TITLE MONPFH DEFAULT PAGE FAULT HANDLER V075 SUBTTL Tarl Neustaedter/TARL 10-JUL-90 SEARCH F,S $RELOC $HIGH ;THIS SOFTWARE IS FURNISHED UNDER A LICENSE AND MAY BE USED ; OR COPIED ONLY IN ACCORDANCE WITH THE TERMS OF SUCH LICENSE. ; ;COPYRIGHT (c) DIGITAL EQUIPMENT CORPORATION 1984,1986,1988,1990. ;ALL RIGHTS RESERVED. .CPYRT<1984,1990> XP VPFH,075 ENTRY PFH Comment @ Loose ends outside of this module GETWRY, make it understand FLTSX returning success PUTWRY, make it understand FLTSX returning success, and test for write locked loseg pages (spy pages). @ PTRTYP: POINT 3,T1,2 ;BPT TO EXTRACT TYPE OF PAGE MAP POINTER PTRIPT: POINT 9,T1,17 ;INDIRECT INDEX INTO PAGE ;Stack offsets used in range-checking cannot-be-paged-out ('CBPO') pages. PFPJLB==-1 ;.JBINT BLOCK BEGIN PAGE PFPJLE==-0 ;.JBINT BLOCK END PAGE PFPILE==-3 ;I/O RANGE BEGIN PAGE PFPILB==-2 ;I/O RANGE END PAGE PFPBPT==-4 ;DDT'S UNSOLICITED BREAKPOINT TRAP ADDRESS PFPOFS==-5 ;OFFSET ON STACK PFPPLB==PFPOFS-1 ;PSI VECTOR BEGIN PAGE PFPPLE==PFPOFS-0 ;PSI VECTOR END PAGE PFPOFS==PFPOFS-2 ;OFFSET ON STACK ;Called from USRFL1. Page fault, no PFH loaded. ;Relevant ACs, T3/ KL form page fail word or zero if time fault ; ;Return ; CPOPJ, No implicit access to page, ill mem ref ; CPOPJ1, Page is now accessible. PFH:: IFN FTNET, ;MAKE SURE WE DON'T HAVE THE NETSER INTERLOCK SE1ENT ;XADDR JUMPE T3,PFHTIM ;TIME FAULT, DON'T WORRY ABOUT FAULT WORDS TDNN T3,[MXSECN,,777000] ;MAKE SURE OUT OF PAGE ZERO STOPCD .,JOB,PFHZER, ;++ PAGE FAULT ON PAGE ZERO DMOVE T1,.USPFP ;PC OF LAST PAGE FAULT (IF FROM USRFLT) DMOVEM T1,.USPFF ;SAVE AS PFH PAGE FAULT PC PUSHJ P,SAVE1## ;SOMEWHERE TO PRESERVE PAGE FAULT WORD MOVE P1,T3 ;ADDRESS DESIRED AOS T1,.USPFU ;UP COUNT OF PAGE FAULTS CAIL T1,^D1000 ;ALLOW UP TO ONE THOUSAND PAGE FAULTS WITHOUT JRST PFHABO ; FINISHING UUO. MOVE T1,.USLFT ;LAST FAULT TIME JUMPE T1,PFH1 ;JUMP IF NOT FIRST FAULT FOR THIS PROGRAM PUSHJ P,FNDPDS## ;ADDRESS OF THE PDB SKIPE .PDTMI##(W) ;IF USER SUPPLIED A VALUE, JRST PFH1 ; USE IT INSTEAD MOVEI T1,M.PFHT## ;TICS BEFORE A TIME FAULT HRRZM T1,.PDTMC##(W) ;STORE IN THE TIME COUNTER HRRM T1,.PDTMI##(W) ;AND INCREMENT PFH1: PUSHJ P,PFHPAG ;PAGE THE PAGE IN POPJ P, ;NO CAN DO, GIVE AN ILL MEM REF PFHEXI: TLNN P1,(PF.BAD) ;WAS THIS A MONITOR UUO? JRST PFHEX2 ;NO, RE-EXECUTE THE INSTRUCTION DMOVE T1,.JDAT+JOBPD1## ;[GETPC] GET RETURN PC OF UUO SUBI T2,1 ;DECREMENT TO PC OF UUO DMOVEM T1,.USPFF ;[PUTPC] STASH AS PC TO RETURN TO CAIA ;SKIP INTO FINAL RETURN TO USER PFHEX2: SETZM .USPFU ;CLEAR RECURSION TRAPPER SINCE USER PAGE FAULT USERAC ;SET THE AC SET TO USER XJEN .USPFF ;RETURN TO USER PC ;Here on lots of page faults - assume the worst PFHABO: SETZM .USPFU ;ZERO FAULT COUNTER (GIVE HIM A CHANCE) TLO P1,400000 ;PRETEND WE PAGED SOMETHING OUT PUSHJ P,TTYFUW## ;SET UP FOR TYPEOUT ON USER'S TERMINAL PUSHJ P,INLMES## ;TYPE OUT A MESSAGE ASCIZ \? ?Page fault loop. Try larger core limit and type CONTINUE \ PUSHJ P,HOLD0## ;STOP JOB IN CONTINUABLE STATE PUSHJ P,WSCHED## JRST PFHEXI ;AND EXIT, TO RE-EXECUTE PAGE FAULT INSTRUCTION ;Here on a timer fault ;Return non-skip so TIMFLT will return to user PFHTIM: MOVEI T1,(J) ;GET JOB # IN T1 PUSHJ P,FPDBT1## ;GET ADDRESS OF PDB POPJ P, ;THIS IS ALL UNINTERESTING IF NONE HLRZ T1,.PDMVL##(T1) ;GET JOB'S MAXIMUM VIRTUAL LIMIT JUMPE T1,CPOPJ## ;IF NONE, CAN'T PAGE ANYWAY SO DON'T DO THIS PUSHJ P,SAVE4## ;SAVE SOME P REGISTERS PUSHJ P,PGRUPD## ;UPDATE PAGE RATES SETOB P2,P3 ;NO LAST PAGE, NO STARTING PAGE SETZ P4, ;SECTION 0 IN CASE NOT A BIG USER ;Set up for range checks for cannot-be-paged-out ('CBPO') pages ADJSP P,-PFPOFS ;MAKE ROOM FOR LIMIT BI-WORDS PUSHJ P,GETJLM ;GET RANGE OF PAGES FOR JOBINT BLOCK DMOVEM T1,PFPJLB(P) ;SET UP FOR CBPO RANGE CHECK PUSHJ P,GETBLM ;GET BREAKPOINT TRAP PAGE MOVEM T1,PFPBPT(P) ;SAVE FOR CBPO RANGE CHECK PUSHJ P,GETPLM ;FIND RANGE OF PAGES FOR PSI VECTOR DMOVEM T1,PFPPLB(P) ;SET UP FOR CBPO RANGE CHECK ;Page out all pages with AA off and turn off AA for all pages in core PUSH P,[-1] ;FLAG OF WHETHER IOWAIT CALLED SKIPL .USBTS ;BIG USER? JRST PFHTI4 ;NO, NO NEED TO LOOK AT EXTENDED SECTIONS MOVEI P4,MXSECN ;SECTIONS MXSECN THROUGH 1 PFHTI1: SKIPE T1,.UPMP+SECTAB(P4) ;NEXT SECTION POINTER TLNE T1,(<B2>) ;INDEPENDENT SECTION? JRST PFHTI3 ;NON-EXISTANT OR INDIRECT, MOVE ON TO NEXT MOVE T1,P4 ;SECTION NUMBER IMULI T1,WSBTBL ;COMPUTE WHICH WSBTAB TO USE MOVEI T1,.WSBNZ-WSBTBL(T1) MOVEI T2,HLGPNO ;HIGHEST PAGE IN THE SECTION PUSHJ P,NXTWSP ;FIND THE HIGHEST PAGE IN THE SECTION JRST PFHTI3 ;THERE AREN'T ANY PUSHJ P,TOUTPG ;PAGE OUT THE PAGE IF AA OFF PUSHJ P,TCLRAA ;CLEAR AA IF IN CORE AND NOT CBPO PAGE PFHTI2: PUSHJ P,NXTWSC ;GET NEXT PAGE IN SECTION JRST PFHTI3 ;NO MORE LEFT PUSHJ P,TOUTPG ;PAGE OUT THE PAGE IF AA OFF PUSHJ P,TCLRAA ;CLEAR AA IF IN CORE AND NOT CBPO PAGE JRST PFHTI2 ;NEXT PAGE PFHTI3: SOJG P4,PFHTI1 ;NEXT SECTION ;Here to do section zero PFHTI4: MOVEI T1,WSBTAB ;SECTION ZERO WORKING SET TABLE MOVEI T2,HLGPNO ;HIGHEST PAGE IN THE SECTION PUSHJ P,NXTWSP ;GET HIGHEST PAGE IN THE SECTION JFCL ;THERE HAS TO BE AT LEAST 1, NAMELY PAGE 0 JUMPE T2,PFHTI6 ;DONE IF THATS THE ONLY PAGE PUSHJ P,TOUTPG ;PAGE OUT THE PAGE IF AA OFF PUSHJ P,TCLRAA ;CLEAR AA IF IN CORE AND NOT CBPO PAGE PFHTI5: PUSHJ P,NXTWSC ;GET NEXT WORKING SET PAGE JRST PFHTI6 ;CAN'T HAPPEN JUMPE T2,PFHTI6 ;ALL DONE IF THIS IS PAGE 0 PUSHJ P,TOUTPG ;PAGE OUT THE PAGE IF AA OFF PUSHJ P,TCLRAA ;CLEAR AA IF IN CORE AND NOT CBPO PAGE JRST PFHTI5 ;LOOP OVER ALL PAGES IN SECTION 0 PFHTI6: ADJSP P,PFPOFS-1 ;THROW AWAY RANGE CHECK WORDS ON STACK SETZ P1, ;FLAG END PUSHJ P,OUTPAG ;AND FLUSH ANY PENDING PAGES PJRST ADJANA## ;ADJUST .USANA AND RETURN ;Clear access allowed if possible TCLRAA: MOVE T2,@[IW MS.MAP,UMAPS(P1)] TLC T2,(PM.COR!PM.AAB) ;ALL THESE BITS MUST BE ON TLCE T2,(PM.COR!PM.AAB!1B1) ;WERE THEY? POPJ P, ;NOPE, TRY NEXT PAGE CAME P1,PFPJLB-2(P) ;IS THIS FIRST PAGE OF .JBINT BLOCK? CAMN P1,PFPJLE-2(P) ;OR LAST PAGE OF .JBINT? POPJ P, ;YES, LEAVE IT ALONE CAMN P1,PFPBPT-2(P) ;IS THIS THE BREAKPOINT TRAP ADDRESS? POPJ P, ;YES, CAN'T PAGE OUT CAML P1,PFPPLB-2(P) ;IS THIS PAGE BELOW RANGE OF PSI VECTOR CAMLE P1,PFPPLE-2(P) ;OR ABOVE IT? TRNA ;NOT IN RANGE OF PSI VECTOR POPJ P, ;IN PSI VECTOR, LEAVE IT ALONE PUSHJ P,SAVT## ;SAVE VOLATLE ACS AOSG -6(P) ;CALLED IOWAIT ALREADY? S0PSHJ IOWAIT## ;NO, WAIT FOR ALL I/O TO STOP BEFORE DINKING BITS MOVSI T2,(B2!PM.AAB) ;CLEAR ACCESS ALLOWED ANDCAM T2,@[IW MS.MAP,UMAPS(P1)] ;CLEAR THE BITS MOVE T2,P1 ;PAGE NUMBER LSH T2,P2WLSH## ;VIRTUAL ADDRESS EXCTUU ;FLUSH PAGING MEMORY'S REMEMBERANCE OF THIS PAGE AOS .USANA ;INCREMENT INACCESSIBLE PAGES POPJ P, ;RETURN ;Output page if access allowed off (returns CPOPJ1 if a page was paged out) TOUTPG: MOVE P1,P4 ;SECTION NUMBER LSH P1,S2PLSH ;POSITION IT TO SECTION NUMBER FIELD IOR P1,T2 ;PAGE NUMBER MOVE T2,@[IW MS.MAP,UMAPS(P1)] TLC T2,(PM.COR) ;INVERT PAGE-IN-CORE BIT TLNE T2,(PM.COR!1B1!PM.AAB) ;IS IT IN CORE AND AA OFF? POPJ P, ;NO PUSHJ P,SAVT## ;YES, SAVE VOLATILE ACS AND FALL INTO OUTPAG AOS (P) ;SKIP CALL TO TCLRAA ; PJRST OUTPAG ;PAGE OUT THIS PAGE ;OUTPAG - Utility routine for PFHTIM. ;Call ; P1/ Page to page out ;or P1/ -1 indicating we should flush cache ; P2/ Last page OUTPAG was called for ; P3/ First page in current group ;return ; Non skip always OUTPAG: AOJLE P2,OUTPA1 ;PREINCREMENT LAST PAGE CALLED CAIN P2,(P1) POPJ P, ;YES, RETURN MOVE T1,[XWD 0,JOBUAL##] ;PAGE. ARG BLOCK MOVE T2,P3 ;FIRST PAGE THAT WILL BE DONE SUB T2,P2 ;MAKE IT NEGATIVE COUNT OF PAGES TO DO MOVE T3,P3 ;STARTING PAGE TO PAGE OUT TLO T3,(PG.GAF) ;FLAG PAGES ARE TO GO OUT PUSHJ P,DOPAGE ;PAGE THEM OUT OUTPA1: JUMPE P1,CPOPJ## ;(FLUSH CALL) HRRE P3,P1 ;SET UP FIRST PAGE IN GROUP HRRE P2,P1 ;SET UP LAST PAGE IN GROUP POPJ P, ;RETURN ;Subroutine to find the next bit in a table scanning table from right to left. ; Call first time at NXTWSP, T1=address of table, T2=starting bit position ; within table, call subsequent times at NXTWSC with T1, T3, and T4 preserved ; from previous call. Returns CPOPJ1 with T2=position of next non-zero bit in ; the table, CPOPJ if no more bits. NXTWSP: MOVEM T1,.USTMP+5 ;SAVE ADDRESS OF TABLE MOVE T3,T2 ;STARTING BIT POSITION IDIVI T3,^D36 ;WORD WITHIN THE TABLE ADD T3,T1 ;WHERE TO START IN THE TABLE SUBI T4,^D35 ;NUMBER OF BITS TO THE LEFT MOVE T1,(T3) ;GET STARTING WORD FROM TABLE LSH T1,(T4) ;POSITION IT (STARTING BIT = LSB) MOVMS T4 ;BIT NUMBER JRST NXTWSC ;SEE IF THERE ARE INY IN THIS WORD NXTWP1: SKIPN T1,(T3) ;NEXT WORD, DOES IT CONTAIN ANY BITS? JRST NXTWP2 ;NO SETZ T4, ;YES, STARTING AT THE LSB NXTWSC: JUMPE T1,NXTWP2 ;JUMP IF NO MORE BITS IN THIS WORD LSHC T1,-1 ;SHIFT LSB INTO SIGN BIT OF T2 JUMPL T2,NXTWP3 ;JUMP IF THE BIT IS ON AOJA T4,NXTWSC ;COUNT THIS ZERO BIT AND NEXT BIT NXTWP2: CAMLE T3,.USTMP+5 ;LOOKED AT ENTIRE TABLE? SOJA T3,NXTWP1 ;NO, LOOK ON POPJ P, ;NO BITS FOUND NXTWP3: MOVEI T2,1(T3) ;CALCULATE BIT POSITION WITHIN TABLE SUB T2,.USTMP+5 ;WORD WITHIN TABLE IMULI T2,^D36 ;36 BITS PER WORD SUBI T2,1(T4) ;SINCE REALLY COUNTING FROM 1 TO 44 AOJA T4,CPOPJ1## ;NEXT BIT NEXT TIME ;PFHPAG - Page in a page which has caused a page fault ;Call ; P1/ Page fail word (direct from .USPFW) ;Return ; RET Can't do, no room, no such page ; RETSKP page is accessible ; PFHPAG: LDB T3,[POINT UPGWID,P1,26] ;GET VIRTUAL PAGE NUMBER MOVE T1,T3 ;COPY TO T1 LSH T1,P2SLSH ;GET SECTION # SKIPN .UPMP+SECTAB(T1) ;DOES SECTION EXIST? POPJ P, ;NO, DON'T GENERATE A SECOND PAGE FAULT ADD T3,[MS.MAP+UMAPS];POINT TO PAGE MAP ENTRY FOR PAGE SKIPN T1,(T3) ;GET PAGE MAP ENTRY POPJ P, ;ILL MEM REF IF PAGE IS NON-EXISTANT TDNN T1,[PM.ADR-PM.ZER];ALLOCATED BUT ZERO PAGE? JUMPN T1,PFHABZ ;YES, CREATE IT. LDB T2,PTRTYP ;GET TYPE OF POINTER JUMPN T2,CPOPJ## ;[PM.NCD] IF POINTER EXISTS, NOTHING TO DO TLNN T1,(PM.COR) ;PAGE IN CORE? JRST PFHOUT ;NOPE, IT'S PAGED OUT. TLNN T1,(PM.AAB) ;ACCESS ALLOWED ON? JUMPN T1,PFHAAF ;YES, IS ACCESS ALLOWED FAULT POPJ P, ;NOT SOLVABLE FAULT ;Here when page is allocated but zero. ;Call ; P1/ Virtual address desired (With some flags) ;Return ; CPOPJ, no room for page. ; CPOPJ1, page has been allocated. ; PFHABZ: PUSHJ P,CHKLIM ;GET US ENOUGH ROOM TO CREATE THE PAGE JRST PFHABO ;LOOP IN PFH DMOVE T1,[1,,JOBUAL## ;.PAGCD,,AC 1 1] ;ONE PAGE LDB T3,[POINT UPGWID,P1,26] ;GET PAGE NUMBER PUSHJ P,DOPAGE ;CREATE THE PAGE SETZM .USPFU ;RESTART PAGE FAULT COUNT--WE'RE NOT LOOPING YET JRST PFHXCN ;COUNT FAULT AND EXIT ;Here when page has access allowed turned off ;Call ; P1/ Virtual address desired (with some flags) ; T3/ Pointer to map slot ;Return ; CPOPJ, never. ; CPOPJ1, aa turned on PFHAAF: PUSHJ P,SAVE1## ;P1 NEEDS TO BE PRESERVED SOS .USANA ;DECR NO OF NOT-ACCESSABLE PAGES MOVSI T2,(B2+PM.AAB) ;ACCESS ALLOWED IORM T2,(T3) ;TURN ON IN PAGE MAP ENTRY TLZ P1,-1-MXSECN ;CLEAR EXTRANEOUS BITS EXCTUU ;REFRESH PAGER'S ASSOC MEMORY, THIS PAGE ONLY PUSHJ P,ADJANA## ;ADJUST .USVRT JRST PFHXCI ;COUNT FAULT AND RETURN TO USER ;Here when page is paged out ;Call ; P1/ Virtual address desired (with some flags) ;Return ; CPOPJ, no room for page ; CPOPJ1, page has been paged in PFHOUT: PUSHJ P,CHKLIM ;MAKE ROOM FOR PAGE WE WILL HAVE TO PAGE IN JRST PFHABO ;LOOP IN PFH DMOVE T1,[0,,JOBUAL## ;.PAGIO,,AC 1 1] ;ONE PAGE, IN. LDB T3,[POINT UPGWID,P1,26] ;GET PAGE NUMBER PUSHJ P,DOPAGE ;PAGE HIM IN JRST PFHXCN ;COUNT FAULT AND CONTINUE ;Here to put us n pages below limit ;Call ; MOVEI T3,amount of increase ;Only for call to CHKLIN ; PUSHJ P,CHKLIM/CHKLIN ;CHKLIM assumes one page increase ;Return ; RET ;Can't make room for another page ; RETSKP ;There is now room for at least one page CHKLIM: MOVEI T3,1 ;ONE PAGE OF INCREASE CHKLIN::SE1ENT ;MUST BE IN SECTION 1 PUSHJ P,SAVE3## ;PRESERVE ACS USED MOVE P2,T3 ;SAVE IN MORE PERMANENT PLACE SETZ P3, ;FIRST TIME THROUGH ;Set up for range checks for cannot-be-paged-out ('CBPO') pages ADJSP P,-PFPOFS ;MAKE ROOM FOR LIMIT BI-WORDS PUSHJ P,GETJLM ;GET RANGE OF PAGES FOR JOBINT BLOCK DMOVEM T1,PFPJLB(P) ;SET UP FOR CBPO RANGE CHECK PUSHJ P,GETBLM ;GET BREAKPOINT TRAP PAGE MOVEM T1,PFPBPT(P) ;SAVE FOR CBPO RANGE CHECK PUSHJ P,GETPLM ;FIND RANGE OF PAGES FOR PSI VECTOR DMOVEM T1,PFPPLB(P) ;SET UP FOR CBPO RANGE CHECK LDB P1,IMGIN## ;LOSEG SIZE = COUNT OF CANDIDATE PAGES ;Continued on next page ;Continued from previous page CHKLI1: MOVEI T3,(P2) ;AMOUNT OF INCREASE PUSHJ P,GSIZI## ;WILL WE STILL FIT IN CORE? JFCL ;WILL NEVER FIT TRNA ;LESSER THAN LIMITS JRST CHKL10 ;WILL FIT, RETURN NOW ;Here when we will have to page things out. CHKLI2: SOJLE P1,CHKL11 ;GIVE UP AFTER CHECKING ALL CANDIDATE PAGES CHKLI3: SOSG T2,.USPFL ;GET PAGE WE LAST PAGED OUT JRST [SKIPL .USBTS ;A BIG USER? SKIPA T2,[HLGPNO+1] ;NO, JUST LOOK AT SECTION 0 MOVEI T2,HLGPGS+1 ;RE-START AT TOP PAGE JRST CHKLI5] ;AND CONTINUE FROM THE TOP LDB T2,[POINT 5,T2,26] ;GET SECTION NUMBER LDB T2,[POINT 3,.UPMP+SECTAB(T2),2] ;GET POINTER TYPE CAIN T2,PM.DCD ;DIRECT POINTER JRST CHKLI6 ;YES, TRY IT CHKLI4: MOVE T2,.USPFL ;GET LAST PAGE PAGED OUT TRZ T2,HLGPNO ;ROUND DOWN TO BOTTOM OF BAD SECTION CHKLI5: MOVEM T2,.USPFL ;AND SAVE IT JRST CHKLI3 ;AND LOOP CHKLI6: MOVE T2,.USPFL ;PAGE TO CONSIDER TRC T2,PG.BDY ;STARTING A NEW SECTION? TRCE T2,PG.BDY ; .. JUMPN P3,CHKLI7 ;OR NOT THE FIRST TIME THROUGH? LDB T1,[POINT 5,T2,26] ;GET SECTION NUMBER SKIPE T1 ;SECTION ZERO IS DIFFERENT JRST [IMULI T1,WSBTBL;COMPUTE WHICH WSBTAB TO USE MOVEI T1,.WSBNZ-WSBTBL(T1) JRST .+2] ;AND CONTINUE MOVEI T1,WSBTAB ;SECTION 0 WSBTAB ANDI T2,PG.BDY ;STARTING PAGE WITHIN SECTION PUSHJ P,NXTWSP ;GET FIRST PAGE IN THIS SECTION JRST CHKLI4 ;THERE AREN'T ANY JRST CHKLI8 ;SEE IF ITS A CANDIDATE CHKLI7: PUSHJ P,NXTWSC ;GET NEXT WORKING SET PAGE JRST CHKLI4 ;NO MORE IN THIS SECTION ;This is just a sanity check which set P3 non-zero. If its in the WS, ; its in core. CHKLI8: DPB T2,[POINT 9,.USPFL,35] ;STORE PAGE NUMBER IN .USPFL MOVE T2,.USPFL ;GET EXTENDED PAGE NUMBER JUMPE T2,CHKLI3 ;GO IF THIS IS PAGE 0 IN SECTION 0 MOVE P3,@[IW MS.MAP,UMAPS(T2)] ;GET PAGE MAP ENTRY TLC P3,(PM.COR) ;IN-CORE BIT TLNE P3,(PM.COR!1B1) ;IS IT IN CORE? JRST CHKLI3 ;NO, TRY AGAIN CHKLI9: CAME T2,PFPJLB(P) ;IS THIS FIRST PAGE OF .JBINT BLOCK? CAMN T2,PFPJLE(P) ;OR LAST PAGE OF .JBINT? JRST CHKLI2 ;YES, LEAVE IT ALONE CAMN T2,PFPBPT(P) ;BREAKPOINT TRAP ADDRESS? JRST CHKLI2 ;YES, LEAVE IT FOR DDT CAML T2,PFPPLB(P) ;IS THIS PAGE BELOW RANGE OF PSI VECTOR CAMLE T2,PFPPLE(P) ;OR ABOVE IT? TRNA ;NOT IN RANGE OF PSI VECTOR JRST CHKLI2 ;IN PSI VECTOR, LEAVE IT ALONE PUSHJ P,CKLDPG ;DO THE PAGE OUT JRST CHKLI1 ;MAKE SURE WE ARE BELOW LIMIT NOW CHKL10: AOS PFPOFS(P) ;SET UP FOR SKIP RETURN CHKL11: ADJSP P,PFPOFS ;THROW AWAY CHECK WORDS ON STACK POPJ P, ;RETURN ;Here to page out the page, page number in T2. CKLDPG: PUSHJ P,SAVT## ;MUST SAVE T1 ACS FOR NXTWSC MOVEM T2,.USPFL ;REMEMBER AS LAST PAGE PAGED OUT MOVE T3,T2 ;FOR DOPAGE TLO T3,(PG.GAF) ;FLAG THAT THIS PAGE GETS PAGED OUT DMOVE T1,[0,,JOBUAL## ;.PAGIO,, AC 1 1] ;ONE PAGE PUSHJ P,DOPAGE ;AND PAGE IT OUT PJRST SCDCHK## ;LET OTHER USERS RUN JUST IN CASE ;Subroutine to get starting and ending page number of pages which can't be ; paged out (JOBINT block). Returns results in T1, T2 GETJLM::HRRZ T1,.JDAT+JOBINT##;GET ADDRESS OF JOBINT BLOCK HRRZI T2,3(T1) ;END ADDRESS OF JOBINT BLOCK TRZ T1,PG.BDY ;MAKE START ADDRESS A PAGE BOUNDARY LSHC T1,W2PLSH ;CONVERT BOTH TO PAGE NUMBERS POPJ P, ;AND RETURN ;Subroutine to get page number of DDT breakpoint trap word (for JSR) GETBLM::MOVE T1,.JDAT+.JBBPT## ;FETCH JSR TARGET ADDRESS LSH T1,W2PLSH ;CONVERT TO PAGE NUMBER MOVE T2,T1 ;DON'T CONFUSE GETRSN PJRST GETRSN ;RETURN INDPENDENT PAGE NUMBER ;Subroutine to get starting and ending page number of pages which can't be ; paged out (PSI vector). Returns results in T1, T2 GETPLM::PUSHJ P,PSIIVR## ;FIND RANGE OF PAGES FOR PSI VECTOR HLRZ T2,T1 ;GET ENDING PAGE HRRZS T1 ;MAKE THIS STARTING PAGE ONLY ; PJRST GETRSN ;CONVERT TO REAL SECTION NUMBERS AND RETURN ;Subroutine to convert page numbers in T1 andd T2 to page numbers with all ; section indirection resolved (real section numbers) GETRSN: PUSH P,T2 ;THE INTERFACE TO RSECT4 IS WIERD PUSH P,T4 ;IT WANTS THE ARGUMENT IN T4 LDB T4,[POINT 5,T1,26] ;SECTION SPECIFIED PUSHJ P,RSECT4## ;FOLLOW ANY INDIRECT SECTION POINTERS TO A ; DIRECT POINTER JFCL ;I TOLD YOU THE INTERFACE WAS WIERD DPB T4,[POINT 5,T1,26] ;STORE REAL SECTION NUMBER ;Doing this assumes that a block could cross a section boundary which it can't, ; but might as well be general. LDB T4,[POINT 5,-1(P),26] ;FOR T2 ARGUMENT AS WELL PUSHJ P,RSECT4## ;FOLLOW ANY INDIRECT SECTION POINTERS TO A ; DIRECT POINTER JFCL ;I TOLD YOU THE INTERFACE WAS WIERD DPB T4,[POINT 5,-1(P),26] ;STORE ANSWER POP P,T4 ;RESTORE T4 JRST T2POPJ## ;RESTORE T2 AND RETURN ;Do a page uuo. ;Call ; T1/ Function,, JOBUAL## ; T2/ Number of pages to do (1 or negative number) ; T3/ Page to do, possibly with PG.GAF lit. ;Return ; RET, done ;If the page uuo fails, this routine stopcodes and does not return DOPAGE: IFN FTXMON,< MOVE T4,T1 ;SAVE FUNCTION MOVEI T1,0 ;SET PCS TO ZERO PUSHJ P,SVPCS## ;SINCE ARGUMENT LIST WILL BE AT JOBUAL IN S0 MOVE T1,T4 ;RESTORE T1 > PUSHJ P,SAVUM## ;TRASHED BY VMSER MOVEI T4,JS.ASA ;SHADOW ACS BIT TDNE T4,JBTSTS##(J) ;IS IT SET? JRST DOPAG1 ;YES, USE SHADOW AREA UMOVE T4,0 ;GET USER AC ZERO UMOVEM T1,0 ;SET UP USER AC JRST DOPAG2 ;STORE ARGS DOPAG1: MOVE T4,.JDAT ;SAVE SHADOW AC 0 MOVEM T1,.JDAT ;STORE FUNCTION,,ADDRESS DOPAG2: DMOVEM T2,.JDAT+JOBUAL## ;STASH ARGS IN WORK AREA PUSH P,T4 ;SAVE USER'S AC ZERO PUSH P,F ;SAVE OUR DDB POINTER PUSH P,S ;AND DEVIOS SETZ M, ;LOOK IN AC 0 FOR ARGS S0PSHJ UPAGE.## ;AND DO THE PAGE. JRST DOPAG4 ;ANALYZE THE ERROR POP P,S ;RESTORE DEVIOS POP P,F ;RESTORE DDB POINTER POP P,T4 ;GET BACK USER'S AC ZERO MOVEI T1,JS.ASA ;ACS IN THE SHADOW AREA BIT TDNE T1,JBTSTS##(J) ;ARE THEY? JRST DOPAG3 ;YES, RESTORE THERE UMOVEM T4,0 ;STASH AWAY AGAIN POPJ P, ;RETURN DOPAG3: MOVEM T4,.JDAT ;STASH AWAY AGAIN POPJ P, ;AND RETURN ;Here to analyze the error code returned from the PAGE. UUO. DOPAG4: ; UMOVE T1,0 ;GET ERROR CODE CAIE T1,PAGIO% ;PAGING I/O ERROR? ANYTHING ELSE IS FATAL STOPCD .,JOB,PFHUUO, ;++ PAGE UUO FAILED JSP T1,ERRPNT## ;TELL THE USER ABOUT THE PROBLEM ASCIZ \Paging I/O error\ PJRST PCSTOP## ;TELL THE USER THE PC AND STOP THE JOB ;Here to count an in working set page fault PFHXCI: AOSA SYSIWS## ;COUNT "IN WORKING SET" FAULT ;Here to count a not in working set page fault PFHXCN: AOSA SYSNIW## ;COUNT "NOT IN WORKING SET" FAULT SKIPA T1,[1] ;COUNTS IN THE RIGHT HALF MOVSI T1,1 ;COUNTS IN THE LEFT HALF ADDM T1,.USVCT ;UPDATE USER TOTAL ADDM T1,SYSVCT## ;TALLY UP OLD COUNTER TOO JRST CPOPJ1## ;RETURN ;PFHGWD - GETWRD routine specifically for PFH. Make sure that we fault ; gently, and pull the page in without trying to re-start the uuo. PFHGW1::HRRI M,1(M) ;BUMP THE ADDRESS PFHGWD::TRNN M,^-17 ;IS THIS AN AC REFERENCE? PJRST GETWRD## ;YES, DO IT THE OLD WAY SE1ENT ;NO, USE SECTION 1 FOR ADDRESSING PUSH P,M ;SAVE M HRLI M,(IFIW) ;MAKE VALID IW PUSHJ P,PFHXW0 ;FETCH JRST MPOPJ## ;PROPAGATE FAILURE JRST MPOPJ1## ;AND SUCCESS PFHGWF: SE1ENT ;MUST BE IN SECTION 1 PUSH P,J ;SAVE POSSIBLE JCH ANDI J,JOBMSK## ;ISOLATE FOR UUO ROUTINES PUSH P,P1 ;SAVE AN AC MOVE P1,.USPFW ;GET PAGE FAIL CODE TLNN P1,(PF.BAD) ;DON'T BOTHER IF SOMETHING REALLY BAD PUSHJ P,PFHPAG ;PAGE IT IN JRST [POP P,P1 ;RESTORE REGISTERS JRST JPOPJ##] ;GIVE UP IF ERROR IN ADDRESS POP P,P1 ;GET BACK SAVED AC POP P,J ;RESTORE POSSIBLE JCH PFHXW0: UMOVE T1,@M ;GET THE WORD FROM USER MEMORY ERJMP PFHGWF ;FAILED, TRY TO PAGE IT IN RETSKP ;AND RETURN SUCCESS IFN FTXMON,< PFHXW1::SKIPL M ;IS THIS AN IFIW? AOSA M ;NO, BUMP GLOBALLY HRRI M,1(M) ;YES, BUMP LOCALLY TRNN M,-1 ;IF HIT A SECTION BOUNDARY, SKIPGE M ;AND DIDN'T WRAP, JRST PFHXWD ; (NO) PUSHJ P,SMPCS## ;THEN MAKE SURE IT'S VALID POPJ P, ;PROPAGATE FAILURE ;FALL INTO PFHXWD ;PFHXWD - The PFH version of GETXWD PFHXWD::TDNN M,[^->] ;IS THIS AN AC REFERENCE? PJRST GETWRD## ;YES, HANDLE IT THE OLD WAY SE1ENT ;MUST BE IN S1 JRST PFHXW0 ;GO FETCH IT ;PFHMWD - like PFHGWD but gets the word from section specified by M PFHMWD::SE1ENT ;WE WANT NZS ADDRESSING LDB T1,[POINT 5,M,17] ;WHAT PCS SHOULD BE TO FETCH THE WORD PUSHJ P,SVPCS## ;SAVE PCS AND SET PCS TO VALUE FROM M JRST PFHGWD ;GET THE WORD > ;END IFN FTXMON ;PFHPWD - The PFH version of PUTWRD PFHPW1::HRRI M,1(M) ;ADVANCE THE POINTER PFHPWD::PUSH P,T1 ;SAVE VALUE TO DEPOSIT PUSHJ P,PFHGWD ;MAKE SURE THE WORD IS IN CORE JRST TPOPJ## ;PROPAGATE FAILURE POP P,T1 ;RESTORE VALUE TO STORE PJRST PUTWRD## ;NOW GO STUFF IT IN IFN FTXMON,< ;PFHPMW - The PFH version of PUTMWD PFHPMW::PUSH P,T1 ;SAVE VALUE TO DEPOSIT PUSHJ P,PFHMWD ;MAKE SURE THE WORD IS IN CORE JRST TPOPJ## ;PROPAGATE FAILURE POP P,T1 ;RESTORE VALUE TO STORE PJRST PUTMWD## ;NOW GO STUFF IT IN ;PFHPXW - The PFH version of PUTEWD PFHPX1::SKIPL M ;AN IFIW? AOSA M ;NO, ADVANCE GLOBALLY HRRI M,1(M) ;YES, ADVANCE LOCALLY TRNN M,-1 ;IF HIT A SECTION BOUNDARY, SKIPGE M ;AND CROSSED IT JRST PFHPXW ;(NO) PUSHJ P,SMPCS## ;MAKE SURE IT'S VALID POPJ P, ;PROPAGATE FAILURE PFHPXW::PUSH P,T1 ;SAVE VALUE TO STORE PUSHJ P,PFHXWD ;MAKE SURE THE WORD'S IN CORE JRST TPOPJ## ;PROPAGATE FAILURE POP P,T1 ;RESTORE VALUE TO DEPOSIT PJRST PUTEWD## ;AND GO STUFF IT IN > ;END IFN FTXMON IFE FTXMON,< XP PFHMWD,PFHGWD XP PFHXWD,PFHGWD XP PFHXW1,PFHGW1 XP PFHPMW,PFHPWD XP PFHPXW,PFHPWD XP PFHPX1,PFHPW1 > ;END IFE FTXMON ;PFHDMP - Dump mode IO. This routine replaces DMPIO. ;Call ; T1/ IO routine ; F,U,M/ UUO normal ;Return ; RET, I/O has been done. ; ;If an error occurrs at any point, it returns then and there, ;to let the higher levels catch it. PFDBAS==0 ;BASE ADDRESS OF IOWDS PFDISP==1 ;DISPATCH ADDRESS PFDCNT==2 ;COUNT OF IOWDS PROCESSED PFDEVM==3 ;AMOUNT OF EVM USED LAST TIME, IF ANY PFDRSN==4 ;REASON NOT IN CORE PFDSNI==5 ;STARTING PAGE NOT IN CORE PFDPNI==6 ;PREVIOUS PAGE NOT IN CORE PFDSIZ==7 ;SIZE OF BLOCK TO ALLOCATE (used by pfhmsi) PFHDMP::SE1ENT ;WE TOUCH PAGE MAPS, RUN IN SECTION 1 PUSHJ P,SAVE4## ;SAVE PERM ACS THAT WE USE MOVE P1,T1 ;SAVE DEVICE DISPATCH ADDRESS IFN FTXMON,< TLO F,(1B0) ;TURN ON THE SIGN BIT FOR INDEXING (UINITB) HRRZ T1,DEVISN(F) ;IO SECTION NUMBER PUSHJ P,SVPCS## ;SAVE PCS AND SET UP > XMOVEI P4,1(P) ;POINT AT AVAILABLE STACK AREA ADJSP P,PFDSIZ ;RESERVE ROOM FOR DATA ON STACK MOVEM P1,PFDISP(P4) ;SAVE DISPATCH ADDRESS SETZM PFDEVM(P4) ;NO EVM YET MOVEI T1,^D1000 ;MAXIMUM NUMBER OF IOWDS TO ALLOW MOVEM T1,PFDCNT(P4) ;STORE THAT PFHDM1: PUSHJ P,PFHGWD ;GET IOWD JRST UADERR## ;SHOULDN'T HAPPEN JUMPE T1,PFHDM4 ;DONE, CLEAN UP TLNN T1,-1 ;A GOTO WORD? JRST [HRRI M,(T1) ;YES, POINT TO NEXT IOWD JRST PFHDM3] ;AND CONTINUE HLRO P2,T1 ;SIZE OF IOWD MOVEI T1,1(T1) ;POINT TO FIRST WORD TOUCHED BY IO HRL T1,DEVISN(F) ;GET SECTION NUMBER MOVEM T1,PFDBAS(P4) ;STASH WHERE PFHIOD CAN FIND IT MOVE P1,PFDBAS(P4) ;POINT AT FIRST WORD AFFECTED BY IO SETCA P2, ;COUNT OF WORDS AFFECTED ADD P2,PFDBAS(P4) ;POINT AT LAST WORD AFFECTED BY IO SETZ P3, ;NOTHING ACCUMULATED YET XOR T1,P2 ;SEE IF SECTIONS CHANGED TLNE T1,-1 ;IF SO, THIS IS BAD FOR AN OLD-STYLE IOWD S0JRST ADRERR## ;SO GIVE HIM THE BAD NEWS PUSHJ P,PFHIOD ;DO THE IO FOR THIS IOWD JRST PFHDM4 ;DIDN'T MAKE IT, LET TOP LEVEL FIND ERROR HRRI M,1(M) ;POINT TO NEXT IOWD PFHDM3: SOSL PFDCNT(P4) ;DECREMENT COUNT OF IOWDS JRST PFHDM1 ;GET NEXT IOWD IN LIST JRST ADRERR## ;MORE THAN A THOUSAND IOWDS, PROBABLY LOOP PFHDM4: ADJSP P,-PFDSIZ ;GIVE BACK STORAGE ON STACK S0PSHJ WAIT1## ;WAIT FOR DEVICE TO QUIESCE S0JRST RTNEVM## ;RETURN ANY EVM LEFT OVER ;PFHMSI - Multi section I/O ;This routine breaks down a multi-section io list into chunks small ;enough for filser to handle them, at the same time making sure the ;right amounts of everything is paged in. ;Call ; T1/ IO routine ; F,U,M/ UUO normal ;Return ; RET, IO has been done ;If an IO error occurrs, we stop io then and there, and return to top level PFHMSI::SE1ENT ;WE TOUCH MAPS, RUN IN SECTION 1 PUSHJ P,SAVE4## ;SAVE PERM ACS THAT WE USE MOVE P1,T1 ;SAVE DEVICE DISPATCH ADDRESS IFN FTXMON,< TLO F,(1B0) ;TURN ON THE SIGN BIT FOR INDEXING (UINITB) HRRZ T1,DEVISN(F) ;IO SECTION NUMBER PUSHJ P,SVPCS## ;SAVE AND SET UP PCS > XMOVEI P4,1(P) ;POINT AT AVAILABLE STACK AREA ADJSP P,PFDSIZ+1 ;RESERVE ROOM FOR DATA ON STACK MOVEM P1,PFDISP(P4) ;SAVE DISPATCH ADDRESS MOVEI T1,^D1000 ;MAXIMUM NUMBER OF IOWDS TO ALLOW MOVEM T1,PFDCNT(P4) ;STORE THAT SETZM PFDEVM(P4) ;NO EVM YET PFHMS1: PUSHJ P,PFHMWD ;GET FIRST HALF OF EXTENDED IOWD JRST UADERR## ;SHOULDN'T HAPPEN MOVE P2,T1 ;SAVE AS SIZE OF IOWD AOS M ;POINT M AT SECOND HALF PUSHJ P,PFHMWD ;GET SECOND HALF OF EXTENDED IOWD JRST UADERR## ;SHOULDN'T HAPPEN JUMPE P2,PFHMS2 ;A GOTO WORD? MOVEM T1,PFDBAS(P4) ;STASH WHERE PFHIOD CAN FIND IT PFHM1A: MOVE P1,PFDBAS(P4) ;FIRST WORD AFFECTED BY IO MOVEM P2,PFDSIZ(P4) ;STASH TOTAL IOWD SIZE CAILE P2,400000 ;MAXIMUM IOWD SIZE MOVEI P2,400000 ;MAKE SURE WE DON'T EXCEED IT ADD P2,PFDBAS(P4) ;POINT AT LAST WORD PLUS ONE SOS P2 ;LAST WORD AFFECTED BY IO SETZ P3, ;NOTHING ACCUMULATED YET PUSHJ P,PFHIOD ;DO THE IO FOR THIS IOWD JRST PFHMS4 ;DIDN'T MAKE IT, LET TOP LEVEL FIND ERROR MOVE P2,PFDSIZ(P4) ;GET SIZE OF THAT IOWD SUBI P2,400000 ;DECREMENT MAX AMOUNT WE WOULD HAVE DONE JUMPG P2,PFHM1A ;AND LOOP IF ANYTHING LEFT TO DO AOSA T1,M ;POINT TO NEXT IOWD PFHMS2: JUMPE T1,PFHMS4 ;GOTO ZERO MEANS END OF IOWD LIST DPB T1,[POINT 23,M,35] ;POINT AT NEXT IOWD PFHMS3: SOSL PFDCNT(P4) ;DECREMENT COUNT OF IOWDS JRST PFHMS1 ;GET NEXT IOWD IN LIST JRST ADRERR## ;MORE THAN A THOUSAND IOWDS, PROBABLY LOOP PFHMS4: ADJSP P,-PFDSIZ-1 ;GIVE BACK STORAGE ON STACK S0PSHJ WAIT1## ;WAIT FOR DEVICE TO QUIET DOWN S0JRST RTNEVM## ;RETURN ANY EVM LEFT OVER SUBTTL PFHIOD - Dump mode iowds. Comment @ Loose description of dump mode i/o breakdown algorithm. check iowd pages set current address to starting io address call next iowd page return next iowd page look at page if aa off, make aa on if not in core, request pagein if end, do accumulated pagein, do accumulated io and return incr current address to start of next page go back to next iowd page request pagein if reason not in core different than previous reason or current page different than previous page + 1, do accumulated pagein stash starting page not in core stash reason not in core and current page return do accumulated pagein if enough room for all pages, page them in and return make room, and go back to do accumulated pagein make room preserve end accumulated io pointer, to be restored on return loop from .uspfl down accumulating valid pages to page out (not in iowd or vectors) if gsizi cries uncle, page out accumulated pageout and return until looped over entire image page out accumulated pageout binary search from number of pages we want in, calling gsizi until we find out how much maximum will fit page in that many pages set starting page not in core to first page not paged in set up end accumulated io pointer to within last page we paged in do accumulated io and return do accumulated io do io from starting io address to ending io address set starting io address to ending io address + 1 return @ ;PFHIOD - Dump mode iowds ;Here to check paged-in dump i/o lists. ;Call ; P4/ Pointer to block of stack space with ; PFDBAS(P4)/ Address of first word touched by this IOWD ; PFDISP(P4)/ Address of routine to call to do IO ; P3/ undefined ; P2/ Last word affected by IO ; P1/ First word affected by IO ;Return ; RET Some error occurred, propagate it to top ; RETSKP IO done, no problems yet ; ;Note that all addresses are full 30 bit addresses - Even if you want to do ;local addressing, you must supply a full extended address. PFHIOD: PUSHJ P,SAVUM## ;WE USE UP M IN HERE SETZM PFDRSN(P4) ;NO CURRENT PAGED-OUT-REASON SETZM PFDPNI(P4) ;NO PREVIOUS PAGE PUSHJ P,PFHNXI ;DO THIS IOWD SKIPA ;HMM. ERROR RETURN AOS (P) ;PROPAGATE SKIP RETURN POPJ P, ;AND RETURN PFHNXI: LDB T2,[POINT UPGWID,P1,26] ;GET VIRTUAL PAGE NUMBER MOVE T1,@[IW MS.MAP,UMAPS(T2)] ;GET PAGE MAP ENTRY ERJMP PFHIOX ;ILL MEM REF JUMPE T1,PFHIOX ;ILL MEM REF MOVSI T3,(<B2>!PM.AAB) ;BE SURE ACCESS ALLOWED IS ON TLNE T1,(PM.COR!<B2>) ;IN CORE OR INDIRECT? ;(IF IT PASSED THIS FAR, LET IT THROUGH) JRST PFHNX2 ;YES, USE IT PUSHJ P,PFHPIN ;NO, FILE A REQUEST TO PAGE IT IN POPJ P, ;HMM. AN ERROR OF SOME VARIETY. CUTE. LDB T2,[POINT UPGWID,P1,26] ;GET VIRTUAL PAGE NUMBER MOVE T1,@[IW MS.MAP,UMAPS(T2)] ;GET PAGE MAP ENTRY ERJMP PFHIOX ;ILL MEM REF JUMPE T1,PFHIOX ;ILL MEM REF MOVSI T3,(PM.AAB) ;BE SURE DCD COMES ON WHEN PAGE COMES IN PFHNX2: TLNE T1,(B2!PM.AAB) ;DOES PAGE HAVE ACCESS ALLOWED ON? JRST PFHNX3 ;YES, JUST USE IT IORM T3,@[IW MS.MAP,UMAPS(T2)] ;TURN ON IN MAP SOS .USANA ;DECREMENT NUMBER OF NON-ACCESSIBLE PAGES PUSHJ P,ADJANA## ;ADJUST .USVRT PFHNX3: TRO P1,PG.BDY ;BUMP UP TO PAGE BOUNDARY ADDI P1,1 ;AND UP TO FIRST WORD OF NEXT PAGE CAMLE P1,P2 ;DID WE OVERFLOW? SKIPA P1,P2 ;YES, BACK DOWN TO LAST WORD JRST PFHNXI ;NO, LOOP CHECKING PAGES AOS PFDPNI(P4) ;PROTOCOL REQUIRES BUMPING THIS COUNTER PUSHJ P,PFHACP ;DO ACCUMULATED PAGE IN POPJ P, ;ARGH. ERROR PJRST PFDOIO ;DO THE I/O AND RETURN ;PFHPIN - Request page-in of a page ;Call ; T1/ Contents of map for page ; T2/ Page number ; P1/ Virtual address we are looking at ; P4/ ; PFDBAS(P4)/ Start word of io ; PFDRSN(P4)/ Reason previous page was paged out ; PFDSNI(P4)/ Start not-in-core page ; PFDPNI(P4)/ Previous not-in-core page ;Return ; RET An I/O error of some sort ; RETSKP With request filed (and possibly some pages paged in); ; or I/O done up to previous page and PFDBAS adjusted to reflect ; the fact. PFHPIN: TDNN T1,[PM.ADR-PM.ZER] ;IS PAGE ABZ? SKIPA P3,[1,,JOBUAL##] ;ABZ, .PAGCD,,AT JOBUAL MOVE P3,[0,,JOBUAL##] ;OUT, .PAGIO,,AT JOBUAL AOS T3,PFDPNI(P4) ;YES, ASSUME THIS IS EXACT NEXT PAGE CAME P3,PFDRSN(P4) ;IS REASON SAME AS EXISTING STUFF? JRST PFHPI2 ;NO, FLUSH PENDING PAGEINS CAMN T3,T2 ;IS THIS THAT EXACT PAGE? RETSKP ;YES, ALL DONE. PFHPI2: PUSHJ P,PFHACP ;DO ACCUMULATED PAGEIN POPJ P, ;SOMETHING FAILED DEEP DOWN MOVEM P3,PFDRSN(P4) ;STASH NEW REASON/FUNCTION LDB T1,[POINT UPGWID,P1,26] ;GET THIS PAGE'S NUMBER MOVEM T1,PFDSNI(P4) ;SAVE AS STARTING PAGE NOT IN CORE MOVEM T1,PFDPNI(P4) ;SAVE AS PREVIOUS PAGE NOT IN CORE RETSKP ;AND RETURN ;PFHACP - Do accumulated pagein ;Call ; P4/ ; PFDRSN - Function code to use for page. uuo ; PFDSNI - Starting page for page. ; PFDPNI - Last page to do plus one ;Return ; RET I/O error deep down ; RETSKP pages are in core (may have done i/o and paged stuff out) ; PFHACP: SKIPN PFDRSN(P4) ;MAKE SURE THERE IS SOMETHING TO DO RETSKP ;NOPE, JUST RETURN MOVE T3,PFDPNI(P4) ;GET LAST PLUS ONE PAGE SUB T3,PFDSNI(P4) ;COMPUTE NUMBER OF PAGES COMING IN PUSHJ P,GSIZI## ;MAKE SURE WE HAVE ENOUGH ROOM JFCL ;WILL NEVER FIT JRST PFHAC2 ;DO CURRENTLY ACCUMULATED I/O FIRST MOVE T1,PFDRSN(P4) ;GET FUNCTION CODE MOVN T2,T3 ;NUMBER OF PAGES TO DO MOVE T3,PFDSNI(P4) ;GET STARTING PAGE NUMBER PUSHJ P,DOPAGE ;DO THE PAGE UUO RETSKP ;DONE, RETURN PFHAC2: PUSHJ P,PFHMKR ;MAKE ROOM POPJ P, ;URP. I/O ERROR IN BOWELS. JRST PFHACP ;AND LOOP TRYING TO PAGE THEM IN ;PFHMKR - Make room for pagein by paging other unused stuff out ;Call ; P4/ ; PFDBAS/ Starting place of IO ; PFDRSN/ Function to page pages in ; PFDSNI/ Start not-in-core page ; PFDPNI/ Last not-in-core page plus 1 ; P1/ Highest virtual address currently being looked-at ;Return ; RET Some type of i/o error ; RETSKP pages up to PFDPNI have been paged in, we might have ; had to do some i/o and page out earlier pages PFHMKR: PUSHJ P,SAVE3## ;SAVE SOME WORK REGISTERS ;Set up for range checks for cannot-be-paged-out ('CBPO') pages ADJSP P,-PFPOFS ;MAKE ROOM FOR CBPO BI-WORDS PUSHJ P,GETJLM ;GET RANGE OF PAGES FOR JOBINT BLOCK DMOVEM T1,PFPJLB(P) ;SET UP FOR CBPO RANGE CHECK PUSHJ P,GETBLM ;GET BREAKPOINT TRAP PAGE MOVEM T1,PFPBPT(P) ;SAVE FOR CBPO RANGE CHECK LDB T1,[POINT UPGWID,PFDBAS(P4),26] ;STARTING PAGE OF IOWD MOVEM T1,PFPILB(P) ;SAVE LOWER-LIMIT OF IOWD-ADDRESSED RANGE LSH P1,W2PLSH ;CONVERT TO HIGHEST PAGE MOVEM P1,PFPILE(P) ;SAVE UPPER-LIMIT OF IOWD-ADDRESSED RANGE PUSHJ P,GETPLM ;FIND RANGE OF PAGES FOR PSI VECTOR DMOVEM T1,PFPPLB(P) ;SET UP FOR CBPO RANGE CHECK LDB P1,IMGIN## ;LOSEG SIZE = COUNT OF CANDIDATE PAGES SETZB P2,P3 ;NO PAGES TO PAGE OUT ACCUMULATED YET TLO P4,400000 ;FIRST TIME THROUGH FLAG ;Continued on next page ;Continued from previous page ;Loop trying to find pages to page out PFHMK1: SOJLE P1,PFHBRK ;AFTER TRYING ALL PAGES, BREAK THE IOWD DOWN PFHMK2: SOSG T2,.USPFL ;GET PAGE WE LAST PAGED OUT JRST [SKIPL .USBTS ;A BIG USER? SKIPA T2,[HLGPNO+1] ;NO, JUST LOOK AT SECTION 0 MOVEI T2,HLGPGS+1 ;RE-START AT TOP PAGE JRST PFHMK4] ;AND CONTINUE FROM THE TOP LDB T2,[POINT 5,T2,26] ;GET SECTION NUMBER LDB T2,[POINT 3,.UPMP+SECTAB(T2),2] ;GET POINTER TYPE OF SECTION CAIN T2,PM.DCD ;A DIRECT POINTER JRST PFHMK5 ;YES, TRY IT PFHMK3: MOVE T2,.USPFL ;GET PAGE NUMBER AGAIN TRZ T2,HLGPNO ;ROUND DOWN TO BOTTOM OF BAD SECTION PFHMK4: MOVEM T2,.USPFL ;SET NEW "LAST" CANDIDATE PAGE NUMBER JRST PFHMK2 ;AND LOOP PFHMK5: MOVE T2,.USPFL ;PAGE TO CONSIDER TRC T2,PG.BDY ;STARTING A NEW SECTION? TRCE T2,PG.BDY ; .. JUMPGE P4,PFHMK6 ;OR NOT THE FIRST TIME THROUGH? TLZ P4,400000 ;NOT FIRST TIME NEXT TIME LDB T1,[POINT 5,T2,26] ;GET SECTION NUMBER SKIPE T1 ;SECTION ZERO IS DIFFERENT JRST [IMULI T1,WSBTBL;COMPUTE WHICH WSBTAB TO USE MOVEI T1,.WSBNZ-WSBTBL(T1) JRST .+2] ;AND CONTINUE MOVEI T1,WSBTAB ;SECTION 0 WSBTAB ANDI T2,PG.BDY ;STARTING PAGE WITHIN SECTION PUSHJ P,NXTWSP ;GET FIRST PAGE IN THIS SECTION JRST PFHMK3 ;NONE THERE JRST PFHMK7 ;SET IF CAN PAGE THIS ONE OUT PFHMK6: PUSHJ P,NXTWSC ;GET NEXT WORKING SET PAGE JRST PFHMK3 ;NO MORE IN THIS SECTION PFHMK7: DPB T2,[POINT 9,.USPFL,35] ;STORE PAGE NUMBER WITHIN SECTION MOVE T2,.USPFL ;GET EXTENDED PAGE NUMBER JUMPE T2,PFHMK2 ;NEXT PAGE IF THIS IS REALLY PAGE 0 CAML T2,PFPILB(P) ;IS THIS PAGE BELOW RANGE OF OUR IOWD? CAMLE T2,PFPILE(P) ;OR ABOVE IT? JRST PFHMK8 ;NOT WITHIN IOWD-ADDRESSED RANGE JRST PFHMK1 ;TRY NEXT PAGE (CAN'T SKIP IOWD SINCE COUNTED IN P1) PFHMK8: CAME T2,PFPJLB(P) ;IS THIS FIRST PAGE OF .JBINT BLOCK? CAMN T2,PFPJLE(P) ;OR LAST PAGE OF .JBINT? JRST PFHMK1 ;YES, LEAVE IT ALONE CAMN T2,PFPBPT(P) ;BREAKPOINT TRAP ADDRESS? JRST PFHMK1 ;YES, LEAVE IT FOR DDT CAML T2,PFPPLB(P) ;IS THIS PAGE BELOW RANGE OF PSI VECTOR CAMLE T2,PFPPLE(P) ;OR ABOVE IT? TRNA ;NOT IN RANGE OF PSI VECTOR JRST PFHMK1 ;IN PSI VECTOR, LEAVE IT ALONE ;Continued on next page ;Continued from previous page ;Here when we have a page to page out MOVEM T2,.USPFL ;STORE THIS PAGE FOR NEXT TIME THROUGH CAIE P3,1(T2) ;IS THIS PAGE DIRECTLY BELOW PREVIOUS PAGE? PUSHJ P,PFHMKO ;NO, OUTPUT ACCUMULATION SOS P2 ;INCREMENT NUMBER OF PAGES TO PAGE OUT PUSHJ P,PFGSI ;CHECK FOR A FIT JRST PFHMK9 ;IT DOES, PAGE OUT ACCUMULATION MOVE P3,T2 ;NEW LOWEST PAGE JRST PFHMK1 ;AND LOOP LOOKING FOR MORE PAGES PFHMK9: MOVE P3,T2 ;RE SET UP LOWEST PAGE ADJSP P,PFPOFS ;RETURN CHECK WORDS TO STACK PUSHJ P,PFHMKO ;PAGE OUT ACCUMULATION RETSKP ;AND RETURN SUCCESS PFHMKO: JUMPE P2,CPOPJ## ;IF NOTHING TO PAGE OUT, JUST RETURN PUSHJ P,SAVT## ;SAVE T ACS FOR NXTWS? MOVE T1,[.PAGIO,,JOBUAL##] ;PAGE UUO ARGUMENT DMOVE T2,P2 ;NUMBER OF PAGES, LOWEST PAGE TLO T3,(PG.GAF) ;INDICATE PAGING OUT PUSHJ P,DOPAGE ;DO THE PAGE UUO SETZ P2, ;INDICATE NO PAGES ACCUMULATED YET POPJ P, ;RETURN PFGSI: PUSHJ P,SAVT## ;SAVE ACS FOR NXTWS? MOVE T3,PFDPNI(P4) ;GET LAST PAGE NEEDED PLUS ONE SUB T3,PFDSNI(P4) ;GET NUMBER OF PAGES INCREASE WE NEED ADD T3,P2 ;MINUS PAGES WE CAN PAGE OUT PUSHJ P,GSIZI## ;WILL WE FIT NOW? JRST CPOPJ1## ;STILL NOT JRST CPOPJ1## ;STILL NOT POPJ P, ;WE WILL FIT IF WE DO ACCUMULATED PAGEOUT ;At this point, we have paged out everything possible and we STILL don't ;have enough room. We will page in everything we possibly can, and then ;do as much io as we can into those pages. This is where we finally have ;to break down and split up the iowd. PFHBRK: MOVE T1,PFPILE(P) ;GET UPPER LIMIT OF IOWD-ADDRESSED SPACE ADJSP P,PFPOFS ;RETURN PFHMKR'S CHECK WORDS TO STACK JUMPN P2,PFHBR1 ;IF SOMETHING COULD BE PAGED OUT, WORK WITH THAT MOVE P3,PFDPNI(P4) ;FIRST IN-CORE PAGE MOVE P2,P3 ;COPY IT SUB P2,T1 ;PAGES IN IOWD SPACE TO PAGE OUT TO MAKE ROOM JUMPGE P2,PFHBR5 ;IF NOTHING COULD BE PAGED OUT, NOTHING CAN BE ; PAGED IN. DO WHAT I/O CAN BE DONE MOVEM T1,PFDPNI(P4) ;SET TO TOP OF IOWD PFHBR1: PUSHJ P,PFHMKO ;PAGE OUT ACCUMULATION MOVE T3,PFDPNI(P4) ;GET LAST PAGE NEEDED PLUS ONE SUB T3,PFDSNI(P4) ;GET NUMBER OF PAGES INCREASE WE NEED ADDI T3,1 ;PREINCREMENT BEFORE BINARY SEARCH SETUP JFFO T3,.+1 ;FIND HIGH ORDER BIT MOVSI T3,(1B0) ;A BIT MOVNS T4 ;MAKE THIS NEGATIVE SHIFT LSH T3,(T4) ;AND GET STARTING QUANTITY TO USE MOVE T2,T3 ;COPY STARTING QUANTITY PFHBR2: ASH T2,-1 ;HALF QUANTITY PUSHJ P,GSIZI## ;CAN WE FIT THIS MUCH IN? JFCL ;NO JRST PFHBR3 ;DECREMENT AMOUNT WE ARE ASKING FOR ADD T3,T2 ;IT FITS, TRY FOR SOME MORE JUMPN T2,PFHBR2 ;AND LOOP JRST PFHBR4 ;DONE, JOIN COMMON CODE PFHBR3: SUB T3,T2 ;DOESN'T FIT, TRY A LITTLE LESS JUMPN T2,PFHBR2 ;AND LOOP TRYING TO FIND IDEAL SIZE SUBI T3,1 ;DIDN'T FIT, BACK IT DOWN TO PREVIOUS SIZE JUMPE T3,CPOPJ## ;ERROR IF NOTHING FOUND TO PAGE OUT ;Bring what we can into core PFHBR4: MOVE T1,PFDRSN(P4) ;FUNCTION CODE FOR PAGE. UUO MOVN T2,T3 ;NUMBER OF PAGES TO DO ADD T3,PFDSNI(P4) ;POINT TO FIRST PAGE AFTER WHAT WE WILL DO EXCH T3,PFDSNI(P4) ;STARTING PAGE TO PAGE IN PUSHJ P,DOPAGE ;DO THE PAGE UUO PFHBR5: MOVE T1,PFDSNI(P4) ;GET FIRST INACCESSIBLE PAGE SUBI T1,1 ;MAKE IT LAST ACCESSIBLE PAGE MOVE P1,PFDBAS(P4) ;GET STARTING LOCATION FOR DUMP IO DPB T1,[POINT UPGWID,P1,26] ;MAKE A POINTER TO LAST ACCESSIBLE PAGE CAMG P1,PFDBAS(P4) ;MAKE SURE WE ENDED UP WITH SOMETHING HIGHER STOPCD .,JOB,PFNOIO, ;++ PFH HAS NO IO TO DO (I'M STUCK!) SOS P1 ;BACK DOWN TO DO EXACT MULTIPLE OF PAGESIZE ; PJRST PFDOIO ;FALL INTO PFDOIO, DO THE IO AND RETURN ;PFDOIO - Do accumulated IO. ;Call ; P4/ Block, with ; PFHBAS(P4)/ First word affected by IO. Updated at end of call. ; PFDEVM(P4)/ Amount of EVM we have, if any. Updated if necessary. ; PFDISP(P4)/ Address of filio routine to dispatch to ; P1/ Last address checked ;Return ; RET On an IO error of some kind ; RETSKP everything o.k., PFDBAS points at new address PFDOIO: PUSH P,P3 ;SAVE P REGISTER THAT WE TRASH MOVE P3,P1 ;LAST WORD CHECKED SUB P3,PFDBAS(P4) ;NUMBER OF WORDS TO DO MINUS ONE HLRZ T1,PFDBAS(P4) ;GET SECTION NUMBER HRRM T1,DEVISN(F) ;STASH IT IN DDB MOVEI T1,DEPEVM ;"DOES NOT NEED EVM" BIT TDNN T1,DEVTYP(F) ;DO WE NEED TO GET EVM? CAML P3,PFDEVM(P4) ;YES, DO WE ALREADY HAVE ENOUGH? JRST DOIO2 ;SAFE, JUST DO THE IO PUSHJ P,RTNEVM## ;CURRENT EVM ISN'T ENOUGH, GIVE IT BACK MOVEI T1,1(P3) ;AMOUNT OF EVM WE WILL NEED MOVE T3,PFDBAS(P4) ;WHERE WE ARE GOING TO DO IO PUSHJ P,GTEVBF## ;GET EVM FOR IT JRST UADERR## ;NO CAN GET, BOMB OUT MOVEM P3,PFDEVM(P4) ;INDICATE HOW MUCH EVM WE HAVE DOIO2: IFN FTXMON,< HRRZ T1,DEVISN(F) ;SECTION NUMBER FOR I/O PUSHJ P,STPCS## ;SETUP PCS FOR THAT SECTION > HRRZ T1,PFDBAS(P4) ;FIRST WORD TOUCHED BY I/O ADDM P3,PFDBAS(P4) ;POINT TO ENDING WORD SKIPGE USRHCU## ;IF SAVE IN PROGRESS, JRST DOIO3 ;ASSUME COMCON KNOW'S WHAT IT'S DOING MOVE T2,T1 ;COPY RELATIVE STARTING ADDRESS ADD T2,P3 ;MAKE RELATIVE ENDING ADDRESS FOR ZRNGE PUSH P,T1 ;ZRNGE CLOBBERS T1 SKIPE .USWLP ;IF ANY WRITE LOCKED PAGES, PUSHJ P,ZRNGE## ;MAKE SURE THEY ARE ALL WRITE ENABLED JFCL ;ALLOW FOR SKIP RETURN IFN FTXMON,< HRRZ T1,DEVISN(F) ;GET STARTING SECTION AGAIN SKIPN T1 ;IF FROM S0, TLNN T2,-1 ;AND CROSSED A SECTION BOUNDARY TRNA ;(NSZ OR SINGLE-SECTION IS OK) S0JRST ADRERR## ;COMPLAIN ABOUT I/O TO THE ACS > ;END IFN FTXMON POP P,T1 ;RESTORE T1 DOIO3: AOS PFDBAS(P4) ;POINT TO FIRST WORD BEYOND THIS TRANSFER HRLO P3,P3 ;NUMBER OF WORDS TO DO EQV T1,P3 ;MAKE AN IOWD OUT OF IT HRRI T1,-1(T1) ;IOWD POINTS AT ADDR-1 SETZ T2, ;IOWD TERMINATOR DMOVEM T1,.JDAT+JOBUAL## ;STASH FOR FILIO LDB T1,PJOBN## ;GET JOB NUMBER FOR THIS DEVICE CAME T1,.CPJOB## ;MAKE SURE IT BELONGS TO US STOPCD .,JOB,PFHJOB, ;++ WRONG JOB OWNS DEVICE IFN FTXMON,< SETZ T1, ;JOBUAL IS IN S0 PUSHJ P,STPCS## ;MAKE SURE DRIVER KNOWS THAT > MOVE T1,PFDISP(P4) ;GET DISPATCH ADDRESS MOVEI M,JOBUAL## ;POINT TO IOWD S0PSHJ 0(T1) ;AND DISPATCH. MOVE J,.CPJOB## ;GET BACK JOB NUMBER (TRASHED BY IO ROUTINES) MOVE R,JBTADR##(J) ;DITTO PUSHJ P,WAIT1## ;LET THINGS QUIET DOWN POP P,P3 ;RESTORE TRASHED P REGISTER, FIXUP STACK TRNE S,IOBKTL+IODTER+IODERR+IOIMPM+IODEND ;ANY ERRORS? POPJ P, ;UH OH, AN ERROR, RETURN NON-SKIP RETSKP ;DONE, EVERYTHING HUNKY DORY ;PFHIOX - Cause an ill addr in uuo ;Call ; P1/ Address which we believe will cause an ill mem ref ;Return ; you can't. PFHIOX: MOVE M,P1 ;ADDRESS WHICH FAILS PJRST UADERR## ;GIVE THE USER THE BAD NEWS SUBTTL MIGRATION ;Routine to handle bad page migration. Called at clock level. PFHMIG::PUSHJ P,SVEUB## SKIPN .USVRT ;VIRTUAL? JRST CPOPJ1## ;NO, CAN'T HAVE ANY BAD PAGES THEN SE1ENT PUSHJ P,SAVE4## ;SAVE SOME ACS PUSHJ P,SAVT## MOVE R,JBTADR##(J) ;LOAD R FOR UPAGE. SETZB M,.USSPT ;START WITH SECTION 0 PFHMI0: PUSHJ P,NXTNWS## ;GET A NON-WORKING SET PAGE CAIA ;(FIRST TIME AROUND) PFHMI1: PUSHJ P,NXTNW3## ;GET NEXT NON-WORKING SET PAGE JUMPE T4,PFHMI6 ;DONE THIS SECTION PUSHJ P,TSTUN## ;ON BAD UNIT? CAIA ;YES, NEED TO DO SOMETHING JRST PFHMI1 ;NOT ON BAD UNIT, LOOK AGAIN TLOE M,2 ;SET WE NEED TO DO SOMETHING JRST PFHM5A ;DON'T DO THIS STUFF AGAIN PUSH P,T1 ;SAVE ACS USED BY SIMCHK PUSH P,T2 PUSHJ P,SIMCHK## ;CAN JOB BE STOPPED NOW (OK TO DIDDLE WS)? JRST PFHMI5 ;OK TO STOP JOB ADJSP P,-2 ;FIX STACK TLO J,400000 ;SET SIGN BIT JRST CPOPJ1## PFHMI5: SETOB P2,P3 ;ACS FOR OUTPAG MOVEI P4,-1(P) ;BLOCK FOR SAVING WORKING SET INFO ADJSP P,5-2 ;T1-T3,M,.USSPT PUSHJ P,EXCHT1 ;SAVE THE INFO PUSHJ P,GETPLM ;PSI VECTOR PUSH P,T1 PUSH P,T2 ;SAVE START, END PUSHJ P,GETJLM ;JOBINT VECTOR PUSH P,T1 PUSH P,T2 HRRZ T1,.USPFH ;USER PFH, IF ANY PUSH P,T1 HLRZ T1,.USPFH PUSH P,T1 MOVE T1,JBTIMI##(J) ;SAVE JBTIMI NOW PUSH P,T1 SETZB M,.USSPT ;JUNK STORED BY EXCHT PUSHJ P,NXTWSB## ;START LOOKING FOR LEGIT PAGE-OUT PAGES CAIA ;(ALREADY EXCH'D) PFHM5A: PUSHJ P,EXCHT ;SAVE NWS INFO, GET WS INFO PFHMI2: PUSHJ P,NXTWS3## ;GET NEXT WORKING SET PAGE ;(SKIP REAL PAGE 0 ONLY) PFHMI3: TRNE M,<-1^!HLGPNO> ;USER PAGE? JRST PFHMI4 ;NO MOVE P1,.USSPT ;SECTION LSH P1,S2PLSH ;PAGE IORI P1,(M) CAML P1,-6(P) ;IN THE PSI VECTOR? CAMLE P1,-5(P) CAIA ;NO JRST PFHMI2 CAML P1,-4(P) CAMLE P1,-3(P) ;OR THE JOBINT VECTOR? SKIPA T4,(T4) ;GET PAGE MAP ENTRY FOR NEXT TEST JRST PFHMI2 CAML P1,-2(P) ;FINALLY A USER PFH CAMLE P1,-1(P) TLNN T4,(PM.COR) ;IS PAGE IN CORE (OR DID WE SET TO PAGE THIS IN) JRST PFHMI2 TLO M,1 ADJSP P,3 DMOVEM T1,-2(P) MOVEM T3,(P) PUSHJ P,OUTPAG DMOVE T1,-2(P) MOVE T3,(P) ;AND T3 PUSHJ P,EXCHT ;NWS ACS PUSHJ P,BTCOM## ;SET BIT DMOVEM T1,-2(P) ;SAVE T1, T2 MOVEM T3,(P) ;AND T3 MOVE T1,.USSPT LSH T1,S2PLSH IORI T1,(M) ;PAGE # PUSHJ P,INCHJ## POP P,T3 POP P,T2 POP P,T1 JRST PFHMI1 ;LOOP FOR ANOTHER NWS PAGE PFHMI4: SKIPL .USBTS ;AN EXTENDED USER? JRST PFHMI8 ;NO, CAN'T DO ANYTHING FOR HIM PFHM4A: AOS T4,.USSPT ;INCREMENT SECTION CAILE T4,MXSECN ;OVER THE TOP? JRST PFHMI8 ;YES, CAN'T DO ANYTHING THEN SKIPE T1,.UPMP+SECTAB(T4) ;SECTION EXISTS? TLNE T1,(B2) ;INDIRECT? JRST PFHM4A ;NO PUSHJ P,NXTWSB## ;GET NEXT WORKING SET BIT JRST PFHMI3 ;AND LOOK AT IT PFHMI6: SKIPL .USBTS ;EXTENDED USER? JRST PFHMI7 ;NO, DONE PFHM6A: AOS T4,.USSPT ;INCREMENT SECTION CAILE T4,MXSECN ;BELOW MAX? JRST PFHMI7 ;NO SKIPE T1,.UPMP+SECTAB(T4) ;EXIST? TLNE T1,(B2) ;INDIRECT? JRST PFHM6A JRST PFHMI0 PFHMI7: TLNN M,2 ;WANT TO DO ANYTHING JRST CPOPJ1## ;NO, NOTHING TO DO PUSHJ P,EXCHT ;GET THE WS ACS BACK PFHMI8: TLNE M,1 ;DO ANYTHING INTERESTING? JRST PFHMI9 ;YES PUSHJ P,EXCHT ;GET NWS ACS TLNN M,2 ;WANT TO DO ANYTHING INTERESTING JRST CPOPJ1## ;NOTHING TO DO PUSHJ P,BTCOM## ;SET BIT AOS (P) ;INCREMENT SAVED IMGIN .CREF IMGIN MOVE T1,.USSPT LSH T1,S2PLSH IORI T1,(M) ;PAGE # PUSHJ P,INCHJ## JRST PFHM10 PFHMI9: SETO P1, PUSHJ P,OUTPAG ;FLUSH PAGES PFHM10: LDB T1,IMGIN## ;SIZE-PAGES PAGED OUT DPB T1,IMGOUT## POP P,JBTIMI##(J) ;(# OF MAPS HASN'T CHANGED) .CREF IMGIN ADJSP P,-<5+6> ;FIX STACK POPJ P, ;Subroutine to save relevant working set information. EXCHT: EXCH T1,(P4) EXCH T2,1(P4) EXCHT1: EXCH T3,2(P4) EXCH M,3(P4) PUSH P,.USSPT PUSH P,4(P4) POP P,.USSPT POP P,4(P4) POPJ P, END