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commod.mac
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TITLE COMMOD - COMMON DATA LOCATIONS USED BY LEVEL D DISK SERVICE(FILSER) - V536
SUBTTL T. HASTINGS/TW/CMF/DAL/JBS/EVS/TW 15 JUL 80
SEARCH F,S
$RELOC
;THIS SOFTWARE IS FURNISHED UNDER A LICENSE AND MAY ONLY BE USED
; OR COPIED IN ACCORDANCE WITH THE TERMS OF SUCH LICENSE.
;
;COPYRIGHT (C) 1973,1974,1975,1976,1977,1978,1979,1980 BY DIGITAL EQUIPMENT CORP., MAYNARD, MASS.
XP VCOMMD,536
ENTRY COMMOD
COMMOD: ;CAUSE COMMOD TO LOAD IF IN LIBRARY FILE
;ALL DATA LOCATIONS USED BY FILSER ARE HERE INSTEAD OF COMMON IN ANTICIPATION
; OF MULTI PROCESSING SYSTEMS WHICH SHARE DISKS AND ONE MEMORY BANK(DISK BUFFERS+DATA)
; NO DATA LOCATIONS SHOULD BE PUT INTO COMMON FOR LEVEL D
REPEAT 0,<
ASSEMBLY INSTRUCTIONS:
.R MACRO
*COMMOD,COMMOD/C=HDWCNF,COMMOD
>
SUBTTL TABLE OF CONTENTS
; TABLE OF CONTENTS FOR COMMOD
;
;
; SECTION PAGE
; 1. TABLE OF CONTENTS......................................... 3
; 2. CONVERT MONGEN SYMBOLS.................................... 3
; 3. DEFAULT SYMBOLS........................................... 6
; 4. GENERAL COMMENTS.......................................... 9
; 5. LIMITS OF VARIOUS FIELD WIDTHS IN FILE STRUCTURES......... 16
; 6. DATA STRUCTURE DESCRIPTION................................ 17
; 7. BLK - PARAMETERS WHICH APPEAR IN MORE THAN ONE DISK BLOCK. 19
; 8. COR - PARAMETERS WHICH APPEAR IN MORE THAN ONE CORE BLOCK. 20
; 9. ACC: ACCESS DATA BLOCKS ENTRY.......................... 22
; 10. BAF: BAD ALLOCATION FILE....................... 28
; 11. CHN: CHANNEL DATA BLOCK................................ 31
; 12. DEV: DEVICE DATA BLOCK (ONE FOR EACH ACTIVE SOFTWARE USER CHANNEL) 36
; 13. HOM: WORD POSITIONS IN HOME FILE DATA BLOCK............ 45
; 14. MONITOR JOB TABLES - ONE ENTRY PER JOB.................... 50
; 15. KONTROLLER DATA BLOCKS.................................... 53
; 16. LBN - LOGICAL DISK BLOCK NUMBERS WITHIN UNIT(NOT STR) ASSIGNED AS ASSEMBLY TIME 63
; 17. "MBF" - MONITOR BUFFER.................................... 64
; 18. MFD WORD POSITIONS IN MASTER FILE DIRECTORY........... 65
; 19. NMB FILE NAME DATA BLOCK.................................. 66
; 20. ONCE ONLY DESTROY OPTION DATA BASE........................ 68
; 21. PPB - PROJECT PROGRAMMER NUMBER DATA BLOCK................ 76
; 22. RIB WORD POSITIONS FOR RETRIEVAL INFORMATION BLOCK.... 78
; 23. SAT BLOCKS................................................ 84
; 24. STR: FILE STRUCTURE DATA BLOCK......................... 89
; 25. "SYS" - SYSTEM WIDE QUANTITIES............................ 92
; 26. UFB: USER FILE DIRECTORY BLOCK......................... 100
; 27. UNI: UNIT DATA BLOCK................................... 103
SUBTTL CONVERT MONGEN SYMBOLS
REPEAT 0,<
;THIS SECTION CONVERTS NEW MONGEN SYMBOLS TO OLD MONGEN SYMBOLS
;SO THAT THE REST OF COMMON AND MONITOR CAN STILL USE THE OLD
;SYMBOLS. THIS WAS DONE RATHER THAN CONVERTING ALL OF THE
;MONITOR TO NEW SYMBOLS FOR TWO REASONS:
; 1. IT IS EASIER AND FASTER AND LESS LIKELY TO INTRODUCE BUGS, AND
; 2. IT ALLOWS CUSTOMERS TO USE OLD MONGEN WITH A MINIMUM
;OF TROUBLE: ONLY A FEW EXTRA SYMBOLS MUST BE DEFINED.
;THE MONITOR WILL PROBABLY BE CONVERTED TO THE NEW MONGEN SYMBOLS
;AFTER THE 5.04 RELEASE. THE ORDER HERE PARALLELS THE OLD
;MONGEN ORDER.
>
IFDEF M.C0SN,<
XP SYS40N,0 ;NEW MONGEN MAKES SWAPPING SYSTEMS ONLY
XP SYS50N,1
XP DSKN,1
XP LOGINN,1
XP APRSN,M.C0SN ;APR SERIAL NUMBER (REALLY PROCESSOR 0)
XP APR0SN,M.C0SN ;PROCESSOR 0 SERIAL NUMBER
XP APR1SN,M.C1SN ;PROCESSOR 1 SERIAL NUMBER
XP CPUN,M.CPU ;NUMBER OF PROCESSORS
XP LEVDN,1 ;NEW MONGEN MAKES ONLY LEVEL D DIAL SERVICE
XP LEVCN,0
XP CHNN,M.CHN ;NUMBER OF DATA CHANNELS FOR DISKS
DEFINE CALLH(CHN),<
XP C'CHN'RHN,M.'CHN'RH
>
DEFINE CHMRH(CHN),<
CALLH (\CHN)
> ;END MACRO DEFINITION
DEFINE CALLF(CHN),<
XP C'CHN'FHN,M.'CHN'FH
>
DEFINE CHMFH(CHN),<
CALLF (\CHN)
> ;END MACRO DEFINITION
DEFINE CALLS(CHN),<
XP C'CHN'FSN,M.'CHN'FS
>
DEFINE CHMFS(CHN),<
CALLS (\CHN)
> ;END MACRO DEFINITION
DEFINE CALLR(CHN),<
XP C'CHN'RPN,M.'CHN'RP
>
DEFINE CHMRP(CHN),<
CALLR(\CHN)
>
IFN FTEDSK,<
DEFINE CALLN(CHN),<
XP C'CHN'RNN,M.'CHN'RN
>
DEFINE CHMRN(CHN),<
CALLN (\CHN)
>
>
DEFINE CALLD(CHN),<
XP C'CHN'DPN,M.'CHN'DP
>
DEFINE CHMDP(CHN),<
CALLD (\CHN)
> ;END MACRO DEFINITION
DEFINE CALLM(CHN),<
XP C'CHN'MDN,0
>
DEFINE CHMMF(CHN),<
CALLM (\CHN)
>
ZZ==0
ZZF==0
ZZS==0
ZZD==0
ZZR==0
ZZH==0
IFN FTEDSK,<
ZZN==0
>
REPEAT CHNN,<
CHMFH (ZZ)
CHMFS (ZZ)
CHMRP (ZZ)
CHMDP (ZZ)
CHMMF (ZZ)
CHMRH (ZZ)
IFN FTEDSK,<
CHMRN (ZZ)
>
ZZ==ZZ+1
>
DEFINE UNRH(KON,LIST),<
ZZCNT==0
IRP LIST,<
IFE ZZCNT-KON,<
XP RH'LIST'UN,M.RH'LIST
>;END IFE
ZZCNT==ZZCNT+1
> ;END IRP
> ;END MACRO DEFINITION
REPEAT M.R11D,<
UNRH (ZZH,<A,B,C,D,E,F,G,H,I,J,K,L,M,N,O,P>)
ZZH==ZZH+1
>
DEFINE UNFH(KON,LIST),<
ZZCNT==0
IRP LIST,<
IFE ZZCNT-KON,<
XP FH'LIST'UN,M.FH'LIST
> ;END IFE
ZZCNT==ZZCNT+1
> ;END IRP
> ;END MACRO DEFINITION
REPEAT M.RC10,<
UNFH (ZZF,<A,B,C,D,E,F,G,H,I,J,K,L,M,N,O,P>)
ZZF==ZZF+1
>
DEFINE UNFS(KON,LIST),<
ZZCNT==0
IRP LIST,<
IFE ZZCNT-KON,<
XP FS'LIST'UN,M.FS'LIST
>;END IFE
ZZCNT==ZZCNT+1
> ;END IRP
> ;END MACRO DEFINITION
REPEAT M.RH1S,<
UNFS (ZZS,<A,B,C,D,E,F,G,H,I,J,K,L,M,N,O,P>)
ZZS==ZZS+1
>
DEFINE UNRP(KON,LIST),<
ZZCNT==0
IRP LIST,<
IFE ZZCNT-KON,<
XP RP'LIST'UN,M.RP'LIST
> ;END IFE
ZZCNT==ZZCNT+1
> ;END IRP
> ;END MACRO DEFINITION
REPEAT M.RHP4,<
UNRP (ZZR,<A,B,C,D,E,F,G,H,I,J,K,L,M,N,O,P>)
ZZR==ZZR+1
>
IFN FTEDSK,<
DEFINE UNRN(KON,LIST),<
ZZCNT==0
IRP LIST,<
IFE ZZCNT-KON,<
XP RN'LIST'UN,M.RN'LIST
> ;END IFE
ZZCNT==ZZCNT+1
> ;END IRP
> ;END MACRO DEFINITION
REPEAT M.RP20,<
UNRN (ZZN,<A,B,C,D,E,F,G,H,I,J,K,L,M,N,O,P>)
ZZN==ZZN+1
>
>
DEFINE UNDP(KON,LIST),<
ZZCNT==0
IRP LIST,<
IFE ZZCNT-KON,<
XP DP'LIST'UN,M.DP'LIST
> ;END IFE
ZZCNT==ZZCNT+1
> ;END IRP
> ;END MACRO DEFINITION
REPEAT M.RP10,<
UNDP (ZZD,<A,B,C,D,E,F,G,H,I,J,K,L,M,N,O,P>)
ZZD==ZZD+1
>
XP RD10N,M.RC10
XP RP10N,M.RP10
XP RA10N,0 ;NO MOF
XP JOBN,M.JOB+1
XP PDP10N,M.KI10!M.KL10!M.KS10
XP KT10AN,MD.2RR
XP SEGN,MD.SEG
XP DDTN,MD.DDT
XP EDITN,0
XP PTRN,M.PTR
XP PTPN,M.PTP
XP PLTN,M.PLT
XP LPTN,M.LPT
XP MOVIEN,MD.MOV
XP CDRN,M.CDR
XP CR10N,MD.C10
XP CDPN,M.CDP
XP DISN,M.DIS
XP PENN,M.DIS
XP T340N,M.340
XP TVP10N,M.VP10
XP T30N,0 ;NO TYPE 30
DEFINE TDMAC(X),<
XP DT'X'N,M.DT'X
>
ZZ=="A"
REPEAT M.TD10,<
TDMAC(\"ZZ)
ZZ==ZZ+1
>
XP PTYN,M.PTY
XP LOKN,M.LOK
XP CMNN,M.MGC
XP RTTRPN,M.RTD
XP HPQN,M.HPQ
> ;END IFDEF
SUBTTL DEFAULT SYMBOLS
;SYMBOLS WHICH MAY BE CHANGED AT MONGEN TIME IF A USER DOES NOT LIKE STANDARD
; DEFINITIONS. HOWEVER MOST CUSTOMERS WILL BE HAPPY WITH THE STANDARD VALUES
; SO DO NOT BOTHER TO ASK HIM EXPLICIT MONGEN QUESTION.
INTERN STRMAX,CCWMAX,SWPMAX,DSKTRY,PRVFIL,PRVUFD,CHVIFP,CHVIFT,PTRLEN
INTERN UNVRSF,FIL4WD,INDPPN
IFE FTSTR,<XP STRMAX,1> ;IF NO FILE STRUCTURE LOGIC, ALLOW ONLY ONE
IFNDEF STRMAX,<XP STRMAX,^D14> ;MAX NO, OF FILE STRUCTURES ON SYSTEM AT ONE TIME
; CANNOT EXCEED 14(DEC) - ALLOW USER TO SPECIFY LESS TO
; SAVE ONE WORD IN STRTAB TABLE FOR EACH STR.
IFNDEF CCWMAX,<XP CCWMAX,^D20> ;MAX. NO OF DATA CHANNEL COMMAND WORDS. CUSTOMER MAY
; CHANGE TO BIGGER OR SMALLER VALUE TO INCREASE THRUPUT
; OR DECREASE SPACE. EACH CHANNEL HAS THESE MANY WORDS.
XP CCWMAX,1IFE FT2SWP,<XP SWPMAX,1> ;IF ONLY ONE UNIT FOR SWAPPING
IFNDEF SWPMAX,<XP SWPMAX,^D8> ;MAX. NO OF UNITS FOR SWAPPING. - ALLOW CUSTOMER TO
; MAKE BIGGER OR SMALLER.
IFNDEF SWCLSN,<XP SWCLSN,^D7> ;HIGHEST CLASS # FOR SWAPPING
IFG SWCLSN-^D7,<XP SWCLSN,^D7> ;DONT ALLOW USER TO SPECIFY GREATER THAN 7
IFNDEF DSKTRY,<XP DSKTRY,^D10> ;NO. OF ERROR TRYS ON DISK DATA ERRORS
; FOR ALL FILE STRUCTURES BEFORE RECALIBRATING
IFNDEF SERTRY,<XP SERTRY,^D3> ;NO. OF TIMES TO TRY ON SEARCH ERRORS
; BEFORE RECALIBRATING
IFNDEF RCLTRY,<XP RCLTRY,^D10> ;NO. OF TIMES TO TRY 'DSKTRY' DATA ERRORS
; OR 'SERTRY' S ERRORS
; WITH RECALIBRATING IN BETWEEN.
; I.E. NO. OF RECALIBRATIONS+1.
; TOTAL NO. TIMES = RCLTRY*DSKTRY.
IFNDEF PRVFIL,<PRVFIL==057> ;STANDARD FILE PRIVILEGE
;OWNER=EVERYTHING,PROJ=READ,REST=NO ACCESS
IFNDEF PRVUFD,<PRVUFD==775> ;STANDARD UFD PRIVILEGE
;OWNER=ALL,PROJ=ALL,REST=READ+LOOKUPS
IFNDEF CHVIFP,<CHVIFP==^D10> ;STANDARD INITIAL FAIRNESS COUNT FOR POSITIONING
; CUSTOMER CAN ALSO CHANGE DEF. FOR A PARTICULAR
; DATA - CH'N'IFP
IFNDEF CHVIFT,<CHVIFT==^D10> ;STANDARD INITIAL FAIRNESS COUNT FOR TRANSFERRING
; CUSTOMER CAN ALSO CHANGE DEFINITION
; FOR A PARTICULAR DATA CHANNEL - CH'N'IFT
IFNDEF PTRLEN,<PTRLEN==^D7> ;NO. OF IN CORE RETRIEVAL POINTERS PER FILE
; LENGTH AFFECTS SIZE OF DEVICE DATA BLOCK
IFNDEF FIL4WD,<FIL4WD==^D9> ;NO. OF 8 WORD CORE BLOCKS PER JOB
; FOR FILSER NMB,PPB,UFB,ACC CORE
; BLOCKS(INCLUDING DORMANT ONES)
IFNDEF UNVRSF,<UNVRSF==^D500> ;RECIPROCAL SAFETY FACTOR FOR EACH UNIT
; IE NO. BLKS ON UNIT/UNVRSF
; IS SUBTRACTED FROM NO OF FREE BLOCKS
; SEE STRTAL,UNITAL
;OTHER SYMBOLS WHICH THE CUSTOMER CAN CHANGE USING MONGEN INCLUDE:
;LBNHOM= DEFAULT LOG BLOCK WITHIN UNIT FOR 1ST HOME BLOCK
;LB2HOM= DEFAULT LOG BLOCK WITHIN UNIT FOR 2ND HOME BLOCK
;MFDSIZ= NO. OF CONTIGUOUS BLOCKS TO ASSIGN TO MFD SO USUALLY NEED
; ONLY ONE RETRIEVAL POINTER
;LOCATION OF HOME BLOCKS ON A PARTICULAR UNIT:
; EG. FHA0HM,DPA3H2
IFNDEF SYRDPR,<XP SYRDPR,355000> ;NON-PRIVILEGED FILES IN SYS
; HOME.SYS,SAT.SYS
IFNDEF SYNRPR,<XP SYNRPR,357000> ;PRIVILEGED FILES IN SYS
; CRASH.SAV, SNAP.SYS,RECOV.SYS,BADBLK.SYS,SWAP.SYS
IFNDEF MFDPRV,<XP MFDPRV,555000> ;MFD PRIVILEGES(ALL CAN READ,LOOKUP)
; BUT NOT CREATE
IFNDEF SYSPRV,<XP SYSPRV,775000> ;SYS UFD PRIVILEGES(PROJ 1 READ,CREATE
;LOOKUP, OTHERS READ
; LOOKUP ONLY
IFNDEF PRVSPL,<PRVSPL==077> ;PROTECTION FOR SPOOLED OUTPUT
IFNDEF PRVSYS,<PRVSYS==155> ;PROTECTION FOR MOST SYS:
IFNDEF PRYSYS,<PRYSYS==157> ;PROTECTION FOR SYS:.SYS
;FBOOTB==4 ;FIRST LOGICAL BLOCK FOR BOOTS
IFE FTSFD,<LIMLVL=0>
IFNDEF LIMLVL,<LIMLVL==5> ;MAX NUMBER OF NESTED SFD'S FOR THIS MONITOR
IFNDEF MAXUSI,<MAXUSI==^D8> ;MAXIMUM NEGATIVE USETI
; FOR READING EXTENDED RIBS
IFE FTKS10,<
IFNDEF BLKMAX,<BLKMAX==^D100000> ;MAX NUMBER OF BLOCKS TO TRANSFER
; WITH 1 IOWD (SO WONT LOCK OUT
; HIGH PRIORITY JOBS TOO LONG)
>;END IFE FTKS10
IFN FTKS10,<
IFNDEF BLKMAX,<BLKMAX==^D252> ;MAX NUMBER OF BLOCKS TO TRANSFER
;AT ONE TIME (UNIBUS ADAPTER MAPPING LIMIT)
>;END IFN FTKS10
IFG KT10AN,<SEGN==SEGN+JOBN> ;NO. OF SEGMENTS=NO. OF JOBS+EXTRA SEGMENTS
IFNDEF INDPPN,<INDPPN==0> ;0 MEANS PROJ-PROG ARE DEPENDENT ACCROSS PROJECTS
; (IE OWNER IS DETERMINED BY PROGRAMMER FIELD ONLY)
;777777 MEANS PROJ-PROG NOS ARE INDEPENDENT
; (IE OWNER IS DETERMINED BY PROJECT AND PROGRAMMER
; NUMBER FIELDS) - EACH ONE BIT IN INDPPN CAUSES
; THAT BIT TO BE COMPARED IN PROJECT FIELD FOR
; TEST OF OWNER
IFNDEF M.QSTR,<M.QSTR==0> ;DEFAULT QUESTR
IFNDEF MBFN,<
MBFN==<JOBN/^D10>+1
>;END IFNDEF
IFN FTDUFC,<
IFLE MBFN-1,<
MBFN==2
>;END IFLE
>;END IFN
SUBTTL GENERAL COMMENTS
REPEAT 0,<
STEPS TO WRITE NEW SOFTWARE FOR A NEW KONTROLLER TYPE
1. DECIDE ON A 2 LETTER MNEMONIC (FH,MD,DP,FS,RP,RN ARE TAKEN, DR RESERVED FOR DRUM)
2. WRITE KONTROLLER DEPENDENT ROUTINE (EG XX'XKON)
3. ADD A KONTROLLER DEPENDENT MACRO XX'KON IN COMMOD
4. ADD ANOTHER REPEAT LOOP IN CHANNEL MACRO (CHNCB) TO CALL KONTCB MACRO IN COMMOD
5. ADD MNEMONIC DEFINITION FOR TOTAL NUMBER OF KONTROLLERS TO COMMON (EG FHDN FOR FH)
>
LOGIC==0 ;MAKE SURE PROGRAM LOGIC FLOW IS NEVER ASSEMBLED
REPEAT LOGIC,<
THE PROGRAM LOGIC FLOW FOR THE LEVEL D DISK SERVICE IS PRODUCED
FROM THE PROGRAM LISTINGS BY USE OF A TECO MACRO. ALL TEXT INSIDE
REPEAT LOGIC,< AND > IS COPIED INTO THE MANUAL. PUTTING THE PROGRAM
LOGIC FLOW INTO THE LISTING MAKES IT EASIER TO KEEP THE LOGIC FLOW
UP TO DATE WITH THE ACTUAL CODE.
THE PROGRAM LOGIC FLOW IS WRITTEN IN A CLOSE TO ENGLISH MANNER
FOLLOWING SYNTACTIC RULES OF THE MAD (MICHIGAN ALGORITHMIC DECODER)
LANGUAGE. A MINIMUM OF ACTUAL PROGRAM SYMBOLS ARE USED IN THE STATEMENTS.
HOWEVER THE SYMBOLIC TAGS DO CORRESPOND TO THE ONES USED IN THE PROGRAM
FOR EASE OF RELATING A PIECE OF THE FLOW TO THE CODE. ENGLISH HAS BEEN
USED FOR A NUMBER OF REASONS. FIRST, THE ENGLISH FLOW WAS PRODUCED
BEFORE THE CODE WAS WRITTEN. IN THIS WAY THE DESIGN OF THE DECISION
LOGIC WAS DECOMPOSED FROM THE PROBLEM OF CODING, SUCH AS NAMING SYMBOLS,
BITS, AC USAGE AND SUBROUTINE ORGANIZATION. SECONDLY THE READER
INTERESTED IN UNDERSTANDING THE FLOW DOES NOT HAVE TO LEARN THE ENTIRE
FLOW BEFORE UNDERSTANDING A PART OF IT; HE DOES NOT NEED TO LEARN AND
REMEMBER A LOT OF SYMBOLS AND THEIR MEANING. A FEW ABBREVIATIONS HAVE
BEEN USED AND THEY ARE:
STR FILE STRUCTURE - A LOGICALLY COMPLETE, SELF CONTAINED,
AND REMOVABLE PART OF THE DISK SYSTEM. ALL FILE
RETRIEVAL POINTERS STORED IN AN STR REFER TO DISK
ADDRESSES WITHIN THAT STR.
MFD MASTER FILE DIRECTORY - LISTS ALL PROJECT PROGRAMMER
NUMBERS IN A SINGLE FILE STRUCTURE ALONG WITH THE DISK
ADDRESS WITHIN THE FILE STRUCTURE OF THE ASSOCIATED UFD.
UFD USER FILE DIRECTORY - LISTS ALL FILES BELONGING TO A
USER (IDENTIFIED BY A PROJECT-PROGRAMMER NUMBER PAIR)
IN A SINGLE FILE STRUCTURE ALONG WITH THE DISK ADDRESS
THE FILE STRUCTURE OF THE ASSOCIATED FILE.
RIB RETRIEVAL INFORMATION BLOCK - ALL FILES (INCLUDING THE
MFD AND UFD) HAVE A 128 WORD DISK BLOCK (RELATIVE BLOCK 0
OF THE FILE) WHICH CONTAINS ATTRIBUTES OF THE FILE
ALONG WITH POINTERS TO THE CONTIGUOUS GROUPS OF 128
WORD DATA BLOCKS OF THE FILE. THE MFD AND UFD REALLY
POINT TO THE RIB WHICH IN TURN POINTS TO ALL PARTS OF
THE FILE.
>
; THERE IS A POTENTIAL CONFUSION BETWEEN 3 KINDS OF DISK POINTERS:
; A. COMPRESSED UFD POINTERS (CUP) - FOUND ONLY IN DIRECTORIES,
; POINT TO UNIT AND FIRST CLUSTER.
; B. CLUSTER POINTERS - FOUND MOST EVERYWHERE - POINT TO CLUSTERS.
; C. BLOCK POINTERS - SELDOM FOUND IN CORE OR ON DISK.
; EXEPTIONS: RIBUFD, RIBSLF,UNIBLK, HOMSLF, SAFSLF
;USE OF PREFIXES IN DEFINING SYMBOLS
;THERE ARE A NUMBER OF DATA AREAS IN CORE OR ON THE DISK WHICH HAVE
;SYMBOLS WHICH DEFINE EACH POSITION IN THE AREA. TO MAKE IT
;CLEAR WHICH AREA A SYMBOL IS FROM, EACH SYMBOL HAS A THREE LETTER,
;PRONOUNCEABLE PREFIX. THIS PREFIX IS DIFFERENT WHEN AREA IS IN CORE
;FROM WHEN THE SAME DATA IS ON THE DISK. THE FOLLOWING TABLE DEFINES
;THE PREFIXES:
REPEAT LOGIC,<
DATA AREA DISK CORE FILE NAME(IF ANY)
HOME FILE DATA BLOCK HOM
MASTER FILE DIRECTORY MFD 1-1.UFD
USER FILE DIRECTORY UFD UDB #-#.UFD
STORAGE ALLOCATION FILE SAF SAB SAT.SYS
STORAGE ALLOCATION POINTERS SAP
BAD ALLOCATION FILE BAF BAT BAT.SYS
RETRIEVAL INFO BLOCK RIB
(1 PER GROUP OF BLOCKS)
DSKCHR UUO CHR
LOOKUP/SEARCH/ENTER/RENAME ENT
FILE STRUCTURE DATA BLOCK STR
CHANNEL DATA BLOCK CHN
CONTROLLER DATA BLOCK CON
UNIT DATA BLOCK UNI
DEVICE DATA BLOCK(1 PER DEV
OPEN FILE - USER CHANNEL PAIR)
PROJECT-PROGRAMMER NUMBER BLOCK PPB
FILENAME (WITHIN PPN) BLOCK NMB
ACCESS TABLE(1 PER OPEN FILE ACC
OR RECENTLY CLOSED FILE)
>
REPEAT LOGIC,<
CONVENTIONS ABOUT SYMBOL PREFIXES. WITHIN CORE BLOCKS THERE ARE THE
FOLLOWING TYPES OF SYMBOLS:
ACC,NMB 1. RELATIVE WORD ADDRESS
ACY 2. RELATIVE OR ABSOLUTE ADDRESS OF A WORD CONTAINING A BYTE POINTER
ACS 3. SIZES OF A BYTE
ACP 4. BIT WHICH IS IN RIGHT MOST POSITION OF BYTE OR BIT ITSELF.
NOTE: BIT 35 IS DEFINED AS 1, BIT 18 AS 400000,
BIT 17 AS 1, ETC.
ACN 5. BIT NUMBER (0...35) OF RIGHT MOST BIT OF BYTE
(USED TO DEFINE SYMBOLS FOR BYTE POINTERS)
(DO NOT CONFUSE WITH ACP)
ACR 6. BITS IN A BYTE AFTER IT HAS BEEN RIGHT JUSTIFIED IN AN AC.
ACV 7. VALUE OF A CODE (MORE THAN 1 BIT FLAG) RIGHT JUSTIFIED IN AN AC
FOR USE IN LDB AND DPB
ACM 8. MASK FOR BYTE, I.E. ONES IN EVERY BIT POSITION
(BEFORE BYTE IS RIGHT JUSTIFIED)
ACJ 9. -NO. OF PLACES TO RIGHT JUSTIFY BYTE IN AC (ALWAYS NEG.)
THE RELATIVE WORD ADDRESS HAS THE FULL 3 LETTER PREFIX OF THE CORE BLOCK.
MANY PREFIXES END WITH B STANDING FOR BLOCK, (NOT BYTE OR BIT).
THE MNEMONIC FOR BYTE IS Y(ITS SECOND LETTER - SORRY ABOUT THAT), FOR SIZE
IS S, FOR POSITION IS P, AND FOR RIGHT-JUSTIFIED IS R.
>
;THE FOLLOWING TABLE DEFINES SOME SUFFIXES
;(THE SAME 3 LETTERS IS USED IF PREFIX ALREADY EXISTS)
REPEAT 0,<
PARAMETER ADDRESSES
SUFFIX DEFINITION
CHN CHANNEL DATA BLOCK ADDRESS
CON CONTROLLER DATA BLOCK ADDRESS
UNI UNIT DATA BLOCK ADDRESS
CCA CURRENT CONTROLLER ADDRESS
CUA CURENT UNIT DATA BLOCK ADDRESS
CDA CURRENT DEVICE DATA BLOCK (FILE) ADDRESS
TAL TALLY OF FREE BLOCKS
BSY BUSY
PAR CONTROL WORD PAIR
SER SERVICE ROUTINE ADDRESS
CUP COMPRESSED POINTER IN UFD'S
BYT BYTE POINTER
POS RIGHT MOST BIT OF BYTE POINTER BYTE POSITIONS
SIZ SIZE OF BYTE, USED IN BYTE POINTERS
FIL FILE NAME IN SIXBIT
EXT FILE EXTENSION
DTE DATE
PPN PROJECT-PROGRAMMER NUMBER
UFD LOGICAL BLOCK NUMBER OF UFD
MOD DEVICE DATA MODE
MIN CREATION TIME IN MINUTES
PRV ACCESS PRIVILEGES
CRE CREATION DATE
RDN READ COUNT
ENT LOOKUP/SEARCH/ENTER/RENAME
K4S NO. OF K FOR SWAPPING
HGH HIGHEST LOGICAL BLOCK NUMBER
BPU BLOCKS PER UNIT
CYL CYLINDER NUMBER
BLK LOGICAL BLOCK WITHIN LOGICAL UNIT
REL RELATIVE BLOCK NUMBER WITHIN FILE
BPC(BYT) BLOCKS PER CLUSTER
BPY(BYTE) BLOCKS PER SMALLEST CYLINDER
BPT(BYTE) BLOCKS PER TRACK
WPB WORDS PER BLOCK
LUN(BYTE) LOGICAL UNIT NO.(WITHIN FILE STRUCTURE)
PUN(BYTE) PHYSICAL UNIT NO.(WITHIN CONTROLLER)
TYP(BYTE) DEVICE TYPE (DRM,FHD,DPC,MDF)
CNP(BYTE) BLOCK COUNT BYTE. POINTER TO CURRENT RET. PTR.
CKP(BYTE) CHECKSUM BYTE POINTER IN RET. PTR. TO CURRENT RET. PTR.
CLP(BYTE) CLUSTER BYTE POINTER IN RET. PTR. TO CURRENT RET. PTR.
ERR ERROR CODE
ECT ERROR COUNT ON CURRENT TRANSFER
PI PI CHANNEL NUMBER (1 - 7)
IFP INITIAL FAIRNESS SETTING FOR POSITIONING ON UNITS
CFP CURRENT FAIRNESS COUNT FOR POSITIONING ON UNITS
IFT INITIAL FAIRNESS SETTING FOR TRANSFERS ON CHANNEL
CFT CURRENT FAIRNESS COUNT FOR TRANSFERS ON CHANNEL
COD STATE CODE FOR FILES AND UNITS (I,SW,S,PW,P,TW,T)
DIF DIFFERENCE
MIN MINUS
STN FILE STRUCTURE NUMBER
FSN FILE STRUCTURE NUMBER (0-14)
PT1 FIRST RETRIEVAL POINTER
UN1 FIRST LOGICAL NO. WITHIN STR FOR A FILE
OVR -NUMBER OF BLOCKS ALLOWED FOR OVERFLOW
KNO KNOW EXISTENCE OF FILE AS YES OR NO IN AN STR
YES KNOW EXISTENCE OF A FILE AS YES IN AN STR
PRV ACCESS PRIVILEGES
HID HOME BLOCK ID=PACK ID
LBN LOGICAL BLOCK NUMBER WITHIN UNIT
CORE LOCATIONS
IOC I/O CONTROL WORD, CHANNEL JUMP
CCW FINAL CHANNEL CONTROL WORD
CMD CONTAINS FIRST OF MANY CHANNEL COMMAND WORDS
LAS LAST CHANNEL COMMAND WORD, ALWAYS 0
>
REPEAT 0,<
THE FOLLOWING CONTROLLER TYPE SYMBOLS (PREFIXES IN DEVICE DEPENDENT
ROUTINES AND IN CONTROLLER DATA BLOCKS FOR THAT DEVICE)
DRM DRUM CONTROLLERS
FHD FIXED HEAD CONTROLLERS
DPC DISK PACK CONTROLLER
MDF MASS FILE CONTROLLERS
THE FOLLOWING SUFFIXES ARE USED FOR ENTRY POINTS INTO DEVICE DEPENDENT
CONTROLLER ROUTINES
RED READ BLOCKS
WRT WRITE BLOCKS
RDS READ AND STOP IF ERROR
WTS WRITE AND STOP IF ERROR
POS POSITION UNIT
LTM RETURN LATENCY TIME
THE FOLLOWING ARE PREFIXES WHICH RELATE TO THE TYPE OF DATA BUT ARE
NOT IN DATA BLOCKS
TYP TYPE OF DEVICE (DRM,FHD,DPC,MDF)
DSK DISK
FNC FUNCTION CODE ON CALL TO CONTROLLER ROUTINES
>
SUBTTL LIMITS OF VARIOUS FIELD WIDTHS IN FILE STRUCTURES
INTERN LIMCLP,LLMCLP,LIMCNP,LLMCNP,LIMCKP,LLMCKP,MAXLVL,LIMLVL
INTERN LIMFRE,LIMNUS,LIMBLK,LIMLEN,LIMHOM
INTERN LIMWPS,LIMSIC,LIMUFD,LIMQTF,LIMBPC,SWBKPP
INTERN BLKSIZ,MBLKSZ,BLKLSH,MBKLSH,BLKBPK,MBKBPK,LIMK4S
LIMHOM==^D18 ;LIMIT ON HIGHEST LOG. BLOCK # THAT CAN BE A HOME BLOCK
LIMFRE==^D13 ;LIMIT ON NUMBER OF FREE CLUSTERS IN A 128 WORD
; SAT TABLE
LIMNUS==^D6 ;NO. OF UNITS IN A RH FILE STRUCTURE (77)
LIMCLP==^D23 ;UPPERLIMIT ON BYTE SIZE OF CLUSTER ADDRESS IN
; RETRIEVAL POINTER (I.E. LIMIT ON NUMBER OF
; CLUSTERS ON A SINGLE UNIT)
LLMCLP==^D1 ;LOWER LIMIT
LIMCKP==^D34 ;UPPER LIMIT ON BYTE SIZE CHECKSUM
LLMCKP==^D0 ;LOWER LIMIT
LIMCNP==^D18 ;UPPER LIMIT ON BYTE SIZE OF NO. OF CLUSTERS IN A
; RETRIEVAL POINTER (ELSE RUN INTO UNIT CHANGE BIT)
LLMCNP==^D1 ;LOWER LIMIT
LIMBLK==^D36 ;LIMIT ON THE NUMBER OF BLOCKS ON A SINGLE UNIT
LIMLEN==^D36 ;MAX. NO. OF BLOCKS IN A FILE
LIMWPS==^D7 ;MAX. NO. OF WORDS PER SAT BLOCK
;(CANNOT EXCEED CLUSTER SIZE EITHER)
LIMSIC==^D8 ;MAX. NO. OF SAT BUFFERS IN CORE
LIMUFD==^D9 ;MAX. NO. OF BLOCKS IN MFD OR UFD
LIMQTF==^D27 ;MAX. NO. OF FIRST COME FIRST SERVE DISK BLOCKS IN LOGGED IN
; QUOTA FOR A USER ON A FILE STRUCTURE.
LIMBPC==^D9
MAXLVL==:5 ;ABSOLUTE MAX NUMBER OF NESTED SFD'S
BLKSIZ==^D128 ;NO. OF WORDS IN A DISK BLOCK (MUST BE POWER OF 2)
MBLKSZ==-BLKSIZ ;MINUS NO. OF WORDS IN A DISK BLOCK
BLKLSH==^D7 ;NO. OF PLACES TO SHIFT LEFT TO CONVERT FROM
; BLOCKS TO WORDS
MBKLSH=-BLKLSH ;MINUS NO OF PLACES TO SHIFT LEFT (IE RIGHT) TO
; CONVERT FROM WORDS TO BLOCKS
BLKBPK==^D1024/BLKSIZ ;NO. OF BLOCKS PER K WORDS
MBKBPK==-BLKBPK ;MINUS NO OF BLOCKS PER K WORDS.
SWBKPP==4 ;4 BLOCKS PER PAGE
LIMK4S==^D13 ;MAX NO OF PAGES FOR SWAPPING ON UNIT
SUBTTL DATA STRUCTURE DESCRIPTION
;THE FOLLOWING CORE DATA BLOCKS ARE LINKED TOGETHER TO DESCRIBE
;AN ARBITRARY CONFIGURATION OF FILE STRUCTURES ON AN ARBITRARY
;CONFIGURATION OF CHANNELS, KONTROLLERS, POSITIONERS, AND UNITS:
;EACH SYSTEM HAS:
;SYS: DATA LOCATIONS AND BYTE POINTERS PER SYSTEM
;STR: 1 OR MORE FILE STRUCTURES PER SYSTEM
;CHN: 1 OR MORE CHANNELS (CAN BE SHARED BY MORE THAN 1 FILE STRUCTURE)
;CON: 1 OR MORE KONTROLLERS (DIFFERENT TYPES ON SAME CHANNEL, BUT SAME
; TYPES IN A GIVEN FILE STRUCTURE) PER CHANNEL
;UNI: 1 OR MORE UNITS PER KONTROLLER
;DEV: 1 OR MORE QUEUED POSITION REQUESTS PER UNIT
; 1 OR MORE QUEUED TRANSFER REQUESTS PER CHANNEL
;PPB: 1 OR MORE ACTIVE OR DORMANT PROJ-PROG NOS BLOCKS PER SYSTEM
;UFB: 1 OR MORE ACTIVE OR DORMANT UFD BLOCKS (1 FOR EACH STR) PER PROJ-PROG NO.
;NMB: 1 OR MORE ACTIVE OR DORMANT FILE NAME BLOCK (INDEPENDENT OF STR)
; PER PROJ-PROG NO.
;ACC: 1 OR MORE ACTIVE OR DORMANT ACCESS BLOCK (1 FOR EACH VERSION OF A FILE)
; PER FILEMANE/PROJ-PROG NO. PAIR
;THE FOLLOWING RESTRICTIONS APPLY:
; 1) FILE STRUCTURE MUST BE COMPOSED OF SAME SIZE AND TYPE DEVICES
; EXCEPTIONS - RD10 (BURROUGHS FHD) AND RM10B (BRYANT DRUM) MAY
; BE IN SAME FILE STRUCTURE SINCE ON SAME CONTROLLER; ALSO RP01
; AND RP02 (MEMOREX DISK PACK)
; 2) FILE STRUCTURE MAY BE COMPOSED OF ONE OR MORE CONTROLLERS
; (OF THE SAME TYPE.)
; 3) EACH UNIT CAN BE A MEMBER OF ONE AND ONLY ONE FILE STRUCTURE
; 4) MORE THAN ONE CONTROLLER IN THE SAME OR DIFFERENT FILE STRUCTURE
; ON THE SAME CHANNEL (SOFTWARE WILL DO LATENCY OPTIMIZATION ON A
; CHANNEL BASIS RATHER THAN A CONTROLLER BASIS)
;SOME CORE BLOCKS ARE LINKED TOGETHER BY A ONE DIRECTION STRING OF
;POINTERS TERMINATED WITH A 0. A "LIST", PTR IN LH. OTHER CORE BLOCKS
;ARE LINKED TOGETHER BY A ONE DIRECTIONAL STRING OF POINTERS WHICH
;CLOSES ON IT SELF. A "RING", PTR IN LH. STILL OTHER BLOCKS POINT
;BACK UP THE TREE TO THEIR FATHER OR THEIR GRANDFATHERS.
;UPWARD POINTERS TEND TO BE IN RH WITH BITS 13-17=0 SO INDIRECTION
;CAN BE USED.
;THE REST OF THE CORE BLOCKS ARE POINTED TO BY ONE CORE BLOCK TABLE
;OF POINTERS - A"FANOUT TABLE" THESE ARE IN RH.
;STATIC ADDRESS OF CORE DATA BLOCKS ASSEMBLED IN OTHER DATA BLOCKS:
;FANOUT TAB - SYS POINTS TO ALL STR TABLES (TABSTR) (MAX.14)
;FANOUT TAB - EACH KON POINTS TO ALL PHYSICAL UNI WITHIN KONTROLLERS (KONTAB)
;LIST - EACH STR LINKS TO NEXT STR WITHIN SYS (LH STRSYS)
;LIST - EACH UNI LINKS TO NEXT UNI WITHIN STR (LH UNISTR)
;LIST - EACH UNI LINKS TO NEXT UNI WITHIN SYS (LH UNISER)
;RING - EACH UNI LINKS TO NEXT UNI WITHIN CHN (LH UNICHN)
;RING - EACH UNI LINKS TO NEXT UNI WITHIN KON (LH UNIKON)
;UPWARD POINTER - EACH DEV POINTS TO ITS UNI (RH DEVUNI)
;UPWARD " - EACH UNI POINTS TO ITS CHN (RH UNICHN)
;UPWARD " - EACH UNI POINTS TO ITS KON (RH UNIKON)
;UPWARD " - EACH UNI POINTS TO ITS STR (RH UNISTR)
;UPWARD " - EACH KON POINTS TO ITS CHN (KONCHN)
SUBTTL BLK - PARAMETERS WHICH APPEAR IN MORE THAN ONE DISK BLOCK
INTERN BLKNAM,BLKCOD,BLKSLF
BLKNAM==0 ;SIXBIT NAME OF LBOCK(HOM,BAT,ISW)
BLKCOD==176 ;SELF IDENTIFYING CODE FOR BLOCK RH ONLY, LH==0
BLKSLF==177 ;LOGICAL BLOCK WITHIN UNIT(NOT STR) TO IDENTIFY SELF
$HIGH
SUBTTL COR - PARAMETERS WHICH APPEAR IN MORE THAN ONE CORE BLOCK
;OUT OF ALPHABETIC ORDER BECAUSE MUST BE FIRST, SINCE SYMBOLS DEFINED USING
;THEM WITH THE SAME VALUES SO THAT GENERALIZED ROUTINES MAY BE CALLED.
;THESE SYMBOLS SHOULD NOT BE USED UNLESS FOR A GENERALIZED ROUTINE,
;ELSE BUGS SINCE NOT ALL CORE BLOCKS HAVE ALL THE FOLLOWING BYTES.
;HOWEVER ALL BYTES WHICH ARE THE SAME APPEAR IN THE SAME PLACE IN ALL
;CORE BLOCKS IN WHICH THE DATA APPEARS.
CORWDS==:10 ;WORDS/CORE BLOCK
CRWDM1==:CORWDS-1
CORXTR==:7 ;EXTRANEOUS BITS IN 8-WORD CORE BLOCK ADR'S
;WORD 0---------------------------------------
CORNAM==:0 ;SIXBIT NAME OF BLOCK
;[PPBNAM,NMBNAM]
;WORD 1---------------------------------------
CORLNK==:1 ;LIST LINK WORD IN LH. LH=CORE ADR(ADDRESS POINTER)
; TO NEXT BLOCK IN LIST WITH SAME FATHER. MAYBE
; LIST OR RING, [PPBSYS,UFBPPB,NMPPB,ACCNMB]
DIFLNK==:CORLNK-CORWDS
CORUN1==:1 ;FIRST LOGICAL UNIT WITHIN STR FOR THIS FILE - WORD ADR.
COSUN1==^D4 ;BYTE SIZE
CONUN1==^D31 ;BYTE PTR. POS.
COPUN1==:20 ;RIGHT MOST BIT
COYUN1::POINT COSUN1,CORUN1(T2),CONUN1
COR1PT==:CORUN1 ;SINGLE RETRIEVAL POINTER FLAG - WORD ADDR.
;1 IF CORPT1 IS THE ONLY RETRIEVAL POINTER TO FILE
COS1PT==^D1 ;BYTE SIZE
CON1PT==^D27 ;BYTE PTR. POS.
COP1PT==:400 ;SINGLE RETRIEVAL POINTER FLAG - BIT[UFB1PT,NMB1PT,AKB1PT]
;WORD 2---------------------------------------
CORPT1==:2 ;COPY OF FIRST RETRIEVAL POINTER TO FILE OR UFD
; COR1PT=1 IF THIS IS THE ONLY POINTER [UFBPT1,AKBPT1]
;WORD 3---------------------------------------
;WORD 4---------------------------------------
CORFSN==:4 ;FIRST FILE STRUCTURE NUMBER - WORD ADR.
COSFSN==:.FSFSN ;BYTE SIZE
CONFSN==:COSFSN-1 ;BYTE PTR. POS. (LEFT JUSTIFIED IN WORD)
COYFSN::POINT COSFSN,CORFSN(T2),CONFSN ;FILE STRUCTURE NUMBER - BYTE
COZFSN::POINT COSFSN,CORFSN(T1),CONFSN
COXFSN::POINT COSFSN,CORFSN(P4),CONFSN
CORZRB==4 ;DIRECTORY HAS EMPTY DATA BLOCKS
COPZRB==10 ;BIT 14=1 IF YES
;WORD 5---------------------------------------
CORKNO==:5 ;KNOW WHETHER FILE OR UFD DOES OR DOES NOT EXIST IN
; IN FILE STRUCTURE N. - WORD ADR.
; BIT N+1=1 IF KNOW IN STR N [PPBKNO,NMBKNO]
COSKNO==:.SLMAX ;BYTE SIZE
CONKNO==:COSKNO-1 ;BYTE PTR. POS. (LEFT JUST. IN WORD)
COPKNO==:1B<CONKNO> ;RIGHT MOST BIT
COJKNO==:-^D35+CONKNO ;REQIRED SHIFT FOR RIGHT JUSTIFICATION
FSNBIT::COPKNO
ALLKNO::<-1>B<CONKNO> ;MASK FOR WHOLE KNO FIELD
COYKNO::POINT COSKNO,CORKNO(T2),CONKNO
COZKNO::POINT COSKNO,CORKNO(T1),CONKNO
;WORD 6---------------------------------------
CORYES==:6 ;FILE OR UFD DEFINITELY EXISTS IN FILE STRUCTURE N-WORD ADR.
; IF BIT N+1=1. CORRESPONDING BIT IN CORKNO=1 TOO
COSYES==:COSKNO ;BYTE SIZE
CONYES==:CONKNO ;BYTE PTR. POS.
COPYES==:COPKNO ;RIGHT MOST BIT
ALLYES==:ALLKNO
;WORD 7---------------------------------------
SUBTTL ACC: ACCESS DATA BLOCKS ENTRY
; ONE ACCESS TABLE FOR EVERY VERSION OF AN OPEN FILE.
; MANY USERS ACCESSING SAME FILE VERSION, SHARE ACCESS TABLE
;DORMANT ACCESS TABLE IS LEFT AROUND IN CORE
; AFTER FILE IS CLOSED BY ALL USERS, IN HOPES
; THAT FILE WILL BE LOOKED UP SOON.
REPEAT 0,<
AN ACCESS TABLE CAN BE IN ONE OF THE FOLLOWING STATES:
D DORMANT
R BEING READ ON ONE OR MORE USERS-CHANNELS, NO ONE UPDATING
C BEING CREATED (BY ONE USER)
S SUPERSEDING AN OLDER VERSION AND NO ONE READING OLDER VERSION
U BEING UPDATED (SAME CHANNEL ALSO COUNTS AS ONE READER)
UR BEING UPDATED AND OTHER READERS (READER COUNT GREATER THAN 1)
FOR A GIVEN FILE STRUCTURE: FILE.EXT[PROJ,PROG] THERE CAN BE EXACTLY
ONE AND ONLY ONE ACCESS ENTRY IN THE SYSTEM WITH THE FOLLOWING
EXCEPTIONS:
A. THERE CAN BE TWO ACCESS TABLE ENTRIES
R THE OLDER VERSION BEING READ BY 1 OR MORE USERS
S THE NEWER VERSION BEING CREATED BY ONE USER
THE SYSTEM IS SAID TO BE IN R+S STATE WITH RESPECT TO THE
FILE.
B. IN ADDITION TO ANY SINGLE ACCESS ENTRY FOR A GIVEN
FILE NAME (D, R, C, S, U, UR) OR THE PAIR R+S, THERE CAN
BE AN ARBITRARY NUMBER OF SUCCESSIVELY OLDER VERSIONS
STILL BEING READ BY ONE OR MORE USERS AND MARKED FOR
DELETION OF THE ACCESS TABLE AND DISK SPACE J WHEN READ
COUNT GOES TO 0.
THUS THE SYSTEM COULD BE IN ANY ONE OF THE FOLLOWING STATES WITH
REESPECT TO A FILE NAME ARE:
NO ACCESS ENTRY, D, R, C, S, U, UR, R+S, J, D+J, R+J, C+J, S+J
U+J, UR+J, R+S+J, J+J, D+J+J,...R+S+J+K...K+J+J, ETC.
>
;WORD 0---------------------------------------
ACCALC==:0 ;HIGHEST RELATIVE BLOCK ALLOCATED TO FILE BY MONITOR
; OR USER (NEVER INCLUDING SECOND RIB BLOCK,
; EVEN THOUGH IT IS ALLOCATED AT THE END OF FILE)
;WORD 1---------------------------------------
ACCNMB==:CORLNK ;LH=CORE ADDRESS(ACROSS POINTER) OF NEXT ACCESS
; BLOCK WITH SAME NAME (AND PROJ-PROG NO.)
;LAST ACCESS BLOCK POINTS BACK TO NAMEBLOCK(NMB)
; MACING THIS ONE OF THE FEW RINGS INSTEAD OF LISTS
; IN CORE BLOCK STRUCTURE. THE RING IS NEEDED SINCE
; THERE IS NOT ROOM IN ACCESS BLOCK FOR A BACKWARD
; POINTER TO PREVIOUS BLOCK. SINCE ACCESS RING IS
; USUALLY ONLY ONE LONG, THIS IS NOT TOO INEFFICIENT
; (WHEN REMOVING DORMANT ACCESS BLOCKS WHEN SPACE IS
; NEEDED). NOTE: ADVANTAGE IS TACEN OF THE FACT
; THAT CORE BLOCKS START AT 0 MODULO 8 ADDRESSES.
; THE LAST ACCESS ENTRY IN RING POINTS BACK, NOT
; TO FIRST ADDRESS IN NAME BLOCK BUT TO THE WORD WHICH
; WHICH MAKES THE NAME BLOCK LOOK JUST LIKE AN
; ACCESS ENTRY. THUS LOW ORDER BITS ARE ON IN LAST
; BLOCK POINTING TO NAME BLOCK (OR IN NAME BLOCK
; (NMBACC) IF NO ACCESS BLOCKS AT ALL IN RING. IN
; THIS WAY SCANNING AROUND RING AND DELETION ARE
; NEVER SPECIAL CASES LAST ACCESS BLOCK OR FIRST
; ACCESS BLOCK IN RING.
;RH=USED FOR AN INDEPENDENT QUANTITY.
ACCABC==:1 ;THIS FILE HAS ALWAYS BAD CHECKSUM
ACSABC==:1 ;BYTE SIZE
ACNABC==^D18 ;BYTE POINTER POSITION
ACPABC==:400000 ;RIGHT MOST BIT
ACCLBS==:1 ;LAST BLOCK IN FILE SIZE (NO. OF WORDS WRITTEN IN LAST
; DATA BLOCK)-WORD ADR.
ACSLBS==^D8 ;BYTE SIZE
ACNLBS==^D26 ;BYTE PTR. POS.
ACYLBS::POINT ACSLBS,ACCLBS(T2),ACNLBS ;THE BYTE POINTER
ACZLBS::POINT ACSLBS,ACCLBS(T3),ACNLBS ;THE BYTE POINTER
ACC1PT==:COR1PT ;FLAG FOR ONLY ONE RETRIEVAL POINTER FOR FILE - WORD ADR.
ACS1PT==:COS1PT ;BYTE SIZE
ACN1PT==:CON1PT ;BYTE PTR. POS.
ACP1PT==:COP1PT ;RIGHT MOST BIT
ACCUN1==:CORUN1 ;1ST. LOGICAL UNIT IN FILE STRUCTURE OF THIS FILE - WORD ADR.
ACSUN1==:COSUN1 ;BYTE SIZE
ACNUN1==:CONUN1 ;BYTE PTR. POS.
ACCDIR==:1 ;THIS FILE IS A DIRECTORY(UFD OR MFD) - WORD ADR.
ACSDIR==^D1 ;BYTE SIZE
ACNDIR==^D32 ;BYTE PTR. POS.
ACPDIR==:10 ;THIS FILE IS A DIRECTORY(UFD OR MFD) - BIT
ACCNDL==:1 ;THIS FILE CANNOT BE DELETED
ACSNDL==:1 ;BYTE SIZE
ACNNDL==^D33 ;BYTE POS
ACPNDL==:4 ;THE BIT
ACCSBC==:1 ;SOMETIMES BAD CHECKSUM (UPDATE)
ACSSBC==:1 ;BYTE SIZE
ACNSBC==^D34 ;BYTE POSITION
ACPSBC==:2 ;THE BIT
ACCNCK==:ACCABC ;DONT CHEC CHECKSUMS FOR THIS FILE - WORD ADR
ACPNCK==:ACPDIR+ACPABC+ACPSBC
ACCGRB==:ACCABC ;DONT GRAB A.T. - WORD ADDRESS
ACPGRB==:1 ;CORE GRABBER WONT TOUCH A.T. IF ON
;WORD 2---------------------------------------
ACCPT1==:CORPT1 ;FIRST RETRIEVAL POINTER TO FILE - WORD ADR.
; ACP1PT BIT=1 IF THIS POINTER COMPLETELY DESCRIBES THE FILE.
; SO RIB DOES NOT NEED TO BE READ FOR MORE POINTERS.
; (CLUSTER COUNT, CHECKSUM, CLUSTER ADDRESS)
;WORD 3---------------------------------------
ACCDOR==:3 ;TWO WAY THREADED LIST LINK WORD
;LH=CORE ADDRESS(ACROSS POINTER) OF NEXT ACCESS BLOCK
; IN DORMANT ACCESS BLOCK LIST FOR SYSTEM
;RH=CORE ADDRESS(BACKWARD POINTER) OF PREVIOUS ACCESS
; BLOCK IN DORMANT ACCESS BLOCK LIST FOR SYSTEM.
;THIS WORD=0 IF ACCESS BLOCK IS NOT DORMANT.
;THIS IS ONLY FLAG FOR DORMANT.
;THE DORMANT LIST IS TWO-WAY THREADED, SO THAT AN
; ACCESS BLOCK CAN BE REMOVED QUICKLY FROM THE
; MIDDLE WHENEVER THE ACCESS BLOCK BECOMES DORMANT.
;WORD 4---------------------------------------
ACCPPB==:4 ;LH=USED FOR AN INDEPENDENT QUANTITY
;RH=CORE ADDRESS (UPWARD POINTER) TO PROJ-PROG
; BLOCK (PPB) WHICH THIS ACCESS BLOCK IS IN
ACCFSN==:CORFSN ;FSN # - WORD ADR.
ACSFSN==:COSFSN ;BYTE SIZE
ACNFSN==:CONFSN ;BYTE PTR. POS.
ACYFSN==:COYFSN ;FILE STRUCTURE NO. IN WHICH FILE STARTS
;INDEXED BY T2.
ACZFSN==:COZFSN ;FSN INDEXED BY T1
FSNINC==:.FSXX1 ;FILE STR NO. WHICH FLAGS AN ACCESS BLOCK AS BEING
; INCOMPLETE(SO FNDFIL SHOULD IGNORE).
ACCWCT==:ACCPPB ;WRITE COUNT FOR SIMULTANEOUS UPDATERS
ACSWCT==^D8 ;BYTE SIZE
ACNWCT==^D13 ;BYTE PNTR POSITION
ACPWCT==:20 ;RIGHT-MOST BIT
ACWCNT==:7760 ;MASK FOR THIS FIELD
ACYWCT::POINT ACSWCT,ACCWCT(T1),ACNWCT
ACZWCT::POINT ACSWCT,ACCWCT(T2),ACNWCT
ACCZRB==:CORZRB ;SFD HAS EMPTY DATA BLOCKS WORD ADR
ACPZRB==COPZRB ; THE BIT
;WORD 5---------------------------------------
ACCADT==:5 ;DATE THIS FILE WAS LAST ACCESSED FOR MORE THAN JUST LOOKUP
ACSADT==^D15 ;BYTE SIZE
ACNADT==^D17 ;BYTE PTR. POS.
;BITS 0-2 HAVE HIGH-ORDER PART OF CEATION DATE
ACCNIU==:5 ;FILE NOT IN UFD - WORD ADR.
ACSNIU==^D1 ;BYTE SIZE
ACNNIU==^D18 ;BYTE PTR. POS.
ACPNIU==:400000 ;THE BIT - MUST BE BIT 18
ACCCNT==:ACCNIU ;NO. OF USER CHANS. WHICH HAVE LOOKED UP FILE - WORD ADR.
ACSCNT==^D9 ;BYTE SIZE
ACNCNT==^D27 ;BYTE PTR. POS.
ACPCNT==:400 ;RIGHT MOST BIT
ACMCNT==:377400 ;MASK (BEFORE RIGHT JUSTIFIED)
ACMCNM==:377000 ;MASK FOR READ COUNT-1
ACCUSE==:ACCCNT ;SAME FIELD, BUT USED AS AN SFD USE-COUNT
ACPUSE==:ACPCNT
ACMUCT==:ACMCNT
ACMUCM==:ACMCNM
ACYCNT::POINT ACSCNT,ACCCNT(T1),ACNCNT;READ COUNT BYTE POINTER-
;NO. OF USER CHANNELS
; WHICH HAVE LOOKED UP FILE(1 MAY BE UPDATING).
ACZCNT::POINT ACSCNT,ACCCNT(T2),ACNCNT
ACCREN==:ACCSTS ;RENAME UUO IN PROGRESS FOR THIS FILE FLAG - WORD ADR.
; CAN BE ON WITH OR WITHOUT JUST ONE FLAG BIT IN ACYSTS.
ACSREN==^D1 ;BYTE SIZE
ACNREN==^D28 ;BYTE PTR. POS.
ACPREN==:200 ;THE BIT
ACCDEL==:ACCSTS ;FILE MARKED TO BE DELETED WHEN ALL READERS FINISH-WORD ADR.
; FILE WILL BE DELETED BY CLOSE UUO
ACSDEL==^D1 ;BYTE SIZE
ACNDEL==^D29 ;BYTE PTR. POS.
ACPDEL==:100 ;THE BIT
ACCSTS==:ACCCNT ;ACCESS TABLE STATUS - WORD ADR.
; CONTAINS CREATE/SUPERSEDE/UPDATE UNARY STATE CODE
ACSSTS==^D3 ;BYTE SIZE
ACNSTS==^D32 ;BYTE PTR. POS.
ACPCRE==:40 ;CREATING FILE - UNARY STATE CODE
ACRCRE==:4 ;CREATING FILE - UNARY STATE CODE RIGHT JUSTIFIED
ACPSUP==:20 ;SUPERSEDING ANOTHER FILE - UNARY STATE CODE
ACRSUP==:2 ;SUPERSEDING ANOTHER FILE-UNARY STATE CODE RIGHT JUSTIFIED
ACPUPD==:10 ;UPDATING FILE - UNARY STATE CODE
ACRUPD==:1 ;UPDATING FILE - UNARY STATE CODE RIGHT JUSTIFIED
ACYSTS::POINT ACSSTS,ACCSTS(T2),ACNSTS ;ACCESS TABLE STATUS
ACCSMU==:ACCCNT ;THIS FILE BEING SIMULTANEOUSLY UPDATED
ACPSMU==:4 ;THE BIT
ACCPAL==:ACCSTS ;PRE-ALLOCATED FILE
ACPPAL==:2 ;IF THIS IT IS ON
;NDR IS SET TO "1" BY QUESER IF ANY "NO DELETE ON RESET"
;REQUESTS ARE MADE ON THIS FILE.
ACSNDR==:^D1 ;BYTE SIZE
ACNNDR==:^D35 ;BYTE PTR. POS.
ACPNDR==:1 ;THE BIT
;WORD 6---------------------------------------
ACCWRT==:6 ;HGHEST RELATIVE BLOCK WRITTEN, NOT COUNTING SECOND
; RIB. SINCE FIRST RIB IS RELATIVE BLOCK 0, AND
; FIRST DATA BLOCK IS BLOCK1 THIS QUANTITY IS THE
; SAME AS THE NUMBER OF DATA BLOCKS WRITTEN.
;THIS WORD IS CHECKED ON READ FOR END OF FILE.
;IT IS UPDATED DYNAMICALLY AS FILE IS APPENDED.
;WORD 7---------------------------------------
ACCPRV==:7 ;PRIVILEGE WORD. SAME FORMAT AS LOOKUP/ENTER E+2
; PRIVILEGES(9), MODE(4), CREATION TIME(11),CREATION DATE(12)
; SEE RIBPRV FOR BIT DEFINITIONS
ACSPRV==^D9 ;BYTE SIZE
ACNPRV==^D8 ;BYTE PTR. POS.
ACYPRV::POINT ACSPRV,ACCPRV(T4),ACNPRV ;BYTE PTR.
ACCMOD==:ACCPRV ;FILE MODE - WORD ADR.
ACSMOD==^D4 ;BYTE SIZE
ACNMOD==^D12 ;BYTE PTR. POS.
ACCCTM==:ACCPRV ;FILE CREATION TIME - WORD ADR.
ACSCTM==^D11 ;BYTE SIZE
ACNCTM==^D23 ;BYTE PTR. POS.
ACCCDT==:ACCPRV ;FILE CREATION DATE (LOW ORDER PART)
ACSCDT==^D12 ;BYTE SIZE
ACNCDT==^D35 ;BYTE PTR. POS.
SUBTTL BAF: BAD ALLOCATION FILE
; BLOCK AFTER HOME BLOCK IN HOME.SYS
; PROGRAMS SEARCHING HOME.SYS SHOULD LOOK FOR SIXBIT IDENTIFICATION IN
; FIRST WORD OF EACH BLOCK. THEN THEY WILL WORK NO MATTER WHAT THE
; CLUSTER SIZE IS.
INTERN BAFELB,BAYNBB,BAPOTH,BAFOTH,BARPUB,BAFPUB,BAYNBR
INTERN BAFCNT,BAFFIR,BAFCOD,BAFSLF,BASNBR,BANNBR,BAFNBR,CODBAT
INTERN BAYKDC,BRMAX,MBRMAX,BAFREG,BAFNUM,BAFNAM,BAFAPN
IFN FTDBBK,<
INTERN BAYAPN,BAYKNM
>
BAFNAM==BLKNAM ;CONTAINS SIXBIT /BAT/ FOR IDENTIFICATION
BAFFIR==1 ;LH=-MAX. POSSIBLE NO. OF WORDS FOR BAD REGIONS MAP AND MONITOR
; CAN ADD BEFORE BLOCK FILLS UP
;RH=REL ADR. WITHIN THIS BLOCK OF FIRST BAD REGION PAIR
; MAP PROGRAM FORCES LH TO BE EVEN NUMBER.
;ALL PROGRAMS SHOULD SCAN THE BAT BLOCK BY STARTING WITH THIS WORD
; RATHER THAN KNOWING WHERE DATA PAIRS START. IN THIS WAY
; ADDITIONAL HEADER WORDS CAN BE ADDED WITHOUT INVALIDATING ANY
; PROGRAMS WHICH READ BAT BLOCK.
;BOTH HALVES WRITTEN BY MAP PROGRAM AND NEVER CHANGED BY MONITOR
BAFNBS==2 ;NO. OF BAD 128 WORD BLOCKS FOUND BY MAP PROGRAM - WORD ADR.
BASNBS==^D9 ;BYTE SIZE
BANNBS==^D8 ;BYTE PTR. POS.
BAFNBR==BAFNBS ;# OF BAD REGIONS(=# OF ENTRY PAIRS) FOUND BY MAP PROGRAM - WORD ADR.
BASNBR==^D9 ;BYTE SIZE
BANNBR==^D17 ;BYTE PTR. POS.
BAFKDC==2 ;KONTROLLER DEVICE CODE USED BY MAP PROGRAM - WORD ADR.
BASKDC==^D7 ;BYTE SIZE
BANKDC==^D24 ;BYTE PTR. POS. -LEFT JUSTIFIED OCTAL SO PRINT LIKE DEVICE CODES.
BAFCNT==3 ;NO. OF DISTINCT BAD REGION WORD PAIRS
; APPENDED TO LIST BY MONITOR
;MAP PROGRAM WRITES THIS WORD WITH ZEROES.
BAFREG==4 ;FIRST BAD REGION WORD GOES HERE. THIS SYMBOL NEVER APPEARS IN ANY
; CODE WHICH READS BAT BLOCK - EXCEPT MAP PROGRAM OR OPTIONAL ONCE
;ONLY CODE WHICH WRITES IT THE FIRST TIME. INSTEAD SEE RH OF BAFFIR
;NOTE: BAFREG MUST BE AN EVEN NUMBER
BAYNBR: POINT BASNBR,BAFNBR(T3),BANNBR ;BYTE PTR FOR # BAD REGIONS FND BY MAP
;BAYNBS: POINT BASNBS,BAFNBS(T3),BANNBS ;BYTE PTR FOR # BAD BLOCKS FOUND BY MAP
BAYKDC: POINT BASKDC,BAFKDC(T3),BANKDC ;BYTE PTR FOR KONTROLLER DEVICE CODE
;THE MAP PROGRAM IS NOT PART OF THE MONITOR - IT RUNS AS A STAND-ALONE PROGRAM
; WHICH WIRTES AN INITIAL BAT BLOCK WITH ALL THE BAD REGIONS IT FINDS.
;BOTH THE MAP PROGRAM AND THE MONITOR WRITE TWO WORD ENTRIES OF THE SAME FORMAT
;THE MONITOR ADDS TWO-WORD ENTRIES WHENEVER IT FINDS BAD REGIONS
;WHILE READING, WRITING, OR POSITIONING (READ OR WRITE)
;THE MAP PROGRAM AND MONITOR STORE LOGICAL RATHER THAN PHYSICAL ADDRESSES
BAFNBB==0 ;NUMBER OF BAD BLOCKS-1 IN THIS BAD REGION(NOT CLUSTERS
; -SINCE BADNESS IS INDEPENDENT
; OF THE CLUSTER SIZE - WORD ADR(WITHIN 2 WORD ENTRY)
BASNBB==^D9 ;BYTE SIZE
BANNBB==^D8 ;BYTE PTR. POS.
BAFNUM==777 ;MAX NUMBER OF BAD BLOCKS IN A REGION-1
BAFOTH==0 ;BIT NON-ZERO IF THIS SAVE BAD REGION IS DETECTED ON ANOTHER
; KONTROLLER OR PROCESSOR THAN THE ONE WHICH ADDED THE ENTRY
; IN THE FIRST PLACE - WORD ADR.
BAPOTH==400 ;BIT POS IN LH
BAYNBB: POINT BASNBB,BAFNBB(T2),BANNBB ;BYTE PTR
BAFPUB==0 ;PHYSICAL UNIT BIT WITHIN CONTROLLER-WORD ADR.
;BIT 10=UNIT 7, BIT 11=UNIT 6, BIT 17=UNIT 0.
BASPUB==^D8 ;BYTE SIZE
BANPUB==^D17 ;BYTE PTR. POS.
BAPPUB==1 ;LH BIT POSITION OF RIGHT MOST BIT(UNIT 0) IN BYTE
BARPUB==1 ;RIGHT-HAND BIT
BAFKNM==0 ;LOGICAL KONTROLLER NUMBER OF THIS TYPE - WORD ADR.
; SEE UNIKNM
BASKNM==^D3 ;BYTE SIZE
BANKNM==^D20 ;BYTE PTR. POS.
IFN FTDBBK,<
BAYKNM: POINT BASKNM,BAFKNM(T2),BANKNM ;BYTE PTR.
>
BAPNTP==:40000 ;ON FOR NEW-STYLE BAT BLOCK ENTRIES
BAFAPN==0 ;ARITHMETIC PROCESSOR # (DECIMAL) TO WHICH CONTROLLER IS ATTACHED
; WHEN ERROR DISCOVERED BY MONITOR - WORD ADR. (WITHIN 2 WORD ENTRY)
;THIS IS USEFUL TO IDENTIFY THE PHYSICAL UNIT ON WHICH THE ERROR
; OCCURRED IN CASE SOME UNITS DETECT DIFFERENT SURFACE
; ERRORS THAN OTHER UNITS WHEN THE PACKS ARE
; EXCHANGED.
BASAPN==^D14 ;BYTE SIZE
BANAPN==^D35 ;BYTE PTR POS
IFN FTDBBK,<
BAYAPN: POINT BASAPN,BAFAPN(T2),BANAPN ;BYTE PTR.
>
BAFELB==1 ;ERROR LOGICAL BLOCK ADR. WITHIN UNIT - WORD ADR. (WITHIN 2 WORD ENTRY)
; OF FIRST LOGICAL BLOCK IN BAD REGION OF BLOCKS
REPEAT 0,< ;OLD-STYLE BAT BLOCK ENTRY
BAJCNI==-^D6 ;-NO. OF LOW ORDER STATUS BITS WHICH DO NOT CONTAIN
; INTERESTING CONI ERROR STATUS BITS.
;LH OF BAFELB IS USED FOR CONI BITS 12 THROUGH 29
; ON RC-10 AND RP-10 UNITS. WHEN WE BUILD LARGER
; UNITS THIS WILL HAVE TO BE CHANGED
>
BAFVER==:1 ;BITS 0-2 VERSION NUMBER OF ENTRY (PRESENTLY = 0)
BAFERR==:1 ;ERROR BITS (AS OPPOSED TO CONI BITS)
BAPOTR==:40000 ;OTHER (NOT DATA OR SEARCH ERROR)
BAPDTR==:20000 ;DATA ERROR (PARITY OR ECC HARD)
BAPHDR==:10000 ;SEARCH ERROR OR HEADER COMPARE ERROR
BATMSK==:777000 ;MASK (LH) FOR BAT ENTRY BLOCK NUMBER
MBTMSK==:700777 ;MASK FOR JUST ERROR BITS FOR BAT ENTRY
BAFCOD==BLKCOD ;CONTAINS UNLIKELY CODE
;LH=0
CODBAT==606060 ;UNLIKELY CODE FOR BAT BLOCK
BAFSLF==BLKSLF ;LH=0, RH=THIS BLOCK(NOT CLUSTER) AADR. WITHIN UNIT
BRMAX==BAFCOD-BAFREG ;MAX LENGTH OF AREA FOR APPENDING BAD REGIONS
MBRMAX==-BRMAX
$LOW
SUBTTL CHN: CHANNEL DATA BLOCK
;THE RELATIVE LOCATIONS ARE DEFINED IN S.MAC JUST LIKE DEVICE DATA BLOCKS
;THESE LOCATIONS ARE SET, LOOKED AT AND CHANGED
;BY FILSER. DEVICE DEPENDENT MODULES DO NOT LOOK AT THEM.
;PARAMETERS FOR CHNCB:
; S = CHANNEL # (STARTS AT 0), SP1 = NEXT CHANNEL # (IE S+1)
DEFINE CHNCB (S,SP1)<
XLIST
INTERN CHNBSY,CHNECT,CHNQUE,CHNIFP,CHNCFP,CHNIFT,CHNCFT,CHNNUM,CH'S'IFP,CH'S'IFT
INTERN DIFCDQ,CHNRCT,.CHLUE,.CHICW,.CHFCW,.CHCW2,.CHCW1,.CHCW0
INTERN .CHDW2,.CHDW1,.CHDW0,CHB22B,CP.22B
INTERN CHNIFS,CHNCFS,CHNWAT
INTERN CHN'S'CB
THSCCB=CHN'S'CB
CHNBSY==0 ;;MAKE SURE FIRST ENTRY IN DATA BLOCK ELSE MACRO ERROR
CHN'S'CB:-1 ;;-1 IS IDLE, 0 OR POSITIVE IS BUSY
;; MUST BE WORD 0 OF CHN DATA BLOCK
;; SO AOSG @KONCHN(J) WILL TEST BUSY AND SET
;; BUSY IN ONE INSTRUCTION
PHASE 1 ;;DEFINE ALL SYMBOLS WITH REPSPECT TO BEGINNING OF
;; DATA BLOCK.
.CHSYS:! ;;(1) LH=ADR OF NEXT CHANNEL IN SYSTEM OR 0 IF LAST
;;RH=SEE .CHLUE
.CHLUE:!XWD CHN'SP1'CB,0 ;;(1) RH=ADR. OF LAST UNIT DB WITH SOFT OR HARD ERROR
;; LH=SEE .CHSYS
.CHICW:!0 ;;(2) INITIAL CONTROL WORD ON LAST SOFT OR HARD ERROR
;; IE CONTENTS OF EVEN LOW CORE WORD
.CHFCW:!0 ;;(3) FINAL CONTROL WORD ON LAST SOFT OR HARD ERROR
;; IE WHAT CHANNEL STORES IN ODD LOW CORE WORD
;; LH=PRESENT CONTENTS OF CONTROL WORD ADDRESS COUNTER,
;; RH=PRESENT CONTENTS OF DATA ADDRESS COUNTER
;; BECAUSE EACH DEVICE HANDLES ERROR TERMINATION DIFFERENTLY
;; ON THE CHANNEL, THE SOFTWARE STORES 3 CONTROL WORDS AND
;; 3 DATA WORDS 'AROUND' THE PROBLEM AREA AS INDICATED
;; BY THE LH AND RH OF WHAT CHANNEL STORES IN .CHFCW. NO
;; ATTEMPT IS MADE BY THE MONITOR TO DETERMINE WHICH OF
;; THE 3 WORDS IS REALLY THE LAST CONTROL OR DATA WORD.
;; THAT MUST BE DONE BY THE INVESTIGATING PERSONNEL.
.CHCW2:!0 ;;(4) COMMAND WORD -2 ON LAST HARD OR SOFT ERROR
.CHCW1:!0 ;;(5) COMMAND WORD -1 ON LAST HARD OR SOFT ERROR
.CHCW0:!0 ;;(6) COMMAND WORD ON LAST HARD OR SOFT ERROR
.CHDW2:!0 ;;(7) DATA WORD -2 ON LAST HARD OR SOFT ERROR
.CHDW1:!0 ;;(10) DATA WORD -1 ON LAST HARD OR SOFT ERROR
.CHDW0:!0 ;;(11) DATA WORD ON LAST HARD OR SOFT ERROR
.CHMPE:!0 ;;(12) NO. OF MEMORY PARITIES
.CHDPE:!0 ;;(13) NO. OF DATA PARITIES (FROM DEVICE)
.CHNXM:!0 ;;(14) NO. OF NON-EX MEMS OR DATA LATES (OVER RUN)
.CHCSR:!CP.PXX!CP.CS0_<-S> ;;(15) LH=BITS TO REQUEST CPU TO SWEEP CORE
;; ON BEHALF OF CHANNEL N. STORED IN .CPAEF
;; BY CHN MPE ROUTINE
;;RH=UNUSED
.CHTCW:!0 ;;(16)EXPECTED TERMINATION CONTROL WORD OF LAST ERROR
CHNECT:!0 ;;ERROR COUNT SO FAR ON CURRENT DATA TRANSFER SET TO
;; 0, INCREMENTED, AND TESTED BY FILSER (TO DSKTRY) NOT LOOKED AT BY
;; INTERRUPT ROUTINE. -1 MEANS UNIT IS RECALIBRATING.
CHNRCT:!0 ;;RECALIBRATE ERROR COUNT ON CURRENT DATA TRANSFER
;; STARTS AT -0 GOES TO RCLTRY. INCREMENTED EVERY
;; TIME CHNECT COUNTS UP TO DSKTRY.
;; TOTAL TRIES=DSKTRY*RCLTRY
CHNQUE:!XWD 0,0 ;;LH=ADR OF FIRST (LONGEST WAITING) DEVICE DATA
;; BLOCK(FILE)
;; WAITING TO DO A DATA TRANSFER (TW QUEUE)
;; RH=JOB NUMBER FOR DDB WHOSE ADDRSS IS IN LH
;; BOTH HALVES=0 IF NO FILES WAITING TO TRANSFER,
;; SO A FAST TEST FOR EMPTY TRANSFER WAIT QUEUE
;; NOTE - A FILE IN T STATE IS NOT IN TW QUEUE.
DIFCDQ==CHNQUE-DEVQUE ;;DIFF OF HEAD Q PTR AND LINKS - USED TO
;; START SEARCH OF DDBS IN TRANSFER WAIT Q
IFNDEF CH'S'IFP,<CH'S'IFP==CHVIFP> ;;USE STANDARD IF CUSTOMER HAS NOT
;; REDEFINED CH'S'IFP WITH MONGEN
CHNIFP:!
IFE M.CH'S'T,<EXP CH'S'IFP>
IFE M.CH'S'T-1,<CP.22B,,CH'S'IFP>
IFE M.CH'S'T-2,<CP.22B!CP.DX1,,CH'S'IFP>
IFE M.CH'S'T-3,<CP.22B!CP.RH2,,CH'S'IFP>
IFE M.CH'S'T-4,<CP.22B!CP.R11,,CH'S'IFP>
IFE M.CH'S'T-5,<CP.22B!CP.LP2,,0>
IFE M.CH'S'T-6,<CP.22B!CP.CD2,,0>
;;RH=INITIAL FAIRNESS COUNT FOR POSITIONING UNITS
;; ON THIS CHANNEL AFTER A DATA TRANSFER INTERRUPT.
;; USED TO SET CHNCFP WHEN IT COUNTS TO 0. AN
;; INITIAL VALUE OF 1 (OR 0) REDUCES THE SYSTEM
;; POSITION ON A FIRST COME, FIRST SERVE BASIS
;; (RATHER THAN NEAREST POSITION)ALL THE TIME.
CHB22B==CHNIFP ;;SIGN-BIT =1 IF A 22-BIT CHANNEL, =0 IF 18 BITS
XP CP.SWF,1 ;;=1 DURING FILIO INTERRUPT SERVICE IF CACHE
;; SWEEP MUST BE DONE BEFORE INTERRUPT EXIT
XP CP.22B,400000 ;;=1 IF 22-BIT CHAN, =0 IF 18-BIT CHAN
XP CP.DX1,200000 ;;=1 IF DX10 CHAN, = 0 IF OTHER
XP CP.RH2,100000 ;;=1 IF RH20, =0 IF RH10
XP CP.R11,40000 ;;=1 IF RH11, =0 IF NOT
XP CP.LP2,20000 ;;=1 IF LP20, =0 IF NOT
XP CP.CD2,10000 ;;=1 IF CD20, =0 IF NOT
CHNCFP:!0 ;;CURRENT FAIRNESS COUNT FOR POSITIONING UNITS ON
;; THIS CHANNEL AFTER A DATA TRANSFER INTERRUPT
;; DECREMENTED BY 1 EACH DATA TRANSFER INTERRUPT
;; ON THIS CHANNEL. I.E. NUMBER OF DATA TRANSFER
;; INTERRUPTS LEFT BEFORE A POSITIONING REQUEST IS
;; SELECTED ON THE BASIS OF LONGEST WAITING FILE
;; ("FAIR") RATHER THAN NEAREST (INCLUDING "ON
;; CYLINDER") ("FAST")
IFNDEF CH'S'IFT,<CH'S'IFT==CHVIFT> ;;USE STANDARD IF CUSTOMER HAS
;; NOT REDEFINED CH'S'IFT WITH MONGEN
CHNIFT:!EXP CH'S'IFT ;;INITIAL FAIRNESS COUNT FOR DATA TRANSFERS ON THIS
;; CHANNEL. USED TO SET CHNCFT WHEN IT COUNTS TO 0.
CHNCFT:!0 ;;CURRENT FAIRNESS COUNT FOR DATA TRANSFERS ON
;; THIS CHANNEL. DECREMENTED BY 1 EACH DATA
;; TRANSFER INTERRUPT. WHEN REACHES 0 A DATA
;; TRANSFER IS SELECTED ON THE BASIS OF THE LONGEST
;; WAITING FILE WHICH IS IN POSITION ("FAIR")
;; RATHER THAN THE SHORTEST LATENCY ("FAST").
CHNIFS:!3 ;;INITIAL FAIRNESS COUNT FOR SWAPPING ON THIS CHANNEL
CHNCFS:!0 ;;CURRENT FAIRNESS COUNT FOR SWAPPING ON THIS CHANNEL.
;; DECREMENTED BY 1 EACH TIME A SWAP OR PAGE OPERATION
;; IS STARTED. A FILE OPERATION IS STARTED IF THIS COUNT IS
;; NEGATIVE AND FILE IO IS PENDING
CHNWAT:!0 ;;0 IF NO IO FILE IO PENDING, NON-0 IF SOME
;; DEVICE ON THE CHAN WANTS TO DO IO (CANT USE CHNQUE
;; SINCE MAY BE ON A UNIT IN P OR PW)
CHNNUM:!0 ;;RH=NUMBER OF 128 WORD BLOCKS BEING TRANSFERRED
;; ON THIS CHANNEL ON THE CURRENT TRANSFER. SETUP AT
;; SAME TIME AS CHANNEL COMMAND LIST. NOT CLEARED AT END
;; OF TRANSFER SO GOOD FOR LOOKING AT IN LIGHTS.
;; LH=-1 ON ERROR, SO WORD IS NON-ZERO EVEN IF RH=0
IFN FTDSTT,<
CHNQUL:: 0 ;;LENGTH OF TRANSFER WAIT QUEUE
>
CHNTCW::0 ;;EXPECTED TERMINATION CONTROL WORD
;;USED TO CHECK FOR ABNORMAL CHANNEL TERMINATION WITHOUT
;;ERROR INDICATIONS FROM CONTROLLER
CHNCUA::!0 ;;CURRENT UNIT ACTIVE ON CHANNEL
IFN FTKS10,<
CHNUBA::! ;;UNIBUS ADAPTER STATUS REGISTER ADDRESS
;;FORMAT: XWD UBA #,,UNBSTW
IFE M.CH'S'T-4,< ;;IF THIS CHANNEL IS AN RH11
IFG M.'S'RH,< ;;IF THIS IS THE DISK CHANNEL
<RH11CA&7000000>+UNBSTW
>
IFG M.'S'TR,< ;;IF THIS IS THE TAPE CHANNEL
<RH21CA&7000000>+UNBSTW
>
>;END IFE M.CH'S'T-4
IFE M.CH'S'T-5,< ;;IF THIS CHANNEL IS AN LP20
<LP11CA&7000000>+UNBSTW
>;END IFE M.CH'S'T-5
IFE M.CH'S'T-6,< ;;IF THIS CHANNEL IS A CD20
<CD11BA&7000000>+UNBSTW
>;END IFE M.CH'S'T-6
CHNIMR::! ;;ADDRESS OF INITIAL MAPPING REGISTER FOR THIS
;;DEVICE ON THIS "CHANNEL"
IFE M.CH'S'T-4,< ;;IF THIS CHANNEL IS AN RH11
IFG M.'S'RH,< ;;IF THIS IS THE DISK CHANNEL
RH1IMR##
>
IFG M.'S'TR,< ;;IF THIS IS THE TAPE CHANNEL
RH2IMR##
>
>;END IFE M.CH'S'T-4
IFE M.CH'S'T-5,< ;;IF THIS CHANNEL IS AN LP20
LP0IMR##
>;END IFE M.CH'S'T-5
IFE M.CH'S'T-6,< ;;IF THIS CHANNEL IS A CD20
CD0IMR##
>;END IFE M.CH'S'T-6
CHNMRC::! ;;NUMBER OF MAPPING REGISTERS AVAILABLE TO THIS DEVICE
;;ON THIS "CHANNEL"
IFE M.CH'S'T-4,< ;;IF THIS CHANNEL IS AN RH11
IFG M.'S'RH,< ;;IF THIS IS THE DISK CHANNEL
RH1MRC##
>
IFG M.'S'TR,< ;;IF THIS IS THE TAPE CHANNEL
RH2MRC##
>
>;END IFE M.CH'S'T-4
IFE M.CH'S'T-5,< ;;IF THIS CHANNEL IS AN LP20
LP0MRC##
>;END IFE M.CH'S'T-5
IFE M.CH'S'T-6,< ;;IF THIS CHANNEL IS A CD20
CD0MRC##
>;END IFE M.CH'S'T-6
CHNIEA::!0 ;;INITIAL ELEVEN STYLE ADDRESS FOR CURRENT TRANSFER
CHNBTC::!0 ;;ELEVEN STYLE BYTE COUNT FOR CURRENT TRANSFER
CHNNXF::!0 ;;NO-XFER FLAG-- 0=NORMAL XFER, -1 NO-XFER
;;NO XFER REQUESTS COME DOWN FROM FILSER WHEN
;;IT WANTS TO READ A BLOCK BUT DO NO DATA XFER ANYWHERE
;;TO VERIFY THAT A PARTICULAR BLOCK IN FACT HAS ERRORS
CHNDBF::!0 ;;DUMMY 1-WORD BUFFER FOR BUS ADDRESS INHIBIT USAGE
;; IN RHXKON (READ A SECTOR, BUT XFER NO DATA)
CHNRRV::!0 ;;READ REVERSE FLAG: 0=NORMAL, -1=READ REVERSE OPERATION
>;END IFN FTKS10
DEPHASE
$C==1
REPEAT C'S'FHN,<
KONTCB FH,<A,B,C,D,E,F,G,H,I,J,K,L,M,N,O,P>,S
$FHNUM==$FHNUM+1>
REPEAT C'S'FSN,<
KONTCB FS,<A,B,C,D,E,F,G,H,I,J,K,L,M,N,O,P>,S
$FSNUM==$FSNUM+1>
REPEAT C'S'RPN,<
KONTCB RP,<A,B,C,D,E,F,G,H,I,J,K,L,M,N,O,P>,S
$RPNUM==$RPNUM+1>
IFN FTEDSK,<
REPEAT C'S'RNN,<
KONTCB RN,<A,B,C,D,E,F,G,H,I,J,K,L,M,N,O,P>,S
$RNNUM==$RNNUM+1>
>
REPEAT C'S'DPN,<
KONTCB DP,<A,B,C,D,E,F,G,H,I,J,K,L,M,N,O,P>,S
$DPNUM==$DPNUM+1>
REPEAT C'S'MDN,<
KONTCB MD,<A,B,C,D,E,F,G,H,I,J,K,L,M,N,O,P>,S
$MDNUM==$MDNUM+1>
IFN FTKS10,<
REPEAT C'S'RHN,<
KONTCB RH,<A,B,C,D,E,F,G,H,I,J,K,L,M,N,O,P>,S
$RHNUM==$RHNUM+1>
>
$CM1==$C-1
CHNCLS (\"<$CM1+"A">,S)
LIST
> ;END MACRO DEF OF CHNCB
REPEAT 0,<
A SERIES OF MACROS ARE INCLUDED HERE FOR GENERATING CHANNEL, KONTROLLER,
AND UNIT CORE BLOCKS. THE VARIOUS CORE BLOCKS ARE LINKED TOGETHER
APPROPRIATELY; THE NUMBER OF EACH TYPE AND APPROPRIATE LINKAGE ARE
DETERMINED BY SYMBOLS GENERATED BY MONGEN. SYMBOLS GENERATED ARE:
CHNN TOTAL NUMBER OF DATA CHANNELS (DF10) FOR DISKS
CHANNELS ARE NUMBERED FROM 0 TO CHNN - 1
CNFH NUMBER OF FIXED HEAD KONTROLLERS ON CHANNEL N
CNDP NUMBER OF DISK PACK KONTROLLERS ON CHANNEL N
CNMD NUMBER OF MASS FILE (BRYANT DISK) KONTROLLERS ON CHANNEL N
KONTROLLERS OF EACH TYPE ARE LETTERED A,B,C, ETC., SO
THE FIRST DISK PACK KONTROLLER IS DPA, THE SECOND DPB, ETC.
XXYUN NUMBER OF UNITS ON KONTROLLER XXY
THE CHNCB MACRO GENERATES A CHANNEL CORE BLOCK, THEN CALLS MACROS TO
GENERATE KONTROLLER AND UNIT CORE BLOCKS. ITS ARGUMENT IS THE CHANNEL NUMBER,
IN ASCII. CHNCB CALLS MACRO KONTCB FOR EACH KONTROLLER ON THE CHANNEL. THERE
IS A REPEAT LOOP FOR EACH KONTROLLER TYPE, REPEATED CNXX TIMES, WHERE N IS THE
CHANNEL NUMBER AND XX IS THE KONTROLLER TYPE, EACH LOOP CALLING KONTCB ONCE.
THE ARGUMENTS FOR KONTCB ARE THE KONTROLLER TYPE, A LIST CONTAINING THE LETTERS
TO IDENTIFY SUCCESSIVE KONTROLLERS, AND THE CHANNEL NUMBER, IN ASCII.
KONTCB FIRST CALLS MACRO XXKON TO GENERATE A KONTROLLER CORE BLOCK FOR THE
KONTROLLER, THEN REPEATS XXYUN TIMES CALLING UNITCB MACRO TO GENERATE UNIT CORE
BLOCKS FOR THE KONTROLLER. ARGUMENTS FOR XXKON ARE KONTROLLER TYPE (XX),
KONTROLLER IDENTIFIER, AND THE ASCII VALUE OF SYMBOL XXNUM, WHICH IS INCREMENTED
FOR EACH KONTROLLER OF TYPE XX. XXKON FORMS SYMBOL XX'XXNUM (XX0, XX1, ...),
WHICH IS USED AS THE DEVICE CODE FOR THE KONTROLLER. ARGUMENTS FOR UNITCB
INCLUDE KONTROLLER TYPE, KONTROLLER IDENTIFIER, UNIT NUMBER, AND SYMBOLS TO USE
IN LINKING THE UNIT CORE BLOCKS TOGETHER (SEE UNITCB MACRO).
EACH XXKON MACRO SHOULD CALL THE KONKON MACRO FOR THE KONTROLLER INDEPENDENT
PART OF THE KONTROLLER CORE BLOCK. ARGUMENTS FOR KONKON MACRO ARE KONTROLLER
TYPE (XX), KONTROLLER IDENTIFIER (Y), AND SYMBOL XX'NUM WHICH IS THE DEVICE CODE
FOR THE KONTROLLER. NUM IS INCREMENTED FOR EACH KONTROLLER OF TYPE XX.
THE UNIT CORE BLOCKS ARE LINKED IN THREE DIFFERENT WAYS. ALL UNIT CORE
BLOCKS ON A KONTROLLER ARE LINKED IN A RING (THE LAST POINTS TO THE FIRST),
ALL UNIT CORE BLOCKS ON A CHANNEL ARE LINKED IN A RING, AND ALL UNIT CORE
BLOCKS IN THE SYSTEM ARE LINKED IN A LIST (THE LAST LINK IS 0). TO
COMPLETE THIS LINKAGE, KONTCB CALLS MACRO KONCLS TO CLOSE THE KONTROLLER
RING, AFTER ALL UNIT CORE BLOCKS FOR THAT KONTROLLER HAVE BEEN GENERATED; CHNCB
CALLS CHNCLS TO CLOSE THE CHANNEL RING; AND AFTER ALL SYSTEM UNIT CORE BLOCKS
HAVE BEEN GENERATED, SYSCLS IS CALLED TO TERMINATE THE SYSTEM LIST.
TO ADD ANOTHER KONTROLLER TYPE XY, YOU MUST ADD ANOTHER REPEAT LOOP IN CHNCB,
REPEATING CNXY TIMES AND PASSING ARGUMENT XY TO KONTCB MACRO. KONTCB
CALLS MACRO XYKON FOR THE KONTROLLER DEPENDENT PART OF THE KONTROLLER CORE
BLOCK; THAT MUST ALSO BE SUPPLIED. XYKON SHOULD CALL THE KONKON MACRO FOR
THE KONTROLLER INDEPENDENT PART OF THE KONTROLLER CORE BLOCK.
>
SUBTTL DEV: DEVICE DATA BLOCK (ONE FOR EACH ACTIVE SOFTWARE USER CHANNEL)
EXTERN DSKDSP
INTERN DEVNAM,DEVCHR,DEVIOS,DEVSER,DEVMOD,DEVLOG,DEVBUF,DEVIAD,DEVFSN
INTERN FNCEXC,FNCRED,FNCALL,FNCDLL,FNCAPP,FNCUPD,FNCCRE
INTERN FNCSUP,FNCTRN,FNCCAT,FNCDEL,FNCCNM,FNCCPR,DEVLPC,DEPLPC,SWPDMP
INTERN DEVOAD,DEVDMP,DEVRET,DEVREL,DEVACC,DEVUNI,DEVSWP,DEPSWP,SWPBLK
INTERN DEVQUE,DEVRIB,MINDVQ,DEVBLK,DEVRSU,DEVMBF,DEVFLR,DEVLFT,DEVUFB
INTERN PTRLEN,MPTRLN,DEVRB1,DEVRB2,DEVRBN,DEYCOD,DEYRLC,DEYFSN,DEYFNC
INTERN DSKDDB,DDBLEN,SWPDDB,DEVFUN,DEVFAK,DEYRBU,DEYRBA,DEYRBC
INTERN DEVPRI,DEVUVA,DEVLRL,DEVWRT,DEPWRT,DEVCPT,DEPCPT,PINBFN
IFN FTSFD,<INTERN DEVSFD,DEYLVL,DEYLV2,DEYSCN,DEVLIB,DEPLIB>
$HIGH
DSKDDB: ;ADDRESS OF PROTOTYPE DISK DDB FOR SYSTEM.
; LINKED TO DDB LIST BUT NEVER USED.
; (SWPDDB IS LINKED BEFORE DSKDDB)
ZERO13==0
$SWAP==0
REPN==1
IFN SYS50N,<REPN==2>
;REPEAT INSTEAD OF A MACRO SO SYMBOLS WILL BE EASIER TO FIND IN CREF LISTING
REPEAT REPN,<
;FIRST COPY IS DISK PROTOTYPE DDB, SECOND IS SWAPPING DDB (SIGN BIT ON IN DEVSWP)
IFN $SWAP, <XLIST> ;DO NOT LIST THE SWAPPING DDB. IT IS REPETITIVE
PHASE 0
IFE $SWAP, <
DEVNAM:!SIXBIT /DSK/ ;DEVICE NAME IN SIXBIT OF STR OR MORE USUALLY GENERIC DSK
>
IFN $SWAP, <
DEVNAM:!SIXBIT /SWAP/ ;DIFFERENT "DEVICE NAME" FOR SWAPPER
>
DEVCHR:!XWD 3*HUNGST,201 ;HUNG TIME COUNT, BUFFER SIZE
DSKTIM==:7 ;HUNG TIME (STORED IN UDB, DEC'D EVERY SECOND)
DEVIOS:!0 ;LH=MONITOR, RH=USER IO STATUS-SEE FILSER FOR
; LH BIT DEFINITIONS SINCE LOADER WILL NOT ADD EXTERNS
DEVSER:!EXP DSKDSP ;LH=LINK TO NEXT DDB, RH=DISPATCH TABLE ADDRESS
; IN FILSER SAME FOR ALL DISKS
DEVMOD:!XWD DVIN+DVOUT+DVDSK+DVDIR+DVLNG,154403 ;LH=CHARACTERISTICS, RH=MODES
DEVRHB==:DEVMOD ;WHOLE WORD ZERO IF REREADING HOME BLOCKS ON POWER UP INTERRUPT
DEVLOG:!0 ;LOGICAL NAME IN SIXBIT
DEVBUF:!0 ;LH=OUTPUT BUFFER HEADER, RH=INPUT BUFFER HEADER
DEVIAD:!0 ;BIT 13=0,BITS 14-17=R, RH=POINTER TO USER INPUT BUFFER
DEVCOD==DEVIAD ;FILE STATUS CODE (I,SW,S,PW,P,TW,T)-WORD ADR
; SEE UNISTS FOR DEFINITION
DESCOD==^D3 ;BYTE SIZE
DENCOD==^D2 ;BYTE PTR POS.
DEVLPC==DEVIAD ;BIT WHICH SAYS LAST RIB POINTER IS IN CORE
DESLPC==^D1 ;BYTE SIZE
DENLPC==^D4 ;BYTE POSITION
DEPLPC==20000 ;BIT
DEVSCN==DEVIAD ;SCANNING SWITCH FOR SFD'S
DESSCN==^D1 ;BYTE SIZE
DENSCN==^D3 ;POSITION
DEVFNC==DEVIAD ;HIGHEST FUNCTION THIS USER ALLOWED TO PERFORM ON THIS FILE
; SET BY CHKPRV ROUTINE
DESFNC==^D4 ;BYTE SIZE
DENFNC==^D8 ;BYTE PTR POS.
; FUNCTION CODES ARE DEFINED IN ORDER OF INCREASING POWER
; 0 - MEANS CHKPRV HAS NOT STORED ANY FUNCTION YET
FNCEXC==1 ;EXECUTE ONLY
FNCRED==2 ;READ
FNCALL==3 ;ALLOCATE
FNCDLL==4 ;DEALLOCATE
FNCAPP==5 ;APPEND
FNCUPD==6 ;UPDATE
FNCCRE==7 ;CREATE
FNCSUP==10 ;SUPERSEDE
FNCTRN==11 ;TRUNCATE
FNCCAT==12 ;CHANGE ATTRIBUTES(EXCEPT PRIVILEGE,NAME,DIR)
FNCDEL==13 ;DELETE
FNCCNM==14 ;CHANGE NAME
FNCCPR==15 ;CHANGE PRIVILEGE
DEVEUN==DEVIAD ;LOGICAL UNIT WITHIN STR ON WHICH ERROR REGION - WORD ADR
DESEUN==^D4 ;BYTE SIZE
DENEUN==^D12 ;BYTE PTR. POS.
DEVOAD: BYTE (1)$SWAP(8)0(4)0(1)ZERO13(4)0(18)0
;BIT 13=0, RH=POINTER TO USER OUTPUT BUFFER
DEVSWP==DEVOAD ;SIGN BIT = 1 FOR SWAPPING DDB
DEPSWP==400000
DEVLIB==DEVOAD ;BIT ON IF LOOKUP FROM LIB/SYS
DEPLIB==200000 ;THE BIT
DEVRLC==DEVOAD ;RELATIVE ADDRESS (0-127) WITHIN 128 WORD RIB OF FIRST
; RETRIEVAL POINTER IN DDB (DEVRB1 OR DEVRB1+1)-WORD ADR.
DESRLC==^D7 ;BYTE SIZE
DENRLC==^D8 ;BYTE PTR.POS.
DEVUWZ==:DEVOAD ;USE TO WRITING ZEROES - WORD ADDR
DEPUWZ==:400 ;BIT G=1 IF MONWRT CALLED FROM USETZ
DEVPP0==:DEVOAD ;E+3 WAS 0 ON LOOKUP - WORD HDR
DEPPP0==:200 ;BIT=0 IF E+3 WAS 0
DESPP0==1
DENPP0==^D10
DEVFDA==:DEVOAD ;FILE DAEMON SHOULD BE CALLED ON CLOSE
DEPFDA==:100 ;BIT=1 IF FILE DAEMON SHOULD BE CALLED ON CLOSE
DEVSTS:!0 ;WORD FOR DEVICE CONI
IFE $SWAP,<
DEVSTA:!XWD .TYDSK,DEPEVM
>
IFN $SWAP,<
DEVSTA:!XWD <TYPMAX+1>*.TYEST,DEPEVM ;NOT A LEGAL DEVICE TYPE
>
DEVCPT==DEVSTA ;READ FILE IN 10/11 COMPATABILITY MODE
DEPCPT==200000 ;THE BIT
DEVXTR:!0
DEVUVA==DEVXTR ;LH = USER VIRT ADR OF CHKSUM WORD
DEVLVL==DEVXTR ;CURRENT LEVEL OF SFD NESTING
DESLVL==^D3 ;BYTE SIZE
DENLVL==^D20 ;BYTE POINTER POSITION
DENLV2==^D35 ;BYTE POINTER POSITION
DEVWRT==DEVXTR ;THIS DDB IS WRITING (UPDATING)
DEPWRT==40000 ;THE BIT
DEVBFN==DEVXTR ;NUMBER OF INPUT BUFFERS
DESBFN==^D9 ;BYTE SIZE
DENBFN==^D30 ;POSITION
DEVPAL==:DEVXTR ;PRE-ALLOCATE FILE
DEPPAL==:20 ;BIT 31=1 IF PRE-ALLOCATE
DEVEVM:!0
DEVPSI:!0
DEVESE:!0 ;EXTENDED SOFTWARE ERROR STATUS
DEVHCW:!0 ;HARDWARE CHARACTERISTICS WORD
DEVCPU::!707000,,0 ;MULTI-CPU INFORMATION. Q-PROTOCOL 1
DEVJOB:!0 ;JOB NUMBER AND UNIT NUMBER
DEVFSN==DEVJOB0 ;OLD FILE STRUCTURE NUMBER (LAST LOOKUP OR ENTER)
; USED ON SUPERSEDING FILE AT CLOSE TIME
DESFSN==:.FSSIZ ;BYTE SIZE
DENFSN==^D17 ;POSITION
DEVFIL:!0 ;OLD FILE NAME (LAST LOOKUP OR ENTER) - ARG TO FNDFIL
DEVEXT:!XWD 0,0 ;LH=OLD FILE EXTENSION (LAST LOOKUP OR ENTER) -ARG TO FNDFIL
DEVLFT==DEVEXT ;RH=+NO. OF BLOCKS LEFT IN CURRENT GROUP
; DECREMENTED AT DATA DONE INTERRUPT
DEVPPN:!0 ;OLD DIRECTORY NAME (PROJ,R) -NOT ARG TO FNDFIL
IFN FTKL10&FTMP,<
DEVNBF:!0 ;NO OF BUFS SWEPT FOR
DEVSBF:!0 ;COPY OF DEVNBF
DEVCSN:!0 ;SWEEP SERIAL NO
>
DEVDMP:!0 ;CURRENT IOWD FOR DUMP MODE OPERATIONS(CURRENT GROUP ONLY)
; (MAYBE SMALLER THAN ONE OF USER'S IOWD
; IF BLOCKS AREN'T CONTIGUOUS)
; OR CURRENT IOWD FOR MONITOR IO(EXEC ADDRESSES)
; SEE MONRED,MONWRT WHICH PUSH DEVDMP BEFORE USING
; OR LOGICAL DISK ADR. WITHIN UNIT OF DIRECTORY RIB(MFD OR UFD)
DEVRET:!XWD ZERO18,0 ;RH=CORE ADR IN DDB OF CURRENT RETRIEVAL POINTER
;BITS 0-17=0 FOR CAI TESTING
DEVREL:!0 ;RELATIVE BLOCK NUMBER WITHIN FILE TO BE READ OR
; WRITTEN ON NEXT INPUT OR OUTPUT UUO
IFN FTDHIA,<
INTERN DEVDIA
DEVDIA==DEVREL ;DATA FOR DIAG. UUO
>
DEVUNI:!XWD 0,0 ;LH CORE ADR. OF ORIGINAL UNIT DATA BLOCK(I.E. WHERE RIB IS)
;RH=CORE ADR.(UPWARD PNTR) TO CURRENT UNIT DATA BLOCK
;DEVUNI IS CLEARED WHEN A F/S IS BEING REMOVED
; (STRUUO(.FSREM)). THE UNIT (RH DEVUNI) IS
; IS REMEMBERED IN DEVFUN.
DEVUFB:!XWD ZERO18,0 ;RH=ADDR.(UPWARD POINTER) OF UFD
; DATA BLOCK THIS FILE IS IN
IFN FTSFD,<
DEVSFD:!XWD 0,0 ;RH=LOC OF NMB FOR FATHER SFD IF FILE IS IN AN SFD
;LH IS USED IN RENAMING ACCROSS DIRECTORIES
>
DEVBLK:!0 ;THE LOGICAL BLOCK NUMBER WITHIN UNIT NEXT TO BE READ OR
; WRITTEN BY AN INPUT OR OUTPUT UUO. UPDATED
; AFTER (RATHER THAN BEFORE) A SUCCESSFUL DATA
; TRANSFER AT INTERRUPT LEVEL.
DEVRSU:!XWD 0,0 ;LH=NEG. NO. OF RETRIEVAL POINTER POSITIONS TO GO IN
; RETRIEVAL BLOCK BEFORE RETRIEVAL BLOCK IS FULL
DEVACC==DEVRSU ;RH=CORE ADDR (UPWARD PTR) TO ACCESS TABLE ENTRY
; FOR THIS USER CHAN.
DEVMBF:!0 ;IOWD TO MONITOR BUFFER (IF USER CHANNEL HAS ONE)
; 0 IF USER CHANNEL DOES NOT HAVE MONITOR BUFFER
DEVFLR:!0 ;FLOOR FOR RETRIEVAL POINTERS IN-CORE
;I.E., THE FIRST RELATIVE BLOCK WITHIN FILE WHICH
; FIRST IN-CORE RETRIEVAL POINTER POINTS TO
DEVFUN:!XWD 0,0 ;RH=UNIT DATA BLOCK ADR. OF FIRST RETRIEVAL POINTER IN CORE
;RH DEVUNI STORED HERE WHEN F/S BEING REMOVED
; (STRUUO(.FSREM)).
;LH UNUSED
DEVQUE::!0 ;LH=ADDRESS OF NEXT DDB IN EITHER SEEK/POSITION
; WAIT QUEUE OR TRANSFER WAIT QUEUE DEPENDING
; ON WHICH QUEUE THIS FILE IS ON
;RH=JOB NUMBER OF DDB WHOSE ADDRESS IS IN LH
;DEVQUE=0 WHEN DDB IS LAST IN QUEUE - ALSO
;FOR SAFETY, DEVQUE IS SET 0 WHEN FILE IS IN NEITHER QUEUE
MINDVQ==-DEVQUE ;MINUS DEVQUE
IFN FTDBBK,<
INTERN DEVELB
DEVELB:!0 ;FIRST LOGICAL BLOCK OF AN ERROR REGION
;BITS 3-8 HAVE ERROR CODE
>
DEVPRI:!0 ;RH = DISK PRIORITY
DEVLRL==DEVPRI ;LAST DEVREL (USED FOR USETO-1
; AFTER UPDATE ENTER)
IFN FTSPL,<
DEVSPN::!0 ;ENTERED FILENAME FOR SPOOLED FILE
DEVSPM::!0 ;POINTER TO SPOOLING PARAMETER BLOCK
>
DEVRIB:!0 ;UNIT, ADDRESS AND COUNT OF CURRENT RIB
;BIT 0=1 IF AN EXTENDED RIB
DESRBC==^D8 ;COUNT OF RIBS, BYTE SIZE
DENRBC==^D8 ;BYTE POSITION, POINTER IS DEYRBC
DESRBU==^D4 ;LOGICAL UNIT WITHIN STR, BYTE SIZE
DENRBU==^D12 ;BYTE POSITION, POINTER IS DEYRBU
DESRBA==^D23 ;CLUSTER ADDRESS, BYTE SIZE
DENRBA==^D35 ;BYTE POSITION, POINTER IS DEYRBA
DEVUPP::!0 ;"IN YOUR BEHALF" PPN
DEVCUR::!0 ;CURRENT UNIT DOING IO FOR THIS DDB
DEVRAD==:DEVCUR ;RENAME ACROSS DIRECTORIES IN PROGRESS
DEPRAD==:400000 ;BIT0=1 IF RENAME
DEVPRV==:DEVCUR ;DONT CHECK PRIVS ON LOOKUP
DEPPRV==:200000 ;BIT1=1 IF DONT CHECK
DEVRRC==:DEVCUR ;AUTO-REWRITE OF RIB ON CHANGE
DEPRRC==:100000 ;BIT ON IF ENABLED
DEPRHC==:4000 ;BIT ON IF RIB HAS CHANGED
DEVPHO==:DEVCUR ;PHYSICAL-ONLY OPEN
DEPPHO==:2000 ;BIT=1 IF PHONLY ON IN INIT
DEVGEN::!0 ;LH=GENERATION NUMBER OF UDB WHICH DDB IS CONNECTED TO
DEVCPY==:DEVGEN ;RH=ADDRESS OF CORE-COPY OF RETRIEVAL POINTERS (OR 0)
IFN FTLIB,<
DEVLNM::!0 ;RH=LOC OF LOGICAL NAME SPEC WE ARE USING
;LH=CURRENT SFD WE'RE LOOKING FOR IN THAT SPEC
>
DEVRB1:!0 ;FIRST RETRIEVAL POINTER GOES HERE IN DDB
;EACH (REAL) RETRIEVAL POINTER CONSISTS OF THREE FIELDS:
; A. CLUSTER COUNT
; B. CHECKSUM OF FIRST CHKNUM WORDS IN FIRST BLOCK OF GROUP
; C. CLUSTER ADDRESS (23 BITS MAX.)
;THE WIDTHS OF THESE FIELDS ARE DIFFERENT FOR EACH FILE STRUCTURE
; A. STRCNP
; B. STRCKP
; C. STRCLP
;IF THE CLUSTER COUNT IS 0, THE POINTER IS NOT A REAL POINTER
;IT MAY BE EITHER:
; A. A NEW UNIT WITHIN THE FILE STRUCTURE(IF BIT 18 =1)
; BITS 19-35 SPECIFY THE LOGICAL UNIT WITHIN FILE STRUCTURE
; B. AN EOF FLAG IF WHOLE WORD IS 0
MPTRLN==-PTRLEN ;- NO. OF POINTERS KEPT IN CORE
DEVRB2:!0 ;SECOND RETRIEVAL POINTER
BLOCK PTRLEN-3 ;IN-CORE RET. PTRS HERE 3,4,...RBN-1
DEVRBN:!0 ;LAST RETRIEVAL PTR IN CORE
DEVFAK==DEVRBN-4 ;TEMP BLOCK FOR SPOOL-MODE ENTER
DDBLEN==:.-DEVNAM ;LENGTH OF DSK DDB IN WORDS
DEPHASE
$LOW
$SWAP==1 ;SECOND TIME THROUGH THE REPEAT PRODUCES SWPDDB
LIST
> ;END REPEAT REPN
SWPDDB=.-DDBLEN ;ADDR OF SWAPPING DDB
;SYSINI LINKS SWPDDB INTO
; SYSTEM DEVICE LIST IN FRONT OF THE PROTOTYPE
; DSKDDB. ONLY HUNG TIMEOUT USES SWPDDB
SWPDMP=SWPDDB+DEVDMP ;IOWD FOR SWAPPER
SWPBLK=SWPDDB+DEVBLK ;BLOCK NUMBER FOR SWAPPER
$HIGH
;BYTE POINTERS TO FIELDS IN DEVICE DATA BLOCK
DEYCOD: POINT DESCOD,DEVCOD(F),DENCOD ;FILE STATUS CODE - I,SW,S,PW,P,TW,T1
DEXCOD::POINT DESCOD,DEVCOD(T2),DENCOD
DEYRLC: POINT DESRLC,DEVRLC(F),DENRLC ;RELATIVE ADR (0-127) WITHIN 128 WORD RIB OF
; 1ST RETRIEVAL PTR IN DDB(DEVRB1 OR DEVRB1+1)
DEYFSN: POINT DESFSN,DEVFSN(F),DENFSN ;OLD FILE STRUCTURE NUMBER (0-15 OCTAL)
; SET ON LAST LOOKUP OR ENTER
; USED AT CLOSE TIME WHEN SUPERSEDING
DEYFNC: POINT DESFNC,DEVFNC(F),DENFNC ;HIGHEST FUNCTION THIS USER IS ALLOWED TO DO ON
; THIS FILE, SET BY CHKPRV ON FIRST CALL
IFN FTDBBK,<
INTERN DEYEUN
DEYEUN: POINT DESEUN,DEVEUN(F),DENEUN ;LOGICAL UNIT WITHIN STR OF
;ERROR REGION(0... )
DEYELB::POINT 27,DEVELB(F),35 ;POINTER TO ERROR BLOCK WITHIN UNIT
>
DEYRBU: POINT DESRBU,DEVRIB(F),DENRBU ;LOGICAL UNIT NUMBER OF CURRENT RIB
DEYRBA: POINT DESRBA,DEVRIB(F),DENRBA ;CLUSTER ADDRESS OF CURRENT RIB
DEYRBC: POINT DESRBC,DEVRIB(F),DENRBC
IFN FTSFD,<
DEYLVL: POINT DESLVL,DEVLVL(F),DENLVL ;POINTER TO CURRENT LEVEL OF NESTING
DEYLV2: POINT DESLVL,DEVLVL(F),DENLV2 ;POINTER TO SAVED LEVEL OF NESTING, BITS 33-35
DEYSCN: POINT DESSCN,DEVSCN(F),DENSCN
DEYPP0::POINT DESPP0,DEVPP0(F),DENPP0
>
IFN FTDPRI,<
INTERN DEYPRI,DEXPRI,JBYPRI,JBZPRI,JBXPRI
DEXPRI: POINT 4,DEVPRI(F),29 ;INCLUDES DEPUUO BIT
DEYPRI: POINT 3,DEVPRI(F),29 ;DOES NOT INCLUDE SET-BY-UUO BIT
JBXPRI: POINT 3,JBTSPL##(T1),26
JBYPRI: POINT 3,JBTSPL##(J),26 ;JOB'S CURRENT PRIORITY
JBZPRI: POINT 2,JBTPRV##(J),2 ;MAX DISK PRIORITY JOB CAN SET
MXNDPR==:-3 ;- HIGHEST DSK PRIORITY POSSIBLE
>
PINBFN: POINT DESBFN,DEVBFN(F),DENBFN ;NO OF INPUT BUFFERS
JBYLVL::POINT 3,JBTPPB(J),17
$LOW
;ERROR CODES FOR UUO'S
;THE FOLLOWING ARE ERROR CODES FOR STRUUO
XP .ERILF,0 ;ILLEGAL FUNCTION CODE (TOO LARGE)
XP .ERSNF,1 ;1 OR MORE FILE STRUCTURES NOT FOUND (.FSSRC)
XP .ERSSA,2 ;1 OR MORE FILE STRUCTURES SINGLE ACCESS ONLY (.FSSRC)
XP .ERILE,3 ;1 OR MORE ILLEGAL ENTRIES (.FSSRC)
XP .ERTME,4 ;TOO MANY ENTRIES IN SEARCH LIST (.FSSRC)
XP .ERUNA,5 ;1 OR MORE UNITS NOT AVAILABLE (.FSDEF)
XP .ERNBM,6 ;1 OR MORE UNITS NOT IN BEING MOUNTED STATE (.RSRDY)
XP .ERMCN,7 ;CANT REDEFINE FILE STRUCTURE BECAUSE MOUNT COUNT NOT 0(.FSRDF)
XP .ERNPV,10 ;NOT PRIVILEGED USER
XP .ERNPM,11 ;NO UNITS MENTIONED
XP .ERPST,12 ;UNIT NOT IN NO PACK MOUNTED STATE
XP .ERNID,13 ;NO UNIT ID SPECIFIED
XP .ERNFS,14 ;SYSTEM FULL OF FILE STRUCTURES
XP .ERNCS,15 ;NOT ENOUGH FREE CORE FOR DATA BLOCK
XP .ERUNF,16 ;ILLEGAL UNIT
XP .ERRSL,17 ;FILE STRUCTURE REPEATED IN SEARCH LIST DEFINITION (.FSSRC)
XP .ERNSI,20 ;NO SAT INFO IN STR DEFINITION (.FSDEF)
SUBTTL HOM: WORD POSITIONS IN HOME FILE DATA BLOCK
;PREFIX "HOM"
;EACH FILE STRUCTURE HAS ONE HOME FILE HOME.SYS. IT IS A "SPARSE FILE"
;WITH RETRIEVAL INFORMATION IN FIRST BLOCK OF EACH GROUP. HOWEVER ONLY
;THE SECOND BLOCK OF EACH GROUP (1 CLUSTER) HAS DATA, THE REMAINING ONES
;(IF ANY) ARE 0, THE HOME FILE IS CONSTRUCTED SO THAT EACH GROUP IS ON A
;SEPARATE UNIT WHERE 'UNIT' IS A SIDE OF A BRYANT MDF DISK, ONE OUT OF UP TO
;FOUR BURROUGHS FIXED HEAD DISKS, ETC.
INTERN HOMNAM,HOMHID,HOMPHY,HOMSNM,HOMNXT,HOMPRV,HOMLOG
INTERN HOMLUN,HOMPPN,HOMHOM,HOMGRP,HOMSAT,HOMMFD,HOMSWP,HOMCRS,HOMMNT
INTERN HOMBAD,HOMPT1,HOMCNP,HOMCKP,HOMCLP,HOMK4S,HOMUTP
INTERN HOMBPC,HOMBSC,HOMSCU,HOMREF,HOMSIC,HOMSID,HOMSUN,HOMOVR
INTERN HOMGAR,HOMSLB,HOMCFS,HOMSPU,HOMCOD,CODHOM,HOMSLF,HOMTAB,HOMLEN
INTERN HOMSNP,HOMRCV,HOMSUF,HOMPUF,HOMUN1,HOMSRC,HOMK4C,HOMEND
INTERN HOMBTS,HOMSDL
IFN FTPSTR,<
INTERN HOMPVS,HOPPVS
>
;DATA LOCATIONS IN HOME BLOCK:
;WRITTEN BY MAP PROGRAM:
HOMNAM==BLKNAM ;"HOM" IN SIXBIT (WRITTEN BY MAP PROGRAM)
HOMHID==1 ;SIXBIT UNIT ID (WRITTEN BY MAP PROGRAM)
HOMPHY==2 ;LH=PHYSICAL ADDRESS OF THIS HOME BLOCK ON THIS UNIT
;RH=PHYSICAL ADDRESS OF OTHER HOME BLOCK ON THIS UNIT
; BYTE (8) CYL ADR, (5) SURFACE, SECTOR ADR.
; (WRITTEN AND USED BY MAP PROGRAM)
; NO WORDS BELOW ARE CHANGED BY THE MAP PROGRAM
;WRITTEN BY OPTIONAL ONCE ONLY DIALOG:
HOMSRC==3 ;LOCICAL POSITION OF THIS STR IN "SYS" SEARCH LIST(0...N)
; -1 MEANS NOT IN SYS SEARCH LIST
HOMSNM==4 ;SIXBIT FILE STRUCTURE NAME THIS UNIT BELONGS TO
; 0 INDICATES NOT IN A FILE STRUCTURE
; [IGNORED BY MONITOR WHEN A PACK IS MOUNTED
; FILE STRLST.SYS IS FINAL AUTHORITY FOR THE STR NAME]
HOMNXT==5 ;SIXBIT UNIT ID OF NEXT UNIT IN THIS FILE STRUCTURE.
; 0 IF THIS UNIT IS LAST OR ONLY UNIT IN FILE STRUCTURE.
; [CHECKED BY MONITOR AND OMOUNT CUSP WHENEVER PACK IS MOUNTED]
HOMPRV==6 ;SIXBIT UNIT ID OF PREVIOUS UNIT IN THIS FILE STRUCTURE.
; 0 IF THIS UNIT IS ONLY UNIT IN FILE STRUCTURE.
; [CHECKED BY MONITOR & OMOUNT CUSP WHENEVER PACK IS MOUNTED]
HOMLOG==7 ;SIXBIT LOGICAL UNIT NUMBER WITHIN FILE STRUCTURE OF THIS UNIT
; (E.G. DSKA0,DSKC12)
HOMLUN==10 ;LOGICAL UNIT NUMBER WITHIN FILE STRUCTURE OF THIS UNIT
; [CHECKED BY MONITOR AND OMOUNT CUSP WHENEVER PACK IS MOUNTED]
HOMPPN==11 ;PROJECT PROGRAMMER NUMBER OF USER WHO REFRESHED DISK
; UNDER TIME SHARING OR 0.
HOMHOM==12 ;LH=LOGICAL BLOCK NUMBER WITHIN UNIT(NOT STR)
; FOR 1ST. "HOME" BLOCK. RH=LOGICAL BLOCK NO. WITHIN UNIT OF
; REDUNDANT HOME BLOCK(IN CASE FIRST HOME BLOCK IS BAD)
; NOTE: RESTRICTION THAT HOME BLOCKS ARE RESTRICETED TO FIRST
; 262,000 BLOCKS ON A UNIT. KNOWING LOGICAL BLOCK ADR. OF
; HOME BLOCKS IS USEFUL ONLY TO RECOVERY PROGRAMS WHEN FILE
; STRUCTURE HAS BEEN CLOBBERRED. MOST PROGRAMS WILL READ HOME
; BLOCKS VIA FILE HOME.SYS
HOMGRP==13 ;NO. OF BLOCKS (NOT CLUSTERS) PER GROUP TO TRY FOR
; ON SEQUENTIAL OUTPUT ALLOCATION
HOMBSC==14 ;# BLOCKS PER SUPER CLUSTER IN THIS STR
HOMSCU==15 ;# SUPER CLUSTERS PER UNIT
HOMCNP==16 ;BYTE POINTER FOR CLUSTER COUNT IN A RETRIEVAL POINTER
HOMCKP==17 ;BYTE POINTER FOR CHECKSUM IN A RETRIEVAL POINTER
HOMCLP==20 ;BYTE POINTER FOR CLUSTER ADDRESS IN A RETRIEVAL POINTER
HOMBPC==21 ;# BLOCKS PER CLUSTER(SAME FOR ALL UNITS IN AN STR)
HOMK4S==22 ;# OF K WORDS OF THIS UNIT USED FOR SWAPPING
; 0 MEANS NO SWAPPING SPACE ALLOCATED
HOMREF==23 ;NON-ZERO IF FILE STRUCTURE MUST BE REFRESHED
; BECAUSE SOME PARAMETER FOR THIS UNIT HAS BEEN CHANGED
; SET BY DISK ONCE ONLY CODE,CHECKED WHEN SYSTEM IS STARTED
; AND BY OMOUNT WHEN PACK MOUNTED
HOMSIC==24 ;# SAT BLOCKS IN CORE
HOMSID==25 ;SWAPPING ID - SIXBIT UNIT ID OF NEXT UNIT IN ACTIVE SWAPPING LIST
; 0 IF LAST UNIT( OR UNIT NOT IN ACTIVE SWAPPING LIST)
HOMSUN==26 ;LOGICAL UNIT # IN ACTIVE SWAPPING LIST(0,...,7).
; -1 INDICATES UNIT IS NOT IN ACTIVE SWAPPING LIST.
; (MAYBE CHANGED AT ONCE TIME WITHOUT REQUIRING REFRESHING
; PROVIDED SWAPPING SPACE ALLOCATED AT REFRESH TIME.)
HOMSLB==27 ;1ST. LOGICAL BLOCK ON UNIT FOR SWAPPING
HOMCFS==30 ;SWAPPING CLASS FOR UNIT
HOMSPU==31 ;# SAT BLOCKS PER UNIT
HOMOVR==32 ;-# OF BLOCKS OF OVERDRAW ALLOWED A USER ON THIS STR BEFORE
; NO MORE OUTPUTS ALLOWED.
HOMGAR==33 ;UPPER BOUND ON # OF BLOCKS GUARRANTEED TO USERS BY RESERVED
; QUOTAS.
;WORDS WRITTEN BY REFRESHER:
HOMTAB==34 ;FIRST LOC OF TABLE OF LOG. BLOCK NOS OF SYSTEM FILES
HOMSAT==HOMTAB ;LOGICAL BLOCK NO. WITHIN STR(NOT UNIT) OF 1ST RIB FOR SAT.SYS
HOMHMS==35 ; " FOR HOME.SYS
HOMSWP==36 ; " FOR SWAP.SYS
HOMMNT==37 ; " MAINT.SYS
HOMBAD==40 ; " BADBLK.SYS
HOMCRS==41 ; " FOR CRASH.EXE
HOMSNP==42 ; " SNAP.SYS
HOMRCV==43 ; " RECOV.SYS
HOMSUF==44 ; " SYS UFD
HOMPUF==45 ; " PRINTR UFD
HOMMFD==46 ; " FOR MFD [1,1].UFD
HOMPT1==47 ; COPY OF 1ST RETRIEVAL POINTER FOR MFD FOR STR THIS UNIT IS IN
HOMUN1=50 ;LOGICAL UNIT NUMBER OF UNIT ON WHICH MFD BEGINS
HOMLEN==51 ;FIRST ADDRESS OF TABLE OF LENGTHS OF FILES CREATED BY REFRESH
; LENGTHS NEEDED ARE FOR CRS,SNP,RCV, AND UFDS (IN THAT ORDER)
;57 IS LAST FILE LENGTH
HOMUTP==57 ;UNIT TYPE ON WHICH HOME BLOCK WAS WRITTEN (SEE UNYUTP)
HOMRIP==60 ;USED BY RIPOFF
HOMKLB==61 ;20 WORDS USED BY PDP-11 IN KL10 SYSTEMS
HOMFEB==:61 ;BLOCK NO OF FE.SYS (1ST DATA BLOCK)
FEVALID==:100000 ;VALID ADR IF ON
HOMFEL==:62 ;LENGTH OF FE.SYS
HOMFEA==101 ;FE-FILE ADDRESS FOR KS10
HOMFES==102 ;FE-FILE LENGTH FOR KS10
HOMTCS==103 ;TRACK/CYL/SECTOR FOR KS10
HOMKLE==104 ;TO FIND FILES FOR BOOTSTRAP/DUMP
HOMK4C==105
HOMBTS==106 ;BITS IN THE HOME BLOCK
IFN FTPSTR,<
HOMPVS==HOMBTS ;WORD CONTAINING BIT WHICH SAYS PRIVATE STR
HOPPVS==1B35 ;ON IF THIS UNIT IS CONTAINED IN A PRIVATE STR
HOSPVS==1 ;BYTE SIZE
HONPVS==^D35 ;BYTE PTR POS.
$HIGH
HOYPVS::POINT HOSPVS,HOMPVS(P1),HONPVS ;BYTE POINTER TO BIT WHICH
; IF 1 SAYS THIS UNIT IS IN A PRIVATE STR
$LOW
>
HOMSDL==107 ;POSITION OF THIS STR IN SYSTEM DUMP LIST (1...N)
;-1 OR 0 MEANS NOT IN SDL (0 FOR COMPATABILITY)
HOMEND==107 ;LAST WORD CONTAINING VALID DATA IN HOME BLOCK
HOMVID==:165 ;VOLUME ID (3 WORDS, 12 PDP-11 BYTES)
HOMOKC==:170 ;K FOR CRASH.SAV FILE
HOMVSY==:173 ;SYSTEM TYPE (TOPS-10)
HOMCOD==176 ;CONTAINS UNLIKELY CODE, LH=0
CODHOM==707070 ;THE UNLIKELY CODE FOR THE HOME BLOCK
HOMSLF==177 ;LH=0, RH=THIS BLOCK (NO.T CLUSTER) ADR. WITHIN UNIT (SELF)
HOMOWN==:170 ;OWNER NAME
HOMFLG::0 ;COUNT OF UNITS NEEDING HOME BLOCKS REREAD
RHBIOW::-10,,HOMBUF-1 ;IOWD TO READ HOME BLOCKS AFTER FREE INTERRUPT
0
HOMBUF::BLOCK 10
HOMBID=:HOMBUF+HOMHID
HOMBLG=:HOMBUF+HOMLOG
;"ISW": INITIAL SAT BLOCK FOR SWAPPING ON THIS UNIT
; WRITTEN AT MANDATORY ONCE ONLY TIME WITH 1 BIT FOR EVERY BLOCK ON UNIT
; READ BY SWPINI ON EVERY 143 RESTART
; SAME FORMAT AS "SAF" BLOCK I.E. ALL BITS, NO OVERHEAD
SUBTTL LNM: LOGICAL NAME SPECIFICATIONS
INTERN LNMNAM,LNMDEV,LNMPPN,LNMSFD,LNRDEV,LNRPPN,LNRSFD
LNMNAM==0 ;NAME OF LOGICAL DEVICE
LNMDEV==1 ;DEVICE (SEARCH LIST)
LNMPPN==2 ;PPN
LNMSFD==3 ;1ST SFD
LNRDEV==0 ;SEARCH LIST, RELATIVE TO CURRENT DEVICE
LNRPPN==1 ;PPN, RELATIVE TO DEVICE
LNRSFD==2 ;1ST SFD, RELATIVE TO DEVICE
LNMMXL==:144 ;MAX LENGTH OF ANY LOGICAL NAME SPECIFICATION
LNMMAX==:77 ;MAX NO OF LOGICAL NAMES
;BITS IN READ/SET LOGICAL NAME FUNCTIONS OF PATH.
LN.LIB==:400000 ;BIT 0 =1 IF THIS IS A LIB
LN.UDF==:200000 ;BIT 1=1 IF UNDEFINE THIS LOG NAME
LN.RIT==:100000 ;BIT 2 = 1 IF RETURN INFO ABOUT THIS LOG NAME, RATHER THAN NEXT
;FORMAT OF TABLE POINTED AT BY .UPLNM:
;BITS 18-35 = ADRESS OF LNMNAM
;BITS 14-17 = 0
;BIT 0=1 IF LIB
;BITS 5-11 = LENGTH OF LNM SPEC
$HIGH
LNYLEN::POINT 7,@.UPMP+.UPLNM,11
$LOW
SUBTTL MONITOR JOB TABLES - ONE ENTRY PER JOB
INTERN SYSBG3,SYSEN3
SYSBG3: ;1ST. LOCATION CLEARED BY ACCINI ON 403 (RE)START
IFN FTSTR!FTTRACK!FTSFD,<
INTERN JBTPPB
JBTPPB: BLOCK JOBN ;LOC OF PPB(PROJ-PROG) BLOCK FOR JOB(IN FREE CORE)
;NOT IN GETTAB UUO BECAUSE SUBJECT TO CHANGE AND INFO
; IF AVAILABLE VIA OTHER UUOS.
;BITS 15-17 DEFAULT SFD LEVEL
>
IFE FTSTR,<
ALLNDX==0
SYSSRC==0
ZPPNDX==0
>
IFN FTSFD,<
INTERN JBTSFD,JBPSCN,JBPUFB,SFYSCU,JBPSYS,JBPXSY
JBTSFD: BLOCK JOBN ;RH(BITS 18-33)= LOC OF DEFAULT SFD NMB OR 0
JBPSCN==1 ;BIT 35=1 IF SCANNING IS ON, =0 IF SCANNING OFF
JBPUFB==2 ;BIT 34=1 IF JBTSFD POINTS TO A UFB
;LH JBTSFD - USED IF FTLIB ON-
;BITS 0-15=LOC OF PPB FOR LIBRARY
JBPSYS==1 ;BIT 17=1 IF SEARCH SYS AFTER DSK
JBPXSY==2 ;BIT 16=1 IF SEARCH NEW BEFORE SYS
> ;END CONDITIONAL ON FTSFD
IFN FTDSTT,<
INTERN JBTRCT,JBTWCT,JBYRCT,JBYWCT,JBYIRD,JBDIRD,MJBDRD,JBRIRD,JBRIWT
JBTRCT: BLOCK JOBN ;NO. OF DISK BLOCKS READ ON ALL STRS SINCE JOB LOGGED IN
;JOB 0=SWAP READ ON ALL UNITS
JBTIRD==JBTRCT ;INCREMENTAL READ COUNT - WORD ADR.
; ACTUALLY IT IS A COPY OF THE LOW ORDER 12 BITS
; OF THE ACCUMULATED READS FOR THIS JOB.
; IT IS RESET TO NEW LOW ORDER TOTAL AFTER EVERY
; "DISK" COMMAND. IN THIS WAY ONLY ONE COUNT NEED
; BE INCREMENTED EVERY READ INSTEAD OF TWO.
; INCREMENTAL DISK BLOCKS READ IS COMPUTED BY:
; LDB T1,JBYRCT;LDB T2,JBYIRD;DPB T1,JBYIRD;SUB T1,T2
; ANDI T1,JBRIRD
JBSIRD==^D12 ;BYTE SIZE
JBNIRD==^D11 ;BYTE PTR POS.
JBRIRD==1_JBSIRD-1 ;BITS IN BYTE AFTER RIGHT JUSTIFIED
JBSRCT==^D24 ;BYTE SIZE
JBNRCT==^D35 ;BYTE PTR POS
JBTWCT: BLOCK JOBN ;NO. OF DISK BLOCK WRITTEN ON ALL STRS SINCE JOB LOGGED IN
; INCLUDING ALL OVERHEAD BLOCKS
;JOB 0=SWAP WRITE ON ALL UNITS
JBDIRD==JBTWCT-JBTRCT ;DIFFERENCE BETWEEN TWO ORIGINS
MJBDRD==JBTRCT-JBTWCT ;MINUS DIFFERENCE
JBTIWT==JBTWCT ;INCREMENTAL WRITE COUNT - WORD ADR
; SEE JBTIRD
JBSIWT==^D12 ;BYTE SIZE
JBNIWT==^D11 ;BYTE PTR POS
JBRIWT==1_JBSIWT-1 ;BITS IN BYTE AFTER BEING RIGHT JUSTIFIED
JBSWCT==^D24 ;BYTE SIZE
JBNWCT==^D35 ;BYTE PTR POS
> ;END CONDITIONAL ON FTDSTT
PATTRM==.-SYSBG3-1
SYSEN3=.-1 ;LAST LOCATION CLEARED BY ACCINI ON 143 (RE)START
$HIGH
IFN FTDSTT,<
JBYIRD: POINT JBSIRD,JBTIRD(J),JBNIRD ;BYTE POINTER
JBYRCT: POINT JBSRCT,JBTRCT(J),JBNRCT ;BYTE POINTER
;JBYIWT: POINT JBSIWT,JBTIWT(J),JBNIWT ;BYTE POINTER
JBYWCT: POINT JBSWCT,JBTWCT(J),JBNWCT ;BYTE POINTER
> ;END CONDITIONAL ON FTDSTT
IFN FTSFD,<
SFYSCU: POINT 2,JBTSFD(J),35 ;POINTER FOR JBPUFB & JBPSCN
>
$LOW
SUBTTL KONTROLLER DATA BLOCKS
INTERN KONERM,KOPOFL,KOPFUS,KOPOFS,KOPPWX
;DEVICE INDEPENDENT STUFF
KONERM==740000 ;MASK FOR ERROR BITS RETURNED IN T1 ON NON-SKIP RETURNS
KOPOFL==400000 ;'OFF-LINE' OR 'NOT-READY' OR 'FILE UNSAFE' BIT (LIGHTS UNPOFL IN UNIDES)
KOPFUS==200000 ;FILE UNSAFE - ADD TO MESSAGE TO OPERATOR
KOPOFS==KOPOFL+KOPFUS
KOPUSI==:100000 ;UNIT STATUS INCONSISTENT
DEFINE KONTCB (X,U,S)<
$U==0
IRP U,<
IFE $U-$'X'NUM,<
X'KON (X,U,\$'X'NUM)
$K==1
REPEAT X'U'UN,<
$SM1==$S-1
$CM1==$C-1
$KM1==$K-1
IFN M.CH'S'T-4,<
UNITCB (\$KM1,X,U,\$S,\$SM1,\"<$C+"A">,\"<$CM1+"A">,\$K,S,TYP'X,$U)
>
IFE M.CH'S'T-4,<
UNITCB (\$KM1,RP,U,\$S,\$SM1,\"<$C+"A">,\"<$CM1+"A">,\$K,S,TYP'X,$U)
>
$S==$S+1
$C==$C+1
$K==$K+1>
$KM1==$K-1
IFN M.CH'S'T-4,<
KONCLS (\$KM1,X'U)
>;END IFN
IFE M.CH'S'T-4,<
KONCLS (\$KM1,RP'U)
>;END IFE
>
$U==$U+1
>> ;END MACRO DEF OF KONTCB
REPEAT 0,<
TO ADD ANOTHER KONTROLLER TYPE XY, YOU MUST ADD ANOTHER REPEAT LOOP IN CHNCB
MACRO, REPEATING CNXY TIMES AND PASSING ARGUMENT XY TO KONTCB MACRO, PLUS A
LIST OF KONTROLLER IDENTIFIERS AND CHANNEL NUMBER IN ASCII.
KONTCB CALLS MACRO XYKON FOR THE KONTROLLER DEPENDENT PART OF THE KONTROLLER
CORE BLOCK; THAT MUST ALSO BE SUPPLIED. XYKON SHOULD CALL KONKON FOR THE
KONTROLLER INDEPENDENT PART OF THE KONTROLLER CORE BLOCK.
>
;KONTROLLER DATA BLOCK DISK PACKS (ONE DEFINITION NO MATTER
;HOW MANY DISK PACK KONTROLLERS)
;RP10 - CONTROLLER FOR RP01(MEMOREX) DISK PACK UNIT AND/OR RP02
; (MEMOREX) DISK PACK UNIT:
XP TYPDP,2 ;ALWAYS DEFINE CONTROLLER TYPE CODE - SEE UNIKTP
IFE RP10N,< ;IF NO RP10 CONTROLLERS:
INTERN DPXSTS
DPXSTS: MOVEI T2,0 ;DUMMY READ STATUS ROUTINE
POPJ P, ;ALWAYS CALLED BY ONCMOD
;RETURN 0 STATUS(NOT WRTIE LOCKED)
>
DEFINE DPKON (X,U,N)<
DPFIX==0 ;;NOT A FIXED HEAD DEVICE (IF 0)
DPOFS==400000 ;;NO OFFSET CAPABILITY
DPRDC==400000 ;;NO 10/11 COMPATABILITY MODE
DPUNL==400000 ;;NO UNLOAD CAPABILITY
DPCPY==400000 ;;KONTROLLER MUST BE IDLE TO DETERMINE UNIT TYPE
DPERNO==0 ;;NO DRIVE REGISTERS TO SAVE ON ERROR
KONKON (X,U,DP'N,DP'N,N)
;;KONTROLLER TYPE DEPENDENT PART OF KONTROLLER DATA BLOCK
DPIF==10 ;;INTERRUPT FLAGS FOR CONSO INSTR.
;;(DONE FLAGS)
DEFINE DPXUNI(Z)<
IFNDEF DP'Z,<DP'Z==250+4*<Z-M.DP'Z'P>>
>
ZZ==0
REPEAT M.RP10,<
DPXUNI(\ZZ)
ZZ==ZZ+1
>
EXTERN DPXKON
INTERN DPXCO1,DPXDOT,DPXDO1,DPXDI1,DPXCIT,DPXFNC,DPXIWD,DPXCI2,DPXDI3
DPXCCM==:CYLCM##
DPXCO1:!CONO DP'N,(T2)
DPXDOT:!DATAO DP'N,T1
DPXDO1:!DATAO DP'N,T2
DPXDI1:!DATAI DP'N,T2
DPXCIT:!CONI DP'N,T1
DPXCI2:!CONI DP'N,T2
DPXDI3:!DATAI DP'N,T3
DPXFNC:!EXP OPPOS ;;INITIAL FUNCTION CODE
;;MAKE IT BE POSITION IN CASE OPERATOR CAUSES
;;INTERRUPT BEFORE DISK PACKS ARE EVER USED BY SYSTEM
DPXIWD:!0
DEPHASE
> ;;END MACRO DEF OF DPKON
IFE RP10N,<
;SATISFY GLOBALS IN DPXCPY AND DPXUPA WHICH WILL NEVER BE CALLED BUT DO GET LOADED IF NO RP10'S
XP DPXCO1,0
XP DPXDOT,0
XP DPXDO1,0
XP DPXDI1,0
XP DPXCIT,0
XP DPDONE,0
XP DPCLR,0
XP DPATTN,0
>
;RC10 CONTROLLER FOR RD10(BURROUGHS) FIXED HEAD DISK UNIT AND/OR
; RM10B(BRYANT) DRUM UNIT:
XP TYPFH,1 ;ALWAYS DEFINE KONTROLLER TYPE CODE - SEE UNIKTP
DEFINE FHKON (X,U,N)<
FHFIX==400000 ;BIT 0 = 1 IF FIXED HEAD DEVICE
FHOFS==400000 ;NO OFFSET CAPABILITY
FHRDC==400000 ;;NO 10/11 COMPATABILITY MODE
FHUNL==400000 ;;NO UNLOAD CAPABILITY
FHCPY==400000 ;;KONTROLLER MUST BE IDLE TO DETERMINE UNIT TYPE
FHERNO==0 ;NO DRIVE REGISTERS TO SAVE ON ERROR
KONKON (X,U,FH'N,FH'N,N)
FHIF==10 ;INTERRUPT FLAGS FOR CONSO INSTR.
;;(DONE FLAG)
DEFINE FHXUNI(Z)<
IFNDEF FH'Z,<FH'Z==170+4*<Z-M.FH'Z'P>>
>
ZZ==0
REPEAT M.RC10,<
FHXUNI(\ZZ)
ZZ==ZZ+1
>
EXTERN FHXKON
INTERN FHXCI1,FHXCOT,FHXCO1,FHXDI2,FHXDOT,FHXIWD
FHXCCM==:CYLCM##
FHXCI1:!CONI FH'N,T2
FHXCOT:!CONO FH'N,(T1)
FHXCO1:!CONO FH'N,(T2)
FHXDI2:!DATAI FH'N,T3
FHXDOT:!DATAO FH'N,T1
FHXIWD:!0 ;INITWD STORAGE
DEPHASE
> ;END MACRO DEF OF FHKON
IFE RD10N,<
;SATISFY GLOBALS IN FHXCPY AND FHXUPA WHICH WILL NEVER BE CALLED BUT ARE LOADED IF NO RD10'S
XP FHXCI1,0
XP FHXCOT,0
XP FHXCO1,0
XP FHXDI2,0
XP FHXDOT,0
XP FHALCL,0
> ;END CONDITIONAL ON RD10N
;RH10 CONTROLLER FOR RS04 DISK:
XP TYPFS,4
DEFINE FSKON (X,U,N)<
FSFIX==400000 ;BIT 0=1 SINCE FIXED HEAD DISK
FSOFS==400000 ;NO OFFSET CAPABILITY
FSRDC==400000 ;;NO 10/11 COMPATABILITY MODE
FSUNL==400000 ;;NO UNLOAD CAPABILITY
FSCPY==0 ;;CAN TELL UNIT TYPE EVEN IF KONTROL IS BUSY
FSERNO==^D8 ;8 DRIVE REGISTERS TO SAVE ON ERROR
DEFINE FSXUNI(Z)<
IFE M.FS'Z'F,<ZZ==270>
IFE ZZ-300,<ZZ==360>
IFNDEF FS'Z,<FS'Z==ZZ>
ZZ==ZZ+4
>
ZZC==0
REPEAT M.RH1S,<
FSXUNI(\ZZC)
ZZC==ZZC+1
>
KONKON (X,U,FS'N,FS'N,N)
FSIF==350 ;;INTERRUPT FLAGS FOR CONSO INSTR.
;;(CBOV,RAE,ATTN,DONE)
EXTERN FSXKON
INTERN FSXCI2,FSXCO2,FSXCO4,FSXDI3,FSXDO3,FSXFNC,FSXDO4
FSXCCM==:CYLCM##
FSXCO4:!CONO FS'N,(T4)
FSXCI2:!CONI FS'N,T2
FSXCO2:!CONO FS'N,(T2)
FSXDI3:!DATAI FS'N,T3
FSXDO3:!DATAO FS'N,T3
FSXDO4:!DATAO FS'N,T4
FSXFNC:! 0
DEPHASE
> ;END MACRO DEF FSKON
IFE M.RH1S,< ;SATISFY GLOBALS IN FSXCPY, FSXUPA
XP FSALCL,0
XP FSXCI2,0
XP FSXCO2,0
XP FSXCO4,0
XP FSXDI3,0
XP FSXDO3,0
>
;RH10 CONTROLLER FOR RP04 DISK PACK
XP TYPRP,5
;DEFINITIONS FOR RH20 IOWDS
XP RH2TRA,400000
XP RH2LST,200000 ;(WITH RH2TRA=1)
XP RH2JMP,200000 ;(WITH RH2TRA=0)
XP RH2REV,100000 ;REVERSE (WITH RH2TRA=1)
XP RH2TRX,20000 ;TRA, SHIFTED FOR A WORDCOUNT- BYTE POINTER
XP RH2TLS,30000 ;TRA+LAST, SHIFTED
DEFINE RPKON(X,U,N)<
RPFIX==200000 ;POSITIONING DEVICE, CAN SEEK WHILE XFERRING
RPOFS==0 ;CAN OFFSET FOR ERROR RECOVERY
RPRDC==0 ;;10/11 COMPATABILITY MODE
RPUNL==0 ;;DRIVE CAN BE UNLOADED
RPCPY==0 ;;CAN TELL UNIT TYPE EVEN IF KONTROL IS BUSY
RPERNO==^D16 ;16 DRIVE REGISTERS TO SAVE ON ERROR
KONKON (X,U,RP'N,P'N,N)
;DEVICE CODE SELECTION FOR RP04 CONTROLLERS
DEFINE RPXUNI(Z)<
IFE M.P'Z'F,<
ZZ1==270+4*M.RS'Z'P ;1ST RH10 AFTER RS04S ON THIS CPU
IFG ZZ1-277,<ZZ1==ZZ1+60>
>
IFDEF RP'Z,<
IFL <RP'Z-540>,<RP'Z'IF==350>
IFGE <RP'Z-540>,<RP'Z'IF==4210>
>
IFNDEF RP'Z,<
IFN M.P'Z'T,< ;IF AN RH20
RP'Z==540+4*<M.P'Z'T-1>
RP'Z'IF==4210 ;RH20 INTERRUPT-CAUSING BITS
>
IFE M.P'Z'T,<
RP'Z==ZZ1
IFE RP'Z-300,<RP'Z==360>
ZZ1==RP'Z+4
RP'Z'IF==350> ;RH10 INTERRUPT-CUASING BITS
>>
ZZC==0
REPEAT M.RHP4,<
RPXUNI(\ZZC)
ZZC==ZZC+1
>
EXTERN RPXKON
INTERN RPXCO4,RPXCO2,RPXCI2,RPXDI1,RPXDI2,RPXDO2,RPXDO1,RPXFNC,RPXFLG
RPXCCM==:CYLCM##
RPXCO4:!CONO RP'N,(T4)
RPXCI2:!CONI RP'N,T2
RPXCO2:!CONO RP'N,(T2)
RPXDI1:!DATAI RP'N,T1
RPXDI2:!DATAI RP'N,T2
RPXDO2:!DATAO RP'N,T2
RPXDO1:!DATAO RP'N,T1
RPXFNC:!0
RPXFLG:!-1
IFN FTKL10,<
RPXGON::!0
RAECNT::!0 ;RAE ERRS - CBPE,,NO TRA
RPXRAE::!
IFG RP'N-500,<
CONSZ RP'N,4000 ;TEST RAE IF RH20
>
IFL RP'N-500,<
CAIA ;SKIP IF RH10
>
>
DEPHASE
>
IFE M.RHP4,< ;SATISFY GLOBAL IN ONCMOD IF NO RP04
IFE FTKS10,<
XP DODTI4,CPOPJ##
XP RPXCI2,0
XP RPXCO2,0
XP RPXCO4,0
XP DPXDO2,0
XP RPALCL,0
XP RPXFLG,0
>;END IFE FTKS10
IFN FTKL10,<
XP RPXSTW,0
XP RPXDO2,0
>
>
;RH11 CONTROLLER FOR RP04, RP06, AND RM03
;NOTE: KONTROLLER SERVICE ROUTINE IS CALLED RHXKON EVEN THOUGH
; THE UNITS ARE REFERRED TO AS RP'S TO CONFORM WITH RH10,
; RH20 IMPLEMENTATION.
XP TYPRH,TYPRP ;SAME AS RH10,RH20
DEFINE RHKON(X,U,N)<
RPFIX==200000 ;POSITIONING DEVICE, CAN SEEK WHILE XFERRING
RPOFS==0 ;CAN OFFSET FOR ERROR RECOVERY
RPRDC==0 ;;10/11 COMPATABILITY MODE
RPUNL==0 ;;DRIVE CAN BE UNLOADED
RPCPY==0 ;;CAN TELL UNIT TYPE EVEN IF KONTROL IS BUSY
RPERNO==^D16 ;16 DRIVE REGISTERS TO SAVE ON ERROR
RPAUN==RHAUN ;MAKE KONKON MACRO POINTERS TO UDB'S COME OUT RIGHT
KONKON (RP,U,RH'N,RH'N,N)
RPXCCM==:CYLCM##
RHXVEC::!RH11IV
;-11 STYLE INTERRUPT VECTOR ADDRESS
RHXBAS::!RH11CA ;BASE ADDRESS OF RH11 REGISTERS
RHXIVI::!JSR RH'N'INT ; INTERRUPT INSTRUCTIONS FOR THIS RH11
RPXFNC::!0 ;LAST DATA XFER FUNCTION STORED HERE BY DRIVER
; BIT 0 = OFF IF DSK HUNG, ON IF EVERYTHING OK
; BITS 15-17 = UNIT NUMBER COMMAND ISSUED TO
; BITS 30-35 = FUNCTION CODE
RPXFLG::!-1 ;DATA XFER IN-PROGRESS FLAG
; -1 = CONTROLLER IDLE
; 0 = XFER IN-PROGRESS, STOP ON ERROR
; 1 = XFER IN-PROGRESS, DON'T STOP ON ERROR
DEPHASE
EXTERN RHXKON
>
IFN FTEDSK,<
;RH20 CONTROLLER FOR RP20 FIXED MEDIA DISKS
XP TYPRN,6
DEFINE RNKON(X,U,N),<
RNFIX==0 ;NOT FIXED HEAD, CANNOT SEEK WHILE XFERRING
RNOFS==0 ;DRIVE CAN OFFSET. IT CAN'T REALLY BUT WE HAVE
;TO GET FILIO TO CALL US (VIA RNXERR) TO DIRECT
;ERROR RECOVERY.
RNRDC==400000 ;NO 10/11 COMPATABLILITY MODE
RNUNL==400000 ;DRIVE CANNOT BE UNLOADED
RNCPY==400000 ;KONTROL MUST BE IDLE FOR RNXCPY
RNVEBK==:^D57 ;NUMBER OF "MASSBUS REGISTERS" TO SAVE IN
;KDB/UDB. WILL GET MULTIPLY DEFINED GLOBAL
;SYMBOLS FROM LINK IF THIS VALUE DOESN'T MATCH
;THE ONE IN RNXKON.
RNERNO==RNVEBK ;DEFINE VALUE FOR MACRO
KONKON (X,U,RN'N,\"<116>'N,N) ;THE NEXT-TO-LAST ARGUMENT TO THE KONKON
; MACRO GENERATES, E.G.,
; N0,N1,... IT WAS THE ONLY WAY TO PASS THE
; CHARACTER "N" THROUGH WITHOUT SUBSTITUTION
DEFINE RNXUNI(Z),<
IFNDEF RN'Z,<
RN'Z==540+4*<M.N'Z'T-1> ;DEFINE DEFAULT DEVICE CODES
IFE M.N'Z'A,<
RN'Z'IF==4210 ;RH20 INTERRUPT CAUSING BITS
>
IFN M.N'Z'A,<
RN'Z'IF==0 ;NO BITS IF 2ND DUMMY CONTROLLER
>
>>
ZZC==0
REPEAT M.RP20,<
RNXUNI(\ZZC)
ZZC==ZZC+1
>
EXTERN RNXKON ;FORCE LOADING OF RNXKON
RNXCO2::!CONO RN'N,(T2)
RNXCO4::!CONO RN'N,(T4)
RNXCI2::!CONI RN'N,T2
RNXDO2::!DATAO RN'N,T2
RNXDO1::!DATAO RN'N,T1
RNXDI2::!DATAI RN'N,T2
RNXRAE::!CONSZ RN'N,4000 ;SKIP IF NO RAE
RNXRAC::!0 ;LH=COUNT OF RAE'S CAUSED BY OTHER THAN
; NON-EXISTENT DRIVES
;RH=COUNT OF RAE'S CAUSED BY NON-EXISTENT
; DRIVES
RNXEC1::!0 ;LH=NUMBER OF TIMES LOGUPE WAS CALLED TO
; LOG AN ERROR THAT FILIO WOULDN'T HAVE
;RH=NUMBER OF TIMES WGOCLR DIDN'T TIME
; OUT THE GO BIT
RNXEC2::!0 ;LH=NUMBER OF TIMES CMDWAT TOSSED A SEEK
; BECAUSE AN XFER WAS IN PROGRESS
;RH=NUMBER OF TIMES CMDWAT WAS CALLED
RNXEC3::!0 ;LH=NUMBER OF TRANSFERS WHICH RESULTED IN
; MISSED REVOLUTIONS DURING LAST INTERVAL
;RH=NUMBER OF TRANSFERS ATTEMPTED DURING LAST
; INTERVAL
RNXFLG::!
IFN M.RP20,<EXP M.N'N'A*RNPUNB##> ;FLAGS (SEE RNXKON FOR DEFINITIONS)
IFE M.RP20,<EXP 0>
RNXCMD::!0 ;LAST COMMAND+FUNCTION FLAGS ISSUED TO
; KONTROLLER
RNXATN::!0 ;LH=ATTENTION BITS FOR DRIVES PRESENTING
; ASYNCHRONOUS STATUS
;RH=UNUSED
RNXITB::!BLOCK 2 ;VALUE OF THE KL TIME BASE AT THE TIME
; THE LAST TRANSFER WAS STARTED. USED
; TO CALCULATE MISSED REVOLUTIONS.
IFN FTDUAL,<
DEFINE RNXLNK(KN),<EXP D'KN'KDB>
RNXALT::! ;ADDRESS OF ALTERNATE KDB IN DUAL PORTED
; CONFIGURATIONS.
IFE M.N'N'D,<EXP 0>
IFN M.N'N'D,<RNXLNK (\<$KON-2*<M.N'N'A>>)>
>
DEPHASE
>
IFE M.RP20,< ;SATISFY GLOBALS IN ONCMOD AND SYSINI IF NO RP20
XP RNXCI2,0
XP RNXCO2,0
XP RNPUPA,0
XP RNXMPS,CPOPJ##
XP RNXFLG,0
XP RNXCMD,0
XP RNXIVI,CPOPJ##
XP RNXFKA,CPOPJ##
XP RNYDXN,0
XP RNVNMR,0
XP RNVSMR,0
XP RNXCSB,CPOPJ##
XP RNXSAK,CPOPJ##
XP RNXCMR,CPOPJ##
>
>
;KON: KONTROLLER DATA BLOCK
;DEFINE FIRST PART OF KONTROLLER DATA BLOCK
;WHICH IS THE SAME FOR ALL KONTROLLER DATA BLOCKS
;FOR EACH KONTROLLER IN SYSTEM:
; PARAMETERS FOR KONKON
; XX - KONTROLLER TYPE (ASCIZ) EG. DP,FH,DR,MD
; X - KONTROLLER NUMBER SYMBOL (ASCIZ) EG. A,B,C
; XXN - KONTROLLER SYMBOL (ASCIZ) EG. DP0,DP1,FH0,FH1
; XXL - KONTROLLER ALIAS (ASCIZ) EG P0,P1 (FOR RP0X), DP0,DP1 OTHERWISE
; NN - KONTROLLER NUMBER (ASCIZ) EG 0,1,2
DEFINE KONKON (XX,X,XXN,XXL,NN)<
EXTERNAL XX'XINT,XXN'SV
INTERN XXN'INT,KONTAB,KONPOS,KONRED,KONWRT,KONRDS,KONWTS,KONCPY,KONRCL
INTERN KONCUA,KONIOC,KONCHN,KONPTR,KONCOM,KONLST,KONSTP,KONREG,KOP22B
INTERN KOYPI,KONINT,KONUPA,KONDWN,KOPDWN,KONMXU,MKNMXU,KOPUHE,KOPNSU
INTERN OPRED,OPWRT,OPRDS,OPWTS,OPPOS,OPPPOS,OPRCL,KOPWHL,KONDMP,KONEBK
INTERN KONECR,KONEDB,XX'X'CB
IFDEF XXN'IF,<XX'IF==XXN'IF
>
IFNDEF M.'XXL'T,<M.'XXL'T==0> ;ONLY DEFINED FOR RP04'S
XXN'INT:
IFE FTKS10,< ;;KS10 HAS VECTORRED INTERRUPT, NO SKIP CHAIN
CONSO XXN,XX'IF ;;(4)SKIP IF INTERRUPT FOR THIS KONTROLLER
;;ALWAYS HAVE INTERRUPT ROUTINE LOOKING FOR INTERRUPS
;;THIS FLAG NEVER CLEARED (NEEDED FOR DISK PACKS
;;OPERATOR MOUNTING AND REMOVING PACKS)
JRST . ;;(-3)GO TO NEXT SKIP CHAIN ELEMENT
IFN FTDHIA!FTKL10,<
IFN M.'XXL'T,<
CONSZ XXN,4050 ;RH20 COULD HAVE ATTEN, ATTNS NOT ENABLED
>
IFE M.'XXL'T,<
JFCL ;RH10 MASKS ATTEN IN CONI IF NOT ENABLED
>
CONSO XXN,7 ;IF NO PI UP,
JRST XXN'INT+1 ; PROBABLY DIAG FIDDLING WITH KON
>
>;END IFE FTKS10
IFN FTKS10,<
0 ;;VECTORED INTERRUPT JSR'S TO HERE
EXCH T1,XXN'INT ;;GET INTERRUPT PC
MOVEM T1,XXN'CHL## ;;AND STORE IN "CH'PI" SO JEN TO CORRECT ADDRESS
EXCH T1,XXN'INT ;;AND RESTORE T1
>;END IFN M.KS10
JSR XXN'SV ;;(-2) SAVE INTERRUPT ACS
JSP J,XX'XINT ;;(-1) SETUP ADDRESS OF KONTROLLER DATA BLOCK
;; AND BRANCH INTO CODE WHICH IS COMMON
;; TO ALL KONTROLLERS OF SAME TYPE
;; (INTERRUPT DISMISSED BY EXTRA POPJ OR JRST XXRET)
KONINT==XXN'INT-. ;;INDEX TO CLEAR AND SET INTERRUPT CONSO FLAGS
;; FROM DEV. DEP. CODE
XX'X'CB:! KDBNAM (\$KON)
PHASE 0 ;;CHANGE PHASE SO CAN DEFINE ALL SYMBOLS
;; RELATIVE TO BEGINNING OF KONTROLLER
;; DATA BLOCK. ALSO A CHECK TO BE SURE ALL
;; KONTROLLER DATA BLOCKS ARE DEFINED THE
;; SAME WAY.
KONMXU==10 ;;MAXIMUM NUMBER OF UNITS PER KONTROLLER
MKNMXU==-KONMXU
KONTAB:! ;;SPACE FOR ADDRESSES OF UNIT DATA BLOCKS
$U1=0 ;; RH=ADDRESS OF UNIT DATA BLOCKS
REPEAT XX'X'UN,< ;; INDEX INTO THIS TABLE IS PHYSICAL
UNITAD (\$U1,XX'X) ;; UNIT NO. WITHIN KONTROLLER.
$U1==$U1+1> ;; BIT 0 OF KONTAB=1 IF KONTROLLER IS
;; BUSY (DATA TRAN.)0 IF NOT, MUST BE WORD
;; 0 SO SKIPL @UNIKON(U) WILL TEST
BLOCK KONMXU-$U1 ;;RESERVE FOR MAX. POSSIBLE NO. OF
;; PHYSICAL UNITS ON ALL DIGITAL KONTROLLERS
KONCOM:!XWD -CCWMAX,XX'X'CB+KONLST ;;LH=-NO. WORDS ALLOCATED FOR CHAN COMMAND LIST
;; [DEFINED AT MONGEN TIME]
;; (SPACE IS IN KON DATA BLOCK BELOW)
;; RH=1ST. ADR. OF CHAN COMMAND LIST IN KON DATA BLOCK
KONLST:!BLOCK CCWMAX ;;CHANNEL COMMAND LIST GOES HERE
;; (NOT IN CHAN. DATA BLOCK IN CASE TWO KONTROLLERS
;; SHARE SAME CHANNEL & MONGEN WASN'T TOLD PROPERLY
IFN FTKL10!FTKS10,<
KONCNT==:KONLST ;NO OF WORDS IN XFER ON FORMAT
>
XWD ZERO18,ZERO18 ;;GUARANTEED END OF COMMAND LIST WORD
KONNXT::! ;;LINK TO NEXT KDB IN SYSTEM
IFE <$KON-TOTKON+1>,<0>
IFN <$KON-TOTKON+1>,<KDBLNK (\<$KON+1>)>
$KON==$KON+1
;;ENTRY POINTS INTO KONTROLLER TYPE DEPENDENT CODE:
;;INDIRECT AND INDEX FIELDS MUST BE 0 SINCE PUSHJ P,@KONYYY(J)
;; IS USED TO CALL
EXTERN XX'XRED,XX'XWRT,XX'XRDS,XX'XWTS,XX'XPOS,XX'XUPA,XX'XCPY,XX'XRCL,XX'XSTP
IFE M.KS10,<
EXTERN LOCOCW
IFE M.'XXL'T,<
XP XXN'IOC,LOCOCW+$LOCW
$LOCW==$LOCW+2
>
IFN M.'XXL'T,<
XP XXN'IOC,XXN-540+.E0MP##+XXN'CPU*1000 ;FOR RH20S RP0T=1, RP1T=2,.....)
>
>;END IFE M.KS10
IFN M.KS10,<
XP XXN'IOC,0
>
KONRED:!BYTE (3)0(6)TYP'XX(4)0(5)ZERO5(18)XX'XRED ;;ENTRY POINT TO READ
KOBPI==KONRED ;;PI CHANNEL THIS KONTROLLER IS ASSIGNED TO-WORD ADR.
KOSPI==^D3 ;;BYTE SIZE
KONPI==^D2 ;;BYTE PTR POS.
KOBKTP==KONRED ;;KONTROLLER TYPE - WORD ADDRESS
KOSKTP==^D6 ;;BYTE SIZE
KONKTP==^D8 ;;BYTE PTR POS.
KONRDS:!BYTE (3)0(6)NN(4)0(5)ZERO5(18)XX'XRDS ;;ENTRY POINT TO READ, STOP ON ERR
KOBKNM==KONRDS ;KONTROLLER NUMBER - WORD ADDRESS
KOSKNM==^D6 ;;BYTE SIZE
KONKNM==^D8 ;;BYTE PTR POS.
IFN FTDSUP,<
INTERN KONRDF,KONWTF,KONRDC,KONWTC
KONRDF:!XWD ZERO5,XX'XRDF## ;;ENTRY POINT TO READ HEADER AND DATA
KONRDC:!XWD XX'RDC!ZERO5,XX'XRDC## ;;ENTRY POINT TO READ IN 10/11 COMPAT. MODE
>
KONWRT:!XWD ZERO5,XX'XWRT ;;ENTRY POINT TO WRITE
KONWTS:!XWD ZERO5,XX'XWTS ;;ENTRY POINT TO WRITE,STOP ON ERR
IFN FTDSUP,<
KONWTF:!XWD ZERO5,XX'XWTF## ;;ENTRY POINT TO WRITE FORMAT
KONWTC:!XWD XX'RDC!ZERO5,XX'XWTC## ;;ENTRY POINT TO WRITE IN 10/11 COMPAT. MODE
>
INTERN KONUNL
KONUNL:!XWD XX'UNL!ZERO5,XX'XUNL## ;;ENTRY POINT TO UNLOAD A DRIVE
KONPOS:!XWD XX'FIX!ZERO5,XX'XPOS ;;ENTRY POINT TO POSITION
;;BIT 0=1 IF FIXED HEAD DEV
KOPPWX==200000
;;BIT 1=1 IF CAN SEEK WHILE XFER IN PROGRESS
OPRED==0 ;;READ - FUNCTION CODE ARG TO FILINT
OPWRT==1 ;;WRITE - FUNCTION CODE ARG TO FILINT
OPRDS==2 ;;READ & STOP ON ERROR - FUNCTION CODE ARG TO FILINT
OPWTS==3 ;;WRITE & STOP ON ERROR - FUNCTION CODE ARG TO FILINT
OPPOS==4 ;;POSITION - FUNCTION CODE ARG TO FILINT
OPPPOS==4 ;;BIT POSITION FOR POSITION FUNCTION
;; MUST BE UNIQUE. IE THIS BIT=0 IN ALL OTHER FNCS.
OPRCL==7 ;;RECALIBRATE - FUNCTION CODE ARG TO FILINT
IFN FTDOPT,<
INTERN KONLTM
KONLTM:!XWD ZERO5,XX'XLTM## ;;ENTRY POINT TO RETURN TIME TO BEGINNING OF TRANSFER
;; I.E. LATENCY TIME
>
KONUPA:!XWD ZERO5,XX'XUPA ;;ENTRY POINT TO TEST IF KONTROLLER IS ON-LINE
KONDWN==KONUPA ;;BIT0=1 IF KONTROLLER IS DOWN - WORD ADDRESS
KOPDWN==400000 ;; THE BIT (SET BY KONCHK - NOT BY XX'XUPA)
;;KONTROLLER WAS OFF-LINE WHEN SYSTEM STARTED
;; AND OPERATOR COULD NOT PUT IT ON-LINE
;; SKIP RETURN IF YES, NO SKIP IF NOT
KOPWHL==200000 ;;WRITE-HEADER-LOCKOUT SWITCH IS "WRONG"
KONMPS==:KONUPA ;;WORD OFFSET TO TEST KOPMPS BIT
KOPMPS==:100000 ;;THIS KDB REPRESENTS A MICROCODED
;;DISK CONTROLLER AND THE MICROPROCESSOR
;;HAS STOPPED.
KONCPY:!XWD XX'CPY!ZERO5,XX'XCPY ;;ENTRY POINT TO DETERMINE TYPE & CAPACITY OF UNIT
;;BIT 0=1 IF KONTROLLER MUST BE IDLE TO DETERMINE UNIT TYPE
KOPUHE==200000 ;;UNIT HAD ERROR OF ANY KIND - LH T4 VALUE
KOPNSU==100000 ;;NO SUCH UNIT - LH T4 VALUE
KOP22B==40000 ;22-BIT CHANNEL
KONRCL:!XWD ZERO18,XX'XRCL ;;ENTRY POINT TO RECALIBRATE THIS UNIT
;; NO-SKIP IN UNIT DOES NOT RECALIBRATE OR IS BAD
;; SKIP RETURN IF RECALIBRATE STARTED OK
KONSTP:!BYTE (3)XXN'CPU(10)0(5)0(18)XX'XSTP ;;ENTRY POINT TO STOP A HUNG UNIT
;; AND NO-SKIP IF CAN'T, SKIP IF CAN
KONCPU==KONSTP ;;CPU KONTROLLER IS ON, BITS 0-2 = CPU NUMBER
KONCUA:!XWD ZERO18,0 ;;CURRENT UNIT DATA BLOCK ADDRESS DOING
;; DATA TRANSFER (OR LAST ONE)
KONIOC:!XWD ZERO18,XXN'IOC ;;CONTAINS ADR. OF LOWER CORE CHANNEL
;; PAIR FOR THIS PHYSICAL KONTROLLER
;; (DIFF. PAIR FOR EACH KONTROLLER SO NO
;;CHANNEL CONFLICT IF RECONFIGURE CHANNELS)
;;ON KS10--CONTAINS ENDING TRANSFER ADDRESS AS
;;REPORTED BY CONTROLLER
KONCHN:!XWD ZERO5,THSCCB ;;ADDRESS OF CHANNEL DATA BLOCK TO WHICH THIS KON
;; CONNECTED (@USED TO TEST CHANNEL BUSY)
KONPTR:!XWD ZERO5,XX'X'CB+KONTAB(P3) ;;USED TO PICKUP UNIT DATA BLOCK ADDRESS
;; GIVEN PHYSICAL UNIT NUMBER IN AC P3. (@ USED)
KONDMP:!EXP 0 ;;PLACE TO STORE DEVDMP WHEN STARTING DUMP-
;; MODE IO (USED IN ERROR RECOVERY)
INTERN KONERR,KONECC,KONRRG
EXTERN XX'XERR,XX'XECC
KONERR:!XWD XX'OFS!ZERO5,XX'XERR ;;ERROR RECOVERY PROGRAM IN KONTROL ROUTINE
KONECC:!XWD ZERO5,XX'XECC ;;GENERATE ECC MASK, POSITION
KONRRG:!XWD ZERO5,XX'XREG## ;READ DRIVE REGISTERS
IF2 <IFNDEF XX'XCCM,<EXTERN XX'XCCM>>
KONCCM::!XWD ZERO5,XX'XCCM ;COMPUTE DISTANCE FROM CYLINDER
;THESE MUST BE THE LAST LOCATIONS IN THE KDB BEFORE KONTROLLER-DEPENDENT STUFF
KONECR:!0 ;;CONTROL REG ON ERROR
KONEDB:!0 ;;DATA BUFFER REG ON ERROR
KONREG:!XX'ERNO ;;NUMBER OF DRIVE REGISTERS TO SAVE ON ERR
KONEBK:!BLOCK XX'ERNO ;;WHERE TO SAVE THEM
;;ADD IO INSTRUCTIONS AND ALL DATA LOCATIONS HERE:
> ;;END KONKON MACRO (SAME FOR ALL KONTROLLERS)
$HIGH
;;BYTE POINTERS
KOYPI: POINT KOSPI,KOBPI(J),KONPI ;;PI CHANNEL THIS KONTROLLER ASSIGNED TO
KOYCPU::POINT 3,KONCPU(J),2 ;;CPU NUMBER THIS KONTROLLER IS ON
KOZCPU::POINT 3,KONCPU(T3),2
KOXCPU::POINT 3,KONCPU(T1),2
KOYKTP::POINT KOSKTP,KOBKTP(J),KONKTP ;;KONTROLLER TYPE
KOYKNM::POINT KOSKNM,KOBKNM(J),KONKNM ;;KONTROLLER NUMBER
$LOW
DEFINE UNITAD (N,SYM)<
XWD ZERO5,SYM'N'CB>
DEFINE KDBLNK(N) <D'N'KDB,,0>
DEFINE KDBNAM(N) <D'N'KDB:>
;THESE MUST BE THE LAST LOCATIONS IN THE KDB BEFORE KONTROLLER-DEPENDENT STUFF
SUBTTL LBN - LOGICAL DISK BLOCK NUMBERS WITHIN UNIT(NOT STR) ASSIGNED AS ASSEMBLY TIME
;THERE ARE AS FEW OF THESE AS POSSIBLE. THEY CAN BE CHANGED AT MONGEN TIME
;BY DEFINING SYMBOLS
;BLOCK 0 WITHIN A UNIT IS NOT USED SINCE IT IS THE MOST LIKELY BLOCK TO BE
;WRITTEN IF FILSER HAS A BUG. FILSER WILL HALT IF BLOCK 0 IS READ OR WRITTEN
; EXCEPT IF FILE BEING ACCESSED IS HOME.SYS OR SUPER USETI 0
INTERN LBNHOM,LB2HOM,LBOBAT,LBOISW
IFNDEF LBNHOM,<LBNHOM==^D1> ;LOGICAL BLOCK NO. OF HOME BLOCK
IFNDEF LB2HOM,<LB2HOM==^D10> ;2ND LOGICAL BLOCK # OF HOME BLOCK (THE REDUNDANT ONE)
; THIS IS THE DEFAULT FOR ALL UNITS
; (THE REDUNDANT ONE)
; PUT ON A DIFFERENT SURFACE OR RP01 AND RP02 FROM
; FIRST HOME BLOCK.
LBOBAT==1 ;# OF BLOCKS BOTH BAT BLOCKS ARE OFFSET FROM HOME BLOCK
LBOISW==2 ;# OF BLOCKS INITIAL SWAPPING
; SAT OFFSET FROM HOME BLOCK
;BLOCKS FOR BOOTS:
IFNDEF FBOOTB,<XP FBOOTB,4> ;FIRST LOGICAL BLOCK
; IN EACH UNIT FOR BOOTS
XP NBOOTB,4 ;NO. OF BLOCKS IN BOOTS(DISK BOOTSTRAP)
XP MNBOOT,-NBOOTB ;MINUS NO. OF BLOCKS IN BOOTS
SUBTTL MFD WORD POSITIONS IN MASTER FILE DIRECTORY
;PREFIX "MFD"
;THIS IS ALSO THE USER FILE DIRECTORY FOR PROJECT 1, PROGRAMMER 1
INTERN MFDNAM,MFDEXT,MFDSIZ
MFDNAM==0 ;OCTAL (NOT SIXBIT) NAME OF UFD. THIS IS PROJECT-PROGRAMMER
; NUMBER. IN COMMENTS THIS IS WRITTEN AS [PROJ,R]. UFD
MFDEXT==1 ;LH=UFD IN SIXBIT (USUALLY)
;RH=COMPRESSED UFD POINTER (CUP) CONTAINS UNIT AND LOGICAL BLOCK
; WITHIN UNIT OF FIRST RETIREVAL BLOCK OF FILE. TO CONVERT
; FROM A CUP TO UNIT AND LOGICAL BLOCK NUMBER OF FIRST RIB:
; SEARCH FILE STRUCTURE TABLE AND FIND
; N'TH ENTRY N=1,2...M) WHICH IS FIRST ENTRY WHOSE VALUE
; EQUAL TO OR LESS THAN CUP. (N-1) IS THEN
; THE UNIT NUMBER IN THAT FILE STRUCTURE
; SUBTRACTING THE (N-1)ST ENTRY(=0, ENTRY = 0) GIVES
; CUP INDEX RELATIVE TO THE N'TH UNIT. MULTIPLYING
; BY THE CUP CONVERSION FACTOR FOR UNIT N IN THIS
; FILE STRUCTURE GIVES LOGICAL BLOCK NUMBER, WHEW!
IFNDEF MFDSIZ,<MFDSIZ==^D30> ;NO. OF BLOCKS FOR INITIAL MFD SET BY REFRESHER
; INCLUDING RIBS. MAKE IT LARGE ENOUGH SO MFD IS
; COMPLETELY CONTAINED IN ONE GROUP SO ONLY ONE
; RETRIEVAL POINTER(FOR SPEED). FILSER WILL
; HANDLE MULTIPLE GROUP MFD
SUBTTL NMB FILE NAME DATA BLOCK
;USED TO REMEMBER FILE NAMES IN A PROJECT-PROGRAMMER NUMBER ACROSS
; ALL FILE STRUCTURES.
;*************
;WORD 0---------------------------------------
NMBNAM==:CORNAM ;SIXBIT FILE NAME LEFT JUSTIFIED
;WORD 1---------------------------------------
NMBPPB==:CORLNK ;LH=CORE ADR.(ACCROSS POINTER) OF NEXT NAME BLOCK IN THIS
; PROJ-PROG NUMBER
NMPUPT==:2 ;IF THIS BIT IS ON IN AN NMBPPB, THE ADDRESS-2 IS
; THE LOC OF THE FATHER SFD FOR THIS LIST OF NMB'S
; (IT IS ONLY ON IN THE LAST NMB IN THE LIST)
NMPSFU==:1 ;BIT ON (IN AC, NEVER IN CORE) IF THE LOC RETURNED
; (BY UFORSF) IS AN SFD A.T., OFF IF THE LOC IS A UFB
DIFAWU==:ACCWRT-NMPSFU ;DIFFERENCE BETWEEN A.T.LOC+NMPSFU AND ACCWRT
;WORD 2---------------------------------------
NMBRNG==:2 ;LH=POINTER TO AN NMB-LIST OF FILES
; UNDER THE SFD. 0 IF NOT AN SFD
DIFNMC==:NMBRNG-CORLNK
NMBCFP==:2 ;RH=COPY OF COMPRESSED FILE POINTER. I.E., COPY OF
; SECOND WORD OF PAIR IN UFD.(COMPRESSION CONTAINS
; LOGICAL UNIT NUMBER WITHIN FILE STRUCTURE)
;WORD 3---------------------------------------
NMBACC==:3 ;LH=CORE ADR (DOWNWARD POINTER) OF FIRST ACCESS
; BLOCK IN ACCESS RING WITH THIS FILENAME/PROJ-PROG.
; IF RING IS EMPTY, LH NOT 0. INSTEAD IT POINTS
; TO ITSELF-CORLNK. IN THIS WAY NO SPECIAL
; CHECKING IS NEED TO ADD OR DELETE ACCESS BLOCKS
; FROM RING. IT ALSO PROVIDES A SIMPLE CHECK FOR
; AN EMPTY RING, SINCE TWO LOW ORDER BITS=0
; IF AN ACCESS BLOCK ADDRESS,=CORLNK IF EMPTY.
DIFNAL==:NMBACC-ACCNMB ;DIFFERENCE BETWEEN LOC. OF DOWNWARD POINTER IN
; NMB BLOCK AND ACCROSS POINTER IN ACC BLOCK. USED
; FOR SEARCHING RING.
NMBEXT==:3 ;RH=LEFT JUSTIFIED SIXBIT FILE EXTENSION
;WORD 4---------------------------------------
NMBFSN==:CORFSN ;FSN # - WORD ADR.
NMSFSN==:COSFSN ;BYTE SIZE
NMNFSN==:CONFSN ;BYTE PTR. POS.
NMYFSN==:COYFSN ;RIGHT MOST BIT
; GOES WITH (NMBCFP).
NMXFSN==:COXFSN
;WORD 5---------------------------------------
NMBKNO==:CORKNO ;KNOW WHETHER FILE EXISTS OR NOT IN STR N-WORD ADR.
; BIT NMNKNO-N=1 IF KNOW FOR FS. N
NMSKNO==:COSKNO ;BYTE SIZE
NMNKNO==:CONKNO ;BYTE PTR. POS.
NMPKNO==:COPKNO ;RIGHT MOST BIT
NMYKNO==:COYKNO
NMZKNO==:COZKNO
;WORD 6---------------------------------------
NMBYES==:CORYES ;FILE OR UFD DEFINITELY EXISTS IN FILE STRUCTURE N
; IF BIT NMPYES-N=1 -WORD ADR. CORRESPONDING BIT
; IN NMBKNO=1 TOO.
NMSYES==:COSYES ;BYTE SIZE
NMNYES==:CONYES ;BYTE PTR. POS.
NMPYES==:COPYES ;RIGHT MOST BIT
;WORD 7---------------------------------------
NMBCNT==:7 ;USE-COUNT FOR THE NMB
SUBTTL ONCE ONLY DESTROY OPTION DATA BASE
;MACROS USED TO GENERATE DEFAULT K FOR SWAPPING TABLES.
DEFINE ONCSPC(KT,DS,AL),<
ONCSP1 (KT,DS,<A,B,C,D,E,F,G,H,I,J,K,L,M,N,O,P>,AL)
>
DEFINE ONCSP1(KT,DS,KN,AL),<
IRP KN,<
IFDEF M.'AL'KN,<
K4S'KT'KN::
ZZ==0
REPEAT M.'AL'KN,<
ONCSP2(<KT'KN>,\ZZ,DS)
ZZ==ZZ+1
> ;END REPEAT
> ;END IFDEF
> ;END IRP
> ;END DEFINE
DEFINE ONCSP2(KT,UN,DS),<
IFNDEF KS'KT'UN,<KS'KT'UN==DS>
EXP KS'KT'UN
>
DEFINE ONCNUL (A,B),<
IRP A,<
IRP B,<
IF1,<
IFNDEF K4S'A'B,<
K4S'A'B==:0
> ;END IFNDEF
> ;END IF1
> ;END IRP B
> ;END IRP A
> ;END DEFINE
;MACRO TO COUNT UP THE NUMBER OF UNITS AND KDBS IN SYSTEM FOR EACH
;KONTROLLER TYPE AND FOR ALL KONTROLLER TYPES. RESULTS ARE OF THE FORM
;OF SYMBOLS, WHERE DPNUM WOULD BE THE NUMBER OF DP UNITS IN SYSTEM,
;FHNUM WOULD BE THE NUMBER OF FH UNITS ON SYSTEM, ETC.
;TOTNUM WILL BE THE TOTAL NUMBER OF DISK/DRUM UNITS.
;TOTKON WILL BE THE TOTAL NUMBER OF DISK KONTROLLERS
DEFINE ONCCNU(A,B),<
TOTDUM==0
TOTKON==0
IRP A,<
A'NUM==0
IRP B,<
IFDEF M.'A'B,<
A'NUM==A'NUM+M.'A'B
TOTDUM==TOTDUM+M.'A'B
TOTKON==TOTKON+1
>;END OF IFDEF
>;END OF IRP B
>;END OF IRP A
IFN FTKS10,<
TOTKON==1
TOTDUM==M.RHA
RPNUM==M.RHA
>;END IFN FTKS10
>;END OF ONCCNU MACRO DEFINITION
;MACRO TO GENERATE TABLES THAT DRIVE THE FILE STRUCTURE
;CREATING ROUTINES OF THE ONCE ONLY DESTROY OPTION FOLLOWS.
DEFINE STRGEN(KT),<
ONC'KT'S::
ZZ==0
REPEAT KT'NUM,<
STRGN1(KT,\ZZ,S)
ZZ==ZZ+1
>;END REPEAT
EXP 0
ONC'KT'Z::
ZZ==0
REPEAT KT'NUM,<
STRGN1(KT,\ZZ,Z)
ZZ==ZZ+1
>;END REPEAT
>;END DEFINITION
DEFINE STRGN1(KT,CT,TB),<
IFDEF M.S'CT'KT,<
EXP M.'TB'CT'KT
>
>
;COUNT UP ALL UNITS ON SYSTEM BY KONTROLLER TYPE.
IFE FTEDSK,<
ONCCNU(<FS,FH,DP,RP>,<A,B,C,D,E,F,G,H,I,J,K,L,M,N,O,P>)
>
IFN FTEDSK,<
ONCCNU(<FS,FH,DP,RP,RN>,<A,B,C,D,E,F,G,H,I,J,K,L,M,N,O,P>)
>
;MAKE SURE THAT THERE IS ENOUGH SPACE TO OVERLAY THE JOB TABLES. IF NOT,
;JUST MAKE THIS DATA PERMANENT AND WARN THE PERSON ASSEMBLING COMMOD
;THAT THIS IS THE CASE
;EACH TYPE OF TABLE (STR NAME, NUMBER, K FOR SWAPPING)
;TAKES AS MANY WORDS AS THERE ARE UNITS ON THE SYSTEM.
;THERE ARE THREE TYPES OF TABLE. IF THERE ARE NO UNITS
;OF A CERTAIN TYPE, THE TABLE STILL HAS ONE ZERO ENTRY
;(HENCE THE -5)
ZZ==PATTRM-<TOTDUM*3>-5
IFLE ZZ,<IF2,<PRINTX %DESTROY OPTION DATABASE WILL NOT BE OVERLAYED>>
IFG ZZ,<
RELOC SYSBG3 ;THIS TABLE SPACE OVERLAYS THE
;COMMOD JOB TABLES AT SYSBG3
>
;GENERATE TABLES
;FIRST GENERATE TABLES FOR THE STRUCTURE DEFAULTS. THIS CONSISTS OF
;A SET OF N PARALLEL TABLES, ONE FOR EACH KONTROLLER TYPE DEFINED IN
;THE SYSTEM AND POINTED TO BY KTTAB1 AND KTTAB2 IN ONCMOD. THE FIRST
;TABLE CONTAINS THE SIXBIT NAMES OF THE STRUCTURES THAT WE WOULD
;LIKE TO CONSTRUCT OUT OF UNITS OF THE SPECIFIED TYPE. THE TABLE
;IS TERMINATED BY A ZERO WORD. THE SECOND TABLE CONTAINS THE NUMBER
;OF UNITS TO PUT INTO THE CORRESPONDING STRUCTURE. THE UNITS ARE
;PLACED IN THE STRUCTURE IN THE ORDER THAT THEY APPEAR IN THE
;UNIT DATA BLOCK CHAIN.
IFNDEF M.S0FS,<M.S0FS==SIXBIT/DSKA/> ;PUT FS UNITS INTO DSKA
IFNDEF M.Z0FS,<M.Z0FS==^D32> ;PUT UP TO 32 UNITS INTO DSKA
IFNDEF M.S0RP,<M.S0RP==SIXBIT/DSKB/> ;PUT RP UNITS INTO DSKB
IFNDEF M.Z0RP,<M.Z0RP==^D16> ;PUT UP TO 16 UNITS INTO DSKB
IFNDEF M.S1RP,<M.S1RP==SIXBIT/DSKC/> ;PUT RP UNITS INTO DSKC
IFNDEF M.Z1RP,<M.Z1RP==^D16> ;PUT UP TO 16 UNITS INTO DSKC
IFNDEF M.S2RP,<M.S2RP==SIXBIT/DSKD/> ;PUT RP UNITS INTO DSKD
IFNDEF M.Z2RP,<M.Z2RP==^D16> ;PUT UP TO 16 UNITS INTO DSKD
IFNDEF M.S0DP,<M.S0DP==SIXBIT/DSKE/> ;PUT DP UNITS INTO DSKE
IFNDEF M.Z0DP,<M.Z0DP==^D32> ;PUT UP TO 32 UNITS INTO DSKE
IFN FTEDSK,<
IFNDEF M.S0RN,<M.S0RN==SIXBIT/DSKF/> ;PUT RN UNITS INTO DSKF
IFNDEF M.Z0RN,<M.Z0RN==^D16> ;PUT UP TO 16 UNITS INTO DSKF
IFNDEF M.S1RN,<M.S1RN==SIXBIT/DSKG/> ;PUT RN UNITS INTO DSKG
IFNDEF M.Z1RN,<M.Z1RN==^D16> ;PUT UP TO 16 UNITS INTO DSKG
IFNDEF M.S2RN,<M.S2RN==SIXBIT/DSKH/> ;PUT RN UNITS INTO DSKH
IFNDEF M.Z2RN,<M.Z2RN==^D16> ;PUT UP TO 16 UNITS INTO DSKH
>
ONCBEG: ;BEGINNING OF DESTROY DATA
;GENERATE FS KONTROLLER STR NAME TABLE AND UNIT COUNT
STRGEN(FS)
;GENERATE FH KONTROLLER STR NAME TABLE AND UNIT COUNT
STRGEN(FH)
;GENERATE DP KONTROLLER STR NAME TABLE AND UNIT COUNT
STRGEN(DP)
;GENERATE RP KONTROLLER STR NAME TABLE AND UNIT COUNT
STRGEN(RP)
IFN FTEDSK,<
;GENERATE RN KONTROLLER STR NAME TABLE AND UNIT COUNT
STRGEN(RN)
>
;NOW GENERATE THE TABLES THAT GIVE THE DEFAULT AMOUNT OF SWAPPING SPACE
;ON EACH UNIT IN THE SYSTEM. EACH UNIT HAS A PARAMETER, KS'XXY, E.G.,
;KSRPA0 THAT DEFINES THE DEFAULT AMOUNT OF SWAPPING SPACE TO BE
;ALLOCATED ON THAT UNIT. IF THE PARAMETER IS NOT DEFINED FOR A UNIT,
;THE VALUE OF THE SECOND ARGUMENT TO THE ONCSPC MACRO IS USED INSTEAD.
;THESE VALUES ARE WHAT THE DESTROY STARTUP OPTION USES TO ALLOCATE
;SWAPPING SPACE ON ALL UNITS IN THE SYSTEM. THE ENTRY FOR EACH UNIT
;IS LOCATED IN A TABLE CALLED K4S'XXX, WHERE XXX IS THE KONTROLLER
;TYPE, E.G., K4SRPA. THEREFORE, THE DEFAULT AMOUNT OF SWAPPING SPACE
;TO BE ALLOCATED ON ANY UNIT MAY BE FOUND AT K4S'XXX+Y. FOR EXAMPLE,
;THE AMOUNT OF SWAPPING SPACE ALLOCATED ON RPA4 MAY BE FOUND AT
;K4SRPA+4 AND HAS A VALUE OF KSRPA4.
;GENERATE ALL THE SWAPPING DEFAULT TABLE.
ONCSPC (FH,0,FH) ;GENERATE DEFAULT FH SWAPPING SPACE
ONCSPC (FS,^D200,FS) ;GENERATE DEFAULT FS SWAPPING SPACE
ONCSPC (DP,0,DP) ;GENERATE DEFAULT DP SWAPPING SPACE
IFE FTKS10,<
ONCSPC (RP,^D500,RP) ;GENERATE DEFAULT RP SWAPPING SPACE
>
IFN FTKS10,<
ONCSPC (RP,^D500,RH) ;GENERATE DEFAULT RP SWAPPING SPACE
>
IFN FTEDSK,<
ONCSPC (RN,0,RN) ;GENERATE DEFAULT RN SWAPPING SPACE
>
IFE SYSBG3-ONCBEG,<
RELOC
>
;NOW GENERATE THE REST OF THE SYMBOLS SO THERE WILL BE NO UNDEFINED
;GLOBALS (ALL TABLE NAMES MUST BE IN ONCMOD AT ASSEMBLY TIME BECAUSE
;IT IS NOT ASSEMBLED WITH HDWCNF)
IFE FTEDSK,<
ONCNUL (<FS,FH,DP,RP>,<A,B,C,D,E,F,G,H,I,J,K,L,M,N,O,P>)
>
IFN FTEDSK,<
ONCNUL (<FS,FH,DP,RP,RN>,<A,B,C,D,E,F,G,H,I,J,K,L,M,N,O,P>)
>
;PATH. UUO PARAMETERS
PT.SCN==:3 ;SCAN SWITCH
PT.SXS==4 ;SEARCH EXP SYS
PT.SYS==10 ;SEARCH SYS
PT.DTL==:40 ;SET SYS, NEW BIT DON'T TOUCH LIB
PT.LIB==:20 ;SEARCH LIB
PT.IPP==:40 ;IMPLIED PPN
PT.JSL==:100 ;JOB SEARCH LIST
PT.ASL==:200 ;ALL SEARCH LIST
PT.SSL==:300 ;SYS SEARCH LIST
PT.DLN==:1000 ;DEVICE WAS LOGICAL NAME
PT.EDA==:2000 ;DEVICE WAS LOGICAL NAME AND ERSATZ DEVICE
;INTERNAL FLAG BITS FOR SIXBIT OR CHANNEL ARG
PT.ESZ==:(1B1) ;SET IF DEVICE NOT BOTH A LOGICAL NAME AND
;ERSATZ DEVICE
PT.GEN==:(1B2) ;SET IF DEVICE IS NOT GENERIC DSK
PT.PHO==:PHONLY ;SET IF THIS UUO IS PHYSICAL ONLY
SUBTTL PTR: COPY OF RETRIEVAL POINTERS KEPT IN CORE FOR UPDATE FILES
PTRSYS==:0 ;LH=LINK TO NEXT IN-CORE COPY
PTRAT==:PTRSYS ;RH=ADDR OF ACCESS TABLE WHICH "OWNS" POINTERS
PTRFLR==:1 ;COPY OF DEVFLR FOR 1ST POINTER IN GLUMP
PTRRIB==:2 ;COPY OF DEVRIB
PTRFUN==:3 ;LH=COPY OF DEVFUN
PTRRLC==:PTRFUN ;RH=DEYRLC BYTE, DEVRSU PLUS SOME BITS
PTPLPC==:400000 ;BIT=1 IF DEPLPC IS ON IN DDB
PTRDAT==:4 ;1ST POINTER
PTRDND==:PTRDAT+PTRLEN-1 ;LAST POINTER
PTRCOR==:<PTRDND+1+3>/4
$HIGH
PTYRSU::POINT 7,PTRRLC(T2),28
$LOW
SUBTTL PPB - PROJECT PROGRAMMER NUMBER DATA BLOCK
;USED TO ORGANIZE FILES REMEMBERED IN MEMORY ON PPN BLOCK FOR EVERY
; PROJECT-PROGRAMMER NUMBER IN SYSTEM WHICH HAS SOME ACTIVE FILES
; SETUP WHENEVER A NEW PROJECT-PROGRAMMER NUMBER IS LOOKED UP OR
; ENTERED.
;WORD 0---------------------------------------
PPBNAM==:CORNAM ;LH=PROJECT NUMBER (RIGHT JUSTIFIED OCTAL)
; OR LEFT JUSTIFIED SIXBIT (PROJ NAME)
;RH=PROGRAMMER NUMBERS RIGHT JUSTIFIED OCTAL)
; OR LEFT JUSTIFIED SIXBIT (PROJ INITIALS)
;WORD 1---------------------------------------
PPBSYS==:CORLNK ;LH=CORE ADDRESS(ACCROSS POINTER) OF NEXT PPN BLOCK IN SYSTEM
;WORD 2---------------------------------------
PPBUFB==:2 ;LH=CORE ADDRESS OF FIRST UFB BLOCK WITH THIS
; PROJECT-PROGRAMMER NUMBER. THERE IS ONE UFB
; BLOCK FOR EVERY FILE STRUCTURE IN WHICH THIS
; PROJECT-PROGRAMMER NUMBER HAS A UFD
DIFPBC==:PPBUFB-CORLNK
;WORD 3---------------------------------------
PPBNMB==:3 ;LH=CORE ADDRESS OF FIRST FILE NAME BLOCK (NMB)
; WITH THIS PROJECT-PROGRAMMER NUMBER
;RH=BIT PPPYES-N=1 IF UFD EXISTS (CLOSED IN MFD) IN
; NTH FILE STRUCTURE IN SYSTEM. IF BIT PPPYES-N=0
; EITHER UFD DOES NOT EXIST OR DO NOT KNOW.
; SEE BIT COPYES-N IN PPBUFB.
DIFPNL==:PPBNMB-NMBPPB ;DIFFERENCE BETWEEN DOWNWARD POINTER IN PPB BLOCK
; AND ACCROSS POINTER IN NMB BLOCK
PPBNLG==:3 ;PROJ R NO. NOT LOGGED IN - WORD ADR.
PPSNLG==^D1 ;BYTE SIZE
PPNNLG==^D35 ;BYTE PTR. POS.
PPPNLG==:1 ;PROJ R NO. NOT LOGGED IN - THE BIT=0 IF NOT
; USED TO FLUSH PPB IMMEDIATELY WHEN LAST FILE
; BECOMES DORMANT IN PPB
;WORD 4---------------------------------------
PPBCNT==:4 ;USE-COUNT FOR THE PPB
;WORD 5---------------------------------------
PPBKNO==:CORKNO ;KNOW WHETHER UFD DOES OR DOES NOT EXIST IN
; FILE STRUCTURE N-WORD ADR. BITS 18-31 BIT PPPKNO-N=1 IF
; MONITOR KNOWS(HAS READ UFD),=0 IF HAS NOT.
PPSKNO==:COSKNO ;BYTE SIZE
PPNKNO==:CONKNO ;BYTE PTR. POS.
PPPKNO==:COPKNO ;RIGHT MOST BIT
;WORD 6---------------------------------------
PPBYES==:CORYES ;UFD DEFINITELY EXISTS IN FILESTRUCTURE - WORD ADR.
PPSYES==:COSYES ;BYTE SIZE
PPNYES==:CONYES ;BYTE PTR. POS.
PPPYES==:COPYES ;RIGHT MOST BIT
;WORD 7---------------------------------------
PPBLOK==:7 ;BIT N+1 =1 IF UFD FOR FSN N IS INTERLOCKED
SUBTTL RIB WORD POSITIONS FOR RETRIEVAL INFORMATION BLOCK
;THE FIRST "RIBDDB" LOCATIONS OF THE RIB ARE KEPT IN CORE IN THE
; DDB WHILE THE FILE IS ACTIVE, THEY ARE FLAGGED (DDB).
;SOME OF THE SAME INFORMATION ALSO APPEARS IN THE ACCESS TABLE ENTRY
; THEY ARE FLAGGED (ACT).
;THE ORDER OF THESE ARGUMENTS CORRESPONDS EXACTLY TO THE EXTENDED LOOKUP,
; ENTER, RENAME BLOCKS. WORDS APPEARING IN EXTENDED LOOKUP, ENTER, RENAME
; ARE FLAGGED WITH (ENT). SEE LEVEL D PROJECT SPECIFICATION FOR MORE
; INFORMATION ON LOOKUP/ENTRY/RENAME ARGUMENTS AND VALUES.
;A FEW EXTRA WORDS WHICH HAVE MEANING FOR UFD'S ONLY HAVE BEEN ADDED
; TO ALL FILES. THEY HAVE NO MEANING FOR DATA FILES. THESE WORDS ARE
; FLAGGED (UFD-ONLY).
;ALL QUANTITIES ARE IN BLOCKS EXCEPT THE FILE SIZE (RIBSIZ), WHERE
;USER MAY WANT TO KNOW NO. OF DATA WORDS IN LAST BLOCK
INTERN RIBFIR,RIBPPN,RIBNAM,RIBEXT,RIBPRV,RIYPRV,RIBATT,RIBLAD,RIBDED
INTERN PRTEXC,PRTRED,PRTAPP,PRTUPD,PRTWRT,PRTREN,PRTCPR,RIRXLK,RIRXCR,RIRXRD,RIPPAL
INTERN RIBSIZ,RIBVER,RIBSPL,RIBEST,RIBALC,RIBPOS,RIPNCK,RIBLEN,RIBACT,RIBACS
INTERN RIBNXT,RIBPRD,RIBMTA,RIBUFD,RIBQTF,RIBQTO,RIBQTR,RIBUSD,RIPDIR,RIPCRH
INTERN RIBSTS,RIBFLR,RIBXRA,RIBTIM,RIPLOG,RIPHRE,RIPHWE,RIPSCE,RIPBDA,RIPBFA
INTERN RIBENT,MRIBLN,RIBWN1,RIBCOD,CODRIB,RIBSLF,RIBELB,RIBEUN,RIBNBB,RIPNUB
INTERN RIPNDL,RIPNFS,RIBAUT,RIBLNA,RIBFT1,RIBNCA,RIBDEV,RIBPCA,RIPABC,RIPCMP
IFNDEF MLACTS,<XP MLACTS,^D39> ;MAXIMUM LENGTH OF THE ACCOUNT STRING
; IF NOT DEFINED, 39 CHARACTERS
IFG MLACTS-^D39,<XP MLACTS,^D39> ;MAXIMUM LENGTH IS 39 CHARACTERS
XP ACTSTL,MLACTS/^D5+1 ;LENGTH OF ACCOUNT STRING IN WORDS
IFE FTACCT,<
XP ACTSTL,0
>
RIBFIR==0 ;CONTAINS AOBJN POINTER TO FIRST RETRIEVAL POINTER IN THIS RIB
; I.E., LH=-MAX. POSSIBLE NO. POINTERS, RH=REL ADR OF FIRST PTR
RIBPPN==1 ;(ACT)(DDB) (ENT) PROJECT,PROGRAMMER # IN OCTAL OR PROJECT
; NAME (3 CHAR SIXBIT LEFT JUSTIFIED IN LH) OR PROGRAMMER
; INITIALS (3 CHAR SIXBIT LEFT JUSTIFIED IN RH) (AS LOOKUP ENTER
; RENAME ARG APPEARS AT RIBSIZ POSITION) OF UFD IN WHICH
; THIS FILE APPEARS. NEVER CONVERTED TO DECIMAL BY MAN OR MACHINE.
RIBNAM==RIBPPN+1;(ACT)(DDB) (ENT) 6 CHAR FILE NAME IN SIXBIT (OR OCTAL PROJECT
; PROGRAMMER NO. OR SIXBIT IF THIS FILE IS MDF OR UFD).
RIBEXT==RIBNAM+1;(ACT)(DDB) (ENT) LH 3 CHAR FILE EXTENSION IN SIXBIT; BITS 24-35
; ACCESS DATE. BYTE=RIBACD.
RIBPRV==4 ;(ACT)(DDB) (ENT)FILE ATTRIBUTES 0-8 ACCESS CODE, 9-12 MODE, 13-23
; CREATION TIME IN MINUTES SINCE MIDNIGHT, 24-35 CREATION DATE
RIBATT==RIBPRV ;ANOTHER SYMBOL FOR SAME LOCATION
RISPRV==^D9
RINPRV==^D8
$HIGH
RIYPRV: POINT RISPRV,RIBPRV+1(T3),RINPRV ;BYTE POINTER TO ACCESS PRIVILEGES
$LOW
;ACCESS PRIVILEGES DEFINED IN INCREASING ORDER OF POWER FOR
; DATA FILES (IE NON-DIRECTORY)
; BITS 0-2 FOR ANY JOB WITH MATCHING PROGRAMMER NO.
; (NO MATTER WHAT THE PROJECT)
; BITS 3-5 FOR ANY JOB WITH MATCHING PROJECT NO.
; (NO MATTER WHAT THE PROG NO.
; BITS 6-8 NEITHER PROJ NOR PROG MATCH
;PRIVILEGE COMES STORED BY MONITOR - COMPLEMENTED FOR USER PROGRAM
PRTEXC==1 ;EXECUTE ONLY-IE GET, R,RUN ACCESS
PRTRED==2 ;READ ONLY
PRTAPP==3 ;APPEND (ALLOCATE, DEALLOCATE, APPEND)
PRTUPD==4 ;UPDATE
PRTWRT==5 ;WRITE (SUPERSEDE,TRUNCATE)
PRTREN==6 ;RENAME (CHANGE ATTRIBUTES, NAME, EXT, DIR)
PRTCPR==7 ;CHANGE PRIVILEGE
;PROTECTION CODES (SEEN BY USER)
XP PR.NAF,7 ;NO ACCESS TO FILE
XP PR.EXC,6 ;EXECUTE ONLY
XP PR.RED,5 ;READ
XP PR.APP,4 ;APPEND (ALLOCATE, DEALLOCATE, APPEND)
XP PR.UPD,3 ;UPDATE
XP PR.WRT,2 ;WRITE (SUPERSEDE, TRUNCATE)
XP PR.REN,1 ;RENAME (CHANGE ATTRIBUTES, NAME, EXT, DIR)
XP PR.CPR,0 ;CHANGE PROTECTION
;ACCESS PROVILEGES FOR DIRECTIORY FILES (RIPDIR SET IN RIBSTS)
; 3 INDEPENDANT ACCESS PRIVILEGES
; BITS 0-2 FOR ANY JOB WITH MATCHING PROG. NO, 3-5 MATCHING PROJ
; 6-8 NEITHER MATCHING
RIRXLK==4 ;1 ALLOWS LOOKUPS IN DIRECTORY
RIRXCR==2 ;1 ALLOWS CREATES IN DIRECTORY
; (IE ADD NAMES WHICH ARE NOT ALREADY THERE)
RIRXRD==1 ;1 ALLOWS DIRECTORY TO BE READ AS A DATA FILE
RIBSIZ==5 ;(ACT)(DDB) (ENT) LH: WRITTEN LENGTH IN WORDS OR
; BOTH HALVES POSITIVE LENGTH IN WORDS AS 36 BIT QUANTITY.
; MAYBE LESS THAN NO. OF WORDS ALLOCATED
RIBVER==RIBSIZ+1;(ENT) VERSION NUMBER (LIKE JOBVER)
; LH=PROGRAMMER NUMBER LAST MAKING CHANGE
; RH=OCTAL VERSION NUMBER NEVER CONVERTED TO DECIMAL
; BY MAN OR MACHINE.
RIBSPL==7 ;(ENT) POSSIBLE USER FILE NAME WHEN FILE BEING SPOOLED
RIBEST==10 ;(ENT) ESTIMATED LENGTH IN CORE & NR. OF BLOCKS
RIBALC==11 ;(ENT) # OF BLOCKS ALLOCATED TO FILE INCLUDING BOTH RIBS.
RIBPOS==RIBALC+1;(ENT) LOGICAL BLOCK OF # WITHIN STR OF LAST ALLOCATED GROUP OF FILE
; OR 0 IF LAST ALLOCATE DID NOT SPECIFY LOGICAL
; BLOCK (POSITION)
RIBFT1==13 ;ARG SAVED FOR FUTURE FOR DIGITAL TO DEFINE
RIBUNI==:RIBFT1 ;(PRIV'D) UNITS WHICH WROTE FILE
;BITS 10-17 = UNIT
;BITS 18-20 = KONTROLLER
;BITS 21-35 = APR SERIAL NUMBER
RIBNCA==14 ;UNPRIVILEGED ARG FOR EACH CUSTOMER TO DEFINE
RIBLNA==RIBNCA ;LAST UNPRIVILEGED ARG
RIBMTA==15 ;(ENT) 36 BIT TAPE LABEL IF FILE HAS BEEN PUT ON MAGTAPE
RIBDEV==16 ;VALUE ONLY-FILE STRUCTURE NAME FILE STARTS ON
RIBSTS==17 ;STATUS BITS FOR ALL FILES IN UFD(LH),
; THIS FILE IN RH
RIPLOG==400000 ;(LH) IF 1 SAYS USER IS LOGGED IN. SET BY LOGIN CUSP
; RENAME UUO. SET TO 0 BY LOGOUT CUSP RENAME UUO.
; BIT CHECKED BY LOGIN IN ORDER TO DETERMINE IF
; RIBTOT IS TO BE BELIEVED (IF RIBLOG==1) SYSTEM
; MUST HAVE CRASHED OR BEEN RELOADED WITHOUT LOGGING
; OUT ALL USERS.
RIPCHG==:10000 ;(LH) FILSER SETS TO 1 IF ANY FILE WRITTEN/RENAMED.
;CLEARED BY BACKUP.
RIPDIR==400000 ;(RH) 1 IF THIS FILE IS A DIRECTORY FILE (UFD OR MFD)
; RATHER THAN A DATA FILE. NEEDED TO PROTECT
; THE SYSTEM FROM THE USER WHO MIGHT TRY
; TO MODIFY A DIRECTORY AS A DATA FILE
RIPNDL==200000 ;(RH)[NO DELETE] 1 IF THIS FILE CANNOT BY
; DELETED EVEN BY A PRIVILEGED PROGRAM. THESE FILES ARE IN
; SOME SENSE FAKE OR CRUCIAL TO FILE STRUCTURE.
; EG. HOME.SYS, SAT.SYS, MAINT.SYS, SWAP.SYS,BADBLK.SYS
RIPDMP==:100000 ;(RH) THIS FILE CONTAINS A MONITOR DUMP NOT YET
; PROCESSED BY THE CRASH COPY PROGRAM
RIPNFS==40000 ;(RH)[NO FAILSAFE] 1 IF THIS FILE SHOULD NOT
; BE DUMPED BY FAILSAFE BECAUSE IT IS A FUNNY FILE AND
; SHOULD NOT BE RESTORED OR IS PART OF THE SKELETON
; FILE STRUCTURE. (BADBLK.SYS,SAT.SYS,HOME.SYS,SWAP.SYS,MAINT.SYS
; RECOV.SYS). (SNAP.SYS, CRASH.SAV, UFD'S AND MFD
; DO NOT HAVE RIPNFS ON, SO THEY ARE ALL SAVED).
RIPABC==20000 ;(RH) ALWAYS BAD CHECKSUM(SWAP.SYS,SAT.SYS)
RIPCBS==:10000 ;(RH) COMPRESS BIT SET (RIPCMP) ON ENTRY TO COMPRESSOR
;USED TO SELECTIVELY NOT CLEAR RIPCMP ON EXIT
RIPABU==4000 ;(LH/RH) ALWAYS BACKUP THIS
; UFD/FILE. USED BY BACKUP TO IGNORE ACCESS
; DATE AND WRITE FILE ANYWAY.
RIPNQC==2000 ;NON QUOTA-CHECKED FILE
RIPCMP==1000 ;(RH) THIS UFD IS BEING COMPRESSED
; FOR ERROR RECOVERY IF CRASH WITH A JOB
; IN THE COMPRESSOR SINCE DUPLICATE ENTRIES MAY APPEAR
RIPSCE==400 ;(LH/RH) 1 IF ANY FILE IN UFD/THIS FILE HAS HAD A SOFTWARE
; CHECKSUM ERROR DETECTED BY MONITOR.(IOIMPM)
RIPHWE==200 ;(LH/RH) 1 IF ANY FILE IN UFD/THIS FILE HAS HARD (3 TIMES)
; WRITE DATA ERROR DETECTED BY MONITOR.(IODTER)
RIPHRE==100 ;(LH/RH) 1 IF ANY FILE IN UFD/THIS FILE HAS HARD (3 TIMES)
; READ DATA ERROR DETECTED BY MONITOR.(IODTER)
RIPPAL==20 ;(RH) THIS IS A PRE-ALLOCATED FILE
; SUPERSEDE WILL USE THIS ALLOCATION
; WHICH ALREADY EXISTS FOR THIS FILE
RIPBFA==10 ;(LH/RH) 1 IF ANY FILE IN UFD/THIS FILE IN UFD FOUND BAD BY FAILSAFE
; WHEN READING MAGNETIC TAPE TO RESTORE TO DISK.
RIPCRH==4 ;(LH/RH) 1 IF ANY FILE IN UFD/THIS FILE WAS CLOSED AFTER A CRASH
; (PRINTED BY LOGIN)
RIPBDA==1 ;(LH/RH) 1 IF ANY FILE IN UFD/THIS FILE IN UFD FOUND BAD BY DAMAGE
; ASSESSMENT CUSP
RIPNCK==RIPDIR!RIPABC ;DIRECTORIES HAVE BAD CHECKSUMS
RIPNDP==:RIPNDL!RIPPAL
INTERN IOSHRE,IOSHWE,IOSSCE,IOSERR,IOSMER
;IOSHRE,HWE,SCE ARE S BITS WHICH CORRESPOND TO RIB STATUS BITS
;THEY ARE IN THE SAME POSITIONS AS THE ERROR BITS
IOSHRE==RIPHRE
IOSHWE==RIPHWE
IOSSCE==RIPSCE
IOSERR==IOSHRE+IOSHWE+IOSSCE
IOSMER==-IOSERR-1
RIBELB==20 ;LOGICAL BLOCK WITHIN ERROR (SEE RIBEUN)
; IN WHICH BAD REGION BEGINS. 0 MEANS FILE HAS HAD NO BAD REGIONS
; BAD REGIONS ARE MARKED ON HARD DATA AND DEVICE ERRORS ONLY(IODTER)
; DETECTED BY HARDWARE PARITY OR SEARCH HARDWARE.
; AND SOFTWARE DETECTED ERRORS.
; DO NOT INVOKE THE BAD REGION MECHANISM(SEE CLOSE).
;LH=CONI BITS 12-29 ON ERROR (SEE BAFELB)
RIBEUN==21 ;LH=LOGICAL UNIT # WITHIN STR ON WHICH ERROR REGION OCCURED (0..)
RIBNBB==RIBEUN ;RH=# OF CONSECUTIVE LOGICAL BLOCKS IN BAD REGION
; (MAY WANDER OUTSIDE OF THIS FILE ALLOCATION)
RIBQTF==22 ;(UFD ONLY) FIRST COME FIRST SERVE LOGGED IN QUOTA IN TOTAL
; NUMBER OF DATA + RIB BLOCKS (I.E. ALL OVERHEAD BLOCKS TOO
; EXCEPT NOT UFD + ITS RIB - THAT IS CHARGED TO 1,1) ALLOWED THIS
; USER IN THIS DIRECTORY IN THIS FILE STRUCTURE WHILE
; LOGGED-IN. SET BY LOGIN FROM AUXACC.SYS FILE. THIS QUANTITY
; + RIBQTR KEPT IN CORE IN UFB DATA BLOCK
RIBQTO==23 ;(UFD-ONLY) LOGGED-OUT QUOTA IN TOTAL NUMBER OF DATA + RIB
; BLOCKS ALLOWED THIS USER IN THIS DIRECTORY IN THIS STR
; WHILE LOGGED-OUT.(I.E. ALL OVERHEAD BLOCKS TOO EXCEPT UFD
; + ITS RIB - THAT'S CHARGED TO 1,1). SET BY LOGIN FROM ACCT.SYS
; FILE (SO LOGOUT WILL NOT HAVE TO SEARCH ACCT.SYS).
; LOGOUT WILL FORCE USER TO DELETE ENOUGH FILES SO AS TO BE
; BELOW THIS LIMIT. THIS QUANTITY IS NOT KEPT IN CORE
RIBQTR==24 ;(UFD-ONLY) RESERVED LOGGED IN QUOTA IN TOTAL NUMBER
; OF DATA + RIB BLOCKS (I.E. ALL OVERHEAD BLOCKS TOO EXCEPT
; UFD+ITS RIB - THAT'S CHARGED TO 1,1).
; RESERVED BY ADMINISTRATOR FOR THIS USER
; IN THIS DIRECTORY IN THIS FILE STRUCTURE WHILE LOGGED IN.
; THIS QUANTITY PLUS RIBQTF KEPT IN CORE IN UFB DATA BLOCK
RIBUSD==25 ;(UFD-ONLY) COUNT OF BLOCKS USED (INCLUDING ALL OVERHEAD BLOCKS)
; WHEN JOB WAS LOGGED OUT
; (PROVIDED LOGBIT=0). WRITTEN BY LOGOUT, READ BY LOGIN.
RIBAUT==26 ;PROJ-PROG # OF AUTHOR OF FILE, IE USER DOING
; CREATE OR SUPERSEDE. (USUALLY THE SAME AS OWNER, IE
; UFD IN WHICH FILE EXISTS, EXCEPT WHEN A FILE
; IS CREATED OR SUPERSEDED IN SOMEONE ELSES UFD)
RIBNXT==27 ;(ENT) SIXBIT NAME OF NEXT FILE STRUCTURE IF THIS FILE IS
; CONTINUED ON ANOTHER FILE STRUCTURE. 0 IF IT IS ONLY
; ON ONE STR OR THIS IS LAST SUB-FILE STR
RIBPRD==30 ;(ENT) SIXBIT NAME OF PREDECESSOR FILE STR IF THIS
; SUBFILE IS NOT THE FIRST. 0 IF IT IS FIRST OR ONLY SUBFILE.
RIBPCA==31 ;(ENT) PRIVILEGED ARG FOR EACH CUSTOMER TO DEFINE
RIBUFD==32 ;(ENT) LOGICAL BLOCK NUMBER WITHIN STR OF UFD DATA BLOCK(RATHER THAN CLUSTER
; NUMBER) IN WHICH THIS FILE APPEARS. IF 2 OR MORE BLOCKS
; IN UFD THIS ENTRY CONTAINS THE PROPER BLOCK POINTER. USED
; AT CLOSE AND RENAME TIME IF IN CORE AND USED FOR FAST FILE
; RECOVERY.
RIBFLR==33 ;(ENT) RELATIVE BLOCK NUMBER IN FILE OF FIRST BLOCK IN RIB. IMPLEMENTED
;FOR EXTENDED RIBS
RIBXRA==34 ;(ENT) (DDB) EXTENDED RIB ADDRESS. POINTS TO NEXT RIB IN CHAIN. IF 0 THIS IS
;THE LAST RIB. FORMAT IDENTICAL TO DEVRIB IN DDB
RIBTIM==35 ;(ENT) CREATION DATE & TIME IN NEW DATE FORMAT
RIBLAD==36 ;LAST ACCOUNTING DATE (UFD)
RIBDED==37 ;DIRECTORY EXPIRATION DATE (UFD)
RIBACT==40 ;AOBJN POINTER TO ACCOUNT STRING
RIBENT==RIBACT ;LAST ARG OR VALUE ON EXTENDED LOOKUP/ENTER/RENAME
;FIRST RETRIEVAL POINTER STORED HERE
; NO SYMBOL ASSIGNED. INSTEAD DSKSER MUST LOOK IN RIBFIR
; FOR THIS ADDRESS. THIS IS SO RETRIEVAL DATA CAN BE ADDED
; TO WITHOUT INVALIDATING PREVIOUSLY WRITTEN DISK PACKS.
;FORMAT FOR A RETRIEVAL POINTER IN RIB CONTAINS THREE FIELDS
; DEFINED FOR EACH FILE STRUCTURE AND STORED IN HOME BLOCK.
; A - BLOCK COUNT
; B - CHECKSUM
; C - CLUSTER NUMBER
RIPNUB==400000 ;BIT SET IN NEW UNIT PTR. TO INSURE NON-ZERO
RIBWN1==RIBENT+PTRLEN ;RELATIVE LOCATION OF LAST POINTER TO BE
; COPIED FROM DEVICE DATA BLOCK WINDOW
; THE FIRST TIME THE RIB IS SET UP.
; THIS SYMBOL USED IS A BLT ADR.
RIBACS==RIBCOD-ACTSTL ;BLOCK ACTSTL LONG AT END OF RIB CONTAINS
;ACCOUNT STRING. AOBJN POINTER IS RIBACT
RIBCOD==BLKCOD ;CONTAINS UNLIKELY DATA WORD (I.E., NOT ASCII OR FLOATING POINT)
;LH=0
CODRIB==777777 ; THE UNLIKELY CODE
MRIBLN==RIBENT-RIBCOD+1+ACTSTL ;-MAX. NO. OF RETRIEVAL POINTER (AND UNITS AND ETC.)
; RIBLEN PUT IN LH OF RIBFIR ON ENTER
RIBLEN==-MRIBLN
RIBSLF==BLKSLF ;THIS BLOCK (NOT CLUSTER) NUMBER (SELF)
SUBTTL SAT BLOCKS
;WORD POSITIONS FOR DATA BLOCK IN SAT FILE
;PREFIX "SAF"(SAT IN CORE)
;ALL 128 WORDS ARE USED FOR BITS
;PREFIX IS "SAB" (FOR STORAGE ALLOCATION DATA BLOCK)
;THE PREFIX SAT REFERS TO THE TABLE OF DATA BITS PORTION OF THE SAB
;IT IS VERY IMPORTANT TO DISTINGUISH WHETHER AN INDEX IS RELATIVE TO SAB OR SAT
; THE DIFFERENCE BETWEEN TWO QUANTITIES IS ALWAYS SABBIT
;SAT TABLE HAS MAX. OF 128 WORDS OF BITS
;ONE BIT FOR EACH CLUSTER OF BLOCKS ON UNIT
INTERN SABRNG,SABTAL,SABSCN,SABFIR,SABBIT,SAYNDX,SAYCLA,SAPDOB,SAPDIF,SABHOL
REPEAT 0,<;LEVEL E
INTERN SABSAT,SABALT,SABRSV,SABHED
>
SABRNG==0 ;LH=NEXT CORE ADDRESS IN SAB TABLE RING ON THIS UNIT
; RH=SABTAL
SABTAL==SABRNG ;LH=SABRNG
; RH=NO. OF FREE CLUSTERS IN THIS SAT BLOCK
SABSCN==1 ;LH=-NO. OF WORDS IN SAT BUFFER (NEVER CHANGED)
; RH=FIRST CORE ADDRESS TO START LOOKING
; FOR FREE SPACE ON NEXT CALL (EACH FIND IS STORED HERE
; SO EACH SCAN BEGINS WHERE LAST SUCCESSFUL ONE LEFT OFF)
SABFIR==2 ;BITS 0-1 STATUS BITS
SAPDIF==400000 ; BIT 0=1 IF SAT TABLE IN CORE IS DIFFERENT FROM DISK
SAPBAD==200000 ; BIT 1=1 IF THIS SAT BLOCK IS ON A BAD BLOCK ON DISK
; BITS 2-12 INDEX OF SAT DISK ADDR. IN SPT TABLE
; SO ALL CLUSTERS ARE ASSUMED TO BE IN USE
; BITS 13-35=CLUSTER ADDRESS WITHIN UNIT OF FIRST CLUSTER
; REPRESENTED IN SAT TABLE - SAME SYMBOL CLASIZ, CLAPOS AS
; IN SPT TABLE
; BITS 2-35 SET -1 WHEN NEW F/S CREATED (STRUUO(.FSDEF))
; TO FORCE SAT'S TO BE READ INTO SAB
SAPDOB==SAPDIF!SAPBAD ;THE OR OF BOTH
SABNDX==SABFIR ;INDEX INTO SPT TABLE WHICH DESCRIBES SAB BLK-WORD ADR.
SASNDX==^D11 ;BYTE SIZE
SANNDX==^D12 ;BYTE PTR POS.
$HIGH
SAYNDX: POINT SASNDX,SABNDX(P2),SANNDX ;BYTE PTR
SABCLA==SABFIR
SAYCLA: POINT CLASIZ,SABCLA(P2),CLAPOS
SABHOL==3 ;NUMBER OF BLOCKS IN LARGEST HOLE (-1 IF DON'T KNOW)
$LOW
REPEAT 0,<;POSTPONE TO LEVEL E
;THE FOLLOWING WORDS ALSO APPEAR IN SAT BLOCK ON DISK:
SABSAT==3 ;FIRST SAT BLOCK HEADER WORD
; LH=SIXBIT "SAT",
;BITS 18-25 = UNUSED
;BITS 26-35 ARE WRITTEN BY THE REFRESHER AND ARE
; INCLUDED IN SAT BLOCK TO MAKE IT EASIER FOR PROGRAMS
; TO READ THE SAT BLOCKS(DSKLST,ONCE-ONLY CODE,ETC)
; IN FILE SAT.SYS
SASHED==^D3 ;NO. OF WORDS IN SAT HEADER - BYTE SIZE
; SAVHED IS STORED HERE
; CANNOT BE CHANGED WITHOUT REFRESHING(COPYING DATA WITH
; MAGTAPE IF WANT TO CONVERT)
SANHED==^D35 ;BYTE PTR POS.
SAVHED==SABHED ;VALUE STORED
SASWPS==^D7 ;NO. OF WORDS OF BIT DATA( IE NOT INCLUDING HEADER) - BYTE SIZE
SANWPS==^D32 ;BYTE PTR POS.
SABALT==4 ;ALTER NUMBER FOR NO. OF RESERVED BLOCKS IN USE
; CONTENTS OF STRALT ARE COPIED HERE WHEN SAT BLOCK IS WRITTEN
; AT OTHER TIMES SABALT IS NOT CURRENT
; THE PURPOSE OF THE ALTER NUMBER IS TO PROVIDE AN EASY
; WAY FOR ONCE ONLY TO FIND THE LAST SAT
; BLOCK WRITTEN ON A FILE STRUCTURE SO THAT IT CAN FIND THE
; LATEST COPY OF THE NUMBER OF RESERVED BLOCKS(SABRSV) IN USE ON STR
SABRSV==5 ;NO. OF RESERVED BLOCKS ALLOCATED( IN USE) TO USERS FOR THIS STR
; CONTENTS OF (STRGAR-STRRES) ARE STORED HERE
; WHEN THIS SAT BLOCK IS WRITTEN.
; AT OTHER TIMES SABRSV IS NOT CURRENT
SABHED==3 ;NO. OF WORDS IN SAT BLOCK HEADER - STORED IN SABSAT
>
SABBIT==4 ;CONTAINS THE FIRST WORD OF SAT BITS
;"SAF" - FORMAT OF STORAGE ALLOCATION TABLE ON DISK
; SEE "SAB" FOR A DESCRIPTION OF SAT BLOCK HEADER.
; THE REST OF THE WORDS AFTER THE HEADER CONTAIN THE BITS
; EACH BIT REPRESENTS
; ONE CLUSTER OF DISK BLOCKS ON THE PHYSICAL UNIT WHERE THIS BLOCK IS WRITTEN.
; IF 1 CLUSTER IS PART OF A FILE OR CONTAINS SOME BAD BLOCKS (OR BOTH-FIRST TIME
; FILE IS WRITTEN)
;PROGRAMS WHICH READ THE SAT BLOCKS(DSKLST,ONCE-ONLY, ETC)
; MUST NOT LOOK AT WORDS BEYOND THE LAST ONE WHICH CONTAINS
; ALLOCATION DATA SINCE THE HARDWARE IS NOT CONSISTENT WITH RESPECT TO
; WRITING THE REMAINDER OF PARTIAL BLOCKS
; ALSO BECAUSE THE SAT BLOCKS ARE WRITTEN AS A FILE
; IF THE UNIT AND CLUSTER SIZE REQURE MORE THAN 1 128 WORD BLOCK
; EACH SAT BLOCK WILL APPEAR AS THE FIRST BLOCK OF EACH GROUP (=1 CLUSTER)
; THE REMAINING BLOCKS IN EACH SAT.SYS GROUP SHOULD BE IGNORED
; THEY WILL NOT START WITH SIXBIT "SAT" IN LH OF FIRST WORD
;THE SAT BLOCKS ARE SCATTERED ACCROSS EACH UNIT SO THAT
; THEY WILL BE NEAR THE DATA BLOCKS THEY DESCRIBE
;SPT - STORAGE ALLOCATION POINTER TABLE FOR SATS IN CORE AND DISK FOR A UNIT
;THERE IS ONE POINTER WORD IN CORE FOR EACH REAL SAT BLOCK ON UNIT,
; EVEN THOUGH NOT ALL SAT BLOCKS ARE KEPT IN CORE.
; BITS 0-12=TALLY OF FREE CLUSTERS IN THIS SAT BLOCK
; BITS 13-35=CLUSTER ADDRESS ON DISK WHERE SAT BLOCK IS WRITTEN
; LAST WORD IN SPT TABLE IS A ZERO.
INTERN CLASIZ,CLAPOS,TALSIZ,TALPOS,SPTFIR,SPYTAL,SPYCLA
SPTFIR==0 ;REL. LOC. IN SPT TABLE OF FIRST POINTER TO A
; SAT BLOCK ON DISK
TALSIZ==^D13 ;SIZE OF BYTE CONTAINING FREE CLUSTER TALLY
; FOR THIS SAT BLOCK
TALPOS==^D12 ;RIGHT MOST BIT OF SAT FREE CLUSTER TALLY
CLASIZ==^D23 ;SIZE OF BYTE CONTAINING CLUSTER ADDRESS ON THIS
; UNIT WHERE SAT BLOCK IS WRITTEN
CLAPOS==^D35 ;RIGHT MOST BIT OF SAT CLUSTER ADDRESS
$HIGH
SPYTAL: POINT TALSIZ,SPTFIR(T4),TALPOS ;# OF FREE CLUSTERS FOR THIS SAT BLOCK
SPYCLA: POINT CLASIZ,SPTFIR(T4),CLAPOS ;CLUSTER ADDR. OF SAT
$LOW
SUBTTL STR: FILE STRUCTURE DATA BLOCK
INTERN STRNAM,STRUNM,STRHGH,STRFSN,STRUNI,STRREF,STRMNT,STRSAT,STRDB
INTERN STRPT1,STRUN1,STP1PT,STYCNP,STYCKP,STYCLP,STRBSC,STRSCU,STRTAL
INTERN STRJOB,STRSYS,STRLEN,STROVR,STRRES,STRGAR,STYTRY,STRSIZ,STRBPU
INTERN STRALT,STRSRC,STRK4C,STY1PT,STYUN1,STYRCL,STYSER,STR1PT,DIFSTU
INTERN STRPPN
IFN FTMBTS,<
INTERN STRSDL,STRCRS
>
STRDB: ;ADR OF STR PROTYPE DATA BLOCK
PHASE 0
STRNAM:!0 ;(0)SIXBIT NAME OF FILE STR. (LEFT JUSTIFIED) FIRST 3 CHAR
; ARE PRIMARY NAME, NEXT 3 CHAR UNUSED UNLESS TWO FILE
; STR. WITH SAME PRIMARY NAME.
IFN STRNAM-DEVNAM,<PRINTX - STRNAM MUST=DEVNAM>
STRSYS:!XWD 0,0 ;(1)LH=CORE ADDRESS OF NEXT FILE STRUCTURE DATA BLOCK IN SYSTEM
STRFSN==STRSYS ;RH=SYSTEM FILE STRUCTURE NO. OF THIS STR (0....15(OCTAL))
STRUNI:!XWD 0,0 ;(2)LH=ADDRESS OF FIRST UNIT DATA BLOCK IN THIS STR
; END OF LIST IS 0. LH IN UNI IS UNISTR. RH = STRK4C.
DIFSTU==STRUNI-UNISTR
STRK4C==STRUNI ;LH=STRUNI;RH=J FOR CRASH.SAV ON THIS STR
STRUNM:!XWD 0,0 ;(3)RH=NO. OF UNITS IN THIS FILE STRUCTURE
STRREF==STRUNM ;LH=NON-ZERO IF THIS STR NEEDS REFRESHING BEFORE IT CAN BE USED
STRHGH:!0 ;(4)HIGHEST LOGICAL BLOCK NO. IN THIS STR (0...STRHGH) (SAME AS TOTAL
; NO OF BLOCKS COUNTING OVERHEAD AND SWAPPING)
; (EXCEPT IF SMALL UNITS MIXED WITH BIG - SEE STRSIZ)
STRSIZ:!0 ;(5)SIZE OF STR IN NO. OF 128 WORD BLOCKS INCLUDING
; SWAPPING SPACE, BAD BLOCKS, SKELETON FILE STRUCTURE
; BUT NOT COUNTING NON-EXISTANT LOGICAL ADDRESS SPACE CAUSED
; BY SMALL PACKS MIXED WITH LARGER UNITS.
STRGAR:!0 ;(6)UPPER BOUND ON BLOCKS GUARRANTEED TO USERS BY RESERVED QUOTAS
; SET BY ONCE FROM HOMGAR
STRRES:!0 ;(7)NO. OF RESERVED FREE BLOCKS LEFT IN THIS STR
; THE ADMINISTRATOR SHOULD NOT OVERSUBSCRIBE RESERVED QUOTAS
;SET BY ONCE ONLY CODE VHEN IT READS ALL SAT BLOCKS.
; THE SAT BLOCK WITH THE LARGEST ALTER NUMBER IS USED
; [STRGAR-RA@RSV WITH MAX. ALTER NUMBER]
STRALT:!0 ;(10)ALTER NUMBER FOR THIS STR
; INCREMENTED BY ONE EACH TIME ANY SAT BLOCK IS WRITTEN
; FOR THIS STR. ITS NEW CONTENTS ARE ALSO WRITTEN IN SAT BLOCK
; HEADER ON DISK - SEE SABALT AND SABPSV
STRTAL:!0 ;(11)NO. OF FIRST-COME-FIRST-SERVED FREE BLOCKS LEFT IN THIS STR
; MINUS A SAFETY FACTOR (STVSFC - MONGEN SYMBOL)
; THIS SAFETY FACTOR GUARANTEES THAT CLOSES CAN BE DONE
STROVR:!0 ;(12)-NO. OF BLOCKS A USER IS ALLOWED TO WRITE OR ALLOCATE
; BEYOND HIS RESERVED+FCFS QUOTA
STRMNT:!0 ;(13)NO. OF DIFFERENT JOBS WHICH HAVE ISSUED MOUNT COMMAND
; FOR THIS FILE STR. LOGIN ISSUES AUTOMATIC MOUNT UUOS
; FOR PUBLIC POOL STR WHICH HAS A USER UFD.
STRSAT==STRMNT ;THIS LOC TIME-SHARED BY ONCE-ONLY CODE TO REMEMBER LOG BLOCK #
; OF 1ST RIB WITHIN STR FOR SAT.SYS
STRPT1:!0 ;(14)FIRST RETRIEVAL POINTER TO MFD IN THIS FILE STRUCTURE
; SET WHEN HOME BLOCK READ BY MONITOR
STRUN1:!XWD DSKTRY*STPTRY+SERTRY*STPSER+RCLTRY*STPRCL,0
;(15)BITS COPUN1-COSUN1=FIRST LOGICAL UNIT
; NUMBER WITHIN THIS FILE STRUCTURE WHERE MFD STARTS
; (STRPT1 IS THE FIRST RETRIEVAL POINTER)
STRTRY==STRUN1 ;NO. OF ERROR TRIES(DATA,SEARCH,RECALIBRATE) FOR THIS STR - WORD ADR.
; MONGEN CAN CHANGE BY REDEFINING DSKTRY,SERTRY,RCLTRY
STSTRY==^D6 ;BYTE SIZE
STNTRY==^D5 ;BYTE PTR POS.
STPTRY==10000 ;RIGHT MOST BIT
STSSER==^D6 ;BYTE SIZE
STNSER==^D11 ;BYTE PTR POS.
STPSER==100 ;RIGHT MOST BIT
STSRCL==^D6 ;BYTE SIZE
STNRCL==^D17 ;BYTE PTR POS.
STPRCL==1 ;RIGHT MOST BIT
STR1PT==STRUN1 ;STP1PT BIT - WORD ADDRESS
STP1PT==COP1PT ;BIT STP1PT=1 IF STRPT1 IS THE ONLY POINTER TO MFD).
IFN FTPSTR,<
STRPVS==:STRUN1 ;BIT STPPVS = 1 IF THIS IS A PRIVATE FILE STR
STPPVS==:1B35 ;ON IF A PRIVATE FILE STRUCTURE
STSPVS==1 ;BYTE SIZE
STNPVS==^D35 ;BYTE PTR POS.
>
STRBPU:!0 ;(16)NOMINAL NO. OF BLOCKS PER UNIT IN THIS STR
; IF UNITS ARE NOT SAME SIZE(RPO1,PRO2) THE LARGEST
; UNIT IS STORED HERE. THIS QUANTITY IS USED TO CONVERT
; FROM LOGICAL BLOCKNO. WITHIN STR TO UNIT NO. + LOGICAL
; BLOCK NO. WITHIN UNIT BY USING A SIMPLE DIVIDE.
STRBSC:!XWD 0,0 ;(17)LH=NO. OF BLOCKS PER SUPER CLUSTER IN THIS STR
; FILES BEGIN AT BEGINNING OF A SUPER CLUSTER, RATHER
; THAN A CLUSTER SO THAT THE SUPER CLUSTER ADDRESS
; + UNIT NO. WITHIN STR* NO SUPER CLUSTERS PER UNIT
; WILL FIT INTO 18 BITS IN UFD
;COMPUTED BY UNYBPC*(((STRHGH-0)/2*18))+1
STRSCU==STRBSC ;RH=NO. OF SUPER CLUSTERS PER UNIT
; COMPUTED BY ((UNIBPU-1)/STRBSC)+1
STRJOB:!0 ;(20)=XWD 0,0 IF ZER OR MORE THAN ONE JOB HAS F.S.
; MOUNTED (IN ITS SEARCH LIST).
; =XWD 0,N IF JOB N HAS IT SINGLE ACCESS
; =XWD -1,N IF JOB N IS ONLY JOB WITH IT MOUNTED BUT
; NOT SINGLE ACCESS
STRSRC==STRJOB ;TIME SHARED LOC. USED BY ONCE ONLY THEN CLEARED
; CONTAINS POSITION OF STR (0...N) IN SEARCH LIST
; FOR DEVICE SYS - SEE SYSSRC. -1 IF NOT IN LIST
STYCNP:!POINT 0,T2,0 ;(21)BYTE POINTER TO EXTRACT CLUSTER COUNT FIELD FROM A
; RETRIEVAL POINTER WHICH IS IN AC T2 (LEFT FIELD)
; FOR THIS STR. BITS 6-11=ONCE ONLY QUESTION. CANNOT
; EXCEED MIN(LIMCNP,36.-BITS 6-11 STYCLP.
; BITS 0-5_36.-BITS 6-11 STYCNP
STYCKP:!POINT 0,T2,0 ;(22)BYTE POINTER TO EXTRACT CHECKSUM FIELD FROM A
; RETRIEVAL POINTER WHICH IS IN AC T3 (MIDDLE FIELD)
; FOR THIS STR.
; BITS 6-11_36.-BITS 6-11 STRCNP-BITS 6-11 STYCLP
; BITS 0-5_BITS 0-5 STRCNP+BITS 6-11 STYCKP
STYCLP:!POINT 0,T2,35 ;(23)BYTE POINTER TO EXTRACT CLUSTER ADDRESS FIELD FROM A
; RETRIEVAL POINTER WHICH IS IN AC T2 (RIGHT FIELD)
; FOR THIS STR. BITS 6-11=36.-JFFO((UNIBPU-1)/UNYBPC)
; CANNOT EXCEED LIMCLP.
STRPPN:!0 ;(24) PPN OF THE OWNER OF THIS FILE
; STRUCTURE SET BY THE MOUNT SYSTEM
; PROGRAM FROM THE SYSTEM ACCOUNTING FILE
IFN FTMBTS,<
STRSDL==STRPPN ;TIME SHARED LOC. USED BY ONCE ONLY THEN CLEARED
; CONTAINS POSITION OF STR (0...N) IN SYSTEM DUMP LIST
; -1 IF NOT IN LIST
STRCRS:!0 ;(25) LOGICAL BLOCK NUMBER IN STR OF RIB FOR
; CRASH.EXE
>
STRLEN==.-STRNAM
DEPHASE
;BYTE POINTER NOT REPLICATED IN EACH STR DATA BLOCK:
$HIGH
STYTRY: POINT STSTRY,STRTRY(T2),STNTRY ;BYTE POINTER TO NO. OF ERROR RETRYS
; BEFORE CONSIDERING IT A HARD ERROR
STYRCL: POINT STSRCL,STRTRY(T2),STNRCL ;BYTE PTR TO NO. OF RECALIBRATE+1
; RETRIES FOR BOTH SEARCH AND DATA ERRORS = NO. TRIES
STYSER: POINT STSSER,STRTRY(T2),STNSER ;BYTE PTR TO NO. OF TRIES
; ON SEARCH ERROR (RETRIES -1) BEFORE RECALIBRATING.
STY1PT: POINT COS1PT,STR1PT(T2),CON1PT ;BYTE POINTER TO BIT WHICH
; IF 1 MEANS ONLY ONE RET PTR FOR MFD FOR THIS STR
STYUN1: POINT COSUN1,STRUN1(T2),CONUN1 ;BYTE PONTER TO FIRST
; LOGICAL UNIT WITHIN STR FOR MFD
IFN FTPSTR,<
STYPVS::POINT STSPVS,STRPVS(P2),STNPVS ;BYTE POINTER TO BIT WHICH
; IF 1 MEANS THIS IS A PRIVATE STR
STYPV2::POINT STSPVS,STRPVS(T2),STNPVS
>
$LOW
SUBTTL SWI - IN-CORE COPY OF SWITCH.INI
SWILEN==:0 ;LENGTH OF IN-CORE COPY
SWIPT1==:1 ;COPY OF ACCPT1 FOR FILE
SWIUN1==:2 ;COPY OF ACCUN1,,SIZE OF FILE (ACCWRT+ACYLBS)
SWIPRV==:3 ;COPY OF ACCPRV
SWIDAT==:4 ;START OF DATA FOR SWITCH.INI
SUBTTL "SYS" - SYSTEM WIDE QUANTITIES
; NO SPECIAL PREFIX
INTERN MFDPPN,SYSPP,SWPMAX,MSWPMXN,FSFPPN,PNTPPN,SYSPPB
INTERN SYSDOR,SYSCOR,UN1PTR,DINITF,DIFSTR,SWPUNI,SWPTAB,NEWPPN
INTERN STNPRT,DIFPPL,CUSPPP,DUMPPP,HELPPP,SYSPP,HICORE,SWPTBE,QUEPPN,MUSTMX
INTERN SYSSTR,SYSUNI,LVDTBL,LVDMXL,UFDPRT,SYSPPN,CORNUM,QUESTR,CRUPPN,SPLPRT
INTERN SYSPRT,SYSPRY,.UONCE,SFDLVL,XSYPPN,MAXTRN,OLDPPN,NUMBF,MAXSWP,SWPUN2
;TABLE OF FILE STRUCTURES IN SYSTEM. A ZERO ENTRY MEANS NO FILE
; STR ASSOCIATED WITH THIS NUMBER
STRAOB::<-.SLMAX-1>,,.FSMIN ;AOBJN POINTER FOR TABSTR
TABSTR==:.-.FSMIN ;INDEX THIS ADR WITH FSN. (FSN'S START AT .FSMIN)
TABST0::REPEAT .SLMAX+1,<0>
LVDTBL:! ;GETTAB TABLE NO. 16(OCTAL)-LEVEL D DISK PARAMTERS
MFDPPN: XWD 1,1 ;(0)PROJECT-PROGRAMMER NUMBER FOR STORING UFDS ONLY
; (ALL OTHER FILE STRUCTURE FILES ARE STORED IN DEVICE SYS
; (SEE SYSPPN))
CUSPPP:SYSPP:
STDPPN:
SYSPPN: XWD 1,4 ;(1)PROJ-PROG NO. FOR DEVICE 'SYS' (I.E. CUSPS,LIBRARY)
;DIRECTORIES ARE STORED IN MDFPPN
DUMPPP:FFAPPN:
FSFPPN: XWD 1,2 ;(2)PROJ-PROG NO. FOR FAILSAFE - ALL PRIVILEGED PROGRAM
HLPPPN:
HELPPP: XWD 2,5 ;(3)SYSTAT AND HELP RUN UNDER THIS NUMBER
QUEPPN: ;(IF NOT ALREADY LOGGED IN)
PNTPPN: XWD 3,3 ;(4)PROJ-PROG NO. FOR PRINTR SPOOLING PROGRAM
HICORE: ;1ST FREE LOCATION AVAILABLE IN HIGH CORE FOR STR DATA
;BLOCKS, ETC. (USED BY ONCMOD & REFSTR)
SYSPPB: XWD 0,0 ;(5)LH=FIRST PROJECT-PROGRAMMER NUMBER BLOCK IN
; SYSTEM
;RH=CORE ADDRESS OF NEXT PPB BLOCK TO SCAN
; NAME LIST TO RECLAIM GRABBABLE NMB BLOCK
;IF RH=0 CORE GRABBER SHOULD START OVER AT BEGINNING
; OF PPB LIST (I.E., LH OF SYSPPB)
DIFPPL==SYSPPB-CORLNK
SYSSTR: XWD 0,STRSYS ;(6)LH=CORE ADDRESS(DOWNWARD POINTER) OF FIRST FILE
; STRUCTURE DATA BLOCK IN SYSTEM
;RH=INDEX IN STR DATA BLOCK FOR PTR TO NEXT STR
DIFSTR==SYSSTR-STRSYS
SYSUNI: XWD FIRUNI,UNISYS ;(7)LH=CORE ADDRESS(DOWNWARD POINTER)OF FIRST UNIT
;RH=INDEX IN UNIT DATA BLOCK FOR PTR TO NEXT UNIT IN SYSTEM
SWPUNI: XWD 0,UNISWP ;(10)LH=CORE ADDR (DOWNWARD PTR) OF FIRST UNIT FOR SWAPPING
; RH=INDEX IN UNIT DATA BLOCK FOR PTR TO NEXT UNIT IN SWAPPING LIST
SYS4WD==FIL4WD*JOBN ;NO. OF 4 WORD WORD CORE BLOCKS FOR SYSTEM
; MULTIPLY BY NO. OF 4 WORD BLOCKS PER JOB
IFL SYS4WD-^D50,<SYS4WD==^D50> ;INSURE AT LEAST 50 4-WORD BLOCKS FOR SYSTEM
; EVEN IF JUST A 1 JOB SYSTEM
CORNUM: EXP SYS4WD ;(11)# PERMANENT 4 WORD BLOCKS GENERATED AT ONCE ONLY TIME
STNPRT: XWD PRVFIL*1000,0 ;(12)STANDARD PRIVILEGE
UFDPRT: XWD PRVUFD*1000,0 ;(13)STANDARD UFD PRIVILEGE
; SYMBOL PRVUFD SHOULD NOT BE USED. INSTEAD
; UFDPRT SHOULD BE USED, SO CAN PATCH STANDARD.
MBFNUM: EXP 2 ;(14) CONTAINS THE NUMBER OF MONITOR BUFFERS
; SET AT MONGEN TIME, CAN BE CHANGED AT ONCE ONLY TIME
QUESTR: EXP M.QSTR ;(15) SIZBIT NAME OF FILE STRUCTURE
; FOR QUEUEING PROGRAMS LIKE PRINT,UMOUNT, ETC
; SETUP BY MANDATORY ONCE ONLY CODE TO BE
; THE FIRST(FASTEST) STR WHICH IS UP(TABSTR(0)).
XPNPPN:
CRUPPN: XWD 10,1 ;(16) UFD FOR DUMPING CRASHES
SFDLVL: EXP LIMLVL ;(17) MAX NUMBER OF NESTED
;SFDS FOR THIS MONITOR
SPLPRT: XWD PRVSPL*1000,0 ;(20) PROTECTION FOR SPOOLED OUTPUT
SYSPRT: XWD PRVSYS*1000,0 ;(21) PROT FOR MOST SYS FILES
SYSPRY: XWD PRYSYS*1000,0 ;(22) PROT FOR SYS .SYS FILES
MUSTMX: EXP -MAXUSI ;(23) NEGATIVE MAXIMUM USETI ARGUMENT (FOR READING EXTENDED RIBS)
MAXTRN: EXP BLKMAX ;(24) MAX NO OF BLOCKS TO TRANSFER IN 1 OPERATION
; (SO HIGH PRIORITY IO WONT GET LOCKED OUT)
NEWPPN:
XSYPPN: XWD 1,5 ;(25) PPN OF EXPERIMENTAL SYS
OLDPPN: XWD 1,3 ;(26) PPN OF OLD SYS
UMDPPN::XWD 6,10 ;(27) USER MODE DIAGNOSTICS PPN
; (CAN DISABLE ERROR LOGGING)
IFNDEF M.DFNB,<M.DFNB==6>
NUMBF: EXP M.DFNB ;(30) DEFAULT NO. OF DISK BUFFERS
MAXSWP: EXP SWPMAX ;(31) MAX NUMBER OF UNITS IN ASL
ALGPPN: 5,,4 ;(32) ALGOL LIBRARY
BLIPPN: 5,,5 ;(33) BLISS LIBRARY
FORPPN: 5,,6 ;(34) FORTRAN LIBRARY
MACPPN: 5,,7 ;(35) MACRO LIBRARY
UNVPPN: 5,,17 ;(36) UNIVERSAL LIBRARY
PUBPPN: 1,,6 ;(37) USER MAINTAINED SYS:
TEDPPN: 5,,10 ;(40) TEXT EDITOR LIBRARY
RELPPN: 5,,11 ;(41) REL FILE LIBRARY
RNOPPN: 5,,12 ;(42) RUNOFF LIBRARY
SNOPPN: 5,,13 ;(43) SNOBOL LIBRARY
DOCPPN: 5,,14 ;(44) DOC FILE LIBRARY
FAIPPN: 5,,15 ;(45) FAIL LIBRARY
MUSPPN: 5,,16 ;(46) MUSIC LIBRARY
DECPPN: 10,,7 ;(47) LIBRARY FOR DEC DISTRIBUTED
; SOFTWARE.
TABSWP: XWD -SWPMAX,SWPTAB ;(50) POINTER TO ACTIVE SWAPPING LIST
BASPPN: XWD 5,1 ;(51) BASIC LIB PPN
COBPPN: XWD 5,2 ;(52) COBOL LIB PPN
MXIPPN: XWD 5,3 ;(53) PDP-11 LIB PPN
NELPPN: XWD 5,20 ;(54) NEL1AC LIBRARY
DMPPPN: XWD 5,21 ;(55) DUMP LIBRARY
POPPPN: XWD 5,22 ;(56) POP2 LIBRARY
TSTPPN: 5,,23 ;(57) TEST PPN
ALLOVR::0 ;(60) =0 IF DONT CALL DAEMON ON SOFT OVERRUNS
; RECOVERED ON FIRST RETRY, =1 IF CALL DAEMON
; ON ALL OVERRUNS
MASERR: XWD KONREG,UNISCR ;(61) POINTERS TO MASSBUS ERROR LOCATIONS FOR DAEMON
BATCHN: XWD UNYBCT,UNICCT ;(62) POINTERS TO BAT BLOCK + CHANNEL ERROR INFO FOR DAEMON
DBSPPN: XWD 5,24 ;(63) DBMS LIBRARY
EXPCHN: EXP .CHTCW ;(64) OFFSET OF EXPECTED CHANNEL TERM, WORD IN CDB FOR DAEMON
MICPPN: XWD 5,25 ;(65) LIBRARY OF MIC MACROS
TPSPPN: XWD 5,26 ;(66) TEXT PROCESSING SYSTEM LIBRARY
CTLPPN: XWD 5,27 ;(67) CTL FILE LIBRARY
GAMPPN: XWD 5,30 ;(70) GAMES
ACTPPN: XWD 1,7 ;(71) SYSTEM ACCOUNTING
APLPPN: XWD 5,31 ;(72) APL LIB
IFNDEF RIBERN,<RIBERN=0>
RIBECT::EXP RIBERN ;(73) RIB-ERROR THRESHOLD
RIBTOT::0 ;(74) TOTAL RIB ERRS
SYSDOR: XWD 0,0 ;(75) BEGINNING OF DORMANT ACCESS BLOCK LIST FOR SYSTEM
;LH=ADDRESS OF FIRST DORMANT ACCESS BLOCK IN SYSTEM
;LH=0 IF NO DORMANT ACCESS BLOCKS
;RH=ADDRESS OF LAST DORMANT ACCESS BLOCK IN SYSTEM
SYSCOR: XWD .,ZERO18 ;(76) BEGINNING OF PERMANENT 4 WORD BLOCK LIST
;LH=ADDRESS OF FIRST 4 WORD BLOCK, RH=0 ALWAYS
; IF NO FREE BLOCKS, WHOLE WORD=0.
; BLOCKS ARE LINKED TOGETHER BY CORLNK WORD.
;1 IN 8 WORD BLOCK
INTFNC::0 ;(77) NUMBER OF TIMES FRONT-END HAD DISK
D60PPN: XWD 5,32 ;(100) DAS60 LOG FILE AREA
IFN FTDAEM,<
ERTLOC::ERPTBK## ;(101) STARTING LOCATION OF QUEUE TABLE FOR DAEMON ERROR REPORTING
ERTPT1::EPKIDX## ;(102) STARTING POINTER FOR DAEMON ERROR EXTRACT
ERTPT2::ESVIDX## ;(103) STARTING POINTER FOR DAEMON ERROR INSERT
ERTLTH::ERPTMX## ;(104) LENGTH OF DAEMON ERROR TABLE
>
IFE FTDAEM,<
BLOCK 4 ;101-104 UNDEFINED
>
ERTCDA::UNICDA ;(105) OFFSET OF UNICDA IN UDB'S
ERTDES::UNIDES ;(106) OFFSET OF UNIDES IN UDB'S
SYSPTR::0 ;(107) POINTER TO IN-CORE COPIES OF RETRIEVAL PNTRS.
MAXSSL: XWD .SLMXS,.SLMXJ ;(110) LH=MAX STRS IN SYSTEM SEARCH LIST
; RH=MAX STRS IN JOB SEARCH LIST
ERTSLB: UNISLB ;(111) OFFSET OF UNISLB IN UDB'S
UTPPPN: XWD 5,33 ;(112) UETP AREA
INIPPN: XWD 5,34 ;(113) INITIALIZATION FILES AREA
ERPSIZ::EXP 4 ;(114) SIZE OF AN ERPTBR ENTRY ON WORDS
SYSKON::XWD D0KDB,KONNXT ;(115) LH=CORE ADDR OF FIRST DISK KDB IN SYSTEM
; RH=OFFSET IN KDB OF POINTER TO NEXT
LVDMXL==<.-LVDTBL-1>B26 ;END OF GETTAB TABLE
;SYSTEM VARIABLES NOT IN GETTAB:
$HIGH
UN1PTR: POINT COSUN1,T1,CONUN1 ;BYTE POINTER TO LOGICAL NUMBER WITHIN A
;FILE STRUCTURE (AFTER DATA WORD MOVED TO AC T.)
$LOW
DINITF: 0 ;DSK INITIALIZATION IN PROGRESS (ONCE ONLY CODE)
; REST OF MONITOR NOT AVAILABLE IF ERRORS ETC.
; [SET NON-ZERO AT BEGINNING OF DSK ONCE ONLY CODE
; AND DSKINI - CLEARED AT END OF DSKINI]
.UONCE: 0 ;0 IF EXEC MODE, NON-0 IF USER MODE ONCE ONLY
IFN FTDUAL&FTKL10&FTMP,<
DUALCT::0 ;NUMBER OF CLOCK REQUESTS TO START DUAL-PORTED
; DRIVE ON OTHER CPU (SETIDF)
>
IFN FTDETS,<
;SOFTWARE ERROR TESTING - SET AND CLEAR SELECTED CONI OR DATAI ERROR BIT
; N TIMES AFTER M TIMES
; .FSETS UUO ARGS ARE IN SAME ORDER AS BELOW:
INTERN ETSUNI,ETSTAB,ETSGTI,ETSBDT,ETSDCO,ETSDCA,ETSBCN,ETSCCO,ETSCCA
ETSUNI: 0 ;(0)CONTAINS UNIT DATA BLOCK ADDRESS OF
; A UNIT WHICH IS BEING ERROR TESTED WITH
; .FSETS UUO. IF THIS LOC CONTAINS 0, NO
; ERROR TESTING (FOLLOWING LOC ARE IGNORED):
ETSTAB: ;0TH ENTRY FOR ARG PICKUP LOOP
ETSGTI: 0 ;(1)NO. OF GOOD TRANSFER INTERRUPTS BEFORE BAD TIMES
ETSBDT: 0 ;(2) NO. OF BAD DATAI BEFORE CLEARING ETSUNI
ETSDCO: 0 ;(3)ERROR DATAI BITS ORED WITH DATAI BITS
ETSDCA: 0 ;(4)ERROR DATAI BITS ANDCMED WITH DATAI BITS
ETSBCN: 0 ;(5)NO. OF BAD CONI BEFORE CLEARING ETSUNI
ETSCCO: 0 ;(6)ERROR CONI BITS ORED WITH CONI BITS
ETSCCA: 0 ;(7)ERROR CONI BITS ANDCMED WITH CONI BITS
ETSLEN==.-ETSTAB ;LENGTH OF .FSETS ARGS
XP METSLN,-ETSLEN ;MINUS LENGTH
> ;END CONDITIONAL ON FTDETS
; SWAPPING (ONLY 1 FOR NOW),
;RH=UNUSED
SWPTAB: BLOCK SWPMAX+1 ;TABLE OF CORE ADDRESSES OF UNITS FOR SWAPPING
;(CAN BE CHANGED AT MONGEN TIME)
SWPTBE==.-1 ;LAST ADR. OF SWPTAB FOR BLT TO CLEAR TABLE
MSWPMX==-SWPMAX
IFN FTSPL,<
INTERN SPLGEN
SPLGEN: BLOCK 1 ;CURRENT NUMBER TO CREATE UNIQUE NAME
;FOR SPOOLING FILES
>
SWPUN2: 0 ;ADR OF 1ST SLOW-CLASS SWAP SPACE
IFN FTDHIA,<
INTERN MIGRAT,DIADSK,DIACHN
MIGRAT: 0 ;IF NON-0 IS THE JOB NUMBER OF A JOB WHICH WE ARE
; TRYING TO SWAP OFF OF A DISK WHICH IS ABOUT TO
; BE REMOVED FOR DIAGNOSTIC PURPOSES
DIADSK: 0 ;DDB TRYING TO SHUT DOWN DSK IO FOR USER-MODE DIAGNOSTIC
; POSITIVE IF WAITING FOR IO TO CEASE
; NEGATIVE IF IO HAS STOPPED (JUST DONT DO IO)
DIACHN: 0 ;CHANNEL (DF10) FOR WHICH IO IS BEING STOPPED
>
HERLIM::DEC 25 ;# OF ERRORS BEFORE TELLING OPR
HERCNT::0 ;# OF DSK ERRS SO FAR
IFN FTMP,<
CPUDSQ::0 ;QUEUE OF REQUESTS FOR OTHER CPUS
>
;ERSATZ DEVICE TABLES
INTERN SDVTBL,SDVPPN,SDVLEN,SYSNDX,SDVMXL,ALLSRC
DEFINE UERSTZ(DEV,P,PN,SLIST),<
..T==0
IFE <SIXBIT/SLIST/>-<SIXBIT/SYS/>,<..T==PT.SSL>
IFE <SIXBIT/SLIST/>-<SIXBIT/ALL/>,<..T==PT.ASL>
SD DEV,[<P,,PN>],..T
>
DEFINE EDEVS,<
LIB SYS, ;MUST BE FIRST
LIB NEW, ;MUST BE SECOND
LIB OLD,
LIB HLP,
SD ALL,[0],PT.ASL
SD SSL,[0],PT.SSL
IFN FTSTR,<
SD LIB,[-1],
SPCEDN ;EXPAND MONGEN'ED CUSTOMER ERSATZ DEVICES
LIB BAS,
LIB COB,
LIB MXI,
LIB ALG,
LIB BLI,
LIB FOR,
LIB MAC,
LIB UNV,
LIB PUB,
LIB DEC,
LIB STD,
LIB XPN,
LIB FFA,
LIB MFD,
LIB UMD,
LIB TED,
LIB REL,
LIB RNO,
LIB SNO,
LIB DOC,
LIB FAI,
LIB MUS,
LIB NEL,
LIB DMP,
LIB POP,
LIB TST,
LIB DBS,
LIB MIC,
LIB TPS,
LIB CTL,
LIB GAM,
LIB ACT,
LIB APL,
LIB D60,
LIB UTP,
LIB INI,
>>
DEFINE LIB(DEV),<
SD DEV,DEV'PPN,PT.SSL
>
DEFINE SD(DEV,PPN,SL),<
IFNDEF ED.'DEV,<ED.'DEV==-1>
>
;SET DEFAULT ED.??? TO -1. IF ED.??? IS DEFINED AS 0 THEN
; DEVICE ??? WILL NOT BE INCLUDED
EDEVS
;HOWEVER, SYS:,NEW:,OLD:,ALL:,LIB: MUST REMAIN
ED.SYS==-1
ED.NEW==-1
ED.OLD==-1
ED.ALL==-1
ED.LIB==-1
DEFINE SD(A,B,C),<
IFN ED.'A,<
<SIXBIT /A/>+C
IFE <SIXBIT/A/>-<SIXBIT/ALL/>,<XP ZPPNDX,.-SDVTBL-1>
IFE <SIXBIT/A/>-<SIXBIT/LIB/>,<XP LIBNDX,.-SDVTBL-1>
>>
$HIGH
SDVTBL: EDEVS
SDVLEN==.-SDVTBL-1
SDVMXL==<SDVLEN>B26
XP SYSNDX,2
XP NEWNDX,1
;TABLE OF PPN'S FOR ERSATZ DEVICES
DEFINE SD(A,B,C),<
IFN ED.'A,<
EXP B
>>
SDVPPN: EDEVS
$LOW
$HIGH
ALLSL: SLALL; ;THE ALL: SEARCH LIST
$LOW
SYSSL: SLEMPT(.SLMXS); ;THE SYS: SEARCH LIST
;JOB SEARCHL LISTS ARE IN THE PDB
$HIGH
ALLSRC::POINT .FSSIZ,ALLSL; ;PREDECREMENTED POINTER TO ALL: SL.
IFN FTSTR,<
SYSSRC::POINT .FSSIZ,SYSSL; ;PREDECREMENTED POINTER TO SYS: SL.
>
JOBSRC::POINT .FSSIZ,.PDJSL##(W); ;PREDECREMENTED POINTER TO JOB SL.
EMTSRC::POINT .FSSIZ,[SLEMPT(1)]; ;PREDECREMENTED POINTER TO THE EMPTY SL.
$LOW
IFN FTKL10,<ONCTIM==:20> ;HUNG TIMER FOR ONCE
IFN FTKI10!FTKS10,<ONCTIM==:10>
$HIGH
SUBTTL UFB: USER FILE DIRECTORY BLOCK
;ONE DATA BLOCK FOR EVERY UFD-FILE STRUCTURE PAIR WHICH HAS AN ACTIVE FILE
;ALL BLOCKS FOR A FILE STRUCTURE ARE LINKED TOGETHER
;WORD 0---------------------------------------
UFBTAL==:0 ;TALLY OF RESERVED+FREE BLOCKS LEFT IN THIS UFD IN THIS
; FILE STRUCTURE (OVER DRAW IS NEGATIVE). NO
; NEW ENTERS ALLOWED IF THIS IS 0 OR NEGATIVE
; INCLUDES OVERHEAD BLOCKS (RIB).
;WORD 1---------------------------------------
UFBPPB==:CORLNK ;LH=CORE ADDRESS (ACCROSS POINTER) OF NEXT UFD
; DATA BLOCK FOR THIS PROJECT-PROGRAMMER
; NUMBER. (I.E. IN ANOTHER FILE STRUCTURE)
UFBPRV==:UFBPPB ;ACCESS PRIVILEGES FOR THIS UFD IN FILE STRUCTURE - WORD ADR.
UFSPRV==^D9 ;BYTE SIZE
UFNPRV==^D26 ;BYTE PTR. POS.
UFRXLK==:RIRXLK ;CAN DO LOOKUPS OF FILES IN THIS DIRECTORY-RIGHT JUSTIFIED BIT
; FOR OWNER, PROJECT, OR UNIVERSE
UFRXCR==:RIRXCR ;CAN CREATE FILES IN THIS UFD (IE ENTER NAMES WHICH ARE NOT
; YET THERE AND SO CANNOT PROTECT THEMSELVES)
UFRXRD==:RIRXRD ;CAN READ DIRECTORY (MFD OR UFD) AS A FILE -RIGHT
; JUSTIFIED BIT FOR OWNER, PROJECT OR UNIVERSE
UFYPRV::POINT UFSPRV,UFBPRV(T4),UFNPRV ;BYTE POINTER FOR ALL THREE PRIVILEGES
; (OWNER,PROJECT,UNIVERSE)
UFBUN1==:CORUN1 ;LOGICAL UNIT NO. WITHIN FILE STRUCTURE
; ASSOCIATED WITH FIRST RETRIEVAL POINTER.
UFSUN1==:COSUN1 ;BYTE SIZE
UFNUN1==:CONUN1 ;BYTE PTR. POS.
UFB1PT==:COR1PT ;IF RETRIEVAL POINTER TO UFD IS THE ONLY ONE - WORD ADR.
UFS1PT==:COS1PT ;BYTE SIZE
UFN1PT==:CON1PT ;BYTE PTR. POS.
UFP1PT==:COP1PT ;RIGHT-MOST BIT
;WORD 2---------------------------------------
UFBPT1==:CORPT1 ;FIRST RETRIEVAL POINTER TO UFD
; (CLUSTER COUNT,CHECKSUM,CLUSTER ADR.)
;WORD 3---------------------------------------
UFBWRT==:3 ;BITS 0-26=LOGGED IN FIRST-COME FIRST-SERVED QUOTA
; USED TO DISTINGUISH BETWEEN RESERVED
; AND FCFS FREE BLOCKS LEFT IN UFBTAL
; (NEVER DECREMENTED)
UFWMSK==:777 ;MASK FOR UFBWRT
UFBQTF==:UFBWRT ;FCFS LOGGED IN QUOTA - WORD ADR
UFSQTF==^D27 ;BYTE SIZE
UFNQTF==^D26 ;BYTE PTR POS
;UFYQTF::POINT UFSQTF,UFBQTF(),UFNQTF ;BYTE PTR
UFSWRT==^D9 ;BYTE SIZE
UFNWRT==^D35 ;BYTE TRP POS(MUST BE RIGHT JUST. FOR AOS)
UFYWRT::POINT UFSWRT,UFBWRT(T3),UFNWRT ;BYTE PTR
UFZWRT::POINT UFSWRT,UFBWRT(T4),UFNWRT ;BYTE PTR #2
; BITS 27-35=NO. BLOCKS WRITTEN IN UFD(OR MFD) ITSELF
;WORD 4---------------------------------------
UFBFSN==:CORFSN ;FILE STRUCTURE NUMBER THIS UFB IS ASSOCIATED WITH- WORD ADR.
UFSFSN==:COSFSN ;BYTE SIZE
UFNFSN==:CONFSN ;BYTE PTR. POS.
UFYFSN==:COYFSN
UFBCHG==:4 ;BIT 6=1 IF ANY FILE IN UFD HAS
UFPCHG==:4000 ; BEEN WRITTEN OF RENAMED (CLEARED BY BACKUP)
;WORD 5---------------------------------------
UFBAUJ==:5 ;=N IF JOB N OWNS AU FOR THIS UFB
;WORD 6---------------------------------------
UFBWAT==:6 ;NON-0 IF JOB WAITING FOR AU
;WORD 7---------------------------------------
UFBZRB==:CORZRB ;UFD HAS EMPTY DATA BLOCKS
UFPZRB==:COPZRB ;BIT =1 IF YES
$LOW
;WORD POSITIONS IN USER FILE DIRECTORIES
;PREFIX "UFD"
;THESE HAVE SAME FORMAT AS THE MFD.
;NEITHER THE MFD NOR THE UFD NAME APPEAR IN THE UFD.
;FILE ENTRIES OCCUR IN PAIRS.
INTERN UFDNAM,UFDEXT,UFDCFP
UFDNAM==0 ;SIXBIT FILE NAME
UFDEXT==1 ;LH=SIXBIT EXTENSION, RH=CUP WHICH SPECIFIES
; UNIT WITHIN FILE STRUCTURE AND LOGICAL BLOCK NUMBER OF
; FIRST RIB OF FILE. SEE MFDEXT ABOVE.
UFDCFP==1 ;RH=COMPRESSED FILE POINTER TO RETRIEVAL BLOCK OF FILE (RIB)
; CONTAINS LOGICAL UNIT # WITHIN STR & SUPER CLUSTER ADDRESS.
;TO GET CLUSTER ADDRESS: DIVIDE BY NO. OF SUPER CLUSTER PER UNIT
; RH(STRSCU). QUOTIENT=LOGICAL UNIT NO. WITHIN STR,
; REMAINDER=SUPER CLUSTER ADDRESS. MULTIPLY SUPER CLUSTER ADR.
; BY NO. OF BLOCKS PER SUPER CLUSTER (LH(STRBSC).
;WORD POSITIONS IN DATA BLOCKS. OF FILES
; THERE IS NO FORMAT FOR DATA BLOCKS.
; THEY CONTAIN 128 WORDS OF USER DATA
SUBTTL UNI: UNIT DATA BLOCK
;PARAMETERS FOR UNITCB
;X - KONTROLLER TYPE(EG. FH,DP,MD,DR)
;U - KONTROLLER IDENTIFIER (STARTS AT A)
;N - ASCII NUMBER OF THIS UNIT ON CURRENT KONTROLLER (STARTS AT 0)
;NK - ASCII NUMBER OF NEXT UNIT ON CURRENT KONTROLLER (STARTS AT 1)
;NC1 - ASCII NUMBER OF THIS UNIT ON CURRENT CHANNEL (STARTS AT 0)
;NC - ASCII NUMBER OF NEXT UNIT ON CURRENT CHANNEL (STARTS AT 1)
;NS1 - ASCII NUMBER OF THIS UNIT IN SYSTEM (STARTS AT 0)
;NS - ASCII NUMBER OF NEXT UNIT IN SYSTEM (STARTS AT 1)
;S - ASCII NUMBER OF CURRENT CHANNEL (STARTS AT 0)
;KT - SYMBOL FOR CODE FOR KONTROLLER TYPE (=TYP'X)(EG TYPFH,TYPDP,TYPMD,TYPDR)
;XX - KONTROLLER NO. WITHIN THIS KONTROLLER TYPE(STARTS AT 0)
; EG. 0 FOR A, 1 FOR B ETC
;UNI: UNIT DATA BLOCK
;POINTED TO BY EACH STR (FANOUT)(STRTAB)
;POINTS TO NEXT UNI IN SYS (ACROSS POINTER)(LH UNISYS)
;POINTS TO NEXT UNI WITHIN CHANNEL (RING)(RH UNICHN)
;POINTS TO NEXT UNI WITHIN KONTROLLER(ACROSS POINTER)(LH UNIKON)
;POINTS TO ITS CHN (UPWARD PTR)(RH UNICHN)
;POINTS TO ITS KON (UPWARD PTR)(RH UNIKON)
;POINTS TO NEXT UNI IN STR(ACROSS PTR)(LH UNISTR)
;POINTS TO ITS STR DATA BLOCK(UPWARD POINTER)(RH UNISTR)
;POINTS TO NEXT UNI IN ACTIVE SWAPPING LIST(ACROSS PTR)(LH UNISWP)
INTERN UNINAM,UNILOG,UNIHID,UNISTS,ICOD,SWCOD,SCOD,PWCOD,PCOD,TWCOD,TCOD,UNISYS
INTERN UNISTR,UNICHN,UNIKON,UNIQUE,DIFUDQ,UNICDA,UNIGRP,UNICPS,UNISUN,OWCOD,OCOD
INTERN UNIBPU,UNICHR,UNICYL,UNIBLK,UNIHCT,UNISCT,UNIERR,UNISOF,UNIMCT,UNIPCT
INTERN UNISAB,DIFSAB,UNISPT,UNITAL,UNIDES,UNPRHB,UNPOFL,UNPHWP,UNPSWP,UNPWPO
INTERN UNPCHG,UNPSAF,UNPZMT,UNPPRF,UNVDWN,UNVNPM,UNVPBM,UNVPIM,UNPMSB,UNPNNA
INTERN UNYPUN,UNYLUN,UNYWPS,UNYUTP,UNYBPC,UNYBPT,UNYBPY,UNIUST,UNYKNM
INTERN UNYKTP,UNISWP,UNIPTR,UNISLB,UNIFKS,UNICFS,UNIK4S,DIFSWP,UNIBPC
INTERN UNIHOM,UNPSER,UNPRER,UNPCER,UNYLN1,UNIICT,UNIOCT,UNIHBN,UNISDI,UNIHDI
INTERN UNIBRC,UNIBWC,UNIDRC,UNIDWC,UNIMRC,UNIMWC,UNIMSC,UNIUSC,UNIXRA
INTERN DIFUNI,UNPAWL,UNPSTS,UNPSTL,UNIAWL,DIFUSY,UNIECT,UNIHNG,UNIBPY,UNIBPM
INTERN UNPHNR,UNPHRC,UNPHRS,UNPHPS,UNPUTP,UNIUTP,UNPFUS,UNPUNO,UNILAS,UNIEBK
INTERN FRSTDR,FRSTFH,FRSTDP,FRSTMD,FRSTFS,FRSTRP,O2COD,OW2COD,UNIJOB,UNITIM
DEFINE UNITCB (N,X,U,NS,NS1,NC,NC1,NK,S,KT,XX)<
INTERN X'U'N'CB
IFNDEF FIRUNI,<FIRUNI:> ;;DEFINE FIRST UNIT DATA BLOCK ADR. IN SYSTEM
X'U'N'CB: SIXBIT /X'U'N/
UNINAM==0 ;;(0)SIXBIT PHYSICAL UNIT NAME WITHIN KONTROLLER
;;LAST DIGIT IS 0 TO 7 -LEFT JUSTIFIED
;; EXAMPLE: DRA0,FHA0,MDA0,DPA0,DPA1,DPB3
;;[NEVER CHANGED BY MONITOR]
PHASE 1
UNILOG:!0 ;;(1)SIXBIT LOGICAL UNIT NAME WITHIN STR
;; LAST DIGIT OR TWO IS 0 TO 77 LEFT JUSTIFIED
;; EXAMPLE: DSKA0,DSKB0,DSKC0,DSKA17 [SET FROM HOMLOG BY HOMRED]
UNIHID:!0 ;;(2)SIXBIT HOME BLOCK IDNAME - NEVER CHANGED IN HOME BLOCK
;; SET WHEN SECTOR HEADERS ARE WRITTEN. FOR DISK PACKS
;; THE HOME BLOCK ID NAME IS THE PACK ID.
%SY'NS1=X'U'N'CB
UNISYS:!XWD %SY'NS,0 ;;(3)LH=CORE ADDRESS(ACROSS POINTER) OF NEXT
;; UNIT DATA BLOCK IN SYSTEM, LH=0 IN LAST UNIT IN SYSTEM
DIFUSY==SYSUNI-UNISYS ;;USED BY ONCMOD
UNISIC==UNISYS ;;# SAT BLOCKS IN CORE FOR THIS UNIT - WORD ADDR
UNSSIC==^D8 ;;BYTE POSITION
UNNSIC==^D25 ;;BYTE PTR POS
UNILUN==UNISYS ;;RH. LOGICAL UNIT NUMBER WITHIN FILE STRUCTURE OF THIS UNIT-WORD ADR.
UNSLUN==^D6 ;;BYTE SIZE
UNNLUN==^D35 ;;BYTE PTR POS.
UNISTR:!XWD 0,0 ;;(4)LH=ADDRESS OF NEXT UNIT DATA BLOCK IN STR
;; LH=0 IN LAST UNIT IN FILE STRUCTURE
;; RH=UPWARD POINTER TO FILE STR. DATA BLOCK.
;;WORD=0 IF THIS UNIT IS NOT IN AN STR
DIFUNI==STRUNI-UNISTR ;;DIFFERENCE BETWEEN DOWNWARD AND UPWARD POINTERS(STR AND UNI)
%CH'S'NC1=X'U'N'CB
UNICHN:!XWD %CH'S'NC,THSCCB ;;(5)LH=ADDRESS OF NEXT UNIT DATA BLOCK ON SAME CHANNEL
;; LAST UNIT POINTS BACK TO FIRST UNIT (RING)
;; RH=UPWARD POINTER TO CHANNEL DATA BLOCK.
%'X'U'N=X'U'N'CB
UNIKON:!XWD %'X'U'NK,X'U'CB ;;(6)LH=ADDRESS OF NEXT UNIT DATA BLOCK ON SAME KON
;; LAST UNIT POINTS BACK TO FIRST UNIT (RING)
;; RH=UPWARD POINTER TO KONTROLLER DATA BLOCK
UNISWP:!XWD 0,0 ;;(7)LH=CORE ADDR OF NEXT UNIT FOR SWAPPING
DIFSWP==SWPUNI-UNISWP ;;USED IN ONCE ONLY FOR LINKING UNITS IN ACTIVE SWAPPING LIST
UNICFS==UNISWP ;;RH CONTAINS BYTE WHICH IS CLASS FOR SWAPPING
;; SWAPPER WILL TRY EVERYTHING TO SWAP ON ONE CLASS
;; BEFORE TRYING NEXT CLASS, TO KEEP ON FASTEST UNITS
UNSCFS==^D3 ;;BYTE SIZE
UNNCFS==^D22 ;;BYTE PTR POS
UNIK4S==UNISWP ;;K FOR SWAPPING ON THIS UNIT - WORD ADR.
;; WHETHER UNIT IS IN ACTIVE SWAPPING LIST OR NOT
UNSK4S==^D13 ;;BYTE SIZE
UNNK4S==^D35 ;;BYTE PTR. POS.
;ERROR STATISTICS:
UNIHCT:!0 ;;(10)NO. OF HARD DISK ERRORS ON THIS UNIT (RETRYS FAILED TO CLEAR ERROR)
;; LH=NO. DEVICE+SEEK + SEARCH ERRORS(IODERR)(CHAN+CONTROL)(SEE UNIPCT)
;; RH=NO. DATA ERRORS(IODTER)(HARDWARE DEVICE DATA PARITY
UNISCT:!0 ;;(11)NO. OF SOFT + NO. OF HARD ERRORS - INCREMENTED
;; ONCE WHEN SUCCESS FOLLOWS ONE OR MORE FAILURES
;; NOT INCREMENTED ON HARD ERRORS
;;LH=NO. SOFT+HARD DEVICE+SEARCH ERRORS(SEE UNIPCT)
;; RH=NO SOFT+HARD DATA ERRORS
UNIMCT:!0 ;;(12)NO. OF MONITOR DETECTED ERRORS(3 12 BIT FIELDS)
;; USER PROGRAM SEES IOIMPM ERROR BIT SET FOR ALL 3 TYPES OF ERRORS
UNPSER==100 ;;NO. OF SAT FAILURES(NO. OF FREE CLUSTERS ON DISK SAT
;; DISAGREE WITH EXPECTED NO AS STORED IN CORE)
UNPRER==10000 ;;NO. OF RIB REDUNDANT INFO FAILED TO COMPARE
UNPCER==1 ;;NO. OF SOFTWARE FOLDED CHECKSUM FAILURES(USER IO BUT NOT SWAP)
;; (MUST BE RIGHT JUSTIFIED FOR AOS)
UNIERR:!0 ;;(13)LAST ERROR DEVICE STATUS
;; WHICH OCCURRED ON THIS UNIT AFTER FIRST RECOVERY
;; ATTEMPT FAILED. SET BY MOVEM T2,UNIERR(U)
;; IN FILSER WHERE T2 IS SET DIRECTLY FROM
;; KONTROLLER STATUS WORD IN KONTROLLER DEPENDENT ROUTINE.
;;IF RECOVERY SUCCEEDS BEFORE FIRST RECAL, UNIERR WILL CONTAIN 0
UNISOF:!0 ;;(14)LAST ERROR DEVICE STATUS ON THIS UNIT
;; BEFORE ANY RECOVERY ATTEMPTED
;; DEVICE, DATA, SEARCH, HUNG ERRORS
UNIHBN:!0 ;;(15)LAST LOGICAL BLOCK NUMBER ON HARD OR SOFT ERROR
;; NOTE: SPEC CHANGED IN 5.06 TO INCLUDE SOFT ERROR
;;PERFORMANCE MONITORING DATA LOCATIONS:!
;;NOTE FOLLOWING 6 ENTRIES ARE MUTUALLY EXCLUSIVE AND ACCOUNT FOR ALL
;; TRANSFERS ON THIS UNIT(EXCEPT ERROR RETRYS)
;;WRITE COUNT MUST BE READ COUNT+1
UNIBRC:!0 ;;(16)NO. OF BUFFERED MODE 128 WORD BLOCKS READ
UNIBWC:!0 ;;(17)NO. OF BUFFERRED MODE 128 WORD BLOCKS WRITTEN
UNIDRC:!0 ;;(20)NO. OF DUMP MODE 128 WORD BLOCKS READ(INCLUDEING GETS)
UNIDWC:!0 ;;(21)NO. OF DUMP MODE 128 WORD BLOCKS WRITTEN(INCLUDING SAVES)
UNIMRC:!0 ;;(22)NO. OF MONITOR 128 WORD BLOCKS READ(SAT,UFD,MFD,BAT,SWAP)
UNIMWC:!0 ;;(23)NO. OF MONITOR 128 WORD BLOCKS WRITTEN(
;; SAT,UFD,MFD,BAT,SWAP)
;;NOTE: TO COMPUTE NO. OF MONITOR OVERHEAD READS(WRITES)
;; SUBTRACT UNIICT(UNIOCT) FROM UNIMRC(UNIMWC)
UNIICT:!0 ;;(24)NO. OF 128 WORD BLOCKS SWAPPED IN(SET BY SWPINT)
UNIOCT:!0 ;;(25)NO. OF 128 WORD BLOCKS SWAPPED OUT(SET BY SWPINT)
;;NOTE:!FOLLOWING 2 ENTRIES ARE MUTUALLY EXCLUSIVE AND ACCOUNT FOR ALL SEEKS
;; ON THIS UNIT EXCEPT END OF CYLINDER AND RECALIBRATION AND SEEK UUOS
UNIMSC:!0 ;;(26)COUNT OF NO. OF MONITOR+SWAP SEEKS
UNIUSC:!0 ;;(27)COUNT OF NO. OF USER(BUFFER+DUMP) SEEKS
;; (INCLUDES GETS AND SAVES)
;;MORE ERROR STATISTICS:!
UNIPCT:!0 ;;(30)(UNUSED IN 503) SEEK INCOMPLETE ERRORS(UPDATED BY KONTOLLER ROUTINES)
;; RATHER THAN FILSER). NOTE THIS IS DIFFERENT FROM
;; SEARCH ERRORS (SEE UNIHCT,UNISCT)
;; RH=SOFT+HARD SEEK-INCOMPLETE FAILURES
;; LH=POSITIONING FAILURES
;; HARD ERRORS ARE REPORTED TO FILSER AS DEVICE ERRORS TOO
;; FILSER RETRYS 'DSKTRY' TIMES AND COUNTS IN LH UNIHCT,UNISCT
UNIFKS:!0 ;;(31) FREE K FOR SWAPPING ON THIS UNIT
;; 0 MEANS FULL OR UNIT DOESN'T HAVE SWAPPING SPACE ALLOCATED
UNISUN==UNIFKS ;;THIS LOCATION TIME-SHARED BY ONCE ONLY CODE TO
;; REMEMBER LOG. UNIT # OF UNIT IN ACTIVE SWAPPING LIST.
;; -1 IF NOT IN LIST.
UNISDI:!0 ;;(32)LAST ERROR DATAI STATUS WORD
;; DATA,DEVICE,SEARCH HUNG ERRORS BEFORE RECOVERY ATTEMPTED
UNIHDI:!0 ;;(33)LAST ERROR DATAI STATUS WORD
;; DATA,DEVICE,SEARCH ERRORS AFTER FIRST RECOVERY ATTEMPT FAILS
UNIECT:!0 ;;(34) NO. OF CONSECUTIVE TIMES AN ERROR STATUS WAS RETURNED
;; FOR THE LAST OPERATION ON THIS UNIT. (IE, FIRST+RETRIES
;; WITH ERRORS). SET BACK TO 1 ON FIRST ERROR, RATHER THAN
;; BEGINNING OF NEW OPERATION, SO USER PROGRAMS HAVE MORE
;; TIME TO LOOK AT IT.
XP UNPFIR,400000 ;; SIGN BIT (UNPFIR)=1 DURING FIRST TRY, 0 DURING RETRIES
;; THIS BIT IS TOO DYNAMIC TO BE USEFUL FOR DAEMON ERR
;; REPORTING
XP UNPHRD,200000 ;; UNPHRD=1 IF LAST ERROR WAS HARD, RESET WHEN RETRY COUNTER RESET
;; SO IT IS USEFUL FOR ERROR REPORTING
XP UNPHNG,100000 ;; =1 IF DRIVE WAS HUNG
UNIHNG:!0 ;;(35)NO.OF HUNG TIME OUTS WHICH COULD NOT BE RECOVERED
;;RH==NO. OF TIME OUTS WHICH WERE RECOVERED
UNPHNR==1000 ;;LH BIT TO COUNT HUNGS NOT RECOVERED BY
;; STOPPING UNIT (KONSTP) UNIT IN TRANSFER STATE
UNPHRC==1 ;;LH BIT TO COUNT HUNGS RECOVERED BY
;; STOPPING UNIT (KONSTP) UNIT IN TRANSFER STATE
UNPHRS==1 ;;RH BIT TO COUNT HUNGS RECOVERED BY
;; RESTARTING UNIT (UUOTWQ OR PIKTRN)
;; UNIT WAS IDLE OR TRANSFER WAIT
;; AND CHANNEL WAS IDLE. (MUST BE BIT 35 FOR AOS)
UNPHPS==1000 ;;RH BIT TO COUNT NUMBER OF HUNGS
;; CAUSED (AND RECOVERED WITHOUT OPERATOR INTEVENTION)
;; BY UNIT IN POSITION STATE
UNISTS:!0 ;;STATUS WORD FOR UNIT - SET, CHANGED BY FILSER ONLY
;;ONLY WHOLE WORD USED SO THAT EXCH TRICK CAN BE USED
;;THESE SAME CODES ARE USED IN DEYCOD BYTE
ICOD==0 ;;IDLE - NO POSITIONING OR TRANSFERRING AND NO QUEUED
;; REQUESTS FOR POSITIONING OR TRANSFERRING
SWCOD==1 ;;WAITING TO SEEK - I.E., WAITING TO POSITION WITH NO
;; IMPLIED TRANSFER
SCOD==SWCOD+1 ;;IN PROCESS OF SEEKING (MUST BE +1)
PWCOD==3 ;;WAITING TO POSITION WITH IMPLIED TRANSFER INTENDED
PCOD==4 ;;IN PROCESS OF POSITIONING
TWCOD==5 ;;WAITING TO DO DATA TRANSFER
TCOD==6 ;;IN PROCESS OF DATA TRANSFER
MDACOD==:7 ;;ONLY USABLE BY MDA (REREAD HOM BLOCKS, NO COMPARE)
;NOTE THAT THE FOLLOWING CODES MUST BE THE HIGHEST DEFINED
OWCOD==10 ;;WAITING FOR OPERATOR INTERVENTION, FILE IN T STATE
OCOD==OWCOD+1 ;;WAITING FOR OPR INTERVENTION, NO FILE ACTIVE
OW2COD==OWCOD+2 ;;OW, BUT NO MESSAGE ONCE A MINUTE
O2COD==OCOD+2 ;;O, BUT NO MESSAGE
UNICCT::!XWD 777,0 ;;RH=NUMBER OF CHAN TERMINATION ERRORS
UNIBCT==:UNICCT ;;BITS 9-17 = NUMBER OF SLOTS LEFT IN BAT BLOCK FOR UNIT
;; 777 MEANS DONT KNOW
UNSBCT==^D9 ;;BYTE SIZE
UNNBCT==^D17 ;;POSITION
IFNDEF X'U'N'HM,<X'U'N'HM==LBNHOM> ;;DEFINE 1ST LOGICAL BLOCK
;; FOR HOME BLOCK IF CUSTOMER HASN'T CHANGED WITH MONGEN
IFNDEF X'U'N'H2,<X'U'N'H2==LB2HOM> ;;DEFINE 2ND LOGICAL BLOCK
;; FOR HOME BLOCK IF CUSTOMER HASN'T CHANGED WITH MONGEN
UNIHOM:!XWD X'U'N'HM,X'U'N'H2 ;;LOGICAL DISK BLOCK NO. WITHIN UNIT
;; (NOT STR) OF THE TWO HOME BLOCKS ON THIS UNIT.
;; LH=FIRST HOME BLOCK, RH=REDUNDANT ONE. NOTE:
;; LOGICAL BLOCK NOS. ARE NOT USUALLY RESTRICTED TO
;; ANYTHING LESS THAN 36 BITS. HOWEVER THE HOME BLOCKS ARE
;; RESTRICTED TO BEING LOCATED SOMEWHERE ON THE FIRST
;; 262,000 BLOCKS ON THIS UNIT
;; USED BY REDHOM IN ONCE ONLY CODE.
;; THESE ARE THE ONLY DISK ADDRESSES ASSEMBLED INTO THE
;; MONITOR. ALL OTHER DISK ADDRESSES ARE
;; STORED ON THE DISK, STARTING WITH THE HOME BLOCK
UNIQUE:!XWD 0,0 ;;LH=ADDRESS OF FIRST (LONGEST WAITING) DEVICE DATA BLOCK (FILE)
;; IN POSITION WAIT FOR THIS UNIT (PW QUEUE)
;;RH=JOB NUMBER FOR DDB WHOSE ADDRESS IS IN LH
;;AS A FLAG, BOTH HALVES ARE SET TO 0 WHEN NO FILES IN
;; POSITION WAIT QUEUE.
;;NOTE:!THE FILE WHICH IS IN P STATE IS NOT IN QUEUE
DIFUDQ==UNIQUE-DEVQUE ;;DIFF. OF HEAD OF Q PTR AND LINK-USED TO START
;; QUEUE SEARCH
UNIGRP:!XWD 0,0 ;;LH=NO. OF SEQUENTIAL BLOCKS (NOT CLUSTERS) TO TRY ON
;; SEQUENTIAL OUTPUT (CAN BE CHANGED WITHOUT REFRESHING)
;;RH UNUSED
UNIBPU:!0 ;;NO. OF LOGICAL BLOCKS PER UNIT(RETURNED BY DSKCHR)
;; SET BY TESTING IN ONCMOD
UNIBPM:!0 ;;NO OF LOGICAL BLOCKS PER UNIT INCLUDING MAINTENANCE CYLINDERS
INTERN UNIPCI,UNIPCO
UNIPCI:!0 ;;NO OF BLOCKS PAGED IN
UNIPCO:!0 ;;NO OF BLOCKS PAGED OUT
UNICHR:!0 ;;UNIT CHARACTERISTICS (RETURNED IN DSKCHR UUO);;
UNIBPC==UNICHR ;;BITS 0-8 = # BLOCKS/CLUSTER
UNSBPC==^D9
UNNBPC==^D8
UNIBPT==UNICHR ;;BITS 9-17= # BLOCKS/TRACK - SET BY TESTING IN ONCMOD
UNSBPT==^D9
UNNBPT==^D17
UNIBPY==UNICHR ;;BITS18-35= # BLOCKS/CYLINDER (THE SMALLEST IF CYLINDER
UNSBPY==^D18 ;; HAVE DIFFERENT SIZES (MDF)) - SET BY TESTING IN ONCMOD
UNNBPY==^D35
UNICPS:!0 ;;RH=NO. OF CLUSTERS PER SAT TABLE ON THIS UNIT
;; (ROUNDED UP IF NOT AN EVEN NUMBER OF CLUSTERS)
;;BIT9 = UNUSED.
UNIWPS==UNICPS ;;# OF WORDS PER SAF BLOCK ON DISK FOR THIS UNIT-WORD ADR.
;; LIMITED TO 128 WORDS OR CLUSTER SIZE WHICHEVER IS SMALLER
UNSWPS==^D9 ;;BYTE SIZE
UNNWPS==^D8 ;;BYTE PTR. POS.
UNISPU==UNICPS ;;NO. OF SAT BLOCKS ON THIS UNIT - WORD ADR.
UNSSPU==^D8 ;;BYTE SIZE
UNNSPU==^D17 ;;PYTE PTR POS.
UNICYL:!-1 ;;PHYSICAL CYLINDER UNIT IS CURRENTLY AT OR POSITIONING TOWARDS.
;; THIS IS ONLY WORD SET AND LOOKED AT BY DEVICE DEPENDENT ROUTINE.
;; USED BY FILSER TO SEE IF UNITS IN POSITION, NEVER CHANGED BY FILSER
;; INITIALIZE TO -1 SO FORCE POSITIONING FOR FIRST READ
;; ELSE GET POSITIONING ERROR AND FALSE ERROR DATA
UNIBLK:!0 ;;LOGICAL BLOCK NUMBER WITHIN THE UNIT.
;; ARG TO DEVICE DEPENDENT ROUTINES
UNISAB:!XWD 0,0 ;;LH=ADDR. OF FIRST SAB BLOCK IN RING FOR UNIT
;;RH=UNISPT
UNISPT==UNISAB ;;LH=UNISAB
;;RH=ADDRESS OF STORAGE ALLOC. POINTERS (SPT) TABLE
DIFSAB==UNISAB-SABRNG
UNITAL:!0 ;;NO. OF FREE BLOCKS(RESERVED+FCFS) LEFT ON THIS UNIT
;; [NO SAFETY FACTOR FOR UNIT
;; INSTEAD THERE IS ONE FOR THE STR]
UNIDES:!BYTE (18)0(3)$CHN(6)KT(3)XX(3)0(3)$K-1
;;WORD RETURNED IN AC FOR DSKCHR UUO DESCRIBES THIS DISK
;; UNIT IN TERMS OF STR NUMBER, CHANNEL,
;; KONTROLLER UNIT NUMBER. ETC.
;; $K = BINARY NUMBER OF NEXT UNIT ON KONTROLLER (STARTS AT 0)
;; $CHN = BINARY CHANNEL NUMBER (STARTS AT 0)
;; XX = BINARY KONTROLLER NUMBER (STARTS 0 FOR EACH KONTROLLER TYPE)
;;HENCE, UNIDES RH=(3)CHANNEL NUM(6)KONTROLLER TYPE
;; (3)KONTROLLER NUM(3)UNIT TYPE(3)UNIT NUMBER
UNPRHB==400000 ;;BIT 0=1 IF MONITOR MUST REREAD HOME BLOCK BEFORE NEXT OPERATION
;; TO INSURE THE PACK ID IS CORRECT. THE MONITOR SETS THIS BIT
;; WHENEVER A DISK PACK GOES OFF LINE.
UNPOFL==200000 ;;BIT 1=1 IF THE UNIT IS OFF LINE
UNPHWP==100000 ;;BIT 2=1 IF THE UNIT IS HARDWARE WRITE PROTECTED
UNPWPO==UNPHWP!UNPOFL
UNPSWP==40000 ;;BIT 3=1 IF THIS UNIT IS A MEMBER OF A STR WHICH IS SOFTWARE
;; WRITE PROTECTED FOR THIS JOB.
;; BIT IS NEVER STORED HERE IN UNIT DATA BLOCK. MUST BE
;; COMPUTED ON EACH DSKCHR UUO. FOR EACH JOB FROM JBTPPB(SEE STRUUO.)
UNPCHG==UNPSWP ;;TIMESHARED BIT-A PARAMETER WAS CHANGED SO HOME BLOCK MUST BE WRITTEN
;; USED ONLY DURING ONCE ONLY CODE THEN CLEARED BEFORE SYSTEM STARTED
UNPSAF==20000 ;;BIT 4=1 IF UNIT IS MEMBER OF SINGLE-ACCESS F.S.
;; NOT STORED IN UNIT DATA BLOCK
UNPZMT==10000 ;;BIT 5=1 IF THIS UNIT IS A MEMBER OF A STR WHOSE MOUNT COUNT
;; HAS GONE DOWN TO ZERO, MEANING NO ONE IS USING THE STR.
;; NOT STORED IN UNIT DATA BLOCK.
UNIPRF==UNIDES ;;UNIT IS A MEMBER OF A PRIVATE STR - WORD ADR.
UNSPRF==^D1 ;;BYTE SIZE
UNNPRF==^D6 ;;BYTE PTR. POS.
UNPPRF==4000 ;;THE BIT
;;BITS 7 AND 8
UNIUST==UNIDES ;;UNIT STATUS - WORD ADR.
UNSUST==^D2 ;; BYTE SIZE
UNNUST==^D8 ;; BYTE PTR POS.
UNVDWN==3 ;;UNIT IS DOWN - CODE VALUE
UNVNPM==2 ;;UNIT IS UP BUT NO PACK MOUNTED - CODE VALUE
UNVPBM==1 ;;UNIT IS UP AND PACK BEING MOUNTED BY OPERATOR - CODE VALUE
UNVPIM==0 ;;UNIT IS UP AND PACK IS MOUNTED - CODE VALUE
UNPMSB==400 ;;BIT 9=1 IF THIS UNIT HAS MORE THAN ONE SAT BLOCK
UNPNNA==200 ;;BIT 10=1 IF THIS UNIT IS A MEMBER OF A STR FOR WHICH THE
;; OPERATOR HAS REQUESTED NO NEW ACCESS INIT'S, LOOKUPS, OR ENTERS SET
;; BY PRIVILEGED STRUUO FUNCTION
UNIAWL==UNIDES ;;BIT 11=1 IF THIS STR IS SOFTWARE WRTIE PROTECTED FROM ALL JOBS
UNSAWL==^D1 ;;BYTE SIZE
UNNAWL==^D11 ;;BYTE PTR POS.
UNPAWL==100 ;;THE BIT
UNPFUS==40 ;;BIT 12=1 IF THIS UNIT GOT A FILE UNSAFE CONDITION
;; AT CONNECT TIME (UUO OR INT). USED TO TELL OPERATOR
;; CLEARED WHEN UMT COMES ON-LINE WITH INTERRUPT
UNPSTS==UNPAWL ;;BITS CHANGEABLE BY STRUUO(.FSRDF)
;; EITHER SINGLE ACCESS OR WRITE PROTECTED FROM ALL JOBS
UNPSTL==UNPSTS!UNPNNA!UNPRHB!UNPMSB!UNPHWP ;;BITS TO BE DETERMINED WHEN DEFINED (STRUUO-.FSDEF)
UNIWMD==:UNIDES ;;UNIT WAITING FOR MDA TO DO SOMETHING - WORD ADDRESS
UNPWMD==:20 ;; THE BIT
UNPALT==:10 ;;BIT SET IN AC IF THIS IS DUAL PORTED
UNPUSI==:4 ;;UNIT STATUS INCONSISTENT (BADUNI)
UNPRSS==:2 ;REMOVING SWAPPING UNIT
;;BITS 15 - 17 DSKCHR ARGUMENT TAPE OR 0 INTO AC
UNPUNO==UNPFUS+UNPOFL ;;OFF-LINE + UNSAFE
;;BITS 15 - 17 ARE A CODE WHICH TELLS WHETHER THE ARGUMENT PASSED TO
;; MONITOR IN LOC WAS:(NEVER STORED IN UNIT DATA BLOCK)
;; 0 GENERIC DEVICE DSK OR LOGICAL NAME FOR IT (E.G., DSK)
;; 1 SUBSET OF STR BECAUSE OF AN STR ABBREVIATION
;; 2 STR NAME OR LOGICAL NAME FOR IT (E.G., DSKA)
;; 3 UNIT WITHIN A FILE STRUCTURE OR A LOGICAL NAME FOR IT
;; (E.G., DSKA0)
;; 4 A KONTROLLER CLASS NAME OR A LOGICAL NAME FOR IT
;; (E.G., DR,FH,DP,MD)
;; 5 A KONTROLLER NAME OR A LOGICAL NAME FOR IT
;; (E.G., DRA,FHA,DPA,MDA,DPB)
;; 6 A PHYSICAL DISK UNIT NAME OR A LOGICAL NAME FOR IT
;; (E.G., DRA0,DPA3)
;;RH CONFIGURATION INFORMATION:
UNISCN==UNIDES ;;BITS 18-20 DATA CHANNEL NUMBER SOFTWARE THINKS HARDWARE IS
UNSSCN==^D3 ;; CONNECTED TO. STARTS AT 0 SO FIRST DATA CHANNEL IS 0.
UNNSCN==^D20 ;;BYTE PTR POS.
UNIKTP==UNIDES ;;BITS 21-26 CONTROLLER TYPE
UNSKTP==^D6 ;;BYTE SIZE
UNNKTP==^D26 ;;BYTE PTR POS.
TYPDR==0 ;; 0 DR (FUTURE DRUM, IF ANY)
TYPFH==1 ;; 1 FH (BURROUGHS DISK OR BRYANT DRUM)
TYPDP==2 ;; 2 DP (MEMOREX RP01,RP02,RP03)
TYPMD==3 ;; 3 MD (BRYANT MASS DISK)
TYPFS==4 ;; 4 FS (RH10/RS04)
TYPRP==5 ;; 5 RP (RH10/RP04,RP05)
IFN FTEDSK,<
TYPRN==6 ;; 6 RN (RH20/RP20)
>
UNIKNM==UNIDES ;;BITS 27-29 KONTROLLER NUMBER. STARTS AT 0, SO FIRST KONTROLLER OF
UNSKNM==^D3 ;; EACH TYPE STARTS AT 0. (E.G., DPA=0,DPB=1,ETC.)
UNNKNM==^D29 ;;BYTE PTR POS.
UNIUTP==UNIDES ;;BITS 30-32 UNIT TYPE - A KONTROLLER DEPENDENT FIELD USED TO
UNSUTP==^D3 ;; DISTINGUISH VARIOUS OPTIONS OF A UNIT ON ITS KONTROLLER
UNNUTP==^D32 ;;BITS 21-26 BITS 30-32
UNPUTP==10 ;;RIGHT MOST BIT
FRSTDR==0 ;;POSITION OF OR UNIT TYPES ON TABLES IN ONCMOD
;; 0 0
FRSTFH==FRSTDR+2 ;;POSITION OF FH UNIT TYPES ON TABLES IN ONCMOD
;; 1 0 BURROUGHS DISK ON RC10
;; 1 BRYANT DRUM ON RC10
FRSTDP==FRSTFH+2 ;;POSITION OF DP UNIT TYPES ON TABLES IN ONCMOD
;; 2 0 RP01
;; 1 RP02
;; 2 RP03
FRSTMD==FRSTDP+3 ;;POSTION OF MD UNIT TYPES ON TABLES IN ONCMOD
;; 3 0 DUAL POSITIONER
;; 1 SINGLE POSITIONER
FRSTFS==FRSTMD+2 ;;POSITION OF FS UNIT TYPES
FRSTRP==FRSTFS+1 ;;POSITION OF RP UNIT TYPES
;; 0 RP04
;; 1 RP06
;; 2 RM03
;; 3 RP07
IFN FTEDSK,<
FRSTRN==:FRSTRP+4 ;;POSITION OF RN UNIT TYPES
>
UNIPUN==:UNIDES ;;BITS 33-35 PHYSICAL UNIT NUMBER WITHIN KONTROLLER - STARTS AT 0 FOR
UNSPUN==^D3 ;; EACH KONTROLLER SO FIRST UNIT IS 0
UNNPUN==^D35 ;;BYTE PTR POS.
UNIPTR:!0 ;;LH=-LENGTH OF SWAP SAT TABLE
;;RH=ADDR OF SWAP SAT TABLE (ALWAYS IN CORE)
;; EACH BIT REPRESENTS 1K OF SWAPPING STORAGE
UNISLB:!0 ;;FIRST SWAP LOGICAL BLOCK # ON THIS UNIT
UNIXRA:!0 ;;LH=-NUMBER OF BLOCKS WRITTEN VIA EXTENDED RIBS
;;RH=-NUMBER OF BLOCKS READ VIA EXTENDED RIBS
UNICDA:!XWD 0,0 ;;RH=ADR OF DDB CURRENTLY
;; POSITIONING OR XFERRING ON THIS WAIT
;;LH=FORMER RH (RH ZEROED WHEN UNIT IDLE)
UNICOR::!0 ;;1ST,,LAST LOCS FOR SAB, SPT TABLES IF IN NON-FREE CORE
UNIRCV::!0 ;;NUMBER OF RETRIES OF HUNG UNIT WITHOUT RECOVERING
UNISWA::!0 ;;ADDRESS OF CURRENT SWPLST ENTRY
UNISWD::!0 ;;DISTANCE (OR TIME TO BLOCK) OF BEST SWAP FOR UNIT
IFN FTDSTT,<
UNIQUL::! 0 ;;LENGTH OF POSITION WAIT QUEUE
>
IFN FTDSUP,<
UNIBUC::!0 ;;NO OF BLOCKS ON UNIT IN 10/11 COMPAT.MODE
>
IFN FTDHIA,<
UNIDIA::!0 ;;JOB NUMBER,,DDB OF JOB SHUTTING DOWN IO (DIAG.)
>
IFN FTDUAL,<
UNISER::!0 ;;DRIVE SERIAL NUMBER
UNI2ND::!0 ;;0,,ALTERNATE IF MAIN
;;-1,,MAIN IF ALTERNATE
;;400000,,ALTERNATE IF MAIN ON OTHER CPU
;;400001,,MAIN IF ALTERNATE ON OTHER CPU
>
UNITIM::!0 ;;HUNG-TIMER (PDVTIM NOT USED FOR DSK DDBS)
UNIJOB::!0 ;;RH=JOB NUMBER FOR DDB WHOSE ADDRESS IS IN RH(UNICDA)
;;(0 WHEN RH(UNICDA)=0)
;;LH=PREVIOUS RH(UNIJOB)
UNIAJB::!-1 ;;-1 IF NO DA IN PROGRESS ON UNIT
;;+N IF JOB N ALLOCATING, NO JOB WAITING
;;N,,N IF JOB N ALLOCATING, OTHERS WAITING
UNIGEN::!XWD ZERO18,0 ;;GENERATION NUMBER OF UDB (AOS'D WHEN UNIT DISMOUNTED)
UNIDS2::!0 ;;MORE STATUS BITS
U2PNRM==:400000 ;;BIT 0=1 IF NON-REMOVABLE MEDIA
IFN FTMDA,<
UNILTM::!0 ;;UNIVERSAL DATE-TIME OF LOCK ON STR
>;END IFN FTMDA
;;THESE MUST BE THE LAST THINGS IN THE UDB.......
UNILAS:!0 ;;LAST COMMAND ISSUED TO MASSBUS DEVICE
;;****DAEMON DEPENDS ON NEXT 5 LABELS BEING CONTIGUOUS****
UNISCR::!0 ;;CONTROL REGISTER AT 1ST ERROR
UNIHCR::!0 ;;CONTROL REGISTER AT END
UNISDR::!0 ;;DATA REGISTER AT 1ST ERROR
UNIHDR::!0 ;;DATA REGISTER AT END
UNIEBK:!BLOCK X'ERNO+1 ;;DRIVE REGISTERS SAVED ON ERROR HERE
;;LH=LAST ERROR, RH=1ST ERROR
;;LAST WORD IN BLOCK IS COMMAND WHICH CAUSED THE ERROR
DEPHASE
> ;;END MACRO DEF OF UNITCB
DEFINE SYSCLS (N)<
%SY'N==0>
DEFINE CHNCLS (N,S)<
IFDEF %CH'S'A,<
%CH'S'N==%CH'S'A>>
DEFINE KONCLS (N,SYM)<
%'SYM'N==%'SYM'0>
INTERN UNYPUN,UNYLUN,UNYWPS,UNYUTP,UNYSCN,UNYBPC,UNYBPT,UNYBPY,UNYUST,UNYKTP
INTERN UNYSIC,UNYCFS,UNYK4S,UNYAWL,UNYPRF,UNYSPU,UNZCFS,UNZFKS
$HIGH
UNYPUN: POINT UNSPUN,UNIPUN(U),UNNPUN ;PHYSICAL UNIT # (0-7) WITHIN KONTROLLER
; ARG TO KONTROLLER ROUTINES
UNYLUN: POINT UNSLUN,UNILUN(U),UNNLUN ;LOGICAL UNIT # (0-77) WITHIN STR
UNYLN1: POINT UNSLUN,UNILUN(T1),UNNLUN ;LOGICAL UNIT # - FOR ONCE ONLY
UNYLN2::POINT UNSLUN,UNILUN(T2),UNNLUN ;SAME, BUT T2 AS INDEX
UNYWPS: POINT UNSWPS,UNIWPS(U),UNNWPS ;+VE NO. OF WORDS PER SAT BLOCK
UNYUTP: POINT UNSUTP,UNIUTP(U),UNNUTP ;UNIT TYPE(KONTROLLER DEPENDENT)
; SET BY ONCE ONLY
UNYSCN: POINT UNSSCN,UNISCN(U),UNNSCN ;SOFTWARE CHANNEL NUMBER
UNYBPC: POINT UNSBPC,UNIBPC(U),UNNBPC ;BLOCKS/CLUSTER - ARG TO KONTROLLER ROUTINES
UNYBPT: POINT UNSBPT,UNIBPT(U),UNNBPT ;BLOCKS/TRACK - ARG TO KONTROLLER ROUTINES
UNYBPY: POINT UNSBPY,UNIBPY(U),UNNBPY ;BLOCKS PER CYLINDER
; THE SMALLEST IF CYLINDERS; HAVE DIFFERENT
; SIZES(MDF) - ARG TO KONTROLLER ROUTINES
UNYUST: POINT UNSUST,UNIUST(U),UNNUST ;DRIVE STATUS - DOWN, NOT IN STR,
; BEING MOUNTED, MOUNTED
UNZUST::POINT UNSUST,UNIUST(T1),UNNUST
UNYKTP: POINT UNSKTP,UNIKTP(U),UNNKTP ;KONTROLLER TYPE THIS UNIT IS CONNECTED TO
; ONCE ONLY USES
UNYSIC: POINT UNSSIC,UNISIC(U),UNNSIC ;# SAT BLOCKS IN CORE FOR THIS UNIT
UNYCFS: POINT UNSCFS,UNICFS(U),UNNCFS ;CLASS FOR SWAPPING FOR THIS UNIT
UNYK4S: POINT UNSK4S,UNIK4S(U),UNNK4S ;K FOR SWAPPING ON THIS UNIT
UNYAWL: POINT UNSAWL,UNIAWL(U),UNNAWL ;SOFTWARE WRITE LOCK FOR ALL JOBS
UNYPRF: POINT UNSPRF,UNIPRF(U),UNNPRF ;PRIVATE STR
UNYSPU: POINT UNSSPU,UNISPU(U),UNNSPU ;# SAT BLOCKS ON THIS UNIT
UNYKNM: POINT UNSKNM,UNIKNM(U),UNNKNM ;KONTROLLER NO. WITHIN THIS TYPE
; START AT 0 FOR A, 1 FOR B, ETC
UNZCFS: POINT UNSCFS,T1,UNNCFS ;POINTER TO SWAP UNIT
IFN FTDHIA&FT2SWP,<
INTERN UNXCFS
UNXCFS: POINT UNSCFS,T4,UNNCFS ;ALSO GET UNIT FROM T4
>
UNZFKS: POINT UNSK4S,T1,UNNK4S ;PAGE NUMBER FROM JBTSWP POINTER
UNYBCT::POINT UNSBCT,UNIBCT(U),UNNBCT ;POINTER TO NUMBER OF SLOTS LEFT IN BAT BLOCK
$LOW
$FHNUM==0
$FSNUM==0
$RPNUM==0
$DPNUM==0
$MDNUM==0
$RHNUM==0
IFN FTEDSK,<
$RNNUM==0
>
$S==1 ;USED IN LINKING UNIT CORE BLOCKS TOGEHER
$CHN==0 ;CHANNEL NUMBER - ARGUMENT TO DATBAS MACRO
$LOCW==0 ;USED FOR DEFINING LOW CORE CHANNEL KONTROL WORD SYMBOLS
$KON==0 ;USED IN LINKING KDBS TOGETHER
IFNDEF CHNN,<CHNN==1
C0FHN==1
C0DPN==0
C0MDN==0
FHAUN==1
DPAUN==0
MDAUN==0>
REPEAT CHNN,<
CHNCB (\$CHN,\<$CHN+1>)
$CHN==$CHN+1>
$SM1==$S-1
SYSCLS (\$SM1) ;CLOSE LIST OF UNIT CORE BLOCKS
DEFINE CBLAST (S) <CHN'S'CB==0>
CBLAST (\CHNN) ;CLOSE OFF CHN CHAIN
COMEND: END ;START MONITOR OR USER MODE DATDMP