All Downloads are FREE. Search and download functionalities are using the official Maven repository.

org.snmp4j.agent.mo.DefaultMOTable Maven / Gradle / Ivy

/*_############################################################################
  _##
  _##  SNMP4J-Agent - DefaultMOTable.java
  _##
  _##  Copyright (C) 2005-2009  Frank Fock (SNMP4J.org)
  _##
  _##  Licensed under the Apache License, Version 2.0 (the "License");
  _##  you may not use this file except in compliance with the License.
  _##  You may obtain a copy of the License at
  _##
  _##      http://www.apache.org/licenses/LICENSE-2.0
  _##
  _##  Unless required by applicable law or agreed to in writing, software
  _##  distributed under the License is distributed on an "AS IS" BASIS,
  _##  WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  _##  See the License for the specific language governing permissions and
  _##  limitations under the License.
  _##
  _##########################################################################*/


package org.snmp4j.agent.mo;

import java.io.*;
import java.util.*;

import org.snmp4j.*;
import org.snmp4j.agent.*;
import org.snmp4j.agent.io.*;
import org.snmp4j.agent.request.*;
import org.snmp4j.agent.util.*;
import org.snmp4j.log.*;
import org.snmp4j.mp.*;
import org.snmp4j.smi.*;

/**
 * The DefaultMOTable class is the default implementation of the
 * {@link MOTable} class. For most use cases, it is not necessary to customize
 * this class through deriving your own sub-class. Instead, using a different
 * {@link MOTableModel} as table data provider is sufficient.
 * 

* The default table model can be used to hold the data of a SNMP conceptual * table as real tabular data. If you want to implement a virtual table, you * will have to directly implement the interfaces {@link MOTableModel} or * {@link MOMutableTableModel} to access the data based on the actual view. * * @author Frank Fock * @version 1.4 */ public class DefaultMOTable implements MOTable, MOScope, SerializableManagedObject { private static LogAdapter logger = LogFactory.getLogger(DefaultMOTable.class); private OID oid; private MOTableIndex indexDef; private MOColumn[] columns; protected MOTableModel model; private boolean isVolatile; protected WeakHashMap newRows; protected WeakHashMap pendingChanges; protected transient Vector moChangeListeners; protected transient Vector moTableRowListeners; private transient WeakHashMap walkCache; private static Comparator columnComparator = new Comparator() { public int compare(Object o1, Object o2) { int id1 = (o1 instanceof MOColumn) ? ((MOColumn)o1).getColumnID() : ((Integer)o1).intValue(); int id2 = (o2 instanceof MOColumn) ? ((MOColumn)o2).getColumnID() : ((Integer)o2).intValue(); return id1 - id2; } }; public DefaultMOTable(OID oid, MOTableIndex indexDef, MOColumn[] columns) { this(oid, indexDef, columns, new DefaultMOMutableTableModel()); } /** * Creates a new SNMP table with the specified "Entry" OID, INDEX, columns, * and {@link MOTableModel}. * * @param oid * the OID of the SNMP table's Entry object. If the table is ifTable * (1.3.6.1.2.1.2.2) then the OID to provide is 1.3.6.1.2.1.2.2.1 * which is the ifEntry OID. By SMI rule, you can simply append ".1" to * the table OID. * @param indexDef * the index definition of the table based on the INDEX clause of the * table MIB definition. * @param columns * the column definitions which may also include non-accessible columns. * @param model * the table model holding the table data. */ public DefaultMOTable(OID oid, MOTableIndex indexDef, MOColumn[] columns, MOTableModel model) { this.oid = oid; this.indexDef = indexDef; this.columns = columns; this.model = model; registerColumns(); } private void registerColumns() { for (int i=0; inull will be returned. * @param index * the index OID of the new row. * @param initialValues * the initial values that should be assigned to the new row. If the array * contains less values than this table has columns, default values will * be created for the missing columns. * @return * the created MOTableRow instance or null if * the row cannot be created. */ public MOTableRow createRow(OID index, Variable[] initialValues) { if (model instanceof MOMutableTableModel) { Variable[] values = initialValues; if (values.length < getColumnCount()) { values = getDefaultValues(); System.arraycopy(initialValues, 0, values, 0, initialValues.length); } MOTableRow row = ((MOMutableTableModel)model).createRow(index, values); MOTableRowEvent rowEvent = new MOTableRowEvent(this, this, row, MOTableRowEvent.CREATE, true); fireRowChanged(rowEvent); if (rowEvent.getVetoStatus() == SnmpConstants.SNMP_ERROR_SUCCESS) { return row; } } return null; } public MOTableRow createRow(OID index) { return createRow(index, getDefaultValues()); } /** * Adds the supplied row to the underlying table model and fires the * appropriate {@link MOTableRowEvent}. Since this method is typically * called during the commit phase of a SET request that creates a table, * it should be avoided to return an error here. Instead, error checking * should be placed in the {@link #prepare} method. * @param row * the MOTableRow to add. * @return * true if the row has been added or false * if it could not be added. */ public boolean addRow(MOTableRow row) { if (model instanceof MOMutableTableModel) { MOTableRowEvent rowEvent = new MOTableRowEvent(this, this, row, MOTableRowEvent.ADD, true); fireRowChanged(rowEvent); if (rowEvent.getVetoStatus() == SnmpConstants.SNMP_ERROR_SUCCESS) { ((MOMutableTableModel)model).addRow(row); return true; } } return false; } public MOTableRow removeRow(OID index) { if (model instanceof MOMutableTableModel) { MOTableRow row = model.getRow(index); if (row == null) { return null; } MOTableRowEvent rowEvent = new MOTableRowEvent(this, this, row, MOTableRowEvent.DELETE, true); fireRowChanged(rowEvent); if (rowEvent.getVetoStatus() == SnmpConstants.SNMP_ERROR_SUCCESS) { return ((MOMutableTableModel)model).removeRow(index); } } return null; } /** * Removes all rows from this table. Before a row is removed the * corresponding DELETE event is fired and listeners may veto these * events for all rows. Only if there is no veto, a row will be deleted. * The number of deleted rows is then returned. * @return * the number of removed rows or -1 if the table model does not support * row removal. */ public int removeAll() { int count = 0; if (model instanceof MOMutableTableModel) { while (model.getRowCount() > 0) { MOTableRow row = model.firstRow(); if (row != null) { MOTableRowEvent rowEvent = new MOTableRowEvent(this, this, row, MOTableRowEvent.DELETE, true); fireRowChanged(rowEvent); if (rowEvent.getVetoStatus() == SnmpConstants.SNMP_ERROR_SUCCESS) { ((MOMutableTableModel) model).removeRow(row.getIndex()); } count++; } } } else { count = -1; } return count; } public void commit(SubRequest request) { OID cellOID = request.getVariableBinding().getOid(); MOTableCellInfo cell = getCellInfo(cellOID); MOMutableColumn col = (MOMutableColumn) getColumn(cell.getColumn()); if (logger.isDebugEnabled()) { logger.debug("Committing sub-request ("+ request.getVariableBinding()+") for column: "+col); } // Make sure changes are atomic -> sync whole table model synchronized (model) { MOMutableTableRow row; if (hasNewRows(request.getRequest())) { row = (MOMutableTableRow) getNewRows(request.getRequest()).get(cell.getIndex()); if (!addRow(row)) { request.setErrorStatus(PDU.resourceUnavailable); return; } } else { row = (MOMutableTableRow) model.getRow(cell.getIndex()); } Variable oldValue = null; if (moChangeListeners != null) { oldValue = row.getValue(cell.getColumn()); MOChangeEvent changeEvent = new MOChangeEvent(this, new CellProxy(cell), cell.getCellOID(), oldValue, request.getVariableBinding().getVariable(), false); fireBeforeMOChange(changeEvent); } ChangeSet changeSet = getPendingChangeSet(request, cell.getIndex()); // commit col.commit(request, row, changeSet, cell.getColumn()); if (moChangeListeners != null) { MOChangeEvent changeEvent = new MOChangeEvent(this, new CellProxy(cell), cell.getCellOID(), oldValue, request.getVariableBinding().getVariable(), false); fireAfterMOChange(changeEvent); } if (isChangeSetComplete(request, cell.getIndex(), cell.getColumn())) { if (row instanceof MOMutableRow2PC) { ((MOMutableRow2PC) row).commitRow(request, changeSet); } if (moTableRowListeners != null) { MOTableRowEvent rowEvent = new MOTableRowEvent(this, this, row, MOTableRowEvent.UPDATED); fireRowChanged(rowEvent); } } } } public final OID getIndexPart(OID anyOID) { int offset = oid.size()+1; if ((anyOID.size() <= offset) || (!anyOID.startsWith(oid))) { return null; } return new OID(anyOID.getValue(), offset, anyOID.size() - offset); } public OID getCellOID(OID index, int col) { OID retval = new OID(oid); retval.append(columns[col].getColumnID()); retval.append(index); return retval; } private MOTableCellInfo getNextCell(int col, OID indexLowerBound, boolean isLowerBoundIncluded) { for (int i=col; i 0) { // the specified index does not exists so we can use this next one: return new CellInfo(row.getIndex(), i, columns[i].getColumnID(), row); } } indexLowerBound = null; isLowerBoundIncluded = true; if (it.hasNext()) { MOTableRow row = (MOTableRow) it.next(); if (row == null) { continue; } return new CellInfo(row.getIndex(), i, columns[i].getColumnID(), row); } } } return null; } public OID find(MOScope range) { MOTableCellInfo cellInfo = findCell(range, null); if (cellInfo != null) { return cellInfo.getCellOID(); } return null; } protected MOTableCellInfo findCell(MOScope range, SubRequest request) { synchronized (model) { update(range, request); // determine column if (model.getRowCount() == 0) { return null; } MOTableCellInfo cellInfo = getCellInfo(range.getLowerBound()); int col = cellInfo.getColumn(); boolean exactMatch = true; if (col < 0) { col = (-col) - 1; exactMatch = false; } if (col >= columns.length) { return null; } boolean lowerIncluded = (!exactMatch) || range.isLowerIncluded(); RowCacheEntry rowEntry = null; if (request != null) { rowEntry = getWalkCacheEntry(request, cellInfo, lowerIncluded); } MOTableCellInfo next; if (rowEntry != null) { next = new CellInfo(rowEntry.row.getIndex(), col, cellInfo.getColumnID(), rowEntry.row); } else { next = getNextCell(col, cellInfo.getIndex(), lowerIncluded); if ((request != null) && (next != null) && (next.getColumn() == col)) { addWalkCacheEntry(request, cellInfo.getIndex(), lowerIncluded, ((CellInfo)next).row); } } if (next != null) { OID cellOID = next.getCellOID(); if (range.isCovered(new OIDScope(cellOID))) { return next; } } } return null; } private void addWalkCacheEntry(SubRequest request, OID lowerBound, boolean lowerIncluded, MOTableRow row) { if (walkCache == null) { walkCache = new WeakHashMap(4); } walkCache.put(request.getRequest(), new RowCacheEntry(row, lowerBound, lowerIncluded)); } private RowCacheEntry getWalkCacheEntry(SubRequest request, MOTableCellInfo cellInfo, boolean lowerIncluded) { if (walkCache != null) { RowCacheEntry entry = (RowCacheEntry) walkCache.get(request.getRequest()); if (entry == null) { return null; } if (((entry.searchLowerBound == null) && (cellInfo.getIndex() == null)) || ((entry.searchLowerBound != null) && (entry.searchLowerBound.equals(cellInfo.getIndex())) && (lowerIncluded == entry.searchLowerBoundIncluded))) { return entry; } } return null; } public MOScope getScope() { return this; } public Variable getValue(OID cellOID) { MOTableCellInfo cell = getCellInfo(cellOID); if ((cell.getIndex() != null) && (cell.getColumn() >= 0) && (cell.getColumn() < columns.length)) { return getValue(cell.getIndex(), cell.getColumn()); } return null; } public Variable getValue(OID index, int col) { MOTableRow row = model.getRow(index); return getValue(row, col); } protected Variable getValue(MOTableRow row, int col) { if ((row != null) && (col >= 0) && (col < row.size())) { return columns[col].getValue(row, col); } return null; } /** * Update the content of this table that is covered by the supplied * scope. *

* This method is part of the {@link UpdatableManagedObject} interface. * Although the {@link DefaultMOTable} does not implement that interface, * subclasses of this class may do so easily by overriding this hook-up * method. * * @param updateScope * the scope to update. If null the whole managed object is * updated. * @since 1.2 * @see #update(MOScope range, SubRequest request) */ public void update(MOScope updateScope) { // nothing to do by default -> overwrite to update an updatable table. } /** * Update this table for the supplied search range and sub-request if it has * not yet been updated for that request. *

* By default, the * {@link #update(MOScope updateScope)} is being called on behalf of this * method call (which itself does not nothing by default). You may choose * either to implement the {@link UpdatableManagedObject} interface and * implement its interface in a subclass. Then it is recommended to overwrite * this method by an empty method. Otherwise, do not implement the * {@link UpdatableManagedObject} interface. *

* * @param range * the search range. * @param request * the sub-request triggered the update or null if that * request cannot be determined. */ protected void update(MOScope range, SubRequest request) { Object updateMarker = null; if ((request != null) && (request.getRequest() != null)) { updateMarker = request.getRequest().getProcessingUserObject(getOID()); } if (updateMarker == null) { if ((request != null) && (request.getRequest() != null)) { request.getRequest().setProcessingUserObject(getOID(), new Object()); } update(range); } } public void get(SubRequest request) { OID cellOID = request.getVariableBinding().getOid(); MOTableCellInfo cell = getCellInfo(cellOID); if ((cell.getIndex() != null) && (cell.getColumn() >= 0) && (cell.getColumn() < columns.length)) { // update the table part affected by this query update(request.getScope(), request); MOColumn col = getColumn(cell.getColumn()); MOTableRow row = model.getRow(cell.getIndex()); if (row == null) { request.getVariableBinding().setVariable(Null.noSuchInstance); } else if (col != null) { col.get(request, row, cell.getColumn()); } else { request.getStatus().setErrorStatus(PDU.noAccess); } } else { if (cell.getColumn() >= 0) { request.getVariableBinding().setVariable(Null.noSuchInstance); } else { request.getVariableBinding().setVariable(Null.noSuchObject); } } request.completed(); } public boolean next(SubRequest request) { DefaultMOScope scope = new DefaultMOScope(request.getScope()); MOTableCellInfo nextCell; while ((nextCell = findCell(scope, request)) != null) { if (columns[nextCell.getColumn()].getAccess().isAccessibleForRead()) { Variable value; // Use row instance from cell info as shortcut if available if ((nextCell instanceof CellInfo) && (((CellInfo)nextCell).getRow() != null)) { value = getValue(((CellInfo)nextCell).getRow(), nextCell.getColumn()); } else { value = getValue(nextCell.getIndex(), nextCell.getColumn()); } if (value == null) { scope.setLowerBound(nextCell.getCellOID()); scope.setLowerIncluded(false); } else { request.getVariableBinding().setOid(nextCell.getCellOID()); request.getVariableBinding().setVariable(value); request.completed(); return true; } } else { if (nextCell.getColumn()+1 < getColumnCount()) { OID nextColOID = new OID(getOID()); nextColOID.append(columns[nextCell.getColumn()+1].getColumnID()); scope.setLowerBound(nextColOID); scope.setLowerIncluded(false); } else { return false; } } } return false; } /** * prepare * * @param request SubRequest * @throws MOException */ public void prepare(SubRequest request) { OID cellOID = request.getVariableBinding().getOid(); MOTableCellInfo cell = getCellInfo(cellOID); if (cell.getIndex() == null) { request.getStatus().setErrorStatus(PDU.inconsistentName); return; } if ((cell.getColumn() >= 0) && (cell.getColumn() < columns.length)) { MOColumn col = getColumn(cell.getColumn()); if (logger.isDebugEnabled()) { logger.debug("Preparing sub-request ("+request.getVariableBinding()+")"+ " for column: "+col); } if ((col instanceof MOMutableColumn) && (col.getAccess().isAccessibleForWrite())) { MOMutableColumn mcol = (MOMutableColumn)col; // check index if (getIndexDef().isValidIndex(cell.getIndex())) { MOTableRow row = model.getRow(cell.getIndex()); if (row == null) { // look for already prepared row row = (MOTableRow) getNewRows(request.getRequest()).get(cell.getIndex()); } if (row != null) { prepare(request, cell, mcol, row, false); request.completed(); return; } else if (model instanceof MOMutableTableModel) { if (logger.isDebugEnabled()) { logger.debug("Trying to create new row '"+cell.getIndex()+"'"); } MOMutableTableModel mmodel = (MOMutableTableModel)model; // create new row try { row = createRow(request, cell, mmodel); if (row == null) { request.getStatus().setErrorStatus(PDU.noCreation); } else { prepare(request, cell, mcol, row, true); request.completed(); } } catch (UnsupportedOperationException ex) { request.getStatus().setErrorStatus(PDU.noCreation); } } else { request.getStatus().setErrorStatus(PDU.noCreation); } } else { // invalid index if (logger.isDebugEnabled()) { logger.debug("Invalid index '"+cell.getIndex()+ "' for row creation in table "+getID()); } request.getStatus().setErrorStatus(PDU.noCreation); } } else { // read-only column request.getStatus().setErrorStatus(PDU.notWritable); } } else { request.getStatus().setErrorStatus(PDU.noCreation); } } private MOTableRow createRow(SubRequest request, MOTableCellInfo cell, MOMutableTableModel mmodel) throws UnsupportedOperationException { MOColumn col = getColumn(cell.getColumn()); if (!col.getAccess().isAccessibleForCreate()) { // creation not allowed return null; } Variable[] initialValues = new Variable[getColumnCount()]; getChangesFromRequest(cell.getIndex(), null, request, initialValues, true, true); MOTableRow row = mmodel.createRow(cell.getIndex(), initialValues); getNewRows(request.getRequest()).put(row.getIndex(), row); return row; } private void prepare(SubRequest request, MOTableCellInfo cell, MOMutableColumn mcol, MOTableRow row, boolean creation) { if (moChangeListeners != null) { MOChangeEvent changeEvent = new MOChangeEvent(this, new CellProxy(cell), cell.getCellOID(), (creation) ? null : row.getValue(cell.getColumn()), request.getVariableBinding().getVariable(), true); fireBeforePrepareMOChange(changeEvent); if (changeEvent.getDenyReason() != PDU.noError) { request.getStatus().setErrorStatus(changeEvent.getDenyReason()); } } ChangeSet changeSet = getPendingChangeSet(request, cell.getIndex()); if (changeSet == null) { changeSet = addPendingChanges(request, row, creation); } if ((moTableRowListeners != null) && (!request.hasError())) { if (isChangeSetComplete(request, row.getIndex(), cell.getColumn())) { MOTableRowEvent rowEvent = new MOTableRowEvent(this, this, row, changeSet, (creation) ? MOTableRowEvent.CREATE :MOTableRowEvent.CHANGE, true); fireRowChanged(rowEvent); if (rowEvent.getVetoStatus() != PDU.noError) { if (rowEvent.getVetoColumn() >= 0) { int colID = columns[rowEvent.getVetoColumn()].getColumnID(); OID prefix = new OID(getOID()); prefix.append(colID); SubRequest r = request.getRequest().find(prefix); if (r != null) { r.getStatus().setErrorStatus(rowEvent.getVetoStatus()); } else { request.getRequest().setErrorStatus(rowEvent.getVetoStatus()); } } else { request.getRequest().setErrorStatus(rowEvent.getVetoStatus()); } } } } if (request.getStatus().getErrorStatus() == PDU.noError) { mcol.prepare(request, row, changeSet, cell.getColumn()); MOChangeEvent changeEvent = new MOChangeEvent(this, new CellProxy(cell), cell.getCellOID(), row.getValue(cell.getColumn()), request.getVariableBinding().getVariable(), true); fireAfterPrepareMOChange(changeEvent); if (changeEvent.getDenyReason() != PDU.noError) { request.getStatus().setErrorStatus(changeEvent.getDenyReason()); } else { if ((row instanceof MOMutableRow2PC) && (isChangeSetComplete(request, row.getIndex(), cell.getColumn()))) { ((MOMutableRow2PC)row).prepareRow(request, changeSet); } } } } protected int getChangesFromRequest(OID index, MOTableRow row, SubRequest request, Variable[] values, boolean setDefaultValues, boolean newRow) { int lastChangedColumn = -1; // assign default values if (setDefaultValues) { for (int i = 0; (i < values.length) && (i < getColumnCount()); i++) { if (columns[i] instanceof MOMutableColumn) { values[i] = ((MOMutableColumn) columns[i]).getDefaultValue(); } } } Request req = request.getRequest(); for (Iterator it = req.iterator(); it.hasNext();) { SubRequest sreq = (SubRequest) it.next(); OID id = sreq.getVariableBinding().getOid(); MOTableCellInfo cellInfo = getCellInfo(id); if (index.equals(cellInfo.getIndex())) { int col = cellInfo.getColumn(); if ((col >= 0) && (col < values.length)) { Variable v = sreq.getVariableBinding().getVariable(); // check that value is really changed if ((v != null) && ((row == null) || (newRow) || (row.size() <= col) || (!v.equals(row.getValue(col))))) { values[col] = v; lastChangedColumn = col; } } } } return lastChangedColumn; } protected boolean hasNewRows(Object key) { return ((newRows != null) && (newRows.get(key) != null)); } protected Map getNewRows(Object key) { if (newRows == null) { newRows = new WeakHashMap(4); } Map rowMap = (Map) newRows.get(key); if (rowMap == null) { rowMap = new HashMap(5); newRows.put(key, rowMap); } return rowMap; } protected synchronized boolean isChangeSetComplete(SubRequest subRequest, OID index, int column) { ChangeSet changeSet = getPendingChangeSet(subRequest, index); if (changeSet != null) { return (changeSet.getLastChangedColumn() == column); } return true; } /* protected synchronized ChangeSet addPendingChange(SubRequest subRequest, OID index, int column, Variable value) { if (pendingChanges == null) { pendingChanges = new WeakHashMap(4); } Map rowMap = (Map) pendingChanges.get(subRequest.getRequest()); if (rowMap == null) { rowMap = new HashMap(5); pendingChanges.put(subRequest.getRequest(), rowMap); } ChangeSet changeSet = (ChangeSet) rowMap.get(index); if (changeSet == null) { changeSet = new ChangeSet(index, new Variable[getColumnCount()]); } changeSet.setValue(column, value); return changeSet; } */ protected synchronized ChangeSet addPendingChanges(SubRequest subRequest, MOTableRow row, boolean newRow) { if (pendingChanges == null) { pendingChanges = new WeakHashMap(4); } Map rowMap = (Map) pendingChanges.get(subRequest.getRequest()); if (rowMap == null) { rowMap = new HashMap(5); pendingChanges.put(subRequest.getRequest(), rowMap); } Variable[] values = new Variable[getColumnCount()]; int lastChangedColumn = getChangesFromRequest(row.getIndex(), row, subRequest, values, newRow, newRow); ChangeSet changeSet = new ChangeSet(row.getIndex(), values); changeSet.lastChangedColumn = lastChangedColumn; rowMap.put(row.getIndex(), changeSet); return changeSet; } protected ChangeSet getPendingChangeSet(SubRequest subRequest, OID index) { if (pendingChanges != null) { Map rowMap = (Map) pendingChanges.get(subRequest.getRequest()); if (rowMap != null) { return (ChangeSet) rowMap.get(index); } } return null; } public void cleanup(SubRequest request) { OID cellOID = request.getVariableBinding().getOid(); MOTableCellInfo cell = getCellInfo(cellOID); if ((cell.getIndex() == null) || (cell.getColumn() < 0)) { return; } MOColumn col = getColumn(cell.getColumn()); if (logger.isDebugEnabled()) { logger.debug("Cleaning-up sub-request ("+ request.getVariableBinding()+") for column: "+col); } MOMutableTableRow row = (MOMutableTableRow) model.getRow(cell.getIndex()); if ((row != null) && (col instanceof MOMutableColumn)) { ((MOMutableColumn) col).cleanup(request, row, cell.getColumn()); } if ((row instanceof MOMutableRow2PC) && isChangeSetComplete(request, row.getIndex(), cell.getColumn())) { ((MOMutableRow2PC)row).cleanupRow(request, getPendingChangeSet(request, row.getIndex())); } request.completed(); } public void undo(SubRequest request) { OID cellOID = request.getVariableBinding().getOid(); MOTableCellInfo cell = getCellInfo(cellOID); MOMutableColumn col = (MOMutableColumn) getColumn(cell.getColumn()); if (logger.isDebugEnabled()) { logger.debug("Undoing sub-request ("+ request.getVariableBinding()+") for column: "+col); } if (hasNewRows(request.getRequest())) { ((MOMutableTableModel)model).removeRow(cell.getIndex()); } else { MOMutableTableRow row = (MOMutableTableRow) model.getRow(cell.getIndex()); if (row != null) { col.undo(request, row, cell.getColumn()); } if ((row instanceof MOMutableRow2PC) && isChangeSetComplete(request, row.getIndex(), cell.getColumn())) { ((MOMutableRow2PC)row).undoRow(request, getPendingChangeSet(request, row.getIndex())); } } } public OID getOID() { return oid; } public void setModel(MOTableModel model) { this.model = model; } public void setVolatile(boolean isVolatile) { this.isVolatile = isVolatile; } public MOTableModel getModel() { return model; } public MOColumn[] getColumns() { return columns; } public MOTableIndex getIndexDef() { return indexDef; } public boolean isVolatile() { return isVolatile; } public OID getLowerBound() { return oid; } public OID getUpperBound() { OID upperBound = new OID(oid); int lastID = oid.size()-1; /** * This is not quite correct because we would have to search up the tree * if the last sub ID is 0xFFFFFFFF, but since a table OID must end on 1 * by SMI rules we should be on the safe side here. */ upperBound.set(lastID, oid.get(lastID)+1); return upperBound; } public boolean isLowerIncluded() { return false; } public boolean isUpperIncluded() { return false; } public boolean isCovered(MOScope other) { return DefaultMOScope.covers(this, other); } public boolean isOverlapping(MOScope other) { return DefaultMOScope.overlaps(this, other); } public synchronized void addMOChangeListener(MOChangeListener l) { if (moChangeListeners == null) { moChangeListeners = new Vector(2); } moChangeListeners.add(l); } public synchronized void removeMOChangeListener(MOChangeListener l) { if (moChangeListeners != null) { moChangeListeners.remove(l); } } protected void fireBeforePrepareMOChange(MOChangeEvent changeEvent) { if (moChangeListeners != null) { Vector listeners = moChangeListeners; int count = listeners.size(); for (int i = 0; i < count; i++) { ((MOChangeListener) listeners.elementAt(i)).beforePrepareMOChange(changeEvent); } } } protected void fireAfterPrepareMOChange(MOChangeEvent changeEvent) { if (moChangeListeners != null) { Vector listeners = moChangeListeners; int count = listeners.size(); for (int i = 0; i < count; i++) { ((MOChangeListener) listeners.elementAt(i)).afterPrepareMOChange(changeEvent); } } } protected void fireBeforeMOChange(MOChangeEvent changeEvent) { if (moChangeListeners != null) { Vector listeners = moChangeListeners; int count = listeners.size(); for (int i = 0; i < count; i++) { ((MOChangeListener) listeners.elementAt(i)).beforeMOChange(changeEvent); } } } protected void fireAfterMOChange(MOChangeEvent changeEvent) { if (moChangeListeners != null) { Vector listeners = moChangeListeners; int count = listeners.size(); for (int i = 0; i < count; i++) { ((MOChangeListener) listeners.elementAt(i)).afterMOChange(changeEvent); } } } public synchronized void addMOTableRowListener(MOTableRowListener l) { if (moTableRowListeners == null) { moTableRowListeners = new Vector(2); } moTableRowListeners.add(l); } public synchronized void removeMOTableRowListener(MOTableRowListener l) { if (moTableRowListeners != null) { moTableRowListeners.remove(l); } } protected void fireRowChanged(MOTableRowEvent event) { if (moTableRowListeners != null) { Vector listeners = moTableRowListeners; int count = listeners.size(); for (int i = 0; i < count; i++) { ((MOTableRowListener) listeners.elementAt(i)).rowChanged(event); } } } public static class ChangeSet implements MOTableRow { private OID index; private Variable[] values; private int lastChangedColumn = -1; public ChangeSet(OID index, Variable[] values) { this.index = index; this.values = values; } public OID getIndex() { return index; } public int getLastChangedColumn() { return lastChangedColumn; } public void setValue(int column, Variable value) { values[column] = value; this.lastChangedColumn = column; } public Variable getValue(int column) { return values[column]; } public MOTableRow getBaseRow() { return null; } public int size() { return values.length; } public void setBaseRow(MOTableRow baseRow) { throw new UnsupportedOperationException(); } } class CellProxy implements ManagedObject { private MOTableCellInfo cellInfo; private MOScope scope; public CellProxy(MOTableCellInfo cellInfo) { this.cellInfo = cellInfo; this.scope = new OIDScope(cellInfo.getCellOID()); } public MOScope getScope() { return scope; } public OID find(MOScope range) { if (range.isCovered(scope)) { return cellInfo.getCellOID(); } return null; } public void get(SubRequest request) { DefaultMOTable.this.get(request); } public boolean next(SubRequest request) { return DefaultMOTable.this.next(request); } public void prepare(SubRequest request) { DefaultMOTable.this.prepare(request); } public void commit(SubRequest request) { DefaultMOTable.this.commit(request); } public void undo(SubRequest request) { DefaultMOTable.this.undo(request); } public void cleanup(SubRequest request) { DefaultMOTable.this.cleanup(request); } public MOTable getTable() { return DefaultMOTable.this; } } class CellInfo implements MOTableCellInfo { private OID index; private int id = 0; private int col = -1; private MOTableRow row; public CellInfo(OID oid) { this.index = getIndexPart(oid); if ((oid.size() > DefaultMOTable.this.oid.size()) && (oid.startsWith(DefaultMOTable.this.oid))) { id = oid.get(DefaultMOTable.this.oid.size()); } /* else { id = columns[0].getColumnID(); } */ } public CellInfo(OID index, int column, int columnID) { this.index = index; this.col = column; this.id = columnID; } public CellInfo(OID index, int column, int columnID, MOTableRow row) { this(index, column, columnID); this.row = row; } public OID getIndex() { return index; } public int getColumn() { if (col < 0) { col = getColumnIndex(id); } return col; } public int getColumnID() { return id; } public OID getCellOID() { return DefaultMOTable.this.getCellOID(index, col); } public MOTableRow getRow() { return row; } } public OID getID() { return getLowerBound(); } public void load(MOInput input) throws IOException { if (input.getImportMode() == ImportModes.REPLACE_CREATE) { int count = removeAll(); if (logger.isDebugEnabled()) { logger.debug("Removed "+count+" rows from "+getID()+ " because importing with a REPLACE import mode"); } } Sequence seq = input.readSequence(); for (int i=0; iVariable instances that need to be saved. * Typically, these are all columns of the row - including hidden * extension columns/values. * @since 1.2 */ protected Variable[] getPersistentValues(MOTableRow row) { Variable[] values = new Variable[row.size()]; for (int i=0; i sync whole table model MOTableRow row = null; synchronized (model) { row = model.getRow(cell.getIndex()); if (row instanceof MOMutableTableRow) { ((MOMutableTableRow)row).setValue(cell.getColumn(), newValueAndInstancceOID.getVariable()); return true; } } } return false; } private static class RowCacheEntry { private MOTableRow row; private OID searchLowerBound; private boolean searchLowerBoundIncluded; RowCacheEntry(MOTableRow row, OID searchLowerBound, boolean searchLowerBoundIncluded) { this.row = row; this.searchLowerBound = searchLowerBound; this.searchLowerBoundIncluded = searchLowerBoundIncluded; } } }




© 2015 - 2024 Weber Informatics LLC | Privacy Policy