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The Bouncy Castle Crypto package is a Java implementation of cryptographic algorithms. This jar contains JCE provider and lightweight API for the Bouncy Castle Cryptography APIs for JDK 1.4.
package org.bouncycastle.crypto.engines;
import org.bouncycastle.crypto.BlockCipher;
import org.bouncycastle.crypto.CipherParameters;
import org.bouncycastle.crypto.InvalidCipherTextException;
import org.bouncycastle.crypto.Wrapper;
import org.bouncycastle.crypto.params.KeyParameter;
import org.bouncycastle.crypto.params.ParametersWithIV;
import org.bouncycastle.crypto.params.ParametersWithRandom;
import org.bouncycastle.util.Arrays;
import org.bouncycastle.util.Pack;
/**
* An implementation of the AES Key Wrap with Padding specification
* as described in RFC 5649.
*
* For details on the specification see:
* https://tools.ietf.org/html/rfc5649
*
*/
public class RFC5649WrapEngine
implements Wrapper
{
private BlockCipher engine;
private KeyParameter param;
private boolean forWrapping;
// The AIV as defined in the RFC
private byte[] highOrderIV = {(byte)0xa6, (byte)0x59, (byte)0x59, (byte)0xa6};
private byte[] preIV = highOrderIV;
private byte[] extractedAIV = null;
public RFC5649WrapEngine(BlockCipher engine)
{
this.engine = engine;
}
public void init(boolean forWrapping, CipherParameters param)
{
this.forWrapping = forWrapping;
if (param instanceof ParametersWithRandom)
{
param = ((ParametersWithRandom)param).getParameters();
}
if (param instanceof KeyParameter)
{
this.param = (KeyParameter)param;
}
else if (param instanceof ParametersWithIV)
{
this.preIV = ((ParametersWithIV)param).getIV();
this.param = (KeyParameter)((ParametersWithIV)param).getParameters();
if (this.preIV.length != 4)
{
throw new IllegalArgumentException("IV length not equal to 4");
}
}
}
public String getAlgorithmName()
{
return engine.getAlgorithmName();
}
/**
* Pads the plaintext (i.e., the key to be wrapped)
* as per section 4.1 of RFC 5649.
*
* @param plaintext The key being wrapped.
* @return The padded key.
*/
private byte[] padPlaintext(byte[] plaintext)
{
int plaintextLength = plaintext.length;
int numOfZerosToAppend = (8 - (plaintextLength % 8)) % 8;
byte[] paddedPlaintext = new byte[plaintextLength + numOfZerosToAppend];
System.arraycopy(plaintext, 0, paddedPlaintext, 0, plaintextLength);
if (numOfZerosToAppend != 0)
{
// plaintext (i.e., key to be wrapped) does not have
// a multiple of 8 octet blocks so it must be padded
byte[] zeros = new byte[numOfZerosToAppend];
System.arraycopy(zeros, 0, paddedPlaintext, plaintextLength, numOfZerosToAppend);
}
return paddedPlaintext;
}
public byte[] wrap(byte[] in, int inOff, int inLen)
{
if (!forWrapping)
{
throw new IllegalStateException("not set for wrapping");
}
byte[] iv = new byte[8];
// MLI = size of key to be wrapped
byte[] mli = Pack.intToBigEndian(inLen);
// copy in the fixed portion of the AIV
System.arraycopy(preIV, 0, iv, 0, preIV.length);
// copy in the MLI after the AIV
System.arraycopy(mli, 0, iv, preIV.length, mli.length);
// get the relevant plaintext to be wrapped
byte[] relevantPlaintext = new byte[inLen];
System.arraycopy(in, inOff, relevantPlaintext, 0, inLen);
byte[] paddedPlaintext = padPlaintext(relevantPlaintext);
if (paddedPlaintext.length == 8)
{
// if the padded plaintext contains exactly 8 octets,
// then prepend iv and encrypt using AES in ECB mode.
// prepend the IV to the plaintext
byte[] paddedPlainTextWithIV = new byte[paddedPlaintext.length + iv.length];
System.arraycopy(iv, 0, paddedPlainTextWithIV, 0, iv.length);
System.arraycopy(paddedPlaintext, 0, paddedPlainTextWithIV, iv.length, paddedPlaintext.length);
engine.init(true, param);
for (int i = 0; i < paddedPlainTextWithIV.length; i += engine.getBlockSize())
{
engine.processBlock(paddedPlainTextWithIV, i, paddedPlainTextWithIV, i);
}
return paddedPlainTextWithIV;
}
else
{
// otherwise, apply the RFC 3394 wrap to
// the padded plaintext with the new IV
Wrapper wrapper = new RFC3394WrapEngine(engine);
ParametersWithIV paramsWithIV = new ParametersWithIV(param, iv);
wrapper.init(true, paramsWithIV);
return wrapper.wrap(paddedPlaintext, 0, paddedPlaintext.length);
}
}
public byte[] unwrap(byte[] in, int inOff, int inLen)
throws InvalidCipherTextException
{
if (forWrapping)
{
throw new IllegalStateException("not set for unwrapping");
}
int n = inLen / 8;
if ((n * 8) != inLen)
{
throw new InvalidCipherTextException("unwrap data must be a multiple of 8 bytes");
}
if (n == 1)
{
throw new InvalidCipherTextException("unwrap data must be at least 16 bytes");
}
byte[] relevantCiphertext = new byte[inLen];
System.arraycopy(in, inOff, relevantCiphertext, 0, inLen);
byte[] decrypted = new byte[inLen];
byte[] paddedPlaintext;
if (n == 2)
{
// When there are exactly two 64-bit blocks of ciphertext,
// they are decrypted as a single block using AES in ECB.
engine.init(false, param);
for (int i = 0; i < relevantCiphertext.length; i += engine.getBlockSize())
{
engine.processBlock(relevantCiphertext, i, decrypted, i);
}
// extract the AIV
extractedAIV = new byte[8];
System.arraycopy(decrypted, 0, extractedAIV, 0, extractedAIV.length);
paddedPlaintext = new byte[decrypted.length - extractedAIV.length];
System.arraycopy(decrypted, extractedAIV.length, paddedPlaintext, 0, paddedPlaintext.length);
}
else
{
// Otherwise, unwrap as per RFC 3394 but don't check IV the same way
decrypted = rfc3394UnwrapNoIvCheck(in, inOff, inLen);
paddedPlaintext = decrypted;
}
// Decompose the extracted AIV to the fixed portion and the MLI
byte[] extractedHighOrderAIV = new byte[4];
byte[] mliBytes = new byte[4];
System.arraycopy(extractedAIV, 0, extractedHighOrderAIV, 0, extractedHighOrderAIV.length);
System.arraycopy(extractedAIV, extractedHighOrderAIV.length, mliBytes, 0, mliBytes.length);
int mli = Pack.bigEndianToInt(mliBytes, 0);
// Even if a check fails we still continue and check everything
// else in order to avoid certain timing based side-channel attacks.
boolean isValid = true;
// Check the fixed portion of the AIV
if (!Arrays.constantTimeAreEqual(extractedHighOrderAIV, preIV))
{
isValid = false;
}
// Check the MLI against the actual length
int upperBound = paddedPlaintext.length;
int lowerBound = upperBound - 8;
if (mli <= lowerBound)
{
isValid = false;
}
if (mli > upperBound)
{
isValid = false;
}
// Check the number of padded zeros
int expectedZeros = upperBound - mli;
if (expectedZeros >= paddedPlaintext.length)
{
isValid = false;
expectedZeros = paddedPlaintext.length;
}
byte[] zeros = new byte[expectedZeros];
byte[] pad = new byte[expectedZeros];
System.arraycopy(paddedPlaintext, paddedPlaintext.length - expectedZeros, pad, 0, expectedZeros);
if (!Arrays.constantTimeAreEqual(pad, zeros))
{
isValid = false;
}
if (!isValid)
{
throw new InvalidCipherTextException("checksum failed");
}
// Extract the plaintext from the padded plaintext
byte[] plaintext = new byte[mli];
System.arraycopy(paddedPlaintext, 0, plaintext, 0, plaintext.length);
return plaintext;
}
/**
* Performs steps 1 and 2 of the unwrap process defined in RFC 3394.
* This code is duplicated from RFC3394WrapEngine because that class
* will throw an error during unwrap because the IV won't match up.
*
* @param in
* @param inOff
* @param inLen
* @return Unwrapped data.
*/
private byte[] rfc3394UnwrapNoIvCheck(byte[] in, int inOff, int inLen)
{
byte[] iv = new byte[8];
byte[] block = new byte[inLen - iv.length];
byte[] a = new byte[iv.length];
byte[] buf = new byte[8 + iv.length];
System.arraycopy(in, inOff, a, 0, iv.length);
System.arraycopy(in, inOff + iv.length, block, 0, inLen - iv.length);
engine.init(false, param);
int n = inLen / 8;
n = n - 1;
for (int j = 5; j >= 0; j--)
{
for (int i = n; i >= 1; i--)
{
System.arraycopy(a, 0, buf, 0, iv.length);
System.arraycopy(block, 8 * (i - 1), buf, iv.length, 8);
int t = n * j + i;
for (int k = 1; t != 0; k++)
{
byte v = (byte)t;
buf[iv.length - k] ^= v;
t >>>= 8;
}
engine.processBlock(buf, 0, buf, 0);
System.arraycopy(buf, 0, a, 0, 8);
System.arraycopy(buf, 8, block, 8 * (i - 1), 8);
}
}
// set the extracted AIV
extractedAIV = a;
return block;
}
}
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