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/*
 * $Id: PdfSignatureAppearance.java 4065 2009-09-16 23:09:11Z psoares33 $
 *
 * Copyright 2004-2006 by 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:
 * https://github.com/LibrePDF/OpenPDF
 */
package com.lowagie.text.pdf;

import java.io.EOFException;
import java.io.File;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.io.RandomAccessFile;
import java.security.PrivateKey;
import java.security.cert.CRL;
import java.security.cert.Certificate;
import java.security.cert.X509Certificate;
import java.text.SimpleDateFormat;
import java.util.Arrays;
import java.util.Calendar;
import java.util.GregorianCalendar;
import java.util.HashMap;
import java.util.Map;

import com.lowagie.text.Chunk;
import com.lowagie.text.DocumentException;
import com.lowagie.text.Element;

import com.lowagie.text.Font;
import com.lowagie.text.Image;
import com.lowagie.text.Paragraph;
import com.lowagie.text.Phrase;
import com.lowagie.text.Rectangle;
import com.lowagie.text.error_messages.MessageLocalization;
import com.lowagie.text.ExceptionConverter;

/**
 * This class takes care of the cryptographic options and appearances that form
 * a signature.
 */
public class PdfSignatureAppearance {

  /**
   * The rendering mode is just the description
   */
  public static final int SignatureRenderDescription = 0;
  /**
   * The rendering mode is the name of the signer and the description
   */
  public static final int SignatureRenderNameAndDescription = 1;
  /**
   * The rendering mode is an image and the description
   */
  public static final int SignatureRenderGraphicAndDescription = 2;

  /**
   * The self signed filter.
   */
  public static final PdfName SELF_SIGNED = PdfName.ADOBE_PPKLITE;
  /**
   * The VeriSign filter.
   */
  public static final PdfName VERISIGN_SIGNED = PdfName.VERISIGN_PPKVS;
  /**
   * The Windows Certificate Security.
   */
  public static final PdfName WINCER_SIGNED = PdfName.ADOBE_PPKMS;

  public static final int NOT_CERTIFIED = 0;
  public static final int CERTIFIED_NO_CHANGES_ALLOWED = 1;
  public static final int CERTIFIED_FORM_FILLING = 2;
  public static final int CERTIFIED_FORM_FILLING_AND_ANNOTATIONS = 3;

  private static final float TOP_SECTION = 0.3f;
  private static final float MARGIN = 2;
  private Rectangle rect;
  private Rectangle pageRect;
  private final PdfTemplate[] app = new PdfTemplate[5];
  private PdfTemplate frm;
  private final PdfStamperImp writer;
  private String layer2Text;
  private String reason;
  private String location;
  private Calendar signDate;
  private String provider;
  private int page = 1;
  private String fieldName;
  private PrivateKey privKey;
  private CRL[] crlList;
  private PdfName filter;
  private boolean newField;
  private ByteBuffer sigout;
  private OutputStream originalout;
  private File tempFile;
  private PdfDictionary cryptoDictionary;
  private PdfStamper stamper;
  private boolean preClosed = false;
  private PdfSigGenericPKCS sigStandard;
  private long[] range;
  private RandomAccessFile raf;
  private byte[] bout;
  private int boutLen;
  private byte[] externalDigest;
  private byte[] externalRSAdata;
  private String digestEncryptionAlgorithm;
  private Map exclusionLocations;

  private Certificate[] certChain;

  // ******************************************************************************

  PdfSignatureAppearance(PdfStamperImp writer) {
    this.writer = writer;
    signDate = new GregorianCalendar();
    fieldName = getNewSigName();
  }

  private int render = SignatureRenderDescription;

  /**
   * Gets the rendering mode for this signature.
   * 
   * @return the rendering mode for this signature
   */
  public int getRender() {
    return render;
  }

  /**
   * Sets the rendering mode for this signature. The rendering modes can be the
   * constants SignatureRenderDescription,
   * SignatureRenderNameAndDescription or
   * SignatureRenderGraphicAndDescription. The two last modes
   * should be used with Acrobat 6 layer type.
   * 
   * @param render
   *          the render mode
   */
  public void setRender(int render) {
    this.render = render;
  }

  private Image signatureGraphic = null;

  /**
   * Gets the Image object to render.
   * 
   * @return the image
   */
  public Image getSignatureGraphic() {
    return signatureGraphic;
  }

  /**
   * Sets the Image object to render when Render is set to
   * SignatureRenderGraphicAndDescription
   * 
   * @param signatureGraphic
   *          image rendered. If null the mode is defaulted to
   *          SignatureRenderDescription
   */
  public void setSignatureGraphic(Image signatureGraphic) {
    this.signatureGraphic = signatureGraphic;
  }

  /**
   * Sets the signature text identifying the signer.
   * 
   * @param text
   *          the signature text identifying the signer. If null or
   *          not set a standard description will be used
   */
  public void setLayer2Text(String text) {
    layer2Text = text;
  }

  /**
   * Gets the signature text identifying the signer if set by setLayer2Text().
   * 
   * @return the signature text identifying the signer
   */
  public String getLayer2Text() {
    return layer2Text;
  }

  /**
   * Sets the text identifying the signature status.
   * 
   * @param text
   *          the text identifying the signature status. If null or
   *          not set the description "Signature Not Verified" will be used
   */
  public void setLayer4Text(String text) {
    layer4Text = text;
  }

  /**
   * Gets the text identifying the signature status if set by setLayer4Text().
   * 
   * @return the text identifying the signature status
   */
  public String getLayer4Text() {
    return layer4Text;
  }

  /**
   * Gets the rectangle representing the signature dimensions.
   * 
   * @return the rectangle representing the signature dimensions. It may be
   *         null or have zero width or height for invisible
   *         signatures
   */
  public Rectangle getRect() {
    return rect;
  }

  /**
   * Gets the visibility status of the signature.
   * 
   * @return the visibility status of the signature
   */
  public boolean isInvisible() {
    return (rect == null || rect.getWidth() == 0 || rect.getHeight() == 0);
  }

  /**
   * Sets the cryptographic parameters.
   * 
   * @param privKey
   *          the private key
   * @param certificate
   *          the certificate
   * @param crl
   *          the certificate revocation list. It may be null
   * @param filter
   *          the cryptographic filter type. It can be SELF_SIGNED,
   *          VERISIGN_SIGNED or WINCER_SIGNED
   */
  public void setCrypto(PrivateKey privKey, X509Certificate certificate,
      CRL crl, PdfName filter) {
    this.privKey = privKey;
    if (certificate == null)
        throw new IllegalArgumentException("Null certificate not allowed");
    this.certChain = new Certificate[1];
    this.certChain[0] = certificate;
    if (crl != null) {
        this.crlList = new CRL[1];
        this.crlList[0] = crl;        
    }
    this.filter = filter;
  }

  /**
   * Sets the cryptographic parameters.
   * @param privKey the private key
   * @param certChain the certification chain
   * @param crlList the crl list
   * @param filter the PdfName
   */
  public void setCrypto(PrivateKey privKey, Certificate[] certChain, CRL[] crlList, PdfName filter) {
      this.privKey = privKey;
      this.certChain = certChain;
      this.crlList = crlList;
      this.filter = filter;
  }

  // OJO... Modificacion de
  // flopez-------------------------------------------------
  public void setVisibleSignature(Rectangle pageRect, int page) {
    setVisibleSignature(pageRect, page, getNewSigName());
  }

  // ******************************************************************************

  /**
   * Sets the signature to be visible. It creates a new visible signature field.
   * 
   * @param pageRect
   *          the position and dimension of the field in the page
   * @param page
   *          the page to place the field. The fist page is 1
   * @param fieldName
   *          the field name or null to generate automatically a
   *          new field name
   */
  public void setVisibleSignature(Rectangle pageRect, int page, String fieldName) {
    if (fieldName != null) {
      if (fieldName.indexOf('.') >= 0)
        throw new IllegalArgumentException(
            MessageLocalization
                .getComposedMessage("field.names.cannot.contain.a.dot"));
      AcroFields af = writer.getAcroFields();
      AcroFields.Item item = af.getFieldItem(fieldName);
      if (item != null)
        throw new IllegalArgumentException(
            MessageLocalization.getComposedMessage(
                "the.field.1.already.exists", fieldName));
      this.fieldName = fieldName;
    }
    // OJO... Modificacion de
    // flopez--------------------------------------------------
    // if (page < 1 || page > writer.reader.getNumberOfPages())
    if (page < 0 || page > writer.reader.getNumberOfPages())
      throw new IllegalArgumentException(
          MessageLocalization.getComposedMessage("invalid.page.number.1", page));
    // ******************************************************************************
    this.pageRect = new Rectangle(pageRect);
    this.pageRect.normalize();
    rect = new Rectangle(this.pageRect.getWidth(), this.pageRect.getHeight());
    this.page = page;
    newField = true;
  }

  /**
   * Sets the signature to be visible. An empty signature field with the same
   * name must already exist.
   * 
   * @param fieldName
   *          the existing empty signature field name
   */
  public void setVisibleSignature(String fieldName) {
    AcroFields af = writer.getAcroFields();
    AcroFields.Item item = af.getFieldItem(fieldName);
    if (item == null)
      throw new IllegalArgumentException(
          MessageLocalization.getComposedMessage("the.field.1.does.not.exist",
              fieldName));
    PdfDictionary merged = item.getMerged(0);
    if (!PdfName.SIG.equals(PdfReader.getPdfObject(merged.get(PdfName.FT))))
      throw new IllegalArgumentException(
          MessageLocalization.getComposedMessage(
              "the.field.1.is.not.a.signature.field", fieldName));
    this.fieldName = fieldName;
    PdfArray r = merged.getAsArray(PdfName.RECT);
    float llx = r.getAsNumber(0).floatValue();
    float lly = r.getAsNumber(1).floatValue();
    float urx = r.getAsNumber(2).floatValue();
    float ury = r.getAsNumber(3).floatValue();
    pageRect = new Rectangle(llx, lly, urx, ury);
    pageRect.normalize();
    page = item.getPage(0);
    int rotation = writer.reader.getPageRotation(page);
    Rectangle pageSize = writer.reader.getPageSizeWithRotation(page);
    switch (rotation) {
    case 90:
      pageRect = new Rectangle(pageRect.getBottom(), pageSize.getTop()
          - pageRect.getLeft(), pageRect.getTop(), pageSize.getTop()
          - pageRect.getRight());
      break;
    case 180:
      pageRect = new Rectangle(pageSize.getRight() - pageRect.getLeft(),
          pageSize.getTop() - pageRect.getBottom(), pageSize.getRight()
              - pageRect.getRight(), pageSize.getTop() - pageRect.getTop());
      break;
    case 270:
      pageRect = new Rectangle(pageSize.getRight() - pageRect.getBottom(),
          pageRect.getLeft(), pageSize.getRight() - pageRect.getTop(),
          pageRect.getRight());
      break;
    }
    if (rotation != 0)
      pageRect.normalize();
    rect = new Rectangle(this.pageRect.getWidth(), this.pageRect.getHeight());
  }

  /**
   * Gets a template layer to create a signature appearance. The layers can go
   * from 0 to 4.
   * 

* Consult PPKAppearances.pdf for further details. * * @param layer * the layer * @return a template */ public PdfTemplate getLayer(int layer) { if (layer < 0 || layer >= app.length) return null; PdfTemplate t = app[layer]; if (t == null) { t = app[layer] = new PdfTemplate(writer); t.setBoundingBox(rect); writer.addDirectTemplateSimple(t, new PdfName("n" + layer)); } return t; } /** * Gets the template that aggregates all appearance layers. This corresponds * to the /FRM resource. *

* Consult PPKAppearances.pdf for further details. * * @return the template that aggregates all appearance layers */ public PdfTemplate getTopLayer() { if (frm == null) { frm = new PdfTemplate(writer); frm.setBoundingBox(rect); writer.addDirectTemplateSimple(frm, new PdfName("FRM")); } return frm; } /** * Gets the main appearance layer. *

* Consult PPKAppearances.pdf for further details. * * @return the main appearance layer * @throws DocumentException * on error */ public PdfTemplate getAppearance() throws DocumentException { if (isInvisible()) { PdfTemplate t = new PdfTemplate(writer); t.setBoundingBox(new Rectangle(0, 0)); writer.addDirectTemplateSimple(t, null); return t; } if (app[0] == null) { PdfTemplate t = app[0] = new PdfTemplate(writer); t.setBoundingBox(new Rectangle(100, 100)); writer.addDirectTemplateSimple(t, new PdfName("n0")); t.setLiteral("% DSBlank\n"); } if (app[1] == null && !acro6Layers) { PdfTemplate t = app[1] = new PdfTemplate(writer); t.setBoundingBox(new Rectangle(100, 100)); writer.addDirectTemplateSimple(t, new PdfName("n1")); t.setLiteral(questionMark); } if (app[2] == null) { String text; if (layer2Text == null) { StringBuilder buf = new StringBuilder(); buf.append("Digitally signed by ") .append(PdfPKCS7.getSubjectFields((X509Certificate) certChain[0]).getField("CN")) .append('\n'); SimpleDateFormat sd = new SimpleDateFormat("yyyy.MM.dd HH:mm:ss z"); buf.append("Date: ").append(sd.format(signDate.getTime())); if (reason != null) buf.append('\n').append("Reason: ").append(reason); if (location != null) buf.append('\n').append("Location: ").append(location); text = buf.toString(); } else text = layer2Text; PdfTemplate t = app[2] = new PdfTemplate(writer); t.setBoundingBox(rect); writer.addDirectTemplateSimple(t, new PdfName("n2")); if (image != null) { if (imageScale == 0) { t.addImage(image, rect.getWidth(), 0, 0, rect.getHeight(), 0, 0); } else { float usableScale = imageScale; if (imageScale < 0) usableScale = Math.min(rect.getWidth() / image.getWidth(), rect.getHeight() / image.getHeight()); float w = image.getWidth() * usableScale; float h = image.getHeight() * usableScale; float x = (rect.getWidth() - w) / 2; float y = (rect.getHeight() - h) / 2; t.addImage(image, w, 0, 0, h, x, y); } } Font font; if (layer2Font == null) font = new Font(); else font = new Font(layer2Font); float size = font.getSize(); Rectangle dataRect = null; Rectangle signatureRect = null; if (render == SignatureRenderNameAndDescription || (render == SignatureRenderGraphicAndDescription && this.signatureGraphic != null)) { // origin is the bottom-left signatureRect = new Rectangle(MARGIN, MARGIN, rect.getWidth() / 2 - MARGIN, rect.getHeight() - MARGIN); dataRect = new Rectangle(rect.getWidth() / 2 + MARGIN / 2, MARGIN, rect.getWidth() - MARGIN / 2, rect.getHeight() - MARGIN); if (rect.getHeight() > rect.getWidth()) { signatureRect = new Rectangle(MARGIN, rect.getHeight() / 2, rect.getWidth() - MARGIN, rect.getHeight()); dataRect = new Rectangle(MARGIN, MARGIN, rect.getWidth() - MARGIN, rect.getHeight() / 2 - MARGIN); } } else { dataRect = new Rectangle(MARGIN, MARGIN, rect.getWidth() - MARGIN, rect.getHeight() * (1 - TOP_SECTION) - MARGIN); } if (render == SignatureRenderNameAndDescription) { String signedBy = PdfPKCS7.getSubjectFields((X509Certificate) certChain[0]).getField("CN"); Rectangle sr2 = new Rectangle(signatureRect.getWidth() - MARGIN, signatureRect.getHeight() - MARGIN); float signedSize = fitText(font, signedBy, sr2, -1, runDirection); ColumnText ct2 = new ColumnText(t); ct2.setRunDirection(runDirection); ct2.setSimpleColumn(new Phrase(signedBy, font), signatureRect.getLeft(), signatureRect.getBottom(), signatureRect.getRight(), signatureRect.getTop(), signedSize, Element.ALIGN_LEFT); ct2.go(); } else if (render == SignatureRenderGraphicAndDescription) { ColumnText ct2 = new ColumnText(t); ct2.setRunDirection(runDirection); ct2.setSimpleColumn(signatureRect.getLeft(), signatureRect.getBottom(), signatureRect.getRight(), signatureRect.getTop(), 0, Element.ALIGN_RIGHT); Image im = Image.getInstance(signatureGraphic); im.scaleToFit(signatureRect.getWidth(), signatureRect.getHeight()); Paragraph p = new Paragraph(); // must calculate the point to draw from to make image appear in middle // of column float x = 0; // experimentation found this magic number to counteract Adobe's // signature graphic, which // offsets the y co-ordinate by 15 units float y = -im.getScaledHeight() + 15; x = x + (signatureRect.getWidth() - im.getScaledWidth()) / 2; y = y - (signatureRect.getHeight() - im.getScaledHeight()) / 2; p.add(new Chunk(im, x + (signatureRect.getWidth() - im.getScaledWidth()) / 2, y, false)); ct2.addElement(p); ct2.go(); } if (size <= 0) { Rectangle sr = new Rectangle(dataRect.getWidth(), dataRect.getHeight()); size = fitText(font, text, sr, 12, runDirection); } ColumnText ct = new ColumnText(t); ct.setRunDirection(runDirection); ct.setSimpleColumn(new Phrase(text, font), dataRect.getLeft(), dataRect.getBottom(), dataRect.getRight(), dataRect.getTop(), size, Element.ALIGN_LEFT); ct.go(); } if (app[3] == null && !acro6Layers) { PdfTemplate t = app[3] = new PdfTemplate(writer); t.setBoundingBox(new Rectangle(100, 100)); writer.addDirectTemplateSimple(t, new PdfName("n3")); t.setLiteral("% DSBlank\n"); } if (app[4] == null && !acro6Layers) { PdfTemplate t = app[4] = new PdfTemplate(writer); t.setBoundingBox(new Rectangle(0, rect.getHeight() * (1 - TOP_SECTION), rect.getRight(), rect.getTop())); writer.addDirectTemplateSimple(t, new PdfName("n4")); Font font; if (layer2Font == null) font = new Font(); else font = new Font(layer2Font); float size = font.getSize(); String text = "Signature Not Verified"; if (layer4Text != null) text = layer4Text; Rectangle sr = new Rectangle(rect.getWidth() - 2 * MARGIN, rect.getHeight() * TOP_SECTION - 2 * MARGIN); size = fitText(font, text, sr, 15, runDirection); ColumnText ct = new ColumnText(t); ct.setRunDirection(runDirection); ct.setSimpleColumn(new Phrase(text, font), MARGIN, 0, rect.getWidth() - MARGIN, rect.getHeight() - MARGIN, size, Element.ALIGN_LEFT); ct.go(); } int rotation = writer.reader.getPageRotation(page); Rectangle rotated = new Rectangle(rect); int n = rotation; while (n > 0) { rotated = rotated.rotate(); n -= 90; } if (frm == null) { frm = new PdfTemplate(writer); frm.setBoundingBox(rotated); writer.addDirectTemplateSimple(frm, new PdfName("FRM")); float scale = Math.min(rect.getWidth(), rect.getHeight()) * 0.9f; float x = (rect.getWidth() - scale) / 2; float y = (rect.getHeight() - scale) / 2; scale /= 100; if (rotation == 90) frm.concatCTM(0, 1, -1, 0, rect.getHeight(), 0); else if (rotation == 180) frm.concatCTM(-1, 0, 0, -1, rect.getWidth(), rect.getHeight()); else if (rotation == 270) frm.concatCTM(0, -1, 1, 0, 0, rect.getWidth()); frm.addTemplate(app[0], 0, 0); if (!acro6Layers) frm.addTemplate(app[1], scale, 0, 0, scale, x, y); frm.addTemplate(app[2], 0, 0); if (!acro6Layers) { frm.addTemplate(app[3], scale, 0, 0, scale, x, y); frm.addTemplate(app[4], 0, 0); } } PdfTemplate napp = new PdfTemplate(writer); napp.setBoundingBox(rotated); writer.addDirectTemplateSimple(napp, null); napp.addTemplate(frm, 0, 0); return napp; } /** * Fits the text to some rectangle adjusting the font size as needed. * * @param font * the font to use * @param text * the text * @param rect * the rectangle where the text must fit * @param maxFontSize * the maximum font size * @param runDirection * the run direction * @return the calculated font size that makes the text fit */ public static float fitText(Font font, String text, Rectangle rect, float maxFontSize, int runDirection) { try { ColumnText ct = null; int status = 0; if (maxFontSize <= 0) { int cr = 0; int lf = 0; char[] t = text.toCharArray(); for (char c : t) { if (c == '\n') ++lf; else if (c == '\r') ++cr; } int minLines = Math.max(cr, lf) + 1; maxFontSize = Math.abs(rect.getHeight()) / minLines - 0.001f; } font.setSize(maxFontSize); Phrase ph = new Phrase(text, font); ct = new ColumnText(null); ct.setSimpleColumn(ph, rect.getLeft(), rect.getBottom(), rect.getRight(), rect.getTop(), maxFontSize, Element.ALIGN_LEFT); ct.setRunDirection(runDirection); status = ct.go(true); if ((status & ColumnText.NO_MORE_TEXT) != 0) return maxFontSize; float precision = 0.1f; float min = 0; float max = maxFontSize; float size = maxFontSize; for (int k = 0; k < 50; ++k) { // just in case it doesn't converge size = (min + max) / 2; ct = new ColumnText(null); font.setSize(size); ct.setSimpleColumn(new Phrase(text, font), rect.getLeft(), rect.getBottom(), rect.getRight(), rect.getTop(), size, Element.ALIGN_LEFT); ct.setRunDirection(runDirection); status = ct.go(true); if ((status & ColumnText.NO_MORE_TEXT) != 0) { if (max - min < size * precision) return size; min = size; } else max = size; } return size; } catch (Exception e) { throw new ExceptionConverter(e); } } /** * Sets the digest/signature to an external calculated value. * * @param digest * the digest. This is the actual signature * @param RSAdata * the extra data that goes into the data tag in PKCS#7 * @param digestEncryptionAlgorithm * the encryption algorithm. It may must be null if the * digest is also null. If the * digest is not null then it may be "RSA" * or "DSA" */ public void setExternalDigest(byte[] digest, byte[] RSAdata, String digestEncryptionAlgorithm) { externalDigest = digest; externalRSAdata = RSAdata; this.digestEncryptionAlgorithm = digestEncryptionAlgorithm; } /** * Gets the signing reason. * * @return the signing reason */ public String getReason() { return this.reason; } /** * Sets the signing reason. * * @param reason * the signing reason */ public void setReason(String reason) { this.reason = reason; } /** * Gets the signing location. * * @return the signing location */ public String getLocation() { return this.location; } /** * Sets the signing location. * * @param location * the signing location */ public void setLocation(String location) { this.location = location; } /** * Returns the Cryptographic Service Provider that will sign the document. * * @return provider the name of the provider, for example "SUN", or * null to use the default provider. */ public String getProvider() { return this.provider; } /** * Sets the Cryptographic Service Provider that will sign the document. * * @param provider * the name of the provider, for example "SUN", or null * to use the default provider. */ public void setProvider(String provider) { this.provider = provider; } /** * Gets the private key. * * @return the private key */ public java.security.PrivateKey getPrivKey() { return privKey; } /** * Gets the certificate revocation list. * * @return the certificate revocation list */ public java.security.cert.CRL[] getCrlList() { return this.crlList; } /** * Gets the filter used to sign the document. * * @return the filter used to sign the document */ public com.lowagie.text.pdf.PdfName getFilter() { return filter; } /** * Checks if a new field was created. * * @return true if a new field was created, false if * signing an existing field or if the signature is invisible */ public boolean isNewField() { return this.newField; } /** * Gets the page number of the field. * * @return the page number of the field */ public int getPage() { return page; } /** * Gets the field name. * * @return the field name */ public java.lang.String getFieldName() { return fieldName; } /** * Gets the rectangle that represent the position and dimension of the * signature in the page. * * @return the rectangle that represent the position and dimension of the * signature in the page */ public com.lowagie.text.Rectangle getPageRect() { return pageRect; } /** * Gets the signature date. * * @return the signature date */ public java.util.Calendar getSignDate() { return signDate; } /** * Sets the signature date. * * @param signDate * the signature date */ public void setSignDate(java.util.Calendar signDate) { this.signDate = signDate; } com.lowagie.text.pdf.ByteBuffer getSigout() { return sigout; } void setSigout(com.lowagie.text.pdf.ByteBuffer sigout) { this.sigout = sigout; } java.io.OutputStream getOriginalout() { return originalout; } void setOriginalout(java.io.OutputStream originalout) { this.originalout = originalout; } /** * Gets the temporary file. * * @return the temporary file or null is the document is created * in memory */ public java.io.File getTempFile() { return tempFile; } void setTempFile(java.io.File tempFile) { this.tempFile = tempFile; } /** * Gets a new signature fied name that doesn't clash with any existing name. * * @return a new signature fied name */ public final String getNewSigName() { AcroFields af = writer.getAcroFields(); String name = "Signature"; int step = 0; boolean found = false; while (!found) { ++step; String n1 = name + step; if (af.getFieldItem(n1) != null) continue; n1 += "."; found = true; for (String fn : af.getAllFields().keySet()) { if (fn.startsWith(n1)) { found = false; break; } } } name += step; return name; } /** * This is the first method to be called when using external signatures. The * general sequence is: preClose(), getDocumentBytes() and close(). *

* If calling preClose() dont't call PdfStamper.close(). *

* No external signatures are allowed if this method is called. * * @throws IOException * on error * @throws DocumentException * on error */ public void preClose() throws IOException, DocumentException { preClose(null); } /** * This is the first method to be called when using external signatures. The * general sequence is: preClose(), getDocumentBytes() and close(). *

* If calling preClose() dont't call PdfStamper.close(). *

* If using an external signature exclusionSizes must contain at * least the PdfName.CONTENTS key with the size that it will take * in the document. Note that due to the hex string coding this size should be * byte_size*2+2. * * @param exclusionSizes * a HashMap with names and sizes to be excluded in the * signature calculation. The key is a PdfName and the * value an Integer. At least the * PdfName.CONTENTS must be present * @throws IOException * on error * @throws DocumentException * on error */ public void preClose(Map exclusionSizes) throws IOException, DocumentException { if (preClosed) throw new DocumentException( MessageLocalization.getComposedMessage("document.already.pre.closed")); preClosed = true; AcroFields af = writer.getAcroFields(); String name = getFieldName(); boolean fieldExists = !(isInvisible() || isNewField()); PdfIndirectReference refSig = writer.getPdfIndirectReference(); writer.setSigFlags(3); if (fieldExists) { PdfDictionary widget = af.getFieldItem(name).getWidget(0); writer.markUsed(widget); widget.put(PdfName.P, writer.getPageReference(getPage())); widget.put(PdfName.V, refSig); PdfObject obj = PdfReader.getPdfObjectRelease(widget.get(PdfName.F)); int flags = 0; if (obj != null && obj.isNumber()) flags = ((PdfNumber) obj).intValue(); flags |= PdfAnnotation.FLAGS_LOCKED; widget.put(PdfName.F, new PdfNumber(flags)); PdfDictionary ap = new PdfDictionary(); ap.put(PdfName.N, getAppearance().getIndirectReference()); widget.put(PdfName.AP, ap); } else { PdfFormField sigField = PdfFormField.createSignature(writer); sigField.setFieldName(name); sigField.put(PdfName.V, refSig); sigField.setFlags(PdfAnnotation.FLAGS_PRINT | PdfAnnotation.FLAGS_LOCKED); int pagen = getPage(); // OJO... Modificacion de // flopez----------------------------------------------------- // if (!isInvisible()) // sigField.setWidget(getPageRect(), null); // else // sigField.setWidget(new Rectangle(0, 0), null); if ((!isInvisible()) && (pagen == 0)) { // Si pagina en cero tonces firma // en todas las paginas int pages = writer.reader.getNumberOfPages(); for (int i = 1; i <= pages; i++) { PdfFormField field = PdfFormField.createEmpty(writer); this.page = i; pagen = i; field.setWidget(getPageRect(), null); field.setAppearance(PdfAnnotation.APPEARANCE_NORMAL, getAppearance()); field.setPlaceInPage(i); field.setPage(i); field.setFlags(PdfAnnotation.FLAGS_PRINT); sigField.addKid(field); field = null; } } else if (!isInvisible()) // Si es una pagina especifica sigField.setWidget(getPageRect(), null); else sigField.setWidget(new Rectangle(0, 0), null); // ****************************************************************************** sigField.setAppearance(PdfAnnotation.APPEARANCE_NORMAL, getAppearance()); sigField.setPage(pagen); writer.addAnnotation(sigField, pagen); } exclusionLocations = new HashMap<>(); if (cryptoDictionary == null) { if (PdfName.ADOBE_PPKLITE.equals(getFilter())) sigStandard = new PdfSigGenericPKCS.PPKLite(getProvider()); else if (PdfName.ADOBE_PPKMS.equals(getFilter())) sigStandard = new PdfSigGenericPKCS.PPKMS(getProvider()); else if (PdfName.VERISIGN_PPKVS.equals(getFilter())) sigStandard = new PdfSigGenericPKCS.VeriSign(getProvider()); else throw new IllegalArgumentException( MessageLocalization.getComposedMessage("unknown.filter.1", getFilter())); sigStandard.setExternalDigest(externalDigest, externalRSAdata, digestEncryptionAlgorithm); if (getReason() != null) sigStandard.setReason(getReason()); if (getLocation() != null) sigStandard.setLocation(getLocation()); if (getContact() != null) sigStandard.setContact(getContact()); sigStandard.put(PdfName.M, new PdfDate(getSignDate())); sigStandard.setSignInfo(getPrivKey(), certChain, crlList); // ****************************************************************************** PdfString contents = (PdfString) sigStandard.get(PdfName.CONTENTS); PdfLiteral lit = new PdfLiteral( (contents.toString().length() + (PdfName.ADOBE_PPKLITE .equals(getFilter()) ? 0 : 64)) * 2 + 2); exclusionLocations.put(PdfName.CONTENTS, lit); sigStandard.put(PdfName.CONTENTS, lit); lit = new PdfLiteral(80); exclusionLocations.put(PdfName.BYTERANGE, lit); sigStandard.put(PdfName.BYTERANGE, lit); if (certificationLevel > 0) { addDocMDP(sigStandard); } if (signatureEvent != null) signatureEvent.getSignatureDictionary(sigStandard); writer.addToBody(sigStandard, refSig, false); } else { PdfLiteral lit = new PdfLiteral(80); exclusionLocations.put(PdfName.BYTERANGE, lit); cryptoDictionary.put(PdfName.BYTERANGE, lit); for (Object o : exclusionSizes.entrySet()) { Map.Entry entry = (Map.Entry) o; PdfName key = (PdfName) entry.getKey(); Integer v = (Integer) entry.getValue(); lit = new PdfLiteral(v); exclusionLocations.put(key, lit); cryptoDictionary.put(key, lit); } if (certificationLevel > 0) addDocMDP(cryptoDictionary); if (signatureEvent != null) signatureEvent.getSignatureDictionary(cryptoDictionary); writer.addToBody(cryptoDictionary, refSig, false); } if (certificationLevel > 0) { // add DocMDP entry to root PdfDictionary docmdp = new PdfDictionary(); docmdp.put(new PdfName("DocMDP"), refSig); writer.reader.getCatalog().put(new PdfName("Perms"), docmdp); } writer.close(stamper.getInfoDictionary()); range = new long[exclusionLocations.size() * 2]; long byteRangePosition = exclusionLocations .get(PdfName.BYTERANGE).getPosition(); exclusionLocations.remove(PdfName.BYTERANGE); int idx = 1; for (Object o : exclusionLocations.values()) { PdfLiteral lit = (PdfLiteral) o; long n = lit.getPosition(); range[idx++] = n; range[idx++] = lit.getPosLength() + n; } Arrays.sort(range, 1, range.length - 1); for (int k = 3; k < range.length - 2; k += 2) range[k] -= range[k - 1]; if (tempFile == null) { bout = sigout.getBuffer(); boutLen = sigout.size(); range[range.length - 1] = boutLen - range[range.length - 2]; ByteBuffer bf = new ByteBuffer(); bf.append('['); for (long i : range) bf.append(i).append(' '); bf.append(']'); System.arraycopy(bf.getBuffer(), 0, bout, (int) byteRangePosition, bf.size()); } else { try { raf = new RandomAccessFile(tempFile, "rw"); long boutL = raf.length(); range[range.length - 1] = boutL - range[range.length - 2]; ByteBuffer bf = new ByteBuffer(); bf.append('['); for (long i : range) bf.append(i).append(' '); bf.append(']'); raf.seek(byteRangePosition); raf.write(bf.getBuffer(), 0, bf.size()); } catch (IOException e) { try { raf.close(); } catch (Exception ee) { } try { tempFile.delete(); } catch (Exception ee) { } throw e; } } } /** * This is the last method to be called when using external signatures. The * general sequence is: preClose(), getDocumentBytes() and close(). *

* update is a PdfDictionary that must have exactly * the same keys as the ones provided in {@link PdfSignatureAppearance#preClose(Map)}. * * @param update * a PdfDictionary with the key/value that will fill the * holes defined in {@link PdfSignatureAppearance#preClose(Map)} * @throws DocumentException * on error * @throws IOException * on error */ public void close(PdfDictionary update) throws IOException, DocumentException { try { if (!preClosed) throw new DocumentException( MessageLocalization .getComposedMessage("preclose.must.be.called.first")); ByteBuffer bf = new ByteBuffer(); for (PdfName key : update.getKeys()) { PdfObject obj = update.get(key); PdfLiteral lit = exclusionLocations.get(key); if (lit == null) throw new IllegalArgumentException( MessageLocalization.getComposedMessage( "the.key.1.didn.t.reserve.space.in.preclose", key.toString())); bf.reset(); obj.toPdf(null, bf); if (bf.size() > lit.getPosLength()) throw new IllegalArgumentException( MessageLocalization.getComposedMessage( "the.key.1.is.too.big.is.2.reserved.3", key.toString(), String.valueOf(bf.size()), String.valueOf(lit.getPosLength()))); if (tempFile == null) System.arraycopy(bf.getBuffer(), 0, bout, (int) lit.getPosition(), bf.size()); else { raf.seek(lit.getPosition()); raf.write(bf.getBuffer(), 0, bf.size()); } } if (update.size() != exclusionLocations.size()) throw new IllegalArgumentException( MessageLocalization .getComposedMessage("the.update.dictionary.has.less.keys.than.required")); if (tempFile == null) { originalout.write(bout, 0, boutLen); } else { if (originalout != null) { raf.seek(0); long length = raf.length(); byte[] buf = new byte[8192]; while (length > 0) { int r = raf.read(buf, 0, (int) Math.min(buf.length, length)); if (r < 0) throw new EOFException( MessageLocalization.getComposedMessage("unexpected.eof")); originalout.write(buf, 0, r); length -= r; } } } } finally { if (tempFile != null) { try { raf.close(); } catch (Exception ee) { } if (originalout != null) try { tempFile.delete(); } catch (Exception ee) { } } if (originalout != null) try { originalout.close(); } catch (Exception e) { } } } private void addDocMDP(PdfDictionary crypto) { PdfDictionary reference = new PdfDictionary(); PdfDictionary transformParams = new PdfDictionary(); transformParams.put(PdfName.P, new PdfNumber(certificationLevel)); transformParams.put(PdfName.V, new PdfName("1.2")); transformParams.put(PdfName.TYPE, PdfName.TRANSFORMPARAMS); reference.put(PdfName.TRANSFORMMETHOD, PdfName.DOCMDP); reference.put(PdfName.TYPE, PdfName.SIGREF); reference.put(PdfName.TRANSFORMPARAMS, transformParams); reference.put(new PdfName("DigestValue"), new PdfString("aa")); PdfArray loc = new PdfArray(); loc.add(new PdfNumber(0)); loc.add(new PdfNumber(0)); reference.put(new PdfName("DigestLocation"), loc); reference.put(new PdfName("DigestMethod"), new PdfName("MD5")); reference.put(PdfName.DATA, writer.reader.getTrailer().get(PdfName.ROOT)); PdfArray types = new PdfArray(); types.add(reference); crypto.put(PdfName.REFERENCE, types); } /** * Gets the document bytes that are hashable when using external signatures. * The general sequence is: preClose(), getRangeStream() and close(). *

* * @return the document bytes that are hashable */ public InputStream getRangeStream() { return new PdfSignatureAppearance.RangeStream(raf, bout, range); } /** * Gets the user made signature dictionary. This is the dictionary at the /V * key. * * @return the user made signature dictionary */ public com.lowagie.text.pdf.PdfDictionary getCryptoDictionary() { return cryptoDictionary; } /** * Sets a user made signature dictionary. This is the dictionary at the /V * key. * * @param cryptoDictionary * a user made signature dictionary */ public void setCryptoDictionary( com.lowagie.text.pdf.PdfDictionary cryptoDictionary) { this.cryptoDictionary = cryptoDictionary; } /** * Gets the PdfStamper associated with this instance. * * @return the PdfStamper associated with this instance */ public com.lowagie.text.pdf.PdfStamper getStamper() { return stamper; } void setStamper(com.lowagie.text.pdf.PdfStamper stamper) { this.stamper = stamper; } /** * Checks if the document is in the process of closing. * * @return true if the document is in the process of closing, * false otherwise */ public boolean isPreClosed() { return preClosed; } /** * Gets the instance of the standard signature dictionary. This instance is * only available after pre close. *

* The main use is to insert external signatures. * * @return the instance of the standard signature dictionary */ public com.lowagie.text.pdf.PdfSigGenericPKCS getSigStandard() { return sigStandard; } /** * Gets the signing contact. * * @return the signing contact */ public String getContact() { return this.contact; } /** * Sets the signing contact. * * @param contact * the signing contact */ public void setContact(String contact) { this.contact = contact; } /** * Gets the n2 and n4 layer font. * * @return the n2 and n4 layer font */ public Font getLayer2Font() { return this.layer2Font; } /** * Sets the n2 and n4 layer font. If the font size is zero, auto-fit will be * used. * * @param layer2Font * the n2 and n4 font */ public void setLayer2Font(Font layer2Font) { this.layer2Font = layer2Font; } /** * Gets the Acrobat 6.0 layer mode. * * @return the Acrobat 6.0 layer mode */ public boolean isAcro6Layers() { return this.acro6Layers; } /** * Acrobat 6.0 and higher recommends that only layer n2 and n4 be present. * This method sets that mode. * * @param acro6Layers * if true only the layers n2 and n4 will be present */ public void setAcro6Layers(boolean acro6Layers) { this.acro6Layers = acro6Layers; } /** * Sets the run direction in the n2 and n4 layer. * * @param runDirection * the run direction */ public void setRunDirection(int runDirection) { if (runDirection < PdfWriter.RUN_DIRECTION_DEFAULT || runDirection > PdfWriter.RUN_DIRECTION_RTL) throw new RuntimeException(MessageLocalization.getComposedMessage( "invalid.run.direction.1", runDirection)); this.runDirection = runDirection; } /** * Gets the run direction. * * @return the run direction */ public int getRunDirection() { return runDirection; } /** * Getter for property signatureEvent. * * @return Value of property signatureEvent. */ public SignatureEvent getSignatureEvent() { return this.signatureEvent; } /** * Sets the signature event to allow modification of the signature dictionary. * * @param signatureEvent * the signature event */ public void setSignatureEvent(SignatureEvent signatureEvent) { this.signatureEvent = signatureEvent; } /** * Gets the background image for the layer 2. * * @return the background image for the layer 2 */ public Image getImage() { return this.image; } /** * Sets the background image for the layer 2. * * @param image * the background image for the layer 2 */ public void setImage(Image image) { this.image = image; } /** * Gets the scaling to be applied to the background image. * * @return the scaling to be applied to the background image */ public float getImageScale() { return this.imageScale; } /** * Sets the scaling to be applied to the background image. If it's zero the * image will fully fill the rectangle. If it's less than zero the image will * fill the rectangle but will keep the proportions. If it's greater than zero * that scaling will be applied. In any of the cases the image will always be * centered. It's zero by default. * * @param imageScale * the scaling to be applied to the background image */ public void setImageScale(float imageScale) { this.imageScale = imageScale; } /** * Commands to draw a yellow question mark in a stream content */ public static final String questionMark = "% DSUnknown\n" + "q\n" + "1 G\n" + "1 g\n" + "0.1 0 0 0.1 9 0 cm\n" + "0 J 0 j 4 M []0 d\n" + "1 i \n" + "0 g\n" + "313 292 m\n" + "313 404 325 453 432 529 c\n" + "478 561 504 597 504 645 c\n" + "504 736 440 760 391 760 c\n" + "286 760 271 681 265 626 c\n" + "265 625 l\n" + "100 625 l\n" + "100 828 253 898 381 898 c\n" + "451 898 679 878 679 650 c\n" + "679 555 628 499 538 435 c\n" + "488 399 467 376 467 292 c\n" + "313 292 l\n" + "h\n" + "308 214 170 -164 re\n" + "f\n" + "0.44 G\n" + "1.2 w\n" + "1 1 0.4 rg\n" + "287 318 m\n" + "287 430 299 479 406 555 c\n" + "451 587 478 623 478 671 c\n" + "478 762 414 786 365 786 c\n" + "260 786 245 707 239 652 c\n" + "239 651 l\n" + "74 651 l\n" + "74 854 227 924 355 924 c\n" + "425 924 653 904 653 676 c\n" + "653 581 602 525 512 461 c\n" + "462 425 441 402 441 318 c\n" + "287 318 l\n" + "h\n" + "282 240 170 -164 re\n" + "B\n" + "Q\n"; /** * Holds value of property contact. */ private String contact; /** * Holds value of property layer2Font. */ private Font layer2Font; /** * Holds value of property layer4Text. */ private String layer4Text; /** * Holds value of property acro6Layers. */ private boolean acro6Layers; /** * Holds value of property runDirection. */ private int runDirection = PdfWriter.RUN_DIRECTION_NO_BIDI; /** * Holds value of property signatureEvent. */ private SignatureEvent signatureEvent; /** * Holds value of property image. */ private Image image; /** * Holds value of property imageScale. */ private float imageScale; /** * */ private static class RangeStream extends InputStream { private final byte[] b = new byte[1]; private final RandomAccessFile raf; private final byte[] bout; private final long[] range; private long rangePosition = 0; private RangeStream(RandomAccessFile raf, byte[] bout, long[] range) { this.raf = raf; this.bout = bout; this.range = range; } /** * @see java.io.InputStream#read() */ @Override public int read() throws IOException { int n = read(b); if (n != 1) return -1; return b[0] & 0xff; } /** * @see java.io.InputStream#read(byte[], int, int) */ @Override public int read(byte[] b, int off, int len) throws IOException { if (b == null) { throw new NullPointerException(); } else if ((off < 0) || (off > b.length) || (len < 0) || ((off + len) > b.length) || ((off + len) < 0)) { throw new IndexOutOfBoundsException(); } else if (len == 0) { return 0; } if (rangePosition >= range[range.length - 2] + range[range.length - 1]) { return -1; } for (int k = 0; k < range.length; k += 2) { long start = range[k]; long end = start; if (range.length > k + 1) { end = start + range[k + 1]; } if (rangePosition < start) { rangePosition = start; } if (rangePosition < end) { int lenf = (int) Math.min(len, end - rangePosition); if (raf == null) { System.arraycopy(bout, (int) rangePosition, b, off, lenf); }else { raf.seek(rangePosition); raf.readFully(b, off, lenf); } rangePosition += lenf; return lenf; } } return -1; } } /** * An interface to retrieve the signature dictionary for modification. */ public interface SignatureEvent { /** * Allows modification of the signature dictionary. * * @param sig * the signature dictionary */ void getSignatureDictionary(PdfDictionary sig); } private int certificationLevel = NOT_CERTIFIED; /** * Gets the certified status of this document. * * @return the certified status */ public int getCertificationLevel() { return this.certificationLevel; } /** * Sets the document type to certified instead of simply signed. * * @param certificationLevel * the values can be: NOT_CERTIFIED, * CERTIFIED_NO_CHANGES_ALLOWED, * CERTIFIED_FORM_FILLING and * CERTIFIED_FORM_FILLING_AND_ANNOTATIONS */ public void setCertificationLevel(int certificationLevel) { this.certificationLevel = certificationLevel; } }





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