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7,6/ap017/sched1.x17
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TITLE SCHED1 - SCHEDULING ALGORITHM FOR SWAPPING SYSTEM (10/51) V1117
SUBTTL R.KRASIN/TH/CMF/AF/RCC/DAL/EVS/WRS 17 JUN 86
SEARCH F,S
$RELOC
$HIGH
;THIS SOFTWARE IS FURNISHED UNDER A LICENSE AND MAY ONLY BE USED
; OR COPIED IN ACCORDANCE WITH THE TERMS OF SUCH LICENSE.
;
.CPYRT<1973,1986>
;COPYRIGHT (C) 1973,1974,1975,1976,1977,1978,1979,1980,1982,1984,1986
;BY DIGITAL EQUIPMENT CORP., MAYNARD, MASS.
;ALL RIGHTS RESERVED.
;
;
XP VSCHED,1117
;PUT VERSION NUMBER IN GLOB LISTING AND LOADER STORAGE MAP
ENTRY SCHED,SCHED1 ;THIS UNDEFINED GLOBAL IN COMMON CAUSES THIS
; ROUTINE TO BE LOADED.
SCHED1:: ;MODULE ORIGIN
;THIS SCHEDULER BASED ON WORK DONE AT WMU BY E.SMOLSKY AND N.GRANT
;NXTJOB DECREMENTS ALL JOBS' IN CORE PROTECT TIMES AND REQUEUES ANY
; JOB WHOSE ICPT GOES TO ZERO. IT REQUEUES CURRENT JOB IF ITS QUANTUM
; RUN TIME HAS GONE TO ZERO. IT THEN
;SERVICES ANY JOB REQUEUING REQUESTED AT OTHER PRIORITY
;LEVELS THEN CALLS SHUFFLER,SWAPPER AND SCHEDULAR.
;RETURNS NEXT JOB TO RUN IN J.
NXTJOB::
IFN FTMP,<
SKPCPU (1) ;USE NXTJB1 IF NOT THE BOOT CPU
>
SKIPN .CPTMF## ;CLOCK TIC?
JRST NXTJB1 ;NO
MOVE T4,TIME## ;GET TIME IN JIFFIES
TRNE T4,1B35 ;ONLY DECREMENT IN CORE TIME ON ODD TICKS
SOSGE CORSCD ;COUNT DOWN. CORE STILL SCARCE?
JRST NXTJBX
MOVEI T4,JS.SCN ;JOB SCANNED DURING TICK BIT
MOVEI U,DCSCAN## ;TABLE OF QUEUES TO SCAN
NXTJBL: SKIPN T2,(U) ;AT END OF LIST?
JRST NXTJBX ;YES. EXIT LOOP
HLRE J,JBTCQ##(T2) ;GET LAST JOB IN QUEUE
JUMPLE J,NXTJBG ;IF NO ONE IN QUE, GET NEXT QUE
NXTJBA: HLRE T2,JBTCQ##(J) ;GET JOB BEFORE THIS JOB
MOVEM T2,NEXTJB ;STORE IT FOR LATER. NEXT TO LOOK AT
SKIPGE JBTST2##(J) ;DECREMENT ALL JOBS THAT ARE NOT IN A PROCESSOR
;QUEUE (NORMALLY ONLY CATCHES SLP,EW)
TDNE T4,JBTST2##(J) ;OR IF JOB WAS ACTUALLY SCANNED
JRST .+2 ;WE WILL DECREMENT
JRST NXTJBF ;DO NOT DECREMENT THIS JOB
ANDCAM T4,JBTST2(J) ;CLEAR SCANNED BIT FOR NEXT TIME
HRRZ W,JBTPDB##(J) ;GET PDB ADDRESS
JUMPE W,NXTJBF ;NO ICPT IF NO PDB
.LDB T3,PDYIPT## ;GET ICPT
SOJG T3,NXTJBE ;IF STILL POSITIVE, JUST DEPOSIT
MOVSI T3,PDMSWP ;MARK SWAPPABLE IN PDB
.IORM T3,.PDIPT##(W) ;..
MOVE T2,JBTSTS##(J) ;JOB STATUS WORD
TLNE T2,CMWB!JRQ ;COMMAND WAIT OR REQUE?
JRST NXTJBD ;YES. GET OUT
PUSHJ P,SETIPT ;RESET ICPT SO THE JOB WILL CYCLE
; EVEN IF IT DOESN'T NEED TO SWAP
SKIPL JBTST2##(J) ;IS JOB IN A RUN QUEUE?
JRST NXTJBF ;NO. CAN'T REQUE HIM NOW.
IFN FTPSCD,<
PUSHJ P,CNTICP ;COUNT NUMBER WHO EXPIRED IN-CORE BY QUE
>
PUSH P,U ;SAVE ADDRESS OF QUEUE TABLE
IFN FTNSCHED,< ;
MOVSI T2,(JS.BBJ) ; BACKGROUND BATCH BIT FOR SWAPPER
LDB T1,JBYCLS## ; GET CLASS NUMBER
SKIPLE RRFLAG## ; ROUND ROBIN?
CAME T1,BBSUBQ## ; OR NOT BACKROUND BATCH CLASS?
CAIA ; OK. NOT B.B.
IORM T2,JBTST2##(J) ; MARK FOR SWAPPER
>
MOVEI U,QTIME ;REQUE AROUND RUN QUEUES
PUSHJ P,QXFER ;DO TRANSFER
POP P,U ;GET ADDRESS OF QUEUE TABLE BACK
JRST NXTJBF ;GO TO NEXT JOB
NXTJBD: SETZ T3, ;PUT IN A ZERO FOR COMMAND WAIT, JRQ
NXTJBE: .DPB T3,PDYIPT## ;OR JUST STORE NEW VALUE
NXTJBF: SKIPLE J,NEXTJB ;GET BACK THE NEXT JOB TO LOOK AT
JRST NXTJBA ;IF ANY AND LOOP FOR THE REST OF QUEUE
NXTJBG: AOJA U,NXTJBL ;NOW LOOP OVER ALL QUEUES
NXTJBX:
IFN FTNSCHED,<
PUSHJ P,SCDQTA ;RESET SCHEDULING SCAN TABLE AT
;END OF A MICRO SCHEDULING INTERVAL
>;END IFN FTNSCHED
IFN FTRSP,< ;KEEP TRACK OF WANT-TO-RUN TIME
RQTPAT::JRST RQT3 ;PATCH TO JFCL TO INCLUDE EXPENSIVE
; WANT-TO-RUN TIME CALCULATION
MOVSI T1,WTMASK ;TO CHECK FOR RUN STATE COD
HRRE J,JBTCQ##-PQ1 ;CHECK PQ1 IN CORE
PUSHJ P,RQT2
HRRE J,JBTCQ##-PQ2 ; PQ2 IN CORE
PUSHJ P,RQT2
HRRE J,JBCQOH##-PQ1 ;CHECK PQ1 NO CORE
PUSHJ P,RQT2
HRRE J,JBCQOH##-PQ2 ; PQ2 NO CORE
PUSHJ P,RQT2
JRST RQT3
RQT1: TDNN T1,JBTSTS##(J) ;SKIP IF NOT IN RUN STATE
AOS JBTRQT##(J) ;BUMP JBTRQT FOR ALL
HRRE J,JBTCQ##(J) ; JOBS IN THIS QUEUE
RQT2: JUMPG J,RQT1
POPJ P,
RQT3:
> ; END OF CONDITIONAL ASSEMBLY ON FTRSP
NXTJB1::
IFN FTMP,<
MOVE T1,.CPSCC## ;RUN THE SCHEDULER DOORBELL BIT
ANDCAM T1,DOORBL## ;CLEAR IT SINCE WE ARE RUNNING THE SCHEDULER
>
SKIPN J,.CPJOB## ;CURRENT JOB NO., IS IT NULL JOB?
JRST CKJB1 ;YES,GO SEE IF OTHER JOBS NEED RESCHEDULING
LDB T2,PJBSTS## ;GET STATE CURRENT JOB GOING TO
CAIN T2,PQIOQ ;IS IT GOING INTO PQ?
SKIPE T2,PAGIPC## ;YES, DID THE I/O ALREADY COMPLETE
CAIA ;NOT DONE, DONE AND MORE TO DO, OR NOT PQ
DPB T2,PJBSTS## ;DONE AND NO MORE TO DO, PUT BACK IN RN NOW
;(RNQ=0)
MOVS T2,JBTSTS##(J) ;GET JOB STATUS BITS AND CODES, HALVES SWAPPED
SKIPGE JBTST2##(J) ;REQUEUED OUT OF RUN QUEUE?
TLNE T2,JDC!JS.DEP ;IF JOB IS WAITING FOR DAEMON, SEE IF WE
;CAN REQUE TO DAEMON QUEUE
JRST CKJB0A ;JOB SHOULD BE REQUEUED
IFN FTHPQ!FTNSCHED,<
SKIPE .CPHQU## ;IF CURRENT JOB JUST DID AN HPQUUO, OR
JRST CKJB0A ; CHANGED CLASS, IT IS RUNNABLE BUT
; MUST BE REQUEUED
>
ANDI T2,-1-RUNMSK-CMWB ;MASK OUT DO NOT CARE BITS
CAIE T2,RUNABLE ;IS CURRENT JOB RUNABLE?
JRST CKJB0 ;NO, REQUE CURRENT JOB
HRRZ W,JBTPDB##(J) ;YES. GET PDB ADR FOR CURRENT JOB
JUMPE W,CKJB1 ;GO AWAY IF NONE
.LDB T2,PDYIPT## ;GET ICPT
JUMPE T2,NXTJB4 ;ALWAYS REQUE IF ZERO
.LDB T2,PDYQNT## ;GET IN QUE TIME
JUMPN T2,CKJB1 ;EXIT IF STILL POSITIVE
IFN FTRSP,< ;RESPONSE DATA?
MOVEI T1,.CPARR## ;BASE ADR OF 3 WORDS FOR QUANTUM REQUEING
MOVSI T2,(JR.RRR) ;RECORD THIS TYPE OF RSP FOR THIS JOB
PUSHJ P,RSPRC2## ;RECORD ELAPSED TIME FOR RESPONSE
; AND FOR ANY OF TTY IN, TTY OUT, THIS
> ; END OF CONDITIONAL ASSEMBLY ON FTRSP
IFN FTPSCD,<
PUSHJ P,CNTINQ ;COUNT NUMBER WHO EXPIRED IN QUE BY QUE
JRST NXTJ4A
>
NXTJB4:
IFN FTPSCD,<
PUSHJ P,CNTICP ;COUNT NUMBER WHO EXPIRED IN-CORE BY QUE
>
NXTJ4A: PUSHJ P,QARNDT ;YES - REQUEUE AND RESET QUANT TIMES.
JRST CKJB1 ;DO ONCE A CLOCK TICK STUFF
CKJB0: TRZ T2,JXPN!SHF!SWP ;JOB NOT RUNNABLE, BUT MAY NOT NEED REQUEUE
CAIN T2,RUNABLE ;DOES IT REALLY NEED TO BE REQUEUED?
JRST CKJB1 ;NO, DON'T GIVE HIM EXTRA PRIORITY
;BUT REQUE EVERYONE ELSE (IF CPU0)
CKJB0A: MOVSI T1,JRQ
TDNN T1,JBTSTS(J) ;IS REQUE SET FOR CURRENT JOB?
PUSHJ P,QREQ ;GO REQUEUE THIS JOB
CKJB1: SKIPN JBTJRQ## ;AVOID SYSPIF TO SAVE OVERHEAD IF JBTJRQ NOW ZERO
JRST CKJB5C ;COULD MISS A REQUE, BUT WILL CATCH IT NEXT TIME.
SYSPIF ;PREVENT RACES
SKIPG J,JBTJRQ## ;ANY JOBS IN LINKED LIST OF REQUEUES?
JRST CKJB5 ;NO. GO ON
MOVE T1,JBTJRQ##(J) ;GET NEXT JOB
MOVEM T1,JBTJRQ## ;HE IS NOW FIRST
MOVSI T2,JRQ ;CLEAR JOB NEEDS REQUEING BIT
ANDCAM T2,JBTSTS##(J) ;JRQ ACTS AS AN INTERLOCK IN REQUE
SYSPIN ;EXIT RACE WINDOW
PUSHJ P,QREQ ;GO REQUE THE JOB
JRST CKJB1 ;YES. KEEP REQUEING
CKJB5: SYSPIN ;EXIT RACE WINDOW
CKJB5C: SKPCPU (0) ;MASTER?
JRST SCHED ;NO, DON'T SWAP ON CPU1 YET?
SKIPN EVAVAL## ;EV AVAILABLE AND SOMEONE WAITING?
JRST CKJB7 ;NO.
SETZM EVAVAL ;YES. CLEAR FLAG
SKIPG J,HIGHJB## ;ANY JOBS?
JRST CKJB7 ;NO. SHOULDN'T HAPPEN
MOVSI T2,WTMASK ;YES. TAKE EVERYBODY OUT OF EV WAIT
CKJB5A: LDB T1,PJBSTS## ;GET JOBS STATE CODE
CAIN T1,EVQ ;EV?
ANDCAM T2,JBTSTS##(J) ;YES. TAKE HIM OUT
SOJG J,CKJB5A ;AND LOOP FOR ALL JOBS
CKJB7: SKIPG SWPCNT ; ANY SWAPS COMPLETE?
SKIPN .CPJOB## ;OR IF RUNNING NULL JOB
JRST CKJB6 ;CALL SWAP/SHUFFLE
IFN FTHPQ,< ;
SKIPLE SCDRTF## ; IF AN HPQ JOB ON DISK WOKE UP
JRST CKJB6 ; CALL SWAP/SHUFFLE
> ;
SKIPN .CPTMF## ;ALWAYS CALL SWAP/SHUFFLE ON TICK
JRST SCHED ;NOT TICK OR OTHERWISE
CKJB6:
IFN FTMP,<
PUSHJ P,SCDMM## ;SEE IF MEMORY MANAGEMENT RESOURCE IS AVAILABLE
JRST SCHED ;ITS NOT, CAN'T SWAP OR LOCK NOW
> ;END OF CONDITIONAL ASSEMBLE ON FTMP
CPUNLK (SCD)
IFN FTTRPSET,<
SKIPN .CPSTS ;DON'T SWAP IF TIMESHARING TURNED OFF.
>
PUSHJ P,SWAP
IFN FTLOCK,<
SKIPA ;NOT TRYING TO LOCK A JOB, PROCEED.
PUSHJ P,LOCK0## ;SHUFFLER AND SWAPPER ARE IDLE - SEE IF JOB CAN BE LOCKED
> ; END OF CONDITIONAL ASSEMBLY ON FTLOCK
JFCL ;IGNORE POSSIBLE SKIP RETURN
IFN FTMP,<
PUSHJ P,GIVMM## ;RETURN MM RESOURCE
> ;END OF CONDITIONAL ASSEMBLE ON FTMP
CPLOCK (SCD)
;SCHEDULER--SEARCH THRU QUEUES ACCORDING TO SSCAN TABLE
;FOR 1ST JOB IN CORE--RETURN ITS NO. IN J
SCHED:: SETZM SCDRTF## ;ABOUT TO DO A SCHEDULER
SETZM .CPPLT## ;CLEAR POTENTIALLY LOST TIME FLAG
SKIPE .CPTMF## ; CLOCK TICK ON BOOT CPU?
SETZM UNWIND ; YES. ALLOW AN UNWIND CYCLE
IFN FTMP,<
PJRST MSCHED## ;DO SCHEDULING FOR MULTI-PROCESSORS
;MSCHED IN TURN CALLS SCHEDJ TO FIND RUNABLE JOBS
>
;ELSE FALL INTO SCHEDJ FOR SINGLE PROCESSOR SYSTEMS
;SCHEDJ IS CALLED TO FIND A RUNNABLE JOB
;IT RETURNS WITH THE HIGHEST PRIORITY RUNNABLE JOB IN J
;CALL: PUSHJ P,SCHEDJ
; RETURN HERE WITH J SET UP
SCHEDJ::SETZM .CPSUD## ; MAY NOT USE A SCAN. SO CLEAR INDICATOR
IFN FTTRPSET,<
SKIPL J, LASLOK## ;SETTING MONITOR MEMORY OFF-LINE?
SKIPE J,.CPSTS## ;TIMESHARING TURNE OFF? (TRPSET)
JRST [HRRZS J ;CLEAR LEFT HALF
SKIPGE JBTSTS##(J) ;RUNNABLE?
SKIPL JBTST2##(J) ;YES, IN A RUN QUEUE?
JRST SCHD1 ;NO TO EITHER QUESTION
MOVEI T2,SCHD1 ;IN CASE HE'S NOT REALLY RUNNABLE
JRST SCHEDB] ;GO SEE
>;END IFN FTTRPSET
; SETZM UNWIND ;FLAG THAT WE ONLY UNWIND ONCE/SCAN
MOVE U,.CPSCN## ;ADDRESS OF STANDARD SCAN TABLE
MOVEM U,.CPSUD## ;RECORD WHICH SCAN WE USED
SKIPE J,FORCEF ;FORCING ANYONE WITH SHAR. RESOURCE?
SKIPL JBTST2##(J) ;IS JOB IN A RUN QUEUE?
JRST SCHED2 ;NO! DON'T BOTHER CHECKING
MOVEI T2,SCHED2 ;PREPARE TO SCAN NORMALLY
;BUT START WITH JOB IN FORCEF
SETZM UNWIND ; WANT TO UNWIND IN THIS CASE
SKIPGE JBTSTS##(J) ;IF NOT RUNNABLE, SCHED NORMALLY. (POSSIBLE
; IF JOB HAS STOPPED AND GIVEN UP RESOURCE
JRST SCHEDB ; BUT FLAG HAS NOT YET BEEN CLEARED)
SCHED2: MOVE T1,.CPSFC## ;GET COUNT OF UNFAIR SCHEDULES
CAMGE T1,MFC##(U) ;HAS IT REACHED MAXIMUM FAIRNESS COUNT?
JRST SCHDJ1 ;NO, DONT USE SECONDARY SCAN TABLE
SETZM .CPSFC## ;YES, CLEAR SCHEDULER FAIRNESS COUNT
MOVE U,SSCN##(U) ;AND GET ADDRESS OF SECONDARY SCAN TABLE
; (PQ1 AND PQ2 REVERSED)
MOVEM U,.CPSUD## ;RECORD WHICH SCAN WE USED
SCHDJ1: JSP T1,QSCAN ;BEGIN SCAN
JRST SCHD1 ;NO MORE JOBS--RETURN NULLJOB
SCHEDB:
IFN FTMP,<
PUSHJ P,DXRUN## ;GO CHECK IF JOB IS RUNNABLE ON THIS PROCESSOR
JRST (T2) ;NO, GO CONTINUE SCANNING
; (ALSO SETS .CPPLT IF CAN'T RUN ON CPU1 BECAUSE HI-SEG
; BEING SHUFFLED, SWAPPED, OR EXPANDED ON CPU 0)
> ; END OF CONDITIONAL ASSEMBLY ON FTMP
MOVEI F,JS.SCN ;YES
IORM F,JBTST2(J) ;SET SCANNED BIT
LDB F,PJBSTS## ;GET STATE CODE
JUMPE F,SCHEDC ;IF ZERO, LET HIM THROUGH
MOVE T3,JBTSTS(J) ;JOB STATUS
PUSHJ P,CJFRCX ;IF JOB IS EXPANDING WITH RESOURCE, IGNORE JXPN
; SO JOB CAN BE RUN AND GIVE UP RESOURCE
CAIE F,EVQ ;EV IS HANDLED SEPARATELY ABOVE.
TLNE T3,SWP+JRQ+SHF+JXPN ;IF SWAPPED, SHUFFLING,
JRST (T2) ;REQUEING, OR EXPANDING - GIVE UP
MOVE T4,[UNWND0,,SCHEDA] ;FAIL,,SUCCESS
CAIL F,MINQ ;NON-ZERO. IS HE WAITING FOR A
CAILE F,MAXQ ;SHAREABLE RESOURCE?
JRST (T2) ;NO. CAN'T HELP HIM
SCHDB0: HLRZ T3,UNWTAB-MINQ(F)
PUSHJ P,(T3)
JUMPE T3,(T4)
SCHDB6: MOVSS T4 ;TAKE FAIL ADDRESS
JRST (T4)
;HERE TO GET OWNER OF A NORMAL RESOURCE
UNWRES: SETZ T3, ;ASSUME ITS FREE
SKIPE AVTBMQ##(F) ;YES - IS IT FREE?
POPJ P, ;YES
HRRZ T3,USTBMQ##(F) ;RESOURCE OWNER
SKIPN T3
SETO T3, ;OTHER CPU IN SRFREE OR MM-STYLE
;RESOURCE OWNED AT INTERRUPT LEVEL
POPJ P,
;HERE FIRST TIME WE CAN'T RUN JOB IN SHARABLE WAIT STATE, SEE
;IF WE CAN UNWIND HIM
UNWND0: SKIPE UNWIND ;SHOULD WE UNWIND?
JRST (T2) ;NO. ALREADY TRIED ONCE THIS SCAN
MOVEI T4,^D10 ;TRY TEN LEVELS OF UNWINDING
PUSH P,T4
PUSH P,J ;SAVE J SO WE CAN CONTINUE SCAN LATER
SETOM UNWIND ;SAY WE HAVE UNWOUND ONCE
UNWND1: SKIPLE J,T3 ;OWNING JOB
CAMN J,(P) ;SAME AS US?
JRST UNWNDF ;SHOULD NEVER HAPPEN %&'#@!
LDB F,PJBSTS## ;GET HIS STATE CODE
JUMPE F,UNWNDS ;WIN
MOVSI T3,SWP+JRQ+SHF ;BITS TO CHECK (IGNORE JXPN SINCE OWNS RESOURCE)
CAIE F,EVQ ;EV IS HANDLED SEPARATELY ABOVE.
TDNE T3,JBTSTS##(J) ;IF SWAPPED, SHUFFLING,
JRST UNWNDF ;NOPE
CAIL F,MINQ ;NON-ZERO. IS HE WAITING FOR A
CAILE F,MAXQ ;SHAREABLE RESOURCE?
JRST UNWNDF ;NO. CAN'T HELP HIM
MOVE T4,[UNWND7,,UNWNDS] ;FAIL,,SUCCESS
JRST SCHDB0 ;TO SEE IF THIS GUY IS RUNNABLE
;HERE IF UNWINDING AND OWNER JOB ISN'T RUNNABLE
UNWND7: SOSGE -1(P) ;LOOPING?
JRST UNWND1 ;NOT YET
UNWNDF: POP P,J ;RESTORE JOB NUMBER FROM SCAN
POP P,(P) ;AND COUNTER
JRST (T2) ;AND CONTINUE SCAN
UNWNDS: PUSHJ P,CHKRUN ;MAKE SURE WE CAN RUN HIM
JRST UNWNDF ;CAN'T. #%$&@!
LDB F,PJBSTS## ;GET STATE CODE.
JUMPE F,UNWNN5 ;RUN HIM IF ZERO
HRRZ T3,UNWTAB-MINQ(F)
PUSHJ P,(T3) ;GET RESOURCE
JRST UNWNDF ;OH WELL, TRY TRY AGAIN
MOVSI T3,WTMASK
ANDCAM T3,JBTSTS##(J)
UNWNN5: MOVEI T3,JS.OOO ;FLAG FOR CLOCK1 TO STOP WHEN GIVES UP
IORM T3,JBTST2##(J) ;ALL HIS SHAREABLE RESOURCES
AOS UNWNDC## ;COUNT AN UNWIND
ADJSP P,-2 ;FIX STACK
JRST SCHDC2 ;RUN HIM
;HERE FOR NON-SPECIAL RESOURCES:
SCDRES: SETZM AVTBMQ##(F) ;GIVE IT TO HIM
MOVEM J,USTBMQ##(F)
AOS (P)
POPJ P,
; SUBROUTINE TO CHECK THAT JOB FOUND BY UNWIND CAN BE RUN
;CALL IS
; MOVE J,JOB-NUMBER
; PUSHJ P,CHKRUN
; NOT RUNNABLE RETURN
; RUNNABLE RETURN
; SETS T3 TO JBTSTS(J). MAY DESTROY F
CHKRUN: SKIPGE T3,JBTSTS##(J) ;RUN BIT ON?
SKIPL JBTST2##(J) ;YES. IS JOB IN A RUN QUEUE?
POPJ P, ;NO. CAN'T RUN IT
PUSHJ P,CJFRCX ;CHECK FOR JOB EXPANDING WITH RESOURCE
;IF SO, IGNORE JXPN TEMPORARILY SO HE
; CAN GIVE UP THE RESOURCE TO GET SWAPPED
IFN FTLOCK,<
TRNN T3,LOK
>
TLNE T3,SWP+JRQ+SHF+JXPN+CMWB ;FLAGS THAT CAN'T USE
POPJ P, ;NOT RUNNABLE
IFE FTMP,<
JRST CPOPJ1## ;RUNNABLE!
>
IFN FTMP,<
PUSHJ P,DXRUN## ; CHECK THAT WILL RUN ON THIS CPU
POPJ P, ; CAN'T
IFN FTKL10,< ;
PJRST SCDCSH## ; O.K. W.R.T. CACHE?
;AND EXIT SKIP/NON-SKIP
> ;
IFE FTKL10,< ;
PJRST CPOPJ1## ;
> ;
>
;ROUTINE TO IGNORE JXPN FOR JOB EXPANDING WITH SHAREABLE RESOURCE
;ENTER WITH JBTSTS IN T3
;ALWAYS EXITS NONSKIP
CJFRCX: TLNE T3,JXPN ;JOB EXPANDING?
PUSHJ P,FLSDR## ;DOES HE HAVE DISK RESOURCE?
POPJ P, ;NO, OK AS IS
TLZ T3,JXPN ;YES, IGNORE JXPN TEMPORARILY
POPJ P, ;RETURN
SCHEDA: CAME J,FORCEF ;FORCING JOB WITH SHAREABLE RESOURCE?
JRST SCHEDE ;NO. GIVE HIM RESOURCE AND RUN HIM
PUSHJ P,FLSDR## ;DOES HE STILL HAVE THE RESOURCE?
JRST (T2) ;NO - DON'T GIVE HIM ONE
CAIA ;LET HIM THROUGH
SCHEDC: SETZ F, ;NO RESOURCE TO GIVE HIM
SCHEDE: MOVEM J,.CPPLT## ;SET POTENTIALLY LOST TIME FLAG FOR CLOCK1
MOVE T3,JBTSTS##(J) ;IS THIS JOB SWAPPED OUT
TLNN T3,JXPN ;JOB EXPANDING?
CAMN J,FORCEF ;OR JOB IN FORCEF?
JRST [PUSHJ P,FLSDR## ;YES. WITH SHAREABLE DISK RESOURCE?
JRST (T2) ;NOT ANY MORE. DON'T RUN HIM
TLZ T3,JXPN ;YES. IGNORE JXPN (SOMEONE ELSE
; MUST HAVE EXPANDED OUR HIGH SEG)
JRST SCHDC1] ;CONTINUE
SCHDC1: ;EITHER NOT IN FORCEF, OR IS AND HAS
; RESOURCE, IN WHICH CASE JXPN CLEARED IN F
IFN FTLOCK,<
TRNN T3,LOK ;DON'T RUN JOB CURRENTLY BEING LOCKED IN CORE
> ; END OF CONDITIONAL ASSEMBLY ON FTLOCK
TLNE T3,SWP+SHF+JXPN+JRQ ;MONITOR WAITING FOR I/O TO STOP,
; OR JOB EXPANDING CORE?
; OR JOB NEEDS REQUEING (SWAP READ ERROR)?
JRST (T2) ;YES--CONTINUE SCAN,JOB CANNOT BE RUN
IFN FTKL10&FTMP,<
PUSHJ P,SCDCSH## ;IS THIS JOB RUNNABLE WITH RESPECT TO THE
; CACHE?
JRST (T2) ;NO, GO FIND ANOTHER JOB TO RUN
; NOTE THAT THIS IS DONE AFTER LOST
; TIME FLAG IS SET SO THAT CACHE LOST
; TIME IS INCLUDED IN SYSTEM LOST TIME
>;END IFN FTKL10&FTMP
JUMPE F,SCHDC2 ;JOB NEED RESOURCE?
HRRZ T3,UNWTAB-MINQ(F) ;GET ADDR OF ROUTINE
PUSHJ P,(T3) ;YES, TRY TO GIVE IT TO HIM
JRST (T2) ;FAILED
MOVSI T3,WTMASK ;CLEAR WAIT STATE
ANDCAM T3,JBTSTS##(J)
;HERE WHEN IRREVERSIBLY COMMITTED TO RUNNING THE JOB
SCHDC2: CAMN J,FORCEF ;FORCING A GUY WITH SHARABLE RESOURCE?
AOS FORCFC## ;YES, COUNT A FORCED SCHEDULE
IFN FTNSCHED,<
SETZM .CPSQF## ;ASSUME NOT FROM SUBQUE
SKIPGE JBTSCD##(J) ;IN PQ2 (AND THEREFORE SUBQUEUE)?
SETOM .CPSQF## ;YES, TELL CLOCK1
> ;END IFN FTNSCHED
IFN FTRSP,< ;RESPONSE DATA?
MOVEI T1,.CPACR## ;BASE ADR FOR CPU RESPONSE DATA THIS CPU
MOVSI T2,(JR.RCR) ;RECORDED CPU RESPONSE FOR THIS JOB
PUSHJ P,RSPREC## ;RECORD RESPONSE TIME (UNLESS ALREADY REC)
DMOVE T1,.CPACR## ;STORE DATA IN THE WRONG
DMOVEM T1,.CPODA## ; PLACE FOR OLD CUSPS
; (DO NOT RECORD AS ONE OF TI, TO, RN, ALSO)
> ; END OF CONDITIONAL ASSEMBLY ON FTRSP
SETZM .CPPLT## ;CLEAR POTENTIALLY LOST TIME AS A USER IS TO BE RUN
IFN FTKL10&FTMP,<
SETZM .CPCLF## ;CLEAR CACHE LOST FLAG ALSO
>;END IFN FTKL10&FTMP
MOVEI T1,JS.SCN ;AND MAKE SURE HE GETS SCANNED BIT SET
IORM T1,JBTST2##(J) ;SINCE MAY NOT HAVE COME FROM QSCAN
MOVE T2,.CPSUD## ;GET START OF SCAN TABLE USED
CAME T2,.CPSCN## ;WAS IT PRIMARY SCAN?
POPJ P, ;NO. IT WAS FAIRNESS SCAN
CAMGE U,FSCN##(T2) ;DID THIS SCAN REACH FAIR TERRITORY
AOSA .CPSFC## ;NO, COUNT UP UNFAIR SCANS
SETZM .CPSFC## ;YES, CLEAR SCHED FAIRNESS
POPJ P, ;RETURN
SCHD1:
SKIPE .CPPLT ;ALREADY LOST TIME?
JRST SCHDN ;YES.
MOVEI U,LSCAN## ;NO. SEE IF SHOULD BE
JSP T1,QSCAN
JRST SCHDN ;NO MORE JOBS
MOVSI T3,WTMASK ;ZERO STATE CODE?
TDNE T3,JBTSTS(J) ;...
JRST (T2) ;NO. TRY NEXT
IFN FTMP,<
PUSHJ P,DXRUN## ;SEE IF CAN RUN ON THIS CPU
JRST [SKIPN .CPPLT ;CAN'T, DID .CPPLT GET SET
JRST (T2) ;NO, LOOK FOR MORE JOBS
JRST SCHDN] ;YES, RETURN NULL JOB NOW
>
MOVEM J,.CPPLT ;YES. LOST TIME
SCHDN: SETZB J,.CPSFC ;RETURN NULL JOB
POPJ P,
; THIS SUBROUTINE DETERMINES HOW TO REQUE THE JOB
QREQ: MOVE T2,JBTSTS##(J) ;JOB STATUS WORD
TDNE T2,[JDC+JS.DEP+(CMWB)] ;ANY STRANGE BITS ON?
JRST QREQ1 ;YES, GO DO SOME SPECIAL THINGS
QREQ0: LDB U,PJBSTS## ;GET QUEUE CODE
JUMPGE T2,QSTOPT ;IS RUN BIT ON? IF NOT, JOB GOES TO STOP Q.
HLRZ T1,QBITS(U) ;GET DISPATCH ADDRESS FOR REQUE METHOD
JRST (T1)
QREQ1: MOVEI U,QCMW ;ASSUME COMMAND WAIT
TLNN T2,CMWB ;IS JOB IN COMMAND WAIT?
JRST QREQ2 ;NO--WAIT STATE CODE DETERMINES NEW QUEUE
TLNE T2,SWP+JXPN ;YES--IS JOB ON DISK, OR TRYING TO EXPAND?
JRST QXFER ;YES--PUT JOB IN COMMAND WAIT QUEUE
QREQ2:
MOVEI U,JDCQ ;ASSUME DAEMON WAIT
TRNN T2,JDC!JS.DEP ;IS IT?
JRST QREQ0 ;NO, JUST REQUEUE BY STATE CODE
TRNE T2,JS.DEP ;ERROR LOGGING? (JDC IS BY REQUEST ONLY)
PUSHJ P,FLSDR## ;YES. PUT IN DAEMON QUEUE IF JOB HAS NO RESOURCES.
JRST QJDCT ;OWNS NO RESOURCE, SO TRANSFER AND ZERO ICPT
;HAS A RESOURCE, DON'T PUT HIM IN JDCQ
JRST QREQ0 ;REQUEUE BY STATE CODE
DEFINE X(A,B,C)
< XLIST
Q'A'T==QREQ6
Q'A'W==-1
LIST
>
RWAITS
QIOWT==QREQ6
QDIOWT==QREQ6
QPIOWT==QREQ6
QNAPT==QREQ6 ;IN CASE OF CONTROL C WHILE IN NAP, ETC.
REPEAT 0,<
QPST: SKIPL JBTST2##(J) ;IS JOB IN A RUN QUEUE?
PUSHJ P,QCHNG ;NO. PUT HIM INTO A RUN QUEUE
CAMN J,VMQJOB## ;HAS JUST THIS JOB EXCEEDED PAGE RATE?
JRST QPST1 ;YES. REQUE TO REAR
SKIPGE VMQJOB ;SYSTEM PAGE RATE EXCEEDED?
SKIPN SLECNT## ;SOMEONE WANT TO USE THE SWAPPING/PAGING CHANNEL?
JRST QPSTN ;NO
QPST1: SKIPN W,JBTPDB##(J) ;NEED PDB
JRST QPSTN ;...
SKIPGE .PDIPT##(W) ;DON'T REQUE UNTIL SWAPPABLE, ELSE CORE WILL BE
;JAMMED WITH VIRTUAL JOBS WHICH WON'T RUN
PUSHJ P,TOBACK ;PUT TO REAR OF QUEUES, DON'T RESET Q.R.T.
JRST QPSTN ;AND FALL INTO NORMAL QUEUE TRANSFER
>;END REPEAT 0
IFN FTNSCHED,<
QRNT: MOVSI T2,(JS.CSQ) ;CHANGING SUB QUEUE?
TDNE T2,JBTST2##(J) ;...
SKIPL JBTSCD##(J) ;AND STILL IN PQ2?
JRST QREQ3 ;NO. NORMAL REQUE
JRST QREQX ;YES. JUST FIX SUBQUE
>
QPST:
QWST:
QDST: SKIPL JBTST2##(J) ;IS JOB IN A RUN QUEUE?
PUSHJ P,QCHNG ;NO. PUT HIM IN A RUN QUEUE
QPSTN: MOVSI T1,WTMASK ;CLEAR WAIT STATE CODE
ANDCAM T1,JBTSTS##(J)
JRST QREQX ;AND EXIT QREQ. (NO QUE TRANSFER)
QTST: MOVSI T1,WTMASK ;CLEAR WAIT STATE
ANDCAM T1,JBTSTS##(J)
; JRST QREQ3 ;AND PERFORM QUEUE TRANSFER
IFE FTNSCHED,<
QRNT:
>
QSLPT:
QEWT:
QPQIOT:
QREQ3: HRRZ U,QBITS(U) ;PICK UP TRANSFER TABLE ADDRESS
PUSHJ P,QXFER ;REQUE THE JOB
JRST QREQX ;AND EXIT QREQ.
QSTOPT: SKIPN JBTADR##(J) ;STOPQ IF REALLY HAS CORE SO WILL SWAP OUT
CAIE U,NULQ ;IS HE REALLY GOING TO THE NULL Q?
MOVEI U,STOPQ ;NO. STOP QUE
; JRST QREQZ ;ZERO ICPT AND REQUE
QNULT:
QJDCT:
QTIOWT:
QREQZ: PUSHJ P,ZERIPT ;ZERO ICPT
JRST QREQ3 ;DO THE REQUE
QREQ6: SKIPL JBTST2##(J) ;IS JOB IN RUN QUEUE?
PUSHJ P,QCHNG ;NO. PUT IT IN RUN QUEUE
QREQX:
IFN FTNSCHED,<
MOVSI T2,(JS.CSQ) ;GET "CHANGED SUB QUE" BIT
TDNN T2,JBTST2##(J) ;DID HE?
POPJ P, ;NO. EXIT QREQ.
ANDCAM T2,JBTST2##(J) ;YES. CLEAR BIT
SKIPGE JBTSCD##(J) ;STILL IN PQ2 AFTER OTHER REQUE CODE?
PUSHJ P,TOBACK ;PUT HIM TO BACK OF SUBQUE(AND PQ2)
>
POPJ P, ;EXIT QREQ.
; SUBROUTINE TO PUT JOB INTO A RUN QUEUE.
; DESTROYS U,T1,T2,R,W. SAVES J
QCHNG: MOVEI U,QRNW1 ;PUT IN BACK OF PQ1
PJRST QXFER ;WITHOUT ASSIGNING QUANTUM TIME
; ROUTINE TO SET ICPT. J AND W MUST BE SET UP AND PDB MUST EXIST
; PRESERVES ALL ACS
SETIPT::PUSH P,T1
MOVE T1,PROT1## ;MINIMUM ICPT FOR CYCLE TIME
LSH T1,-1 ;IPT IS DECREMENTED EVERY OTHER TICK
.DPB T1,PDYIPT##
JRST TPOPJ##
; ROUTINE TO CLEAR ICPT. SET UP W. NEEDS J
; PRESERVES ALL ACS EXCEPT W
ZERIPT::HRRZ W,JBTPDB##(J) ;FIND PDB
JUMPE W,CPOPJ## ;NO PDB. NOTHING TO DO.
; PJRST CLRIPT ;FALL INTO CLRIPT
; ROUTINE TO SET BIT TO EXPIRE ICPT
; PRESERVES ALL ACS
CLRIPT::PUSH P,T1
MOVSI T1,PDMSWP ;SWAPPABLE BIT
.IORM T1,.PDIPT##(W) ;SET IT
PJRST TPOPJ##
; SAME AS CLRIPT BUT EXPECTS PDB ADDRESS IN T1
CLRIP1::PUSH P,T2
MOVSI T2,PDMSWP ;SWAPPABLE BIT
.IORM T2,.PDIPT##(T1) ;SET IT
PJRST T2POPJ##
; ROUTINE TO ASSIGN ICPT.
; DESTROYS T1,T2.
ASICPT::SKIPGE CORSCD ;CORE SCARCE?
PJRST CLRIPT ;NO
SKIPN T1,PROT##
JRST ASICP1 ;SAVE TIME
PUSHJ P,JOBSIZ## ;COMPUTE SIZE OF JOB
MOVE T1,T2 ;PUT IN T1
IMUL T1,PROT## ;ADD VARIABLE AMOUNT DEPENDING ON CORE SIZE
ASICP1: ADD T1,PROT0## ;ADD FIXED AMOUNT INDEPENDENT OF CORE SIZE
CAMLE T1,PROTM## ;IN LEGAL RANGE?
MOVE T1,PROTM## ;NO, USE MAXIMUM
ADDI T1,^D500000/JIFSEC## ;CONVERT TO TICKS FROM US
IDIVI T1,^D1000000/JIFSEC##;CONVERT TO TICKS
LSH T1,-1 ;DECREMENTED EVERY OTHER TICK
.DPB T1,PDYIPT## ;SET IN-CORE PROTECT TIME.
POPJ P, ;RETURN
;SUBROUTINE TO PUT JOB TO BACK OF PQ2
; USES SAME REGISTERS AS QCHNG
TOBACK: MOVEI U,QRNW2 ;TRANSFER TABLE TO BACK OF PQ2, DONT
PJRST QXFER ;CHANGE QUANTUM RUN TIME.
; SUBROUTINE TO REQUEUE JOB AROUND THE RUN QUEUES
QARNDT: SETZM UNWIND ; WANT TO UNWIND NOW
LDB T1,PJBST2## ;GET REAL QUEUE
CAIN T1,PQ2 ;IS IT PQ2?
JRST QARND1 ;YES. REQUE CLEARING ICPT
LDB T1,PDYIPT ;NOT PQ2. ANY ICPT LEFT?
JUMPG T1,QARND2 ;IF ANY LEFT, DON'T CHANGE IT
QARND1: PUSHJ P,CLRIPT ;SET BIT FOR NO ICPT
PUSHJ P,SETIPT ;RESET ICPT SO JOB WILL CYCLE
IFN FTNSCHED,< ;
MOVSI T2,(JS.BBJ) ; BACKGROUND BATCH BIT FOR SWAPPER
LDB T1,JBYCLS## ; GET CLASS NUMBER
SKIPLE RRFLAG## ; ROUND ROBIN?
CAME T1,BBSUBQ## ; OR NOT BACKROUND BATCH CLASS?
CAIA ; OK. NOT B.B.
IORM T2,JBTST2##(J) ; MARK FOR SWAPPER
> ;
QARND2: MOVEI U,QTIME ;GET TRANSFER TABLE
PJRST QXFER ;DO TRANSFER
IFN FTPSCD,<
; ROUTINE TO COUNT NUMBER OF TIMES JOB EXPIRED IN CORE PROTECT BY QUE
CNTICP: PUSH P,T1 ;SAVE T1
LDB T1,PJBST2## ;GET PHYICAL STATE CODE
CAIN T1,PQ1 ;PQ1?
AOS XPICP1 ;YES
CAIN T1,PQ2 ;PQ2?
AOS XPICP2 ;YES
CAILE T1,PQ2 ;AN HPQ?
AOS XPICHP ;YES
JRST TPOPJ ;RESTORE T1 AND EXIT
; ROUTINE TO COUNT NUMBER OF TIMES JOB EXPIRED IN QUE TIME BY QUE
CNTINQ: PUSH P,T1 ;SAVE T1
LDB T1,PJBST2## ;GET PHYSICAL STATE CODE
CAIN T1,PQ1 ;PQ1?
AOS XPQRP1 ;YES
CAIN T1,PQ2 ;PQ2?
AOS XPQRP2 ;YES
CAILE T1,PQ2 ;AN HPQ?
AOS XPQRHP ;YES
JRST TPOPJ ;RESTORE T1 AND EXIT
$LOW
SCDPER:: ;PERFORMANCE STATS TABLE
%DTASL::BLOCK 1 ;DTA GENERATED SLEEPS
%MTASL::BLOCK 1 ;DTA GENERATED SLEEPS
%EWCNT::BLOCK 1 ;MTA GENERATED SLEEPS
%TISJB::BLOCK 1 ;TTY INPUT SATISFIED
%TOSJB::BLOCK 1 ;TTY OUTPUT SATISFIED
%PISJB::BLOCK 1 ;PTY INPUT SATISFIED
%POSJB::BLOCK 1 ;PTY OUTPUT SATISFIED
REQSS:: BLOCK 1 ;NUMBER OF REQUEUES FROM SS INTO PQ1
REQWK:: BLOCK 1 ;NUMBER OF REQUEUES FROM WAKE INTO PQ1
REQJSD::BLOCK 1 ;NUMBER OF REQUEUES FROM DAEMON SATISFIED INTO PQ1
REQPQ1: BLOCK 1 ;NUMBER OF OTHER REQUEUES INTO PQ1
XPQRP1: BLOCK 1 ;NUMBER OF JOBS IN PQ1 WHICH EXPIRED QUANTUM RUN TIME
XPQRP2: BLOCK 1 ;NUMBER OF JOBS IN PQ2 WHICH EXPIRED QUANTUM RUN TIME
XPQRHP: BLOCK 1 ;NUMBER OF JOBS IN HPQ WHICH EXPIRED QUANTUM RUN TIME
XPICP1: BLOCK 1 ;NUMBER OF JOBS IN PQ1 WHICH EXPIRED INCORE PROTECT
XPICP2: BLOCK 1 ;NUMBER OF JOBS IN PQ2 WHICH EXPIRED INCORE PROTECT
XPICHP: BLOCK 1 ;NUMBER OF JOBS IN HPQ WHICH EXPIRED INCORE PROTECT
SWPKP1: BLOCK 1 ;NUMBER OF K SWAPPED IN FOR PQ1 JOBS
SWPKP2: BLOCK 1 ;NUMBER OF K SWAPPED IN FOR PQ2 JOBS
SWPKHP: BLOCK 1 ;NUMBER OF K SWAPPED IN FOR HPQ JOBS
SWPJP1: BLOCK 1 ;NUMBER OF PQ1 JOBS SWAPPED IN
SWPJP2: BLOCK 1 ;NUMBER OF PQ2 JOBS SWAPPED IN
SWPJHP: BLOCK 1 ;NUMBER OF HPQ JOBS SWAPPED IN
RNTPQ1::BLOCK 1 ;TICKS CHARGED TO PQ1
RNTPQ2::BLOCK 1 ;TICKS CHARGED TO PQ2
RNTHPQ::BLOCK 1 ;TICKS CHARGED TO HPQS
%PQ1CM: BLOCK 1 ;NUMBER OF RESPONSES PQ1/CMQ SWAPPED IN
%P1CMT: BLOCK 1 ;TOTAL TICKS OF RESPONSE TIME PQ1/CMQ SWAP IN
%P1CM2: BLOCK 2 ;SUM SQUARES (TWO WORD INTEGER) PQ1/PQ2 SWAPPED IN
%WSTCN: BLOCK 1 ;NUMBER OF MEASUREMENTS OF WASTED CORE
%WSTPS: BLOCK 1 ;TOTAL WASTED CORE SUM (PAGES)
%WSTP2: BLOCK 2 ;SUM OF SQUARES (TWO WORD INTEGER) WASTED CORE
%PERLN==:<.-1-SCDPER>B26
BLOCK 10
$HIGH
CNTSWP: PUSH P,T1 ;SAVE ACS
PUSH P,T2
PUSH P,J
LDB T1,IMGIN## ;GET INPUT SIZE
LDB T2,IMGOUT## ;AND OUTPUT SIZE IN T2
CAMLE T1,T2 ;GET MINIMUM IN T1
MOVE T1,T2 ;T2 WAS SMALLER
LSH T1,P2KLSH## ;IN K
PUSHJ P,FITHPQ## ;GET LOW SEG NUMBER
LDB T2,PJBST2## ;GET PHYSICAL QUE
POP P,J ;RESTORE JOB
CAIN T2,PQ1 ;PQ1?
JRST CNTSP1 ;YES
CAIN T2,PQ2 ;PQ2?
JRST CNTSP2 ;YES
CAIG T2,PQ2 ;HPQ?
JRST CNTSXT ;NO. EXIT
ADDM T1,SWPKHP ;STORE K
CAIG J,JOBMAX ;LOWSEG?
AOS SWPJHP ;YES. COUNT A JOB
CNTSXT: POP P,T2
JRST TPOPJ ;RESTORE ACS
CNTSP1: ADDM T1,SWPKP1 ;COUNT K IN PQ1
CAIG J,JOBMAX ;LOWSEG?
AOS SWPJP1 ;YES. COUNT JOB
JRST CNTSXT ;EXIT
CNTSP2: ADDM T1,SWPKP2 ;COUNT K IN PQ2
CAIG J,JOBMAX ;LOWSEG?
AOS SWPJP2 ;YES. COUNT JOB
JRST CNTSXT ;EXIT
CNTWST: PUSH P,T1 ;SAVE SOME REGISTERS
PUSH P,T2
MOVE T1,WASTSZ ;GET AMOUNT OF WASTED CORE
ADDM T1,%WSTPS ;ADD TO SUM
MUL T1,T1 ;SQUARE IT
TLO T2,400000 ;PREVENT OVERFLOW
ADD T2,%WSTP2+1 ;ADD IN LOW ORDER WORD OF SUM SQUARE
TLZN T2,400000 ;OVERFLOW?
ADDI T1,1 ;YES. INCREMENT HIGH ORDER WORD
MOVEM T2,%WSTP2+1 ;STORE LOW ORDER WORD
ADDM T1,%WSTP2 ;ADD HIGH ORDER TO STORE
AOS %WSTCN ;INCREMENT COUNT
POP P,T2 ;RESTORE REGISTERS,
PJRST TPOPJ## ;AND RETURN
> ;IFN FTPSCD
SUBTTL QCSS R. KRASIN
;THIS ROUTINE MUST BE ASSEMBLED WITH THE CONFIGURATION
;TAPE TO DEFINE NUMBER OF JOBS
;THIS SECTION CONTAINS 2 ROUTINES FOR Q MANIPULATION
;AND NECESSARY TABLES FOR SPECIFING OPERATIONS PERFORMED
;BY THEM.
;STORAGE:
;EACH Q IS A RING STRUCTURED, FOWARD AND BACKWARD
;LINKED SRING LIST. THE "FIRST" LINK IN A Q IS
;A Q-HEADER POINTING TO THE FIRST AND LAST MEMBERS OF THE Q.
;A NULL Q HAS ONE LINK--THE Q-HEADER ITSELF. THE LINKS MAKING
;UP THE QS ARE CONTAINED IN A TABLE WITH NEGATIVE
;INDICIES USED FOR Q-HEADERS AND
;POSITIVE INDICIES USED FOR MEMBERS (JOBS). THUS ONLY ONE WORD
;PER LINK IS NECESSARY--ITS RELATIVE ADDRESS GIVES THE
;JOB NO. (OR Q NO. IF NEGATIVE) WHICH IT REPRESENTS WHILE
;ITS CONTENTS CONTAINS THE LINKING POINTERS. THESE
;POINTERS ARE ALSO RELATIVE INDICIES RATHER THAN
;ABSOLUTE ADDRESSES--RH(LINK)=FORWARD POINTER;
;LH(LINK)=BACKWARD POINTER.
;A JOB IS ASSUMED TO BE IN NO MORE THAN ONE Q AT A TIME, AND
;THE NULL JOB (JOB 0) DOES NOT APPEAR IN THE QS
;ROUTINES:
;BOTH ROUTINES ARE "TABLE DRIVEN" IN THE SENSE THAT THE
;CALLING ROUTINE PROVIDES THE ADDRESS OF A TABLE WHICH
;DEFINES THE SPECIFIC OPERATIONS TO BE PERFORMED.
EQFIX==QFIX+1B0
EQLNKZ==QLNKZ+1B0
QXFER:
SKIPLE J ;TRYING TO REQUE JOB 0?
CAILE J,JOBMAX## ; OR IS THE JOB NUMBER OUT OF RANGE?
STOPCD .,STOP,RJZ, ;++REQUEUE JOB ZERO
; MESSED UP AND SYSTEM WILL HANG IF ALLOWED
MOVE P4,1(U) ;GET TRANSFER TABLE ADDRESS
JRST @(U) ;DISPATCH
;DEST-Q AS FUNCTION OF JOB QUE, QUANTUM AS FUNCTION OF JOB SIZE
QLNKZ: PUSHJ P,JOBSIZ## ;GET SIZE OF JOB
SKIPL JBTST2##(J) ;IS JOB IN A RUN QUEUE?
STOPCD .,STOP,NTE, ;NOT PROCESSOR QUE. ERROR.
LDB T1,PJBST2## ;GET PHYSICAL QUEUE JOB IS IN NOW
ADD T1,1(U) ;ADD TABLE ADDRESS TO QUE NUMBER
HRRO P4,0(T1) ;GET QUE HE GOES TO
HLRZ T1,0(T1) ;GET PARAMETERS FOR QUE HE IS GOING TO
SKIPGE 1(U) ;WANT QUANTUM TIME?
JRST QFIXED ;NO - ALL FIXED
PUSHJ P,CMPQRT ;COMPUTE THE QUANTUM RUN TIME
MOVEM T2,QNTRUN ;STORE IT FOR QFIX
HRLI P4,QNTRUN ;AND TELL QFIX WHERE WE PUT IT
JRST QFIXED ;DO TRANSFER
$LOW
QNTRUN: 0
$HIGH
; CALL WITH JOBSIZ IN T2, QUE IN T1, JOB NUMBER IN J
; RETURNS QUANTUM RUN TIME IN T2. USES NO OTHER ACS
CMPQRT: PUSH P,T3
HRRZ T3,JBTPDB##(J)
JUMPE T3,CMPQR1 ;IF NO PDB
.SKIPL .PDIPT##(T3) ;SWAPPABLE?
SKIPGE CORSCD ;OR LOTS OF CORE
JRST CMPQR1 ;USE CONSTANT QUANTA
IMUL T2,QMLTBL##(T1) ;SIZE * MULTIPLIER
IDIV T2,QRANGE## ;GET IN PROPER UNITS
ADD T2,QADTBL##(T1) ;ADD IN BASE AMOUNT FOR QUE
CAMLE T2,QMXTBL##(T1) ;LESS THAN MAXIMUM ALLOWED?
MOVE T2,QMXTBL##(T1) ;NO. USE MAXIMUM
JRST T3POPJ## ;RETURN
CMPQR1: MOVE T2,QADTBL##(T1)
JRST T3POPJ## ;RETURN BASE QUANTUM
; CALL CMPQSI WHEN SWAP IN JOB IN PROCESSOR QUE TO ASSIGN QUANTUM RUN TIME
CMPQSI: PUSH P,T1 ;SAVE TWO ACS
PUSH P,T2
PUSHJ P,JOBSIZ## ;GET SIZE OF JOB
LDB T1,PJBST2## ;GET QUE HE IS IN
PUSHJ P,CMPQRT ;COMPUTE THE QUANTUM TIME
.DPB T2,PDYQNT## ;AND STORE IT
JRST TTPOPJ## ;RESTORE TWO ACS AND RETURN
;FIXED DEST-Q
QFIX:
IFN FTHPQ,<
HRRZ T2,P4 ;PICK UP QUEUE
CAILE T2,-PQ1 ;IS IT A RUN QUEUE?
JRST QFIXED ;NO.
LDB T2,HPQPNT## ;YES. SHOULD IT GO TO A HPQ
JUMPE T2,QFIXED ;NO. DON'T DO ANYTHING
HRR P4,QTTAB##-1(T2) ;YES. GET HPQ POSITION
SKIPL P4 ;WAS QUANTUM TIME REQUESTED?
HRLI P4,QQSTAB##-1(T2) ;YES. GIVE QUANTUM TIME
> ; END OF CONDITIONAL ASSEMBLY ON FTHPQ
QFIXED: AOS RQCNT## ;COUNT A REQUEUE
IFN FTNSCHED,<
SKIPL JBTSCD##(J) ;JOB CURRENTLY IN PQ2?
JRST QFIXB ;NO
MOVE T2,JBTCSQ##(J) ;DELETE FROM CORE/NO-CORE SUBQUEUES
MOVS T1,T2
HRRM T2,JBTCSQ##(T1) ;NEW FORWARD LINK
HRLM T1,JBTCSQ##(T2) ;AND BACK LINK
MOVSI T1,(JS.PQ2) ;CLEAR PQ2 BIT
ANDCAM T1,JBTSCD##(J) ;KEPT IN SCD DATA TABLE
PUSHJ P,DLJILS ;DELETE FROM JBTJIL
>;END IFN FTNSCHED
QFIXB: HRRE T1,P4 ;PICK UP QUEUE NUMBER
MOVM T1,T1 ;ABS VALUE
LDB T2,PJBST2## ;GET PHY QUE
IFE FTNSCHED,<
CAIN T2,PQ2 ;IN PQ2?
PUSHJ P,DLJILS ;YES, DELETE FROM JBTJIL
>
CAIN T2,PQ2 ;IN PQ2?
CAIE T1,PQ2 ;AND GOING TO PQ2?
PUSHJ P,DLOLST ;NO. DELETE FROM JBTOLS (IF IN IT)
DPB T1,PJBST2## ;STORE HIS NEW REAL QUEUE
IFN FTPSCD,<
CAIN T1,PQ1 ;TO PQ1?
AOSA REQPQ1 ;YES. COUNT IT
CAIN T1,CMQ ;OR CMQ?
PUSHJ P,[MOVSI T2,SWP ;SWAPPED OUT?
HRRZ W,JBTPDB##(J) ;SET PDB ADR
TDNE T2,JBTSTS(J) ;...
SKIPN W ;YES. GET PDB ADDRESS
POPJ P, ;NO OR NO PDB
MOVN T2,UPTIME ;STORE -TIME WE STARTED
MOVEM T2,.PDPST##(W) ;IN PDB FOR PERFORMANCE MEASURE
POPJ P,]
>
MOVSI T2,(JS.IPQ) ;PROCESS QUEUE BIT
ANDCAM T2,JBTST2##(J) ;ASSUME NOT GOING INTO ONE
CAIGE T1,PQ1 ;IS IT GOING INTO PROCESSOR QUEUE?
JRST QFIXC ;NO, GO ON
IORM T2,JBTST2##(J) ;YES. SET PROCESSOR QUEUE BIT
CAIE T1,PQ1 ;ARE WE PUTTING HIM INTO PQ1?
JRST QFIXC2 ;NO, SEE IF GOING INTO PQ2
HRRZ W,JBTPDB##(J) ; FIND PDB FOR THE JOB
JUMPE W,QFIXC ; IF NONE, DON'T CHANGE ICPT
SKIPGE .PDIPT##(W) ;IS THIS JOB ELIGIBLE FOR SWAPPING
PUSHJ P,SETIPT ;YES, RESET ICPT SO IT CYCLES CORRECTLY
JRST QFIXC ;JOIN PROCESSING
QFIXC2: CAIE T1,PQ2 ;ARE WE PUTTING HIM IN PQ2?
JRST QFIXC ;NO, GO ON
PUSHJ P,INOLST ;PUT JOB IN LIST TO SWAP OUT (IF NO ICPT)
IFN FTNSCHED,<
MOVSI T1,(JS.PQ2) ;SAY JOB IS NOW IN PQ2
IORM T1,JBTSCD##(J) ;FOR SKIPS
;HERE IF WE ARE PUTTING A JOB INTO PQ2. MUST ALSO PUT IT INTO
; A PARALLEL SUBQUEUE.
LDB T1,JBYCLS## ;YES, GET HIS CLASS NUMBER
MOVNI T1,1(T1) ;GET NEGATIVE INDEX TO JBTSQ
SKIPN JBTADR##(J) ;DOES JOB HAVE CORE?
SUBI T1,M.CLSN## ;NO. OFFSET POINTER
HLRZ T2,JBTCSQ##(T1) ;GET LAST JOB IN SUB QUEUE (CORE/NOCORE)
HRRM J,JBTCSQ##(T2) ;MAKE US LAST
HRLM J,JBTCSQ##(T1) ;AND MAKE OLD LAST POINT TO US
HRL T1,T2 ;T1 = OLD LAST MEMBER,,HEADER
MOVEM T1,JBTCSQ##(J) ;SAVE AS OUR JBTCSQ ENTRY
>;END IFN FTNSCHED
SKIPE JBTJIL##(J) ;ALREADY IN LIST?
JRST QFIXC ;YES
HRRZ W,JBTPDB##(J)
SKIPE JBTADR##(J) ;DOES HE HAVE CORE?
SKIPN W ;YES, GET PDB
JRST QFIXC ;SWAPPED OR NO PDB
SKIPGE .PDIPT##(W) ;ANY ICPT LEFT?
JRST QFIXC ;NO, HE STAYS OFF LIST
HLRZ T1,JBTJIQ## ;LAST JOB IN QUEUE
HRLM J,JBTJIQ## ;MAKE US LAST
HRRM J,JBTJIL##(T1) ;MAKE PREVIOUS LAST POINT TO US
HRLOM T1,JBTJIL##(J) ;OLD LAST,,HEADER
QFIXC: MOVE T1,JBTCQ(J) ;DELETE JOB FROM CORE/NO-CORE QUE
MOVS T2,T1
HRLM T2,JBTCQ(T1) ;BACK. LINK SUCCESSOR
HRRM T1,JBTCQ(T2) ;FOR. LINK PREDECESSOR
SKIPL (U) ;TRYING TO REQUEUE TO BEGINNING OF QUEUE?
STOPCD (.,STOP,RBQ) ;++REQUEUEING TO BEGINNING OF QUEUE
HRRE T2,P4 ;END. INSERT IN CORE/NO-CORE QUE
SKIPN JBTADR(J) ;ANY CORE ASSIGNED?
SUBI T2,MXQUE## ;NO. NO-CORE QUEUE
HLRE T1,JBTCQ(T2) ;GET LAST JOB IN QUEUE
HRLM J,JBTCQ(T2) ;NOW WE ARE LAST
HRRM J,JBTCQ(T1) ;AND OLD LAST POINTS FORWARD TO US
HRL T2,T1 ;OLD LAST,,HEADER
MOVEM T2,JBTCQ(J) ;IS OUR POINTER
JUMPL P4,QX3
HLRZ U,P4 ;GET QUANTUM TIME ADDRESS FOR DPB
MOVE U,(U) ;GET QUANTUM TIME
PUSHJ P,FNDPDS## ;GET PDB ADR
.DPB U,PDYQNT## ;STORE QUANTUM RUN TIME
QX3: POPJ P, ;RETURN
;ROUTINE TO MOVE JOB FROM "JOB HAS CORE" QUE TO "JOB DOES NOT" QUE
; IF JOB ALREADY HAS NO CORE, ROUTINE DOES NOTHING
; ALL ACS PRESERVED
DICLNK::CAIG J,JOBMAX## ;LOW SEGMENT?
SKIPN JBTADR(J) ;YES. HAVE CORE?
POPJ P, ;NO
DICLNC: PUSHJ P,DCCLNK ;YES. DELETE FROM CORE QUE (AND SUB-QUE)
LDB T1,PJBST2## ;GET CURRENT PHYSICAL QUE NUMBER
MOVNI T1,MXQUE##(T1) ;NEG OF (QUE NUM + OFFSET)
PUSHJ P,ICCLNK ;PUT IN NO-CORE QUE
IFN FTNSCHED,<
SKIPL JBTSCD##(J) ;IN PQ2?
POPJ P, ;NO. DONE
LDB T1,JBYCLS## ;YES. GET CLASS NUMBER
MOVNI T1,M.CLSN##+1(T1) ;NEG OF (CLASS NUMBER + OFFSET)
PUSHJ P,ICSLNK ;PUT IN NO-CORE SUB QUEUE
>
POPJ P, ;DONE. RETURN
;SUBROUTINE TO MOVE JOB FROM "NO CORE" QUE TO "JOB HAS CORE" QUE
; IF JOB ALREADY HAS CORE, ROUTINE DOES NOTHING
; ALL ACS PRESERVED
IICLNK::CAIG J,JOBMAX## ;LOW SEGMENT?
SKIPE JBTADR##(J) ;YES. NO CORE?
POPJ P, ;NO. RETURN
PUSHJ P,DCCLNK ;DELETE FROM NO-CORE QUE (AND SUB-QUE)
LDB T1,PJBST2## ;GET PHYSICAL QUEUE NUMBER
MOVNI T1,(T1) ;NEGATE
PUSHJ P,ICCLNK ;INSERT IN CORE QUE
IFN FTNSCHED,<
SKIPL JBTSCD##(J) ;IN PQ2?
POPJ P, ;NO. DONE
LDB T1,JBYCLS## ;GET CLASS NUMBER
MOVNI T1,1(T1) ;NEGATE AND OFFSET
PUSHJ P,ICSLNK ;PUT IN CORE SUB QUE
>
POPJ P, ;RETURN
DCCLNK: CPLOCK (SCD) ;LOCK THE SCHEDULER
EXCH T1,(P) ;SAVE T1 ON LIST
PUSH P,T2 ;AND T2
MOVEM T1,1(P) ;AND PUT CALLER BACK ON LIST
MOVE T1,JBTCQ(J) ;GET JOBS POINTERS
MOVS T2,T1 ;SWAP HALVES
HRRM T1,JBTCQ(T2) ;MAKE LAST POINT TO NEXT
HRLM T2,JBTCQ(T1) ;AND NEXT POINT TO LAST
IFN FTNSCHED,<
SKIPL JBTSCD##(J) ; IN PQ2?
JRST DCCLN1 ;NO
MOVE T1,JBTCSQ##(J) ;LINK AROUND JOB
MOVS T2,T1
HRRM T1,JBTCSQ(T2) ;MAKE LAST POINT TO NEXT
HRLM T2,JBTCSQ(T1) ;AND NEXT POINT TO LAST
DCCLN1:>
PUSHJ P,@1(P) ;GO BACK TO CALLER WITH T1,T2 SAVED,
;AND SCHED LOCKED
CAIA ;NON-SKIP RETURN
AOS -2(P) ;SKIP RETURN
CPUNLK (SCD) ;UNLOCK SCHEDULER
POP P,T2 ;RESTORE T2
PJRST TPOPJ ;AND T1 AND RETURN
ICCLNK: HLRZ T2,JBTCQ(T1) ;GET LAST JOB IN QUEUE
HRLM J,JBTCQ(T1) ;MAKE SELF LAST
HRRM J,JBTCQ(T2) ;MAKE OLD LAST POINT TO US
HRL T1,T2 ;MAKE US POINT TO OLD LAST,,END
MOVEM T1,JBTCQ(J) ;AND STORE IT
POPJ P,
IFN FTNSCHED,<
ICSLNK: HLRZ T2,JBTCSQ##(T1) ;GET LAST IN SUB QUE
HRLM J,JBTCSQ(T1) ;MAKE US LAST
HRRM J,JBTCSQ(T2) ;MAKE OLD LAST POINT TO US
HRL T1,T2 ;MAKE US POINT TO OLD LAST,,END
MOVEM T1,JBTCSQ(J) ;AND STORE IT
POPJ P,
>
; SUBROUTINE TO INSERT A JOB IN OUTPUT SCAN LIST, IF NOT THERE AND SHOULD BE
INOLST: CAIG J,JOBMAX ;HIGHSEG?
SKIPE JBTOLS##(J) ;OR ALREADY IN LIST?
POPJ P, ;YES. RETURN
PUSH P,T1 ;SAVE T1
HRRZ W,JBTPDB##(J)
SKIPE JBTADR##(J) ;DOES HE HAVE CORE?
SKIPN W ;YES. GET PDB
PJRST TPOPJ ;NO OR NO PDB
SKIPL .PDIPT##(W) ;ELIGIBLE TO SWAP OUT?
PJRST TPOPJ ;NO. DOESN'T GO ON LIST
MOVSI T1,(JS.BBJ) ;BACKGROUND BATCH BIT
TDNE T1,JBTST2##(J) ;IS JOB IN BACKGROUND BATCH?
SKIPA T1,[EXP MOBQ##] ;YES, PUT HIM IN BB OUTPUT LIST
MOVNI T1,OLQ## ;NO, PUT HIM IN REGULAR OUTPUT LIST
HLL T1,JBTOLS##(T1) ;GET LAST JOB IN QUEUE
HRLM J,JBTOLS##(T1) ;MAKE US LAST
MOVEM T1,JBTOLS##(J) ;POINT TO OLD LAST,,HEADER
MOVS T1,T1 ;GET POINTER TO OLD LAST
HRRM J,JBTOLS##(T1) ;MAKE US SUCCESSOR TO PREVIOUS LAST
PJRST TPOPJ ;AND RETURN
; SUBROUTINE TO DELETE JOB FROM OUTPUT SCAN LIST
DLOLST: PUSH P,T1 ;SAVE T1
CAIG J,JOBMAX ;HIGH SEG?
SKIPN T1,JBTOLS##(J) ;YES. IN LIST?
PJRST TPOPJ ;HIGH SEG OR NOT IN LIST. RETURN
SETZM JBTOLS##(J) ;NOT IN LIST ANY MORE
HLLM T1,JBTOLS##(T1) ;LINK AROUND
MOVS T1,T1
HLRM T1,JBTOLS##(T1)
PJRST TPOPJ
; SUBROUTINE TO DELETE JOB FROM JUST INPUT LIST
DLJILS: PUSH P,T1 ;SAVE T1
CAIG J,JOBMAX ;HIGH SEG?
SKIPN T1,JBTJIL##(J) ;IN LIST?
PJRST TPOPJ ;NO, RETURN
SETZM JBTJIL##(J) ;NOW HE'S NOT
HLLM T1,JBTJIL##(T1) ;LINK AROUND HIM
MOVS T1,T1
HLRM T1,JBTJIL##(T1)
PJRST TPOPJ
;SCANS THE QS RETURNING THE NUMBERS OF THE JOBS IN THE QS.
;THE ORDER AND MANNER IN WHICH THE QS ARE SEARCHED IS
;DETERMINED BY A "SCAN TABLE" ADDRESSED IN THE CALLING SEQ.
;THE SCAN TABLE HAS THE FORM:
;
;SCANTAB: XWD <Q1>,<CODE1> ;SCN Q1 ACCRDING TO CODE1
; ...
; XWD <QN>,<CODEN> ;QN ACCORDING TO CODEN
; Z ;ZERO TERMINATES TABLE
;
;EACH Q MAY BE SCANNED IN ONE OF SEVERAL WAYS SPECIFIED BY <CODE>
;THE CODES ARE:
;
;?QFOR SCAN Q FORWARD
;?QFOR1 SCAN FOR ONLY THE 1ST MEMBER (IF ANY)
;?QBAK SCAN Q BACKWARD
;?QBAK1 SCAN BACKWARD FOR ALL MEMBERS EXCEPT THE 1ST
;?RRFOR SCAN THE JUST SWAPPED IN QUEUE
; THEN SCAN THE ROUND ROBIN QUEUE
;?SSFOR SCAN SUBQUEUES FORWARD ACCORDING TO SSSCAN TABLE IF RRFLAG .NE. 0,
; ELSE SCAN PQ2 VIA ?QFOR ROUTINE
;?BBFOR SCAN THE BACKGROUND BATCH JUST SWAPPED IN QUEUE
; THEN SCAN THE BACKGROUND BATCH QUEUE
;SQFOR SCAN SUBQUEUES FORWARD ACCORDING TO SQSCAN TABLE IF RRFLAG .NE. 0,
; ELSE SCAN PQ2 VIA OQFOR ROUTINE
;BQFOR SCAN THE BACKGROUND BATCH QUEUE
;
; WHERE ? MAY BE "O" FOR JOBS WITH NO CORE, "I" FOR JOBS WITH CORE,
; OR NULL FOR ALL JOBS(IN WHICH CASE "HAS CORE" IS CONSIDERED
; TO BE AHEAD OF "NO CORE").
;
;CALLING SEQ.
;
; MOVEI U,SCAN TABLE ADDRESS
; JSP T1,QSCAN ;SET UP PC FOR REPEATED RETURNS
; ... ;RETURN HERE WHEN NO MORE JOBS
; ... ;RETURN HERE WITH NEXT JOB IN AC J
;
; PERFORM ANY NECESSARY TESTING OF THIS JOB
; J,U,T1,T2 MUST BE PRESERVED
;
; JRST (T2) ;RETURN TO QSCAN TO GET NEXT JOB
; ; IF THIS ONE NOT ACCEPTABLE
;
;MAJOR QUEUE SCAN ROUTINE
QSCAN:: SKIPN T2,(U) ;END OF SCAN TABLE?
JRST (T1) ;YES--RETURN TO CALL+1
HLRE J,T2 ;NO--GET NO. OF Q
JRST (T2) ;DISPATCH
;ROUTINES TO SCAN BOTH INCORE AND OUTCORE CHAINS
QFOR:: HRRE J,JBTCQ##(J) ;SCAN FORWARD ALL JOBS
JUMPG J,1(T1) ;RETURN THIS JOB NUMBER UNLESS END OF LIST
HLRE J,(U) ;GET IN-CORE HEADER
SUBI J,MXQUE## ;CHANGE TO NO-CORE HEADER
MOVEI T2,QFOR2
QFOR2: HRRE J,JBTCQ##(J) ;SCAN FORWARD ALL JOBS
JUMPG J,1(T1) ;JUMP IF GOOD JOB #
AOJA U,QSCAN ;END OF THIS Q--GET NEXT Q
QBAK:: SUBI J,MXQUE## ;ADJUST TO NO-CORE HEADER
MOVEI T2,QBAK2 ;RETURN ADDRESS
QBAK2: HLRE J,JBTCQ##(J) ;SCAN BACKWARD ALL JOBS
JUMPG J,1(T1) ;RETURN CALL+2 WITH JOB NO.
HLRE J,(U) ;GET IN-CORE HEADER
MOVEI T2,QBAK3 ;RETURN ADDRESS
QBAK3: HLRE J,JBTCQ##(J) ;GET NEXT JOB NO.
JUMPG J,1(T1) ;RETURN IF GOOD JOB
QSCANX: AOJA U,QSCAN ;BEG OF THIS Q--GET NEXT Q
;ROUTINES TO SCAN ONLY INCORE OR OUTCORE CHAIN
OQFOR1::SUBI J,MXQUE## ;TAMPER WITH INDEX SO USES NO-CORE HEADERS
;FIRST OF NO-CORE QUEUE
IQFOR1::MOVEI T2,IQFOR2 ;ONLY THE FIRST JOB
IQFOR:: HRRE J,JBTCQ##(J) ;SCAN FORWARD ALL JOBS
JUMPG J,1(T1) ;RETURN THIS JOB NUMBER CALL+2 UNLESS--
IQFOR2: AOJA U,QSCAN ;END OF QUEUE--GET NEXT QUEUE
FOQFOR::SETOM SWPFAR ;SWAPPER REACHED FAIR TERRITORY
OQFOR:: MOVEI T2,IQFOR ;ALL OF NO-CORE QUE FORWARD
SUBI J,MXQUE## ;TAMPER WITH INDEX SO USES NO-CORE HEADERS
JRST IQFOR ;AND USE OTHER CODE
OQBAK1::MOVEI T2,IQBAK1 ;ALL BUT FIRST OF NO-CORE
SUBI J,MXQUE## ;TAMPER WITH INDEX TO GET NO-CORE HEADERS
IQBAK1::HLRE J,JBTCQ##(J) ;ALL BUT FIRST OF HAS-CORE
SKIPLE JBTCQ##(J) ;FIRST JOB IN QUEUE?
JRST 1(T1) ;NO. RETURN THIS JOB
AOJA U,QSCAN ;YES. GET NEXT QUEUE
OQBAK:: MOVEI T2,IQBAK ;ALL JOBS BACKWARDS
SUBI J,MXQUE## ;FORM NO-CORE QUEUE HEADERS
IQBAK:: HLRE J,JBTCQ##(J) ;GET JOB
JUMPG J,1(T1) ;RETURN IT +2
AOJA U,QSCAN ;GET NEXT QUEUE. NO JOB
IFN FTNSCHED,<
;PQ2 CLASS SWAPIN SCAN
FSQFOR::SETOM SWPFAR ;SWAPPER REACHED FAIR TERRITORY
SQFOR:: SKIPG RRFLAG## ;ANY NON-ZERO CLASSES?
JRST OQFOR ;NO CLASSES DEFINED (OQFOR SETS UP T2)
MOVEI T2,SQFORA ;RETURN ADDRESS FOR MORE JOBS, IF ANY
SOSG SQCNT## ;ANY ENTRIES LEFT IN PRIMARY SCAN TABLE?
PUSHJ P,SQINI ;NO, RECYCLE TO FRONT OF PRIMARY TABLE
ILDB J,SQPNT## ;GET NEXT PRIMARY SUBQUEUE
SETCAM J,SQSAVJ## ;SAVE THE QUEUE WE ALREADY CHECKED
MOVNI J,M.CLSN##+1(J) ;NO-CORE HEADER FOR THIS SUB-QUEUE
SQFORA: HRRE J,JBTCSQ##(J) ;GET NEXT JOB IN QUEUE
JUMPG J,1(T1) ;RETURN TO CALL+2 IF HAVE A JOB
SETZB M,SQSUM## ;ZERO COUNT AND SUM
SETCM T2,MAXQTA## ;HEADER OFFSET FOR HIGHEST CLASS WITH QTA
SQFOR1: SKIPLE JBCSOH##(T2) ;ANYONE IN THIS CLASS WITHOUT CORE?
CAMN T2,SQSAVJ## ;YES, CHECKED THIS CLASS ALREADY?
JRST SQFOR2 ;NO ONE IN CLASS OR THIS IS PRIMARY CLASS
SETCM J,T2 ;POSITIVE CLASS NUMBER
SKIPL CLSSTS##(J) ;FIXED CLASS?
SKIPG T3,CLSQTA##(J) ;ANY SECONDARY QUOTA?
JRST SQFOR2 ;EITHER FIXED OR NO SECONDARY
ADDM T3,SQSUM## ;SUM OF ALL PERCENTS
HRL T3,T2 ;-CLASS,,QUOTA
MOVEM T3,SQSCAN##(M) ;STORE IN TABLE
AOJ M, ;BUMP COUNT OF SUBCLASSES
SQFOR2: AOJL T2,SQFOR1 ;REPEAT FOR ALL SUBCLASSES
SOJLE M,SQFOR6 ;JUMP IF ZERO OR ONE CLASSES
SQFOR3: PUSHJ P,RAND ;GET A RANDOM NUMBER IN T2
IDIV T2,SQSUM## ;MODULO SQSUM
MOVE J,M ;INITIALIZE LOOP COUNTER
SQFOR4: HRRZ T2,SQSCAN##(J) ;GET THIS CLASSES QUOTA
SUB T3,T2 ;SUBTRACT FROM RANDOM NUMBER
JUMPL T3,.+2 ;IF NEGATIVE, THIS IS THE ONE WE WANT
SOJG J,SQFOR4 ;TRY NEXT CLASS
MOVE T2,SQSCAN##(M) ;MOVE THE TOP ENTRY
EXCH T2,SQSCAN##(J) ;DOWN ONTO THE ONE WE SELECTED
HLRE J,T2 ;GET HEADER OFFSET FOR THIS CLASS
MOVNI T2,(T2) ;SUBTRACT THIS CLASS'S QUOTA...
ADDM T2,SQSUM## ;... FROM TOTAL
SQFOR5: SUBI J,M.CLSN## ;ADJUST TO NO-CORE HEADER
MOVEI T2,SQFORB ;ADDRESS OF SCAN ROUTINE
SQFORB: HRRE J,JBTCSQ##(J) ;GET NEXT JOB IN SUB-Q
JUMPG J,1(T1) ;SKIP RETURN IF GOOD JOB NUMBER
SOJG M,SQFOR3 ;ELSE SELECT NEXT SUB-Q
SQFOR6: JUMPL M,QSCANX ;IF ALL CLASSES WERE TRIED, TRY BACKGROUND BATCH
HLRE J,SQSCAN## ;SETUP FOR THE LAST CLASS
JRST SQFOR5 ;GO TRY IT
;BACKGROUND BATCH SWAPIN SCAN
BQFOR:: SKIPN BBFIT## ;ALREADY FITTING IN A BB JOB?
SKIPG RRFLAG## ;CLASS SCHEDULING?
AOJA U,QSCAN ;NO
MOVE T2,UPTIME## ;CURRENT TIME IN TICKS
SKIPL J,BBSUBQ## ;IS THERE A BB CLASS DEFINED?
CAMGE T2,SCNBBS## ;IS IT TIME TO SWAP A BB JOB YET?
AOJA U,QSCAN ;NOT YET
MOVNI J,M.CLSN##+1(J) ;HEADER FOR B B QUEUE
JRST BBFOR2 ;SCAN B B QUEUE
;ROUTINES USED BY PQ2 CLASS SWAPIN SCAN
SQINI: MOVEI T3,^D100 ;100 ENTRIES
MOVEM T3,SQCNT## ;REINITIALIZE COUNT
MOVE T3,[POINT 5,PSQTAB##]
MOVEM T3,SQPNT## ;RESET BYTE POINTER
POPJ P,
SQTEST: SKIPG RRFLAG## ;ACTUALLY CLASS SCHEDULING?
POPJ P, ;NO
PUSH P,T1 ;SAVE T1
AOS T1,SCNSWP## ;INCREMENT # TIMES THIS PRIMARY SUBCLASS SCANNED
CAMGE T1,SCDSWP## ;SCANNED IT OFTEN ENOUGH?
JRST SQTES1 ;NO, RESET PRIMARY SCAN POINTERS
SETZM SCNSWP## ;YES, ALLOW SQFOR TO GO ON TO THE NEXT CLASS
JRST TPOPJ## ;AND RETURN
SQTES1: AOS T1,SQCNT## ;MOVE PRIMARY TABLE POINTER BACK ONE
CAIG T1,^D100 ;UNLESS ALREADY AT TOP
SETO T1,
JUMPL T1,SQTES2
MOVEI T1,^D100 ;RESET COUNT TO KNOWN VALUE
MOVEM T1,SQCNT##
SKIPA T1,[POINT 5,PSQTAB##]
SQTES2: ADJBP T1,SQPNT##
MOVEM T1,SQPNT##
JRST TPOPJ##
>;END IFN FTNSCHED
;RANDOM NUMBER GENERATOR
RAND:: MOVE T2,SEED## ;GET THE LAST PSEUDO-RANDOM NUMBER
MULI T2,377775 ;MULTIPLICATIVE MOD 2**35
MOVEM T3,SEED## ;SAVE THE CURRENT NUMBER FOR NEXT TIME
HLRZ T2,T3 ;THROW AWAY RIGHT 18 BITS
POPJ P, ;BACK TO CALLER
IFN FTNSCHED,<
;PQ2 CLASS SCHEDULING SCAN
ISSFOR::SKIPG RRFLAG## ;ARE THERE ANY CLASSES?
JRST IRRFOR ;NO
MOVE T2,UPTIME## ;CURRENT TIME
CAML T2,SCNJIL## ;STILL SCANNING JBTJIL?
JRST SJFORX ;NOT ANY MORE
MOVEI T2,SJFORA ;ADDRESS OF SCAN ROUTINE
MOVNI J,JIQ## ;OFFSET OF HEADER
SJFORA: HRRE J,JBTJIL##(J) ;GET NEXT JOB IN LIST
JUMPG J,1(T1) ;SKIP RETURN IF GOOD JOB NUMBER
SJFORX: MOVEI T2,SSFORA ;RETURN ADDRESS FOR MORE JOBS
MOVE M,.CPSST## ;ADDRESS OF SUB-Q SCHEDULING SCAN TABLE
SSFOR1: SKIPN J,(M) ;ANY ENTRIES LEFT IN SUBQUEUE LIST?
JRST SSFOR2 ;NO
SSFORA: HRRE J,JBTCSQ##(J) ;GET NEXT JOB IN IN-CORE SUBQUEUE
JUMPG J,1(T1) ;RETURN JOB NUMBER TO CALL+2
AOJA M,SSFOR1 ;ELSE TRY NEXT SUBQUEUE
SSFOR2: MOVE T2,UPTIME## ;GET UPTIME AGAIN
CAMGE T2,SCNJIL## ;HAVE WE SCANNED JBTJIL ALREADY?
AOJA U,QSCAN ;YES, GO TRY BACKGROUND BATCH
MOVNI J,JIQ## ;OFFSET TO JUST INPUT HEADER
MOVEI T2,SSFORJ ;RETURN ADDRESS
SSFORJ: HRRE J,JBTJIL##(J) ;NEXT JOB IN LIST
JUMPLE J,QSCANX ;GET NEXT QUEUE
JRST 1(T1) ;RETURN THE JOB
;BACKGROUND BATCH SCHEDULING SCAN
IBBFOR::SKIPG RRFLAG## ;IS CLASS SCHEDULER IN EFFECT?
AOJA U,QSCAN ;NO
MOVNI J,BBQ## ;HEADER OFFSET FOR B B QUEUE
MOVEI T2,BBFORA ;WHERE TO RETURN TO
SETOM BBFLAG## ;INDICATE WE ARE SCANNING B B QUEUE
BBFORA: HRRE J,JBTJIL##(J) ;GET NEXT JOB
JUMPG J,1(T1) ;RETURN WITH GOOD JOB NUMBER
BBFOR1: SETCM J,BBSUBQ## ;HEADER FOR BACKGROUND BATCH SUBQUEUE
JUMPGE J,BBFORX ;EXIT IF NO BACKGROUND BATCH QUEUE
BBFOR2: MOVEI T2,BBFORB
SETOM BBFLAG## ;SCANNING BACKGROUND BATCH
BBFORB: HRRE J,JBTCSQ##(J) ;NEXT JOB ON LIST
JUMPG J,1(T1) ;JUMP IF GOOD JOB NUMBER
BBFORX: SETZM BBFLAG## ;CLEAR SCANNING B B QUEUE FLAG
AOJA U,QSCAN ;SCAN THE NEXT MAJOR QUEUE
;PQ2 CLASS LOST TIME SCAN
OSSFOR::SKIPG RRFLAG## ;ANY CLASSES?
JRST OQFOR ;NO, SCAN NO-CORE PQ2 (OQFOR SETS UP T2)
MOVEI T2,SSFORB ;RETURN ADDRESS FOR NEXT JOB
MOVE M,.CPSST## ;ADDRESS OF SCAN TABLE
SSFOR3: SKIPN J,(M) ;ANY ENTRIES LEFT?
JRST OBBFOR ;NO, SCAN BACKGROUND BATCH NO-CORE QUE
SUBI J,M.CLSN## ;ADJUST TO NO-CORE HEADER
SSFORB: HRRE J,JBTCSQ##(J) ;NEXT JOB IN LIST
JUMPG J,1(T1) ;JUMP IF REAL JOB NUMBER
AOJA M,SSFOR3 ;GO TRY NEXT SUB-CLASS
;BACKGROUND BATCH LOST TIME SCAN
OBBFOR: SKIPGE J,BBSUBQ## ;IS ANY B B QUE DEFINED?
AOJA U,QSCAN ;NO
MOVNI J,M.CLSN##+1(J) ;ADJUST TO NO-CORE HEADER
JRST BBFOR2 ;SCAN THE SUB-QUEUE
>;END IFN FTNSCHED
;PQ2 ROUND ROBIN SCHEDULING SCAN
IRRFOR::MOVEI T2,RJFORA ;ADDRESS OF SCAN ROUTINE
MOVNI J,JIQ## ;OFFSET OF JBTJIQ HEADER
RJFORA: HRRE J,JBTJIL##(J) ;NEXT JOB IS JUST SWAPPED IN LIST
JUMPG J,1(T1) ;IF GOOD JOB, RETURN TO CALLER
MOVEI T2,IQFOR ;ELSE GET READY TO CALL IQFOR
MOVNI J,PQ2 ;SEARCH PQ2 IN-CORE ONLY
JRST IQFOR
;PQ2 JUST INPUT SCAN FOR SWAPPING GETSEGS
IGFOR:: PUSHJ P,RAND ;GET A RANDOM NUMBER
IDIVI T2,^D100 ;IN THE RANGE 0-99
CAML T3,SCDIOF## ;IS IT TIME FOR A SCAN OF GETSEGGED JOBS?
AOJA U,QSCAN ;NOT YET
IGFOR1: MOVNI J,JIQ## ;OFFSET TO JUST INPUT HEADER
MOVEI T2,IGFORA ;RETURN ADDRESS
IGFORA: HRRE J,JBTJIL##(J) ;NEXT JOB IN LIST
JUMPLE J,IGFOR2 ;GET NEXT QUEUE IF NOT A JOB
MOVSI T3,(JS.HNG) ;DID THIS JOB CLEAR OUT OF FORCE?
TDNN T3,JBTST2##(J) ;IF SO, DON'T WANT IT COMING IN
JRST 1(T1) ;OK. RETURN THE JOB
JRST IGFORA ;NOT THIS JOB. FIND ANOTHER
IGFOR2: MOVNI J,PQ2 ;NOW SCAN PQ2
MOVEI T2,IGFORB ;WHERE TO COME BACK TO
IGFORB: HRRE J,JBTCQ##(J) ;GET NEXT JOB
JUMPLE J,QSCANX ;GET NEXT QUEUE IF NOT A JOB
MOVSI T3,SWP ;MARKED SWP BUT IN CORE?
TDNN T3,JBTSTS##(J) ;...
JRST IGFORB ;NO, IGNORE
IFN FTNSCHED,<
MOVSI T3,(JS.BBJ) ;BACKGROUND BATCH?
TDNE T3,JBTST2##(J) ;YES, SKIP HIM
JRST IGFORB ;
>
JRST 1(T1) ;YES, BROKEN, NOT IN TRANSIT
;PQ2 OUTPUT SCAN
; SCAN OUTPUT LISTS FORWARD, THEN PQ2 BACKWARD, SAVING SUMCOR AROUND
; FIRST SO THAT IF DON'T FIND ROOM WE WILL COUNT EVERYBODY EXACTLY ONCE.
OLFOR::
IFN FTNSCHED,<
MOVNI J,OBQ## ;SEARCH BACKGROUND BATCH OUTPUT LIST
MOVEI T2,OLFORA ;SET T2
OLFORA: HRRE J,JBTOLS(J) ;GET JOB
JUMPG J,1(T1) ;GIVE IT TO USER
MOVNI J,BBQ## ;SEARCH BACKGROUND BATCH JUST INPUT LIST
MOVEI T2,OLFORB ;SET T2
OLFORB: HRRE J,JBTJIL##(J) ;GET NEXT ENTRY
JUMPG J,1(T1) ;RETURN IF LEGAL JOB NUMBER
>;END IFN FTNSCHED
MOVNI J,OLQ## ;SEARCH PQ2 OUTPUT LIST
MOVEI T2,OLFORC ;SETUP T2
OLFORC: HRRE J,JBTOLS##(J) ;NEXT ENTRY
JUMPG J,1(T1) ;JUMP IF GOOD JOB
MOVNI J,PQ2 ; NOW PQ2
JUMPN T4,OLFORE ; FITTING HPQ JOB?
SKIPGE CORSCD ; OR OTHERWISE IGNORE PDMSWP?
JRST OLFORE ; YES. EVERYONE
MOVEI T2,OLFORD ; NO. JUST STRANGE JOBS NOT ALREADY RETURNED
OLFORD: HLRE J,JBTCQ##(J) ; GET NEXT JOB
JUMPLE J,QSCANX ; END OF QUEUE. GO TO NEXT
SKIPE JBTOLS##(J) ; IN ONE OF OUTPUT LISTS?
JRST OLFORD ; YES. SKIP THIS ONE
IFN FTNSCHED,< ;
MOVSI T3,(JS.BBJ) ; IN BACKGROUND BATCH?
TDNE T3,JBTST2##(J) ; ...
JRST OLFORD ; YES. SKIP THIS ONE
> ;
MOVSI T3,SWP ; SWP SET?
TDNE T3,JBTSTS##(J) ; FOR THIS JOB?
JRST 1(T1) ; YES. RETURN THIS JOB TO SCAN
HRRZ T3,JBTPDB##(J) ; ANY PDB?
JUMPE T3,1(T1) ; NO. RETURN THIS JOB TO SCAN
JRST OLFORD ; NOT SWP AND HAS PDB. SKIP JOB
OLFORE: MOVEI T2,OLFORF ; RETURN ALL JOBS NOT ALREADY RETURNED
OLFORF: HLRE J,JBTCQ##(J) ; GET NEXT JOB
JUMPLE J,QSCANX ; END OF QUEUE. GO TO NEXT
SKIPE JBTOLS##(J) ; IN ONE OF OUTPUT LISTS?
JRST OLFORF ; YES. SKIP THIS ONE
IFN FTNSCHED,< ;
MOVSI T3,(JS.BBJ) ; BACKGROUND BATCH JOB?
TDNE T3,JBTST2##(J) ; ...
JRST OLFORF ; YES. SKIP THIS ONE
> ;
JRST 1(T1) ; NO. RETURN JOB TO SCAN
DEFINE X(A,B,C)
<
A'Q==:ZZ
ZZ==ZZ+1>
ZZ==0
QUEUES
XP MINQ,ZZ
DEFINE X(A,B,C)
< A'Q==:ZZ
EXTERNAL A'AVAL
ZZ==ZZ+1>
RWAITS
NQUEUE==ZZ
XP MAXQ,NQUEUE-1
XP AVLNUM,MAXQ-MINQ
DEFINE X(A,B,C)
< A'Q==:ZZ
ZZ==ZZ+1>
CODES
XP MXCODE,ZZ-1
CMQ==:ZZ
ZZ==ZZ+1
PQ1==:ZZ
ZZ==ZZ+1
PQ2==:ZZ
;CORRESPONDENCE TABLE BETWEEN JOB STATUS CODES AND QUEUE TRANSFER TABLES
;USED BY SCHEDULER
;RUNCSS SETS JOB STATUS WORD TO NEW STATE CODE.
;SCHEDULER SETS UP QUEUE TRANSFER TABLE ADDRESS FROM
;FOLLOWING TABLE USING NEW STATE CODE AS INDEX
DEFINE X(A,B,C)
< XWD Q'A'T, Q'A'W
>
QWSW==-1
QIOWW=-1
QDIOWW==-1
QDSW==-1
QPIOWW==-1
QPSW==-1
QNAPW==-1
QBITS:: QUEUES
RWAITS
CODES
;SHARABLE DEVICE REQUEST TABLE(GENERALIZED FOR OTHER QUEUES TOO)
;CONTAINS THE NUMBER OF JOB WAITING TO USE SHARBLE DEVICE
;WSREQ AND RNREQ ARE UNUSED
$LOW
DEFINE X(A,B,C)
<A'REQ:: 0
>
REQTAB::RWAITS ;GENERATE REQ TABLE
XP RQTBMQ,REQTAB-MINQ
$HIGH
$LOW
QJOB:: 0 ;NUMBER OF JOBS NEEDING QUEUE TRANSFERS AT
;OTHER THAN CLOCK LEVEL
XJOB:: 0 ;NUMBER OF JOBS NEEDING EXPANSION BY SWAPOUT-IN
UNWIND::0 ;FLAG THAT SAYS WE'VE UNWOUND ONCE THIS SCHEDULER CYCLE/TICK
$HIGH
;UNWIND/SCHEDULAR RESOURCE GIVE ROUTINES
DEFINE X(A,B,C,D,E)<
IFB /'D'/,<UNWDSP=UNWRES>
IFB /'E'/,<SCDDSP=SCDRES>
IFNB /'D'/,<UNWDSP='D'##>
IFNB /'E'/,<SCDDSP='E'##>
UNWDSP,,SCDDSP
>
UNWTAB: RWAITS
DEFINE TTAB(FCTN,QUEUE,QUANT)
< EXP FCTN
XWD QUANT,-QUEUE
>
DEFINE PTTAB(FCTN,QUEUE,QUANT)
< EXP FCTN
XWD QUANT,QUEUE
>
QNULW: TTAB EQFIX,NULQ,-1 ;NULL QUEUE JOB NO. NOT ASSIGNED
QSTOP::QSTOPW: TTAB EQFIX,STOPQ,-1 ;UNRUNABLE JOBS TO END OF STOPQ
QJDCW: TTAB EQFIX,JDCQ,-1
QCMW:: TTAB EQFIX,CMQ,-1 ;COMMAND WAIT TILL JOB IN CORE
QTSW: ;TTY IO WAIT SATISFIED(ENTER BACK OF PQ1)
QRNW: TTAB EQFIX,PQ1,QADTAB## ;JUST RUNABLE JOBS
;WHICH ARE NOT IN SOME WAIT STATE BELOW
QRNW1: TTAB EQFIX,PQ1,-1 ;PUT IN BACK OF PQ1. NO QUANTUM FOR SPECIAL TRANSFER
QRNW2: TTAB EQFIX,PQ2,-1 ;PUT IN BACK OF PQ2, NO QUANTUM CHANGE
QTIOWW: TTAB EQFIX,TIOWQ,-1 ;TTY IOW HELD IN TIOWQ
QPQIOW: TTAB EQFIX,PQIOQ,-1
QSLPW: TTAB EQFIX,SLPQ,-1 ;SLEEP UUO
QEWW: TTAB EQFIX,EWQ,-1 ;EVENT WAIT
QTIME:: PTTAB EQLNKZ,QRQTBL##,0 ;WHEN QUANT. TIME EXCEEDED.
;WHEN QUANT. TIME EXCEEDED AND RESET QUANT. TIME
SUBTTL SWAP R. KRASIN
;SWAPPER CALLED EVERY CLOCK TIC.
;SINCE MOST OPERATIONS STARTED BY THE SWAPPER REQUIRE SEVERAL
;TICS TO RUN TO COMPLETION, SEVERAL FLAGS(FINISH,FIT,FORCE
;ARE USED TO "REMEMBER" PREVIOUS STATES.
;THE BASIC ALGORITHM:
;IS CORE SHUFFLER WAITING FOR IO TO FINISH FOR SOME JOB?
; YES--TRY AGAIN TO SHUFFLE(WHEN IO STOPS)
;IS CORE SHUFFLER STILL WAITING FOR IO TO FINISH?
; YES--RETURN AND DO NOTHING
;IS SWAPPER STILL BUSY?
; YES--RETURN AND DO NOTHING
;SCAN QS FOR 1ST JOB OUT OF CORE.
; IF NONE--RETURN
;A:
; IF ONE--WILL LOW(HIGH) SEG FIT IN LARGEST HOLE IN CORE?
; YES--START INPUT AND RETURN
; NO--IS TOTAL FREE CORE(CORTAL) ENOUGH TO ACCOMMODATE LOW(HIGH) SEG?
; YES--CALL CORE SHUFFLER
; IS SHUFFLER WAITING FOR IO TO STOP?
; YES--RETURN AND DO NOTHING
; NO--GO TO A:
; NO--"REMEMBER" THIS JOB FOR INPUT AND LOOK FOR OUTPUT:
;ANY JOBS WAITING TO XPAND CORE BY SWAP OUT/IN?
; YES--OUTPUT ONE AND RETURN
; NO--SCAN QS BACKWARD FOR JOB IN CORE WHOSE PROTECT TIME
; (SET ON INPUT) HAS GONE TO 0.
; IF NONE--RETURN
; IF ONE--IS IT SWAPPABLE(NO ACTIVE IO AND NOT CURRENT JOB)?
; YES--OUTPUT HIGH SEG(IF ANY AND NOT ON DISK) THEN LOW SEGMENT
; NO--SET SWP BIT(SO SCHEDULER WILL NOT RUN), IO WILL CONTINUE
; IN LOW SEGMENT AS LONG AS IT CAN
; IO ROUTINES NO LONGER STOP IF SWP SET, JUST SHF)
;ALL DEVICE DEPENDENT CODE MARKED WITH A "*"
SWAP:: PUSHJ P,SAVE3##
SETZM CORFLG ; ASSUME NORMAL SWAPPING
IFN FTHPQ,<
SKIPE FIT ;IS FIT SET?
SKIPG J,SCDRTF## ;AND HPQ JOB ON DISK?
JRST SWAP0A ;NO. CONTINUE
MOVSI T1,(JS.SIP)
TDNE T1,JBTST2##(J) ;STAY AWAY IF I/O IS IN PROGRESS
JRST SWAP0A
LDB T4,HPQPNT## ;GET ITS HPQ NUMBER
MOVE J,FIT ;GET NUMBER FROM FIT
PUSHJ P,FITHPQ ;GET LOW SEG NUMBER OF JOB IN FIT
LDB T2,HPQPNT ;GET HPQ NUMBER OF JOB IN FIT
CAIL T2,(T4) ;IS IT LESS THAN JOB IN .CPRTF?
JRST SWAP0A ;NO. PROCEED NORMALLY
SKIPLE T1,JBTSGN##(J) ;REAL HIGH SEG?
SKIPN JBTADR(T1) ;YES. IN CORE, IF NOT, COULD BE IN FIT
PUSHJ P,ZERFIT ;NO. CAN CLEAR FIT AND RESELECT
SWAP0A:> ; END OF CONDITIONAL ASSEMBLY ON FTHPQ
SWAP1:
IFN FTIPCF,<
PUSHJ P,GVIPCP## ;RETURN ANY IPCF PAGES WHICH
; WERE SWAPPED OUT TO THE FREE CORE LIST
>
MOVE J,FORCE## ;IF FORCING A HI SEG, DON'T PROCESS
CAIG J,JOBMAX## ; SWAP COMPLETION UNTIL THE
; HI SEG SWAP STARTS BECAUSE SWPOUT
; COULD BE REUSED
SKIPN SWPCNT## ;ANY SWAP REQUESTS COMPLETED?
JRST SWP2 ;NO, PROCEED
PUSHJ P,FNDSLE## ;FIND A COMPLETED SWPLST ENTRY
STOPCD FININ4,DEBUG,SMU, ;++SWPCNT MESSED UP
PUSHJ P,GETIOS## ;GET ERROR PLUS DIRECTION OF I/O BITS
TLC P2,(SL.SIO+SL.IPC) ;A "IP" QUEUE ENTRY?
TLCN P2,(SL.SIO+SL.IPC) ;TEST
JRST [PUSHJ P,IP2OUT## ;YES, MOVE PAGES FROM THE "IP" QUEUE TO THE "OUT" QUEUE
JRST SWAP1] ;AND SEE IF SOMETHING ELSE COMPLETED
MOVSI T1,(JS.SIP)
CAIG J,JOBMAX##
ANDCAM T1,JBTST2##(J) ;SWAPPING I/O IS DONE FOR THIS JOB
TLNE S,IO ;SWAP OUT?
JRST FINOUT ;YES, FINISH UP OUTPUT
JUMPN S,INERR ;JUMP IF SWAP READ ERROR
FININ0: SETZM FINISH## ; HERE IF NOTHING TO SWAP IN(HIGH OR LOW SEG EXPANDING FROM 0)
CAIG J,JOBMAX## ;WAS SEG JUST SWAPPED IN, A LOW SEG?
PUSHJ P,GIVBAK ;RETURN DISK SPACE, 4-WORD BLOCKS.
FININ1: PUSHJ P,FININ## ;IS THERE A HIGH SEG WHICH MUST BE SWAPPED IN?
JRST FININ5 ;PUT IN THE HIGH SEG WAIT QUEUE AND IGNORE
JRST FIT1 ;YES, GO SWAP IT IN(J SET TO HIGH SEG NO,JOB # IN JBTSGN)
; NO, EITHER HIGH SEG ALREADY IN FOR ANOTHER USER
; OR THERE IS NONE, J STILL JOB NO. (IE LOW SEG)
FININ3: CAIG J,JOBMAX## ;STILL A HIGH SEG? (MIGRAT)
JRST FNIN3A ;NO, PROCEED
PUSHJ P,CHKTAL##
HRRZ J,JBTSWI##(J) ;GET THE JOB NUMBER
MOVE F,[JS.SIP!JS.HNG!JS.SCN!JS.TFO] ;CLEAR ALL GOOD BITS
ANDCAM F,JBTST2##(J) ;FOR JOB
PUSHJ P,FNPDBS## ;SET UP W
JRST FININ7 ;AND NO MORE TO DO
FNIN3A: PUSHJ P,MAPUSR## ;SETUP THE MAP INCLUDING THE TRAP LOCATIONS
; FOR THE JOB JUST SWAPPED IN
PUSHJ P,SXOPFH## ;MAKE PFH CONCEALED IF IT SHOULD BE
LDB F,IMGIN## ;NEW CORE SIZE
LDB T2,IMGOUT## ;OLD SIZE WHEN ON DISK
SUB T2,F ;OLD-NEW=DECREASE
; HAS USER DECREASED VIRTUAL MEMORY FROM M TO N(N GR 0)
; WHILE OUT ON DISK(R,RUN,GET,KJOB) TO 140 WORDS?
; CORE COMMAND ALWAYS FORCES SWAP IN BEFORE
; CORE REASSIGNMENT SO NOT IN THIS CATEGORY
; FRAGMENTED USER TOO HARD TO PARTIALLY
; RECLAIM DISK SPACE
; ON REDUCTION WHICH DOES NOT GO TO 0
SKIPLE T2 ;DECREASED?
ADDM T2,VIRTAL## ;YES, NOW INCREASE VIRTUAL MEMORY AVAILABLE BY
; AMOUNT OF DECREASE IN HIGH OR LOW SEG
PUSHJ P,FNPDBS## ;FIND THE PDB OR STOP
MOVE F,[JS.SIP!JS.HNG!JS.SCN!JS.TFO] ;CLEAR SCANNED, FORCED BY TIMER, HUNG
ANDCAM F,JBTST2##(J) ;IN SECOND STATUS TABLE
PUSHJ P,UNSWAP ;MARK JOB IN CORE AGAIN (JS.SIP CLEARED BEFORE CLEARING SWP)
LDB T1,PJBST2## ;GET PHY QUE
HRRZ F,MIGRAT## ;LEFT HALF BITS GET CLEARED
CAME J,F ;IF JUST SWAPPING IN TO GET OFF A UNIT GOING
; DOWN DONT CLEAR SWAPPABLE BIT
CAIGE T1,CMQ ;OR IF NOT IN RUN OR CMQ
JRST [MOVSI F,PDMSWP ;MAKE SURE CAN SWAP
IORM F,.PDIPT##(W) ;SET SWAPPABLE BIT
JRST FININ7 ] ;NOTHING MORE TO DO
MOVSI F,(JS.NNQ) ;JOB THAT DID GETSEG TO SWAPPED OUT HISEG?
TDNE F,JBTST2##(J) ;...
JRST FININ7 ;YES. LEAVE PARAMETERS AND OUTPUT LIST AS IS
PUSHJ P,ASICPT ;ASSIGN IN-CORE PROTECT TIME
MOVSI F,PDMSWP
ANDCAM F,.PDIPT##(W) ;CLEAR SWAPPABLE BIT
SKIPGE JBTST2##(J) ;JOB IN PROCESSOR QUEUE?
PUSHJ P,CMPQSI ;YES. ASSIGN NEW RUN QUANTA
PUSHJ P,DLOLST ;MAKE SURE JOB IS NOT ON OLS
IFN FTNSCHED,<
MOVSI F,(JS.BBJ) ;SET/CLEAR B B JOB BIT
CAME J,BBFIT## ;IS JOB IN BACKGROUND BATCH?
JRST FININ6 ;NO
IORM F,JBTST2##(J) ;SET THE BACKGROUND BATCH BIT
MOVEI T1,MBBQ## ;OFFSET TO BBQ
JRST FNIN6A
FININ6: ANDCAM F,JBTST2##(J) ;CLEAR THE BACKGROUND BATCH BIT
MOVEI T1,-JIQ## ;OFFSET TO JBTJIQ
SKIPGE JBTSCD##(J) ;IS JOB IN PQ2?
FNIN6A:>
IFE FTNSCHED,<
LDB T1,PJBST2## ;GET PHY QUE CODE
CAIN T1,PQ2 ;IS JOB IN PQ2?
>
SKIPE JBTJIL##(J) ;SHOULD BE ZERO SINCE HE JUST CAME IN
JRST FININ7 ;NOT IN PQ2 OR JBTJIL ALREADY SET
IFN FTMP,<
CPLOCK (SCD)
>
HLL T1,JBTJIL##(T1) ;PREVIOUS LAST JOB
HRLM J,JBTJIL##(T1) ;LAST JOB IS NOW US
MOVEM T1,JBTJIL##(J) ;HE IS OUR PREDECESSOR & QUEUE HEADER SUCCESSOR
HLRZS T1 ;POINT TO HIM
HRRM J,JBTJIL##(T1) ;POINT HIM TO US
IFN FTMP,<
CPUNLK (SCD)
>
FININ7: MOVSI F,(JS.NNQ) ;CLEAR NO NEW QUANTA BIT
ANDCAM F,JBTST2##(J)
IFN FTNSCHED,<
CAMN J,BBFIT## ;BBFIT JOB?
SETZM BBFIT## ;YES, CLEAR IT
>
SETZM INFLG ;CLEAR FRUSTRATION FLAGS
SETZM INFLGJ
SETZM INFLGC
SETZM ZAPIDF ; NO LONGER OK TO ZAP 'YOUNG' IDLE/DORMANT SEGMENTS
IFN FTHPQ,<
.SETZM .PDHZF(W) ;CLEAR HPQ ZEROED FIT FLAG FOR THIS JOB
>
IFN FTKL10&FTMP,<
PUSHJ P,SETCSJ## ;RUN ONLY ON THIS CPU UNTIL CACHE SWEEP
> ;END IFN FTKL10 &FTMP
IFN FTPSCD,<
SKIPN T1,.PDPST##(W) ;BEING TIMED?
JRST SWP0 ; NO
SETZM .PDPST##(W) ;YES. CLEAR TIMER
ADD T1,UPTIME## ;GET ELAPSED TIME
ADDM T1,%P1CMT ;ADD TO TOTAL TIME SPEND WAITING
MUL T1,T1 ;COMPUTE DOUBLE WORD SQUARE SUB
TLO T2,400000 ;PREVENT OVERFLOW
ADD T2,%P1CM2+1
TLZN T2,400000 ;CARRY?
ADDI T1,1 ;YES. DO IT
MOVEM T2,%P1CM2+1 ;STORE IT
ADDM T1,%P1CM2 ;ALSO HIGH ORDER WORD
AOS %PQ1CM ;NUMBER OF RESPONSES
> ;END IFN FTPSCD
SWP0: SETZM FINISH## ; CLEAR FINISH EITHER WAY
SKIPE FORCE## ; ALREADY FORCING?
JRST SWP1 ; YES. DO OLD STUFF
JRST SCANIN ; NO. SO TRY TO START A NEW SWAPIN
FININ4: SOS SWPCNT## ;DECREMENT SWPCNT
JRST SWP2 ;AND TRY SOMETHING ELSE
;HERE IF THERE'S A COLLISION ON A HIGH SEG FOR A JOB WHICH JUST
;FINISHED SWAPPING (JOB # IN J)
FININ5: SKIPE JBTJIL##(J) ;THIS BETTER BE ZERO
JRST SWAP1 ;ELSE WE'VE BEEN HERE BEFORE
;NOTE THAT THE FOLLOWING 5 LINES ARE NOT UNDER THE SCHEDULAR INTERLOCK.
;THIS IS BECAUSE IT CAN ONLY BE EXECUTED ON POLICY RIGHT NOW (SWAPPER
;DOESN'T RUN ON NON-POLICY), AND THE JOBS IN THE QUEUE ARE NOT RUNNABLE
;SO CANNOT BE RUN BY THE SCHEDULAR. SHOULD ANY OF THE ABOVE CHANGE,
;THE CODE WILL HAVE TO BE PUT UNDER SCDLOK.
HLRZ T1,JBTHSQ## ;LAST JOB WAITING FOR A HIGH SEG
HRLM J,JBTHSQ## ;NEW LAST JOB IS US
HRRM J,JBTJIL##(T1) ;POINT PREVIOUS LAST TO US
HRLI T1,-HSQ## ;WE ARE LAST SO POINT AT HEADER
MOVSM T1,JBTJIL##(J)
JRST SWAP1 ;AND IGNORE US FOR NOW
;HERE ON SWAP INPUT ERROR IN LOW OR HIGH SEG
INERR: MOVE R,JBTADR##(J) ;SETUP RELOC,PROTECTION FOR HIGH OR LOW SEG
SETZM FINISH## ; CLEAR FINISH REGARDLESS - ONLY
; USED TO PREVENT DELETING HISEG
; FOR JOB SWAPPING IN ANYWAY
CAILE J,JOBMAX## ;IS THIS A HIGH SEGMENT JUST SWAPPED IN?
JRST INERR2 ;YES
PUSHJ P,SWPREC ;RECORD ERRORS AND DECREASE AMOUNT OF
;VIRTUAL CORE LEFT BY SIZE OF DISK SPACE LOST (JBTIMO)
MOVSI T1,JACCT ;CLEAR JACCT SO THAT A START COMMAND
ANDCAM T1,JBTSTS##(J) ; WILL NOT START A DAMAGED PROGRAM
; WITH PRIVILEDGES AND SO DAEMON WON'T
; GET RESTARTED
PUSHJ P,FNDPDS## ;GET PDB ADDRESS
SETZM .PDCMN##(W) ;ZAP USER DEFINED COMMAND POINTER
SETZM .PDUNQ##(W) ; SINCE FUNNY SPACE GOES AWAY
PUSHJ P,ZAPUSR## ;CLEAR ALL DDB'S, IO CHANS
PUSHJ P,CLRJOB## ;CLEAR PROTECTED PART OF JOB DATA AREA
PUSHJ P,ERRSWP## ;PRINT "SWAP READ ERROR"
INERR2: PUSH P,J ;SAVE SEGMENT NUMBER
MOVEI T1,ZAPHGH## ;SETUP ROUTINE
CAILE J,JOBMAX## ;HIGH SEGMENT
PUSHJ P,HGHAPP## ;YES, RESET ALL JOBS USING THIS HIGH SEGMENT
MOVE J,(P) ;GET SEGMENT NUMBER
PUSHJ P,SEGERR## ;GO CHECK IF HIGH SEG WHICH HAD ERROR
; IF YES, CLEAR HIGH SEG NAME SO NO NEW
; USERS WILL USE. ALWAYS RETURN JOB NO.
;RECORD ERROR AND DECREASE VIRTUAL CORE LEFT
; (SWPREC) IF THIS FIRST READ ERROR ONLY.
POP P,J ;RESTORE SEGMENT NUMBER
CAIG J,JOBMAX## ;A HIGH SEGMENT?
JRST INERR3 ;NO
HRRZ T1,MIGRAT## ;MIGRATING JOB
CAME T1,JBTSWI##(J)
CAMN J,T1 ;THE ONE WE'RE TRYING TO GET OFF A BAD UNIT?
PUSHJ P,DLTSLX## ;YES, FINHGH-ZERSWP WON'T DO THIS
JRST FININ0
INERR3: HRRZ T1,JBTUPM##(J)
PUSHJ P,GVPAGS## ;YES, WE'RE IN BAD TROUBLE-CAN'T BELIEVE FUNNY SPACE
MOVE T1,JBTSWP##(J) ;GET BACK ALL CORE FOR JOB
PUSHJ P,GVPAGS
PUSHJ P,DLTSLE## ;CLEAR THE SWPLST ENTRY
SETZM JBTADR##(J) ;THE JOB HAS NO CORE IN CORE
HRRZS JBTPDB##(J)
SETZM JBTUPM##(J)
SETZB T1,JBTSWP##(J) ;NO CORE ON DSK EITHER
DPB T1,IMGOUT##
DPB T1,IMGIN##
SKIPLE T1,JBTSGN##(J) ;SKIP IF SPY OR NO HI SEG
TLNE T1,SHRSEG ;SHARABLE?
CAIA ;YES, LET SEGCON REMOVE IT
SETZM JBTSGN##(J) ;NO, JUST ZAP IT
PUSHJ P,KILHGH## ;ALSO REMOVE HI SEG FROM ADR SPACE
IFN FTNSCHED,<
CAMN J,BBFIT## ;WAS THIS A BB JOB?
SETZM BBFIT## ;YES, CLEAR FLAG SO OTHERS CAN COME IN
>
PJRST UNSWAP ;CLEAR SWP AND RETURN
; CLEARED S SO LOOK LIKE NO ERROR
FINOUT: TRNE S,-1 ;ANY ERRORS?
JRST OUTERR ;YES, PROCESS SWAP OUT ERRORS
CAILE J,JOBMAX## ;HI SEGMENT?
JRST FINOU1 ;YES
PUSHJ P,FNDPDB## ;OTHERWISE POINT TO THE PDB
CAIA ;NO PDB, NO CONTEXT TO WORRY ABOUT
SKIPL .PDCTX##(W) ;CONTEXT SAVE IN PROGRESS?
FINOU1: PUSHJ P,DLTSLE ;DELETE SWAP LIST ENTRY
MOVE R,JBTADR##(J) ;XWD PROTECT,,RELOC. FOR LOW SEG
PUSHJ P,CTXSCD## ;CALL CONTEXT SERVICE. IT COULD EITHER:
; 1. RETURN CORE IF DOING A NORMAL SWAP OUT
; 2. RETURN CORE IF THIS IS A HIGH SEGMENT
; 3. FIXUP JOB'S PAGE MAP SO JOB REMAINS IN
; CORE AND ON THE SWAPPER (CONTEXT SAVED)
FINOU0: PUSHJ P,FINOT## ;IS THIS A HIGH SEG WHICH WAS JUST SWAPPED OUT?
JRST [MOVEI T2,SWP2 ;YES, J SET TO LOW SEG NO, GO TRY SWAP IT OUT
MOVSI T3,(JS.SIP)
ANDCAM T3,JBTST2##(J)
JRST FORCEQ ] ; NO, THIS WAS A LOW SEG, ALL SWAPPING FOR THIS USER
; IS FINISHED.
SWP1: SETZM FINISH## ;CLEAR FINISH FLAG
SWP2:
;NOTE THAT THIS CODE DOESN'T HAVE TO BE UNDER SCDLOK. SEE NOTE AT
;FININ5 FOR REASONS AND CAVEATS.
SKIPG J,JBTHSQ## ;IS THERE A HIGH SEG JOB WAITING TO FINISH?
JRST SWP9 ;NO
SWP3: HRRZS J ;YES, SEE IF WE CAN DO ANYTHING WITH IT
CAME J,FORCE## ;IS IT SCHEDULED TO SWAP OUT NOW?
CAMN J,FORCEF ;?
JRST SWP5 ;YES, JUST IGNORE HIM FOR NOW
PUSH P,J ;SAVE JOB #
PUSHJ P,FINCHK## ;WELL?
JRST SWP4 ;NO
SKIPA T1,[FIT1] ;WHERE TO GO TO IN THIS CASE
MOVEI T1,FININ3 ;AND IN THIS
EXCH T1,(P) ;STORE ADDRESS, GET OLD JOB
EXCH T1,J ;NEW JOB TO T1, OLD JOB TO J
PUSH P,T1 ;SAVE NEW JOB
MOVE T1,JBTJIL##(J) ;GET PREDECESSOR,,SUCCESSOR
HLLM T1,JBTJIL##(T1) ;STORE PREDECESSOR TO SUCCESSOR
MOVSS T1
HLRM T1,JBTJIL##(T1) ;FIX UP THE QUEUE
SETZM JBTJIL##(J) ;CLEAR
POP P,J ;RESTORE J
POPJ P, ;RETURN TO THE APPROPRIATE PLACE
SWP4: POP P,J ;RESTORE J
SWP5: HRRE J,JBTJIL##(J) ;NEXT
JUMPG J,SWP3
SWP9:
IFN FTMP,<
PUSHJ P,SCDOWN## ;OWN INTERLOCK?
CPUNLK (SCD) ;YES, GIVE UP IN CASE WE EXIT HERE
>
SKIPE J,FORCE## ;WAITING FOR JOB TO BECOME SWAPPABLE?
JRST FORCEL ;YES, TRY TO SWAP OUT
SCANIN: SKIPE SWPCNT## ; ANY SWAPPING I/O DONE (PROBABLY ONLY IF
; ONE PASS HAS ALREADY BEEN MADE THROUGH THE
; MAJOR LOOP OF THE SWAPPER)
JRST SWAP1 ;YES, GO PROCESS THAT FIRST
SKIPE J,FIT## ;NO-- WAITING TO FIT JOB IN CORE?
JRST FIT1 ;YES, TRY TO SWAP IN
IFN FTLOCK,<
SKIPE J,LOCK## ;WAITING TO LOCK A JOB IN CORE?
JRST CPOPJ1## ;YES, TRY TO POSITION JOB FOR LOCKING
> ; END OF CONDITIONAL ASSEMBLY ON FTLOCK
SKIPE MIGRAT ;IF ANY MIGRATING TO DO
JRST CHKMIG ;DO THAT FIRST
;SCAN FOR INPUT
SETZM SWPFAR ;ASSUME THIS SCAN WILL NOT BE FAIR
MOVEI U,ISCAN##
MOVE T1,SWPIFC ;NUMBER OF UNFAIR INPUT SCANS
CAML T1,MAXIFC ;REACH MAXIMUM?
MOVEI U,ISCAN1## ;YES, USE SECONDARY
IFN FTMP,<
PUSHJ P,SCDOWN## ;ALREADY OWN THE SCHEDULER INTERLOCK?
CAIA ;YES, DON'T GET IT AGAIN
>
CPLOCK (SCD)
IFN FTNSCHED,<
SETZM BBFLAG## ;WE ARE NOT SCANNING THE BACKGROUND BATCH QUEUE YET
>
JSP T1,QSCAN
JRST [CPUNLK (SCD)
JRST ZCKXPN] ;NO INPUT TO DO--CK FOR EXPANDING JOBS
MOVE F,JBTSTS##(J) ;JOB STATUS WORD
MOVE T3,JBTST2##(J)
TLNN T3,(JS.SIP) ;FORGET THIS JOB IF SWAPPING I/O IS IN PROGRESS
TLNE F,JXPN ;EXPANDING JOB?
JRST (T2) ;DON'T SELECT FOR INPUT(CAN HAPPEN IF ZERO FORCE)
TLNE F,SWP ;ARE ALL OF THIS JOB'S SEGS IN CORE?
PUSHJ P,CKXPN## ;NO, IS HIGH SEG EXPANDING?
JRST (T2) ;YES, CONTINUE SCAN FOR SOME OTHER JOB
TLC F,NSHF ;NSHF SET AND NOT NSWP?
TLNN F,NSHF!NSWP ;?
JRST (T2) ;YES, DON'T TOUCH JOB (EG MAPBAK)
SKIPLE T3,JBTSGN##(J) ;GET HIGH SEG IF ANY
TLNN T3,SHRSEG ;ONLY SHARABLE ONES COUNT
JRST SCANI2 ;DON'T WORRY ABOUT THIS ONE
SKIPN T3,JBTSWI##(T3) ;GET JOB LAST (CURRENTLY) SWAPPED IN FOR
JRST SCANI2
HLL T3,JBTST2##(T3)
HLR T3,JBTSTS##(T3)
TDNE T3,[JS.SIP!JXPN];SOME KIND OF I/O IN PROGRESS FOR LOW SEG
;SHARING THIS HIGH SEG?
JRST (T2) ;YES, DON'T PICK
SCANI2: MOVEM J,FIT## ;NO, REMEMBER JOB (OR HI SEG) TRYING TO FIT IN
IFN FTNSCHED,<
SKIPE BBFLAG## ;IS THIS JOB FROM BACKGROUND BATCH SCAN?
JRST FITPR1 ;YES
SETZM SCNSWP## ;NO, ALLOW SCAN POINTER TO ADVANCE
JRST FITPR2
FITPR1: MOVEM J,BBFIT## ;REMEMBER IT
FITPR2:>
CAIN U,FISCAN## ;JOB FROM PQ1 (NOT IN CORE)?
AOS SWPIFC ;YES. COUNT UP
SKIPE SWPFAR ;DID THIS SCAN REACH FAIR TERRITORY
SETZM SWPIFC ;YES. CLEAR COUNT
CPUNLK (SCD)
JRST FIT1A ; TRY TO FIT JOB INTO CORE
; (BYPASS SECOND CALL TO CKXPN FOR SPEED)
;HERE TO TRY TO FIT A SWAPPED JOB (OR HI SEG) INTO CORE (AGAIN)
FIT1::
IFN FTRSP,<
SETOM SWPPLT## ;SET POTENTIALLY LOST TIME FLAG FOR SWAPPER
>
MOVEM J,FIT## ;REMEMBER JOB (OR HI SEG) TRYING TO FIT IN
PUSHJ P,CKXPN## ;IS THIS A LOW SEG WHICH IS CONNECTED TO
; AN EXPANDING HIGH SEG? (SHOULD BE RARE)
JRST NOFITZ ;YES. DESELECT IT AND GET OUT.
FIT1A: LDB P1,IMGIN## ;CORE SIZE NEEDED FOR THIS SEG (0 IF LOW SEG
; OR HIGH SEG WITH UWP OFF ALREADY IN CORE
LDB T3,IFYPGS##
SKIPN T3
LDB T3,NFYPGS##
CAILE J,JOBMAX## ;ON LOW SEGMENT SWAP-IN, MUST ALSO ALLOCATE
JRST FIT1A1
ADD P1,T3 ; A USER PAGE MAP PAGE SO ADD THAT TO
; TOTAL CORE REQUIRED TO SWAP IN JOB OR LOW SEGMENT
LDB T3,NZSICN## ;# OF NZS MAPS NEEDED
SKIPN T3
LDB T3,NZSSCN## ;# ALREADY HAVE
ADDI P1,(T3)
FIT1A1: SKIPE JBTADR##(J) ;IS LOW OR HIGH SEG ALREADY IN CORE?
MOVEI P1,0 ;YES (RARE) CAN HAPPEN IF JOB IN CORE EXPANDS
; DURING LOW SEG SWAP IN SO HIGH SEG COULD NOT
; FIT AND COUND NOT FIND ENOUGH JOBS TO SWAP OUT
;;(SO CLEARED FIT AT NOFIT).
PUSHJ P,FITSIZ## ;COMPUTE AMOUNT OF CORE NEEDED TO BRING IN
; 1. THIS JOBS LOW SEG AND HIGH SEG
; 2. THIS JOBS LOW SEG(HIGH ALREADY IN OR NONE)
; 3. THIS HIGH SEG BECAUSE LOW SEG ALREADY IN
;WILL LOW SEG FIT IN FREE+DORMANT+IDLE CORE?
JRST [PUSHJ P,BPSLST## ;DUMP "IN" QUEUE
JRST SCNOUT] ;NO,WILL NOT FIT EVEN IF ALL DORMANT SEGS DELETED
; P1=TOTAL CORE NEEDED(IN K)
FIT1B: CAMG P1,BIGHOL## ;YES, WILL THIS SEG FIT IN BIGGEST HOLE OF FREE CORE
; WITHOUT DELETEING ANY DORMANT OR IDLE SEGS?
; (P1 RESTORED TO SIZE FOR JUST THIS LOW OR HIGH SEG)
; BIGHOL CONTAINS THE NUMBER OF FREE PAGE ON
; THE KI10 RATHER THAN THE LARGEST SET OF
; CONTIGUOUS FREE PAGES
JRST SWAPI ;YES, GO SWAP IN THIS LOW OR HIGH SEG
MOVE T3,P1 ;AMOUNT NEEDED TO T3
PUSHJ P,FRPCR## ;CAN IT BE MADE AVAILABLE FROM "OUT" QUEUE?
CAIA ;NO, TRY DELETING A DORMANT SEGMENT
JRST SWAPI ;YES, GO DO THE SWAP IN
PUSHJ P,FRECR1## ;NO, GO DELETE ONE DORMANT OR IDLE SEG IN CORE
; (THERE MUST BE AT LEAST ONE, OTHERWISE
; CORTAL WOULD EQUAL BIGHOL).
; SKIP RETURN (USUAL) EXCEPT IF AN IDLE SEGMENT
; WAS FOUND WITH NO COPY ON DISK (UWP OFF).
JRST FORIDL ; GO SWAP OUT IDLE HIGH SEG WITH NO DSK COPY.
JRST FIT1B ; ONE DORMANT OR IDLE SEGMENT HAS BEEN DELETED, GO
; TRY TO SWAP IN NOW.
JRST SCNOUT ;MEMORY IS FRAGMENTED AND THERE ARE NO
;DORMANT HIGH SEGMENTS OR HOLES. SCAN FOR OUTPUT
;HERE ON SWAP OUT ERROR
;CANNOT BE MEMORY PARITY ON CHANNEL READ BECAUSE ARR INTERRUPTS
; OR PROCESSOR STOPS WHEN CONTROLLER ROUTINE TOUCHES BAD PARITY.
OUTERR: TRNN S,IOCHMP ;CHANNEL (READ) MEMORY PAR ERROR?
JRST OUTER1 ;NO, ERROR ON DISK (WRITE)
PUSHJ P,SWPRC1 ;RECORD ERROR FLAGS AND NO. OF SWAP ERRORS
PUSHJ P,HGHSWE## ;IF HIGH SEG, PRINT ERROR FOR ALL JOBS USING
JRST OUTER0 ;YES, ALL JOBS USING HIGH SEG GOT ERROR MESSAGE
MOVEI T2,JOBPFI##+1 ;NO, TEMP UNTIL GET REL ADR OF PAR AREA?
CAIG T2,JOBPFI## ;IS ERROR IN PROTECTED PART OF JOB DATA
PUSHJ P,[PUSHJ P,CHGSWP ;YES, RETURN DISK SPACE
; CANNOT TRUST JOB DATA AREA
; INCREASE FREE VIRTUAL CORE
PJRST ZAPUSR##];CLEAR ALL HIS DDB'S, IO CHANS
PUSHJ P,SWOMES## ;PRINT ERROR MESSAGE AND STOP JOB
; "SWAP OUT CHN MEM PAR ERR"
OUTER0: MOVSI T1,(SL.CHN+SL.ERR)
ANDCAM T1,SWPLST##(P1)
JRST SWAP1 ;REENTER SWAPPER AS IF NO ERROR
; AND FINISH SWAP OUT PROCESSING
;HERE IF SWAP OUT ERROR IS ON THE DEVICE (NOT CORE MEMORY)
OUTER1: PUSHJ P,SWPREC ;RECORD ERRORS
PUSHJ P,MAPBAX## ;RESET THE MAP (SETOMT WIPED IT OUT)
JRST SWP1 ;AND CONTINUE
;SUBROUTINE TO RECORD SWAP IN/OUT ERRORS - REDUCE AMOUNT OF VIRTUAL CORE
; CALLED FROM SEGERR ON FIRST HIGH SEG ERROR
SWPREC::LDB T1,IMGOUT## ;KEEP COUNT OF NO. OF OCCURANCES
ADDM T1,SWPERC## ;AND TOTAL VIRTUAL CORE LOST IN TH
CAIG J,JOBMAX## ;HIGH SEGMENT?
ADDI T1,UPMPSZ## ;NO, THE SPACE OCCUPIED BY THE UPMP IS LOST TOO
MOVNI T1,(T1) ;DECREASE TOTAL AMOUNT OF VIRTUAL CORE
;IF THIS IS HIGH SEG
ADDM T1,VIRTAL## ;BY THE AMOUNT BEING GIVEN UP
;FALL INTO SWPRC1
;SUBROUTINE TO RECORD SWAP OUT ERROR FROM MEMORY
SWPRC1: HRRZ T1,S
IORM T1,SWPERC## ;OR IN FLAGS FOR ERROR REPORTING (18-23)
MOVSI T1,1 ;INCREASE COUNT OF NO OF SWAP ERRORS
ADDM T1,SWPERC##
HRLM J,SWPEUJ## ;SEGMENT WHICH GOT THE ERROR
POPJ P,
;NO INPUT TO DO, CHECK FOR EXPANDING JOBS
ZCKXPN: SETZM SWPIFC ;CLEAR SWAPPER FAIRNESS SCAN
IFN FTNSCHED,<
PUSHJ P,SQTEST ;POSSIBLY RESET THE PRIMARY SCAN POINTERS
>
CHKXPN: SKIPG XJOB ;ANY JOBS TO EXPAND?
JRST CHKFRE ;NO, SEE IF FREE CORE GOALS/LIMITS HAVE BEEN MET
SETZM SCNJBS ;ONLY SCAN EXPANDING JOBS
JRST SCNOU0 ;ENTER SCNOUT
;INPUT TO DO, CHECK TO SEE IF ANY JOBS JUST HAPPEN TO WANT TO EXPAND
SCNOUT: SETOM SCNJBS ;PERMIT SWAPPING OUT JOBS
SCNOU0: SETZM CORFLG ; ASSUME NORMAL SWAPPING
SKIPE J,FORCE## ;ALREADY SCANNED FOR OUTPUT, AND FOUND A JOB
; (BUT HAS ACTIVE IO, SO FINISH NOT SET YET)
JRST SCNOU1 ;YES, TRY TO FORCE IT OUT AGAIN INSTEAD OF
; SCANNING AGAIN AND POSSIBLY FINDING A DIFFERENT JOB
; AND LEAVE THIS JOB IN CORE WITH SWP BIT ON SO CAN NOT
; RUN (CAN HAPPEN ONLY IF JOBS IN CORE EXPAND
; WHILE SWAPPING LOW SEG, SO HIGH SEG NO LONGER FITS)
; BUT DO SOME CHECKING FIRST.
SKIPG T3,XJOB ;NO, ANY JOBS WAITING TO EXPAND?
JRST SCNJOB ;NO, SCAN ALL JOBS IN PRIORITY ORDER LOOKING
; FOR ONE TO SWAP OUT
MOVSI T4,XPNMPT## ;SET UP AOBJN WORD FOR SEARCH
FNDXPN: SKIPE T1,XPNMAP##(T4) ;ANY BITS IN THIS WORD?
FNDXP1: JFFO T1,FNDXP2 ;YES. FIND FIRST ONE
AOBJN T4,FNDXPN ;NO. CHECK NEXT WORD
STOPCD .+1,DEBUG,XTH, ;++XJOB TOO HIGH
SETZM XJOB ;CLEAR XJOB SO MESSAGE WILL PRINT
JRST SCNJOB ;SCAN FOR OUTPUT
FNDXP2: MOVEI J,(T4) ;GET WORD NUMBER
LSH J,5 ;TIMES 32
ADDI J,(T2) ;PLUS BIT POSITION IN WORD
MOVE F,JBTSTS##(J) ;GET JOBSTS WORD
TLC F,NSHF ;WAITING FOR SOMETHING TO HAPPEN (MAPBAK)?
TLNE F,NSHF!NSWP ;(NSHF SET BUT NOT NSWP)
;GIVES JOB NUMBER OF EXPANDING JOB
IFN FTMP,<
PUSHJ P,ANYRUN## ;STILL ON ANOTHER CPU
JRST FNDXP3 ;YES, SKIP THIS JOB FOR NOW
>
MOVSI F,(JS.HNG) ;HAS THIS JOB HUNG IN IOACT?
TDNN F,JBTST2##(J) ;...?
JRST SCNOK ;NO. PROCEED
MOVE R,JBTADR##(J) ;MUST SET UP R BEFORE CALLING ANYDEV
CAME J,.CPJOB## ;STILL CURRENT JOB(UNLIKELY)
PUSHJ P,ANYDEV## ;OR STILL ACTIVE DEVICES?
; NOTE DESTROYS ONLY F,S(AT LAST CHECK)
FNDXP3: SOJA T3,[TDZ T1,BITTBL##(T2) ;YES, CLEAR BIT FOR THIS JOB
JUMPG T3,FNDXP1 ;MORE EXPANDING JOBS?
SKIPN SCNJBS;SWAP REGULAR JOBS?
JRST FLGNUL ;NO. DONE.
JRST SCNJOB];YES. GO DO REGULAR SCAN
SCNOK: SKIPE JBTADR##(J) ;DOES THIS JOB HAVE CORE IN CORE?
JRST FORCE0 ;YES, DON'T CLEAR JXPN UNTIL THE JOB IS ON WAY OUT
SOS XJOB ;DECREMENT COUNT OF EXPANDING JOBS
PUSHJ P,XPNCLR ;CLEAR BIT IN TABLE
MOVSI F,JXPN
ANDCAM F,JBTSTS##(J) ;CLEAR EXPAND BIT IN JOB STATUS WORD
;MUST BE CLEARED AFTER BIT TABLE AND
;AFTER XJOB DECREMENTED, SINCE ACTS AS
;INTERLOCK
JRST FORCE0 ;GO TRY TO SWAP JOB OUT
CHKMIG: SKIPN SPRCNT## ;IF THE SWAPPER IS BUSY,
SKIPE SWPCNT## ;DONT TRY TO START ANYTHING
JRST FLGNUL
SKIPG J,MIGRAT## ;TRYING TO FORCE JOBS OFF A SWAPPING UNIT?
JRST CHKFRE ;NO (IPCF), SEE IF SHOULD TRY TO MAKE FOR FREE CORE
CHKMI1: MOVEI T1,(J) ;CLEAR FLAG BITS IN LEFT HALF
CAMLE T1,HIGHJB## ;YES, DONE ALL JOBS?
JRST MIGDON ;YES, THROUGH
TLNE J,100000 ;ALREADY CALLED CTXMIG?
JRST CHKM1A ;YES
PUSHJ P,CTXMIG## ;IDLE CONTEXTS IN THIS JOB?
TLZA J,200000 ;NO, REMEMBER THAT
TLO J,200000
TLO J,100000 ;(CAN'T TURN ON BEFORE BECAUSE OF CTXMIG)
CHKM1A: MOVEM J,MIGRAT## ;WE'VE GOTTEN AT LEAST THIS FAR
HRRZS J ;CLEARING LEFT HALF FLAGS
MOVE T1,JBTSTS##(J) ;NO, GET SOME INFO ON JOB
HRR T1,JBTST2##(J)
TLNE T1,SWP
JRST CHKMI2 ;IF JOB IS NOT SWAPPED,
PUSHJ P,PFHMIG## ;SEE IF MORE PAGES TO MIGRATE
JRST FORCE0 ;YES
JUMPGE J,CHKMI4 ;THIS CONTEXT CLEAR, SEE IF ANOTHER
HRRZM J,SW0JOB ;FLAG WE WANT JOB TO STOP RUNNING
MOVSI T1,JXPN ;IF THIS JOB IS EXPANDING,
TDNE T1,JBTSTS##(J) ;IT WON'T EVER RUN, THOUGH, SO
JRST CHKXPN ;CATCH IT AS AN EXPANDING JOB
JRST FLGNUL ;AND CAN'T DO ANYTHING THIS TICK
CHKMI2: TRNE T1,JS.MIG ;AND WE'RE NOT SURE IT MIGRATED FROM BAD UNIT,
JRST CHKMI5 ;SEE IF NEED TO DO OTHER CONTEXTS
HLR T1,JBTST2##(J) ;OTHER PART OF JBTST2
CAME J,FIT## ;SWAPPED NOW?
TRNE T1,(JS.SIP) ;SWAPPING I/O IN PROGRESS?
JRST FLGNUL
JRST FIT1 ;ANOTHER SWAPPING UNIT
CHKMI4: MOVEI T1,JS.MIG
IORM T1,JBTST2##(J)
CHKMI5: MOVSI T1,200000 ;NEED TO CALL OTHER CONTEXTS?
TDNN T1,MIGRAT## ;?
AOJA J,CHKMI1 ;NO CONTEXTS TO MIGRATE
SKIPE JBTADR##(J) ;THIS CONTEXT OUT?
JRST FORCE0 ;NO, FORCE IT OUT
PUSHJ P,CTXMGN## ;NEXT CONTEXT
AOJA J,CHKMI1 ;NO MORE
MOVEI T1,JS.MIG ;IN CASE LEFT ON FROM A PREVIOUS MIGRATE
ANDCAM T1,JBTST2##(J) ;CLEAR IT SO WE ACTUALLY DO CHECK
TLO J,300000 ;CALLED CTXMIG ALREADY, MORE CONTEXTS TO DO
JRST CHKM1A
MIGDON: HRRZ J,SEGPTR## ;POINT TO HIGH SEGS
MIGDN0: CAILE J,JBTMAX## ;DONE?
JRST MIGDN4 ;YES
MOVE T1,JBTIMO##(J) ;GET DISK SIZE
JUMPE T1,MIGDN3 ;NO CORE ON DISK
PUSHJ P,CHSWPU ;SEE IF ANY BAD PIECES
JRST MIGDN5 ;YES, SET TO GET RID OF THEM
MIGDN3: AOJA J,MIGDN0 ;CHECK NEXT
MIGDN4: SETZM MIGRAT## ;DONE-CLEAR FLAG
JRST FLGNUL ;EXIT SWAPPER
;HERE TO SEE IF ANY PIECES OF A HIGH SEGMENT ARE ON THE BAD UNIT
;CALL WITH J=SEGMENT NUMBER (MUST BE HIGH SEGMENT)
CHSWPU: PUSHJ P,SAVT##
MOVE T1,JBTSWP##(J) ;GET DSK ADDR OR FRAGMENT TABLE
SKIPL T2,T1 ;COPY TO T2; IS IT FRAGMENTED?
JRST CHSWU2 ;NOT FRAGMENTED
CHSWU1: SKIPN T2,(T1) ;GET FRAGMENT ENTRY
PJRST CPOPJ1## ;DONE
JUMPLE T2,[HRRZI T1,(T2)
JRST CHSWU1]
TLO T1,400000 ;REMEBER IT'S FRAGMENTED
CHSWU2: PUSH P,T1 ;SAVE FRAGMENT PTR (OR DISK ADDR)
LDB T1,[POINT 3,T2,17] ;GET UNIT
SKIPLE T1,SWPTAB##(T1) ;IS IT STILL THERE?
SKIPGE UNIFKS##(T1) ;??
JRST TPOPJ## ;NO GIVE FAIL RETURN
POP P,T1 ;RESTORE FRAGMENT PTR (OR DISK ADDR)
TLZN T1,400000 ;FRAGMENTED?
PJRST CPOPJ1## ;NO, DONE
AOJA T1,CHSWU1
;HERE IF WE FIND THERE ARE PIECES ON A BAD UNIT
MIGDN5: MOVSI T1,SWP ;IS SEGMENT SWAPPED OUT?
TDNN T1,JBTSTS##(J) ;??
JRST MIGDN7 ;NO JUST CLEAR SWAP SPACE
MOVSI T1,MJBTMX## ;LOOK TO SEE IF BEING SWAPPED IN
MIGDN6: SKIPN SWPLST(T1)
AOBJN T1,MIGDN6 ;THIS ENTRY FREE
JUMPGE T1,MIGDN8 ;NOT BEING BROUGHT IN OR OUT
HRRZ T2,SW3LST##(T1) ;GET SEG # THIS ENTRY BELONGS TO
CAIN T2,(J) ;US
JRST FLGNUL ;YES, WAIT FOR IT TO SETTLE
AOBJN T1,MIGDN6 ;OR CHECK NEXT ENTRY
JRST MIGDN8 ;OK TO DELETE OR BRING IT IN
;HERE IF CAN DELETE COPY (NOT SWAPPED OUT)
MIGDN7: PUSHJ P,ZERSWP ;CLEAR IT
JRST MIGDN3 ;AND CHECK NEXT ENTRY
;HERE IF NOT ACTIVELY SWAPPING, BUT SEGNENT IS SWAPPED OUT
;DELETE IF DORMANT, ELSE SWAP IN
MIGDN8: SKIPGE JBTSTS##(J) ;IF THE SEGMENT ISN'T DORMANT
JRST MIGDN9 ;THEN SWAP IT IN
PUSHJ P,CLRNAM## ;ELSE DELETE IT
JRST MIGDN3
MIGDN9: HRRZ T1,JBTSWI##(J)
SKIPGE T1,JBTSGN##(T1)
JRST MGDN10
HRRZI J,(J) ;BE SURE RIGHT HALF ONLY
CAIN J,(T1)
JRST MGDN12
MGDN10: MOVE T1,HIGHJB ;FIND SOMEBODY WHO HAS IT
MGDN11: SKIPLE T2,JBTSGN(T1)
CAIE J,(T2) ;IS IT US?
SOJG T1,MGDN11 ;NO, LOOK FOR ANOTHER
HRRZM T1,JBTSWI##(J) ;MAKE SURE THERE'S SOME CONSITANCY HERE (BSN)
;(DON'T CARE IF NONE)
MGDN12: MOVEM J,MIGRAT##
JRST FIT1
CHKFRE: ;HERE TO SEE IF SHOULD MAKE SOME FREE CORE
SKIPN SPRCNT## ;SWAPPER BUSY?
SKIPE SWPCNT## ;...
JRST FLGNUL ;YES
SKIPN FIT ;OR TRYING TO GET BUSY?
SKIPE FORCE ;...
JRST FLGNUL ;YES. EXIT SWAPPER
MOVE T1,BIGHOL## ;NO. SHOULD WE MAKE SOME FREE SPACE?
CAML T1,FREMIN ;LESS THAN DESIRED?
JRST FLGNUL ;NO. EXIT SWAPPER
ADD T1,PAGINC## ;NUMBER OF PAGES IN THE "IN" QUEUE
CAML T1,FREMIN ;WOULD SWAPPING THEM OUT MAKE BIGHOL BIG ENOUGH?
JRST BPSLST## ;YES, GO SWAP OUT THE "IN" QUEUE
MOVE T1,CORTAL## ;DON'T MAKE TOO MUCH EITHER
CAML T1,MAXTAL ;IS THERE TOO MUCH FREE PLUS DORMANT?
JRST FLGNUL ;YES. EXIT SWAPPER
SETOM CORFLG ;NO. WANT TO MAKE MORE
SETZM MAXJBN## ;PRESET STUFF FOR SCNCOR
SETZM SUMCOR## ;
IFN FTPSCD,<SETZM WASTSZ> ;
JRST FRCOUT ;SO GO BACK AND SCAN FOR OUTPUT WITH FIT=0
FLGNUL:
IFN FTRSP,<
SETOM SWPNUF## ;TELL CLOCK1 THAT SWAPPER WILL BE
;IDLE THIS TICK
IFN FTMP,<
PUSHJ P,SCDOWN##
CPUNLK (SCD)
>
>;END IFN FTRSP
POPJ P, ;RETURN
;EXIT SWAPPER IF NO RESPONSE DATA
;HERE IF WE ARE TRYING TO FORCE OUT A JOB LEFT OVER FROM LAST TICK.
SCNOU1: CAME J,FORCEF ;IS THIS A JOB WE MUST RUN TO FREE A SHAR. RESOURCE?
JRST FORIDL ;NO, INSURE SWAP GETS SET
JRST FORCEL ;YES, SEE IF WE CAN GET IT BEFORE TURNING ON SWAP, WHICH
; WOULD PREVENT US FROM GETTING IT BACK
; IF THE JOB DID HAVE IT
;SCAN FOR JOB TO OUTPUT IN ORDER TO MAKE ROOM FOR JOB TO COME IN
;SIZE(IN K) NEEDED TO GET THIS USER IN CORE IS IN P1(FITSIZ)
;JUST LOW SEG SIZE IF NO HIGH OR HIGH ALREADY IN, JUST HIGH IF LOW ALREADY IN,
;OR SUM IF BOTH MUST BE SWAPPED IN
SCNJOB: SKIPE SPRCNT## ;SWAPPING I/O ALREADY IN PROGRESS?
JRST CHKXPN ;YES, DON'T LOOK FOR OUTPUT NOW
PUSHJ P,BPSLST## ;IF WE NEED ROOM, DUMP THE "IN" QUEUE NOW
SCNJBA: MOVNI J,DISQ## ; SEE IF HOLDING SOME DORMANT/IDLE AROUND
SCNJBB: HRRE J,JBTDIQ##(J) ; GET OLDEST IN QUEUE
JUMPLE J,SCNJBC ; USE CORTAL IF NONE
SKIPN JBTADR##(J) ; BUT MAKE SURE IN CORE
JRST SCNJBB ; NOT. LOOK AT NEXT
MOVE T1,UPTIME## ; SYSTEM UPTIME MINUS
SUB T1,JBTIDT##(J) ; TIME OLDEST IN CORE WENT
CAMG T1,SGTLIM ; IDLE/DORMANT. 'YOUNG'?
SKIPA F,BIGHOL## ; YES. USE BIGHOL FOR SIZE COMPUTATIONS
SCNJBC: MOVE F,CORTAL## ; INITIALIZE FREE CORE COUNTER
ADD F,PAGOUC## ;INCLUDE NUMBER OF PAGES ON OUT QUEUE
MOVEM F,SUMCOR##
IFN FTPSCD,<
SETZM WASTSZ ;CLEAR PAGES WASTED ON THIS SCAN
>
SETZM MAXJBN## ;CLEAR SWAP OUT JOB NUMBER
MOVE J,FIT## ;JOB (OR HI SEG) BEING FIT IN
PUSHJ P,FITHPQ## ;GET JOB NO. IF TRYING TO FIT A HIGH SEG
; (IN CASE HIGH PRIORITY JOB HAMPERED BY
; USER IN CORE EXPANDING DURING HIS SWAP IN
MOVEM J,FITLOW ;REMEMBER JOB NUMBER WE ARE FITTING
IFN FTHPQ,< ;HIGH PRIORITY QUEUES?
LDB T4,HPQPNT## ;GET CURRENT HIGH PRIORITY Q NO, 0 IF NONE
MOVEI T1,JS.TFO ;FORCED OUT BY TIMER?
TDNE T1,JBTST2##(J) ;...
SETZ T4, ;YES. DON'T IGNORE ICPT
> ; END OF CONDITIONAL ASSEMBLY ON FTHPQ
LDB T1,PJBST2## ;GET JOB PHYSICAL QUEUE
CAIL T1,CMQ ;IS IT CMQ OR PROCESSOR QUEUE?
SKIPA T1,OSCNTQ##(T1) ;YES. GET TERMINATOR FROM TABLE
FRCOUT: MOVE T1,OSCANT## ;NO. ALL OTHERS TERMINATE AT SAME PLACE
MOVEM T1,SCNSTP ;STORE WHERE TO STOP SCAN
MOVEI U,OSCAN## ;SCAN ALL JOBS RANKED IN PRIORITY TO BE SWAPPED OUT
IFN FTMP,<
PUSHJ P,SCDOWN## ;ALREADY OWN THE SCHEDULER INTERLOCK?
CAIA ;YES, DON'T GET IT AGAIN
>
CPLOCK (SCD)
JSP T1,QSCAN
JRST [CPUNLK (SCD)
JRST NOFIT] ;NO MORE JOBS LEFT, CANNOT FIT JOB IN CORE
CAMLE U,SCNSTP ;YES. HAVE WE REACHED END OF SCAN?
SKIPE INFLG ;YES. IGNORE IF IMPATIENT
SKIPA F,JBTSTS##(J) ;NOT END OF SCAN OR TIMER WENT OFF
JRST [CPUNLK (SCD)
JRST NOFIT] ;CAN'T FIT JOB IN, GO TELL TIMER
CAME J,FITLOW ;DON'T SWAP OUT SWAP-IN JOB
SKIPN JBTADR##(J) ;DOES JOB HAVE LOW SEG PHYSICAL CORE?
JRST (T2) ;NO, CONTINUE SCAN TO FIND ANOTHER JOB
; (HIGH SEG ALREADY SWAPPED OUT IF NO LOW
; SEG IN CORE)
MOVSI T3,(JS.SIP) ;
TDNE T3,JBTST2##(J) ; DON'T TRY TO SWAP OUT A JOB
JRST (T2) ; WHICH IS ON ITS WAY IN/OUT
HRRZ W,JBTPDB##(J) ;GET PDB ADR
IFN FTLOCK,<
TLNN F,NSWP ;NON-SWAPPABLE?
JRST SCNJ0A ;NO, SKIP LOCK CHECK
TLNN F,SWP ;ALREADY SWAPPED?
SKIPG T3,JBTSGN##(J) ;ANY HIGH SEGMENT?
JRST (T2) ;JOB CANNOT BE SWAPPED
MOVE T3,JBTSTS##(T3) ;STATUS WORD FOR SEGMENT
TLNE T3,NSHF!NSWP ;SEGMENT LOCKED?
JRST (T2) ;YES, CONTINUE SCAN
SCNJ0A:
> ;END IFN FTLOCK
TLC F,NSHF ;COMPLEMENT NSHF
TLZN F,NSWP!NSHF ;WAS NSHF ON AND NSWP OFF?
JRST (T2) ;YES, SOMEONE DOESN'T WANT HIM OUT (EG MAPBAK)
IFN FTNSCHED,<
SKIPE BBFIT## ;IS BACKGROUND BATCH TRYING TO FIT?
JRST SCNJB0 ;YES, LOOK AT ICPT
MOVSI T3,(JS.BBJ) ;BACKGROUND BATCH BIT
TDNE T3,JBTST2##(J) ;IS SCANNED JOB IN BACKGROUND BATCH?
JRST SCNJB1 ;YES, IGNORE ICPT
>
JUMPE W,SCNJB1 ;NO PDB, FORGET PROTECT TIME
SCNJB0: SKIPGE CORSCD ;CORE SCARCE
PUSHJ P,CLRIPT ;NO, IGNORE ICPT
HRRZ T3,MIGRAT##
SKIPE T3
CAME T3,FITLOW
TLNE F,SWP ;NO ICPT IF SWP BIT SET
JRST SCNJB1 ;DON'T CHECK ICPT
.SKIPL .PDIPT##(W) ;PROTECTED TIME PAST?
IFN FTHPQ,<
JUMPE T4,(T2) ;NOT HPQ BEING FIT
>
IFE FTHPQ,<
JRST (T2)
>
SCNJB1: TLNE F,NSWP ;YES, IS THIS JOB NOT TO BE SWAPPED?
JRST (T2) ;YES,CONTINUE SCAN TO FIND ANOTHER
IFN FTNSCHED,<
SKIPGE JBTST2##(J) ;IS SCANNED JOB IN A PROCESSOR QUEUE?
SKIPN BBFIT## ;ARE WE FITTING BACKGROUND BATCH?
JRST SCNJB2 ;NOT PROCESSOR QUE OR NOT BACKGROUND BATCH
MOVSI T3,(JS.BBJ) ;BACKGROUND BATCH IS TRYING TO FIT
TDNN T3,JBTST2##(J) ;SCANNING A TIMESHARE JOB?
JRST (T2) ;YES, REJECT JOB
SCNJB2:>
MOVE T3,.PDIPL##(W) ;GET IPCF WORD
TLNE T3,-1 ;OWN SOMEBODY'S INTERLOCK?
JRST (T2) ;YES, CAN'T SWAP
MOVSI T3,(JS.HNG) ;HAS THIS JOB HUNG WITH IOACT?
TDNN T3,JBTST2##(J) ;..?
JRST SCNJB3 ;NO. OK
MOVSI T3,JXPN ;YES. IS IT STILL?(IF JXPN IS ON
;IT MUST HAVE BEEN STILL STUCK AT
TDNN T3,JBTSTS##(J) ;FNDXPN. DON'T TOUCH IT)
CAMN J,.CPJOB## ;CURRENT JOB?
JRST (T2) ;PICK SOMEONE ELSE
MOVE R,JBTADR##(J) ;MUST SET UP R BEFORE CALLING ANYDEV
PUSHJ P,ANYDEV## ;SHOULDN'T BOTHER OUR ACS(JUST F,S)
JRST (T2) ;STILL STUCK
SCNJB3: ;
IFN FTHPQ,< ;
LDB F,HPQPNT## ; GET JOBS HPQ
SKIPE CORFLG ; JUST MAKING ROOM?
SKIPL JBTSTS##(J) ; AND NOT STOPPED?
CAIA ; NO.
JUMPG F,(T2) ; YES. DON'T MAKE IT FROM HPQ. LIKELY TO WAKE
> ;
MOVE F,JBTIMO##(J) ;JBTIMO NON-ZERO ONLY IF EXPANDING OR
JUMPN F,[MOVSI F,JXPN ; WAITING FOR A HI SEG SWAP IN
TDNE F,JBTSTS##(J) ;EXPANDING?
JRST .+1 ;YES, HE'S A SUPER CHOICE
SKIPN INFLG ;REALLY NEED THE CORE BAD?
JRST (T2) ;NOT YET, THERE MIGHT BE A BETTER CHOICE
PUSH P,T1
PUSHJ P,UNSWP1 ;LO SEG IN CORE BUT SWAP IN DIDN'T
; FINISH BECAUSE HI SEG DIDN'T MAKE
; IT. MAKE JBTIMO RIGHT AND
POP P,T1
JRST .+1] ; SWAP OUT THIS LOW SEG
LDB F,IMGIN##
LDB T3,NFYPGS## ; FUNNY PAGES PLUS UPMP
ADD F,T3 ; MAKE ESTIMATE MORE ACCURATE
PUSHJ P,FORSIZ## ;INCREASE SIZE(F) BY HIGH SEG SIZE/# IN CORE LO SEGS +1
SKIPE MAXJBN## ;PICKED ONE YET?
JRST FORCE2
IFN FTMP,<
PUSHJ P,ANYRUN## ;JOB CURRENTLY RUNNING ON CPU1?
JRST [SKIPL CORSCD ;IF CORE IS SCARCE,
MOVEM J,SW0JOB ;DON'T LET THIS JOB HOG IT BY
JRST (T2)] ;RUNNING CONTINUOUSLY ON ANOTHER CPU
;YES, DON'T SELECT THIS JOB
; SINCE IT MAY HAVE A HI SEG WITH
; AN IN-CORE COUNT OF 1 WHICH COULD
; GET DELETED BY FORHGH
>
PUSH P,J ;SAVE J
SKIPG J,JBTSGN##(J) ;A REAL HIGH SEGMENT?
JRST FORCE3 ;NO
PUSH P,F ;SAVE F
PUSHJ P,ANYSAV## ;MAKE SURE THIS CAN SWAP
JRST [POP P,F ;RESTORE SIZE
POP P,J ;AND JOB
MOVEM J,SW0JOB ;KEEP HIM FROM HOGGING CORE ON CPU1
JRST (T2)] ;AND REJECT JOB
POP P,F ;RESTORE SIZE
FORCE3: POP P,J
MOVEM J,MAXJBN## ;NO. SAVE JOB NUMBER
ADDM F,SUMCOR## ; ADD TO TOTAL
IFN FTPSCD,< ;
SKIPL JBTST2##(J) ; IS JOB IN A PROCESSOR QUEUE?
ADDM F,WASTSZ ; NO. TOTAL IT
> ;
CAMG P1,SUMCOR## ; FOUND ENOUGH CORE FOR JOB?
JRST FORC2A ; YES, GO TO IT
MOVE T3,JBTSTS##(J) ; GET JOB STATUS
SKIPN CORFLG ; JUST MAKING SPACE?
TLNN T3,RUN+CMWB ; OR STOPPED AND NOT CMW?
JRST FORCE5 ; YES. THROW IT OUT NOW
JRST (T2) ; KEEP MAKING ROOM
FORCE2: ADDM F,SUMCOR## ;ADD TO TOTAL
IFN FTPSCD,<
SKIPL JBTST2##(J) ;IS JOB IN A PROCESSOR QUEUE?
ADDM F,WASTSZ ;NO. TOTAL IT
>
CAMLE P1,SUMCOR## ;FOUND ENOUGH CORE FOR JOB TO BE FIT IN?
JRST (T2) ;NO. LOOK FOR MORE
FORC2A: ;
IFN FTNSCHED,<
SKIPN BBFIT## ;DID WE JUST FIT A BACKGROUND BATCH JOB?
JRST FORCE4 ;NO, TIMESHARING JOBS ALREADY ZEROED SCNSWP
SETZM SCNSWP## ;YES, NOW WE CAN ALLOW SCAN POINTER TO ADVANCE
MOVEM T2,SCNBBS## ;SAVE T2
MOVE T2,UPTIME## ;CURRENT TIME
ADD T2,SCDBBS## ;PLUS TIME INTERVAL BETWEEN BB SWAPS
EXCH T2,SCNBBS## ;TIME WE CAN SWAP IN NEXT BB JOB
FORCE4:
>
IFN FTPSCD,<
PUSHJ P,CNTWST ;COUNT THE WASTE
>
FORCE5: MOVE J,MAXJBN## ; YES, SWAP OUT FIRST
SKIPE INFLG ;TIMER GONE OFF?
SKIPL JBTST2##(J) ;YES. IS JOB IN PROCESSOR QUEUE?
JRST FORC00 ;NO. GO AHEAD
MOVEI F,JS.TFO ;YES. SET FORCED BY TIMER BIT
IORM F,JBTST2##(J)
JRST FORC00 ;AND DO PROPER SKIP ENTER OF FORCE0
;HERE FROM SCNOUT OR LOCK
FORCE0::MOVEI T2,FLGNUL ;GET READY TO FLAG SWAPPER NULL TIME IF ACTIVE DEVICES
FORC00: PUSHJ P,ANYSAV## ;NO CAN THIS JOB BE STOPPED IN ORDER TO DO SWAP?
JRST (T2) ;NO, NSWP OR NSHF SET(DISPLAY,REAL TIME) OR
; SAVE OR GET IN PROGRESS WITH DEVICE STILL ACTIVE
; LOOK FOR AN OTHER JOB TO SWAP
CAILE J,JOBMAX## ;HIGH OR LOW?
JRST FORCEA ;LOW. SKIP SOME WORK
MOVSI T1,(JS.HNG) ;WAS THIS JOB HUNG IN IOACT?
TDNE T1,JBTST2##(J) ;...?
JRST [SKIPN R,JBTADR##(J) ;IN CORE?
JRST FORC0A ;NO, CONTINUE CHECKING
PUSHJ P,ANYDEV## ;IS JOB STILL HUNG?
SKIPA J,MAXJBN## ;YES, LOOK FOR ANOTHER
JRST [IFN FTMP,<
PUSHJ P,SCDOWN##
CPUNLK (SCD)>
JRST SWAPO] ;NO,SWAP IT OUT
JRST 0(T2)]
SKIPN MOFLPG## ;DON'T WORRY ABOUT RESOURCES IF SETTING MONITOR
; MEMORY OFF LINE
PUSHJ P,FLSDR## ;ANY SHAREABLE DISK RESOURCES?
JRST FORCEA ;HIGH SEG OR NO RESOURCES - SO OK
MOVEM J,FORCE## ;SET FOR LATER RETRIES
MOVEM J,FORCEF ;AND FLAG THE PROBLEM
FORC0A: JRST FLGNUL ;QUIT FOR NOW SINCE CAN'T SWAP HIM
FORCEA:
PUSH P,T2 ;FORHGH COULD DESTROY T2
PUSHJ P,FORHGH## ;IS THERE A HIGH SEG TO BE WRITTEN BEFORE
; TRYING TO SWAP OUT LOW SEGMENT?
; WRITE HIGH SEG IF ALL OF THE FOLLOWING ARE TRUE:
; 1. JOB HAS A HIGH SEG AND
; 2. IT HAS NOT BEEN SWAPPED FOR THIS USER
; (SWP=0 FOR JOB)
; 3. IT IS IN CORE(NOT XPANDH)
; 4. IF IN-CORE COUNT IS EXACTLY 1 MEANING
; THIS ONLY USER USING IN CORE
; 5. HIGH SEG NOT ON DISK YET
; 6. THIS HIGH SEG IS NOT THE SAME ONE AS JOB
; BEING FITTED IN IS GOING TO WANT
; RETURN HIGH SEG NO. IN J IF YES, OTHERWISE
; RETURN LOW SEG NO.
; IF JOB JUST HAS LOW SEG, SHF BIT IS SET IN JBTSTS
; FOR JOB SO IO WILL STOP NEXT BUFFER
POP P,T2
CAIA
;HERE FROM LOKCON TOO TO FORCE OUT IDLE HIGH SEG
FORIDL::MOVEI T2,SWP2
MOVSI F,SWP ;SET SWAPPED OUT BIT FOR LOW OR HIGH SEG
IORM F,JBTSTS##(J) ;SCHEDULER WILL NO LONGER RUN THIS JOB
; SET SHF BIT IF ONE SEG SOFTWARE, SO IO WILL
; STOP AFTER NEXT BUFFERFUL.
; HERE TO FORCE OUT IDLE HIGH SEG WHEN IT
; HAS NO COPY ON DISK (UWP OFF)
CAIA
FORCEL: MOVEI T2,SWP2
HRRZS J ;CLEAR LEFT HALF CRUFT
MOVSI T3,(JS.SIP) ;BE SURE I/O NOT IN PROGRESS
CAIG J,JOBMAX ;IS IT A JOB?
TDNN T3,JBTST2(J) ;YES, SIP ON?
FORCEQ: CAMN J,FIT## ;SAME AS FIT JOB (HPQ)
JRST [SETZM FORCE## ;YES, DESELECT AND TRY AGAIN
SETZM FORCEF
JRST (T2) ]
FORCEM: MOVEM J,FORCE## ;ASSUME NOT SWAPPABLE--IS IT?
FORCE1:
IFN FTMP,<
PUSHJ P,SCDOWN##
CPUNLK (SCD)>
IFN FTKL10&FTMP,<
PUSHJ P,SWPCSH## ;JOB MUST BE RUNNABLE W.R.T. CACHE IN ORDER
; TO SWAP IT OUT, SINCE SOME OF IT MAY
; ONLY EXIST ON ANOTHER CPU'S CACHE
JRST FLGNUL ;NO GOOD, DO NOTHING THIS TICK, WAIT
; FOR OTHER CPU TO SWEEP ITS CACHE
; (HOPE THIS DOESNT HAPPEN TOO OFTEN)
>;END IFN FTKL10&FTMP
SKIPN FORCEF ;TRYING TO SWAP GUY WITH DISK RESOURCE?
JRST FORCEB ;NO. PROCEED NORMALLY
PUSHJ P,FLSDR## ;YES. DOES HE STILL HAVE IT
CAIA ;NO. SWAP HIM
JRST FLGNUL ;YES. TRY LATER
SETZM FORCEF ;CLEAR FLAG
JRST FORCEA ;COMPLETE THE WORK SKIPPED EARLIER
FORCEB: SKIPN R,JBTADR##(J) ;LOC. IN PHYSICAL CORE, IS CORE
; ASSIGNED IN MEMORY?
JRST SWAPO ;NO, CANNOT HAVE ACTIVE DEVICES
CAME J,.CPJOB## ;IF THIS IS CURRENT JOB, WAIT UNTIL
; PROTECTED AREA IS MOVED BACK TO JOB DATA AREA
PUSHJ P,ANYDEV## ;ANY ACTIVE DEVICES?(2ND HALF OF ANYACT ROUT.)
JRST NOFORC ;YES--START HUNG TIMER AND WAIT FOR I/O TO STOP
PUSHJ P,BPSLST## ;TRY TO DUMP THE "IN" QUEUE
;(EVEN IF JOB HAS NO PAGES THERE)
CAILE J,JOBMAX## ;HIGH SEG?
JRST SWAPO ;YES, NO PAGES ON QUEUES THEN
PUSHJ P,JOBNQ## ;ANY PAGES ON THE QUEUES?
JRST FLGNUL ;YES, MUST DELAY
;SWAP OUT LOW OR HIGH SEGMENT
SWAPO: SETZM OUFLGJ ;CLEAR TIMER
CAILE J,JOBMAX## ;IS THIS A LOW SEG?
JRST SWAPO0 ;NO
PUSHJ P,DLOLST ;DELETE JOB FROM OUTPUT SCAN LIST
PUSHJ P,DLJILS ;DELETE FROM JUST SWAPPED IN LIST
MOVSI F,(JS.HNG!JS.NNQ) ;CLEAR NO NEW QUANTA BIT, ETC.
ANDCAM F,JBTST2##(J)
MOVE T1,SCDCOR## ; PREPARE TO RESET TO CORE SCHEDULING
SKIPGE JBTST2##(J) ; IF THIS JOB IS IN A PROCESSOR QUEUE
MOVEM T1,CORSCD ; IT IS. SET CORSCD
SWAPO0: SETZM FORCE## ;CLEAR FORCE FLAG
SETZM SW0JOB ;CLEAR CPU1 SWAP FLAG
SETZM CORFLG ; ASSUME NORMAL SWAPPING
IFN FTLOCK,<
MOVE F,JBTSTS(J) ;GET SEGMENT STATUS
TLNE F,NSWP ;IS THIS SEGMENT LOCKED IN CORE?
JRST [PUSHJ P,FIXXPN ;YES, RETURN AND PRETEND IT WAS SWAPPED OUT
JRST FINOU0]
> ;END IFN FTLOCK
HLRZ F,JBTADR##(J) ;COMPUTE CORE IMAGE
JUMPE F,SWP1 ;DONT OUTPUT IF 0 CORE(JBTIMO ALREADY SET TO 0
; WHEN CORE WAS RETURNED
LDB U,IMGIN## ;HAS SIZE OF CORE NEEDED WHEN NEXT SWAPPED IN
MOVSI F,SHF ;ASSUME A LOW SEGMENT
CAIG J,JOBMAX## ;IS IT?
IORM F,JBTSTS##(J) ;YES, INDICATE SWAPPING OUTPUT IN PROGRESS
MOVE F,JBTIMO##(J) ;OUTPUT IMAGE SIZE
SKIPE F ;HAS IT BEEN SET BY XPAND?
SKIPA U,F ;YES, DON'T CHANGE IT
MOVEM U,JBTIMO##(J) ;NO, SET OUTPUT IMAGE
LDB T2,NFYPGS##
CAILE J,JOBMAX## ;A HIGH SEGMENT?
JRST SWAPOX
ADD U,T2 ;NO, ACCOUNT FOR THE UPMP
LDB T2,NZSSCN## ;# OF NZS MAPS
ADDI U,(T2)
SWAPOX: MOVE F,JBTIMO##(J) ;GET OUTPUT IMAGE SIZE
SETZB T2,JBTIMO##(J) ; ZERO JBTIMO SO IF A HIGH SEGMENT IT WON'T
; LOOK LIKE IT ALREAD HAS DISK SPACE TO DODELE
PUSHJ P,SWPSPC## ;*GET DEVICE STORAGE, SAVE DEVICE ADDR IN JBTSWP
JRST SWAPO3 ;DIDN'T MAKE IT
PUSHJ P,BLDVPN## ;CORE FOR VPN TABLE (LS) OR EXTRA FRG LST (HS)
JRST [MOVE T1,JBTSWP##(J)
PUSHJ P,FXSAT##
SETZM JBTSWP##(J) ;NO LONGER OWN FRAGMENT TABLE
JRST SWAPO3 ] ;TRY AGAIN LATER
CAIG J,JOBMAX##
SKIPA T3,J ;YES, LOAD INTO T3
SWAPO9: SKIPN T3,SWPOUT## ;HIGH SEG, JOB REMEMBERED IN SWPOUT?
JUMPN T3,SWAPO1 ;NO JOB IN SWPOUT OR J A JOB
JUMPE T3,SWAPO2 ;SWPOUT (OR J?) WAS ZERO, PROCEED
SKIPLE T1,JBTSGN##(T3) ;GET SEGMENT (IF REAL) OF JOB IN SWPOUT
CAIE J,(T1) ;IS IT US?
JRST SWAPO2 ;NO, JUST GO ON
SWAPO1: MOVSI T1,(JS.SIP) ;IS US OR THIS IS JOB, ETC. SET JS.SIP
IORM T1,JBTST2##(T3)
SWAPO2: MOVEM F,JBTIMO##(J) ;NOW, SAFELY STORE OUTPUT SIZE
PUSH P,J ;FILSER CLOBBERS J
PUSHJ P,BOSLST## ;BUILD AN OUTPUT SWPLST ENTRY
AOS SPRCNT## ;COUNT UP THE NUMBER OF SWAPS IN PROGRESS
IFN FTRSP,<
SETZM SWPPLT## ;CLEAR LOST TIME FLAG
>;END IFN FTRSP
PUSHJ P,SQOUT## ;START I/O IF NOT ALREADY GOING
POP P,J ;RESTORE SEGMENT NUMBER
CAIG J,JOBMAX## ;SWAPPING A JOB OR A HIGH SEGMENT?
PUSHJ P,DICLNC ;A JOB, REQUE IT NOW TO AVOID SCANNING IT DURING SWAP OUT
PUSHJ P,FIXXPN ;FIX JXPN BIT
JRST CHKXPN
FIXXPN::MOVSI T1,JXPN ;JOB IS EXPANDING BIT
CAIG J,JOBMAX## ;HIGH SEGMENT?
TDNN T1,JBTSTS##(J) ;NO, IS THIS JOB EXPANDING?
POPJ P, ;NO, RETURN
SOS XJOB ;YES, DECREMENT THE COUNT OF EXPANDING JOBS
PUSHJ P,XPNCLR ;CLEAR BIT IN TABLE
MOVSI T1,JXPN
ANDCAM T1,JBTSTS##(J) ;CLEAR JXPN SO JOB WON'T BE SEEN AGAIN
;MUST BE CLEARED AFTER BIT TABLE AND
;AFTER XJOB DECREMENTED, SINCE ACTS AS
;INTERLOCK
POPJ P, ;AND RETURN
SWAPO3: LDB T1,IMGIN## ;INPUT SIZE SET BY XPAND
CAIN T1,(F) ;INPUT AND OUTPUT SIZES DIFFERENT?
MOVEI F,0 ;NO, NOT SET OUTPUT SIZE TO ZERO
MOVEM F,JBTIMO##(J) ;STORE AS OUTPUT SIZE
MOVEM J,FORCE## ;REMEMBER WHO WE WERE TRYING TO SWAP OUT
JRST FLGNUL ;RETURN, TRY SWAP NEXT TICK
NOFIT: SKIPE CORFLG ; JUST FREEING SOME SPACE?
JRST FLGNUL ; YES. SO GET OUT
IFN FTNSCHED,<
SKIPE J,BBFIT## ;WAS BACKGROUND BATCH SELECTED FOR SWAPIN?
CAME J,FIT## ;REALLY JUST SELECTED?
JRST NOFIT1 ;NO
SETZM FIT## ;YES, DESELECT JOB
SETZM BBFIT## ;CLEAR BACKGROUND BATCH INDICATOR
PUSHJ P,SQTEST ;RESET SCAN POINTER TO SCAN SAME CLASS
JRST FLGNUL ;AND EXIT THE SWAPPER
NOFIT1:>
MOVE J,FITLOW ;PICK UP JOB NUMBER WE COULDNT FIT IN NOW
IFN FTHPQ,<
HRRZ W,JBTPDB##(J) ;GET PDB ADDRESS
JUMPE W,NOFIT3 ;NONE. GO ON
.SKIPG F,.PDHZF##(W) ;WAS THIS PERSON IN FIT AND TIMING?
JRST NOFIT3 ;NO. JUST NORMAL
MOVEM J,INFLGJ ;YES. PUT HIM BACK WHERE HE WAS BEFORE
MOVEM F,INFLGC ; LAST TIME IS NEW TIMER
.SETZM .PDHZF##(W) ;CLEAR FLAG
JRST NOFIT7 ;AND PROCEED
NOFIT3:> ;END IFN FTHPQ
CAMN J,INFLGJ ;SAME JOB WE COULDNT FIT IN LAST TICK?
JRST NOFIT7 ;YES. COUNT HIS FRUSTRATION INDEX
MOVEM J,INFLGJ ;NO. REMEMBER HIM FOR FUTURE REFERENCE
MOVE F,UPTIME## ;AND START TIMER
MOVEM F,INFLGC
JRST FLGNUL ;FINISH UP
NOFIT7: MOVE F,UPTIME## ;CURRENT TIME
SUB F,INFLGC ;COMPUTE TIME WE'VE BEEN WAITING
CAILE F,^D200 ; STARTING TO GET FRUSTRATED? (3+ SECS)
SETOM ZAPIDF ; YES. LET FRECR1 ZAP IDLE/DORMANT SEGS
CAIGE F,^D360 ;FRUSTRATION TIMED OUT? (ABOUT 6 SEC)
JRST NOFIT9 ;NO. PATIENCE PLEASE.
SKIPN INFLG ;TIMER STILL ON FROM LAST TICK?
AOS CINFLG ; NO. COUNT # OF TIMES INFLG WAS SET.
SETOM INFLG ;GIVE HIM A QUICKER IN
NOFIT9: JRST FLGNUL ;RETURN AND TRY TO SWAP NEXT TICK
NOFITZ: SKIPE J,FIT## ;GET JOB IN FIT BEFORE ZAPPING IT
SETZM FIT## ;CLEAR JOB BEING FIT IN
IFN FTNSCHED,<
CAMN J,BBFIT## ;DON'T CLEAR UNLESS WE'RE SUPPOSED TO
SETZM BBFIT## ;CLEAR BACKGROUND BATCH FIT FLAG
>
JRST FLGNUL ;EXIT SWAPPER. NEW JOB WILL BE SELECTED NEXT TIME
IFN FTHPQ,<
ZERFIT: SKIPE W,FIT## ;GET JOB # IN FIT
SETZM FIT## ;CLEAR FIT SO WE CAN RESELECT
IFN FTNSCHED,<
CAMN W,BBFIT## ;DON'T CLEAR UNLESS WE'RE SUPPOSED TO
SETZM BBFIT## ;CLEAR BACKGROUND BATCH FIT FLAG
>
HRRZ W,JBTPDB##(J) ;GET PDB ADDRESS
JUMPE W,CPOPJ## ;OOPS
MOVE T2,INFLGC ;GET TIME THIS JOB STARTED WAITING
.MOVEM T2,.PDHZF##(W) ;AND REMEMBER THAT
SKIPG J,SCDRTF##
POPJ P,
CAMN J,FORCE## ;SWAPPER REMEMBERING US?
SETZM FORCE## ;NOT ANY MORE
CAMN J,FORCEF ;OR HERE?
SETZM FORCEF
MOVEM J,FIT## ;SELECT HPQ JOB TO SWAPIN
POPJ P,
>
NOFORC: CAILE J,JOBMAX## ;LOW SEGMENT?(HIGH SHOULD NOT GET HERE)
JRST FLGNUL ;BUTS LETS BE SURE
CAMN J,OUFLGJ ;SAME AS LAST JOB?
JRST NOFOR1 ;YES. CONTINUE TIMER
MOVEM J,OUFLGJ ;NO. START NEW TIMER
MOVE F,UPTIME## ;BASED ON ELAPSED UPTIME
MOVEM F,OUFLGC
JRST NOFOR3 ;AND SCRAM OUT OF HERE
NOFOR1: MOVE F,UPTIME## ;SAME JOB. TIMER EXPIRED?
SUB F,OUFLGC
CAIGE F,^D30 ; TRY NOT TO DELAY SWAP INS TOO LONG
JRST NOFOR3 ;NOT YET. BE PATIENT
AOS CJHUNG ;COUNT # OF TIMES A JOB HUNG WITH ACTIVE I/O
SKIPE FORCEF ;TIMER EXPIRED. BE SURE WASN'T IN FORCEF,
; SINCE WOULD BLOW SWAPPER
STOPCD NOFOR2,DEBUG,SHU, ;TRY TO RECOVER FROM GOOF
MOVSI F,(JS.HNG) ;TIMER EXPIRED. PICK SOMEONE ELSE
IORM F,JBTST2##(J) ;MARK HUNG
PUSHJ P,XPANDH ; GUARANTEE JOB GOES OUT AS SOON AS POSSIBLE
NOFOR2: SETZM FORCE## ;CLEAR FORCE
SETZM FORCEF ;BE CONSISTENT
SETZM OUFLGJ ;CLEAR TIMER
NOFOR3: JRST FLGNUL ;AND EXIT SWAPPER
$LOW
SW0JOB::0 ;JOB REJECTED BY SWAPPER BECAUSE IT IS RUNNING
;ON CPU1. FLAGS CPU1 TO STOP RUNNING HIM SO HE
;CAN SWAP.
CORSCD: BLOCK 1 ;SCARCE CORE TIMER IF LESS THAN 0, CORE IS ABUNDANT
INFLGJ::0 ;FRUSTRATED JOB NUMBER WAITING TO BE SWAPPED IN
INFLGC::0 ;TIME HE STARTED WAITING
INFLG:: 0 ;HE IS FRUSTRATED
CINFLG::0 ;NUMBER OF TIMES WE GOT FRUSTRATED
SCNJBS: BLOCK 1 ;FLAG WHETHER TO SCAN NON-EXPANDING JOBS FOR SWAP OUT
OUFLGJ::0 ;FRUSTRATED JOB NUMBER WAITING TO BE SWAPPED OUT
OUFLGC::0 ;TIME HE STARTED WAITING
CJHUNG::0 ;NUMBER OF TIMES FORCE WAS CLEARED TO AVOID
;HANGING THE SWAPPER
FORCEF::0
FITLOW: 0 ;NUMBER OF JOB BEING FIT(NEVER HIGH SEG NUMBER)
NEXTJB: 0 ;NUMBER OF NEXT JOB TO SCAN IN ICPT LOOP (NXTJOB)
SWPIFC::0 ;SWAPPER FAIRNESS COUNT
MAXIFC::IFC0## ;MAXIMUM FAIRNESS COUNT FOR SWAPPER
SWPFAR: 0 ;FLAG THAT SWAPPER REACHED FAIR TERRITORY
SCNSTP: 0 ;CONTAINS ADDRESS OF OSCAN ENTRY FOR LAST QUE TO SCAN
;IF U BECOMES GREATER, SCNOUT WILL STOP SCANNING UNLESS
;INFLG IS SET
IFN FTPSCD,<
WASTSZ: 0
>
SGTLIM::^D60 ; NUMBER OF TICKS IDLE/DORMANT SEGMENT
; MUST AGE BEFORE BEING DELETED
ZAPIDF::0 ; FLAG IF SHOULD DELETE ALL DORMANT/IDLE SEGMENTS
CORFLG::0 ; SET IF SWAPPING OUT STUFF JUST TO MAKE ROOM
FREMIN::0 ; MINIMUM VALUE OF BIGHOL TO STRIVE FOR
MAXTAL::0 ; BUT ONLY IF CORTAL LESS THAN THIS
;NEEDED IF SET MEMORY OFF AND LOCK WERE GOING TO KEEP FREMIN/MAXTAL RIGHT
FREMI%::0 ;% OF USRCOR SCHED. USER SET FREMIN TO
MAXTA%::0 ;% OF USRCOR SCHED. USER SET MAXTAL TO
$HIGH
;SWAP IN A JOB OR HIGH SEGMENT
SWAPI: SETZM FIT## ;CLEAR FIT FLAG
LDB T1,IMGIN## ;SIZE OF CORE TO BE ASSIGNED WHEN SWAPPED IN
LSH T1,P2WLSH## ;CONVERT TO HIGHEST ADR
SOS T1 ;-1 FOR CALL TO CORGET (ALWAYS POSITIVE)
SKIPE R,JBTADR##(J) ;IS (LOW) SEG ALREADY IN CORE ?
JRST FININ1 ;YES, TREAT AS SWAP IN - GO CLEAN UP
MOVEM J,FINISH## ;SET FINISH FLAG TO INPUT
PUSHJ P,CORGET## ;NO, GET CORE FOR LOW OR HIGH SEG
STOPCD .,STOP,CNA, ;++CORE NOT AVAILABLE
SKIPN JBTADR##(J) ;IS SPACE IN CORE?
STOPCD .,STOP,SOD, ;++SPACE ON DISK
;SPACE IS ON THE DISK. THIS HAPPENS
; IF PDB FRAGMENTS CORE.
MOVE F,JBTIMO##(J) ;GET OUTPUT IMAGE
JUMPE F,[PUSHJ P,FITHGH## ;INCREASE INCORE COUNT
JRST FININ0]
MOVSI T1,(JS.SIP)
PUSH P,J ;SAVE J FOR FITHGH
HRRZS J ;CLEAR LEFT HALF CRUFT
CAIG J,JOBMAX## ;IF NOT A HIGH SEGMENT, INDICATE
IORM T1,JBTST2##(J) ; SWAPPING I/O IN PROGRESS FOR THIS JOB
PUSHJ P,BUSLST## ;SETUP TO SWAP IN THE UPMP
JRST SWAPIF ;SWAP IN FAILED, TRY AGAIN LATER
POP P,J ;RESTORE J WITH BITS
PUSHJ P,FITHGH## ;INCREASE INCORE COUNT
IFN FTPSCD,<
PUSHJ P,CNTSWP ;RECORD DATA ON SWAPPING
>
AOS SPRCNT## ;COUNT UP NUMBER OF SWAPPING OPERATIONS IN PROGRESS
IFN FTRSP,<
SETZM SWPPLT## ;CLEAR POT LOST FLAG, WE'RE DOING
>;END IFN FTRSP
;SOMETHING
AOS SINCNT## ;BUMP COUNT OF NUMBER OF SWAPPING INPUTS IN PROGRESS
JRST SQIN## ;*START INPUT
;HERE IF COULDN'T GET CORE BLOCKS, ETC. FOR SWAP IN
SWAPIF: POP P,(P) ;FIX STACK
MOVEM J,FIT## ;PUT BACK FOR NEXT TIME
SETZM FINISH## ;CLEAR FINISH FLAG
PUSHJ P,KCORE1## ;DELETE ANY CORE WE ALLOCATED
MOVSI T1,(JS.SIP) ;NO LONGER IN PROGRESS
CAIG J,JOBMAX## ;(ONLY IF JOB)
ANDCAM T1,JBTST2##(J) ;CLEAR SIP
JRST FLGNUL ;AND EXIT SWAPPER
;ROUTINE TO CHANGE DISK SWAPPING SPACE ALLOCATION (OR SET TO 0)
;DIFFERS FROM ZERSWP IN THAT VIRTUAL TALLY FOR SYSTEM IS ALSO CHANGED
;CALLED FROM CORE0
;CALL: MOVE J,JOB OR HIGH SEG NUMBER
; MOVE T1,#1K BLOCKS TO BE NEW ASSIGNMENT
; PUSHJ P,CHGSWP
; ALWAYS RETURN
;CALLED ONLY FROM VIRTUAL+PHYSICAL CORE ROUTINE CORE0
CHGSWP::LDB T2,IMGIN## ;SIZE WHEN NEXT SWAPPED IN
JUMPE T1,CHG1 ;IS ZERO BEING ASKED FOR ?
LSH T1,W2PLSH## ;NO, CONVERT TO 1K BLOCKS
ADDI T1,1 ;BUT DO NOT ATTEMPT TO RETURN DISK SPACE
; SINCE IT MIGHT BE FRAGMENTED (SWAPPER WILL
; RETURN ALL OF DISK SPACE ON NEXT SWAPIN)
; HAPPENS ONLY ON X,RUN,GET,KJOB
DPB T1,IMGIN## ;STORE NEW SIZE WHEN NEXT SWAPPED IN
PUSH P,J ;SAVE AN AC
MOVNI J,UPMPSZ## ;UPMP SIZE
SKIPN T2 ;IF GOING FROM 0 TO POSITIVE CORE,
ADDM J,VIRTAL## ; DECREMENT VIRTAL FOR UPMP
MOVE J,(P) ;RESTORE J FOR JBTIMO USE.
MOVE J,JBTIMO##(J) ;GET OLD DISK SIZE OF THIS USER (USES ITEM)
CAMGE T2,J ;IS OLD IN-CORE SIZE BIGGER ?
MOVE T2,J ;NO, USE DISK SIZE AS USER'S OLD VIRTUAL CORE
CAMGE T1,J ;IS NEW IN-CORE SIZE BIGGER ?
MOVE T1,J ;NO, USE DISK SIZE AS USER NEW
; VIRTUAL CORE
SUB T2,T1 ;DECREASE OF USER VIRTUAL CORE=OLD-NEW
ADDM T2,VIRTAL## ;USER'S DECREASE=SYSTEM'S INCREASE OF VIRTUAL
; CORE
JRST JPOPJ## ;RESTORE J AND RETURN
;ROUTINE TO RETURN ALL OF DISK SPACE FOR A LOW OR HIGH SEG
;THIS IS A PHYSICAL DEALLOCATION ONLY AND HAS NO EFFECT ON A SEGMENTS
;VIRTUAL CORE ASSIGNMENT
;CALL: MOVE J,JOB NUMBER OR HIGH SEG NUMBER
; PUSHJ P,ZERSWP
;CALLED FROM SEGCON IN MANY PLACES (5)
;AND FININ0 HERE IN SWAP
CHG1: JUMPE T2,ZERSWP ;HAVE CORE ON DISK?
CAIG J,JOBMAX## ;LOW SEGMENT?
ADDI T2,UPMPSZ## ;YES, ACCOUNT FOR THE UPMP
ADDM T2,VIRTAL## ;INCREASE SIZE OF VIRTUAL CORE AVAILABLE IN SYSTEM
; AND THEN RETURN ALL OF DISK SPACE (CHGSWP)
ZERSWP::PUSH P,U ;SAVE TTY OUTPUT BYTE POINTER (COMMAND DECODER)
MOVE U,JBTIMO##(J) ;*SIZE ON DISK (1K BLOCKS)
JUMPE U,CHG10 ;DID SEG HAVE ANY DISK SPACE ?
PUSHJ P,ZERSWH## ;IS THIS A HIGH SEG WITH AN ERROR?
;T2 SETUP AS ARG
PUSHJ P,GIVBKH ;GIVE BACK HIGH SEGMENT SWAPPING SPACE
CHG10: POP P,U ;RESTORE U
UNSWAP: MOVSI T2,SWP!SHF ;CLEAR SWAPPED OUT BIT IN JOB OR SEG
ANDCAB T2,JBTSTS##(J) ;STATUS WORD (SHF SET IF I/O WAS TO BE STOPPED
; FOR SWAP OR CORE SHUFFLE
HRRZ T1,J ;GET JOB NUMBER IN T1
CAME T1,FORCE ;SWAPPER REMEMBERING US?
JRST UNSWP1 ;NO, CONTINUE
SETZM FORCE ;YES, CLEAR FLAGS THAT HAVE OUR NUMBER
SETZM FORCEF ;FORCEF MAY HAVE OUR JOB NUMBER TOO
;(FORCEF SHOULD EITHER BE ZERO OR SAME AS FORCE)
UNSWP1: SETZB T1,JBTIMO##(J) ;0 IS NEW DISK ASSIGNMENT, SET IT
CAIG J,JOBMAX## ;A LOW SEGMENT?
SETZM JBTSWP##(J) ;SO IT WON'T LOOK LIKE IT HAS CORE
;WHEN IT DOESNT
; HERE FROM CHGSWP IF NOT ASKING FOR 0
POPJ P, ;RETURN
RTNDSP::TLNE T1,(SL.ERR+SL.CHN) ;DONT GIVE BACK SWAPPING SPACE IF BAD
POPJ P, ;RETURN
SE1ENT ;ENTER SECTION 1 TO REFERENCE MEMTAB
LDB U,[POINT SL.SCT,T1,<^L<SL.CNT>+SL.SCT-1>] ;NUMBER OF PAGES OF SWAPPING SPACE
LDB T1,[POINT SL.SPN,T1,<^L<SL.PPN>+SL.SPN-1>] ;FIRST PHYSICAL PAGE I/O WAS DONE INTO OR OUT OF
SSX T1,MS.MEM ;MEMTAB SECTION
LDB T1,[POINT MT.SAD,MEMTAB(T1),<^L<MT.DAD>+MT.SAD-1>]
PJRST FXSAT1## ;RETURN THE DISK SPACE
;SUBROUTINE TO GIVE BACK DISK SPACE AND CORE BLOCKS
;CALL WITH P1=LOC OF SWPLST ENTRY
GIVBAK: LDB T1,IMGOUT## ;OUTPUT IMAGE SIZE
JUMPE T1,CPOPJ## ;RETURN IF NO OUTPUT IMAGE
PUSHJ P,ZERSLE ;RETURN THE DISK SPACE
PJRST DLTSLE## ;AND DELETE THE SWPLST ENTRY
ZERSLE::SKIPL T1,SWPLST##(P1) ;FRAGMENTED?
PJRST RTNDSP ;NO, JUST RETURN THE DISK SPACE
PUSHJ P,SAVE1## ;SAVE AN AC
HRRZ P1,T1 ;ADDRESS OF THE FRAGMENT TABLE
GIVBK1: MOVE T1,(P1) ;NEXT ENTRY IN THE FRAGMENT TABLE
JUMPLE T1,GIVBK2 ;JUMP IF A LINK WORD
PUSHJ P,RTNDSP ;RETURN THE DISK SPACE REPRESENTED IN THIS ENTRY
AOSA P1 ;STEP ON TO THE NEXT ENTRY IN THE TABLE
GIVBK2: HRRZ P1,T1 ;LINK TO NEXT ENTRY
JUMPN P1,GIVBK1 ;JUMP IF NOT THE LAST ENTRY
POPJ P, ;ALL DONE, RETURN
GIVBKH: PUSHJ P,SAVE1## ;SAVE P1
MOVSI P1,MJBTMX## ;- TOTAL NUMBER OF SEGMENTS ALLOWED
CHG4: SKIPN SWPLST##(P1) ;NON-ZERO ENTRY IN SWPLST?
JRST CHG6 ;NO, LOOK AT THE NEXT ENTRY
HRRZ T1,SW3LST##(P1) ;SEGMENT NUMBER ASSOCIATED WITH THIS ENTRY
CAIN T1,(J) ;SAME AS THE ONE WE ARE LOOKING FOR?
PJRST GIVBAK ;YES, GIVE BACK THE DISK SPACE
CHG6: AOBJN P1,CHG4 ;LOOP FOR THE NEXT ENTRY
MOVE T1,JBTSWP##(J) ;GET SWAPPING POINTER
PJRST FXSAT## ;GIVE BACK THE DISK SPACE
;XPAND SETS CONDITIONS TO GET MORE CORE FOR A JOB BY SWAPPING IN OUT
;THEN BACK IN TO DESIRED AMOUNT.
;JOBS POSITION IN QS NOT AFFECTED.
;CALLED ONLY FROM CORE COMMAND
;ASSUMES CALL FOR CURRENT JOB IF EXPANDING HIGH SEG,IE ASSUME AT UUO LEVEL
;THIS IS TRUE SINCE THERE IS NO CORE COMMAND WHICH CAN EXPAND HIGH SEG
;CALL: MOVE J,[JOB NUMBER]
; MOVE T1,[HIGHEST LEGAL ADDRESS DESIRED]
; PUSHJ P,XPAND
; RETURN, T1 DESTROYED
XPAND:: CAILE J,JOBMAX## ;IS THIS A LOW SEG?
TLNN J,SHRSEG ;SHAREABLE HIGH SEG?
CAIA ;OK TO CHANGE JBTADR
JRST XPAND2 ;DON'T CHANGE JBTADR FOR SHR SEG
SKIPE R ;DON'T MAKE JBTADR NON-ZERO IF NO CORE IN CORE
HRLM T1,JBTADR##(J) ;MAKE JBTADR RIGHT
XPAND2: ADDI T1,1 ;CONVERT HIGHEST DESIRED ADDRESS
LSH T1,W2PLSH## ;TO 1K BLOCKS
CAILE J,JOBMAX## ;A LOW SEGMENT?
JRST XPANDP ;NO, A SHARABLE HIGH SEGMENT, DON'T CHANGE
; THE WORKING SET
JUMPE R,XPAND1 ;IF NO CORE, NO WORKING SET TO MAKE RIGHT
PUSHJ P,ADJWS## ;TURN ON BITS IN WSBTAB WHICH REPRESENT PAGES
; BEING ADDED TO THE WORKING SET
XPANDP::LDB T2,IMGIN## ;CURRENT PHYSICAL SIZE
MOVEM T2,JBTIMO##(J) ;STORE AS OUTPUT IMAGE SIZE
XPAND1: DPB T1,IMGIN## ;STORE, SO SWAPPER WILL KNOW HOW MUCH CURE
; TO REQUEST WHEN NEXT SWAPPED IN
;ROUTINE TO FLAG JOB TO BE STOPPED AND SWAPPED OUT
;BECAUSE IT HAS JUST BEEN CONNECTED TO A HIGH SHARABLE SEG WHICH IS ON DISK
;OR ON ITS WAY IN OR OUT. THE SIZE OF THE HIGH SEG IS UNCHANGED
;THE JOB MUST BE STOPPED UNTIL HIGH SEG SWAPPED IN JUST AS IF JOB HAS
;EXPANDED HIGH SEG (MUST BE CALLED FROM UUO LEVEL FOR CURRENT JOB IF HIGH SEG)
; ALSO CALLED BY MEMORY PARITY ERROR RECOVERY
; IF JOB (LOW OR HIGH SEG) IS LOCKED OR HIGH SEG LOCKED
; NOTHING IS SWAPPED OUT (INCLUDING OTHER JOBS USING HIGH SEG)
;CALL: MOVE J,HIGH SEG NUMBER
; PUSHJ P,XPANDH
XPANDH::PUSH P,J ;SAVE JOB NUMBER
PUSHJ P,XPNHGH## ;CHECK IF THIS IS A HIGH SEG EXPANDING
; IF YES, SCAN OTHER JOBS, CALL XPANDH
; FOR EACH JOB WHICH IS STILL IN CORE
; SET JXPN FOR THIS HIGH SEG. THUS NO JOB
; WILL BE ABLE TO USE THIS HIGH SEG UNTIL
; IT IS SWAPPED BACK IN FOR SOME JOB.
; ALWAYS RETURN JOB NO.
MOVSI T2,JXPN ;SET THIS JOB EXPANDING BIT SO IT WILL NOT BE RUN
TDNE T2,JBTSTS##(J) ;IS IT ALREADY SET FOR THIS JOB?(UNLIKELY)
JRST JPOPJ## ;RESTORE JOB OR HIGH SEG NUMBER (ITEM) AND RETURN
IORM T2,JBTSTS##(J) ;NO, SET JOB EXPANDING BIT
PUSHJ P,XPNSET ;AND SET BIT MAP ENTRY TOO.
AOS XJOB ;AND, INCREMENT COUNT ONLY ONCE FOR EACH JOB EXPANDING
JRST IPOPJ## ;RESTORE JOB OR HIGH SEG NUMBER (ITEM) AND RETURN
; SUBROUTINE TO SET/CLEAR ENTRY IN BIT MAP OF EXPANDING JOBS
XPNSET: SKIPA T1,[IORM T3,XPNMAP##(T2)] ;SET
XPNCLR: MOVE T1,[ANDCAM T3,XPNMAP##(T2)] ;CLEAR
CAILE J,JOBMAX## ;LOW SEGMENT?
POPJ P, ;NO. NO BIT MAP ENTRY
PUSH P,T3 ;SAVE A REGISTER
SETZ T3, ;AND CLEAR ONE
MOVE T2,J ;COPY JOB NUMBER
LSHC T2,-5 ;DIVIDE BY 32
ROT T3,5 ;ALLIGN REMAINDER
MOVE T3,BITTBL##(T3) ;GET CORRESPONDING BIT
XCT T1 ;SET/CLEAR BIT IN TABLE
PJRST T3POPJ## ;RESTORE T3 AND RETURN
SUBTTL SCHED. UUO
IFN FTNSCHED,<
;SCHED. UUO USED TO SET SCHEDULER PARAMETERS
; CALL:
; MOVE AC,[XWD N,ADDR]
; SCHED. AC, ;OR CALLI AC,150
; ERROR RETURN
; GOOD RETURN
;
; THE FORMAT OF ADDR THROUGH ADDR+N-1 IS
;
; ADDR: XWD FN CODE,BLOCK
; XWD FN CODE,BLOCK
; .
; .
; .
; WHERE FN CODE IS THE FUNCTION CODE DESIRED. BIT 0 CONTROLS WHETHER
; THE READ PART OR THE WRITE PART OF THE FUNCTION IS SELECTED, A 1 MEANING
; WRITE.
; THE FORMAT OF BLOCK DIFFERS WITH EACH FUNCTION, AND IS DESCRIBED BEFORE
; EACH FUNCTION'S SUBROUTINE.
SC.WRT==1B0 ;WRITE BIT (MUST BE SIGN BIT)
SCHED.::PUSHJ P,SAVE2## ;SAVE P1
MOVE P1,T1 ;SAVE C(AC) IN P1
MOVSI T1,PVSPYM!PVSPYA ;DOES HE HAVE SPY
PUSHJ P,PRVBIT## ;PRIVS?
TLOA P2,PVSPYM ;YES, SAVE IT
TLZ P2,PVSPYM ;NO
MOVSI T1,JP.POK ;DOES HE HAVE POKE
PUSHJ P,PRVBIT## ;PRIVS
TLOA P2,JP.POK ;YES, SAVE IT
TLZ P2,JP.POK ;NO
HLRE T1,P1 ;GET NUMBER OF OPERATIONS
JUMPLE T1,CPOPJ1 ;DONE IF ZERO OR NEG.
MOVNS T1
HRL P1,T1 ;-N,,ADDR IS AOBJN POINTER
SCHDU1: HRR M,P1 ;GET ADDR OF BLOCK
PUSHJ P,SCHGET ;GET A FUNCTION
HRR M,T1 ;GET ADDRESS IN M
HLRZ T2,T1 ;GET FUNCTION, BITS IN T2
TRZ T2,(SC.WRT) ;CLEAR WRITE BIT (MUST BE SIGN BIT)
CAILE T2,SCDFMX ;OVER MAXIMUM FUNCTION?
JRST SCHFNE ;YES, FUNCTION NUMBER ERROR
MOVE T3,SCDDIS(T2) ;ASSUME WRITE OPERATION
JUMPL T1,[TLNN P2,JP.POK ;WRITE, WITH POKE?
JRST SCHNPE ;NO GIVE ERROR
JRST SCHDU2] ;YES, DO THE FUNCTION
MOVSS T3 ;READ
TLNN P2,PVSPYM ;WITH APPROPRIATE PRIVS?
JRST SCHNPE ;NO,GIVE ERROR
SCHDU2: PUSHJ P,(T3) ;DISPATCH TO ROUTINE
POPJ P, ;ERROR - CODE IS STORED IN USER AC
AOBJN P1,SCHDU1 ;CONTINUE FOR ALL FUNCTIONS
JRST CPOPJ1 ;FINISHED. RETURN SUCCESSFULLY
;DISPATCH TABLE. LEFT HALF IS ADDRESS OF READ PART OF FUNCTION,
; RIGHT HALF IS ADDRESS OF WRITE PART.
SCDDIS: XWD SCHRSI,SCHWSI ;(0)READ/SET MICRO SCHEDULING INTERVAL
XWD SCHFNE,SCHFNE ;(1)READ/SET MCU INTERVAL
XWD SCHRQT,SCHWQT ;(2)READ/SET CLASS QUOTAS AND FLAGS
XWD SCHRTS,SCHWTS ;(3)READ/SET BASE QUANTUM RUN TIME FOR PQ1 AND PQ2
XWD SCHFNE,SCHFNE ;(4)READ/SET DCUF
XWD SCHRJC,SCHWJC ;(5)READ/SET JOB'S CLASS
XWD SCHRMC,SCHWMC ;(6)READ/SET PROT0 (MCU CONSTANT)
XWD SCHRCT,SCHFNE ;(7)READ QUOTAS USED FOR EACH CLASS SINCE STARTUP
XWD SCHFNE,SCHFNE ;(10)READ/SET EXPONENTIAL FACTOR
XWD SCHRPF,SCHWPF ;(11)READ/SET MCU MULTIPLIER (PROT)
XWD SCHRCD,SCHWCD ;(12)READ/SET NEW JOBS' DEFAULT CLASS
XWD SCHRRC,SCHWRC ;(13)READ/SET MCU REQUEUE CONSTANT (PROT1)
XWD SCHRPM,SCHWPM ;(14)READ/SET MCU MAXIMUM (PROTM)
XWD SCHRML,SCHWML ;(15)READ/SET QUANTUM MULTIPLIER FOR PQ1 AND PQ2
XWD SCHRMX,SCHWMX ;(16)READ/SET QUANTUM MAXIMUM FOR PQ1 AND PQ2
XWD SCHRSQ,SCHWSQ ;(17)READ/SET SECONDARY CLASS QUOTAS
XWD SCHRIQ,SCHWIQ ;(20)READ/SET JBTJIQ SCAN PERCENTAGE
XWD SCHRSS,SCHWSS ;(21)READ/SET SWAP SCAN TIME
XWD SCHRBB,SCHWBB ;(22)READ/SET BACKGROUND BATCH QUEUE
XWD SCHRBS,SCHWBS ;(23)READ/SET BB SWAP SCAN TIME
XWD SCHRSF,SCHWSF ;(24)READ/SET SCHEDULER FAIRNESS FACTOR
XWD SCHRSW,SCHWSW ;(25)READ/SET SWAPPER FAIRNESS FACTOR
XWD SCHRIO,SCHWIO ;(26)READ/SET INCORE FAIRNESS PERCENTAGE
XWD SCHRCS,SCHWCS ;(27)READ/SET CORE SCHEDULING INTERVAL
XWD SCHRSO,SCHWSO ;(30)READ/SET SCAN ORDER
XWD SCHRSL,SCHWSL ;(31) SEGMENT RETENTION LIMIT
XWD SCHRFL,SCHWFL ;(32) FREE CORE GOALS/LIMITS
SCDFMX==.-SCDDIS-1 ;MAXIMUM FUNCTION NUMBER
;ROUTINES TO PERFORM SCHED. UUO FUNCTIONS. CALLED FROM SCHED. UUO
; WITH M SET TO ADDRESS OF BLOCK. THESE ROUTINES PRESERVE P1-P4, USE
; T1,T2,T3,T4
;FUNCTION 0
;READ/SET SCHEDULING INTERVAL
; READ FUNCTION RETURNS INTERVAL VALUE AT LOCATION BLOCK
; FORMAT OF ARGUMENT BLOCK ON WRITE:
;
; BLOCK: <DESIRED VALUE>
SCHRSI: MOVE T1,SCDINT## ;GET INTERVAL
SCHPVL: PUSHJ P,PUTWRD## ;SEND TO USER
JRST SCHAER ;ADDRESS PROBLEM...
JRST CPOPJ1 ;OK
SCHWSI: PUSHJ P,SCHGET ;GET ARGUMENT FROM ADDRESS IN M
MOVEM T1,SCDINT ;USE AS SCHEDULING INTERVAL
SETZM SCDTIM## ;FORCE NEW SCHEDULING INTERVAL
JUMPG T1,CPOPJ1## ;LEAVE RRFLAG ALONE IF THERE IS AN INTERVAL
SETZM RRFLAG## ;USE ROUND ROBIN IF NO INTERVAL
AOS (P) ;ADVANCE RETURN
;; PJRST SCHCLR ;FALL THRU TO SCHCLR
;ROUTINE TO CLEAR TABLE OF CLASS RUNTIMES
SCHCLR: SETZM SCDTIM## ;FORCE A NEW INTERVAL
MOVE T3,DATE## ;USE UNIVERSAL DATE/TIME
MOVEM T3,SCDSTS## ; AS TIME OF LAST INITIALIZATION
SKIPN RRFLAG## ;CLASS SCHEDULING?
SETZ T3, ;NO, STORE ZERO INSTEAD
MOVEM T3,SCDSET## ;SAVE FOR GETTAB
MOVE T1,[CLSRTM##,,CLSRTM##+1] ;SET TO CLEAR
SYSPIF ;PREVENT RACES
SETZM CLSRTM## ;FIRST WORD
BLT T1,CLSRTM##+M.CLSN##-1 ; THEN THE FIRST
SETZM RTCTOT## ;CLEAR TOTAL
JRST ONPOPJ## ;ALLOW INTERRUPTS AND RETURN
;FUNCTION 2
;
;HERE TO READ CLASS QUOTAS
; ARGUMENT BLOCK SETUP FOR READ CLASS QUOTA FUNCTION:
;
; BLOCK: N ;NUMBER OF CLASSES TO READ QUOTAS OF
; BLOCK+1: ;QUOTA AND BITS OF CLASS 0 RETURNED HERE
; BLOCK+2: ;QUOTA AND BITS OF CLASS 1 RETURNED HERE
; .
; BLOCK+N: ;QUOTA AND BITS OF CLASS N-1 RETURNED HERE
;
SCHRQT: PUSHJ P,SCHGET ;GET NUMBER OF CLASSES TO RETURN
SKIPLE T1 ;TOO LOW OR
CAILE T1,M.CLSN## ;TOO HIGH?
JRST SCHCLE ;YES, TELL HIM SO
MOVN T4,T1 ;GET AN AOBJN POINTER
HRLZS T4
SCHRQ1: MOVE T1,CLSSTS##(T4) ;GET QUOTA, BITS FOR CLASS
JSP T2,SCHBLK ;STORE WORD
JRST SCHRQ1 ;LOOP FOR MORE
;HERE TO SET QUOTAS FOR CLASS
;
; FORMAT OF BLOCK:
;
; BLOCK: N ;NUMBER OF WORDS FOLLOWING
; BLOCK+1: XWD <BITS>+CLASS,QUOTA
; BLOCK+2: XWD <BITS>+CLASS,QUOTA
; .
; BLOCK+N: XWD <BITS>+CLASS,QUOTA
;
SCHWQT: PUSHJ P,SCHGET ;GET NUMBER OF ARGS
JUMPLE T1,CPOPJ1 ;DONE IF LE ZERO
MOVE T4,T1 ;SAVE IN T4
SCHWQ1: PUSHJ P,SCHGT1 ;GET ARG
LDB T3,[POINT 5,T1,17] ;GET CLASS
CAIL T3,M.CLSN## ;TOO HIGH?
JRST SCHCLE ;YES, REPORT IT.
TLZ T1,(JS.CLS) ;CLEAR CLASS PART OF ARG
MOVEM T1,CLSSTS##(T3) ;JUST SAVE QUOTA AND BITS
SOJG T4,SCHWQ1 ;AND LOOP UNTIL DONE.
PUSHJ P,SCHCLR
SETZB T3,TOTSTS## ;INIT COUNT AND TOTAL OF NON-ZERO CLASSES
MOVEI T2,M.CLSN##-1 ;LOOP COUNTER
SCHWQ2: HRRZ T1,CLSSTS##(T2) ;GET QUOTA
JUMPE T1,SCHWQ3 ;JUMP IF NO QUOTA
ADDM T1,TOTSTS## ;ADD UP QUOTAS
HRRZM T2,SQSCAN##(T3) ;STORE 0,,CLASS NUMBER IN TABLE
AOJ T3, ;COUNT UP NON-ZERO CLASSES
SCHWQ3: SOJGE T2,SCHWQ2 ;LOOP OVER ALL CLASSES
MOVEM T3,CNTSTS## ;STORE COUNT OF NON-ZERO CLASSES
JUMPG T3,SCHWQ4 ;LEAVE RRFLAG ALONE IF THERE ARE ANY CLASSES
SETZM RRFLAG## ;USE ROUND ROBIN IF NO CLASSES EXIST
SETZM SCDSET## ;ZERO FOR NOT CLASS SCHEDULING
JRST CPOPJ1 ;GOOD RETURN.
SCHWQ4: MOVEI T1,^D100 ;REQUIRE PRIMARY TABLE TO ADD TO 100%
CAMN T1,TOTSTS## ;IS IT?
JRST SCHWQ5 ;YES
SETZM RRFLAG## ;NO, DO NOT CLASS SCHEDULE
SETZM CNTSTS## ;MAKE IT LOOK LIKE NO CLASSES EXIST
SETZM SCDSET##
JRST SCHNHP ;NOT HUNDRED PERCENT
SCHWQ5: PUSHJ P,SAVE2## ;FREE 2 ACS
MOVE T4,[POINT 5,PSQTAB##] ;POINTER TO PRIMARY SCAN TABLE
SCHWQ6: MOVE T3,CNTSTS## ;NUMBER OF NON-ZERO CLASSES
SETZ P1, ;POINTER TO MAX ENTRY FOUND SO FAR
MOVSI P2,400000 ;SET MAX TO SMALLEST POSSIBLE INTEGER
SOJLE T3,SCHWQ9 ;JUMP IF ONLY ONE CLASS
SCHWQ7: MOVE T2,SQSCAN##(T3) ;GET NEXT ENTRY'S PRIORITY
HRR T2,CLSSTS##(T2) ;APPEND QUOTA
HRLZ T1,T2 ;ADD QUTOA
ADD T2,T1 ;TO PRIORITY
HLLM T2,SQSCAN##(T3) ;MAKING HIM MORE LIKELY TO BE PICKED
IMULI T2,(T2) ;WEIGHT PRIORITY WITH QUOTA
CAMG T2,P2 ;GREATER THAN CURRENT MAX?
JRST SCHWQ8 ;NO
MOVE P2,T2 ;SAVE MAX
MOVEI P1,(T3) ;SAVE POINTER
SCHWQ8: SOJGE T3,SCHWQ7 ;UPDATE NEXT ENTRY
SCHWQ9: MOVE T1,SQSCAN##(P1) ;GET THE ENTRY WE PICKED
IDPB T1,T4 ;STORE HIS CLASS IN PRIMARY SCAN TABLE
SUB T1,[^D100,,0] ;HE GOT HIS SHARE
HLLM T1,SQSCAN##(P1) ;SO MAKE HIM LESS LIKELY TO BE CHOSEN
SOSLE TOTSTS## ;DONE THIS 100 TIMES?
JRST SCHWQ6 ;NO, DO SOME MORE
LDB T1,[POINT 5,PSQTAB##,4] ;GET FIRST BYTE
DPB T1,[POINT 5,PSQTAB##+^D14,14] ;STORE IN BYTE 101 FOR CPU1
JRST CPOPJ1 ;GOOD RETURN
;FUNCTION 3
;
;HERE TO READ TIME SLICES FOR EITHER PQ1 OR PQ2
; FORMAT OF BLOCK:
;
; BLOCK: N ;NUMBER OF QUEUES TO READ TIME SLICES FOR
; ;(CAN ONLY BE 1 OR 2)
; BLOCK+1: ;TIME SLICE FOR PQ1 RETURNED HERE
; BLOCK+2: ;TIME SLICE FOR PQ2 RETURNED HERE
; ;(IF N WAS BIG ENOUGH)
;
SCHRTS: PUSHJ P,SCHGET ;GET N
MOVEI T4,QADTAB## ;ADDRESS WHERE DATA IS STORED
;PJRST SCHRTB ;READ THE TABLE
SCHRTB: CAIG T1,2 ;LEGAL ARG?
SCHRTC: SKIPG T1
JRST SCHQNE ;NO
SCHRTD: MOVN T1,T1
HRL T4,T1 ;AOBJN POINTER
SCHRT1: MOVE T1,(T4) ;GET SLICE
IMULI T1,^D1000 ;MILLITICKS
IDIV T1,TICSEC## ;CONVERT TO MILLISECS
JSP T2,SCHBLK
JRST SCHRT1
;HERE TO WRITE TIME SLICES FOR PQ1 OR PQ2
; FORMAT OF BLOCK:
;
; BLOCK: N ;NUMBER OF WORDS FOLLOWING
; BLOCK+1: XWD Q#,TIME SLICE(MS)
; BLOCK+2: XWD Q#,TIME SLICE(MS)
; .
; BLOCK+N: XWD Q#,TIME SLICE
;
SCHWTS: PUSHJ P,SCHGET ;GET N
JUMPLE T1,CPOPJ1 ;DONE IF LE ZERO
MOVE T4,T1 ;COPY N
SCHWT1: PUSHJ P,SCHGT1 ;GET ARG
MOVE T2,TICSEC## ;GET JIFSEC
IMULI T2,(T1) ;GET MILLITICS IN T2
IDIVI T2,^D1000 ;CONVERT TO TICKS (ARG WAS IN MS)
HLRZ T3,T1 ;GET Q NUMBER
SKIPE T3 ;ZERO IS NOT LEGAL
CAILE T3,2 ;LEGAL?
JRST SCHQNE ;NO, Q NUMBER ERROR
MOVEM T2,QADTAB##-1(T3);SAVE
SOJG T4,SCHWT1 ;AND LOOP
JRST CPOPJ1 ;FINISHED.
;FUNCTION 5
;
;HERE TO READ CLASS NUMBERS FOR ALL JOBS ON THE SYSTEM UP TO
; THE NUMBER IN ADDRESS
; FORMAT OF BLOCK:
;
; BLOCK: N ;NUMBER OFJOBS TO READ CLASS FOR
; BLOCK+1: ;RETURN CLASS OF JOB 1 HERE
; BLOCK+2: ;RETURN CLASS OF JOB 2 HERE
; .
; BLOCK+N: ;RETURN CLASS OF JOB N HERE
;
SCHRJC: PUSHJ P,SCHGET ;GET NUMBER OF JOBS TO DO
PUSHJ P,LGLPRC## ;IS THIS A LEGAL JOB NUMBER?
JRST SCHBJN ;NO
MOVN T4,T1
HRLZS T4
AOS T4 ;START WITH JOB 1
SCHRJ1: LDB T1,JBYCL4## ;GET CLASS
JSP T2,SCHBLK
JRST SCHRJ1
;HERE TO PUT A JOB INTO A CPU CLASS
; FORMAT OF BLOCK:
;
; BLOCK: N ;NUMBER OF WORDS FOLLOWING
; BLOCK+1: XWD JOB,CLASS
; BLOCK+2: XWD JOB,CLASS
; .
; BLOCK+N: XWD JOB,CLASS
;
SCHWJC: PUSHJ P,SCHGET ;GET N
JUMPLE T1,CPOPJ1 ;RETURN IF NO WORK TO DO
MOVE T4,T1 ;COPY N
SCHWJ1: PUSHJ P,SCHGT1 ;
HRRZ T2,T1 ;SAVE CLASS NUMBER IN T2
HLRZS T1 ;GET JOB NUMBER IN RHOF T1 FOR LGLPRC
CAIN T1,-1 ;US?
MOVE T1,J ;YES, USE OUR JOB NUMBER
PUSHJ P,LGLPRC## ;LEGAL JOB NUMBER?
JRST SCHBJN ;NO
MOVSI T3,JNA
TDNN T3,JBTSTS##(T1)
JRST SCHWJ3 ;NO GOOD IF JOB NOT ASSIGNED
CAIL T2,M.CLSN## ;BAD CLASS NUMBER?
JRST SCHCLE ;YES.
DPB T2,JBYCL1## ;DEPOSIT
SKIPL JBTSCD##(T1) ;IS JOB IN PQ2?
JRST SCHWJ3 ;NOT IN PQ2
MOVSI T2,(JS.CSQ) ;JOB IS CHANGING SUB QUEUE
IORM T2,JBTST2##(T1) ;SET BIT FOR THE JOB
CAMN T1,.CPJOB## ;IS THIS JOB US?
JRST SCHWJ2 ;YES
PUSH P,J ;SAVE OUR JOB NUMBER
MOVE J,T1 ;GET TARGET JOB IN J
PUSHJ P,REQUE## ;REQUEUE HIM SO HE WILL WIND UP IN PROPER SUBQUE
POP P,J
JRST SCHWJ3 ;GO ON
SCHWJ2: SYSPIF ;PREVENT RACES
SKIPN SCDRTF## ;ALREADY REAL TIME REQUEST IN?
HRROS SCDRTF## ;SEMI-PREEMPTIVE RESCHEDULE
SYSPIN ;EXIT RACE WINDOW
SETOM .CPHQU## ;REQUEST A REQUEUE
SCHWJ3: SOJG T4,SCHWJ1 ;AND LOOP FOR NEXT SPEC.
JRST CPOPJ1
;FUNCTION 6
;
;HERE TO READ MCU CONSTANT (PROT0)
; FORMAT OF BLOCK
;
; BLOCK: ;PROT0 RETURNED HERE
;
SCHRMC: MOVE T1,PROT0##
PJRST SCHPVL ;STORE VALUE IN USERS AREA AND RETURN
;HERE TO WRITE MCU CONSTANT (PROT0)
; FORMAT OF BLOCK:
;
; BLOCK: <DESIRED VALUE OF PROT0>
SCHWMC: PUSHJ P,SCHGET
MOVEM T1,PROT0##
JRST CPOPJ1
;FUNCTION 7
;
;HERE TO READ TIME SINCE SYSTEM STARTUP EACH CLASS HAS USED.
; FORMAT OF BLOCK
;
; BLOCK: N ;NUMBER OF CLASSES TO READ RUNTIMES FOR
; BLOCK+1: ;CLASS 0 RUNTIME RETURNED HERE
; BLOCK+2: ;CLASS 1 RUNTIME RETURNED HERE
; .
; BLOCK+N: ;CLASS N-1 RUNTIME RETURNED HERE
;
SCHRCT: PUSHJ P,SCHGET
SKIPLE T1 ;BOMB IF OUT OF RANGE
CAILE T1,M.CLSN##
JRST SCHCLE
MOVN T4,T1
HRLZS T4
SCHRC1: MOVE T1,CLSRTM##(T4) ;GET TIME
JSP T2,SCHBLK
JRST SCHRC1
;FUNCTION 11
;
;HERE TO READ VALUE OF PROT (MCU MULTIPLIER)
;
; FORMAT OF BLOCK:
;
; BLOCK: ;RETURN VALUE HERE
;
SCHRPF: MOVE T1,PROT## ;GET DESIRED VALUE
PJRST SCHPVL ;STORE AND RETURN
;HERE TO WRITE PROT
;
; FORMAT OF BLOCK:
;
; BLOCK: <DESIRED VALUE OF PROT>
SCHWPF: PUSHJ P,SCHGET ;GET DESIRED VALUE
MOVEM T1,PROT## ;SAVE DESIRED VALUE (IN MICROSECS)
PJRST CPOPJ1 ;AND RETURN WELL.
;FUNCTION 12
;
;HERE TO READ VALUE OF DEFAULT CLASS FOR NEW JOBS
;
; FORMAT OF BLOCK:
;
; BLOCK: ;RETURN VALUE HERE
;
SCHRCD: MOVE T1,DEFCLS## ;GET DEFAULT CLASS
ANDI T1,37 ;JUST CLASS BITS, NO OTHER GARBAGE
PJRST SCHPVL ;STORE VALUE AND RETURN
;HERE TO WRITE THE DEFAULT CLASS OF NEW JOBS
;
; FORMAT OF BLOCK:
;
; BLOCK: <DESIRED VALUE OF DEFAULT CLASS, BITS 31-35>
;
SCHWCD: PUSHJ P,SCHGET ;GET ARG
CAIL T1,M.CLSN## ;IS IT A LEGAL CLASS?
JRST SCHCLE ;NO, GIVE ILLEGAL CLASS NUMBER ERROR
MOVEM T1,DEFCLS## ;STORE
PJRST CPOPJ1## ;AND GIVE GOOD RETURN
;FUNCTION 13
;
;HERE TO READ VALUE OF PROT1 (MCU REQUEUE CONSTANT)
;
; FORMAT OF BLOCK:
;
; BLOCK: ;RETURN VALUE OF PROT1 HERE
;
SCHRRC: MOVE T1,PROT1## ;GET DESIRED VALUE
IMUL T1,[^D1000000] ;CONVERT TO MICROTICKS
IDIV T1,TICSEC## ;THEN TO MICROSECONDS
PJRST SCHPVL ;STORE AND RETURN
;HERE TO WRITE MCU REQUEUE CONSTANT
;
; FORMAT OF BLOCK:
;
; BLOCK: <DESIRED VALUE OF PROT1 IN MICROSECONDS>
SCHWRC: PUSHJ P,SCHGET ;GET DESIRED VALUE
IMUL T1,TICSEC## ;CONVERT TO MICROTICKS
IDIV T1,[^D1000000] ;THEN TO TICKS
MOVEM T1,PROT1## ;SAVE DESIRED VALUE OF PROT1
PJRST CPOPJ1 ;AND RETURN WELL.
;FUNCTION 14
;
;HERE TO READ VALUE OF PROTM (MCU MAXIMUM)
;
; FORMAT OF BLOCK:
;
; BLOCK: ;RETURN VALUE HERE
;
SCHRPM: MOVE T1,PROTM## ;GET DESIRED VALUE
PJRST SCHPVL ;STORE AND RETURN
;HERE TO WRITE PROTM
;
; FORMAT OF BLOCK:
;
; BLOCK: <DESIRED VALUE OF PROTM>
SCHWPM: PUSHJ P,SCHGET ;GET DESIRED VALUE
MOVEM T1,PROTM## ;SAVE DESIRED VALUE (IN MICROSECS)
PJRST CPOPJ1 ;AND RETURN WELL.
;FUNCTION 15
;
;HERE TO READ QUANTUM MULTIPLIERS FOR EITHER PQ1 OR PQ2
;AND TO READ SCALE FACTOR
; FORMAT OF BLOCK:
;
; BLOCK: N ;NUMBER OF QUEUES TO READ MULTIPLIERS FOR
;(MUST BE 1-3)
; BLOCK+1: ;QUANTUM MULTIPLIER FOR PQ1 RETURNED HERE
; BLOCK+2: ;QUANTUM MULTIPLIER FOR PQ2 RETURNED HERE
; ;(IF N BIG ENOUGH)
; BLOCK+3: ;SCALE FACTOR FOR QUANTUM MULTIPLIERS RETURNED HERE
; ;(IF N BIG ENOUGH)
;
SCHRML: PUSHJ P,SCHGET ;GET N
MOVEI T4,QMLTAB## ;WHERE TO FIND THE DATA
CAIGE T1,3 ;MULTIPLIERS ONLY?
PJRST SCHRTC ;YES, GO GET THEM
CAIE T1,3 ;LEGAL?
JRST SCHQNE ;NO
MOVE T1,QRANGE## ;GET SCALE FACTOR
ADDI M,3 ;ADVANCE POINTER TO PROPER LOCATION
PUSHJ P,PUTWRD## ;STORE IT
JRST SCHAER ;ADDRESS PROBLEM
SUBI M,3 ;RESTORE POINTER
MOVEI T1,2 ;SETUP FOR 2 ARGS
PJRST SCHRTD ;DO THE REST OF THE TABLE
;HERE TO WRITE QUANTUM MULTIPLIERS FOR EITHER PQ1 OR PQ2
; FORMAT OF BLOCK:
;
; BLOCK: N ;NUMBER OF WORDS FOLLOWING
; BLOCK+1: XWD Q#,MULTIPLIER(MS)
; BLOCK+2: XWD Q#,MULTIPLIER(MS)
; BLOCK+N: XWD 3,QRANGE
SCHWML: PUSHJ P,SCHGET ;GET N
JUMPLE T1,CPOPJ1 ;RETURN IF ZERO
MOVE T4,T1 ;COPY N
SCHWM1: PUSHJ P,SCHGT1 ;GET ARG
HLRZ T3,T1 ;Q NUMBER
JUMPE T3,SCHQNE ;ZERO IS NOT ALLOWED
CAILE T3,2 ;LEGAL?
JRST SCHWM3 ;PROBABLY NOT
HRRZ T1,T1 ;CLEAR LEFT HALF
IMUL T1,TICSEC## ;MILLITICS
IDIVI T1,^D1000 ;TICS
MOVEM T1,QMLTAB##-1(T3) ;STORE IT
SCHWM2: SOJG T4,SCHWM1 ;GET NEXT ARG
JRST CPOPJ1 ;GIVE GOOD RETURN
SCHWM3: CAIE T3,3 ;LEGAL?
JRST SCHQNE ;NO
HRRZM T1,QRANGE## ;YES STORE THE SCALE FACTOR
JRST SCHWM2 ;AND PROCEED
;FUNCTION 16
;
;HERE TO READ QUANTUM MAXIMA FOR EITHER PQ1 OR PQ2
; FORMAT OF BLOCK:
;
; BLOCK: N ;NUMBER OF QUEUES TO READ MAXIMA FOR
; ;(CAN BE 1 OR 2)
; BLOCK+1: ;MAXIMUM QUANTUM RUN FOR PQ1 RETURNED HERE
; BLOCK+2: ;MAXIMUM QUANTUM RUN FOR PQ2 RETURNED HERE
; ;(IF N BIG ENUF)
;
SCHRMX: PUSHJ P,SCHGET ;GET N
MOVEI T4,QMXTAB## ;QUANTUM MAX TABLE
PJRST SCHRTB ;GO READ THE TABLE
;HERE TO WRITE QUANTUM MAXIMA FOR EITHER PQ1 OR PQ2
; FORMAT OF BLOCK:
;
; BLOCK: N ;NUMBER OF WORDS FOLLOWING
; BLOCK+1: XWD Q#,MAX TIME SLICE(MS)
; BLOCK+2: XWD Q#,MAX TIME SLICE(MS)
;
; BLOCK+N: XWD Q#,MAX TIME SLICE(MS)
;
SCHWMX: PUSHJ P,SCHGET ;GET N
JUMPLE T1,CPOPJ1 ;RETURN IF ZERO
MOVE T4,T1 ;COPY N
SCHWX1: PUSHJ P,SCHGT1 ;GET ARG
MOVE T2,TICSEC## ;GET JIFSEC
IMULI T2,(T1) ;MILLITICS
IDIVI T2,^D1000 ;TICS
HLRZ T3,T1 ;Q NUMBER
SKIPE T3 ;ZERO IS NOT ALLOWED
CAILE T3,2 ;LEGAL?
JRST SCHQNE ;Q NUMBER ERROR
MOVEM T2,QMXTAB##-1(T3) ;STORE IT
SOJG T4,SCHWX1 ;GET NEXT ARG
JRST CPOPJ1 ;GIVE GOOD RETURN
;FUNCTION 17
;
;HERE TO READ SECONDARY CLASS QUOTAS
; FORMAT OF BLOCK:
;
; BLOCK: N ;NUMBER FOR CLASSES TO READ QUOTAS OF
; BLOCK+1: ;SECONDARY QUOTA OF CLASS 0 RETURNED HERE
; BLOCK+2: ;SECONDARY QUOTA OF CLASS 1 RETURNED HERE
;
; BLOCK+N: ;SECONDARY QUOTA OF CLASS N-1 RETURNED HERE
;
SCHRSQ: PUSHJ P,SCHGET ;GET NUMBER OF CLASSES TO RETURN
SKIPLE T1 ;TOO LOW OR
CAILE T1,M.CLSN## ;TOO HIGH?
JRST SCHCLE ;YES, TELL HIM SO
MOVN T4,T1 ;GET AN AOBJN POINTER
HRLZS T4
SCHRS1: MOVE T1,CLSQTA##(T4) ;GET QUOTA
JSP T2,SCHBLK ;STORE WORD
JRST SCHRS1 ;LOOP FOR MORE
;HERE TO SET SECONDARY QUOTAS FOR CLASS
;
; FORMAT OF BLOCK:
;
; BLOCK: N ;NUMBER OF WORDS FOLLOWING
; BLOCK+1: XWD CLASS,QUOTA
; BLOCK+2: XWD CLASS,QUOTA
;
; BLOCK+N: XWD CLASS,QUOTA
SCHWSQ: PUSHJ P,SCHGET ;GET NUMBER OF ARGS
JUMPLE T1,SCHWS2 ;DONE IF LE ZERO
MOVE T4,T1 ;SAVE IN T4
SCHWS1: PUSHJ P,SCHGT1 ;GET ARG
LDB T3,[POINT 5,T1,17] ;GET CLASS
CAIL T3,M.CLSN## ;TOO HIGH?
JRST SCHCLE ;YES, REPORT IT.
HRRZM T1,CLSQTA##(T3) ;SAVE SECONDARY QUOTA
SOJG T4,SCHWS1 ;AND LOOP UNTIL DONE.
SCHWS2: SETZB T1,CNTQTA## ;ZERO MAX CLASS, COUNT OF CLASSES
SETZM TOTQTA## ;ZERO TOTAL OF ALL CLASSES QTA
MOVEI T4,M.CLSN##-1 ;HIGHEST LEGAL CLASS
SCHWS3: SKIPG T2,CLSQTA##(T4) ;ANY SECONDARY QUTOTA?
JRST SCHWS4 ;NO
AOS CNTQTA## ;BUMP COUNT OF CLASSES WITH QTA
ADDM T2,TOTQTA## ;ADD TO TOTAL OF ALL CLASSES
JUMPG T1,SCHWS4 ;JUMP IF ALREADY FOUND HIGHEST NON-ZERO CLASS
MOVE T1,T4 ;ELSE SAVE HIGHEST CLASS
SCHWS4: SOJGE T4,SCHWS3 ;REPEAT FOR ALL CLASSES
MOVEM T1,MAXQTA## ;STORE CLASS NUMBER OF TOP CLASS WITH QTA
JRST CPOPJ1 ;RETURN
;FUNCTION 20
;
;HERE TO READ SCDJIL
; FORMAT OF BLOCK:
;
; BLOCK: ;RETURN PERCENTAGE HERE
;
SCHRIQ: MOVE T1,SCDJIL## ;LOAD PERCENT TO SCAN JBTJIQ
PJRST SCHPVL ;GIVE GOOD RETURN
;HERE TO WRITE SCDJIL
;
; FORMAT OF BLOCK:
;
; BLOCK: <DESIRED PERCENTAGE TO SCAN JBTJIQ>
SCHWIQ: PUSHJ P,SCHGET ;GET VALUE
JUMPLE T1,SCHFNP ;MUST BE POSITIVE TO GUARANTEE CLEARING OF CORE
CAILE T1,^D100 ;MAX OF 100%
MOVEI T1,^D100
MOVEM T1,SCDJIL## ;SAVE NEW VALUE
PJRST CPOPJ1 ;RETURN
;FUNCTION 21
;
;HERE TO READ SWAP SCAN TIME
;
; FORMAT OF BLOCK:
;
; BLOCK: ;RETURN SWAP SCAN TIME HERE
;
SCHRSS: MOVE T1,SCDSWP## ;HOW LONG TO SCAN SAME SUBQUEUE FOR SWAP IN
PJRST SCHPVL ;PUBLISH VALUE
;HERE TO WRITE SCDSWP
;
; FORMAT OF BLOCK:
;
; BLOCK: <DESIRED VALUE OF SWAP SCAN TIME>
SCHWSS: PUSHJ P,SCHGET ;GET VALUE FROM USER
MOVEM T1,SCDSWP## ;STORE IT
JRST CPOPJ1 ;GIVE GOOD RETURN
;FUNCTION 22
;
;HERE TO READ BACKGROUND BATCH SUBQUEUE NUMBER
;
; FORMAT OF BLOCK:
;
; BLOCK: ;RETURN BACKGROUND BATCH SUBQUEUE HERE
;
SCHRBB: MOVE T1,BBSUBQ## ;BACKGROUND BATCH SUBQUEUE
PJRST SCHPVL ;PUBLISH RESULTS
;HERE TO WRITE BBSUBQ
;
; FORMAT OF BLOCK:
;
; BLOCK: <DESIRED SUBQUEUE FOR BACKGROUND BATCH>
SCHWBB: PUSHJ P,SCHGET ;GET DESIRED VALUE
CAIL T1,M.CLSN## ;TOO BIG?
JRST SCHCLE ;YES
SKIPGE T1 ;NO BACKGROUND BATCH?
SETO T1, ;YES USE -1 FOR FLAG
MOVEM T1,BBSUBQ## ;STORE NEW B B QUEUE NUMBER
JRST CPOPJ1 ;RETURN
;FUNCTION 23
;
;HERE TO READ BACKGROUND BATCH SWAP TIME INTERVAL
;
; FORMAT OF BLOCK:
;
; BLOCK: ;RETURN BB SWAP TIME HERE
;
SCHRBS: MOVE T1,SCDBBS## ;BB SWAP SCAN TIME INTERVAL
PJRST SCHPVL ;TELL USER THE VALUE (IN TICKS)
;HERE TO WRITE SCDBBS
;
; FORMAT OF BLOCK:
; BLOCK: <DESIRED # OF TICKS BETWEEN BB SWAPINS>
SCHWBS: PUSHJ P,SCHGET ;GET VALUE FROM USER
MOVEM T1,SCDBBS## ;STORE FOR SWAPPER
JRST CPOPJ1 ;GOOD RETURN
;FUNCTION 24
;
;HERE TO READ SCHEDULER FAIRNESS FACTOR
;
; FORMAT OF BLOCK:
;
; BLOCK: ;RETURN SCHEDULER FAIRNESS FACTOR HERE
;
SCHRSF: MOVE T1,.CPSCN## ;SCAN TABLE
MOVE T1,MFC(T1) ;MAXIMUM FAIRNESS COUNT
PJRST SCHPVL ;PUBLISH VALUE
;HERE TO WRITE MFC
;
; FORMAT OF BLOCK:
;
; BLOCK: <DESIRED VALUE OF SCHEDULER FAIRNESS FACTOR>
SCHWSF: PUSHJ P,SCHGET ;GET VALUE FROM USER
JUMPLE T1,SCHFNP ;MUST BE POSITIVE
MOVE T2,.CPSCN## ;SCAN TABLE FOR CPU0
MOVEM T1,MFC(T2) ;STORE MAX FAIRNESS COUNT
IFN FTMP,<
MOVE T2,SSCN(T2) ;ADDRESS OF SECOND SCAN TABLE
MOVEM T1,MFC(T2) ;MAX FAIRNESS COUNT FOR CPU1
>
JRST CPOPJ1 ;GIVE GOOD RETURN
;FUNCTION 25
;
;HERE TO READ SWAPPER FAIRNESS FACTOR
;
; FORMAT OF BLOCK:
;
; BLOCK: ;RETURN SWAPPER FAIRNESS FACTOR HERE
;
SCHRSW: MOVE T1,MAXIFC ;MAXIMUM INPUT FAIRNESS COUNT
PJRST SCHPVL ;PUBLISH VALUE
;HERE TO WRITE MAXIFC
;
; FORMAT OF BLOCK:
;
; BLOCK: <DESIRED VALUE OF SWAPPER FAIRNESS FACTOR>
SCHWSW: PUSHJ P,SCHGET ;GET VALUE FROM USER
JUMPLE T1,SCHFNP ;MUST BE POSITIVE
MOVEM T1,MAXIFC ;STORE IT
JRST CPOPJ1 ;GIVE GOOD RETURN
;FUNCTION 26
;
;HERE TO READ SWAP FAIRNESS PERCENTAGE FOR IN-CORE VS OUT-CORE
;
; FORMAT OF BLOCK:
;
; BLOCK: ;RETURN INCORE FAIRNESS HERE
;
SCHRIO: MOVE T1,SCDIOF## ;PERCENT TO SCAN IN-CORE QUEUES FIRST
PJRST SCHPVL ;PUBLISH VALUE
;HERE TO WRITE SCDIOF
;
; FORMAT OF BLOCK:
;
; BLOCK: <DESIRED VALUE OF INCORE FAIRNESS>
SCHWIO: PUSHJ P,SCHGET ;GET VALUE FROM USER
JUMPLE T1,SCHFNP ;MUST BE AT LEAST ONE PERCENT
MOVEM T1,SCDIOF## ;STORE IT
JRST CPOPJ1 ;GIVE GOOD RETURN
;FUNCTION 27
;
;HERE TO READ CORE SCHEDULING TIME INTERVAL (SCDCOR)
;
; FORMAT OF BLOCK: ;RETURN CORE SCHEDULING TIME HERE
;
SCHRCS: MOVE T1,SCDCOR## ;CORE SCHEDULING TIME IN TICK PAIRS
ASH T1,1 ;CONVERT TO TICKS
IDIV T1,TICSEC## ;CONVERT TO SECONDS
PJRST SCHPVL ;PUBLISH VALUE
;HERE TO WRITE SCDCOR
;
; FORMAT OF BLOCK:
;
; BLOCK: <DESIRED VALUE OF CORE SCHEDULING INTERVAL IN SECONDS>
SCHWCS: PUSHJ P,SCHGET ;GET VALUE FROM USER
JUMPLE T1,SCHFNP ;MUST BE POSITIVE
IMUL T1,TICSEC## ;CHANGE TO TICKS
ASH T1,-1 ; THEN TO TICK PAIRS
MOVEM T1,SCDCOR## ;STORE IT
JRST CPOPJ1## ;GIVE GOOD RETURN
MOVEM T1,CORSCD ; SET COUNTER ALSO
;FUNCTION 30
;
;HERE TO READ QUEUE SCAN ORDER
;
; FORMAT OF BLOCK
;
; BLOCK: N ;NUMBER OF WORDS FOLLOWING
; BLOCK+1: ;RETURN SCAN ORDER FOR CPU0
; .
; BLOCK+N ;RETURN SCAN ORDER FOR CPU-1
SCHRSO: PUSHJ P,SCHGET ;GET N
JUMPLE T1,CPOPJ1##
MOVN T4,T1
HRLZS T4
PUSHJ P,SAVE1##
MOVEI P1,.C0CDB## ;FIRST CDB
SCHRO1: MOVE T2,.CPSCN##-.CPCDB##(P1)
SETZ T1,
CAME T2,CPSCAN##(T1) ;FIND SCAN TABLE
AOJA T1,.-1
JSP T2,SCHBLK ;STORE ANSWER
HLRZ P1,.CPCDB##-.CPCDB##(P1)
JUMPN P1,SCHRO1 ;LOOK AT NEXT CDB
JRST CPOPJ1##
;HERE TO WRITE SCAN TABLE
;
; FORMAT OF BLOCK
;
; BLOCK: N ;NUMBER OF WORDS FOLLOWING
; BLOCK+1: XWD CPU#,SCAN BLOCK NUMBER
;
; BLOCK+N XWD CPU#,SCAN BLOCK NUMBER
SCHWSO: PUSHJ P,SCHGET ;GET N
JUMPLE T1,CPOPJ1##
PUSHJ P,SAVE1##
MOVE P1,T1
SCHWO1: PUSHJ P,SCHGT1
HLRZ T2,T1
CAILE T2,M.CPU##-1
JRST SCHICP
HRRZS T1
CAIG T1,CPSTBL##
SKIPN T1,CPSCAN##(T1)
JRST SCHISB
LSH T2,.CPSOF##
MOVEM T1,.C0SCN##(T2)
SOJG P1,SCHWO1
JRST CPOPJ1##
;HERE TO COMPUTE THE SUB QUEUE SCHEDULING TABLES FOR CPU0
;FUNCTION 31
;
;HERE TO READ SEGMENT RETENTION LIMIT (SGTLIM)
;
; FORMAT OF BLOCK: ;RETURN SEGMENT RETENTION LIMIT HERE (IN TICKS)
;
SCHRSL: MOVE T1,SGTLIM ; GET SEGMENT RETENTION LIMIT
PJRST SCHPVL ; PUBLISH VALUE
;HERE TO WRITE SGTLIM
;
; FORMAT OF BLOCK:
;
; BLOCK: <DESIRED VALUE OF SEGMENT RETENTION LIMIT IN TICKS>
SCHWSL: PUSHJ P,SCHGET ; GET VALUE FROM USER
MOVEM T1,SGTLIM ; STORE IT
JRST CPOPJ1## ; AND GIVE GOOD RETURN
;FUNCTION 32
;
;HERE TO READ FREE CORE LIMITS/GOALS
; FORMAT OF BLOCK:
;
; BLOCK: ;RETURN "MINIMUM FREE CORE" GOAL HERE
; BLOCK+1/ ;RETURN "FREE/DORMANT CORE" LIMIT HERE
;
SCHRFL: MOVE T1,FREMI% ; GET VALUE
PUSHJ P,PUTWRD## ; RETURN IT TO USER
JRST SCHAER ; OOPS
MOVE T1,MAXTA% ; GET OTHER VALUE
PUSHJ P,PUTWR1## ; RETURN THAT TOO
JRST SCHAER ; OOPS
JRST CPOPJ1 ; DONE. GOOD
;HERE TO SET FREE CORE GOALS/LIMITS
;
; FORMAT OF BLOCK:
;
; BLOCK/ <DESIRED VALUE OF "MINIMUM FREE CORE" GOAL>
; BLOCK+1/ <DESIRED VALUE OF "FREE/DORMANT CORE" LIMIT>
SCHWFL: PUSHJ P,SCHGET ; GET VALUE FROM USER
PUSHJ P,SCHGPG ;CONVERT TO PAGES
MOVEM T1,FREMI% ;STORE PERCENTAGE
MOVEM T2,FREMIN ;AND VALUE
PUSHJ P,SCHGT1 ; AND SECOND VALUE
PUSHJ P,SCHGPG ;CONVERT TO PAGES
MOVEM T1,MAXTA% ;STORE PERCENTAGE
MOVEM T2,MAXTAL ;AND VALUE
JRST CPOPJ1 ; DONE. GOOD
;SUBROUTINE TO COMPUTE NUMBER OF PAGES OF USER CORE GOAL BASED ON USER
;SUPPLIED PERCENTAGES. ENTER T1= PERCENTAGE, EXIT T1= PERCENTAGE, T2= VALUE
SCHGPG: SKIPLE T1 ;IF HE DOESN'T KNOW WHAT S(HE) ITS DOING,
CAILE T1,^D100
MOVEI T1,0 ;SET IT TO ZERO WHICH CAN'T CAUSE ANY HARM
MOVE T2,T1 ;VALUE
IMUL T2,USRCOR## ;CONVERT TO PERCENTAGE OF PAGES
IDIVI T2,^D100
POPJ P,
;GET A WORD FROM USER (ERROR CODE 1 IF BAD ADDRESS)
SCHGT1: HRRI M,1(M)
SCHGET: PUSHJ P,GETWRD## ;GET WORD
JRST [POP P,(P) ;ADDRESS CHECK
JRST SCHAER]
POPJ P,0 ;GOT IT
;SUBROUTINE TO STORE A WORD INTO A BLOCK
;CALL WITH:
; T1 = WORD
; M = ADDRESS
; T4 = AOBJN WORD
; JSP T2,SCHBLK
; RETURN HERE IF MORE
SCHBLK: PUSHJ P,PUTWR1##
JRST SCHAER
AOBJP T4,CPOPJ1##
JRST (T2)
;ERROR RETURNS
ERCODE SCHAER,SCHAC% ;(1) ADDRESS CHECK ERROR
ERCODE SCHFNE,SCHUF% ;(2) BAD FUNCTION NUMBER
ERCODE SCHBJN,SCHUJ% ;(3) BAD JOB NUMBER
ERCODE SCHNPE,SCHNP% ;(4) NO PRIVILEGES
ERCODE SCHCLE,SCHUC% ;(5) BAD CLASS NUMBER
ERCODE SCHQNE,SCHUQ% ;(6) BAD QUEUE NUMBER
ERCODE SCHCNE,SCHNC% ;(7) BAD CHANNEL NUMBER
ERCODE SCHBFE,SCHEB% ;(10) BAD EXPONENTIAL FACTOR VALUE
ERCODE SCHMIS,SCHMI% ;(11) ATTEMPT TO SET PROT WHILE MCUINT NON ZERO.
ERCODE SCHNHP,SCHNH% ;(13) NOT HUNDRED PERCENT IN CLSSTS
ERCODE SCHFNP,SCHFN% ;(14) FAIRNESS NOT POSITIVE
ERCODE SCHICP,SCHIC% ;(15) ILLEGAL CPU
ERCODE SCHISB,SCHIS% ;(16) ILLEGAL SCAN BLOCK
>;END IFN FTNSCHED
SUBTTL MICRO SCHEDULING INTERVAL ROUTINES
IFN FTNSCHED,<
;HERE EVERY MICRO SCHEDULING INTERVAL TO MAINTAIN
; THE SUB-QUEUE SCHEDULING TABLES
;
;SCDQTA USES AC'S T1,T2,T3,T4.
SCDQTA::SKIPLE T1,SCDINT## ;ANY INTERVAL AT ALL?
SKIPG T2,CNTSTS## ;ANY SUBCLASSES PRESENT?
POPJ P, ;NO, DON'T DO ANYTHING
MOVEM T2,RRFLAG## ;SET RRFLAG SO THAT WE CLASS SCHEDULE
MOVE T2,SCDSTS##
MOVEM T2,SCDSET##
MOVE T2,UPTIME##
CAMGE T2,SCDTIM## ;TIME FOR A MSI?
POPJ P, ;NO, RETURN
ADD T2,T1 ;GET NEXT UPTIME FOR INTERVAL
MOVEM T2,SCDTIM## ;SAVE
IMUL T1,SCDJIL## ;TIMES % TO SCAN JBTJIQ
ADDI T1,^D99 ;ROUND UP
IDIVI T1,^D100 ;SCALE DOWN
ADD T1,UPTIME## ;PLUS CURRENT TIME
MOVEM T1,SCNJIL## ;SAVE FOR SCHEDULING SCAN
; (AND POSSIBLY CPU1)
SOSLE SSCNT## ;ANY ENTRIES LEFT IN PRIMARY SCAN TABLE?
JRST SCDQT1 ;YES
MOVEI T1,^D100 ;100 ENTRIES
MOVEM T1,SSCNT## ;RESTORE COUNT
MOVE T2,[POINT 5,PSQTAB##]
MOVEM T2,SSPNT## ;POINTER FOR CPU0
IFN FTMP,<
MOVE T2,[POINT 5,PSQTAB##,4]
MOVEM T2,SSPNT1## ;POINTER FOR CPU1
>
SCDQT1: PUSHJ P,SCDSS0 ;SETUP SCAN TABLE FOR CPU0
IFN FTMP,<
PUSHJ P,SCDSS1## ;SETUP SCAN TABLE FOR CPU1
>
POPJ P,
SCDSS0::ILDB T1,SSPNT## ;INCREMENT BYTE POINTER FOR CPU0
MOVEI T4,SSSCAN## ;ADDRESS OF CPU0 SUB-Q SCAN TABLE
; PJRST SCDSST ;SETUP THE TABLE
SCDSST::MOVEI J,(T4) ;0,,ADDRESS OF SCAN TABLE
SETCAM T1,(J) ;STORE THE PRIMARY SUBCLASS HEADER OFFSET
SETZM SSSUM## ;INITIALIZE SUM OF SECONDARY PERCENTS
MOVE T2,MAXQTA## ;HIGHEST CLASS WITH NON-ZERO CLSQTA
SCDQT2: SKIPLE T3,CLSQTA##(T2) ;ANY SECONDARY QUOTA FOR THIS CLASS?
CAMN T2,T1 ;IS THIS THE PRIMARY CLASS?
JRST SCDQT3 ;PRIMARY CLASS OR NO QUOTA
ADDM T3,SSSUM## ;SUM THE PERCENTS
AOBJP J,.+1 ;BUMP THE TABLE POINTER
HRL T3,T2 ;CLASS #,,QUOTA
MOVEM T3,(J) ;STASH IN TABLE
SCDQT3: SOJGE T2,SCDQT2 ;CHECK THE OTHER CLASSES
SETCA J, ;LH(J)=-(LH(J)+1)
HRRI J,-1(T4) ;ADDRESS OF TABLE - 1
AOBJP J,SCDQT7 ;JUMP IF NO POSITIVE QUOTAS FOUND
AOBJP J,SCDQT6 ;JUMP IF ONLY ONE CLASS FOUND
SCDQT4: PUSHJ P,RAND ;GET RANDOM NUMBER
IDIV T2,SSSUM## ;MOD SSSUM
MOVE T4,J ;GET A COPY OF AOBJN POINTER
SCDQT5: HRRZ T2,(T4) ;GET HIS SECONDARY QUOTA
SUB T3,T2 ;SUBTRACT FROM SCALED RANDOM NUMBER
JUMPL T3,.+2 ;IS THIS THE CLASS WE WANT?
AOBJN T4,SCDQT5 ;NO, KEEP LOOKING
MOVE T2,(J) ;STORE THE CURRENT ENTRY
EXCH T2,(T4) ;ON TOP OF THE ONE WE SELECTED
HLRZ T1,T2 ;CLASS NUMBER
SETCAM T1,(J) ;STORE AS SUB QUE OFFSET
MOVNI T2,(T2) ;SUBTRACT QUOTA
ADDM T2,SSSUM## ;FROM TOTAL
AOBJN J,SCDQT4 ;GO PICK THE NEXT TABLE ENTRY
SCDQT6: HLRZ T1,(J) ;LAST AND CERTAINLY LEAST
SETCAM T1,(J) ;STORE HIM ALSO
SCDQT7: SETZM 1(J) ;ZERO TERMINATES SCAN LIST
POPJ P,
>;END IFN FTNSCHED
$LIT
SCHEND: END