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Xerces2 is the next generation of high performance, fully compliant XML parsers in the Apache Xerces family. This new version of Xerces introduces the Xerces Native Interface (XNI), a complete framework for building parser components and configurations that is extremely modular and easy to program. The Apache Xerces2 parser is the reference implementation of XNI but other parser components, configurations, and parsers can be written using the Xerces Native Interface. For complete design and implementation documents, refer to the XNI Manual. Xerces2 is a fully conforming XML Schema 1.0 processor. A partial experimental implementation of the XML Schema 1.1 Structures and Datatypes Working Drafts (December 2009) and an experimental implementation of the XML Schema Definition Language (XSD): Component Designators (SCD) Candidate Recommendation (January 2010) are provided for evaluation. For more information, refer to the XML Schema page. Xerces2 also provides a complete implementation of the Document Object Model Level 3 Core and Load/Save W3C Recommendations and provides a complete implementation of the XML Inclusions (XInclude) W3C Recommendation. It also provides support for OASIS XML Catalogs v1.1. Xerces2 is able to parse documents written according to the XML 1.1 Recommendation, except that it does not yet provide an option to enable normalization checking as described in section 2.13 of this specification. It also handles namespaces according to the XML Namespaces 1.1 Recommendation, and will correctly serialize XML 1.1 documents if the DOM level 3 load/save APIs are in use.

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/*
 * Licensed to the Apache Software Foundation (ASF) under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The ASF licenses this file to You 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.apache.xerces.impl;

import java.io.IOException;

import org.apache.xerces.impl.msg.XMLMessageFormatter;
import org.apache.xerces.util.SymbolTable;
import org.apache.xerces.util.XMLChar;
import org.apache.xerces.util.XMLResourceIdentifierImpl;
import org.apache.xerces.util.XMLStringBuffer;
import org.apache.xerces.xni.Augmentations;
import org.apache.xerces.xni.XMLResourceIdentifier;
import org.apache.xerces.xni.XMLString;
import org.apache.xerces.xni.XNIException;
import org.apache.xerces.xni.parser.XMLComponent;
import org.apache.xerces.xni.parser.XMLComponentManager;
import org.apache.xerces.xni.parser.XMLConfigurationException;

/**
 * This class is responsible for holding scanning methods common to
 * scanning the XML document structure and content as well as the DTD
 * structure and content. Both XMLDocumentScanner and XMLDTDScanner inherit
 * from this base class.
 *
 * 

* This component requires the following features and properties from the * component manager that uses it: *

    *
  • http://xml.org/sax/features/validation
  • *
  • http://xml.org/sax/features/namespaces
  • *
  • http://apache.org/xml/features/scanner/notify-char-refs
  • *
  • http://apache.org/xml/properties/internal/symbol-table
  • *
  • http://apache.org/xml/properties/internal/error-reporter
  • *
  • http://apache.org/xml/properties/internal/entity-manager
  • *
* * @xerces.internal * * @author Andy Clark, IBM * @author Arnaud Le Hors, IBM * @author Eric Ye, IBM * * @version $Id: XMLScanner.java 1499506 2013-07-03 18:29:43Z mrglavas $ */ public abstract class XMLScanner implements XMLComponent { // // Constants // // feature identifiers /** Feature identifier: validation. */ protected static final String VALIDATION = Constants.SAX_FEATURE_PREFIX + Constants.VALIDATION_FEATURE; /** Feature identifier: namespaces. */ protected static final String NAMESPACES = Constants.SAX_FEATURE_PREFIX + Constants.NAMESPACES_FEATURE; /** Feature identifier: notify character references. */ protected static final String NOTIFY_CHAR_REFS = Constants.XERCES_FEATURE_PREFIX + Constants.NOTIFY_CHAR_REFS_FEATURE; protected static final String PARSER_SETTINGS = Constants.XERCES_FEATURE_PREFIX + Constants.PARSER_SETTINGS; // property identifiers /** Property identifier: symbol table. */ protected static final String SYMBOL_TABLE = Constants.XERCES_PROPERTY_PREFIX + Constants.SYMBOL_TABLE_PROPERTY; /** Property identifier: error reporter. */ protected static final String ERROR_REPORTER = Constants.XERCES_PROPERTY_PREFIX + Constants.ERROR_REPORTER_PROPERTY; /** Property identifier: entity manager. */ protected static final String ENTITY_MANAGER = Constants.XERCES_PROPERTY_PREFIX + Constants.ENTITY_MANAGER_PROPERTY; // debugging /** Debug attribute normalization. */ protected static final boolean DEBUG_ATTR_NORMALIZATION = false; // // Data // // features /** * Validation. This feature identifier is: * http://xml.org/sax/features/validation */ protected boolean fValidation = false; /** Namespaces. */ protected boolean fNamespaces; /** Character references notification. */ protected boolean fNotifyCharRefs = false; /** Internal parser-settings feature */ protected boolean fParserSettings = true; // properties /** Symbol table. */ protected SymbolTable fSymbolTable; /** Error reporter. */ protected XMLErrorReporter fErrorReporter; /** Entity manager. */ protected XMLEntityManager fEntityManager; // protected data /** Entity scanner. */ protected XMLEntityScanner fEntityScanner; /** Entity depth. */ protected int fEntityDepth; /** Literal value of the last character refence scanned. */ protected String fCharRefLiteral = null; /** Scanning attribute. */ protected boolean fScanningAttribute; /** Report entity boundary. */ protected boolean fReportEntity; // symbols /** Symbol: "version". */ protected final static String fVersionSymbol = "version".intern(); /** Symbol: "encoding". */ protected final static String fEncodingSymbol = "encoding".intern(); /** Symbol: "standalone". */ protected final static String fStandaloneSymbol = "standalone".intern(); /** Symbol: "amp". */ protected final static String fAmpSymbol = "amp".intern(); /** Symbol: "lt". */ protected final static String fLtSymbol = "lt".intern(); /** Symbol: "gt". */ protected final static String fGtSymbol = "gt".intern(); /** Symbol: "quot". */ protected final static String fQuotSymbol = "quot".intern(); /** Symbol: "apos". */ protected final static String fAposSymbol = "apos".intern(); // temporary variables // NOTE: These objects are private to help prevent accidental modification // of values by a subclass. If there were protected *and* the sub- // modified the values, it would be difficult to track down the real // cause of the bug. By making these private, we avoid this // possibility. /** String. */ private final XMLString fString = new XMLString(); /** String buffer. */ private final XMLStringBuffer fStringBuffer = new XMLStringBuffer(); /** String buffer. */ private final XMLStringBuffer fStringBuffer2 = new XMLStringBuffer(); /** String buffer. */ private final XMLStringBuffer fStringBuffer3 = new XMLStringBuffer(); // temporary location for Resource identification information. protected final XMLResourceIdentifierImpl fResourceIdentifier = new XMLResourceIdentifierImpl(); // // XMLComponent methods // /** * * * @param componentManager The component manager. * * @throws SAXException Throws exception if required features and * properties cannot be found. */ public void reset(XMLComponentManager componentManager) throws XMLConfigurationException { try { fParserSettings = componentManager.getFeature(PARSER_SETTINGS); } catch (XMLConfigurationException e) { fParserSettings = true; } if (!fParserSettings) { // parser settings have not been changed init(); return; } // Xerces properties fSymbolTable = (SymbolTable)componentManager.getProperty(SYMBOL_TABLE); fErrorReporter = (XMLErrorReporter)componentManager.getProperty(ERROR_REPORTER); fEntityManager = (XMLEntityManager)componentManager.getProperty(ENTITY_MANAGER); // sax features try { fValidation = componentManager.getFeature(VALIDATION); } catch (XMLConfigurationException e) { fValidation = false; } try { fNamespaces = componentManager.getFeature(NAMESPACES); } catch (XMLConfigurationException e) { fNamespaces = true; } try { fNotifyCharRefs = componentManager.getFeature(NOTIFY_CHAR_REFS); } catch (XMLConfigurationException e) { fNotifyCharRefs = false; } init(); } // reset(XMLComponentManager) /** * Sets the value of a property during parsing. * * @param propertyId * @param value */ public void setProperty(String propertyId, Object value) throws XMLConfigurationException { // Xerces properties if (propertyId.startsWith(Constants.XERCES_PROPERTY_PREFIX)) { final int suffixLength = propertyId.length() - Constants.XERCES_PROPERTY_PREFIX.length(); if (suffixLength == Constants.SYMBOL_TABLE_PROPERTY.length() && propertyId.endsWith(Constants.SYMBOL_TABLE_PROPERTY)) { fSymbolTable = (SymbolTable)value; } else if (suffixLength == Constants.ERROR_REPORTER_PROPERTY.length() && propertyId.endsWith(Constants.ERROR_REPORTER_PROPERTY)) { fErrorReporter = (XMLErrorReporter)value; } else if (suffixLength == Constants.ENTITY_MANAGER_PROPERTY.length() && propertyId.endsWith(Constants.ENTITY_MANAGER_PROPERTY)) { fEntityManager = (XMLEntityManager)value; } } } // setProperty(String,Object) /* * Sets the feature of the scanner. */ public void setFeature(String featureId, boolean value) throws XMLConfigurationException { if (VALIDATION.equals(featureId)) { fValidation = value; } else if (NOTIFY_CHAR_REFS.equals(featureId)) { fNotifyCharRefs = value; } } /* * Gets the state of the feature of the scanner. */ public boolean getFeature(String featureId) throws XMLConfigurationException { if (VALIDATION.equals(featureId)) { return fValidation; } else if (NOTIFY_CHAR_REFS.equals(featureId)) { return fNotifyCharRefs; } throw new XMLConfigurationException(XMLConfigurationException.NOT_RECOGNIZED, featureId); } // // Protected methods // // anybody calling this had better have set Symtoltable! protected void reset() { init(); // DTD preparsing defaults: fValidation = true; fNotifyCharRefs = false; } // common scanning methods /** * Scans an XML or text declaration. *

*

     * [23] XMLDecl ::= ''
     * [24] VersionInfo ::= S 'version' Eq (' VersionNum ' | " VersionNum ")
     * [80] EncodingDecl ::= S 'encoding' Eq ('"' EncName '"' |  "'" EncName "'" )
     * [81] EncName ::= [A-Za-z] ([A-Za-z0-9._] | '-')*
     * [32] SDDecl ::= S 'standalone' Eq (("'" ('yes' | 'no') "'")
     *                 | ('"' ('yes' | 'no') '"'))
     *
     * [77] TextDecl ::= ''
     * 
* * @param scanningTextDecl True if a text declaration is to * be scanned instead of an XML * declaration. * @param pseudoAttributeValues An array of size 3 to return the version, * encoding and standalone pseudo attribute values * (in that order). * * Note: This method uses fString, anything in it * at the time of calling is lost. */ protected void scanXMLDeclOrTextDecl(boolean scanningTextDecl, String[] pseudoAttributeValues) throws IOException, XNIException { // pseudo-attribute values String version = null; String encoding = null; String standalone = null; // scan pseudo-attributes final int STATE_VERSION = 0; final int STATE_ENCODING = 1; final int STATE_STANDALONE = 2; final int STATE_DONE = 3; int state = STATE_VERSION; boolean dataFoundForTarget = false; boolean sawSpace = fEntityScanner.skipDeclSpaces(); // since pseudoattributes are *not* attributes, // their quotes don't need to be preserved in external parameter entities. // the XMLEntityScanner#scanLiteral method will continue to // emit -1 in such cases when it finds a quote; this is // fine for other methods that parse scanned entities, // but not for the scanning of pseudoattributes. So, // temporarily, we must mark the current entity as not being "literal" XMLEntityManager.ScannedEntity currEnt = fEntityManager.getCurrentEntity(); boolean currLiteral = currEnt.literal; currEnt.literal = false; while (fEntityScanner.peekChar() != '?') { dataFoundForTarget = true; String name = scanPseudoAttribute(scanningTextDecl, fString); switch (state) { case STATE_VERSION: { if (name == fVersionSymbol) { if (!sawSpace) { reportFatalError(scanningTextDecl ? "SpaceRequiredBeforeVersionInTextDecl" : "SpaceRequiredBeforeVersionInXMLDecl", null); } version = fString.toString(); state = STATE_ENCODING; if (!versionSupported(version)) { reportFatalError(getVersionNotSupportedKey(), new Object[]{version}); } } else if (name == fEncodingSymbol) { if (!scanningTextDecl) { reportFatalError("VersionInfoRequired", null); } if (!sawSpace) { reportFatalError(scanningTextDecl ? "SpaceRequiredBeforeEncodingInTextDecl" : "SpaceRequiredBeforeEncodingInXMLDecl", null); } encoding = fString.toString(); state = scanningTextDecl ? STATE_DONE : STATE_STANDALONE; } else { if (scanningTextDecl) { reportFatalError("EncodingDeclRequired", null); } else { reportFatalError("VersionInfoRequired", null); } } break; } case STATE_ENCODING: { if (name == fEncodingSymbol) { if (!sawSpace) { reportFatalError(scanningTextDecl ? "SpaceRequiredBeforeEncodingInTextDecl" : "SpaceRequiredBeforeEncodingInXMLDecl", null); } encoding = fString.toString(); state = scanningTextDecl ? STATE_DONE : STATE_STANDALONE; // TODO: check encoding name; set encoding on // entity scanner } else if (!scanningTextDecl && name == fStandaloneSymbol) { if (!sawSpace) { reportFatalError("SpaceRequiredBeforeStandalone", null); } standalone = fString.toString(); state = STATE_DONE; if (!standalone.equals("yes") && !standalone.equals("no")) { reportFatalError("SDDeclInvalid", new Object[] {standalone}); } } else { reportFatalError("EncodingDeclRequired", null); } break; } case STATE_STANDALONE: { if (name == fStandaloneSymbol) { if (!sawSpace) { reportFatalError("SpaceRequiredBeforeStandalone", null); } standalone = fString.toString(); state = STATE_DONE; if (!standalone.equals("yes") && !standalone.equals("no")) { reportFatalError("SDDeclInvalid", new Object[] {standalone}); } } else { reportFatalError("EncodingDeclRequired", null); } break; } default: { reportFatalError("NoMorePseudoAttributes", null); } } sawSpace = fEntityScanner.skipDeclSpaces(); } // restore original literal value if(currLiteral) currEnt.literal = true; // REVISIT: should we remove this error reporting? if (scanningTextDecl && state != STATE_DONE) { reportFatalError("MorePseudoAttributes", null); } // If there is no data in the xml or text decl then we fail to report error // for version or encoding info above. if (scanningTextDecl) { if (!dataFoundForTarget && encoding == null) { reportFatalError("EncodingDeclRequired", null); } } else { if (!dataFoundForTarget && version == null) { reportFatalError("VersionInfoRequired", null); } } // end if (!fEntityScanner.skipChar('?')) { reportFatalError("XMLDeclUnterminated", null); } if (!fEntityScanner.skipChar('>')) { reportFatalError("XMLDeclUnterminated", null); } // fill in return array pseudoAttributeValues[0] = version; pseudoAttributeValues[1] = encoding; pseudoAttributeValues[2] = standalone; } // scanXMLDeclOrTextDecl(boolean) /** * Scans a pseudo attribute. * * @param scanningTextDecl True if scanning this pseudo-attribute for a * TextDecl; false if scanning XMLDecl. This * flag is needed to report the correct type of * error. * @param value The string to fill in with the attribute * value. * * @return The name of the attribute * * Note: This method uses fStringBuffer2, anything in it * at the time of calling is lost. */ public String scanPseudoAttribute(boolean scanningTextDecl, XMLString value) throws IOException, XNIException { // REVISIT: This method is used for generic scanning of // pseudo attributes, but since there are only three such // attributes: version, encoding, and standalone there are // for performant ways of scanning them. Every decl must // have a version, and in TextDecls this version must // be followed by an encoding declaration. Also the // methods we invoke on the scanners allow non-ASCII // characters to be parsed in the decls, but since // we don't even know what the actual encoding of the // document is until we scan the encoding declaration // you cannot reliably read any characters outside // of the ASCII range here. -- mrglavas String name = scanPseudoAttributeName(); XMLEntityManager.print(fEntityManager.getCurrentEntity()); if (name == null) { reportFatalError("PseudoAttrNameExpected", null); } fEntityScanner.skipDeclSpaces(); if (!fEntityScanner.skipChar('=')) { reportFatalError(scanningTextDecl ? "EqRequiredInTextDecl" : "EqRequiredInXMLDecl", new Object[]{name}); } fEntityScanner.skipDeclSpaces(); int quote = fEntityScanner.peekChar(); if (quote != '\'' && quote != '"') { reportFatalError(scanningTextDecl ? "QuoteRequiredInTextDecl" : "QuoteRequiredInXMLDecl" , new Object[]{name}); } fEntityScanner.scanChar(); int c = fEntityScanner.scanLiteral(quote, value); if (c != quote) { fStringBuffer2.clear(); do { fStringBuffer2.append(value); if (c != -1) { if (c == '&' || c == '%' || c == '<' || c == ']') { fStringBuffer2.append((char)fEntityScanner.scanChar()); } // REVISIT: Even if you could reliably read non-ASCII chars // why bother scanning for surrogates here? Only ASCII chars // match the productions in XMLDecls and TextDecls. -- mrglavas else if (XMLChar.isHighSurrogate(c)) { scanSurrogates(fStringBuffer2); } else if (isInvalidLiteral(c)) { String key = scanningTextDecl ? "InvalidCharInTextDecl" : "InvalidCharInXMLDecl"; reportFatalError(key, new Object[] {Integer.toString(c, 16)}); fEntityScanner.scanChar(); } } c = fEntityScanner.scanLiteral(quote, value); } while (c != quote); fStringBuffer2.append(value); value.setValues(fStringBuffer2); } if (!fEntityScanner.skipChar(quote)) { reportFatalError(scanningTextDecl ? "CloseQuoteMissingInTextDecl" : "CloseQuoteMissingInXMLDecl", new Object[]{name}); } // return return name; } // scanPseudoAttribute(XMLString):String /** * Scans the name of a pseudo attribute. The only legal names * in XML 1.0/1.1 documents are 'version', 'encoding' and 'standalone'. * * @return the name of the pseudo attribute or null * if a legal pseudo attribute name could not be scanned. */ private String scanPseudoAttributeName() throws IOException, XNIException { final int ch = fEntityScanner.peekChar(); switch (ch) { case 'v': if (fEntityScanner.skipString(fVersionSymbol)) { return fVersionSymbol; } break; case 'e': if (fEntityScanner.skipString(fEncodingSymbol)) { return fEncodingSymbol; } break; case 's': if (fEntityScanner.skipString(fStandaloneSymbol)) { return fStandaloneSymbol; } break; } return null; } // scanPseudoAttributeName() /** * Scans a processing instruction. *

*

     * [16] PI ::= '<?' PITarget (S (Char* - (Char* '?>' Char*)))? '?>'
     * [17] PITarget ::= Name - (('X' | 'x') ('M' | 'm') ('L' | 'l'))
     * 
* Note: This method uses fString, anything in it * at the time of calling is lost. */ protected void scanPI() throws IOException, XNIException { // target fReportEntity = false; String target = null; if(fNamespaces) { target = fEntityScanner.scanNCName(); } else { target = fEntityScanner.scanName(); } if (target == null) { reportFatalError("PITargetRequired", null); } // scan data scanPIData(target, fString); fReportEntity = true; } // scanPI() /** * Scans a processing data. This is needed to handle the situation * where a document starts with a processing instruction whose * target name starts with "xml". (e.g. xmlfoo) * * Note: This method uses fStringBuffer, anything in it * at the time of calling is lost. * * @param target The PI target * @param data The string to fill in with the data */ protected void scanPIData(String target, XMLString data) throws IOException, XNIException { // check target if (target.length() == 3) { char c0 = Character.toLowerCase(target.charAt(0)); char c1 = Character.toLowerCase(target.charAt(1)); char c2 = Character.toLowerCase(target.charAt(2)); if (c0 == 'x' && c1 == 'm' && c2 == 'l') { reportFatalError("ReservedPITarget", null); } } // spaces if (!fEntityScanner.skipSpaces()) { if (fEntityScanner.skipString("?>")) { // we found the end, there is no data data.clear(); return; } else { if(fNamespaces && fEntityScanner.peekChar() == ':') { fEntityScanner.scanChar(); XMLStringBuffer colonName = new XMLStringBuffer(target); colonName.append(':'); String str = fEntityScanner.scanName(); if (str != null) colonName.append(str); reportFatalError("ColonNotLegalWithNS", new Object[] {colonName.toString()}); fEntityScanner.skipSpaces(); } else { // if there is data there should be some space reportFatalError("SpaceRequiredInPI", null); } } } fStringBuffer.clear(); // data if (fEntityScanner.scanData("?>", fStringBuffer)) { do { int c = fEntityScanner.peekChar(); if (c != -1) { if (XMLChar.isHighSurrogate(c)) { scanSurrogates(fStringBuffer); } else if (isInvalidLiteral(c)) { reportFatalError("InvalidCharInPI", new Object[]{Integer.toHexString(c)}); fEntityScanner.scanChar(); } } } while (fEntityScanner.scanData("?>", fStringBuffer)); } data.setValues(fStringBuffer); } // scanPIData(String,XMLString) /** * Scans a comment. *

*

     * [15] Comment ::= '<!--' ((Char - '-') | ('-' (Char - '-')))* '-->'
     * 
*

* Note: Called after scanning past '<!--' * Note: This method uses fString, anything in it * at the time of calling is lost. * * @param text The buffer to fill in with the text. */ protected void scanComment(XMLStringBuffer text) throws IOException, XNIException { // text // REVISIT: handle invalid character, eof text.clear(); while (fEntityScanner.scanData("--", text)) { int c = fEntityScanner.peekChar(); if (c != -1) { if (XMLChar.isHighSurrogate(c)) { scanSurrogates(text); } else if (isInvalidLiteral(c)) { reportFatalError("InvalidCharInComment", new Object[] { Integer.toHexString(c) }); fEntityScanner.scanChar(); } } } if (!fEntityScanner.skipChar('>')) { reportFatalError("DashDashInComment", null); } } // scanComment() /** * Scans an attribute value and normalizes whitespace converting all * whitespace characters to space characters. * * [10] AttValue ::= '"' ([^<&"] | Reference)* '"' | "'" ([^<&'] | Reference)* "'" * * @param value The XMLString to fill in with the value. * @param nonNormalizedValue The XMLString to fill in with the * non-normalized value. * @param atName The name of the attribute being parsed (for error msgs). * @param checkEntities true if undeclared entities should be reported as VC violation, * false if undeclared entities should be reported as WFC violation. * @param eleName The name of element to which this attribute belongs. * * @return true if the non-normalized and normalized value are the same * * Note: This method uses fStringBuffer2, anything in it * at the time of calling is lost. **/ protected boolean scanAttributeValue(XMLString value, XMLString nonNormalizedValue, String atName, boolean checkEntities,String eleName) throws IOException, XNIException { // quote int quote = fEntityScanner.peekChar(); if (quote != '\'' && quote != '"') { reportFatalError("OpenQuoteExpected", new Object[]{eleName,atName}); } fEntityScanner.scanChar(); int entityDepth = fEntityDepth; int c = fEntityScanner.scanLiteral(quote, value); if (DEBUG_ATTR_NORMALIZATION) { System.out.println("** scanLiteral -> \"" + value.toString() + "\""); } int fromIndex = 0; if (c == quote && (fromIndex = isUnchangedByNormalization(value)) == -1) { /** Both the non-normalized and normalized attribute values are equal. **/ nonNormalizedValue.setValues(value); int cquote = fEntityScanner.scanChar(); if (cquote != quote) { reportFatalError("CloseQuoteExpected", new Object[]{eleName,atName}); } return true; } fStringBuffer2.clear(); fStringBuffer2.append(value); normalizeWhitespace(value, fromIndex); if (DEBUG_ATTR_NORMALIZATION) { System.out.println("** normalizeWhitespace -> \"" + value.toString() + "\""); } if (c != quote) { fScanningAttribute = true; fStringBuffer.clear(); do { fStringBuffer.append(value); if (DEBUG_ATTR_NORMALIZATION) { System.out.println("** value2: \"" + fStringBuffer.toString() + "\""); } if (c == '&') { fEntityScanner.skipChar('&'); if (entityDepth == fEntityDepth) { fStringBuffer2.append('&'); } if (fEntityScanner.skipChar('#')) { if (entityDepth == fEntityDepth) { fStringBuffer2.append('#'); } int ch = scanCharReferenceValue(fStringBuffer, fStringBuffer2); if (ch != -1) { if (DEBUG_ATTR_NORMALIZATION) { System.out.println("** value3: \"" + fStringBuffer.toString() + "\""); } } } else { String entityName = fEntityScanner.scanName(); if (entityName == null) { reportFatalError("NameRequiredInReference", null); } else if (entityDepth == fEntityDepth) { fStringBuffer2.append(entityName); } if (!fEntityScanner.skipChar(';')) { reportFatalError("SemicolonRequiredInReference", new Object []{entityName}); } else if (entityDepth == fEntityDepth) { fStringBuffer2.append(';'); } if (entityName == fAmpSymbol) { fStringBuffer.append('&'); if (DEBUG_ATTR_NORMALIZATION) { System.out.println("** value5: \"" + fStringBuffer.toString() + "\""); } } else if (entityName == fAposSymbol) { fStringBuffer.append('\''); if (DEBUG_ATTR_NORMALIZATION) { System.out.println("** value7: \"" + fStringBuffer.toString() + "\""); } } else if (entityName == fLtSymbol) { fStringBuffer.append('<'); if (DEBUG_ATTR_NORMALIZATION) { System.out.println("** value9: \"" + fStringBuffer.toString() + "\""); } } else if (entityName == fGtSymbol) { fStringBuffer.append('>'); if (DEBUG_ATTR_NORMALIZATION) { System.out.println("** valueB: \"" + fStringBuffer.toString() + "\""); } } else if (entityName == fQuotSymbol) { fStringBuffer.append('"'); if (DEBUG_ATTR_NORMALIZATION) { System.out.println("** valueD: \"" + fStringBuffer.toString() + "\""); } } else { if (fEntityManager.isExternalEntity(entityName)) { reportFatalError("ReferenceToExternalEntity", new Object[] { entityName }); } else { if (!fEntityManager.isDeclaredEntity(entityName)) { //WFC & VC: Entity Declared if (checkEntities) { if (fValidation) { fErrorReporter.reportError(XMLMessageFormatter.XML_DOMAIN, "EntityNotDeclared", new Object[]{entityName}, XMLErrorReporter.SEVERITY_ERROR); } } else { reportFatalError("EntityNotDeclared", new Object[]{entityName}); } } fEntityManager.startEntity(entityName, true); } } } } else if (c == '<') { reportFatalError("LessthanInAttValue", new Object[] { eleName, atName }); fEntityScanner.scanChar(); if (entityDepth == fEntityDepth) { fStringBuffer2.append((char)c); } } else if (c == '%' || c == ']') { fEntityScanner.scanChar(); fStringBuffer.append((char)c); if (entityDepth == fEntityDepth) { fStringBuffer2.append((char)c); } if (DEBUG_ATTR_NORMALIZATION) { System.out.println("** valueF: \"" + fStringBuffer.toString() + "\""); } } else if (c == '\n' || c == '\r') { fEntityScanner.scanChar(); fStringBuffer.append(' '); if (entityDepth == fEntityDepth) { fStringBuffer2.append('\n'); } } else if (c != -1 && XMLChar.isHighSurrogate(c)) { fStringBuffer3.clear(); if (scanSurrogates(fStringBuffer3)) { fStringBuffer.append(fStringBuffer3); if (entityDepth == fEntityDepth) { fStringBuffer2.append(fStringBuffer3); } if (DEBUG_ATTR_NORMALIZATION) { System.out.println("** valueI: \"" + fStringBuffer.toString() + "\""); } } } else if (c != -1 && isInvalidLiteral(c)) { reportFatalError("InvalidCharInAttValue", new Object[] {eleName, atName, Integer.toString(c, 16)}); fEntityScanner.scanChar(); if (entityDepth == fEntityDepth) { fStringBuffer2.append((char)c); } } c = fEntityScanner.scanLiteral(quote, value); if (entityDepth == fEntityDepth) { fStringBuffer2.append(value); } normalizeWhitespace(value); } while (c != quote || entityDepth != fEntityDepth); fStringBuffer.append(value); if (DEBUG_ATTR_NORMALIZATION) { System.out.println("** valueN: \"" + fStringBuffer.toString() + "\""); } value.setValues(fStringBuffer); fScanningAttribute = false; } nonNormalizedValue.setValues(fStringBuffer2); // quote int cquote = fEntityScanner.scanChar(); if (cquote != quote) { reportFatalError("CloseQuoteExpected", new Object[]{eleName,atName}); } return nonNormalizedValue.equals(value.ch, value.offset, value.length); } // scanAttributeValue() /** * Scans External ID and return the public and system IDs. * * @param identifiers An array of size 2 to return the system id, * and public id (in that order). * @param optionalSystemId Specifies whether the system id is optional. * * Note: This method uses fString and fStringBuffer, * anything in them at the time of calling is lost. */ protected void scanExternalID(String[] identifiers, boolean optionalSystemId) throws IOException, XNIException { String systemId = null; String publicId = null; if (fEntityScanner.skipString("PUBLIC")) { if (!fEntityScanner.skipSpaces()) { reportFatalError("SpaceRequiredAfterPUBLIC", null); } scanPubidLiteral(fString); publicId = fString.toString(); if (!fEntityScanner.skipSpaces() && !optionalSystemId) { reportFatalError("SpaceRequiredBetweenPublicAndSystem", null); } } if (publicId != null || fEntityScanner.skipString("SYSTEM")) { if (publicId == null && !fEntityScanner.skipSpaces()) { reportFatalError("SpaceRequiredAfterSYSTEM", null); } int quote = fEntityScanner.peekChar(); if (quote != '\'' && quote != '"') { if (publicId != null && optionalSystemId) { // looks like we don't have any system id // simply return the public id identifiers[0] = null; identifiers[1] = publicId; return; } reportFatalError("QuoteRequiredInSystemID", null); } fEntityScanner.scanChar(); XMLString ident = fString; if (fEntityScanner.scanLiteral(quote, ident) != quote) { fStringBuffer.clear(); do { fStringBuffer.append(ident); int c = fEntityScanner.peekChar(); if (XMLChar.isMarkup(c) || c == ']') { fStringBuffer.append((char)fEntityScanner.scanChar()); } else if (XMLChar.isHighSurrogate(c)) { scanSurrogates(fStringBuffer); } else if (isInvalidLiteral(c)) { reportFatalError("InvalidCharInSystemID", new Object[] { Integer.toHexString(c) }); fEntityScanner.scanChar(); } } while (fEntityScanner.scanLiteral(quote, ident) != quote); fStringBuffer.append(ident); ident = fStringBuffer; } systemId = ident.toString(); if (!fEntityScanner.skipChar(quote)) { reportFatalError("SystemIDUnterminated", null); } } // store result in array identifiers[0] = systemId; identifiers[1] = publicId; } /** * Scans public ID literal. * * [12] PubidLiteral ::= '"' PubidChar* '"' | "'" (PubidChar - "'")* "'" * [13] PubidChar::= #x20 | #xD | #xA | [a-zA-Z0-9] | [-'()+,./:=?;!*#@$_%] * * The returned string is normalized according to the following rule, * from http://www.w3.org/TR/REC-xml#dt-pubid: * * Before a match is attempted, all strings of white space in the public * identifier must be normalized to single space characters (#x20), and * leading and trailing white space must be removed. * * @param literal The string to fill in with the public ID literal. * @return True on success. * * Note: This method uses fStringBuffer, anything in it at * the time of calling is lost. */ protected boolean scanPubidLiteral(XMLString literal) throws IOException, XNIException { int quote = fEntityScanner.scanChar(); if (quote != '\'' && quote != '"') { reportFatalError("QuoteRequiredInPublicID", null); return false; } fStringBuffer.clear(); // skip leading whitespace boolean skipSpace = true; boolean dataok = true; while (true) { int c = fEntityScanner.scanChar(); if (c == ' ' || c == '\n' || c == '\r') { if (!skipSpace) { // take the first whitespace as a space and skip the others fStringBuffer.append(' '); skipSpace = true; } } else if (c == quote) { if (skipSpace) { // if we finished on a space let's trim it fStringBuffer.length--; } literal.setValues(fStringBuffer); break; } else if (XMLChar.isPubid(c)) { fStringBuffer.append((char)c); skipSpace = false; } else if (c == -1) { reportFatalError("PublicIDUnterminated", null); return false; } else { dataok = false; reportFatalError("InvalidCharInPublicID", new Object[]{Integer.toHexString(c)}); } } return dataok; } /** * Normalize whitespace in an XMLString converting all whitespace * characters to space characters. */ protected void normalizeWhitespace(XMLString value) { int end = value.offset + value.length; for (int i = value.offset; i < end; ++i) { int c = value.ch[i]; // Performance: For XML 1.0 documents take advantage of // the fact that the only legal characters below 0x20 // are 0x09 (TAB), 0x0A (LF) and 0x0D (CR). Since we've // already determined the well-formedness of these // characters it is sufficient (and safe) to check // against 0x20. -- mrglavas if (c < 0x20) { value.ch[i] = ' '; } } } /** * Normalize whitespace in an XMLString converting all whitespace * characters to space characters. */ protected void normalizeWhitespace(XMLString value, int fromIndex) { int end = value.offset + value.length; for (int i = value.offset + fromIndex; i < end; ++i) { int c = value.ch[i]; // Performance: For XML 1.0 documents take advantage of // the fact that the only legal characters below 0x20 // are 0x09 (TAB), 0x0A (LF) and 0x0D (CR). Since we've // already determined the well-formedness of these // characters it is sufficient (and safe) to check // against 0x20. -- mrglavas if (c < 0x20) { value.ch[i] = ' '; } } } /** * Checks whether this string would be unchanged by normalization. * * @return -1 if the value would be unchanged by normalization, * otherwise the index of the first whitespace character which * would be transformed. */ protected int isUnchangedByNormalization(XMLString value) { int end = value.offset + value.length; for (int i = value.offset; i < end; ++i) { int c = value.ch[i]; // Performance: For XML 1.0 documents take advantage of // the fact that the only legal characters below 0x20 // are 0x09 (TAB), 0x0A (LF) and 0x0D (CR). Since we've // already determined the well-formedness of these // characters it is sufficient (and safe) to check // against 0x20. -- mrglavas if (c < 0x20) { return i - value.offset; } } return -1; } // // XMLEntityHandler methods // /** * This method notifies of the start of an entity. The document entity * has the pseudo-name of "[xml]" the DTD has the pseudo-name of "[dtd]" * parameter entity names start with '%'; and general entities are just * specified by their name. * * @param name The name of the entity. * @param identifier The resource identifier. * @param encoding The auto-detected IANA encoding name of the entity * stream. This value will be null in those situations * where the entity encoding is not auto-detected (e.g. * internal entities or a document entity that is * parsed from a java.io.Reader). * @param augs Additional information that may include infoset augmentations * * @throws XNIException Thrown by handler to signal an error. */ public void startEntity(String name, XMLResourceIdentifier identifier, String encoding, Augmentations augs) throws XNIException { // keep track of the entity depth fEntityDepth++; // must reset entity scanner fEntityScanner = fEntityManager.getEntityScanner(); } // startEntity(String,XMLResourceIdentifier,String) /** * This method notifies the end of an entity. The document entity has * the pseudo-name of "[xml]" the DTD has the pseudo-name of "[dtd]" * parameter entity names start with '%'; and general entities are just * specified by their name. * * @param name The name of the entity. * @param augs Additional information that may include infoset augmentations * * @throws XNIException Thrown by handler to signal an error. */ public void endEntity(String name, Augmentations augs) throws XNIException { // keep track of the entity depth fEntityDepth--; } // endEntity(String) /** * Scans a character reference and append the corresponding chars to the * specified buffer. * *

*

     * [66] CharRef ::= '&#' [0-9]+ ';' | '&#x' [0-9a-fA-F]+ ';'
     * 
* * Note: This method uses fStringBuffer, anything in it * at the time of calling is lost. * * @param buf the character buffer to append chars to * @param buf2 the character buffer to append non-normalized chars to * * @return the character value or (-1) on conversion failure */ protected int scanCharReferenceValue(XMLStringBuffer buf, XMLStringBuffer buf2) throws IOException, XNIException { // scan hexadecimal value boolean hex = false; if (fEntityScanner.skipChar('x')) { if (buf2 != null) { buf2.append('x'); } hex = true; fStringBuffer3.clear(); boolean digit = true; int c = fEntityScanner.peekChar(); digit = (c >= '0' && c <= '9') || (c >= 'a' && c <= 'f') || (c >= 'A' && c <= 'F'); if (digit) { if (buf2 != null) { buf2.append((char)c); } fEntityScanner.scanChar(); fStringBuffer3.append((char)c); do { c = fEntityScanner.peekChar(); digit = (c >= '0' && c <= '9') || (c >= 'a' && c <= 'f') || (c >= 'A' && c <= 'F'); if (digit) { if (buf2 != null) { buf2.append((char)c); } fEntityScanner.scanChar(); fStringBuffer3.append((char)c); } } while (digit); } else { reportFatalError("HexdigitRequiredInCharRef", null); } } // scan decimal value else { fStringBuffer3.clear(); boolean digit = true; int c = fEntityScanner.peekChar(); digit = c >= '0' && c <= '9'; if (digit) { if (buf2 != null) { buf2.append((char)c); } fEntityScanner.scanChar(); fStringBuffer3.append((char)c); do { c = fEntityScanner.peekChar(); digit = c >= '0' && c <= '9'; if (digit) { if (buf2 != null) { buf2.append((char)c); } fEntityScanner.scanChar(); fStringBuffer3.append((char)c); } } while (digit); } else { reportFatalError("DigitRequiredInCharRef", null); } } // end if (!fEntityScanner.skipChar(';')) { reportFatalError("SemicolonRequiredInCharRef", null); } if (buf2 != null) { buf2.append(';'); } // convert string to number int value = -1; try { value = Integer.parseInt(fStringBuffer3.toString(), hex ? 16 : 10); // character reference must be a valid XML character if (isInvalid(value)) { StringBuffer errorBuf = new StringBuffer(fStringBuffer3.length + 1); if (hex) errorBuf.append('x'); errorBuf.append(fStringBuffer3.ch, fStringBuffer3.offset, fStringBuffer3.length); reportFatalError("InvalidCharRef", new Object[]{errorBuf.toString()}); } } catch (NumberFormatException e) { // Conversion failed, let -1 value drop through. // If we end up here, the character reference was invalid. StringBuffer errorBuf = new StringBuffer(fStringBuffer3.length + 1); if (hex) errorBuf.append('x'); errorBuf.append(fStringBuffer3.ch, fStringBuffer3.offset, fStringBuffer3.length); reportFatalError("InvalidCharRef", new Object[]{errorBuf.toString()}); } // append corresponding chars to the given buffer if (!XMLChar.isSupplemental(value)) { buf.append((char) value); } else { // character is supplemental, split it into surrogate chars buf.append(XMLChar.highSurrogate(value)); buf.append(XMLChar.lowSurrogate(value)); } // char refs notification code if (fNotifyCharRefs && value != -1) { String literal = "#" + (hex ? "x" : "") + fStringBuffer3.toString(); if (!fScanningAttribute) { fCharRefLiteral = literal; } } return value; } // returns true if the given character is not // valid with respect to the version of // XML understood by this scanner. protected boolean isInvalid(int value) { return (XMLChar.isInvalid(value)); } // isInvalid(int): boolean // returns true if the given character is not // valid or may not be used outside a character reference // with respect to the version of XML understood by this scanner. protected boolean isInvalidLiteral(int value) { return (XMLChar.isInvalid(value)); } // isInvalidLiteral(int): boolean // returns true if the given character is // a valid nameChar with respect to the version of // XML understood by this scanner. protected boolean isValidNameChar(int value) { return (XMLChar.isName(value)); } // isValidNameChar(int): boolean // returns true if the given character is // a valid nameStartChar with respect to the version of // XML understood by this scanner. protected boolean isValidNameStartChar(int value) { return (XMLChar.isNameStart(value)); } // isValidNameStartChar(int): boolean // returns true if the given character is // a valid NCName character with respect to the version of // XML understood by this scanner. protected boolean isValidNCName(int value) { return (XMLChar.isNCName(value)); } // isValidNCName(int): boolean // returns true if the given character is // a valid high surrogate for a nameStartChar // with respect to the version of XML understood // by this scanner. protected boolean isValidNameStartHighSurrogate(int value) { return false; } // isValidNameStartHighSurrogate(int): boolean protected boolean versionSupported(String version ) { return version.equals("1.0"); } // version Supported // returns the error message key for unsupported // versions of XML with respect to the version of // XML understood by this scanner. protected String getVersionNotSupportedKey () { return "VersionNotSupported"; } // getVersionNotSupportedKey: String /** * Scans surrogates and append them to the specified buffer. *

* Note: This assumes the current char has already been * identified as a high surrogate. * * @param buf The StringBuffer to append the read surrogates to. * @return True if it succeeded. */ protected boolean scanSurrogates(XMLStringBuffer buf) throws IOException, XNIException { int high = fEntityScanner.scanChar(); int low = fEntityScanner.peekChar(); if (!XMLChar.isLowSurrogate(low)) { reportFatalError("InvalidCharInContent", new Object[] {Integer.toString(high, 16)}); return false; } fEntityScanner.scanChar(); // convert surrogates to supplemental character int c = XMLChar.supplemental((char)high, (char)low); // supplemental character must be a valid XML character if (isInvalid(c)) { reportFatalError("InvalidCharInContent", new Object[]{Integer.toString(c, 16)}); return false; } // fill in the buffer buf.append((char)high); buf.append((char)low); return true; } // scanSurrogates():boolean /** * Convenience function used in all XML scanners. */ protected void reportFatalError(String msgId, Object[] args) throws XNIException { fErrorReporter.reportError(XMLMessageFormatter.XML_DOMAIN, msgId, args, XMLErrorReporter.SEVERITY_FATAL_ERROR); } // private methods private void init() { fEntityScanner = null; // initialize vars fEntityDepth = 0; fReportEntity = true; fResourceIdentifier.clear(); } } // class XMLScanner





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