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PDF renderer implementation supporting the subset of PDF 1.4 specification.
The newest version!
/*
* Copyright 2008 Pirion Systems Pty Ltd, 139 Warry St,
* Fortitude Valley, Queensland, Australia
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
package com.sun.pdfview.decrypt;
import com.sun.pdfview.PDFDocCharsetEncoder;
import com.sun.pdfview.Identity8BitCharsetEncoder;
import com.sun.pdfview.PDFStringUtil;
import java.util.*;
import java.nio.charset.CodingErrorAction;
import java.nio.charset.CharacterCodingException;
import java.nio.charset.CharsetEncoder;
import java.nio.CharBuffer;
import java.nio.ByteBuffer;
/**
* Identifies a PDF Password, expressible either as a string or a
* byte sequence.
*
* In revisions up to version 1.e Expansion 3, the mapping between a string
* and the bytes corresponding to the password was poorly specified, meaning
* that the safest manner in which to specify a password was via a byte array.
* With 1.7 expansion 3, a still slightly problematic mapping was given for the
* Standard encryption algorithms through to version 4, and a very well
* specified mapping for the new version 5 encryption.
*
* So, for passwords specified in versions up to and including 4, a byte[]
* representation is the most accurate, but not necessarily the most convenient
* manner to provide passwords. For version 5, allowing passwords to be
* specified as Strings will be the preferred mechanism. Rather than specify two
* interfaces whenever a password can be provided - one for byte[] and one for
* String - we express the password as a class. This class can also offer a best
* guess at a String representation for a password for encryption versions up to
* and including 4.
*
* @author Luke Kirby
*/
public class PDFPassword {
/** The empty password */
public static final PDFPassword EMPTY_PASSWORD =
new PDFPassword(new byte[0]);
/**
* Ensure a non-null PDFPassword by substituting the empty password
* for a null password
* @param password the password, may be null
* @return a non-null password
*/
public static PDFPassword nonNullPassword(PDFPassword password) {
return password != null ? password : EMPTY_PASSWORD;
}
/** the password in bytes, if specified as such */
private byte[] passwordBytes = null;
/** the passwird as a string, if specified as such */
private String passwordString = null;
/**
* Construct a byte-based password
* @param passwordBytes the password bytes
*/
public PDFPassword(byte[] passwordBytes) {
this.passwordBytes =
passwordBytes != null ? passwordBytes : new byte[0];
}
/**
* Construct a string-based password
* @param passwordString the password
*/
public PDFPassword(String passwordString) {
this.passwordString = passwordString != null ? passwordString : "";
}
/**
* Get the password bytes.
*
* @param unicodeConversion whether the specific conversion from a unicode
* String, as present for version 5 encryption, should be used
* @return a list of possible password bytes
*/
List getPasswordBytes(boolean unicodeConversion) {
// TODO - handle unicodeConversion when we support version 5
if (this.passwordBytes != null || this.passwordString == null) {
return Collections.singletonList(this.passwordBytes);
} else {
if (isAlphaNum7BitString(this.passwordString)) {
// there's no reasonthat this string would get encoded
// in any other way
return Collections.singletonList(
PDFStringUtil.asBytes(passwordString));
} else {
return generatePossiblePasswordBytes(passwordString);
}
}
}
/**
* An array of password byte generators that attempts to enumerate the
* possible strategies that an encrypting application might take to convert
* a string to an array of bytes
*/
private final static PasswordByteGenerator[] PASSWORD_BYTE_GENERATORS =
new PasswordByteGenerator[]{
// The best option, and that recommended by the spec, is
// straight PDFDocEncoding of the string but its not
// mentioned what to do with undefined characters
// (presumably, an encryption generating app should not
// allow them, but there are no guarantees!). Plus, that
// hasn't always been the case. There's also a possiblity
// that we'll be presented with the byte encoding from
// whatever code page is default on the system that
// generated the password. I don't think we're going to try
// all different code pages, though. Here are
// a few ideas, anyway!
// skip undefined chars
new PDFDocEncodingByteGenerator(null),
// replace undefined chars with 0
new PDFDocEncodingByteGenerator(Byte.valueOf((byte) 0)),
// replace undefined chars with ?
new PDFDocEncodingByteGenerator(Byte.valueOf((byte) '?')),
// just strip the higher 8 bits!
new PasswordByteGenerator() {
public byte[] generateBytes(String password) {
return PDFStringUtil.asBytes(password);
}
},
// skip 2-byte chars
new IdentityEncodingByteGenerator(null),
// replace 2-byte chars with 0
new IdentityEncodingByteGenerator(Byte.valueOf((byte) 0)),
// replace 2-byte chars with ?
new IdentityEncodingByteGenerator(Byte.valueOf((byte) '?'))
};
/**
* Generate some possible byte representations of a string password
*
* @param passwordString the string password
* @return a list of unique possible byte representations
*/
private static List generatePossiblePasswordBytes(
String passwordString) {
final List possibilties = new ArrayList();
for (final PasswordByteGenerator generator : PASSWORD_BYTE_GENERATORS) {
byte[] generated = generator.generateBytes(passwordString);
// avoid duplicates
boolean alreadyGenerated = false;
for (int i = 0; !alreadyGenerated && i < possibilties.size(); ++i) {
if (Arrays.equals(possibilties.get(i), generated)) {
alreadyGenerated = true;
}
}
if (!alreadyGenerated) {
possibilties.add(generated);
}
}
return possibilties;
}
private boolean isAlphaNum7BitString(String string) {
for (int i = 0; i < string.length(); ++i) {
final char c = string.charAt(i);
if (c >= 127 || !Character.isLetterOrDigit(c)) {
return false;
}
}
return true;
}
/**
* Converts a string password to a byte[] representation
*/
private static interface PasswordByteGenerator {
byte[] generateBytes(String password);
}
/**
* Converts strings to byte by employing a {@link CharsetEncoder} and a
* configurable mechanism to replace or ignore characters that are
* unrepresentable according to the encoder.
*/
private static abstract class CharsetEncoderGenerator
implements PasswordByteGenerator {
private Byte replacementByte;
/**
* Class constructor
*
* @param replacementByte the byte to replace to use to represent any
* unrepresentable character, or null if unrepresentable characters
* should just be ignored
*/
protected CharsetEncoderGenerator(Byte replacementByte) {
this.replacementByte = replacementByte;
}
public byte[] generateBytes(String password) {
final CharsetEncoder encoder = createCharsetEncoder();
if (replacementByte != null) {
encoder.replaceWith(new byte[]{replacementByte});
encoder.onUnmappableCharacter(CodingErrorAction.REPLACE);
} else {
encoder.onUnmappableCharacter(CodingErrorAction.IGNORE);
}
try {
final ByteBuffer b = encoder.encode(CharBuffer.wrap(password));
final byte[] bytes = new byte[b.remaining()];
b.get(bytes);
return bytes;
} catch (CharacterCodingException e) {
// shouldn't happen: unmappable characters should be the only
// problem, and we're not handling them with a report
return null;
}
}
protected abstract CharsetEncoder createCharsetEncoder();
}
/**
* Generate byte[] representations based on the PDFDocEncoding
*/
private static class PDFDocEncodingByteGenerator
extends CharsetEncoderGenerator {
private PDFDocEncodingByteGenerator(Byte replacementByte) {
super(replacementByte);
}
protected CharsetEncoder createCharsetEncoder() {
return new PDFDocCharsetEncoder();
}
}
/**
* Generate byte[] representations based on a Unicode code point identity
* encoding; characters over 255 in value are considered unrepresentable
*/
private static class IdentityEncodingByteGenerator
extends CharsetEncoderGenerator {
private IdentityEncodingByteGenerator(Byte replacementByte) {
super(replacementByte);
}
protected CharsetEncoder createCharsetEncoder() {
return new Identity8BitCharsetEncoder();
}
}
}