com.lowagie.text.pdf.PdfReader Maven / Gradle / Ivy
Go to download
Show more of this group Show more artifacts with this name
Show all versions of itext2 Show documentation
Show all versions of itext2 Show documentation
Itext is a java library to create and manipulate PDFs.
This is a fork of version 2.1.7 the last MPL/LGPL version.
It's focused basically on mantain compatibility with newer bouncycastle releases and small bugfixes.
/* * $Id: PdfReader.java 3948 2009-06-03 15:17:22Z blowagie $ * * Copyright 2001, 2002 Paulo Soares * * The contents of this file are subject to the Mozilla Public License Version 1.1 * (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.mozilla.org/MPL/ * * Software distributed under the License is distributed on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License * for the specific language governing rights and limitations under the License. * * The Original Code is 'iText, a free JAVA-PDF library'. * * The Initial Developer of the Original Code is Bruno Lowagie. Portions created by * the Initial Developer are Copyright (C) 1999, 2000, 2001, 2002 by Bruno Lowagie. * All Rights Reserved. * Co-Developer of the code is Paulo Soares. Portions created by the Co-Developer * are Copyright (C) 2000, 2001, 2002 by Paulo Soares. All Rights Reserved. * * Contributor(s): all the names of the contributors are added in the source code * where applicable. * * Alternatively, the contents of this file may be used under the terms of the * LGPL license (the "GNU LIBRARY GENERAL PUBLIC LICENSE"), in which case the * provisions of LGPL are applicable instead of those above. If you wish to * allow use of your version of this file only under the terms of the LGPL * License and not to allow others to use your version of this file under * the MPL, indicate your decision by deleting the provisions above and * replace them with the notice and other provisions required by the LGPL. * If you do not delete the provisions above, a recipient may use your version * of this file under either the MPL or the GNU LIBRARY GENERAL PUBLIC LICENSE. * * This library is free software; you can redistribute it and/or modify it * under the terms of the MPL as stated above or under the terms of the GNU * Library General Public License as published by the Free Software Foundation; * either version 2 of the License, or any later version. * * This library is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS * FOR A PARTICULAR PURPOSE. See the GNU Library general Public License for more * details. * * If you didn't download this code from the following link, you should check if * you aren't using an obsolete version: * http://www.lowagie.com/iText/ */ package com.lowagie.text.pdf; import java.io.ByteArrayInputStream; import java.io.ByteArrayOutputStream; import java.io.DataInputStream; import java.io.IOException; import java.io.InputStream; import java.net.URL; import java.security.Key; import java.security.MessageDigest; import java.security.PrivateKey; import java.security.cert.Certificate; import java.util.ArrayList; import java.util.Arrays; import java.util.Collections; import java.util.HashMap; import java.util.Iterator; import java.util.List; import java.util.Map; import java.util.Set; import java.util.Stack; import java.util.zip.InflaterInputStream; import org.bouncycastle.cms.CMSEnvelopedData; import org.bouncycastle.cms.RecipientInformation; import org.bouncycastle.cms.jcajce.JceKeyTransEnvelopedRecipient; import com.lowagie.text.ExceptionConverter; import com.lowagie.text.PageSize; import com.lowagie.text.Rectangle; import com.lowagie.text.exceptions.BadPasswordException; import com.lowagie.text.exceptions.InvalidPdfException; import com.lowagie.text.exceptions.UnsupportedPdfException; import com.lowagie.text.pdf.interfaces.PdfViewerPreferences; import com.lowagie.text.pdf.internal.PdfViewerPreferencesImp; /** Reads a PDF document. * @author Paulo Soares ([email protected]) * @author Kazuya Ujihara */ public class PdfReader implements PdfViewerPreferences { static final PdfName pageInhCandidates[] = { PdfName.MEDIABOX, PdfName.ROTATE, PdfName.RESOURCES, PdfName.CROPBOX }; static final byte endstream[] = PdfEncodings.convertToBytes("endstream", null); static final byte endobj[] = PdfEncodings.convertToBytes("endobj", null); protected PRTokeniser tokens; // Each xref pair is a position // type 0 -> -1, 0 // type 1 -> offset, 0 // type 2 -> index, obj num protected int xref[]; protected HashMap objStmMark; protected IntHashtable objStmToOffset; protected boolean newXrefType; private ArrayList xrefObj; PdfDictionary rootPages; protected PdfDictionary trailer; protected PdfDictionary catalog; protected PageRefs pageRefs; protected PRAcroForm acroForm = null; protected boolean acroFormParsed = false; protected boolean encrypted = false; protected boolean rebuilt = false; protected int freeXref; protected boolean tampered = false; protected int lastXref; protected int eofPos; protected char pdfVersion; protected PdfEncryption decrypt; protected byte password[] = null; //added by ujihara for decryption protected Key certificateKey = null; //added by Aiken Sam for certificate decryption protected Certificate certificate = null; //added by Aiken Sam for certificate decryption protected String certificateKeyProvider = null; //added by Aiken Sam for certificate decryption private boolean ownerPasswordUsed; protected ArrayList strings = new ArrayList(); protected boolean sharedStreams = true; protected boolean consolidateNamedDestinations = false; protected int rValue; protected int pValue; private int objNum; private int objGen; private int fileLength; private boolean hybridXref; private int lastXrefPartial = -1; private boolean partial; private PRIndirectReference cryptoRef; private PdfViewerPreferencesImp viewerPreferences = new PdfViewerPreferencesImp(); private boolean encryptionError; /** * Holds value of property appendable. */ private boolean appendable; protected PdfReader() { } /** Reads and parses a PDF document. * @param filename the file name of the document * @throws IOException on error */ public PdfReader(String filename) throws IOException { this(filename, null); } /** Reads and parses a PDF document. * @param filename the file name of the document * @param ownerPassword the password to read the document * @throws IOException on error */ public PdfReader(String filename, byte ownerPassword[]) throws IOException { password = ownerPassword; tokens = new PRTokeniser(filename); readPdf(); } /** Reads and parses a PDF document. * @param pdfIn the byte array with the document * @throws IOException on error */ public PdfReader(byte pdfIn[]) throws IOException { this(pdfIn, null); } /** Reads and parses a PDF document. * @param pdfIn the byte array with the document * @param ownerPassword the password to read the document * @throws IOException on error */ public PdfReader(byte pdfIn[], byte ownerPassword[]) throws IOException { password = ownerPassword; tokens = new PRTokeniser(pdfIn); readPdf(); } /** Reads and parses a PDF document. * @param filename the file name of the document * @param certificate the certificate to read the document * @param certificateKey the private key of the certificate * @param certificateKeyProvider the security provider for certificateKey * @throws IOException on error */ public PdfReader(String filename, Certificate certificate, Key certificateKey, String certificateKeyProvider) throws IOException { this.certificate = certificate; this.certificateKey = certificateKey; this.certificateKeyProvider = certificateKeyProvider; tokens = new PRTokeniser(filename); readPdf(); } /** Reads and parses a PDF document. * @param url the URL of the document * @throws IOException on error */ public PdfReader(URL url) throws IOException { this(url, null); } /** Reads and parses a PDF document. * @param url the URL of the document * @param ownerPassword the password to read the document * @throws IOException on error */ public PdfReader(URL url, byte ownerPassword[]) throws IOException { password = ownerPassword; tokens = new PRTokeniser(new RandomAccessFileOrArray(url)); readPdf(); } /** * Reads and parses a PDF document. * @param is the
resolving an indirect reference * if needed. * @param obj theInputStream
containing the document. The stream is read to the * end but is not closed * @param ownerPassword the password to read the document * @throws IOException on error */ public PdfReader(InputStream is, byte ownerPassword[]) throws IOException { password = ownerPassword; tokens = new PRTokeniser(new RandomAccessFileOrArray(is)); readPdf(); } /** * Reads and parses a PDF document. * @param is theInputStream
containing the document. The stream is read to the * end but is not closed * @throws IOException on error */ public PdfReader(InputStream is) throws IOException { this(is, null); } /** * Reads and parses a pdf document. Contrary to the other constructors only the xref is read * into memory. The reader is said to be working in "partial" mode as only parts of the pdf * are read as needed. The pdf is left open but may be closed at any time with *PdfReader.close()
, reopen is automatic. * @param raf the document location * @param ownerPassword the password ornull
for no password * @throws IOException on error */ public PdfReader(RandomAccessFileOrArray raf, byte ownerPassword[]) throws IOException { password = ownerPassword; partial = true; tokens = new PRTokeniser(raf); readPdfPartial(); } /** Creates an independent duplicate. * @param reader thePdfReader
to duplicate */ public PdfReader(PdfReader reader) { this.appendable = reader.appendable; this.consolidateNamedDestinations = reader.consolidateNamedDestinations; this.encrypted = reader.encrypted; this.rebuilt = reader.rebuilt; this.sharedStreams = reader.sharedStreams; this.tampered = reader.tampered; this.password = reader.password; this.pdfVersion = reader.pdfVersion; this.eofPos = reader.eofPos; this.freeXref = reader.freeXref; this.lastXref = reader.lastXref; this.tokens = new PRTokeniser(reader.tokens.getSafeFile()); if (reader.decrypt != null) this.decrypt = new PdfEncryption(reader.decrypt); this.pValue = reader.pValue; this.rValue = reader.rValue; this.xrefObj = new ArrayList(reader.xrefObj); for (int k = 0; k < reader.xrefObj.size(); ++k) { this.xrefObj.set(k, duplicatePdfObject((PdfObject)reader.xrefObj.get(k), this)); } this.pageRefs = new PageRefs(reader.pageRefs, this); this.trailer = (PdfDictionary)duplicatePdfObject(reader.trailer, this); this.catalog = trailer.getAsDict(PdfName.ROOT); this.rootPages = catalog.getAsDict(PdfName.PAGES); this.fileLength = reader.fileLength; this.partial = reader.partial; this.hybridXref = reader.hybridXref; this.objStmToOffset = reader.objStmToOffset; this.xref = reader.xref; this.cryptoRef = (PRIndirectReference)duplicatePdfObject(reader.cryptoRef, this); this.ownerPasswordUsed = reader.ownerPasswordUsed; } /** Gets a new file instance of the original PDF * document. * @return a new file instance of the original PDF document */ public RandomAccessFileOrArray getSafeFile() { return tokens.getSafeFile(); } protected PdfReaderInstance getPdfReaderInstance(PdfWriter writer) { return new PdfReaderInstance(this, writer); } /** Gets the number of pages in the document. * @return the number of pages in the document */ public int getNumberOfPages() { return pageRefs.size(); } /** Returns the document's catalog. This dictionary is not a copy, * any changes will be reflected in the catalog. * @return the document's catalog */ public PdfDictionary getCatalog() { return catalog; } /** Returns the document's acroform, if it has one. * @return the document's acroform */ public PRAcroForm getAcroForm() { if (!acroFormParsed) { acroFormParsed = true; PdfObject form = catalog.get(PdfName.ACROFORM); if (form != null) { try { acroForm = new PRAcroForm(this); acroForm.readAcroForm((PdfDictionary)getPdfObject(form)); } catch (Exception e) { acroForm = null; } } } return acroForm; } /** * Gets the page rotation. This value can be 0, 90, 180 or 270. * @param index the page number. The first page is 1 * @return the page rotation */ public int getPageRotation(int index) { return getPageRotation(pageRefs.getPageNRelease(index)); } int getPageRotation(PdfDictionary page) { PdfNumber rotate = page.getAsNumber(PdfName.ROTATE); if (rotate == null) return 0; else { int n = rotate.intValue(); n %= 360; return n < 0 ? n + 360 : n; } } /** Gets the page size, taking rotation into account. This * is aRectangle
with the value of the /MediaBox and the /Rotate key. * @param index the page number. The first page is 1 * @return aRectangle
*/ public Rectangle getPageSizeWithRotation(int index) { return getPageSizeWithRotation(pageRefs.getPageNRelease(index)); } /** * Gets the rotated page from a page dictionary. * @param page the page dictionary * @return the rotated page */ public Rectangle getPageSizeWithRotation(PdfDictionary page) { Rectangle rect = getPageSize(page); int rotation = getPageRotation(page); while (rotation > 0) { rect = rect.rotate(); rotation -= 90; } return rect; } /** Gets the page size without taking rotation into account. This * is the value of the /MediaBox key. * @param index the page number. The first page is 1 * @return the page size */ public Rectangle getPageSize(int index) { return getPageSize(pageRefs.getPageNRelease(index)); } /** * Gets the page from a page dictionary * @param page the page dictionary * @return the page */ public Rectangle getPageSize(PdfDictionary page) { PdfArray mediaBox = page.getAsArray(PdfName.MEDIABOX); return getNormalizedRectangle(mediaBox); } /** Gets the crop box without taking rotation into account. This * is the value of the /CropBox key. The crop box is the part * of the document to be displayed or printed. It usually is the same * as the media box but may be smaller. If the page doesn't have a crop * box the page size will be returned. * @param index the page number. The first page is 1 * @return the crop box */ public Rectangle getCropBox(int index) { PdfDictionary page = pageRefs.getPageNRelease(index); PdfArray cropBox = (PdfArray)getPdfObjectRelease(page.get(PdfName.CROPBOX)); if (cropBox == null) return getPageSize(page); return getNormalizedRectangle(cropBox); } /** Gets the box size. Allowed names are: "crop", "trim", "art", "bleed" and "media". * @param index the page number. The first page is 1 * @param boxName the box name * @return the box rectangle or null */ public Rectangle getBoxSize(int index, String boxName) { PdfDictionary page = pageRefs.getPageNRelease(index); PdfArray box = null; if (boxName.equals("trim")) box = (PdfArray)getPdfObjectRelease(page.get(PdfName.TRIMBOX)); else if (boxName.equals("art")) box = (PdfArray)getPdfObjectRelease(page.get(PdfName.ARTBOX)); else if (boxName.equals("bleed")) box = (PdfArray)getPdfObjectRelease(page.get(PdfName.BLEEDBOX)); else if (boxName.equals("crop")) box = (PdfArray)getPdfObjectRelease(page.get(PdfName.CROPBOX)); else if (boxName.equals("media")) box = (PdfArray)getPdfObjectRelease(page.get(PdfName.MEDIABOX)); if (box == null) return null; return getNormalizedRectangle(box); } /** Returns the content of the document information dictionary as aHashMap
* ofString
. * @return content of the document information dictionary */ public HashMap getInfo() { HashMap map = new HashMap(); PdfDictionary info = trailer.getAsDict(PdfName.INFO); if (info == null) return map; for (Iterator it = info.getKeys().iterator(); it.hasNext();) { PdfName key = (PdfName)it.next(); PdfObject obj = getPdfObject(info.get(key)); if (obj == null) continue; String value = obj.toString(); switch (obj.type()) { case PdfObject.STRING: { value = ((PdfString)obj).toUnicodeString(); break; } case PdfObject.NAME: { value = PdfName.decodeName(value); break; } } map.put(PdfName.decodeName(key.toString()), value); } return map; } /** Normalizes aRectangle
so that llx and lly are smaller than urx and ury. * @param box the original rectangle * @return a normalizedRectangle
*/ public static Rectangle getNormalizedRectangle(PdfArray box) { float llx = ((PdfNumber)getPdfObjectRelease(box.getPdfObject(0))).floatValue(); float lly = ((PdfNumber)getPdfObjectRelease(box.getPdfObject(1))).floatValue(); float urx = ((PdfNumber)getPdfObjectRelease(box.getPdfObject(2))).floatValue(); float ury = ((PdfNumber)getPdfObjectRelease(box.getPdfObject(3))).floatValue(); return new Rectangle(Math.min(llx, urx), Math.min(lly, ury), Math.max(llx, urx), Math.max(lly, ury)); } protected void readPdf() throws IOException { try { fileLength = tokens.getFile().length(); pdfVersion = tokens.checkPdfHeader(); try { readXref(); } catch (Exception e) { try { rebuilt = true; rebuildXref(); lastXref = -1; } catch (Exception ne) { throw new InvalidPdfException("Rebuild failed: " + ne.getMessage() + "; Original message: " + e.getMessage()); } } try { readDocObj(); } catch (Exception e) { if (e instanceof BadPasswordException) throw new BadPasswordException(e.getMessage()); if (rebuilt || encryptionError) throw new InvalidPdfException(e.getMessage()); rebuilt = true; encrypted = false; rebuildXref(); lastXref = -1; readDocObj(); } strings.clear(); readPages(); eliminateSharedStreams(); removeUnusedObjects(); } finally { try { tokens.close(); } catch (Exception e) { // empty on purpose } } } protected void readPdfPartial() throws IOException { try { fileLength = tokens.getFile().length(); pdfVersion = tokens.checkPdfHeader(); try { readXref(); } catch (Exception e) { try { rebuilt = true; rebuildXref(); lastXref = -1; } catch (Exception ne) { throw new InvalidPdfException("Rebuild failed: " + ne.getMessage() + "; Original message: " + e.getMessage()); } } readDocObjPartial(); readPages(); } catch (IOException e) { try{tokens.close();}catch(Exception ee){} throw e; } } private boolean equalsArray(byte ar1[], byte ar2[], int size) { for (int k = 0; k < size; ++k) { if (ar1[k] != ar2[k]) return false; } return true; } /** * @throws IOException */ private void readDecryptedDocObj() throws IOException { if (encrypted) return; PdfObject encDic = trailer.get(PdfName.ENCRYPT); if (encDic == null || encDic.toString().equals("null")) return; encryptionError = true; byte[] encryptionKey = null; encrypted = true; PdfDictionary enc = (PdfDictionary)getPdfObject(encDic); String s; PdfObject o; PdfArray documentIDs = trailer.getAsArray(PdfName.ID); byte documentID[] = null; if (documentIDs != null) { o = documentIDs.getPdfObject(0); strings.remove(o); s = o.toString(); documentID = com.lowagie.text.DocWriter.getISOBytes(s); if (documentIDs.size() > 1) strings.remove(documentIDs.getPdfObject(1)); } // just in case we have a broken producer if (documentID == null) documentID = new byte[0]; byte uValue[] = null; byte oValue[] = null; int cryptoMode = PdfWriter.STANDARD_ENCRYPTION_40; int lengthValue = 0; PdfObject filter = getPdfObjectRelease(enc.get(PdfName.FILTER)); if (filter.equals(PdfName.STANDARD)) { s = enc.get(PdfName.U).toString(); strings.remove(enc.get(PdfName.U)); uValue = com.lowagie.text.DocWriter.getISOBytes(s); s = enc.get(PdfName.O).toString(); strings.remove(enc.get(PdfName.O)); oValue = com.lowagie.text.DocWriter.getISOBytes(s); o = enc.get(PdfName.P); if (!o.isNumber()) throw new InvalidPdfException("Illegal P value."); pValue = ((PdfNumber)o).intValue(); o = enc.get(PdfName.R); if (!o.isNumber()) throw new InvalidPdfException("Illegal R value."); rValue = ((PdfNumber)o).intValue(); switch (rValue) { case 2: cryptoMode = PdfWriter.STANDARD_ENCRYPTION_40; break; case 3: o = enc.get(PdfName.LENGTH); if (!o.isNumber()) throw new InvalidPdfException("Illegal Length value."); lengthValue = ( (PdfNumber) o).intValue(); if (lengthValue > 128 || lengthValue < 40 || lengthValue % 8 != 0) throw new InvalidPdfException("Illegal Length value."); cryptoMode = PdfWriter.STANDARD_ENCRYPTION_128; break; case 4: PdfDictionary dic = (PdfDictionary)enc.get(PdfName.CF); if (dic == null) throw new InvalidPdfException("/CF not found (encryption)"); dic = (PdfDictionary)dic.get(PdfName.STDCF); if (dic == null) throw new InvalidPdfException("/StdCF not found (encryption)"); if (PdfName.V2.equals(dic.get(PdfName.CFM))) cryptoMode = PdfWriter.STANDARD_ENCRYPTION_128; else if (PdfName.AESV2.equals(dic.get(PdfName.CFM))) cryptoMode = PdfWriter.ENCRYPTION_AES_128; else throw new UnsupportedPdfException("No compatible encryption found"); PdfObject em = enc.get(PdfName.ENCRYPTMETADATA); if (em != null && em.toString().equals("false")) cryptoMode |= PdfWriter.DO_NOT_ENCRYPT_METADATA; break; default: throw new UnsupportedPdfException("Unknown encryption type R = " + rValue); } } else if (filter.equals(PdfName.PUBSEC)) { boolean foundRecipient = false; byte[] envelopedData = null; PdfArray recipients = null; o = enc.get(PdfName.V); if (!o.isNumber()) throw new InvalidPdfException("Illegal V value."); int vValue = ((PdfNumber)o).intValue(); switch(vValue) { case 1: cryptoMode = PdfWriter.STANDARD_ENCRYPTION_40; lengthValue = 40; recipients = (PdfArray)enc.get(PdfName.RECIPIENTS); break; case 2: o = enc.get(PdfName.LENGTH); if (!o.isNumber()) throw new InvalidPdfException("Illegal Length value."); lengthValue = ( (PdfNumber) o).intValue(); if (lengthValue > 128 || lengthValue < 40 || lengthValue % 8 != 0) throw new InvalidPdfException("Illegal Length value."); cryptoMode = PdfWriter.STANDARD_ENCRYPTION_128; recipients = (PdfArray)enc.get(PdfName.RECIPIENTS); break; case 4: PdfDictionary dic = (PdfDictionary)enc.get(PdfName.CF); if (dic == null) throw new InvalidPdfException("/CF not found (encryption)"); dic = (PdfDictionary)dic.get(PdfName.DEFAULTCRYPTFILTER); if (dic == null) throw new InvalidPdfException("/DefaultCryptFilter not found (encryption)"); if (PdfName.V2.equals(dic.get(PdfName.CFM))) { cryptoMode = PdfWriter.STANDARD_ENCRYPTION_128; lengthValue = 128; } else if (PdfName.AESV2.equals(dic.get(PdfName.CFM))) { cryptoMode = PdfWriter.ENCRYPTION_AES_128; lengthValue = 128; } else throw new UnsupportedPdfException("No compatible encryption found"); PdfObject em = dic.get(PdfName.ENCRYPTMETADATA); if (em != null && em.toString().equals("false")) cryptoMode |= PdfWriter.DO_NOT_ENCRYPT_METADATA; recipients = (PdfArray)dic.get(PdfName.RECIPIENTS); break; default: throw new UnsupportedPdfException("Unknown encryption type V = " + rValue); } for (int i = 0; irecipientCertificatesIt = data.getRecipientInfos().getRecipients().iterator(); while (recipientCertificatesIt.hasNext()) { RecipientInformation recipientInfo = recipientCertificatesIt.next(); if (recipientInfo.getRID().match(certificate) && !foundRecipient) { envelopedData = recipientInfo.getContent(new JceKeyTransEnvelopedRecipient((PrivateKey) certificateKey).setProvider(certificateKeyProvider)); foundRecipient = true; } } } catch (Exception f) { throw new ExceptionConverter(f); } } if(!foundRecipient || envelopedData == null) { throw new UnsupportedPdfException("Bad certificate and key."); } MessageDigest md = null; try { md = MessageDigest.getInstance("SHA-1"); md.update(envelopedData, 0, 20); for (int i = 0; i PdfObject PdfObject
to read * @return the resolvedPdfObject
*/ public static PdfObject getPdfObject(PdfObject obj) { if (obj == null) return null; if (!obj.isIndirect()) return obj; try { PRIndirectReference ref = (PRIndirectReference)obj; int idx = ref.getNumber(); boolean appendable = ref.getReader().appendable; obj = ref.getReader().getPdfObject(idx); if (obj == null) { return null; } else { if (appendable) { switch (obj.type()) { case PdfObject.NULL: obj = new PdfNull(); break; case PdfObject.BOOLEAN: obj = new PdfBoolean(((PdfBoolean)obj).booleanValue()); break; case PdfObject.NAME: obj = new PdfName(obj.getBytes()); break; } obj.setIndRef(ref); } return obj; } } catch (Exception e) { throw new ExceptionConverter(e); } } /** * Reads aPdfObject
resolving an indirect reference * if needed. If the reader was opened in partial mode the object will be released * to save memory. * @param obj thePdfObject
to read * @param parent * @return a PdfObject */ public static PdfObject getPdfObjectRelease(PdfObject obj, PdfObject parent) { PdfObject obj2 = getPdfObject(obj, parent); releaseLastXrefPartial(obj); return obj2; } /** * @param obj * @param parent * @return a PdfObject */ public static PdfObject getPdfObject(PdfObject obj, PdfObject parent) { if (obj == null) return null; if (!obj.isIndirect()) { PRIndirectReference ref = null; if (parent != null && (ref = parent.getIndRef()) != null && ref.getReader().isAppendable()) { switch (obj.type()) { case PdfObject.NULL: obj = new PdfNull(); break; case PdfObject.BOOLEAN: obj = new PdfBoolean(((PdfBoolean)obj).booleanValue()); break; case PdfObject.NAME: obj = new PdfName(obj.getBytes()); break; } obj.setIndRef(ref); } return obj; } return getPdfObject(obj); } /** * @param idx * @return a PdfObject */ public PdfObject getPdfObjectRelease(int idx) { PdfObject obj = getPdfObject(idx); releaseLastXrefPartial(); return obj; } /** * @param idx * @return aPdfObject */ public PdfObject getPdfObject(int idx) { try { lastXrefPartial = -1; if (idx < 0 || idx >= xrefObj.size()) return null; PdfObject obj = (PdfObject)xrefObj.get(idx); if (!partial || obj != null) return obj; if (idx * 2 >= xref.length) return null; obj = readSingleObject(idx); lastXrefPartial = -1; if (obj != null) lastXrefPartial = idx; return obj; } catch (Exception e) { throw new ExceptionConverter(e); } } /** * */ public void resetLastXrefPartial() { lastXrefPartial = -1; } /** * */ public void releaseLastXrefPartial() { if (partial && lastXrefPartial != -1) { xrefObj.set(lastXrefPartial, null); lastXrefPartial = -1; } } /** * @param obj */ public static void releaseLastXrefPartial(PdfObject obj) { if (obj == null) return; if (!obj.isIndirect()) return; if (!(obj instanceof PRIndirectReference)) return; PRIndirectReference ref = (PRIndirectReference)obj; PdfReader reader = ref.getReader(); if (reader.partial && reader.lastXrefPartial != -1 && reader.lastXrefPartial == ref.getNumber()) { reader.xrefObj.set(reader.lastXrefPartial, null); } reader.lastXrefPartial = -1; } private void setXrefPartialObject(int idx, PdfObject obj) { if (!partial || idx < 0) return; xrefObj.set(idx, obj); } /** * @param obj * @return an indirect reference */ public PRIndirectReference addPdfObject(PdfObject obj) { xrefObj.add(obj); return new PRIndirectReference(this, xrefObj.size() - 1); } protected void readPages() throws IOException { catalog = trailer.getAsDict(PdfName.ROOT); rootPages = catalog.getAsDict(PdfName.PAGES); pageRefs = new PageRefs(this); } protected void readDocObjPartial() throws IOException { xrefObj = new ArrayList(xref.length / 2); xrefObj.addAll(Collections.nCopies(xref.length / 2, null)); readDecryptedDocObj(); if (objStmToOffset != null) { int keys[] = objStmToOffset.getKeys(); for (int k = 0; k < keys.length; ++k) { int n = keys[k]; objStmToOffset.put(n, xref[n * 2]); xref[n * 2] = -1; } } } protected PdfObject readSingleObject(int k) throws IOException { strings.clear(); int k2 = k * 2; int pos = xref[k2]; if (pos < 0) return null; if (xref[k2 + 1] > 0) pos = objStmToOffset.get(xref[k2 + 1]); if (pos == 0) return null; tokens.seek(pos); tokens.nextValidToken(); if (tokens.getTokenType() != PRTokeniser.TK_NUMBER) tokens.throwError("Invalid object number."); objNum = tokens.intValue(); tokens.nextValidToken(); if (tokens.getTokenType() != PRTokeniser.TK_NUMBER) tokens.throwError("Invalid generation number."); objGen = tokens.intValue(); tokens.nextValidToken(); if (!tokens.getStringValue().equals("obj")) tokens.throwError("Token 'obj' expected."); PdfObject obj; try { obj = readPRObject(); for (int j = 0; j < strings.size(); ++j) { PdfString str = (PdfString)strings.get(j); str.decrypt(this); } if (obj.isStream()) { checkPRStreamLength((PRStream)obj); } } catch (Exception e) { obj = null; } if (xref[k2 + 1] > 0) { obj = readOneObjStm((PRStream)obj, xref[k2]); } xrefObj.set(k, obj); return obj; } protected PdfObject readOneObjStm(PRStream stream, int idx) throws IOException { int first = stream.getAsNumber(PdfName.FIRST).intValue(); byte b[] = getStreamBytes(stream, tokens.getFile()); PRTokeniser saveTokens = tokens; tokens = new PRTokeniser(b); try { int address = 0; boolean ok = true; ++idx; for (int k = 0; k < idx; ++k) { ok = tokens.nextToken(); if (!ok) break; if (tokens.getTokenType() != PRTokeniser.TK_NUMBER) { ok = false; break; } ok = tokens.nextToken(); if (!ok) break; if (tokens.getTokenType() != PRTokeniser.TK_NUMBER) { ok = false; break; } address = tokens.intValue() + first; } if (!ok) throw new InvalidPdfException("Error reading ObjStm"); tokens.seek(address); return readPRObject(); } finally { tokens = saveTokens; } } /** * @return the percentage of the cross reference table that has been read */ public double dumpPerc() { int total = 0; for (int k = 0; k < xrefObj.size(); ++k) { if (xrefObj.get(k) != null) ++total; } return (total * 100.0 / xrefObj.size()); } protected void readDocObj() throws IOException { ArrayList streams = new ArrayList(); xrefObj = new ArrayList(xref.length / 2); xrefObj.addAll(Collections.nCopies(xref.length / 2, null)); for (int k = 2; k < xref.length; k += 2) { int pos = xref[k]; if (pos <= 0 || xref[k + 1] > 0) continue; tokens.seek(pos); tokens.nextValidToken(); if (tokens.getTokenType() != PRTokeniser.TK_NUMBER) tokens.throwError("Invalid object number."); objNum = tokens.intValue(); tokens.nextValidToken(); if (tokens.getTokenType() != PRTokeniser.TK_NUMBER) tokens.throwError("Invalid generation number."); objGen = tokens.intValue(); tokens.nextValidToken(); if (!tokens.getStringValue().equals("obj")) tokens.throwError("Token 'obj' expected."); PdfObject obj; try { obj = readPRObject(); if (obj.isStream()) { streams.add(obj); } } catch (Exception e) { obj = null; } xrefObj.set(k / 2, obj); } for (int k = 0; k < streams.size(); ++k) { checkPRStreamLength((PRStream)streams.get(k)); } readDecryptedDocObj(); if (objStmMark != null) { for (Iterator i = objStmMark.entrySet().iterator(); i.hasNext();) { Map.Entry entry = (Map.Entry)i.next(); int n = ((Integer)entry.getKey()).intValue(); IntHashtable h = (IntHashtable)entry.getValue(); readObjStm((PRStream)xrefObj.get(n), h); xrefObj.set(n, null); } objStmMark = null; } xref = null; } private void checkPRStreamLength(PRStream stream) throws IOException { int fileLength = tokens.length(); int start = stream.getOffset(); boolean calc = false; int streamLength = 0; PdfObject obj = getPdfObjectRelease(stream.get(PdfName.LENGTH)); if (obj != null && obj.type() == PdfObject.NUMBER) { streamLength = ((PdfNumber)obj).intValue(); if (streamLength + start > fileLength - 20) calc = true; else { tokens.seek(start + streamLength); String line = tokens.readString(20); if (!line.startsWith("\nendstream") && !line.startsWith("\r\nendstream") && !line.startsWith("\rendstream") && !line.startsWith("endstream")) calc = true; } } else calc = true; if (calc) { byte tline[] = new byte[16]; tokens.seek(start); while (true) { int pos = tokens.getFilePointer(); if (!tokens.readLineSegment(tline)) break; if (equalsn(tline, endstream)) { streamLength = pos - start; break; } if (equalsn(tline, endobj)) { tokens.seek(pos - 16); String s = tokens.readString(16); int index = s.indexOf("endstream"); if (index >= 0) pos = pos - 16 + index; streamLength = pos - start; break; } } } stream.setLength(streamLength); } protected void readObjStm(PRStream stream, IntHashtable map) throws IOException { int first = stream.getAsNumber(PdfName.FIRST).intValue(); int n = stream.getAsNumber(PdfName.N).intValue(); byte b[] = getStreamBytes(stream, tokens.getFile()); PRTokeniser saveTokens = tokens; tokens = new PRTokeniser(b); try { int address[] = new int[n]; int objNumber[] = new int[n]; boolean ok = true; for (int k = 0; k < n; ++k) { ok = tokens.nextToken(); if (!ok) break; if (tokens.getTokenType() != PRTokeniser.TK_NUMBER) { ok = false; break; } objNumber[k] = tokens.intValue(); ok = tokens.nextToken(); if (!ok) break; if (tokens.getTokenType() != PRTokeniser.TK_NUMBER) { ok = false; break; } address[k] = tokens.intValue() + first; } if (!ok) throw new InvalidPdfException("Error reading ObjStm"); for (int k = 0; k < n; ++k) { if (map.containsKey(k)) { tokens.seek(address[k]); PdfObject obj = readPRObject(); xrefObj.set(objNumber[k], obj); } } } finally { tokens = saveTokens; } } /** * Eliminates the reference to the object freeing the memory used by it and clearing * the xref entry. * @param obj the object. If it's an indirect reference it will be eliminated * @return the object or the already erased dereferenced object */ public static PdfObject killIndirect(PdfObject obj) { if (obj == null || obj.isNull()) return null; PdfObject ret = getPdfObjectRelease(obj); if (obj.isIndirect()) { PRIndirectReference ref = (PRIndirectReference)obj; PdfReader reader = ref.getReader(); int n = ref.getNumber(); reader.xrefObj.set(n, null); if (reader.partial) reader.xref[n * 2] = -1; } return ret; } private void ensureXrefSize(int size) { if (size == 0) return; if (xref == null) xref = new int[size]; else { if (xref.length < size) { int xref2[] = new int[size]; System.arraycopy(xref, 0, xref2, 0, xref.length); xref = xref2; } } } protected void readXref() throws IOException { hybridXref = false; newXrefType = false; tokens.seek(tokens.getStartxref()); tokens.nextToken(); if (!tokens.getStringValue().equals("startxref")) throw new InvalidPdfException("startxref not found."); tokens.nextToken(); if (tokens.getTokenType() != PRTokeniser.TK_NUMBER) throw new InvalidPdfException("startxref is not followed by a number."); int startxref = tokens.intValue(); lastXref = startxref; eofPos = tokens.getFilePointer(); try { if (readXRefStream(startxref)) { newXrefType = true; return; } } catch (Exception e) {} xref = null; tokens.seek(startxref); trailer = readXrefSection(); PdfDictionary trailer2 = trailer; while (true) { PdfNumber prev = (PdfNumber)trailer2.get(PdfName.PREV); if (prev == null) break; tokens.seek(prev.intValue()); trailer2 = readXrefSection(); } } protected PdfDictionary readXrefSection() throws IOException { tokens.nextValidToken(); if (!tokens.getStringValue().equals("xref")) tokens.throwError("xref subsection not found"); int start = 0; int end = 0; int pos = 0; int gen = 0; while (true) { tokens.nextValidToken(); if (tokens.getStringValue().equals("trailer")) break; if (tokens.getTokenType() != PRTokeniser.TK_NUMBER) tokens.throwError("Object number of the first object in this xref subsection not found"); start = tokens.intValue(); tokens.nextValidToken(); if (tokens.getTokenType() != PRTokeniser.TK_NUMBER) tokens.throwError("Number of entries in this xref subsection not found"); end = tokens.intValue() + start; if (start == 1) { // fix incorrect start number int back = tokens.getFilePointer(); tokens.nextValidToken(); pos = tokens.intValue(); tokens.nextValidToken(); gen = tokens.intValue(); if (pos == 0 && gen == PdfWriter.GENERATION_MAX) { --start; --end; } tokens.seek(back); } ensureXrefSize(end * 2); for (int k = start; k < end; ++k) { tokens.nextValidToken(); pos = tokens.intValue(); tokens.nextValidToken(); gen = tokens.intValue(); tokens.nextValidToken(); int p = k * 2; if (tokens.getStringValue().equals("n")) { if (xref[p] == 0 && xref[p + 1] == 0) { // if (pos == 0) // tokens.throwError("File position 0 cross-reference entry in this xref subsection"); xref[p] = pos; } } else if (tokens.getStringValue().equals("f")) { if (xref[p] == 0 && xref[p + 1] == 0) xref[p] = -1; } else tokens.throwError("Invalid cross-reference entry in this xref subsection"); } } PdfDictionary trailer = (PdfDictionary)readPRObject(); PdfNumber xrefSize = (PdfNumber)trailer.get(PdfName.SIZE); ensureXrefSize(xrefSize.intValue() * 2); PdfObject xrs = trailer.get(PdfName.XREFSTM); if (xrs != null && xrs.isNumber()) { int loc = ((PdfNumber)xrs).intValue(); try { readXRefStream(loc); newXrefType = true; hybridXref = true; } catch (IOException e) { xref = null; throw e; } } return trailer; } protected boolean readXRefStream(int ptr) throws IOException { tokens.seek(ptr); int thisStream = 0; if (!tokens.nextToken()) return false; if (tokens.getTokenType() != PRTokeniser.TK_NUMBER) return false; thisStream = tokens.intValue(); if (!tokens.nextToken() || tokens.getTokenType() != PRTokeniser.TK_NUMBER) return false; if (!tokens.nextToken() || !tokens.getStringValue().equals("obj")) return false; PdfObject object = readPRObject(); PRStream stm = null; if (object.isStream()) { stm = (PRStream)object; if (!PdfName.XREF.equals(stm.get(PdfName.TYPE))) return false; } else return false; if (trailer == null) { trailer = new PdfDictionary(); trailer.putAll(stm); } stm.setLength(((PdfNumber)stm.get(PdfName.LENGTH)).intValue()); int size = ((PdfNumber)stm.get(PdfName.SIZE)).intValue(); PdfArray index; PdfObject obj = stm.get(PdfName.INDEX); if (obj == null) { index = new PdfArray(); index.add(new int[]{0, size}); } else index = (PdfArray)obj; PdfArray w = (PdfArray)stm.get(PdfName.W); int prev = -1; obj = stm.get(PdfName.PREV); if (obj != null) prev = ((PdfNumber)obj).intValue(); // Each xref pair is a position // type 0 -> -1, 0 // type 1 -> offset, 0 // type 2 -> index, obj num ensureXrefSize(size * 2); if (objStmMark == null && !partial) objStmMark = new HashMap(); if (objStmToOffset == null && partial) objStmToOffset = new IntHashtable(); byte b[] = getStreamBytes(stm, tokens.getFile()); int bptr = 0; int wc[] = new int[3]; for (int k = 0; k < 3; ++k) wc[k] = w.getAsNumber(k).intValue(); for (int idx = 0; idx < index.size(); idx += 2) { int start = index.getAsNumber(idx).intValue(); int length = index.getAsNumber(idx + 1).intValue(); ensureXrefSize((start + length) * 2); while (length-- > 0) { int type = 1; if (wc[0] > 0) { type = 0; for (int k = 0; k < wc[0]; ++k) type = (type << 8) + (b[bptr++] & 0xff); } int field2 = 0; for (int k = 0; k < wc[1]; ++k) field2 = (field2 << 8) + (b[bptr++] & 0xff); int field3 = 0; for (int k = 0; k < wc[2]; ++k) field3 = (field3 << 8) + (b[bptr++] & 0xff); int base = start * 2; if (xref[base] == 0 && xref[base + 1] == 0) { switch (type) { case 0: xref[base] = -1; break; case 1: xref[base] = field2; break; case 2: xref[base] = field3; xref[base + 1] = field2; if (partial) { objStmToOffset.put(field2, 0); } else { Integer on = Integer.valueOf(field2); IntHashtable seq = (IntHashtable)objStmMark.get(on); if (seq == null) { seq = new IntHashtable(); seq.put(field3, 1); objStmMark.put(on, seq); } else seq.put(field3, 1); } break; } } ++start; } } thisStream *= 2; if (thisStream < xref.length) xref[thisStream] = -1; if (prev == -1) return true; return readXRefStream(prev); } protected void rebuildXref() throws IOException { hybridXref = false; newXrefType = false; tokens.seek(0); int xr[][] = new int[1024][]; int top = 0; trailer = null; byte line[] = new byte[64]; for (;;) { int pos = tokens.getFilePointer(); if (!tokens.readLineSegment(line)) break; if (line[0] == 't') { if (!PdfEncodings.convertToString(line, null).startsWith("trailer")) continue; tokens.seek(pos); tokens.nextToken(); pos = tokens.getFilePointer(); try { PdfDictionary dic = (PdfDictionary)readPRObject(); if (dic.get(PdfName.ROOT) != null) trailer = dic; else tokens.seek(pos); } catch (Exception e) { tokens.seek(pos); } } else if (line[0] >= '0' && line[0] <= '9') { int obj[] = PRTokeniser.checkObjectStart(line); if (obj == null) continue; int num = obj[0]; int gen = obj[1]; if (num >= xr.length) { int newLength = num * 2; int xr2[][] = new int[newLength][]; System.arraycopy(xr, 0, xr2, 0, top); xr = xr2; } if (num >= top) top = num + 1; if (xr[num] == null || gen >= xr[num][1]) { obj[0] = pos; xr[num] = obj; } } } if (trailer == null) throw new InvalidPdfException("trailer not found."); xref = new int[top * 2]; for (int k = 0; k < top; ++k) { int obj[] = xr[k]; if (obj != null) xref[k * 2] = obj[0]; } } protected PdfDictionary readDictionary() throws IOException { PdfDictionary dic = new PdfDictionary(); while (true) { tokens.nextValidToken(); if (tokens.getTokenType() == PRTokeniser.TK_END_DIC) break; if (tokens.getTokenType() != PRTokeniser.TK_NAME) tokens.throwError("Dictionary key is not a name."); PdfName name = new PdfName(tokens.getStringValue(), false); PdfObject obj = readPRObject(); int type = obj.type(); if (-type == PRTokeniser.TK_END_DIC) tokens.throwError("Unexpected '>>'"); if (-type == PRTokeniser.TK_END_ARRAY) tokens.throwError("Unexpected ']'"); dic.put(name, obj); } return dic; } protected PdfArray readArray() throws IOException { PdfArray array = new PdfArray(); while (true) { PdfObject obj = readPRObject(); int type = obj.type(); if (-type == PRTokeniser.TK_END_ARRAY) break; if (-type == PRTokeniser.TK_END_DIC) tokens.throwError("Unexpected '>>'"); array.add(obj); } return array; } // Track how deeply nested the current object is, so // we know when to return an individual null or boolean, or // reuse one of the static ones. private int readDepth = 0; protected PdfObject readPRObject() throws IOException { tokens.nextValidToken(); int type = tokens.getTokenType(); switch (type) { case PRTokeniser.TK_START_DIC: { ++readDepth; PdfDictionary dic = readDictionary(); --readDepth; int pos = tokens.getFilePointer(); // be careful in the trailer. May not be a "next" token. boolean hasNext; do { hasNext = tokens.nextToken(); } while (hasNext && tokens.getTokenType() == PRTokeniser.TK_COMMENT); if (hasNext && tokens.getStringValue().equals("stream")) { //skip whitespaces int ch; do { ch = tokens.read(); } while (ch == 32 || ch == 9 || ch == 0 || ch == 12); if (ch != '\n') ch = tokens.read(); if (ch != '\n') tokens.backOnePosition(ch); PRStream stream = new PRStream(this, tokens.getFilePointer()); stream.putAll(dic); // crypto handling stream.setObjNum(objNum, objGen); return stream; } else { tokens.seek(pos); return dic; } } case PRTokeniser.TK_START_ARRAY: { ++readDepth; PdfArray arr = readArray(); --readDepth; return arr; } case PRTokeniser.TK_NUMBER: return new PdfNumber(tokens.getStringValue()); case PRTokeniser.TK_STRING: PdfString str = new PdfString(tokens.getStringValue(), null).setHexWriting(tokens.isHexString()); // crypto handling str.setObjNum(objNum, objGen); if (strings != null) strings.add(str); return str; case PRTokeniser.TK_NAME: { PdfName cachedName = (PdfName)PdfName.staticNames.get( tokens.getStringValue() ); if (readDepth > 0 && cachedName != null) { return cachedName; } else { // an indirect name (how odd...), or a non-standard one return new PdfName(tokens.getStringValue(), false); } } case PRTokeniser.TK_REF: int num = tokens.getReference(); PRIndirectReference ref = new PRIndirectReference(this, num, tokens.getGeneration()); return ref; case PRTokeniser.TK_ENDOFFILE: throw new IOException("Unexpected end of file"); default: String sv = tokens.getStringValue(); if ("null".equals(sv)) { if (readDepth == 0) { return new PdfNull(); } //else return PdfNull.PDFNULL; } else if ("true".equals(sv)) { if (readDepth == 0) { return new PdfBoolean( true ); } //else return PdfBoolean.PDFTRUE; } else if ("false".equals(sv)) { if (readDepth == 0) { return new PdfBoolean( false ); } //else return PdfBoolean.PDFFALSE; } return new PdfLiteral(-type, tokens.getStringValue()); } } /** Decodes a stream that has the FlateDecode filter. * @param in the input data * @return the decoded data */ public static byte[] FlateDecode(byte in[]) { byte b[] = FlateDecode(in, true); if (b == null) return FlateDecode(in, false); return b; } /** * @param in * @param dicPar * @return a byte array */ public static byte[] decodePredictor(byte in[], PdfObject dicPar) { if (dicPar == null || !dicPar.isDictionary()) return in; PdfDictionary dic = (PdfDictionary)dicPar; PdfObject obj = getPdfObject(dic.get(PdfName.PREDICTOR)); if (obj == null || !obj.isNumber()) return in; int predictor = ((PdfNumber)obj).intValue(); if (predictor < 10) return in; int width = 1; obj = getPdfObject(dic.get(PdfName.COLUMNS)); if (obj != null && obj.isNumber()) width = ((PdfNumber)obj).intValue(); int colors = 1; obj = getPdfObject(dic.get(PdfName.COLORS)); if (obj != null && obj.isNumber()) colors = ((PdfNumber)obj).intValue(); int bpc = 8; obj = getPdfObject(dic.get(PdfName.BITSPERCOMPONENT)); if (obj != null && obj.isNumber()) bpc = ((PdfNumber)obj).intValue(); DataInputStream dataStream = new DataInputStream(new ByteArrayInputStream(in)); ByteArrayOutputStream fout = new ByteArrayOutputStream(in.length); int bytesPerPixel = colors * bpc / 8; int bytesPerRow = (colors*width*bpc + 7)/8; byte[] curr = new byte[bytesPerRow]; byte[] prior = new byte[bytesPerRow]; // Decode the (sub)image row-by-row while (true) { // Read the filter type byte and a row of data int filter = 0; try { filter = dataStream.read(); if (filter < 0) { return fout.toByteArray(); } dataStream.readFully(curr, 0, bytesPerRow); } catch (Exception e) { return fout.toByteArray(); } switch (filter) { case 0: //PNG_FILTER_NONE break; case 1: //PNG_FILTER_SUB for (int i = bytesPerPixel; i < bytesPerRow; i++) { curr[i] += curr[i - bytesPerPixel]; } break; case 2: //PNG_FILTER_UP for (int i = 0; i < bytesPerRow; i++) { curr[i] += prior[i]; } break; case 3: //PNG_FILTER_AVERAGE for (int i = 0; i < bytesPerPixel; i++) { curr[i] += prior[i] / 2; } for (int i = bytesPerPixel; i < bytesPerRow; i++) { curr[i] += ((curr[i - bytesPerPixel] & 0xff) + (prior[i] & 0xff))/2; } break; case 4: //PNG_FILTER_PAETH for (int i = 0; i < bytesPerPixel; i++) { curr[i] += prior[i]; } for (int i = bytesPerPixel; i < bytesPerRow; i++) { int a = curr[i - bytesPerPixel] & 0xff; int b = prior[i] & 0xff; int c = prior[i - bytesPerPixel] & 0xff; int p = a + b - c; int pa = Math.abs(p - a); int pb = Math.abs(p - b); int pc = Math.abs(p - c); int ret; if ((pa <= pb) && (pa <= pc)) { ret = a; } else if (pb <= pc) { ret = b; } else { ret = c; } curr[i] += (byte)(ret); } break; default: // Error -- unknown filter type throw new RuntimeException("PNG filter unknown."); } try { fout.write(curr); } catch (IOException ioe) { // Never happens } // Swap curr and prior byte[] tmp = prior; prior = curr; curr = tmp; } } /** A helper to FlateDecode. * @param in the input data * @param stricttrue
to read a correct stream.false
* to try to read a corrupted stream * @return the decoded data */ public static byte[] FlateDecode(byte in[], boolean strict) { ByteArrayInputStream stream = new ByteArrayInputStream(in); InflaterInputStream zip = new InflaterInputStream(stream); ByteArrayOutputStream out = new ByteArrayOutputStream(); byte b[] = new byte[strict ? 4092 : 1]; try { int n; while ((n = zip.read(b)) >= 0) { out.write(b, 0, n); } zip.close(); out.close(); return out.toByteArray(); } catch (Exception e) { if (strict) return null; return out.toByteArray(); } } /** Decodes a stream that has the ASCIIHexDecode filter. * @param in the input data * @return the decoded data */ public static byte[] ASCIIHexDecode(byte in[]) { ByteArrayOutputStream out = new ByteArrayOutputStream(); boolean first = true; int n1 = 0; for (int k = 0; k < in.length; ++k) { int ch = in[k] & 0xff; if (ch == '>') break; if (PRTokeniser.isWhitespace(ch)) continue; int n = PRTokeniser.getHex(ch); if (n == -1) throw new RuntimeException("Illegal character in ASCIIHexDecode."); if (first) n1 = n; else out.write((byte)((n1 << 4) + n)); first = !first; } if (!first) out.write((byte)(n1 << 4)); return out.toByteArray(); } /** Decodes a stream that has the ASCII85Decode filter. * @param in the input data * @return the decoded data */ public static byte[] ASCII85Decode(byte in[]) { ByteArrayOutputStream out = new ByteArrayOutputStream(); int state = 0; int chn[] = new int[5]; for (int k = 0; k < in.length; ++k) { int ch = in[k] & 0xff; if (ch == '~') break; if (PRTokeniser.isWhitespace(ch)) continue; if (ch == 'z' && state == 0) { out.write(0); out.write(0); out.write(0); out.write(0); continue; } if (ch < '!' || ch > 'u') throw new RuntimeException("Illegal character in ASCII85Decode."); chn[state] = ch - '!'; ++state; if (state == 5) { state = 0; int r = 0; for (int j = 0; j < 5; ++j) r = r * 85 + chn[j]; out.write((byte)(r >> 24)); out.write((byte)(r >> 16)); out.write((byte)(r >> 8)); out.write((byte)r); } } int r = 0; // We'll ignore the next two lines for the sake of perpetuating broken PDFs // if (state == 1) // throw new RuntimeException("Illegal length in ASCII85Decode."); if (state == 2) { r = chn[0] * 85 * 85 * 85 * 85 + chn[1] * 85 * 85 * 85 + 85 * 85 * 85 + 85 * 85 + 85; out.write((byte)(r >> 24)); } else if (state == 3) { r = chn[0] * 85 * 85 * 85 * 85 + chn[1] * 85 * 85 * 85 + chn[2] * 85 * 85 + 85 * 85 + 85; out.write((byte)(r >> 24)); out.write((byte)(r >> 16)); } else if (state == 4) { r = chn[0] * 85 * 85 * 85 * 85 + chn[1] * 85 * 85 * 85 + chn[2] * 85 * 85 + chn[3] * 85 + 85; out.write((byte)(r >> 24)); out.write((byte)(r >> 16)); out.write((byte)(r >> 8)); } return out.toByteArray(); } /** Decodes a stream that has the LZWDecode filter. * @param in the input data * @return the decoded data */ public static byte[] LZWDecode(byte in[]) { ByteArrayOutputStream out = new ByteArrayOutputStream(); LZWDecoder lzw = new LZWDecoder(); lzw.decode(in, out); return out.toByteArray(); } /** Checks if the document had errors and was rebuilt. * @return true if rebuilt. * */ public boolean isRebuilt() { return this.rebuilt; } /** Gets the dictionary that represents a page. * @param pageNum the page number. 1 is the first * @return the page dictionary */ public PdfDictionary getPageN(int pageNum) { PdfDictionary dic = pageRefs.getPageN(pageNum); if (dic == null) return null; if (appendable) dic.setIndRef(pageRefs.getPageOrigRef(pageNum)); return dic; } /** * @param pageNum * @return a Dictionary object */ public PdfDictionary getPageNRelease(int pageNum) { PdfDictionary dic = getPageN(pageNum); pageRefs.releasePage(pageNum); return dic; } /** * @param pageNum */ public void releasePage(int pageNum) { pageRefs.releasePage(pageNum); } /** * */ public void resetReleasePage() { pageRefs.resetReleasePage(); } /** Gets the page reference to this page. * @param pageNum the page number. 1 is the first * @return the page reference */ public PRIndirectReference getPageOrigRef(int pageNum) { return pageRefs.getPageOrigRef(pageNum); } /** Gets the contents of the page. * @param pageNum the page number. 1 is the first * @param file the location of the PDF document * @throws IOException on error * @return the content */ public byte[] getPageContent(int pageNum, RandomAccessFileOrArray file) throws IOException{ PdfDictionary page = getPageNRelease(pageNum); if (page == null) return null; PdfObject contents = getPdfObjectRelease(page.get(PdfName.CONTENTS)); if (contents == null) return new byte[0]; ByteArrayOutputStream bout = null; if (contents.isStream()) { return getStreamBytes((PRStream)contents, file); } else if (contents.isArray()) { PdfArray array = (PdfArray)contents; bout = new ByteArrayOutputStream(); for (int k = 0; k < array.size(); ++k) { PdfObject item = getPdfObjectRelease(array.getPdfObject(k)); if (item == null || !item.isStream()) continue; byte[] b = getStreamBytes((PRStream)item, file); bout.write(b); if (k != array.size() - 1) bout.write('\n'); } return bout.toByteArray(); } else return new byte[0]; } /** Gets the contents of the page. * @param pageNum the page number. 1 is the first * @throws IOException on error * @return the content */ public byte[] getPageContent(int pageNum) throws IOException{ RandomAccessFileOrArray rf = getSafeFile(); try { rf.reOpen(); return getPageContent(pageNum, rf); } finally { try{rf.close();}catch(Exception e){} } } protected void killXref(PdfObject obj) { if (obj == null) return; if ((obj instanceof PdfIndirectReference) && !obj.isIndirect()) return; switch (obj.type()) { case PdfObject.INDIRECT: { int xr = ((PRIndirectReference)obj).getNumber(); obj = (PdfObject)xrefObj.get(xr); xrefObj.set(xr, null); freeXref = xr; killXref(obj); break; } case PdfObject.ARRAY: { PdfArray t = (PdfArray)obj; for (int i = 0; i < t.size(); ++i) killXref(t.getPdfObject(i)); break; } case PdfObject.STREAM: case PdfObject.DICTIONARY: { PdfDictionary dic = (PdfDictionary)obj; for (Iterator i = dic.getKeys().iterator(); i.hasNext();){ killXref(dic.get((PdfName)i.next())); } break; } } } /** Sets the contents of the page. * @param content the new page content * @param pageNum the page number. 1 is the first */ public void setPageContent(int pageNum, byte content[]) { setPageContent(pageNum, content, PdfStream.DEFAULT_COMPRESSION); } /** Sets the contents of the page. * @param content the new page content * @param pageNum the page number. 1 is the first * @since 2.1.3 (the method already existed without param compressionLevel) */ public void setPageContent(int pageNum, byte content[], int compressionLevel) { PdfDictionary page = getPageN(pageNum); if (page == null) return; PdfObject contents = page.get(PdfName.CONTENTS); freeXref = -1; killXref(contents); if (freeXref == -1) { xrefObj.add(null); freeXref = xrefObj.size() - 1; } page.put(PdfName.CONTENTS, new PRIndirectReference(this, freeXref)); xrefObj.set(freeXref, new PRStream(this, content, compressionLevel)); } /** Get the content from a stream applying the required filters. * @param stream the stream * @param file the location where the stream is * @throws IOException on error * @return the stream content */ public static byte[] getStreamBytes(PRStream stream, RandomAccessFileOrArray file) throws IOException { PdfObject filter = getPdfObjectRelease(stream.get(PdfName.FILTER)); byte[] b = getStreamBytesRaw(stream, file); ArrayList filters = new ArrayList(); if (filter != null) { if (filter.isName()) filters.add(filter); else if (filter.isArray()) filters = ((PdfArray)filter).getArrayList(); } ArrayList dp = new ArrayList(); PdfObject dpo = getPdfObjectRelease(stream.get(PdfName.DECODEPARMS)); if (dpo == null || (!dpo.isDictionary() && !dpo.isArray())) dpo = getPdfObjectRelease(stream.get(PdfName.DP)); if (dpo != null) { if (dpo.isDictionary()) dp.add(dpo); else if (dpo.isArray()) dp = ((PdfArray)dpo).getArrayList(); } String name; for (int j = 0; j < filters.size(); ++j) { name = ((PdfName)getPdfObjectRelease((PdfObject)filters.get(j))).toString(); if (name.equals("/FlateDecode") || name.equals("/Fl")) { b = FlateDecode(b); PdfObject dicParam = null; if (j < dp.size()) { dicParam = (PdfObject)dp.get(j); b = decodePredictor(b, dicParam); } } else if (name.equals("/ASCIIHexDecode") || name.equals("/AHx")) b = ASCIIHexDecode(b); else if (name.equals("/ASCII85Decode") || name.equals("/A85")) b = ASCII85Decode(b); else if (name.equals("/LZWDecode")) { b = LZWDecode(b); PdfObject dicParam = null; if (j < dp.size()) { dicParam = (PdfObject)dp.get(j); b = decodePredictor(b, dicParam); } } else if (name.equals("/Crypt")) { } else throw new UnsupportedPdfException("The filter " + name + " is not supported."); } return b; } /** Get the content from a stream applying the required filters. * @param stream the stream * @throws IOException on error * @return the stream content */ public static byte[] getStreamBytes(PRStream stream) throws IOException { RandomAccessFileOrArray rf = stream.getReader().getSafeFile(); try { rf.reOpen(); return getStreamBytes(stream, rf); } finally { try{rf.close();}catch(Exception e){} } } /** Get the content from a stream as it is without applying any filter. * @param stream the stream * @param file the location where the stream is * @throws IOException on error * @return the stream content */ public static byte[] getStreamBytesRaw(PRStream stream, RandomAccessFileOrArray file) throws IOException { PdfReader reader = stream.getReader(); byte b[]; if (stream.getOffset() < 0) b = stream.getBytes(); else { b = new byte[stream.getLength()]; file.seek(stream.getOffset()); file.readFully(b); PdfEncryption decrypt = reader.getDecrypt(); if (decrypt != null) { PdfObject filter = getPdfObjectRelease(stream.get(PdfName.FILTER)); ArrayList filters = new ArrayList(); if (filter != null) { if (filter.isName()) filters.add(filter); else if (filter.isArray()) filters = ((PdfArray)filter).getArrayList(); } boolean skip = false; for (int k = 0; k < filters.size(); ++k) { PdfObject obj = getPdfObjectRelease((PdfObject)filters.get(k)); if (obj != null && obj.toString().equals("/Crypt")) { skip = true; break; } } if (!skip) { decrypt.setHashKey(stream.getObjNum(), stream.getObjGen()); b = decrypt.decryptByteArray(b); } } } return b; } /** Get the content from a stream as it is without applying any filter. * @param stream the stream * @throws IOException on error * @return the stream content */ public static byte[] getStreamBytesRaw(PRStream stream) throws IOException { RandomAccessFileOrArray rf = stream.getReader().getSafeFile(); try { rf.reOpen(); return getStreamBytesRaw(stream, rf); } finally { try{rf.close();}catch(Exception e){} } } /** Eliminates shared streams if they exist. */ public void eliminateSharedStreams() { if (!sharedStreams) return; sharedStreams = false; if (pageRefs.size() == 1) return; ArrayList newRefs = new ArrayList(); ArrayList newStreams = new ArrayList(); IntHashtable visited = new IntHashtable(); for (int k = 1; k <= pageRefs.size(); ++k) { PdfDictionary page = pageRefs.getPageN(k); if (page == null) continue; PdfObject contents = getPdfObject(page.get(PdfName.CONTENTS)); if (contents == null) continue; if (contents.isStream()) { PRIndirectReference ref = (PRIndirectReference)page.get(PdfName.CONTENTS); if (visited.containsKey(ref.getNumber())) { // need to duplicate newRefs.add(ref); newStreams.add(new PRStream((PRStream)contents, null)); } else visited.put(ref.getNumber(), 1); } else if (contents.isArray()) { PdfArray array = (PdfArray)contents; for (int j = 0; j < array.size(); ++j) { PRIndirectReference ref = (PRIndirectReference)array.getPdfObject(j); if (visited.containsKey(ref.getNumber())) { // need to duplicate newRefs.add(ref); newStreams.add(new PRStream((PRStream)getPdfObject(ref), null)); } else visited.put(ref.getNumber(), 1); } } } if (newStreams.isEmpty()) return; for (int k = 0; k < newStreams.size(); ++k) { xrefObj.add(newStreams.get(k)); PRIndirectReference ref = (PRIndirectReference)newRefs.get(k); ref.setNumber(xrefObj.size() - 1, 0); } } /** Checks if the document was changed. * @returntrue
if the document was changed, *false
otherwise */ public boolean isTampered() { return tampered; } /** * Sets the tampered state. A tampered PdfReader cannot be reused in PdfStamper. * @param tampered the tampered state */ public void setTampered(boolean tampered) { this.tampered = tampered; pageRefs.keepPages(); } /** Gets the XML metadata. * @throws IOException on error * @return the XML metadata */ public byte[] getMetadata() throws IOException { PdfObject obj = getPdfObject(catalog.get(PdfName.METADATA)); if (!(obj instanceof PRStream)) return null; RandomAccessFileOrArray rf = getSafeFile(); byte b[] = null; try { rf.reOpen(); b = getStreamBytes((PRStream)obj, rf); } finally { try { rf.close(); } catch (Exception e) { // empty on purpose } } return b; } /** * Gets the byte address of the last xref table. * @return the byte address of the last xref table */ public int getLastXref() { return lastXref; } /** * Gets the number of xref objects. * @return the number of xref objects */ public int getXrefSize() { return xrefObj.size(); } /** * Gets the byte address of the %%EOF marker. * @return the byte address of the %%EOF marker */ public int getEofPos() { return eofPos; } /** * Gets the PDF version. Only the last version char is returned. For example * version 1.4 is returned as '4'. * @return the PDF version */ public char getPdfVersion() { return pdfVersion; } /** * Returnstrue
if the PDF is encrypted. * @returntrue
if the PDF is encrypted */ public boolean isEncrypted() { return encrypted; } /** * Gets the encryption permissions. It can be used directly in *PdfWriter.setEncryption()
. * @return the encryption permissions */ public int getPermissions() { return pValue; } /** * Returnstrue
if the PDF has a 128 bit key encryption. * @returntrue
if the PDF has a 128 bit key encryption */ public boolean is128Key() { return rValue == 3; } /** * Gets the trailer dictionary * @return the trailer dictionary */ public PdfDictionary getTrailer() { return trailer; } PdfEncryption getDecrypt() { return decrypt; } static boolean equalsn(byte a1[], byte a2[]) { int length = a2.length; for (int k = 0; k < length; ++k) { if (a1[k] != a2[k]) return false; } return true; } static boolean existsName(PdfDictionary dic, PdfName key, PdfName value) { PdfObject type = getPdfObjectRelease(dic.get(key)); if (type == null || !type.isName()) return false; PdfName name = (PdfName)type; return name.equals(value); } static String getFontName(PdfDictionary dic) { if (dic == null) return null; PdfObject type = getPdfObjectRelease(dic.get(PdfName.BASEFONT)); if (type == null || !type.isName()) return null; return PdfName.decodeName(type.toString()); } static String getSubsetPrefix(PdfDictionary dic) { if (dic == null) return null; String s = getFontName(dic); if (s == null) return null; if (s.length() < 8 || s.charAt(6) != '+') return null; for (int k = 0; k < 6; ++k) { char c = s.charAt(k); if (c < 'A' || c > 'Z') return null; } return s; } /** Finds all the font subsets and changes the prefixes to some * random values. * @return the number of font subsets altered */ public int shuffleSubsetNames() { int total = 0; for (int k = 1; k < xrefObj.size(); ++k) { PdfObject obj = getPdfObjectRelease(k); if (obj == null || !obj.isDictionary()) continue; PdfDictionary dic = (PdfDictionary)obj; if (!existsName(dic, PdfName.TYPE, PdfName.FONT)) continue; if (existsName(dic, PdfName.SUBTYPE, PdfName.TYPE1) || existsName(dic, PdfName.SUBTYPE, PdfName.MMTYPE1) || existsName(dic, PdfName.SUBTYPE, PdfName.TRUETYPE)) { String s = getSubsetPrefix(dic); if (s == null) continue; String ns = BaseFont.createSubsetPrefix() + s.substring(7); PdfName newName = new PdfName(ns); dic.put(PdfName.BASEFONT, newName); setXrefPartialObject(k, dic); ++total; PdfDictionary fd = dic.getAsDict(PdfName.FONTDESCRIPTOR); if (fd == null) continue; fd.put(PdfName.FONTNAME, newName); } else if (existsName(dic, PdfName.SUBTYPE, PdfName.TYPE0)) { String s = getSubsetPrefix(dic); PdfArray arr = dic.getAsArray(PdfName.DESCENDANTFONTS); if (arr == null) continue; if (arr.isEmpty()) continue; PdfDictionary desc = arr.getAsDict(0); String sde = getSubsetPrefix(desc); if (sde == null) continue; String ns = BaseFont.createSubsetPrefix(); if (s != null) dic.put(PdfName.BASEFONT, new PdfName(ns + s.substring(7))); setXrefPartialObject(k, dic); PdfName newName = new PdfName(ns + sde.substring(7)); desc.put(PdfName.BASEFONT, newName); ++total; PdfDictionary fd = desc.getAsDict(PdfName.FONTDESCRIPTOR); if (fd == null) continue; fd.put(PdfName.FONTNAME, newName); } } return total; } /** Finds all the fonts not subset but embedded and marks them as subset. * @return the number of fonts altered */ public int createFakeFontSubsets() { int total = 0; for (int k = 1; k < xrefObj.size(); ++k) { PdfObject obj = getPdfObjectRelease(k); if (obj == null || !obj.isDictionary()) continue; PdfDictionary dic = (PdfDictionary)obj; if (!existsName(dic, PdfName.TYPE, PdfName.FONT)) continue; if (existsName(dic, PdfName.SUBTYPE, PdfName.TYPE1) || existsName(dic, PdfName.SUBTYPE, PdfName.MMTYPE1) || existsName(dic, PdfName.SUBTYPE, PdfName.TRUETYPE)) { String s = getSubsetPrefix(dic); if (s != null) continue; s = getFontName(dic); if (s == null) continue; String ns = BaseFont.createSubsetPrefix() + s; PdfDictionary fd = (PdfDictionary)getPdfObjectRelease(dic.get(PdfName.FONTDESCRIPTOR)); if (fd == null) continue; if (fd.get(PdfName.FONTFILE) == null && fd.get(PdfName.FONTFILE2) == null && fd.get(PdfName.FONTFILE3) == null) continue; fd = dic.getAsDict(PdfName.FONTDESCRIPTOR); PdfName newName = new PdfName(ns); dic.put(PdfName.BASEFONT, newName); fd.put(PdfName.FONTNAME, newName); setXrefPartialObject(k, dic); ++total; } } return total; } private static PdfArray getNameArray(PdfObject obj) { if (obj == null) return null; obj = getPdfObjectRelease(obj); if (obj == null) return null; if (obj.isArray()) return (PdfArray)obj; else if (obj.isDictionary()) { PdfObject arr2 = getPdfObjectRelease(((PdfDictionary)obj).get(PdfName.D)); if (arr2 != null && arr2.isArray()) return (PdfArray)arr2; } return null; } /** * Gets all the named destinations as anHashMap
. The key is the name * and the value is the destinations array. * @return gets all the named destinations */ public HashMap getNamedDestination() { return getNamedDestination(false); } /** * Gets all the named destinations as anHashMap
. The key is the name * and the value is the destinations array. * @param keepNames true if you want the keys to be real PdfNames instead of Strings * @return gets all the named destinations * @since 2.1.6 */ public HashMap getNamedDestination(boolean keepNames) { HashMap names = getNamedDestinationFromNames(keepNames); names.putAll(getNamedDestinationFromStrings()); return names; } /** * Gets the named destinations from the /Dests key in the catalog as anHashMap
. The key is the name * and the value is the destinations array. * @return gets the named destinations */ public HashMap getNamedDestinationFromNames() { return getNamedDestinationFromNames(false); } /** * Gets the named destinations from the /Dests key in the catalog as anHashMap
. The key is the name * and the value is the destinations array. * @param keepNames true if you want the keys to be real PdfNames instead of Strings * @return gets the named destinations * @since 2.1.6 */ public HashMap getNamedDestinationFromNames(boolean keepNames) { HashMap names = new HashMap(); if (catalog.get(PdfName.DESTS) != null) { PdfDictionary dic = (PdfDictionary)getPdfObjectRelease(catalog.get(PdfName.DESTS)); if (dic == null) return names; Set keys = dic.getKeys(); for (Iterator it = keys.iterator(); it.hasNext();) { PdfName key = (PdfName)it.next(); PdfArray arr = getNameArray(dic.get(key)); if (arr == null) continue; if (keepNames) { names.put(key, arr); } else { String name = PdfName.decodeName(key.toString()); names.put(name, arr); } } } return names; } /** * Gets the named destinations from the /Names key in the catalog as anHashMap
. The key is the name * and the value is the destinations array. * @return gets the named destinations */ public HashMap getNamedDestinationFromStrings() { if (catalog.get(PdfName.NAMES) != null) { PdfDictionary dic = (PdfDictionary)getPdfObjectRelease(catalog.get(PdfName.NAMES)); if (dic != null) { dic = (PdfDictionary)getPdfObjectRelease(dic.get(PdfName.DESTS)); if (dic != null) { HashMap names = PdfNameTree.readTree(dic); for (Iterator it = names.entrySet().iterator(); it.hasNext();) { Map.Entry entry = (Map.Entry)it.next(); PdfArray arr = getNameArray((PdfObject)entry.getValue()); if (arr != null) entry.setValue(arr); else it.remove(); } return names; } } } return new HashMap(); } private boolean replaceNamedDestination(PdfObject obj, HashMap names) { obj = getPdfObject(obj); int objIdx = lastXrefPartial; releaseLastXrefPartial(); if (obj != null && obj.isDictionary()) { PdfObject ob2 = getPdfObjectRelease(((PdfDictionary)obj).get(PdfName.DEST)); Object name = null; if (ob2 != null) { if (ob2.isName()) name = ob2; else if (ob2.isString()) name = ob2.toString(); PdfArray dest = (PdfArray)names.get(name); if (dest != null) { ((PdfDictionary)obj).put(PdfName.DEST, dest); setXrefPartialObject(objIdx, obj); return true; } } else if ((ob2 = getPdfObject(((PdfDictionary)obj).get(PdfName.A))) != null) { int obj2Idx = lastXrefPartial; releaseLastXrefPartial(); PdfDictionary dic = (PdfDictionary)ob2; PdfName type = (PdfName)getPdfObjectRelease(dic.get(PdfName.S)); if (PdfName.GOTO.equals(type)) { PdfObject ob3 = getPdfObjectRelease(dic.get(PdfName.D)); if (ob3 != null) { if (ob3.isName()) name = ob3; else if (ob3.isString()) name = ob3.toString(); } PdfArray dest = (PdfArray)names.get(name); if (dest != null) { dic.put(PdfName.D, dest); setXrefPartialObject(obj2Idx, ob2); setXrefPartialObject(objIdx, obj); return true; } } } } return false; } /** * Removes all the fields from the document. */ public void removeFields() { pageRefs.resetReleasePage(); for (int k = 1; k <= pageRefs.size(); ++k) { PdfDictionary page = pageRefs.getPageN(k); PdfArray annots = page.getAsArray(PdfName.ANNOTS); if (annots == null) { pageRefs.releasePage(k); continue; } for (int j = 0; j < annots.size(); ++j) { PdfObject obj = getPdfObjectRelease(annots.getPdfObject(j)); if (obj == null || !obj.isDictionary()) continue; PdfDictionary annot = (PdfDictionary)obj; if (PdfName.WIDGET.equals(annot.get(PdfName.SUBTYPE))) annots.remove(j--); } if (annots.isEmpty()) page.remove(PdfName.ANNOTS); else pageRefs.releasePage(k); } catalog.remove(PdfName.ACROFORM); pageRefs.resetReleasePage(); } /** * Removes all the annotations and fields from the document. */ public void removeAnnotations() { pageRefs.resetReleasePage(); for (int k = 1; k <= pageRefs.size(); ++k) { PdfDictionary page = pageRefs.getPageN(k); if (page.get(PdfName.ANNOTS) == null) pageRefs.releasePage(k); else page.remove(PdfName.ANNOTS); } catalog.remove(PdfName.ACROFORM); pageRefs.resetReleasePage(); } public ArrayList getLinks(int page) { pageRefs.resetReleasePage(); ArrayList result = new ArrayList(); PdfDictionary pageDic = pageRefs.getPageN(page); if (pageDic.get(PdfName.ANNOTS) != null) { PdfArray annots = pageDic.getAsArray(PdfName.ANNOTS); for (int j = 0; j < annots.size(); ++j) { PdfDictionary annot = (PdfDictionary)getPdfObjectRelease(annots.getPdfObject(j)); if (PdfName.LINK.equals(annot.get(PdfName.SUBTYPE))) { result.add(new PdfAnnotation.PdfImportedLink(annot)); } } } pageRefs.releasePage(page); pageRefs.resetReleasePage(); return result; } private void iterateBookmarks(PdfObject outlineRef, HashMap names) { while (outlineRef != null) { replaceNamedDestination(outlineRef, names); PdfDictionary outline = (PdfDictionary)getPdfObjectRelease(outlineRef); PdfObject first = outline.get(PdfName.FIRST); if (first != null) { iterateBookmarks(first, names); } outlineRef = outline.get(PdfName.NEXT); } } /** Replaces all the local named links with the actual destinations. */ public void consolidateNamedDestinations() { if (consolidateNamedDestinations) return; consolidateNamedDestinations = true; HashMap names = getNamedDestination(true); if (names.isEmpty()) return; for (int k = 1; k <= pageRefs.size(); ++k) { PdfDictionary page = pageRefs.getPageN(k); PdfObject annotsRef; PdfArray annots = (PdfArray)getPdfObject(annotsRef = page.get(PdfName.ANNOTS)); int annotIdx = lastXrefPartial; releaseLastXrefPartial(); if (annots == null) { pageRefs.releasePage(k); continue; } boolean commitAnnots = false; for (int an = 0; an < annots.size(); ++an) { PdfObject objRef = annots.getPdfObject(an); if (replaceNamedDestination(objRef, names) && !objRef.isIndirect()) commitAnnots = true; } if (commitAnnots) setXrefPartialObject(annotIdx, annots); if (!commitAnnots || annotsRef.isIndirect()) pageRefs.releasePage(k); } PdfDictionary outlines = (PdfDictionary)getPdfObjectRelease(catalog.get(PdfName.OUTLINES)); if (outlines == null) return; iterateBookmarks(outlines.get(PdfName.FIRST), names); } protected static PdfDictionary duplicatePdfDictionary(PdfDictionary original, PdfDictionary copy, PdfReader newReader) { if (copy == null) copy = new PdfDictionary(); for (Iterator it = original.getKeys().iterator(); it.hasNext();) { PdfName key = (PdfName)it.next(); copy.put(key, duplicatePdfObject(original.get(key), newReader)); } return copy; } protected static PdfObject duplicatePdfObject(PdfObject original, PdfReader newReader) { if (original == null) return null; switch (original.type()) { case PdfObject.DICTIONARY: { return duplicatePdfDictionary((PdfDictionary)original, null, newReader); } case PdfObject.STREAM: { PRStream org = (PRStream)original; PRStream stream = new PRStream(org, null, newReader); duplicatePdfDictionary(org, stream, newReader); return stream; } case PdfObject.ARRAY: { PdfArray arr = new PdfArray(); for (Iterator it = ((PdfArray)original).listIterator(); it.hasNext();) { arr.add(duplicatePdfObject((PdfObject)it.next(), newReader)); } return arr; } case PdfObject.INDIRECT: { PRIndirectReference org = (PRIndirectReference)original; return new PRIndirectReference(newReader, org.getNumber(), org.getGeneration()); } default: return original; } } /** * Closes the reader */ public void close() { if (!partial) return; try { tokens.close(); } catch (IOException e) { throw new ExceptionConverter(e); } } protected void removeUnusedNode(PdfObject obj, boolean hits[]) { Stack state = new Stack(); state.push(obj); while (!state.empty()) { Object current = state.pop(); if (current == null) continue; ArrayList ar = null; PdfDictionary dic = null; PdfName[] keys = null; Object[] objs = null; int idx = 0; if (current instanceof PdfObject) { obj = (PdfObject)current; switch (obj.type()) { case PdfObject.DICTIONARY: case PdfObject.STREAM: dic = (PdfDictionary)obj; keys = new PdfName[dic.size()]; dic.getKeys().toArray(keys); break; case PdfObject.ARRAY: ar = ((PdfArray)obj).getArrayList(); break; case PdfObject.INDIRECT: PRIndirectReference ref = (PRIndirectReference)obj; int num = ref.getNumber(); if (!hits[num]) { hits[num] = true; state.push(getPdfObjectRelease(ref)); } continue; default: continue; } } else { objs = (Object[])current; if (objs[0] instanceof ArrayList) { ar = (ArrayList)objs[0]; idx = ((Integer)objs[1]).intValue(); } else { keys = (PdfName[])objs[0]; dic = (PdfDictionary)objs[1]; idx = ((Integer)objs[2]).intValue(); } } if (ar != null) { for (int k = idx; k < ar.size(); ++k) { PdfObject v = (PdfObject)ar.get(k); if (v.isIndirect()) { int num = ((PRIndirectReference)v).getNumber(); if (num >= xrefObj.size() || (!partial && xrefObj.get(num) == null)) { ar.set(k, PdfNull.PDFNULL); continue; } } if (objs == null) state.push(new Object[]{ar, Integer.valueOf(k + 1)}); else { objs[1] = Integer.valueOf(k + 1); state.push(objs); } state.push(v); break; } } else { for (int k = idx; k < keys.length; ++k) { PdfName key = keys[k]; PdfObject v = dic.get(key); if (v.isIndirect()) { int num = ((PRIndirectReference)v).getNumber(); if (num >= xrefObj.size() || (!partial && xrefObj.get(num) == null)) { dic.put(key, PdfNull.PDFNULL); continue; } } if (objs == null) state.push(new Object[]{keys, dic, Integer.valueOf(k + 1)}); else { objs[2] = Integer.valueOf(k + 1); state.push(objs); } state.push(v); break; } } } } /** Removes all the unreachable objects. * @return the number of indirect objects removed */ public int removeUnusedObjects() { boolean hits[] = new boolean[xrefObj.size()]; removeUnusedNode(trailer, hits); int total = 0; if (partial) { for (int k = 1; k < hits.length; ++k) { if (!hits[k]) { xref[k * 2] = -1; xref[k * 2 + 1] = 0; xrefObj.set(k, null); ++total; } } } else { for (int k = 1; k < hits.length; ++k) { if (!hits[k]) { xrefObj.set(k, null); ++total; } } } return total; } /** Gets a read-only version ofAcroFields
. * @return a read-only version ofAcroFields
*/ public AcroFields getAcroFields() { return new AcroFields(this, null); } /** * Gets the global document JavaScript. * @param file the document file * @throws IOException on error * @return the global document JavaScript */ public String getJavaScript(RandomAccessFileOrArray file) throws IOException { PdfDictionary names = (PdfDictionary)getPdfObjectRelease(catalog.get(PdfName.NAMES)); if (names == null) return null; PdfDictionary js = (PdfDictionary)getPdfObjectRelease(names.get(PdfName.JAVASCRIPT)); if (js == null) return null; HashMap jscript = PdfNameTree.readTree(js); String sortedNames[] = new String[jscript.size()]; sortedNames = (String[])jscript.keySet().toArray(sortedNames); Arrays.sort(sortedNames); StringBuffer buf = new StringBuffer(); for (int k = 0; k < sortedNames.length; ++k) { PdfDictionary j = (PdfDictionary)getPdfObjectRelease((PdfIndirectReference)jscript.get(sortedNames[k])); if (j == null) continue; PdfObject obj = getPdfObjectRelease(j.get(PdfName.JS)); if (obj != null) { if (obj.isString()) buf.append(((PdfString)obj).toUnicodeString()).append('\n'); else if (obj.isStream()) { byte bytes[] = getStreamBytes((PRStream)obj, file); if (bytes.length >= 2 && bytes[0] == (byte)254 && bytes[1] == (byte)255) buf.append(PdfEncodings.convertToString(bytes, PdfObject.TEXT_UNICODE)); else buf.append(PdfEncodings.convertToString(bytes, PdfObject.TEXT_PDFDOCENCODING)); buf.append('\n'); } } } return buf.toString(); } /** * Gets the global document JavaScript. * @throws IOException on error * @return the global document JavaScript */ public String getJavaScript() throws IOException { RandomAccessFileOrArray rf = getSafeFile(); try { rf.reOpen(); return getJavaScript(rf); } finally { try{rf.close();}catch(Exception e){} } } /** * Selects the pages to keep in the document. The pages are described as * ranges. The page ordering can be changed but * no page repetitions are allowed. Note that it may be very slow in partial mode. * @param ranges the comma separated ranges as described in {@link SequenceList} */ public void selectPages(String ranges) { selectPages(SequenceList.expand(ranges, getNumberOfPages())); } /** * Selects the pages to keep in the document. The pages are described as a *List
ofInteger
. The page ordering can be changed but * no page repetitions are allowed. Note that it may be very slow in partial mode. * @param pagesToKeep the pages to keep in the document */ public void selectPages(List pagesToKeep) { pageRefs.selectPages(pagesToKeep); removeUnusedObjects(); } /** Sets the viewer preferences as the sum of several constants. * @param preferences the viewer preferences * @see PdfViewerPreferences#setViewerPreferences */ public void setViewerPreferences(int preferences) { this.viewerPreferences.setViewerPreferences(preferences); setViewerPreferences(this.viewerPreferences); } /** Adds a viewer preference * @param key a key for a viewer preference * @param value a value for the viewer preference * @see PdfViewerPreferences#addViewerPreference */ public void addViewerPreference(PdfName key, PdfObject value) { this.viewerPreferences.addViewerPreference(key, value); setViewerPreferences(this.viewerPreferences); } void setViewerPreferences(PdfViewerPreferencesImp vp) { vp.addToCatalog(catalog); } /** * Returns a bitset representing the PageMode and PageLayout viewer preferences. * Doesn't return any information about the ViewerPreferences dictionary. * @return an int that contains the Viewer Preferences. */ public int getSimpleViewerPreferences() { return PdfViewerPreferencesImp.getViewerPreferences(catalog).getPageLayoutAndMode(); } /** * Getter for property appendable. * @return Value of property appendable. */ public boolean isAppendable() { return this.appendable; } /** * Setter for property appendable. * @param appendable New value of property appendable. */ public void setAppendable(boolean appendable) { this.appendable = appendable; if (appendable) getPdfObject(trailer.get(PdfName.ROOT)); } /** * Getter for property newXrefType. * @return Value of property newXrefType. */ public boolean isNewXrefType() { return newXrefType; } /** * Getter for property fileLength. * @return Value of property fileLength. */ public int getFileLength() { return fileLength; } /** * Getter for property hybridXref. * @return Value of property hybridXref. */ public boolean isHybridXref() { return hybridXref; } static class PageRefs { private PdfReader reader; private IntHashtable refsp; private ArrayList refsn; private ArrayList pageInh; private int lastPageRead = -1; private int sizep; private boolean keepPages; private PageRefs(PdfReader reader) throws IOException { this.reader = reader; if (reader.partial) { refsp = new IntHashtable(); PdfNumber npages = (PdfNumber)PdfReader.getPdfObjectRelease(reader.rootPages.get(PdfName.COUNT)); sizep = npages.intValue(); } else { readPages(); } } PageRefs(PageRefs other, PdfReader reader) { this.reader = reader; this.sizep = other.sizep; if (other.refsn != null) { refsn = new ArrayList(other.refsn); for (int k = 0; k < refsn.size(); ++k) { refsn.set(k, duplicatePdfObject((PdfObject)refsn.get(k), reader)); } } else this.refsp = (IntHashtable)other.refsp.clone(); } int size() { if (refsn != null) return refsn.size(); else return sizep; } void readPages() throws IOException { if (refsn != null) return; refsp = null; refsn = new ArrayList(); pageInh = new ArrayList(); iteratePages((PRIndirectReference)reader.catalog.get(PdfName.PAGES)); pageInh = null; reader.rootPages.put(PdfName.COUNT, new PdfNumber(refsn.size())); } void reReadPages() throws IOException { refsn = null; readPages(); } /** Gets the dictionary that represents a page. * @param pageNum the page number. 1 is the first * @return the page dictionary */ public PdfDictionary getPageN(int pageNum) { PRIndirectReference ref = getPageOrigRef(pageNum); return (PdfDictionary)PdfReader.getPdfObject(ref); } /** * @param pageNum * @return a dictionary object */ public PdfDictionary getPageNRelease(int pageNum) { PdfDictionary page = getPageN(pageNum); releasePage(pageNum); return page; } /** * @param pageNum * @return an indirect reference */ public PRIndirectReference getPageOrigRefRelease(int pageNum) { PRIndirectReference ref = getPageOrigRef(pageNum); releasePage(pageNum); return ref; } /** Gets the page reference to this page. * @param pageNum the page number. 1 is the first * @return the page reference */ public PRIndirectReference getPageOrigRef(int pageNum) { try { --pageNum; if (pageNum < 0 || pageNum >= size()) return null; if (refsn != null) return (PRIndirectReference)refsn.get(pageNum); else { int n = refsp.get(pageNum); if (n == 0) { PRIndirectReference ref = getSinglePage(pageNum); if (reader.lastXrefPartial == -1) lastPageRead = -1; else lastPageRead = pageNum; reader.lastXrefPartial = -1; refsp.put(pageNum, ref.getNumber()); if (keepPages) lastPageRead = -1; return ref; } else { if (lastPageRead != pageNum) lastPageRead = -1; if (keepPages) lastPageRead = -1; return new PRIndirectReference(reader, n); } } } catch (Exception e) { throw new ExceptionConverter(e); } } void keepPages() { if (refsp == null || keepPages) return; keepPages = true; refsp.clear(); } /** * @param pageNum */ public void releasePage(int pageNum) { if (refsp == null) return; --pageNum; if (pageNum < 0 || pageNum >= size()) return; if (pageNum != lastPageRead) return; lastPageRead = -1; reader.lastXrefPartial = refsp.get(pageNum); reader.releaseLastXrefPartial(); refsp.remove(pageNum); } /** * */ public void resetReleasePage() { if (refsp == null) return; lastPageRead = -1; } void insertPage(int pageNum, PRIndirectReference ref) { --pageNum; if (refsn != null) { if (pageNum >= refsn.size()) refsn.add(ref); else refsn.add(pageNum, ref); } else { ++sizep; lastPageRead = -1; if (pageNum >= size()) { refsp.put(size(), ref.getNumber()); } else { IntHashtable refs2 = new IntHashtable((refsp.size() + 1) * 2); for (Iterator it = refsp.getEntryIterator(); it.hasNext();) { IntHashtable.Entry entry = (IntHashtable.Entry)it.next(); int p = entry.getKey(); refs2.put(p >= pageNum ? p + 1 : p, entry.getValue()); } refs2.put(pageNum, ref.getNumber()); refsp = refs2; } } } private void pushPageAttributes(PdfDictionary nodePages) { PdfDictionary dic = new PdfDictionary(); if (!pageInh.isEmpty()) { dic.putAll((PdfDictionary)pageInh.get(pageInh.size() - 1)); } for (int k = 0; k < pageInhCandidates.length; ++k) { PdfObject obj = nodePages.get(pageInhCandidates[k]); if (obj != null) dic.put(pageInhCandidates[k], obj); } pageInh.add(dic); } private void popPageAttributes() { pageInh.remove(pageInh.size() - 1); } private void iteratePages(PRIndirectReference rpage) throws IOException { PdfDictionary page = (PdfDictionary)getPdfObject(rpage); PdfArray kidsPR = page.getAsArray(PdfName.KIDS); if (kidsPR == null) { page.put(PdfName.TYPE, PdfName.PAGE); PdfDictionary dic = (PdfDictionary)pageInh.get(pageInh.size() - 1); PdfName key; for (Iterator i = dic.getKeys().iterator(); i.hasNext();) { key = (PdfName)i.next(); if (page.get(key) == null) page.put(key, dic.get(key)); } if (page.get(PdfName.MEDIABOX) == null) { PdfArray arr = new PdfArray(new float[]{0,0,PageSize.LETTER.getRight(),PageSize.LETTER.getTop()}); page.put(PdfName.MEDIABOX, arr); } refsn.add(rpage); } else { page.put(PdfName.TYPE, PdfName.PAGES); pushPageAttributes(page); for (int k = 0; k < kidsPR.size(); ++k){ PdfObject obj = kidsPR.getPdfObject(k); if (!obj.isIndirect()) { while (k < kidsPR.size()) kidsPR.remove(k); break; } iteratePages((PRIndirectReference)obj); } popPageAttributes(); } } protected PRIndirectReference getSinglePage(int n) { PdfDictionary acc = new PdfDictionary(); PdfDictionary top = reader.rootPages; int base = 0; while (true) { for (int k = 0; k < pageInhCandidates.length; ++k) { PdfObject obj = top.get(pageInhCandidates[k]); if (obj != null) acc.put(pageInhCandidates[k], obj); } PdfArray kids = (PdfArray)PdfReader.getPdfObjectRelease(top.get(PdfName.KIDS)); for (Iterator it = kids.listIterator(); it.hasNext();) { PRIndirectReference ref = (PRIndirectReference)it.next(); PdfDictionary dic = (PdfDictionary)getPdfObject(ref); int last = reader.lastXrefPartial; PdfObject count = getPdfObjectRelease(dic.get(PdfName.COUNT)); reader.lastXrefPartial = last; int acn = 1; if (count != null && count.type() == PdfObject.NUMBER) acn = ((PdfNumber)count).intValue(); if (n < base + acn) { if (count == null) { dic.mergeDifferent(acc); return ref; } reader.releaseLastXrefPartial(); top = dic; break; } reader.releaseLastXrefPartial(); base += acn; } } } private void selectPages(List pagesToKeep) { IntHashtable pg = new IntHashtable(); ArrayList finalPages = new ArrayList(); int psize = size(); for (Iterator it = pagesToKeep.iterator(); it.hasNext();) { Integer pi = (Integer)it.next(); int p = pi.intValue(); if (p >= 1 && p <= psize && pg.put(p, 1) == 0) finalPages.add(pi); } if (reader.partial) { for (int k = 1; k <= psize; ++k) { getPageOrigRef(k); resetReleasePage(); } } PRIndirectReference parent = (PRIndirectReference)reader.catalog.get(PdfName.PAGES); PdfDictionary topPages = (PdfDictionary)PdfReader.getPdfObject(parent); ArrayList newPageRefs = new ArrayList(finalPages.size()); PdfArray kids = new PdfArray(); for (int k = 0; k < finalPages.size(); ++k) { int p = ((Integer)finalPages.get(k)).intValue(); PRIndirectReference pref = getPageOrigRef(p); resetReleasePage(); kids.add(pref); newPageRefs.add(pref); getPageN(p).put(PdfName.PARENT, parent); } AcroFields af = reader.getAcroFields(); boolean removeFields = (af.getFields().size() > 0); for (int k = 1; k <= psize; ++k) { if (!pg.containsKey(k)) { if (removeFields) af.removeFieldsFromPage(k); PRIndirectReference pref = getPageOrigRef(k); int nref = pref.getNumber(); reader.xrefObj.set(nref, null); if (reader.partial) { reader.xref[nref * 2] = -1; reader.xref[nref * 2 + 1] = 0; } } } topPages.put(PdfName.COUNT, new PdfNumber(finalPages.size())); topPages.put(PdfName.KIDS, kids); refsp = null; refsn = newPageRefs; } } PdfIndirectReference getCryptoRef() { if (cryptoRef == null) return null; return new PdfIndirectReference(0, cryptoRef.getNumber(), cryptoRef.getGeneration()); } /** * Removes any usage rights that this PDF may have. Only Adobe can grant usage rights * and any PDF modification with iText will invalidate them. Invalidated usage rights may * confuse Acrobat and it's advisable to remove them altogether. */ public void removeUsageRights() { PdfDictionary perms = catalog.getAsDict(PdfName.PERMS); if (perms == null) return; perms.remove(PdfName.UR); perms.remove(PdfName.UR3); if (perms.size() == 0) catalog.remove(PdfName.PERMS); } /** * Gets the certification level for this document. The return values can bePdfSignatureAppearance.NOT_CERTIFIED
, *PdfSignatureAppearance.CERTIFIED_NO_CHANGES_ALLOWED
, *PdfSignatureAppearance.CERTIFIED_FORM_FILLING
and *PdfSignatureAppearance.CERTIFIED_FORM_FILLING_AND_ANNOTATIONS
. ** No signature validation is made, use the methods available for that in
* @return gets the certification level for this document */ public int getCertificationLevel() { PdfDictionary dic = catalog.getAsDict(PdfName.PERMS); if (dic == null) return PdfSignatureAppearance.NOT_CERTIFIED; dic = dic.getAsDict(PdfName.DOCMDP); if (dic == null) return PdfSignatureAppearance.NOT_CERTIFIED; PdfArray arr = dic.getAsArray(PdfName.REFERENCE); if (arr == null || arr.size() == 0) return PdfSignatureAppearance.NOT_CERTIFIED; dic = arr.getAsDict(0); if (dic == null) return PdfSignatureAppearance.NOT_CERTIFIED; dic = dic.getAsDict(PdfName.TRANSFORMPARAMS); if (dic == null) return PdfSignatureAppearance.NOT_CERTIFIED; PdfNumber p = dic.getAsNumber(PdfName.P); if (p == null) return PdfSignatureAppearance.NOT_CERTIFIED; return p.intValue(); } /** * Checks if the document was opened with the owner password so that the end application * can decide what level of access restrictions to apply. If the document is not encrypted * it will returnAcroFields
. *true
. * @returntrue
if the document was opened with the owner password or if it's not encrypted, *false
if the document was opened with the user password */ public final boolean isOpenedWithFullPermissions() { return !encrypted || ownerPasswordUsed; } public int getCryptoMode() { if (decrypt == null) return -1; else return decrypt.getCryptoMode(); } public boolean isMetadataEncrypted() { if (decrypt == null) return false; else return decrypt.isMetadataEncrypted(); } public byte[] computeUserPassword() { if (!encrypted || !ownerPasswordUsed) return null; return decrypt.computeUserPassword(password); } }