Trailing-Edge
-
PDP-10 Archives
-
SRI_NIC_PERM_SRC_1_19910112
-
6-sources/rmslib.r36
There are 28 other files named rmslib.r36 in the archive. Click here to see a list.
%([** LIBRARY FILE REQUIRED BY RMS **])%
! THIS SOFTWARE IS FURNISHED UNDER A LICENSE AND MAY BE USED
! OR COPIED ONLY IN ACCORDANCE WITH THE TERMS OF SUCH LICENSE.
!
! COPYRIGHT (C) DIGITAL EQUIPMENT CORPORATION 1979, 1985.
! ALL RIGHTS RESERVED.
!AUTHOR: S. BLOUNT
LITERAL RMSLIV = 1^24 + 0^18 + 300; !Edit date: 19-Jan-82
!ALSO CAUSES RMSVRB TO BE NO-OP
%([
REVISION HISTORY:
EDIT# NAME DATE COMMENTS
==== ==== ==== =========
1 JK 27-JUL-76 ADD "CHECKEXACTCOUNT" MACRO TO CHECK FOR CORRECT ROUTINE ARG COUNT.
2 SB 30-SEP-76 ADD DBUG TO CHECKEXACTCOUNT
1 JK 20-AUG-76 ADD 'MAKERFA' MACRO.
2 SB 23-AUG-76 CHANGE 'MOVEDOWN' BUG
3 JK 23-AUG-76 ADD 'FLGRRVUPD' FOR DATA RECORD FLAGS.
4 SB 24-AUG-76 ADD SIZEOFANYRECORD MACRO, CHANGE SIZEOFDATARECORD
5 JK 30-AUG-76 FIX SIZEOF... MACROS.
6 SB 30-AUG-76 CHANGE THISAREA FIELD PLACEMENT
7 JK 30-AUG-76 ADD 'BHUNUSED' FOR UNUSED BKT HDR BITS.
8 JK 1-SEP-76 ADD 'FIRSTID' AND 'NULLID'.
9 JK 1-SEP-76 FIX 'MAKERFA'.
10 AS 4-SEP-76 ADD W2B SHIFT.
11 SB 22-SEP-76 ADD PATH DEFINITIONS
12 SB 24-SEP-76 ADD SOME SIDR DEFINITIONS
13 SB 30-SEP-76 MAKE MOVEDOWN USE PUSHJ, NOT CALL0
14 SB 30-SEP-76 ADD MININDEXRECS
15 SB 7-OCT-76 CHANGE SIZEOFDATARECORD TO NOT COMPUTE SIDR LENGTH
16 SB 20-OCT-76 ADD RFABKTLSH
17 SB 5-NOV-76 ADD LOWESTBKTNUM DEFINITIONS
18 SB 7-NOV-76 MAKE BUCKETS INTO PAGES...
19 SB 23-NOV-76 TAKE OUT ALL BUCKET DESC DEFINITIONS
20 SB 6-DEC-76 ADD NO-COMPRESS BIT IN RECORD HEADER
21 SB 16-DEC-76 CHANGE KDBDBSZ TO FSTBSZ
22 SB 23-DEC-76 ADD DEFBUCKETSIZE
23 SB 1-FEB-77 ADD NOHIKEYUPDFLAG
24 SB 13-APR-77 FIX SIZEOFDATARECORD
PRODUCT MODULE SPR
EDIT EDIT QAR DESCRIPTION
====== ====== ===== ===========
13 27 XXXXX NO SYMPTOM, BUT MACRO CLEAR HAS LAST EXPRESSION
MISSING THE FETCH OPERATOR ('.').
***** END OF REVISION HISTORY *****
***** BEGIN VERSION 2 DEVELOPMENT *****
PRODUCT MODULE SPR
EDIT EDIT QAR DESCRIPTION
====== ====== ===== ===========
300 300 XXXXX MAKE DBUG=1 WORK.
301 301 XXXXX SUPPORT EXTENDED ADDRESSING.
])%
%([
****************************************************************
* *
* START OF MACROS.BLI *
* *
* THIS FILE CONTAINS ALL "NON-RMS" MACROS. *
AUTHOR: S. BLOUNT /EGM
])%
%([ VALUES FOR SUBROUTINE RETURN CODES ])%
LITERAL TRUE = -1,
FALSE = 0;
%([ VERY IMPORTANT STRUCTURE DECLARATIONS ])%
%( The following macros are used for BLISS-36 only )%
STRUCTURE FORMAT[WRD,PSTN,LNGTH] = [ 1 ] (FORMAT+WRD)<PSTN,LNGTH>;
STRUCTURE FORMATS[WRD,PSTN,LNGTH;N] = [ N ] (FORMATS+WRD)<PSTN,LNGTH>;
STRUCTURE FORMATA[WRD,PSTN,LNGTH] = (FORMATA+WRD)<PSTN,LNGTH>;
STRUCTURE POINTER[WRD,PSTN,LNGTH] = [ 1 ] (.POINTER+WRD)<PSTN,LNGTH>;
MACRO BITN ( N ) = 1 ^ (35-N) %; ! SHOULD BE DEFINED HERE***
%([
***********************************************************************
* EXTERNALS AND FORMAT MAPPINGS *
***********************************************************************
])%
MACRO EXTDECLARATIONS =
EXTERNAL
ACC$1,
ACC$2,
ACC$3,
FST, ! FILE STATUS TABLE POINTER
RST, ! RECORD STATUS TABLE POINTER
CBD, ! PTR TO CURRENT BKT DESC (IN RST)
RAB, ! USER RECORD ACCESS BLOCK
FAB, ! USER RECORD FILE BLOCK
FPT, ! USER FILE PROLOGUE TABLE
KDB, ! PTR TO KEY DESCRIPTOR BLOCK
ADB, ! AREA DESCRIPTOR BLOCK
FRECOR, ! PAGE # OF FIRST FREE PAGE
PAGTAB, ! PAGE TABLE FOR FREE CORE
BUGFLG, ! DEBUGGING VERBOSITY FLAGS
USERJFN, ! TEMP STORAGE FOR JFN DURING OPEN/CREATE
PB, ! USER PARAMETER BLOCK POINTER
DVFLGS, ! FLAGS FROM DVCHR JSYS
USRRET, ! ADDRESS IN RMSDSP TO RETURN TO
UJSYS, ! LOCATION WHERE LAST JSYS IS STORED
OAFLAGS, ! INDICS OABORT MUST BE CALLED BEFORE USEREXIT
ERRADR, ! ADDRESS OF USER ERROR RETURN
USRSTV, ! USER STATUS-VALUE FIELD
USRSTS, ! STATUS
RMSSTS, ! MISC. RMS-20 STATUS BITS
RMSSEC, ! RMS'S SECTION NUMBER
USRSEC, ! SECTION NUMBER OF USER'S CODE
BLKSEC, ! SECTION NUMBER OF USER'S ARG BLOCK
DEXTR1, ! A DUMMY EXTERNAL USED TO PASS AC VALUES
BUFACC; ! COUNT OF BUFFER ACCESSES (CALLS TO 'GETBUF')
MAP
PAGTAB: FORMAT,
DVFLGS: FORMAT;
MAP
FST: POINTER,
RST: POINTER,
CBD: POINTER,
RAB: POINTER,
FAB: POINTER,
ADB: POINTER,
KDB: POINTER,
FPT: POINTER %;
%([
***********************************************************************
* NUMERIC VARIABLES *
***********************************************************************
])%
LITERAL ALLONES = -1, ! OBVIOUS
ON = 1, ! USED FOR TESTING BITS
OFF = 0, ! SAME
ZERO = 0, ! CONSTANT ZERO
PLUSINFINITY = %O'377777777777'; ! POSITIVE INFINITY
%([
***********************************************************************
* USEFUL MACROS *
***********************************************************************
])%
MACRO COMMENT=%,
REPEAT = WHILE TRUE DO %, ! INFINITE LOOP
wrd = 0,36 %, ! CONTENTS OF ENTIRE WORD
RH = 0,18 %, ! RIGHT HALF OF WORD
LH = 18,18 %, ! LEFT HALF OF WORD
PAGE = 0,9,9 %, ! PAGE NUMBER (BITS 18-26)
PAGEMASK = %O'777000' %, ! MASK FOR PAGE NUMBER
OFSET = 0,0,9 %, ! OFFSET INTO PAGE
WHOLEWORD = 0,wrd %, ! USED FOR POINTERS
PTR7 = 36,7 %, ! LEFT HALF OF 7-BIT PINTER
PTR6 = 36,6 %, ! SAME FOR SIXBIT
PTR36 = 36,36 %, ! SAME FOR FULL-WORDS
LASTASCIIPTR = 1,7 %, ! LAST BYTE IN ASCII WORD
ADDR( Z ) = ( Z ) %, ! ADDRESS OF VARIABLE
SETFLAG (A,B) = A = .A OR B %, ! SET A BIT
CHKFLAG (A,B) = (.A AND B ) %,
CLRFLAG (A,B) = A = .A AND ( NOT B ) %;
%([ SOME VALUES FOR BYTE POINTERS ])%
LITERAL NULLBP = %O'440000'; ! A LEFT-JUSTIFIED BYTE PTR
MACRO $STRADD(STRING$)=UPLIT (%ASCIZ %STRING(STRING$)) %;
MACRO PAZ = PLIT %ASCIZ %;
! TEXT OUTPUTTING MACROS
%([ MACRO TO TYPE OUT A STRING USING A FORMAT STATEMENT])%
!
MACRO TXTOUT(FMT)=
BEGIN
EXTERNAL %NAME(FMT),TX$OUT;
%IF %LENGTH NEQ 1 ! Some other args?
%THEN
$CALLM (TX$OUT,%REMAINING, %NAME(FMT))
%ELSE
$CALLM (TX$OUT,%NAME(FMT))
%FI
END %;
%([ MACRO TO TYPE OUT A TEXT STRING ])%
MACRO TYPE( TEXT ) = ! TYPE OUT A MESSAGE ON THE TTY
BEGIN
TXTOUT(MF$ASZ,UPLIT(%ASCIZ TEXT));
END %;
%([ MACRO TO OUTPUT DEBUGGING MESSAGES ])%
MACRO BUGOUT = TYPE %; ! MACRO TO OUTPUT DEBUGGING STUFF
%([ MACRO WHICH IS USED IN DPSS ARGUEMENT MACROS ])%
MACRO DEBUGERROR = TYPE %;
%([ MACROS FOR ERROR MESSAGES IN EXTREME SITUATIONS ])%
MACRO MSG ( TEXT ) =
BEGIN ! THIS MACRO USED PRIMARILY IN UNIT-TESTS
TYPE ( %STRING('?',TEXT));
END %;
%([ MACRO TO PERFORM A BLOCK TRANSFER OF DATA ])%
MACRO MOVEWORDS ( FROMLOC, TOLOC, SIZE ) =
BEGIN
REGISTER
BLTAC,
XXXXAC;
XXXXAC<LH> = FROMLOC;
XXXXAC<RH> = TOLOC;
BLTAC = .XXXXAC + SIZE-1;
BLT ( XXXXAC, 0, BLTAC );
END %;
%([ MACRO TO CLEAR A BLOCK OF MEMORY ])%
MACRO CLEAR ( PTR, LEN ) = ! CLEAR A SERIES OF CORE LOCATIONS
BEGIN
REGISTER TEMP1,TEMP2;
TEMP1 = PTR; ! BLOCK ADDRESS
TEMP2 = .TEMP1 + LEN - 1;
(.TEMP1)<wrd>=0;
IF LEN GTR 1 !BLT NECES?
THEN BEGIN !YES, MULTI-WD
HRL ( TEMP1, TEMP1 );
AOJ ( TEMP1 );
BLT ( TEMP1, 0, TEMP2 );
END;
END %;
MACRO ISON = ISNT OFF %, ! MACRO TO CHECK IF A BIT IS ON
ISNT = NEQ %, ! EQUALITY MACROS
IS = EQL %;
%([
***********************************************************************
* MISCELLANEOUS VALUES THAT ALL MODULES USE *
***********************************************************************
])%
%([ SIZE OF A SINGLE PHYSICAL PAGE ])%
LITERAL PAGESIZE = 512;
%([
***********************************************************************
* MACROS TO SIMPLIFY VARIOUS COMPUTATIONS *
***********************************************************************
])%
%([ MACRO TO COMPUTE THE TOTAL SIZE IN WORDS OF A DATA RECORD ])%
MACRO SIZEINWORDS ( RECORDSIZE,BYTESIZE )=
BEGIN
LOCAL
BYTES, WORDS;
BYTES = 36/BYTESIZE; !# OF BYTES PER WORD
WORDS = RECORDSIZE / .BYTES; ! SIZE OF EACH RECORD IN WORDS
IF ( RECORDSIZE MOD .BYTES ) ISNT ZERO
THEN WORDS = .WORDS + 1; ! ACCOUNT FOR SLACK BYTES
.WORDS ! RETURN VALUE
END %;
%([
***********************************************************************
* MACROS FOR SHIFTING QUANTITIES *
***********************************************************************
])%
LITERAL LEFTLSH = 18, ! SHIFT INTO LEFT-HALF OF WORD
DIVIDEBY2LSH = -1, ! DIVIDE VALUE BY 2
P2W = 9, ! SHIFTING CONSTANT FOR PAGES/WORDS
W2P = -9, ! WORDS TO PAGES
S2P = -9; ! LH (SECTIONS) TO PAGES
%([
*********************************************************************
* MACROS USED FOR SUBROUTINE LINKAGE CONVENTIONS *
**********************************************************************
])%
%([ MACROS FOR EXITING FROM RMS BACK TO THE USER ])%
MACRO USEREXIT = $EXIT ( USRRET ) %; ! MACRO TO RETURN TO USER AFTER PROCESSING A COMMAND
MACRO USEXITERR = $EXIT ( USRERR ) %; ! MACRO TO RETURN TO USER AFTER ERR DETECTED
%([ MACROS FOR SUBROUTINE EXITS ])%
MACRO GOODRETURN = RETURN TRUE %; ! SUCCESSFUL RETURN FROM A ROUTINE
MACRO BADRETURN = RETURN FALSE %; ! UNSUCCESSFUL RETURN FROM A ROUTINE
%([
***********************************************************************
* ERROR PROCESSING MACROS *
***********************************************************************
])%
%([ MACRO TO SET UP ADDRESS OF USER BLOCK FOR STATUS ])%
MACRO ERRORBLOCK ( A ) = PB = .A %; ! SET UP BLOCK FOR ERROR STATUS
%([ MACRO TO DEFINE A USER ERROR AND EXIT TO USER ])%
MACRO PROCERR ( CODE, ACTION ) = ! MACRO TO DESC ERROR
BEGIN
USRSTS = CODE;
%if DBUG %then
BEGINDEBUG( DBERRORS ) ! SPECIAL DEBUGGING TRACE
!+
! Allow user to return the error code in a variable called "ERRORCODE"
! if he doesn't want to return the immediate value. This allows compilation
! to succeed with DBUG=1.
!-
%IF %IDENTICAL ( CODE, .ERRORCODE ) %THEN
PRINTVALUE (%STRING('?USER ERROR FOUND: '), ERRORCODE)
%ELSE
TXTOUT (MF$UEF, UPLIT( %ASCIZ 'CODE'))
%FI
ENDDEBUG;
%fi
ACTION
END %;
MACRO USERERROR ( CODE ) = PROCERR (CODE,(USEXITERR)) %;
MACRO ERROR = USERERROR %; !SYNONYM
MACRO RETURNSTATUS ( CODE ) = PROCERR (CODE,(BADRETURN)) %;
%([ MACRO TO DECLARE AN INTERNAL ERROR CONDITION ])%
MACRO RMSBUG (ERCOD) = ! INTERNAL CONSISTENCY ERROR FOUND
BEGIN
$EXIT (CRASH, R$$NAME, GCA ( ERCOD ) )
END %;
%([
***********************************************************************
* DEBUGGING MACROS *
***********************************************************************
])%
%([ MACRO TO CHECK THE VALUE OF A SUBROUTINE INPUT ARGUMENT ])%
MACRO CHECKINPUT ( ARGNAM,OPTR,ARGVAL) =
%IF DBUG %THEN
BEGIN
IF NOT ( .ARGNAM OPTR ARGVAL )
THEN RMSBUG ( MSGINPUT )
END
%FI %;
MACRO DBUGOUT(CASE$)=
%IF DBUG %THEN
BEGINDEBUG ( CASE$ )
TYPE ( %STRING(%REMAINING));
ENDDEBUG;
%FI %;
MACRO BEGINDEBUG ( FLAGNAME ) =
BEGIN
IF ( ( .BUGFLG AND FLAGNAME ) ISON )
THEN BEGIN %,
ENDDEBUG = END END %;
%([ MACRO TO TRACE THE ENTRY TO AN RMS-20 VERB PROCESSOR ])%
MACRO RMSENTRY (VERBNAME)=
BIND R$$NAME = UPLIT( %ASCIZ %STRING(VERBNAME));
BEGIN
BEGINDEBUG (DBENTRY)
TXTOUT (MF$ENT, R$$NAME);
ENDDEBUG;
END %;
%([ MACRO TO PERFORM AN ENTRY TRACE OF A SPECIFIC ROUTINE ])%
MACRO TRACE (RNAME) = ! TRACE RMS EXECUTION
BIND R$$NAME = UPLIT( %ASCIZ RNAME); ! SAVE ROUTINE NAME
BEGIN
BEGINDEBUG (DBTRACE)
TXTOUT (MF$ENR, R$$NAME);
ENDDEBUG;
END %;
%([ MACRO TO PRINT THE CONTENTS OF A VARIABLE <ALWAYS> ])%
MACRO PRINTVALUE ( TEXT, fld )=
%IF DBUG %THEN
BEGIN
EXTERNAL
DEXTR1;
TXTOUT(MF$CON,UPLIT(%ASCIZ TEXT)); !Message continues..
DEXTR1 = .fld;
CALLDUMP ( PCI ( 1 ) , GCI ( DEXTR1 ) ) !Type value and CRLF
END
%FI %;
%([ MACRO TO PRINT VALUE OF A FIELD IF DEBUG IS ON AND DBLOCAL IS SET ])%
MACRO LOOKAT ( TEXT , fld ) =
%if dbug %then
BEGINDEBUG ( DBLOCAL )
PRINTVALUE ( TEXT, fld );
ENDDEBUG
%fi
%;
%([ MACRO TO TRACE EXECUTION OF A SINGLE ROUTINE ])%
MACRO RTRACE ( TEXT ) = ! USE THIS FOR ROUTINE TRACING
DBUGOUT(DBRTRACE, TEXT); %;
%([ MACRO FOR UN-IMPLEMENTED FUNCTIONS ])%
MACRO NOTDONE ( A ) =
BEGIN
TYPE ( %STRING(A,' IS NOT IMPLEMENTED YET'));
END %;
%([ MACRO TO DECLARE A FILE CONSISTENCY PROBLEM ])%
MACRO FILEPROBLEM ( ERRCODE )=
BEGIN
USRSTS = ER$UDF;
USRSTV = ERRCODE
END %;
%([ MACROS FOR INCREMENTING AND DECREMENTING VARIABLES ])%
MACRO DEC( WHAT, AMT ) = WHAT = .WHAT - AMT %,
INC( WHAT, AMT ) = WHAT = .WHAT + AMT %;
MACRO CURRENTJSYS = (.UJSYS<RH> AND %O'77') %;
%([
***********************************************************************
* DEBUGGING VERBOSITY FLAGS *
***********************************************************************
])%
%([ THESE FLAG BITS DEFINE THE LEVEL OF THE DEBUGGING
VERBOSITY OUTPUT WHICH IS TYPED. THEY EXIST IN
THE "BUGFLG" WORD. ])%
%([ *****NOTE THAT THESE BIT DEFINITIONS MUST CORRESPOND
TO THE SAME BITS DEFINED IN RMSSYM.MTB. IN FACT, THESE
BITS SHOULD BE ELIMINATED ALTOGETHER. ])%
LITERAL DBTRACE = BITn ( 35 ), ! MODULE TRACE
DBERRORS = BITN ( 34 ), ! USER ERRORS
DBRTRACE = BITN ( 33 ), ! ROUTINE TRACE
DBLOCAL = BITN ( 32 ), ! LOCAL VARIABLES
DBBLOCKS = BITN ( 31 ), ! DUMP OF VARIOUS BLOCKS
DBLOCK = BITN ( 30 ), ! PRINT TRACE OF RECORD LOCKS
DBIO = BITN ( 29 ), ! TRACE I/O ACTIVITY
DBENTRY = BITN ( 28 ); ! TRACE ENTRY TO RMS-20
%([
***********************************************************************
* ASCII CHARACTER CODES *
***********************************************************************
])%
LITERAL CHARTAB = %O'11', ! HORIZONTAL TAB
CHARLF = %O'12', ! LINE FEED
CHARVT = %O'13', ! VERTICAL TAB
CHARFF = %O'14', ! FORM FEED
CHAR0 = %O'60', ! "0"
CHARCR = %O'15', ! CARRIAGE RETURN
CHARCNTZ= %O'32'; ! CONTROL-Z
%([
***********************************************************************
* REGISTER DEFINITIONS *
***********************************************************************
])%
%([
***********************************************************************
* INTERNAL SUBROUTINE PARAMETER VALUES *
***********************************************************************
])%
%([ THESE VALUES ARE BIT DEFINITIONS WHICH ARE PASSED TO
CERTAIN ROUTINES AS "ABORT FLAGS". EACH BIT REPRESENTS
A PARTICULAR OPERATION WHICH HAS BEEN PERFORMED AND MUST
BE UNDONE. CURRENTLY, OABORT AND CLEANUP ARE THE ONLY
ROUTINES WHICH USE THESE BITS ])%
LITERAL ABRUNLOCK = BITN (35), ! UNLOCK THE FILE
ABRCLOSE = BITN (34), ! CLOSE THE FILE
ABRFPT = BITN (33), ! RELEASE THE FILE PROLOGUE TABLE
ABRFST = BITN (32), ! RELEASE THE FILE STATUS TABLE
ABRPLOGPAGE = BITN ( 31 ), ! RELEASE THE FREE PAGE
ABRADB = BITN ( 30 ), ! RELEASE THE ADB
ABRULINDEX = BITN ( 29 ), ! UNLOCK THE CURRENT INDEX
ABRBUCKET = BITN ( 28 ); ! FLUSH THE CURRENT BUCKET
%([
***********************************************************************
* END OF MACROS.REQ *
***********************************************************************
])%
%([
********************************************************
* *
* START OF LIMITS.REQ *
* *
* CONTENTS: *
* *
* 1. USER PARAMETER LIMIT DEFINITIONS *
* *
*********************************************************
AUTHOR: S. BLOUNT
])%
%([
****************************************************************
* KEY DESCRIPTION LIMITS *
*****************************************************************
])%
%([ USER KEY-DEFINIITION LIMITS ])%
LITERAL MAXKEYS = 255, ! MAX # OF KEYS FOR THE FILE
MAXKEYSEGS = 8, ! MAX # OF KEY SEGMENTS
MAXKEYSIZE = 255, ! SIZE OF KEY IN BYTES
MAXKSZW = 64; ! SIZE OF KEY (IN WORDS)
! WARNING: DUPL DEF IN RMSGLB
%([
****************************************************************
* AREA DEFINITION LIMITS *
*****************************************************************
])%
LITERAL MAXAREAS = 32; ! MAX # OF AREAS FOR THE FILE
%([
****************************************************************
* BUCKET PARAMETER LIMITS *
*****************************************************************
])%
LITERAL MAXFILLPERCENT = 50, ! MAX FILE PERCENTAGE
MAXBKZ = 7; ! MAX BUCKET SIZE (3 BIT FLD IN BFD)
LITERAL MAXLEVELS = 15; ! MAX # OF INDEX LEVELS
!MORE THAN BIG ENOUGH, EVEN WITH
! HALF FULL BKTS AND 10 WD KEYS
! ROOM FOR OVER 10**20 RECS
!WARNING: DUPL DEF IN RMSGLB
%([
****************************************************************
* MISCELLANEOUS LIMITS *
*****************************************************************
])%
LITERAL MINUSERBUFF = %O'20', ! MINIMUM BUFFER ADDRESS
MINADDRESS = %O'20'; ! GENERAL ADDRESS VALUE
%([
****************************************************************
* END OF LIMITS.REQ *
*****************************************************************
])%
%([***************************************************************
* *
* START OF SWITCH.REQ *
* *
* THIS FILE CONTAINS ALL COMPILATION *
* SWITCH VALUES WHICH MAY BE ALTERED *
* BEFORE RMS-20 IS INITIALLY BUILT. *
* THIS FILE IS USED BY ALL SOURCE MOD- *
* ULES WITHIN RMS-20. *
* *
***************************************************************])%
%([ DATA DECLARATION MACROS TO SELECT GLOBAL VARIABLES ])%
COMPILETIME
INDX=1,
DBUG=1;
%([***************************************************************
* END OF SWITCH.REQ *
***************************************************************])%
%([
********************************************************
* *
* START OF BUCKET.REQ *
* *
* CONTENTS: *
* *
* 1. BUCKET FORMAT DEFINITIONS FOR INDEXED FILES *
* 2. RECORD FORMAT DEFINITIONS FOR INDEXED FILES *
* 3. MISCELLANEOUS MACROS FOR USE WITH RECORDS *
* *
*********************************************************
AUTHOR: S. BLOUNT
])%
%([
*****************************************************************
* STRUCTURE OF BUCKET FOR INDEXED FILES *
*****************************************************************
])%
%([
FORMAT OF BUCKET (INDEXED FILES ONLY)
=====================================
!=====================================!
!FLAGS!LEVEL! TYPE ! NEXT-BYTE !
!-------------------------------------!
!<UNUSED> ! AREA ! NEXTBKT !
!-------------------------------------!
! LASTID ! NEXTID !
!-------------------------------------!
! !
! RECORD STORAGE !
! AREA !
! !
!-------------------------------------!
! RRV STORAGE !
! AREA !
!-------------------------------------!
! !
! FREE SPACE !
! !
!=====================================!
])%
%([ DEFINITIONS RELATING TO THE SIZE OF A BLOCK ])%
LITERAL LENGTHOFBLOCK = PAGESIZE / 4, ! WORDS IN A BLOCK
B2W = P2W, ! BUCKETS TO WORDS SHIFT
W2B = W2P, ! WORDS TO BUCKETS
B2P = 0, ! SHIFT FOR CONVERTING BLOCKS TO PAGES
P2B = 0, ! SHIFT FOR CONVERTING PAGES TO BLOCKS
BKTFLDSIZE = 18, ! # OF BITS TO HOLD A BKT #
BLOCKSPERPAGE = 4; ! NO. BLOCKS IN A PAGE
%([ SYMBOLS RELATING TO THE SIZE OF A FILE BUCKET ])%
LITERAL LOWESTBKTNUM = 1, ! NO BUCKET CAN BE ON PAGE 0
DEFBUCKETSIZE = 1; ! DEFAULT VALUE OF BKS FIELD
%([ STRUCTURE OF FIXED-LENGTH HEADER OF BUCKET ])%
LITERAL BHHDRSIZE = 3; ! SIZE OF HEADER
MACRO BHFLAGS = 0,27,9 %, ! BUCKET FLAGS
BHLEVEL = 0,21,6 %, ! LEVEL OF THIS BUCKET
BHBTYPE = 0,18,3 %, ! BUCKET TYPE
BHNEXTBYTE = 0,RH %, ! NEXT AVAIL WORD
BHUNUSED = 1,26,10 %, ! (UNUSED)
BHTHISAREA = 1,18,8 %, ! THIS AREA
BHNEXTBKT = 1,RH %, ! PTR TO NEXT BUCKET
BHLASTID = 2,LH %, ! LAST ID TO USE
BHNEXTID = 2,RH %; ! NEXT ID TO USE
%([ FLAGS DEFINED IN BUCKET HEADER ])%
LITERAL BHFLGROOT = BITN ( 35 ), ! THIS IS THE ROOT
BHFLGEND = BITN ( 34 ); ! LAST BUCKET IN CHAIN
%([ BUCKET TYPES ])%
LITERAL BTYPEINDEX = 0, ! INDEX BUCKET
BTYPEDATA = 1; ! DATA BUCKET
%([ VALUES USED FOR LEVELS OF THE INDEX (IF THESE CHANGE,
WE'VE GOT PROBLEMS ])%
LITERAL SEQSETLEVEL = 1, ! LEVEL OF SEQUENCE SET
DATALEVEL = 0; ! LEVEL OF DATA
%([ VALUES WHICH DETERMINE IF A PARITCULAR INDEX OR DATA
BUCKET IS WRITTEN TO DISK WHEN IT IS RELEASED TO THE
BUCKET MANAGER. THESE VALUES ARE USED TO SPEED UP
PERFORMANCE IN THOSE CASES WHERE A COMPLETE DISK WRITE
MIGHT NOT BE ABSOLUTELY NECESSARY. ])%
LITERAL
NOHIKEYUPDFLAG = FALSE; ! DONT UPDATE THE INDEX
! BUCKET WHEN A DATA BUCKET
! IS BEING REMOVED FROM THE INDEX.
! THIS WILL NOT CAUSE ANY HARM,
! BECAUSE THE INDEX STRUCTURE
! IS STILL INTACT (SEE INSRTIREC)
%([
****************************************************************
* RECORD FILE ADDRESS (RFA) STRUCTURE *
*****************************************************************
])%
%([ ******* NOTE ********* ])%
%([ IN THE FOLLOWING RFA STRUCTURE MACROS, THE RECORD ID
IS IN THE LEFT HALF OF THE RFA WORD. HOWEVER, THE
HIGHEST ID WHICH IS EVER ALLOCATED IS #37777; THUS
BIT 0 IS NEVER USED. THIS BIT IS RESERVED IN SIDR
RECORDS FOR FUTURE USE. THE ID MACRO
BELOW COULD BE CHANGED TO CONSIST OF ONLY 17 BITS, BUT
THAT WOULD SLOW DOWN THE ACCESS TO RFA VALUES THRUOUT
THE SYSTEM.
FORMAT OF AN INDEXED FILE RFA
=============================
!=====================================!
!*! RECORD ID ! BUCKET NUMBER !
!=====================================!
])%
MACRO RFABUCKET = 0,RH %, ! BUCKET NUMBER
RFAID = 0,LH %; ! BUCKET ID
%([ SHIFTING VALUES FOR FIELDS IN AN RFA ])%
LITERAL ID2RFALSH = 18, ! SHIFT ID TO RFA
RFA2IDLSH = -18; ! SHIFT RFA TO ID
%([ MASK VALUES ])%
LITERAL BUCKETMASK = %O'777777'; ! RIGHT HALF MASK
%([ MACRO TO BUILD AN RFA FROM BUCKET NO. AND ID ])%
MACRO MAKERFA ( BKTNO,ID ) = ID ^ ID2RFALSH + BKTNO %;
%([ MACROS TO EXTRACT EACH FIELD FROM AN RFA ])%
MACRO IDOFRFA ( RFAVALUE ) = ( RFAVALUE ^ RFA2IDLSH ) %,
BUCKETOFRFA (RFAVALUE)=( RFAVALUE AND BUCKETMASK ) %;
%([
****************************************************************
* RECORD FORMAT STRUCTURE *
*****************************************************************
])%
%([
****************************************************************
* INDEX RECORD FORMAT *
*****************************************************************
])%
%([ FORMAT OF INDEX RECORD:
======================
!=====================================!
! FLAGS ! BUCKET POINTER !
!-------------------------------------!
! !
! KEY STRING !
! !
!=====================================!
])%
%([ SIZE OF INDEX RECORD HEADER ])%
LITERAL IRHDRSIZE = 1; ! 1 WORD FOR HEADER
%([ INDEX RECORD HEADER FORMAT ])%
MACRO IRFLAGS = 0,LH %, ! FLAGS
IRBUCKET = 0,0,BKTFLDSIZE %; ! BUCKET NUMBER
%([ DEFAULT VALUE FOR FLAGS IN INDEX RECORD ])%
%([ ***SEE FLAG DEFINITIONS UNDER DATA RECORD*** ])%
LITERAL DEFIRFLAGS = 0;
%([
****************************************************************
* DATA RECORD STRUCTURE *
*****************************************************************
])%
%([
FORMAT OF GENERALIZED INDEXED DATA RECORD
=========================================
!=====================================!
! FLAGS ! RECORD ID !
!-------------------------------------!
! RECORD POINTER !
!-------------------------------------!
! <UNUSED> ! RECORD SIZE !
!-------------------------------------!
! !
! DATA RECORD !
! !
!=====================================!
])%
%([ SIZE OF DATA RECORD HEADER ])%
%([ NOTE THAT THE RECORD HEADER ON A USER DATA RECORD CAN
HAVE DIFFERENT LENGTHS, DEPENDING UPON WHETHER IT IS
A FIXED-LENGTH RECORD FILE OR A VARIABLE-LENGTH
RECORD FILE ])%
LITERAL FIXHDRSIZE = 2, ! FIXED-FORMAT RECORDS
VARHDRSIZE = 3; ! VARIABLE-FORMAT RECORDS
%([ DATA RECORD FORMAT DEFINITIONS ])%
MACRO DRFLAGS = 0,LH %, ! FLAGS
DRRECORDID = 0,RH %, ! ID OF THIS RECORD
DRRRVADDRESS = 1,WRD %, ! POINTER TO RRV
%([ DEFINITION OF RRV-ADDRESS FIELDS ])%
DRRRVBUCKET = 1,RH %, ! RRV BUCKET NUMBER
DRRESERVED = 2,LH %, ! <UNUSED>
DRRECSIZE = 2,RH %; ! RECORD SIZE
%([ OFFSETS INTO THE DATA RECORD WHERE THE RECORD SIZE IS STORED ])%
LITERAL VARRSZOFFSET = 2; ! VARIABLE RECORDS
%([ FLAG BITS DEFINED IN USER DATA/INDEX RECORD ])%
LITERAL DEFDRFLAGS = 0; ! DEFAULT FLAGS
LITERAL FLGDELETE = BITN ( 35 ), ! THIS RECORD IS DELETED
FLGRRV = BITN ( 34 ), ! THIS IS AN RRV
FLGHIKEY = BITN ( 33 ), ! THIS IS THE HIGHEST KEY POSSIBLE(INDEX ONLY)
FLGRRVUPD = BITN ( 32 ), ! RRV RECORDS FOR THIS RECORD HAVE BEEN UPDATED (IN-CORE FLAG ONLY)
FLGNOCOMPRESS = BITN ( 31 ); ! DON'T COMPRESS THIS RECORD
LITERAL DEFRRVFLAGS = FLGRRV; ! DEFAULT FLAGS FOR RRV RECORD
%([ MACRO TO ACCESS THESE FLAGS ])%
MACRO RRVFLAG ( XRECPTR )= ( .XRECPTR [ DRFLAGS ] AND FLGRRV ) %,
DELETEFLAG ( XRECPTR )= ( .XRECPTR [ DRFLAGS ] AND FLGDELETE ) %;
%([
********************************************************************
* SECONDARY INDEX DATA RECORD STRUCTURE *
*********************************************************************
])%
%([ FORMAT OF A SECONDARY INDEX DATA RECORD:
========================================
!=====================================!
! FLAGS ! RECORD ID !
!-------------------------------------!
! <UNUSED> ! RECORD SIZE !
!-------------------------------------!
! !
! KEY VALUE !
! !
!-------------------------------------!
! RFA #1 !
!-------------------------------------!
! . !
! . !
! . !
!-------------------------------------!
! RFA #N !
!=====================================!
])%
%([ SIZE VALUES FOR THE HEADER OF SECONDARY DATA RECORDS ])%
LITERAL SIDRHDRSIZE = 2, ! ONLY 2 WORDS
SIDRBYTESIZE = 36; ! BYTE SIZE FOR SIDR RECORDS
%([ SIDR FORMAT DEFINITIONS ])%
MACRO SIDRRECSIZE = 1,RH %, ! RECORD SIZE FIELD
SIDRDUPCOUNT = 1,LH %; ! DUP COUNT (FUTURE)
%([ SIDR RECORD FLAG VALUES (NOT FLAGS IN RFA) ])%
LITERAL DEFSIDRFLAGS = 0; ! DEFAULT VALUES
%([ FLAG BIT DEFINITIONS FOR EACH RFA IN A SIDR ARRAY ])%
LITERAL NULLRFA = ZERO, ! AN EMPTY RECORD POINTER
ALLRFAFLAGS = BITN ( 0 ); ! ONE BIT IS RESERVED
%([ OFFSET INTO THE SECONDARY RECORD WHERE THE RECORD SIZE IS KEPT ])%
LITERAL SIDRRSZOFFSET = 1; ! 2ND WORD OF HEADER
%([ MACROS USED TO MANIPULATE SIDR RFA'S TO DETERMINE IF
THE RFA IS DELETED. ])%
MACRO SETDELETEDRFA ( ARRAYPTR ) = ( ARRAYPTR [ WHOLEWORD ] = NULLRFA ) %,
DELETEDRFA ( ARRAYPTR ) = ( .ARRAYPTR [ WHOLEWORD ] IS NULLRFA ) %;
%([
****************************************************************
* RRV RECORD STRUCTURE *
*****************************************************************
])%
%([ FORMAT OF A RRV RECORD:
======================
!=====================================!
! FLAGS ! RECORD ID !
!-------------------------------------!
! ADDRESS OF RECORD (RFA) !
!=====================================!
])%
%([ THE STRUCTURE OF AN RRV RECORD IS IDENTICAL TO THE
DEFINITION OF THE DATA RECORD FORMAT FOR ALL FIELDS
OF THE RRV RECORD ])%
LITERAL RRVRECSIZE = 2; ! SIZE OF AN RRV RECORD
%([
*****************************************************************
* MACRO TO MOVE A PORTION OF A BUCKET DOWN *
*****************************************************************
])%
%([ THIS MACRO IS USED WHEN A RECORD IS TO BE INSERTED
INTO A INDEX OR DATA BUCKET. IT IS A COMPLEX MACRO
SO AS TO MAXIMIZE THE EFFICIENCY OF THE OPERATION.
THIS OPERATION COULD ALSO BE DONE BE A "MOVE,MOVEM"
LOOP BUT IT WOULD NOT BE AS FAST AS THIS ALGORITHM. ])%
%([ THE MACRO WORKS AS FOLLOWS:
LET:
A = START OF CHUNK TO MOVE
B = START OF PLACE TO MOVE CHUNK
C = LAST WORD OF CHUNK TO MOVE
D = LAST WORD OF PLACE WHERE CHUNK WILL BE
THEN, WE SET THE AC TO BE:
AC/ XWD (C-A-1)+400000, C
AND DO THE FOLLOWING LOOP:
LOOP1: POP AC, D-C(AC)
LOOP2: JUMPL AC,.-1
LOOP3: POPJ P,
C-A-1 BECAUSE LOOPS TERMINATES WHEN LEFT HALF = 377777.
THIS EFFECTIVELY POPS THE DATA FROM ONE PLACE IN CORE
TO THE OTHER.
])%
MACRO MOVEDOWN ( XSTART,XEND,XAMTDOWN )=
BEGIN
EXTERNAL
LOOP1,
LOOP2,
LOOP3;
REGISTER
TEMPAC = 1;
LOOP1 = (%O'262' ^ 27) OR (1 ^ 23 ) OR (1 ^ 18 ) OR (XAMTDOWN);
LOOP2 = (%O'321' ^ 27) OR (1 ^ 23 ) OR LOOP1;
LOOP3 = (%O'263' ^ 27) OR (%O'17' ^ 23 );
TEMPAC = (( XEND-XSTART ) ^ LEFTLSH) OR (XEND);
TEMPAC = (.TEMPAC OR (1^35));
CALL0 ( LOOP1 )
END %;
%([
*********************************************************
* *
* MISCELLANEOUS VALUES ASSOCIATED WITH BUCKETS *
* *
*********************************************************
])%
LITERAL HIGHESTID = %O'377777', ! HIGHEST LEGAL RECORD ID ( 17 BITS )
HIGHESTBUCKETno = %O'777777', ! HIGHEST LEGAL BUCKET NO ( 18 BITS )
!
! **note: The 'no' to HIGHESTBUCKETNO was added for BLISS 36.
! The source module was using HIGHESTBUCKETNO even though
! only HIGHESTBUCKET was declared. BLISS-10 did'nt care
! but BLISS-36 looks at all 15 characters.
!
FIRSTID = 1, ! FIRST VALID BUCKET ID
NULLID = 0; ! NON-EXISTENT BKT ID
! (USED TO INDICATE "ID NOT GIVEN")
%([
********************************************************************
* MISCELLANEOUS MACROS *
*********************************************************************
])%
%([ MACRO TO DETERMINE THE SIZE OF A DATA RECORD ])%
%([ NOTE THAT THIS MACRO WORKS ONLY ON DATA RECORDS...NOT RRV'S ])%
MACRO SIZEOFDATARECRD ( RECPTR )=
BEGIN
REGISTER
AC,TEMP;
IF .KDB [ KDBREF ] ISNT REFPRIMARY THEN AC = .RECPTR [ SIDRRECSIZE ]
ELSE
BEGIN
IF FIXEDLENGTH THEN TEMP = .FST [ FSTMRS ]
ELSE TEMP = .RECPTR [ DRRECSIZE ];
AC = SIZEINWORDS ( .TEMP, .FST [ FSTBSZ ] )
END; %(OF ELSE THIS IS A UDR)%
AC = .AC + .KDB [ KDBHSZ ] ! ADD HEADER SIZE
END %;%(OF SIZEOFDATARECRD)%
%([ MACRO TO FIND LENGTH OF JUST A USER DATA RECORD ])%
MACRO SIZEOFUDR ( RECPTR )=
BEGIN
REGISTER
TEMP;
IF FIXEDLENGTH THEN TEMP = .FST [ FSTMRS ]
ELSE TEMP = .RECPTR [ DRRECSIZE ];
SIZEINWORDS ( .TEMP, .FST [ FSTBSZ ] ) + .KDB [ KDBHSZ ]
END %;%(OF SIZEOFUDR)%
%([ MACRO TO GET THE SIZE OF A "RECORD", EITHER A DATA
RECORD OR AN RRV RECORD ])%
MACRO SIZEOFANYRECORD ( RECPTR )=
BEGIN
IF RRVFLAG ( RECPTR ) ISON
THEN
RRVRECSIZE
ELSE
SIZEOFDATARECRD ( RECPTR )
END %;
%([ MACRO TO DE-ALLOCATE A FILE BUCKET. ])%
%([ **NOTE THAT THIS MACRO IS CURRENTLY NULL. THAT'S
BECAUSE SECONDARY BUCKET ALLOCATION (RE-USE OF
BUCKETS THAT ARE NO LONGER NEEDED) IS NOT CURRENTLY
SUPPORTED IN RMS-20. IN OTHER WORDS, UNTIL THIS MACRO IS IMPLEMENTED,
THERE WILL BE SOME WASTED SPACE IN THIS SITUATION ])%
MACRO DEALLOCBUCKET ( XBD, XSIZE )= %;
%([
****************************************************************
* STRUCTURES FOR "PATH" ARRAY *
*****************************************************************
])%
%([ THESE TWO FIELDS ARE IN THE "PATH" ARRAY AND ARE
USED BY THE FNDREC AND IDXUPDATE TO LOCATE THE
INDEX BUCKET PATH USED TO PROCESS THE INDEX. ])%
MACRO PATHBKT = 0,BKTFLDSIZE %, ! BUCKET PROCESSED GOING DOWN INDEX
PATHOFFSET = BKTFLDSIZE,18 %; ! OFFSET INTO BUCKET OF
! INDEX RECORD USED IN SEARCH
%([
****************************************************************
* END OF BUCKET.REQ *
*****************************************************************
])%
%([
******************************************************************
* START OF BUFFER.REQ *
* *
* CONTENTS: *
* *
* 1. ALL BUFFER MANAGEMENT DATA STRUCTURES *
* *
*******************************************************************
%([
THIS FILE CONTAINS ALL MACROS AND DEFINITIONS WHICH
RELATE TO THE BUFFER MANAGEMENT WITHIN RMS-20. THIS
INCLUDES THE FOLLOWING STRUCTURES:
1. BUFFER DESCRIPTORS
2. BUCKET DESCRIPTORS
THE BUFFER DESCRIPTORS ARE MAINTAINED WITHIN THE RST
FOR EACH RECORD STREAM. THESE DESCRIPTORS ARE NEVER
MOVED AROUNT NOR USED AS ARGUMENTS TO ANY ROUTINE.
THE BUCKET DESCRIPTORS ARE MULTI-WORD STRUCTURES WHICH
ARE PASSED AROUND BY MANY ROUTINES AND USED AS ARGUMENTS
FOR ROUTINES WHICH PROCESS INDEXED FILES. NOTE THAT
EXCEPT FOR THE "CURRENT BUCKET DESCRIPTOR" FIELD IN THE
RST, BUCKET DESCRIPTORS ARE NEVER PERMANENT...THEY
ARE CREATED, USED, AND LATER RELEASED. CONTRAST THIS
WITH THE BUFFER DESCRIPTORS WHICH ARE CREATED ONLY AT
$CONNECT-TIME, ARE NEVER MOVED, AND ARE RELEASED ONLY
WHEN THE RECORD STREAM IS DISCONNECTED.
THIS FILE CONTAINS NO INFORMATION OR DEFINITIONS CONCERNING
THE ACTUAL STRUCTURE OF EITHER A BUCKET OR THE RECORDS WITHIN
A BUCKET.
])%
%([
*****************************************************************
* STRUCTURE OF BUFFER DESCRIPTORS *
*****************************************************************
])%
%([ MACRO TO GET ADDRESS OF FIRST BUFFER DESCRIPTOR ])%
MACRO BFDOFFSET = ADDR( RST [ RSTBFD ] ) %;
%([ MACROS FOR ACCESSING FIELDS IN BUFFER DESCRIPTORS ])%
MACRO BFDBPAGE = 0,27,9 %, ! PAGE NO. OF BUFFER IN CORE
BFDUSECOUNT = 0,24,3 %, ! NO. OF USERS OF THIS BUFFER
BFDUPDFLAG = 0,23,1 %, ! IF ON, DATA IN BUFFER NEEDS TO BE OUTPUT
BFDBKTSIZ = 0,20,3 %, !# OF PAGES IN BKT CURR IN BUF
! 0 INDICS BUF EMPTY
BFDFPAGE = 0,0,18 %; ! FILE PAGE NO. IN FIRST PAGE OF BUFFER
MACRO BFDUPD (BFD)= .BFD [BFDUPDFLAG] ISON %;
MACRO SETBFDUPD (BFD) =
BEGIN
LOCAL TEMP:POINTER;
TEMP = .BFD;
TEMP [BFDUPDFLAG] = 1
END %;
MACRO CLEARBFDUPD (BFD) =
BEGIN
LOCAL TEMP:POINTER;
TEMP = .BFD;
TEMP [BFDUPDFLAG] = 0
END %;
%([
*****************************************************************
* STRUCTURE OF BUCKET DESCRIPTORS *
*****************************************************************
])%
%([
THE FORMAT OF A BUCKET DESCRIPTOR IS AS FOLLOWS:
!=====================================!
! BFDADR ! BKTADR !
!-------------------------------------!
!<*>!BKTSIZE!FLAGS ! BKTNO !
!=====================================!
])%
%([ MACROS FOR ACCESSING FIELDS IN BUCKET DESCRIPTORS ])%
MACRO BKDBFDADR = 0,LH %, ! ADR OF BUFFER DESCRIPTOR
BKDBKTADR = 0,RH %, ! ADR OF BUCKET IN CORE
! ***NOTE UNUSED 4 BITS IN LEFT OF WORD 1***
BKDBKTSIZE = 1,24,8 %, ! BUCKET SIZE IN BLOCKS
BKDFLAGS = 1,18,6 %, ! FLAGS
BKDBKTNO = 1,RH %; ! BUCKET NO.
%([ SIZE OF A BUCKET DESCRIPTOR ])%
LITERAL BDSIZE = 2;
%([ MACRO TO DETERMINE IF A BUCKET DESCRIPTOR IS NULL ])%
MACRO NULLBD ( BD ) = ( .BD [ BKDBKTADR ] IS ZERO ) %;
%([ MACRO TO SET A BUCKET DESCRIPTOR TO BE NULL ])%
MACRO SETNULLBD (BD) = ( BD [ BKDBKTADR ] = ZERO ) %;
%([ MACRO TO INDIC THAT BKT MUST BE UPDATED ])%
MACRO SETUPD (BD) = SETBFDUPD (BD[BKDBFDADR]) %;
%([ BUCKET DESCRIPTOR FLAGS ])%
LITERAL BKDFLGLOCKED = BITN ( 35 ); ! BUCKET IS LOCKED
%([ VALUES USED FOR THE BUCKET SIZE OF NON-INDEXED FILES ])%
%([ **NOTE THAT FOR INDEXED FILES, THE BUCKET SIZE VALUE IS ])%
%([ A FILE-DEFINITION PARAMETER WHICH CAN POTENTIALLY VARY FOR ])%
%([ EACH FILE BUCKET. FOR NON-INDEXED FILES, THE BUCKET SIZE IS ])%
%([ ALWAYS IN TERMS OF PAGES. ])%
LITERAL ASCIIBKTSIZE = 1, ! USE PAGES
SEQBKTSIZE = 1, ! SAME
RELBKTSIZE = 1; ! SAME
%([ MACROS FOR ACCESSING BUCKET DESCRIPTOR FLAGS ])%
MACRO BKTLOCKED (BKD)= ( .BKD [ BKDFLAGS ] AND BKDFLGLOCKED ) ISON %;
MACRO SETBKTLOCKED (BKD) = SETFLAG ( BKD [ BKDFLAGS ] , BKDFLGLOCKED ) %;
MACRO SETBKTUNLOCKED (BKD) = BKD [ BKDFLAGS ] = ( .BKD [ BKDFLAGS ] AND NOT ( BKDFLGLOCKED ) ) %;
%([ MACRO TO MOVE A BUCKET DESCRIPTOR ])%
MACRO MOVEBKTDESC (XFROM,XTO)=
BEGIN
XTO [ 0, WRD ] = .XFROM [ 0, WRD ];
XTO [ 1, WRD ] = .XFROM [ 1, WRD ];
END %;
%([ MACRO TO RETURN FILE PAGE OF A BUCKET ])%
MACRO FILEPAGE ( BKD ) = ( .BKD [ BKDBKTNO ] ) %;
%([ MACRO TO CAUSE A BUCKET TO BE UPDATED ON DISK ])%
MACRO UPDATEBUCKET ( BKD ) =
BEGIN
IF ( NOT DEFERREDWRITE )
THEN BEGIN
LOCAL MEMPAGEGLOBAL;
%IF DBUG %THEN
LOOKAT ('** BKT WRITTEN TO DISK: ', BKD [ BKDBKTNO ] );
%FI
MEMPAGEGLOBAL = (.BKD [BKDBKTADR] OR .RMSSEC ) ^ W2P;
$CALL (PAGOUT, %( JFN )% .FST [ FSTJFN ],
%( PAGE )% FILEPAGE (BKD),
%( MEM )% .MEMPAGEGLOBAL,
%( COUNT )% .BKD [ BKDBKTSIZE ] );
CLEARBFDUPD(BKD[BKDBFDADR]) !INSURE FLAG OFF
END
ELSE SETBFDUPD(BKD[BKDBFDADR]) !DONT FORGET WHEN DEFER
END %;
%([
***********************************************************************
* END OF BUFFER.REQ *
***********************************************************************
])%
%([
***********************************************************************
* *
* START OF CALLS.REQ *
* *
* THIS FILE CONTAINS ALL MACROS USED *
* FOR SUBROUTINE CALLING CONVENTIONS. *
* CURRENTLY, THERE ARE 2 TYPES OF *
* MACROS DEFINED HEREIN: *
* *
* 1 ) ACTUAL SUBROUTINE CALLS *
* 2 ) STANDARD ARGUMENT MACROS *
* *
***********************************************************************
AUTHOR: S. BLOUNT
])%
%([
***********************************************************************
* STANDARD ARGUMENT MACROS *
***********************************************************************
])%
%([ THESE MACROS ARE USED FOR REFERENCING THE MOST COMMON
FORMS OF ARGUMENTS. OTHER TYPES OF SUBROUTINE PARAMETERS
ARE DEFINED IN EACH MODULE ])%
MACRO PCI ( NUMBR ) = NUMBR %,
PCT ( PLITS ) = PLIT( plits, %remaining ) %,
PCA ( PASC ) = PLIT(PASC) %,
LCI ( LOCNAM ) = .LOCNAM %,
RLCI ( LOCNAM ) = LOCNAM %,
BPT ( BASNAM ) = .BASNAM %,
LPT ( LOCNM2 ) = .LOCNM2 %,
GCA ( GLBNAM ) = GLBNAM %,
GPT ( GLBNM3 ) = .GLBNM3 %,
GCT ( GLBNM3 ) = GLBNM3 %,
GCI ( GLBNM2 ) = .GLBNM2 %,
RGCI ( GLBNAM ) = GLBNAM %,
VCI ( VALNAM ) = .VALNAM %,
RCI ( REFNAM ) = .REFNAM %,
LCT ( LOCNM3 ) = LOCNM3 %;
! ARGUMENT DEFINITION MACROS
! (VESTIGE OF DPSS)
!
MACRO ARGUMENT ( NAM, DEF, VEC ) = %NAME( DEF, 'ARG')(NAM,VEC) %;
MACRO VALUEARG(NAM,VEC) = %;
MACRO BASEADDARG(NAM,VEC) = %;
MACRO REFERENCEARG(NAM,VEC) =
BIND TTT = .NAM;
UNDECLARE NAM;
BIND NAM = TTT;
UNDECLARE TTT %;
MACRO IMMEDIATEARG(NAM,VEC) = %;
MACRO CHECKEXACTCOUNT=%; !USED TO BE FOR DPSS, RETAINED FOR DOC PURPOSES
!LINKAGE FOR CALL OF MACRO SUBROUTINE
!
LINKAGE MACROSUB=
PUSHJ:
LINKAGE_REGS(15,13,1)
PRESERVE(6,7,8,9,10,11,12)
NOPRESERVE(0,2,3,4,5,14);
!LINKAGE FOR CALL OF ROUTINE THAT DOESNT RETURN
!
LINKAGE EXITSUB=
PUSHJ:
LINKAGE_REGS(15,13,0)
PRESERVE(1,2,3,4,5,6,7,8,9,10,11,12,14);
! *** CALL MACROS ***
! ORDINARY BLISS TO BLISS CALLS (ANY NUMBER OF ARGS)
!
MACRO $CALL(FN)=
BEGIN
EXTERNAL ROUTINE FN;
FN(%REMAINING)
END %;
! CALL TO OS ROUTINE THAT WONT RETURN IF THERE IS MONITOR ERROR
!
MACRO $CALLOS(CODE$,CALL$)= !USE OS, BUT RET SPEC CODE IF CALL FAILS
BEGIN
EXTERNAL USTOSF;
USTOSF=CODE$; !PROVIDE FAILURE STATUS CODE
CALL$; !DO THE CALL
USTOSF=ZERO; !RETURNED, SO CLEAR SUGG
END %;
! CALL TO MACRO SUBROUTINE
!
MACRO $CALLM(FN)= !CALL MACRO SUBROUTINE
BEGIN !PRESERVES ONLY 10-12
EXTERNAL ROUTINE FN:MACROSUB;
FN(%REMAINING)
END %;
! CALL TO "ROUTINE" THAT DOESNT RETURN
!
! USRRET, OABORT, MAPCODES, MONERR, FOPERR ARE ONLY ONES ???
!
MACRO $EXIT(FN)= !CALL MACRO SUBROUTINE
BEGIN !SAY PRESERVES ALL BECAUSE DOESNT RET
EXTERNAL ROUTINE FN:EXITSUB;
FN(%REMAINING)
END %;
! OLD CALL MACROS -- VESTIGE OF BLISS-10
!
MACRO CALL0 (FN) =
BEGIN
EXTERNAL ROUTINE
FN;
FN()
END %;
MACRO CALL1 (FN,ARG1) =
BEGIN
EXTERNAL ROUTINE
FN;
FN(ARG1)
END %;
MACRO CALL2 (FN,ARG1,ARG2) =
BEGIN
EXTERNAL ROUTINE
FN;
FN(ARG1,ARG2)
END %;
MACRO CALL3 (FN,ARG1,ARG2,ARG3) =
BEGIN
EXTERNAL ROUTINE
FN;
FN(ARG1,ARG2,ARG3)
END %;
MACRO CALL4 (FN,ARG1,ARG2,ARG3,ARG4) =
BEGIN
EXTERNAL ROUTINE
FN;
FN(ARG1,ARG2,ARG3,ARG4)
END %;
MACRO CALL5 (FN,ARG1,ARG2,ARG3,ARG4,ARG5) =
BEGIN
EXTERNAL ROUTINE
FN;
FN(ARG1,ARG2,ARG3,ARG4,ARG5)
END %;
MACRO CALL6 (FN,ARG1,ARG2,ARG3,ARG4,ARG5,ARG6) =
BEGIN
EXTERNAL ROUTINE
FN;
FN(ARG1,ARG2,ARG3,ARG4,ARG5,ARG6)
END %;
MACRO CALL7 (FN,ARG1,ARG2,ARG3,ARG4,ARG5,ARG6,ARG7) =
BEGIN
EXTERNAL ROUTINE
FN;
FN(ARG1,ARG2,ARG3,ARG4,ARG5,ARG6,ARG7)
END %;
! ***** RUNTIME CALL MACROS
MACRO CALLN (FN,LST,CNT) =
LST = (-CNT)^18;
AP=((LST)+1);
FN()
%;
MACRO
CALLADJEOF ( X ) = CALL1 ( ADJEOF, X ) %,
CALLCHECKRP = CALL0 ( CHECKRP ) %,
CALLDCNTRAB = CALL0 ( DCNTRAB ) %,
CALLDELSQR = CALL0 ( DELSQR ) %,
CALLDOEOF = CALL0 ( DOEOF ) %,
CALLDOOPEN = CALL0 ( DOOPEN ) %,
CALLDOGETASCII = CALL0 ( DOGETASCII ) %,
CALLDOGETREL = CALL0 ( DOGETREL ) %,
CALLDOGETSEQ = CALL0 ( DOGETSEQ ) %,
CALLDUMP (A,B) = CALL2 ( DUMP, A, B) %,
CALLFERROR = CALL0 (FERROR) %,
CALLFILEQ ( A,B ) = CALL2 (FILEQ, A, B) %,
CALLFINDASC = CALL0 ( FINDASC ) %,
CALLFINDREL = CALL0 ( FINDREL ) %,
CALLFINDSEQ = CALL0 ( FINDSEQ ) %,
CALLFPROBLEM ( FJFN, TEXTADR, FILEAD) = CALL3 ( FPROBLEM, FJFN,TEXTADR,FILEAD) %,
CALLFSETUP = CALL0 ( FSETUP ) %,
CALLGETASCII ( YESNO )= CALL1 ( GETASCII, YESNO ) %,
CALLGETBUF (A,B,C,D,E,F) = CALL6 (GETBUF,A,B,C,D,E,F) %,
CALLGETREC = CALL0 ( GETREC ) %,
CALLGETLSN = CALL0 ( GETLSN) %,
CALLGETWINDOW ( A , B ) = CALL2 ( GETWINDOW , A , B ) %,
CALLGMEM ( A ) = CALL1 ( GMEM, A ) %,
CALLGPAGE ( A ) = CALL1 ( GPAGE, A ) %,
CALLGTBYTE ( A,B ) = CALL2 ( GTBYTE, A, B ) %,
CALLLOCKIT ( A, B, C, D, E ) = CALL5 ( LOCKIT, A, B, C, D, E ) %,
CALLMAPCODES (A, B, C) = CALL3 ( MAPCODES, A, B, C) %,
CALLMOVEREC ( A,B,C,D,E) = CALL5 ( MOVEREC,A,B,C,D,E) %,
!**** CALLMOVESTRING ( A, B, C, D ) = CALL4 ( MOVESTRING, A, 0, B, 0, C, 0, D )$,
CALLNOSPAN ( A ) = CALL1 ( NOSPAN, A ) %,
CALLNUMBERTORFA ( RRN ) = CALL1 ( NUMBERTORFA, RRN ) %,
CALLOABORT ( A, B ) = CALL2 (OABORT, A, B ) %,
CALLOFILE ( BITS ) = CALL1 ( OFILE, BITS ) %,
CALLPADBUFFER = CALL0 ( PADBUFFER ) %,
CALLPMEM ( A, B) = CALL2 ( PMEM, A, B) %,
CALLPPAGE ( A, B, C) = CALL3 ( PPAGE, A, B, C ) %,
CALLPUTASCII = CALL0 ( PUTASCII ) %,
CALLPUTLSN = CALL0 ( PUTLSN ) %,
CALLPUTREC = CALL0 ( PUTREC ) %,
CALLPUTREL = CALL0 ( PUTREL ) %,
CALLPUTSQR = CALL0 ( PUTSQR ) %,
CALLREADBUFFER = CALL0 ( READBUFFER ) %,
CALLRSETUP ( ACCESS ) = CALL1 ( RSETUP, ACCESS ) %,
CALLSETFST = CALL0 ( SETFST ) %,
CALLSETRST ( EOFBYT ) = CALL1 ( SETRST, EOFBYT ) %,
CALLSETPLOG = CALL0 ( SETPLOG) %,
CALLUPDIDX = CALL0 ( UPDIDX ) %,
CALLUPDSQR = CALL0 ( UPDSQR ) %,
CALLWRITEBUFFER = CALL0 ( WRITEBUFFER ) %,
CALLPUTBUF (B,C,D,E) = CALL4 (PUTBUF,B,C,D,E) %;
%([ ROUTINES USED ONLY IN UNIT-TEST PACKAGES ])%
MACRO CALLOPENFILE ( FILENAME ) = CALL1 ( OPENFILE, FILENAME ) %,
CALLSETUPBLOCKS = CALL0 ( SETUPBLOCKS ) %;
%([
********* END OF CALLS.REQ *************
])%
%([
*****************************************************************
* *
* START OF EXTEND.BLI *
* *
* *
* CONTENTS: *
* *
* 1. MACROS FOR USE IN "EXTEND" INSTRUCTION *
*
*****************************************************************
AUTHOR: S. BLOUNT
])%
%([
*****************************************************************
* VARIOUS FLAG VALUES *
*****************************************************************
])%
LITERAL SFLG = BITN ( 18 ), ! SIGNIFICANCE
ABR = BITN ( 20 ); ! ABORT FLAG
%([
*****************************************************************
* EXTEND OP-CODE VALUES *
*****************************************************************
])%
LITERAL CMPSLE = %O'3', ! COMPARE STRING, SKIP ON LEQ
CVTBDO = %O'12', ! BINARY TO DECIMAL
CVTDBO = %O'10', ! DECIMAL TO BINARY
MOVST = %O'15', ! MOVE STRING TRANSLATED
MOVSO = %O'14', ! MOVE STRING OFFSET
MOVSLJ = %O'16', ! MOVE STRING, LEFT-JUSTIFIED
XBLT = %O'20'; ! EXTENDED BLT
%([
*****************************************************************
* DEFINITIONS FOR AC'S USED IN EXTEND *
*****************************************************************
])%
LITERAL ACFROMSIZE = 0, ! SOURCE SIZE
ACFROMADR = 1, ! SOURCE ADDRESS
ACTOSIZE = 3, ! DEST SIZE
ACTOADR = 4; ! DEST ADDRESS
%([
*****************************************************************
* BINARY-TO-DECIMAL CONVERSION *
*****************************************************************
])%
MACRO XIREGS=
REGISTER
R1 = 5,
R2 = 6,
R3 = 7,
R4 = 8,
R5 = 9 %;
MACRO XIREGS_EA= !For Extended addressing, 2-word BPs
REGISTER
R1 = 5,
R2 = 6,
R3 = 7,
R4 = 8,
R5 = 9,
R6 = 10 %;
MACRO BINARYTODECIMAL ( NUMBR, DEST, SIZE ) =
BEGIN
XIREGS;
BIND EXTENDBLOCK = PLIT ( CVTBDO ^ 27 + CHAR0,
CHAR0,
ZERO ) :VECTOR;
R1 = ZERO; ! CLEAR TOP HALF OF NUMBER
R2 = NUMBR; ! FETCH LOWER HALF OF NUMBER
R4 = SIZE + ( SFLG ^ 18 ); ! SET SIGNIFICANCE
R5 = DEST; ! STRING POINTER
IF EXTEND ( R1, EXTENDBLOCK )
THEN TRUE
ELSE FALSE
END %;
MACRO MOVEASCIIRECORD ( FROMADR, TOADR, FROMSIZE, TOSIZE ) =
BEGIN
XIREGS;
EXTERNAL
TABLE1; ! [**3**] ADD EXTERNAL DECLARATION
LOCAL
VAL,
EXTENDBLOCK: VECTOR[ 3 ];
MAP
EXTENDBLOCK: FORMAT;
EXTENDBLOCK [ 0, WRD ] = ( MOVST ^ 27 ) + TABLE1;
EXTENDBLOCK [ 1, WRD ] = ZERO;
EXTENDBLOCK [ 2, WRD ] = ZERO;
R1 = .FROMSIZE;
R2 = .FROMADR;
R3 = .ZERO;
R4 = .TOSIZE;
R5 = .TOADR;
VAL = EXTEND ( R1, EXTENDBLOCK );
FROMADR = .R2; ! RETURN VALUES
TOADR = .R5;
FROMSIZE = .R1;
TOSIZE = .R4;
.VAL
END %;
MACRO MOVEASCIIRECORD_EA ( FROMADR, TOADR, FROMSIZE, TOSIZE ) =
BEGIN
XIREGS_EA;
EXTERNAL
TABLE1; ! [**3**] ADD EXTERNAL DECLARATION
LOCAL
VAL,
EXTENDBLOCK: VECTOR[ 3 ];
MAP
EXTENDBLOCK: FORMAT;
EXTENDBLOCK [ 0, WRD ] = ( MOVST ^ 27 ) + TABLE1;
EXTENDBLOCK [ 1, WRD ] = ZERO;
EXTENDBLOCK [ 2, WRD ] = ZERO;
R1 = .FROMSIZE;
R2 = .FROMADR[0];
R3 = .FROMADR[1];
R4 = .TOSIZE;
R5 = .TOADR[0];
R6 = .TOADR[1];
VAL = EXTEND ( R1, EXTENDBLOCK );
FROMADR[0] = .R2; ! RETURN VALUES
FROMADR[1] = .R3;
TOADR[0] = .R5;
TOADR[1] = .R6;
FROMSIZE = .R1;
TOSIZE = .R4;
.VAL
END %;
%([
*****************************************************************
* DECIMAL-TO-BINARY CONVERSION *
*****************************************************************
])%
MACRO DECIMALTOBINARY ( SOURCE, ARGSIZE,RESULT ) =
BEGIN
XIREGS;
LOCAL VAL;
BIND EXTENDBLOCK = PLIT ( CVTDBO ^ 27 + ( -CHAR0 AND %O'777777' ),
ZERO,
ZERO ) :VECTOR;
R1 = ARGSIZE;
R2 = SOURCE;
R3 = ZERO;
R4 = ZERO;
R5 = ZERO;
VAL = EXTEND ( R1, EXTENDBLOCK );
RESULT = .R5;
.VAL
END %;
%([
*****************************************************************
* COMPARE STRING INSTRUCTIONS *
*****************************************************************
])%
%([ # OF AC'S TO USE FOR EXTEND INSTRUCTION ])%
LITERAL EXTENDACNUM = 5;
%([ MACRO TO COMPARE TWO STRINGS, SKIP ON LEQ ])%
MACRO CSTRINGLE ( SRCADR, DESTADR, SRCSIZE, DESTSIZE )=
BEGIN
XIREGS;
LOCAL
VAL;
BIND CSBLOCK = PLIT ( CMPSLE ^ 27,
0,
0 ) :VECTOR;
R1 = .SRCSIZE; ! SET UP AC'S
R2 = .SRCADR;
R4 = .DESTSIZE;
R5 = .DESTADR;
VAL = EXTEND ( R1, CSBLOCK );
DESTADR = .R5; ! RETURN ADDR AT WHICH COMPARISON STOPPED
SRCADR = .R2;
.VAL
END %;
%([
*****************************************************************
* MOVE-STRING WITH JUSTIFICATION *
*****************************************************************
])%
LITERAL MOVELEFTACSIZE = 5, ! NUMBER OF AC'S
EXTBLKSIZE = 3; ! SIZE OF EXTEND BLOCK
MACRO MOVELEFT ( FROMADR, TOADR, FROMSIZE, TOSIZE ) =
BEGIN
XIREGS;
LOCAL VAL;
BIND EXTENDBLOCK = PLIT ( MOVSLJ ^ 27,
ZERO,
ZERO );
R1 = .FROMSIZE; ! SOURCE STRING SIZE
R2 = .FROMADR; ! SOURCE POINTER
R4 = .TOSIZE; ! DESTINATION SIZE
R5 = .TOADR; ! DESTINATION PINTER
VAL = EXTEND ( R1, EXTENDBLOCK );
FROMSIZE = .R1; ! RETURN VALUES
FROMADR = .R2;
TOSIZE = .R4;
TOADR = .R5;
.VAL
END %;
MACRO MOVELEFT_EA ( FROMADR, TOADR, FROMSIZE, TOSIZE ) =
BEGIN
XIREGS_EA;
LOCAL VAL;
BIND EXTENDBLOCK = PLIT ( MOVSLJ ^ 27,
ZERO,
ZERO );
R1 = .FROMSIZE; ! SOURCE STRING SIZE
R2 = .FROMADR[0]; ! SOURCE POINTER
R3 = .FROMADR[1];
R4 = .TOSIZE; ! DESTINATION SIZE
R5 = .TOADR[0]; ! DESTINATION PINTER
R6 = .TOADR[1];
VAL = EXTEND ( R1, EXTENDBLOCK );
FROMSIZE = .R1; ! RETURN VALUES
FROMADR[0] = .R2;
FROMADR[1] = .R3;
TOSIZE = .R4;
TOADR[0] = .R5;
TOADR[1] = .R6;
.VAL
END %;
! XCOPY - Copy a block of words, possibly between sections.
! Do not call unless running in a non-zero section.
MACRO XCOPY ( FROMADR, TOADR, SIZE ) =
BEGIN
BIND EXTENDBLOCK = PLIT ( XBLT ^ 27 );
REGISTER
TMPAC1 = 5,
TMPAC2 = 6,
TMPAC3 = 7;
TMPAC1 = SIZE;
TMPAC2 = FROMADR;
TMPAC3 = TOADR;
IF .TMPAC2<LH> IS ZERO
THEN TMPAC2 = .TMPAC2 OR .RMSSEC;
IF .TMPAC3<LH> IS ZERO
THEN TMPAC3 = .TMPAC3 OR .RMSSEC;
EXTEND (TMPAC1, EXTENDBLOCK)
END %;
%([
*****************************************************************
* END OF EXTEND.BLI *
*****************************************************************
])%
%([
********************************************************************
* START OF F/R/X AB.BLI *
* *
* CONTENTS: *
* *
* 1. SUPPORT INFO FOR USER ARG BLKS *
* *
********************************************************************
AUTHOR: S. BLOUNT
])%
%([ MACROS USED TO ACCESS FAB FIELDS ])%
MACRO DEFERREDWRITE = ( .FST [ FSTFOP ] AND FOPDFW ) ISON %;
%([ MACROS USED TO ACCESS RAB FIELDS ])%
%([ MACROS FOR MODES OF REFERENCE ])%
MACRO MOVEMODE = ( .RAB [ RABROP ] AND ROPLOC ) IS OFF %,
LOCATEMODE = ( .RAB [ RABROP ] AND ROPLOC ) ISON %;
%([ MACROS FOR RECORD-OPTIONS ( ROP ) ])%
MACRO APPENDOPTION = ( .RAB [ RABROP ] AND ROPEOF ) %,
READAHEAD = ( .RAB [ RABROP ] AND ROPRAH ) ISON %,
WRITEBEHIND = ( .RAB [ RABROP ] AND ROPWBH ) ISON %;
%( MACROS FOR ADDRESSING-MODES )%
MACRO RECORDACCESS = .RAB [ RABRAC ] %,
SEQADR = .RAB [ RABRAC ] IS RACSEQ %,
KEYADR = .RAB [ RABRAC ] IS RACKEY %,
RFAADR = .RAB [ RABRAC ] IS RACRFA %;
%([
***********************************************************************
* FORMAT OF KEY SEGMENT DESCRIPTORS *
***********************************************************************
])%
%([ STRUCTURE OF EACH KEY SEGMENT DESCRIPTOR ])%
%([ *THE KEY SEGMENT DESCRIPTOR FIELDS ARE NOT NAMED LIKE OTHER
FIELDS IN THE XAB. THIS IS BECAUSE THE KEY SEGMENT
DESCRIPTORS EXIST IN SEVERAL BLOCKS (XAB,IDB,KDB),
AND THEY ARE USUALLY PROCESSED SEPARATELY INSTEAD
OF BEING ACCESSED DIRECTLY FROM THE BLOCK. THUS, THESE
FIELDS HAVE A GENERIC NAME NOT ASSOCIATED WITH ANY
DATA STRUCTURE ])%
MACRO KEYPOS = LH %, ! POSITION
KEYSIZ = RH %; ! KEY SIZE
%([
***********************************************************************
* VALUES FOR KEY XAB FIELDS *
***********************************************************************
])%
%([ BYTE SIZES FOR EACH DATA-TYPE ])%
LITERAL STRINGBYTESIZE = 7, ! STRING
EBCDICBYTESIZE = 9, ! EBCDIC
SIXBITBYTESIZE = 6; ! SIXBIT KEYS
%([ KEY OF REFERENCE SYMBOL VALUES ])%
LITERAL REFPRIMARY = 0; ! PRIMARY KEY
%([ SIZE OF THE KEY-NAME STRING IN WORDS (30 BYTES) ])%
LITERAL KEYNAMESIZE = 7; ! 7 WORDS
%([
***********************************************************************
* STRUCTURE OF DATA-TYPE DESCRIPTOR TABLE *
***********************************************************************
])%
%([ STRUCTURE OF DATA-TYPE DESCRIPTOR TABLE ])%
MACRO DTPBYTESIZE = RH %; ! ONLY ONE FIELD SO FAR
%([**************** END OF -AB.REQ *****************])%
%([
********************************************************
* *
* START OF FILES.REQ *
* *
* CONTENTS: *
* *
* 1. BLOCK-TYPE DEFINITIONS *
* 2. BLOCK FORMAT DEFINITIONS *
* 3. RECORD FORMAT DEFINITIONS *
* *
*********************************************************
AUTHOR: S. BLOUNT
])%
%([ EACH RMS-20 FILE BEGINS WITH A "FILE PROLOGUE BLOCK" WHICH
CONTAINS ALL INFORMATION (SUCH AS FILE ORGANIZATION, RECORD
FORMAT, ETC.) THAT IS COMMON TO ALL TYPES OF RMS-20 FILES.
THIS BLOCK IS CREATED WHEN A $CREATE IS ISSUED, AND IS
READ IN AND PROCESSED WHEN THE FILE IS OPENED.
FOR SEQUENTIAL AND RELATIVE FILES, THIS BLOCK IS THE ONLY
ONE CONTAINED IN THE ENTIRE FILE PROLOGUE (WITH THE EXCEPTION
OF A 1-WORD BLOCK INDICATING THE END OF THE FILE HEADER).
FOR INDEXED AND DIRECT FILES, THERE MAY BE OTHER BLOCKS (SUCH AS THE INDEX
DESCRIPTOR BLOCK, AREA DESCRIPTOR BLOCK, ETC. ). THE
DEFINITIONS OF THESE OTHER BLOCKS ARE CONTAINED IN THE
FILE "XFILES.REQ".
THE GENERAL STRUCTURE OF THE FILE HEADER FOR AN RMS-20
FILE IS AS FOLLOWS:
!=====================================!
! !
! FILE PROLOGUE BLOCK !
! !
! !
!-------------------------------------!
! AREA DESCRIPTORS !
! (INDEXED ONLY) !
!-------------------------------------!
! !
! INDEX DESCRIPTOR #0 !
! (INDEXED ONLY) !
!-------------------------------------!
! !
! INDEX DESCRIPTOR #1 !
! (INDEXED ONLY) !
!-------------------------------------!
! . !
! . !
!-------------------------------------!
! !
! INDEX DESCRIPTOR #N !
! !
!-------------------------------------!
! END BLOCK (NON-INDEXED ONLY) !
!=====================================!
FORMAT OF THE FILE PROLOGUE BLOCK
=================================
!-------------------------------------!
! BID ! BLN !
!-------------------------------------!
! <**> ! RFM ! BSZ ! BKS !ORG !
!-------------------------------------!
! RAT ! MRS !
!-------------------------------------!
! MRN !
!-------------------------------------!
! <UNUSED> ! NEXTBKT !
!-------------------------------------!
! AREAS !ADBOFFSET! KEYS !IDBOFFSET!
!-------------------------------------!
! <RESERVED> !
!-------------------------------------!
! <RESERVED> !
!-------------------------------------!
! <RESERVED> !
!-------------------------------------!
! <RESERVED> !
!-------------------------------------!
! <RESERVED> !
!-------------------------------------!
! <RESERVED> !
!-------------------------------------!
! <RESERVED> !
!-------------------------------------!
FIELDS IN THE FILE PROLOGUE BLOCK
=================================
FIELD FUNCTION
===== ========
BID BLOCK-ID OF THE FILE PROLOGUE BLOCK
BLN LENGTH OF THE FILE PROLOGUE BLOCK
RFM RECORD FORMAT
BSZ BYTE SIZE OF FILE.
BKS DEFAULT BUCKET SIZE FOR INDEXED FILES.
ORG FILE ORGANIZATION.
RAT RECORD ATTRIBUTES
MRS MAXIMUM RECORD SIZE.
MRN MAXIMUM RECORD NUMBER (RELATIVE FILES ONLY).
NEXTBKT NEXT BUCKET AVAILABLE FOR ALLOCATION.
USED ONLY FOR INDEXED FILES, THIS FIELD CONTAINS
THE ABSOLUTE PAGE NUMBER OF THE NEXT BUCKET WHICH
CAN BE ALLOCATED FOR INDEX OR DATA RECORDS.
AREAS NUMBER OF FILE AREAS (INDEXED ONLY).
ADBOFFSET OFFSET INTO PROLOGUE PAGE OF FIRST AREA DESCRIPTOR BLOCK.
KEYS NUMBER OF KEYS DEFINED FOR FILE (INDEXED ONLY).
IDBOFFSET OFFSET INTO PROLOGUE PAGE OF FIRST INDEX DESCRIPTOR BLOCK.
<ALL OTHER FIELDS ARE RESERVED>
])%
%([
****************************************************************
* BLOCK-TYPE DEFINITIONS *
*****************************************************************
])%
%([ BLOCK-TYPE FOR RMS-20 FILE PROLOGUES ])%
LITERAL FPBLOCK = %O'1757', ! FILE PROLOGUE BLOCK
ENDBLOCK= %O'1777', ! END BLOCK
ENDBLOCKSIZE = %O'1'; ! SIZE OF END BLOCK
%([
*****************************************************************
* FILE-PROLOGUE BLOCK STRUCTURE *
*****************************************************************
])%
%([ BLOCK AND PAGE NUMBERS OF FILE PROLOGUE TABLE ])%
LITERAL FPTBLOCKNO = ZERO, ! BLOCK NUMBER OF FPT
FPTPAGENO = ZERO; ! PAGE NUMBER OF FPT
%([ SIZE OF FILE-PROLOGUE BLOCK ])%
LITERAL FPTSIZE = 13; ! BLOCK SIZE
%([ STRUCTURE DEFINITIONS ])%
MACRO !BLOCKTYPE = 0,LH$, ! BLOCK-TYPE
!BLOCKSIZE = 0,RH$, ! BLOCK SIZE
! **BITS 0-12 OF WORD 1 ARE UNUSED**
FPTRFM = 1,18,5 %, ! RECORD FORMAT
FPTBSZ = 1,12,6 %, ! BYTE SIZE
FPTBKS = 1,4,8 %, ! BUCKET SIZE
FPTORG = 1,0,4 %, ! FILE ORGANIZATION
FPTRAT = 2,LH %, ! RECORD ATTRIBUTES
FPTMRS = 2,RH %, ! MAX RECORD SIZE
FPTMRN = 3,WRD %, ! MAS RECORD NUMBER
FPTNXTBKT = 4,RH %, ! NEXT BUCKET (INDEXED FILES)
FPTAREAS = 5,27,9 %, ! # OF FILE AREAS
FPTADB = 5,18,9 %, ! OFFSET TO 1ST AREA DESCRIPTOR
FPTKEYS = 5,9,9 %, ! # OF KEYS
FPTIDB = 5,0,9 %, ! OFFSET TO 1ST INDEX DESCRIPTOR
FPTRS1 = 6,WRD %, ! <RESERVED>
FPTRS2 = 7,WRD %, ! <RESERVED>
FPTRS3 = 8,WRD %, ! <RESERVED>
FPTRS4 = 9,WRD %, ! <RESERVED>
FPTRS5 = 10,WRD %, ! <RESERVED>
FPTRS6 = 11,WRD %, ! <RESERVED>
FPTRS7 = 12,WRD %; ! <RESERVED>
%([
****************************************************************
* RECORD FORMAT DEFINITIONS *
*****************************************************************
])%
%([ FORMAT OF A RECORD HEADER IN A SEQUENTIAL/RELATIVE FILE:
+-------------------------------------+
!FLGS! <UNUSED> ! RECORD SIZE !
+-------------------------------------+
])%
%([ STRUCTURES FOR RECORD HEADER ])%
MACRO RHDRSIZE = 0,RH %, ! BYTE COUNT OF RECORD
RHDRUNDEF = 0,18,16 %; ! THIS FIELD IN CURRENTLY UNDEFINED
%([ FLAG BITS IN THE RECORD HEADER OF SEQUENTIAL/RELATIVE FILES ])%
LITERAL RHDRVALID = BITN ( 0 ), ! VALID BIT
RHDRDELETE= BITN ( 1 ); ! RECORD IS DELETED
%([
****************************************************************
* MISCELLANEOUS DEFINITIONS *
*****************************************************************
])%
LITERAL OFSETMASK = %O'777', ! MASK TO GET OFFSET INTO PAGE
HEADERSIZE = 1, ! DEFAULT HEADER SIZE FOR RECORDS
RMSBYTESIZE = 36, ! BYTE SIZE FOR READING FILE
EOPMARKER = -1, ! MARKER TO DENOTE END-OF-PAGE FOR "BLK" FILES
MAXLSN = 99999, ! MAX LINE-NUMBER FOR LSA FILES
ASCIIBYTESIZE = 7, ! BYTE SIZE FOR ASCII FILES
ASCIIBYTPERWORD = 36 / ASCIIBYTESIZE; ! # OF ASCII BYTES IN EACH WORD
LITERAL CH_IN_P = ASCIIBYTPERWORD * PAGESIZE,
WD_IN_P = PAGESIZE;
%([
*****************************************************************
* STRUCTURE OF RECORD-FILE ADDRESS ( RFA ) *
*****************************************************************
])%
%([ RFA FOR SEQUENTIAL FILES ])%
MACRO RFAPAGE = 0,9,18 %; ! PAGE NUMBER OF FILE PAGE
%([
****************************************************************
* END OF FILES.REQ *
*****************************************************************
])%
%([
******************************************************************
* START OF FST.REQ *
* *
* CONTENTS: *
* *
* 1. STRUCTURES FOR FILE STATUS TABLE *
* *
*******************************************************************
AUTHOR: S. BLOUNT
])%
%([ THE FILE STATUS TABLE (FST) IS THE PRIMARY INTERNAL
RMS-20 DATA STRUCTURE WHICH REPRESENTS ALL INFORMATION
OF IMPORTANCE TO THE CORRECT PROCESSING OF THE FILE.
THE FST CAN BE THOUGHT OF AS BEING THE "INTERNAL FAB".
AN FST IS ALLOCATED WHEN THE FILE IS OPENED AND DE-ALLOCATED
ONLY WHEN THE FILE IS CLOSED. THERE IS ONLY ONE FST PER FILE,
PER PROCESS, REGARDLESS OF HOW MANY RECORD STREAMS MAY BECOME
ACTIVE ON THE FILE.
THE FORMAT OF THE FST IS AS FOLLOWS:
+-------------------------------------+
! BID ! BLN !
!-------------------------------------!
! BLINK ! FLINK !
!-------------------------------------!
! ADB ! JFN !
!-------------------------------------!
! ORG ! SEQBKT !
!-------------------------------------!
! DEVTYPE ! FLAGS !
!-------------------------------------!
! FAC ! SHR ! RFM !
!-------------------------------------!
!MIN!NUMBUFF!BUFF- ! MRS !
!BUF! ! SIZE ! !
!-------------------------------------!
! LOBYTE ! UNUSED !
!-------------------------------------!
! MRN !
!-------------------------------------!
! KDB !KBFSZ! FOP !
!-------------------------------------!
! RAT ! BSZ !
!-------------------------------------!
! DATELASTACC !
!-------------------------------------!
! CREATIME !
!-------------------------------------!
! SIZEOFFILE !
+-------------------------------------+
FIELDS WITHIN THE FILE STATUS TABLE
===================================
FIELD FUNCTION
===== ========
BID BLOCK ID OF AN FST
BLN LENGTH OF AN FST
BLINK BACKWARD LINK TO LAST RST IN CHAIN
FLINK FORWARD LINK TO FIRST RST IN CHAIN
JFN JFN OF FILE
ORG ORGANIZATION OF FILE
DEVTYPE DEVICE TYPE CODE (AS RETURNED BY MONITOR)
FLAGS PROCESSING FLAGS:
FLGTRUNC A $TRUNCATE WAS DONE ON THIS STREAM
FLGFLOCKED FILE IS LOCKED (BY OPEN)
FLGUNDEF FILE IS CURRENTLY IN UNDEFINED STATE (UNUSED)
FLGNEWFILE FILE IS BEING CREATED
FLGILOCKED INDEX SEARCH CAPABILITY IS LOCKED
FLGREO FILE SHOULD BE RE-ORGANIZED
FAC USER'S FAC VALUE
SHR USER'S SHR VALUE
RFM RECORD FORMAT (NOTE 1/2 WORD FOR SPEED)
MINBUF MIN. NUMBER OF BUFFERS REQUIRED FOR FILE
NUMBUFF NUMBER OF BUFFERS WHICH SHOULD BE ALLOCATED
BUFFSIZE SIZE IN PAGES OF EACH BUFFER
MRS MAXIMUM RECORD SIZE
LOBYTE WORD NUMBER OF FIRST DATA WORD IN FILE (WORD AFTER HEADER)
MRN MAXIMUM RECORD NUMBER
KDB ADDRESS OF KEY DESCRIPTOR BLOCK (INDEXED ONLY)
KBFSIZE SIZE IN WORDS OF KEY BUFFER REQUIRED TO HOLD LARGEST KEY
FOP FILE OPTIONS (NOT USED)
RAT RECORD ATTRIBUTES
BSZ BYTE SIZE (NOTE SIZE FOR SPEED)
])%
%([
***********************************************************************
* FILE STATUS TABLE STRUCTURES *
***********************************************************************
])%
%([ NOTE THAT IF THE FST, THERE ARE CERTAIN FIELDS WHICH
ARE SMALLER IN SIZE THAN THE AMOUNT OF STORAGE (# OF BITS)
WHICH ARE USED TO CONTAIN THEM. FOR EXAMPLE, THE BSZ
FIELD IN THE FAB IS 6 BITS WIDE, BUT IS KEPT IN 18
BITS IN THE FST. THIS IS BECAUSE FOR ALL BYTE ACCESSES,
A LDB OPERATION AND A BYTE POINTER WORD ARE NECESSARY
FOR EACH SUCH ACCESS. IF THE SAME DATA IS STORED IN A
HALF-WORD, 1 INSTRUCTION CAN ACCESS IT AND NO BYTE
POINTER IS NECESSARY. THUS, ALL COMMONLY-USED FIELDS
ARE STORED IN HALF-WORDS TO SPEED UP ACCESS. ])%
LITERAL FSTCODE = 3, ! BLOCK-TYPE FOR FST
FSTSIZE = 14; ! LENGTH OF AN FST
MACRO !BLOCKTYPE = 0,LH$, ! BLOCK-TYPE CODE
!BLOCKLENGTH = 0,RH$, ! BLOCK-LENGTH
!BLINK = 1,LH$, ! BACK POINTER TO LAST RST
!FLINK = 1,RH$, ! FORWARD PTR TO NEXT RST
FSTADB = 2,LH %, ! ADDRESS OF FILE'S AREA DESCRIPTOR
FSTJFN = 2,RH %, ! JFN OF FILE
FSTORG = 3,LH %, ! FILE ORGANIZATION
FSTSEQBKT = 3,RH %, ! BKT FILE IS POSIT AT
FSTDEVTYPE = 4,LH %, ! DEVICE-TYPE FLAGS ( FROM DVCHR )
FSTFLAGS = 4,RH %, ! PROCESSING FLAGS
FSTFAC = 5,27,9 %, ! FILE ACCESS
FSTSHR = 5,18,9 %, ! SHARE ACCESS
FSTRFM = 5,RH %, ! RECORD FORMAT
FSTMINBUF = 6,33,3 %, ! MIN. NO. BUFERS TO ALLOCATE
FSTNUMBUF = 6,24,9 %, ! NO. BUFFERS TO TRY TO ALLOCATE
FSTBUFSIZ = 6,18,6 %, ! SIZE OF A BUFFER (IN PAGES)
FSTMRS = 6,RH %, ! MAX RECORD SIZE
FSTLOBYTE = 7,27,9 %, ! FIRST BYTE OF RECORD DATA
!****BITS 0-27 ARE UNUSED
FSTMRN = 8,WRD %, ! MAX RECORD NUMBER
FSTKDB = 9,LH %, ! ADDRESS OF 1ST KEY BLOCK
FSTKBFSIZE = 9,10,8 %, ! SIZE OF KEY BUFFER (IN WORDS)
FSTFOP = 9,0,10 %, ! OPTIONS USED ON OPEN
FSTRAT = 10,LH %, ! RECORD ATTRIBUTES
FSTBSZ = 10,RH %, ! FILE BYTE SIZE
! NON-0 ON 10 ONLY
FSTDLA = 11,WRD %, ! DATE FILE WAS LAST ACCESSED
FSTCT = 12,WRD %, ! TIME OF CREATION OF FILE
FSTSOF = 13,WRD %; ! SIZE OF FILE IN WORDS
MACRO
DATELASTACC = FST [ FSTDLA ] %,
CREATIME = FST [ FSTCT ] %,
SIZEOFFILE = FST [ FSTSOF ] %;
%([ VALUES OF MINBUF FIELD FOR THE FILE ORGANIZATIONS ])%
LITERAL MINBUFASC = 1, ! BUFFERS FOR ASCII FILE ORGANIZATION
MINBUFSEQ = 1, ! BUFFERS FOR SEQUENTIAL FILE ORGANIZATION
MINBUFREL = 1, ! BUFFERS FOR RELATIVE FILE ORGANIZATION
MINBUFIDX = 3; ! BUFFERS FOR INDEXED FILE ORGANIZATION
%([ VALUES OF NUMBUF FIELD FOR THE VARIOUS FILE ORGANIZATIONS ])%
LITERAL NUMBUFASC = 1, ! BUFFERS FOR ASCII FILE ORGANIZATIONS
NUMBUFSEQ = 2, ! BUFFERS FOR SEQUENTIAL FILE ORGANIZATION
NUMBUFREL = 2, ! BUFFERS FOR RELATIVE FILE ORGANIZATION
NUMBUFIDX = 3 %( + MAX NO. LEVELS )%; ! BUFFERS FOR INDEXED FILE ORGANIZATION
%([ VALUES OF BUFSIZ FIELD FOR VARIOUS FILE ORGANIZATIONS ])%
LITERAL DEFBUFSIZ = 1; ! DEFAULT BUFFER SIZE
%([ MACROS FOR ACCESSING FILE ORGANIZATION ])%
MACRO FILEORG = .FST [ FSTORG ] %,
RMSFILE = ( .FST [ FSTORG ] GTR ORGASC ) %, ! THIS IS A RMS-FILE
ASCIIFILE = ( .FST [ FSTORG ] IS ORGASC ) %, ! THIS IS AN ASCII-FILE
SEQFILE = ( .FST [ FSTORG ] IS ORGSEQ ) %,
RELFILE = ( .FST [ FSTORG ] IS ORGREL ) %,
IDXFILE = ( FILEORG IS ORGIDX ) %;
%([ MACROS FOR ACCESSING RECORD FORMATS ])%
MACRO VARIABLERLENGTH = .FST [ FSTRFM ] IS RFMVAR %,
FIXEDLENGTH = ( .FST [ FSTRFM ] IS RFMFIX) %,
STREAM = .FST [ FSTRFM ] IS RFMSTM %, ! ASCII STREAM RECORDS
SEQUENCED = .FST [ FSTRFM ] IS RFMLSA %;
%([ MACROS FOR DETERMINING DEVICE-TYPE ])%
MACRO DASD = ( .FST [ FSTDEVTYPE ] IS DVDSK ) %, ! DISK DEVICE
MTA = ( .FST [ FSTDEVTYPE ] IS DVMTA ) %, ! MAGTAPE
TTY = ( .FST [ FSTDEVTYPE ] IS DVTTY ) %, ! TTY DEVICE
QING = ( .FST [ FSTFLAGS ] AND FLGQING ) %, ! Q'ING IS DONE TO FILE
BLOCKED = ( .FST [ FSTRAT ] AND RATBLK ) ISON %;
%([ MACROS FOR PROCESSING-MODE ])%
MACRO INPUTMODE = ( .FST [ FSTFAC ] AND AXWRT ) IS ZERO %,
OUTPUTMODE = ( .FST [ FSTFAC ] AND AXWRT ) NEQ ZERO %,
IOMODE = ( ( .FST [ FSTFAC ] AND ( AXGET + AXPUT ) ) IS ( AXGET + AXPUT ) ) %,
UPDATEMODE = ( .FST [ FSTFAC ] AND ( AXDEL + AXUPD ) ) ISON %;
%([ MACROS TO ACCESS USER/CONNCURENT ACCESS FIELDS ])%
MACRO FILEACCESS = .FST [ FSTFAC ] %,
SHAREACCESS = .FST [ FSTSHR ] %;
%([ FLAGS USED IN FST FLAG WORD ])%
%([ ***NOTE THAT BIT 35 IS UNUSED*** ])%
LITERAL FLGLOCKING = BITN ( 34 ), ! RECORDS ARE BEING LOCKED
FLGFLOCKED = BITN ( 33 ), ! FILE IS LOCKED
FLGUNDEF = BITN ( 32 ), ! FILE IS IN UNDEFINED STATE
FLGNEWFILE = BITN ( 31 ), ! THIS IS A NEW FILE
FLGILOCKED = BITN ( 29 ), ! INDEX STRUCTURE IS LOCKED
FLGREO = BITN ( 28 ); ! FILE SHOULD BE RE-ORGANIZED
%([ MACROS USED TO ACCESS FST FLAGS ])%
MACRO FILELOCKED = ( .FST [ FSTFLAGS ] AND FLGFLOCKED ) ISON %,
LOCKING = ( .FST [ FSTFLAGS ] AND FLGLOCKING ) ISON %,
NEWFILE = ( .FST [ FSTFLAGS ] AND FLGNEWFILE ) ISON %,
INDEXLOCKED = ( .FST [ FSTFLAGS ] AND FLGILOCKED ) ISON %;
%([**************** END OF FST.REQ *****************])%
%([
******************************************************************
* START OF HEADER.REQ *
* *
* CONTENTS: *
* *
* 1. STRUCTURE OF BLOCK HEADER *
* *
*******************************************************************
AUTHOR: S. BLOUNT
])%
%([ ALL INTERNAL DATA STRUCTURES WITHIN RMS-20 HAVE
BASICALLY THE SAME FORMAT: A FIXED-LENGTH BLOCK
HEADER FOLLOWED BY A VARIABLE-LENGTH AREA WHICH
IS UNIQUE TO EACH BLOCK. THE FIELDS WITHIN THE
THE BLOCK HEADER ARE NAMED IDENTICALLY FOR ALL
BLOCKS. THE FIELDS WHICH ARE SPECIFIC TO EACH
BLOCK ARE NAMED BY A 3-CHARACTER BLOCK NAME CODE
FOLLOWED BY A FIELD-NAME ( E.G., "FABORG" DENOTES
THE ORG FIELD OF THE FAB ).
THE FIELDS WHICH COMPRISE THE FIXED-LENGTH HEADER
ARE ARE FOLLOWS:
BLOCKTYPE CODE WHICH IDENTIFIES THE BLOCK
BLOCKLENGTH SIZE IN WORDS OF BLOCK
BLINK BACKWARDS LINK ( RST AND FST )
FLINK FORWARDS LINK ( RST AND FST )
STATUS USER STATUS CODE ( FAB AND RAB )
STATUSVALUE USER STATUS-VALUE CODE ( FAB AND RAB )
])%
!** [10] Add space fix to macros, JMT, 28-Feb-78
%([10])% MACRO BLOCKTYPE = $$OPS(BID) %, ! BLOCK-TYPE CODE
%([10])% BLOCKLENGTH = $$OPS(BLN) %, ! LENGTH OF BLOCK
%([10])% STATUS = $$OPS(STS) %, ! STATUS CODE
%([10])% STATUSVALUE = $$OPS(STV) %, ! ADDITIONAL STATUS INFO
BLINK = 1,LH %, ! BACK LINK TO LAST BLOCK ON CHAIN
FLINK = 1,RH %; ! FORWARD LINK ON CHAIN
%([ MISCELLANEOUS VALUES AND MACROS FOR THE BLOCK HEADER ])%
MACRO BLOCKHEADER = 0,WRD %; ! THE ENTIRE HEADER WORD
LITERAL BLKTYPELSH = 18; ! SHIFTING CONSTANT FOR BLOCK-TYPE
%([ MACROS TO LINK AND REMOVE A BLOCK (RST) FROM
A CHAIN OF OTHER BLOCKS ])%
MACRO LINK ( NEWBLOCK, OLDBLOCK )=
BEGIN
REGISTER
TEMPADR: POINTER;
TEMPADR = .OLDBLOCK [ BLINK ]; ! GET BACK LINK
OLDBLOCK [ BLINK ] = .NEWBLOCK; ! POINT BACK TO THIS ONE
NEWBLOCK [ FLINK ] = .OLDBLOCK;
TEMPADR [ FLINK ] = .NEWBLOCK; ! POINT TO THIS ONE
NEWBLOCK [ BLINK ] = .TEMPADR
END %;
%([ MACRO TO REMOVE A BLOCK FROM A CHAIN ])%
MACRO DELINK ( THISBLOCK )=
BEGIN
REGISTER
TEMPADR1: POINTER,
TEMPADR2: POINTER;
TEMPADR1 = .THISBLOCK [ BLINK ]; ! GET BACK LINK
TEMPADR2 = .THISBLOCK [ FLINK ]; ! AND FORWARD LINK
TEMPADR1 [ FLINK ] = .TEMPADR2; ! RELINK CHAIN
TEMPADR2 [ BLINK ] = .TEMPADR1
END %;
%([ ********** END OF HEADER.REQ ************* ])%
%([
***********************************************************************
* INSTRUC.REQ *
* *
* 1. MACHOPS AND OTHER MACHINE-LEVEL SYMBOLS *
*************************************************************************
])%
MACRO
Z[] = MACHOP(%O'0', %REMAINING) %,
SUB[] = MACHOP(%O'274', %REMAINING) %,
SKIPE[] = MACHOP(%O'332', %REMAINING) %,
TLC[] = MACHOP(%O'641', %REMAINING) %,
LSH[] = MACHOP(%O'242', %REMAINING) %,
JUMPL[] = MACHOP(%O'321', %REMAINING) %,
CAI[] = MACHOP(%O'300', %REMAINING) %,
JSP[] = MACHOP(%O'265', %REMAINING) %,
Blt[] = Machop(%o'251', %Remaining) %,
Jrst[] = Machop(%o'254', %Remaining) %,
MOVE[] = MACHOP ( %O'200', %REMAINING ) %,
MOVEM[] = MACHOP ( %O'202', %REMAINING ) %,
SOJG [] = MACHOP ( %O'377', %REMAINING ) %,
MOVEI[] = MACHOP(%O'201', %REMAINING) %,
Ldb[] = Machop (%o'135',%remaining ) %,
ILDB[] = MACHOP (%O'134', %REMAINING) %,
IDPB[] = MACHOP (%O'136', %REMAINING) %,
ADJBP[] = MACHOP(%O'133', %REMAINING) %,
HRL[] = MACHOP(%O'504', %REMAINING) %,
AOJ[] = MACHOP(%O'340', %REMAINING) %,
HLRE[] = MACHOP(%O'574', %REMAINING) %,
IDIVI[] = MACHOP(%O'231', %REMAINING) %,
IDIV[] = MACHOP(%O'230', %REMAINING) %,
PUSHJ[] = MACHOP(%O'260', %REMAINING) %,
DMOVE[] = MACHOP(%O'120', %REMAINING) %,
DMOVEM[] = MACHOP(%O'124', %REMAINING) %,
FIXOP[] = MACHOP(%O'122', %REMAINING) %,
SETZB[] = MACHOP(%O'403', %REMAINING) %,
JUMP[] = MACHOP(%O'320', %REMAINING) %,
AOS[] = MACHOP(%O'350', %REMAINING) %,
EXTEND[] = MACHSKIP(%O'123', %REMAINING) %;
%([
******************************************************************
* START OF KDB.REQ *
* *
* CONTENTS: *
* *
* 1. STRUCTURE OF KEY DESCRIPTOR BLOCK *
* *
*******************************************************************
AUTHOR: S. BLOUNT
])%
%([ THIS FILE CONTAINS ALL THE STRUCTURES AND DEFINITIONS
FOR THE KEY DESCRIPTOR BLOCKS USED TO PROCESS AN
INDEXED FILE. THESE BLOCKS (CALLED KDB'S) ARE CREATED
IN FREE CORE WHEN AN INDEXED FILE IS INITIALLY OPENED
OR CREATED. EACH KDB CONTAINS A SUMMARY OF THE INFORMATION
ABOUT THE INDEX CHARACTERISTICS WHICH IS KEPT IN THE
FILE PROLOGUE. SUCH CHARACTERISTICS AS THE KEY-NAME
AND THE FIRST DATA BUCKET NUMBER ARE NOT MAINTAINED
IN CORE BECAUSE THEY ARE SO SELDOM NEEDED. THERE ARE
ALSO SOME FIELDS IN THE KDB ( E.G., DATA RECORD HEADER
SIZE) WHICH ARE COMPUTED DYNAMICALLY WHEN THE KDB IS
INITIALLY CREATED.
THE KDB'S ARE LINKED TOGETHER AND THE FIRST ONE (I.E.
THE KDB FOR THE PRIMARY KEY) IS POINTED TO BY A FIELD
IN THE FILE-STATUS TABLE. THE LINK OF THE LAST KDB IS
NUL TO INDICATE THE END OF THE CHAIN.
THE KDB'S REMAIN IN FREE CORE FOR THE DURATION OF THE
PROCESSING OF THE FILE. THEY ARE FLUSHED ONLY WHEN THE
FILE IS CLOSED.
])%
%([ FORMAT OF THE KEY DESCRIPTOR BLOCK:
===================================
!=====================================!
! BID ! BLN !
!-------------------------------------!
! ROOT ! REF !
!-------------------------------------!
!HSZ! DTP ! IDB-ADDRESS !
!-------------------------------------!
! FLAGS ! NXT (KDB) !
!-------------------------------------!
! IBKZ ! DBKZ ! IAN ! DAN !
!-------------------------------------!
!<**> !KBSZ !LEVELS! MINRSZ !
!-------------------------------------!
! IFLOFFSET ! DFLOFFSET !
!-------------------------------------!
! KSZ ! KSZW !
!-------------------------------------!
! POS0 ! SIZ0 !
!-------------------------------------!
! . !
! . !
!-------------------------------------!
! POS7 ! SIZ7 !
!=====================================!
])%
%([
FIELDS IN KEY DESCRIPTOR BLOCK
==============================
FIELDS FUNCTION
====== ========
BID BLOCK ID OF KDB
BLN LENGTH OF KDB
ROOT ROOT BUCKET
REF KEY OF REFERENCE
HSZ SIZE OF HEADER (VAR=3,FIX=2,SIDR=2)
DTP DATA-TYPE
IDBADDR WORD ADDRESS OF IDB IN FILE
FLAGS PROCESSING FLAGS
FLGNOINDEX NO INDEX EXISTS FOR THIS KEY
FLGDIDCHANGE THIS KEY DID CHANGE ON THIS $UPDATE
<ALL XAB FLAGS>
NXT ADDRESS OF NEXT KDB
IBKZ INDEX BUCKET SIZE
DBKZ DATA BUCKET SIZE
IAN INDEX AREA NUMBER (NOT USED)
DAN DATA AREA NUMBER (NOT USED)
KBSZ BYTE SIZE OF KEY
LEVELS NUMBER OF LEVELS IN INDEX
MINRSZ MIN RECORD SIZE TO ENCLOSE THIS KEY
IFLOFFSET INDEX FILL OFFSET
DFLOFFSET DATA FILL OFFSET
KSZ SIZE OF KEY IN BYTES
KSZW SIZE OF KEY IN WORDS (NOTE SIZE FOR SPEED)
POS0,SIZ0 KEY SEGMENTS DESCRIPTORS
.
.
.
])%
%([
***********************************************************************
* STRUCTURE OF KEY DESCRIPTOR BLOCK *
***********************************************************************
])%
%([ SIZE VALUES FOR THE KDB'S ])%
LITERAL KDBCODE = 6, ! BLOCK-TYPE CODE FOR KDB
KDBSIZE = 8 + MAXKEYSEGS; ! FIXED PART + KEY SEGMENTS
MACRO !BLOCKLENGTH = 0,LH$, ! KDB BLOCK-TYPE
!BLOCKLENGTH = 0,RH$, ! SIZE OF THE KDB
KDBROOT = 1,LH %, ! ROOT BUCKET NUMBER
KDBREF = 1,RH %, ! KEY OF REFERENCE
KDBHSZ = 2,33,3 %, ! SIZE OF HEADER
KDBDTP = 2,27,6 %, ! DATA-TYPE OF KEY
KDBIDBADDR = 2,0,27 %, ! DISK ADDRESS OF RELEATED IDB
KDBFLAGS = 3,LH %, ! FLAGS (FROM XAB)
KDBNXT = 3,RH %, ! LINK TO NEXT KDB
KDBIBKZ = 4,27,9 %, ! INDEX BUCKET SIZE
KDBDBKZ = 4,18,9 %, ! DATA BUCKET SIZE
KDBIAN = 4,9,9 %, ! INDEX AREA NUMBER (FROM XAB)
KDBDAN = 4,0,9 %, ! DATA AREA NUMBER (FROM XAB)
! **BITS 0-5 OF WORD 5 ARE UNUSED**
KDBKBSZ = 5,24,6 %, ! BYTE SIZE OF KEY
KDBLEVELS = 5,18,6 %, ! # OF LEVELS IN INDEX
KDBMINRSZ = 5,RH %, ! MIN RSZ TO INCLUDE THIS KEY
KDBIFLOFFSET = 6,LH %, ! OFFSET FOR IFL
KDBDFLOFFSET = 6,RH %, ! OFFSET FOR DFL
KDBKSZ = 7,LH %, ! TOTAL SIZE OF KEY (BYTES)
KDBKSZW = 7,RH %; ! SIZE OF KEY IN WORDS
%([ FOLLOWING THESE FIXED FIELDS COMES THE LIST OF KEY SEGMENT
DESCRIPTORS. THE FORMAT OF THESE IS THE SAME AS DEFINED IN
THE XAB. THEREFORE, SEE "XAB.REQ" FOR THEIR STRUCTURE ])%
LITERAL KDBKSDOFFSET = KDBSIZE-MAXKEYSEGS; ! OFFSET TO KEY SEGMENTS
%([ FLAG BITS DEFINED IN THE KDB ])%
%([ *NOTE* THE FLAG FIELD CONTAINS BOTH XAB FLAGS AND
TEMPORARY PROCESSING FLAGS. THUS, THE DEFINITIONS OF
THE FLAG BITS SHOULD BE SYNCHRONIZED. THAT IS, WHEN NEW
PROCESSING FLAGS ARE ADDED, THEY SHOULD BE DEFINED
FROM THE LEFT-MOST AVAILABLE BIT IN THE FIELD. USER
FLAGS SHOULD BE DEFINED FROM THE RIGHT-MOST AVAILABLE
BIT IN THE WORD ])%
LITERAL FLGNOINDEX = BITN ( 18 ), ! START FLAGS FROM LEFT
FLGDIDCHANGE = BITN ( 19 ); ! KEY CHANGED DURING UPDATE
%([ MACROS USED TO ACCESS KDB FLAGS ])%
MACRO NOINDEXFLAG = ( .KDB [ KDBFLAGS ] AND FLGNOINDEX ) %,
DUPLICATES = ( CHKFLAG ( KDB [ KDBFLAGS ], FLGDUP ) ISON ) %,
NODUPLICATES = NOT DUPLICATES %;
%([ MACROS USED TO ACCESS THE KEY-OF-REFERENCE FIELD ])%
MACRO PRIMARYKEY = (.KDB [ KDBREF ] IS REFPRIMARY ) %,
SECONDARYKEY = ( NOT PRIMARYKEY ) %;
%([
***********************************************************************
* END OF KDB.REQ *
***********************************************************************
])%
%([
******************************************************************
* START OF LOCKS.REQ *
* *
* CONTENTS: *
* *
* 1. ENQ/DEQ SYMBOLS *
* 2. QUEUEING STRUCTURES FOR ENQ/DEQ *
* 3. MACROS FOR LOCKING RECORDS, BUCKETS, ETC. *
* *
*******************************************************************
AUTHOR: S. BLOUNT
])%
%([ THERE ARE SEVERAL DIFFERENT TYPES OF LOGICAL RESOURCES
WHICH ARE LOCKED BY RMS-20 DURING THE COURSE OF ITS
PROCESSING. THE FOLLOWING TYPES OF LOCKS ARE DEFINED
WITHIN RMS-20:
1. FILE LOCKS WHEN THE FILE IS OPENED.
2. RECORD LOCKS FOR SEQUENTIAL OR RELATIVE FILES
3. BUCKET LOCKS FOR INDEXED FILES.
4. CAPABILITY LOCKS FOR INDEXED FILES.
ALL OF THESE LOGICAL RESOURCES CONFORM TO THE SAME FORMAT
OF LOCK NAMES. THIS MECHANISM INSURES THAT RESOURCE NAMES
DO NOT CONFLICT (E.G., A RECORD LOCK DOES NOT HAVE THE SAME
FORMAT AS A FILE LOCK, ETC. ). EACH RESOURCE NAME IS IN
THE FOLLOWING FORMAT:
!-------------------------------------!
! 5 !LOCK ! LOCK !
! !TYPE ! IDENTIFIER !
!-------------------------------------!
THE "5" IS REQUIRED BY ENQ/DEQ. THE LOCK-TYPE IS 3 BITS
AND REPRESENTS THE GENERIC TYPE (FILE, RECORD, BUCKET, CAPABILITY)
OF THIS LOCK. THE "LOCK IDENTIFIER" IS THE ACTUAL RESOURCE
NAME (E.G, RECORD ID, BUCKET NUMBER, ETC. ). CARE MUST BE
USED IN THE CHOICE OF BOTH LOCK TYPE-CODES AND IDENTIFIERS
TO INSURE THAT A FUTURE CONFLICT DOES NOT ARISE.
])%
%([
***********************************************************************
* INTERNAL RMS-20 QUEUEING STRUCTURES *
***********************************************************************
])%
%([ ***NOTE THAT IF A NEW BIT IS ADDED TO THIS LIST,
ALL FLAG DEFINITIONS MUST BE SHIFTED LEFT 1 BIT,
(E.G., #4 BECOMES #10, ETC...) ])%
LITERAL ENQCALL = 1, !FLAG TO CONTROL ENQ OR DEQ
DEQCALL = 0;
%(ENQ JSYS)%
LITERAL ENQBLK = 0, ! BLOCK FOR RESOURCE
ENQAA = 1, ! ALLOCATE IF AVAILABLE
ENAPSI = 2; ! WAIT FOR PSI
%(DEQ JSYS)%
LITERAL DEQDR = 0,
DEQDA = 1, ! DEQ ALL RESOURCES
DEQID = 2; ! DEQ BY REQUEST ID
LITERAL ENQSHR = %O'10', ! SHARABLE RESOURCE
ENQEXC = %O'0', ! EXCLUSIVE ACCESS RESOURCE
ENQBLN = %O'4', ! BYPASS LEVEL NUMBERS
ENQNST = %O'2', ! ALLOW NESTING (NOT USED)
ENQLTL = %O'1'; ! LONG TERM LOCK
%(STRUCTURE OF ENQ/DEQ PARAMETER BLOCK)%
LITERAL QBLKNTRYSZ = 3, ! SIZE OF AN ENQ ENTRY
QBLKHDRSZ = 2; ! SIZE OF HEADER IN ENQ BLOCK
MACRO QHDRCOUNT = 0,LH %, ! COUNT OF LOCKS
QHDRLENGTH = 0,RH %, ! LENGTH OF RESOURCE BLOCK
QHDRPSI = 1,LH %, ! PSI CHANNEL
QHDRID = 1,RH %, ! REQUEST ID
QBLKFLAGS = 0,32,4 %, ! FLAGS IN LOCK BLOCK
QBLKLEVEL = 0,18,15 %, ! LEVEL NUMBER
QBLKJFN = 0,RH %, ! JFN
QBLKCODE = 1,WRD %, ! USER CODE
QBLKPOOL = 2,LH %, ! POOLED COUNT
QBLKGROUP = 2,RH %, ! SHARER'S GROUP
QBLKWORD3 = 2,WRD %; ! ENTIRE 3RD WORD OF BLOCK
%([ STRUCTURE OF ENQ/DEQ BLOCK FOR Q'ING FILES ])%
LITERAL NUMFLOCKS = 6, ! NUMBER OF LOCKS FOR FILE
QBLKLENGTH = NUMFLOCKS * QBLKNTRYSZ + QBLKHDRSZ;
%([ STRUCTURE OF USER-ID CODE FOR FILE LOCKS ])%
LITERAL RMSQCODE = %O'500000000000'; ! 1ST DIGIT IS 5 IN FILE LOCKS
%([ LOCK-TYPE CODES ])%
LITERAL LTYPEREC = 0, ! THIS IS A RECORD ID
LTYPEFILE = 1, ! THIS IS A FILE LOCK
LTYPECAP = 2, ! THIS IS A CAPABILITY LOCK
LTYPEBKT = 3; ! THIS IS A BUCKET LOCK
%([ STRUCTURE MACROS FOR USER-ID CODE ])%
MACRO QBLKLTYPE = 1,30,3 %, ! LOCK-TYPE CODE
QBLKLID = 1,RH %; ! PLACE FOR ID CODE
%([ CAPABILITIES ])%
LITERAL CAPINDEX = 1; ! CAPABILITY OF TRAVERSING THE INDEX
%([
***********************************************************************
* MACROS FOR LOCKING AND UNLOCKING FILE RECORDS *
***********************************************************************
])%
%([ MACRO TO UNLOCK A SINGLE RECORD IN A SEQUENTIAL/RELATIVE FILE.
NOTE THAT THIS MACRO AUTOMATICALLY SETS THE "DATALOCKED"
BIT IN THE RST AFTER THE RECORD HAS BEEN LOCKED. ])%
MACRO UNLOCK ( RECORDID ) =
BEGIN
LOCAL
TEMP;
IF ( TEMP = .RECORDID ) ISNT ZERO ! IF THERE IS A CURRENTLY LOCKED RECORD
THEN
BEGIN ! TO UNLOCK RECORD
IF CALLLOCKIT ( PCI ( DEQCALL ), %(DEQ)%
PCI ( DEQDR ), %(FUNCTION)%
LCI ( TEMP ), %(RECORD ID)%
PCI ( ZERO ), %(ACCESS)%
PCI ( LTYPEREC ) ) %(LOCK TYPE)%
IS FALSE THEN
BEGIN
FILEPROBLEM ( FE$UNL );
USEXITERR
END;
RST [ RSTFLAGS ] = .RST [ RSTFLAGS ] AND ( NOT FLGDLOCK );
END
END %, %( OF UNLOCK MACRO )%
%([ MACRO TO LOCK A SINGLE RECORD ])%
LOCKREC ( RECORDID ) = ! LOCK A RECORD
BEGIN
LOCAL
TEMP,
TEMP2;
IF INPUTMODE ! SET ACCESS
THEN TEMP2 = ENQSHR ! SHARABLE
ELSE TEMP2 = ENQEXC; ! EXCLUSIVE
IF CALLLOCKIT ( PCI ( ENQCALL ), %(ENQCALL)%
PCI ( ENQAA ), %(FUNCTION)%
LCI ( RECORDID ), %(RECORD ID)%
LCI ( TEMP2 ), %(ACCESS)%
PCI ( LTYPEREC ) )
IS FALSE THEN ERROR ( ER$RLK );
SETFLAG ( RST [ RSTFLAGS ] , FLGDLOCK ); ! REMEMBER ITS LOCKED
END %; %( OF LOCK MACRO )%
%([
***********************************************************************
* MACROS FOR LOCKING AND UNLOCKING THE INDEX *
***********************************************************************
])%
%([ THESE MACROS ARE USED TO LOCK/UNLOCK THE INDEX STRUCTURE OF AN
INDEXED FILE. WHENEVER THE INDEX IS TO BE TRAVERSED, OR ANY DATA MOVED WITH
THE FILE, THE INDEX STRUCTURE MUST BE LOCKED FOR
THE DURATION OF THE OPERATION. ])%
MACRO LOCKINDEX ( FUNC, ACC )=
BEGIN
LOCAL
XF,
XA; ! SOME LOCALS TO HOLD ARGS
XF = FUNC; ! PICK UP ARGUMENTS
XA = ACC + ENQLTL; ! GET ACCESS AND SET "LONG-TERM LOCK"
If CALLLOCKIT ( %(ENQCALL)% PCI ( ENQCALL ),
%(FUNC)% LCI ( XF ),
%(ID)% PCI ( CAPINDEX ),
%(ACCES)% LCI ( XA ),
%(CAP)% PCI ( LTYPECAP ))
ISNT FALSE THEN
BEGIN %(SET THE FST FLAG BIT TO DENOTE INDEX IS LOCKED)%
SETFLAG ( FST [ FSTFLAGS ], FLGILOCKED );
TRUE ! VALUE TRUE
END ELSE
FALSE !VALUE FALSE
END %;
%([ MACRO TO UNLOCK THE INDEX STRUCTURE OF AN INDEXED FILE ])%
MACRO UNLOCKINDEX =
BEGIN
CLRFLAG ( FST [ FSTFLAGS ], FLGILOCKED ); ! CLEAR FLAG BIT
CALLLOCKIT ( %(DEQCALL)% PCI ( DEQCALL ),
%(FUNC)% PCI ( DEQDR ),
%(ID)% PCI ( CAPINDEX ),
%(ACC)% PCI ( ZERO ),
%(CAP)% PCI ( LTYPECAP ))
END %;
%([
***********************************************************************
* MACROS FOR LOCKING AND UNLOCKING BUCKETS *
***********************************************************************
])%
%([ MACRO TO LOCK A SINGLE BUCKET (I.E., A FILE PAGE NUMBER ) ])%
MACRO LOCKBUCKET ( ACC, PNUM )=
BEGIN
LOCAL
XACC,
XPNUM; ! DEFINE LOCALS TO PASS ARGS IN
XACC = ACC; ! GET ARGS IN LOCALS
XPNUM = PNUM;
CALLLOCKIT ( %(ENQCALL)% PCI ( ENQCALL ),
%(FUNC)% PCI ( ENQAA ),
%(ID)% LCI ( XPNUM ),
%(ACC)% LCI ( XACC ),
%(TYPE)% PCI ( LTYPEBKT ) )
END %;
%([ MACRO TO UNLOCK A FILE BUCKET FOR INDEXED FILES ])%
MACRO UNLOCKBUCKET ( PNUM )=
BEGIN
LOCAL
XPNUM;
XPNUM = PNUM;
CALLLOCKIT ( %(DEQCALL)% PCI ( DEQCALL ),
%(FUNC)% PCI ( DEQDR ),
%(ID)% LCI ( XPNUM ),
%(ACC)% PCI ( ZERO ),
%(TYPE)% PCI ( LTYPEBKT ) )
END %;
%([
***********************************************************************
* MACROS FOR LOCKING AND UNLOCKING BUCKET DESCRIPTORS *
***********************************************************************
])%
%([ MACRO TO LOCK A BUCKET DESCRIPTOR. THIS MACRO WILL
LOCK THE BUCKET INDICATED BY THE BUCKET DESCRIPTOR,
AND IF SUCCESSFUL, IT WILL SET THE BIT IN THE
DESCRIPTOR WHICH INDICATES THAT THE BUCKET IS LOCKED. ])%
MACRO LOCKBD ( BD, FUNC, ACC )=
BEGIN
LOCAL
BNUM,
LOCALFUNC,
LOCALACC;
BNUM = .BD [ BKDBKTNO ]; ! GET BUCKET NUMBER
LOCALFUNC = FUNC;
LOCALACC = ACC;
IF CALLLOCKIT ( %(ENQCALL)% PCI ( ENQCALL ),
%(FUNC)% LCI ( LOCALFUNC ),
%(ID)% LCI ( BNUM ),
%(ACC)% LCI ( LOCALACC ),
%(BKT)% PCI ( LTYPEBKT ))
ISNT FALSE THEN
BEGIN %(REMEMBER THAT THE BUCKET IS LOCKED)%
SETBKTLOCKED ( BD );
TRUE ! RETURN VALUE TRUE
END ELSE
FALSE
END %;
%([****************** END OF LOCKS.REQ REQUIRE FILE**************])%
%([****************************************************************])%
%([
*****************************************************************
* START OF OS.REQ *
* CONTENTS: *
* 1. JSYS & UUO STUFF FOR WHICH RMS USES COMMON SYMS *
* (EXCEPT ENQ/DEQ -- SEE LOCKS) *
* 2. MISCEL MONITOR DEPENDENT STUFF *
*****************************************************************
])%
! MACRO TO PUT SHORT OS DEP CODE SEQS IN A PROG
!
MACRO IF$10(CODE$) = %IF TOPS10 %THEN CODE$ %FI %;
MACRO IF$20(CODE$) = %IF TOPS20 %THEN CODE$ %FI %;
%([
***********************************************************************
* TOPS-20/RMS-20 ERROR CODE MAPPING DEFINITIONS *
***********************************************************************
])%
%([ FIELD DEFINITION MACROS FOR EACH ENTRY IN ERROR MAP TABLE ])%
LITERAL SIZEOFEMTENTRY = 1; ! EACH ENTRY IS TWO WORDS
MACRO EMTSYSCODE = RH %, ! SYSTEM CODE
EMTRMSCODE = LH %; ! RMS-20 CODE
%([ MACRO TO PERFORM MAPPING (CALLS ROUTINE TO DO MAPPING) ])%
MACRO MAPSYSTEMCODE ( DEFCODE, TABNAM )=
BEGIN
$EXIT (MAPCODES,%(SYS CODE)% LCI ( AC1 ),
%(DEF CODE)% PCI ( DEFCODE ),
%(TABLE)% LCT ( TABNAM ));
END %;
! MAP MONITOR STATUS CODES TO RMS STATUS CODES (BUILD MAPPING TABLE)
!
! BIND table-name = UPLIT(
! 1 or more OSERRMAPs
! OPSERRMEND;
!
MACRO OSERRMAP(RMERR$)[OSERR$] = RMERR$^18 OR OSERR$ %;
MACRO OSERRMEND=0) %;
%([
***********************************************************************
* COMMON JSYS/UUO SYMBOL DEFINITIONS *
***********************************************************************
])%
LITERAL OPFBSZLSH=30; !??? FOR NOW
%(FILE DATES)%
LITERAL
DATES_BLKSIZ=4, !SIZE OF BLK RET BY DATOFILE
DT_WRI=0, !OFFSET WHERE LAST WRIT DATE IS
DT_CRE=1; !OFFSET CREATE DATE
%(DEVCHR JSYS BITS )%
LITERAL DVOUT = BITN (0), ! DVICE CAN DO OUTPUT
DVIN = BITN (1), ! INPUT
DVDIR = BITN (2), ! DIRECTORY DEVICE (DASD)
DEVASN = BITN (3); ! ASSIGNABLE
MACRO DEVTYPE = 0,18,9 %; ! DEVICE-TYPE FIELD
LITERAL DVDSK = 0, ! DEVICE-TYPE CODES...
DVMTA = 2, ! MAGTAPE
DVLPT = 7, ! LPT
DVCDR = %O'10', ! CARD-READER
DVTTY = %O'12'; ! TERMINAL
%(GTFDB JSYS OFFSETS)%
LITERAL FDBCTL = 1, ! CONTROL BITS
FDBBYV = %O'11', ! BYTE SIZE
FDBSIZ = %O'12'; ! EOF BYTE NUMBER
%([ BIT DEFINITIONS FOR GTFDB JSYS ])%
LITERAL FDBNXF = BITN ( 4 ); ! NON-EXISTENT FILE
%([ FILE CLASS DEFINITIONS ])%
MACRO FDBCLS = 0,18,4 %; ! FIELD WHICH DEFINES FILE CLASS
LITERAL FDBCLSMASK = %O'17000000'; ! MASK FOR FILE CLASS FIELD
LITERAL CLSASC = 0, ! ASCII FILE
CLSRMS = 1; ! RMS-20 FILE
%([ SYMBOLS FOR THE FBBYV FIELD AND THE BSZ PORTION OF IT ])%
LITERAL FDBBSZMASK = %O'7700000000', ! MASK FOR BSZ FIELD
FDBBSZLSH = 24; ! LSH FOR BSZ FIELD
%([
******************************************************************
* START OF RDP.REQ *
* *
* CONTENTS: *
* *
* 1. STRUCTURE OF THE RECORD DESCRIPTOR PACKET *
* *
*******************************************************************
AUTHOR: S. BLOUNT
])%
%([
THIS FILE CONTAINS THE STRUCTURE AND ACCESS MACROS USED
FOR THE RECORD DESCRIPTOR PACKET. THIS PACKET (CALLED
THE "RECORD DESCRIPTOR" OR "RD" FOR SHORT) IS USED ONLY
DURING PROCESSING OF INDEXED FILES IN RMS-20. IT IS PASSED
BETWEEN ROUTINES AND CONTAINS TEMPORARY RESULTS WHICH
ARE REQUIRED BY OTHER ROUTINES. NOTE THAT THE RECORD DESCRIPTOR
DOESN'T ACTUALL "EXIST" ANYWHERE, IT IS ALLOCATED FROM LOCAL
STORAGE WHEN NEEDED, AND IS DEALLOCATED WHEN THE INVOKING
ROUTINE IS LEFT.
FORMAT OF THE RECORD DESCRIPTOR
===============================
!=====================================!
! FLAGS ! STATUS !
!-------------------------------------!
! USERSIZE ! COUNT !
!-------------------------------------!
! LASTLEVEL ! LEVEL !
!-------------------------------------!
! USERPTR !
!-------------------------------------!
! LASTRECPTR !
!-------------------------------------!
! RECPTR !
!-------------------------------------!
! RFA !
!-------------------------------------!
! RRV !
!-------------------------------------!
! LENGTH ! SIDRELEMENT !
!=====================================!
FIELDS WITHIN THE RECORD DESCRIPTOR
===================================
FIELD FUNCTION
----- --------
FLAGS PROCESSING FLAGS USED AS INPUT TO EACH ROUTINE
FLGHORIZOK "HORIZONTAL SEARCH IS OK".
THIS FLAG IS SET ON $FIND/$GET AND CLEARED
ON A $PUT OPERATION. IT INDICATES THAT WHEN
A HORIZONTAL SEARCH MUST BE DONE (IN THE
CASE OF A SYSTEM CRASH DURING AN INDEX UPDATE,
FOR EXAMPLE), THE SEARCH SHOULD CONTINUE
AT THE TOP OF THE NEXT BUCKET. IF THIS FLAG
IS NOT SET, THEN THE SEARCH ALGORITHM WILL
POSITION BACK TO THE END OF THE CURRENT
BUCKET IF THE SEARCH KEY IS LESS THAN THE FIRST
RECORD IN THE NEW BUCKET.
FLGRETEX FLAG SET BY RMSUTL. TELLS CHKDUP TO
RETURN IF CALLER'S RRV IS IN SIDR ARRAY.
WHEN OFF, CHKDUP 0'S SUCH ENTRIES.
STATUS STATUS FLAGS USED AS OUTPUT FROM EACH ROUTINE
FLGIDXUPDATE AN INDEX UPDATE IS REQUIRED
FLGDUP A DUPLICATE KEY WAS SEEN
FLGEMPTY CURRENT BUCKET IS EMPTY
FLGLSS CURRENT SEARCH KEY IS LSS TARGET KEY
FLGDELETE CURRENT RECORD IS DELETED
FLGIDXERROR AN INDEX ERROR WAS DETECTED
FLGNOHIKEY THERE IS NO NEW HI-KEY FOR A BUCKET
DURING A SPLIT (CAUSED BY BUCKET FILLED
WITH RRV'S ETC. )
USERSIZE SIZE OF USER SEARCH KEY IN BYTES
COUNT MISCELLANEOUS COUNTER VALUES.
USED BY SPLIT TO DENOTE THE NUMBER OF BUCKETS
WHICH WERE REQUIRED FOR THE SPLIT.
LASTLEVEL THE LEVEL AT WHICH A SEARCH TERMINATED
LEVEL THE LEVEL AT WHICH THE SEARCH SHOULD TERMINATE (INPUT)
USERPTR ADDRESS OF USER SEARCH KEY
LASTRECPTR ADDRESS OF RECORD BEFORE THE ONE WHICH TERMINATED
THE CURRENT SEARCH.
RECPTR ADDRESS OF CURRENT RECORD IN BUCKET
RFA ADDRESS (RFA FORMAT) OF TARGET RECORD.
RRV ADDRESS (RRV FORMAT) OF CURRENT RECORD
LENGTH MISCELLANEOUS LENGTH VALUES.
SIDRELEMENT OFFSET INTO CURRENT SIDR ARRAY OF THE TARGET
RECORD POINTER (1 MEANS FIRST POINTER, ETC. ).
THIS FIELD IS SAME IN MEANING AS RSTSIDRELEMENT,
BUT IS PASSED IN THE RDP BECAUSE THE RST IS NOT
UPDATED ON EVERY OPERATION.
RPSIDR TENTATIVE SIDRELEMENT AFTER $FIND
])%
%([
*****************************************************************
* RECORD DESCRIPTOR PACKET DEFINITIONS *
*****************************************************************
])%
%([ THE RECORD DESCRIPTOR PACKET IS A LOCAL ARGUMENT
BLOCK WHICH IS USED TO PASS A SERIES OF ARGUMENTS
BETWEEN ROUTINES FOR PROCESSING INDEXED FILES. THESE
PARAMETERS ARE NOT PLACED IN THE RST TO CONSERVE SPACE
AND BECAUSE THE CONTENTS OF THE PACKET MAY NOT BE
INVARIENT ACROSS ROUTINE CALLS. ])%
%IF INDX %THEN
LITERAL RDSIZE = 9; ! SIZE OF IT
MACRO RDFLAGS = 0,LH %, ! PROCESSING FLAGS
RDSTATUS = 0,RH %, ! STATUS
RDUSERSIZE = 1,LH %, ! SIZE OF RECORD/KEY
RDCOUNT = 1,RH %, ! COUNT FIELD
RDLASTLEVEL = 2,LH %, ! LAST LEVEL PROCESSED
RDLEVEL = 2,RH %, ! INPUT LEVEL NUMBER
RDUSERPTR = 3,WRD %, ! ADDR OF USER RECORD/KEY
RDLASTRECPTR = 4,WRD %, ! LAST RECORD IN BKT
RDRECPTR = 5,WRD %, ! ADDRESS OF RMS RECORD
RDRFA = 6,WRD %, ! RECORD RFA
RDRRV = 7,WRD %, ! RECORD RRV ADDRESS
RDLENGTH = 8,LH %, ! LENGTH OF RECORD TO INSERT
RDSIDRELEMENT = 8,RH %; ! OFFSET OF CURRENT RECORD POINTER
%([
***********************************************************************
* RECORD DESCRIPTOR FLAGS AND MACROS TO USE THEM *
***********************************************************************
])%
%([ RECORD DESCRIPTOR FLAG BIT DEFINITIONS ])%
LITERAL RDFLGSSK = BITN ( 35 ), ! SEGMENTED SEARCH KEY
RDFLGRETEX = BITN ( 34 ), !TELLS CHKDUP TO RET IMMED
RDFLGHORIZOK = BITN ( 33 ); ! A HORIZONTAL SEARCH IS OK
! RETRY IF BUSY
%([ RECORD DESCRIPTOR STATUS BIT DEFINITIONS ])%
LITERAL RDFLGIDXUPDATE = BITN ( 35 ), ! INDEX UPDATE REQUIRED
RDFLGDUP = BITN ( 34 ): , ! KEY ALR IN BKT (SEE FLGSAME)
RDFLGEMPTY = BITN ( 33 ): , ! BUCKET IS EMPTY
RDFLGPST = BITN ( 32 ): , ! SEARCH WENT PAST LAST RECORD IN BKT
RDFLGLSS = BITN ( 31 ): , ! SEARCH KEY IS LESS
RDFLGDELETE = BITN ( 30 ): , ! RECORD IS DELETED
RDFLGIDXERROR = BITN ( 29 ): , ! INDEX UPDATE ERROR OCCURED
RDFLGNOHIKEY = BITN ( 28 ): , ! NO HI-KEY IN OLD BKT (FOR SPLIT)
RDFLGNEWINNEW = BITN ( 27 ) , ! SEQ ACC, 2-WAY SPLIT & R-NEW IN NEW BUCKET
RDFLGSAME = BITN ( 26 ) ; ! OTHER EXISTING REC HAS A KEY SAME AS A KEY OF NEW REC
%([ MACRO WHICH REFER TO THESE FLAGS AND STATUS BITS ])%
MACRO SSKFLAG ( RDPTR )= ( .RDPTR [ RDFLAGS ] AND RDFLGSSK ) %,
RETRYFLAG ( RDPTR ) = ( .RDPTR [ RDFLAGS ] AND RDFLGRETRY ) %,
HORIZOKFLAG ( RDPTR ) = ( .RDPTR [ RDFLAGS ] AND RDFLGHORIZOK ) %,
EMPTYFLAG ( RDPTR ) = ( .RDPTR [ RDSTATUS ] AND RDFLGEMPTY ) %,
IDXERRORFLAG ( RDPTR ) = ( .RDPTR [ RDSTATUS ] AND RDFLGIDXERROR ) %,
IDXUPDATEFLAG ( RDPTR ) = ( .RDPTR [ RDSTATUS ] AND RDFLGIDXUPDATE ) %,
LSSFLAG ( RDPTR ) = ( .RDPTR [ RDSTATUS ] AND RDFLGLSS ) %,
PASTLASTFLAG ( RDPTR ) = ( .RDPTR [ RDSTATUS ] AND RDFLGPST ) %,
DUPLICATEFLAG ( RDPTR ) = ( .RDPTR [ RDSTATUS ] AND RDFLGDUP ) %,
SAMEKEYFLAG ( RDPTR ) = ( .RDPTR [ RDSTATUS ] AND RDFLGSAME ) %,
%([**])% FLUSHORIGBD ( RDPTR ) = (.RDPTR [ RDSTATUS ] AND RDFLGNEWINNEW ) %;
%([ MACROS TO SET OR CLEAR THESE FLAGS ])%
MACRO SETEMPTYFLAG ( RDPTR )= SETFLAG ( RDPTR [ RDSTATUS ], RDFLGEMPTY ) %,
SETRETRYFLAG ( RDPTR ) = SETFLAG ( RDPTR [ RDFLAGS ], RDFLGRETRY) %,
SETLSSFLAG ( RDPTR )= SETFLAG ( RDPTR [ RDSTATUS ], RDFLGLSS ) %,
SETPASTLASTFLAG ( RDPTR )= SETFLAG ( RDPTR [ RDSTATUS ], RDFLGPST ) %,
SETDUPLICATFLAG ( RDPTR )= SETFLAG ( RDPTR [ RDSTATUS ], RDFLGDUP ) %,
SETSAMEKEYFLAG ( RDPTR )= SETFLAG ( RDPTR [ RDSTATUS ], RDFLGSAME ) %,
SETIDXUPDATFLAG ( RDPTR ) = SETFLAG ( RDPTR [ RDSTATUS ], RDFLGIDXUPDATE) %,
SETIDXERRORFLAG ( RDPTR ) = SETFLAG ( RDPTR [ RDSTATUS ], RDFLGIDXERROR ) %,
%([**])% SETNEWINNEWFLG ( RDPTR ) = SETFLAG ( RDPTR [ RDSTATUS ], RDFLGNEWINNEW ) %;
%([ MACRO TO DUMP OUT THE CONTENTS OF THE RECORD DESCRIPTOR.
NOTE THAT THE SECOND ARGUMENT TO THIS MACRO MUST BE A
BASE PARAMETER. ])%
MACRO DUMPTHERD ( TEXT, RDADR )=
%IF DBUG %THEN
BEGINDEBUG ( DBLOCAL )
TYPE ( TEXT );
CALLDUMPRD ( BPT ( RDADR ) );
ENDDEBUG
%FI %;
%FI
%([
***********************************************************************
* END OF RDP.REQ *
***********************************************************************
])%
%([
******************************************************************
* START OF RST.BLI *
* *
* CONTENTS: *
* *
* 1.. STRUCTURES FOR RECORD STATUS TABLE *
* *
*******************************************************************
AUTHOR: S. BLOUNT
])%
%([ THE RECORD STATUS TABLE (RST) IS THE INTERNAL
DATA STRUCTURE WHICH REPRESENTS ALL CURRENT INFORMATION,
BOTH STATIC AND DYNAMIC, CONCERNING THE STATE OF
THE CORRESPONDING RECORD STREAM. THERE IS EXACTLY ONE
RST FOR EACH RECORD STREAM WHICH IS CONNECTED TO A
PARTICULAR FILE. AN RST IS ALLOCATED WHEN A $CONNECT
IS ISSUED AND DE-ALLOCATED WHEN A $DISCONNECT (OR $CLOSE)
IS ISSUED.
IN THE DESIGN OF THE STRUCTURE OF THE RST, THE ISSUE OF
ACCESS PERFORMANCE WAS AFFORDED A HIGHER PRIORITY THAN
THAT OF INTERNAL BLOCK SIZE. THEREFORE, THERE ARE SEVERAL
FIELDS (EXPLAINED BELOW) WHICH ARE NOT ABSOLUTELY NECESSARY
FOR THE CORRECT PROCESSING OF THE FILE, BUT WHICH ARE
MAINTAINED IN THE RST BECAUSE THEY SERVE TO SPEED UP
CERTAIN OPERATIONS ON THE FILE.
THE FORMAT OF THE RST IS AS FOLLOWS:
!=====================================!
! BID ! BLN !
!-------------------------------------!
! BLINK ! FLINK !
!-------------------------------------!
! FST ! FLAGS !
!-------------------------------------!
! RSZ ! RSZW !
!-------------------------------------!
! PAGPTR !
!-------------------------------------!
! DATARFA !
!-------------------------------------!
! NRP !
!-------------------------------------!
! KEYBUFF !BFDCNT.!RH !LOPER !
!-------------------------------------!
! CBKD !
! (CURRENT BUCKET DESCRIPTOR) !
! !
!-------------------------------------!
! HYBYTE !
!-------------------------------------!
! RPREF ! NRPREF ! BYTECOUNT !
!-------------------------------------!
! NRPRRV !
!-------------------------------------!
! RPSIDR ! SIDRELEMENT !
!-------------------------------------!
! BUFFER DESC. #1 !
!-------------------------------------!
! . !
! . !
!-------------------------------------!
! BUFFER DESC. #N !
!=====================================!
])%
%([ FIELDS WITHIN THE RECORD STATUS TABLE
=====================================
FIELD FUNCTION
===== ========
BID BLOCK ID OF RST
BLN LENGTH OF RST
BLINK BACK LINK TO LAST RST ON CHAIN
FLINK FORWARD LINK TO NEXT RST ON CHAIN
FST ADDRESS OF RELATED FST
FLAGS PROCESSING FLAGS
FLGPARTIAL THE LAST RECORD WAS A "PARTIAL" RECORD (ASCII/LSA)
FLGEOF THE EOF HAS BEEN REACHED..NO MORE INPUT ALLOWED (STM/LSA)
FLGDLOCK THE CURRENT RECORD (IN DATARFA) IS LOCKED
(SEQUENTIAL/RELATIVE ONLY)
FLGSUCCESS LAST OPERATION WAS A SUCCESS
FLGUPDPTR PAGPTR MUST BE UPDATED BEFORE NEXT OPERATION
(STM/LSA ONLY)
FLGLASTSEQ LAST OPERATION USED SEQ ACCESS (USED TO CHECK
KEYS ON SEQ $PUT TO INDEXED FILE)
FLGTRUNC A $TRUNCATE WAS DONE ON THIS STREAM
RSZ SIZE IN BYTES OF CURRENT RECORD (OPTIMIZATION)
RSZW SIZE IN WORDS OF CURRENT RECORD ( " )
PAGPTR POINTER INTO FILE BUFFER OF CURRENT RECORD.
FOR ASCII/LSA FILES, THIS IS A BYTE PTR. FOR
SEQ/REL FILES, IT IS A WORD ADDRESS WHICH IS NOT
PRESERVED ACROSS USER CALLS. FOR INDEXED FILES,
IT POINTS TO HEADER OF CURRENT RECORD.
DATARFA RFA OF CURRENT RECORD
ASCII/LSA: BYTE NUMBER OF THE START OF CURRENT RECORD
SEQ/REL: RFA OF CURRENT RECORD/0
INDEXED: RFA OF DATA RECORD (NOT RRV)
NRP NEXT RECORD POINTER.
ASCII/LSA: BKT# OF NEXT I/O FOR ASCII RECORDS
SEQ/REL: RFA OF NEXT RECORD
INDEXED: RFA OF DATA RECORD (NOT RRV) OF THE
LAST RECORD WHICH CHANGED THE NRP.
(FOR PRIMARY KEYS, THIS IS THE UDR RFA,
FOR SECONDARY KEYS, IT'S THE SIDR RFA)
KEYBUFF ADDRESS OF KEY BUFFER FOR INDEXED FILES
BFDCOUNT NUMBER OF BUFFERS ALLOCATED TO THIS STREAM
RHSIZE SIZE OF RECORD HEADER (STM/LSA).
USED TO COMPUTE WHERE NEXT RECORD BEGINS.
LASTOPER OPERATION CODE OF LAST SUCCESSFUL OPERATION
CBKD CURRENT BUCKET DESCRIPTOR
RPREF KEY OF REFERENCE OF CURRENT RECORD (INDEXED)
NRPREF KEY OF REFERENCE OF NEXT RECORD POINTER
NRPRRV ADDRESS (RRV FORMAT) OF NEXT RECORD
SIDRLELEMENT OFFSET INTO CURRENT SIDR SEGMENT (POINTER ARRAY)
OF CURRENT RECORD POINTER (1 MEANS FIRST POINTER, ETC.)
BUFFER DESC'S BUFFER DESCRIPTORS FOR THIS STREAM
])%
%( RECORD STATUS TABLE (RST) STRUCTURE MACROS )%
%(==========================================)%
LITERAL RSTCODE = 4, ! BLOCK-TYPE FOR RST
RSTSIZE = 15; ! LENGTH OF FIXED PORTION OF AN RST
MACRO !BLOCKTYPE = 0,LH$, ! BLOCK-TYPE COD E
!BLOCKLENGTH = 0,RH$, ! LENGTH OF RST
!BLINK = 1,LH$, ! BACK LINK TO LAST BLOCK ON CHAIN
!FLINK = 1,RH$, ! FORWARD LINK ON CHAIN
RSTFST = 2,LH %, ! POINTER TO FILE FST
RSTFLAGS = 2,RH %, ! PROCESSING FLAGS
RSTRSZ = 3,LH %, ! SIZE OF CURRENT RECORD IN BYTES
RSTRSZW= 3,RH %, ! SIZE OF RECORD IN WORDS
RSTPAGPTR = 4,WRD %, ! POINTER TO CURRENT RECORD
RSTDATARFA = 5,WRD %, ! RFA OF LAST RECORD ACCESSED
RSTNRP = 6,WRD %, ! NEXT RECORD POINTER
RSTKEYBUFF = 7,LH %, ! ADDRESS OF KEY BUFFER
RSTBFDCOUNT = 7,10,8 %, ! COUNT OF BUFFER DESCRIPTORS
RSTRHSIZE = 7,6,4 %, ! SIZE OF RECORD HEADER FOR STREAM FILE
RSTLASTOPER = 7,0,6 %, ! LAST OPERATION ON THIS RST
RSTCBKD1 = RSTCBDOFFSET,WRD %, ! CURRENT BUCKET DESCRIPTOR
RSTCBKD2 = RSTCBDOFFSET+1,WRD %, ! REST OF CURRENT BKT DESC.
RSTHYBYTE = 10,WRD %, ! HIGHEST BYTE WRITTEN INTO
RSTRPREF = 11,27,9 %, ! KEY OF REFER. FOR RP
RSTNRPREF = 11,18,9 %, ! KEY OF REFER. FOR NRP
RSTBYTECOUNT = 11,RH %, ! FOR STM AND LSA: NO. CHARS LEFT ON PAGE
RSTNRPRRV = 12,WRD %, ! RRV ADDRESS OF NRP (INDEXED)
RSTRPSIDR = 13,LH %, ! TENTATIVE SIDR ELEM AFT $FIND
RSTSIDRELEMENT = 13,RH %, ! OFFSET OF CURRENT RECORD POINTER
RSTBFD = 14,WRD %; ! FIRST BUFFER DESCRIPTOR
!RSTLRU = 14+NUMBUF,WRD ! LRU VECTOR FOLLOWS BFD VECTOR
%([ FLAGS USED IN RST FLAG WORD ])%
LITERAL FLGPARTIAL = BITN ( 35 ), ! PARTIAL RECORD
FLGEOF = BITN ( 34 ), ! EOF ON THIS BUFFER
FLGDLOCK = BITN ( 33 ), ! CURRENT RECORD ( DATARFA ) IS LOCKED
FLGSUCCESS = BITN ( 32 ), ! LAST OPERATION WAS A SUCCESS
!***BIT 31 IS FREE
FLGUPDPTR = BITN ( 30 ), ! PAGPTR MUST BE UPDATED
! ON NEXT OPER. (ASCII ONLY)
FLGLASTSEQ = BITN ( 29 ), ! LAST OPERATION WAS SEQUENTIAL
FLGTRUNC = BITN ( 28 ); ! A $TRUNCATE WAS DONE
%([ MACROS FOR ACCESSING RST FLAG BITS ])%
MACRO DATALOCKED = ( .RST [ RSTFLAGS ] AND FLGDLOCK ) ISON %, ! DATA RECORD IS LOCKED
DATANOTLOCKED = NOT DATALOCKED %,
CLEARLOCKEDBIT = CLRFLAG ( RST [ RSTFLAGS ], FLGDLOCK ) %,
SETRPLOCKED = SETFLAG ( RST [ RSTFLAGS ], FLGDLOCK ) %;
%([ MACRO FOR CHECKING END-OF-FILE FLAG ])%
MACRO ENDOFFILE = ( .RST [ RSTFLAGS ] AND FLGEOF ) ISON %;
%([ MACROS FOR CHECKING RST FLAGS ])%
MACRO PARTIALFLAG = ( .RST [ RSTFLAGS ] AND FLGPARTIAL ) %,
EOFFLAG = ( .RST [ RSTFLAGS ] AND FLGEOF ) %;
%([ STREAM FILE RECORD HEADER SIZE DEFINITIONS ])%
LITERAL STMRHASC = ZERO, ! NO RECORD HEADER FOR ASCII STREAM FILES
STMRHLSN = 5+1, ! LSN FOR LSA FILE
STMRHPM = 5; ! PAGEMARK FOR LSA FILE
%([ MACROS FOR ACCESSING THE "SUCCESS" FLAG ])%
MACRO SUCCESS = ( .RST [ RSTFLAGS ] AND FLGSUCCESS ) ISON %, ! THERE WAS SUCCESS
CLEARSUCCESS = RST [ RSTFLAGS ] = ( .RST [ RSTFLAGS ] AND (NOT FLGSUCCESS)) %,
SETSUCCESS =
BEGIN
RST [ RSTFLAGS ] = .RST [ RSTFLAGS ] OR FLGSUCCESS;
RST [ RSTLASTOPER ] = CURRENTJSYS;
END %;
%([
*****************************************************************
* "CURRENT" BUCKET DESCRIPTOR DEFINITIONS *
*****************************************************************
])%
%([ OFFSET INTO THE RST FOR THE CURRENT BUCKET DESCRIPTOR ])%
LITERAL RSTCBDOFFSET = 8; ! OFFSET INTO RST
%([ MACROS TO SET OR RELEASE THE CURRENT BUCKET FOR INDEXED FILES ])%
MACRO SETCURRENTBKT ( BKTDESC )=
BEGIN
MOVEBKTDESC ( %(FROM)% BKTDESC, %(TO)% CBD );
END %;
MACRO FETCHCURRENTBKT ( BKTDESC )=
MOVEBKTDESC ( %(FROM)% CBD, %(TO)% BKTDESC ) %;
MACRO RELEASCURENTBKT =
BEGIN
IF NOT NULLBD ( CBD )
THEN %(RELEASE THE BUCKET)%
CALLPUTBKT ( %(NO UPDATE)% PCI ( FALSE ),
%(THIS BKT)% GPT ( CBD ) );
SETNULLBD ( CBD ); ! FLAG AS EMPTY
END %;
%([ MACROS FOR ACCESSING FIELDS IN THE CURRENT BUCKET DESCRIPTOR ])%
MACRO CURRENTWINDOW = CBD [ BKDBKTADR ] ^ W2P %, ! CURRENT WINDOW
CURRENTFILEPAGE = CBD [ BKDBKTNO ] %, ! FILE PAGE IN WINDOW
CURENTBUFFERADR = CBD [ BKDBKTADR ] %; ! ADDR OF BUFFER
%([**************** END OF RST.REQ *****************])%
%([
******************************************************************
* START OF STATUS.REQ *
* *
* CONTENTS: *
* *
* 1. RMS-20 STATUS BIT DEFINITIONS *
* *
*******************************************************************
AUTHOR: S. BLOUNT
])%
%([
***********************************************************************
* STATUS BIT DEFINITIONS *
***********************************************************************
])%
%([ EACH OF THE FOLLOWING BITS IS CONTAINED WITHIN "RMSSTS" ])%
LITERAL STSNOMESSAGE = BITN ( 35 ); ! DON'T PRINT ERROR MESSAGES
%([
*****************************************************************
* *
* *
* $UTLINT INTERFACE - PRIVATE RMS ENTRIES *
* *
* *
*****************************************************************
])%
MACRO $$U_FUNCT(FUNC) =
LITERAL %NAME('U$',FUNC) = U$$MAX;
%ASSIGN(U$$MAX,U$$MAX+1);
%;
COMPILETIME U$$MAX = 0;
$$U_FUNCT(SETENVIR)
$$U_FUNCT(GMEM)
$$U_FUNCT(GPAGE)
$$U_FUNCT(PMEM)
$$U_FUNCT(PPAGE)
$$U_FUNCT(UNUSED1)
$$U_FUNCT(CHKDUP)
LITERAL U$ENVNEED=U$CHKDUP; !GE THIS NEEDS RST/FST
$$U_FUNCT(CKEYKU)
$$U_FUNCT(CKEYKK)
$$U_FUNCT(FBYRRV)
$$U_FUNCT(FBYRFA)
$$U_FUNCT(FNDDATA)
$$U_FUNCT(FOLOPATH)
$$U_FUNCT(GETBKT)
$$U_FUNCT(GETIDB)
$$U_FUNCT(GETKDB)
$$U_FUNCT(GETROOT)
$$U_FUNCT(GTBKTPTR)
$$U_FUNCT(MOVEKEY)
$$U_FUNCT(PATH)
$$U_FUNCT(PUTBKT)
$$U_FUNCT(PUTSIDR)
! Definition of the argument list passed to RMSUIN.
!
MACRO
NO_OF_ARGS = 0,LH %,
RMS_FUNC = 0,RH %,
ARG_1 = 1,WRD %,
ARG_2 = 2,WRD %,
ARG_3 = 3,WRD %,
ARG_4 = 4,WRD %,
ARG_5 = 5,WRD %;
! Definition of a macro to build the argument list to interface with RMS.
!
! arg_lst_ptr: Must be POINTER Struct if it contains addr of argblk.
! Must be FORMATS struct if it is addr of argblk.
! function: Must be one of the U$$ functions.
! a1,... : List of arguments
MACRO BLD_ARG_LST (arg_lst_ptr,function) = !iterative macro
BEGIN
MACRO BLD_LST (a1)[] = ! this is a recursive macro
arg_lst_ptr[%COUNT+1,WRD] = a1; !first argument to the list
bld_lst(%REMAINING) !subsequent args
%QUOTE %;
arg_lst_ptr[RMS_FUNC] = function;
arg_lst_ptr[NO_OF_ARGS] = -(%LENGTH -2);
!because this macro has two extra args
bld_lst(%REMAINING);
END %; !END OF MACRO BLD_ARG_LST
%([
***********************************************************************
* *
* START OF XCALLS.REQ *
* *
* THIS FILE IS USED ONLY FOR SUBROUTINES *
* USED IN THE PROCESSING OF INDEXED FILES. *
* FOR SUBROUTINES USED FOR SEQUENTIAL OR *
* RELATIVE FILES, SEE "CALLS.REQ". *
* CURRENTLY, THERE ARE 2 TYPES OF *
* MACROS DEFINED HEREIN: *
* *
* 1 ) ACTUAL SUBROUTINE CALLS *
* 2 ) STANDARD ARGUMENT MACROS *
* *
***********************************************************************
AUTHOR: S. BLOUNT
])%
%([
***********************************************************************
* CALL MACROS (SHORTENED FOR EASE OF USE) *
***********************************************************************
])%
MACRO
CALLADJIPTR ( A, B ) = CALL2 ( ADJIPTR, A, B ) %,
CALLALCBKT ( A,B,C,D)= CALL4 ( ALCBKT,A,B,C,D) %,
CALLALCNEWIDS ( A ) = CALL1 ( ALCNEWIDS, A ) %,
CALLALCRFA ( A ) = CALL1 ( ALCRFA , A ) %,
CALLALCROOT ( A,B) = CALL2 ( ALCROOT, A,B ) %,
CALLBLDCSIDR ( A,B,C) = CALL3 ( BLDCSIDR,A,B,C) %,
CALLBLDISIDR ( A,B,C) = CALL3 ( BLDISIDR,A,B,C) %,
CALLCHECKXAB = CALL0 ( CHECKXAB ) %,
CALLCHKDUP (A, B) = CALL2 ( CHKDUP, A, B) %,
CALLCKEYKK ( A, B ) = CALL2 ( CKEYKK, A, B) %,
CALLCKEYUU ( A, B ) = CALL2 ( CKEYUU, A, B) %,
CALLCKEYKU ( A, B ) = CALL2 ( CKEYKU, A, B) %,
CALLCLEANUP (A) = CALL1 ( CLEANUP,A) %,
CALLCOMPRESS ( A,B ) = CALL2 ( COMPRESS,A,B) %,
CALLCOMPRRV (A,B,C,D,E,F)= CALL6 (COMPRRV,A,B,C,D,E,F) %,
CALLCSPT2 ( A,B,C,D,E) = CALL5 (CSPT2,A,B,C,D,E) %,
CALLDELIDX = CALL0 ( DELIDX ) %,
CALLDELSIDR ( A ) = CALL1 ( DELSIDR, A ) %,
CALLDELUDR ( A, B) = CALL2 ( DELUDR, A, B) %,
CALLDISPFILE = CALL0 ( DISPFILE ) %,
CALDOAREABLOCKS ( A,B ) = CALL2 ( DOAREABLOCKS,A, B ) %,
CALLDODELIDX ( A, B ) = CALL2 ( DODELIDX, A, B ) %,
CALLDOGETIDX = CALL0 ( DOGETIDX ) %,
CALLDOKEYBLOCKS ( A,B ) = CALL2 ( DOKEYBLOCKS,A, B ) %,
CALLDOSIDR (A,B,C) = CALL3 ( DOSIDR,A,B,C) %,
CALLDOUPDIDX ( A, B ) = CALL2 ( DOUPDIDX, A, B) %,
CALLDUMPHEADER ( A ) = CALL1 ( DUMPHEADER, A ) %,
CALLDUMPIDB ( IDBADR ) = CALL1 ( DUMPIDB, IDBADR ) %,
CALLDUMPIRECORD ( A ) = CALL1 ( DUMPIRECORD, A ) %,
CALLDUMPKDB ( KDBADR ) = CALL1 ( DUMPKDB, KDBADR ) %,
CALLDUMPRD ( A ) = CALL1 ( DUMPRD, A ) %,
CALLFBYKEY ( A,B ) = CALL2 ( FBYKEY,A,B) %,
CALLFBYRFA ( A,B,C ) = CALL3 ( FBYRFA,A,B,C) %,
CALLFBYRRV ( A,B ) = CALL2 ( FBYRRV,A,B) %,
CALLFENDOFKEY (A,B) = CALL2 ( FENDOFKEY,A,B) %, ! LOCAL ROUTINE
CALLFIDXSEQ ( A, B ) = CALL2 ( FIDXSEQ,A,B) %,
CALLFINDIDX (A, B ) = CALL2 ( FINDIDX,A, B ) %,
CALLFNDDATA ( A, B ) = CALL2 ( FNDDATA, A, B ) %,
CALLFNDREC (A,B,C) = CALL3 ( FNDREC, A, B, C) %,
CALLFOLLOWPATH ( A,B) = CALL2 ( FOLLOWPATH,A,B) %,
CALLFRECRFA ( A, B ) = CALL2 ( FRECRFA, A, B ) %,
CALLGETBKT (A,B,C,D) = CALL4 ( GETBKT,A,B,C,D) %,
CALLGETIDB ( A ) = CALL1 ( GETIDB, A ) %,
CALLGETIDX ( A, B) = CALL2 ( GETIDX,A , B ) %,
CALLGETKDB ( A ) = CALL1 ( GETKDB, A ) %,
CALLGETROOT ( A, B ) = CALL2 ( GETROOT, A, B ) %,
CALLGTNBKT ( A,B,C ) = CALL3 ( GTNBKT, A, B, C ) %,
CALLGTBKTPTR ( A, B, C )= CALL3 ( GTBKTPTR,A,B,C) %,
CALIDXFILPROLOG = CALL0 ( IDXFILEPROLOG ) %,
CALLIDXUPDATE (A,B,C,D) = CALL4 ( IDXUPDATE,A,B,C,D) %,
CALLI1STSIDR ( A,B,C) = CALL3 ( I1STSIDR,A,B,C) %,
CALINSRTIRECORD(A,B,C,D,E)= CALL5 ( INSRTIRECORD,A,B,C,D,E) %,
CALLINSRTUDR ( A,B,C,D,E) = CALL5 ( INSRTUDR,A,B,C,D,E) %,
CALLINSRTSIDR( A,B,C) = CALL3 ( INSRTSIDR,A,B,C) %,
CALLMAKEIDB ( A,B,C ) = CALL3 ( MAKEIDB, A, B, C) %,
CALLMAKEIRECORD ( A, B, C )= CALL3 ( MAKEIRECORD,A, B, C) %,
CALLMAKEUDR ( A,B ) = CALL2 ( MAKEUDR,A,B) %,
CALLMAKESIDR (A,B) = CALL2 ( MAKESIDR,A,B) %,
CALLMAKIDX = CALL0 ( MAKIDX ) %,
CALLMAKROOT ( A, B ) = CALL2 ( MAKROOT, A, B ) %,
CALLMOVEKEY ( A, B ) = CALL2 ( MOVEKEY, A, B) %,
CALLPOSNEXT ( A, B ) = CALL2 ( POSNEXT, A, B ) %,
CALLPOSRP ( A, B ) = CALL2 ( POSRP,A, B) %,
CALLPOSRFA ( A, B ) = CALL2 ( POSRFA, A, B ) %,
CALLPUTBKT ( A, B ) = CALL2 ( PUTBKT, A, B ) %,
CALLPUTIDX = CALL0 ( PUTIDX ) %,
CALLPUTSIDR ( A ) = CALL1 ( PUTSIDR, A ) %,
CALLREADADB ( A ) = CALL1 ( READADB, A ) %,
CALLREMOVRECORD(A,B) = CALL2 ( REMOVRECORD,A,B) %,
CALLSDATABKT ( A, B ) = CALL2 ( SDATABKT, A, B ) %,
CALLSHUFFLEIDS ( A ) = CALL1 ( SHUFFLEIDS, A ) %,
CALLSINDEXBKT ( A, B ) = CALL2 ( SINDEXBKT, A, B ) %,
CALLSKIPRECORD ( A, B,C )= CALL3 ( SKIPRECORD, A, B, C) %,
CALLSETKDB ( A ) = CALL1 ( SETKDB, A ) %,
CALLSETNRP ( A, B ) = CALL2 ( SETNRP, A, B ) %,
CALLSETPUT ( A ) = CALL1 ( SETPUT, A ) %,
CALLSPLIT ( A,B,C,D ) = CALL4 ( SPLIT,A,B,C,D) %,
CALLSPTINDEX ( A, B, C) = CALL3 ( SPTINDEX, A, B, C) %,
CALLSPTSIDR ( A,B,C) = CALL3 ( SPTSIDR, A, B, C ) %,
CALLSQUEEZESIDR ( A, B) = CALL2 ( SQUEEZESIDR, A, B ) %,
CALLUNDOKDBS = CALL0 ( UNDOKDBS ) %,
CALLUPDRRVS ( A, B ) = CALL2 ( UPDRRVS,A,B) %,
CALLUPDUDR (A, B) = CALL2 ( UPDUDR,A, B) %;
%([********* END OF XCALLS.REQ *********** ])%
%([
********************************************************
* *
* START OF XFILES.REQ *
* *
* CONTENTS: *
* *
* 1. BLOCK-TYPE DEFINITIONS FOR INDEXED FILES *
* 2. AREA DESCRIPTOR STRUCTURES *
* 3. INDEX DESCRIPTOR STRUCTURES *
* 4. MISCELLANEOUS MACROS USED IN CONVERSIONS *
* *
*********************************************************
AUTHOR: S. BLOUNT
])%
%([
****************************************************************
* BLOCK-TYPE DEFINITIONS *
*****************************************************************
])%
%([ BLOCK-TYPES FOR RMS-20 INDEXED FILE PROLOGUES ])%
LITERAL ADBCODE = %O'1756', ! AREA DESCRIPTOR BLOCK
IDBCODE = %O'1755'; ! INDEX DESCRIPTORS
%([
*****************************************************************
* AREA DESCRIPTOR BLOCK *
*****************************************************************
])%
%([ FORMAT OF THE AREA DESCRIPTOR BLOCK
===================================
!=====================================!
! BID ! BLN !
!-------------------------------------!
! <UNUSED> ! BKZ ! AREA #0
!-------------------------------------!
! <UNUSED> !
!-------------------------------------!
! <UNUSED> !
!-------------------------------------!
! <UNUSED> !
!-------------------------------------!
! <UNUSED> !
!-------------------------------------!
! <UNUSED> ! BKZ ! AREA #1
!-------------------------------------!
! . ! .
! . ! .
! . ! .
!=====================================!
])%
%([ STRUCTURE DEFINITIONS FOR AREA DESCRIPTOR ])%
MACRO ADBBKZ = 0,9 %; ! BUCKET-SIZE FOR AREA
%([ SIZE OF EACH AREA DESCRIPTOR (ALWAYS ONE WORD) ])%
LITERAL AREADESCSIZE = 5; ! EACH ABD ENTRY
%([
*****************************************************************
* INDEX DESCRIPTOR BLOCK *
*****************************************************************
])%
%([ FORMAT OF AN INDEX DESCRIPTOR BLOCK
===================================
!=====================================!
! BID ! BLN !
!-------------------------------------!
! ROOT ! <UNUSED> !
!-------------------------------------!
! LEVELS ! NXT !
!-------------------------------------!
! <UNUSED> !
!-------------------------------------!
! <UNUSED> !
!-------------------------------------!
! <UNUSED> !
!-------------------------------------!
! !
! !
! COPY OF USER !
! !
! KEY XAB !
! !
! !
! !
!-------------------------------------!
! !
! !
! KEY NAME !
! (7 WORDS) !
! !
!=====================================!
])%
%([ DEFINITIONS FOR IDB FIXED-LENGTH HEADER ])%
LITERAL IDBXABOFFSET = 6, ! OFFSET TO USER XAB
IDBHDRSIZE = IDBXABOFFSET, ! SIZE OF HEADER (SAME)
IDBSIZE = IDBHDRSIZE + KEYNAMESIZE; ! SIZE OF IDB (MINUS XAB)
%([ STRUCTURE DEFINITIONS FOR FIXED HEADER ])%
MACRO !BLOCKTYPE = 0,LH$, ! BLOCK-TYPE
!BLOCKLENGTH = 0,RH$, ! SIZE OF BLOCK
IDBROOT = 1,LH %, ! ROOT BUCKET FOR INDEX
IDBRESER1 = 1,RH %, ! ***<UNUSED>***
IDBLEVELS = 2,27,9 %, ! # OF LEVELS
IDBNXT = 2,0,27 %, ! NEXT IDB IN CHAIN
IDBRESER2 = 3,WRD %, ! ***<UNUSED>***
IDBRESER3 = 4,WRD %, ! ***<UNUSED>***
IDBRESER4 = 5,WRD %; ! ***<UNUSED>***
%([
****************************************************************
* MISCELLANEOUS MACROS *
*****************************************************************
])%
%([ MACRO TO CONVERT AN AREA NUMBER TO A BUCKET SIZE ])%
MACRO AREATOBKTSIZE ( AREANUM )=
.ADB [ ( AREANUM * AREADESCSIZE ) + 1, ADBBKZ ] %;
%([
****************************************************************
* END OF XFILES.REQ *
*****************************************************************
])%