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PACKET spool manager DEFINES                        (* Autor: J. Liedtke *)
                                                    (*        R. Nolting *) 
                                                    (*        R. Ruland  *)
                                                    (* Stand: 22.07.86   *)
 
    spool manager ,
 
    server channel ,
    spool duty,
    station only, 
    spool control task :
 
LET que size           = 101 ,

    ack                = 0 ,
    nak                = 1 ,
    error nak          = 2 ,
    message ack        = 3 , 
    question ack       = 4 ,
    second phase ack   = 5 ,
    false code         = 6 ,

    fetch code         = 11 ,
    save code          = 12 ,
    exists code        = 13 ,
    erase code         = 14 ,
    list code          = 15 ,
    all code           = 17 ,
    param fetch code   = 21 ,
    file save code     = 22 ,
    entry line code    = 23 ,
    killer code        = 24 , 
    first code         = 25 ,
    start code         = 26 , 
    stop code          = 27 ,
    halt code          = 28 ,
    wait for halt code = 29 ,
 
    continue code      = 100 ,
 
    file type          = 1003 ;

LET begin char  =  ""0"",
    end char    =  ""1"";

LET PARAMS  =  STRUCT (TEXT name, userid, password, sendername, INT station),
    ENTRY   =  STRUCT (PARAMS ds params, TEXT entry line, DATASPACE space);
 
ROW que size ENTRY VAR que ;

PARAMS CONST empty params := PARAMS : ("", "", "", "", -1);
 
PARAMS VAR save params, file save params;
 
ENTRY VAR fetch entry;
 
FILE VAR file;
 
INT VAR order, last order, phase, reply, old heap size, first, last, list index, 
        begin pos, end pos, order task station, sp channel, counter;
 
TEXT VAR order task name, buffer, sp duty, start time;
 
BOOL VAR server is waiting, stop command pending, stat only, valid fetch entry;
 
TASK VAR order task, last order task, server, calling parent, task in control; 
 
INITFLAG VAR in this task := FALSE;
 
DATASPACE VAR ds;

BOUND STRUCT (TEXT name, userid, password) VAR msg;
BOUND STRUCT (TEXT entry line, INT index) VAR control msg;
BOUND PARAMS VAR fetch msg;
BOUND THESAURUS VAR all msg;
BOUND TEXT VAR error msg ;
 
 
. first entry   :  que (first)
. list  entry   :  que (list index)
. last  entry   :  que (last)
 
. que is empty  :  first = last 
. que is full   :  first = next (last) 
.; 
 
sp channel      := 0;
sp duty         := ""; 
stat only       := FALSE;
task in control := myself;
 
PROC server channel (INT CONST channel nr) :
     IF channel nr <= 0 OR channel nr >= 33
        THEN errorstop ("falsche Kanalangabe") FI;
     sp channel := channel nr;
END PROC server channel;
 
INT PROC server channel :
     sp channel 
END PROC server channel;
 
 
PROC station only (BOOL CONST flag) :
     stat only := flag
END PROC station only;
 
BOOL PROC station only : 
     stat only 
END PROC station only;
 
 
PROC spool duty (TEXT CONST duty) :
     sp duty := duty;
END PROC spool duty;
 
TEXT PROC spool duty :
     sp duty
END PROC spool duty;
 
 
PROC spool control task (TASK CONST task id):
     task in control := task id;
END PROC spool control task;
 
TASK PROC spool control task :
     task in control
END PROC spool control task;
 
 
PROC spool manager (PROC server start) :
 
  spool manager (PROC server start, TRUE) 
 
END PROC spool manager;
 
 
PROC spool manager (PROC server start, BOOL CONST with start) :

  set autonom ;
  break ;
  disable stop ;
  initialize spool manager ;
  REP forget (ds) ;
      wait (ds, order, order task) ;
      IF   order <> second phase ack
         THEN prepare first phase ;
              spool (PROC server start); 
      ELIF order task = last order task
         THEN prepare second phase ;
              spool (PROC server start); 
         ELSE send nak
      FI ;
      send error if necessary ;
      collect heap garbage if necessary
  PER 
 
  . initialize spool manager :
      initialize if necessary;
      stop;
      erase fetch entry;
      IF with start THEN start (PROC server start) FI;
 
  . initialize if necessary :
      IF NOT initialized (in this task)
         THEN FOR list index FROM 1 UPTO que size 
              REP list entry. space := nilspace PER;
              fetch entry. space    := nilspace;
              ds                    := nilspace;
              last order task       := niltask;
              server                := niltask; 
              calling parent        := niltask;
              server is waiting     := FALSE;
              stop command pending  := FALSE;
              old heap size         := 0;
              clear spool;
      FI;

  . prepare first phase :
      IF order = save code OR order = erase code OR order = stop code
         THEN phase := 1 ;
              last order := order ;
              last order task := order task ;
      FI;
 
  . prepare second phase :
      phase INCR 1 ;
      order := last order 

  . send nak :
      forget (ds) ;
      ds := nilspace ;
      send (order task, nak, ds);
 
  . send error if necessary :
      IF is error
         THEN forget (ds) ;
              ds := nilspace ;
              error msg := ds ;
              CONCR (error msg) := error message;
              clear error;
              send (order task, error nak, ds) 
     FI;
 
  . collect heap garbage if necessary :
      IF heap size > old heap size + 2
         THEN collect heap garbage;
              old heap size := heap size;
      FI; 
 
END PROC spool manager;
 
 
PROC spool (PROC server start):
 
  command dialogue (FALSE);
  enable stop;
  IF station only CAND station (ordertask) <> station (myself)
     THEN errorstop ("kein Zugriffsrecht auf Task " + text (station(myself))
                      + "/""" + name(myself) + """") 
  FI;
 
  SELECT order OF
 
    CASE fetch code        :  out of que
    CASE param fetch code  :  send fetch params
    CASE save code         :  new que entry
    CASE file save code    :  new file que entry 
    CASE exists code       :  exists que entry
    CASE erase code        :  erase que entry
    CASE list code         :  send spool list
    CASE all code          :  send owners ds names
 
    OTHERWISE :
 
       IF   order >= continue code AND order task = supervisor
            THEN forget (ds);
                 spool command (PROC server start)
 
       ELIF spool control allowed by order task 
            THEN SELECT order OF
                   CASE entry line code    :  send next entry line 
                   CASE killer code        :  kill entry 
                   CASE first code         :  make to first
                   CASE start code         :  start server 
                   CASE stop code          :  stop server
                   CASE halt code          :  halt server
                   CASE wait for halt code :  wait for halt
                   OTHERWISE : errorstop ("falscher Auftrag fuer Task """
                                                      + name(myself) + """") 
                 END SELECT
 
            ELSE errorstop ("falscher Auftrag fuer Task """
                                                      + name(myself) + """") 
       FI;
  END SELECT;
 
 
. spool control allowed by order task :
    (order task = spool control task OR order task < spool control task
       OR spool control task = supervisor)
         AND station (order task) = station (myself)
. 
  out of que :
    IF   NOT (order task = server)
         THEN errorstop ("keine Servertask")
    ELIF stop command pending 
         THEN forget (ds);
              stop;
              erase fetch entry;
    ELIF que is empty
         THEN forget (ds) ;
              erase fetch entry;
              server is waiting := TRUE;
         ELSE send first entry;
    FI;
 
. 
  send fetch params :
    IF order task = server
       THEN send params
       ELSE errorstop ("keine Servertask")
    FI;
 
    . send params :
        forget(ds); ds := nilspace; fetch msg := ds;
        fetch msg := fetch entry. ds params;
        send (order task, ack, ds);
 
. 
  new que entry :
    IF phase = 1
       THEN prepare into que
       ELSE into que
    FI;
 
.
  prepare into que :
    msg := ds ;
    save params. name       := msg.name;
    save params. userid     := msg.userid;
    save params. password   := msg.password;
    save params. sendername := name (order task);
    save params. station    := station (order task);
    forget (ds); ds := nilspace;
    send (order task, second phase ack, ds);
 
. 
  new file que entry :
    IF type (ds) <> file type
       THEN errorstop ("Datenraum hat falschen Typ");
       ELSE get file params;
            into que;
    FI;
 
    . get file params :
        file := sequential file (input, ds);
        end pos := 0;
        next headline information (file save params. name); 
        next headline information (file save params. userid); 
        next headline information (file save params. password); 
        next headline information (file save params. sendername); 
        next headline information (buffer);
        file save params. station := int (buffer);
        IF NOT last conversion ok
           THEN file save params. station    := station (order task) FI;
        IF file save params. sendername = ""
           THEN file save params. sendername := name    (order task) FI;
        IF file save params. name = ""
           THEN IF headline (file) <> ""
                   THEN file save params. name := headline (file);
                   ELSE errorstop ("Name unzulaessig")
                FI;
           ELSE headline (file, file save params. name);
        FI;
 
. 
  exists que entry :
    msg                := ds ;
    order task name    := name (order task);
    order task station := station (order task);
    to first que entry; 
    WHILE next que entry found 
    REP IF is entry from order task (msg. name) 
           THEN send ack;
                LEAVE exists que entry
        FI;
    PER ;
    forget (ds); ds := nilspace;
    send (order task, false code, ds)
 
. 
  erase que entry :
    msg                := ds ;
    order task name    := name (order task);
    order task station := station (order task);
    IF phase = 1
       THEN ask for erase
       ELSE erase entry from order task 
    FI;
 
    . ask for erase :
        to first que entry; 
        WHILE next que entry found 
        REP IF is entry from order task (msg. name) 
               THEN manager question ("""" + msg.name + """ loeschen"); 
                    LEAVE erase que entry
            FI;
        PER ;
        manager message ("""" + msg.name + """ existiert nicht");
 
    . erase entry from order task :
        IF is entry from order task (msg. name) 
           THEN delete que entry; 
                LEAVE erase que entry 
           ELSE to first que entry; 
                WHILE next que entry found 
                REP IF is entry from order task (msg. name) 
                       THEN delete que entry;
                            LEAVE erase que entry 
                    FI ;
                PER ;
                manager message ("""" + msg.name +  """ existiert nicht");
        FI;
 
        . delete que entry :
            erase entry (list index) ;
            send ack;
 
.
  send owners ds names:
     order task name    := name (order task);
     order task station := station (order task);
     forget (ds); ds := nilspace; all msg := ds; 
     all msg := empty thesaurus; 
     to first que entry; 
     WHILE next que entry found 
     REP IF is entry from order task ("")
            THEN insert (all msg, list entry. ds params. name) 
         FI; 
     PER;
     send (order task, ack, ds) 
 
. 
  send spool list :
     list spool;
     send (order task, ack, ds);
 
.
  send next entry line :
    control msg := ds;
    get next entry line (control msg. entry line, control msg. index);
    send (order task, ack, ds);
 
. 
  kill entry :
    control msg := ds;
    list index  := control msg. index;
    IF is valid que entry (list index)
       THEN erase entry (list index)
    FI;
    send (order task, ack, ds);
 
.
  make to first :
    control msg := ds;
    list index  := control msg. index;
    IF is valid que entry (list index)
       THEN new first (list entry);
            erase entry (list index); 
    FI;
    send (order task, ack, ds);
 
.
  start server :
    IF exists (server) THEN errorstop ("Spool muß zuerst gestoppt werden") FI;
    start (PROC server start);
    IF server channel <= 0 OR server channel >= 33
       THEN manager message ("WARNUNG : Serverkanal nicht eingestellt");
       ELSE send ack
    FI;
 
. 
  stop server:
    IF phase = 1
       THEN stop;
            IF valid fetch entry
               THEN valid fetch entry := FALSE;
                    manager question (""13""10"" +
                          fetch entry. entry line + "   neu eintragen");
               ELSE erase fetch entry;
                    send ack;
            FI;
       ELSE IF fetch entry. entry line <> "" THEN new first (fetch entry) FI;
            erase fetch entry; 
            send ack;
    FI;
 
. 
  halt server :
    stop command pending := TRUE; 
    IF NOT exists (server) OR server is waiting
       THEN stop;
            erase fetch entry;
    FI;
    send ack;

.
  wait for halt :
    IF exists (calling parent)
       THEN errorstop ("Task """ + name (calling parent) + """ wartet schon auf halt")
       ELSE calling parent := order task;
            stop command pending := TRUE;
            forget (ds);
            IF NOT exists (server) OR server is waiting
            THEN stop;
                 erase fetch entry;
            FI;
    FI;
 
END PROC spool;
 

PROC  send first entry :
 
  forget (ds); ds := first entry. space;
  send (server, ack, ds, reply) ;
  IF reply = ack
     THEN server is waiting := FALSE;
          start time  := time of day;
          start time CAT " am ";
          start time CAT date;
          erase fetch entry;
          fetch entry := first entry;
          erase entry (first);
          valid fetch entry := TRUE;
     ELSE forget (ds);
  FI;
 
END PROC  send first entry;

 
PROC into que :
 
  IF que is full
     THEN errorstop ("Spool ist voll")
     ELSE make new entry;
          send ack;
          awake server if necessary
  FI;
 
  . make new entry :
      IF order = save code
         THEN last entry. ds params  := save params;
              save params := empty params;
         ELSE last entry. ds params  := file save params;
              file save params := empty params;
      FI;
      last entry. space :=  ds;
      counter INCR 1;
      build entry line;
      last := next (last) ;
 
      . build entry line :
          IF LENGTH last entry. ds params. sender name > 16
             THEN buffer := subtext (last entry. ds params. sender name, 1, 13);
                  buffer CAT "...""";
             ELSE buffer := last entry. ds params. sender name;
                  buffer CAT """";
                  buffer := text (buffer, 17);
          FI;
          last entry. entry line := entry station text;
          last entry. entry line CAT "/""";
          last entry. entry line CAT buffer;
          last entry. entry line CAT " : """ ;
          last entry. entry line CAT last entry. ds params. name;
          last entry. entry line CAT """  (" ;
          last entry. entry line CAT text (storage (last entry. space));
          last entry. entry line CAT " K)";

          . entry station text :
              IF last entry. ds params. station = 0
                 THEN "   "
                 ELSE text (last entry. ds params. station, 3)
              FI
 
  . awake server if necessary :
      IF server is waiting THEN send first entry FI;
 
END PROC into que;

 
PROC list spool :
 
  forget (ds); ds := nilspace;
  file := sequential file (output, ds) ;
  max line length (file, 1000);
  headline(file, station text + "/""" + name (myself) + """");
  put spool duty;
  put current job;
  put spool que;
 
  . station text :
      IF station(myself) = 0
         THEN ""
         ELSE text (station(myself))
      FI

  . put spool duty :
      IF spool duty <> ""
         THEN write (file, "Aufgabe: ");
              write (file, spool duty );
              line (file, 2);
      FI;
 
  . put current job :
      IF valid fetch entry AND exists (server)
         THEN write (file, "In Bearbeitung seit ");
              write (file, start time);
              write (file, ":");
              line (file, 2);
              putline (file, fetch entry. entry line);
              IF stop command pending
                 THEN putline (file, "Spool wird nach diesem Auftrag deaktiviert");
              FI;
              line (file);
         ELSE write (file, "kein Auftrag in Bearbeitung");
              IF   NOT exists (server)
                   THEN write (file, ", da Spool deaktiviert");
              ELIF que is empty
                   THEN write (file, ", da Warteschlange leer");
                        LEAVE list spool;
              FI;
              line (file, 2);
      FI;
 
  . put spool que :
      IF que is empty
         THEN putline (file, "Warteschlange ist leer");
         ELSE write (file, "Warteschlange (");
              write (file, text (counter));
              write (file, " Auftraege):");
              line (file, 2);
              to first que entry ;
              WHILE next que entry found
              REP putline (file, list entry. entry line) PER;
      FI;
 
END PROC list spool ;
 
 
PROC clear spool :
 
  first                := 1; 
  last                 := 1;
  counter              := 0;
  FOR list index FROM 1 UPTO que size 
  REP list entry. ds params  := empty params;
      list entry. entry line := "";
      forget (list entry. space)
  PER;
 
END PROC clear spool;
 
(*********************************************************************) 
(*  Hilfsprozeduren zum Spoolmanager                                 *)
 
BOOL PROC is valid que entry (INT CONST index) :
 
  que (index). entry line <> ""
 
END PROC is valid que entry;
 
 
INT PROC next (INT CONST index) :
 
  IF index < que size
     THEN index + 1
     ELSE 1
  FI
 
END PROC next;
 
 
PROC to first que entry :
 
  list index := first - 1;
 
ENDPROC to first que entry ;
 
 
BOOL PROC next que entry found :
 
  list index := next (list index);
  WHILE is not last que entry
  REP IF is valid que entry (list index) 
         THEN LEAVE next que entry found WITH TRUE FI;
      list index := next (list index);
  PER;
  FALSE
 
  . is not last que entry :
      list index <> last 
 
ENDPROC next que entry found ;
 
 
PROC get next entry line (TEXT VAR entry line, INT VAR index) :
 
  IF index = 0
     THEN list index := first - 1
     ELSE list index := index
  FI;
  IF next que entry found
     THEN entry line := list entry. entry line;
          index      := list index;
     ELSE entry line := "";
          index      := 0;
  FI;
 
END PROC get next entry line;
 
 
PROC new first (ENTRY VAR new first entry) :
 
  IF que is full
     THEN errorstop ("Spool ist voll")
     ELSE first DECR 1 ;
          IF first = 0 THEN first := que size FI;
          first entry := new first entry;
          counter INCR 1;
  FI;
 
END PROC new first;
 
 
PROC erase entry (INT CONST index) :
 
  entry. ds params  := empty params;
  entry. entry line := "";
  forget (entry.space) ;
  counter DECR 1;
  IF index = first
     THEN inc first
  FI ;

  . entry : que (index) 
 
  . inc first :
      REP first := next (first)
        UNTIL que is empty OR is valid que entry (first) PER
 
END PROC erase entry;
 
 
PROC erase fetch entry :
 
  fetch entry. ds params  := empty params;
  fetch entry. entry line := "";
  forget (fetch entry. space);
  valid fetch entry := FALSE;
 
END PROC erase fetch entry;
 
 
BOOL PROC is entry from order task (TEXT CONST file name) :
 
  correct order task CAND correct filename
 
  . correct order task :
      order task name = list entry. ds params. sendername
          AND order task station = list entry. ds params. station
 
  . correct file name :
      file name = "" OR file name = list entry. ds params. name
 
END PROC is entry from order task; 
 
 
PROC start (PROC server start):
 
  begin (PROC server start, server);
 
END PROC start;

 
PROC stop :
 
  stop server;
  send calling parent reply if necessary;
 
  . stop server:
      IF exists (server) THEN end (server) FI;
      server               := niltask;
      server is waiting    := FALSE;
      stop command pending := FALSE; 
 
  . send calling parent reply if necessary :
      IF exists (calling parent)
         THEN forget (ds); ds := nilspace;
              send (calling parent, ack, ds);
              calling parent  := niltask;
      FI;
 
END PROC stop;
 
 
PROC next headline information (TEXT VAR t):
 
  begin pos := pos (headline (file), begin char, end pos + 1);
  IF begin pos = 0
     THEN begin pos := LENGTH headline (file) + 1;
          t := "";
     ELSE end pos := pos (headline (file), end char, begin pos + 1);
          IF end pos = 0
             THEN end pos := LENGTH headline (file) + 1; 
                  t := "";
             ELSE t := subtext (headline (file), begin pos+1, end pos-1)
          FI
  FI
 
END PROC next headline information;
 
 
PROC send ack :
 
    forget (ds); ds := nilspace;
    send (order task, ack, ds)
 
END PROC send ack;
 
 
PROC manager question (TEXT CONST question) :
 
  forget (ds); ds := nilspace; error msg := ds ;
  error msg := question ;
  send (order task, question ack, ds)
 
ENDPROC manager question ;
 

PROC manager message (TEXT CONST message) :
 
  forget (ds); ds := nilspace; error msg := ds ;
  error msg := message ;
  send (order task, message ack, ds)
 
ENDPROC manager message ;
 
(*********************************************************************) 
(*  Spool - Kommandos                                                *)
 
INT VAR command index , params ;
TEXT VAR command line, param 1, param 2 ;
 
LET spool command list =
"break:1.0start:2.01stop:4.0halt:5.0first:6.0killer:7.0listspool:8.0
clearspool:9.0spoolcontrolby:10.1";
 
PROC spool command (PROC server start) :

  enable stop ;
  continue (order - continue code) ;
  disable stop ;
  REP command dialogue (TRUE) ;
      get command ("gib Spool-Kommando:", command line);
      analyze command (spool command list, command line, 3, command index,
                       params, param1, param2);
      execute command (PROC server start);
  UNTIL NOT online PER;
  command dialogue (FALSE);
  break (quiet);
  set autonom;
 
END PROC spool command;
 
 
PROC execute command (PROC server start) :
 
 enable stop;
 SELECT command index OF 
   CASE 1  :  break
   CASE 2  :  start server 
   CASE 3  :  start server with new channel
   CASE 4  :  stop server
   CASE 5  :  halt server
   CASE 6  :  first cmd
   CASE 7  :  killer cmd
   CASE 8  :  show spool list
   CASE 9  :  clear spool
   CASE 10 :  spool control task (task (param1))
   OTHERWISE  do (command line)
 END SELECT;
 
  . start server :
     IF server channel <= 0 OR server channel >= 33
        THEN line;
             putline ("WARNUNG : Serverkanal nicht eingestellt");
     FI;
     stop server;
     start (PROC server start);
 
  . start server with new channel:
      INT VAR i := int (param1);
      IF last conversion ok 
         THEN server channel (i);
              start server;
         ELSE errorstop ("falsche Kanalangabe")
      FI;
 
  . stop server :
      disable stop;
      stop;
      IF valid fetch entry CAND
             yes (""13""10"" + fetch entry. entry line + "   neu eintragen")
         THEN new first (fetch entry) FI;
      erase fetch entry;
      enable stop;
 
  . halt server :
      stop command pending := TRUE; 
      IF NOT exists (server) OR server is waiting
         THEN stop server;
              erase fetch entry;
      FI;
 
  . first cmd :
      line ;
      to first que entry ;
      WHILE next que entry found
      REP say (list entry. entry line) ;
          IF yes ("   als erstes")
             THEN new first (list entry);
                  erase entry (list index);
                  LEAVE first cmd
          FI ;
      PER;
 
  . killer cmd :
      line ;
      to first que entry ;
      WHILE next que entry found
      REP say (list entry. entry line) ;
          IF yes ("   loeschen") THEN erase entry (list index) FI ;
      PER;
 
  . show spool list :
      list spool;
      disable stop;
      show (file);
      forget (ds);
 
ENDPROC execute command ;
 
ENDPACKET spool manager;