THE DEVICE ADDRESSES ARE A FULL-WORD QUANTITY IN THE FORMAT:
; XWD UBA NUMBER,,UNIBUS ADDRESS
;DUP11 DEFINITIONS
DUP1BA==3760300 ;DUP-11 BASE ADDRESS
;KMC11 DEFINTIONS
KMC1BA==3760540 ;KMC11 DEVICE ADDRESS
KMC1IV==540 ;INTERRUPT VECTOR FOR KMC11
;DMR11 DEFINITIONS
DMR1BA==3764000 ;DMR11 DEVICE ADDRESS
;Temp in "user space" for ME
DMR1IV==610 ;DMR11 INTERRUPT VECTOR
;Also a ME definition
;RX20 DEFINITIONS
RX21BA==3777170 ;RX211 BASE ADDRESS
RX21IV==264 ;INTERRUPT VECTOR
;PC22 DEFINITIONS
PR11CA==3777550 ;CSR ADDRESS FOR PTR
PR11IV==70 ;INTERRUPT VECTOR FOR PTR
PP11CA==3777554 ;CSR ADDRESS FOR PTP
PP11IV==74 ;INTERRUPT VECTOR FOR PTP
;HARDWARE CLOCK DEFINITIONS
CLKCSR==3760770 ;ADDRESS OF DATE/TIME BOARD
;LP20 DEFINITIONS
LP11CA==3775400 ;LP20 DEVICE ADDRESS
LP11IV==754 ;INTERRUPT VECTOR FOR LP20
;RH11 DEFINITIONS
RH11CA==1776700 ;DEVICE ADDRESS OF FIRST RH11
RH21CA==3772440 ;DEVICE ADDRESS OF SECOND RH11
RH11IV==254 ;INTERRUPT VECTOR ADDRESS FOR 1ST RH11
RH21IV==224 ;INTERRUPT VECTOR ADDRESS OF 2ND RH11
;CD20 DEFINITIONS
CD11BA==3777160 ;CD20 DEVICE ADDRESS
CDRIVT==230 ;INTERRUPT VECTOR ADDRESS
;DZ11 DEFINITIONS
DZ11BA==3760010 ;BASE ADDRESS FOR FIRST DZ11
DZ11IV==340 ;INTERRUPT VECTOR ADDRESS FOR FIRST DZ11
;PROCESSOR INSTRUCTIONS
OPDEF APRID [700000,,0] ;GET PROCESSOR SERIAL NUMBER, ETC.
OPDEF WRAPR [700200,,0] ;WRITE APR
OPDEF RDAPR [700240,,0] ;READ APR
OPDEF WRPI [700600,,0] ;WRITE THE PI SYSTEM
OPDEF RDPI [700640,,0] ;READ THE PI SYSTEM
OPDEF WRUBR [701140,,0] ;WRITE THE USER BASE REGISTER
OPDEF CLRPT [701100,,0] ;CLEAR PAGE TABLE ENTRY FOR EFF ADR
OPDEF RDUBR [701040,,0] ;READ THE USER BASE REGISTER
OPDEF WREBR [701200,,0] ;WRITE THE EXEC BASE REGISTER
OPDEF RDEBR [701240,,0] ;READ THE EXEC BASE REGISTER
; OPDEFS FOR KS10 UNIBUS ADAPTER
OPDEF TIOE [710000,,0] ;TEST IO NO MOD SKIP IF EQUAL
OPDEF TIOEB [720000,,0] ;TEST IO BYTE NO MOD SKIP IF EQUAL
OPDEF TION [711000,,0] ;TEST IO NO MOD SKIP IF NOT EQUAL
OPDEF TIONB [721000,,0] ;TEST IO BYTE NO MOD SKIP IF NOT EQUAL
OPDEF RDIO [712000,,0] ;READ I/O
OPDEF RDIOB [722000,,0] ;READ I/O BYTE
OPDEF WRIO [713000,,0] ;WRITE I/O
OPDEF WRIOB [723000,,0] ;WRITE I/O BYTE
OPDEF BSIO [714000,,0] ;BIT SET I/O
OPDEF BSIOB [724000,,0] ;BIT SET I/O BYTE
OPDEF BCIO [715000,,0] ;BIT CLEAR I/O
OPDEF BCIOB [725000,,0] ;BIT CLEAR I/O BYTE
OPDEF WRSPB [702400,,0] ;WRITE SPT BASE REGISTER
OPDEF RDSPB [702000,,0] ;READ SPT BASE REGISTER
OPDEF WRCSB [702440,,0] ;WRITE CORE STATUS TABLE BASE EGISTER
OPDEF RDCSB [702040,,0] ;READ CORE STATUS TABLE BASE REGISTER
OPDEF WRPUR [702500,,0] ;WRITE PROCESS USE REGISTER
OPDEF RDPUR [702100,,0] ;READ PROCESS USE REGISTER
OPDEF WRCSTM [702540,,0] ;WRITE CST MASK REGISTER
OPDEF RDCSTM [702140,,0] ;READ CST MASK REGISTER
OPDEF WRTIME [702600,,0] ;WRITE TIME BASE
OPDEF RDTIME [702200,,0] ;READ TIME BASE
OPDEF WRINT [702640,,0] ;WRITE INTERVAL TIMER
OPDEF RDINT [702240,,0] ;READ INTERVAL TIMER
OPDEF RDHSB [702300,,0] ;READ HALT STATUS BLOCK ADDRESS
OPDEF WRHSB [702700,,0] ;WRITE HALT STATUS BLOCK ADDRESS
;OPDEFS FOR KL10 INSTRUCTIONS WHICH WORK ON THE KS10
OPDEF PMOVE [052B8] ;PHYSICAL MOVE (MAYBE SOMEDAY ...)
OPDEF PMOVEM [053B8] ;PHYSICAL MOVEM
OPDEF ADJSP [105B8] ;ADJUST STACK POINTER
SOPDEF PXCT [XCT] ;PREVIOUS CONTEXT EXECUTE
OPDEF DADD [114B8] ;DOUBLE ADD
OPDEF DSUB [115B8] ;DOUBLE SUB
OPDEF DMUL [116B8] ;DOUBLE MUL
OPDEF DDIV [117B8] ;DOUBLE DIV
OPDEF ADJBP [IBP] ;ADJUST BYTE POINTER
>;END IFN FTKS10
SUBTTL EXEC VIRTUAL MEMORY ADDRESSES (PER PROCESS)
;EXEC VIRTUAL MEMORY ADDRESSES (MAPPED THROUGH THE PER PROCESS MAP)
FYSORG==740000 ;ORIGIN OF "FUNNY SPACE"
FYSSIZ==30000 ;24. PAGES OF FUNNY SPACE
;MAPPINGS FOLLOWING "FUNNY SPACE" (PAGES 770 - 777)
IF1,<IFL <770000-<FYSORG+FYSSIZ>>,<PRINTX ?Funny space overlaps page 770>>
.WSBNZ=:770000 ;WSBTAB FOR NON-ZERO SECTIONS
.UPMAP=:.WSBNZ+PAGSIZ ;SECTION 0 USER PAGE MAP
.UPMP=:.UPMAP+PAGSIZ ;EXEC VIRTUAL ADDRESS OF THE CURRENT USER'S UPT
.JDAT=:.UPMP+PAGSIZ ;EXEC VIRTUAL ADDRESS OF THE CURRENT USER'S JOBDAT
.VJDT=:.JDAT+PAGSIZ ;EXEC VIRTUAL ADDRESS OF THE CURRENT USER'S
; VESTIGUAL JOBDAT
.TEMP=:.VJDT+PAGSIZ ;EXEC VIRTUAL ADDRESS OF TEMP
;THIS SLOT USABLE AT UUO LEVEL OR CLOCK LEVEL
; (UUO LEVEL MUST PRESERVE IF IT BLOCKS AND
; NEEDS AFTER IT RETURNS)
.JBPK=:.TEMP+PAGSIZ ;EXEC VIRTUAL ADDRESSES USED FOR JOBPEK UUO
.UUPMP=:.JBPK+PAGSIZ ;ADDRESS USED TO REFERENCE CACHED ITEMS
; IN THE UPT
.MCFV==<HLGPGS+1>*PAGSIZ ;VIRTUAL PAGE NUMBER OF FIRST PAGE OF MONITOR
; FREE CORE
.UPMVP==.MCFV+.UPMP-FYSORG ;VIRTUAL PAGE NUMBER OF THE UPT
.FPPP==FYSORG ;EXEC VIRTUAL ADDRESS OF FIRST PAGE OF
; "PER PROCESS" DATA
.FPMC==FYSORG ;EXEC VIRTUAL ADDRESS OF FIRST PAGE OF MONITOR
; FREE CORE
.LPMC==FYSORG+FYSSIZ ;EXEC VIRTUAL ADDRESS OF FIRST PAGE AFTER
; MONITOR FREE CORE
NWMCP==.LPMC-.FPMC ;NUMBER OF WORDS OF MONITOR FREE CORE
.LPPP==.UUPMP+PAGSIZ ;EXEC VIRTUAL ADDRESS OF FIRST PAGE AFTER
; "PER PROCESS" DATA
IFG .LPPP-<1,,0>,<PRINTX ?Funny space exceeds addressing space>
SUBTTL EXEC VIRTUAL MEMORY ADDRESSES
;EXEC VIRTUAL MEMORY ADDRESSES (MAPPED THROUGH THE EXEC MAP)
EVAPGS==0 ;INIT COUNT OF EXEC VIRTUAL ADDRESS PAGES
EVAPGS==EVAPGS+1 ;EXEC VIRTUAL ADDRESS OF SWAPPING CHECKSUM
.ECKSM==FYSORG-<EVAPGS*PAGSIZ>
EVAPGS==EVAPGS+1 ;EXEC VIRTUAL ADDRESS TO SET UP .UPMP
.EUPMP==FYSORG-<EVAPGS*PAGSIZ>
.ERPIL==.EUPMP ;USED FOR TEMPORARY MAPPING AT PI LEVEL
;*** ADD NEW EXEC VIRTUAL ADDRESSES HERE
;*** END OF ADDED EXEC VIRTUAL ADDRESSES
;LENGTH OF PAGTAB/MEMTAB/PT2TAB
IFN FTKL10,<PAGTBL==<1_<^D22-^D18>>> ;KL10 SUPPORTS 22 BIT PHYSICAL ADDRESSES
IFN FTKS10,<PAGTBL==<1_<^D20-^D18>>> ;KS10 SUPPORTS 20 BIT PHYSICAL ADDRESSES
IFE FTXMON,<
EVAPGS==EVAPGS+PAGTBL ;EXEC VIRTUAL ADDRESS OF PAGTAB
PAGTAB==:FYSORG-<EVAPGS*PAGSIZ>
EVAPGS==EVAPGS+PAGTBL ;EXEC VIRTUAL ADDRESS OF PT2TAB
PT2TAB==:FYSORG-<EVAPGS*PAGSIZ>
EVAPGS==EVAPGS+PAGTBL ;EXEC VIRTUAL ADDRESS OF MEMTAB
MEMTAB==:FYSORG-<EVAPGS*PAGSIZ>
>; END IFE FTXMON
IFN FTXMON,<
MEMBEG==:0 ;STARTING OFFSET IN MS.MEM FOR PAGING TABLES
PAGTAB==:MEMBEG ;PAGTAB ORIGIN
PT2TAB==:PAGTAB+PAGTBL*PAGSIZ ;PT2TAB IMMEDIATELY FOLLOWS PAGTAB
MEMTAB==:PT2TAB+PAGTBL*PAGSIZ ;MEMTAB IMMEDIATELY FOLLOWS PT2TAB
MEMEND==:MEMTAB+PAGTBL*PAGSIZ ;START OF ALLOCATABLE CORE BEYOND PAGING TABLES
MEMWDS==:<MEMEND-MEMBEG> ;NUMBER OF WORDS RESERVED TO PAGING TABLES
MEMPGS==:MEMWDS/PAGSIZ ;NUMBER OF PAGES RESERVED TO PAGING TABLES
IFLE 400K-MEMEND,<
PRINTX ?PAGTAB/PT2TAB/MEMTAB TABLES EXTEND BEYOND 400K
PASS2
END
> ;END IFGE 400K-MEMEND
> ;END IFN FTXMON
IFE FTXMON,<
UMAPS==:.UPMAP ;USER MAPS MAPPED IN THROUGH HERE
>; END IFE FTXMON
IFN FTXMON,<
MMAPS==:700000 ;MONITOR SECTIONS MAPPED IN THROUGH HERE
UMAPS==:740000 ;USER MAPS MAPPED IN THROUGH HERE
>; END IFN FTXMON
SUBTTL EXECUTE PROCESS TABLE LAYOUT
SECTAB==:540 ;SECTION MAP TABLE IN EPT/UPT
IFN FTXMON,MXSECN==37 ;MAXIMUM SECTION NUMBER
IFE FTXMON,MXSECN==0
;EXECUTIVE PROCESS TABLE ENTRIES ARE LISTED IN ORDER OF THEIR APPEARANCE
;IN THE EPT (MANY OFFSETS ARE DEFINED BY THE MICROCODE).
PHASE 0 ;ALL ARE OFFSETS
.EPEPT::! ;BEGINNING OF EXEC PROCESS TABLE
IFN FTKL10,<
;LOGOUT AREAS FOR INTERNAL CHANNELS (0-37)
PHASE 0
.EPLGO::!BLOCK 40 ;4 WORDS FOR EACH OF 8 INTERNAL CHANNELS
>; END IFN FTKL10
;LOCAL UUO HANDLER
PHASE 40
.EPUUO::!BLOCK 1 ;LOCAL UUO STORED HERE
.EP41::! BLOCK 1 ;DISPATCH TO LOCAL UUO HANDLER
;STANDARD PRIORITY INTERRUPT LOCATIONS (42-57)
PHASE 42
.EPPII::!BLOCK 1 ;PRIORITY INTERRUPT INSTRUCTIONS
.EPIL==:.EPPII-2 ;ORIGIN AS IF THERE WERE A CHANNEL ZERO
IFN FTKL10,<
;CHANNEL FILL WORDS FOR RH20 CHANNELS (60-63) - MUST CONTAINS ZEROES!
PHASE 60
.EPCFW::!BLOCK 4 ;USED BY RH20 WHEN ZERO FILLING
>; END IFN FTKL10
IFN FTKS10,<
;ADDRESSES OF UNIBUS ADAPTER INTERRUPT VECTOR TABLES (101-107)
PHASE 101
.EPVIT::!BLOCK 7 ;SPACE FOR UP TO 7 UNIBUS ADAPTERS
>; END IFN FTKS10
IFN FTKL10,<
;SCRATCH BUFFER TO OBTAINING DATE/TIME FROM FRONT-END (135-137)
;(CAN GO ANYWHERE IN EPT)
PHASE 135
.EPDTM::!BLOCK 3 ;3 WORDS
;FOUR DTE20 CONTROL BLOCKS (140-177)
PHASE 140
.EPDCB::!BLOCK ^D8*4 ;8 WORDS FOR EACH OF 4 DTE20S
>; END IFN FTKL10
;EXECUTIVE TRAP LOCATIONS (421-423)
PHASE 421
.EPETL::! ;BEGINNING OF EXECUTIVE TRAP LOCATIONS
.EPAOV::!BLOCK 1 ;EXECUTIVE ARITHMETIC OVERFLOW INSTRUCTION
.EPPOV::!BLOCK 1 ;EXECUTE PUSHDOWN LIST OVERFLOW INSTRUCTION
.EPTP3::!BLOCK 1 ;TRAP 3 TRAP INSTRUCTION
IFN FTKS10,<
;HALT STATUS BLOCK (424-445)
;CAN GO ANYWHERE IN EPT
PHASE 424
.EPHSB::!BLOCK ^D18 ;HALT STATUS AREA WRITTEN BY FRONT-END
>; END IFN FTKS10
IFN FTKL10,<
;DTE CONTROL AREA FOR DIAGNOSTIC UTILITIES (440-443)
PHASE 440
.EPDDG::! ;BEGINNING OF DTE DIAGNOSTIC UTILITY AREA
.EPDDS::!BLOCK 1 ;DIAGNOSTIC START
.EPDDT::!BLOCK 1 ;DDT START
.EPDSL::!BLOCK 1 ;START LOADER (BOOT)
.EPDSM::!BLOCK 1 ;START MONITOR
;SECONDARY PROTOCOL COMMUNICATIONS AREA (444-456)
PHASE 444
.EPDSC::!BLOCK ^D11 ;11 WORDS FOR THE MASTER FRONT-END
;TIME BASE/PERFORMANCE ANALYSIS COUNTS (510-513)
PHASE 510
.EPTMB::!BLOCK 2 ;2 WORD TIME BASE
.EPPAC::!BLOCK 2 ;2 WORD PERFORMANCE ANALYSIS COUNT
;INTERVAL TIMER INTERRUPT INSTRUCTION (514)
PHASE 514
.EPTII::!BLOCK 1 ;XPCW TO INTERRUPT HANDLER
>; END IFN FTKL10
;SECTION TABLE (540-577)
PHASE SECTAB
.EPSTB::!BLOCK MXSECN+1 ;SPACE FOR ALL SECTION POINTERS
IFN FTKL10,<
;CONSTANTS USED BY MICROCODE FOR OWGBP
PHASE 700
.EPOWG::!BLOCK ^D19 ;TABLE OF CONSTANTS FOR MICROCODE
>; END IFN FTKL10
DEPHASE
SUBTTL USER PROCESS TABLE LAYOUT
;USER PROCESS TABLE ENTRIES ARE LISTED IN ORDER OF THEIR APPEARANCE
;IN THE UPT (MANY OFFSETS ARE DEFINED BY THE MICROCODE).
;PUSH DOWN LIST (0 - 217)
JOBPDO=.UUPMP+0 ;ORIGIN OF THE PUSH DOWN LIST
PDLLEN==217 ;LENGTH OF THE PUSH DOWN LIST
; **********
; PDLLEN MUST BE DEFINED SO THAT
; USRHCU AND USRPC DO NOT FALL IN THE
; SAME 4 WORD CACHE BLOCK
; IF PDLLEN IS INCREASED, INCREASE
; IT BY A MULTIPLE OF 4 WORDS.
; **********
EPDLEN==50 ;SIZE OF EMERGENCY PDL
;***MUST BE MULTIPLE OF 4 (SEE ABOVE)***
JOBPRO==JOBPDO+PDLLEN+EPDLEN-<.UUPMP-.UPMP> ;ORIGIN OF THE 'PROTECTED JOB DATA AREA'
PRTLEN==114-70 ;LENGTH OF THE 'PROTECTED JOB DATA AREA'
;BEGINNING OF FIRST USER PROCESS TABLE VARIABLE AREA (303 - 417)
PHASE JOBPRO+PRTLEN-.UPMP
.UPLPS:!BLOCK 1
.USLPS=:.UPMP+.UPLPS ;PAGE NUMBER ON A SWAP IN/OUT
.UPSLX:!BLOCK 1 ;RH=SWPLST INDEX - USED WHEN STARTING PAGING
.USSLX=:.UPMP+.UPSLX ; I/O AT UUO LEVEL
.UPFFT:!BLOCK 1 ;VIRTUAL TIME OF FIRST PAGE FAULT
.USFFT=:.UPMP+.UPFFT
.UPLFT:!BLOCK 1 ;VIRTUAL TIME OF LAST FAULT
.USLFT=:.UPMP+.UPLFT
.UPVCT:!BLOCK 1 ;COUNT OF TOTAL FAULTS FOR JOB
.USVCT=:.UPMP+.UPVCT ;LH="REAL" FAULTS, RH= COUNT OF FAULTS WHEN
; THE PAGE IS IN CORE, PM.ACC=0
.UPREL:!BLOCK 1 ;HIGHEST LOC GOTTEN BY COR UUO OR COMMAND
.USREL=:.UPMP+.UPREL ; IF JOB IS HOLEY
.UPNXP:!BLOCK 1 ;PAGE RANGE SPECIFIED IN PAGE UUO ARGUMENT LIST
.USNXP=:.UPMP+.UPNXP
.UPJOB:!BLOCK 1 ;JOB NUMBER
.USJOB=:.UPMP+.UPJOB
.UPMEM:!BLOCK 1 ;TOTAL VIRTUAL MEMORY A JOB HAS
.USMEM=:.UPMP+.UPMEM ; (OR 0 IF NOT VIRTUAL)
.UPVRT:!BLOCK 1 ;NON-0 IF JOB IS VIRTUAL(HAS DSK ADDRESS IN MAP)
.USVRT=:.UPMP+.UPVRT ;LH FOR HI-SEG, RH FOR LOW SEG
.UPBTS:!BLOCK 1 ;RANDOM COLLECTION OF BITS
.USBTS=:.UPMP+.UPBTS
UP.BIG==1B0 ;USER IS EXTENDED (MUST BE SIGN)
UP.WHC==1B1 ;WORKING SET HAS CHANGED
UP.MGP==1B2 ;MONITOR GOT PFH
UP.GET==1B3 ;RUNNING GET TO GET A PROGRAM TOO BIG TO FIT IN CORE
UP.SAA==1B4 ;SET ACCESS ALLOWED AUTOMATICALLY
UP.CSP==1B5 ;CORE IMAGE (MAY) CONTAIN SPY PAGES
UP.MPF==1B6 ;MERGING PFH - ON SO PFH DOESN'T GET PAGED OUT
UP.MMO==1B7 ;THIS JOB OWNED AND GAVE UP THE MM RESOURCE
; OVER A CALL TO THE SCHEDULAR
UP.PGB==1B8 ;ON IF PAGING I/O PAGES HAVE NOT BEEN GIVEN BACK
UP.IYB==1B9 ;IN YOUR BEHALF PPN SPECIFIED (FOR IPCSER)
UP.WSS==1B10 ;WORKING SET IS SCRAMBLED
UP.DST==1B11 ;DON'T PUT TERMINAL AT MONITOR LEVEL (HNGSTP)
UP.CXO==1B12 ;CORE IMAGE (AS OPPOSED TO HIGH SEGMENT) IS XO
UP.FIP==1B13 ;FILOP IN PROGRESS
UP.DDW==1B14 ;DON'T DIDDLE WORKING SET (MIGRAT)
UP.NZS==1B16 ;NEED TO SWAP IN NON-ZERO SECTIONS (BISLST)
UP.MAP==1B16 ;CURRENT SWPLST ENTRY HAS MAP INFO IN IT
UP.CTX==1B17 ;RUN UUO CALLED BY CONTEXT UUO
UP.SWF==1B18 ;SET WATCH FILES ALREADY TYPED
UP.JXP==1B19 ;(MAPBAK) CALL XPANDH WHEN DONE
UP.EPL==1B20 ;IN EMERGENCY PDL CODE, CAN'T EXTEND STACK
UP.NVS==1B21 ;JOB WAS VIRTUAL ON LAST SWAPIN, THERE ARE
; DISK ADDRESSES FOR WRITE LOCKED PAGES
UP.MLB==1B22 ;MERGE LAST BLOCK INTO OUTPUT BUFFER
UP.TUR==1B23 ;TRPSET UUO REPORTED ALREADY
.UPANA:!BLOCK 1 ;COUNT OF NON-ACCESSABLE PAGES
.USANA=:.UPMP+.UPANA
.UPICT:!BLOCK 1 ;INCREMENTAL COUNT OF PAGE FAULTS
.USICT=:.UPMP+.UPICT
.UPPFH:!BLOCK 1 ;COPY OF .JBPFH ON SWAP OUT (USED IF FTDHIA=-1)
.USPFH=:.UPMP+.UPPFH
.UPFOP:!BLOCK 1 ;USED BY FILOP. TO RECOVER FROM A PAGE FAIL
.USFOP=:.UPMP+.UPFOP
.UPHVA:!BLOCK 1 ;USED FOR ADDRESS CHECKING AT INTERRUPT LEVEL
.USHVA=:.UPMP+.UPHVA
.UPLST:!BLOCK 1 ;LH POINTER TO SWAPPABLE DDBS
.USLST=:.UPMP+.UPLST ;RH POINTER TO SAVED CONTEXT BLOCK IN FUNNY SPACE
.UPFCC:!BLOCK 1 ;HEADER FOR CACHED (KI TOO) FREE SPACE
.USFCC=:.UPMP+.UPFCC ;LH USED FOR TMPCOR FILE POINTERS
.UPFCU:!BLOCK 1 ;HEADER FOR UNCACHED (KL ONLY) FREE SPACE
.USFCU=:.UPMP+.UPFCU ;LH KEEPS TRACK OF LARGEST HOLE
.UPFCD:!BLOCK 1 ;HEADER FOR RESTRICTED FREE SPACE
.USFCD=:.UPMP+.UPFCD
.UPSWI==.UPFCD ;LH IS POINTER TO CORE COPY OF SWITCH.INI
.USSWI=:.UPMP+.UPSWI
.UPLNM:!BLOCK 1 ;RH=POINTER TO LOGICAL NAME SPACE
.USLNM=:.UPMP+.UPLNM ;LH=T4
.UPCTA:!BLOCK 1 ;RH=POINTER TO EXTENDED CHANNEL TABLE
.USCTA=:.UPMP+.UPCTA
.UPMBF:!BLOCK 1 ;ADDRESS OF MONITOR BUFFER
.USMBF=:.UPMP+.UPMBF
.UPLBF:!BLOCK 1 ;FLAG FOR USE OF EXTRA PAGE FOR DIRECTORY
.USLBF=:.UPMP+.UPLBF ;SEARCHES - 0=DONT GET, POSITIVE=CAN GET,
;NEGATIVE=IOWD FOR IT
.UPSBF:!BLOCK 1 ;SAVED .UPMBF WHEN DOING 4-BLOCK READ
.USSBF=:.UPMP+.UPSBF
.UPSPT:!BLOCK 1 ;CURRENT SECTION POINTER (BISLST)
.USSPT=:.UPMP+.UPSPT
.UPNCR:!BLOCK 1 ;# OF "CORE" PAGES IN NZS
.USNCR=:.UPMP+.UPNCR
.UPSCT:! ;ARRAY OF COUNTERS FOR # PGS IN SECTION (9-BITS)
UP.SCS==^D18 ;SIZE OF COUNTER BYTE
UP.VRG==400000 ;VIRGIN MAP BIT
BLOCK <<MXSECN/<^D36/UP.SCS>>-1+IFN <MXSECN-<MXSECN/<^D36/UP.SCS>>*<^D36/UP.SCS>>,<1>+1>
.USSCT=:.UPMP+.UPSCT ;NONE FOR SECTION 0
.UPSCE==.-1
.USSCE=:.UPMP+.UPSCE
.UPPFF:!BLOCK 1 ;PFH PAGE FAULT PC FLAGS
.USPFF=:.UPMP+.UPPFF
.UPPFC:!BLOCK 1 ;PFH PAGE FAULT PC COUNTER
.USPFC=:.UPMP+.UPPFC
.UPPFL:!BLOCK 1 ;LAST PAGE PAGED OUT BY PFH
.USPFL=:.UPMP+.UPPFL
.UPPFU:!BLOCK 1 ;COUNT OF PAGE-FAULTS FOR CURRENT UUO.
.USPFU=:.UPMP+.UPPFU
.UPUSN:!BLOCK 1 ;SECTION NUMBER READ AS AN ARGUMENT FROM /USE
; SWITCH ON AN R, RUN, GET, OR MERGE COMMAND
.USUSN=:.UPMP+.UPUSN
.UPUSA:!BLOCK 1
.USUSA=:.UPMP+.UPUSA ;PROGRAM START ADDRESS
.UPEPL:!BLOCK 1 ;EXTENDED PUSHDOWN POINTER
.USEPL=:.UPMP+.UPEPL
.UPUAC:!BLOCK 20 ;BLOCK OF 20 ACS USED TO SAVE JOBS ACS
.USUAC=:.UPMP+.UPUAC ; WHILE GETTING PFH.EXE
.UPLPG:!BLOCK 1 ;QUEUE OF LOCKED PAGES
.USLPG=:.UPMP+.UPLPG
.UPWLP:!BLOCK 1 ;NUMBER OF WRITE LOCKED PAGES IN THE WORKING SET
.USWLP=:.UPMP+.UPWLP
.UPWLC:!BLOCK 1 ;COUNT OF USER WRITE-LOCKED PAGES
.USWLC=:.UPMP+.UPWLC
.UPEND==.-1
.USEND=:.UPMP+.UPEND
DEPHASE
IFGE <.UPEND-420>,<PRINTX ?UPMP DATA TOO LARGE, OVERLAPS TRAP LOCATIONS>
;TRAP INSTRUCTIONS/NEW PC WORDS (420 - 437)
.UPTVC==420 ;LOCATION OF TRAP VECTOR
.USTVC=:.UPMP+.UPTVC
.UPPFT==420 ;LOCATION OF USER PAGE FAULT TRAP INSTRUCTION
.USPFT=:.UPMP+.UPPFT
.UPAOT==421 ;LOCATION OF USER ARITHMETIC TRAP INSTRUCTION
.USAOT=:.UPMP+.UPAOT
.UPPDT==422 ;LOCATION OF USER PUSH DOWN LIST OVERFLOW TRAP
.USPDT=:.UPMP+.UPPDT ; INSTRUCTION
.UP03T==423 ;LOCATION OF USER TRAP 3 INSTRUCTION
.US03T=:.UPMP+.UP03T
UP.PFT==0 ;PAGE FAIL TRAP MUUO
UP.AOT==1 ;ARITHMETIC TRAP UO
UP.PDT==2 ;PUSH DOWN LIST OVERFLOW TRAP MUUO
UP.03T==3 ;TRAP 3 TRAP UUO
UE.PFT==4 ;USER ENABLED PAGE FAIL TRAP MUUO
UE.AOT==5 ;USER ENABLED ARITHMETIC TRAP MUUO
UE.PDT==6 ;USER ENABLED PDL OVERFLOW TRAP MUUO
UE.03T==7 ;USER ENABLED TRAP 3 TRAP MUUO
UI.PFT==10 ;PSI PAGE FAULT TRAP MUUO
UI.AOT==11 ;PSI ARITHMETIC TRAP MUUO
UI.PDT==12 ;PSI PDL OVERFLOW TRAP MUUO
UI.03T==13 ;PSI TRAP 3 TRAP MUUO
UP.MLT==11 ;MAXIMUM LEGAL TRAP NUMBER
.UPMUO==424 ;LOCATION OF MUUO
.USMUO=:.UPMP+.UPMUO
.UPMUP==425 ;LOCATION OF MUUO PC
.USMUP=:.UPMP+.UPMUP
.UPMUE==426 ;MUUO EFFECTIVE ADDRESS CALCULATION
.USMUE=:.UPMP+.UPMUE
.UPEPF==426 ;LOCATION OF EXEC PROCESS CONTEXT WORD
.USEPF=:.UPMP+.UPEPF
.UPUPF==427 ;LOCATION OF MUUO PROCESS CONTEXT WORD
.USUPF=:.UPMP+.UPUPF
.UPMTS==430 ;START OF MUUO TRAP VECTOR
.USMTS=:.UPMP+.UPMTS
.UPMTE==437 ;END OF MUUO TRAP VECTOR
.USMTE=:.UPMP+.UPMTE
;WORKING SET BIT TABLE (440 - 457)
WSBTAB=:.UPMP+440 ;BIT-TABLE FOR WORKING SET
WSBTBL==<^D512+FYSSIZ/PAGSIZ+MXSECN+1+^D35>/^D36 ;LENGTH OF WORKING SET BIT TABLE
;460 - 477 IS RESERVED BUT AVAILABLE FOR USE
;PAGE FAIL STUFF (500 - 503)
.UPPFW==500 ;PAGE FAIL WORD
.USPFW=:.UPMP+.UPPFW
.UPPFP==501 ;PAGE FAIL FLAGS/OLD PC DOUBLEWORD
.USPFP=:.UPMP+.UPPFP
.UPPFN==503 ;PAGE FAIL NEW PC WORD
.USPFN=:.UPMP+.UPPFN
;KL10 EBOX/MBOX COUNTERS (504 - 507)
.LMEBH==504 ;(KL10)HIGH ORDER PART OF EBOX CYCLE METER
.LMEBL==505 ;(KL10)LOW ORDER PART OF EBOX CYCLE METER
.LMMBH==506 ;(KL10)HIGH ORDER PART OF MBOX CYCLE METER
.LMMBL==507 ;(KL10)LOW ORDER PART OF MBOX CYCLE METER
;510 - 537 IS RESERVED BUT AVAILABLE FOR USE
;TABLE OF SECTION MAP POINTERS (540 - 577)
;SECTAB==540 ;LOCATION OF THE SECTION TABLE
;BEGINNING OF SECOND USER PROCESS TABLE VARIABLE AREA
PHASE 600 ;START SECOND VARIABLE AREA FOLLOWING SECTAB
.UPTMP:!BLOCK 6 ;6 LOCATIONS USED AS TEMPORARIES WHILE SWAPPING
.USTMP=:.UPMP+.UPTMP ; (USED ON A FRAGMENTED SWAP)
.UPTMU:!BLOCK 2 ;UUO LEVEL TEMPS (E. G. PLTSN)
.USTMU=:.UPMP+.UPTMU
.UPCDB:!BLOCK 4 ;MAPPING POINTERS FOR CURRENT CPU'S CDB
.USCDB=:.UPMP+.UPCDB ; (FOR SPY PAGES) - HOPE CDB NEVER EXCEEDS 4 PAGES
.UPSDP:!BLOCK 1 ;SAVE/GET DIRECTORY PAGE
.USSDP=:.UPMP+.UPSDP
.UPPAT:!BLOCK 1 ;AREA FOR PATCHING
.USPAT=:.UPMP+.UPPAT
.UPEN2==.-1 ;END OF SECOND VARIABLE AREA
.USEN2=:.UPMP+.UPEN2
DEPHASE
IFGE <.UPEN2-FYSORG/PAGSIZ>,<PRINTX ?UPMP DATA TOO LARGE, OVERLAPS MAPPING LOCATIONS>
;LOCATIONS IN THE UPT USED FOR MAPPING
.UMORG==FYSORG/PAGSIZ ;MAP SLOTS ARE AT THE END
.UMWSB==.UMORG+<.WSBNZ-FYSORG>/PAGSIZ ;.WSBNZ
.UMJBK==.UMORG+<.JBPK-FYSORG>/PAGSIZ ;JOBPEK
.UMTMP==.UMORG+<.TEMP-FYSORG>/PAGSIZ ;JOBPEK ETC. TEMP
.UMVJD==.UMORG+<.VJDT-FYSORG>/PAGSIZ ;.VJDT
.UMJDT==.UMORG+<.JDAT-FYSORG>/PAGSIZ ;.JDAT
.UMUPT==.UMORG+<.UPMP-FYSORG>/PAGSIZ ;UPT
.UMUPM==.UMORG+<.UPMAP-FYSORG>/PAGSIZ ;CURRENT SECTION MAP
.UMUUP==.UMORG+<.UUPMP-FYSORG>/PAGSIZ ;CACHED UPT SLOT
UPGWID==44-^L<MXSECN+1>-1+9 ;WIDTH OF FIELD CONTAINING VIRTUAL PAGE NUMBER
REPEAT 0,<
;NOTE THAT THE SOURCES HAVE BEEN EDITED SO THAT THESE TESTS NO LONGER APPEAR
SUBTTL FEATURE TEST SWITCHES WHICH MUST BE ON
;LIST OF INDEPENDENT MONITOR COMMAND FEATURES
;WILL BE FOUND IN FILE F.MAC. THOSE FEATURE TEST SWITHCES
;WHICH MUST BE ON ARE FOUND HERE.
; ( -1 MEANS INCLUDE THE ASSOCIATED FEATURE, 0 MEANS ELIMINATE IT )
XP FTSWAP,-1 ;SWAPPING SYSTEM
;IF FTSWAP=-1, THEN FTDISK MUST BE -1
; APPEARS IN CLOCK1, COMCON, COMMON, CORE1, DPCINT, DPCREF,
; DPDINT, DPDREF, DSKSER, DTASRN, FHDINT, FHDREF, MDFINT,
; MDFREF, SCHED, SCNSRH, SEGCON, SYSINI, AND UUOCON.
XP FTDISK,-1 ;DISK SYSTEM (MAY OR MAY NOT HAVE SWAPPING)
;IF FTDISK=-1, THEN FTLOGIN MUST BE -1
;IF FTSWAP=-1, THEN FTDISK MUST BE -1
; APPEARS IN CLKCSS, COMCON, COMMON, ONCE, SCHED, SEGCON,
; SYSINI, AND UUOCON.
XP FTLOGIN,-1 ;LOGIN-LOGOUT COMMAND AND UUOS
;FTDISK=-1 IMPLIES FTLOGIN=-1
; APPEARS IN CLOCK1, COMCON, SCNSRF, SCNSRH, AND UUOCON
XP FTCCL,-1 ;CONCISE COMMAND LANGUAGE COMMANDS
;SHOULD BE 0 IN NON-DISK SYSTEMS
;SHOULD BE -1 IN DISK SYSTEMS, WHEN IMPLEMENTED
; APPEARS IN COMCON
>;END REPEAT 0
XP FTVM,-1 ;ONLY DEFINED SO THAT JOBDAT ASSEMBLES CORRECTLY
SUBTTL SYSTEM MACROS -- GENERAL
;MACRO TO MAKE IT EASY TO USE "POPM" IF IT EVER GETS IMPLEMENTED
DEFINE RETSKP,<
IFNDEF CPOPJ1,<EXTERNAL CPOPJ1>
JRST CPOPJ1
>
;MACRO TO PREVENT SCHEDULING, USED AT UUO LEVEL WHEN A
;REENTRANT ROUTINE IS CHANGING COMMON DATA NOT YET
;ASSIGNED TO A PARTICULAR JOB
DEFINE NOSCHED
<>
;MACRO TO ALLOW SCHEDULING ONCE MORE
DEFINE SCHEDULE
<>
;MACRO TO PREVENT INTERRUPTS ON A CPU-BASIS
DEFINE SYSPIF<
IFNDEF LOKSPI,<EXTERN LOKSPI>
PUSHJ P,LOKSPI
>
;MACRO TO REENABLE INTERRUPTS ON A CPU-BASIS
DEFINE SYSPIN(A)<
IFNDEF UNLSPI,<EXTERN UNLSPI,UNLSPT>
IFB <A><PUSHJ P,UNLSPI>
IFNB <A><PUSHJ P,UNLSPT
CONO PI,PI.ON+A>
>
;MACRO TO PREVENT INTERRUPTS ON A DEVICE-BASIS
DEFINE PIOFF<
IFNDEF LOKDPI,<EXTERN LOKDPI>
PUSHJ P,LOKDPI
>
;MACRO TO REENABLE INTERRUPTS ON A DEVICE-BASIS
DEFINE PION<
IFNDEF UNLDPI,<EXTERN UNLDPI>
PUSHJ P,UNLDPI
>
;MACRO TO PREVENT INTERRUPTS FOR BIT DIDDLERS (SETOS,CLRBTS)
DEFINE BTSOFF,<
IFNDEF LOKBTI,<EXTERNAL LOKBTI>
PUSHJ P,LOKBTI
>
;MACRO TO REENABLE INTERRUPTS FOR BIT DIDDLERS
DEFINE BTSON,<
IFNDEF UNLBTI,<EXTERNAL UNLBTI>
PUSHJ P,UNLBTI
>
;MACRO TO INTERLOCK BUFFER MANAGEMENT (CACHE)
DEFINE NBFOFF,<
IFN FTKL10,<
IFNDEF LOKNBI,<EXTERNAL LOKNBI>
PUSHJ P,LOKNBI
>>
;MACRO TO FREE UP BUFFER MANAGEMENT INTERLOCK
DEFINE NBFON,<
IFN FTKL10,<
IFNDEF UNLNBI,<EXTERNAL UNLNBI>
PUSHJ P,UNLNBI
>>
;MACRO TO INTERLOCK ETHERNET DATA STRUCTURES
DEFINE ETHLOK,<
IFNDEF LOKETH,<EXTERNAL LOKETH>
PUSHJ P,LOKETH
>; END DEFINE ETHLOK
;MACRO TO RELEASE ETHERNET INTERLOCK
DEFINE ETHULK,<
IFNDEF UNLETH,<EXTERNAL UNLETH>
PUSHJ P,UNLETH
>; END DEFINE ETHULK
IFN FTMP,<
;MACRO TO PREVENT DDB-SCAN RACES
DEFINE DDBSRL,<
IFNDEF DDBLOK,<EXTERNAL DDBLOK>
PUSHJ P,DDBLOK
> ;END DEFINE DDBSRL
;MACRO TO UNLOCK DDB-SCAN
DEFINE DDBSRU<
IFNDEF DDBULK,<EXTERNAL DDBULK>
PUSHJ P,DDBULK
> ;END DEFINE DDBSRU
>;END IFN FTMP
IFE FTMP,<
DEFINE DDBSRL<>
DEFINE DDBSRU<>
>;END IFN FTMP
IFN FTMP,<
;GENERAL UUO-LEVEL LOCK
DEFINE UUOLOK<
SKIPGE INTRUU##
AOSE INTRUU##
JRST .-2
APRID INTOUU##
>
DEFINE UUONLK<
SETOM INTRUU##
SETOM INTOUU##
>
>
IFE FTMP,<
DEFINE UUOLOK<>
DEFINE UUONLK<>
>
IFN FTMP,<
;INTERLOCK ON CLOCK QUEUE PROCESSING
DEFINE CLKLOK<
SKIPGE INTRCL##
AOSE INTRCL##
JRST .-2
APRID INTOCL##
>
DEFINE CLKNLK<
SETOM INTRCL##
SETOM INTOCL##
>
>
IFE FTMP,<
DEFINE CLKLOK<>
DEFINE CLKNLK<>
>
;INTERLOCK ON EMERGENCY PROCESSING
IFN FTMP,<
DEFINE DIELOK<
IF2,IFNDEF LOKDIE,<EXTERN LOKDIE>
PUSHJ P,LOKDIE ;;GET THE INTERLOCK
>; END DEFINE DIELOK
DEFINE DIENLK<
IF2,IFNDEF ULKDIE,<EXTERN ULKDIE>
PUSHJ P,ULKDIE ;;RELEASE THE INTERLOCK
>; END DEFINE DIENLK
>; END IFN FTMP
IFE FTMP,<
DEFINE DIELOK<>
DEFINE DIENLK<>
>
SUBTTL SYSTEM MACROS -- AIDS TO EXTENDED ADDRESSING
;THESE MACROS ARE DEFINED TO PRODUCE CODE THAT CAN RUN UNDER BOTH
;KL PAGING AND KI PAGING. UNDER KI PAGING THEY WILL PRODUCE CODE
;WHICH WILL RUN IN SECTION 0, AND UNDER KL PAGING THEY WILL PRODUCE
;CODE WHICH RUNS IN AN EXTENDED SECTION. NOTE THAT IF KL PAGING IS
;ON, THE CODE MUST BE EXECUTED IN AN EXTENDED SECTION.
SOPDEF IFIW [1B0] ;INSTRUCTION FORMATTED INDIRECT WORD
OPDEF XMOVEI [SETMI] ;MOVEI WITH PC SECTION NUMBER
;MACRO TO DEFINE AN INDIRECT WORD. IN KI PAGING, IT GENERATES AN ORDINARY
;STANDARD INSTRUCTION FORMATTED INDIRECT WORD, AND IN KL PAGING IT GENERATES
;A FULL GLOBAL INDIRECT WORD.
; SECTION CAN BE ANY SECTION NUMBER (LH) BETWEEN 0 AND 37
; ADDR CAN BE ANY 18 BIT ADDRESS PLUS INDIRECTION AND INDEXING.
IFE FTXMON,<DEFINE IW(SECTION,ADDR),<Z ADDR>>
IFN FTXMON,<DEFINE IW(SECTION,ADDR),<SALL
EA==<Z ADDR>
IFN <SECTION&<777740,,777777>>!<EA&<777740,,0>>,<
PRINTX ?INVALID INDIRECT WORD SECTION,ADDR
EXP 0,,0 ;;GENERATE Q ERROR
>
IDX==<<EA&<37,,0>>_-22>
OFS==<EA&777777>
EXP <<IDX>B5!<SECTION+<OFS>B35>>
PURGE EA,OFS,IDX
>;END DEFINE IW
>; END IFN FTXMON
;MACRO TO SET SET THE AC FIELD FOR A GLOBAL INDEX WORD
IFN FTXMON,<
DEFINE GIDX(AC)<<AC>B5>
>
IFE FTXMON,<
DEFINE GIDX(AC)<<AC>B17>
>
;MACRO TO CALL A SUBROUTINE IN SECTION 0, RETURNING TO THE CURRENT
;SECTION WHEN DONE. IN KI PAGING THIS RESOLVES TO A PUSHJ.
IFE FTXMON,<DEFINE S0PSHJ(ADDR),<PUSHJ P,ADDR>>
IFN FTXMON,<DEFINE S0PSHJ(ADDR),<SALL
IFNDEF SSEC0,<EXTERN SSEC0>
PUSHJ P,[PUSHJ P,SSEC0
JRST ADDR]
>;END DEFINE S0PSHJ
>;END IFN FTXMON
;MACRO TO CALL A SUBROUTINE IN SECTION 1, RETURNING TO CURRENT CONTEXT
;WHEN DONE
IFE FTXMON,<DEFINE S1PSHJ(ADDR),<PUSHJ P,ADDR>>
IFN FTXMON,<DEFINE S1PSHJ(ADDR),<SALL
IFNDEF SSEC1,<EXTERN SSEC1>
PUSHJ P,[PUSHJ P,SSEC1
JRST ADDR]
>;END DEFINE S1PSHJ
>;END IFN FTXMON
;MACRO TO PJRST TO A SUBROUTINE IN SECTION 0. SAME AS S0PSHJ BUT
;DOES A PJRST INSTEAD OF A PUSHJ.
IFE FTXMON,<DEFINE S0JRST(ADDR),<JRST ADDR>>
IFN FTXMON,<DEFINE S0JRST(ADDR),<SALL
IFNDEF SSEC0,<EXTERN SSEC0>
JRST [PUSHJ P,SSEC0
JRST ADDR]
>;END DEFINE S0JRST
>;END IFN FTXMON
;MACRO TO DO ONE INSTRUCTION IN SECTION 1 AND RETURN TO SECTION 0
IFE FTXMON,<DEFINE SE1XCT(INSTR),<INSTR>>
IFN FTXMON,<DEFINE SE1XCT(INSTR),<SALL
IFNDEF SSEC1,<EXTERN SSEC1>
IFNDEF CPOPJ1,<EXTERN CPOPJ1>
PUSHJ P,[PUSHJ P,SSEC1
INSTR
POPJ P,
JRST CPOPJ1]
>;END DEFINE SE1XCT
>;END IFN FTXMON
;MACRO TO CALL A SUBROUTINE IN SECTION SN, RETURNING TO THE CURRENT
;SECTION WHEN DONE. IN KI PAGING THIS RESOLVES TO A PUSHJ.
IFE FTXMON,<
DEFINE SNCALL(ADDR,SN),<
.IFN SN,ABSOLUTE,<PRINTX ?Illegal section argument 'SN' to SNCALL 'ADDR'>
IFN SN&<0,,-1>,<PRINTX ?Illegal section argument 'SN' to SNCALL 'ADDR'>
PUSHJ P,ADDR>>
IFN FTXMON,<
DEFINE SNCALL(ADDR,SN),<SALL
.IFN SN,ABSOLUTE,<PRINTX ?Illegal section argument 'SN' to SNCALL 'ADDR'>
IFN SN&<0,,-1>,<PRINTX ?Illegal section argument 'SN' to SNCALL 'ADDR'>
IFNDEF SENCAL,<EXTERN SENCAL>
XCT [PUSHJ P,SENCAL
SN+<EXP ADDR&777777>]
>;END DEFINE SNCALL
>;END IFN FTXMON
;MACRO TO CALL A SUBROUTINE IN DECNET CONTEXT. APPLIES ONLY TO UNEXTENDED
;SYSTEMS.
IFN FTXMON,<DEFINE DNCALL(ADDR),<PRINTX ? DNCALL is inconsistent with FTXMON>>
IFE FTXMON,<DEFINE DNCALL(ADDR),<SALL
REPEAT 0,<
IFNDEF DNXCAL,<EXTERN DNXCAL>
XCT [PUSHJ P,DNXCAL
JUMP ADDR]
>; END REPEAT 0
PUSHJ P,ADDR
>;END DEFINE DNCALL
>;END FTXMON
;MACRO TO CALL A SUBROUTINE IN REGULAR CONTEXT. APPLIES ONLY TO UNEXTENDED
;SYSTEMS.
IFN FTXMON,<DEFINE RGCALL(ADDR),<PRINTX ? RGCALL is inconsistent with FTXMON>>
IFE FTXMON,<DEFINE RGCALL(ADDR),<SALL
REPEAT 0,<
IFNDEF RGXCAL,<EXTERN RGXCAL>
XCT [PUSHJ P,RGXCAL
JUMP ADDR]
>; END REPEAT 0
PUSHJ P,ADDR
>;END DEFINE RGCALL
>;END FTXMON
;COMMON SUBROUTINE ENTRY - ROUTINE CALLABLE FROM ANY CODE SECTION,
;EXECUTES IN REGULAR HIGH SEGMENT (SECTION 1).
DEFINE $CSENT(NAME,%DUMMY),<
$CSUB ;;SWITCH TO COMMON ENTRY PSECT
NAME ;;HOPE YOU INCLUDED COLONS IN DEFINITION!
IFN FTXMON,< ;;IF EXTENDED MONITOR
SE1ENT ;;MAKE SURE RETURN IN S0 IF CALLED FROM THERE
XJRST .+1 ;;ENTER HIGH SEGMENT
MCSEC1+%DUMMY ;;BRANCH ADDRESS
$HIGH ;;SWITCH INTO HIGH SEGMENT
%DUMMY: ;;EXECUTION CONTINUES HERE IN SECTION 1
>;; END IFN FTXMON
>; END DEFINE $CSENT
;EXTENDED SUBROUTINE ENTRY - ROUTINE CALLABLE FROM ANY CODE SECTION,
;EXECUTES IN EXTENDED HIGH SEGMENT (SECTION 2)
DEFINE $XSENT(NAME,%DUMMY),<
$CSUB ;;SWITCH TO GLOBAL ENTRY PSECT
NAME ;;HOPE YOU INCLUDED COLONS IN DEFINITION!
IFN FTXMON,< ;;IF EXTENDED MONITOR
SE1ENT ;;MAKE SURE RETURN IN S0 IF CALLED FROM THERE
XJRST .+1 ;;ENTER EXTENDED HIGH SEGMENT
%DUMMY ;;BRANCH ADDRESS
$XHIGH ;;SWITCH INTO EXTENDED HIGH SEGMENT
%DUMMY: ;;EXECUTION CONTINUES HERE IN SECTION 2
>;; END IFN FTXMON
>; END DEFINE $XSENT
;COMMON BLISS-STYLE SUBROUTINE ENTRY - ROUTINE CALLABLE FROM ANY CODE SECTION,
;EXECUTES IN REGULAR HIGH SEGMENT (SECTION 1).
DEFINE $CBSUB(NAME,ARGS,%DUMMY),<
$CSUB ;;SWITCH TO COMMON ENTRY PSECT
NAME ;;HOPE YOU INCLUDED COLONS IN DEFINITION!
BLSUB. (<ARGS>) ;;CALL .ENTER BEFORE CHANGING STACK
IFN FTXMON,< ;;IF EXTENDED MONITOR
SE1ENT ;;MAKE SURE RETURN IN S0 IF CALLED FROM THERE
XJRST .+1 ;;ENTER HIGH SEGMENT
MCSEC1+%DUMMY ;;BRANCH ADDRESS
$HIGH ;;SWITCH INTO HIGH SEGMENT
%DUMMY: ;;EXECUTION CONTINUES HERE IN SECTION 1
>;; END IFN FTXMON
>; END DEFINE $CSENT
;EXTENDED BLISS-STYLE SUBROUTINE ENTRY - ROUTINE CALLABLE FROM ANY CODE SECTION,
;EXECUTES IN EXTENDED HIGH SEGMENT (SECTION 2)
DEFINE $XBSUB(NAME,ARGS,%DUMMY),<
$CSUB ;;SWITCH TO GLOBAL ENTRY PSECT
NAME ;;HOPE YOU INCLUDED COLONS IN DEFINITION!
BLSUB. (<ARGS>) ;;CALL .ENTER BEFORE CHANGING STACK
IFN FTXMON,< ;;IF EXTENDED MONITOR
SE1ENT ;;MAKE SURE RETURN IN S0 IF CALLED FROM THERE
XJRST .+1 ;;ENTER EXTENDED HIGH SEGMENT
%DUMMY ;;BRANCH ADDRESS
$XHIGH ;;SWITCH INTO EXTENDED HIGH SEGMENT
%DUMMY: ;;EXECUTION CONTINUES HERE IN SECTION 2
>;; END IFN FTXMON
>; END DEFINE $XBSUB
SUBTTL SYSTEM MACROS -- NETSER INTERLOCK MANAGEMENT
;THE FOLLOWING FIVE MACROS ARE USED TO INTERLOCK THE NETSER DATABASE
;
; NETDBL THIS MACRO LOCKS THE DATABASE. IT MUST BE CALLED FROM
; UUO LEVEL, AND IT MAY NOT BE CALLED RECURSIVLY!
; NETDBU THIS MACRO UNLOCKS THE DATABASE. (COMPLEMENT OF NETDBL)
; NETDBJ IF THE CURRENT JOB ALREADY OWNS THE INTERLOCK, THIS
; OPERATION DOES NOTHING. OTHERWISE IT LOCKS THE DATABASE
; AND COROUTINES BACK TO THE CALLING ROUTINE. WHEN THAT
; ROUTINE POPJ'S (OR POPJ1'S) IT WILL UNLOCK THE DATABASE.
; NTDBLI THIS OPERATION IS USED TO LOCK THE DATABASE FROM INTERRUPT
; LEVEL. IT SKIP RETURNS IF THE DATABASE WAS AVAILABLE.
; ERROR RETURN'S IF IT WAS LOCKED.
; NTDBUI THIS OPERATION IS USED TO UNLOCK THE DATABASE FROM INTERRUPT
; LEVEL.
; NTSAVE THIS OPERATION IS USED RETURN THE INTERLOCK FOR THE
; DURATION OF ONE SUBROUTINE CALL. (DOES NOTHING IF CURRENT
; JOB DOES NOT OWN THE INTERLOCK)
; NTGIVE THIS MACRO IS USED TO GIVE UP THE INTERLOCK CONDITIONAL
; ON THE PROCESS'S HAVING IT. USED IN ERROR ROUTINES
; NTDBUG THIS MACRO IS USED TO AID IN DEBUGGING THIS MESS.
; IT TAKES TWO ARGUMENTS. THE GOVERNS THE CHECK REGARDING
; WHO HAS THE INTERLOCK. THE SECOND GOVERNS CHECKING ABOUT
; INTERRUPT VS UUO LEVEL.
; FIRST ARG VALUES:
; EITHER MEANS DON'T WORRY ABOUT WHO HAS THE INTERLOCK
; YES SAYS TO STOP IF THE CURRENT PROCESS DOES NOT
; HAVE THE INTERLOCK. (THIS IS THE DEFAULT IF NO
; ARGUMENT IS SPECIFIED)
; NO SAYS TO STOP IF THE CURRENT PROCESS HAS THE
; INTERLOCK
; SECOND ARG VALUES:
; EITHER MEANS DON'T WORRY ABOUT WHAT LEVEL THE CURRENT
; PROCESS IS RUNNING AT. (THIS IS THE DEFAULT)
; INT SAYS TO STOP IF THE CURRENT PROCESS IS NOT AT
; EITHER CLOCK (SCHEDULER), OR INTERRUPT LEVEL
; UUO SAYS TO STOP IF THE CURRENT PROCESS IS NOT AT
; UUO LEVEL. (STACK IN THE .UPMP)
;
DEFINE NETDBL,<
IFNDEF NTLCLK,<EXTERNAL NTLCLK>
PUSHJ P,NTLCLK
>
DEFINE NETDBU,<
IFNDEF NTUNLK,<EXTERNAL NTUNLK>
PUSHJ P,NTUNLK
>
DEFINE NETDBJ,<
IFNDEF NTLCKJ,<EXTERNAL NTLCKJ>
PUSHJ P,NTLCKJ
>
DEFINE NTDBLI,<
IFNDEF NTLCKI,<EXTERNAL NTLCKI>
PUSHJ P,NTLCKI
>
DEFINE NTDBUI,<
IFNDEF NTULKI,<EXTERNAL NTULKI>
PUSHJ P,NTULKI
>
DEFINE NTSAVE,<
IFNDEF NTSAV,<EXTERNAL NTSAV>
PUSHJ P,NTSAV
>
DEFINE NTGIVE,< ;;ROUTINE TO GIVE UP THE INTERLOCK ON AN ERROR
IFNDEF NTLERR,<EXTERNAL NTLERR>
PUSHJ P,NTLERR> ;;GIVE UP THE INTERLOCK ONLY IF WE OWN IT
DEFINE NTDBUG(HAVEIT,LEVEL),<
IFNDEF NTCHCK,<EXTERNAL NTCHCK>
IFNDEF NTDSTP,<EXTERNAL NTDSTP>
IFNDEF UUOLVL,<EXTERNAL UUOLVL>
IFNDEF INTLVL,<EXTERNAL INTLVL>
ZZZ==0 ;;FLAG TO HELP CHECK THE ARG'S VALIDITY
IFB <LEVEL>,<ZZZ==1> ;;IF WE WEREN'T ASKED TO, DON'T CHECK LEVEL
IFNB <LEVEL>,< ;;HERE WE MUST VALIDATE THE LEVEL PARAMETER
IFIDN <LEVEL><EITHER>,<ZZZ==1>;;EITHER MEANS EITHER LEVEL IS OK
IFIDN <LEVEL><UUO>,<ZZZ==1 ;;HERE VERIFY UUO LEVEL
PUSHJ P,UUOLVL ;;SEE IF IT'S UUO LEVEL
PUSHJ P,NTDSTP> ;;STOP IF THE LEVEL IS WRONG
IFIDN <LEVEL><INT>,<ZZZ==1 ;;HERE VERIFY INTERRUPT LEVEL
PUSHJ P,INTLVL ;;SEE IF IT'S INTERRUPT LEVEL
PUSHJ P,NTDSTP>> ;;STOP IF THE LEVEL IS WRONG
IFE ZZZ,<PRINTX ?BAD SECOND ARG (= LEVEL ) TO NTDBUG MACRO?>
ZZZ==0
IFB <HAVEIT>,<ZZZ==2> ;;DEFAULT IS TO VERIFY THAT WE HAVE IT (2)
IFIDN <HAVEIT><EITHER>,<ZZZ==1> ;;EITHER MEANS WE DON'T CARE
IFIDN <HAVEIT><YES>,<ZZZ==2> ;;YES MEANS WE SHOULD CHECK FOR IT
IFIDN <HAVEIT><NO>,<ZZZ==3> ;;NO MEANS WE SHOULD MAKE SURE WE DON'T HAVE IT
IFE ZZZ,<PRINTX ?BAD FIRST ARG (= HAVEIT ) TO NTDBUG MACRO?>
IFGE ZZZ-2,< ;;IF WE HAVE TO CHECK,
PUSHJ P,NTCHCK ;;CALL THE ROUTINE THAT CHECKS
IFE ZZZ-3,<JRST .+2> ;;IF WE ARE IN A "NO" CLAUSE, INVERT THE CHECK
PUSHJ P,NTDSTP> ;;STOP IF WE DO/DON'T HAVE THE LOCK
ZZZ==0 ;;CLEAN UP
> ;;END OF NTDBUG MACRO
;MACRO TO PREVENT CORE SHUFFLING, USED AT UUO LEVEL WHEN
;A ROUTINE SETS UP AN ABSOLUTE USER ADDRESS IN AN AC
;OTHER THAN P,R, OR R. THE MAIN EXAMPLE IS A BLT
;FROM EXEC TO USER OR USER TO EXEC.
DEFINE NOSHUFF
<>
;MACRO TO ALLOW SHUFFLING ONCE MORE
DEFINE SHUFFLE
<>
;MACRO TO START A DEVICE FROM UUO LEVEL
;T1:=XWD DEVINT FLAGS,CONO ARGUMENTS
DEFINE STARTDV (A)
<
CONO PI,PI.OFF
CONO A,(T1)
HLRM T1,A'CON
CONO PI,PI.ON
>
SUBTTL MULTI-PROCESSING MACRO DEFINITIONS FOR ONCE-ONLY TIME
;MACRO TO EXECUTE A SUBROUTINE ON A SPECIFIED CPU. TYP ALLOWS
;YOU TO SET UP COMMON DATA STRUCTURE ACS FOR FREE. SEE CPUXCT
;FOR DETAILS. CALLS ARE USUALLY SYNCHRONOUS, EXECUTE WITH ALL
;AC'S EXCEPT FOR P, AND MAY SKIP (ONCE). THE ACS OF THE CALLED
;ROUTINE ARE RETURNED. HOWEVER, IF XC.ASY IS SET, THE CALL
;ONLY WAITS FOR THE CPU TO ACCEPT THE COMMAND, MAY NOT SKIP,
;AND DOES NOT RETURN THE ACS. CPUASF BIT 35-CPU# WILL CLEAR
;WHEN THE I/O COMPLETES.
DEFINE XCTCPU (TYP,SUB,FLAGS),<
IFE FTMP,<PUSHJ P,SUB>
IFN FTMP,<
IF2,<IFNDEF CPU'TYP,<EXTERN CPU'TYP>>
PUSHJ P,[PUSHJ P,CPU'TYP
<IFIW SUB>+<FLAGS>]
> ;;END IFN FTMP
> ;;END DEFINE XCTCPU
XC.ASY==1B1 ;ASYNCH REQUEST FLAG
XC.LNG==1B2 ;LONG TIMEOUT FLAG
SUBTTL SYSTEM MACROS -- STOPCD
;MACRO TO GENERATE CODE FOR FATAL ERROR CONDITIONS
;CALL WITH:
; STOPCD CONT,TYPE,NAME,TYPOUT, ;++COMMENT
;WHERE:
;CONT IS THE CONTINUE ADDRESS FOR THIS CONDITION.
;TYPE IS THE TYPE OF ERROR. IT MUST BE ONE OF THE FOLLOWING:
; HALT - GENERATE A HALT INSTRUCTION (USE ONLY IN DISPATCH TABLES, ETC.)
; STOP - STOP THE SYSTEM (MAJOR ERROR)
; JOB - STOP JOB (MAJOR ERROR IN A DEVICE SERVICE ROUTINE OR UUO)
; DEBUG - GO TO CONTINUE ADDRESS
; CPU - SAME AS STOP ON A SINGLE CPU SYSTEM, IF THIS IS THE LAST
; CPU RUNNING ON A MULTIPROCESSOR SYSTEM OR IF DF.CP1 IS
; SET. IN ALL OTHER CASES, STOP ONLY THE CPU ON WHICH THE
; ERROR WAS DETECTED.
;NAME IS A SIX LETTER NAME FOR THIS ERROR. IT MUST BE UNIQUE.
;TYPOUT IS AN ADDITIONAL ROUTINE TO CALL FOR ADDITIONAL OUTPUT
;NOTE THAT ALTERNATE ENTRY INTO STOPCD IS VIA BUG.
;DEFINE THE VARIOUS STOPCODE ACTION TYPES
S$HALT==:0 ;GENERATE A HALT
S$STOP==:1 ;STOP/RELOAD THE SYSTEM
S$JOB==:2 ;STOP THE JOB
S$DEBUG==:3 ;DUMP AND CONTINUE
S$CPU==:4 ;STOP THE CPU (RELOAD IF LAST)
S$INFO==:5 ;INFORMATIONAL ONLY
S$NODUMP==:5 ;ALTERNATE NAME FOR ABOVE (**TEMP**)
S$EVENT==:6 ;EVENT (BUGINF)
S$MAXT==:6 ;HIGHEST KNOWN STOPCODE TYPE
S$MAXL==:4 ;MAXIMUM LENGTH OF STOPCODE BLOCK
S$PTRT==:<POINT 4,2,17> ;BYTE POINTER TO STOPCODE TYPE
DEFINE STOPCD(CONT,TYPE,NAME,TYPOUT),<
STPTRP(<CONT>,<TYPE>,<NAME>,<TYPOUT>,<PUSHJ P,DIE>,DIE)
>
REPEAT 0,<;;THIS DOESN'T WORK
DEFINE TRAPCD(CONT,TYPE,NAME,TYPOUT),<
STPTRP(<CONT>,<TYPE>,<NAME>,<TYPOUT>,<XPCW CROAK>,CROAK)
>
>
DEFINE STPTRP(CONT,TYPE,NAME,TYPOUT,INSTR,PROC),<
; SALL ;;CLEAN LISTING
;;TYPE OF ACTION TO TAKE ON STOPCD
ACTTYP==-1
IFDEF S$'TYPE,<ACTTYP==S$'TYPE>
IFB <NAME><PRINTX ?STOPCD WITHOUT A NAME. -- SEE S.. IN CREF>
IFL ACTTYP,<IF2 < PRINTX ?STOPCD NAME IS IN ERROR -- SEE %%.'NAME IN CREF>
%%.'NAME:
> ;END IFL ACTTYP
IFNB <TYPOUT>,<ACTTYP==ACTTYP!400000> ;;IF TYPEOUT ROUTINE, SET BIT
IFE <<SIXBIT /NAME/>&777777>,<S..'NAME::!> ;;OLD-STYLE LABEL
IFE ACTTYP&377777,<
IF2,<IFNDEF DOHALT,<EXTERNAL DOHALT>>
XPCW DOHALT ;;CONTINUE ADDRESS IS USELESS ANYWAY
>
IFN ACTTYP&377777,<
IF2,<IFNDEF PROC,<EXTERNAL PROC>>
XCT [NAME::INSTR ;**** NAME STOP ****
SIXBIT /NAME/
<ACTTYP>B17+IFDIF<CONT><.>,<EXP CONT&777777>;;STOPCD TYPE AND CONTINUATION
IFNB <TYPOUT>,<EXP TYPOUT> ;;TYPEOUT ADDRESS IF PRESENT
] ;;END STOPCD
>
PURGE ACTTYP
>
SUBTTL GENERAL SYSTEM DEFINITIONS -- BUG. - TOPS20 STOPCD
;This macro IS skippable and it saves ALL temp ACs except CX
;
;Args: prefix: Three-character module name
; name: Three-character BUG. name, unique within module
; type: CHK (recommended), HLT or INF, like TOPS-20's BUG macro
; text: Some text to type on the CTY when this BUG. is hit
; Depends on FTLONG.
; cont: (optional) Address at which to continue after BUG.
; If blank, BUG. falls through to next instruction
DEFINE BUG.(type,name,module,harsof,text,args,bigtxt,cont),<
IF2 ,<IFNDEF DIE,< EXTERNAL DIE>>
ACTTYP==0
IFIDN <type><HLT>,< ;STOP STOPCD
ACTTYP==S$STOP
>
IFIDN <type><CHK>,< ;DEBUG STOPCD
ACTTYP==S$DEBUG
>
IFIDN <type><INF>,< ;JUST SOME TYPEOUT
ACTTYP==S$EVENT
>
IFE ACTTYP,<PRINTX ?Illegal BUG. type for bug 'name ('type)>
..ARGN==0
IRP <ARGS>,<..ARGN==..ARGN+1>
IFN ..ARGN,<ACTTYP=ACTTYP!400000>
XCT [NAME::PUSHJ P,DIE ;**** NAME STOP ****
SIXBIT /NAME/
<ACTTYP>B17+IFNB <CONT>,<EXP CONT&777777>;;STOPCD TYPE AND CONTINUATION
IFN ..ARGN,<IF2,<IFNDEF BGCTYP,<EXTERNAL BGCTYP>>
[JSP T1,BGCTYP ;;CALL TYPEOUT
BUG0. <ARGS> ;;WITH ADDITIONAL DATA ARGUMENTS
EXP 0]> ;;TERMINATE LIST
] ;;END STOPCD
PURGE ..ARGN,ACTTYP
>;END DEFINE BUG.
DEFINE BUG0.(ARGS),<
IRP ARGS,<BUG1. ARGS>>
DEFINE BUG1.(ARGS),<BUG2.(ARGS)>
DEFINE BUG2.(ARGLOC,ARGNAM),<
IFB <ARGNAM>,<
PRINTX %Data item ARGLOC in BUG'TYP NAME has no descriptor.
>
EXP SIXBIT \ARGNAM\
Z ARGLOC
>
SUBTTL SYSTEM MACROS -- FRAME
;MACRO TO DEFINE A BUNCH OF WORDS ON THE STACK.
;EACH ARGUMENT TO THE FRAME MACRO ALLOCATES 1 WORD ON THE
; STACK AND DEFINES A MACRO WITH THE SAME NAME AS -N(P).
;
;NOTE: THIS MACRO DEFINES THINGS IN TERMS OF (P) AND THEREFOR
; NOTHING ELSE MAY BE PUSHED ON THE STACK!!!
DEFINE FRAME(LIST,%A),<
%%%N==0 ;ARGUMENT COUNT
IRP LIST,<
%FRAM1(LIST,\<%%%N+1>) ;DEFINE MACRO
%%%N==%%%N+1 ;BUMP COUNT
>
ADJSP P,%%%N
PUSHJ P,%A ;DO THE SUBROUTINE
JRST .+2 ;NON-SKIP RETURN
AOS -%%%N(P) ;PASS ON THE SKIP RETURN
ADJSP P,-%%%N ;DEALLOCATE SPACE
POPJ P,0 ;RETURN
%A:! ;SUBROUTINE WITH LOCAL STORAGE
>
DEFINE %FRAM1(A,B),<
DEFINE A,<-B(P)>
>
SUBTTL SYSTEM MACROS -- TEXT CONCATENATION
;THESE MACROS PROVIDE A CONVENIENT MECHANISM TO ACCUMULATE TEXT
;(ASCIZ STRINGS, MACRO DEFINITIONS ETC.) DURING THE COURSE OF AN
;ASSEMBLY, THEN TO USE THAT TEXT AS DESIRED LATER ON.
;
;TO INITIALIZE:
; CCLEAR(NAME)
;
; WHERE NAME IS 4 CHARACTERS OR LESS.
;
;TO CONCATENATE TEXT ON THE RIGHT:
; CONCAT(NAME,TEXT)
;
; WHERE NAME HAS BEEN INITIALIZED BY CCLEAR, AND TEXT IS
; THE TEXT TO BE CONCATENATED.
;
;AFTER THE CALL TO ANY CONCAT MACRO, NAME WILL BE DEFINED TO BE
;THE TEXT ACCUMULATED SO FAR. USE OF THIS MACRO DOES NOT PREVENT
;ADDITIONAL CALLS TO CONCAT. MULTIPLE STRINGS CAN BE ACCUMULATED
;SIMULTANEOUSLY, USING DIFFERENT NAMES.
;
;EXAMPLE:
; CCLEAR(MSG)
; CONCAT(MSG,ASCIZ /)
; CONCAT(MSG,A )
; CONCAT(MSG,LINE)
; CONCAT(MSG,/)
;
; IS EQUIVALENT TO DEFINE MSG<ASCIZ /A LINE/>
DEFINE CCLEAR(NAME)< ;;CLEAR MACRO
DEFINE C.'NAME(FTXT)< ;;DEFINE FIRST CALL
DEFINE C.'NAME(TEXT)< ;;DEFINE 2ND CALL
C%%%ON <NAME>,<FTXT>,<TEXT> ;;APPEND THE TEXT
>
DEFINE NAME<FTXT> ;;JUST TEXT 1ST TIME
>
.XCREF C.'NAME ;;DON'T CREF TEMP MACRO
DEFINE NAME<> ;;NULL BEFORE CONCAT'S
>
DEFINE C%%%ON(NAME,OTXT,NTXT)< ;;INTERNAL HELPER MACRO
DEFINE C.'NAME(TEXT)< ;;DEF C.NAME FOR LATER
C%%%ON <NAME>,<OTXT'NTXT>,<TEXT> ;;CALL HELPER MACRO
>
DEFINE NAME<OTXT'NTXT> ;;PUT NEW TEXT IN NAME
>
DEFINE CONCAT(NAME,TEXT)<C.'NAME <TEXT>>
.XCREF C%%%ON
;THE CONC MACRO SIMPLY CONCATENATES ITS PARAMETERS AND MAKES
; A CONVENIENT MECHANISM TO BUILD LABELS WITH NUMERIC STRINGS IN THEM.
DEFINE CONC(A,B,C,D)<A'B'C'D>
SUBTTL SYSTEM MACROS -- SOPDEF, GOPDEF, GSOPDEF
;MACROS TO DO VARIOUS FLAVORS OF OPDEF.
;
; SOPDEF OPDEF, SUPRESSED TO DDT
; GOPDEF OPDEF, GLOBAL (INTERNAL)
; GSOPDEF OPDEF, GLOBAL SUPPRESSED
;
;EXAMPLE:
; SOPDEF PJRST[JRST] ;REPLACE PUSHJ/POPJ SEQUENCE
DEFINE SOPDEF(STR)< ;;SUPPRESSED OPDEF
O%%%PD(.NODDT,STR)
>
DEFINE GOPDEF(STR)< ;;GLOBAL OPDEF
O%%%PD(INTERNAL,STR)
>
DEFINE GSOPDEF(STR)< ;;GLOBAL SUPPRESSED OPDEF
O%%%PD(<.NODDT,INTERNAL>,STR)
>
DEFINE O%%%PD(OPS,STR)<
.XCREF
CCLEAR(O%%P) ;;PREPARE TO EXTRACT NAME
CONCAT(O%%P,<OP%%%D (>) ;;START STRING WITH OP%%%D CALL
IRPC STR,<
IFIDN <STR><[>,<
STOPI ;;STOP WHEN WE HAVE THE SYMBOL
>
IFDIF <STR><[>,<
CONCAT(O%%P,STR) ;;ACCUMULATE SYMBOL NAME
>
>
CONCAT(O%%P,<)>) ;;FINISH THE OP%%%D CALL
O%%P ;;CALL OP%%%D TO DEFINE O%%P%D
.CREF ;;CREF THE OPDEF
OPDEF STR ;;ACTUALLY DO THE OPDEF
.XCREF ;;BUT NOTHING ELSE
IRP OPS,<
O%%P%D(OPS) ;;DO THE PSEUDO-OP TO THE SYMBOL
>
.CREF
>
DEFINE OP%%%D(STR)<
DEFINE O%%P%D(OP)<
OP STR
>
>
.XCREF O%%%PD,OP%%%D
SUBTTL SYSTEM MACROS -- METER POINT
;METER POINT MACRO (METER. UUO)
; N=METER POINT # (DECIMAL)
; AC T1=POINT VALUE (IF ANY)
; RH OF MEQ'N'## IS POINT PARAMETER (IF ANY)
; (I.E. MAY BE USED TO QUALIFY POINT VALUE)
; MEP'N IS GLOBAL & MAY BE USED TO FIND
; POINT 'N' VIA GLOB & CREFS
; DESTROYS T1 & T2
DEFINE MPOINT (N)
<IFN FTMETR,<
SKIPGE T2,MEP'N'##
PUSHJ P,(T2)
>>
SUBTTL SYSTEM MACROS -- EXECUTIVE EXECUTE
IFN FTXMON,<
;XBLT EXEC TO USER
DEFINE XBLTXU(AC<T1>),<XCT PX.SRC,[EXTEND AC,[XBLT]]>
;XBLT USER TO USER
DEFINE XBLTUU(AC<T1>),<XCT PX.SRC!PX.BYT,[EXTEND AC,[XBLT]]>
;XBLT USER TO MONITOR
DEFINE XBLTUX(AC<T1>),<XCT PX.BYT,[EXTEND AC,[XBLT]]>
>;END OF IFN FTXMON
IFE FTXMON,<
;XBLT TO USER
DEFINE XBLTXU(AC<T1>),<
IFN <AC>-T1,<PRINTX ? CAN'T XBLT VIA AC, USE T1>
IF2,<IFNDEF PBLTXU,<EXTERN PBLTXU>>
PUSHJ P,PBLTXU
>
;XBLT TO MONITOR
DEFINE XBLTUX(AC<T1>),<
IFN <AC>-T1,<PRINTX ? CAN'T XBLT VIA AC, USE T1>
IF2,<IFNDEF PBLTUX,<EXTERN PBLTUX>>
PUSHJ P,PBLTUX
>
>;END OF IFE FTXMON
;BLT TO USER
DEFINE BLTXU(X),<EXCTXU(<X>)>
;BLT TO MONITOR
DEFINE BLTUX(X),<EXCTUX(<X>)>
;SPECIAL PXCT MACROS FOR KL10
; MUST BE DEFINED AS CORRESPONDING EXCT IF FTKL10 IS OFF
DEFINE PXCTUX(A,B)<
EXCTUX(<A>)
>
DEFINE PXCTXU(A,B)<
EXCTXU(<A>)
>
DEFINE PXCTUU(A,B)<
EXCTUU(<A>)
>
SUBTTL SYSTEM MACROS -- KL10 SPECIFIC
IFN FTKL10,<
;KL10 INTERNAL DEVICE OPCODES
CCA==14 ;CACHE
TIM==20 ;INTERVAL TIMER,TIME BASE
MTR==24 ;ACCOUNTING METERS, PERFORMANCE METER
;OPDEFS FOR KL10 INSTRUCTIONS
OPDEF PMOVE [052B8] ;PHYSICAL MOVE
OPDEF PMOVEM [053B8] ;PHYSICAL MOVEM
OPDEF ADJSP [105B8] ;ADJUST STACK POINTER
SOPDEF PXCT [XCT] ;PREVIOUS CONTEXT EXECUTE
OPDEF DADD [114B8] ;DOUBLE ADD
OPDEF DSUB [115B8] ;DOUBLE SUB
OPDEF DMUL [116B8] ;DOUBLE MUL
OPDEF DDIV [117B8] ;DOUBLE DIV
SOPDEF ADJBP [IBP] ;ADJUST BYTE POINTER
OPDEF APRID [BLKI APR,] ;READ PROCESSOR SERIAL, UCODE VERSION
OPDEF WRFIL [BLKO APR,] ;WRITE CACHE REFILL ALGORITHM
OPDEF RDERA [BLKI PI,] ;READ ERROR ADDRESS REGISTER
OPDEF SBDIAG [BLKO PI,] ;SBUS DIAGNOSTIC
OPDEF CLRPT [BLKO PAG,] ;CLEAR ONE ENTRY IN HARDWARE
; PAGE TABLE
OPDEF SWPIA [DATAI CCA,] ;INVALIDATE ALL CACHE DATA,
; WITHOUT UPDATING CORE
OPDEF SWPVA [BLKO CCA,] ;SWEEP CACHE, VALIDATING CORE
; FOR ALL PAGES, LEAVING CACHE VALID
OPDEF SWPUA [DATAO CCA,] ;UNLOAD ALL PAGES, UPDATING
; CORE AND INVALIDATING CACHE
OPDEF SWPIO [CONI CCA,] ;INVALIDATE ONE PAGE
OPDEF SWPVO [CONSZ CCA,] ;VALIDATE ONE PAGE
OPDEF SWPUO [CONSO CCA,] ;UNLOAD ONE PAGE
OPDEF RDPERF [BLKI TIM,] ;READ DOUBLE-WORD PERFORMANCE
; ANALYSIS COUNTER
OPDEF RDTIME [DATAI TIM,] ;READ DOUBLE-WORD TIME BASE
OPDEF WRPAE [BLKO TIM,] ;WRITE PERFORMANCE ANALYSIS
; ENABLES
OPDEF RDMACT [BLKI MTR,] ;READ DOUBLE-WORD MBOX
; ACCOUNTING COUNT
OPDEF RDEACT [DATAI MTR,] ;READ DOUBLE-WORD EBOX
; ACCOUNTING COUNT
>;END IFN FTKL10 CONDITIONAL
SUBTTL SYSTEM MACROS -- KL10/KS10 SPECIFIC
;BITS IN PXCT AC FIELD
PX.EAC==10 ;EFFECTIVE ADDRESS OF OBJECT INSTRUCTION
PX.MEM==4 ;MEMORY OPERAND (BOTH FETCH AND STORE)
PX.BYT==2 ;EFFECTIVE ADDRESS OF BYTE POINTER
;SOURCE IN XBLT
PX.SRC==1 ;STACK WORD IN PUSH/POP; SOURCE IN BLT
;DESTINATION IN XBLT
DEFINE EXCTUU(INST)<
SALL
GINST==<PXCT PX.MEM,[INST]>
PXGEN(<INST>,<DPB,IDPB>,<PX.SRC>) ;;BECAUSE EXCTUU IS USED ON KL10 FOR
;; READ-MODIFY-WRITE
PXGEN(<INST>,<BLT,PUSH,POP>,<PX.SRC!PX.MEM>)
PXGEN(<INST>,<EXTEND>,<PX.SRC!PX.BYT>) ;;FOR XBLT AND MOVSLJ
GINST
PURGE GINST
>;END EXCTUU MACRO DEFINITION
DEFINE EXCTUX(INST)<
SALL
GINST==<PXCT PX.MEM,[INST]>
PXGEN(<INST>,<LDB,ILDB,POP,BLT>,<PX.SRC>)
PXGEN(<INST>,<EXTEND>,<PX.BYT>) ;;FOR XBLT AND MOVSLJ
GINST
PURGE GINST
>;END EXCTUX MACRO DEFINITION
DEFINE EXCTXU(INST)<
SALL
GINST==<PXCT PX.MEM,[INST]>
PXGEN(<INST>,<IDPB,DPB,PUSH,EXTEND>,<PX.SRC>)
PXGEN(<INST>,<POP,BLT>,<PX.MEM>)
GINST
PURGE GINST
>;END EXCTXU MACRO DEFINITION
IFN FTKL10,<
DEFINE UMOVE(AC,ADR)<EXCTUX <MOVE AC,ADR>> ;MOVE FROM USER TO MONITOR
DEFINE UMOVEM(AC,ADR)<EXCTXU <MOVEM AC,ADR>> ;MOVE FROM MONITOR TO USER
> ;END IFN FTKL10
IFN FTKS10,<
OPDEF UMOVE [704B8] ;MOVE FROM USER TO MONITOR
OPDEF UMOVEM [705B8] ;MOVE FROM MONITOR TO USER
> ;END IFN FTKS10
DEFINE PXGEN(INST,CODES,BITS)<
ZZ==0
IRPC INST,<
IFB<INST>,<STOPI> ;;IF TAB OR SPACE, STOP
IFNB<INST>,<ZZ==ZZ_6+''INST''> ;;ELSE MERGE IN CHAR
>;END IRPC INST
IRP CODES,<
IFE <ZZ^!''CODES''>,<GINST==<PXCT BITS,[INST]>>
>;END IRP CODES
PURGE OPCOD,ZZ1
>;END PXGEN MACRO DEFINITION
;MACROS TO SAVE AND RESTORE AC BLOCKS FOR KL10/KS10 POWER FAIL RESTART
DEFINE SAVE(X,Y),<
EXECAC (X)
MOVEM 17,Y+17
MOVEI 17,Y
BLT 17,Y+16
MOVE 17,Y+17
>
DEFINE RESTOR(X,Y),<
EXECAC (X)
MOVSI 17,Y
BLT 17,17
>
DEFINE ZERO (X),<
EXECAC (X)
SETZ 0,
MOVEI 17,1
BLT 17,17
>
;MACROS TO CHANGE AC BLOCKS
DEFINE EXECAC(A),<
IFN FTKL10,<
SALL
IFB <A>,<
DATAO PAG,[LG.LAB+01B11]
>
IFNB <A>,<
DATAO PAG,[LG.LAB+<<A_3>+1>B11]
>
LIST
>;IFN FTKL10
IFN FTKS10,<
SALL
IFB <A>,<
WRUBR [SG.LAB+01B11]
>
IFNB <A>,<
WRUBR [SG.LAB+<<A_3>+1>B11]
>
LIST
>;IFN FTKS10
>;DEFINE EXECAC
DEFINE USERAC,<
IFN FTKL10,<
SALL
DATAO PAG,[LG.LAB+11B11]
LIST
>;IFN FTKL10
IFN FTKS10,<
SALL
WRUBR [SG.LAB+11B11]
LIST
>;IFN FTKS10
>;DEFINE USERAC
DEFINE CLRPGT(A,B),<
SALL
IFNB <A>,<PRINTX ?NO ARGUMENTS TO CLRPGT MACRO>
IFNB <B>,<PRINTX ?NO ARGUMENTS TO CLRPGT MACRO>
IF2,<IFNDEF .CPEBR,<EXTERN .CPEBR>>
IFN FTKL10,<CONO PAG,@.CPEBR>
IFN FTKS10,<WREBR @.CPEBR>
>;END CLRPGT MACRO DEFINITION
SUBTTL SYSTEM MACROS -- SOFTWARE INTERRUPTS
;MACRO TO CAUSE A NON-DEVICE PROGRAMMED SOFTWARE INTERRUPT
DEFINE SIGNAL(COND),<
IF2,<IFNDEF PSICND,<EXTERNAL PSICND>>
IFNDEF COND,<
PRINTX ? COND IS NOT DEFINED IN FILE S.MAC!
XP COND,C$MIN-1 ;CONDITION YOU CAN NOT ENABLE
>
IFGE <COND><
PRINTX ? COND IS NO A NEGATIVE NUMBER!
XP COND,C$MIN-1 ;CONDITION YOU CAN NOT ENABLE
>
HRROI T1,COND ;SETUP CONDITION
XCT NOPISK## ;SKIP IS USER IS NOT ENABLED
PUSHJ P,PSICND ;ENABLED, CALL SIGNALLER
>
SUBTTL SYSTEM MACROS -- TWO SEGMENT MONITOR
DEFINE $LIT<
$HIGH
LIT
>;END OF $LIT
SUBTTL SYSTEM MACROS -- MULTI SEGMENT MONITOR
;DEFINITION OF THE PSECTS USED BY TOPS-10:
;EACH ENTRY IS "PSECT NAME[,ORIGIN]" WHERE ORIGIN IS SPECIFIED ONLY
;FOR PSECTS OTHER THAN .ABS. AND .LOW.
DEFINE PSECTS,<
PSECT .ABS. ;;DUMMY PLACEHOLDER - *** MUST BE FIRST ***
PSECT .LOW. ;;LOW SEGMENT
PSECT .INIT. ;;INITIALIZATION CODE - DESTROYED AFTER ONCE
PSECT .TWIC. ;;TWICE - USER MODE DISK ONCE-ONLY CODE
PSECT .HIGH. ;;HIGH SEGMENT
PSECT .CSUB. ;;COMMON SUBROUTINES
PSECT .XHGH. ;;EXTENDED HIGH SEGMENT (DECNET, ETC.)
>; END DEFINE PSECTS
DEFINE PSECT(NAME),<
NAME==0-PSECT. ;;GIVE NAME A NEGATIVE VALUE (PLACEHOLDER)
PSECT.==PSECT.+1 ;;COUNT THEM UP
>; END DEFINE PSECT
PSECT.==0 ;START AT THE BEGINNING
PSECTS ;GENERATE PSECT IDENTIFIERS
;MACRO TO INITIALIZE PSECT USAGE - MUST APPEAR FIRST IN A MODULE
;BEFORE ANY STATEMENTS WHICH GENERATE CODE.
DEFINE $RELOC,< ;;INITIALIZER
SALL ;;ENOUGH OF THIS JUNK
PSECT.==.LOW. ;;WHERE WE START OFF
.PSECT .LOW. ;;GET THERE
ABSLOC==0 ;;WHERE ABSOLUTE CODE BEGINS
>; END $RELOC
;DEFINE EQUIVALENCES FOR THE OLD MACROS
DEFINE $ABS,< $PSECT (.ABS.)> ;ABSOLUTE CODE - NOT A REAL PSECT
DEFINE $LOW,< $PSECT (.LOW.)> ;LOW SEGMENT CODE
DEFINE $INIT,< $PSECT (.INIT.)> ;INITIALIZATION CODE - DESTROYED AFTER ONCE
DEFINE $TWICE,< $PSECT (.TWIC.)> ;TWICE (USER MODE DISK ONCE-ONLY)
; (NEVER USED BY MONITOR)
IFE FTXMON,<
DEFINE $CSUB,< $PSECT (.HIGH.)> ;COMMON SUBROUTINE ENTRY
>; END IFE FTXMON
IFN FTXMON,<
DEFINE $CSUB,< $PSECT (.CSUB.)> ;COMMON SUBROUTINE ENTRY
>; END IFN FTXMON
DEFINE $HIGH,< $PSECT (.HIGH.)> ;HIGH SEGMENT CODE
IFE FTXMON,<
DEFINE $XHIGH,<$PSECT (.HIGH.)> ;EXTENDED HIGH SEGMENT SAME AS HIGH SEGMENT
>; END IFE FTXMON
IFN FTXMON,<
DEFINE $XHIGH,<$PSECT (.XHGH.)> ;EXTENDED HIGH SEGMENT
>; END IFN FTXMON
;MACRO TO SWITCH TO ANY DEFINED PSECT
DEFINE $PSECT(NAME),< ;;GENERIC PSECT
IFN PSECT.-NAME,< ;;IF WE'RE SWITCHING
IFN PSECT.,< ;;IF NOT ABSOLUTE
.ENDPS ;;END OF THIS ONE
>;; END IFN
IFE PSECT.,< ;;IF ABSOLUTE
ABSLOC==. ;;REMEMBER WHERE WE WERE
RELOC ;;GO RELOCATABLE
>;; END IFE
PSECT.==NAME ;;WHERE WE ARE NOW
IFL PSECT.,< ;;IF NOT THE ABSOLUTE "PSECT"
.PSECT NAME ;;GET THERE
>;; END IFL
IFE PSECT.,< ;;IF THE ABSOLUTE "PSECT"
LOC ABSLOC ;;GET THERE
>;; END IFE
>;; END IFN
>; END $PSECT
SUBTTL SYSTEM MACROS -- $PHASE AND $DEPHASE
;COMPANION MACROS TO DO PHASE/DEPHASE AND RECLAIM SPACE USED
DEFINE $PHASE(LOC,%...),<
.XCREF %... ;;DON'T WASTE CREF SPACE
.NODDT %... ;;OR SYMBOL TABLE SPACE
%...==. ;;REMBER CURRENT LOCATION
PHASE LOC ;;PHASE TO LOCATION
DEFINE $DEPHASE,< ;;DEFINE COMPANION MACRO
DEPHASE ;;DEPHASE
.ORG %... ;;RECLAIM WASTED SPACE
DEFINE $DEPHASE,<PRINTX ? $DEPHASE WITHOUT PRECEEDING $PHASE>
>;; END DEFINE $DEPHASE
>;; END DEFINE $PHASE
DEFINE $DEPHASE,<PRINTX ? $DEPHASE WITHOUT PRECEEDING $PHASE>
SUBTTL SYSTEM MACROS -- UUO ERROR CODE GENERATOR
;USAGE:
; DEFINE LOCAL ERROR CODES, ERRA%=0, ERRB%=1, ...
; DEFINE LOCAL LABELS WHICH CORRESPOND TO EACH ERROR CODE.
; FOR EACH ERROR CODE, LABEL PAIR, ERCODE(LABEL,CODE)
ECDMAX==40
DEFINE ERCODX(NAME,CODE)<
.DIRECTIVE .XTABM
ERRCDX (NAME,CODE,\CODE)
.DIRECTIVE .ITABM>
DEFINE ERRCDX(NAME,CODE,ACODE)<
IFG <CODE+1-ECDMAX>,<GENXCD(NAME,CODE,ACODE)>
IFNDEF NAME,<NAME==ECDX'ACODE##>>
DEFINE GENXCD(NAME,CODE,ACODE)<
PRINTX %ECDX'ACODE IS UNDEFINED, DEFINE ECDMAX IN S.MAC TO BE ACODE+1
NAME==[MOVEI T1,CODE
JRST STOTAC##]
IF1,<NAME==0>> ;GET ROUND BUG IN MACRO 50
DEFINE ERCALX(N)<
.N==0
REPEAT N,<ERXJSP (\.N)
.N=.N+1>
ECDX: SUBI T1,ECDX0+1
HRRZS T1
JRST STOTAC##>
DEFINE ERXJSP(N)<
ECDX'N::JSP T1,ECDX>
DEFINE ERCODE(NAME,CODE)<
.DIRECTIVE .XTABM
ERRCOD (NAME,CODE,\CODE)
.DIRECTIVE .ITABM>
DEFINE ERRCOD(NAME,CODE,ACODE)<
IFG <CODE+1-ECDMAX>,<GENECD(NAME,CODE,ACODE)>
IFNDEF NAME,<NAME==ECOD'ACODE##>>
DEFINE GENECD(NAME,CODE,ACODE)<
PRINTX %ECOD'ACODE IS UNDEFINED, DEFINE ECDMAX IN S.MAC TO BE ACODE+1
NAME==[MOVEI T1,CODE
JUMPL M,CPOPJ##
JRST STOTAC##]
IF1,<NAME==0>> ;GET ROUND BUG IN MACRO 50
DEFINE ERCALC(N)<
.N==0
REPEAT N,<ERRJSP (\.N)
.N=.N+1>
ECOD: SUBI T1,ECOD0+1
HRRZS T1
JUMPL M,CPOPJ
JRST STOTAC##>
DEFINE ERRJSP(N)<
ECOD'N::JSP T1,ECOD>
SUBTTL SYSTEM MACROS -- MULTI PROCESSING
IFN FTMP,< ;MASTER-SLAVE INTERFACE CODE PRESENT?
;NOTE: NO NEED TO BRACKET CPLOCK,CPUNLK,SBLOK MACRO CALLS WITH
; IFN FTMP,< ... > SINCE THE ARE DEFINED TO BE NULL IF FTMP = 0.
;MACRO TO INTERLOCK CODE AND/OR DATA ON FLAG XXX.
; CPLOCK XXX ENTERS AND LOCKS BEHIND IT UNTIL MATCHING CPUNLK XXX.
; SO FAR "SCD" IS ONLY INTER-LOCK FLAG(FOR SCHEDULER).
DEFINE CPLOCK (XXX)<
PUSHJ P,LOK'XXX ;ENTER CPU INTER-LOCKED REGION ON 'XXX'
EXTERN LOK'XXX>
;MACRO TO UNLOCK CODE AND/OR DATA ON FLAG XXX.
; GOES WITH CPLOCK MACRO.
DEFINE CPUNLK (XXX)<
PUSHJ P,ULK'XXX ;EXIT CPU INTER-LOCKED REGION ON 'XXX'
EXTERN ULK'XXX>
;MACRO TO INTERLOCK A SUBROUTINE UNTIL THIS SUB. EXITS ON FLAG XXX.
; JUST LIKE CPLOCK EXCEPT MATCHING CPUNLK IS AUTOMATIC,
; BECAUSE LK'XXX PUTS ULK'XXX ON PD LIST.
DEFINE SBLOK (XXX)<
PUSHJ P,SB'XXX ;INTERLOCK THIS SUBROUTINE ON 'XXX'
EXTERN SB'XXX>
> ;END FTMP
IFE FTMP,< ;MASTER-SLAVE INTERFACE CODE NOT PRESENT?
DEFINE CPLOCK (XXX)<>
DEFINE CPUNLK (XXX)<>
DEFINE SBLOK (XXX)<>
> ;END FTMP
;MACRO TO TEST FOR WHICH CPU THIS IS (0 OR 1) OR WHICH TYPE THIS IS (A OR I)
; NOTE: P4 DOES NOT NEED TO BE SETUP
; ALWAYS BRACKET THIS MACRO CALL WITH IFN FTMP,< ... >, SO NESTED
; SKIP CODE WILL BE OBVIOUS THAT SOMETIMES MACRO DOES NOT GENERATE CODE.
DEFINE SKPCPU (N)<
IF2,< IFNDEF .CPSK'N,<EXTERNAL .CPSK'N>>
XCT .CPSK'N
>
SUBTTL SYSTEM MACROS -- DISK AND TAPE PI CONTROL
;MACROS TO TURN DISK PI CHANNEL ON AND OFF
DEFINE DSKON,<
IFE FTMP,<
IF2,<IFNDEF DSKPIN,<EXTERN DSKPIN>>
CONO PI,DSKPIN
>
IFN FTMP,<
IF2,<IFNDEF DSKULK,<EXTERN DSKULK>>
PUSHJ P,DSKULK
>
>;END DSKON MACRO DEFINITION
DEFINE DSKOFF,<
IFE FTMP,<
IF2,<IFNDEF DSKPIF,<EXTERN DSKPIF>>
CONO PI,DSKPIF
>
IFN FTMP,<
IF2,<IFNDEF DSKLOK,<EXTERN DSKLOK>>
PUSHJ P,DSKLOK
>
>;END DSKOFF MACRO DEF.
;MACROS TO TURN TAPSER PI CHANNEL ON AND OFF
DEFINE TAPON,<
IF2,<IFNDEF TAPULK,<EXTERN TAPULK>>
PUSHJ P,TAPULK
>;END TAPON MACRO DEF.
DEFINE TAPOFF,<
IF2,<IFNDEF TAPLOK,<EXTERN TAPLOK>>
PUSHJ P,TAPLOK
>;END TAPOFF MACRO DEFINITION
DEFINE SCNON,<
IF2,<IFNDEF SCNPIN,<EXTERN SCNPIN>
IFN FTMP,<IFNDEF UNLSCI,<EXTERN UNLSCI>>
>
IFE FTMP,<CONO PI,SCNPIN>
IFN FTMP,<PUSHJ P,UNLSCI>
>
DEFINE SCNOFF,<
IF2,<IFNDEF SCNPIF,<EXTERN SCNPIF>
IFN FTMP,<IFNDEF LOKSCI,<EXTERN LOKSCI>>
>
IFE FTMP,<CONO PI,SCNPIF>
IFN FTMP,<PUSHJ P,LOKSCI>
>
DEFINE NETON,<
IF2,<IFNDEF NETPIN,<EXTERN NETPIN>
IFN FTMP,<IFNDEF UNLNPI,<EXTERN UNLNPI>>
>
IFE FTMP,<CONO PI,NETPIN>
IFN FTMP,<PUSHJ P,UNLNPI>
>
DEFINE NETOFF,<
IF2,<IFNDEF NETPIF,<EXTERN NETPIF>
IFN FTMP,<IFNDEF LOKNPI,<EXTERN LOKNPI>>
>
IFE FTMP,<CONO PI,NETPIF>
IFN FTMP,<PUSHJ P,LOKNPI>
>
;BYTE DIDDLING INTERLOCK MACROS
DEFINE BYTPIF,<PUSHJ P,LOKSBI>
DEFINE BYTPIN,<PUSHJ P,UNLSBI>
;...DPB - DO A DEPOSIT BYTE TO AN INTERLOCKED WORD.
; THIS WAS DEFINED FOR A VERSION OF THE MICROCODE WHICH DID NOT HAVE
; READ-MODIFY-WRITE FOR DEPOSIT BYTE. IT IS STRONGLY SUGGESTED THAT
; THIS FEATURE TEST (FTDOTD) NOT BE TURNED ON, SINCE PERFORMANCE IS
; NOTICABLY IMPACTED.
;
;N.B. - THE MICROCODE BUG HAS BEEN FIXED, BUT PLEASE CONTINUE TO USE THE
; ...DPB CONSTRUCT FOR DPB TO UN-INTERLOCKED WORDS, IN CASE THE FIX
; HAS TO BE REMOVED FOR SOME UNKNOWN REASON.
IFE FTXMON,<
DEFINE SPUSH(AC),<>
DEFINE SPOP(AC),<>
DEFINE SSX(AC,SN),<>
DEFINE SSXE(AC,SN),<>
DEFINE SE1ENT,<>
DEFINE SE1JRS,<>
DEFINE XJRST<JRST @>
>
IFN FTXMON,<
DEFINE SPUSH(AC),<PUSH P,AC>
DEFINE SPOP(AC),<POP P,AC>
DEFINE SSX(AC,SN),<HRLI AC,(SN)>
DEFINE SSXE(AC,SN),<HRLI AC,SN>
DEFINE SE1ENT,<IFNDEF SSEC1,<EXTERNAL SSEC1>
PUSHJ P,SSEC1>
OPDEF XJRST [JRST 15,]
DEFINE SE1JRS,<XJRST .+1
MCSEC1+.+1
>
>
;MACRO TO CAUSE AN I/O PAGE FAIL ON AN INTERRUPT TO 40+2N+1
; THIS CAPTURES THE I/O PAGE FAIL WORD WHICH CAN BE USEFUL IN DIAGNOSIS
DEFINE IOP,<MOVEM MONORG>
SUBTTL MACROS TO MANIPULATE TERMINAL BUFFER STREAMS
;NOTE: THE FOLLOWING MACROS USE T1 AND T2 AS TEMPORARY AC'S. THEY
; MAY ** NOT ** BE SKIPPED OVER. EACH CALLS A SUPPORT SUBROUTINE TO
; SKIP FROM CHUNK TO CHUNK, BUT HANDLES THE NORMAL CASE IN LINE.
; IN CASE OF ERROR RECOVERY (FROM RCC STOPCD) THE SCNSER INTERLOCK
; MUST BE OWNED.
;MACRO TO TAKE A CHARACTER OUT OF A TERMINAL BUFFER STREAM, ADVANCE
;THE POINTER SPECIFIED BY "LOC", BUT NOT TO GIVE BACK ANY CHUNKS
;THAT ARE PASSED OVER. USES T1, T2 AND T3. CHARACTER MAY BE
;RETURNED IN T3 IF DESIRED.
DEFINE LDCHK(AC,LOC,ABO),<
IFNDEF CK.BDY,<EXTERNAL CK.BDY>
IFNDEF NEWCKS,<EXTERNAL NEWCKS>
IFB <ABO>,<PRINTX ? LDCHK INVOKED WITHOUT ABORT ADDRESS>
SKIPE T1,LOC ;;COPY OF BYTE POINTER
TDNN T1,[770000,,CK.BDY] ;;POINTER AT END OF CHUNK?
JRST [PUSHJ P,NEWCKS;;YES, ADVANCE TO NEXT CHUNK, KEEPING THIS ONE
JRST ABO ;;ABORT - CHUNKS MESSED UP
MOVEM T2,LOC ;;STORE NEW CHUNK BYTE POINTER
JRST .+1] ;;DO THE ILDB
ILDB AC,LOC ;;GET NEXT BYTE
>
;MACRO TO TAKE A CHARACTER OUT OF A CHUNK AND TO RETURN ANY CHUNKS
;THAT ARE PASSED BY. USES T1, T2 AND T3. CHARACTER MAY BE RETURNED
;IN T3 IF DESIRED.
DEFINE LDCHKR(AC,LOC,ABO),<
IFNDEF CK.BDY,<EXTERNAL CK.BDY>
IFNDEF NEWCKI,<EXTERNAL NEWCKI>
IFB <ABO>,<PRINTX ? LDCHKR INVOKED WITHOUT ABORT ADDRESS>
SKIPE T1,LOC ;;COPY OF BYTE POINTER
TDNN T1,[770000,,CK.BDY] ;;POINTER AT END OF CHUNK?
JRST [PUSHJ P,NEWCKI;;YES, ADVANCE TO NEXT CHUNK, RELEASING THIS ONE
JRST ABO ;;ABORT - CHUNKS MESSED UP
MOVEM T2,LOC ;;STORE NEW CHUNK BYTE POINTER
JRST .+1] ;;DO THE ILDB
ILDB AC,LOC ;;FETCH THE NEXT BYTE
>
;MACRO TO STORE A CHARACTER IN A TERMINAL OUTPUT STREAM. DEPOSITS
;CHARACTER FROM "AC" USING THE BYTE POINTER SPECIFIED BY "LOC".
;CHUNKS ARE ALLOCATED FROM THE FREELIST AS NEEDED. USES T1 AND T2.
DEFINE STCHK(AC,LOC,ABO),<
IFNDEF CK.BDY,<EXTERNAL CK.BDY>
IFNDEF NEWCKO,<EXTERNAL NEWCKO>
IFB <ABO>,<PRINTX ? STCHK INVOKED WITHOUT ABORT ADDRESS>
SKIPE T1,LOC ;;COPY OF BYTE POINTER
TDNN T1,[770000,,CK.BDY] ;;POINTER AT END OF CHUNK?
JRST [PUSHJ P,NEWCKO;;YES, ALLOCATE A NEW CHUNK
JRST ABO ;;ABORT - CHUNKS MESSED UP
MOVEM T2,LOC ;;STORE NEW CHUNK BYTE POINTER
JRST .+1] ;;DO THE IDPB
IDPB AC,LOC ;;STUFF THIS CHARACTER INTO THE CHUNK STREAM
>
;DEFINITION OF CHUNK CONTENTS (SEE OTHER DEFINITIONS IN COMMON.MAC)
XP CK.CHR,0377 ;MASK FOR JUST CHARACTER
XP CK.CH7,0177 ;MASK FOR 7-BIT CHARACTER
XP CK.PAR,0200 ;PARITY BIT
XP CK.IMG,0400 ;CHARACTER IN IMAGE MODE
XP CK.FDE,1000 ;FRONT-END ECHOED THIS CHARACTER
XP CK.NIS,2000 ;NOT IN STREAM (USED-UP CHARACTER)
XP CK.MET,4000 ;META-CHARACTER FOR SYNCHRONOUS FUNCTIONS
XP CK.MSK,7777 ;ALL PER-CHARACTER BITS
XP CK.XMT,0777 ;ALL CHARACTER BITS TO BE TRANSMITTED
XP CK.WID,^D36-^L<CK.MSK> ;NUMBER BITS PER CHARACTER IN A CHUNK
XP CK.CPW,^D36/CK.WID ;CHARACTERS PER WORD
;SCNSER ISR VECTOR OFFSETS
XP ISRTYP,0 ;ILLEGAL NOW. DON'T USE.
XP ISRDSC,1 ;DATA SET CONTROL
XP ISRCHK,2 ;TEST FOR LOST PIA (ONCE-A-SECOND CALLS)
XP ISRINI,3 ;INIT ISR
XP ISRCHP,4 ;CHANGE HARDWARE PARAMETERS
XP ISRLPC,5 ;SEND LINE PARAMETER CONTROL MSG
XP ISRELE,6 ;SET ELEMENT #
XP ISRREM,7 ;DO REMOTE TERMINAL STUFF
XP ISROFL,10 ;SKIP IF FRONT END ON LINE
XP ISRMAX,10 ;MAXIMUM LDBISR INDEX
;SCNSER ISRREM VECTOR OFFSETS
XP IRRINV,0 ;ILLEGAL. DON'T USE
XP IRRCSL,1 ;CHUNK SPACE LOW (SKIP AVOIDS XOFF)
XP IRRCNS,2 ;CHARACTER NOT STORED (SKIP AVOIDS BELL)
XP IRRSCG,3 ;SEND CHARACTER GOBBLER
XP IRRCSA,4 ;CHUNK SPACE AVAILABLE (SKIP AVOIDS XON)
XP IRRDSC,5 ;DISCONNECT (NON-SKIP MEANS CAN'T)
XP IRRCIB,6 ;CLEAR INPUT BUFFER
XP IRRTMO,7 ;TIMEOUT (DISCONNECT), NON-SKIP MEANS CAN'T
XP IRRBMC,10 ;BREAK MASK CHANGED, NON-SKIP IMPLIES SETCHP
XP IRROOB,11 ;OUT-OF-BAND SET CHANGED, NON-SKIP IMPLIES SETCHP
XP IRRMAX,11 ;MAXIMUM ISRREM CODE
;SCNSER SPECIAL CHARACTER BIT DEFINITIONS
XP CC.BRK,1B35 ;THIS IS A LINE BREAK
XP CC.NSA,1B34 ;NO SPECIAL ACTION (SUPPRESS NORMAL MONITOR ACTION)
XP CC.OOB,1B33 ;OUT-OF-BAND ENABLED FOR THIS CHARACTER
XP CC.DFR,1B32 ;OOB IS DEFERRED TYPE (HELLO OR DEFERRED CLEAR)
;ADD ALL VALUES WHICH GO IN THE ACTUAL BYTES ABOVE
XP CC.WID,4 ;WIDTH FOR MAKING BYTE POINTERS
;ADD ALL BITS WHICH DO NOT BELONG IN THE BYTES BELOW THIS LINE
XP CC.CLR,1B31 ;BIT FOR 'CLEAR' OOB SETTING/CLEARING
XP CC.MSK,37 ;KEEP MASK FOR FINDING VALID BITS
;CHARACTER ATTRIBUTE DEFINITIONS
TA.8BT==1B0 ;8-BIT TERMINAL
TA.DIS==1B1 ;DISPLAY TERMINAL
TA.OVR==1B2 ;OVERPRINTING WORKS ON THIS TERMINAL
TA.8BA==1B3 ;8-BIT ARCHITECTURE (CAN SOMETIMES BE 8-BIT)
TA.NRC==1B4 ;NATIONAL REPLACEMENT CHARACTER SETS SUPPORTED
TA.ISO==1B5 ;8-BIT MEANS ISO/LATIN-1, NOT DEC/MCS
TA.LID==1B6 ;LINE INSERTION & DELETION
TA.CID==1B7 ;CHARACTER INSERTION & DELETION
TA.SRM==1B8 ;SCROLLING REGIONS (DECSTBM) SUPPORTED
TA.GAT==1B9 ;GUARDED AREA TRANSFER SUPPORTED
TA.SEM==1B10 ;SELECTIVE ERASE (DECSEL/DECSED) SUPPORTED
TA.AVO==1B11 ;VT100'S ADVANCED VIDEO OPTION SUPPORTED OR EMULATED
TA.PPO==1B12 ;PRINTER PORT OPTION SUPPORTED
TA.GPO==1B13 ;REGIS SUPPORTED (MAYBE VIA GRAPHICS PROCESSOR OPTION)
TA.SXL==1B14 ;SIXEL GRAPHICS SUPPORTED
TA.TEK==1B15 ;TEKTRONIX 4010/4014 EMULATION
TA.RCS==1B16 ;DYNAMICALLY REDEFINABLE CHARACTER SETS
TA.UDK==1B17 ;USER-DEFINE KEYS
TA.VFW==1B18 ;VARIABLE FORMS WIDTH
TA.VFL==1B19 ;VARIABLE FORMS LENGTH
TA.V52==1B20 ;VT52 EMULATION AVAILABLE
TA.ESL==1B21 ;EXTRA STATUS LINE EXISTS
TA.JTK==1B22 ;KATAKANA CHARACTER SET IS AVAILABLE
TA.TCS==1B23 ;DEC TECHNICAL CHARACTER SET IS AVAILABLE
TA.TSI==1B24 ;TERMINAL STATE INTERROGATION
TA.BMT==1B25 ;BLOCK-MODE TRANSFER
TA.BTA==1B26 ;BLOCK TRANSFER IS ANSI
TA.HSR==1B27 ;HORIZONTAL SCROLLING
TA.UWN==1B28 ;USER WINDOWS
TA.SSU==1B29 ;MULTIPLE SESSIONS
TA.CLR==1B30 ;COLORED TERMINAL SCREEN
TA.NKB==1B31 ;NO KEYBOARD (ASYNCHRONOUS PRINTER SUCH AS LN03)
SUBTTL SYSTEM MACROS -- QUEUE DEFINITIONS
;DEFINE THE QUEUES, QUANTUM RUNNING TIME IN JIFFIES, AND PRIORITY
;PRIORITY GOES BACKWARD FROM LOW TO HIGH
;THE QUEUE NUMBERS START AT 0 AND GO UP BY ONE READING DOWN THE PAGE
;DEFINITION AND USAGE OF ARGUMENTS TO THE X MACRO:
;ARG1: QUEUE NAME - USED TO DEFINE NAME OF QUEUE NUMBER (FOR
; STATE XX, SYMBOL XXQ IS DEFINED AS THE QUEUE NUMBER IF
; X MACRO CALLED BY QUEUES OR RWAITS, OR THE NAME IS
; THE NUMBER FOR CODES)
;ARG2: QUANTUM RUNTIME ON REQUEUE FROM THIS QUEUE TO RUN
;ARG3: [DJ (DELAY JOB) OR SJ (STOP JOB)] ON ^C
;ARG4: ADDRESS OF UNWIND ROUTINE FOR SCHEDULAR
;ARG5: ADDRESS OF ROUTINE TO GRANT RESOURCE AT SCHEDULAR
;ARG6: ADDRESS OF ROUTINE TO TEST IF JOB IN J OWNS RESOURCE OF
; THIS TYPE
;FOR ARGUMENTS 3-6 A DEFAULT ROUTINE IS USED IF NONE IS SPECIFIED
DEFINE QUEUES
< X (RN,7,DJ,) ;;STRAIGHT RUN (LOWEST PRIORITY) (Q=0)
X (WS,6,SJ,) ;;I/O WAIT SATISFIED
X (TS,6,SJ,) ;;TTY I/O WAIT SATISFIED
X (DS,6,DJ,) ;;DISK I/O WAIT SATISFIED
X (PS,6,DJ,) ;;PAGING I/O WAIT SATISFIED
>
DEFINE RWAITS
<
X (AU,4,DJ,UNWAU,SCDAU,OWNAU) ;;ALTER DISK UFD QUEUE
X (DA,4,DJ,UNWDA,SCDDA,OWNDA) ;;DISK STORAGE ALLOCATION WAIT
X (CB,4,DJ,) ;;DISK CORE-BLOCK SCAN WAIT
X (DT,4,SJ,UNWDTC,SCDDT,OWNDTC) ;;DECTAPE CONTROL WAIT
X (IP,4,DJ,UNWIPC,SCDIP,OWNIP) ;;IPCF INTERLOCK WAIT
X (CX,4,DJ,UNWCX,SCDCX,OWNCX) ;;CONTEXT SAVE WAIT
X (DC,4,SJ,) ;;DATA CONTROL (DC) WAIT - MAGTAPE AND DECTAPE
X (CA,4,DJ,) ;;SEMI-PERMANENT CORE ALLOCATION WAIT
;;(LOKCON, ALSO SEGCON SETTING UP SEGMENT TBLS)
IFN FTMP,<
X (MC,4,DJ,) ;;MONITOR I/O DISK CACHE WAIT
X (MM,4,DJ,) ;;MEMORY MANAGEMENT WAIT
> ;END IFN FTMP
X (EV,4,SJ,) ;;EXEC VIRTUAL MEMORY WAIT
X (EQ,4,DJ,) ;;ENQ/DEQ WAIT
X (FA,4,DJ,UNWFA,SCDFA,OWNFA) ;;DISK FILE ALLOCATION RESOURCE WAIT
>
;;JOB STATUS CODES WHICH HAVE NO CORRESPONDING QUEUES
;;JOBS ARE UNRUNABLE WHEN IN THESE STATES
DEFINE CODES
< X (IOW,,SJ,) ;;I/O WAIT
X (TIOW,,SJ,) ;;TTY I/O WAIT
X (DIOW,,DJ,) ;;DISK I/O WAIT
X (PIOW,,DJ,) ;;PAGING I/O WAIT
X (PQIO,,DJ,) ;;PAGING QUEUE WAIT
X (SLP,,SJ,) ;;JOB SLEEPING
X (EW,,SJ,) ;;JOB IN EVENT WAIT
X (NAP,,SJ,) ;;JOB NAPPING (.LT. 1 SEC SLEEP)
X (NUL,,SJ,) ;;JOB NUMBER NOT ASSIGNED
X (JDC,,SJ,) ;;WAITING FOR DAEMON TO BE RUN
X (STOP,,SJ,) ;;STOP (CONTROL C)
>
SUBTTL OPDEFS
;USEFUL OPCODES TO INDICATE SHORT CODING OF A SUBROUTINE CALL
SOPDEF PJRST [JRST] ;PJRST IS USED IN PLACE OF THE LAST PAIR OF
; INSTRUCTIONS IN A SUBROUTINE WHEN THEY ARE PUSHJ
; FOLLOWED BY A POPJ. PJRST IS USED INSTEAD OF JRST, SO
; THAT SOMEONE READING THE CODE WILL UNDERSTAND THAT A
; SUBROUTINE IS BEING CALLED.
SOPDEF PJRSTF [JRSTF]
SOPDEF PJSP [JSP] ;PJSP IS USED IN PLACE OF MOVEI .+2, PJRST SUB
SOPDEF PJUMPL [JUMPL]
SOPDEF PJMPLE [JUMPLE]
SOPDEF PJUMPE [JUMPE]
SOPDEF PJUMPG [JUMPG]
SOPDEF PJMPGE [JUMPGE]
SOPDEF PJUMPN [JUMPN]
;OPDEF TO SET AN AC NON-ZERO AND JUMP (RATHER THAN CALL A SUB)
SOPDEF SJSP [JSP]
;OPDEF TO FIND HALTS WHICH SHOULD BE STOPCD'S
OPDEF HALT [JRST 4,0]
;INSTRUCTION TO DISPATCH ON ERROR (ILL MEM REF, EXCT?? ASSUMED,
; BUT MAY BE USED ANYWHERE IN MONITOR AFTER PAGE FAULT PROCESSOR
; IS SET UP).
OPDEF ERJMP [JUMP 16,] ;JRST TO "E" ON IME (ILL MEM REF)
;OPDEF ERCAL [JUMP 17,] ;PUSHJ P, TO "E" ON IME
SUBTTL MONITOR/USER SYMBOL PREFIXES
REPEAT 0,<
MONITOR/USER SYMBOLS PREFIXES:
SYMBOLS FOR MONITOR DATA BLOCKS WILL HAVE PERIODS IN THEM
SO THAT AS MANY OF THEM AS DESIRED CAN BE MADE
USER SYMBOLS AS THE NEED ARISES WITHOUT CONFLICTING
WITH ALREADY CODED PROGRAMS.
IT IS POSSIBLE TO DIVIDE DATA SYMBOLS INTO TWO CLASSES:
A) NUMBERS
B) MASKS
NUMBERS INCLUDE CORE ADDRESSES, FUNCTION CODES, AND ERROR CODES.
MASKS INCLUDE BITS AND FIELDS.
NUMBERS WILL BE 18 BITS AND MASKS WILL BE 36 BIT QUANTITIES. USE
THE MACRO FEATURE WHICH SWAPS QUANTITIES INSIDE () TO REFERENCE
THE BITS. AN ERROR WILL RESULT IF () ARE FORGOTTEN (BITS 0-8 ONLY).
BECAUSE OF PAST PRECEDENT, SYMBOLS DEFINING NUMBERS (I.E. ADDRESS,
FUNCTION CODES, AND ERROR CODES) WILL BEGIN WITH A DOT FOLLOWED BY A
TWO-LETTER PREFIX. MASKS WILL START WITH A TWO-LETTER PREFIX FOLLOWED
BY A DOT. UUO OPCODES WILL END WITH DOT.
THE FOLLOWING PREFIXES HAVE BEEN USED. FILENAMES INDICATE WHERE
THEY ARE DEFINED.
A. WORD ADDRESSES:
.JB??? ARE JOB DATA AREA SYMBOLS (JOBDAT.MAC)
?????. WILL BE CALLI UUO SYMBOLS IMPLEMENTED AFTER
5.03 (UUOCON.MAC)
.PD??? WILL BE SYMBOLS IN THE PROCESS DATA BLOCK
(PDB), USUALLY INDEXED BY W.
.RB??? FILE EXTENDED ARGS, (LOOKUP, ENTER, RENAME)
(S.MAC)
.CP??? RELATIVE LOCATIONS IN CPU DATA BLOCK (CDB) USUALLY
INDEXED BY P4 (COMMON.MAC)
.C0??? ABSOLUTE LOCATIONS IN MASTER CDB (COMMON.MAC)
.C1??? ABSOLUTE LOCATIONS IN SLAVE CDB (COMMON.MAC)
.GT??? GETTAB TABLE NUMBERS (UUOCON.MAC)
B. FUNCTION CODES:
.FS STRUUO (FILE STRUCTURE) (PRVUUO.RNO)
C. ERROR CODES:
.ER STRUUO ERROR CODES (PRVUUO.RNO)
D. BITS: (FIRST FOUR DO NOT FOLLOW ABOVE CONVENTION.)
.SP??? SPOOL BITS (S.MAC)
.TY??? DEVTYP UUO BITS (S.MAC)
.ERMSG DON'T TYPE ERROR MESSAGE ON ERROR INTERCEPT
.OK??? INTERCEPT DEVICE OK ERRORS (S.MAC)
JB.L?? JOB LIMIT BITS (S.MAC)
SP.??? SECOND PROCESSOR STATUS BITS (S.MAC)
AP.??? APR CONI/CONO BITS (S.MAC)
PC.??? PC WORD FLAGS (S.MAC)
PI.??? PI CONI/CONO BITS (S.MAC)
JP.??? JOB PRIVILEGE BITS (S.MAC) IN JBTPRV
JS.??? JOB STATUS BITS IN JBTSTS (S.MAC)
JW.??? JOB WATCH RTS IF JBTWCH (S.MAC)
IT IS SUGGESTED THAT ??? BE EITHER A PRONOUNCEABLE "WORD" SUCH AS JOB
OR A TWO OR THREE LETTER ALPHABET SOUP SYMBOL WHERE EACH LETTER IS THE
FIRST LETTER OF EACH WORD IN THE MNEMONIC (E.G. LJR FOR LAST JOB RUN,
RATHER THAN, SAY, LSJ FOR LAST JOB.)
>
SUBTTL DEFINE THE SYMBOLS FOR THE LINK PSEUDO OPERATIONS
XP .LKACB,1 ;LINK FOR LINKING ALLOCATION CONTROL BLOCKS
XP .LKAHB,2 ;LINK FOR LINKING ALLOCATION HEADER BLOCKS
XP .LKDRV,3 ;LINK FOR LINKING DRIVER DISPATCH TABLES
XP .LKSAX,4 ;LINK FOR LINKING SA10 DISPATCH TABLES
SUBTTL KLINIK DEFINITIONS
KPSLEN==26 ;LENGTH OF PARAMETER SAVE MESSAGE
SUBTTL DIAG. UUO DEFINITIONS
;FUNCTION CODES
.DICTC==:000 ;CONTROL-C ENTRY POINT (MONITOR FUNCTION ONLY)
.DIASU==:001 ;ASSIGN SINGLE UNIT ON CHAN/CTL
.DIAAU==:002 ;ASSIGN ALL UNITS ON CHAN/CTL
.DIRAU==:003 ;RELEASE ALL UNITS ON CHAN/CTL
.DISCP==:004 ;SPECIFY CHANNEL PROGRAM
.DIRCP==:005 ;RELEASE CHANNEL PROGRAM
.DIGCS==:006 ;GET CHANNEL STATUS
.DIAKU==:007 ;RETURN CONTROLLER AND UNIT FOR DEVICE
.DIACS==:010 ;FORCE CPU STATUS BLOCK READ
.DIADS==:011 ;FORCE DEVICE STATUS BLOCK READ
.DISCR==:012 ;SPECIFY CHANNEL PROGRAM FOR READ REVERSE
.DIANL==:013 ;ENABLE/DISABLE AUTO RELOAD OF DX20 MICROCODE
.DIGUI==:014 ;GET USER I/O
.DIASM==:015 ;SEIZE MAGTAPE CONTROLLER(S)
.DIARM==:016 ;RELEASE MAGTAPE CONTROLLER(S)
.DIELD==:017 ;ENABLE MICROCODE LOADING
.DIDLD==:020 ;DISABLE MICROCODE LOADING
.DILOD==:021 ;LOAD MICROCODE
.DIISM==:022 ;SET IPA CHANNEL MAINTENANCE MODE
.DIICM==:023 ;CLEAR IPA CHANNEL MAINTENANCE MODE
.DISBD==:024 ;EXECUTE S-BUS DIAGNOSTIC FUNCTION
.DIDSN==:025 ;READ DEVICE SERIAL NUMBER
.DIRUR==:026 ;READ KS10 UNIBUS REGISTER
.DIADB==:027 ;ALLOCATE BUFFER FOR DUMPING IPA20 DRAM
.DIOKI==:030 ;OBTAIN KONTROLLER INFORMATION
.DIOUI==:031 ;OBTAIN UNIT INFORMATION
.DILKU==:032 ;LIST KONTROLLER'S UNITS
.DISDS==:033 ;SET DEVICE STATUS
.DIDVR==:034 ;READ DEVICE REGISTERS
.DIGTM==:100 ;GET MOS MEMORY
.DIGVM==:101 ;GIVE MOS MEMORY
.DIRRS==:105 ;RESET REMOTE CI NODE
.DISRS==:106 ;START REMOTE CI NODE
.DIACC==:107 ;MANIPULATE CI PORT COUNTERS
.DIWCM==:112 ;WRITE CI MAINTENANCE DATA
.DIRCM==:113 ;READ CI MAINTENANCE DATA
;ERROR CODES
DEFINE DIAECD,<
X (ANP,01) ;NOT PRIVILEGED
X (AIA,02) ;ILLEGAL NUMBER OF ARGS
X (AIC,03) ;ILLEGAL CONTROLLER
X (AIU,04) ;ILLEGAL UNIT
X (AAA,05) ;SOME UNITS ALREADY ASSIGNED
X (ADM,06) ;UNIT NOT IN DIAG MODE
X (AAJ,07) ;UNIT ASSIGNED TO ANOTHER JOB
X (AFC,10) ;NO FREE CORE
X (AAU,11) ;NO ASSIGNED UNITS
X (ACP,12) ;IOWD CROSSES PAGE
X (AIF,13) ;ILLEGAL FUNCTION
X (AVC,14) ;JOB CANNOT BE VIRTUAL
X (ANC,15) ;NO SUCH CPU
X (ANR,16) ;CPU NOT RUNNING
X (ABA,17) ;BAD ARGUMENT LIST
X (ACI,20) ;NO CI PORT ON SPECIFIED CPU
X (ATO,21) ;READ PORT COUNTERS FUNCTION TIMED OUT
X (ANK,22) ;NO NI PORT ON SPECIFIED CPU
X (ARF,23) ;MICROCODE RELOAD FAILED
X (ANM,24) ;NO MICROCODE AVAILABLE
X (APN,25) ;CI/NI PORT NOT RUNNING
X (ANU,26) ;NON-EXISTANT UNIBUS ADDRESS
X (AAF,27) ;ATTACH FAILED
X (ADF,30) ;DETACH FAILED
> ;END DEFINE DIAECD
DEFINE X (COD,VAL),<DI'COD'%==:VAL>
DIAECD
;THIS MACRO WILL DEFINE A DIAG. UUO DISPATCH TABLE CONTAINING ONLY THOSE
;ENTRIES WHICH ARE NEEDED BY THE PARTICULAR DRIVER. UUOCON DIAG DISPATCH
;WILL BE RESPONSIBLE FOR DETERMINING IF THE DRIVER CAN SUPPORT A GIVEN
;FUNCTION. THE MACRO TAKES THREE ARGUMENTS:
; CODE - THREE CHARACTER MNEMONIC FOR THE FUNCTION
; KL10 - DISPATCH ADDRESS FOR A KL10 MONITOR
; KS10 - DISPATCH ADDRESS FOR A KS10 MONITOR
DEFINE DIAFNC (CODE,KL10,KS10),<
XLIST ;;NO ONE WANTS TO SEE THIS JUNK
IFB <CODE>,<EXP 0> ;;TERMINATE TABLE
IFNB <CODE>,<
IFN FTKL10,<XWD .DI'CODE,KL10> ;;KL10 DISPATCH ADDRESS
IFN FTKS10,<XWD .DI'CODE,KS10> ;;KS10 DISPATCH ADDRESS
> ;;END IFNB <CODE>
LIST ;;TURN LISTING BACK ON
> ;END DEFINE DIAFNC
SUBTTL MICROLOADER DEFINITIONS
PHASE 0
.ULIDX::! BLOCK 1 ;(RH) MICROCODE OFFSET INTO THE BOOTSTRAP VECTOR
UE.DAE==377777B17 ;(LH) RANDOM BITS IN ERROR.SYS (BITS 1-17)
UE.USR==1B1 ;MICROCODE LOAD INVOKED BY USER (DIAG. UUO)
;MIROCODE LOAD ERROR CODE (BITS 12-17)
.UEDIS==1 ;LOADING DISABLED
.UENOM==2 ;NO MICROCODE AVAILABLE
.UEWVR==3 ;WRONG MICROCODE VERSION
.UELOD==4 ;LOAD ERROR
.UEVFY==5 ;VERIFY ERROR
.UEMPC==6 ;MICROPROCESSOR CHECK
.UECRL==7 ;CRAM LOAD ERROR
.UECRV==10 ;CRAM VERIFY ERROR
.UEDRL==11 ;DRAM LOAD ERROR
.UEDRV==12 ;DRAM VERIFY ERROR
.ULDEV::! BLOCK 1 ;XWD DEVICE CODE,UNIT NUMBER
; IF NOT A MULTI-UNIT DEVICE SUCH AS A DX20,
; THEN THE UNIT NUMBER IS -1
; NOTE: PRIOR TO MAKING A DAEMON ENTRY, THE
; CPU NUMBER IS STORED INTO BITS 6-8.
.ULINM::! BLOCK 1 ;SIXBIT INTERFACE NAME
; (I.E. TX01, TX02, RP20, KLIPA, KLNI, ETC.)
.ULDNM::! BLOCK 1 ;SIXBIT CHANNEL NAME
; (I.E. DX10, DX20, CI20, NIA20, ETC.)
.ULMVR::! BLOCK 1 ;MINIMUM MICROCODE VERSION NUMBER ALLOWED
.ULDTM::! BLOCK 1 ;DATE/TIME OF LOAD SUCCESS OR FAILURE
.ULVER::! BLOCK 1 ;MICROCODE VERSION NUMBER IN STANDARD DECSYSTEM-10
; FORMAT (FILLED IN BY MONBTS)
.ULDAE::! ;LENGTH OF BLOCK WRITTEN INTO ERROR.SYS BY DAEMON
.ULMAG::! BLOCK 1 ;ADDRESS OF TABLE CONTAINING MAGIC LOCATIONS AND
; CONSTANTS. EACH WORD CONTAINS A CONSTANT IN THE
; LEFT HALF AND A MICROPROCESSOR ADDRESS IN THE
; RIGHT HALF.
.ULWDS::! BLOCK 1 ;MICROCODE LENGTH IN PDP-10 WORDS (FILLED IN
; BY MONBTS)
.ULADR::! BLOCK 1 ;30-BIT MICROCODE ADDRESS (FILLED IN BY MONBTS)
.ULLEN::! ;LENGTH OF LOADER BLOCK
DEPHASE
SUBTTL END
END