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/***
 * ASM XML Adapter
 * Copyright (c) 2000,2002,2003 INRIA, France Telecom
 * All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 * 1. Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 * 2. Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the distribution.
 * 3. Neither the name of the copyright holders nor the names of its
 *    contributors may be used to endorse or promote products derived from
 *    this software without specific prior written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
 * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
 * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
 * THE POSSIBILITY OF SUCH DAMAGE.
 */

package oracle.toplink.libraries.asm.xml;

import java.io.BufferedOutputStream;
import java.io.ByteArrayInputStream;
import java.io.ByteArrayOutputStream;
import java.io.FileInputStream;
import java.io.FileOutputStream;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.io.OutputStreamWriter;
import java.io.Writer;
import java.util.zip.ZipEntry;
import java.util.zip.ZipInputStream;
import java.util.zip.ZipOutputStream;

import javax.xml.transform.Source;
import javax.xml.transform.Templates;
import javax.xml.transform.TransformerConfigurationException;
import javax.xml.transform.TransformerException;
import javax.xml.transform.TransformerFactory;
import javax.xml.transform.sax.SAXResult;
import javax.xml.transform.sax.SAXSource;
import javax.xml.transform.sax.SAXTransformerFactory;
import javax.xml.transform.sax.TransformerHandler;
import javax.xml.transform.stream.StreamSource;

import oracle.toplink.libraries.asm.ClassReader;

import org.xml.sax.Attributes;
import org.xml.sax.ContentHandler;
import org.xml.sax.InputSource;
import org.xml.sax.SAXException;
import org.xml.sax.XMLReader;
import org.xml.sax.ext.LexicalHandler;
import org.xml.sax.helpers.AttributesImpl;
import org.xml.sax.helpers.DefaultHandler;
import org.xml.sax.helpers.XMLReaderFactory;


/**
 * Processor is a command line tool that can be used for
 * bytecode waving directed by XSL transformation.
 * 

* In order to use a concrete XSLT engine, system property * javax.xml.transform.TransformerFactory must be set to * one of the following values. * *

* * * * * * * * * * * * * * * * * * * * * * * * * *
jd.xsltjd.xml.xslt.trax.TransformerFactoryImpl
Saxonnet.sf.saxon.TransformerFactoryImpl
Cauchocom.caucho.xsl.Xsl
Xalan interpeterorg.apache.xalan.processor.TransformerFactory
Xalan xsltcorg.apache.xalan.xsltc.trax.TransformerFactoryImpl
*
* * @author Eugene Kuleshov */ public class Processor { public static final int BYTECODE = 1; public static final int MULTI_XML = 2; public static final int SINGLE_XML = 3; private static final String SINGLE_XML_NAME = "classes.xml"; private int inRepresentation; private int outRepresentation; private InputStream input = null; private OutputStream output = null; private Source xslt = null; private boolean computeMax; private int n = 0; public Processor( int inRepresenation, int outRepresentation, InputStream input, OutputStream output, Source xslt) { this.inRepresentation = inRepresenation; this.outRepresentation = outRepresentation; this.input = input; this.output = output; this.xslt = xslt; this.computeMax = true; } public int process() throws TransformerException, IOException, SAXException { ZipInputStream zis = new ZipInputStream( input); final ZipOutputStream zos = new ZipOutputStream( output); final OutputStreamWriter osw = new OutputStreamWriter( zos); Thread.currentThread().setContextClassLoader( getClass().getClassLoader()); TransformerFactory tf = TransformerFactory.newInstance(); if( !tf.getFeature( SAXSource.FEATURE) || !tf.getFeature( SAXResult.FEATURE)) return 0; SAXTransformerFactory saxtf = ( SAXTransformerFactory) tf; Templates templates = null; if( xslt!=null) { templates = saxtf.newTemplates( xslt); } // configuring outHandlerFactory /////////////////////////////////////////////////////// EntryElement entryElement = getEntryElement( zos); ContentHandler outDocHandler = null; switch( outRepresentation) { case BYTECODE: outDocHandler = new OutputSlicingHandler( new ASMContentHandlerFactory( zos, computeMax), entryElement, false); break; case MULTI_XML: outDocHandler = new OutputSlicingHandler( new SAXWriterFactory( osw, true), entryElement, true); break; case SINGLE_XML: ZipEntry outputEntry = new ZipEntry( SINGLE_XML_NAME); zos.putNextEntry( outputEntry); outDocHandler = new SAXWriter( osw, false); break; } // configuring inputDocHandlerFactory ///////////////////////////////////////////////// ContentHandler inDocHandler = null; if( templates==null) { inDocHandler = outDocHandler; } else { inDocHandler = new InputSlicingHandler( "class", outDocHandler, new TransformerHandlerFactory( saxtf, templates, outDocHandler)); } ContentHandlerFactory inDocHandlerFactory = new SubdocumentHandlerFactory( inDocHandler); if( inDocHandler!=null && inRepresentation!=SINGLE_XML) { inDocHandler.startDocument(); inDocHandler.startElement( "", "classes", "classes", new AttributesImpl()); } int n = 0; ZipEntry ze = null; while(( ze = zis.getNextEntry())!=null) { if( isClassEntry( ze)) { processEntry( zis, ze, inDocHandlerFactory); } else { OutputStream os = entryElement.openEntry( getName( ze)); copyEntry( zis, os); entryElement.closeEntry(); } n++; update( ze.getName()); } if( inDocHandler!=null && inRepresentation!=SINGLE_XML) { inDocHandler.endElement( "", "classes", "classes"); inDocHandler.endDocument(); } if( outRepresentation==SINGLE_XML) { zos.closeEntry(); } zos.flush(); zos.close(); return n; } private void copyEntry( InputStream is, OutputStream os) throws IOException { if( outRepresentation==SINGLE_XML) return; byte[] buff = new byte[2048]; int n; while ((n = is.read(buff)) != -1) { os.write(buff, 0, n); } } private boolean isClassEntry( ZipEntry ze) { String name = ze.getName(); return inRepresentation==SINGLE_XML && name.equals( SINGLE_XML_NAME) || name.endsWith( ".class") || name.endsWith( ".class.xml"); } private void processEntry( final ZipInputStream zis, ZipEntry ze, ContentHandlerFactory handlerFactory) { ContentHandler handler = handlerFactory.createContentHandler(); try { /* if( CODE2ASM.equals( command)) { // read bytecode and process it with TraceClassVisitor ClassReader cr = new ClassReader( readEntry( zis, ze)); cr.accept( new TraceClassVisitor( null, new PrintWriter( os)), false); */ boolean singleInputDocument = inRepresentation==SINGLE_XML; if( inRepresentation==BYTECODE) { // read bytecode and process it with handler ClassReader cr = new ClassReader( readEntry( zis, ze)); cr.accept( new SAXClassAdapter( handler, singleInputDocument), false); } else { // read XML and process it with handler XMLReader reader = XMLReaderFactory.createXMLReader(); reader.setContentHandler( handler); reader.parse( new InputSource( singleInputDocument ? ( InputStream) new ProtectedInputStream( zis) : new ByteArrayInputStream( readEntry( zis, ze)))); } } catch( Exception ex) { update( ze.getName()); update( ex); } } private EntryElement getEntryElement( ZipOutputStream zos) { if( outRepresentation==SINGLE_XML) { return new SingleDocElement( zos); } else { return new ZipEntryElement( zos); } } /* private ContentHandlerFactory getHandlerFactory( OutputStream os, SAXTransformerFactory saxtf, Templates templates) { ContentHandlerFactory factory = null; if( templates==null) { if( outputRepresentation==BYTECODE) { // factory used to write bytecode factory = new ASMContentHandlerFactory( os, computeMax); } else { // factory used to write XML factory = new SAXWriterFactory( os, true); } } else { if( outputRepresentation==BYTECODE) { // factory used to transform and then write bytecode factory = new ASMTransformerHandlerFactory( saxtf, templates, os, computeMax); } else { // factory used to transform and then write XML factory = new TransformerHandlerFactory( saxtf, templates, os, outputRepresentation==SINGLE_XML); } } return factory; } */ private String getName( ZipEntry ze) { String name = ze.getName(); if( isClassEntry( ze)) { if( inRepresentation!=BYTECODE && outRepresentation==BYTECODE) { name = name.substring( 0, name.length()-4); // .class.xml to .class } else if( inRepresentation==BYTECODE && outRepresentation!=BYTECODE) { name = name.concat( ".xml"); // .class to .class.xml } // } else if( CODE2ASM.equals( command)) { // name = name.substring( 0, name.length()-6).concat( ".asm"); } return name; } private byte[] readEntry(ZipInputStream zis, ZipEntry ze) throws IOException { long size = ze.getSize(); if (size > -1) { byte[] buff = new byte[(int) size]; // int k = 0; // while(( n = zis.read(buff, k, buff.length-k)) > 0) { // k += n; // } zis.read(buff); return buff; } else { ByteArrayOutputStream bos = new ByteArrayOutputStream(); byte[] buff = new byte[4096]; int n; while(( n = zis.read(buff)) != -1) { bos.write(buff, 0, n); } return bos.toByteArray(); } } /* * (non-Javadoc) * @see java.util.Observer#update(java.util.Observable, java.lang.Object) */ public void update( Object arg) { if( arg instanceof Throwable) { (( Throwable) arg).printStackTrace(); } else { if(( n % 100)==0) { System.err.println( n+" "+arg); } } n++; } public static void main( String[] args) throws Exception { if( args.length<2) { showUsage(); return; } int inRepresentation = getRepresentation( args[ 0]); int outRepresentation = getRepresentation( args[ 1]); InputStream is = null; OutputStream os = null; Source xslt = null; // boolean computeMax = true; for( int i = 2; i -in -out [-xslt ]"); System.err.println( " and - code | xml | singlexml"); } /** * IputStream wrapper class used to protect input streams from being * closed by some stupid XML parsers. */ private static final class ProtectedInputStream extends InputStream { private final InputStream is; private ProtectedInputStream( InputStream is) { super(); this.is = is; } public final void close() throws IOException { } public final int read() throws IOException { return is.read(); } public final int read( byte[] b, int off, int len) throws IOException { return is.read( b, off, len); } public final int available() throws IOException { return is.available(); } } /** * A {@link ContentHandlerFactory ContentHandlerFactory} is used to create * {@link org.xml.sax.ContentHandler ContentHandler} instances for concrete context. */ private static interface ContentHandlerFactory { /** * Creates an instance of the content handler. * * @return content handler */ ContentHandler createContentHandler(); } /** * SAXWriterFactory */ private static final class SAXWriterFactory implements ContentHandlerFactory { private Writer w; private boolean optimizeEmptyElements; public SAXWriterFactory( Writer w, boolean optimizeEmptyElements) { this.w = w; this.optimizeEmptyElements = optimizeEmptyElements; } public final ContentHandler createContentHandler() { return new SAXWriter( w, optimizeEmptyElements); } } /** * ASMContentHandlerFactory */ private static final class ASMContentHandlerFactory implements ContentHandlerFactory { private OutputStream os; private boolean computeMax; public ASMContentHandlerFactory( OutputStream os, boolean computeMax) { this.os = os; this.computeMax = computeMax; } public final ContentHandler createContentHandler() { return new ASMContentHandler( os, computeMax); } } /** * TransformerHandlerFactory */ private static final class TransformerHandlerFactory implements ContentHandlerFactory { private SAXTransformerFactory saxtf; private Templates templates; private ContentHandler outputHandler; public TransformerHandlerFactory( SAXTransformerFactory saxtf, Templates templates, ContentHandler outputHandler) { this.saxtf = saxtf; this.templates = templates; this.outputHandler = outputHandler; } public final ContentHandler createContentHandler() { try { TransformerHandler handler = saxtf.newTransformerHandler( templates); handler.setResult( new SAXResult( outputHandler)); return handler; } catch( TransformerConfigurationException ex) { throw new RuntimeException( ex.toString()); } } } /** * SubdocumentHandlerFactory */ private final static class SubdocumentHandlerFactory implements ContentHandlerFactory { private ContentHandler subdocumentHandler; public SubdocumentHandlerFactory( ContentHandler subdocumentHandler) { this.subdocumentHandler = subdocumentHandler; } public final ContentHandler createContentHandler() { return subdocumentHandler; } } /** * A {@link org.xml.sax.ContentHandler ContentHandler} and * {@link org.xml.sax.ext.LexicalHandler LexicalHandler} that serializes * XML from SAX 2.0 events into {@link java.io.Writer Writer}. * *
* This implementation does not support namespaces, * entity definitions (uncluding DTD), CDATA and text elements. *
*/ private final static class SAXWriter extends DefaultHandler implements LexicalHandler { private static final char[] OFF = " ".toCharArray(); private Writer w; private boolean optimizeEmptyElements; private boolean openElement = false; private int ident = 0; /** * Creates SAXWriter. * * @param w writer * @param optimizeEmptyElements if set to true, * short XML syntax will be used for empty elements */ public SAXWriter( Writer w, boolean optimizeEmptyElements) { this.w = w; this.optimizeEmptyElements = optimizeEmptyElements; } public final void startElement( String ns, String localName, String qName, Attributes atts) throws SAXException { try { closeElement(); writeIdent(); w.write( "<".concat( qName)); if( atts!=null && atts.getLength()>0) writeAttributes( atts); if( !optimizeEmptyElements) { w.write( ">\n"); } else { openElement = true; } ident += 2; } catch( IOException ex) { throw new SAXException(ex); } } public final void endElement( String ns, String localName, String qName) throws SAXException { ident -= 2; try { if( openElement) { w.write( "/>\n"); openElement = false; } else { writeIdent(); w.write( "\n"); } } catch( IOException ex) { throw new SAXException(ex); } } public final void endDocument() throws SAXException { try { w.flush(); } catch( IOException ex) { throw new SAXException(ex); } } public final void comment( char[] ch, int off, int len) throws SAXException { try { closeElement(); writeIdent(); w.write( "\n"); } catch( IOException ex) { throw new SAXException(ex); } } public final void startDTD( String arg0, String arg1, String arg2) throws SAXException { } public final void endDTD() throws SAXException { } public final void startEntity( String arg0) throws SAXException { } public final void endEntity( String arg0) throws SAXException { } public final void startCDATA() throws SAXException { } public final void endCDATA() throws SAXException { } private final void writeAttributes( Attributes atts) throws IOException { StringBuffer sb = new StringBuffer(); int len = atts.getLength(); for( int i = 0; i': sb.append( ">"); break; case '\"': sb.append( """); break; default: if( ch>0x7f) { sb.append( "&#").append( Integer.toString( ch)).append( ';'); } else { sb.append( ch); } } } return sb.toString(); } private final void writeIdent() throws IOException { int n = ident; while( n>0) { if( n>OFF.length) { w.write( OFF); n -= OFF.length; } else { w.write( OFF, 0, n); n = 0; } } } private final void closeElement() throws IOException { if( openElement) { w.write( ">\n"); } openElement = false; } } /** * A {@link org.xml.sax.ContentHandler ContentHandler} that splits XML documents * into smaller chunks. Each chunk is processed by the nested * {@link org.xml.sax.ContentHandler ContentHandler} obtained from * {@link java.net.ContentHandlerFactory ContentHandlerFactory}. * This is useful for running XSLT engine against large XML document that will * hardly fit into the memory all together. *

* TODO use complete path for subdocumentRoot */ private final static class InputSlicingHandler extends DefaultHandler { private String subdocumentRoot; private ContentHandler rootHandler; private ContentHandlerFactory subdocumentHandlerFactory; private boolean subdocument = false; private ContentHandler subdocumentHandler; /** * Constructs a new {@link InputSlicingHandler SubdocumentHandler} object. * * @param subdocumentRoot name/path to the root element of the subdocument * @param rootHandler content handler for the entire document (subdocument envelope). * @param subdocumentHandlerFactory a {@link ContentHandlerFactory ContentHandlerFactory} * used to create {@link ContentHandler ContentHandler} instances for subdocuments. */ public InputSlicingHandler( String subdocumentRoot, ContentHandler rootHandler, ContentHandlerFactory subdocumentHandlerFactory) { this.subdocumentRoot = subdocumentRoot; this.rootHandler = rootHandler; this.subdocumentHandlerFactory = subdocumentHandlerFactory; } public final void startElement( String namespaceURI, String localName, String qName, Attributes list) throws SAXException { if( subdocument) { subdocumentHandler.startElement( namespaceURI, localName, qName, list); } else if( localName.equals( subdocumentRoot)) { subdocumentHandler = subdocumentHandlerFactory.createContentHandler(); subdocumentHandler.startDocument(); subdocumentHandler.startElement( namespaceURI, localName, qName, list); subdocument = true; } else if( rootHandler!=null) { rootHandler.startElement( namespaceURI, localName, qName, list); } } public final void endElement( String namespaceURI, String localName, String qName) throws SAXException { if( subdocument) { subdocumentHandler.endElement( namespaceURI, localName, qName); if( localName.equals( subdocumentRoot)) { subdocumentHandler.endDocument(); subdocument = false; } } else if( rootHandler!=null) { rootHandler.endElement( namespaceURI, localName, qName); } } public final void startDocument() throws SAXException { if( rootHandler!=null) { rootHandler.startDocument(); } } public final void endDocument() throws SAXException { if( rootHandler!=null) { rootHandler.endDocument(); } } public final void characters( char[] buff, int offset, int size) throws SAXException { if( subdocument) { subdocumentHandler.characters(buff, offset, size); } else if( rootHandler!=null) { rootHandler.characters(buff, offset, size); } } } /** * A {@link org.xml.sax.ContentHandler ContentHandler} that splits XML documents * into smaller chunks. Each chunk is processed by the nested * {@link org.xml.sax.ContentHandler ContentHandler} obtained from * {@link java.net.ContentHandlerFactory ContentHandlerFactory}. * This is useful for running XSLT engine against large XML document that will * hardly fit into the memory all together. *

* TODO use complete path for subdocumentRoot */ private static final class OutputSlicingHandler extends DefaultHandler { private String subdocumentRoot; private ContentHandlerFactory subdocumentHandlerFactory; private EntryElement entryElement; private boolean isXml; private boolean subdocument = false; private ContentHandler subdocumentHandler; /** * Constructs a new {@link OutputSlicingHandler SubdocumentHandler} object. * * @param subdocumentRoot name/path to the root element of the subdocument * @param rootHandler content handler for the entire document (subdocument envelope). * @param subdocumentHandlerFactory a {@link ContentHandlerFactory ContentHandlerFactory} * used to create {@link ContentHandler ContentHandler} instances for subdocuments. */ public OutputSlicingHandler( ContentHandlerFactory subdocumentHandlerFactory, EntryElement entryElement, boolean isXml) { this.subdocumentRoot = "class"; this.subdocumentHandlerFactory = subdocumentHandlerFactory; this.entryElement = entryElement; this.isXml = isXml; } public final void startElement( String namespaceURI, String localName, String qName, Attributes list) throws SAXException { if( subdocument) { subdocumentHandler.startElement( namespaceURI, localName, qName, list); } else if( localName.equals( subdocumentRoot)) { String name = list.getValue( "name"); if( name==null || name.length()==0) throw new SAXException( "Class element without name attribute."); try { entryElement.openEntry( isXml ? name.concat( ".class.xml") : name.concat( ".class")); } catch( IOException ex) { throw new SAXException( ex.toString(), ex); } subdocumentHandler = subdocumentHandlerFactory.createContentHandler(); subdocumentHandler.startDocument(); subdocumentHandler.startElement( namespaceURI, localName, qName, list); subdocument = true; } } public final void endElement( String namespaceURI, String localName, String qName) throws SAXException { if( subdocument) { subdocumentHandler.endElement( namespaceURI, localName, qName); if( localName.equals( subdocumentRoot)) { subdocumentHandler.endDocument(); subdocument = false; try { entryElement.closeEntry(); } catch( IOException ex) { throw new SAXException( ex.toString(), ex); } } } } public final void startDocument() throws SAXException { } public final void endDocument() throws SAXException { } public final void characters( char[] buff, int offset, int size) throws SAXException { if( subdocument) { subdocumentHandler.characters(buff, offset, size); } } } private static interface EntryElement { OutputStream openEntry( String name) throws IOException; void closeEntry() throws IOException; } private static final class SingleDocElement implements EntryElement { private OutputStream os; public SingleDocElement( OutputStream os) { this.os = os; } public OutputStream openEntry( String name) throws IOException { return os; } public void closeEntry() throws IOException { os.flush(); } } private static final class ZipEntryElement implements EntryElement { private ZipOutputStream zos; public ZipEntryElement( ZipOutputStream zos) { this.zos = zos; } public OutputStream openEntry( String name) throws IOException { ZipEntry entry = new ZipEntry( name); zos.putNextEntry( entry); return zos; } public void closeEntry() throws IOException { zos.flush(); zos.closeEntry(); } } }





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