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/**
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* '$RCSfile$'
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* Purpose: A Class that represents a structured query, and can be
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* constructed from an XML serialization conforming to
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* pathquery.dtd. The printSQL() method can be used to print
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* a SQL serialization of the query.
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* Copyright: 2000 Regents of the University of California and the
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* National Center for Ecological Analysis and Synthesis
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* Authors: Matt Jones
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*
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* '$Author: jones $'
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* '$Date: 2006-11-10 10:25:38 -0800 (Fri, 10 Nov 2006) $'
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* '$Revision: 3077 $'
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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*/
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package edu.ucsb.nceas.metacat;
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import java.io.IOException;
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import java.io.Reader;
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import java.io.StringReader;
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import java.util.Enumeration;
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import java.util.Hashtable;
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import java.util.Stack;
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import java.util.Vector;
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import edu.ucsb.nceas.dbadapter.AbstractDatabase;
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import org.apache.log4j.Logger;
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import org.xml.sax.Attributes;
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import org.xml.sax.InputSource;
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import org.xml.sax.SAXException;
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import org.xml.sax.XMLReader;
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import org.xml.sax.helpers.DefaultHandler;
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import org.xml.sax.helpers.XMLReaderFactory;
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import java.util.Iterator;
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/**
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* A Class that represents a structured query, and can be constructed from an
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* XML serialization conforming to
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*
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* @see pathquery.dtd. The printSQL() method can be used to print a SQL
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* serialization of the query.
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*/
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public class QuerySpecification extends DefaultHandler
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{
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/** flag determining whether extended query terms are present */
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private boolean containsExtendedSQL = false;
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/** Identifier for this query document */
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private String meta_file_id;
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/** Title of this query */
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private String queryTitle;
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/** List of document types to be returned using package back tracing */
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private Vector returnDocList;
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/** List of document types to be searched */
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private Vector filterDocList;
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/** List of fields to be returned in result set */
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private Vector returnFieldList;
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/** List of users owning documents to be searched */
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private Vector ownerList;
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/** The root query group that contains the recursive query constraints */
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private QueryGroup query = null;
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// Query data structures used temporarily during XML parsing
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private Stack elementStack;
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private Stack queryStack;
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private String currentValue;
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private String currentPathexpr;
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private String parserName = null;
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private String accNumberSeparator = null;
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private static final AbstractDatabase dbAdapter = MetaCatUtil.dbAdapter;
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private boolean percentageSearch = false;
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private String userName = null;
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private static final String PUBLIC = "public";
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private String[] group = null;
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public static final String ATTRIBUTESYMBOL = "@";
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private boolean hasAttributeReturnField = false;
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private Hashtable attributeReturnList = new Hashtable();
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private int countAttributeReturnField = 0;
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private StringBuffer textBuffer = new StringBuffer();
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private static Logger logMetacat = Logger.getLogger(QuerySpecification.class);
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/**
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* construct an instance of the QuerySpecification class
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*
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* @param queryspec
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* the XML representation of the query (should conform to
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* pathquery.dtd) as a Reader
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* @param parserName
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* the fully qualified name of a Java Class implementing the
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* org.xml.sax.XMLReader interface
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*/
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public QuerySpecification(Reader queryspec, String parserName,
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String accNumberSeparator) throws IOException
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{
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super();
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// Initialize the class variables
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returnDocList = new Vector();
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filterDocList = new Vector();
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elementStack = new Stack();
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queryStack = new Stack();
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returnFieldList = new Vector();
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ownerList = new Vector();
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this.parserName = parserName;
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this.accNumberSeparator = accNumberSeparator;
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// Initialize the parser and read the queryspec
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XMLReader parser = initializeParser();
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if (parser == null) {
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System.err.println("SAX parser not instantiated properly.");
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}
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try {
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parser.parse(new InputSource(queryspec));
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} catch (SAXException e) {
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System.err.println("error parsing data in "
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+ "QuerySpecification.QuerySpecification");
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System.err.println(e.getMessage());
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}
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}
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/**
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* construct an instance of the QuerySpecification class
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*
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* @param queryspec
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* the XML representation of the query (should conform to
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* pathquery.dtd) as a String
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* @param parserName
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* the fully qualified name of a Java Class implementing the
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* org.xml.sax.Parser interface
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*/
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public QuerySpecification(String queryspec, String parserName,
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String accNumberSeparator) throws IOException
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{
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this(new StringReader(queryspec), parserName, accNumberSeparator);
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}
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/**
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* construct an instance of the QuerySpecification class which don't need
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* to parser a xml document
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*
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* @param accNumberSeparator
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* the separator between doc version
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*/
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public QuerySpecification(String accNumberSeparator) throws IOException
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{
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// Initialize the class variables
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returnDocList = new Vector();
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filterDocList = new Vector();
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elementStack = new Stack();
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queryStack = new Stack();
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returnFieldList = new Vector();
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ownerList = new Vector();
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this.accNumberSeparator = accNumberSeparator;
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}
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/**
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* Method to set user name
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*
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* @param myName
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* the user name
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*/
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public void setUserName(String myName)
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{
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//to lower case
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if (myName != null) {
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this.userName = myName.toLowerCase();
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} else {
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this.userName = myName;
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}
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}
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/**
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* Method to set user group
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*
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* @param myGroup
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* the user group
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*/
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public void setGroup(String[] myGroup)
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{
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this.group = myGroup;
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}
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/**
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* Method to indicate this query is a percentage search
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*/
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public boolean isPercentageSearch()
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{
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return percentageSearch;
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}
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/*
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* Method to get owner query. If it is owner it has all permission
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*/
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private String createOwerQuery()
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{
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String ownerQuery = null;
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ownerQuery = "SELECT docid FROM xml_documents WHERE ";
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if (userName != null && !userName.equals("")) {
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ownerQuery = ownerQuery + "lower(user_owner) ='" + userName + "'";
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}
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logMetacat.info("OwnerQuery: " + ownerQuery);
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return ownerQuery;
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}
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/*
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* Method to create query for xml_access, this part is to get docid list
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* which have a allow rule for a given user
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*/
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private String createAllowRuleQuery()
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{
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String allowQuery = null;
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String allowString = constructAllowString();
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allowQuery = "SELECT docid from xml_access WHERE( " + allowString;
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allowQuery = allowQuery + ") AND subtreeid IS NULL";
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logMetacat.info("allow query is: " + allowQuery);
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return allowQuery;
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}
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/* Method to construct a allow rule string */
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private String constructAllowString()
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{
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String allowQuery = "";
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// add allow rule for user name
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if (userName != null && !userName.equals("")) {
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allowQuery = allowQuery + "(lower(principal_name) = '" + userName
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+ "' AND perm_type = 'allow'"
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+ " AND (permission='4' OR permission='5' "
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+ "OR permission='6' OR permission='7'))";
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}
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// add allow rule for public
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allowQuery = allowQuery + "OR (lower(principal_name) = '" + PUBLIC
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+ "' AND perm_type = 'allow'"
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+ " AND (permission='4' OR permission='5' "
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+ "OR permission='6' OR permission='7'))";
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// add allow rule for group
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if (group != null) {
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for (int i = 0; i < group.length; i++) {
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String groupUint = group[i];
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if (groupUint != null && !groupUint.equals("")) {
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groupUint = groupUint.toLowerCase();
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allowQuery = allowQuery + " OR (lower(principal_name) = '"
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+ groupUint + "' AND perm_type = 'allow'"
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+ " AND (permission='4' OR permission='5' "
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+ "OR permission='6' OR permission='7'))";
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}//if
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}//for
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}//if
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logMetacat.info("allow string is: " + allowQuery);
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return allowQuery;
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}
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/*
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* Method to create query for xml_access, this part is to get docid list
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* which have a deny rule and perm_order is allowFirst for a given user.
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* This means the user will be denied to read
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*/
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private String createDenyRuleQuery()
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{
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String denyQuery = null;
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String denyString = constructDenyString();
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denyQuery = "SELECT docid from xml_access WHERE( " + denyString;
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denyQuery = denyQuery + ") AND subtreeid IS NULL ";
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logMetacat.info("denyquery is: " + denyQuery);
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return denyQuery;
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}
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/* Construct deny string */
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private String constructDenyString()
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{
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String denyQuery = "";
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// add deny rule for user name
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if (userName != null && !userName.equals("")) {
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denyQuery = denyQuery + "(lower(principal_name) = '" + userName
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+ "' AND perm_type = 'deny' "
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+ "AND perm_order ='allowFirst'"
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+ " AND (permission='4' OR permission='5' "
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+ "OR permission='6' OR permission='7'))";
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}
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// add deny rule for public
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denyQuery = denyQuery + "OR (lower(principal_name) = '" + PUBLIC
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+ "' AND perm_type = 'deny' " + "AND perm_order ='allowFirst'"
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+ " AND (permission='4' OR permission='5' "
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+ "OR permission='6' OR permission='7'))";
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// add allow rule for group
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if (group != null) {
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for (int i = 0; i < group.length; i++) {
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String groupUint = group[i];
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if (groupUint != null && !groupUint.equals("")) {
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groupUint = groupUint.toLowerCase();
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denyQuery = denyQuery + " OR (lower(principal_name) = '"
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+ groupUint + "' AND perm_type = 'deny' "
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+ "AND perm_order ='allowFirst'"
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+ " AND (permission='4' OR permission='5' "
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+ "OR permission='6' OR permission='7'))";
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}//if
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}//for
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}//if
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return denyQuery;
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}
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/**
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* Method to append a access control query to SQL. So in DBQuery class, we
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* can get docid from both user specified query and access control query.
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* We don't need to checking permission after we get the doclist. It will
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* be good to performance
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*
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*/
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public String getAccessQuery()
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{
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String accessQuery = null;
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String onwer = createOwerQuery();
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String allow = createAllowRuleQuery();
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String deny = createDenyRuleQuery();
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accessQuery = " AND (docid IN(" + onwer + ")";
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accessQuery = accessQuery + " OR (docid IN (" + allow + ")"
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+ " AND docid NOT IN (" + deny + ")))";
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logMetacat.warn("accessquery is: " + accessQuery);
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return accessQuery;
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}
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/**
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* Returns true if the parsed query contains and extended xml query (i.e.
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* there is at least one <returnfield> in the pathquery document)
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*/
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public boolean containsExtendedSQL()
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{
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if (containsExtendedSQL) {
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return true;
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} else {
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return false;
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}
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}
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/**
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* A method to get if the query has an attribute return field
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*/
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public boolean containsAttributeReturnField()
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{
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return hasAttributeReturnField;
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}
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|
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/**
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* Accessor method to return the identifier of this Query
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*/
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public String getIdentifier()
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{
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return meta_file_id;
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}
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/**
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* method to set the identifier of this query
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*/
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public void setIdentifier(String id)
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{
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this.meta_file_id = id;
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}
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/**
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* Accessor method to return the title of this Query
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*/
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public String getQueryTitle()
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{
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return queryTitle;
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}
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|
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/**
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* method to set the title of this query
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*/
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public void setQueryTitle(String title)
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{
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this.queryTitle = title;
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}
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/**
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* Accessor method to return a vector of the return document types as
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* defined in the <returndoctype> tag in the pathquery dtd.
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*/
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public Vector getReturnDocList()
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{
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return this.returnDocList;
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}
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/**
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* method to set the list of return docs of this query
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*/
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public void setReturnDocList(Vector returnDocList)
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{
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this.returnDocList = returnDocList;
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}
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|
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/**
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* Accessor method to return a vector of the filter doc types as defined in
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* the <filterdoctype> tag in the pathquery dtd.
|
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*/
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public Vector getFilterDocList()
|
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{
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return this.filterDocList;
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}
|
442
|
|
443
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/**
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* method to set the list of filter docs of this query
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*/
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public void setFilterDocList(Vector filterDocList)
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{
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this.filterDocList = filterDocList;
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}
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450
|
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451
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/**
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452
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* Accessor method to return a vector of the extended return fields as
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* defined in the <returnfield> tag in the pathquery dtd.
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*/
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public Vector getReturnFieldList()
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{
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return this.returnFieldList;
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}
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459
|
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460
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/**
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461
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* method to set the list of fields to be returned by this query
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462
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*/
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public void setReturnFieldList(Vector returnFieldList)
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{
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this.returnFieldList = returnFieldList;
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}
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467
|
|
468
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/**
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469
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* Accessor method to return a vector of the owner fields as defined in the
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470
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* <owner> tag in the pathquery dtd.
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471
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*/
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472
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public Vector getOwnerList()
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473
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{
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474
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return this.ownerList;
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475
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}
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476
|
|
477
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/**
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478
|
* method to set the list of owners used to constrain this query
|
479
|
*/
|
480
|
public void setOwnerList(Vector ownerList)
|
481
|
{
|
482
|
this.ownerList = ownerList;
|
483
|
}
|
484
|
|
485
|
/**
|
486
|
* get the QueryGroup used to express query constraints
|
487
|
*/
|
488
|
public QueryGroup getQueryGroup()
|
489
|
{
|
490
|
return query;
|
491
|
}
|
492
|
|
493
|
/**
|
494
|
* set the querygroup
|
495
|
*/
|
496
|
public void setQueryGroup(QueryGroup group)
|
497
|
{
|
498
|
query = group;
|
499
|
}
|
500
|
|
501
|
/**
|
502
|
* set if this query sepcification has extendQuery(has return doc type or
|
503
|
* not)
|
504
|
*/
|
505
|
public void setContainsExtenedSQL(boolean hasExtenedQuery)
|
506
|
{
|
507
|
containsExtendedSQL = hasExtenedQuery;
|
508
|
}
|
509
|
|
510
|
/**
|
511
|
* Set up the SAX parser for reading the XML serialized query
|
512
|
*/
|
513
|
private XMLReader initializeParser()
|
514
|
{
|
515
|
XMLReader parser = null;
|
516
|
|
517
|
// Set up the SAX document handlers for parsing
|
518
|
try {
|
519
|
|
520
|
// Get an instance of the parser
|
521
|
parser = XMLReaderFactory.createXMLReader(parserName);
|
522
|
|
523
|
// Set the ContentHandler to this instance
|
524
|
parser.setContentHandler(this);
|
525
|
|
526
|
// Set the error Handler to this instance
|
527
|
parser.setErrorHandler(this);
|
528
|
|
529
|
} catch (Exception e) {
|
530
|
System.err.println("Error in QuerySpcecification.initializeParser "
|
531
|
+ e.toString());
|
532
|
}
|
533
|
|
534
|
return parser;
|
535
|
}
|
536
|
|
537
|
/**
|
538
|
* callback method used by the SAX Parser when the start tag of an element
|
539
|
* is detected. Used in this context to parse and store the query
|
540
|
* information in class variables.
|
541
|
*/
|
542
|
public void startElement(String uri, String localName, String qName,
|
543
|
Attributes atts) throws SAXException
|
544
|
{
|
545
|
BasicNode currentNode = new BasicNode(localName);
|
546
|
// add attributes to BasicNode here
|
547
|
if (atts != null) {
|
548
|
int len = atts.getLength();
|
549
|
for (int i = 0; i < len; i++) {
|
550
|
currentNode
|
551
|
.setAttribute(atts.getLocalName(i), atts.getValue(i));
|
552
|
}
|
553
|
}
|
554
|
|
555
|
elementStack.push(currentNode);
|
556
|
if (currentNode.getTagName().equals("querygroup")) {
|
557
|
QueryGroup currentGroup = new QueryGroup(currentNode
|
558
|
.getAttribute("operator"));
|
559
|
if (query == null) {
|
560
|
query = currentGroup;
|
561
|
} else {
|
562
|
QueryGroup parentGroup = (QueryGroup) queryStack.peek();
|
563
|
parentGroup.addChild(currentGroup);
|
564
|
}
|
565
|
queryStack.push(currentGroup);
|
566
|
}
|
567
|
}
|
568
|
|
569
|
/**
|
570
|
* callback method used by the SAX Parser when the end tag of an element is
|
571
|
* detected. Used in this context to parse and store the query information
|
572
|
* in class variables.
|
573
|
*/
|
574
|
public void endElement(String uri, String localName, String qName)
|
575
|
throws SAXException
|
576
|
{
|
577
|
BasicNode leaving = (BasicNode) elementStack.pop();
|
578
|
if (leaving.getTagName().equals("queryterm")) {
|
579
|
boolean isCaseSensitive = (new Boolean(leaving
|
580
|
.getAttribute("casesensitive"))).booleanValue();
|
581
|
QueryTerm currentTerm = null;
|
582
|
if (currentPathexpr == null) {
|
583
|
currentTerm = new QueryTerm(isCaseSensitive, leaving
|
584
|
.getAttribute("searchmode"), currentValue);
|
585
|
} else {
|
586
|
currentTerm = new QueryTerm(isCaseSensitive, leaving
|
587
|
.getAttribute("searchmode"), currentValue,
|
588
|
currentPathexpr);
|
589
|
}
|
590
|
QueryGroup currentGroup = (QueryGroup) queryStack.peek();
|
591
|
currentGroup.addChild(currentTerm);
|
592
|
currentValue = null;
|
593
|
currentPathexpr = null;
|
594
|
} else if (leaving.getTagName().equals("querygroup")) {
|
595
|
QueryGroup leavingGroup = (QueryGroup) queryStack.pop();
|
596
|
} else if (leaving.getTagName().equals("meta_file_id")) {
|
597
|
meta_file_id = textBuffer.toString().trim();
|
598
|
} else if (leaving.getTagName().equals("querytitle")) {
|
599
|
queryTitle = textBuffer.toString().trim();
|
600
|
} else if (leaving.getTagName().equals("value")) {
|
601
|
currentValue = textBuffer.toString().trim();
|
602
|
} else if (leaving.getTagName().equals("pathexpr")) {
|
603
|
currentPathexpr = textBuffer.toString().trim();
|
604
|
} else if (leaving.getTagName().equals("returndoctype")) {
|
605
|
returnDocList.add(textBuffer.toString().trim());
|
606
|
} else if (leaving.getTagName().equals("filterdoctype")) {
|
607
|
filterDocList.add(textBuffer.toString().trim());
|
608
|
} else if (leaving.getTagName().equals("returnfield")) {
|
609
|
handleReturnField(textBuffer.toString().trim());
|
610
|
} else if (leaving.getTagName().equals("filterdoctype")) {
|
611
|
filterDocList.add(textBuffer.toString().trim());
|
612
|
} else if (leaving.getTagName().equals("owner")) {
|
613
|
ownerList.add(textBuffer.toString().trim());
|
614
|
}
|
615
|
|
616
|
//rest textBuffer
|
617
|
textBuffer = null;
|
618
|
textBuffer = new StringBuffer();
|
619
|
|
620
|
}
|
621
|
|
622
|
/**
|
623
|
* callback method used by the SAX Parser when the text sequences of an xml
|
624
|
* stream are detected. Used in this context to parse and store the query
|
625
|
* information in class variables.
|
626
|
*/
|
627
|
public void characters(char ch[], int start, int length)
|
628
|
{
|
629
|
// buffer all text nodes for same element. This is for text was splited
|
630
|
// into different nodes
|
631
|
textBuffer.append(new String(ch, start, length));
|
632
|
|
633
|
}
|
634
|
|
635
|
/**
|
636
|
* Method to transfer string to return field
|
637
|
*/
|
638
|
public void handleReturnField(String inputString)
|
639
|
{
|
640
|
// make sure if return fields has an attribute or not
|
641
|
if (inputString.indexOf(ATTRIBUTESYMBOL) == -1) {
|
642
|
// no attribute value will be returned
|
643
|
logMetacat.info("QuerySpecification.handleReturnField(): " );
|
644
|
logMetacat.info(" there are no attributes in the XPATH statement" );
|
645
|
returnFieldList.add(inputString);
|
646
|
containsExtendedSQL = true;
|
647
|
} else {
|
648
|
|
649
|
if ( inputString.startsWith(ATTRIBUTESYMBOL) ) {
|
650
|
|
651
|
// case where the return field is solely an attribute
|
652
|
logMetacat.info("QuerySpecification.handleReturnField(): " );
|
653
|
logMetacat.info(" there are *only* attributes in the XPATH statement" );
|
654
|
String returnPath = newPathExpressionWithOutAttribute(inputString);
|
655
|
String attributeName = getAttributeName(inputString);
|
656
|
Vector pathInfo = new Vector();
|
657
|
// the vector has the information about return path and
|
658
|
// attributename
|
659
|
pathInfo.addElement(returnPath);
|
660
|
pathInfo.addElement(attributeName);
|
661
|
// put the vector into a hash table. The reseaon why don't put
|
662
|
// return path or attributename as a key is because they are not
|
663
|
// unique
|
664
|
attributeReturnList.put(new Integer(countAttributeReturnField),
|
665
|
pathInfo);
|
666
|
countAttributeReturnField++;
|
667
|
hasAttributeReturnField = true;
|
668
|
containsExtendedSQL = true;
|
669
|
} else {
|
670
|
// has a attribute return field
|
671
|
// divied the return filed into two parts, one is path and the
|
672
|
// other is attribue name
|
673
|
logMetacat.info("QuerySpecification.handleReturnField: " );
|
674
|
logMetacat.info(" there are both attributes and elements" );
|
675
|
logMetacat.info(" in the XPATH statement" );
|
676
|
String returnPath = newPathExpressionWithOutAttribute(inputString);
|
677
|
String attributeName = getAttributeName(inputString);
|
678
|
Vector pathInfo = new Vector();
|
679
|
// the vector has the information about return path and
|
680
|
// attributename
|
681
|
pathInfo.addElement(returnPath);
|
682
|
pathInfo.addElement(attributeName);
|
683
|
// put the vector into a hash table. The reseaon why don't put
|
684
|
// return path or attributename as a key is because they are not
|
685
|
// unique
|
686
|
attributeReturnList.put(new Integer(countAttributeReturnField),
|
687
|
pathInfo);
|
688
|
countAttributeReturnField++;
|
689
|
hasAttributeReturnField = true;
|
690
|
containsExtendedSQL = true;
|
691
|
}
|
692
|
}
|
693
|
}
|
694
|
|
695
|
/**
|
696
|
* create a SQL serialization of the query that this instance represents
|
697
|
*/
|
698
|
public String printSQL(boolean useXMLIndex)
|
699
|
{
|
700
|
|
701
|
StringBuffer self = new StringBuffer();
|
702
|
StringBuffer queryString = new StringBuffer();
|
703
|
|
704
|
queryString.append("SELECT docid,docname,doctype,");
|
705
|
queryString.append("date_created, date_updated, rev ");
|
706
|
queryString.append("FROM xml_documents WHERE");
|
707
|
|
708
|
// Get the query from the QueryGroup and check
|
709
|
// if no query has been returned
|
710
|
String queryFromQueryGroup = query.printSQL(useXMLIndex);
|
711
|
logMetacat.info("Query from query in QuerySpec.printSQL: "
|
712
|
+ queryFromQueryGroup);
|
713
|
|
714
|
if(!queryFromQueryGroup.trim().equals("")){
|
715
|
self.append(" docid IN (");
|
716
|
self.append(queryFromQueryGroup);
|
717
|
self.append(") ");
|
718
|
}
|
719
|
|
720
|
// Add SQL to filter for doctypes requested in the query
|
721
|
// This is an implicit OR for the list of doctypes. Only doctypes in
|
722
|
// this
|
723
|
// list will be searched if the tag is present
|
724
|
if (!filterDocList.isEmpty()) {
|
725
|
boolean firstdoctype = true;
|
726
|
boolean emptyString = true;
|
727
|
|
728
|
if(!self.toString().equals("")){
|
729
|
self.append(" AND (");
|
730
|
emptyString = false;
|
731
|
}
|
732
|
|
733
|
Enumeration en = filterDocList.elements();
|
734
|
while (en.hasMoreElements()) {
|
735
|
String currentDoctype = (String) en.nextElement();
|
736
|
if (firstdoctype) {
|
737
|
firstdoctype = false;
|
738
|
self.append(" doctype = '" + currentDoctype + "'");
|
739
|
} else {
|
740
|
self.append(" OR doctype = '" + currentDoctype + "'");
|
741
|
}
|
742
|
}
|
743
|
|
744
|
if(!emptyString){
|
745
|
self.append(") ");
|
746
|
}
|
747
|
}
|
748
|
|
749
|
// Add SQL to filter for owners requested in the query
|
750
|
// This is an implicit OR for the list of owners
|
751
|
if (!ownerList.isEmpty()) {
|
752
|
boolean first = true;
|
753
|
boolean emptyString = true;
|
754
|
|
755
|
if(!self.toString().equals("")){
|
756
|
self.append(" AND (");
|
757
|
emptyString = false;
|
758
|
}
|
759
|
|
760
|
Enumeration en = ownerList.elements();
|
761
|
while (en.hasMoreElements()) {
|
762
|
String current = (String) en.nextElement();
|
763
|
if (current != null) {
|
764
|
current = current.toLowerCase();
|
765
|
}
|
766
|
if (first) {
|
767
|
first = false;
|
768
|
self.append(" lower(user_owner) = '" + current + "'");
|
769
|
} else {
|
770
|
self.append(" OR lower(user_owner) = '" + current + "'");
|
771
|
}
|
772
|
}
|
773
|
|
774
|
if(!emptyString){
|
775
|
self.append(") ");
|
776
|
}
|
777
|
}
|
778
|
|
779
|
// if there is only one percentage search item, this query is a
|
780
|
// percentage
|
781
|
// search query
|
782
|
logMetacat.info("percentage number: "
|
783
|
+ query.getPercentageSymbolCount());
|
784
|
if (query.getPercentageSymbolCount() == 1) {
|
785
|
logMetacat.info("It is a percentage search");
|
786
|
percentageSearch = true;
|
787
|
}
|
788
|
|
789
|
queryString.append(self.toString());
|
790
|
return queryString.toString();
|
791
|
}
|
792
|
|
793
|
/**
|
794
|
* This sql command will selecet startnodeid and endnodeid that user can
|
795
|
* NOT access
|
796
|
*/
|
797
|
public String printAccessControlSQLForReturnField(String doclist)
|
798
|
{
|
799
|
StringBuffer sql = new StringBuffer();
|
800
|
String allowString = constructAllowString();
|
801
|
String denyString = constructDenyString();
|
802
|
sql.append("SELECT distinct startnodeid, endnodeid from xml_access ");
|
803
|
sql.append("WHERE docid in (");
|
804
|
sql.append(doclist);
|
805
|
sql.append(") AND startnodeid IS NOT NULL AND ");
|
806
|
sql.append("(");
|
807
|
sql.append("(");
|
808
|
sql
|
809
|
.append("startnodeid NOT IN (SELECT startnodeid from xml_access, xml_documents ");
|
810
|
sql.append(" WHERE xml_access.docid = xml_documents.docid");
|
811
|
sql.append(" AND lower(xml_documents.user_owner) ='");
|
812
|
sql.append(userName);
|
813
|
sql.append("' AND xml_access.startnodeid IS NOT NULL)");
|
814
|
sql.append(")");
|
815
|
sql.append(" AND ");
|
816
|
sql.append("(");
|
817
|
sql
|
818
|
.append("(startnodeid NOT IN (SELECT startnodeid from xml_access where( ");
|
819
|
sql.append(allowString);
|
820
|
sql.append(") AND (startnodeid IS NOT NULL))");
|
821
|
sql.append(")");
|
822
|
sql
|
823
|
.append(" OR (startnodeid IN (SELECT startnodeid from xml_access where( ");
|
824
|
sql.append(denyString);
|
825
|
sql.append(") AND (startnodeid IS NOT NULL))");
|
826
|
sql.append(")");
|
827
|
sql.append(")");
|
828
|
sql.append(")");
|
829
|
logMetacat.info("accessControlSQLForReturnField: "
|
830
|
+ sql.toString());
|
831
|
return sql.toString();
|
832
|
}
|
833
|
|
834
|
/**
|
835
|
* This method prints sql based upon the <returnfield> tag in the
|
836
|
* pathquery document. This allows for customization of the returned fields.
|
837
|
* If the boolean useXMLIndex paramter is false, it uses a recursive query on
|
838
|
* xml_nodes to find the fields to be included by their path expression, and
|
839
|
* avoids the use of the xml_index table.
|
840
|
*
|
841
|
* @param doclist the list of document ids to search
|
842
|
* @param unaccessableNodePair the node pairs (start id and end id) which
|
843
|
* this user should not access
|
844
|
* @param useXMLIndex a boolean flag indicating whether to search using
|
845
|
* xml_index
|
846
|
*/
|
847
|
public String printExtendedSQL(String doclist,
|
848
|
Hashtable unaccessableNodePair, boolean useXMLIndex)
|
849
|
{
|
850
|
if (useXMLIndex) {
|
851
|
return printExtendedSQL(doclist, unaccessableNodePair);
|
852
|
} else {
|
853
|
StringBuffer self = new StringBuffer();
|
854
|
|
855
|
boolean firstfield = true;
|
856
|
//put the returnfields into the query
|
857
|
//the for loop allows for multiple fields
|
858
|
for (int i = 0; i < returnFieldList.size(); i++) {
|
859
|
if (firstfield) {
|
860
|
firstfield = false;
|
861
|
} else {
|
862
|
self.append(" UNION ");
|
863
|
}
|
864
|
String path = (String) returnFieldList.elementAt(i);
|
865
|
self.append("select xml_nodes.docid, ");
|
866
|
self.append("'"+ path + "' as path, xml_nodes.nodedata, ");
|
867
|
self.append("xml_nodes.parentnodeid ");
|
868
|
self.append("from xml_nodes, xml_documents ");
|
869
|
self.append("where parentnodeid IN ");
|
870
|
self.append(QueryTerm.useNestedStatements(path));
|
871
|
|
872
|
self.append(" AND xml_nodes.docid in (");
|
873
|
self.append(doclist);
|
874
|
self.append(") AND xml_nodes.nodetype = 'TEXT'");
|
875
|
self.append(" AND xml_nodes.rootnodeid = xml_documents.rootnodeid");
|
876
|
|
877
|
addAccessRestrictionSQL(unaccessableNodePair, self);
|
878
|
}
|
879
|
|
880
|
return self.toString();
|
881
|
}
|
882
|
}
|
883
|
|
884
|
/**
|
885
|
* This method prints sql based upon the <returnfield> tag in the
|
886
|
* pathquery document. This allows for customization of the returned fields.
|
887
|
* It uses the xml_index table and so assumes that this table has been
|
888
|
* built.
|
889
|
*
|
890
|
* @param doclist the list of document ids to search
|
891
|
* @param unaccessableNodePair the node pairs (start id and end id)
|
892
|
* which this user should not access
|
893
|
*/
|
894
|
public String printExtendedSQL(String doclist,
|
895
|
Hashtable unaccessableNodePair)
|
896
|
{
|
897
|
logMetacat.info("querySpecification.printExtendedSQL called\n");
|
898
|
StringBuffer self = new StringBuffer();
|
899
|
|
900
|
boolean usePathIndex = true;
|
901
|
|
902
|
// test if the are elements in the return fields
|
903
|
if ( returnFieldList.size() == 0 ) {
|
904
|
return null;
|
905
|
}
|
906
|
|
907
|
for (int i = 0; i < returnFieldList.size(); i++) {
|
908
|
if(!MetaCatUtil.pathsForIndexing.contains
|
909
|
(returnFieldList.elementAt(i))){
|
910
|
usePathIndex = false;
|
911
|
break;
|
912
|
}
|
913
|
}
|
914
|
|
915
|
if(usePathIndex){
|
916
|
self.append("select docid, path, nodedata, parentnodeid ");
|
917
|
self.append("from xml_path_index where (path like '");
|
918
|
|
919
|
boolean firstfield = true;
|
920
|
//put the returnfields into the query
|
921
|
//the for loop allows for multiple fields
|
922
|
for (int i = 0; i < returnFieldList.size(); i++) {
|
923
|
if (firstfield) {
|
924
|
firstfield = false;
|
925
|
self.append( (String) returnFieldList.elementAt(i));
|
926
|
self.append("' ");
|
927
|
}
|
928
|
else {
|
929
|
self.append("or path like '");
|
930
|
self.append( (String) returnFieldList.elementAt(i));
|
931
|
self.append("' ");
|
932
|
}
|
933
|
}
|
934
|
self.append(") AND docid in (");
|
935
|
self.append(doclist);
|
936
|
self.append(")");
|
937
|
|
938
|
} else {
|
939
|
self.append("select xml_nodes.docid, xml_index.path, xml_nodes.nodedata, ");
|
940
|
self.append("xml_nodes.parentnodeid ");
|
941
|
self.append("from xml_index, xml_nodes where xml_index.nodeid=");
|
942
|
self.append("xml_nodes.parentnodeid and (xml_index.path like '");
|
943
|
|
944
|
boolean firstfield = true;
|
945
|
//put the returnfields into the query
|
946
|
//the for loop allows for multiple fields
|
947
|
for (int i = 0; i < returnFieldList.size(); i++) {
|
948
|
if (firstfield) {
|
949
|
firstfield = false;
|
950
|
self.append((String) returnFieldList.elementAt(i));
|
951
|
self.append("' ");
|
952
|
} else {
|
953
|
self.append("or xml_index.path like '");
|
954
|
self.append((String) returnFieldList.elementAt(i));
|
955
|
self.append("' ");
|
956
|
}
|
957
|
}
|
958
|
self.append(") AND xml_nodes.docid in (");
|
959
|
self.append(doclist);
|
960
|
self.append(") AND xml_nodes.nodetype = 'TEXT'");
|
961
|
|
962
|
}
|
963
|
|
964
|
addAccessRestrictionSQL(unaccessableNodePair, self);
|
965
|
|
966
|
return self.toString();
|
967
|
}
|
968
|
|
969
|
|
970
|
/**
|
971
|
* Method to return a String generated after sorting the returnFieldList
|
972
|
* Vector
|
973
|
*/
|
974
|
public String getSortedReturnFieldString(){
|
975
|
String returnFields = "";
|
976
|
|
977
|
// Create a temporary vector and copy returnFieldList into it
|
978
|
Vector tempVector = new Vector();
|
979
|
|
980
|
Iterator it = returnFieldList.iterator();
|
981
|
while(it.hasNext()){
|
982
|
tempVector.add(it.next());
|
983
|
}
|
984
|
|
985
|
Enumeration attEnum = attributeReturnList.elements();
|
986
|
while(attEnum.hasMoreElements()){
|
987
|
Iterator tempIt = ((Vector)attEnum.nextElement()).iterator();
|
988
|
String rfield = "";
|
989
|
if(tempIt.hasNext()){
|
990
|
String element = (String)tempIt.next();
|
991
|
if(element != null) {
|
992
|
rfield +=element;
|
993
|
}
|
994
|
}
|
995
|
if(tempIt.hasNext()){
|
996
|
String attribute = (String)tempIt.next();
|
997
|
if(attribute != null) {
|
998
|
rfield = rfield + "@" + attribute;
|
999
|
}
|
1000
|
}
|
1001
|
tempVector.add(rfield);
|
1002
|
}
|
1003
|
|
1004
|
// Sort the temporary vector
|
1005
|
java.util.Collections.sort(tempVector);
|
1006
|
|
1007
|
// Generate the string and return it
|
1008
|
it = tempVector.iterator();
|
1009
|
while(it.hasNext()){
|
1010
|
returnFields = returnFields + it.next() + "|";
|
1011
|
}
|
1012
|
return returnFields;
|
1013
|
}
|
1014
|
|
1015
|
|
1016
|
/**
|
1017
|
* Create the SQl necessary to restrict access to allowed nodes. This is
|
1018
|
* accomplished by restricting the nodes that are returned to include
|
1019
|
* only those whose IDs fall outside of a set of start/stop pairs of
|
1020
|
* nodeid values. These pairs are passed in as a hash, with the key
|
1021
|
* containing the start nodeid and the value containing the end nodeid.
|
1022
|
* Any nodes between these start and end nodeid values will be excluded
|
1023
|
* from the results.
|
1024
|
*
|
1025
|
* @param unaccessableNodePair hash of start/end nodeid pairs to restrict
|
1026
|
* @param self a stringbuffer to which the genrated SQL is appended
|
1027
|
*/
|
1028
|
private void addAccessRestrictionSQL(Hashtable unaccessableNodePair,
|
1029
|
StringBuffer self)
|
1030
|
{
|
1031
|
// add control part for extended query
|
1032
|
Enumeration en = unaccessableNodePair.keys();
|
1033
|
|
1034
|
while (en.hasMoreElements()) {
|
1035
|
// Get control pairs in object
|
1036
|
Long startNodeIdObject = (Long) en.nextElement();
|
1037
|
Long endNodeIdObject = (Long) unaccessableNodePair
|
1038
|
.get(startNodeIdObject);
|
1039
|
// change it to long
|
1040
|
long startNodeId = startNodeIdObject.longValue();
|
1041
|
long endNodeId = endNodeIdObject.longValue();
|
1042
|
// add into query
|
1043
|
self.append(" AND ( xml_nodes.nodeid < ");
|
1044
|
self.append(startNodeId);
|
1045
|
self.append(" OR xml_nodes.nodeid > ");
|
1046
|
self.append(endNodeId);
|
1047
|
self.append(")");
|
1048
|
}
|
1049
|
}
|
1050
|
|
1051
|
/**
|
1052
|
* This method prints sql that finds the values of attributes in the xml
|
1053
|
* documents based upon the whether the returnfield tag in the pathquery
|
1054
|
* document has an attribute symbol (@). This allows for customization of
|
1055
|
* the returned fields.
|
1056
|
*
|
1057
|
* @param doclist the list of document ids to search
|
1058
|
* @param useXMLIndex a boolean flag indicating whether to search using
|
1059
|
* xml_index
|
1060
|
*/
|
1061
|
public String printAttributeQuery(String doclist, boolean useXMLIndex)
|
1062
|
{
|
1063
|
if (useXMLIndex) {
|
1064
|
return printAttributeQuery(doclist);
|
1065
|
} else {
|
1066
|
StringBuffer self = new StringBuffer();
|
1067
|
boolean firstfield = true;
|
1068
|
//put the returnfields attributes into the query
|
1069
|
//the for loop allows for multiple fields and attributes
|
1070
|
Enumeration returnAttributes = attributeReturnList.elements();
|
1071
|
while (returnAttributes.hasMoreElements()) {
|
1072
|
Vector currentVector = (Vector) returnAttributes.nextElement();
|
1073
|
String returnPath = (String) currentVector.elementAt(0);
|
1074
|
String attributeName = (String) currentVector.elementAt(1);
|
1075
|
if (firstfield) {
|
1076
|
firstfield = false;
|
1077
|
} else {
|
1078
|
self.append(" UNION ");
|
1079
|
}
|
1080
|
self.append("select xml_nodes.docid, '");
|
1081
|
self.append(returnPath);
|
1082
|
self.append("' as path, xml_nodes.nodedata, xml_nodes.nodename ");
|
1083
|
self.append("from xml_nodes, xml_documents ");
|
1084
|
self.append("where parentnodeid IN ");
|
1085
|
self.append(QueryTerm.useNestedStatements(returnPath));
|
1086
|
self.append(" AND xml_nodes.nodename like '");
|
1087
|
self.append(attributeName);
|
1088
|
self.append("' AND xml_nodes.docid in (");
|
1089
|
self.append(doclist);
|
1090
|
self.append(") AND xml_nodes.nodetype = 'ATTRIBUTE'");
|
1091
|
self.append(" AND xml_nodes.rootnodeid = xml_documents.rootnodeid");
|
1092
|
}
|
1093
|
|
1094
|
logMetacat.warn("Attribute query: " + self.toString());
|
1095
|
|
1096
|
return self.toString();
|
1097
|
}
|
1098
|
}
|
1099
|
|
1100
|
/**
|
1101
|
* This method prints sql that finds the values of attributes in the xml
|
1102
|
* documents based upon the whether the returnfield tag in the pathquery
|
1103
|
* document has an attribute symbol (@). This allows for customization of
|
1104
|
* the returned fields.
|
1105
|
*
|
1106
|
* @param doclist the list of document ids to search
|
1107
|
*/
|
1108
|
public String printAttributeQuery(String doclist)
|
1109
|
{
|
1110
|
StringBuffer self = new StringBuffer();
|
1111
|
self.append("select xml_nodes.docid, xml_index.path, ");
|
1112
|
self.append("xml_nodes.nodedata, xml_nodes.nodename ");
|
1113
|
self.append("from xml_index, xml_nodes where xml_index.nodeid=");
|
1114
|
self.append("xml_nodes.parentnodeid and (");
|
1115
|
boolean firstfield = true;
|
1116
|
//put the returnfields attributes into the query
|
1117
|
//the for loop allows for multiple fields and attributes
|
1118
|
Enumeration returnAttributes = attributeReturnList.elements();
|
1119
|
while (returnAttributes.hasMoreElements()) {
|
1120
|
Vector currentVector = (Vector) returnAttributes.nextElement();
|
1121
|
String returnPath = (String) currentVector.elementAt(0);
|
1122
|
String attributeName = (String) currentVector.elementAt(1);
|
1123
|
if (firstfield) {
|
1124
|
firstfield = false;
|
1125
|
self.append("( ");
|
1126
|
if(returnPath != null){
|
1127
|
self.append("xml_index.path like '");
|
1128
|
self.append(returnPath);
|
1129
|
self.append("' AND ");
|
1130
|
}else {
|
1131
|
logMetacat.info("QuerySpecification.printAttributeQuery: "
|
1132
|
+ "returnPath is: " + returnPath);
|
1133
|
}
|
1134
|
self.append("xml_nodes.nodename like '");
|
1135
|
self.append(attributeName);
|
1136
|
self.append("') ");
|
1137
|
} else {
|
1138
|
self.append(" or (");
|
1139
|
if(returnPath != null){
|
1140
|
self.append("xml_index.path like '");
|
1141
|
self.append(returnPath);
|
1142
|
self.append("' AND ");
|
1143
|
}else {
|
1144
|
logMetacat.info("QuerySpecification.printAttributeQuery: "
|
1145
|
+ "returnPath is null: " + returnPath);
|
1146
|
}
|
1147
|
self.append("xml_nodes.nodename like '");
|
1148
|
self.append(attributeName);
|
1149
|
self.append("') ");
|
1150
|
}
|
1151
|
}
|
1152
|
self.append(") AND xml_nodes.docid in (");
|
1153
|
self.append(doclist);
|
1154
|
self.append(") AND xml_nodes.nodetype = 'ATTRIBUTE'");
|
1155
|
logMetacat.warn("Attribute query: " + self.toString());
|
1156
|
|
1157
|
return self.toString();
|
1158
|
}
|
1159
|
|
1160
|
public static String printRelationSQL(String docid)
|
1161
|
{
|
1162
|
StringBuffer self = new StringBuffer();
|
1163
|
self.append("select subject, relationship, object, subdoctype, ");
|
1164
|
self.append("objdoctype from xml_relation ");
|
1165
|
self.append("where docid like '").append(docid).append("'");
|
1166
|
return self.toString();
|
1167
|
}
|
1168
|
|
1169
|
public static String printGetDocByDoctypeSQL(String docid)
|
1170
|
{
|
1171
|
StringBuffer self = new StringBuffer();
|
1172
|
|
1173
|
self.append("SELECT docid,docname,doctype,");
|
1174
|
self.append("date_created, date_updated ");
|
1175
|
self.append("FROM xml_documents WHERE docid IN (");
|
1176
|
self.append(docid).append(")");
|
1177
|
return self.toString();
|
1178
|
}
|
1179
|
|
1180
|
/**
|
1181
|
* create a String description of the query that this instance represents.
|
1182
|
* This should become a way to get the XML serialization of the query.
|
1183
|
*/
|
1184
|
public String toString()
|
1185
|
{
|
1186
|
return "meta_file_id=" + meta_file_id + "\n" + query;
|
1187
|
//DOCTITLE attr cleared from the db
|
1188
|
//return "meta_file_id=" + meta_file_id + "\n" +
|
1189
|
//"querytitle=" + querytitle + "\n" + query;
|
1190
|
}
|
1191
|
|
1192
|
/** A method to get rid of attribute part in path expression */
|
1193
|
public static String newPathExpressionWithOutAttribute(String pathExpression)
|
1194
|
{
|
1195
|
if (pathExpression == null) { return null; }
|
1196
|
int index = pathExpression.lastIndexOf(ATTRIBUTESYMBOL);
|
1197
|
String newExpression = null;
|
1198
|
if (index != 0) {
|
1199
|
newExpression = pathExpression.substring(0, index - 1);
|
1200
|
}
|
1201
|
logMetacat.info("The path expression without attributes: "
|
1202
|
+ newExpression);
|
1203
|
return newExpression;
|
1204
|
}
|
1205
|
|
1206
|
/** A method to get attribute name from path */
|
1207
|
public static String getAttributeName(String path)
|
1208
|
{
|
1209
|
if (path == null) { return null; }
|
1210
|
int index = path.lastIndexOf(ATTRIBUTESYMBOL);
|
1211
|
int size = path.length();
|
1212
|
String attributeName = null;
|
1213
|
if (index != 1) {
|
1214
|
attributeName = path.substring(index + 1, size);
|
1215
|
}
|
1216
|
logMetacat.info("The attirbute name from path: "
|
1217
|
+ attributeName);
|
1218
|
return attributeName;
|
1219
|
}
|
1220
|
|
1221
|
}
|