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The Bouncy Castle Crypto package is a Java implementation of cryptographic algorithms. This jar contains JCE provider for the Bouncy Castle Cryptography APIs for JDK 1.5 to JDK 1.7.

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package org.spongycastle.crypto.examples;

import java.io.BufferedInputStream;
import java.io.BufferedOutputStream;
import java.io.BufferedReader;
import java.io.FileInputStream;
import java.io.FileNotFoundException;
import java.io.FileOutputStream;
import java.io.IOException;
import java.io.InputStreamReader;
import java.security.SecureRandom;

import org.spongycastle.crypto.CryptoException;
import org.spongycastle.crypto.KeyGenerationParameters;
import org.spongycastle.crypto.engines.DESedeEngine;
import org.spongycastle.crypto.generators.DESedeKeyGenerator;
import org.spongycastle.crypto.modes.CBCBlockCipher;
import org.spongycastle.crypto.paddings.PaddedBufferedBlockCipher;
import org.spongycastle.crypto.params.DESedeParameters;
import org.spongycastle.crypto.params.KeyParameter;
import org.spongycastle.util.encoders.Hex;

/**
 * DESExample is a simple DES based encryptor/decryptor.
 * 

* The program is command line driven, with the input * and output files specified on the command line. *

 * java org.spongycastle.crypto.examples.DESExample infile outfile [keyfile]
 * 
* A new key is generated for each encryption, if key is not specified, * then the example will assume encryption is required, and as output * create deskey.dat in the current directory. This key is a hex * encoded byte-stream that is used for the decryption. The output * file is Hex encoded, 60 characters wide text file. *

* When encrypting; *

    *
  • the infile is expected to be a byte stream (text or binary) *
  • there is no keyfile specified on the input line *
*

* When decrypting; *

  • the infile is expected to be the 60 character wide base64 * encoded file *
  • the keyfile is expected to be a base64 encoded file *

    * This example shows how to use the light-weight API, DES and * the filesystem for message encryption and decryption. * */ public class DESExample extends Object { // Encrypting or decrypting ? private boolean encrypt = true; // To hold the initialised DESede cipher private PaddedBufferedBlockCipher cipher = null; // The input stream of bytes to be processed for encryption private BufferedInputStream in = null; // The output stream of bytes to be procssed private BufferedOutputStream out = null; // The key private byte[] key = null; /* * start the application */ public static void main(String[] args) { boolean encrypt = true; String infile = null; String outfile = null; String keyfile = null; if (args.length < 2) { DESExample de = new DESExample(); System.err.println("Usage: java "+de.getClass().getName()+ " infile outfile [keyfile]"); System.exit(1); } keyfile = "deskey.dat"; infile = args[0]; outfile = args[1]; if (args.length > 2) { encrypt = false; keyfile = args[2]; } DESExample de = new DESExample(infile, outfile, keyfile, encrypt); de.process(); } // Default constructor, used for the usage message public DESExample() { } /* * Constructor, that takes the arguments appropriate for * processing the command line directives. */ public DESExample( String infile, String outfile, String keyfile, boolean encrypt) { /* * First, determine that infile & keyfile exist as appropriate. * * This will also create the BufferedInputStream as required * for reading the input file. All input files are treated * as if they are binary, even if they contain text, it's the * bytes that are encrypted. */ this.encrypt = encrypt; try { in = new BufferedInputStream(new FileInputStream(infile)); } catch (FileNotFoundException fnf) { System.err.println("Input file not found ["+infile+"]"); System.exit(1); } try { out = new BufferedOutputStream(new FileOutputStream(outfile)); } catch (IOException fnf) { System.err.println("Output file not created ["+outfile+"]"); System.exit(1); } if (encrypt) { try { /* * The process of creating a new key requires a * number of steps. * * First, create the parameters for the key generator * which are a secure random number generator, and * the length of the key (in bits). */ SecureRandom sr = null; try { sr = new SecureRandom(); /* * This following call to setSeed() makes the * initialisation of the SecureRandom object * _very_ fast, but not secure AT ALL. * * Remove the line, recreate the class file and * then run DESExample again to see the difference. * * The initialisation of a SecureRandom object * can take 5 or more seconds depending on the * CPU that the program is running on. That can * be annoying during unit testing. * -- jon */ sr.setSeed("www.spongycastle.org".getBytes()); } catch (Exception nsa) { System.err.println("Hmmm, no SHA1PRNG, you need the "+ "Sun implementation"); System.exit(1); } KeyGenerationParameters kgp = new KeyGenerationParameters( sr, DESedeParameters.DES_EDE_KEY_LENGTH*8); /* * Second, initialise the key generator with the parameters */ DESedeKeyGenerator kg = new DESedeKeyGenerator(); kg.init(kgp); /* * Third, and finally, generate the key */ key = kg.generateKey(); /* * We can now output the key to the file, but first * hex encode the key so that we can have a look * at it with a text editor if we so desire */ BufferedOutputStream keystream = new BufferedOutputStream(new FileOutputStream(keyfile)); byte[] keyhex = Hex.encode(key); keystream.write(keyhex, 0, keyhex.length); keystream.flush(); keystream.close(); } catch (IOException createKey) { System.err.println("Could not decryption create key file "+ "["+keyfile+"]"); System.exit(1); } } else { try { // read the key, and decode from hex encoding BufferedInputStream keystream = new BufferedInputStream(new FileInputStream(keyfile)); int len = keystream.available(); byte[] keyhex = new byte[len]; keystream.read(keyhex, 0, len); key = Hex.decode(keyhex); } catch (IOException ioe) { System.err.println("Decryption key file not found, "+ "or not valid ["+keyfile+"]"); System.exit(1); } } } private void process() { /* * Setup the DESede cipher engine, create a PaddedBufferedBlockCipher * in CBC mode. */ cipher = new PaddedBufferedBlockCipher( new CBCBlockCipher(new DESedeEngine())); /* * The input and output streams are currently set up * appropriately, and the key bytes are ready to be * used. * */ if (encrypt) { performEncrypt(key); } else { performDecrypt(key); } // after processing clean up the files try { in.close(); out.flush(); out.close(); } catch (IOException closing) { } } /* * This method performs all the encryption and writes * the cipher text to the buffered output stream created * previously. */ private void performEncrypt(byte[] key) { // initialise the cipher with the key bytes, for encryption cipher.init(true, new KeyParameter(key)); /* * Create some temporary byte arrays for use in * encryption, make them a reasonable size so that * we don't spend forever reading small chunks from * a file. * * There is no particular reason for using getBlockSize() * to determine the size of the input chunk. It just * was a convenient number for the example. */ // int inBlockSize = cipher.getBlockSize() * 5; int inBlockSize = 47; int outBlockSize = cipher.getOutputSize(inBlockSize); byte[] inblock = new byte[inBlockSize]; byte[] outblock = new byte[outBlockSize]; /* * now, read the file, and output the chunks */ try { int inL; int outL; byte[] rv = null; while ((inL=in.read(inblock, 0, inBlockSize)) > 0) { outL = cipher.processBytes(inblock, 0, inL, outblock, 0); /* * Before we write anything out, we need to make sure * that we've got something to write out. */ if (outL > 0) { rv = Hex.encode(outblock, 0, outL); out.write(rv, 0, rv.length); out.write('\n'); } } try { /* * Now, process the bytes that are still buffered * within the cipher. */ outL = cipher.doFinal(outblock, 0); if (outL > 0) { rv = Hex.encode(outblock, 0, outL); out.write(rv, 0, rv.length); out.write('\n'); } } catch (CryptoException ce) { } } catch (IOException ioeread) { ioeread.printStackTrace(); } } /* * This method performs all the decryption and writes * the plain text to the buffered output stream created * previously. */ private void performDecrypt(byte[] key) { // initialise the cipher for decryption cipher.init(false, new KeyParameter(key)); /* * As the decryption is from our preformatted file, * and we know that it's a hex encoded format, then * we wrap the InputStream with a BufferedReader * so that we can read it easily. */ BufferedReader br = new BufferedReader(new InputStreamReader(in)); /* * now, read the file, and output the chunks */ try { int outL; byte[] inblock = null; byte[] outblock = null; String rv = null; while ((rv = br.readLine()) != null) { inblock = Hex.decode(rv); outblock = new byte[cipher.getOutputSize(inblock.length)]; outL = cipher.processBytes(inblock, 0, inblock.length, outblock, 0); /* * Before we write anything out, we need to make sure * that we've got something to write out. */ if (outL > 0) { out.write(outblock, 0, outL); } } try { /* * Now, process the bytes that are still buffered * within the cipher. */ outL = cipher.doFinal(outblock, 0); if (outL > 0) { out.write(outblock, 0, outL); } } catch (CryptoException ce) { } } catch (IOException ioeread) { ioeread.printStackTrace(); } } }





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