Examples of org.apache.derby.iapi.sql.dictionary.GenericDescriptorList

• org.apache.derby.iapi.sql.dictionary.GenericDescriptorList

  {
    boolean[]  needsDeferredProcessing = new boolean[1];
    needsDeferredProcessing[0] = requiresDeferredProcessing();

    Vector    conglomVector = new Vector();
    relevantTriggers = new GenericDescriptorList();

    FormatableBitSet  columnMap = DeleteNode.getDeleteReadMap(baseTable, conglomVector, relevantTriggers, needsDeferredProcessing );

    markAffectedIndexes( conglomVector );

    /* Get an exclusive table lock on the table. */
    long heapId = td.getHeapConglomerateId();
    lockTableForDDL(tc, heapId, true);

    /* Drop the triggers */
    GenericDescriptorList tdl = dd.getTriggerDescriptors(td);
    Enumeration descs = tdl.elements();
    while (descs.hasMoreElements())
    {
      TriggerDescriptor trd = (TriggerDescriptor) descs.nextElement();
            trd.drop(lcc);
    }

  private GenericDescriptorList getAllTriggerDescriptors()
    throws StandardException
  {
    TabInfoImpl          ti = getNonCoreTI(SYSTRIGGERS_CATALOG_NUM);

    GenericDescriptorList list = new GenericDescriptorList();

    getDescriptorViaHeap(
            (ScanQualifier[][]) null,
            ti,
            (TupleDescriptor) null,

   * @exception StandardException    Thrown on failure
   */
  public GenericDescriptorList getTriggerDescriptors(TableDescriptor td)
    throws StandardException
  {
    GenericDescriptorList  gdl;

    if (td == null)
    {
      return getAllTriggerDescriptors();
    }

    /* Build the TableDescriptor's TDL if it is currently empty */
    gdl = td.getTriggerDescriptorList();

    /*
    ** Synchronize the building of the TDL.  The TDL itself is created
    ** empty when the TD is created, so there is no need to synchronize
    ** the getting of the TDL.
    */
    synchronized(gdl)
    {
      if (!gdl.getScanned())
      {
        getTriggerDescriptorsScan(td, false);
      }
    }

   * @exception StandardException    Thrown on failure
   */
   private void getTriggerDescriptorsScan(TableDescriptor td, boolean forUpdate)
      throws StandardException
  {
    GenericDescriptorList    gdl = (td).getTriggerDescriptorList();
    DataValueDescriptor    tableIDOrderable = null;
    TabInfoImpl          ti = getNonCoreTI(SYSTRIGGERS_CATALOG_NUM);

    /* Use tableIDOrderable in both start and stop positions for scan */
    tableIDOrderable = getIDValueAsCHAR(td.getUUID());

    /* Set up the start/stop position for the scan */
    ExecIndexRow keyRow = (ExecIndexRow) exFactory.getIndexableRow(1);

    keyRow.setColumn(1, tableIDOrderable);

    getDescriptorViaIndex(
          SYSTRIGGERSRowFactory.SYSTRIGGERS_INDEX3_ID,
          keyRow,
          (ScanQualifier [][]) null,
          ti,
          (TupleDescriptor) null,
          gdl,
          forUpdate);
    gdl.setScanned(true);
  }

    )
    throws StandardException
  {
    if ( relevantTriggers !=  null ) { return relevantTriggers; }

    relevantTriggers =  new GenericDescriptorList();

    if(!includeTriggers)
      return relevantTriggers;

    td.getAllRelevantTriggers( statementType, changedColumnIds, relevantTriggers );

    boolean[]  needsDeferredProcessing = new boolean[1];
    needsDeferredProcessing[0] = requiresDeferredProcessing();

    Vector    conglomVector = new Vector();
    relevantCdl = new ConstraintDescriptorList();
    relevantTriggers =  new GenericDescriptorList();

    FormatableBitSet  columnMap = getUpdateReadMap
            (
             baseTable, updateColumnList, conglomVector, relevantCdl,
             relevantTriggers, needsDeferredProcessing, affectedGeneratedColumns );

    }

    //Now go through each trigger on this table and see if the column
    //being dropped is part of it's trigger columns or trigger action
    //columns which are used through REFERENCING clause
    GenericDescriptorList tdl = dd.getTriggerDescriptors(td);
    Enumeration descs = tdl.elements();
    while (descs.hasMoreElements())
    {
      TriggerDescriptor trd = (TriggerDescriptor) descs.nextElement();
      //If we find that the trigger is dependent on the column being
      //dropped because column is part of trigger columns list, then
      //we will give a warning or drop the trigger based on whether
      //ALTER TABLE DROP COLUMN is RESTRICT or CASCADE. In such a
      //case, no need to check if the trigger action columns referenced
      //through REFERENCING clause also used the column being dropped.
      boolean triggerDroppedAlready = false;

      int[] referencedCols = trd.getReferencedCols();
      if (referencedCols != null) {
        int refColLen = referencedCols.length, j;
        boolean changed = false;
        for (j = 0; j < refColLen; j++)
        {
          if (referencedCols[j] > droppedColumnPosition)
                  {
            //Trigger is not defined on the column being dropped
            //but the column position of trigger column is changing
            //because the position of the column being dropped is
            //before the the trigger column
            changed = true;
                  }
          else if (referencedCols[j] == droppedColumnPosition)
          {
            //the trigger is defined on the column being dropped
            if (cascade)
            {
                          trd.drop(lcc);
                          triggerDroppedAlready = true;
              activation.addWarning(
                StandardException.newWarning(
                                  SQLState.LANG_TRIGGER_DROPPED,
                                  trd.getName(), td.getName()));
            }
            else
            {  // we'd better give an error if don't drop it,
              // otherwsie there would be unexpected behaviors
              throw StandardException.newException(
                              SQLState.LANG_PROVIDER_HAS_DEPENDENT_OBJECT,
                              dm.getActionString(DependencyManager.DROP_COLUMN),
                              columnName, "TRIGGER",
                              trd.getName() );
            }
            break;
          }
        }

        // The following if condition will be true if the column
        // getting dropped is not a trigger column, but one or more
        // of the trigge column's position has changed because of
        // drop column.
        if (j == refColLen && changed)
        {
          dd.dropTriggerDescriptor(trd, tc);
          for (j = 0; j < refColLen; j++)
          {
            if (referencedCols[j] > droppedColumnPosition)
              referencedCols[j]--;
          }
          dd.addDescriptor(trd, sd,
                   DataDictionary.SYSTRIGGERS_CATALOG_NUM,
                   false, tc);
        }
      }

      // If the trigger under consideration got dropped through the
      // loop above, then move to next trigger
      if (triggerDroppedAlready) continue;

      // Column being dropped is not one of trigger columns. Check if
      // that column is getting used inside the trigger action through
      // REFERENCING clause. This can be tracked only for triggers
      // created in 10.7 and higher releases. Derby releases prior to
      // that did not keep track of trigger action columns used
      // through the REFERENCING clause.
      int[] referencedColsInTriggerAction = trd.getReferencedColsInTriggerAction();
      if (referencedColsInTriggerAction != null) {
        int refColInTriggerActionLen = referencedColsInTriggerAction.length, j;
        boolean changedColPositionInTriggerAction = false;
        for (j = 0; j < refColInTriggerActionLen; j++)
        {
          if (referencedColsInTriggerAction[j] > droppedColumnPosition)
          {
            changedColPositionInTriggerAction = true;
          }
          else if (referencedColsInTriggerAction[j] == droppedColumnPosition)
          {
            if (cascade)
            {
                          trd.drop(lcc);
                          triggerDroppedAlready = true;
              activation.addWarning(
                StandardException.newWarning(
                                  SQLState.LANG_TRIGGER_DROPPED,
                                  trd.getName(), td.getName()));
            }
            else
            {  // we'd better give an error if don't drop it,
              throw StandardException.newException(
                              SQLState.LANG_PROVIDER_HAS_DEPENDENT_OBJECT,
                              dm.getActionString(DependencyManager.DROP_COLUMN),
                              columnName, "TRIGGER",
                              trd.getName() );
            }
            break;
          }
        }

        // change trigger to refer to columns in new positions
        // The following if condition will be true if the column
        // getting dropped is not getting used in the trigger action
        // sql through the REFERENCING clause but one or more of those
        // column's position has changed because of drop column.
        // This applies only to triggers created with 10.7 and higher.
        // Prior to that, Derby did not keep track of the trigger
        // action column used through the REFERENCING clause. Such
        // triggers will be caught later on in this method after the
        // column has been actually dropped from the table descriptor.
        if (j == refColInTriggerActionLen && changedColPositionInTriggerAction)
        {
          dd.dropTriggerDescriptor(trd, tc);
          for (j = 0; j < refColInTriggerActionLen; j++)
          {
            if (referencedColsInTriggerAction[j] > droppedColumnPosition)
              referencedColsInTriggerAction[j]--;
          }
          dd.addDescriptor(trd, sd,
               DataDictionary.SYSTRIGGERS_CATALOG_NUM,
               false, tc);
        }
      }
    }

    ConstraintDescriptorList csdl = dd.getConstraintDescriptors(td);
    int csdl_size = csdl.size();

    ArrayList newCongloms = new ArrayList();

    // we want to remove referenced primary/unique keys in the second
    // round.  This will ensure that self-referential constraints will
    // work OK.
    int tbr_size = 0;
    ConstraintDescriptor[] toBeRemoved =
            new ConstraintDescriptor[csdl_size];

    // let's go downwards, don't want to get messed up while removing
    for (int i = csdl_size - 1; i >= 0; i--)
    {
      ConstraintDescriptor cd = csdl.elementAt(i);
      int[] referencedColumns = cd.getReferencedColumns();
      int numRefCols = referencedColumns.length, j;
      boolean changed = false;
      for (j = 0; j < numRefCols; j++)
      {
        if (referencedColumns[j] > droppedColumnPosition)
          changed = true;
        if (referencedColumns[j] == droppedColumnPosition)
          break;
      }
      if (j == numRefCols)      // column not referenced
      {
        if ((cd instanceof CheckConstraintDescriptor) && changed)
        {
          dd.dropConstraintDescriptor(cd, tc);
          for (j = 0; j < numRefCols; j++)
          {
            if (referencedColumns[j] > droppedColumnPosition)
              referencedColumns[j]--;
          }
          ((CheckConstraintDescriptor) cd).setReferencedColumnsDescriptor(new ReferencedColumnsDescriptorImpl(referencedColumns));
          dd.addConstraintDescriptor(cd, tc);
        }
        continue;
      }

      if (! cascade)
      {
        // Reject the DROP COLUMN, because there exists a constraint
        // which references this column.
        //
        throw StandardException.newException(
                        SQLState.LANG_PROVIDER_HAS_DEPENDENT_OBJECT,
                        dm.getActionString(DependencyManager.DROP_COLUMN),
                        columnName, "CONSTRAINT",
                        cd.getConstraintName() );
      }

      if (cd instanceof ReferencedKeyConstraintDescriptor)
      {
        // restrict will raise an error in invalidate if referenced
        toBeRemoved[tbr_size++] = cd;
        continue;
      }

      // drop now in all other cases
      dm.invalidateFor(cd, DependencyManager.DROP_CONSTRAINT,
                  lcc);

      dropConstraint(cd, td, newCongloms, activation, lcc, true);
      activation.addWarning(
                StandardException.newWarning(SQLState.LANG_CONSTRAINT_DROPPED,
        cd.getConstraintName(), td.getName()));
    }

    for (int i = tbr_size - 1; i >= 0; i--)
    {
      ConstraintDescriptor cd = toBeRemoved[i];
      dropConstraint(cd, td, newCongloms, activation, lcc, false);

      activation.addWarning(
                StandardException.newWarning(SQLState.LANG_CONSTRAINT_DROPPED,
                cd.getConstraintName(), td.getName()));

      if (cascade)
      {
        ConstraintDescriptorList fkcdl = dd.getForeignKeys(cd.getUUID());
        for (int j = 0; j < fkcdl.size(); j++)
        {
          ConstraintDescriptor fkcd =
                        (ConstraintDescriptor) fkcdl.elementAt(j);

          dm.invalidateFor(fkcd,
                  DependencyManager.DROP_CONSTRAINT,
                  lcc);

          dropConstraint(fkcd, td,
            newCongloms, activation, lcc, true);

          activation.addWarning(
                        StandardException.newWarning(
                            SQLState.LANG_CONSTRAINT_DROPPED,
                fkcd.getConstraintName(),
                            fkcd.getTableDescriptor().getName()));
        }
      }

      dm.invalidateFor(cd, DependencyManager.DROP_CONSTRAINT, lcc);
      dm.clearDependencies(lcc, cd);
    }

    /* If there are new backing conglomerates which must be
     * created to replace a dropped shared conglomerate
     * (where the shared conglomerate was dropped as part
     * of a "drop constraint" call above), then create them
     * now.  We do this *after* dropping all dependent
     * constraints because we don't want to waste time
     * creating a new conglomerate if it's just going to be
     * dropped again as part of another "drop constraint".
     */
    createNewBackingCongloms(newCongloms, (long[])null);

        /*
         * The work we've done above, specifically the possible
         * dropping of primary key, foreign key, and unique constraints
         * and their underlying indexes, may have affected the table
         * descriptor. By re-reading the table descriptor here, we
         * ensure that the compressTable code is working with an
         * accurate table descriptor. Without this line, we may get
         * conglomerate-not-found errors and the like due to our
         * stale table descriptor.
         */
    td = dd.getTableDescriptor(tableId);

        compressTable();

    ColumnDescriptorList tab_cdl = td.getColumnDescriptorList();

    // drop the column from syscolumns
    dd.dropColumnDescriptor(td.getUUID(), columnName, tc);
    ColumnDescriptor[] cdlArray =
            new ColumnDescriptor[size - columnDescriptor.getPosition()];

    // For each column in this table with a higher column position,
    // drop the entry from SYSCOLUMNS, but hold on to the column
    // descriptor and reset its position to adjust for the dropped
    // column. Then, re-add all those adjusted column descriptors
    // back to SYSCOLUMNS
    //
    for (int i = columnDescriptor.getPosition(), j = 0; i < size; i++, j++)
    {
      ColumnDescriptor cd = (ColumnDescriptor) tab_cdl.elementAt(i);
      dd.dropColumnDescriptor(td.getUUID(), cd.getColumnName(), tc);
      cd.setPosition(i);
      if (cd.isAutoincrement())
      {
        cd.setAutoinc_create_or_modify_Start_Increment(
            ColumnDefinitionNode.CREATE_AUTOINCREMENT);
      }

      cdlArray[j] = cd;
    }
    dd.addDescriptorArray(cdlArray, td,
                DataDictionary.SYSCOLUMNS_CATALOG_NUM, false, tc);

    List deps = dd.getProvidersDescriptorList(td.getObjectID().toString());
    for (Iterator depsIterator = deps.listIterator();
             depsIterator.hasNext();)
    {
      DependencyDescriptor depDesc =
                (DependencyDescriptor) depsIterator.next();

      DependableFinder finder = depDesc.getProviderFinder();
      if (finder instanceof DDColumnDependableFinder)
      {
        DDColumnDependableFinder colFinder =
                    (DDColumnDependableFinder) finder;
        FormatableBitSet oldColumnBitMap =
                    new FormatableBitSet(colFinder.getColumnBitMap());
        FormatableBitSet newColumnBitMap =
                    new FormatableBitSet(oldColumnBitMap);
        newColumnBitMap.clear();
        int bitLen = oldColumnBitMap.getLength();
        for (int i = 0; i < bitLen; i++)
        {
          if (i < droppedColumnPosition && oldColumnBitMap.isSet(i))
            newColumnBitMap.set(i);
          if (i > droppedColumnPosition && oldColumnBitMap.isSet(i))
            newColumnBitMap.set(i - 1);
        }
        if (newColumnBitMap.equals(oldColumnBitMap))
          continue;
        dd.dropStoredDependency(depDesc, tc);
        colFinder.setColumnBitMap(newColumnBitMap.getByteArray());
        dd.addDescriptor(depDesc, null,
                 DataDictionary.SYSDEPENDS_CATALOG_NUM,
                 true, tc);
      }
    }
    // Adjust the column permissions rows in SYSCOLPERMS to reflect the
    // changed column positions due to the dropped column:
    dd.updateSYSCOLPERMSforDropColumn(td.getUUID(), tc, columnDescriptor);

        // remove column descriptor from table descriptor. this fixes up the
        // list in case we were called recursively in order to cascade-drop a
        // dependent generated column.
        tab_cdl.remove( td.getColumnDescriptor( columnName ) );

        // By this time, the column has been removed from the table descriptor.
        // Now, go through all the triggers and regenerate their trigger action
        // SPS and rebind the generated trigger action sql. If the trigger
        // action is using the dropped column, it will get detected here. If
        // not, then we will have generated the internal trigger action sql
        // which matches the trigger action sql provided by the user.
        //
        // eg of positive test case
        // create table atdc_16_tab1 (a1 integer, b1 integer, c1 integer);
        // create table atdc_16_tab2 (a2 integer, b2 integer, c2 integer);
        // create trigger atdc_16_trigger_1
        //    after update of b1 on atdc_16_tab1
        //    REFERENCING NEW AS newt
        //    for each row
        //    update atdc_16_tab2 set c2 = newt.c1
        // The internal representation for the trigger action before the column
        // is dropped is as follows
        //    update atdc_16_tab2 set c2 =
        //   org.apache.derby.iapi.db.Factory::getTriggerExecutionContext().
        //   getONewRow().getInt(3)
        // After the drop column shown as below
        //   alter table DERBY4998_SOFT_UPGRADE_RESTRICT drop column c11
        // The above internal representation of tigger action sql is not
        // correct anymore because column position of c1 in atdc_16_tab1 has
        // now changed from 3 to 2. Following while loop will regenerate it and
        // change it to as follows
        //    update atdc_16_tab2 set c2 =
        //   org.apache.derby.iapi.db.Factory::getTriggerExecutionContext().
        //   getONewRow().getInt(2)
        //
        // We could not do this before the actual column drop, because the
        // rebind would have still found the column being dropped in the
        // table descriptor and hence use of such a column in the trigger
        // action rebind would not have been caught.
    GenericDescriptorList tdlAfterColumnDrop = dd.getTriggerDescriptors(td);
    Enumeration descsAfterColumnDrop = tdlAfterColumnDrop.elements();
    while (descsAfterColumnDrop.hasMoreElements())
    {
      TriggerDescriptor trd = (TriggerDescriptor) descsAfterColumnDrop.nextElement();
      dd.dropTriggerDescriptor(trd, tc);

        }
      }
    }

    //truncate is not allowed when there are enabled DELETE triggers
    GenericDescriptorList tdl = dd.getTriggerDescriptors(td);
    Enumeration descs = tdl.elements();
    while (descs.hasMoreElements())
    {
      TriggerDescriptor trd = (TriggerDescriptor) descs.nextElement();
      if (trd.listensForEvent(TriggerDescriptor.TRIGGER_EVENT_DELETE) &&
        trd.isEnabled())

      dm.clearDependencies(
                lcc, columnDescriptor.getDefaultDescriptor(dd));
    }

    // need to deal with triggers if has referencedColumns
    GenericDescriptorList tdl = dd.getTriggerDescriptors(td);
    Enumeration descs = tdl.elements();
    while (descs.hasMoreElements())
    {
      TriggerDescriptor trd = (TriggerDescriptor) descs.nextElement();
      int[] referencedCols = trd.getReferencedCols();
      if (referencedCols == null)