256bit AES/CBC/PKCS5Padding with Bouncy Castle
I am having trouble mapping the following JDK JCE encryption code to Bouncy Castles Light-weight API:
public String dec(String password, String salt, String encString) throws Throwable {
// AES algorithm with CBC cipher and PKCS5 padding
Cipher cipher = Cipher.getInstance("AES/CBC/PKCS5Padding", "BC");
// Construct AES key from salt and 50 iterations
PBEKeySpec pbeEKeySpec = new PBEKeySpec(password.toCharArray(), toByte(salt), 50, 256);
SecretKeyFactory keyFactory = SecretKeyFactory.getInstance("PBEWithSHA256And256BitAES-CBC-BC");
SecretKeySpec secretKey = new SecretKeySpec(keyFactory.generateSecret(pbeEKeySpec).getEncoded(), "AES");
// IV seed for first block taken from first 32 bytes
byte[] ivData = toByte(encString.substring(0, 32));
// AES encrypted data
byte[] encData = toByte(encString.substring(32));
cipher.init( Cipher.DECRYPT_MODE, secretKey, new IvParameterSpec( ivData ) );
return new String( cipher.doFinal( encData ) );
}
The above works great, but is not very portable due to Oracle's restriction on encryption strengths. I've made several attempts at porting to Bouncy Castles Light-weight API but without success.
public String decrypt1(String password, String salt, String encString) throws Exception {
byte[] ivData = toByte(encString.substring(0, 32));
byte[] encData = toByte(encString.substring(32));
PKCS12ParametersGenerator gen = new PKCS12ParametersGenerator(new SHA256Digest());
gen.init(password.getBytes(), toByte(salt), 50);
CBCBlockCipher cbcBlockcipher = new CBCBlockCipher(new RijndaelEngine(256));
CipherParameters params = gen.generateDerivedParameters(256, 256);
cbcBlockcipher.init(false, params);
PaddedBufferedBlockCipher aesCipher = new PaddedBufferedBlockCipher(cbcBlockcipher, new PKCS7Padding());
byte[] plainTemp = new byte[aesCipher.getOutputSize(encData.length)];
int offset = aesCipher.processBytes(encData, 0, encData.length, plainTemp, 0);
int last = aesCipher.doFinal(plainTemp, offset);
byte[] plain = new byte[offset + last];
System.arraycopy(plainTemp, 0, plain, 0, plain.length);
return new String(plain);
}
The above attempt results in a org.bouncycastle.crypto.DataLengthException: last block incomplete in decryption.
I have searched for examples online, but there isn't many examples of providing your own IV data for 256bit AES with CBC using PKCS5/PKCS7 as padding.
NB: The toByte function converts a String into a byte array using base64 or similar.
Answer
This should work for you:
public String dec(String password, String salt, String encString)
throws Exception {
byte[] ivData = toByte(encString.substring(0, 32));
byte[] encData = toByte(encString.substring(32));
// get raw key from password and salt
PBEKeySpec pbeKeySpec = new PBEKeySpec(password.toCharArray(),
toByte(salt), 50, 256);
SecretKeyFactory keyFactory = SecretKeyFactory
.getInstance("PBEWithSHA256And256BitAES-CBC-BC");
SecretKeySpec secretKey = new SecretKeySpec(keyFactory.generateSecret(
pbeKeySpec).getEncoded(), "AES");
byte[] key = secretKey.getEncoded();
// setup cipher parameters with key and IV
KeyParameter keyParam = new KeyParameter(key);
CipherParameters params = new ParametersWithIV(keyParam, ivData);
// setup AES cipher in CBC mode with PKCS7 padding
BlockCipherPadding padding = new PKCS7Padding();
BufferedBlockCipher cipher = new PaddedBufferedBlockCipher(
new CBCBlockCipher(new AESEngine()), padding);
cipher.reset();
cipher.init(false, params);
// create a temporary buffer to decode into (it'll include padding)
byte[] buf = new byte[cipher.getOutputSize(encData.length)];
int len = cipher.processBytes(encData, 0, encData.length, buf, 0);
len += cipher.doFinal(buf, len);
// remove padding
byte[] out = new byte[len];
System.arraycopy(buf, 0, out, 0, len);
// return string representation of decoded bytes
return new String(out, "UTF-8");
}
I assume that you're actually doing hex encoding for toByte() since your code uses 32 characters for the IV (which provides the necessary 16 bytes). While I don't have the code you used to do the encryption, I did verify that this code will give the same decrypted output as your code.