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custsupcuspmar86_bb-x130b-sb
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kiser.mac
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TITLE KISER - KI10 PROCESSOR DEPENDENT CODE - V375
SUBTTL J.M. FLEMMING/JMF/DAL TS 10 SEP 85
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.
;
;
;DATE LOAD EDIT
;
;
;
XP VKISER,375
; PUT VERSION NUMBER IN GLOB LISTING AND LOADER STORAGE MAP
ENTRY KISER ;LOAD KISER IF LIBRARY SEARCH
KISER::
SUBTTL CLOCK1 - INTERFACE TO JOB STARTUP, STOP, AND CONTEXT SWITCHING ROUTINES
SUBTTL TRAP HANDLING AND CONTEXT SWITCHING
;HERE TO PROCESS USER ARITHMETIC OVERFLOW TRAPS
SAROVF::MOVE T1,.UPMP+.UPMUP ;GET PC
MOVE T3,.JDAT+JOBENB## ;GET USER'S ENABLE BITS
TRNN T3,AP.AOV ;OVERFLOW - IS THE USER ENABLED?
TLNE T1,(XC.FOV) ;TRAP CAUSED BY FOV?
CAIA ;YES,
JRST SAROV6 ;NOT ENABLED, IGNORE IT
HRRI T3,AP.AOV+AP.FOV;ASSUME FLOATING OVERFLOW
TLNN T1,(XC.FOV) ;WAS IT A FLOATING OVERFLOW TRAP?
TRZ T3,AP.FOV ;NO, INTEGER OVERFLOW
;HERE WITH T1=PC, T3=APRENB BITS
SAROV3: TLZ T1,637 ;CLEAR BITS FOR COMPATABILITY
MOVEM T1,.JDAT+JOBTPC## ;SAVE OLD PC
MOVEM T3,.JDAT+JOBCNI## ;LIKE CONI ON THE KA-10
MOVE T3,.JDAT+JOBENB## ;GET USER'S ENABLE BITS
TRNE T3,XP.DDU ;USER WANT TRAPS REENABLED?
JRST SAROV5 ;YES, LEAVE AS IS
HLLZS .JDAT+JOBENB## ;CLEAR USER'S ENABLE BITS SO MUST DO APRENB AGAIN
MOVEI T3,UP.PFT
MOVEM T3,.UPMP+.UPPFT ;EXEC WILL FIELD ILM
MOVSI T3,(JFCL) ;NOP
MOVEM T3,.UPMP+.UPAOT ;IGNORE ARITHMETIC TRAPS
MOVEI T3,UP.PDT
MOVEM T3,.UPMP+.UPPDT ;EXEC WILL FIELD PDL OVERFLOWS
SETZM .CPCN1## ;CLEAR POSSIBLE NXM OR CLOCK ENABLES
SAROV5: MOVEI T3,XP.CLK ;ALWAYS DISABLE CLOCK
ANDCAM T3,.CPCN1##
HRRZ T3,.JDAT+JOBAPR## ;PC IN TRAP ROUTINE?
CAIE T3,0(T1)
CAIN T3,-1(T1)
JRST SAROV7 ;YES
HRR T1,.JDAT+JOBAPR## ;GET USER'S TRAP ADDRESS
TLZ T1,(XC.OVF+XC.FOV+XC.FUF+XC.NDV+IC.BIS+IC.AFI)
TLO T1,(XC.PUB!XC.USR) ;INSURE PUBLIC AND USER MODE IS SET
SAROV6: MOVEM T1,.UPMP+.UPMUO ;NEW PC WITH TRAP CAUSING BITS CLEARED
MOVE P,[XWD MJOBPD##,.JDAT+JOBPDL##] ;SET UP A STACK
PUSHJ P,SCDCHK## ;CHECK IF WE SHOULD RESCHEDULE
JEN @.UPMP+.UPMUO ;EXIT TO THE USER'S TRAP HANDLER
SAROV7: HLLZM T1,.CPAPC## ;SAVE OLD PC FOR THE ERROR MESSAGE
HRRZM T1,.CPAPC##+1
MOVEI T1,XP.LTH ;STUCK IN LOOP BIT
HRRM T1,.CPAEF##
JRST SEPDL3
SEPDLO::EXCH T1,.UPMP+.UPMUP ;GET THE PC
HLLZM T1,.CPAPC## ;SET AS ERROR PC FOR ERRCON
HRRZM T1,.CPAPC##+1 ; ..
HRRI T1,AP.POV ;SET PUSH DOWN OVERFLOW FLAG
SEPDL1: HRRM T1,.CPAEF## ;IN .CPAEF SO ERRCON WILL GET CALLED
MOVE T1,.UPMP+.UPMUP ;RESTORE T1
SEPDL3: SETOM .CPSCF## ;SET FORCED RESCHEDULING FLAG
SETOM .CPCKF## ;AND CLOCK FLAG
CONO PI,CLKBIT##+PI.IIO ;REQUEST A CLOCK INTERRUPT AND TURN THE PI SYSTEM ON
CONSO PI,II.IPA ;ANY PIS IN PROGRESS?
JRST . ;WAIT UNTIL CLOCK LEVEL HAPPENS AND THE JOB
; IS STOPPED IF IN USER MODE. IF THE PC IS IN
;EXEC MODE, ERRCON WILL CONTINUE AT
; (.CPAPC) INSTEAD OF HERE
MOVEM P,PIPPDL ;SAVE OLD STACK POINTER
MOVEI P,PIPPDL ;AND GET NEW ONE
STOPCD .,STOP,PIP, ;++PI IN PROGRESS
$LOW
PIPPDL: EXP 0
BLOCK 1
$HIGH
SEILM:: SKIPN .CPEJ1## ;ALREADY BEEN HERE (T1 AND T2 SAVED)?
DMOVEM T1,.CPST1## ;NO, SAVE T1 AND T2 HERE
MOVE T1,.UPMP+.UPMUP ;GET THE PC
HLLZM T1,.CPAPC## ;STORE IT AS POTENTIAL ERROR PC
HRRZM T1,.CPAPC##+1 ; ..
MOVE T2,.UPMP+.UPUPF ;GET THE USER PAGE FAIL WORD
TLNN T1,(XC.USR) ;DID THE PAGE FAULT OCCUR IN USER MODE?
SKIPA T2,.UPMP+.UPEPF ;NO, GET THE EXEC PAGE FAIL WORD
MOVE T3,T2 ;USER PAGE FAULT, SAVE PC FOR POSSIBLE CALL TO USRFLT
MOVEM T2,.CPPFW## ;STORE PAGE FAULT WORD
JUMPL T2,SEILM4 ;INSURE AGAINST HARDWARE STORING A -1 P.F. WORD
ANDI T2,37 ;CLEAR ALL BUT THE PAGE FAIL CODE
TLNE T1,(XC.USR) ;PAGE FAULT IN EXEC MODE?
JRST SEILM0 ;NO, PROCEED
CAIN T2,PF.ABF ;WAS THE PAGE FAULT AN ADDRESS BREAK?
JRST SEILM1 ;YES, REMEMBER IT AND GO AWAY
JRST SEILM7 ;NO, EXEC ILL MEM REF, LOOK FOR ERJMP
SEILM0: MOVE P,[XWD MJOBPD##,.JDAT+JOBPDL##] ;SETUP A PUSH DOWN LIST
SKIPN .UPMP+.UPJOB
STOPCD .,CPU,PFN ;++PAGE FAULT IN NULL JOB
PUSH P,T1 ;SAVE USER'S PC
CAIN T2,PF.ABF ;ADDRESS BREAK?
JRST SEILM1 ;YES, GO PROCESS
MOVE T4,T1 ;PC WORD INTO T4 FOR USRFLT
HRRI T1,AP.ILM ;ILLEGAL MEMORY REFERENCE
CAIN T2,PF.PRV ;WAS IT A PROPRIETARY VIOLATION?
TROA T1,AP.PPV ;INDICATE PROPRIETARY VIOLATION (AVOID CALL TO USRFLT)
PUSHJ P,USRFLT## ;SEE IF PAGE FAULT FOR A VM USER
; WILL NOT RETURN IF SO (DISPATCH TO USER)
MOVE T2,.CPST2## ;RESTORE T2
JRST SEPDL1 ;GO SAY "ILL. MEM. REF."
SEILM1: TLO T1,(IC.AFI) ;INHIBIT ADDRESS BREAK WHEN INSTRUCTION IS
; EXECUTED AGAIN
EXCH J,.CPJOB## ;GET JOB
PUSH P,W ;SAVE W IN CASE IN EXEC MODE
PUSHJ P,FNDPDS## ;FIND THE PDB
LDB T2,[POINT 9,.PDABS##(W),17] ;GET THE PROCEED COUNT
SOSL T2 ;DECREMENT
DPB T2,[POINT 9,.PDABS##(W),17] ;STORE IT BACK IF POSITIVE
POP P,W ;RESTORE W
JUMPG T2,SEILM3 ;DON'T BREAK IF PROCEED COUNT .GT. 0
MOVE T2,JBTSTS##(J) ;IS THIS A JACCT
TLNN T2,JACCT ;JOB
JRST SEILM6 ;NOT JACCT
MOVE T2,JBTPPN##(J) ;YES, BUT IS
CAME T2,FFAPPN## ; HE GOD?
JRST SEILM3 ;NO-IGNORE BREAK
SEILM6: EXCH J,.CPJOB## ;UNDO LAST EXCH
TLNN T1,(XC.USR) ;PC IN USER MODE?
JRST SEILM2 ;NO, REMEMBER BREAK AND GO AWAY
MOVEM T1,.CPPC## ;STORE THE PC WITH IFA ON
IFN FTPI,<
MOVE J,.CPJOB## ;JOB NUMBER FOR PSISER
SIGNAL C$ADRB ;SIGNAL THAT AN ADDRESS BREAK HAS OCCURED
SKIPA ;USER DOESN'T WANT TRAP
JRSTF @.CPPC## ;THE USER IS ENABLED, INTERRUPT HIM
> ;END FTPI
PUSH P,.CPPC## ;SAVE PC ON STACK
PUSHJ P,TTYFUW## ;FIND THE USER'S TTY
PUSHJ P,INLMES## ;REPORT THE ADDRESS BREAK
ASCIZ /
%Address break at user PC /
HRRZ T1,(P) ;GET THE USER'S PC
PUSHJ P,OCTPNT## ;TELL HIM WHERE THE BREAK OCCURED
IFN FTPI,<
PUSHJ P,PSIERR## ;PENDING INTERRUPT?
JFCL
PJRST ERRGOU## ;YES, GIVE IT TO THE USER
>
PJRST HOLDW## ;STOP THE JOB IN A CONTINUABLE STATE
SEILM2: MOVEI T2,JS.ASA ;AC'S ARE IN THE SHADOW AREA BIT
EXCH J,.CPJOB## ;JOB NUMBER
TDNE T2,JBTSTS##(J) ;SAVE/GET IN PROGRESS?
JRST SEILM3 ;YES, DON'T BOTHER THE USER WITH BREAKS ON THAT
MOVEI T2,JS.ABP ;ADDRESS BREAK HAPPENED DURING UUO PROCESSING BIT
IORM T2,JBTST2##(J) ;REMEMBER THAT THE BREAK HAPPENED
SEILM3: EXCH J,.CPJOB## ;RESTORE J
SEILM4: MOVEM T1,.UPMP+.UPMUP ;STORE PC WITH IC.AFI ON
DMOVE T1,.CPST1## ;RESTORE T1 AND T2
JRSTF @.UPMP+.UPMUP ;GO AWAY AND TELL THE USER ABOUT THE BREAK
; AT UUO EXIT
;HERE IF AN ILL MEM REF OCCURED IN EXEC MODE, CHECK FOR ERJMP OR
;ERCAL BEFORE CALLING IT AN IME
SEILM7: CONSO PI,PI.IPA ;AT INTERRUPT LEVEL?
JRST SEJLM2 ;NO, UUO LEVEL, OK
CONSO PI,PI.IPA-PI.IP7 ;YES - LEVEL 7?
SKIPN .CPISF## ;YES, FROM SCHEDULER?
JRST SEILME ;PI1 - PI6 OR NON-SCHEDULER PI7
SEJLM2: SKIPE .CPEJ1## ;NESTING?
JRST SEILM8 ;YES, IT'S AN IME
MOVE T2,.CPPFW## ;NO, GET PAGE FAULT WORD
IFN FTPEEKSPY,<
TLNE T2,(PF.USR) ;USER REFERENCE
PUSHJ P,[PUSHJ P,SAVT## ;YES, SAVE ACS
LDB T1,[POINT 9, T2,17] ;VIRTUAL PAGE NUMBER
PUSHJ P,TSSPT## ;A SPY PAGE?
POPJ P, ;NO
PJRST UADERR##] ;YES,BLAME THE USER
>
DMOVEM T1,.CPEJ1## ;"TOP LEVEL", REMEMBER IN CASE WE NEST
MOVEM T1,.CPEJ3## ;ALSO SAVE HERE FOR PSYCHOPATHIC CASES
SKIP (T1) ;TOUCH PAGE FAULT PC LOCATION AND
LDB T2,[POINT 13,1(T1),12] ;GET INSTRUCTION FOLLOWING
; IF THE PC JUMPED OFF INTO THE BOONIES
; THEN THIS WILL PAGE FAULT AND WE WILL
; KNOW WE HAVE A REAL IME
CAIE T2,<ERJMP>_-^D23 ;IS IT AN ERJMP?
JRST SEILM8 ;NO, THEN WE HAVE AN IME
MOVE T2,1(T1) ;GET ENTIRE ERJMP EXPRESSION
MOVEM T2,.CPEJ4## ;AND SAVE IT WHERE WE CAN FIND IT
DMOVE T1,.CPST1## ;RESTORE FULL AC SET
MOVEI T1,@.CPEJ4## ;GET "E" OF ERJMP
; IF THIS IME'S (NOTE .CPEJ1 STILL
; NON-ZERO) THEN .CPEJ3 HAS ORIGINAL
; TRAP PC WHICH STARTED THIS MESS.
HRRM T1,.CPAPC## ;SET FROM WHENCE TO CONTINUE
MOVE T1,.CPST1## ;RESTORE T1 AGAIN
SETZM .CPEJ1## ;CLEAR NESTING FLAG
JRSTF @.CPAPC## ;AND GO PROCESS THE ERROR
;HERE ON NESTED IME, "RESTORE" THE FIRST IME AND STOPCD
SEILM8: DMOVE T1,.CPEJ1## ;PAGE FAULT PC AND REASON WORDS
MOVEM T1,.CPAPC## ;SET TRUE ERROR PC
MOVEM T1,.UPMP+.UPMUP ;ALSO MAKE UPMP LOOK RIGHT
MOVEM T2,.CPPFW## ;SET TRUE PAGE FAULT WORD
MOVEM T2,.UPMP+.UPEPF ;ALSO MAKE UPMP LOOK RIGHT
SEILME: SETZM .CPEJ1## ;CLEAR NESTING FLAG
STOPCD .+1,JOB,IME, ;++ILL MEM REF FROM EXEC
JRST SEILM4 ;AND DISMISS THE TRAP
EXCABK::ANDCAM T1,JBTST2##(J) ;CLEAR BREAK HAPPENED IN EXEC MODE BIT
PUSHJ P,FNDPDS## ;FIND THIS JOB'S PDB
MOVSI T1,(OC.BCM) ;BREAK ON MUUO REFERENCES BIT
TDNN T1,.PDABS##(W) ;IS THE USER INTERESTED?
POPJ P, ;NO, GO AWAY
IFN FTPI,<
MOVE T2,.JDAT+JOBPD1## ;GET UUO PC
MOVEM T2,.CPPC## ;STORE IT WHERE PSISER EXPECTS IT
SIGNAL C$ADRB ;SIGNAL THAT AN ADDRESS BREAK OCCURED
SKIPA ;USER DOESN'T WANT TRAP
POPJ P, ;USER IS ENABLED, UUO EXIT WILL INTERRUPT TO HIM
>
IFN FTMP,<
PUSHJ P,ONCPU0## ;MUST BE ON CPU0 TO WRITE A MESSAGE
>
PUSHJ P,TTYFUW## ;FIND THE USER'S TTY
PUSHJ P,INLMES## ;REPORT THE ADDRESS BREAK
ASCIZ /
%Address break at exec PC /
HRRZ T1,.UPMP+.UPMUP ;GET THE PC WHERE THE LAST BREAK OCCURED
PUSHJ P,OCTPNT## ;TELL HIM THAT
MOVEI T1,[ASCIZ/; UUO/]
PUSHJ P,CONMES##
MOVE T2,.JDAT+JOBPD1## ;GET THE UUO PC
PUSHJ P,PCP## ;REPORT IT SO HE WILL KNOW WHAT UUO BROKE
IFN FTPI,<
PUSHJ P,PSIERR## ;PENDING INTERRUPT?
JFCL
POPJ P, ;YES
>
POP P,(P) ;POP OFF THE PUSHJ TO EXCABK
PJRST HOLDW## ;AND STOP THE JOB IN A CONTINUABLE STATE
SUILM::MOVEM T1,.UPMP+.UPMUO ;SAVE A TEMPORARY
MOVE T1,.UPMP+.UPMUP ;GET ILM PC
MOVE T2,.UPMP+.UPUPF ;GET THE PAGE FAIL WORD
ANDI T2,37 ;PAGE FAIL CODE
CAIN T2,PF.ABF ;ADDRESS BREAK?
JRST SEILM0 ;YES, GO PROCESS IT
MOVE T3,.UPMP+.UPUPF ;GET THE USER PAGE FAIL WORD
MOVE T4,T1 ;MOVE THE PC TO T4 FOR USRFLT
MOVE P,[XWD MJOBPD##,.JDAT+JOBPDL##] ;SETUP A PUSH DOWN LIST
PUSHJ P,USRFLT## ;SEE IF PAGE FAULT FOR VM USER
; WILL NOT RETURN IF SO (DISPATCH TO PFH)
MOVEI T3,AP.ILM ;SET ILM BIT FOR USER
JRST SAROV3 ;FINISH UP
SUPDLO::MOVE T1,.UPMP+.UPMUP ;GET ERROR PC
MOVEI T3,AP.POV ;SET POV BIT FOR USER
JRST SAROV3 ;FINISH UP
;ROUTINE TO SET HARDWARE AND SOFTWARE RELOCATION INFORMATION FOR CURRENT USER
;CALLING SEQUENCE:
; PUSHJ P,SETREL
; ... RETURN HERE
;J = CURRENT JOB NUMBER
SETRLH::MOVE J,.CPJOB## ;J=CURRENT JOB NUMBER
MOVEI T1,0
DPB T1,JBYHSS## ;FORCE MAP TO BE REDONE
SETREL::MOVE J,.CPJOB## ;J = CURRENT JOB NUMBER
SETRL1::MOVE T1,JBTADR##(J) ;T1 = PROT,,EVA
; OF THE FIRST PAGE OF THE LOW SEGMENT
MOVEM T1,.CPADR## ;SET .CPADR FOR QUICK ACCESS AT APR LEVEL
HLRZM T1,.CPREL## ;SET .CPREL FOR ADDR CHECKING
IFN FTTRPSET,<
SKIPE T2,.CPSTS## ;HAS TIMESHARING BEEN STOPPED VIA TRPSET?
CAIE T2,(J) ;YES, IS IT THIS JOB?
JUMPN T2,SETRLZ ;NO, DON'T CHANGE THE UBR
>
SKIPE J ;NULL JOB ALWAYS HAS A UPMP
JUMPE T1,SETRLZ ;THERE IS NO UPMP IF THE JOB HAS NO CORE
PUSHJ P,STEUB ;NO, SET THE USER BASE REGISTER
JUMPE T1,SETRLZ ;IF NULL JOB OR CORE 0, DON'T STORE IN
; NON-EXISTANT JOB DATA AREA
HLRZM T1,.UPMP+.UPHVA ;SET .UPHVA FOR ADDRESS CHECKING AT IRP LEVEL
LDB T2,[POINT 9,T1,8];GET THE CURRENT SIZE
LDB T1,JBYLSS## ;GET THE PREVIOUS SIZE OF THE LOW SEGMENT
CAIE T1,(T2) ;IS IT THE SAME SIZE AS IT WAS THE LAST
; TIME THIS JOB WAS RUN?
PUSHJ P,MAPLOW## ;NO, REDO THE MAP
SKIPN T1,.UPMP+.UPREL ;HOLEY PROGRAM?
HLR T1,JBTADR##(J)
HRRZM T1,.JDAT+JOBREL## ;STORE HIGHEST CORE-UUO ADDRESS IN JOBREL
SKIPL T1,JBTSGN##(J) ;JOB HAVE A REAL HIGH SEGMENT?
SKIPA T1,JBTADR##(T1) ;YES
HRLZS T1 ;SIZE OF SPY SEGMENT OR ZERO IF NOT SPY SEGMENT
LDB T2,[POINT 9,T1,8];CURRENT SIZE -1 OF THE HIGH SEGMENT
SKIPE T1 ;IS THERE A SPY OR HIGH SEGEMNT?
ADDI T2,1 ;YES, ITS ACTUALLY ONE PAGE BIGGER
LDB T1,JBYHSS##
MOVSI T3,REDOMP!SEGMB
TDNN T3,JBTSGN(J)
CAIE T1,(T2) ;HAS THE HIGH SEGMENT SIZE CHANGED SINCE THE
; LAST TIME THIS JOB WAS RUN?
PUSHJ P,MAPHGH## ;YES, REDO THE HIGH SEGMENT PART OF THE MAP
MOVSI T1,REDOMP!SEGMB
ANDCAM T1,JBTSGN(J)
SETRLZ:
PUSHJ P,FDNJP## ;FIND THE NULL JOB'S PDB
MOVE T3,T1 ;SAVE THE ADDRESS OF THE NULL JOB'S PDB
PUSHJ P,FNDPDS## ;FIND THE CURRENT JOB'S PDB
HRRZ T1,JBTUPM##(J) ;PAGE NUMBER OF THE CURRENT JOB'S UPMP
JUMPE T1,SETRL2 ;DON'T CHANGE ANYTHING IF THERE ISN'T ONE
MOVSI T1,<(PG.LUB)>(T1)
IFN FTRTTRP,<
MOVEM T1,.CPDTO## ;SAVE FOR RTTRP INTERRUPT LEVEL USE
>
TLO T1,(PG.ACE+PG.AC1) ;USER ADDRESS COMPARE ENABLE AND USER AC SET 1
.SKIPE T2,.PDABS##(W) ;DOES THE USER HAVE ADDRESS BREAK SETTINGS?
TLNN T2,(OC.ABE) ;YES, IS HE ENABLED FOR BREAKS
MOVE T2,[EXP OC.FEP+CURJOB##] ;NO, DISPLAY JOB NUMBERS
DATAO PAG,T1 ;SETUP THE UBR
TLZ T2,777(OC.BSU) ;CLEAR PROCEED COUNTER AND SET BY UUO
.SKIPL .PDABS##(T3) ;CAN USERS USE ADDRESS BREAK?
DATAO PTR,T2 ;YES, SETUP BREAK CONDITIONS AND BREAK ADDRESS
SETRL2: SKIPN JBTADR##(J) ;JOB HAVE CORE IN CORE?
TDZA T1,T1 ;NO, MUST BE THE NULL JOB OR CORE 0
MOVE T1,.JDAT+JOBENB## ;JOB'S APR ENABLE BITS
PJRST SETCNA## ;SETUP APR ENABLE BITS FOR USER
; NO ENABLES IF NULL JOB OR NO CORE IN CORE
;ROUTINE TO SETUP USER AND EXEC BASE REGISTERS FOR A JOB
;CALLING SEQUENCE:
; MOVE J,JOB NUMBER
; PUSHJ P,STEUB
MKADD:: CAME J,.USJOB ;JOB ALREADY ADDRESSABLE?
STEUB:: CAILE J,JOBMAX## ;IS THIS A LOW SEGMENT?
POPJ P, ;NO, THE UBR MUST ALREADY BE SETUP
; OR DOESN'T NEED TO BE (ADDRESSES WILL BE
; MAPPED THROUGH THE EXEC MAP)
PUSH P,T1 ;SAVE A TEMPORARY
HRRZ T1,JBTUPM##(J) ;T1 = THE PAGE NUMBER OF THE USER PAGE MAP PAGE
TRNN T1,17777 ;IS THERE A UPMP
JRST TPOPJ## ;NO, DON'T CLOBBER UBR
MOVSI T1,<(PG.LUB+PG.AC1)>(T1)
DATAO PAG,T1 ;SET FOR CURRENT USER AND CLEAR THE AM
JRST TPOPJ## ;RESTORE T1 AND RETURN
SUBTTL IOCSS - I/O SERVICE SUBROUTINES (UUOCON AND DEVICE ROUTINES)
;ROUTINE TO SAVE AND OPTIONALLY SET UP THE USER BASE REGISTER
; AND RESTORE IT ON A CPOPJ OR CPOPJ1 RETURN
;CALLING SEQUENCE:
; PUSHJ P,SVEUB ;TO SAVE USER BASE REGISTER
;OR
; PUSHJ P,SVEUB ;TO SAVE USER BASE REGISTER AND SETUP
; ;USER BASE REGISTER FOR JOB IN J
;ALWAYS RETURN HERE
SVEUF:: PUSH P,T1 ;SAVE A TEMPORARY
DATAI PAG,T1 ;GET THE USER AND EXEC BASE REGISTERS
PUSH P,J ;SAVE J
LDB J,PJOBN## ;GET THE JOB NUMBER OF JOB CURRENTLY USING
; THIS DEVICE
PUSHJ P,STEUB ;SETUP THE UBR SO CURRENT JOB IS ADDRESSABLE
POP P,J ;RESTORE J
JRST SSEU1 ;SAVE THE PREVIOUS CONTENTS OF THE UBR AND EBR
SVEUB:: PUSH P,T1 ;SAVE A TEMPORARY
DATAI PAG,T1 ;GET THE CONTENTS OF THE USER AND EXEC BASE REGISTERS
PUSHJ P,STEUB ;SETUP THE UBR FOR THE JOB WHOSE JOB NUMBER
; IS IN J
JRST SSEU1 ;SAVE THE PREVIOUS CONTENTS OF THE UBR AND THE EBR
SSEUB:: PUSH P,T1 ;SAVE A TEMPORARY
DATAI PAG,T1 ;GET THE CONTENTS OF THE USER AND EXEC BASE REGISTERS
SSEU1: EXCH T1,-1(P) ;GET THE CALLER'S PC AND SAVE THE CONTENTS
; OF THE UBR AND EBR
MOVEM T1,1(P) ;SAVE THE CALLER'S PC IN A TEMPORARY LOCATION
; ON THE STACK
POP P,T1 ;RESTORE T1 TO ITS CONTENTS ON ENTRY
PUSHJ P,@2(P) ;RETURN TO THE CALLER LEAVING .+1 ON THE
; STACK SO WHEN THE CALLER DOES A POPJ OR
; A CPOPJ1, CAN RESTORE THE PREVIOUS CONTENTS
; OF THE UBR AND THE EBR
CAIA ;CPOPJ RETURN
AOS -1(P) ;CPOPJ1 RETURN - BUMP RETURN PC
EXCH T1,(P) ;GET THE PREVIOUS CONTENTS OF THE UBR
TDO T1,[EXP PG.LUB+PG.LEB]
DATAO PAG,T1 ;RESTORE THE UBR AND THE EBR
JRST TPOPJ## ;RESTORE T1 AND RETURN
;ROUTINE TO CONVERT AN IOWD TO ABSOLUTE IOWDS
;FOLLOWING THE PAGING OF A JOB
;CALLING SEQUENCE:
; MOVE T2,IOWD
; MOVEI P1,0 ;FIRST CALL
; MOVE P3,LOC OF CHANNEL DATA BLOCK
; LH(P3)=1 IF STORE EXPECTED CHAN TERM WORD
; MOVE P4,FRAME-COUNT,,CHARS/WD IF DX10 CHL
; PUSHJ P,MAPIOW
; RETURN HERE IF NOT ENOUGH MONITOR FREE CORE
; RETURN HERE - P2=ADDRESS OF FIRST IOWD
; P1=WHERE NEXT IOWD WILL BE STORED
; LH(P2)=LOC WHERE IOWD WAS STORED, IF A DX10
MAPIO:: TLNN T2,-1 ;0 OR CHANNEL JUMPS ARE ILLEGAL
STOPCD CPOPJ##,DEBUG,IEZ, ;++IOWD EQUALS ZERO
PUSHJ P,SVEUB ;SAVE AND SETUP UBR
PUSH P,U ;SAVE U
LDB U,[POINT 2,CHB22B##(P3),1]
;GET CHL TYPE INFO
HLL U,P4 ;PRESERVE FRAME-COUNT
PUSH P,T1 ;SAVE ALL ACS THAT ARE USED SINCE THEY
PUSH P,P4 ; ARE PROBABLY IMPORTANT TO THE CALLERS
PUSH P,P3 ; OF MAPIOW
PUSH P,T2 ; ..
PUSH P,T3 ; ..
PUSH P,T4 ; ..
JUMPN P1,MAPIO1 ;P1 IS NON-ZERO IF NOT THE FIRST CALL
PUSHJ P,GCH4WD ; ..
JRST MAPIO9 ;NONE AVAILABLE
MOVE P1,T1 ;ADDRESS OF THE FOUR WORD BLOCK
MOVE P2,T1 ;ADDRESS OF THE IOWD LIST
HRLI P1,-3 ;THE NUMBER OF WORDS LEFT IN THIS BLOCK
SETZM 3(P1) ;ZERO THE LAST WORD OF THE BLOCK
MAPIO1: PUSHJ P,CHKMOR ;GET ANOTHER FOUR WORD BLOCK AND LINK IT
; TO THE CURRENT BLOCK IF ABOUT TO USE
; THE LAST WORD OF THE CURRENT BLOCK
JRST MAPIO8 ;NO MORE FOUR WORD BLOCKS
MOVE P4,-2(P) ;RESTORE THE IOWD TO P4
HRRZ T2,P4 ;ADDRESS-1 WHERE I/O WILL START
MOVE T3,DEVMOD(F)
IFE FTSPL,<
TLNN T3,DVDSK ;IF A DSK
>
IFN FTSPL,<
SKIPL DEVSPL(F) ;SPOOLED DDBS ARE ALWAYS A DSK
TLNE T3,DVDSK ;IS A DSK
CAIA
>
JUMPN T3,MAPI1B
JUMPGE S,MAPI1B
SKIPN DINITF##
CAIE T2,@.UPMP+.UPMBF ;WE KNOW BITS 13-17 ARE ZERO
JRST MAPIO6
ADDI T2,<.MCFV-.FPMC>+1
JRST MAPI1D
MAPI1B:
MOVEI T2,1(P4) ;STARTING ADDRESS
MAPI1D: LSH T2,W2PLSH## ;CONVERT TO PAGE NUMBER
ROT T2,-1 ;SET UP A BYTE POINTER TO THE PAGE IN THE UPMP
ADDI T2,.UPMP
TLZE T2,400000
TLOA T2,(<POINT 18,0,35>)
TLO T2,(<POINT 18,0,17>)
MOVE P3,T2 ;SAVE POINTER IN P3
MOVE T2,P4 ;T2 AND P4 = IOWD
HLROS P4 ;P4 = -WORD COUNT
ADDI T2,1 ;POINT AT REAL ADR
MAPIO2: LDB T3,P3 ;T3 = CURRENT ABSOLUTE PAGE NUMBER
TRNN T3,PM.ACC
SKIPGE USRHCU## ;IF A SAVE IS IN PROGRESS,
SKIPA ; THEN, THIS IS OK
JRST S..AAO ;ACCESS ALLOWED OFF
; IOWD HAS BEEN ADDRESS CHECKED)
MOVEI T1,0 ;T1 = AMOUNT ACCUMULATED SO FAR
LSH T3,P2WLSH## ;MOVE PAGE NUMBER TO THE HIGH ORDER THIRTEEN
; BITS OF THE ADDRESS
ANDI T2,PG.BDY## ;GET THE STARTING WORD ADDDESS WITHIN THE PAGE
ADD T2,T3 ;T2 = ABSOLUTE ADDRESS (IOWD STYLE)
SUBI T2,1 ;MAKE AN IOWD
PUSH P,T2 ;SAVE THE ADDRESS
ANDI T2,PG.BDY## ;EXTRACT THE WORD NUMBER
SUBI T2,PAGSIZ##-1 ;CALCULATE THE NUMBER OF WORDS TO DO INTO THIS PAGE
SKIPN T2 ;IF ITS ZERO DO A WHOLE PAGE WORTH
MAPIO3: MOVNI T2,PAGSIZ## ; ..
SUB P4,T2 ;ADD -NUMBER OF WORDS ON THIS PAGE TO
; IOWD WORD COUNT
ADD T1,T2 ;ACCUMULATE IN TOTAL WORD COUNT
JUMPGE P4,MAPIO4 ;JUMP IF THE ORIGIONAL WORD COUNT IS EXHAUSTED
SETZ T3, ;SET T3 SO TEST WILL FAIL IF 22-BIT CHAN AND
SKIPE U ; NO ROOM FOR ANOTHER PAGE IN IOWD
CAML T1,[EXP -37777+PAGSIZ##] ;OTHERWISE SET T3=CURRENT PAGE
LDB T3,P3 ;T3 = CURRENT PAGE NUMBER WITHIN SEGMENT
ILDB T4,P3 ;T4 = NEXT PAGE NUMBER WITHIN SEGMENT
TRNN T4,PM.ACC ;ACCESS ALLOWED ON?
STOPCD .,JOB,AAO, ;++ACCESS ALLOWED IS OFF
TRZ T3,760000 ;CLEAR ACCESS BITS
TRZ T4,760000 ;CLEAR OUT THE ACCESS BITS
CAIN T4,1(T3) ;ARE THE TWO PAGES ADJACENT IN PHYSICAL MEMORY?
JRST MAPIO3 ;YES, CONTINUE ON CURRENT IOWD
MOVEI T2,0 ;T2 = FIRST ADDRESS
POP P,(P1) ;STORE THE IOWD ABSOLUTE ADDRESS
PUSHJ P,DXFIX ;ADJUST IOWD IF A DX10
JRST MAPIO8 ;NO SPACE
JUMPL U,MAPIO7 ;GO IF FRAMECOUNT EXHAUSTED
AOBJN P1,MAPIO2 ;CONTINUE IF THERE IS ROOM IN THE FOUR WORD BLOCK
PUSHJ P,GETMOR ;GET ANOTHER FOUR WORD BLOCK
JRST MAPIO8 ;WHOOPS! NONE AVAILABLE
MOVEI T2,0 ;START AT WORD NUMBER ZERO ON THIS PAGE
JRST MAPIO2 ;MAP THE REST OF THE IOWD
MAPIO4: POP P,(P1) ;STORE THE IOWD ABSOLUTE ADDRESS
ADD P4,T1 ;ADD THE RESIDUAL WORD COUNT TO THE ACCUMULATED
; WORD COUNT
MOVE T1,P4 ;PUT WD CNT INTO T1
PUSHJ P,DXFIX ;PERFORM FIXUPS FOR DX10
JRST MAPIO8 ;OUT OF SPACE
JRST MAPIO7 ;AND GIVE THE WIN RETURN
MAPIO6:
MOVEM T2,0(P1) ;STORE ADDRESS
HLRE T1,P4 ;GET WORD COUNT
PUSHJ P,DXFIX ;FIDDLE WITH DX10 IOWDS
JRST MAPIO8 ;NO ROOM
; THE ALREADY ABSOLUTE IOWD AND RETURN
;AND FALL INTO MAPIO7
;MAPIO6 FALLS INTO HERE
MAPIO7: AOBJN P1,.+1 ;BUMP THE POINTER TO THE NEXT FREE WORD
SETZM (P1) ;ZERO IT SO THE LIST IS TERMINATED
AOS -7(P) ;SET FOR SKIP (WIN) RETURN
MAPIO8:
SKIPGE -3(P) ;IF WE WANT IT STORED,
TRNE U,1 ;TYPE 0 OR 2 CONTROLLER?
JRST MAPIO9 ;NO, DON'T DO NEXT
HRRZS U ;CLEAR POSSIBLE FRAMECOUNT
LSH U,-1
MOVE T3,P1 ;GET ADDR OF LAST IOWD FOR BYTE PTR'S
LDB T1,ADRPT2##(U) ;GET ADDR FIELD FROM LAST IOWD
HLRO P4,-1(T3) ;WORD COUNT
ASH P4,@ASH22B##(U) ;4 BITS DON'T COUNT IF 22-BIT
SUB T1,P4 ;DETERMINE ENDING DATA ADDRESS
DPB P1,ADRPT4##(U) ;PUT ADDR OF END OF IOWD LIST
MOVE P3,-3(P)
MOVEM T1,CHNTCW##(P3)
MAPIO9: POP P,T4 ;RESTORE ACS
POP P,T3 ; ..
POP P,T2 ; ..
POP P,P3 ; ..
POP P,P4 ; ..
POP P,T1 ; ..
PJRST UPOPJ## ;GIVE WIN OR LOSE RETURN
;SUBROUTINE TO CHECK TO SEE IF THE CURRENT FOUR WORD BLOCK IS EXHAUSTED
; AND IF SO GET ANOTHER ONE IF ANY ARE AVAILABLE. IF THE NEXT FOUR WORD
; BLOCK IT OBTAINS IS ADJACENT TO THE CURRENT ONE, IT SIMPLY RETURNS. IF
; IT IS NOT, A LINK WORD LINKING THE CURRENT FOUR WORD BLOCK TO THE
; NEW FOUR WORD BLOCK IS SETUP IN THE FOURTH WORD OF THE CURRENT BLOCK
;CALLING SEQUENCE:
; MOVE P1,AOBJN POINTER TO CURRENT BLOCK
; PUSHJ P,CHKMOR
; ... RETURN HERE IF NO MORE FOUR WORD BLOCKS
; ... RETURN HERE IF CURRENT FOUR WORD BLOCK NOT FILLED OR
; NEXT FOUR WORD BLOCK OBTAINED
;P1 = AOBJN POINTER TO CURRENT OR NEW BLOCK
CHKMOR::JUMPL P1,CPOPJ1## ;CONTINUE IF ANY WORDS LEFT IN THIS BLOCK
GETMOR::PUSHJ P,GCH4WD ;GET 1 CORE BLOCK
POPJ P, ;NO MORE AVAILABLE
CAIE T1,1(P1) ;IS THIS BLOCK ADJACENT TO THE LAST BLOCK?
JRST GETMR1 ;NO, ADD A LINK
HRLI P1,-4 ;YES, FOUR WORDS LEFT TO GO (LAST WORD IN
; THE LAST BLOCK AND THREE WORDS IN NEW BLOCK)
JRST CPOPJ1## ;RESTORE T2 AND GIVE OK RETURN
GETMR1:
TRC U,3
TRCN U,3 ;CHECK CHL TYPE
HRLI T1,CCHJGO## ;DX10 STYLE CHL JUMP
MOVEM T1,0(P1) ;LINK TO THE NEW BLOCK
MOVE P1,T1 ;P1 = POINTER TO NEW BLOCK
HRLI P1,-3 ;NUMBER OF WORDS LEFT TO GO IN THE CURRENT BLOCK
JRST CPOPJ1## ;AND SKIP RETURN
;ROUTINE USED TO HANDLE 22-BIT CHNLS AND PERFORM IOWD TRANSFORMATIONS
;FOR THE DX10 TAPE CHL. CALLING SEQUENCE:
; MOVE T1,-WDS TO XFER
; MOVE P1,ADDRS OF CURRENT IOWD
; CHARS/WD WAS FOUND IN THE ORIGINAL CALL TO MAPIO
; PUSHJ P,DXFIX
; ... ;RETURN HERE IF NO MORE FREE SPACE
; ... ;RETURN HERE IF OK
DXFIX: HRRZ T4,U
CAIE T4,3 ;CHECK CHL TYPE
JRST [DPB T1,WDCPNT##(U)
JRST CPOPJ1##] ;HANDLE NON-DX10 CHLS
MOVE T4,-5(P) ;RESTORE CHAR/WD
IMULI T1,0(T4) ;CONVERT TO BYTE COUNT
AOS 0(P1) ;DX10 LIKES ADDRS RATHER THAN ADDRS-1
HLRZ T3,U ;FRAME-COUNT USER SET
JUMPE T3,DXFIX0 ;NONE
MOVNS T3
CAML T3,T1 ;MORE THAN HE WANTS?
MOVE T1,T3 ;YES, GET WHAT WAS REQUESTED
HRLZ T3,T1 ;FRAMECOUNT
ADDB T3,U ;UPDATE MAX LEFT
TLNN T3,-1 ;ANY LEFT?
HRROS U ;NO, INDICATE WE'RE DONE
DXFIX0: CAML T1,[-17777] ;ROOM FOR THIS
JRST DXFIX2 ;YES - JUST STORE AND EXIT
MOVE T3,MCHTAB(T4) ;MAX CHARS / XFER CMD
SUB T1,T3 ;SUBTRACT MAX FOR THIS ONE
DPB T3,WDCPNT##(U) ;STORE IN IOWD
PUSH P,0(P1) ;SAVE PNTR
AOBJN P1,DXFIX1 ;SEE IF ROOM FOR MORE
PUSH P,T1 ;NO -SAVE COUNT
PUSHJ P,GETMOR ;GET MORE SPACE
JRST DXFIX3 ;RAN OUT OF SPACE
MOVEI T2,0 ;RESTORE T2
POP P,T1 ;RESTORE COUNT
DXFIX1: POP P,T3 ;GET LAST POINTER
MOVE T4,-5(P) ;RESTORE T4 (CHARS/WD)
ADD T3,MWDTAB(T4) ;ADD MAX WORDS OFFSER
MOVEM T3,0(P1) ;NEW PARTIAL PNTR
JRST DXFIX0 ;PROCEED
DXFIX2: DPB T1,WDCPNT##(U) ;STORE RESIDUE
HRL P2,P1 ;LOCATION OF IOWD
JRST CPOPJ1## ;SUCCESS RETURN
DXFIX3: POP P,T1 ;PRUNE PDL
JRST TPOPJ## ;PRUNE & EXIT (FAIL)
;THE BYTE PACKING MODES OF THE DX10 WILL ALLOW 4,5 & 6 BYTES / WORD
;THESE TABLES ARE USED TO TRANSLATE THIS INFO INTO 1) THE MAX CHARS
;THAT WILL EXACTLY FILL THE 2) MAX NO. OF WDS PER IOWD
;ALLOWING 2^13-1 BYTES / IOWD.
MCHTAB=.-4
-<17777/4>*4 ;4 BYTE/WD = 8188 BYTES
-<17777/5>*5 ;5 BYTE/WD = 8190 BYTES
-<17777/6>*6 ;6 BYTE/WD = 8190 BYTES
MWDTAB=.-4
17777/4 ;4 BYTE/WD = 2047 WDS
17777/5 ;5 BYTE/WD = 1638 WDS
17777/6 ;6 BYTE/WD = 1365 WDS
;ROUTINE TO RETURN FREE CORE USED FOR MAPPING IOWDS.
;CALLING SEQUENCE:
; MOVE T1,ADDRESS OF IOWD LIST
; PUSHJ P,RTNIOW
; ALWAYS RETURN HERE
RTNIOW::PUSHJ P,SAVE1## ;SAVE P1
HRRZ P1,T1 ;P1 = ADDRESS OF THE IOWD LIST
RTNIO1: MOVEI T1,1 ;GIVE BACK ONE FOUR WORD BLOCK
HRRZ T2,P1 ;ADDRESS OF THE BLOCK
MOVE T3,3(P1) ;LAST WORD OF BLOCK
TLNN T3,-1 ;AN IOWD?
SKIPA P1,T3 ;NO, THEN THIS IS THE LAST BLOCK
; OR A LINK TO THE NEXT BLOCK
ADDI P1,4 ;ADDRESS OF THE NEXT BLOCK
; (ITS ADJACENT TO THE CURRENT BLOCK)
PUSHJ P,RCH4WD ;RETURN BLOCK TO MONITOR FREE CORE
JUMPE P1,CPOPJ## ;JUMP IF THIS IS THE LAST BLOCK
JRST RTNIO1 ;GIVE UP ALL THE BLOCKS
;ROUTINE TO OBTAIN A LOWER-CORE 4-WORD BLOCK
GCH4WD::MOVE T1,NOIOWD## ;IF WE DON'T HAVE MUCH IOWD SPACE
CAMGE T1,NUMKON## ; ONLY GIVE AN IOWD
JUMPN P1,CPOPJ## ; FOR THE INITIAL IOWD
MOVEI T1,1 ;JUST WANT 1 BLOCK
MOVEI T2,LOWPTR## ;POINT TO LOWER-CORE FREE-CORE TABLE
PUSHJ P,GETBIT## ;GET, SET THE BIT
POPJ P, ;NONE AVAILABLE, LOSE
SOS NOIOWD## ;1 LESS IOWD BLOCK
LSH T1,2 ;CONVERT TO 4-WORD STYLE
ADD T1,LOWLOC## ;CONVERT TO ACTUAL ADDRESS
SETZM 3(T1) ;ZERO THE LAST WORD OF THE CURRENT BLOCK
PJRST CPOPJ1## ;AND TAKE GOOD RETURN
;ROUTINE TO RETURN LOWER-CORE 4-WORD BLOCKS
RCH4WD::SUB T2,LOWLOC## ;CONVERT TO RELATIVE ADDRESS
LSH T2,-2 ;/4 TO CONVERT TO BITS
IDIVI T2,^D36 ;COMPUTE WORD ADR, POSITION IN WORD
HRLS T2
ADD T2,LOWPTR## ;SET AOBJN POINTER FOR SETZRS
ADDM T1,NOIOWD## ;1 MORE IOWD BLOCK
PJRST SETZRS## ;CLEAR THE BITS AND RETURN
SUBTTL ERRCON - ERROR HANDLING MODULE
;SUBROUTINE TO SWEEP MEMORY TO FIND ADDRESS AND CONTENTS OF BAD WORDS
;IT CALLS CPU INDEPENDENT SUB.(PARERR) TO RECORD DATA ON EACH BAD WORD
;CALL: PUSHJ P,@.CPMPS##
; ALWAYS RETURN WHEN SWEEP OVER (EVEN IF SERIOUS ERROR)
;SWEEP CORE IN ASCENDING ADDRESSES EVEN THOUGH SLOWER, SO DATA STORED ASCENDING
; FOR ERROR REPORTING WITH DAEMON
CPIMPS::PUSHJ P,MAPLOC## ;GET EXEC MAP SLOT
MOVE W,T1 ;SAVE BYTE POINTER TO EXEC MAP SLOT
MOVEI P3,PM.ACC+PM.WRT;START AT PAGE 0, ACCESSIBLE AND WRITEABLE
LDB T4,[POINT 14,MEMSIZ##,26] ;T4=NUMBER OF PAGES TO SCAN
SKIPA P4,[POINT 1,NXMTAB##] ;BYTE POINTER TO NXM TABLE
MPSLP1: AOS P3 ;STEP TO NEXT PAGE
SOJL T4,MPSLP5 ;RESTORE T1 AND RETURN IF SCANNED ALL OF MEMORY
ILDB T1,P4 ;DOES THIS PAGE EXIST?
JUMPN T1,MPSLP1 ;IF NOT, GO BACK FOR NEXT
DPB P3,W ;MAP THE CURRENT PAGE
MOVE P1,T3 ;EVA FOR BEGINNING OF PAGE
CLRPGT (0) ;CLEAR ASSOCIATIVE MEMORY FOR NEW MAPPING
MOVEI T2,PAGSIZ## ;NO. OF WORDS/PAGE TO SCAN
SETOM .CPPSP## ;SET SWEEPING FLAG
MPSL1A: MOVEI T1,5 ;NO. OF SOJG'S TO WAIT FOR INTERRUPT TO HAPPEN
MOVE P2,(P1) ;TEST NEXT LOCATION
CPIMPI::SOJG T1,. ;DELAY HERE SO INTERRUPT PC POINTS HERE
MPSLP2: SOJLE T2,MPSLP1 ;IF CURRENT PAGE DONE, MAP NEXT
AOJA P1,MPSL1A ;GO TEST NEXT WORD IN PAGE
;HERE ON BAD WORD FOUND (NXM OR PARITY) - INTERRUPT HAPPENED AND ADDED 3 TO PC
MAP T1,(P1) ;GET THE PHYSICAL PAGE THAT BAD WORD IS IN
PUSH P,P1 ;SAVE THE EVA
PUSH P,T2 ;SAVE THE WORD NUMBER IN CURRENT PAGE
PUSH P,T3 ;SAVE THE POSITION IN THE MAP
PUSH P,T4 ;SAVE # OF PAGES TO SCAN
DPB T1,[POINT 13,P1,26] ;FORM PHYS. ADDRESS OF BAD WORD
PUSHJ P,CPIASN## ;CONVERT TO SEG NUMBER IN J
TDZA T1,T1 ;INDICATE NO ERROR IN MONITOR OR A JOB
SETO T1, ;INDICATE AN ERROR IN MONITOR OR A JOB
MOVE P2,.CPTBD## ;GET BAD DATA WORD STORED BY THE TRAP ROUTINE
PUSHJ P,PARRBD## ;RECORD BAD DATA
POP P,T4 ;RESTORE T4
POP P,T3 ; AND T3
POP P,T2 ; AND T2
POP P,P1 ; AND P1
JRST MPSLP2 ;GO CONTINUE THE SWEEP
MPSLP5: SETZM .CPPSP## ;CLEAR SWEEPING FLAG
PUSHJ P,UNMAP## ;RESTORE EXEC MAP SLOT
POPJ P, ;AND RETURN
$LIT
KIEND: END