*DECK     NVFIBOF 
USETEXT TEXTNVF 
USETEXT TXINNVF 
USETEXT TEXTSS
      PROC NVFIBOF; 
# TITLE - BUILD OVERLAY FILE.                                          #
  
      BEGIN 
# 
**    NVFIBOF - BUILD OVERLAY FILE. 
* 
*     D. K. ENDO.            82/06/15.
*     D. G. DEPEW.           82/06/25.
* 
*     THIS PROCEDURE INITIALIZES THE OVERLAY FILE BY LOADING THEM AND 
*     THEN WRITING THEM TO FILE *OVLFILE*.
* 
*     PROC NVFIBOF
* 
*     ENTRY        1. NONE. 
* 
*     EXIT         1. *OVLFILE* BUILT 
# 
  
# 
****  PROC NVFIBOF - XREF LIST. 
# 
      XREF
        BEGIN 
        PROC ABORT;          # CAUSES ABORT WHEN CALLED                #
        PROC SSTRTS;         # SS-RELEASE TABLE SPACE # 
        PROC LOADREQ;        # ISSUES LOAD REQUEST                     #
        PROC MOVEI;          # MACREL - MOVE WORDS #
        PROC MESSAGE;        # SENDS MESSAGE TO THE DAYFILE            #
        PROC RECALL;         # RETURNS CONTROL WHEN COMPLETE BIT SET   #
        PROC SSTSDA;         # SET DYNAMIC ADDRESS                     #
        PROC WRITER;         # FLUSHES CIO BUFFER AND WRITES EOR       #
        END 
# 
****
# 
  
  
      DEF AAC$NAM # O"16260614010103" #;    # A-A CONN OVLY (NVFLAAC)  #
      DEF AAI$NAM # O"16260614110120" #; # A-A OUTCALL OVLY (NVFLIAP) # 
      DEF AAR$NAM # O"16260614220120" #; # A-A INCALL OVLY (NVFLRAP) #
      DEF AEP$NAM # O"16260614010520" #;    # APPL/EVT OVLY (NVFLAEP)  #
      DEF OPC$NAM # O"16260614172003" #;    # OPER CMD OVLY (NVFLOPC)  #
      DEF OPE$NAM # O"16260614172005" #;    # OPER EVT OVLY (NVFLOPE)  #
  
  
      ITEM ADDLEN;           # ADDITONAL LENGTH TO ADD TO OVERLAY      #
      ITEM FWA;              # FIRST WORD ADDRESS TO LOAD THE OVERLAY  #
      ITEM LENGTH;           # ADDITIONAL LEN OF OVLY # 
      ITEM TO;               # ADDRESS TO WHERE # 
      ITEM I;                # LOOP INDUCTION VARIABLE                 #
      ITEM ODTORD ;          # OVLY DEFINITION TABLE ORDINAL FOR EVLY  #
  
  
# 
*     THIS ARRAY CONTAINS THE NAME OF THE OVERLAY TO BE LOADED. 
# 
      ARRAY OVN [00:00] S(1); 
        BEGIN 
        ITEM OVN$NAM    C(00,00,07);
        ITEM OVN$NUM    U(00,00,42);
        END 
  
# 
*     THIS BASED ARRAY IS USED TO DEFINE THE OUTCALL RECORD BASED ARRAY.
*     IT ACTUALLY DEFINES THE POINTER WORD AND LENGTH WORD OF THE OUTCALL 
*     RECORD WHICH CONTAINS SEVERAL BLOCKS. THIS BASED ARRAY COINCIDES
*     WITH THE OUTREC BASED ARRAY IN THE COMMON BLOCK "NVFOUT" IN THE 
*     TEXT TXOUTAA. 
# 
  
      BASED ARRAY OCALL [00:00] S(1); 
        BEGIN 
        ITEM OCA$OUT         U(00,00,60);# PTR TO OUTCALL RECORD #
        ITEM OCA$OUTL        U(01,00,60);# LEN OF OUTCALL RECORD #
        END 
  
# 
*     THIS BASED ARRAY DEFINES THE POINTER WORD AND LENGTH WORD OF THE
*     INCALL RECORD. IT COINCIDES WITH THE INREC BASED ARRAY DEF IN THE 
*     TEXT TXINAA COMMON BLOCK NVFIN. 
# 
  
      BASED ARRAY ICALL [00:00] S(2); 
        BEGIN 
        ITEM ICA$IN          U(00,00,60);# LOC PTR OF INCALL RECORD # 
        ITEM ICA$INL         U(01,00,60);# LEN OF THE INCALL RECORD # 
        END 
  
  
  
  
  
  
  
  
  
      CONTROL EJECT;
  
      PROC GET$OVL; 
# TITLE - GET OVERLAY.                                                 #
      BEGIN 
# 
**    GET$OVL - GET OVERLAY.
* 
*     D.K. ENDO    82/06/15 
* 
*     THIS PROCEDURE DOES AN INITIAL LOAD OF AN OVERLAY TO BE PREPARED
*     FOR WRITING TO THE OVERLAY FILE.
* 
*     PROC GET$OVL
* 
*     ENTRY        1. OVN$NAM[0] = OVERLAY NAME.
*                  2. ADDLEN  = ADDITIONAL LENGTH TO BE ADDED TO THE OVL
* 
*     EXIT         1. ODTORD  = OVERLAY DEFINITION TABLE ORDINAL FOR THE
*                                 OVERLAY LOADED. 
* 
# 
  
  
  
      ITEM DONE       B;     # MOVE MANAGED TABLES STATUS              #
      ITEM MEMSTAT    I;     # MEMORY REQUEST STATUS WORD              #
      ITEM NEED       I;     # TOTAL FIELD LENGTH NEEDED FOR LOAD      #
  
  
# 
*     THIS ARRAY DEFINES THE MESSAGE SENT WHEN AN OVERLAY IS NOT FOUND. 
# 
      ARRAY ONF$TXT [00:00] S(3); 
        BEGIN 
        ITEM ONF$NAME   C(00,00,07);
        ITEM ONF$MSG    C(00,42,18) =[" OVERLAY NOT FOUND"];
        ITEM ONF$ZBYT   U(02,30,30) = [0];
        END 
  
  
  
  
# 
*     THIS ARRAY DEFINES THE OVERLAY PARAMETER BLOCK USED BY
*     LOADREQ TO MAKE THE LOAD REQUEST. 
# 
      ARRAY OPB [00:00] S(2); 
        BEGIN 
        ITEM OPB$NAME   C(00,00,07);
        ITEM OPB$WRD1   I(00,00,60);
        ITEM OPB$LLL    U(01,00,12);
        ITEM OPB$LO     B(01,17,01);
        ITEM OPB$OLF    B(01,18,01);
        ITEM OPB$LWA    U(01,24,18);
        ITEM OPB$FWA    U(01,42,18);
        ITEM OPB$WRD2   I(01,00,60);
        END 
  
  
  
# 
*     SEARCH THE 5400 TABLE FOR THE OVERLAY NAME. 
# 
      FOR ODTORD =0 STEP 1 WHILE OVN$NAM[0] NQ ODT$NAME[ODTORD ] AND
                                 ODTORD  LS EAC$DL[0]/2 
      DO
        BEGIN 
        END 
  
  
# 
*     IF FOUND, THEN GET THE OVERLAY. 
# 
      IF ODTORD  LS EAC$DL[0]/2 
      THEN
        BEGIN 
  
  
# 
*     COMPUTE THE SPACE NEEDED TO LOAD THE OVERLAY.  IF NOT ENOUGH ROOM,
*     THEN MOVE THE MANAGED TABLES UP TO MAKE ROOM.  SET THE OVERLAY
*     PARAMETER BLOCK.  LOAD THE OVERLAY. 
# 
        LENGTH = ODT$LWA[ODTORD ] - ODT$FWA[ODTORD ]; 
        NEED = FWA + LENGTH + ADDLEN; 
  
        IF NEED GQ MEMLOC 
        THEN
          BEGIN 
          SSTSDA(NEED,MEMSTAT,DONE);
          FOR LENGTH=LENGTH WHILE NOT DONE
          DO
            BEGIN 
            RECALL(MEMSTAT);
            SSTSDA(NEED,MEMSTAT,DONE);
            END 
          END 
  
        OPB$WRD1[0] = 0;
        OPB$WRD2[0] = 0;
        OPB$LLL[0] = ODT$LVL[ODTORD ];
        OPB$LO[0] =  LDI$LB[0]; 
        OPB$OLF[0] = TRUE;
        OPB$LWA[0] = NEED;
        OPB$FWA[0] = FWA; 
        IF OPB$LO[0]
        THEN
          BEGIN 
          OPB$NAME[0] = OVN$NAM[0]; 
          END 
        ELSE
          BEGIN 
          OPB$NAME[0] =  LDI$NAME[0]; 
          END 
  
  
        LOADREQ(OPB); 
  
  
        ODT$LWA[ODTORD ] = ODT$LWA[ODTORD ] + ADDLEN; 
        END 
  
# 
*     IF OVERLAY IS NOT FOUND, SEND MESSAGE TO DAYFILE AND ABORT. 
# 
  
      ELSE
        BEGIN 
        ONF$NAME[0] = OVN$NAM[0]; 
        MESSAGE(ONF$TXT,0); 
        ABORT;
        END 
  
  
      END  # GET$OVL #
  
  
  
  
  
      CONTROL EJECT;
  
      PROC WRITOVL; 
# TITLE - WRITE OVERLAY.                                               #
      BEGIN 
# 
**    WRITOVL - WRITE OVERLAY.
* 
*     D.K. ENDO    82/06/16 
* 
*     THIS PROCEDURE WRITES A GIVEN OVERLAY OUT TO *OVLFILE* AND SAVES
*     THE RANDOM SECTOR ADDRESS FOR THAT OVERLAY. 
* 
*     PROC WRITOVL
* 
*     ENTRY        1. ODTORD  = OVLY DEFINITION TBL ORDINAL FOR OVERLAY.
* 
*     EXIT         1. OVERLAY WRITTEN TO FILE *OVLFILE*.
*                  2. RANDOM SECTOR ADDRESS IN ODT ENTRY. 
* 
# 
  
  
  
# 
*     POINT THE FET TO THE OVERLAY TO BE WRITTEN. 
# 
      OF$FIRST[0] = FWA;
      OF$IN[0] = FWA + (ODT$LWA[ODTORD ] - ODT$FWA[ODTORD ]); 
      OF$OUT[0] = FWA;
      OF$LIMIT[0] = OF$IN[0] + 1; 
  
  
# 
*     SAVE THE CURRENT RANDOM SECTOR ADDRESS. 
# 
      ODT$PRU[ODTORD ] = OF$CRI[0]; 
  
  
# 
*     WRITE THE OVERLAY OUT TO THE FILE.
# 
      WRITER(OVLFET,0); 
      RECALL(OVLFET); 
  
  
      END # WRITOVL # 
  
  
  
  
  
      CONTROL EJECT;
  
# 
*     MAIN ROUTINE BEGINS HERE. 
* 
*     POINT THE ODT BASED ARRAY TO THE OVERLAY ENTRIES IN THE 5400 TABLE
*     OF THE (0,0) OVERLAY.  CALCULATE THE LWA+1 OF THE (77,00)OVERLAY. 
*     INITALIZE THE OVLFILE FET.  INITIALIZE THE OVERLAY REQUEST COUNT
*     AND THE OVERLAY REQUEST TABLE.
# 
      P<LDRINFO> = O"64"; 
      P<EACPM> = O"100";
      P<ODT> = P<EACPM> + 8 + EAC$NEP[0]; 
  
  
      FOR I=0 STEP 1 WHILE ODT$LVL[I] NQ O"7700" AND
                           I LS EAC$DL[0]/2 
      DO
        BEGIN 
        END 
  
      IF I LS EAC$DL[0]/2 
      THEN
        BEGIN 
        FWA = ODT$LWA[I]; 
        END 
  
      OF$LFN[0] = "OVLFILE";
      OF$CODE[0] = 3; 
      OF$R[0] = TRUE; 
      OF$L[0] = 2;
      OF$CRI[0] = 1;
  
  
# 
*     CLEAR THE COUNT OF OVERLAY REQUESTS AND THE OVERLAY REQUEST 
*     TABLE.  SET THE WORKLIST NUMBER TO BE USED BY THE SERVICES AND
*     SCHEDULING OVERLAY ROUTINES FOR EXECUTING OVERLAYS. 
# 
      ORC = 0;
  
      FOR I=0 STEP 1 UNTIL NODT$
      DO
        BEGIN 
        ORT$WORD[I] = 0;
        END 
  
  
      SSOEOPW = WWDF"SOEOP";
  
  
# 
*     GET THE A-A CONNECTION OVERLAY.  WRITE IT OUT TO THE OVERLAY FILE.
# 
      OVN$NUM[0] = AAC$NAM; 
      ADDLEN = 0; 
      GET$OVL;
  
  
      WRITOVL;
  
  
# 
*     GET THE APPLICATION/EVENT OVERLAY.  WRITE IT OUT THE OVERLAY FILE.
# 
      OVN$NUM[0] = AEP$NAM; 
      ADDLEN = 0; 
      GET$OVL;
  
  
      WRITOVL;
  
  
# 
*     GET THE COMMAND PROCESSOR OVERLAY.  WRITE IS OUT TO THE OVERLAY 
*     FILE. 
# 
      OVN$NUM[0] = OPC$NAM; 
      ADDLEN = 0; 
      GET$OVL;
  
  
      WRITOVL;
  
  
# 
*     GET THE OPERATOR EVENT OVERLAY.  WRITE IT OUT TO THE OVERLAY FILE.
# 
      OVN$NUM[0] = OPE$NAM; 
      ADDLEN = 0; 
      GET$OVL;
  
  
      WRITOVL;
  
  
# 
*     GET THE A-A OUTCALL REQUEST PROCESSING OVERLAY. WRITE IT OUT TO 
*     THE OVERLAY FILE. 
# 
  
      OVN$NUM[0] = AAI$NAM; 
      ADDLEN = OUTSMQL; 
      GET$OVL;
  
# 
*     POINT THE 5400 TABLE TO END OF 77,0 OVERLAY.
*     POINT THE OUTCALL RECORD TO LABELLED COMMON AND THEN MOVE THE 
*     OUTCALL RECORD FROM THE OUTSMQ TO THE LABELLED COMMON.
# 
  
      P<EAHPM> = FWA; 
      P<OCALL> = FWA + 4 + EAH$NEP[0];
      OCA$OUT[0] = LOADBASE + LENGTH; 
      OCA$OUTL[0] = OUTSMQL;
      IF OUTSMQL NQ 0 
      THEN
        BEGIN 
        TO = FWA + LENGTH;
        MOVEI(OUTSMQL,P<OUTSMQ>,TO);
        SSTRTS(P<OUTSMQ>,0,OUTSMQL);
        END 
      WRITOVL;
  
# 
*     GET THE INCALL REQUEST PROCESSING OVERLAY.
*     CALCULATE THE ADDED LENGTH NEEDED TO APPEND THE INCALL
*     RECORD TO THE OVERLAY. INITIALIZE THE POINTER ADDRESS 
*     AND LENGTH VARIABLES IN THE LABELLED COMMON BLOCK NVFIN.
*     WRITE THE OVERLAY TO THE OVERLAY FILE.
# 
  
      OVN$NUM[0] = AAR$NAM; 
      ADDLEN = INSMQL;
      GET$OVL;
      P<EAHPM> = FWA; 
      P<ICALL> = FWA + 4 + EAH$NEP[0];
      ICA$IN[0] = LOADBASE + LENGTH;
      ICA$INL[0] = INSMQL;
      IF INSMQL NQ 0
      THEN
        BEGIN 
        TO = FWA + LENGTH;
        MOVEI(INSMQL,P<INSMQ>,TO);
        SSTRTS(P<INSMQ>,0,INSMQL);
        END 
      WRITOVL;
  
      END # NVFIBOF # 
      TERM
