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package com.bouncycastle.crypto.encodings;

import java.security.AccessController;
import java.security.PrivilegedAction;
import java.security.SecureRandom;

import com.bouncycastle.crypto.AsymmetricBlockCipher;
import com.bouncycastle.crypto.CipherParameters;
import com.bouncycastle.crypto.InvalidCipherTextException;
import com.bouncycastle.crypto.params.AsymmetricKeyParameter;
import com.bouncycastle.crypto.params.ParametersWithRandom;

/**
 * this does your basic PKCS 1 v1.5 padding - whether or not you should be using this
 * depends on your application - see PKCS1 Version 2 for details.
 */
public class PKCS1Encoding
    implements AsymmetricBlockCipher
{
    /**
     * some providers fail to include the leading zero in PKCS1 encoded blocks. If you need to
     * work with one of these set the system property org.bouncycastle.pkcs1.strict to false.
     * 

* The system property is checked during construction of the encoding object, it is set to * true by default. *

*/ public static final String STRICT_LENGTH_ENABLED_PROPERTY = "org.bouncycastle.pkcs1.strict"; private static final int HEADER_LENGTH = 10; private SecureRandom random; private AsymmetricBlockCipher engine; private boolean forEncryption; private boolean forPrivateKey; private boolean useStrictLength; /** * Basic constructor. * @param cipher */ public PKCS1Encoding( AsymmetricBlockCipher cipher) { this.engine = cipher; this.useStrictLength = useStrict(); } // // for J2ME compatibility // private boolean useStrict() { // required if security manager has been installed. String strict = (String)AccessController.doPrivileged(new PrivilegedAction() { public Object run() { return System.getProperty(STRICT_LENGTH_ENABLED_PROPERTY); } }); return strict == null || strict.equals("true"); } public AsymmetricBlockCipher getUnderlyingCipher() { return engine; } public void init( boolean forEncryption, CipherParameters param) { AsymmetricKeyParameter kParam; if (param instanceof ParametersWithRandom) { ParametersWithRandom rParam = (ParametersWithRandom)param; this.random = rParam.getRandom(); kParam = (AsymmetricKeyParameter)rParam.getParameters(); } else { this.random = new SecureRandom(); kParam = (AsymmetricKeyParameter)param; } engine.init(forEncryption, param); this.forPrivateKey = kParam.isPrivate(); this.forEncryption = forEncryption; } public int getInputBlockSize() { int baseBlockSize = engine.getInputBlockSize(); if (forEncryption) { return baseBlockSize - HEADER_LENGTH; } else { return baseBlockSize; } } public int getOutputBlockSize() { int baseBlockSize = engine.getOutputBlockSize(); if (forEncryption) { return baseBlockSize; } else { return baseBlockSize - HEADER_LENGTH; } } public byte[] processBlock( byte[] in, int inOff, int inLen) throws InvalidCipherTextException { if (forEncryption) { return encodeBlock(in, inOff, inLen); } else { return decodeBlock(in, inOff, inLen); } } private byte[] encodeBlock( byte[] in, int inOff, int inLen) throws InvalidCipherTextException { if (inLen > getInputBlockSize()) { throw new IllegalArgumentException("input data too large"); } byte[] block = new byte[engine.getInputBlockSize()]; if (forPrivateKey) { block[0] = 0x01; // type code 1 for (int i = 1; i != block.length - inLen - 1; i++) { block[i] = (byte)0xFF; } } else { random.nextBytes(block); // random fill block[0] = 0x02; // type code 2 // // a zero byte marks the end of the padding, so all // the pad bytes must be non-zero. // for (int i = 1; i != block.length - inLen - 1; i++) { while (block[i] == 0) { block[i] = (byte)random.nextInt(); } } } block[block.length - inLen - 1] = 0x00; // mark the end of the padding System.arraycopy(in, inOff, block, block.length - inLen, inLen); return engine.processBlock(block, 0, block.length); } /** * @exception InvalidCipherTextException if the decrypted block is not in PKCS1 format. */ private byte[] decodeBlock( byte[] in, int inOff, int inLen) throws InvalidCipherTextException { byte[] block = engine.processBlock(in, inOff, inLen); if (block.length < getOutputBlockSize()) { throw new InvalidCipherTextException("block truncated"); } byte type = block[0]; if (type != 1 && type != 2) { throw new InvalidCipherTextException("unknown block type"); } if (useStrictLength && block.length != engine.getOutputBlockSize()) { throw new InvalidCipherTextException("block incorrect size"); } // // find and extract the message block. // int start; for (start = 1; start != block.length; start++) { byte pad = block[start]; if (pad == 0) { break; } if (type == 1 && pad != (byte)0xff) { throw new InvalidCipherTextException("block padding incorrect"); } } start++; // data should start at the next byte if (start > block.length || start < HEADER_LENGTH) { throw new InvalidCipherTextException("no data in block"); } byte[] result = new byte[block.length - start]; System.arraycopy(block, start, result, 0, result.length); return result; } }




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