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//Copyright (c) 2006, Adobe Systems Incorporated
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//        This product includes software developed by the Adobe Systems Incorporated.
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//        http://www.adobe.com/devnet/xmp/library/eula-xmp-library-java.html

package com.itextpdf.kernel.xmp.impl;

import com.itextpdf.kernel.utils.XmlProcessorCreator;
import com.itextpdf.kernel.xmp.XMPConst;
import com.itextpdf.kernel.xmp.XMPError;
import com.itextpdf.kernel.xmp.XMPException;
import com.itextpdf.kernel.xmp.XMPMeta;
import com.itextpdf.kernel.xmp.options.ParseOptions;

import java.io.IOException;
import java.io.InputStream;
import java.io.InputStreamReader;
import java.io.Reader;
import java.io.StringReader;
import java.io.UnsupportedEncodingException;
import javax.xml.parsers.DocumentBuilder;
import org.w3c.dom.Document;
import org.w3c.dom.Node;
import org.w3c.dom.NodeList;
import org.w3c.dom.ProcessingInstruction;
import org.xml.sax.InputSource;
import org.xml.sax.SAXException;


/**
 * This class replaces the ExpatAdapter.cpp and does the
 * XML-parsing and fixes the prefix. After the parsing several normalisations
 * are applied to the XMPTree.
 * 
 * @since 01.02.2006
 */
public class XMPMetaParser
{
	/**  */
	private static final Object XMP_RDF = new Object();

	/**
	 * Hidden constructor, initialises the SAX parser handler.
	 */
	private XMPMetaParser()
	{
		// EMPTY
	}

	

	/**
	 * Parses the input source into an XMP metadata object, including
	 * de-aliasing and normalisation.
	 * 
	 * @param input the input can be an InputStream, a String or 
	 * 			a byte buffer containing the XMP packet.
	 * @param options the parse options
	 * @return Returns the resulting XMP metadata object
	 * @throws XMPException Thrown if parsing or normalisation fails.
	 */
	public static XMPMeta parse(Object input, ParseOptions options) throws XMPException
	{
		ParameterAsserts.assertNotNull(input);
		options = options != null ? options : new ParseOptions();

		Document document = parseXml(input, options);

		boolean xmpmetaRequired = options.getRequireXMPMeta();
		Object[] result = new Object[3];
		result = findRootNode(document, xmpmetaRequired, result);
		
		if (result != null  &&  result[1] == XMP_RDF)
		{
			XMPMetaImpl xmp = ParseRDF.parse((Node) result[0]);
			xmp.setPacketHeader((String) result[2]);
			
			// Check if the XMP object shall be normalized
			if (!options.getOmitNormalization())
			{
				return XMPNormalizer.process(xmp, options);
			}
			else
			{
				return xmp;
			}
		}
		else
		{
			// no appropriate root node found, return empty metadata object
			return new XMPMetaImpl();
		}
	}

	
	/**
	 * Parses the raw XML metadata packet considering the parsing options.
	 * Latin-1/ISO-8859-1 can be accepted when the input is a byte stream 
	 * (some old toolkits versions such packets). The stream is 
	 * then wrapped in another stream that converts Latin-1 to UTF-8.
	 * 

* If control characters shall be fixed, a reader is used that fixes the chars to spaces * (if the input is a byte stream is has to be read as character stream). *

* Both options reduce the performance of the parser. * * @param input the input can be an InputStream, a String or * a byte buffer containing the XMP packet. * @param options the parsing options * @return Returns the parsed XML document or an exception. * @throws XMPException Thrown if the parsing fails for different reasons */ private static Document parseXml(Object input, ParseOptions options) throws XMPException { if (input instanceof InputStream) { return parseXmlFromInputStream((InputStream) input, options); } else if (input instanceof byte[]) { return parseXmlFromBytebuffer(new ByteBuffer((byte[]) input), options); } else { return parseXmlFromString((String) input, options); } } /** * Parses XML from an {@link java.io.InputStream}, * fixing the encoding (Latin-1 to UTF-8) and illegal control character optionally. * * @param stream an InputStream * @param options the parsing options * @return Returns an XML DOM-Document. * @throws XMPException Thrown when the parsing fails. */ private static Document parseXmlFromInputStream(InputStream stream, ParseOptions options) throws XMPException { if (!options.getAcceptLatin1() && !options.getFixControlChars()) { return parseInputSource(new InputSource(stream)); } else { // load stream into bytebuffer try { ByteBuffer buffer = new ByteBuffer(stream); return parseXmlFromBytebuffer(buffer, options); } catch (IOException e) { throw new XMPException("Error reading the XML-file", XMPError.BADSTREAM, e); } } } /** * Parses XML from a byte buffer, * fixing the encoding (Latin-1 to UTF-8) and illegal control character optionally. * * @param buffer a byte buffer containing the XMP packet * @param options the parsing options * @return Returns an XML DOM-Document. * @throws XMPException Thrown when the parsing fails. */ private static Document parseXmlFromBytebuffer(ByteBuffer buffer, ParseOptions options) throws XMPException { InputSource source = new InputSource(buffer.getByteStream()); try { return parseInputSource(source); } catch (XMPException e) { if (e.getErrorCode() == XMPError.BADXML || e.getErrorCode() == XMPError.BADSTREAM) { if (options.getAcceptLatin1()) { buffer = Latin1Converter.convert(buffer); } if (options.getFixControlChars()) { try { String encoding = buffer.getEncoding(); Reader fixReader = new FixASCIIControlsReader( new InputStreamReader( buffer.getByteStream(), encoding)); return parseInputSource(new InputSource(fixReader)); } catch (UnsupportedEncodingException e1) { // can normally not happen as the encoding is provided by a util function throw new XMPException("Unsupported Encoding", XMPError.INTERNALFAILURE, e); } } source = new InputSource(buffer.getByteStream()); return parseInputSource(source); } else { throw e; } } } /** * Parses XML from a {@link String}, * fixing the illegal control character optionally. * * @param input a String containing the XMP packet * @param options the parsing options * @return Returns an XML DOM-Document. * @throws XMPException Thrown when the parsing fails. */ private static Document parseXmlFromString(String input, ParseOptions options) throws XMPException { InputSource source = new InputSource(new StringReader(input)); try { return parseInputSource(source); } catch (XMPException e) { if (e.getErrorCode() == XMPError.BADXML && options.getFixControlChars()) { source = new InputSource(new FixASCIIControlsReader(new StringReader(input))); return parseInputSource(source); } else { throw e; } } } /** * Runs the XML-Parser. * @param source an InputSource * @return Returns an XML DOM-Document. * @throws XMPException Wraps parsing and I/O-exceptions into an XMPException. */ private static Document parseInputSource(InputSource source) throws XMPException { try { DocumentBuilder builder = XmlProcessorCreator.createSafeDocumentBuilder(true, true); builder.setErrorHandler(null); return builder.parse(source); } catch (SAXException e) { throw new XMPException(e.getMessage(), XMPError.BADXML, e); } catch (IOException e) { throw new XMPException("Error reading the XML-file", XMPError.BADSTREAM, e); } } /** * Find the XML node that is the root of the XMP data tree. Generally this * will be an outer node, but it could be anywhere if a general XML document * is parsed (e.g. SVG). The XML parser counted all rdf:RDF and * pxmp:XMP_Packet nodes, and kept a pointer to the last one. If there is * more than one possible root use PickBestRoot to choose among them. *

* If there is a root node, try to extract the version of the previous XMP * toolkit. *

* Pick the first x:xmpmeta among multiple root candidates. If there aren't * any, pick the first bare rdf:RDF if that is allowed. The returned root is * the rdf:RDF child if an x:xmpmeta element was chosen. The search is * breadth first, so a higher level candiate is chosen over a lower level * one that was textually earlier in the serialized XML. * * @param root the root of the xml document * @param xmpmetaRequired flag if the xmpmeta-tag is still required, might be set * initially to true, if the parse option "REQUIRE_XMP_META" is set * @param result The result array that is filled during the recursive process. * @return Returns an array that contains the result or null. * The array contains: *

    *
  • [0] - the rdf:RDF-node *
  • [1] - an object that is either XMP_RDF or XMP_PLAIN (the latter is decrecated) *
  • [2] - the body text of the xpacket-instruction. *
* */ private static Object[] findRootNode(Node root, boolean xmpmetaRequired, Object[] result) { // Look among this parent's content for x:xapmeta or x:xmpmeta. // The recursion for x:xmpmeta is broader than the strictly defined choice, // but gives us smaller code. NodeList children = root.getChildNodes(); for (int i = 0; i < children.getLength(); i++) { root = children.item(i); if (Node.PROCESSING_INSTRUCTION_NODE == root.getNodeType() && XMPConst.XMP_PI.equals(((ProcessingInstruction) root).getTarget())) { // Store the processing instructions content if (result != null) { result[2] = ((ProcessingInstruction) root).getData(); } } else if (Node.TEXT_NODE != root.getNodeType() && Node.PROCESSING_INSTRUCTION_NODE != root.getNodeType()) { String rootNS = root.getNamespaceURI(); String rootLocal = root.getLocalName(); if ( ( XMPConst.TAG_XMPMETA.equals(rootLocal) || XMPConst.TAG_XAPMETA.equals(rootLocal) ) && XMPConst.NS_X.equals(rootNS) ) { // by not passing the RequireXMPMeta-option, the rdf-Node will be valid return findRootNode(root, false, result); } else if (!xmpmetaRequired && "RDF".equals(rootLocal) && XMPConst.NS_RDF.equals(rootNS)) { if (result != null) { result[0] = root; result[1] = XMP_RDF; } return result; } else { // continue searching Object[] newResult = findRootNode(root, xmpmetaRequired, result); if (newResult != null) { return newResult; } else { continue; } } } } // no appropriate node has been found return null; // is extracted here in the C++ Toolkit } }




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